,source,target 0,"CWE-119 int vp8_denoiser_filter_neon ( YV12_BUFFER_CONFIG * mc_running_avg , YV12_BUFFER_CONFIG * running_avg , MACROBLOCK * signal , unsigned int motion_magnitude , int y_offset , int uv_offset ) { const uint8x16_t v_level1_adjustment = vdupq_n_u8 ( ( motion_magnitude <= MOTION_MAGNITUDE_THRESHOLD ) ? 4 : 3 ) ; const uint8x16_t v_delta_level_1_and_2 = vdupq_n_u8 ( 1 ) ; const uint8x16_t v_delta_level_2_and_3 = vdupq_n_u8 ( 2 ) ; const uint8x16_t v_level1_threshold = vdupq_n_u8 ( 4 ) ; const uint8x16_t v_level2_threshold = vdupq_n_u8 ( 8 ) ; const uint8x16_t v_level3_threshold = vdupq_n_u8 ( 16 ) ; unsigned char * sig = signal -> thismb ; int sig_stride = 16 ; unsigned char * mc_running_avg_y = mc_running_avg -> y_buffer + y_offset ; int mc_running_avg_y_stride = mc_running_avg -> y_stride ; unsigned char * running_avg_y = running_avg -> y_buffer + y_offset ; int running_avg_y_stride = running_avg -> y_stride ; int i ; int sum_diff = 0 ; for ( i = 0 ; i < 16 ; ++ i ) { int8x16_t v_sum_diff = vdupq_n_s8 ( 0 ) ; uint8x16_t v_running_avg_y ; const uint8x16_t v_sig = vld1q_u8 ( sig ) ; const uint8x16_t v_mc_running_avg_y = vld1q_u8 ( mc_running_avg_y ) ; const uint8x16_t v_abs_diff = vabdq_u8 ( v_sig , v_mc_running_avg_y ) ; const uint8x16_t v_diff_pos_mask = vcltq_u8 ( v_sig , v_mc_running_avg_y ) ; const uint8x16_t v_diff_neg_mask = vcgtq_u8 ( v_sig , v_mc_running_avg_y ) ; const uint8x16_t v_level1_mask = vcleq_u8 ( v_level1_threshold , v_abs_diff ) ; const uint8x16_t v_level2_mask = vcleq_u8 ( v_level2_threshold , v_abs_diff ) ; const uint8x16_t v_level3_mask = vcleq_u8 ( v_level3_threshold , v_abs_diff ) ; const uint8x16_t v_level2_adjustment = vandq_u8 ( v_level2_mask , v_delta_level_1_and_2 ) ; const uint8x16_t v_level3_adjustment = vandq_u8 ( v_level3_mask , v_delta_level_2_and_3 ) ; const uint8x16_t v_level1and2_adjustment = vaddq_u8 ( v_level1_adjustment , v_level2_adjustment ) ; const uint8x16_t v_level1and2and3_adjustment = vaddq_u8 ( v_level1and2_adjustment , v_level3_adjustment ) ; const uint8x16_t v_abs_adjustment = vbslq_u8 ( v_level1_mask , v_level1and2and3_adjustment , v_abs_diff ) ; const uint8x16_t v_pos_adjustment = vandq_u8 ( v_diff_pos_mask , v_abs_adjustment ) ; const uint8x16_t v_neg_adjustment = vandq_u8 ( v_diff_neg_mask , v_abs_adjustment ) ; v_running_avg_y = vqaddq_u8 ( v_sig , v_pos_adjustment ) ; v_running_avg_y = vqsubq_u8 ( v_running_avg_y , v_neg_adjustment ) ; v_sum_diff = vqaddq_s8 ( v_sum_diff , vreinterpretq_s8_u8 ( v_pos_adjustment ) ) ; v_sum_diff = vqsubq_s8 ( v_sum_diff , vreinterpretq_s8_u8 ( v_neg_adjustment ) ) ; vst1q_u8 ( running_avg_y , v_running_avg_y ) ; { int s0 = vgetq_lane_s8 ( v_sum_diff , 0 ) + vgetq_lane_s8 ( v_sum_diff , 1 ) + vgetq_lane_s8 ( v_sum_diff , 2 ) + vgetq_lane_s8 ( v_sum_diff , 3 ) ; int s1 = vgetq_lane_s8 ( v_sum_diff , 4 ) + vgetq_lane_s8 ( v_sum_diff , 5 ) + vgetq_lane_s8 ( v_sum_diff , 6 ) + vgetq_lane_s8 ( v_sum_diff , 7 ) ; int s2 = vgetq_lane_s8 ( v_sum_diff , 8 ) + vgetq_lane_s8 ( v_sum_diff , 9 ) + vgetq_lane_s8 ( v_sum_diff , 10 ) + vgetq_lane_s8 ( v_sum_diff , 11 ) ; int s3 = vgetq_lane_s8 ( v_sum_diff , 12 ) + vgetq_lane_s8 ( v_sum_diff , 13 ) + vgetq_lane_s8 ( v_sum_diff , 14 ) + vgetq_lane_s8 ( v_sum_diff , 15 ) ; sum_diff += s0 + s1 + s2 + s3 ; } sig += sig_stride ; mc_running_avg_y += mc_running_avg_y_stride ; running_avg_y += running_avg_y_stride ; } if ( abs ( sum_diff ) > SUM_DIFF_THRESHOLD ) return COPY_BLOCK ; vp8_copy_mem16x16 ( running_avg -> y_buffer + y_offset , running_avg_y_stride , signal -> thismb , sig_stride ) ; return FILTER_BLOCK ; }","int vp8_denoiser_filter_neon ( unsigned char * mc_running_avg_y , int mc_running_avg_y_stride , unsigned char * running_avg_y , int running_avg_y_stride , unsigned char * sig , int sig_stride , unsigned int motion_magnitude , int increase_denoising ) { int shift_inc = ( increase_denoising && motion_magnitude <= MOTION_MAGNITUDE_THRESHOLD ) ? 1 : 0 ; const uint8x16_t v_level1_adjustment = vmovq_n_u8 ( ( motion_magnitude <= MOTION_MAGNITUDE_THRESHOLD ) ? 4 + shift_inc : 3 ) ; const uint8x16_t v_delta_level_1_and_2 = vdupq_n_u8 ( 1 ) ; const uint8x16_t v_delta_level_2_and_3 = vdupq_n_u8 ( 2 ) ; const uint8x16_t v_level1_threshold = vmovq_n_u8 ( 4 + shift_inc ) ; const uint8x16_t v_level2_threshold = vdupq_n_u8 ( 8 ) ; const uint8x16_t v_level3_threshold = vdupq_n_u8 ( 16 ) ; int64x2_t v_sum_diff_total = vdupq_n_s64 ( 0 ) ; int r ; for ( r = 0 ; r < 16 ; ++ r ) { const uint8x16_t v_sig = vld1q_u8 ( sig ) ; const uint8x16_t v_mc_running_avg_y = vld1q_u8 ( mc_running_avg_y ) ; const uint8x16_t v_abs_diff = vabdq_u8 ( v_sig , v_mc_running_avg_y ) ; const uint8x16_t v_diff_pos_mask = vcltq_u8 ( v_sig , v_mc_running_avg_y ) ; const uint8x16_t v_diff_neg_mask = vcgtq_u8 ( v_sig , v_mc_running_avg_y ) ; const uint8x16_t v_level1_mask = vcleq_u8 ( v_level1_threshold , v_abs_diff ) ; const uint8x16_t v_level2_mask = vcleq_u8 ( v_level2_threshold , v_abs_diff ) ; const uint8x16_t v_level3_mask = vcleq_u8 ( v_level3_threshold , v_abs_diff ) ; const uint8x16_t v_level2_adjustment = vandq_u8 ( v_level2_mask , v_delta_level_1_and_2 ) ; const uint8x16_t v_level3_adjustment = vandq_u8 ( v_level3_mask , v_delta_level_2_and_3 ) ; const uint8x16_t v_level1and2_adjustment = vaddq_u8 ( v_level1_adjustment , v_level2_adjustment ) ; const uint8x16_t v_level1and2and3_adjustment = vaddq_u8 ( v_level1and2_adjustment , v_level3_adjustment ) ; const uint8x16_t v_abs_adjustment = vbslq_u8 ( v_level1_mask , v_level1and2and3_adjustment , v_abs_diff ) ; const uint8x16_t v_pos_adjustment = vandq_u8 ( v_diff_pos_mask , v_abs_adjustment ) ; const uint8x16_t v_neg_adjustment = vandq_u8 ( v_diff_neg_mask , v_abs_adjustment ) ; uint8x16_t v_running_avg_y = vqaddq_u8 ( v_sig , v_pos_adjustment ) ; v_running_avg_y = vqsubq_u8 ( v_running_avg_y , v_neg_adjustment ) ; vst1q_u8 ( running_avg_y , v_running_avg_y ) ; { const int8x16_t v_sum_diff = vqsubq_s8 ( vreinterpretq_s8_u8 ( v_pos_adjustment ) , vreinterpretq_s8_u8 ( v_neg_adjustment ) ) ; const int16x8_t fe_dc_ba_98_76_54_32_10 = vpaddlq_s8 ( v_sum_diff ) ; const int32x4_t fedc_ba98_7654_3210 = vpaddlq_s16 ( fe_dc_ba_98_76_54_32_10 ) ; const int64x2_t fedcba98_76543210 = vpaddlq_s32 ( fedc_ba98_7654_3210 ) ; v_sum_diff_total = vqaddq_s64 ( v_sum_diff_total , fedcba98_76543210 ) ; } sig += sig_stride ; mc_running_avg_y += mc_running_avg_y_stride ; running_avg_y += running_avg_y_stride ; } { int64x1_t x = vqadd_s64 ( vget_high_s64 ( v_sum_diff_total ) , vget_low_s64 ( v_sum_diff_total ) ) ; int sum_diff = vget_lane_s32 ( vabs_s32 ( vreinterpret_s32_s64 ( x ) ) , 0 ) ; int sum_diff_thresh = SUM_DIFF_THRESHOLD ; if ( increase_denoising ) sum_diff_thresh = SUM_DIFF_THRESHOLD_HIGH ; if ( sum_diff > sum_diff_thresh ) { int delta = ( ( sum_diff - sum_diff_thresh ) >> 8 ) + 1 ; if ( delta < 4 ) { const uint8x16_t k_delta = vmovq_n_u8 ( delta ) ; sig -= sig_stride * 16 ; mc_running_avg_y -= mc_running_avg_y_stride * 16 ; running_avg_y -= running_avg_y_stride * 16 ; for ( r = 0 ; r < 16 ; ++ r ) { uint8x16_t v_running_avg_y = vld1q_u8 ( running_avg_y ) ; const uint8x16_t v_sig = vld1q_u8 ( sig ) ; const uint8x16_t v_mc_running_avg_y = vld1q_u8 ( mc_running_avg_y ) ; const uint8x16_t v_abs_diff = vabdq_u8 ( v_sig , v_mc_running_avg_y ) ; const uint8x16_t v_diff_pos_mask = vcltq_u8 ( v_sig , v_mc_running_avg_y ) ; const uint8x16_t v_diff_neg_mask = vcgtq_u8 ( v_sig , v_mc_running_avg_y ) ; const uint8x16_t v_abs_adjustment = vminq_u8 ( v_abs_diff , ( k_delta ) ) ; const uint8x16_t v_pos_adjustment = vandq_u8 ( v_diff_pos_mask , v_abs_adjustment ) ; const uint8x16_t v_neg_adjustment = vandq_u8 ( v_diff_neg_mask , v_abs_adjustment ) ; v_running_avg_y = vqsubq_u8 ( v_running_avg_y , v_pos_adjustment ) ; v_running_avg_y = vqaddq_u8 ( v_running_avg_y , v_neg_adjustment ) ; vst1q_u8 ( running_avg_y , v_running_avg_y ) ; { const int8x16_t v_sum_diff = vqsubq_s8 ( vreinterpretq_s8_u8 ( v_neg_adjustment ) , vreinterpretq_s8_u8 ( v_pos_adjustment ) ) ; const int16x8_t fe_dc_ba_98_76_54_32_10 = vpaddlq_s8 ( v_sum_diff ) ; const int32x4_t fedc_ba98_7654_3210 = vpaddlq_s16 ( fe_dc_ba_98_76_54_32_10 ) ; const int64x2_t fedcba98_76543210 = vpaddlq_s32 ( fedc_ba98_7654_3210 ) ; v_sum_diff_total = vqaddq_s64 ( v_sum_diff_total , fedcba98_76543210 ) ; } sig += sig_stride ; mc_running_avg_y += mc_running_avg_y_stride ; running_avg_y += running_avg_y_stride ; } { x = vqadd_s64 ( vget_high_s64 ( v_sum_diff_total ) , vget_low_s64 ( v_sum_diff_total ) ) ; sum_diff = vget_lane_s32 ( vabs_s32 ( vreinterpret_s32_s64 ( x ) ) , 0 ) ; if ( sum_diff > sum_diff_thresh ) { return COPY_BLOCK ; } } } else { return COPY_BLOCK ; } } } running_avg_y -= running_avg_y_stride * 16 ; sig -= sig_stride * 16 ; vp8_copy_mem16x16 ( running_avg_y , running_avg_y_stride , sig , sig_stride ) ; return FILTER_BLOCK ; }" 1,"NVD-CWE-Other static krb5_error_code process_db_args ( krb5_context context , char * * db_args , xargs_t * xargs , OPERATION optype ) { int i = 0 ; krb5_error_code st = 0 ; char * arg = NULL , * arg_val = NULL ; char * * dptr = NULL ; unsigned int arg_val_len = 0 ; if ( db_args ) { for ( i = 0 ; db_args [ i ] ; ++ i ) { arg = strtok_r ( db_args [ i ] , ""="" , & arg_val ) ; if ( strcmp ( arg , TKTPOLICY_ARG ) == 0 ) { dptr = & xargs -> tktpolicydn ; } else { if ( strcmp ( arg , USERDN_ARG ) == 0 ) { if ( optype == MODIFY_PRINCIPAL || xargs -> dn != NULL || xargs -> containerdn != NULL || xargs -> linkdn != NULL ) { st = EINVAL ; k5_setmsg ( context , st , _ ( ""%s option not supported"" ) , arg ) ; goto cleanup ; } dptr = & xargs -> dn ; } else if ( strcmp ( arg , CONTAINERDN_ARG ) == 0 ) { if ( optype == MODIFY_PRINCIPAL || xargs -> dn != NULL || xargs -> containerdn != NULL ) { st = EINVAL ; k5_setmsg ( context , st , _ ( ""%s option not supported"" ) , arg ) ; goto cleanup ; } dptr = & xargs -> containerdn ; } else if ( strcmp ( arg , LINKDN_ARG ) == 0 ) { if ( xargs -> dn != NULL || xargs -> linkdn != NULL ) { st = EINVAL ; k5_setmsg ( context , st , _ ( ""%s option not supported"" ) , arg ) ; goto cleanup ; } dptr = & xargs -> linkdn ; } else { st = EINVAL ; k5_setmsg ( context , st , _ ( ""unknown option: %s"" ) , arg ) ; goto cleanup ; } xargs -> dn_from_kbd = TRUE ; if ( arg_val == NULL || strlen ( arg_val ) == 0 ) { st = EINVAL ; k5_setmsg ( context , st , _ ( ""%s option value missing"" ) , arg ) ; goto cleanup ; } } if ( arg_val == NULL ) { st = EINVAL ; k5_setmsg ( context , st , _ ( ""%s option value missing"" ) , arg ) ; goto cleanup ; } arg_val_len = strlen ( arg_val ) + 1 ; if ( strcmp ( arg , TKTPOLICY_ARG ) == 0 ) { if ( ( st = krb5_ldap_name_to_policydn ( context ,","static krb5_error_code process_db_args ( krb5_context context , char * * db_args , xargs_t * xargs , OPERATION optype ) { int i = 0 ; krb5_error_code st = 0 ; char * arg = NULL , * arg_val = NULL ; char * * dptr = NULL ; unsigned int arg_val_len = 0 ; if ( db_args ) { for ( i = 0 ; db_args [ i ] ; ++ i ) { arg = strtok_r ( db_args [ i ] , ""="" , & arg_val ) ; arg = ( arg != NULL ) ? arg : """" ; if ( strcmp ( arg , TKTPOLICY_ARG ) == 0 ) { dptr = & xargs -> tktpolicydn ; } else { if ( strcmp ( arg , USERDN_ARG ) == 0 ) { if ( optype == MODIFY_PRINCIPAL || xargs -> dn != NULL || xargs -> containerdn != NULL || xargs -> linkdn != NULL ) { st = EINVAL ; k5_setmsg ( context , st , _ ( ""%s option not supported"" ) , arg ) ; goto cleanup ; } dptr = & xargs -> dn ; } else if ( strcmp ( arg , CONTAINERDN_ARG ) == 0 ) { if ( optype == MODIFY_PRINCIPAL || xargs -> dn != NULL || xargs -> containerdn != NULL ) { st = EINVAL ; k5_setmsg ( context , st , _ ( ""%s option not supported"" ) , arg ) ; goto cleanup ; } dptr = & xargs -> containerdn ; } else if ( strcmp ( arg , LINKDN_ARG ) == 0 ) { if ( xargs -> dn != NULL || xargs -> linkdn != NULL ) { st = EINVAL ; k5_setmsg ( context , st , _ ( ""%s option not supported"" ) , arg ) ; goto cleanup ; } dptr = & xargs -> linkdn ; } else { st = EINVAL ; k5_setmsg ( context , st , _ ( ""unknown option: %s"" ) , arg ) ; goto cleanup ; } xargs -> dn_from_kbd = TRUE ; if ( arg_val == NULL || strlen ( arg_val ) == 0 ) { st = EINVAL ; k5_setmsg ( context , st , _ ( ""%s option value missing"" ) , arg ) ; goto cleanup ; } } if ( arg_val == NULL ) { st = EINVAL ; k5_setmsg ( context , st , _ ( ""%s option value missing"" ) , arg ) ; goto cleanup ; } arg_val_len = strlen ( arg_val ) + 1 ; if ( strcmp ( arg , TKTPOLICY_ARG ) == 0 ) { if ( ( st = krb5_ldap_name_to_policydn ( context ," 2,"CWE-119 else if ( fe -> icbTag . fileType == ICBTAG_FILE_TYPE_DIRECTORY && sbi -> s_dmode != UDF_INVALID_MODE ) inode -> i_mode = sbi -> s_dmode ; else inode -> i_mode = udf_convert_permissions ( fe ) ; inode -> i_mode &= ~ sbi -> s_umask ; read_unlock ( & sbi -> s_cred_lock ) ; link_count = le16_to_cpu ( fe -> fileLinkCount ) ; if ( ! link_count ) { if ( ! hidden_inode ) { ret = - ESTALE ; goto out ; } link_count = 1 ; } set_nlink ( inode , link_count ) ; inode -> i_size = le64_to_cpu ( fe -> informationLength ) ; iinfo -> i_lenExtents = inode -> i_size ; if ( iinfo -> i_efe == 0 ) { inode -> i_blocks = le64_to_cpu ( fe -> logicalBlocksRecorded ) << ( inode -> i_sb -> s_blocksize_bits - 9 ) ; if ( ! udf_disk_stamp_to_time ( & inode -> i_atime , fe -> accessTime ) ) inode -> i_atime = sbi -> s_record_time ; if ( ! udf_disk_stamp_to_time ( & inode -> i_mtime , fe -> modificationTime ) ) inode -> i_mtime = sbi -> s_record_time ; if ( ! udf_disk_stamp_to_time ( & inode -> i_ctime , fe -> attrTime ) ) inode -> i_ctime = sbi -> s_record_time ; iinfo -> i_unique = le64_to_cpu ( fe -> uniqueID ) ; iinfo -> i_lenEAttr = le32_to_cpu ( fe -> lengthExtendedAttr ) ; iinfo -> i_lenAlloc = le32_to_cpu ( fe -> lengthAllocDescs ) ; iinfo -> i_checkpoint = le32_to_cpu ( fe -> checkpoint ) ; } else { inode -> i_blocks = le64_to_cpu ( efe -> logicalBlocksRecorded ) << ( inode -> i_sb -> s_blocksize_bits - 9 ) ; if ( ! udf_disk_stamp_to_time ( & inode -> i_atime , efe -> accessTime ) ) inode -> i_atime = sbi -> s_record_time ; if ( ! udf_disk_stamp_to_time ( & inode -> i_mtime , efe -> modificationTime ) ) inode -> i_mtime = sbi -> s_record_time ; if ( ! udf_disk_stamp_to_time ( & iinfo -> i_crtime , efe -> createTime ) ) iinfo -> i_crtime = sbi -> s_record_time ; if ( ! udf_disk_stamp_to_time ( & inode -> i_ctime , efe -> attrTime ) ) inode -> i_ctime = sbi -> s_record_time ; iinfo -> i_unique = le64_to_cpu ( efe -> uniqueID ) ; iinfo -> i_lenEAttr = le32_to_cpu ( efe -> lengthExtendedAttr ) ; iinfo -> i_lenAlloc = le32_to_cpu ( efe -> lengthAllocDescs ) ; iinfo -> i_checkpoint = le32_to_cpu ( efe -> checkpoint ) ; } inode -> i_generation = iinfo -> i_unique ; switch ( fe -> icbTag . fileType ) { case ICBTAG_FILE_TYPE_DIRECTORY : inode -> i_op = & udf_dir_inode_operations ; inode -> i_fop = & udf_dir_operations ; inode -> i_mode |= S_IFDIR ; inc_nlink ( inode ) ; break ; case ICBTAG_FILE_TYPE_REALTIME : case ICBTAG_FILE_TYPE_REGULAR : case ICBTAG_FILE_TYPE_UNDEF : case ICBTAG_FILE_TYPE_VAT20 : if ( iinfo -> i_alloc_type == ICBTAG_FLAG_AD_IN_ICB ) inode -> i_data . a_ops = & udf_adinicb_aops ; else inode -> i_data . a_ops = & udf_aops ; inode -> i_op = & udf_file_inode_operations ; inode -> i_fop = & udf_file_operations ; inode -> i_mode |= S_IFREG ; break ; case ICBTAG_FILE_TYPE_BLOCK : inode -> i_mode |= S_IFBLK ; break ; case ICBTAG_FILE_TYPE_CHAR : inode -> i_mode |= S_IFCHR ; break ; case ICBTAG_FILE_TYPE_FIFO : init_special_inode ( inode , inode -> i_mode | S_IFIFO , 0 ) ; break ; case ICBTAG_FILE_TYPE_SOCKET : init_special_inode ( inode , inode -> i_mode | S_IFSOCK , 0 ) ; break ; case ICBTAG_FILE_TYPE_SYMLINK : inode -> i_data . a_ops = & udf_symlink_aops ; inode -> i_op = & udf_symlink_inode_operations ; inode -> i_mode = S_IFLNK | S_IRWXUGO ; break ; case ICBTAG_FILE_TYPE_MAIN : udf_debug ( ""METADATA FILE-----\\n"" ) ; break ; case ICBTAG_FILE_TYPE_MIRROR : udf_debug ( ""METADATA MIRROR FILE-----\\n"" ) ; break ; case ICBTAG_FILE_TYPE_BITMAP : udf_debug ( ""METADATA BITMAP FILE-----\\n"" ) ; break ; default : udf_err ( inode -> i_sb , ""(ino %ld) failed unknown file type=%d\\n"" , inode -> i_ino , fe -> icbTag . fileType ) ; goto out ; }","else if ( fe -> icbTag . fileType == ICBTAG_FILE_TYPE_DIRECTORY && sbi -> s_dmode != UDF_INVALID_MODE ) inode -> i_mode = sbi -> s_dmode ; else inode -> i_mode = udf_convert_permissions ( fe ) ; inode -> i_mode &= ~ sbi -> s_umask ; read_unlock ( & sbi -> s_cred_lock ) ; link_count = le16_to_cpu ( fe -> fileLinkCount ) ; if ( ! link_count ) { if ( ! hidden_inode ) { ret = - ESTALE ; goto out ; } link_count = 1 ; } set_nlink ( inode , link_count ) ; inode -> i_size = le64_to_cpu ( fe -> informationLength ) ; iinfo -> i_lenExtents = inode -> i_size ; if ( iinfo -> i_efe == 0 ) { inode -> i_blocks = le64_to_cpu ( fe -> logicalBlocksRecorded ) << ( inode -> i_sb -> s_blocksize_bits - 9 ) ; if ( ! udf_disk_stamp_to_time ( & inode -> i_atime , fe -> accessTime ) ) inode -> i_atime = sbi -> s_record_time ; if ( ! udf_disk_stamp_to_time ( & inode -> i_mtime , fe -> modificationTime ) ) inode -> i_mtime = sbi -> s_record_time ; if ( ! udf_disk_stamp_to_time ( & inode -> i_ctime , fe -> attrTime ) ) inode -> i_ctime = sbi -> s_record_time ; iinfo -> i_unique = le64_to_cpu ( fe -> uniqueID ) ; iinfo -> i_lenEAttr = le32_to_cpu ( fe -> lengthExtendedAttr ) ; iinfo -> i_lenAlloc = le32_to_cpu ( fe -> lengthAllocDescs ) ; iinfo -> i_checkpoint = le32_to_cpu ( fe -> checkpoint ) ; } else { inode -> i_blocks = le64_to_cpu ( efe -> logicalBlocksRecorded ) << ( inode -> i_sb -> s_blocksize_bits - 9 ) ; if ( ! udf_disk_stamp_to_time ( & inode -> i_atime , efe -> accessTime ) ) inode -> i_atime = sbi -> s_record_time ; if ( ! udf_disk_stamp_to_time ( & inode -> i_mtime , efe -> modificationTime ) ) inode -> i_mtime = sbi -> s_record_time ; if ( ! udf_disk_stamp_to_time ( & iinfo -> i_crtime , efe -> createTime ) ) iinfo -> i_crtime = sbi -> s_record_time ; if ( ! udf_disk_stamp_to_time ( & inode -> i_ctime , efe -> attrTime ) ) inode -> i_ctime = sbi -> s_record_time ; iinfo -> i_unique = le64_to_cpu ( efe -> uniqueID ) ; iinfo -> i_lenEAttr = le32_to_cpu ( efe -> lengthExtendedAttr ) ; iinfo -> i_lenAlloc = le32_to_cpu ( efe -> lengthAllocDescs ) ; iinfo -> i_checkpoint = le32_to_cpu ( efe -> checkpoint ) ; } inode -> i_generation = iinfo -> i_unique ; if ( iinfo -> i_alloc_type == ICBTAG_FLAG_AD_IN_ICB ) { if ( iinfo -> i_lenAlloc != inode -> i_size ) goto out ; if ( inode -> i_size > inode -> i_sb -> s_blocksize - udf_file_entry_alloc_offset ( inode ) ) goto out ; } switch ( fe -> icbTag . fileType ) { case ICBTAG_FILE_TYPE_DIRECTORY : inode -> i_op = & udf_dir_inode_operations ; inode -> i_fop = & udf_dir_operations ; inode -> i_mode |= S_IFDIR ; inc_nlink ( inode ) ; break ; case ICBTAG_FILE_TYPE_REALTIME : case ICBTAG_FILE_TYPE_REGULAR : case ICBTAG_FILE_TYPE_UNDEF : case ICBTAG_FILE_TYPE_VAT20 : if ( iinfo -> i_alloc_type == ICBTAG_FLAG_AD_IN_ICB ) inode -> i_data . a_ops = & udf_adinicb_aops ; else inode -> i_data . a_ops = & udf_aops ; inode -> i_op = & udf_file_inode_operations ; inode -> i_fop = & udf_file_operations ; inode -> i_mode |= S_IFREG ; break ; case ICBTAG_FILE_TYPE_BLOCK : inode -> i_mode |= S_IFBLK ; break ; case ICBTAG_FILE_TYPE_CHAR : inode -> i_mode |= S_IFCHR ; break ; case ICBTAG_FILE_TYPE_FIFO : init_special_inode ( inode , inode -> i_mode | S_IFIFO , 0 ) ; break ; case ICBTAG_FILE_TYPE_SOCKET : init_special_inode ( inode , inode -> i_mode | S_IFSOCK , 0 ) ; break ; case ICBTAG_FILE_TYPE_SYMLINK : inode -> i_data . a_ops = & udf_symlink_aops ; inode -> i_op = & udf_symlink_inode_operations ; inode -> i_mode = S_IFLNK | S_IRWXUGO ; break ; case ICBTAG_FILE_TYPE_MAIN : udf_debug ( ""METADATA FILE-----\\n"" ) ; break ; case ICBTAG_FILE_TYPE_MIRROR : udf_debug ( ""METADATA MIRROR FILE-----\\n"" ) ; break ; case ICBTAG_FILE_TYPE_BITMAP : udf_debug ( ""METADATA BITMAP FILE-----\\n"" ) ; break ; default : udf_err ( inode -> i_sb , ""(ino %ld) failed unknown file type=%d\\n"" , inode -> i_ino , fe -> icbTag . fileType ) ; goto out ; }" 3,"CWE-20 if ( ReadBlobByte ( image ) == EOF ) break ; continue ; } if ( ( ( code >= 0xb0 ) && ( code <= 0xcf ) ) || ( ( code >= 0x8000 ) && ( code <= 0x80ff ) ) ) continue ; if ( code == 0x8200 ) { char filename [ MaxTextExtent ] ; FILE * file ; int unique_file ; jpeg = MagickTrue ; read_info = CloneImageInfo ( image_info ) ; SetImageInfoBlob ( read_info , ( void * ) NULL , 0 ) ; file = ( FILE * ) NULL ; unique_file = AcquireUniqueFileResource ( filename ) ; ( void ) FormatLocaleString ( read_info -> filename , MaxTextExtent , ""jpeg:%s"" , filename ) ; if ( unique_file != - 1 ) file = fdopen ( unique_file , ""wb"" ) ; if ( ( unique_file == - 1 ) || ( file == ( FILE * ) NULL ) ) { ( void ) RelinquishUniqueFileResource ( read_info -> filename ) ; ( void ) CopyMagickString ( image -> filename , read_info -> filename , MagickPathExtent ) ; ThrowPICTException ( FileOpenError , ""UnableToCreateTemporaryFile"" ) ; } length = ReadBlobMSBLong ( image ) ; if ( length > 154 ) { for ( i = 0 ; i < 6 ; i ++ ) ( void ) ReadBlobMSBLong ( image ) ; if ( ReadRectangle ( image , & frame ) == MagickFalse ) { ( void ) fclose ( file ) ; ( void ) RelinquishUniqueFileResource ( read_info -> filename ) ; ThrowPICTException ( CorruptImageError , ""ImproperImageHeader"" ) ; } for ( i = 0 ; i < 122 ; i ++ ) if ( ReadBlobByte ( image ) == EOF ) break ; for ( i = 0 ; i < ( ssize_t ) ( length - 154 ) ; i ++ ) { c = ReadBlobByte ( image ) ; if ( c == EOF ) break ; ( void ) fputc ( c , file ) ; } } ( void ) fclose ( file ) ; ( void ) close ( unique_file ) ; tile_image = ReadImage ( read_info , exception ) ; ( void ) RelinquishUniqueFileResource ( filename ) ; read_info = DestroyImageInfo ( read_info ) ; if ( tile_image == ( Image * ) NULL ) continue ; ( void ) FormatLocaleString ( geometry , MagickPathExtent , ""%.20gx%.20g"" , ( double ) MagickMax ( image -> columns , tile_image -> columns ) , ( double ) MagickMax ( image -> rows , tile_image -> rows ) ) ; ( void ) SetImageExtent ( image , MagickMax ( image -> columns , tile_image -> columns ) , MagickMax ( image -> rows , tile_image -> rows ) , exception ) ; ( void ) TransformImageColorspace ( image , tile_image -> colorspace , exception ) ; ( void ) CompositeImage ( image , tile_image , CopyCompositeOp , MagickTrue , ( ssize_t ) frame . left , ( ssize_t ) frame . right , exception ) ; image -> compression = tile_image -> compression ; tile_image = DestroyImage ( tile_image ) ; continue ; } if ( ( code == 0xff ) || ( code == 0xffff ) ) break ; if ( ( ( code >= 0xd0 ) && ( code <= 0xfe ) ) || ( ( code >= 0x8100 ) && ( code <= 0xffff ) ) ) { length = ReadBlobMSBShort ( image ) ; for ( i = 0 ; i < ( ssize_t ) length ; i ++ ) if ( ReadBlobByte ( image ) == EOF ) break ; continue ; } if ( ( code >= 0x100 ) && ( code <= 0x7fff ) ) { length = ( size_t ) ( ( code >> 7 ) & 0xff ) ; for ( i = 0 ; i < ( ssize_t ) length ; i ++ ) if ( ReadBlobByte ( image ) == EOF ) break ; continue ; } } ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; }","if ( ReadBlobByte ( image ) == EOF ) break ; continue ; } if ( ( ( code >= 0xb0 ) && ( code <= 0xcf ) ) || ( ( code >= 0x8000 ) && ( code <= 0x80ff ) ) ) continue ; if ( code == 0x8200 ) { char filename [ MaxTextExtent ] ; FILE * file ; int unique_file ; jpeg = MagickTrue ; read_info = CloneImageInfo ( image_info ) ; SetImageInfoBlob ( read_info , ( void * ) NULL , 0 ) ; file = ( FILE * ) NULL ; unique_file = AcquireUniqueFileResource ( filename ) ; ( void ) FormatLocaleString ( read_info -> filename , MaxTextExtent , ""jpeg:%s"" , filename ) ; if ( unique_file != - 1 ) file = fdopen ( unique_file , ""wb"" ) ; if ( ( unique_file == - 1 ) || ( file == ( FILE * ) NULL ) ) { ( void ) RelinquishUniqueFileResource ( read_info -> filename ) ; ( void ) CopyMagickString ( image -> filename , read_info -> filename , MagickPathExtent ) ; ThrowPICTException ( FileOpenError , ""UnableToCreateTemporaryFile"" ) ; } length = ReadBlobMSBLong ( image ) ; if ( length > 154 ) { for ( i = 0 ; i < 6 ; i ++ ) ( void ) ReadBlobMSBLong ( image ) ; if ( ReadRectangle ( image , & frame ) == MagickFalse ) { ( void ) fclose ( file ) ; ( void ) RelinquishUniqueFileResource ( read_info -> filename ) ; ThrowPICTException ( CorruptImageError , ""ImproperImageHeader"" ) ; } for ( i = 0 ; i < 122 ; i ++ ) if ( ReadBlobByte ( image ) == EOF ) break ; for ( i = 0 ; i < ( ssize_t ) ( length - 154 ) ; i ++ ) { c = ReadBlobByte ( image ) ; if ( c == EOF ) break ; if ( fputc ( c , file ) != c ) break ; } } ( void ) fclose ( file ) ; ( void ) close ( unique_file ) ; tile_image = ReadImage ( read_info , exception ) ; ( void ) RelinquishUniqueFileResource ( filename ) ; read_info = DestroyImageInfo ( read_info ) ; if ( tile_image == ( Image * ) NULL ) continue ; ( void ) FormatLocaleString ( geometry , MagickPathExtent , ""%.20gx%.20g"" , ( double ) MagickMax ( image -> columns , tile_image -> columns ) , ( double ) MagickMax ( image -> rows , tile_image -> rows ) ) ; ( void ) SetImageExtent ( image , MagickMax ( image -> columns , tile_image -> columns ) , MagickMax ( image -> rows , tile_image -> rows ) , exception ) ; ( void ) TransformImageColorspace ( image , tile_image -> colorspace , exception ) ; ( void ) CompositeImage ( image , tile_image , CopyCompositeOp , MagickTrue , ( ssize_t ) frame . left , ( ssize_t ) frame . right , exception ) ; image -> compression = tile_image -> compression ; tile_image = DestroyImage ( tile_image ) ; continue ; } if ( ( code == 0xff ) || ( code == 0xffff ) ) break ; if ( ( ( code >= 0xd0 ) && ( code <= 0xfe ) ) || ( ( code >= 0x8100 ) && ( code <= 0xffff ) ) ) { length = ReadBlobMSBShort ( image ) ; for ( i = 0 ; i < ( ssize_t ) length ; i ++ ) if ( ReadBlobByte ( image ) == EOF ) break ; continue ; } if ( ( code >= 0x100 ) && ( code <= 0x7fff ) ) { length = ( size_t ) ( ( code >> 7 ) & 0xff ) ; for ( i = 0 ; i < ( ssize_t ) length ; i ++ ) if ( ReadBlobByte ( image ) == EOF ) break ; continue ; } } ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; }" 4,"CWE-119 static ssize_t exitcode_proc_write ( struct file * file , const char __user * buffer , size_t count , loff_t * pos ) { char * end , buf [ sizeof ( ""nnnnn\\0"" ) ] ; int tmp ; if ( copy_from_user ( buf , buffer , count ) ) return - EFAULT ; tmp = simple_strtol ( buf , & end , 0 ) ; if ( ( * end != '\\0' ) && ! isspace ( * end ) ) return - EINVAL ; uml_exitcode = tmp ; return count ; }","static ssize_t exitcode_proc_write ( struct file * file , const char __user * buffer , size_t count , loff_t * pos ) { char * end , buf [ sizeof ( ""nnnnn\\0"" ) ] ; size_t size ; int tmp ; size = min ( count , sizeof ( buf ) ) ; if ( copy_from_user ( buf , buffer , size ) ) return - EFAULT ; tmp = simple_strtol ( buf , & end , 0 ) ; if ( ( * end != '\\0' ) && ! isspace ( * end ) ) return - EINVAL ; uml_exitcode = tmp ; return count ; }" 5,"CWE-674 static krb5_error_code decode_sequence ( const uint8_t * asn1 , size_t len , const struct seq_info * seq , void * val ) { krb5_error_code ret ; const uint8_t * contents ; size_t i , j , clen ; taginfo t ; assert ( seq -> n_fields > 0 ) ; for ( i = 0 ; i < seq -> n_fields ; i ++ ) { if ( len == 0 ) break ; ret = get_tag ( asn1 , len , & t , & contents , & clen , & asn1 , & len ) ; if ( ret ) goto error ; for ( ; i < seq -> n_fields ; i ++ ) { if ( check_atype_tag ( seq -> fields [ i ] , & t ) ) break ; ret = omit_atype ( seq -> fields [ i ] , val ) ; if ( ret ) goto error ; } if ( i == seq -> n_fields ) break ; ret = decode_atype ( & t , contents , clen , seq -> fields [ i ] , val ) ; if ( ret ) goto error ; } for ( ; i < seq -> n_fields ; i ++ ) { ret = omit_atype ( seq -> fields [ i ] , val ) ; if ( ret ) goto error ; } return 0 ; error : for ( j = 0 ; j < i ; j ++ ) free_atype ( seq -> fields [ j ] , val ) ; for ( j = 0 ; j < i ; j ++ ) free_atype_ptr ( seq -> fields [ j ] , val ) ; return ret ; }","static krb5_error_code decode_sequence ( const uint8_t * asn1 , size_t len , const struct seq_info * seq , void * val ) { krb5_error_code ret ; const uint8_t * contents ; size_t i , j , clen ; taginfo t ; assert ( seq -> n_fields > 0 ) ; for ( i = 0 ; i < seq -> n_fields ; i ++ ) { if ( len == 0 ) break ; ret = get_tag ( asn1 , len , & t , & contents , & clen , & asn1 , & len , 0 ) ; if ( ret ) goto error ; for ( ; i < seq -> n_fields ; i ++ ) { if ( check_atype_tag ( seq -> fields [ i ] , & t ) ) break ; ret = omit_atype ( seq -> fields [ i ] , val ) ; if ( ret ) goto error ; } if ( i == seq -> n_fields ) break ; ret = decode_atype ( & t , contents , clen , seq -> fields [ i ] , val ) ; if ( ret ) goto error ; } for ( ; i < seq -> n_fields ; i ++ ) { ret = omit_atype ( seq -> fields [ i ] , val ) ; if ( ret ) goto error ; } return 0 ; error : for ( j = 0 ; j < i ; j ++ ) free_atype ( seq -> fields [ j ] , val ) ; for ( j = 0 ; j < i ; j ++ ) free_atype_ptr ( seq -> fields [ j ] , val ) ; return ret ; }" 6,"CWE-119 static vpx_codec_err_t ctrl_copy_reference ( vpx_codec_alg_priv_t * ctx , int ctr_id , va_list args ) { vpx_ref_frame_t * data = va_arg ( args , vpx_ref_frame_t * ) ; if ( data ) { vpx_ref_frame_t * frame = ( vpx_ref_frame_t * ) data ; YV12_BUFFER_CONFIG sd ; image2yuvconfig ( & frame -> img , & sd ) ; return vp9_copy_reference_dec ( ctx -> pbi , ( VP9_REFFRAME ) frame -> frame_type , & sd ) ; } else { return VPX_CODEC_INVALID_PARAM ; } }","static vpx_codec_err_t ctrl_copy_reference ( vpx_codec_alg_priv_t * ctx , va_list args ) { vpx_ref_frame_t * data = va_arg ( args , vpx_ref_frame_t * ) ; if ( ctx -> frame_parallel_decode ) { set_error_detail ( ctx , ""Not supported in frame parallel decode"" ) ; return VPX_CODEC_INCAPABLE ; } if ( data ) { vpx_ref_frame_t * frame = ( vpx_ref_frame_t * ) data ; YV12_BUFFER_CONFIG sd ; VPxWorker * const worker = ctx -> frame_workers ; FrameWorkerData * const frame_worker_data = ( FrameWorkerData * ) worker -> data1 ; image2yuvconfig ( & frame -> img , & sd ) ; return vp9_copy_reference_dec ( frame_worker_data -> pbi , ( VP9_REFFRAME ) frame -> frame_type , & sd ) ; } else { return VPX_CODEC_INVALID_PARAM ; } }" 7,"CWE-200 static __net_init int setup_net ( struct net * net , struct user_namespace * user_ns ) { const struct pernet_operations * ops , * saved_ops ; int error = 0 ; LIST_HEAD ( net_exit_list ) ; refcount_set ( & net -> count , 1 ) ; refcount_set ( & net -> passive , 1 ) ; net -> dev_base_seq = 1 ; net -> user_ns = user_ns ; idr_init ( & net -> netns_ids ) ; spin_lock_init ( & net -> nsid_lock ) ; mutex_init ( & net -> ipv4 . ra_mutex ) ; list_for_each_entry ( ops , & pernet_list , list ) { error = ops_init ( ops , net ) ; if ( error < 0 ) goto out_undo ; } down_write ( & net_rwsem ) ; list_add_tail_rcu ( & net -> list , & net_namespace_list ) ; up_write ( & net_rwsem ) ; out : return error ; out_undo : list_add ( & net -> exit_list , & net_exit_list ) ; saved_ops = ops ; list_for_each_entry_continue_reverse ( ops , & pernet_list , list ) ops_exit_list ( ops , & net_exit_list ) ; ops = saved_ops ; list_for_each_entry_continue_reverse ( ops , & pernet_list , list ) ops_free_list ( ops , & net_exit_list ) ; rcu_barrier ( ) ; goto out ; }","static __net_init int setup_net ( struct net * net , struct user_namespace * user_ns ) { const struct pernet_operations * ops , * saved_ops ; int error = 0 ; LIST_HEAD ( net_exit_list ) ; refcount_set ( & net -> count , 1 ) ; refcount_set ( & net -> passive , 1 ) ; get_random_bytes ( & net -> hash_mix , sizeof ( u32 ) ) ; net -> dev_base_seq = 1 ; net -> user_ns = user_ns ; idr_init ( & net -> netns_ids ) ; spin_lock_init ( & net -> nsid_lock ) ; mutex_init ( & net -> ipv4 . ra_mutex ) ; list_for_each_entry ( ops , & pernet_list , list ) { error = ops_init ( ops , net ) ; if ( error < 0 ) goto out_undo ; } down_write ( & net_rwsem ) ; list_add_tail_rcu ( & net -> list , & net_namespace_list ) ; up_write ( & net_rwsem ) ; out : return error ; out_undo : list_add ( & net -> exit_list , & net_exit_list ) ; saved_ops = ops ; list_for_each_entry_continue_reverse ( ops , & pernet_list , list ) ops_exit_list ( ops , & net_exit_list ) ; ops = saved_ops ; list_for_each_entry_continue_reverse ( ops , & pernet_list , list ) ops_free_list ( ops , & net_exit_list ) ; rcu_barrier ( ) ; goto out ; }" 8,"CWE-476 GF_Err latm_dmx_process ( GF_Filter * filter ) { GF_LATMDmxCtx * ctx = gf_filter_get_udta ( filter ) ; GF_FilterPacket * pck , * dst_pck ; u32 pos ; u8 * data , * output ; u32 pck_size , prev_pck_size ; u64 cts = GF_FILTER_NO_TS ; if ( ctx -> in_error ) return ctx -> in_error ; if ( ! ctx -> duration . num ) latm_dmx_check_dur ( filter , ctx ) ; if ( ctx -> opid && ! ctx -> is_playing ) return GF_OK ; pck = gf_filter_pid_get_packet ( ctx -> ipid ) ; if ( ! pck ) { if ( gf_filter_pid_is_eos ( ctx -> ipid ) ) { if ( ! ctx -> latm_buffer_size ) { if ( ctx -> opid ) gf_filter_pid_set_eos ( ctx -> opid ) ; if ( ctx -> src_pck ) gf_filter_pck_unref ( ctx -> src_pck ) ; ctx -> src_pck = NULL ; return GF_EOS ; } } else { return GF_OK ; } } data = ( char * ) gf_filter_pck_get_data ( pck , & pck_size ) ; if ( ctx -> timescale && pck ) { cts = gf_filter_pck_get_cts ( pck ) ; } prev_pck_size = ctx -> latm_buffer_size ; if ( pck && ! ctx -> resume_from ) { if ( ctx -> latm_buffer_size + pck_size > ctx -> latm_buffer_alloc ) { ctx -> latm_buffer_alloc = ctx -> latm_buffer_size + pck_size ; ctx -> latm_buffer = gf_realloc ( ctx -> latm_buffer , ctx -> latm_buffer_alloc ) ; } memcpy ( ctx -> latm_buffer + ctx -> latm_buffer_size , data , pck_size ) ; ctx -> latm_buffer_size += pck_size ; } if ( ! ctx -> bs ) ctx -> bs = gf_bs_new ( ctx -> latm_buffer , ctx -> latm_buffer_size , GF_BITSTREAM_READ ) ; else gf_bs_reassign_buffer ( ctx -> bs , ctx -> latm_buffer , ctx -> latm_buffer_size ) ; if ( ctx -> resume_from ) { gf_bs_seek ( ctx -> bs , ctx -> resume_from - 1 ) ; ctx -> resume_from = 0 ; } if ( cts == GF_FILTER_NO_TS ) prev_pck_size = 0 ; while ( 1 ) { pos = ( u32 ) gf_bs_get_position ( ctx -> bs ) ; u8 latm_buffer [ 4096 ] ; u32 latm_frame_size = 4096 ; if ( ! latm_dmx_sync_frame_bs ( ctx -> bs , & ctx -> acfg , & latm_frame_size , latm_buffer , NULL ) ) break ; if ( ctx -> in_seek ) { u64 nb_samples_at_seek = ( u64 ) ( ctx -> start_range * GF_M4ASampleRates [ ctx -> sr_idx ] ) ; if ( ctx -> cts + ctx -> dts_inc >= nb_samples_at_seek ) { ctx -> in_seek = GF_FALSE ; } } latm_dmx_check_pid ( filter , ctx ) ; if ( ! ctx -> is_playing ) { ctx -> resume_from = pos + 1 ; return GF_OK ; } if ( ! ctx -> in_seek ) { GF_FilterSAPType sap = GF_FILTER_SAP_1 ; dst_pck = gf_filter_pck_new_alloc ( ctx -> opid , latm_frame_size , & output ) ; if ( ctx -> src_pck ) gf_filter_pck_merge_properties ( ctx -> src_pck , dst_pck ) ; memcpy ( output , latm_buffer , latm_frame_size ) ; gf_filter_pck_set_cts ( dst_pck , ctx -> cts ) ; gf_filter_pck_set_duration ( dst_pck , ctx -> dts_inc ) ; gf_filter_pck_set_framing ( dst_pck , GF_TRUE , GF_TRUE ) ; if ( ctx -> acfg . base_object_type == GF_CODECID_USAC ) { if ( latm_frame_size && ( output [ 0 ] & 0x80 ) && ! ctx -> prev_sap ) { sap = GF_FILTER_SAP_1 ; ctx -> prev_sap = GF_TRUE ; } else { sap = GF_FILTER_SAP_NONE ;","GF_Err latm_dmx_process ( GF_Filter * filter ) { GF_LATMDmxCtx * ctx = gf_filter_get_udta ( filter ) ; GF_FilterPacket * pck , * dst_pck ; u32 pos ; u8 * data = NULL , * output ; u32 pck_size = 0 , prev_pck_size ; u64 cts = GF_FILTER_NO_TS ; if ( ctx -> in_error ) return ctx -> in_error ; if ( ! ctx -> duration . num ) latm_dmx_check_dur ( filter , ctx ) ; if ( ctx -> opid && ! ctx -> is_playing ) return GF_OK ; pck = gf_filter_pid_get_packet ( ctx -> ipid ) ; if ( ! pck ) { if ( gf_filter_pid_is_eos ( ctx -> ipid ) ) { if ( ! ctx -> latm_buffer_size ) { if ( ctx -> opid ) gf_filter_pid_set_eos ( ctx -> opid ) ; if ( ctx -> src_pck ) gf_filter_pck_unref ( ctx -> src_pck ) ; ctx -> src_pck = NULL ; return GF_EOS ; } } else { return GF_OK ; } } else { data = ( char * ) gf_filter_pck_get_data ( pck , & pck_size ) ; } if ( ctx -> timescale && pck ) { cts = gf_filter_pck_get_cts ( pck ) ; } prev_pck_size = ctx -> latm_buffer_size ; if ( pck && ! ctx -> resume_from ) { if ( ctx -> latm_buffer_size + pck_size > ctx -> latm_buffer_alloc ) { ctx -> latm_buffer_alloc = ctx -> latm_buffer_size + pck_size ; ctx -> latm_buffer = gf_realloc ( ctx -> latm_buffer , ctx -> latm_buffer_alloc ) ; } memcpy ( ctx -> latm_buffer + ctx -> latm_buffer_size , data , pck_size ) ; ctx -> latm_buffer_size += pck_size ; } if ( ! ctx -> bs ) ctx -> bs = gf_bs_new ( ctx -> latm_buffer , ctx -> latm_buffer_size , GF_BITSTREAM_READ ) ; else gf_bs_reassign_buffer ( ctx -> bs , ctx -> latm_buffer , ctx -> latm_buffer_size ) ; if ( ctx -> resume_from ) { gf_bs_seek ( ctx -> bs , ctx -> resume_from - 1 ) ; ctx -> resume_from = 0 ; } if ( cts == GF_FILTER_NO_TS ) prev_pck_size = 0 ; while ( 1 ) { pos = ( u32 ) gf_bs_get_position ( ctx -> bs ) ; u8 latm_buffer [ 4096 ] ; u32 latm_frame_size = 4096 ; if ( ! latm_dmx_sync_frame_bs ( ctx -> bs , & ctx -> acfg , & latm_frame_size , latm_buffer , NULL ) ) break ; if ( ctx -> in_seek ) { u64 nb_samples_at_seek = ( u64 ) ( ctx -> start_range * GF_M4ASampleRates [ ctx -> sr_idx ] ) ; if ( ctx -> cts + ctx -> dts_inc >= nb_samples_at_seek ) { ctx -> in_seek = GF_FALSE ; } } latm_dmx_check_pid ( filter , ctx ) ; if ( ! ctx -> is_playing ) { ctx -> resume_from = pos + 1 ; return GF_OK ; } if ( ! ctx -> in_seek ) { GF_FilterSAPType sap = GF_FILTER_SAP_1 ; dst_pck = gf_filter_pck_new_alloc ( ctx -> opid , latm_frame_size , & output ) ; if ( ctx -> src_pck ) gf_filter_pck_merge_properties ( ctx -> src_pck , dst_pck ) ; memcpy ( output , latm_buffer , latm_frame_size ) ; gf_filter_pck_set_cts ( dst_pck , ctx -> cts ) ; gf_filter_pck_set_duration ( dst_pck , ctx -> dts_inc ) ; gf_filter_pck_set_framing ( dst_pck , GF_TRUE , GF_TRUE ) ; if ( ctx -> acfg . base_object_type == GF_CODECID_USAC ) { if ( latm_frame_size && ( output [ 0 ] & 0x80 ) && ! ctx -> prev_sap ) { sap = GF_FILTER_SAP_1 ; ctx -> prev_sap = GF_TRUE ; } else { sap = GF_FILTER_SAP_NONE ;" 9,"CWE-119 void show_object_with_name ( FILE * out , struct object * obj , struct strbuf * path , const char * component ) { char * name = path_name ( path , component ) ; char * p ; fprintf ( out , ""%s "" , oid_to_hex ( & obj -> oid ) ) ; for ( p = name ; * p && * p != '\\n' ; p ++ ) fputc ( * p , out ) ; fputc ( '\\n' , out ) ; free ( name ) ; }","void show_object_with_name ( FILE * out , struct object * obj , const char * name ) { const char * p ; fprintf ( out , ""%s "" , oid_to_hex ( & obj -> oid ) ) ; for ( p = name ; * p && * p != '\\n' ; p ++ ) fputc ( * p , out ) ; fputc ( '\\n' , out ) ; }" 10,"CWE-763 static OM_uint32 init_ctx_new ( OM_uint32 * minor_status , spnego_gss_cred_id_t spcred , gss_ctx_id_t * ctx , send_token_flag * tokflag ) { OM_uint32 ret ; spnego_gss_ctx_id_t sc = NULL ; sc = create_spnego_ctx ( ) ; if ( sc == NULL ) return GSS_S_FAILURE ; ret = get_negotiable_mechs ( minor_status , spcred , GSS_C_INITIATE , & sc -> mech_set ) ; if ( ret != GSS_S_COMPLETE ) goto cleanup ; sc -> internal_mech = & sc -> mech_set -> elements [ 0 ] ; if ( put_mech_set ( sc -> mech_set , & sc -> DER_mechTypes ) < 0 ) { ret = GSS_S_FAILURE ; goto cleanup ; } sc -> ctx_handle = GSS_C_NO_CONTEXT ; * ctx = ( gss_ctx_id_t ) sc ; sc = NULL ; * tokflag = INIT_TOKEN_SEND ; ret = GSS_S_CONTINUE_NEEDED ; cleanup : release_spnego_ctx ( & sc ) ; return ret ; }","static OM_uint32 init_ctx_new ( OM_uint32 * minor_status , spnego_gss_cred_id_t spcred , gss_ctx_id_t * ctx , send_token_flag * tokflag ) { OM_uint32 ret ; spnego_gss_ctx_id_t sc = NULL ; sc = create_spnego_ctx ( 1 ) ; if ( sc == NULL ) return GSS_S_FAILURE ; ret = get_negotiable_mechs ( minor_status , spcred , GSS_C_INITIATE , & sc -> mech_set ) ; if ( ret != GSS_S_COMPLETE ) goto cleanup ; sc -> internal_mech = & sc -> mech_set -> elements [ 0 ] ; if ( put_mech_set ( sc -> mech_set , & sc -> DER_mechTypes ) < 0 ) { ret = GSS_S_FAILURE ; goto cleanup ; } sc -> ctx_handle = GSS_C_NO_CONTEXT ; * ctx = ( gss_ctx_id_t ) sc ; sc = NULL ; * tokflag = INIT_TOKEN_SEND ; ret = GSS_S_CONTINUE_NEEDED ; cleanup : release_spnego_ctx ( & sc ) ; return ret ; }" 11,"CWE-310 static void test_simple ( ) { json_set_alloc_funcs ( my_malloc , my_free ) ; create_and_free_complex_object ( ) ; if ( malloc_called != 20 || free_called != 20 ) fail ( ""Custom allocation failed"" ) ; }","static void test_simple ( ) { json_set_alloc_funcs ( my_malloc , my_free ) ; create_and_free_complex_object ( ) ; if ( malloc_called != 1 || free_called != 1 ) fail ( ""Custom allocation failed"" ) ; }" 12,"CWE-416 static int may_create_in_sticky ( struct dentry * const dir , struct inode * const inode ) { if ( ( ! sysctl_protected_fifos && S_ISFIFO ( inode -> i_mode ) ) || ( ! sysctl_protected_regular && S_ISREG ( inode -> i_mode ) ) || likely ( ! ( dir -> d_inode -> i_mode & S_ISVTX ) ) || uid_eq ( inode -> i_uid , dir -> d_inode -> i_uid ) || uid_eq ( current_fsuid ( ) , inode -> i_uid ) ) return 0 ; if ( likely ( dir -> d_inode -> i_mode & 0002 ) || ( dir -> d_inode -> i_mode & 0020 && ( ( sysctl_protected_fifos >= 2 && S_ISFIFO ( inode -> i_mode ) ) || ( sysctl_protected_regular >= 2 && S_ISREG ( inode -> i_mode ) ) ) ) ) { const char * operation = S_ISFIFO ( inode -> i_mode ) ? ""sticky_create_fifo"" : ""sticky_create_regular"" ; audit_log_path_denied ( AUDIT_ANOM_CREAT , operation ) ; return - EACCES ; } return 0 ; }","static int may_create_in_sticky ( umode_t dir_mode , kuid_t dir_uid , struct inode * const inode ) { if ( ( ! sysctl_protected_fifos && S_ISFIFO ( inode -> i_mode ) ) || ( ! sysctl_protected_regular && S_ISREG ( inode -> i_mode ) ) || likely ( ! ( dir_mode & S_ISVTX ) ) || uid_eq ( inode -> i_uid , dir_uid ) || uid_eq ( current_fsuid ( ) , inode -> i_uid ) ) return 0 ; if ( likely ( dir_mode & 0002 ) || ( dir_mode & 0020 && ( ( sysctl_protected_fifos >= 2 && S_ISFIFO ( inode -> i_mode ) ) || ( sysctl_protected_regular >= 2 && S_ISREG ( inode -> i_mode ) ) ) ) ) { const char * operation = S_ISFIFO ( inode -> i_mode ) ? ""sticky_create_fifo"" : ""sticky_create_regular"" ; audit_log_path_denied ( AUDIT_ANOM_CREAT , operation ) ; return - EACCES ; } return 0 ; }" 13,"CWE-20 WORD32 ih264d_mark_err_slice_skip ( dec_struct_t * ps_dec , WORD32 num_mb_skip , UWORD8 u1_is_idr_slice , UWORD16 u2_frame_num , pocstruct_t * ps_cur_poc , WORD32 prev_slice_err ) { WORD32 i2_cur_mb_addr ; UWORD32 u1_num_mbs , u1_num_mbsNby2 ; UWORD32 u1_mb_idx = ps_dec -> u1_mb_idx ; UWORD32 i2_mb_skip_run ; UWORD32 u1_num_mbs_next , u1_end_of_row ; const UWORD32 i2_pic_wdin_mbs = ps_dec -> u2_frm_wd_in_mbs ; UWORD32 u1_slice_end ; UWORD32 u1_tfr_n_mb ; UWORD32 u1_decode_nmb ; dec_bit_stream_t * const ps_bitstrm = ps_dec -> ps_bitstrm ; dec_slice_params_t * ps_slice = ps_dec -> ps_cur_slice ; UWORD32 * pu4_bitstrm_buf = ps_bitstrm -> pu4_buffer ; UWORD32 * pu4_bitstrm_ofst = & ps_bitstrm -> u4_ofst ; deblk_mb_t * ps_cur_deblk_mb ; dec_mb_info_t * ps_cur_mb_info ; parse_pmbarams_t * ps_parse_mb_data ; UWORD32 u1_inter_mb_type ; UWORD32 u1_deblk_mb_type ; UWORD16 u2_total_mbs_coded ; UWORD32 u1_mbaff = ps_slice -> u1_mbaff_frame_flag ; parse_part_params_t * ps_part_info ; WORD32 ret ; if ( ps_dec -> ps_dec_err_status -> u1_err_flag & REJECT_CUR_PIC ) { ih264d_err_pic_dispbuf_mgr ( ps_dec ) ; return 0 ; } if ( prev_slice_err == 1 ) { ps_dec -> ps_cur_slice -> u2_frame_num = u2_frame_num ; if ( ! ps_dec -> u1_first_slice_in_stream ) { ih264d_end_of_pic ( ps_dec , u1_is_idr_slice , ps_dec -> ps_cur_slice -> u2_frame_num ) ; ps_dec -> s_cur_pic_poc . u2_frame_num = ps_dec -> ps_cur_slice -> u2_frame_num ; } { WORD32 i , j , poc = 0 ; ps_dec -> ps_cur_slice -> u2_first_mb_in_slice = 0 ; ps_dec -> pf_mvpred = ih264d_mvpred_nonmbaff ; ps_dec -> p_form_mb_part_info = ih264d_form_mb_part_info_bp ; ps_dec -> p_motion_compensate = ih264d_motion_compensate_bp ; if ( ps_dec -> ps_cur_pic != NULL ) poc = ps_dec -> ps_cur_pic -> i4_poc + 2 ; j = 0 ; for ( i = 0 ; i < MAX_NUM_PIC_PARAMS ; i ++ ) if ( ps_dec -> ps_pps [ i ] . u1_is_valid == TRUE ) j = i ; { ps_dec -> ps_cur_slice -> u1_bottom_field_flag = 0 ; ps_dec -> ps_cur_slice -> u1_field_pic_flag = 0 ; ps_dec -> ps_cur_slice -> u1_slice_type = P_SLICE ; ps_dec -> ps_cur_slice -> u1_nal_ref_idc = 1 ; ps_dec -> ps_cur_slice -> u1_nal_unit_type = 1 ; ret = ih264d_start_of_pic ( ps_dec , poc , ps_cur_poc , ps_dec -> ps_cur_slice -> u2_frame_num , & ps_dec -> ps_pps [ j ] ) ; if ( ret != OK ) { return ret ; } } ps_dec -> ps_ref_pic_buf_lx [ 0 ] [ 0 ] -> u1_pic_buf_id = 0 ; ps_dec -> u4_output_present = 0 ; { ih264d_get_next_display_field ( ps_dec , ps_dec -> ps_out_buffer , & ( ps_dec -> s_disp_op ) ) ; if ( 0 != ps_dec -> s_disp_op . u4_error_code ) { ps_dec -> u4_fmt_conv_cur_row = ps_dec -> s_disp_frame_info . u4_y_ht ; } else ps_dec -> u4_output_present = 1 ; } if ( ps_dec -> u1_separate_parse == 1 )","WORD32 ih264d_mark_err_slice_skip ( dec_struct_t * ps_dec , WORD32 num_mb_skip , UWORD8 u1_is_idr_slice , UWORD16 u2_frame_num , pocstruct_t * ps_cur_poc , WORD32 prev_slice_err ) { WORD32 i2_cur_mb_addr ; UWORD32 u1_num_mbs , u1_num_mbsNby2 ; UWORD32 u1_mb_idx = ps_dec -> u1_mb_idx ; UWORD32 i2_mb_skip_run ; UWORD32 u1_num_mbs_next , u1_end_of_row ; const UWORD32 i2_pic_wdin_mbs = ps_dec -> u2_frm_wd_in_mbs ; UWORD32 u1_slice_end ; UWORD32 u1_tfr_n_mb ; UWORD32 u1_decode_nmb ; dec_bit_stream_t * const ps_bitstrm = ps_dec -> ps_bitstrm ; dec_slice_params_t * ps_slice = ps_dec -> ps_cur_slice ; UWORD32 * pu4_bitstrm_buf = ps_bitstrm -> pu4_buffer ; UWORD32 * pu4_bitstrm_ofst = & ps_bitstrm -> u4_ofst ; deblk_mb_t * ps_cur_deblk_mb ; dec_mb_info_t * ps_cur_mb_info ; parse_pmbarams_t * ps_parse_mb_data ; UWORD32 u1_inter_mb_type ; UWORD32 u1_deblk_mb_type ; UWORD16 u2_total_mbs_coded ; UWORD32 u1_mbaff = ps_slice -> u1_mbaff_frame_flag ; parse_part_params_t * ps_part_info ; WORD32 ret ; if ( ps_dec -> ps_dec_err_status -> u1_err_flag & REJECT_CUR_PIC ) { ih264d_err_pic_dispbuf_mgr ( ps_dec ) ; return 0 ; } ps_dec -> ps_dpb_cmds -> u1_long_term_reference_flag = 0 ; if ( prev_slice_err == 1 ) { ps_dec -> ps_cur_slice -> u2_frame_num = u2_frame_num ; if ( ! ps_dec -> u1_first_slice_in_stream ) { ih264d_end_of_pic ( ps_dec , u1_is_idr_slice , ps_dec -> ps_cur_slice -> u2_frame_num ) ; ps_dec -> s_cur_pic_poc . u2_frame_num = ps_dec -> ps_cur_slice -> u2_frame_num ; } { WORD32 i , j , poc = 0 ; ps_dec -> ps_cur_slice -> u2_first_mb_in_slice = 0 ; ps_dec -> pf_mvpred = ih264d_mvpred_nonmbaff ; ps_dec -> p_form_mb_part_info = ih264d_form_mb_part_info_bp ; ps_dec -> p_motion_compensate = ih264d_motion_compensate_bp ; if ( ps_dec -> ps_cur_pic != NULL ) poc = ps_dec -> ps_cur_pic -> i4_poc + 2 ; j = 0 ; for ( i = 0 ; i < MAX_NUM_PIC_PARAMS ; i ++ ) if ( ps_dec -> ps_pps [ i ] . u1_is_valid == TRUE ) j = i ; { ps_dec -> ps_cur_slice -> u1_bottom_field_flag = 0 ; ps_dec -> ps_cur_slice -> u1_field_pic_flag = 0 ; ps_dec -> ps_cur_slice -> u1_slice_type = P_SLICE ; ps_dec -> ps_cur_slice -> u1_nal_ref_idc = 1 ; ps_dec -> ps_cur_slice -> u1_nal_unit_type = 1 ; ret = ih264d_start_of_pic ( ps_dec , poc , ps_cur_poc , ps_dec -> ps_cur_slice -> u2_frame_num , & ps_dec -> ps_pps [ j ] ) ; if ( ret != OK ) { return ret ; } } ps_dec -> ps_ref_pic_buf_lx [ 0 ] [ 0 ] -> u1_pic_buf_id = 0 ; ps_dec -> u4_output_present = 0 ; { ih264d_get_next_display_field ( ps_dec , ps_dec -> ps_out_buffer , & ( ps_dec -> s_disp_op ) ) ; if ( 0 != ps_dec -> s_disp_op . u4_error_code ) { ps_dec -> u4_fmt_conv_cur_row = ps_dec -> s_disp_frame_info . u4_y_ht ; } else ps_dec -> u4_output_present = 1 ; } if ( ps_dec -> u1_separate_parse == 1 )" 14,"CWE-362 static int l2tp_ip_sendmsg ( struct kiocb * iocb , struct sock * sk , struct msghdr * msg , size_t len ) { struct sk_buff * skb ; int rc ; struct l2tp_ip_sock * lsa = l2tp_ip_sk ( sk ) ; struct inet_sock * inet = inet_sk ( sk ) ; struct ip_options * opt = inet -> opt ; struct rtable * rt = NULL ; int connected = 0 ; __be32 daddr ; if ( sock_flag ( sk , SOCK_DEAD ) ) return - ENOTCONN ; if ( msg -> msg_name ) { struct sockaddr_l2tpip * lip = ( struct sockaddr_l2tpip * ) msg -> msg_name ; if ( msg -> msg_namelen < sizeof ( * lip ) ) return - EINVAL ; if ( lip -> l2tp_family != AF_INET ) { if ( lip -> l2tp_family != AF_UNSPEC ) return - EAFNOSUPPORT ; } daddr = lip -> l2tp_addr . s_addr ; } else { if ( sk -> sk_state != TCP_ESTABLISHED ) return - EDESTADDRREQ ; daddr = inet -> inet_daddr ; connected = 1 ; } rc = - ENOMEM ; skb = sock_wmalloc ( sk , 2 + NET_SKB_PAD + sizeof ( struct iphdr ) + 4 + len , 0 , GFP_KERNEL ) ; if ( ! skb ) goto error ; skb_reserve ( skb , 2 + NET_SKB_PAD ) ; skb_reset_network_header ( skb ) ; skb_reserve ( skb , sizeof ( struct iphdr ) ) ; skb_reset_transport_header ( skb ) ; * ( ( __be32 * ) skb_put ( skb , 4 ) ) = 0 ; rc = memcpy_fromiovec ( skb_put ( skb , len ) , msg -> msg_iov , len ) ; if ( rc < 0 ) { kfree_skb ( skb ) ; goto error ; } if ( connected ) rt = ( struct rtable * ) __sk_dst_check ( sk , 0 ) ; if ( rt == NULL ) { if ( opt && opt -> srr ) daddr = opt -> faddr ; rt = ip_route_output_ports ( sock_net ( sk ) , sk , daddr , inet -> inet_saddr , inet -> inet_dport , inet -> inet_sport , sk -> sk_protocol , RT_CONN_FLAGS ( sk ) , sk -> sk_bound_dev_if ) ; if ( IS_ERR ( rt ) ) goto no_route ; sk_setup_caps ( sk , & rt -> dst ) ; } skb_dst_set ( skb , dst_clone ( & rt -> dst ) ) ; rc = ip_queue_xmit ( skb ) ; error : if ( rc >= 0 ) { lsa -> tx_packets ++ ; lsa -> tx_bytes += len ; rc = len ; } else { lsa -> tx_errors ++ ; } return rc ; no_route : IP_INC_STATS ( sock_net ( sk ) , IPSTATS_MIB_OUTNOROUTES ) ; kfree_skb ( skb ) ; return - EHOSTUNREACH ; }","static int l2tp_ip_sendmsg ( struct kiocb * iocb , struct sock * sk , struct msghdr * msg , size_t len ) { struct sk_buff * skb ; int rc ; struct l2tp_ip_sock * lsa = l2tp_ip_sk ( sk ) ; struct inet_sock * inet = inet_sk ( sk ) ; struct rtable * rt = NULL ; int connected = 0 ; __be32 daddr ; if ( sock_flag ( sk , SOCK_DEAD ) ) return - ENOTCONN ; if ( msg -> msg_name ) { struct sockaddr_l2tpip * lip = ( struct sockaddr_l2tpip * ) msg -> msg_name ; if ( msg -> msg_namelen < sizeof ( * lip ) ) return - EINVAL ; if ( lip -> l2tp_family != AF_INET ) { if ( lip -> l2tp_family != AF_UNSPEC ) return - EAFNOSUPPORT ; } daddr = lip -> l2tp_addr . s_addr ; } else { if ( sk -> sk_state != TCP_ESTABLISHED ) return - EDESTADDRREQ ; daddr = inet -> inet_daddr ; connected = 1 ; } rc = - ENOMEM ; skb = sock_wmalloc ( sk , 2 + NET_SKB_PAD + sizeof ( struct iphdr ) + 4 + len , 0 , GFP_KERNEL ) ; if ( ! skb ) goto error ; skb_reserve ( skb , 2 + NET_SKB_PAD ) ; skb_reset_network_header ( skb ) ; skb_reserve ( skb , sizeof ( struct iphdr ) ) ; skb_reset_transport_header ( skb ) ; * ( ( __be32 * ) skb_put ( skb , 4 ) ) = 0 ; rc = memcpy_fromiovec ( skb_put ( skb , len ) , msg -> msg_iov , len ) ; if ( rc < 0 ) { kfree_skb ( skb ) ; goto error ; } if ( connected ) rt = ( struct rtable * ) __sk_dst_check ( sk , 0 ) ; if ( rt == NULL ) { struct ip_options_rcu * inet_opt ; inet_opt = rcu_dereference_protected ( inet -> inet_opt , sock_owned_by_user ( sk ) ) ; if ( inet_opt && inet_opt -> opt . srr ) daddr = inet_opt -> opt . faddr ; rt = ip_route_output_ports ( sock_net ( sk ) , sk , daddr , inet -> inet_saddr , inet -> inet_dport , inet -> inet_sport , sk -> sk_protocol , RT_CONN_FLAGS ( sk ) , sk -> sk_bound_dev_if ) ; if ( IS_ERR ( rt ) ) goto no_route ; sk_setup_caps ( sk , & rt -> dst ) ; } skb_dst_set ( skb , dst_clone ( & rt -> dst ) ) ; rc = ip_queue_xmit ( skb ) ; error : if ( rc >= 0 ) { lsa -> tx_packets ++ ; lsa -> tx_bytes += len ; rc = len ; } else { lsa -> tx_errors ++ ; } return rc ; no_route : IP_INC_STATS ( sock_net ( sk ) , IPSTATS_MIB_OUTNOROUTES ) ; kfree_skb ( skb ) ; return - EHOSTUNREACH ; }" 15,"CWE-369 opj_pi_resolution_t * res = NULL ; OPJ_UINT32 index = 0 ; if ( ! pi -> first ) { goto LABEL_SKIP ; } else { OPJ_UINT32 compno , resno ; pi -> first = 0 ; pi -> dx = 0 ; pi -> dy = 0 ; for ( compno = 0 ; compno < pi -> numcomps ; compno ++ ) { comp = & pi -> comps [ compno ] ; for ( resno = 0 ; resno < comp -> numresolutions ; resno ++ ) { OPJ_UINT32 dx , dy ; res = & comp -> resolutions [ resno ] ; dx = comp -> dx * ( 1u << ( res -> pdx + comp -> numresolutions - 1 - resno ) ) ; dy = comp -> dy * ( 1u << ( res -> pdy + comp -> numresolutions - 1 - resno ) ) ; pi -> dx = ! pi -> dx ? dx : opj_uint_min ( pi -> dx , dx ) ; pi -> dy = ! pi -> dy ? dy : opj_uint_min ( pi -> dy , dy ) ; } } } if ( ! pi -> tp_on ) { pi -> poc . ty0 = pi -> ty0 ; pi -> poc . tx0 = pi -> tx0 ; pi -> poc . ty1 = pi -> ty1 ; pi -> poc . tx1 = pi -> tx1 ; } for ( pi -> resno = pi -> poc . resno0 ; pi -> resno < pi -> poc . resno1 ; pi -> resno ++ ) { for ( pi -> y = pi -> poc . ty0 ; pi -> y < pi -> poc . ty1 ; pi -> y += ( OPJ_INT32 ) ( pi -> dy - ( OPJ_UINT32 ) ( pi -> y % ( OPJ_INT32 ) pi -> dy ) ) ) { for ( pi -> x = pi -> poc . tx0 ; pi -> x < pi -> poc . tx1 ; pi -> x += ( OPJ_INT32 ) ( pi -> dx - ( OPJ_UINT32 ) ( pi -> x % ( OPJ_INT32 ) pi -> dx ) ) ) { for ( pi -> compno = pi -> poc . compno0 ; pi -> compno < pi -> poc . compno1 ; pi -> compno ++ ) { OPJ_UINT32 levelno ; OPJ_INT32 trx0 , try0 ; OPJ_INT32 trx1 , try1 ; OPJ_UINT32 rpx , rpy ; OPJ_INT32 prci , prcj ; comp = & pi -> comps [ pi -> compno ] ; if ( pi -> resno >= comp -> numresolutions ) { continue ; } res = & comp -> resolutions [ pi -> resno ] ; levelno = comp -> numresolutions - 1 - pi -> resno ; trx0 = opj_int_ceildiv ( pi -> tx0 , ( OPJ_INT32 ) ( comp -> dx << levelno ) ) ; try0 = opj_int_ceildiv ( pi -> ty0 , ( OPJ_INT32 ) ( comp -> dy << levelno ) ) ; trx1 = opj_int_ceildiv ( pi -> tx1 , ( OPJ_INT32 ) ( comp -> dx << levelno ) ) ; try1 = opj_int_ceildiv ( pi -> ty1 , ( OPJ_INT32 ) ( comp -> dy << levelno ) ) ; rpx = res -> pdx + levelno ; rpy = res -> pdy + levelno ; if ( ! ( ( pi -> y % ( OPJ_INT32 ) ( comp -> dy << rpy ) == 0 ) || ( ( pi -> y == pi -> ty0 ) && ( ( try0 << levelno ) % ( 1 << rpy ) ) ) ) ) { continue ; } if ( ! ( ( pi -> x % ( OPJ_INT32 ) ( comp -> dx << rpx ) == 0 ) || ( ( pi -> x == pi -> tx0 ) && ( ( trx0 << levelno ) % ( 1 << rpx ) ) ) ) ) { continue ; } if ( ( res -> pw == 0 ) || ( res -> ph == 0 ) ) { continue ; } if ( ( trx0 == trx1 ) || ( try0 == try1 ) ) { continue ; } prci = opj_int_floordivpow2 ( opj_int_ceildiv ( pi -> x , ( OPJ_INT32 ) ( comp -> dx << levelno ) ) , ( OPJ_INT32 ) res -> pdx ) opj_int_floordivpow2 ( trx0 , ( OPJ_INT32 ) res -> pdx ) ; prcj = opj_int_floordivpow2 ( opj_int_ceildiv ( pi -> y , ( OPJ_INT32 ) ( comp -> dy << levelno ) ) , ( OPJ_INT32 ) res -> pdy ) opj_int_floordivpow2 ( try0 , ( OPJ_INT32 ) res -> pdy ) ; pi -> precno = ( OPJ_UINT32 ) ( prci + prcj * ( OPJ_INT32 ) res -> pw ) ; for ( pi -> layno = pi -> poc . layno0 ; pi -> layno < pi -> poc . layno1 ; pi -> layno ++ ) { index = pi -> layno * pi -> step_l + pi -> resno * pi -> step_r + pi -> compno * pi -> step_c + pi -> precno * pi -> step_p ; if ( ! pi -> include [ index ] ) { pi -> include [ index ] = 1 ; return OPJ_TRUE ; } LABEL_SKIP : ; } } } } } return OPJ_FALSE ; }","opj_pi_resolution_t * res = NULL ; OPJ_UINT32 index = 0 ; if ( ! pi -> first ) { goto LABEL_SKIP ; } else { OPJ_UINT32 compno , resno ; pi -> first = 0 ; pi -> dx = 0 ; pi -> dy = 0 ; for ( compno = 0 ; compno < pi -> numcomps ; compno ++ ) { comp = & pi -> comps [ compno ] ; for ( resno = 0 ; resno < comp -> numresolutions ; resno ++ ) { OPJ_UINT32 dx , dy ; res = & comp -> resolutions [ resno ] ; dx = comp -> dx * ( 1u << ( res -> pdx + comp -> numresolutions - 1 - resno ) ) ; dy = comp -> dy * ( 1u << ( res -> pdy + comp -> numresolutions - 1 - resno ) ) ; pi -> dx = ! pi -> dx ? dx : opj_uint_min ( pi -> dx , dx ) ; pi -> dy = ! pi -> dy ? dy : opj_uint_min ( pi -> dy , dy ) ; } } } if ( ! pi -> tp_on ) { pi -> poc . ty0 = pi -> ty0 ; pi -> poc . tx0 = pi -> tx0 ; pi -> poc . ty1 = pi -> ty1 ; pi -> poc . tx1 = pi -> tx1 ; } for ( pi -> resno = pi -> poc . resno0 ; pi -> resno < pi -> poc . resno1 ; pi -> resno ++ ) { for ( pi -> y = pi -> poc . ty0 ; pi -> y < pi -> poc . ty1 ; pi -> y += ( OPJ_INT32 ) ( pi -> dy - ( OPJ_UINT32 ) ( pi -> y % ( OPJ_INT32 ) pi -> dy ) ) ) { for ( pi -> x = pi -> poc . tx0 ; pi -> x < pi -> poc . tx1 ; pi -> x += ( OPJ_INT32 ) ( pi -> dx - ( OPJ_UINT32 ) ( pi -> x % ( OPJ_INT32 ) pi -> dx ) ) ) { for ( pi -> compno = pi -> poc . compno0 ; pi -> compno < pi -> poc . compno1 ; pi -> compno ++ ) { OPJ_UINT32 levelno ; OPJ_INT32 trx0 , try0 ; OPJ_INT32 trx1 , try1 ; OPJ_UINT32 rpx , rpy ; OPJ_INT32 prci , prcj ; comp = & pi -> comps [ pi -> compno ] ; if ( pi -> resno >= comp -> numresolutions ) { continue ; } res = & comp -> resolutions [ pi -> resno ] ; levelno = comp -> numresolutions - 1 - pi -> resno ; trx0 = opj_int_ceildiv ( pi -> tx0 , ( OPJ_INT32 ) ( comp -> dx << levelno ) ) ; try0 = opj_int_ceildiv ( pi -> ty0 , ( OPJ_INT32 ) ( comp -> dy << levelno ) ) ; trx1 = opj_int_ceildiv ( pi -> tx1 , ( OPJ_INT32 ) ( comp -> dx << levelno ) ) ; try1 = opj_int_ceildiv ( pi -> ty1 , ( OPJ_INT32 ) ( comp -> dy << levelno ) ) ; rpx = res -> pdx + levelno ; rpy = res -> pdy + levelno ; if ( rpx >= 31 || ( ( comp -> dx << rpx ) >> rpx ) != comp -> dx || rpy >= 31 || ( ( comp -> dy << rpy ) >> rpy ) != comp -> dy ) { continue ; } if ( ! ( ( pi -> y % ( OPJ_INT32 ) ( comp -> dy << rpy ) == 0 ) || ( ( pi -> y == pi -> ty0 ) && ( ( try0 << levelno ) % ( 1 << rpy ) ) ) ) ) { continue ; } if ( ! ( ( pi -> x % ( OPJ_INT32 ) ( comp -> dx << rpx ) == 0 ) || ( ( pi -> x == pi -> tx0 ) && ( ( trx0 << levelno ) % ( 1 << rpx ) ) ) ) ) { continue ; } if ( ( res -> pw == 0 ) || ( res -> ph == 0 ) ) { continue ; } if ( ( trx0 == trx1 ) || ( try0 == try1 ) ) { continue ; } prci = opj_int_floordivpow2 ( opj_int_ceildiv ( pi -> x , ( OPJ_INT32 ) ( comp -> dx << levelno ) ) , ( OPJ_INT32 ) res -> pdx ) prcj = opj_int_floordivpow2 ( opj_int_ceildiv ( pi -> y , ( OPJ_INT32 ) ( comp -> dy << levelno ) ) , ( OPJ_INT32 ) res -> pdy ) pi -> precno = ( OPJ_UINT32 ) ( prci + prcj * ( OPJ_INT32 ) res -> pw ) ; for ( pi -> layno = pi -> poc . layno0 ; pi -> layno < pi -> poc . layno1 ; pi -> layno ++ ) { index = pi -> layno * pi -> step_l + pi -> resno * pi -> step_r + pi -> compno * pi -> step_c + pi -> precno * pi -> step_p ; if ( ! pi -> include [ index ] ) { pi -> include [ index ] = 1 ; return OPJ_TRUE ; } LABEL_SKIP : ; } } } } } return OPJ_FALSE ; }" 16,"CWE-119 static void scsi_dma_restart_bh ( void * opaque ) { SCSIDiskState * s = opaque ; SCSIRequest * req ; SCSIDiskReq * r ; qemu_bh_delete ( s -> bh ) ; s -> bh = NULL ; QTAILQ_FOREACH ( req , & s -> qdev . requests , next ) { r = DO_UPCAST ( SCSIDiskReq , req , req ) ; if ( r -> status & SCSI_REQ_STATUS_RETRY ) { int status = r -> status ; int ret ; r -> status &= ~ ( SCSI_REQ_STATUS_RETRY | SCSI_REQ_STATUS_RETRY_TYPE_MASK ) ; switch ( status & SCSI_REQ_STATUS_RETRY_TYPE_MASK ) { case SCSI_REQ_STATUS_RETRY_READ : scsi_read_data ( & r -> req ) ; break ; case SCSI_REQ_STATUS_RETRY_WRITE : scsi_write_data ( & r -> req ) ; break ; case SCSI_REQ_STATUS_RETRY_FLUSH : ret = scsi_disk_emulate_command ( r , r -> iov . iov_base ) ; if ( ret == 0 ) { scsi_req_complete ( & r -> req , GOOD ) ; } } } } }","static void scsi_dma_restart_bh ( void * opaque ) { SCSIDiskState * s = opaque ; SCSIRequest * req ; SCSIDiskReq * r ; qemu_bh_delete ( s -> bh ) ; s -> bh = NULL ; QTAILQ_FOREACH ( req , & s -> qdev . requests , next ) { r = DO_UPCAST ( SCSIDiskReq , req , req ) ; if ( r -> status & SCSI_REQ_STATUS_RETRY ) { int status = r -> status ; int ret ; r -> status &= ~ ( SCSI_REQ_STATUS_RETRY | SCSI_REQ_STATUS_RETRY_TYPE_MASK ) ; switch ( status & SCSI_REQ_STATUS_RETRY_TYPE_MASK ) { case SCSI_REQ_STATUS_RETRY_READ : scsi_read_data ( & r -> req ) ; break ; case SCSI_REQ_STATUS_RETRY_WRITE : scsi_write_data ( & r -> req ) ; break ; case SCSI_REQ_STATUS_RETRY_FLUSH : ret = scsi_disk_emulate_command ( r ) ; if ( ret == 0 ) { scsi_req_complete ( & r -> req , GOOD ) ; } } } } }" 17,"CWE-22 static int cleanup_pathname ( struct archive_write_disk * a ) { char * dest , * src ; char separator = '\\0' ; dest = src = a -> name ; if ( * src == '\\0' ) { archive_set_error ( & a -> archive , ARCHIVE_ERRNO_MISC , ""Invalid empty pathname"" ) ; return ( ARCHIVE_FAILED ) ; } # if defined ( __CYGWIN__ ) cleanup_pathname_win ( a ) ; # endif if ( * src == '/' ) separator = * src ++ ; for ( ; ; ) { if ( src [ 0 ] == '\\0' ) { break ; } else if ( src [ 0 ] == '/' ) { src ++ ; continue ; } else if ( src [ 0 ] == '.' ) { if ( src [ 1 ] == '\\0' ) { break ; } else if ( src [ 1 ] == '/' ) { src += 2 ; continue ; } else if ( src [ 1 ] == '.' ) { if ( src [ 2 ] == '/' || src [ 2 ] == '\\0' ) { if ( a -> flags & ARCHIVE_EXTRACT_SECURE_NODOTDOT ) { archive_set_error ( & a -> archive , ARCHIVE_ERRNO_MISC , ""Path contains \'..\'"" ) ; return ( ARCHIVE_FAILED ) ; } } } } if ( separator ) * dest ++ = '/' ; while ( * src != '\\0' && * src != '/' ) { * dest ++ = * src ++ ; } if ( * src == '\\0' ) break ; separator = * src ++ ; } if ( dest == a -> name ) { if ( separator ) * dest ++ = '/' ; else * dest ++ = '.' ; } * dest = '\\0' ; return ( ARCHIVE_OK ) ; }","static int cleanup_pathname ( struct archive_write_disk * a ) { char * dest , * src ; char separator = '\\0' ; dest = src = a -> name ; if ( * src == '\\0' ) { archive_set_error ( & a -> archive , ARCHIVE_ERRNO_MISC , ""Invalid empty pathname"" ) ; return ( ARCHIVE_FAILED ) ; } # if defined ( __CYGWIN__ ) cleanup_pathname_win ( a ) ; # endif if ( * src == '/' ) { if ( a -> flags & ARCHIVE_EXTRACT_SECURE_NOABSOLUTEPATHS ) { archive_set_error ( & a -> archive , ARCHIVE_ERRNO_MISC , ""Path is absolute"" ) ; return ( ARCHIVE_FAILED ) ; } separator = * src ++ ; } for ( ; ; ) { if ( src [ 0 ] == '\\0' ) { break ; } else if ( src [ 0 ] == '/' ) { src ++ ; continue ; } else if ( src [ 0 ] == '.' ) { if ( src [ 1 ] == '\\0' ) { break ; } else if ( src [ 1 ] == '/' ) { src += 2 ; continue ; } else if ( src [ 1 ] == '.' ) { if ( src [ 2 ] == '/' || src [ 2 ] == '\\0' ) { if ( a -> flags & ARCHIVE_EXTRACT_SECURE_NODOTDOT ) { archive_set_error ( & a -> archive , ARCHIVE_ERRNO_MISC , ""Path contains \'..\'"" ) ; return ( ARCHIVE_FAILED ) ; } } } } if ( separator ) * dest ++ = '/' ; while ( * src != '\\0' && * src != '/' ) { * dest ++ = * src ++ ; } if ( * src == '\\0' ) break ; separator = * src ++ ; } if ( dest == a -> name ) { if ( separator ) * dest ++ = '/' ; else * dest ++ = '.' ; } * dest = '\\0' ; return ( ARCHIVE_OK ) ; }" 18,"CWE-835 static int read_part_of_packet ( AVFormatContext * s , int64_t * pts , int * len , int * strid , int read_packet ) { AVIOContext * pb = s -> pb ; PVAContext * pvactx = s -> priv_data ; int syncword , streamid , reserved , flags , length , pts_flag ; int64_t pva_pts = AV_NOPTS_VALUE , startpos ; int ret ; recover : startpos = avio_tell ( pb ) ; syncword = avio_rb16 ( pb ) ; streamid = avio_r8 ( pb ) ; avio_r8 ( pb ) ; reserved = avio_r8 ( pb ) ; flags = avio_r8 ( pb ) ; length = avio_rb16 ( pb ) ; pts_flag = flags & 0x10 ; if ( syncword != PVA_MAGIC ) { pva_log ( s , AV_LOG_ERROR , ""invalid syncword\\n"" ) ; return AVERROR ( EIO ) ; } if ( streamid != PVA_VIDEO_PAYLOAD && streamid != PVA_AUDIO_PAYLOAD ) { pva_log ( s , AV_LOG_ERROR , ""invalid streamid\\n"" ) ; return AVERROR ( EIO ) ; } if ( reserved != 0x55 ) { pva_log ( s , AV_LOG_WARNING , ""expected reserved byte to be 0x55\\n"" ) ; } if ( length > PVA_MAX_PAYLOAD_LENGTH ) { pva_log ( s , AV_LOG_ERROR , ""invalid payload length %u\\n"" , length ) ; return AVERROR ( EIO ) ; } if ( streamid == PVA_VIDEO_PAYLOAD && pts_flag ) { pva_pts = avio_rb32 ( pb ) ; length -= 4 ; } else if ( streamid == PVA_AUDIO_PAYLOAD ) { if ( ! pvactx -> continue_pes ) { int pes_signal , pes_header_data_length , pes_packet_length , pes_flags ; unsigned char pes_header_data [ 256 ] ; pes_signal = avio_rb24 ( pb ) ; avio_r8 ( pb ) ; pes_packet_length = avio_rb16 ( pb ) ; pes_flags = avio_rb16 ( pb ) ; pes_header_data_length = avio_r8 ( pb ) ; if ( pes_signal != 1 || pes_header_data_length == 0 ) { pva_log ( s , AV_LOG_WARNING , ""expected non empty signaled PES packet, "" ""trying to recover\\n"" ) ; avio_skip ( pb , length - 9 ) ; if ( ! read_packet ) return AVERROR ( EIO ) ; goto recover ; } ret = avio_read ( pb , pes_header_data , pes_header_data_length ) ; if ( ret != pes_header_data_length ) return ret < 0 ? ret : AVERROR_INVALIDDATA ; length -= 9 + pes_header_data_length ; pes_packet_length -= 3 + pes_header_data_length ; pvactx -> continue_pes = pes_packet_length ; if ( pes_flags & 0x80 && ( pes_header_data [ 0 ] & 0xf0 ) == 0x20 ) { if ( pes_header_data_length < 5 ) { pva_log ( s , AV_LOG_ERROR , ""header too short\\n"" ) ; avio_skip ( pb , length ) ; return AVERROR_INVALIDDATA ; } pva_pts = ff_parse_pes_pts ( pes_header_data ) ; } } pvactx -> continue_pes -= length ; if ( pvactx -> continue_pes < 0 ) { pva_log ( s , AV_LOG_WARNING , ""audio data corruption\\n"" ) ; pvactx -> continue_pes = 0 ; } } if ( pva_pts != AV_NOPTS_VALUE ) av_add_index_entry ( s -> streams [ streamid - 1 ] , startpos , pva_pts , 0 , 0 , AVINDEX_KEYFRAME ) ; * pts = pva_pts ; * len = length ; * strid = streamid ; return 0 ; }","static int read_part_of_packet ( AVFormatContext * s , int64_t * pts , int * len , int * strid , int read_packet ) { AVIOContext * pb = s -> pb ; PVAContext * pvactx = s -> priv_data ; int syncword , streamid , reserved , flags , length , pts_flag ; int64_t pva_pts = AV_NOPTS_VALUE , startpos ; int ret ; recover : startpos = avio_tell ( pb ) ; syncword = avio_rb16 ( pb ) ; streamid = avio_r8 ( pb ) ; avio_r8 ( pb ) ; reserved = avio_r8 ( pb ) ; flags = avio_r8 ( pb ) ; length = avio_rb16 ( pb ) ; pts_flag = flags & 0x10 ; if ( syncword != PVA_MAGIC ) { pva_log ( s , AV_LOG_ERROR , ""invalid syncword\\n"" ) ; return AVERROR ( EIO ) ; } if ( streamid != PVA_VIDEO_PAYLOAD && streamid != PVA_AUDIO_PAYLOAD ) { pva_log ( s , AV_LOG_ERROR , ""invalid streamid\\n"" ) ; return AVERROR ( EIO ) ; } if ( reserved != 0x55 ) { pva_log ( s , AV_LOG_WARNING , ""expected reserved byte to be 0x55\\n"" ) ; } if ( length > PVA_MAX_PAYLOAD_LENGTH ) { pva_log ( s , AV_LOG_ERROR , ""invalid payload length %u\\n"" , length ) ; return AVERROR ( EIO ) ; } if ( streamid == PVA_VIDEO_PAYLOAD && pts_flag ) { pva_pts = avio_rb32 ( pb ) ; length -= 4 ; } else if ( streamid == PVA_AUDIO_PAYLOAD ) { if ( ! pvactx -> continue_pes ) { int pes_signal , pes_header_data_length , pes_packet_length , pes_flags ; unsigned char pes_header_data [ 256 ] ; pes_signal = avio_rb24 ( pb ) ; avio_r8 ( pb ) ; pes_packet_length = avio_rb16 ( pb ) ; pes_flags = avio_rb16 ( pb ) ; pes_header_data_length = avio_r8 ( pb ) ; if ( avio_feof ( pb ) ) { return AVERROR_EOF ; } if ( pes_signal != 1 || pes_header_data_length == 0 ) { pva_log ( s , AV_LOG_WARNING , ""expected non empty signaled PES packet, "" ""trying to recover\\n"" ) ; avio_skip ( pb , length - 9 ) ; if ( ! read_packet ) return AVERROR ( EIO ) ; goto recover ; } ret = avio_read ( pb , pes_header_data , pes_header_data_length ) ; if ( ret != pes_header_data_length ) return ret < 0 ? ret : AVERROR_INVALIDDATA ; length -= 9 + pes_header_data_length ; pes_packet_length -= 3 + pes_header_data_length ; pvactx -> continue_pes = pes_packet_length ; if ( pes_flags & 0x80 && ( pes_header_data [ 0 ] & 0xf0 ) == 0x20 ) { if ( pes_header_data_length < 5 ) { pva_log ( s , AV_LOG_ERROR , ""header too short\\n"" ) ; avio_skip ( pb , length ) ; return AVERROR_INVALIDDATA ; } pva_pts = ff_parse_pes_pts ( pes_header_data ) ; } } pvactx -> continue_pes -= length ; if ( pvactx -> continue_pes < 0 ) { pva_log ( s , AV_LOG_WARNING , ""audio data corruption\\n"" ) ; pvactx -> continue_pes = 0 ; } } if ( pva_pts != AV_NOPTS_VALUE ) av_add_index_entry ( s -> streams [ streamid - 1 ] , startpos , pva_pts , 0 , 0 , AVINDEX_KEYFRAME ) ; * pts = pva_pts ; * len = length ; * strid = streamid ; return 0 ; }" 19,"CWE-189 static int efx_ethtool_set_ringparam ( struct net_device * net_dev , struct ethtool_ringparam * ring ) { struct efx_nic * efx = netdev_priv ( net_dev ) ; if ( ring -> rx_mini_pending || ring -> rx_jumbo_pending || ring -> rx_pending > EFX_MAX_DMAQ_SIZE || ring -> tx_pending > EFX_MAX_DMAQ_SIZE ) return - EINVAL ; if ( ring -> rx_pending < EFX_MIN_RING_SIZE || ring -> tx_pending < EFX_MIN_RING_SIZE ) { netif_err ( efx , drv , efx -> net_dev , ""TX and RX queues cannot be smaller than %ld\\n"" , EFX_MIN_RING_SIZE ) ; return - EINVAL ; } return efx_realloc_channels ( efx , ring -> rx_pending , ring -> tx_pending ) ; }","static int efx_ethtool_set_ringparam ( struct net_device * net_dev , struct ethtool_ringparam * ring ) { struct efx_nic * efx = netdev_priv ( net_dev ) ; u32 txq_entries ; if ( ring -> rx_mini_pending || ring -> rx_jumbo_pending || ring -> rx_pending > EFX_MAX_DMAQ_SIZE || ring -> tx_pending > EFX_MAX_DMAQ_SIZE ) return - EINVAL ; if ( ring -> rx_pending < EFX_RXQ_MIN_ENT ) { netif_err ( efx , drv , efx -> net_dev , ""RX queues cannot be smaller than %u\\n"" , EFX_RXQ_MIN_ENT ) ; return - EINVAL ; } txq_entries = max ( ring -> tx_pending , EFX_TXQ_MIN_ENT ( efx ) ) ; if ( txq_entries != ring -> tx_pending ) netif_warn ( efx , drv , efx -> net_dev , ""increasing TX queue size to minimum of %u\\n"" , txq_entries ) ; return efx_realloc_channels ( efx , ring -> rx_pending , txq_entries ) ; }" 20,"CWE-119 static void horDiff32 ( TIFF * tif , uint8 * cp0 , tmsize_t cc ) { TIFFPredictorState * sp = PredictorState ( tif ) ; tmsize_t stride = sp -> stride ; uint32 * wp = ( uint32 * ) cp0 ; tmsize_t wc = cc / 4 ; assert ( ( cc % ( 4 * stride ) ) == 0 ) ; if ( wc > stride ) { wc -= stride ; wp += wc - 1 ; do { REPEAT4 ( stride , wp [ stride ] -= wp [ 0 ] ; wp -- ) wc -= stride ; } while ( wc > 0 ) ; } }","static int horDiff32 ( TIFF * tif , uint8 * cp0 , tmsize_t cc ) { TIFFPredictorState * sp = PredictorState ( tif ) ; tmsize_t stride = sp -> stride ; uint32 * wp = ( uint32 * ) cp0 ; tmsize_t wc = cc / 4 ; if ( ( cc % ( 4 * stride ) ) != 0 ) { TIFFErrorExt ( tif -> tif_clientdata , ""horDiff32"" , ""%s"" , ""(cc%(4*stride))!=0"" ) ; return 0 ; } if ( wc > stride ) { wc -= stride ; wp += wc - 1 ; do { REPEAT4 ( stride , wp [ stride ] -= wp [ 0 ] ; wp -- ) wc -= stride ; } while ( wc > 0 ) ; } return 1 ; }" 21,"CWE-78 if ( ! ea . skip ) { STRCPY ( IObuff , _ ( ""E492: Not an editor command"" ) ) ; if ( ! sourcing ) { if ( after_modifier != NULL ) append_command ( after_modifier ) ; else append_command ( * cmdlinep ) ; } errormsg = ( char * ) IObuff ; did_emsg_syntax = TRUE ; } goto doend ; } ni = ( ! IS_USER_CMDIDX ( ea . cmdidx ) && ( cmdnames [ ea . cmdidx ] . cmd_func == ex_ni # ifdef HAVE_EX_SCRIPT_NI || cmdnames [ ea . cmdidx ] . cmd_func == ex_script_ni # endif ) ) ; # ifndef FEAT_EVAL if ( ea . cmdidx == CMD_if ) if ( if_level ) { if ( ea . cmdidx == CMD_endif ) - if_level ; goto doend ; } # endif if ( * p == '!' && ea . cmdidx != CMD_substitute && ea . cmdidx != CMD_smagic && ea . cmdidx != CMD_snomagic ) { ea . forceit = TRUE ; } else ea . forceit = FALSE ; if ( ! IS_USER_CMDIDX ( ea . cmdidx ) ) ea . argt = ( long ) cmdnames [ ( int ) ea . cmdidx ] . cmd_argt ; if ( ! ea . skip ) { # ifdef HAVE_SANDBOX if ( sandbox != 0 && ! ( ea . argt & SBOXOK ) ) { errormsg = _ ( e_sandbox ) ; goto doend ; } # endif if ( ! curbuf -> b_p_ma && ( ea . argt & MODIFY ) ) { errormsg = _ ( e_modifiable ) ; goto doend ; } if ( text_locked ( ) && ! ( ea . argt & CMDWIN ) && ! IS_USER_CMDIDX ( ea . cmdidx ) ) { errormsg = _ ( get_text_locked_msg ( ) ) ; goto doend ; } if ( ! ( ea . argt & CMDWIN ) && ea . cmdidx != CMD_checktime && ea . cmdidx != CMD_edit && ea . cmdidx != CMD_file && ! IS_USER_CMDIDX ( ea . cmdidx ) && curbuf_locked ( ) ) goto doend ; if ( ! ni && ! ( ea . argt & RANGE ) && ea . addr_count > 0 ) { errormsg = _ ( e_norange ) ; goto doend ; } } if ( ! ni && ! ( ea . argt & BANG ) && ea . forceit ) { errormsg = _ ( e_nobang ) ; goto doend ; } if ( ! ea . skip && ! ni ) { if ( ! global_busy && ea . line1 > ea . line2 ) { if ( msg_silent == 0 ) { if ( sourcing || exmode_active ) { errormsg = _ ( ""E493: Backwards range given"" ) ; goto doend ; } if ( ask_yesno ( ( char_u * ) _ ( ""Backwards range given, OK to swap"" ) , FALSE ) != 'y' ) goto doend ; } lnum = ea . line1 ; ea . line1 = ea . line2 ; ea . line2 = lnum ; } if ( ( errormsg = invalid_range ( & ea ) ) != NULL ) goto doend ;","if ( ! ea . skip ) { STRCPY ( IObuff , _ ( ""E492: Not an editor command"" ) ) ; if ( ! sourcing ) { if ( after_modifier != NULL ) append_command ( after_modifier ) ; else append_command ( * cmdlinep ) ; } errormsg = ( char * ) IObuff ; did_emsg_syntax = TRUE ; } goto doend ; } ni = ( ! IS_USER_CMDIDX ( ea . cmdidx ) && ( cmdnames [ ea . cmdidx ] . cmd_func == ex_ni # ifdef HAVE_EX_SCRIPT_NI || cmdnames [ ea . cmdidx ] . cmd_func == ex_script_ni # endif ) ) ; # ifndef FEAT_EVAL if ( ea . cmdidx == CMD_if ) + if_level ; if ( if_level ) { if ( ea . cmdidx == CMD_endif ) goto doend ; } # endif if ( * p == '!' && ea . cmdidx != CMD_substitute && ea . cmdidx != CMD_smagic && ea . cmdidx != CMD_snomagic ) { + p ; ea . forceit = TRUE ; } else ea . forceit = FALSE ; if ( ! IS_USER_CMDIDX ( ea . cmdidx ) ) ea . argt = ( long ) cmdnames [ ( int ) ea . cmdidx ] . cmd_argt ; if ( ! ea . skip ) { # ifdef HAVE_SANDBOX if ( sandbox != 0 && ! ( ea . argt & SBOXOK ) ) { errormsg = _ ( e_sandbox ) ; goto doend ; } # endif if ( restricted != 0 && ( ea . argt & RESTRICT ) ) { errormsg = _ ( ""E981: Command not allowed in rvim"" ) ; goto doend ; } if ( ! curbuf -> b_p_ma && ( ea . argt & MODIFY ) ) { errormsg = _ ( e_modifiable ) ; goto doend ; } if ( text_locked ( ) && ! ( ea . argt & CMDWIN ) && ! IS_USER_CMDIDX ( ea . cmdidx ) ) { errormsg = _ ( get_text_locked_msg ( ) ) ; goto doend ; } if ( ! ( ea . argt & CMDWIN ) && ea . cmdidx != CMD_checktime && ea . cmdidx != CMD_edit && ea . cmdidx != CMD_file && ! IS_USER_CMDIDX ( ea . cmdidx ) && curbuf_locked ( ) ) goto doend ; if ( ! ni && ! ( ea . argt & RANGE ) && ea . addr_count > 0 ) { errormsg = _ ( e_norange ) ; goto doend ; } } if ( ! ni && ! ( ea . argt & BANG ) && ea . forceit ) { errormsg = _ ( e_nobang ) ; goto doend ; } if ( ! ea . skip && ! ni ) { if ( ! global_busy && ea . line1 > ea . line2 ) { if ( msg_silent == 0 ) { if ( sourcing || exmode_active ) { errormsg = _ ( ""E493: Backwards range given"" ) ; goto doend ; } if ( ask_yesno ( ( char_u * ) _ ( ""Backwards range given, OK to swap"" ) , FALSE ) != 'y' ) goto doend ; } lnum = ea . line1 ; ea . line1 = ea . line2 ; ea . line2 = lnum ; } if ( ( errormsg = invalid_range ( & ea ) ) != NULL ) goto doend ;" 22,"CWE-190 static PyObject * _pickle_UnpicklerMemoProxy_copy_impl ( UnpicklerMemoProxyObject * self ) { Py_ssize_t i ; PyObject * new_memo = PyDict_New ( ) ; if ( new_memo == NULL ) return NULL ; for ( i = 0 ; i < self -> unpickler -> memo_size ; i ++ ) { int status ; PyObject * key , * value ; value = self -> unpickler -> memo [ i ] ; if ( value == NULL ) continue ; key = PyLong_FromSsize_t ( i ) ; if ( key == NULL ) goto error ; status = PyDict_SetItem ( new_memo , key , value ) ; Py_DECREF ( key ) ; if ( status < 0 ) goto error ; } return new_memo ; error : Py_DECREF ( new_memo ) ; return NULL ; }","static PyObject * _pickle_UnpicklerMemoProxy_copy_impl ( UnpicklerMemoProxyObject * self ) { size_t i ; PyObject * new_memo = PyDict_New ( ) ; if ( new_memo == NULL ) return NULL ; for ( i = 0 ; i < self -> unpickler -> memo_size ; i ++ ) { int status ; PyObject * key , * value ; value = self -> unpickler -> memo [ i ] ; if ( value == NULL ) continue ; key = PyLong_FromSsize_t ( i ) ; if ( key == NULL ) goto error ; status = PyDict_SetItem ( new_memo , key , value ) ; Py_DECREF ( key ) ; if ( status < 0 ) goto error ; } return new_memo ; error : Py_DECREF ( new_memo ) ; return NULL ; }" 23,"CWE-476 static int mpeg4_decode_profile_level ( MpegEncContext * s , GetBitContext * gb ) { s -> avctx -> profile = get_bits ( gb , 4 ) ; s -> avctx -> level = get_bits ( gb , 4 ) ; if ( s -> avctx -> profile == 0 && s -> avctx -> level == 8 ) { s -> avctx -> level = 0 ; } return 0 ; }","static int mpeg4_decode_profile_level ( MpegEncContext * s , GetBitContext * gb , int * profile , int * level ) { * profile = get_bits ( gb , 4 ) ; * level = get_bits ( gb , 4 ) ; if ( * profile == 0 && * level == 8 ) { * level = 0 ; } return 0 ; }" 24,"CWE-611 int xml_init ( modsec_rec * msr , char * * error_msg ) { if ( error_msg == NULL ) return - 1 ; * error_msg = NULL ; msr -> xml = apr_pcalloc ( msr -> mp , sizeof ( xml_data ) ) ; if ( msr -> xml == NULL ) return - 1 ; return 1 ; }","int xml_init ( modsec_rec * msr , char * * error_msg ) { xmlParserInputBufferCreateFilenameFunc entity ; if ( error_msg == NULL ) return - 1 ; * error_msg = NULL ; msr -> xml = apr_pcalloc ( msr -> mp , sizeof ( xml_data ) ) ; if ( msr -> xml == NULL ) return - 1 ; if ( msr -> txcfg -> xml_external_entity == 0 ) { entity = xmlParserInputBufferCreateFilenameDefault ( xml_unload_external_entity ) ; } return 1 ; }" 25,"CWE-119 static vpx_codec_err_t vp8e_encode ( vpx_codec_alg_priv_t * ctx , const vpx_image_t * img , vpx_codec_pts_t pts , unsigned long duration , vpx_enc_frame_flags_t flags , unsigned long deadline ) { vpx_codec_err_t res = VPX_CODEC_OK ; if ( ! ctx -> cfg . rc_target_bitrate ) return res ; if ( img ) res = validate_img ( ctx , img ) ; if ( ! res ) res = validate_config ( ctx , & ctx -> cfg , & ctx -> vp8_cfg , 1 ) ; pick_quickcompress_mode ( ctx , duration , deadline ) ; vpx_codec_pkt_list_init ( & ctx -> pkt_list ) ; if ( ( ( flags & VP8_EFLAG_NO_UPD_GF ) && ( flags & VP8_EFLAG_FORCE_GF ) ) || ( ( flags & VP8_EFLAG_NO_UPD_ARF ) && ( flags & VP8_EFLAG_FORCE_ARF ) ) ) { ctx -> base . err_detail = ""Conflicting flags."" ; return VPX_CODEC_INVALID_PARAM ; } if ( flags & ( VP8_EFLAG_NO_REF_LAST | VP8_EFLAG_NO_REF_GF | VP8_EFLAG_NO_REF_ARF ) ) { int ref = 7 ; if ( flags & VP8_EFLAG_NO_REF_LAST ) ref ^= VP8_LAST_FRAME ; if ( flags & VP8_EFLAG_NO_REF_GF ) ref ^= VP8_GOLD_FRAME ; if ( flags & VP8_EFLAG_NO_REF_ARF ) ref ^= VP8_ALTR_FRAME ; vp8_use_as_reference ( ctx -> cpi , ref ) ; } if ( flags & ( VP8_EFLAG_NO_UPD_LAST | VP8_EFLAG_NO_UPD_GF | VP8_EFLAG_NO_UPD_ARF | VP8_EFLAG_FORCE_GF | VP8_EFLAG_FORCE_ARF ) ) { int upd = 7 ; if ( flags & VP8_EFLAG_NO_UPD_LAST ) upd ^= VP8_LAST_FRAME ; if ( flags & VP8_EFLAG_NO_UPD_GF ) upd ^= VP8_GOLD_FRAME ; if ( flags & VP8_EFLAG_NO_UPD_ARF ) upd ^= VP8_ALTR_FRAME ; vp8_update_reference ( ctx -> cpi , upd ) ; } if ( flags & VP8_EFLAG_NO_UPD_ENTROPY ) { vp8_update_entropy ( ctx -> cpi , 0 ) ; } if ( ctx -> cfg . kf_mode == VPX_KF_AUTO && ctx -> cfg . kf_min_dist == ctx -> cfg . kf_max_dist ) { if ( ++ ctx -> fixed_kf_cntr > ctx -> cfg . kf_min_dist ) { flags |= VPX_EFLAG_FORCE_KF ; ctx -> fixed_kf_cntr = 1 ; } } if ( ! res && ctx -> cpi ) { unsigned int lib_flags ; YV12_BUFFER_CONFIG sd ; int64_t dst_time_stamp , dst_end_time_stamp ; unsigned long size , cx_data_sz ; unsigned char * cx_data ; unsigned char * cx_data_end ; int comp_data_state = 0 ; if ( ctx -> base . init_flags & VPX_CODEC_USE_PSNR ) ( ( VP8_COMP * ) ctx -> cpi ) -> b_calculate_psnr = 1 ; if ( ctx -> base . init_flags & VPX_CODEC_USE_OUTPUT_PARTITION ) ( ( VP8_COMP * ) ctx -> cpi ) -> output_partition = 1 ; lib_flags = ( flags & VPX_EFLAG_FORCE_KF ) ? FRAMEFLAGS_KEY : 0 ; dst_time_stamp = pts * 10000000 * ctx -> cfg . g_timebase . num / ctx -> cfg . g_timebase . den ; dst_end_time_stamp = ( pts + duration ) * 10000000 * ctx -> cfg . g_timebase . num / ctx -> cfg . g_timebase . den ; if ( img != NULL ) { res = image2yuvconfig ( img , & sd ) ; if ( vp8_receive_raw_frame ( ctx -> cpi , ctx -> next_frame_flag | lib_flags , & sd , dst_time_stamp , dst_end_time_stamp ) ) { VP8_COMP * cpi = ( VP8_COMP * ) ctx -> cpi ; res = update_error_state ( ctx , & cpi -> common . error ) ; } ctx -> next_frame_flag = 0 ; } cx_data = ctx -> cx_data ; cx_data_sz = ctx -> cx_data_sz ; cx_data_end = ctx -> cx_data + cx_data_sz ; lib_flags = 0 ; while ( cx_data_sz >= ctx -> cx_data_sz / 2 ) { comp_data_state = vp8_get_compressed_data ( ctx -> cpi , & lib_flags , & size , cx_data , cx_data_end , & dst_time_stamp , & dst_end_time_stamp , ! img ) ; if ( comp_data_state == VPX_CODEC_CORRUPT_FRAME ) return VPX_CODEC_CORRUPT_FRAME ; else if ( comp_data_state == - 1 ) break ; if ( size ) { vpx_codec_pts_t round , delta ; vpx_codec_cx_pkt_t pkt ; VP8_COMP * cpi = ( VP8_COMP * ) ctx -> cpi ; round = ( vpx_codec_pts_t ) 1000000 * ctx -> cfg . g_timebase . num / 2 - 1 ; delta = ( dst_end_time_stamp - dst_time_stamp ) ; pkt . kind = VPX_CODEC_CX_FRAME_PKT ; pkt . data . frame . pts = ( dst_time_stamp * ctx -> cfg . g_timebase . den + round ) / ctx -> cfg . g_timebase . num / 10000000 ; pkt . data . frame . duration = ( unsigned long ) ( ( delta * ctx -> cfg . g_timebase . den + round ) / ctx -> cfg . g_timebase . num / 10000000 ) ; pkt . data . frame . flags = lib_flags << 16 ; if ( lib_flags & FRAMEFLAGS_KEY ) pkt . data . frame . flags |= VPX_FRAME_IS_KEY ; if ( ! cpi -> common . show_frame ) { pkt . data . frame . flags |= VPX_FRAME_IS_INVISIBLE ; pkt . data . frame . pts = ( ( cpi -> last_time_stamp_seen * ctx -> cfg . g_timebase . den + round ) / ctx -> cfg . g_timebase . num / 10000000 ) + 1 ; pkt . data . frame . duration = 0 ; } if ( cpi -> droppable ) pkt . data . frame . flags |= VPX_FRAME_IS_DROPPABLE ; if ( cpi -> output_partition ) { int i ; const int num_partitions = ( 1 << cpi -> common . multi_token_partition ) + 1 ; pkt . data . frame . flags |= VPX_FRAME_IS_FRAGMENT ; for ( i = 0 ; i < num_partitions ; ++ i ) { # if CONFIG_REALTIME_ONLY & CONFIG_ONTHEFLY_BITPACKING pkt . data . frame . buf = cpi -> partition_d [ i ] ; # else pkt . data . frame . buf = cx_data ; cx_data += cpi -> partition_sz [ i ] ; cx_data_sz -= cpi -> partition_sz [ i ] ; # endif pkt . data . frame . sz = cpi -> partition_sz [ i ] ; pkt . data . frame . partition_id = i ; if ( i == ( num_partitions - 1 ) ) pkt . data . frame . flags &= ~ VPX_FRAME_IS_FRAGMENT ; vpx_codec_pkt_list_add ( & ctx -> pkt_list . head , & pkt ) ; } # if CONFIG_REALTIME_ONLY & CONFIG_ONTHEFLY_BITPACKING cx_data_sz -= ctx -> cx_data_sz / 2 ; # endif } else { pkt . data . frame . buf = cx_data ;","static vpx_codec_err_t vp8e_encode ( vpx_codec_alg_priv_t * ctx , const vpx_image_t * img , vpx_codec_pts_t pts , unsigned long duration , vpx_enc_frame_flags_t flags , unsigned long deadline ) { vpx_codec_err_t res = VPX_CODEC_OK ; if ( ! ctx -> cfg . rc_target_bitrate ) return res ; if ( img ) res = validate_img ( ctx , img ) ; if ( ! res ) res = validate_config ( ctx , & ctx -> cfg , & ctx -> vp8_cfg , 1 ) ; pick_quickcompress_mode ( ctx , duration , deadline ) ; vpx_codec_pkt_list_init ( & ctx -> pkt_list ) ; if ( ! flags ) { flags = ctx -> control_frame_flags ; } ctx -> control_frame_flags = 0 ; res = set_reference_and_update ( ctx , flags ) ; if ( ctx -> cfg . kf_mode == VPX_KF_AUTO && ctx -> cfg . kf_min_dist == ctx -> cfg . kf_max_dist ) { if ( ++ ctx -> fixed_kf_cntr > ctx -> cfg . kf_min_dist ) { flags |= VPX_EFLAG_FORCE_KF ; ctx -> fixed_kf_cntr = 1 ; } } if ( ! res && ctx -> cpi ) { unsigned int lib_flags ; YV12_BUFFER_CONFIG sd ; int64_t dst_time_stamp , dst_end_time_stamp ; unsigned long size , cx_data_sz ; unsigned char * cx_data ; unsigned char * cx_data_end ; int comp_data_state = 0 ; if ( ctx -> base . init_flags & VPX_CODEC_USE_PSNR ) ( ( VP8_COMP * ) ctx -> cpi ) -> b_calculate_psnr = 1 ; if ( ctx -> base . init_flags & VPX_CODEC_USE_OUTPUT_PARTITION ) ( ( VP8_COMP * ) ctx -> cpi ) -> output_partition = 1 ; lib_flags = ( flags & VPX_EFLAG_FORCE_KF ) ? FRAMEFLAGS_KEY : 0 ; dst_time_stamp = pts * 10000000 * ctx -> cfg . g_timebase . num / ctx -> cfg . g_timebase . den ; dst_end_time_stamp = ( pts + duration ) * 10000000 * ctx -> cfg . g_timebase . num / ctx -> cfg . g_timebase . den ; if ( img != NULL ) { res = image2yuvconfig ( img , & sd ) ; if ( vp8_receive_raw_frame ( ctx -> cpi , ctx -> next_frame_flag | lib_flags , & sd , dst_time_stamp , dst_end_time_stamp ) ) { VP8_COMP * cpi = ( VP8_COMP * ) ctx -> cpi ; res = update_error_state ( ctx , & cpi -> common . error ) ; } ctx -> next_frame_flag = 0 ; } cx_data = ctx -> cx_data ; cx_data_sz = ctx -> cx_data_sz ; cx_data_end = ctx -> cx_data + cx_data_sz ; lib_flags = 0 ; while ( cx_data_sz >= ctx -> cx_data_sz / 2 ) { comp_data_state = vp8_get_compressed_data ( ctx -> cpi , & lib_flags , & size , cx_data , cx_data_end , & dst_time_stamp , & dst_end_time_stamp , ! img ) ; if ( comp_data_state == VPX_CODEC_CORRUPT_FRAME ) return VPX_CODEC_CORRUPT_FRAME ; else if ( comp_data_state == - 1 ) break ; if ( size ) { vpx_codec_pts_t round , delta ; vpx_codec_cx_pkt_t pkt ; VP8_COMP * cpi = ( VP8_COMP * ) ctx -> cpi ; round = ( vpx_codec_pts_t ) 10000000 * ctx -> cfg . g_timebase . num / 2 - 1 ; delta = ( dst_end_time_stamp - dst_time_stamp ) ; pkt . kind = VPX_CODEC_CX_FRAME_PKT ; pkt . data . frame . pts = ( dst_time_stamp * ctx -> cfg . g_timebase . den + round ) / ctx -> cfg . g_timebase . num / 10000000 ; pkt . data . frame . duration = ( unsigned long ) ( ( delta * ctx -> cfg . g_timebase . den + round ) / ctx -> cfg . g_timebase . num / 10000000 ) ; pkt . data . frame . flags = lib_flags << 16 ; if ( lib_flags & FRAMEFLAGS_KEY ) pkt . data . frame . flags |= VPX_FRAME_IS_KEY ; if ( ! cpi -> common . show_frame ) { pkt . data . frame . flags |= VPX_FRAME_IS_INVISIBLE ; pkt . data . frame . pts = ( ( cpi -> last_time_stamp_seen * ctx -> cfg . g_timebase . den + round ) / ctx -> cfg . g_timebase . num / 10000000 ) + 1 ; pkt . data . frame . duration = 0 ; } if ( cpi -> droppable ) pkt . data . frame . flags |= VPX_FRAME_IS_DROPPABLE ; if ( cpi -> output_partition ) { int i ; const int num_partitions = ( 1 << cpi -> common . multi_token_partition ) + 1 ; pkt . data . frame . flags |= VPX_FRAME_IS_FRAGMENT ; for ( i = 0 ; i < num_partitions ; ++ i ) { # if CONFIG_REALTIME_ONLY & CONFIG_ONTHEFLY_BITPACKING pkt . data . frame . buf = cpi -> partition_d [ i ] ; # else pkt . data . frame . buf = cx_data ; cx_data += cpi -> partition_sz [ i ] ; cx_data_sz -= cpi -> partition_sz [ i ] ; # endif pkt . data . frame . sz = cpi -> partition_sz [ i ] ; pkt . data . frame . partition_id = i ; if ( i == ( num_partitions - 1 ) ) pkt . data . frame . flags &= ~ VPX_FRAME_IS_FRAGMENT ; vpx_codec_pkt_list_add ( & ctx -> pkt_list . head , & pkt ) ; } # if CONFIG_REALTIME_ONLY & CONFIG_ONTHEFLY_BITPACKING cx_data_sz -= ctx -> cx_data_sz / 2 ; # endif } else { pkt . data . frame . buf = cx_data ;" 26,"CWE-269 long FS_FOpenFileRead ( const char * filename , fileHandle_t * file , qboolean uniqueFILE ) { searchpath_t * search ; long len ; if ( ! fs_searchpaths ) Com_Error ( ERR_FATAL , ""Filesystem call made without initialization"" ) ; for ( search = fs_searchpaths ; search ; search = search -> next ) { len = FS_FOpenFileReadDir ( filename , search , file , uniqueFILE , qfalse ) ; if ( file == NULL ) { if ( len > 0 ) return len ; } else { if ( len >= 0 && * file ) return len ; } } # ifdef FS_MISSING if ( missingFiles ) fprintf ( missingFiles , ""%s\\n"" , filename ) ; # endif if ( file ) { * file = 0 ; return - 1 ; } else { return 0 ; } }","long FS_FOpenFileRead ( const char * filename , fileHandle_t * file , qboolean uniqueFILE ) { searchpath_t * search ; long len ; qboolean isLocalConfig ; if ( ! fs_searchpaths ) Com_Error ( ERR_FATAL , ""Filesystem call made without initialization"" ) ; isLocalConfig = ! strcmp ( filename , ""autoexec.cfg"" ) || ! strcmp ( filename , Q3CONFIG_CFG ) ; for ( search = fs_searchpaths ; search ; search = search -> next ) { if ( isLocalConfig && search -> pack ) continue ; len = FS_FOpenFileReadDir ( filename , search , file , uniqueFILE , qfalse ) ; if ( file == NULL ) { if ( len > 0 ) return len ; } else { if ( len >= 0 && * file ) return len ; } } # ifdef FS_MISSING if ( missingFiles ) fprintf ( missingFiles , ""%s\\n"" , filename ) ; # endif if ( file ) { * file = 0 ; return - 1 ; } else { return 0 ; } }" 27,"CWE-119 static void store_coding_context ( MACROBLOCK * x , PICK_MODE_CONTEXT * ctx , int mode_index , int_mv * ref_mv , int_mv * second_ref_mv , int64_t comp_pred_diff [ REFERENCE_MODES ] , int64_t tx_size_diff [ TX_MODES ] , int64_t best_filter_diff [ SWITCHABLE_FILTER_CONTEXTS ] ) { MACROBLOCKD * const xd = & x -> e_mbd ; ctx -> skip = x -> skip ; ctx -> best_mode_index = mode_index ; ctx -> mic = * xd -> mi [ 0 ] ; ctx -> best_ref_mv [ 0 ] . as_int = ref_mv -> as_int ; ctx -> best_ref_mv [ 1 ] . as_int = second_ref_mv -> as_int ; ctx -> single_pred_diff = ( int ) comp_pred_diff [ SINGLE_REFERENCE ] ; ctx -> comp_pred_diff = ( int ) comp_pred_diff [ COMPOUND_REFERENCE ] ; ctx -> hybrid_pred_diff = ( int ) comp_pred_diff [ REFERENCE_MODE_SELECT ] ; vpx_memcpy ( ctx -> tx_rd_diff , tx_size_diff , sizeof ( ctx -> tx_rd_diff ) ) ; vpx_memcpy ( ctx -> best_filter_diff , best_filter_diff , sizeof ( * best_filter_diff ) * SWITCHABLE_FILTER_CONTEXTS ) ; }","static void store_coding_context ( MACROBLOCK * x , PICK_MODE_CONTEXT * ctx , int mode_index , int64_t comp_pred_diff [ REFERENCE_MODES ] , int64_t best_filter_diff [ SWITCHABLE_FILTER_CONTEXTS ] , int skippable ) { MACROBLOCKD * const xd = & x -> e_mbd ; ctx -> skip = x -> skip ; ctx -> skippable = skippable ; ctx -> best_mode_index = mode_index ; ctx -> mic = * xd -> mi [ 0 ] ; ctx -> mbmi_ext = * x -> mbmi_ext ; ctx -> single_pred_diff = ( int ) comp_pred_diff [ SINGLE_REFERENCE ] ; ctx -> comp_pred_diff = ( int ) comp_pred_diff [ COMPOUND_REFERENCE ] ; ctx -> hybrid_pred_diff = ( int ) comp_pred_diff [ REFERENCE_MODE_SELECT ] ; memcpy ( ctx -> best_filter_diff , best_filter_diff , sizeof ( * best_filter_diff ) * SWITCHABLE_FILTER_CONTEXTS ) ; }" 28,"CWE-362 action . sa_handler = su_catch_sig ; sigemptyset ( & action . sa_mask ) ; action . sa_flags = 0 ; sigemptyset ( & ourset ) ; if ( ! same_session ) { if ( sigaddset ( & ourset , SIGINT ) || sigaddset ( & ourset , SIGQUIT ) ) { warn ( _ ( ""cannot set signal handler"" ) ) ; caught_signal = true ; } } if ( ! caught_signal && ( sigaddset ( & ourset , SIGTERM ) || sigaddset ( & ourset , SIGALRM ) || sigaction ( SIGTERM , & action , & oldact [ 0 ] ) || sigprocmask ( SIG_UNBLOCK , & ourset , NULL ) ) ) { warn ( _ ( ""cannot set signal handler"" ) ) ; caught_signal = true ; } if ( ! caught_signal && ! same_session && ( sigaction ( SIGINT , & action , & oldact [ 1 ] ) || sigaction ( SIGQUIT , & action , & oldact [ 2 ] ) ) ) { warn ( _ ( ""cannot set signal handler"" ) ) ; caught_signal = true ; } } if ( ! caught_signal ) { pid_t pid ; for ( ; ; ) { pid = waitpid ( child , & status , WUNTRACED ) ; if ( pid != ( pid_t ) - 1 && WIFSTOPPED ( status ) ) { kill ( getpid ( ) , SIGSTOP ) ; kill ( pid , SIGCONT ) ; } else break ; } if ( pid != ( pid_t ) - 1 ) { if ( WIFSIGNALED ( status ) ) { fprintf ( stderr , ""%s%s\\n"" , strsignal ( WTERMSIG ( status ) ) , WCOREDUMP ( status ) ? _ ( "" (core dumped)"" ) : """" ) ; status = WTERMSIG ( status ) + 128 ; } else status = WEXITSTATUS ( status ) ; } else if ( caught_signal ) status = caught_signal + 128 ; else status = 1 ; } else status = 1 ; if ( caught_signal ) { fprintf ( stderr , _ ( ""\\nSession terminated, killing shell..."" ) ) ; kill ( child , SIGTERM ) ; } cleanup_pam ( PAM_SUCCESS ) ; if ( caught_signal ) { sleep ( 2 ) ; kill ( child , SIGKILL ) ; fprintf ( stderr , _ ( "" ...killed.\\n"" ) ) ; switch ( caught_signal ) { case SIGTERM : sigaction ( SIGTERM , & oldact [ 0 ] , NULL ) ; break ; case SIGINT : sigaction ( SIGINT , & oldact [ 1 ] , NULL ) ; break ; case SIGQUIT : sigaction ( SIGQUIT , & oldact [ 2 ] , NULL ) ; break ; default : caught_signal = SIGKILL ; break ; } kill ( getpid ( ) , caught_signal ) ; } exit ( status ) ; }","action . sa_handler = su_catch_sig ; sigemptyset ( & action . sa_mask ) ; action . sa_flags = 0 ; sigemptyset ( & ourset ) ; if ( ! same_session ) { if ( sigaddset ( & ourset , SIGINT ) || sigaddset ( & ourset , SIGQUIT ) ) { warn ( _ ( ""cannot set signal handler"" ) ) ; caught_signal = true ; } } if ( ! caught_signal && ( sigaddset ( & ourset , SIGTERM ) || sigaddset ( & ourset , SIGALRM ) || sigaction ( SIGTERM , & action , & oldact [ 0 ] ) || sigprocmask ( SIG_UNBLOCK , & ourset , NULL ) ) ) { warn ( _ ( ""cannot set signal handler"" ) ) ; caught_signal = true ; } if ( ! caught_signal && ! same_session && ( sigaction ( SIGINT , & action , & oldact [ 1 ] ) || sigaction ( SIGQUIT , & action , & oldact [ 2 ] ) ) ) { warn ( _ ( ""cannot set signal handler"" ) ) ; caught_signal = true ; } } if ( ! caught_signal ) { pid_t pid ; for ( ; ; ) { pid = waitpid ( child , & status , WUNTRACED ) ; if ( pid != ( pid_t ) - 1 && WIFSTOPPED ( status ) ) { kill ( getpid ( ) , SIGSTOP ) ; kill ( pid , SIGCONT ) ; } else break ; } if ( pid != ( pid_t ) - 1 ) { if ( WIFSIGNALED ( status ) ) { fprintf ( stderr , ""%s%s\\n"" , strsignal ( WTERMSIG ( status ) ) , WCOREDUMP ( status ) ? _ ( "" (core dumped)"" ) : """" ) ; status = WTERMSIG ( status ) + 128 ; } else status = WEXITSTATUS ( status ) ; child = ( pid_t ) - 1 ; } else if ( caught_signal ) status = caught_signal + 128 ; else status = 1 ; } else status = 1 ; if ( caught_signal && child != ( pid_t ) - 1 ) { fprintf ( stderr , _ ( ""\\nSession terminated, killing shell..."" ) ) ; kill ( child , SIGTERM ) ; } cleanup_pam ( PAM_SUCCESS ) ; if ( caught_signal ) { if ( child != ( pid_t ) - 1 ) { sleep ( 2 ) ; kill ( child , SIGKILL ) ; fprintf ( stderr , _ ( "" ...killed.\\n"" ) ) ; } switch ( caught_signal ) { case SIGTERM : sigaction ( SIGTERM , & oldact [ 0 ] , NULL ) ; break ; case SIGINT : sigaction ( SIGINT , & oldact [ 1 ] , NULL ) ; break ; case SIGQUIT : sigaction ( SIGQUIT , & oldact [ 2 ] , NULL ) ; break ; default : caught_signal = SIGKILL ; break ; } kill ( getpid ( ) , caught_signal ) ; } exit ( status ) ; }" 29,"CWE-119 static int header_gets ( SF_PRIVATE * psf , char * ptr , int bufsize ) { int k ; for ( k = 0 ; k < bufsize - 1 ; k ++ ) { if ( psf -> headindex < psf -> headend ) { ptr [ k ] = psf -> header [ psf -> headindex ] ; psf -> headindex ++ ; } else { psf -> headend += psf_fread ( psf -> header + psf -> headend , 1 , 1 , psf ) ; ptr [ k ] = psf -> header [ psf -> headindex ] ; psf -> headindex = psf -> headend ; } ; if ( ptr [ k ] == '\\n' ) break ; } ; ptr [ k ] = 0 ; return k ; }","static int header_gets ( SF_PRIVATE * psf , char * ptr , int bufsize ) { int k ; if ( psf -> header . indx + bufsize >= psf -> header . len && psf_bump_header_allocation ( psf , bufsize ) ) return 0 ; for ( k = 0 ; k < bufsize - 1 ; k ++ ) { if ( psf -> header . indx < psf -> header . end ) { ptr [ k ] = psf -> header . ptr [ psf -> header . indx ] ; psf -> header . indx ++ ; } else { psf -> header . end += psf_fread ( psf -> header . ptr + psf -> header . end , 1 , 1 , psf ) ; ptr [ k ] = psf -> header . ptr [ psf -> header . indx ] ; psf -> header . indx = psf -> header . end ; } ; if ( ptr [ k ] == '\\n' ) break ; } ; ptr [ k ] = 0 ; return k ; }" 30,"CWE-285 int ceph_set_acl ( struct inode * inode , struct posix_acl * acl , int type ) { int ret = 0 , size = 0 ; const char * name = NULL ; char * value = NULL ; struct iattr newattrs ; umode_t new_mode = inode -> i_mode , old_mode = inode -> i_mode ; switch ( type ) { case ACL_TYPE_ACCESS : name = XATTR_NAME_POSIX_ACL_ACCESS ; if ( acl ) { ret = posix_acl_equiv_mode ( acl , & new_mode ) ; if ( ret < 0 ) goto out ; if ( ret == 0 ) acl = NULL ; } break ; case ACL_TYPE_DEFAULT : if ( ! S_ISDIR ( inode -> i_mode ) ) { ret = acl ? - EINVAL : 0 ; goto out ; } name = XATTR_NAME_POSIX_ACL_DEFAULT ; break ; default : ret = - EINVAL ; goto out ; } if ( acl ) { size = posix_acl_xattr_size ( acl -> a_count ) ; value = kmalloc ( size , GFP_NOFS ) ; if ( ! value ) { ret = - ENOMEM ; goto out ; } ret = posix_acl_to_xattr ( & init_user_ns , acl , value , size ) ; if ( ret < 0 ) goto out_free ; } if ( new_mode != old_mode ) { newattrs . ia_mode = new_mode ; newattrs . ia_valid = ATTR_MODE ; ret = __ceph_setattr ( inode , & newattrs ) ; if ( ret ) goto out_free ; } ret = __ceph_setxattr ( inode , name , value , size , 0 ) ; if ( ret ) { if ( new_mode != old_mode ) { newattrs . ia_mode = old_mode ; newattrs . ia_valid = ATTR_MODE ; __ceph_setattr ( inode , & newattrs ) ; } goto out_free ; } ceph_set_cached_acl ( inode , type , acl ) ; out_free : kfree ( value ) ; out : return ret ; }","int ceph_set_acl ( struct inode * inode , struct posix_acl * acl , int type ) { int ret = 0 , size = 0 ; const char * name = NULL ; char * value = NULL ; struct iattr newattrs ; umode_t new_mode = inode -> i_mode , old_mode = inode -> i_mode ; switch ( type ) { case ACL_TYPE_ACCESS : name = XATTR_NAME_POSIX_ACL_ACCESS ; if ( acl ) { ret = posix_acl_update_mode ( inode , & new_mode , & acl ) ; if ( ret ) goto out ; } break ; case ACL_TYPE_DEFAULT : if ( ! S_ISDIR ( inode -> i_mode ) ) { ret = acl ? - EINVAL : 0 ; goto out ; } name = XATTR_NAME_POSIX_ACL_DEFAULT ; break ; default : ret = - EINVAL ; goto out ; } if ( acl ) { size = posix_acl_xattr_size ( acl -> a_count ) ; value = kmalloc ( size , GFP_NOFS ) ; if ( ! value ) { ret = - ENOMEM ; goto out ; } ret = posix_acl_to_xattr ( & init_user_ns , acl , value , size ) ; if ( ret < 0 ) goto out_free ; } if ( new_mode != old_mode ) { newattrs . ia_mode = new_mode ; newattrs . ia_valid = ATTR_MODE ; ret = __ceph_setattr ( inode , & newattrs ) ; if ( ret ) goto out_free ; } ret = __ceph_setxattr ( inode , name , value , size , 0 ) ; if ( ret ) { if ( new_mode != old_mode ) { newattrs . ia_mode = old_mode ; newattrs . ia_valid = ATTR_MODE ; __ceph_setattr ( inode , & newattrs ) ; } goto out_free ; } ceph_set_cached_acl ( inode , type , acl ) ; out_free : kfree ( value ) ; out : return ret ; }" 31,"CWE-399 static struct sk_buff * batadv_frag_merge_packets ( struct hlist_head * chain , struct sk_buff * skb ) { struct batadv_frag_packet * packet ; struct batadv_frag_list_entry * entry ; struct sk_buff * skb_out = NULL ; int size , hdr_size = sizeof ( struct batadv_frag_packet ) ; packet = ( struct batadv_frag_packet * ) skb -> data ; size = ntohs ( packet -> total_size ) ; if ( size > batadv_frag_size_limit ( ) ) goto free ; entry = hlist_entry ( chain -> first , struct batadv_frag_list_entry , list ) ; hlist_del ( & entry -> list ) ; skb_out = entry -> skb ; kfree ( entry ) ; if ( pskb_expand_head ( skb_out , 0 , size - skb -> len , GFP_ATOMIC ) < 0 ) { kfree_skb ( skb_out ) ; skb_out = NULL ; goto free ; } skb_pull_rcsum ( skb_out , hdr_size ) ; memmove ( skb_out -> data - ETH_HLEN , skb_mac_header ( skb_out ) , ETH_HLEN ) ; skb_set_mac_header ( skb_out , - ETH_HLEN ) ; skb_reset_network_header ( skb_out ) ; skb_reset_transport_header ( skb_out ) ; hlist_for_each_entry ( entry , chain , list ) { size = entry -> skb -> len - hdr_size ; memcpy ( skb_put ( skb_out , size ) , entry -> skb -> data + hdr_size , size ) ; } free : batadv_frag_clear_chain ( chain ) ; return skb_out ; }","static struct sk_buff * batadv_frag_merge_packets ( struct hlist_head * chain , struct sk_buff * skb ) { struct batadv_frag_packet * packet ; struct batadv_frag_list_entry * entry ; struct sk_buff * skb_out = NULL ; int size , hdr_size = sizeof ( struct batadv_frag_packet ) ; packet = ( struct batadv_frag_packet * ) skb -> data ; size = ntohs ( packet -> total_size ) ; if ( size > batadv_frag_size_limit ( ) ) goto free ; entry = hlist_entry ( chain -> first , struct batadv_frag_list_entry , list ) ; hlist_del ( & entry -> list ) ; skb_out = entry -> skb ; kfree ( entry ) ; if ( pskb_expand_head ( skb_out , 0 , size - skb_out -> len , GFP_ATOMIC ) < 0 ) { kfree_skb ( skb_out ) ; skb_out = NULL ; goto free ; } skb_pull_rcsum ( skb_out , hdr_size ) ; memmove ( skb_out -> data - ETH_HLEN , skb_mac_header ( skb_out ) , ETH_HLEN ) ; skb_set_mac_header ( skb_out , - ETH_HLEN ) ; skb_reset_network_header ( skb_out ) ; skb_reset_transport_header ( skb_out ) ; hlist_for_each_entry ( entry , chain , list ) { size = entry -> skb -> len - hdr_size ; memcpy ( skb_put ( skb_out , size ) , entry -> skb -> data + hdr_size , size ) ; } free : batadv_frag_clear_chain ( chain ) ; return skb_out ; }" 32,"CWE-119 } ps_cur_poc = & s_tmp_poc ; } } else { if ( ( u2_first_mb_in_slice << u1_mbaff ) > ps_dec -> u2_total_mbs_coded ) { prev_slice_err = 2 ; num_mb_skipped = ( u2_first_mb_in_slice << u1_mbaff ) ps_dec -> u2_total_mbs_coded ; ps_cur_poc = & s_tmp_poc ; } else if ( ( u2_first_mb_in_slice << u1_mbaff ) < ps_dec -> u2_total_mbs_coded ) { return ERROR_CORRUPTED_SLICE ; } } if ( prev_slice_err ) { ret = ih264d_mark_err_slice_skip ( ps_dec , num_mb_skipped , u1_is_idr_slice , u2_frame_num , ps_cur_poc , prev_slice_err ) ; if ( ps_dec -> u1_dangling_field == 1 ) { ps_dec -> u1_second_field = 1 - ps_dec -> u1_second_field ; ps_cur_slice -> u1_bottom_field_flag = u1_bottom_field_flag ; ps_dec -> u2_prv_frame_num = u2_frame_num ; ps_dec -> u1_first_slice_in_stream = 0 ; return ERROR_DANGLING_FIELD_IN_PIC ; } if ( prev_slice_err == 2 ) { ps_dec -> u1_first_slice_in_stream = 0 ; return ERROR_INCOMPLETE_FRAME ; } if ( ps_dec -> u2_total_mbs_coded >= ps_dec -> u2_frm_ht_in_mbs * ps_dec -> u2_frm_wd_in_mbs ) { ps_dec -> u1_first_slice_in_stream = 0 ; return ERROR_IN_LAST_SLICE_OF_PIC ; } if ( ps_dec -> ps_dec_err_status -> u1_err_flag & REJECT_CUR_PIC ) { ih264d_err_pic_dispbuf_mgr ( ps_dec ) ; return ERROR_NEW_FRAME_EXPECTED ; } if ( ret != OK ) return ret ; i1_is_end_of_poc = 0 ; } if ( ps_dec -> u4_first_slice_in_pic == 0 ) ps_dec -> ps_parse_cur_slice ++ ; ps_dec -> u1_slice_header_done = 0 ; if ( ! ps_dec -> u1_first_slice_in_stream ) { UWORD8 uc_mbs_exceed = 0 ; if ( ps_dec -> u2_total_mbs_coded == ( ps_dec -> ps_cur_sps -> u2_max_mb_addr + 1 ) ) { if ( ps_dec -> u4_first_slice_in_pic == 0 ) uc_mbs_exceed = 1 ; } if ( i1_is_end_of_poc || uc_mbs_exceed ) { if ( 1 == ps_dec -> u1_last_pic_not_decoded ) { ret = ih264d_end_of_pic_dispbuf_mgr ( ps_dec ) ; if ( ret != OK ) return ret ; ret = ih264d_end_of_pic ( ps_dec , u1_is_idr_slice , u2_frame_num ) ; if ( ret != OK ) return ret ; # if WIN32 H264_DEC_DEBUG_PRINT ( "" ------ PIC SKIPPED ------\\n"" ) ; # endif return RET_LAST_SKIP ; } else { ret = ih264d_end_of_pic ( ps_dec , u1_is_idr_slice , u2_frame_num ) ; if ( ret != OK ) return ret ; } } } if ( u1_field_pic_flag ) { ps_dec -> u2_prv_frame_num = u2_frame_num ; } if ( ps_cur_slice -> u1_mmco_equalto5 ) { WORD32 i4_temp_poc ; WORD32 i4_top_field_order_poc , i4_bot_field_order_poc ; if ( ! ps_cur_slice -> u1_field_pic_flag ) { i4_top_field_order_poc = ps_dec -> ps_cur_pic -> i4_top_field_order_cnt ; i4_bot_field_order_poc = ps_dec -> ps_cur_pic -> i4_bottom_field_order_cnt ; i4_temp_poc = MIN ( i4_top_field_order_poc , i4_bot_field_order_poc ) ; } else if ( ! ps_cur_slice -> u1_bottom_field_flag )","} ps_cur_poc = & s_tmp_poc ; } } else { if ( ( u2_first_mb_in_slice << u1_mbaff ) > ps_dec -> u2_total_mbs_coded ) { prev_slice_err = 2 ; num_mb_skipped = ( u2_first_mb_in_slice << u1_mbaff ) ps_cur_poc = & s_tmp_poc ; } else if ( ( u2_first_mb_in_slice << u1_mbaff ) < ps_dec -> u2_total_mbs_coded ) { return ERROR_CORRUPTED_SLICE ; } } if ( prev_slice_err ) { ret = ih264d_mark_err_slice_skip ( ps_dec , num_mb_skipped , u1_is_idr_slice , u2_frame_num , ps_cur_poc , prev_slice_err ) ; if ( ps_dec -> u1_dangling_field == 1 ) { ps_dec -> u1_second_field = 1 - ps_dec -> u1_second_field ; ps_cur_slice -> u1_bottom_field_flag = u1_bottom_field_flag ; ps_dec -> u2_prv_frame_num = u2_frame_num ; ps_dec -> u1_first_slice_in_stream = 0 ; return ERROR_DANGLING_FIELD_IN_PIC ; } if ( prev_slice_err == 2 ) { ps_dec -> u1_first_slice_in_stream = 0 ; return ERROR_INCOMPLETE_FRAME ; } if ( ps_dec -> u2_total_mbs_coded >= ps_dec -> u2_frm_ht_in_mbs * ps_dec -> u2_frm_wd_in_mbs ) { ps_dec -> u1_first_slice_in_stream = 0 ; return ERROR_IN_LAST_SLICE_OF_PIC ; } if ( ps_dec -> ps_dec_err_status -> u1_err_flag & REJECT_CUR_PIC ) { ih264d_err_pic_dispbuf_mgr ( ps_dec ) ; return ERROR_NEW_FRAME_EXPECTED ; } if ( ret != OK ) return ret ; i1_is_end_of_poc = 0 ; } if ( ps_dec -> u4_first_slice_in_pic == 0 ) { ps_dec -> ps_parse_cur_slice ++ ; ps_dec -> u2_cur_slice_num ++ ; } ps_dec -> u1_slice_header_done = 0 ; if ( ! ps_dec -> u1_first_slice_in_stream ) { UWORD8 uc_mbs_exceed = 0 ; if ( ps_dec -> u2_total_mbs_coded == ( ps_dec -> ps_cur_sps -> u2_max_mb_addr + 1 ) ) { if ( ps_dec -> u4_first_slice_in_pic == 0 ) uc_mbs_exceed = 1 ; } if ( i1_is_end_of_poc || uc_mbs_exceed ) { if ( 1 == ps_dec -> u1_last_pic_not_decoded ) { ret = ih264d_end_of_pic_dispbuf_mgr ( ps_dec ) ; if ( ret != OK ) return ret ; ret = ih264d_end_of_pic ( ps_dec , u1_is_idr_slice , u2_frame_num ) ; if ( ret != OK ) return ret ; # if WIN32 H264_DEC_DEBUG_PRINT ( "" ------ PIC SKIPPED ------\\n"" ) ; # endif return RET_LAST_SKIP ; } else { ret = ih264d_end_of_pic ( ps_dec , u1_is_idr_slice , u2_frame_num ) ; if ( ret != OK ) return ret ; } } } if ( u1_field_pic_flag ) { ps_dec -> u2_prv_frame_num = u2_frame_num ; } if ( ps_cur_slice -> u1_mmco_equalto5 ) { WORD32 i4_temp_poc ; WORD32 i4_top_field_order_poc , i4_bot_field_order_poc ; if ( ! ps_cur_slice -> u1_field_pic_flag ) { i4_top_field_order_poc = ps_dec -> ps_cur_pic -> i4_top_field_order_cnt ; i4_bot_field_order_poc = ps_dec -> ps_cur_pic -> i4_bottom_field_order_cnt ; i4_temp_poc = MIN ( i4_top_field_order_poc , i4_bot_field_order_poc ) ; } else if ( ! ps_cur_slice -> u1_bottom_field_flag )" 33,"CWE-119 void vp9_init_quantizer ( VP9_COMP * cpi ) { VP9_COMMON * const cm = & cpi -> common ; QUANTS * const quants = & cpi -> quants ; int i , q , quant ; for ( q = 0 ; q < QINDEX_RANGE ; q ++ ) { const int qzbin_factor = q == 0 ? 64 : ( vp9_dc_quant ( q , 0 ) < 148 ? 84 : 80 ) ; const int qrounding_factor = q == 0 ? 64 : 48 ; for ( i = 0 ; i < 2 ; ++ i ) { quant = i == 0 ? vp9_dc_quant ( q , cm -> y_dc_delta_q ) : vp9_ac_quant ( q , 0 ) ; invert_quant ( & quants -> y_quant [ q ] [ i ] , & quants -> y_quant_shift [ q ] [ i ] , quant ) ; quants -> y_zbin [ q ] [ i ] = ROUND_POWER_OF_TWO ( qzbin_factor * quant , 7 ) ; quants -> y_round [ q ] [ i ] = ( qrounding_factor * quant ) >> 7 ; cm -> y_dequant [ q ] [ i ] = quant ; quant = i == 0 ? vp9_dc_quant ( q , cm -> uv_dc_delta_q ) : vp9_ac_quant ( q , cm -> uv_ac_delta_q ) ; invert_quant ( & quants -> uv_quant [ q ] [ i ] , & quants -> uv_quant_shift [ q ] [ i ] , quant ) ; quants -> uv_zbin [ q ] [ i ] = ROUND_POWER_OF_TWO ( qzbin_factor * quant , 7 ) ; quants -> uv_round [ q ] [ i ] = ( qrounding_factor * quant ) >> 7 ; cm -> uv_dequant [ q ] [ i ] = quant ; # if CONFIG_ALPHA quant = i == 0 ? vp9_dc_quant ( q , cm -> a_dc_delta_q ) : vp9_ac_quant ( q , cm -> a_ac_delta_q ) ; invert_quant ( & quants -> a_quant [ q ] [ i ] , & quants -> a_quant_shift [ q ] [ i ] , quant ) ; quants -> a_zbin [ q ] [ i ] = ROUND_POWER_OF_TWO ( qzbin_factor * quant , 7 ) ; quants -> a_round [ q ] [ i ] = ( qrounding_factor * quant ) >> 7 ; cm -> a_dequant [ q ] [ i ] = quant ; # endif } for ( i = 2 ; i < 8 ; i ++ ) { quants -> y_quant [ q ] [ i ] = quants -> y_quant [ q ] [ 1 ] ; quants -> y_quant_shift [ q ] [ i ] = quants -> y_quant_shift [ q ] [ 1 ] ; quants -> y_zbin [ q ] [ i ] = quants -> y_zbin [ q ] [ 1 ] ; quants -> y_round [ q ] [ i ] = quants -> y_round [ q ] [ 1 ] ; cm -> y_dequant [ q ] [ i ] = cm -> y_dequant [ q ] [ 1 ] ; quants -> uv_quant [ q ] [ i ] = quants -> uv_quant [ q ] [ 1 ] ; quants -> uv_quant_shift [ q ] [ i ] = quants -> uv_quant_shift [ q ] [ 1 ] ; quants -> uv_zbin [ q ] [ i ] = quants -> uv_zbin [ q ] [ 1 ] ; quants -> uv_round [ q ] [ i ] = quants -> uv_round [ q ] [ 1 ] ; cm -> uv_dequant [ q ] [ i ] = cm -> uv_dequant [ q ] [ 1 ] ; # if CONFIG_ALPHA quants -> a_quant [ q ] [ i ] = quants -> a_quant [ q ] [ 1 ] ; quants -> a_quant_shift [ q ] [ i ] = quants -> a_quant_shift [ q ] [ 1 ] ; quants -> a_zbin [ q ] [ i ] = quants -> a_zbin [ q ] [ 1 ] ; quants -> a_round [ q ] [ i ] = quants -> a_round [ q ] [ 1 ] ; cm -> a_dequant [ q ] [ i ] = cm -> a_dequant [ q ] [ 1 ] ; # endif } } }","void vp9_init_quantizer ( VP9_COMP * cpi ) { VP9_COMMON * const cm = & cpi -> common ; QUANTS * const quants = & cpi -> quants ; int i , q , quant ; for ( q = 0 ; q < QINDEX_RANGE ; q ++ ) { const int qzbin_factor = get_qzbin_factor ( q , cm -> bit_depth ) ; const int qrounding_factor = q == 0 ? 64 : 48 ; for ( i = 0 ; i < 2 ; ++ i ) { int qrounding_factor_fp = i == 0 ? 48 : 42 ; if ( q == 0 ) qrounding_factor_fp = 64 ; quant = i == 0 ? vp9_dc_quant ( q , cm -> y_dc_delta_q , cm -> bit_depth ) : vp9_ac_quant ( q , 0 , cm -> bit_depth ) ; invert_quant ( & quants -> y_quant [ q ] [ i ] , & quants -> y_quant_shift [ q ] [ i ] , quant ) ; quants -> y_quant_fp [ q ] [ i ] = ( 1 << 16 ) / quant ; quants -> y_round_fp [ q ] [ i ] = ( qrounding_factor_fp * quant ) >> 7 ; quants -> y_zbin [ q ] [ i ] = ROUND_POWER_OF_TWO ( qzbin_factor * quant , 7 ) ; quants -> y_round [ q ] [ i ] = ( qrounding_factor * quant ) >> 7 ; cpi -> y_dequant [ q ] [ i ] = quant ; quant = i == 0 ? vp9_dc_quant ( q , cm -> uv_dc_delta_q , cm -> bit_depth ) : vp9_ac_quant ( q , cm -> uv_ac_delta_q , cm -> bit_depth ) ; invert_quant ( & quants -> uv_quant [ q ] [ i ] , & quants -> uv_quant_shift [ q ] [ i ] , quant ) ; quants -> uv_quant_fp [ q ] [ i ] = ( 1 << 16 ) / quant ; quants -> uv_round_fp [ q ] [ i ] = ( qrounding_factor_fp * quant ) >> 7 ; quants -> uv_zbin [ q ] [ i ] = ROUND_POWER_OF_TWO ( qzbin_factor * quant , 7 ) ; quants -> uv_round [ q ] [ i ] = ( qrounding_factor * quant ) >> 7 ; cpi -> uv_dequant [ q ] [ i ] = quant ; } for ( i = 2 ; i < 8 ; i ++ ) { quants -> y_quant [ q ] [ i ] = quants -> y_quant [ q ] [ 1 ] ; quants -> y_quant_fp [ q ] [ i ] = quants -> y_quant_fp [ q ] [ 1 ] ; quants -> y_round_fp [ q ] [ i ] = quants -> y_round_fp [ q ] [ 1 ] ; quants -> y_quant_shift [ q ] [ i ] = quants -> y_quant_shift [ q ] [ 1 ] ; quants -> y_zbin [ q ] [ i ] = quants -> y_zbin [ q ] [ 1 ] ; quants -> y_round [ q ] [ i ] = quants -> y_round [ q ] [ 1 ] ; cpi -> y_dequant [ q ] [ i ] = cpi -> y_dequant [ q ] [ 1 ] ; quants -> uv_quant [ q ] [ i ] = quants -> uv_quant [ q ] [ 1 ] ; quants -> uv_quant_fp [ q ] [ i ] = quants -> uv_quant_fp [ q ] [ 1 ] ; quants -> uv_round_fp [ q ] [ i ] = quants -> uv_round_fp [ q ] [ 1 ] ; quants -> uv_quant_shift [ q ] [ i ] = quants -> uv_quant_shift [ q ] [ 1 ] ; quants -> uv_zbin [ q ] [ i ] = quants -> uv_zbin [ q ] [ 1 ] ; quants -> uv_round [ q ] [ i ] = quants -> uv_round [ q ] [ 1 ] ; cpi -> uv_dequant [ q ] [ i ] = cpi -> uv_dequant [ q ] [ 1 ] ; } } }" 34,"CWE-787 image -> colormap [ 1 ] . blue = QuantumRange ; } } if ( UnpackWPGRaster ( image , bpp ) < 0 ) { DecompressionFailed : ThrowReaderException ( CoderError , ""UnableToDecompressImage"" ) ; } if ( Rec . RecType == 0x14 && BitmapHeader2 . RotAngle != 0 && ! image_info -> ping ) { if ( BitmapHeader2 . RotAngle & 0x8000 ) { Image * flop_image ; flop_image = FlopImage ( image , exception ) ; if ( flop_image != ( Image * ) NULL ) { DuplicateBlob ( flop_image , image ) ; ( void ) RemoveLastImageFromList ( & image ) ; AppendImageToList ( & image , flop_image ) ; } } if ( BitmapHeader2 . RotAngle & 0x2000 ) { Image * flip_image ; flip_image = FlipImage ( image , exception ) ; if ( flip_image != ( Image * ) NULL ) { DuplicateBlob ( flip_image , image ) ; ( void ) RemoveLastImageFromList ( & image ) ; AppendImageToList ( & image , flip_image ) ; } } if ( BitmapHeader2 . RotAngle & 0x0FFF ) { Image * rotate_image ; rotate_image = RotateImage ( image , ( BitmapHeader2 . RotAngle & 0x0FFF ) , exception ) ; if ( rotate_image != ( Image * ) NULL ) { DuplicateBlob ( rotate_image , image ) ; ( void ) RemoveLastImageFromList ( & image ) ; AppendImageToList ( & image , rotate_image ) ; } } } AcquireNextImage ( image_info , image ) ; image -> depth = 8 ; if ( image -> next == ( Image * ) NULL ) goto Finish ; image = SyncNextImageInList ( image ) ; image -> columns = image -> rows = 0 ; image -> colors = 0 ; break ; case 0x1B : if ( Rec . RecordLength > 0x3C ) image = ExtractPostscript ( image , image_info , TellBlob ( image ) + 0x3C , ( ssize_t ) Rec . RecordLength - 0x3C , exception ) ; break ; } } break ; case 2 : ( void ) memset ( CTM , 0 , sizeof ( CTM ) ) ; StartWPG . PosSizePrecision = 0 ; while ( ! EOFBlob ( image ) ) { ( void ) SeekBlob ( image , Header . DataOffset , SEEK_SET ) ; if ( EOFBlob ( image ) ) break ; Rec2 . Class = ( i = ReadBlobByte ( image ) ) ; if ( i == EOF ) break ; Rec2 . RecType = ( i = ReadBlobByte ( image ) ) ; if ( i == EOF ) break ; Rd_WP_DWORD ( image , & Rec2 . Extension ) ; Rd_WP_DWORD ( image , & Rec2 . RecordLength ) ; if ( EOFBlob ( image ) ) break ; Header . DataOffset = TellBlob ( image ) + Rec2 . RecordLength ; switch ( Rec2 . RecType ) { case 1 : StartWPG . HorizontalUnits = ReadBlobLSBShort ( image ) ; StartWPG . VerticalUnits = ReadBlobLSBShort ( image ) ; StartWPG . PosSizePrecision = ReadBlobByte ( image ) ; break ; case 0x0C : WPG_Palette . StartIndex = ReadBlobLSBShort ( image ) ; WPG_Palette . NumOfEntries = ReadBlobLSBShort ( image ) ; image -> colors = WPG_Palette . NumOfEntries ; if ( AcquireImageColormap ( image , image -> colors ) == MagickFalse ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; for ( i = WPG_Palette . StartIndex ; i < ( int ) WPG_Palette . NumOfEntries ; i ++ ) { image -> colormap [ i ] . red = ScaleCharToQuantum ( ( char ) ReadBlobByte ( image ) ) ; image -> colormap [ i ] . green = ScaleCharToQuantum ( ( char )","image -> colormap [ 1 ] . blue = QuantumRange ; } } if ( UnpackWPGRaster ( image , bpp ) < 0 ) { DecompressionFailed : ThrowReaderException ( CoderError , ""UnableToDecompressImage"" ) ; } if ( Rec . RecType == 0x14 && BitmapHeader2 . RotAngle != 0 && ! image_info -> ping ) { if ( BitmapHeader2 . RotAngle & 0x8000 ) { Image * flop_image ; flop_image = FlopImage ( image , exception ) ; if ( flop_image != ( Image * ) NULL ) { DuplicateBlob ( flop_image , image ) ; ( void ) RemoveLastImageFromList ( & image ) ; AppendImageToList ( & image , flop_image ) ; } } if ( BitmapHeader2 . RotAngle & 0x2000 ) { Image * flip_image ; flip_image = FlipImage ( image , exception ) ; if ( flip_image != ( Image * ) NULL ) { DuplicateBlob ( flip_image , image ) ; ( void ) RemoveLastImageFromList ( & image ) ; AppendImageToList ( & image , flip_image ) ; } } if ( BitmapHeader2 . RotAngle & 0x0FFF ) { Image * rotate_image ; rotate_image = RotateImage ( image , ( BitmapHeader2 . RotAngle & 0x0FFF ) , exception ) ; if ( rotate_image != ( Image * ) NULL ) { DuplicateBlob ( rotate_image , image ) ; ( void ) RemoveLastImageFromList ( & image ) ; AppendImageToList ( & image , rotate_image ) ; } } } AcquireNextImage ( image_info , image ) ; image -> depth = 8 ; if ( image -> next == ( Image * ) NULL ) goto Finish ; image = SyncNextImageInList ( image ) ; image -> columns = image -> rows = 1 ; image -> colors = 0 ; break ; case 0x1B : if ( Rec . RecordLength > 0x3C ) image = ExtractPostscript ( image , image_info , TellBlob ( image ) + 0x3C , ( ssize_t ) Rec . RecordLength - 0x3C , exception ) ; break ; } } break ; case 2 : ( void ) memset ( CTM , 0 , sizeof ( CTM ) ) ; StartWPG . PosSizePrecision = 0 ; while ( ! EOFBlob ( image ) ) { ( void ) SeekBlob ( image , Header . DataOffset , SEEK_SET ) ; if ( EOFBlob ( image ) ) break ; Rec2 . Class = ( i = ReadBlobByte ( image ) ) ; if ( i == EOF ) break ; Rec2 . RecType = ( i = ReadBlobByte ( image ) ) ; if ( i == EOF ) break ; Rd_WP_DWORD ( image , & Rec2 . Extension ) ; Rd_WP_DWORD ( image , & Rec2 . RecordLength ) ; if ( EOFBlob ( image ) ) break ; Header . DataOffset = TellBlob ( image ) + Rec2 . RecordLength ; switch ( Rec2 . RecType ) { case 1 : StartWPG . HorizontalUnits = ReadBlobLSBShort ( image ) ; StartWPG . VerticalUnits = ReadBlobLSBShort ( image ) ; StartWPG . PosSizePrecision = ReadBlobByte ( image ) ; break ; case 0x0C : WPG_Palette . StartIndex = ReadBlobLSBShort ( image ) ; WPG_Palette . NumOfEntries = ReadBlobLSBShort ( image ) ; image -> colors = WPG_Palette . NumOfEntries ; if ( AcquireImageColormap ( image , image -> colors ) == MagickFalse ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; for ( i = WPG_Palette . StartIndex ; i < ( int ) WPG_Palette . NumOfEntries ; i ++ ) { image -> colormap [ i ] . red = ScaleCharToQuantum ( ( char ) ReadBlobByte ( image ) ) ; image -> colormap [ i ] . green = ScaleCharToQuantum ( ( char )" 35,"CWE-399 static int br_mdb_fill_info ( struct sk_buff * skb , struct netlink_callback * cb , struct net_device * dev ) { struct net_bridge * br = netdev_priv ( dev ) ; struct net_bridge_mdb_htable * mdb ; struct nlattr * nest , * nest2 ; int i , err = 0 ; int idx = 0 , s_idx = cb -> args [ 1 ] ; if ( br -> multicast_disabled ) return 0 ; mdb = rcu_dereference ( br -> mdb ) ; if ( ! mdb ) return 0 ; nest = nla_nest_start ( skb , MDBA_MDB ) ; if ( nest == NULL ) return - EMSGSIZE ; for ( i = 0 ; i < mdb -> max ; i ++ ) { struct net_bridge_mdb_entry * mp ; struct net_bridge_port_group * p , * * pp ; struct net_bridge_port * port ; hlist_for_each_entry_rcu ( mp , & mdb -> mhash [ i ] , hlist [ mdb -> ver ] ) { if ( idx < s_idx ) goto skip ; nest2 = nla_nest_start ( skb , MDBA_MDB_ENTRY ) ; if ( nest2 == NULL ) { err = - EMSGSIZE ; goto out ; } for ( pp = & mp -> ports ; ( p = rcu_dereference ( * pp ) ) != NULL ; pp = & p -> next ) { port = p -> port ; if ( port ) { struct br_mdb_entry e ; e . ifindex = port -> dev -> ifindex ; e . state = p -> state ; if ( p -> addr . proto == htons ( ETH_P_IP ) ) e . addr . u . ip4 = p -> addr . u . ip4 ; # if IS_ENABLED ( CONFIG_IPV6 ) if ( p -> addr . proto == htons ( ETH_P_IPV6 ) ) e . addr . u . ip6 = p -> addr . u . ip6 ; # endif e . addr . proto = p -> addr . proto ; if ( nla_put ( skb , MDBA_MDB_ENTRY_INFO , sizeof ( e ) , & e ) ) { nla_nest_cancel ( skb , nest2 ) ; err = - EMSGSIZE ; goto out ; } } } nla_nest_end ( skb , nest2 ) ; skip : idx ++ ; } } out : cb -> args [ 1 ] = idx ; nla_nest_end ( skb , nest ) ; return err ; }","static int br_mdb_fill_info ( struct sk_buff * skb , struct netlink_callback * cb , struct net_device * dev ) { struct net_bridge * br = netdev_priv ( dev ) ; struct net_bridge_mdb_htable * mdb ; struct nlattr * nest , * nest2 ; int i , err = 0 ; int idx = 0 , s_idx = cb -> args [ 1 ] ; if ( br -> multicast_disabled ) return 0 ; mdb = rcu_dereference ( br -> mdb ) ; if ( ! mdb ) return 0 ; nest = nla_nest_start ( skb , MDBA_MDB ) ; if ( nest == NULL ) return - EMSGSIZE ; for ( i = 0 ; i < mdb -> max ; i ++ ) { struct net_bridge_mdb_entry * mp ; struct net_bridge_port_group * p , * * pp ; struct net_bridge_port * port ; hlist_for_each_entry_rcu ( mp , & mdb -> mhash [ i ] , hlist [ mdb -> ver ] ) { if ( idx < s_idx ) goto skip ; nest2 = nla_nest_start ( skb , MDBA_MDB_ENTRY ) ; if ( nest2 == NULL ) { err = - EMSGSIZE ; goto out ; } for ( pp = & mp -> ports ; ( p = rcu_dereference ( * pp ) ) != NULL ; pp = & p -> next ) { port = p -> port ; if ( port ) { struct br_mdb_entry e ; memset ( & e , 0 , sizeof ( e ) ) ; e . ifindex = port -> dev -> ifindex ; e . state = p -> state ; if ( p -> addr . proto == htons ( ETH_P_IP ) ) e . addr . u . ip4 = p -> addr . u . ip4 ; # if IS_ENABLED ( CONFIG_IPV6 ) if ( p -> addr . proto == htons ( ETH_P_IPV6 ) ) e . addr . u . ip6 = p -> addr . u . ip6 ; # endif e . addr . proto = p -> addr . proto ; if ( nla_put ( skb , MDBA_MDB_ENTRY_INFO , sizeof ( e ) , & e ) ) { nla_nest_cancel ( skb , nest2 ) ; err = - EMSGSIZE ; goto out ; } } } nla_nest_end ( skb , nest2 ) ; skip : idx ++ ; } } out : cb -> args [ 1 ] = idx ; nla_nest_end ( skb , nest ) ; return err ; }" 36,"CWE-200 int udp_recvmsg ( struct kiocb * iocb , struct sock * sk , struct msghdr * msg , size_t len , int noblock , int flags , int * addr_len ) { struct inet_sock * inet = inet_sk ( sk ) ; struct sockaddr_in * sin = ( struct sockaddr_in * ) msg -> msg_name ; struct sk_buff * skb ; unsigned int ulen , copied ; int peeked , off = 0 ; int err ; int is_udplite = IS_UDPLITE ( sk ) ; bool slow ; if ( addr_len ) * addr_len = sizeof ( * sin ) ; if ( flags & MSG_ERRQUEUE ) return ip_recv_error ( sk , msg , len ) ; try_again : skb = __skb_recv_datagram ( sk , flags | ( noblock ? MSG_DONTWAIT : 0 ) , & peeked , & off , & err ) ; if ( ! skb ) goto out ; ulen = skb -> len - sizeof ( struct udphdr ) ; copied = len ; if ( copied > ulen ) copied = ulen ; else if ( copied < ulen ) msg -> msg_flags |= MSG_TRUNC ; if ( copied < ulen || UDP_SKB_CB ( skb ) -> partial_cov ) { if ( udp_lib_checksum_complete ( skb ) ) goto csum_copy_err ; } if ( skb_csum_unnecessary ( skb ) ) err = skb_copy_datagram_iovec ( skb , sizeof ( struct udphdr ) , msg -> msg_iov , copied ) ; else { err = skb_copy_and_csum_datagram_iovec ( skb , sizeof ( struct udphdr ) , msg -> msg_iov ) ; if ( err == - EINVAL ) goto csum_copy_err ; } if ( unlikely ( err ) ) { trace_kfree_skb ( skb , udp_recvmsg ) ; if ( ! peeked ) { atomic_inc ( & sk -> sk_drops ) ; UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INERRORS , is_udplite ) ; } goto out_free ; } if ( ! peeked ) UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INDATAGRAMS , is_udplite ) ; sock_recv_ts_and_drops ( msg , sk , skb ) ; if ( sin ) { sin -> sin_family = AF_INET ; sin -> sin_port = udp_hdr ( skb ) -> source ; sin -> sin_addr . s_addr = ip_hdr ( skb ) -> saddr ; memset ( sin -> sin_zero , 0 , sizeof ( sin -> sin_zero ) ) ; } if ( inet -> cmsg_flags ) ip_cmsg_recv ( msg , skb ) ; err = copied ; if ( flags & MSG_TRUNC ) err = ulen ; out_free : skb_free_datagram_locked ( sk , skb ) ; out : return err ; csum_copy_err : slow = lock_sock_fast ( sk ) ; if ( ! skb_kill_datagram ( sk , skb , flags ) ) { UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_CSUMERRORS , is_udplite ) ; UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INERRORS , is_udplite ) ; } unlock_sock_fast ( sk , slow ) ; if ( noblock ) return - EAGAIN ; msg -> msg_flags &= ~ MSG_TRUNC ; goto try_again ; }","int udp_recvmsg ( struct kiocb * iocb , struct sock * sk , struct msghdr * msg , size_t len , int noblock , int flags , int * addr_len ) { struct inet_sock * inet = inet_sk ( sk ) ; struct sockaddr_in * sin = ( struct sockaddr_in * ) msg -> msg_name ; struct sk_buff * skb ; unsigned int ulen , copied ; int peeked , off = 0 ; int err ; int is_udplite = IS_UDPLITE ( sk ) ; bool slow ; if ( flags & MSG_ERRQUEUE ) return ip_recv_error ( sk , msg , len ) ; try_again : skb = __skb_recv_datagram ( sk , flags | ( noblock ? MSG_DONTWAIT : 0 ) , & peeked , & off , & err ) ; if ( ! skb ) goto out ; ulen = skb -> len - sizeof ( struct udphdr ) ; copied = len ; if ( copied > ulen ) copied = ulen ; else if ( copied < ulen ) msg -> msg_flags |= MSG_TRUNC ; if ( copied < ulen || UDP_SKB_CB ( skb ) -> partial_cov ) { if ( udp_lib_checksum_complete ( skb ) ) goto csum_copy_err ; } if ( skb_csum_unnecessary ( skb ) ) err = skb_copy_datagram_iovec ( skb , sizeof ( struct udphdr ) , msg -> msg_iov , copied ) ; else { err = skb_copy_and_csum_datagram_iovec ( skb , sizeof ( struct udphdr ) , msg -> msg_iov ) ; if ( err == - EINVAL ) goto csum_copy_err ; } if ( unlikely ( err ) ) { trace_kfree_skb ( skb , udp_recvmsg ) ; if ( ! peeked ) { atomic_inc ( & sk -> sk_drops ) ; UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INERRORS , is_udplite ) ; } goto out_free ; } if ( ! peeked ) UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INDATAGRAMS , is_udplite ) ; sock_recv_ts_and_drops ( msg , sk , skb ) ; if ( sin ) { sin -> sin_family = AF_INET ; sin -> sin_port = udp_hdr ( skb ) -> source ; sin -> sin_addr . s_addr = ip_hdr ( skb ) -> saddr ; memset ( sin -> sin_zero , 0 , sizeof ( sin -> sin_zero ) ) ; * addr_len = sizeof ( * sin ) ; } if ( inet -> cmsg_flags ) ip_cmsg_recv ( msg , skb ) ; err = copied ; if ( flags & MSG_TRUNC ) err = ulen ; out_free : skb_free_datagram_locked ( sk , skb ) ; out : return err ; csum_copy_err : slow = lock_sock_fast ( sk ) ; if ( ! skb_kill_datagram ( sk , skb , flags ) ) { UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_CSUMERRORS , is_udplite ) ; UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INERRORS , is_udplite ) ; } unlock_sock_fast ( sk , slow ) ; if ( noblock ) return - EAGAIN ; msg -> msg_flags &= ~ MSG_TRUNC ; goto try_again ; }" 37,"CWE-476 skb_reset_network_header ( skb ) ; src = tb [ RTA_SRC ] ? nla_get_in_addr ( tb [ RTA_SRC ] ) : 0 ; dst = tb [ RTA_DST ] ? nla_get_in_addr ( tb [ RTA_DST ] ) : 0 ; iif = tb [ RTA_IIF ] ? nla_get_u32 ( tb [ RTA_IIF ] ) : 0 ; mark = tb [ RTA_MARK ] ? nla_get_u32 ( tb [ RTA_MARK ] ) : 0 ; if ( tb [ RTA_UID ] ) uid = make_kuid ( current_user_ns ( ) , nla_get_u32 ( tb [ RTA_UID ] ) ) ; else uid = ( iif ? INVALID_UID : current_uid ( ) ) ; ip_hdr ( skb ) -> protocol = IPPROTO_UDP ; ip_hdr ( skb ) -> saddr = src ; ip_hdr ( skb ) -> daddr = dst ; skb_reserve ( skb , MAX_HEADER + sizeof ( struct iphdr ) ) ; memset ( & fl4 , 0 , sizeof ( fl4 ) ) ; fl4 . daddr = dst ; fl4 . saddr = src ; fl4 . flowi4_tos = rtm -> rtm_tos ; fl4 . flowi4_oif = tb [ RTA_OIF ] ? nla_get_u32 ( tb [ RTA_OIF ] ) : 0 ; fl4 . flowi4_mark = mark ; fl4 . flowi4_uid = uid ; rcu_read_lock ( ) ; if ( iif ) { struct net_device * dev ; dev = dev_get_by_index_rcu ( net , iif ) ; if ( ! dev ) { err = - ENODEV ; goto errout_free ; } skb -> protocol = htons ( ETH_P_IP ) ; skb -> dev = dev ; skb -> mark = mark ; err = ip_route_input_rcu ( skb , dst , src , rtm -> rtm_tos , dev , & res ) ; rt = skb_rtable ( skb ) ; if ( err == 0 && rt -> dst . error ) err = - rt -> dst . error ; } else { rt = ip_route_output_key_hash_rcu ( net , & fl4 , & res , skb ) ; err = 0 ; if ( IS_ERR ( rt ) ) err = PTR_ERR ( rt ) ; else skb_dst_set ( skb , & rt -> dst ) ; } if ( err ) goto errout_free ; if ( rtm -> rtm_flags & RTM_F_NOTIFY ) rt -> rt_flags |= RTCF_NOTIFY ; if ( rtm -> rtm_flags & RTM_F_LOOKUP_TABLE ) table_id = rt -> rt_table_id ; if ( rtm -> rtm_flags & RTM_F_FIB_MATCH ) err = fib_dump_info ( skb , NETLINK_CB ( in_skb ) . portid , nlh -> nlmsg_seq , RTM_NEWROUTE , table_id , rt -> rt_type , res . prefix , res . prefixlen , fl4 . flowi4_tos , res . fi , 0 ) ; else err = rt_fill_info ( net , dst , src , table_id , & fl4 , skb , NETLINK_CB ( in_skb ) . portid , nlh -> nlmsg_seq ) ; if ( err < 0 ) goto errout_free ; rcu_read_unlock ( ) ; err = rtnl_unicast ( skb , net , NETLINK_CB ( in_skb ) . portid ) ; errout : return err ; errout_free : rcu_read_unlock ( ) ; kfree_skb ( skb ) ; goto errout ; }","skb_reset_network_header ( skb ) ; src = tb [ RTA_SRC ] ? nla_get_in_addr ( tb [ RTA_SRC ] ) : 0 ; dst = tb [ RTA_DST ] ? nla_get_in_addr ( tb [ RTA_DST ] ) : 0 ; iif = tb [ RTA_IIF ] ? nla_get_u32 ( tb [ RTA_IIF ] ) : 0 ; mark = tb [ RTA_MARK ] ? nla_get_u32 ( tb [ RTA_MARK ] ) : 0 ; if ( tb [ RTA_UID ] ) uid = make_kuid ( current_user_ns ( ) , nla_get_u32 ( tb [ RTA_UID ] ) ) ; else uid = ( iif ? INVALID_UID : current_uid ( ) ) ; ip_hdr ( skb ) -> protocol = IPPROTO_UDP ; ip_hdr ( skb ) -> saddr = src ; ip_hdr ( skb ) -> daddr = dst ; skb_reserve ( skb , MAX_HEADER + sizeof ( struct iphdr ) ) ; memset ( & fl4 , 0 , sizeof ( fl4 ) ) ; fl4 . daddr = dst ; fl4 . saddr = src ; fl4 . flowi4_tos = rtm -> rtm_tos ; fl4 . flowi4_oif = tb [ RTA_OIF ] ? nla_get_u32 ( tb [ RTA_OIF ] ) : 0 ; fl4 . flowi4_mark = mark ; fl4 . flowi4_uid = uid ; rcu_read_lock ( ) ; if ( iif ) { struct net_device * dev ; dev = dev_get_by_index_rcu ( net , iif ) ; if ( ! dev ) { err = - ENODEV ; goto errout_free ; } skb -> protocol = htons ( ETH_P_IP ) ; skb -> dev = dev ; skb -> mark = mark ; err = ip_route_input_rcu ( skb , dst , src , rtm -> rtm_tos , dev , & res ) ; rt = skb_rtable ( skb ) ; if ( err == 0 && rt -> dst . error ) err = - rt -> dst . error ; } else { rt = ip_route_output_key_hash_rcu ( net , & fl4 , & res , skb ) ; err = 0 ; if ( IS_ERR ( rt ) ) err = PTR_ERR ( rt ) ; else skb_dst_set ( skb , & rt -> dst ) ; } if ( err ) goto errout_free ; if ( rtm -> rtm_flags & RTM_F_NOTIFY ) rt -> rt_flags |= RTCF_NOTIFY ; if ( rtm -> rtm_flags & RTM_F_LOOKUP_TABLE ) table_id = rt -> rt_table_id ; if ( rtm -> rtm_flags & RTM_F_FIB_MATCH ) { if ( ! res . fi ) { err = fib_props [ res . type ] . error ; if ( ! err ) err = - EHOSTUNREACH ; goto errout_free ; } err = fib_dump_info ( skb , NETLINK_CB ( in_skb ) . portid , nlh -> nlmsg_seq , RTM_NEWROUTE , table_id , rt -> rt_type , res . prefix , res . prefixlen , fl4 . flowi4_tos , res . fi , 0 ) ; } else { err = rt_fill_info ( net , dst , src , table_id , & fl4 , skb , NETLINK_CB ( in_skb ) . portid , nlh -> nlmsg_seq ) ; } if ( err < 0 ) goto errout_free ; rcu_read_unlock ( ) ; err = rtnl_unicast ( skb , net , NETLINK_CB ( in_skb ) . portid ) ; errout : return err ; errout_free : rcu_read_unlock ( ) ; kfree_skb ( skb ) ; goto errout ; }" 38,"CWE-119 void vp9_fht4x4_sse2 ( const int16_t * input , int16_t * output , int stride , int tx_type ) { __m128i in [ 4 ] ; switch ( tx_type ) { case DCT_DCT : vp9_fdct4x4_sse2 ( input , output , stride ) ; break ; case ADST_DCT : load_buffer_4x4 ( input , in , stride ) ; fadst4_sse2 ( in ) ; fdct4_sse2 ( in ) ; write_buffer_4x4 ( output , in ) ; break ; case DCT_ADST : load_buffer_4x4 ( input , in , stride ) ; fdct4_sse2 ( in ) ; fadst4_sse2 ( in ) ; write_buffer_4x4 ( output , in ) ; break ; case ADST_ADST : load_buffer_4x4 ( input , in , stride ) ; fadst4_sse2 ( in ) ; fadst4_sse2 ( in ) ; write_buffer_4x4 ( output , in ) ; break ; default : assert ( 0 ) ; break ; } }","void vp9_fht4x4_sse2 ( const int16_t * input , tran_low_t * output , int stride , int tx_type ) { __m128i in [ 4 ] ; switch ( tx_type ) { case DCT_DCT : vpx_fdct4x4_sse2 ( input , output , stride ) ; break ; case ADST_DCT : load_buffer_4x4 ( input , in , stride ) ; fadst4_sse2 ( in ) ; fdct4_sse2 ( in ) ; write_buffer_4x4 ( output , in ) ; break ; case DCT_ADST : load_buffer_4x4 ( input , in , stride ) ; fdct4_sse2 ( in ) ; fadst4_sse2 ( in ) ; write_buffer_4x4 ( output , in ) ; break ; case ADST_ADST : load_buffer_4x4 ( input , in , stride ) ; fadst4_sse2 ( in ) ; fadst4_sse2 ( in ) ; write_buffer_4x4 ( output , in ) ; break ; default : assert ( 0 ) ; break ; } }" 39,"CWE-20 error_t httpParseParam ( const char_t * * pos , HttpParam * param ) { error_t error ; size_t i ; uint8_t c ; bool_t escapeFlag ; bool_t separatorFound ; const char_t * p ; if ( pos == NULL || param == NULL ) return ERROR_INVALID_PARAMETER ; param -> name = NULL ; param -> nameLen = 0 ; param -> value = NULL ; param -> valueLen = 0 ; escapeFlag = FALSE ; separatorFound = FALSE ; error = ERROR_IN_PROGRESS ; i = 0 ; p = * pos ; while ( error == ERROR_IN_PROGRESS ) { c = ( uint8_t ) p [ i ] ; if ( param -> name == NULL ) { if ( c == '\\0' ) { error = ERROR_NOT_FOUND ; } else if ( c == ' ' || c == '\\t' || c == ',' || c == ';' ) { } else if ( isalnum ( c ) || strchr ( ""!#$%&\'*+-.^_`|~"" , c ) || c >= 128 ) { param -> name = p + i ; } else { error = ERROR_INVALID_SYNTAX ; } } else if ( param -> nameLen == 0 ) { if ( c == '\\0' || c == ',' || c == ';' ) { param -> nameLen = p + i - param -> name ; error = NO_ERROR ; } else if ( c == ' ' || c == '\\t' ) { param -> nameLen = p + i - param -> name ; } else if ( c == '=' ) { separatorFound = TRUE ; param -> nameLen = p + i - param -> name ; } else if ( isalnum ( c ) || strchr ( ""!#$%&\'*+-.^_`|~"" , c ) || c >= 128 ) { } else { error = ERROR_INVALID_SYNTAX ; } } else if ( ! separatorFound ) { if ( c == '\\0' || c == ',' || c == ';' ) { error = NO_ERROR ; } else if ( c == ' ' || c == '\\t' ) { } else if ( c == '=' ) { separatorFound = TRUE ; } else if ( c == \'\\""\' ) { i = param -> name + param -> nameLen - p ; error = NO_ERROR ; } else if ( isalnum ( c ) || strchr ( ""!#$%&\'*+-.^_`|~"" , c ) || c >= 128 ) { i = param -> name + param -> nameLen - p ; error = NO_ERROR ; } else { error = ERROR_INVALID_SYNTAX ; } } else if ( param -> value == NULL ) { if ( c == '\\0' || c == ',' || c == ';' ) { error = NO_ERROR ; } else if ( c == ' ' || c == '\\t' ) { } else if ( c == \'\\""\' ) { param -> value = p + i ; } else if ( isalnum ( c ) || strchr ( ""!#$%&\'*+-.^_`|~"" , c ) || c >= 128 ) { param -> value = p + i ; } else { error = ERROR_INVALID_SYNTAX ; } } else { if ( param -> value [ 0 ] == \'\\""\' ) { if ( c == '\\0' ) { error = ERROR_INVALID_SYNTAX ; } else if ( escapeFlag ) { escapeFlag = FALSE ; } else if ( c == '\\\\' ) { escapeFlag = TRUE ; } else if ( c == \'\\""\' ) { i ++ ; param -> valueLen = p + i - param -> value ; error = NO_ERROR ; } else if ( isprint ( c ) || c == '\\t' || c >= 128 ) { } else { error = ERROR_INVALID_SYNTAX ; } } else { if ( c == '\\0' || c == ' ' || c == '\\t' || c == ',' || c == ';' ) { param -> valueLen = p + i - param -> value ; error = NO_ERROR ; } else if ( isalnum ( c ) || strchr ( ""!#$%&\'*+-.^_`|~"" , c ) || c >= 128 ) { } else { error = ERROR_INVALID_SYNTAX ; } } } if ( error == ERROR_IN_PROGRESS ) i ++ ; } if ( param -> valueLen >= 2 && param -> value [ 0 ] == \'\\""\' ) { param -> value ++ ; param -> valueLen -= 2 ; } * pos = p + i ; return error ; }","error_t httpParseParam ( const char_t * * pos , HttpParam * param ) { error_t error ; size_t i ; uint8_t c ; bool_t escapeFlag ; bool_t separatorFound ; const char_t * p ; if ( pos == NULL || param == NULL ) return ERROR_INVALID_PARAMETER ; param -> name = NULL ; param -> nameLen = 0 ; param -> value = NULL ; param -> valueLen = 0 ; escapeFlag = FALSE ; separatorFound = FALSE ; error = ERROR_IN_PROGRESS ; i = 0 ; p = * pos ; while ( error == ERROR_IN_PROGRESS ) { c = ( uint8_t ) p [ i ] ; if ( param -> name == NULL ) { if ( c == '\\0' ) { error = ERROR_NOT_FOUND ; } else if ( c == ' ' || c == '\\t' || c == ',' || c == ';' ) { } else if ( isalnum ( c ) || osStrchr ( ""!#$%&\'*+-.^_`|~"" , c ) || c >= 128 ) { param -> name = p + i ; } else { error = ERROR_INVALID_SYNTAX ; } } else if ( param -> nameLen == 0 ) { if ( c == '\\0' || c == ',' || c == ';' ) { param -> nameLen = p + i - param -> name ; error = NO_ERROR ; } else if ( c == ' ' || c == '\\t' ) { param -> nameLen = p + i - param -> name ; } else if ( c == '=' ) { separatorFound = TRUE ; param -> nameLen = p + i - param -> name ; } else if ( isalnum ( c ) || osStrchr ( ""!#$%&\'*+-.^_`|~"" , c ) || c >= 128 ) { } else { error = ERROR_INVALID_SYNTAX ; } } else if ( ! separatorFound ) { if ( c == '\\0' || c == ',' || c == ';' ) { error = NO_ERROR ; } else if ( c == ' ' || c == '\\t' ) { } else if ( c == '=' ) { separatorFound = TRUE ; } else if ( c == \'\\""\' ) { i = param -> name + param -> nameLen - p ; error = NO_ERROR ; } else if ( isalnum ( c ) || osStrchr ( ""!#$%&\'*+-.^_`|~"" , c ) || c >= 128 ) { i = param -> name + param -> nameLen - p ; error = NO_ERROR ; } else { error = ERROR_INVALID_SYNTAX ; } } else if ( param -> value == NULL ) { if ( c == '\\0' || c == ',' || c == ';' ) { error = NO_ERROR ; } else if ( c == ' ' || c == '\\t' ) { } else if ( c == \'\\""\' ) { param -> value = p + i ; } else if ( isalnum ( c ) || osStrchr ( ""!#$%&\'*+-.^_`|~"" , c ) || c >= 128 ) { param -> value = p + i ; } else { error = ERROR_INVALID_SYNTAX ; } } else { if ( param -> value [ 0 ] == \'\\""\' ) { if ( c == '\\0' ) { error = ERROR_INVALID_SYNTAX ; } else if ( escapeFlag ) { escapeFlag = FALSE ; } else if ( c == '\\\\' ) { escapeFlag = TRUE ; } else if ( c == \'\\""\' ) { i ++ ; param -> valueLen = p + i - param -> value ; error = NO_ERROR ; } else if ( isprint ( c ) || c == '\\t' || c >= 128 ) { } else { error = ERROR_INVALID_SYNTAX ; } } else { if ( c == '\\0' || c == ' ' || c == '\\t' || c == ',' || c == ';' ) { param -> valueLen = p + i - param -> value ; error = NO_ERROR ; } else if ( isalnum ( c ) || osStrchr ( ""!#$%&\'*+-.^_`|~"" , c ) || c >= 128 ) { } else { error = ERROR_INVALID_SYNTAX ; } } } if ( error == ERROR_IN_PROGRESS ) i ++ ; } if ( param -> valueLen >= 2 && param -> value [ 0 ] == \'\\""\' ) { param -> value ++ ; param -> valueLen -= 2 ; } * pos = p + i ; return error ; }" 40,"CWE-611 void init_xml_schema ( ) { VALUE nokogiri = rb_define_module ( ""Nokogiri"" ) ; VALUE xml = rb_define_module_under ( nokogiri , ""XML"" ) ; VALUE klass = rb_define_class_under ( xml , ""Schema"" , rb_cObject ) ; cNokogiriXmlSchema = klass ; rb_define_singleton_method ( klass , ""read_memory"" , read_memory , 1 ) ; rb_define_singleton_method ( klass , ""from_document"" , from_document , 1 ) ; rb_define_private_method ( klass , ""validate_document"" , validate_document , 1 ) ; rb_define_private_method ( klass , ""validate_file"" , validate_file , 1 ) ; }","void init_xml_schema ( ) { VALUE nokogiri = rb_define_module ( ""Nokogiri"" ) ; VALUE xml = rb_define_module_under ( nokogiri , ""XML"" ) ; VALUE klass = rb_define_class_under ( xml , ""Schema"" , rb_cObject ) ; cNokogiriXmlSchema = klass ; rb_define_singleton_method ( klass , ""read_memory"" , read_memory , - 1 ) ; rb_define_singleton_method ( klass , ""from_document"" , from_document , - 1 ) ; rb_define_private_method ( klass , ""validate_document"" , validate_document , 1 ) ; rb_define_private_method ( klass , ""validate_file"" , validate_file , 1 ) ; }" 41,"CWE-20 static MagickBooleanType ReadDXT5 ( Image * image , DDSInfo * dds_info , ExceptionInfo * exception ) { DDSColors colors ; ssize_t j , y ; MagickSizeType alpha_bits ; PixelPacket * q ; register ssize_t i , x ; unsigned char a0 , a1 ; size_t alpha , bits , code , alpha_code ; unsigned short c0 , c1 ; for ( y = 0 ; y < ( ssize_t ) dds_info -> height ; y += 4 ) { for ( x = 0 ; x < ( ssize_t ) dds_info -> width ; x += 4 ) { q = QueueAuthenticPixels ( image , x , y , Min ( 4 , dds_info -> width - x ) , Min ( 4 , dds_info -> height - y ) , exception ) ; if ( q == ( PixelPacket * ) NULL ) return MagickFalse ; a0 = ( unsigned char ) ReadBlobByte ( image ) ; a1 = ( unsigned char ) ReadBlobByte ( image ) ; alpha_bits = ( MagickSizeType ) ReadBlobLSBLong ( image ) ; alpha_bits = alpha_bits | ( ( MagickSizeType ) ReadBlobLSBShort ( image ) << 32 ) ; c0 = ReadBlobLSBShort ( image ) ; c1 = ReadBlobLSBShort ( image ) ; bits = ReadBlobLSBLong ( image ) ; CalculateColors ( c0 , c1 , & colors , MagickTrue ) ; for ( j = 0 ; j < 4 ; j ++ ) { for ( i = 0 ; i < 4 ; i ++ ) { if ( ( x + i ) < ( ssize_t ) dds_info -> width && ( y + j ) < ( ssize_t ) dds_info -> height ) { code = ( bits >> ( ( 4 * j + i ) * 2 ) ) & 0x3 ; SetPixelRed ( q , ScaleCharToQuantum ( colors . r [ code ] ) ) ; SetPixelGreen ( q , ScaleCharToQuantum ( colors . g [ code ] ) ) ; SetPixelBlue ( q , ScaleCharToQuantum ( colors . b [ code ] ) ) ; alpha_code = ( size_t ) ( alpha_bits >> ( 3 * ( 4 * j + i ) ) ) & 0x7 ; if ( alpha_code == 0 ) alpha = a0 ; else if ( alpha_code == 1 ) alpha = a1 ; else if ( a0 > a1 ) alpha = ( ( 8 - alpha_code ) * a0 + ( alpha_code - 1 ) * a1 ) / 7 ; else if ( alpha_code == 6 ) alpha = 0 ; else if ( alpha_code == 7 ) alpha = 255 ; else alpha = ( ( ( 6 - alpha_code ) * a0 + ( alpha_code - 1 ) * a1 ) / 5 ) ; SetPixelAlpha ( q , ScaleCharToQuantum ( ( unsigned char ) alpha ) ) ; q ++ ; } } } if ( SyncAuthenticPixels ( image , exception ) == MagickFalse ) return MagickFalse ; } } SkipDXTMipmaps ( image , dds_info , 16 ) ; return MagickTrue ; }","static MagickBooleanType ReadDXT5 ( Image * image , DDSInfo * dds_info , ExceptionInfo * exception ) { DDSColors colors ; ssize_t j , y ; MagickSizeType alpha_bits ; PixelPacket * q ; register ssize_t i , x ; unsigned char a0 , a1 ; size_t alpha , bits , code , alpha_code ; unsigned short c0 , c1 ; for ( y = 0 ; y < ( ssize_t ) dds_info -> height ; y += 4 ) { for ( x = 0 ; x < ( ssize_t ) dds_info -> width ; x += 4 ) { q = QueueAuthenticPixels ( image , x , y , MagickMin ( 4 , dds_info -> width - x ) , MagickMin ( 4 , dds_info -> height - y ) , exception ) ; if ( q == ( PixelPacket * ) NULL ) return MagickFalse ; a0 = ( unsigned char ) ReadBlobByte ( image ) ; a1 = ( unsigned char ) ReadBlobByte ( image ) ; alpha_bits = ( MagickSizeType ) ReadBlobLSBLong ( image ) ; alpha_bits = alpha_bits | ( ( MagickSizeType ) ReadBlobLSBShort ( image ) << 32 ) ; c0 = ReadBlobLSBShort ( image ) ; c1 = ReadBlobLSBShort ( image ) ; bits = ReadBlobLSBLong ( image ) ; CalculateColors ( c0 , c1 , & colors , MagickTrue ) ; for ( j = 0 ; j < 4 ; j ++ ) { for ( i = 0 ; i < 4 ; i ++ ) { if ( ( x + i ) < ( ssize_t ) dds_info -> width && ( y + j ) < ( ssize_t ) dds_info -> height ) { code = ( bits >> ( ( 4 * j + i ) * 2 ) ) & 0x3 ; SetPixelRed ( q , ScaleCharToQuantum ( colors . r [ code ] ) ) ; SetPixelGreen ( q , ScaleCharToQuantum ( colors . g [ code ] ) ) ; SetPixelBlue ( q , ScaleCharToQuantum ( colors . b [ code ] ) ) ; alpha_code = ( size_t ) ( alpha_bits >> ( 3 * ( 4 * j + i ) ) ) & 0x7 ; if ( alpha_code == 0 ) alpha = a0 ; else if ( alpha_code == 1 ) alpha = a1 ; else if ( a0 > a1 ) alpha = ( ( 8 - alpha_code ) * a0 + ( alpha_code - 1 ) * a1 ) / 7 ; else if ( alpha_code == 6 ) alpha = 0 ; else if ( alpha_code == 7 ) alpha = 255 ; else alpha = ( ( ( 6 - alpha_code ) * a0 + ( alpha_code - 1 ) * a1 ) / 5 ) ; SetPixelAlpha ( q , ScaleCharToQuantum ( ( unsigned char ) alpha ) ) ; q ++ ; } } } if ( SyncAuthenticPixels ( image , exception ) == MagickFalse ) return MagickFalse ; } } return ( SkipDXTMipmaps ( image , dds_info , 16 , exception ) ) ; }" 42,"CWE-476 print_str ( ""profile"" , profile_num ) ; } else print_str_opt ( ""profile"" , ""unknown"" ) ; } s = av_get_media_type_string ( par -> codec_type ) ; if ( s ) print_str ( ""codec_type"" , s ) ; else print_str_opt ( ""codec_type"" , ""unknown"" ) ; # if FF_API_LAVF_AVCTX if ( dec_ctx ) print_q ( ""codec_time_base"" , dec_ctx -> time_base , '/' ) ; # endif print_str ( ""codec_tag_string"" , av_fourcc2str ( par -> codec_tag ) ) ; print_fmt ( ""codec_tag"" , ""0x%04"" PRIx32 , par -> codec_tag ) ; switch ( par -> codec_type ) { case AVMEDIA_TYPE_VIDEO : print_int ( ""width"" , par -> width ) ; print_int ( ""height"" , par -> height ) ; if ( dec_ctx ) { print_int ( ""coded_width"" , dec_ctx -> coded_width ) ; print_int ( ""coded_height"" , dec_ctx -> coded_height ) ; } print_int ( ""has_b_frames"" , par -> video_delay ) ; sar = av_guess_sample_aspect_ratio ( fmt_ctx , stream , NULL ) ; if ( sar . den ) { print_q ( ""sample_aspect_ratio"" , sar , ':' ) ; av_reduce ( & dar . num , & dar . den , par -> width * sar . num , par -> height * sar . den , 1024 * 1024 ) ; print_q ( ""display_aspect_ratio"" , dar , ':' ) ; } else { print_str_opt ( ""sample_aspect_ratio"" , ""N/A"" ) ; print_str_opt ( ""display_aspect_ratio"" , ""N/A"" ) ; } s = av_get_pix_fmt_name ( par -> format ) ; if ( s ) print_str ( ""pix_fmt"" , s ) ; else print_str_opt ( ""pix_fmt"" , ""unknown"" ) ; print_int ( ""level"" , par -> level ) ; if ( par -> color_range != AVCOL_RANGE_UNSPECIFIED ) print_str ( ""color_range"" , av_color_range_name ( par -> color_range ) ) ; else print_str_opt ( ""color_range"" , ""N/A"" ) ; if ( par -> color_space != AVCOL_SPC_UNSPECIFIED ) print_str ( ""color_space"" , av_color_space_name ( par -> color_space ) ) ; else print_str_opt ( ""color_space"" , av_color_space_name ( par -> color_space ) ) ; if ( par -> color_trc != AVCOL_TRC_UNSPECIFIED ) print_str ( ""color_transfer"" , av_color_transfer_name ( par -> color_trc ) ) ; else print_str_opt ( ""color_transfer"" , av_color_transfer_name ( par -> color_trc ) ) ; if ( par -> color_primaries != AVCOL_PRI_UNSPECIFIED ) print_str ( ""color_primaries"" , av_color_primaries_name ( par -> color_primaries ) ) ; else print_str_opt ( ""color_primaries"" , av_color_primaries_name ( par -> color_primaries ) ) ; if ( par -> chroma_location != AVCHROMA_LOC_UNSPECIFIED ) print_str ( ""chroma_location"" , av_chroma_location_name ( par -> chroma_location ) ) ; else print_str_opt ( ""chroma_location"" , av_chroma_location_name ( par -> chroma_location ) ) ; if ( par -> field_order == AV_FIELD_PROGRESSIVE ) print_str ( ""field_order"" , ""progressive"" ) ; else if ( par -> field_order == AV_FIELD_TT ) print_str ( ""field_order"" , ""tt"" ) ; else if ( par -> field_order == AV_FIELD_BB ) print_str ( ""field_order"" , ""bb"" ) ; else if ( par -> field_order == AV_FIELD_TB ) print_str ( ""field_order"" , ""tb"" ) ; else if ( par -> field_order == AV_FIELD_BT ) print_str ( ""field_order"" , ""bt"" ) ; else print_str_opt ( ""field_order"" , ""unknown"" ) ; # if FF_API_PRIVATE_OPT if ( dec_ctx && dec_ctx -> timecode_frame_start >= 0 ) { char tcbuf [ AV_TIMECODE_STR_SIZE ] ; av_timecode_make_mpeg_tc_string ( tcbuf , dec_ctx -> timecode_frame_start ) ; print_str ( ""timecode"" , tcbuf ) ; } else { print_str_opt ( ""timecode"" , ""N/A"" ) ; } # endif if ( dec_ctx ) print_int ( ""refs"" , dec_ctx -> refs ) ; break ; case AVMEDIA_TYPE_AUDIO : s = av_get_sample_fmt_name ( par -> format ) ; if ( s ) print_str ( ""sample_fmt"" , s ) ; else print_str_opt ( ""sample_fmt"" , ""unknown"" ) ; print_val ( ""sample_rate"" , par -> sample_rate , unit_hertz_str ) ; print_int ( ""channels"" , par -> channels ) ; if ( par -> channel_layout ) { av_bprint_clear ( & pbuf ) ; av_bprint_channel_layout ( & pbuf , par -> channels , par -> channel_layout ) ; print_str ( ""channel_layout"" , pbuf . str ) ; } else { print_str_opt ( ""channel_layout"" , ""unknown"" ) ; } print_int ( ""bits_per_sample"" , av_get_bits_per_sample ( par -> codec_id ) ) ; break ; case AVMEDIA_TYPE_SUBTITLE : if ( par -> width ) print_int ( ""width"" , par -> width ) ; else print_str_opt ( ""width"" , ""N/A"" ) ; if ( par -> height ) print_int ( ""height"" , par -> height ) ;","print_str ( ""profile"" , profile_num ) ; } else print_str_opt ( ""profile"" , ""unknown"" ) ; } s = av_get_media_type_string ( par -> codec_type ) ; if ( s ) print_str ( ""codec_type"" , s ) ; else print_str_opt ( ""codec_type"" , ""unknown"" ) ; # if FF_API_LAVF_AVCTX if ( dec_ctx ) print_q ( ""codec_time_base"" , dec_ctx -> time_base , '/' ) ; # endif print_str ( ""codec_tag_string"" , av_fourcc2str ( par -> codec_tag ) ) ; print_fmt ( ""codec_tag"" , ""0x%04"" PRIx32 , par -> codec_tag ) ; switch ( par -> codec_type ) { case AVMEDIA_TYPE_VIDEO : print_int ( ""width"" , par -> width ) ; print_int ( ""height"" , par -> height ) ; if ( dec_ctx ) { print_int ( ""coded_width"" , dec_ctx -> coded_width ) ; print_int ( ""coded_height"" , dec_ctx -> coded_height ) ; } print_int ( ""has_b_frames"" , par -> video_delay ) ; sar = av_guess_sample_aspect_ratio ( fmt_ctx , stream , NULL ) ; if ( sar . den ) { print_q ( ""sample_aspect_ratio"" , sar , ':' ) ; av_reduce ( & dar . num , & dar . den , par -> width * sar . num , par -> height * sar . den , 1024 * 1024 ) ; print_q ( ""display_aspect_ratio"" , dar , ':' ) ; } else { print_str_opt ( ""sample_aspect_ratio"" , ""N/A"" ) ; print_str_opt ( ""display_aspect_ratio"" , ""N/A"" ) ; } s = av_get_pix_fmt_name ( par -> format ) ; if ( s ) print_str ( ""pix_fmt"" , s ) ; else print_str_opt ( ""pix_fmt"" , ""unknown"" ) ; print_int ( ""level"" , par -> level ) ; if ( par -> color_range != AVCOL_RANGE_UNSPECIFIED ) print_str ( ""color_range"" , av_color_range_name ( par -> color_range ) ) ; else print_str_opt ( ""color_range"" , ""N/A"" ) ; if ( par -> color_space != AVCOL_SPC_UNSPECIFIED ) print_str ( ""color_space"" , av_color_space_name ( par -> color_space ) ) ; else print_str_opt ( ""color_space"" , av_color_space_name ( par -> color_space ) ) ; if ( par -> color_trc != AVCOL_TRC_UNSPECIFIED ) print_str ( ""color_transfer"" , av_color_transfer_name ( par -> color_trc ) ) ; else print_str_opt ( ""color_transfer"" , av_color_transfer_name ( par -> color_trc ) ) ; print_primaries ( w , par -> color_primaries ) ; if ( par -> chroma_location != AVCHROMA_LOC_UNSPECIFIED ) print_str ( ""chroma_location"" , av_chroma_location_name ( par -> chroma_location ) ) ; else print_str_opt ( ""chroma_location"" , av_chroma_location_name ( par -> chroma_location ) ) ; if ( par -> field_order == AV_FIELD_PROGRESSIVE ) print_str ( ""field_order"" , ""progressive"" ) ; else if ( par -> field_order == AV_FIELD_TT ) print_str ( ""field_order"" , ""tt"" ) ; else if ( par -> field_order == AV_FIELD_BB ) print_str ( ""field_order"" , ""bb"" ) ; else if ( par -> field_order == AV_FIELD_TB ) print_str ( ""field_order"" , ""tb"" ) ; else if ( par -> field_order == AV_FIELD_BT ) print_str ( ""field_order"" , ""bt"" ) ; else print_str_opt ( ""field_order"" , ""unknown"" ) ; # if FF_API_PRIVATE_OPT if ( dec_ctx && dec_ctx -> timecode_frame_start >= 0 ) { char tcbuf [ AV_TIMECODE_STR_SIZE ] ; av_timecode_make_mpeg_tc_string ( tcbuf , dec_ctx -> timecode_frame_start ) ; print_str ( ""timecode"" , tcbuf ) ; } else { print_str_opt ( ""timecode"" , ""N/A"" ) ; } # endif if ( dec_ctx ) print_int ( ""refs"" , dec_ctx -> refs ) ; break ; case AVMEDIA_TYPE_AUDIO : s = av_get_sample_fmt_name ( par -> format ) ; if ( s ) print_str ( ""sample_fmt"" , s ) ; else print_str_opt ( ""sample_fmt"" , ""unknown"" ) ; print_val ( ""sample_rate"" , par -> sample_rate , unit_hertz_str ) ; print_int ( ""channels"" , par -> channels ) ; if ( par -> channel_layout ) { av_bprint_clear ( & pbuf ) ; av_bprint_channel_layout ( & pbuf , par -> channels , par -> channel_layout ) ; print_str ( ""channel_layout"" , pbuf . str ) ; } else { print_str_opt ( ""channel_layout"" , ""unknown"" ) ; } print_int ( ""bits_per_sample"" , av_get_bits_per_sample ( par -> codec_id ) ) ; break ; case AVMEDIA_TYPE_SUBTITLE : if ( par -> width ) print_int ( ""width"" , par -> width ) ; else print_str_opt ( ""width"" , ""N/A"" ) ; if ( par -> height ) print_int ( ""height"" , par -> height ) ;" 43,"CWE-399 int genl_register_family ( struct genl_family * family ) { int err , i ; int start = GENL_START_ALLOC , end = GENL_MAX_ID ; err = genl_validate_ops ( family ) ; if ( err ) return err ; genl_lock_all ( ) ; if ( genl_family_find_byname ( family -> name ) ) { err = - EEXIST ; goto errout_locked ; } if ( family == & genl_ctrl ) { start = end = GENL_ID_CTRL ; } else if ( strcmp ( family -> name , ""pmcraid"" ) == 0 ) { start = end = GENL_ID_PMCRAID ; } else if ( strcmp ( family -> name , ""VFS_DQUOT"" ) == 0 ) { start = end = GENL_ID_VFS_DQUOT ; } if ( family -> maxattr && ! family -> parallel_ops ) { family -> attrbuf = kmalloc_array ( family -> maxattr + 1 , sizeof ( struct nlattr * ) , GFP_KERNEL ) ; if ( family -> attrbuf == NULL ) { err = - ENOMEM ; goto errout_locked ; } } else family -> attrbuf = NULL ; family -> id = idr_alloc ( & genl_fam_idr , family , start , end + 1 , GFP_KERNEL ) ; if ( family -> id < 0 ) { err = family -> id ; goto errout_locked ; } err = genl_validate_assign_mc_groups ( family ) ; if ( err ) goto errout_remove ; genl_unlock_all ( ) ; genl_ctrl_event ( CTRL_CMD_NEWFAMILY , family , NULL , 0 ) ; for ( i = 0 ; i < family -> n_mcgrps ; i ++ ) genl_ctrl_event ( CTRL_CMD_NEWMCAST_GRP , family , & family -> mcgrps [ i ] , family -> mcgrp_offset + i ) ; return 0 ; errout_remove : idr_remove ( & genl_fam_idr , family -> id ) ; kfree ( family -> attrbuf ) ; errout_locked : genl_unlock_all ( ) ; return err ; }","int genl_register_family ( struct genl_family * family ) { int err , i ; int start = GENL_START_ALLOC , end = GENL_MAX_ID ; err = genl_validate_ops ( family ) ; if ( err ) return err ; genl_lock_all ( ) ; if ( genl_family_find_byname ( family -> name ) ) { err = - EEXIST ; goto errout_locked ; } if ( family == & genl_ctrl ) { start = end = GENL_ID_CTRL ; } else if ( strcmp ( family -> name , ""pmcraid"" ) == 0 ) { start = end = GENL_ID_PMCRAID ; } else if ( strcmp ( family -> name , ""VFS_DQUOT"" ) == 0 ) { start = end = GENL_ID_VFS_DQUOT ; } if ( family -> maxattr && ! family -> parallel_ops ) { family -> attrbuf = kmalloc_array ( family -> maxattr + 1 , sizeof ( struct nlattr * ) , GFP_KERNEL ) ; if ( family -> attrbuf == NULL ) { err = - ENOMEM ; goto errout_locked ; } } else family -> attrbuf = NULL ; family -> id = idr_alloc ( & genl_fam_idr , family , start , end + 1 , GFP_KERNEL ) ; if ( family -> id < 0 ) { err = family -> id ; goto errout_free ; } err = genl_validate_assign_mc_groups ( family ) ; if ( err ) goto errout_remove ; genl_unlock_all ( ) ; genl_ctrl_event ( CTRL_CMD_NEWFAMILY , family , NULL , 0 ) ; for ( i = 0 ; i < family -> n_mcgrps ; i ++ ) genl_ctrl_event ( CTRL_CMD_NEWMCAST_GRP , family , & family -> mcgrps [ i ] , family -> mcgrp_offset + i ) ; return 0 ; errout_remove : idr_remove ( & genl_fam_idr , family -> id ) ; errout_free : kfree ( family -> attrbuf ) ; errout_locked : genl_unlock_all ( ) ; return err ; }" 44,"CWE-119 int vp8dx_start_decode ( BOOL_DECODER * br , const unsigned char * source , unsigned int source_sz , vp8_decrypt_cb * decrypt_cb , void * decrypt_state ) { br -> user_buffer_end = source + source_sz ; br -> user_buffer = source ; br -> value = 0 ; br -> count = - 8 ; br -> range = 255 ; br -> decrypt_cb = decrypt_cb ; br -> decrypt_state = decrypt_state ; if ( source_sz && ! source ) return 1 ; vp8dx_bool_decoder_fill ( br ) ; return 0 ; }","int vp8dx_start_decode ( BOOL_DECODER * br , const unsigned char * source , unsigned int source_sz , vpx_decrypt_cb decrypt_cb , void * decrypt_state ) { br -> user_buffer_end = source + source_sz ; br -> user_buffer = source ; br -> value = 0 ; br -> count = - 8 ; br -> range = 255 ; br -> decrypt_cb = decrypt_cb ; br -> decrypt_state = decrypt_state ; if ( source_sz && ! source ) return 1 ; vp8dx_bool_decoder_fill ( br ) ; return 0 ; }" 45,"CWE-190 int sqlite3Fts3InitTokenizer ( Fts3Hash * pHash , const char * zArg , sqlite3_tokenizer * * ppTok , char * * pzErr ) { int rc ; char * z = ( char * ) zArg ; int n = 0 ; char * zCopy ; char * zEnd ; sqlite3_tokenizer_module * m ; zCopy = sqlite3_mprintf ( ""%s"" , zArg ) ; if ( ! zCopy ) return SQLITE_NOMEM ; zEnd = & zCopy [ strlen ( zCopy ) ] ; z = ( char * ) sqlite3Fts3NextToken ( zCopy , & n ) ; if ( z == 0 ) { assert ( n == 0 ) ; z = zCopy ; } z [ n ] = '\\0' ; sqlite3Fts3Dequote ( z ) ; m = ( sqlite3_tokenizer_module * ) sqlite3Fts3HashFind ( pHash , z , ( int ) strlen ( z ) + 1 ) ; if ( ! m ) { sqlite3Fts3ErrMsg ( pzErr , ""unknown tokenizer: %s"" , z ) ; rc = SQLITE_ERROR ; } else { char const * * aArg = 0 ; int iArg = 0 ; z = & z [ n + 1 ] ; while ( z < zEnd && ( NULL != ( z = ( char * ) sqlite3Fts3NextToken ( z , & n ) ) ) ) { int nNew = sizeof ( char * ) * ( iArg + 1 ) ; char const * * aNew = ( const char * * ) sqlite3_realloc ( ( void * ) aArg , nNew ) ; if ( ! aNew ) { sqlite3_free ( zCopy ) ; sqlite3_free ( ( void * ) aArg ) ; return SQLITE_NOMEM ; } aArg = aNew ; aArg [ iArg ++ ] = z ; z [ n ] = '\\0' ; sqlite3Fts3Dequote ( z ) ; z = & z [ n + 1 ] ; } rc = m -> xCreate ( iArg , aArg , ppTok ) ; assert ( rc != SQLITE_OK || * ppTok ) ; if ( rc != SQLITE_OK ) { sqlite3Fts3ErrMsg ( pzErr , ""unknown tokenizer"" ) ; } else { ( * ppTok ) -> pModule = m ; } sqlite3_free ( ( void * ) aArg ) ; } sqlite3_free ( zCopy ) ; return rc ; }","int sqlite3Fts3InitTokenizer ( Fts3Hash * pHash , const char * zArg , sqlite3_tokenizer * * ppTok , char * * pzErr ) { int rc ; char * z = ( char * ) zArg ; int n = 0 ; char * zCopy ; char * zEnd ; sqlite3_tokenizer_module * m ; zCopy = sqlite3_mprintf ( ""%s"" , zArg ) ; if ( ! zCopy ) return SQLITE_NOMEM ; zEnd = & zCopy [ strlen ( zCopy ) ] ; z = ( char * ) sqlite3Fts3NextToken ( zCopy , & n ) ; if ( z == 0 ) { assert ( n == 0 ) ; z = zCopy ; } z [ n ] = '\\0' ; sqlite3Fts3Dequote ( z ) ; m = ( sqlite3_tokenizer_module * ) sqlite3Fts3HashFind ( pHash , z , ( int ) strlen ( z ) + 1 ) ; if ( ! m ) { sqlite3Fts3ErrMsg ( pzErr , ""unknown tokenizer: %s"" , z ) ; rc = SQLITE_ERROR ; } else { char const * * aArg = 0 ; int iArg = 0 ; z = & z [ n + 1 ] ; while ( z < zEnd && ( NULL != ( z = ( char * ) sqlite3Fts3NextToken ( z , & n ) ) ) ) { sqlite3_int64 nNew = sizeof ( char * ) * ( iArg + 1 ) ; char const * * aNew = ( const char * * ) sqlite3_realloc64 ( ( void * ) aArg , nNew ) ; if ( ! aNew ) { sqlite3_free ( zCopy ) ; sqlite3_free ( ( void * ) aArg ) ; return SQLITE_NOMEM ; } aArg = aNew ; aArg [ iArg ++ ] = z ; z [ n ] = '\\0' ; sqlite3Fts3Dequote ( z ) ; z = & z [ n + 1 ] ; } rc = m -> xCreate ( iArg , aArg , ppTok ) ; assert ( rc != SQLITE_OK || * ppTok ) ; if ( rc != SQLITE_OK ) { sqlite3Fts3ErrMsg ( pzErr , ""unknown tokenizer"" ) ; } else { ( * ppTok ) -> pModule = m ; } sqlite3_free ( ( void * ) aArg ) ; } sqlite3_free ( zCopy ) ; return rc ; }" 46,"CWE-269 uint32_t virtio_config_readb ( VirtIODevice * vdev , uint32_t addr ) { VirtioDeviceClass * k = VIRTIO_DEVICE_GET_CLASS ( vdev ) ; uint8_t val ; k -> get_config ( vdev , vdev -> config ) ; if ( addr > ( vdev -> config_len - sizeof ( val ) ) ) return ( uint32_t ) - 1 ; val = ldub_p ( vdev -> config + addr ) ; return val ; }","uint32_t virtio_config_readb ( VirtIODevice * vdev , uint32_t addr ) { VirtioDeviceClass * k = VIRTIO_DEVICE_GET_CLASS ( vdev ) ; uint8_t val ; if ( addr + sizeof ( val ) > vdev -> config_len ) { return ( uint32_t ) - 1 ; } k -> get_config ( vdev , vdev -> config ) ; val = ldub_p ( vdev -> config + addr ) ; return val ; }" 47,"CWE-20 error_t ftpClientParseDirEntry ( char_t * line , FtpDirEntry * dirEntry ) { uint_t i ; size_t n ; char_t * p ; char_t * token ; static const char_t months [ 13 ] [ 4 ] = { "" "" , ""Jan"" , ""Feb"" , ""Mar"" , ""Apr"" , ""May"" , ""Jun"" , ""Jul"" , ""Aug"" , ""Sep"" , ""Oct"" , ""Nov"" , ""Dec"" } ; token = osStrtok_r ( line , "" \\t"" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; if ( osIsdigit ( token [ 0 ] ) ) { if ( osStrlen ( token ) == 8 && token [ 2 ] == '-' && token [ 5 ] == '-' ) { dirEntry -> modified . month = ( uint8_t ) osStrtoul ( token , NULL , 10 ) ; dirEntry -> modified . day = ( uint8_t ) osStrtoul ( token + 3 , NULL , 10 ) ; dirEntry -> modified . year = ( uint16_t ) osStrtoul ( token + 6 , NULL , 10 ) + 2000 ; } else if ( osStrlen ( token ) == 10 && token [ 2 ] == '/' && token [ 5 ] == '/' ) { dirEntry -> modified . month = ( uint8_t ) osStrtoul ( token , NULL , 10 ) ; dirEntry -> modified . day = ( uint8_t ) osStrtoul ( token + 3 , NULL , 10 ) ; dirEntry -> modified . year = ( uint16_t ) osStrtoul ( token + 6 , NULL , 10 ) ; } else { return ERROR_INVALID_SYNTAX ; } token = osStrtok_r ( NULL , "" "" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; if ( osStrlen ( token ) >= 5 && token [ 2 ] == ':' ) { dirEntry -> modified . hours = ( uint8_t ) osStrtoul ( token , NULL , 10 ) ; dirEntry -> modified . minutes = ( uint8_t ) osStrtoul ( token + 3 , NULL , 10 ) ; if ( strstr ( token , ""PM"" ) != NULL ) dirEntry -> modified . hours += 12 ; } else { return ERROR_INVALID_SYNTAX ; } token = osStrtok_r ( NULL , "" "" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; if ( ! osStrcmp ( token , """" ) ) { dirEntry -> attributes |= FTP_FILE_ATTR_DIRECTORY ; } else { dirEntry -> size = osStrtoul ( token , NULL , 10 ) ; } token = osStrtok_r ( NULL , "" \\r\\n"" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; n = osStrlen ( token ) ; n = MIN ( n , FTP_CLIENT_MAX_FILENAME_LEN ) ; osStrncpy ( dirEntry -> name , token , n ) ; dirEntry -> name [ n ] = '\\0' ; } else { if ( strchr ( token , 'd' ) != NULL ) dirEntry -> attributes |= FTP_FILE_ATTR_DIRECTORY ; if ( strchr ( token , 'w' ) == NULL ) dirEntry -> attributes |= FTP_FILE_ATTR_READ_ONLY ; token = osStrtok_r ( NULL , "" "" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; token = osStrtok_r ( NULL , "" "" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; token = osStrtok_r ( NULL , "" "" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; token = osStrtok_r ( NULL , "" "" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; dirEntry -> size = osStrtoul ( token , NULL , 10 ) ; token = osStrtok_r ( NULL , "" "" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; for ( i = 1 ; i <= 12 ; i ++ ) { if ( ! osStrcmp ( token , months [ i ] ) ) { dirEntry -> modified . month = i ; break ; } } token = osStrtok_r ( NULL , "" "" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; dirEntry -> modified . day = ( uint8_t ) osStrtoul ( token , NULL , 10 ) ; token = osStrtok_r ( NULL , "" "" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; if ( osStrlen ( token ) == 4 ) { dirEntry -> modified . year = ( uint16_t ) osStrtoul ( token , NULL , 10 ) ; } else if ( osStrlen ( token ) == 5 ) { token [ 2 ] = '\\0' ; dirEntry -> modified . hours = ( uint8_t ) osStrtoul ( token , NULL , 10 ) ; dirEntry -> modified . minutes = ( uint8_t ) osStrtoul ( token + 3 , NULL , 10 ) ; } else { return ERROR_INVALID_SYNTAX ; } token = osStrtok_r ( NULL , "" \\r\\n"" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; n = osStrlen ( token ) ; n = MIN ( n , FTP_CLIENT_MAX_FILENAME_LEN ) ;","error_t ftpClientParseDirEntry ( char_t * line , FtpDirEntry * dirEntry ) { uint_t i ; size_t n ; char_t * p ; char_t * token ; static const char_t months [ 13 ] [ 4 ] = { "" "" , ""Jan"" , ""Feb"" , ""Mar"" , ""Apr"" , ""May"" , ""Jun"" , ""Jul"" , ""Aug"" , ""Sep"" , ""Oct"" , ""Nov"" , ""Dec"" } ; token = osStrtok_r ( line , "" \\t"" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; if ( osIsdigit ( token [ 0 ] ) ) { if ( osStrlen ( token ) == 8 && token [ 2 ] == '-' && token [ 5 ] == '-' ) { dirEntry -> modified . month = ( uint8_t ) osStrtoul ( token , NULL , 10 ) ; dirEntry -> modified . day = ( uint8_t ) osStrtoul ( token + 3 , NULL , 10 ) ; dirEntry -> modified . year = ( uint16_t ) osStrtoul ( token + 6 , NULL , 10 ) + 2000 ; } else if ( osStrlen ( token ) == 10 && token [ 2 ] == '/' && token [ 5 ] == '/' ) { dirEntry -> modified . month = ( uint8_t ) osStrtoul ( token , NULL , 10 ) ; dirEntry -> modified . day = ( uint8_t ) osStrtoul ( token + 3 , NULL , 10 ) ; dirEntry -> modified . year = ( uint16_t ) osStrtoul ( token + 6 , NULL , 10 ) ; } else { return ERROR_INVALID_SYNTAX ; } token = osStrtok_r ( NULL , "" "" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; if ( osStrlen ( token ) >= 5 && token [ 2 ] == ':' ) { dirEntry -> modified . hours = ( uint8_t ) osStrtoul ( token , NULL , 10 ) ; dirEntry -> modified . minutes = ( uint8_t ) osStrtoul ( token + 3 , NULL , 10 ) ; if ( osStrstr ( token , ""PM"" ) != NULL ) { dirEntry -> modified . hours += 12 ; } } else { return ERROR_INVALID_SYNTAX ; } token = osStrtok_r ( NULL , "" "" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; if ( ! osStrcmp ( token , """" ) ) { dirEntry -> attributes |= FTP_FILE_ATTR_DIRECTORY ; } else { dirEntry -> size = osStrtoul ( token , NULL , 10 ) ; } token = osStrtok_r ( NULL , "" \\r\\n"" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; n = osStrlen ( token ) ; n = MIN ( n , FTP_CLIENT_MAX_FILENAME_LEN ) ; osStrncpy ( dirEntry -> name , token , n ) ; dirEntry -> name [ n ] = '\\0' ; } else { if ( osStrchr ( token , 'd' ) != NULL ) { dirEntry -> attributes |= FTP_FILE_ATTR_DIRECTORY ; } if ( osStrchr ( token , 'w' ) == NULL ) { dirEntry -> attributes |= FTP_FILE_ATTR_READ_ONLY ; } token = osStrtok_r ( NULL , "" "" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; token = osStrtok_r ( NULL , "" "" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; token = osStrtok_r ( NULL , "" "" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; token = osStrtok_r ( NULL , "" "" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; dirEntry -> size = osStrtoul ( token , NULL , 10 ) ; token = osStrtok_r ( NULL , "" "" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; for ( i = 1 ; i <= 12 ; i ++ ) { if ( ! osStrcmp ( token , months [ i ] ) ) { dirEntry -> modified . month = i ; break ; } } token = osStrtok_r ( NULL , "" "" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; dirEntry -> modified . day = ( uint8_t ) osStrtoul ( token , NULL , 10 ) ; token = osStrtok_r ( NULL , "" "" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; if ( osStrlen ( token ) == 4 ) { dirEntry -> modified . year = ( uint16_t ) osStrtoul ( token , NULL , 10 ) ; } else if ( osStrlen ( token ) == 5 ) { token [ 2 ] = '\\0' ; dirEntry -> modified . hours = ( uint8_t ) osStrtoul ( token , NULL , 10 ) ; dirEntry -> modified . minutes = ( uint8_t ) osStrtoul ( token + 3 , NULL , 10 ) ; } else { return ERROR_INVALID_SYNTAX ; } token = osStrtok_r ( NULL , "" \\r\\n"" , & p ) ; if ( token == NULL ) return ERROR_INVALID_SYNTAX ; n = osStrlen ( token ) ; n = MIN ( n , FTP_CLIENT_MAX_FILENAME_LEN ) ;" 48,"CWE-416 static enum hrtimer_restart bfq_idle_slice_timer ( struct hrtimer * timer ) { struct bfq_data * bfqd = container_of ( timer , struct bfq_data , idle_slice_timer ) ; struct bfq_queue * bfqq = bfqd -> in_service_queue ; if ( bfqq ) bfq_idle_slice_timer_body ( bfqq ) ; return HRTIMER_NORESTART ; }","static enum hrtimer_restart bfq_idle_slice_timer ( struct hrtimer * timer ) { struct bfq_data * bfqd = container_of ( timer , struct bfq_data , idle_slice_timer ) ; struct bfq_queue * bfqq = bfqd -> in_service_queue ; if ( bfqq ) bfq_idle_slice_timer_body ( bfqd , bfqq ) ; return HRTIMER_NORESTART ; }" 49,"CWE-362 evtchn_port_t evtchn_from_irq ( unsigned irq ) { if ( WARN ( irq >= nr_irqs , ""Invalid irq %d!\\n"" , irq ) ) return 0 ; return info_for_irq ( irq ) -> evtchn ; }",evtchn_port_t evtchn_from_irq ( unsigned irq ) { const struct irq_info * info = NULL ; if ( likely ( irq < nr_irqs ) ) info = info_for_irq ( irq ) ; if ( ! info ) return 0 ; return info -> evtchn ; } 50,"CWE-667 static void * gp_worker_main ( void * pvt ) { struct gp_thread * t = ( struct gp_thread * ) pvt ; struct gp_query * q = NULL ; char dummy = 0 ; int ret ; while ( ! t -> pool -> shutdown ) { gp_debug_set_conn_id ( 0 ) ; pthread_mutex_lock ( & t -> cond_mutex ) ; while ( t -> query == NULL ) { pthread_cond_wait ( & t -> cond_wakeup , & t -> cond_mutex ) ; if ( t -> pool -> shutdown ) { pthread_exit ( NULL ) ; } } q = t -> query ; t -> query = NULL ; pthread_mutex_unlock ( & t -> cond_mutex ) ; gp_debug_set_conn_id ( gp_conn_get_cid ( q -> conn ) ) ; GPDEBUGN ( 3 , ""[status] Handling query input: %p (%zu)\\n"" , q -> buffer , q -> buflen ) ; gp_handle_query ( t -> pool , q ) ; GPDEBUGN ( 3 , ""[status] Handling query output: %p (%zu)\\n"" , q -> buffer , q -> buflen ) ; pthread_mutex_lock ( & t -> pool -> lock ) ; q -> next = t -> pool -> reply_list ; t -> pool -> reply_list = q ; if ( ! t -> pool -> shutdown ) { LIST_DEL ( t -> pool -> busy_list , t ) ; LIST_ADD ( t -> pool -> free_list , t ) ; } pthread_mutex_unlock ( & t -> pool -> lock ) ; ret = write ( t -> pool -> sig_pipe [ 1 ] , & dummy , 1 ) ; if ( ret == - 1 ) { GPERROR ( ""Failed to signal dispatcher!"" ) ; } } pthread_exit ( NULL ) ; }","static void * gp_worker_main ( void * pvt ) { struct gp_thread * t = ( struct gp_thread * ) pvt ; struct gp_query * q = NULL ; char dummy = 0 ; int ret ; while ( ! t -> pool -> shutdown ) { gp_debug_set_conn_id ( 0 ) ; pthread_mutex_lock ( & t -> cond_mutex ) ; while ( t -> query == NULL ) { pthread_cond_wait ( & t -> cond_wakeup , & t -> cond_mutex ) ; if ( t -> pool -> shutdown ) { pthread_mutex_unlock ( & t -> cond_mutex ) ; pthread_exit ( NULL ) ; } } q = t -> query ; t -> query = NULL ; pthread_mutex_unlock ( & t -> cond_mutex ) ; gp_debug_set_conn_id ( gp_conn_get_cid ( q -> conn ) ) ; GPDEBUGN ( 3 , ""[status] Handling query input: %p (%zu)\\n"" , q -> buffer , q -> buflen ) ; gp_handle_query ( t -> pool , q ) ; GPDEBUGN ( 3 , ""[status] Handling query output: %p (%zu)\\n"" , q -> buffer , q -> buflen ) ; pthread_mutex_lock ( & t -> pool -> lock ) ; q -> next = t -> pool -> reply_list ; t -> pool -> reply_list = q ; if ( ! t -> pool -> shutdown ) { LIST_DEL ( t -> pool -> busy_list , t ) ; LIST_ADD ( t -> pool -> free_list , t ) ; } pthread_mutex_unlock ( & t -> pool -> lock ) ; ret = write ( t -> pool -> sig_pipe [ 1 ] , & dummy , 1 ) ; if ( ret == - 1 ) { GPERROR ( ""Failed to signal dispatcher!"" ) ; } } pthread_exit ( NULL ) ; }" 51,"CWE-119 static struct se_portal_group * vhost_scsi_make_tpg ( struct se_wwn * wwn , struct config_group * group , const char * name ) { struct vhost_scsi_tport * tport = container_of ( wwn , struct vhost_scsi_tport , tport_wwn ) ; struct vhost_scsi_tpg * tpg ; unsigned long tpgt ; int ret ; if ( strstr ( name , ""tpgt_"" ) != name ) return ERR_PTR ( - EINVAL ) ; if ( kstrtoul ( name + 5 , 10 , & tpgt ) || tpgt > UINT_MAX ) return ERR_PTR ( - EINVAL ) ; tpg = kzalloc ( sizeof ( struct vhost_scsi_tpg ) , GFP_KERNEL ) ; if ( ! tpg ) { pr_err ( ""Unable to allocate struct vhost_scsi_tpg"" ) ; return ERR_PTR ( - ENOMEM ) ; } mutex_init ( & tpg -> tv_tpg_mutex ) ; INIT_LIST_HEAD ( & tpg -> tv_tpg_list ) ; tpg -> tport = tport ; tpg -> tport_tpgt = tpgt ; ret = core_tpg_register ( & vhost_scsi_fabric_configfs -> tf_ops , wwn , & tpg -> se_tpg , tpg , TRANSPORT_TPG_TYPE_NORMAL ) ; if ( ret < 0 ) { kfree ( tpg ) ; return NULL ; } mutex_lock ( & vhost_scsi_mutex ) ; list_add_tail ( & tpg -> tv_tpg_list , & vhost_scsi_list ) ; mutex_unlock ( & vhost_scsi_mutex ) ; return & tpg -> se_tpg ; }","static struct se_portal_group * vhost_scsi_make_tpg ( struct se_wwn * wwn , struct config_group * group , const char * name ) { struct vhost_scsi_tport * tport = container_of ( wwn , struct vhost_scsi_tport , tport_wwn ) ; struct vhost_scsi_tpg * tpg ; u16 tpgt ; int ret ; if ( strstr ( name , ""tpgt_"" ) != name ) return ERR_PTR ( - EINVAL ) ; if ( kstrtou16 ( name + 5 , 10 , & tpgt ) || tpgt >= VHOST_SCSI_MAX_TARGET ) return ERR_PTR ( - EINVAL ) ; tpg = kzalloc ( sizeof ( struct vhost_scsi_tpg ) , GFP_KERNEL ) ; if ( ! tpg ) { pr_err ( ""Unable to allocate struct vhost_scsi_tpg"" ) ; return ERR_PTR ( - ENOMEM ) ; } mutex_init ( & tpg -> tv_tpg_mutex ) ; INIT_LIST_HEAD ( & tpg -> tv_tpg_list ) ; tpg -> tport = tport ; tpg -> tport_tpgt = tpgt ; ret = core_tpg_register ( & vhost_scsi_fabric_configfs -> tf_ops , wwn , & tpg -> se_tpg , tpg , TRANSPORT_TPG_TYPE_NORMAL ) ; if ( ret < 0 ) { kfree ( tpg ) ; return NULL ; } mutex_lock ( & vhost_scsi_mutex ) ; list_add_tail ( & tpg -> tv_tpg_list , & vhost_scsi_list ) ; mutex_unlock ( & vhost_scsi_mutex ) ; return & tpg -> se_tpg ; }" 52,"CWE-416 static int rm_read_multi ( AVFormatContext * s , AVIOContext * pb , AVStream * st , char * mime ) { int number_of_streams = avio_rb16 ( pb ) ; int number_of_mdpr ; int i , ret ; unsigned size2 ; for ( i = 0 ; i < number_of_streams ; i ++ ) avio_rb16 ( pb ) ; number_of_mdpr = avio_rb16 ( pb ) ; if ( number_of_mdpr != 1 ) { avpriv_request_sample ( s , ""MLTI with multiple (%d) MDPR"" , number_of_mdpr ) ; } for ( i = 0 ; i < number_of_mdpr ; i ++ ) { AVStream * st2 ; if ( i > 0 ) { st2 = avformat_new_stream ( s , NULL ) ; if ( ! st2 ) { ret = AVERROR ( ENOMEM ) ; return ret ; } st2 -> id = st -> id + ( i << 16 ) ; st2 -> codecpar -> bit_rate = st -> codecpar -> bit_rate ; st2 -> start_time = st -> start_time ; st2 -> duration = st -> duration ; st2 -> codecpar -> codec_type = AVMEDIA_TYPE_DATA ; st2 -> priv_data = ff_rm_alloc_rmstream ( ) ; if ( ! st2 -> priv_data ) return AVERROR ( ENOMEM ) ; } else st2 = st ; size2 = avio_rb32 ( pb ) ; ret = ff_rm_read_mdpr_codecdata ( s , s -> pb , st2 , st2 -> priv_data , size2 , mime ) ; if ( ret < 0 ) return ret ; } return 0 ; }","static int rm_read_multi ( AVFormatContext * s , AVIOContext * pb , AVStream * st , char * mime ) { int number_of_streams = avio_rb16 ( pb ) ; int number_of_mdpr ; int i , ret ; unsigned size2 ; for ( i = 0 ; i < number_of_streams ; i ++ ) avio_rb16 ( pb ) ; number_of_mdpr = avio_rb16 ( pb ) ; if ( number_of_mdpr != 1 ) { avpriv_request_sample ( s , ""MLTI with multiple (%d) MDPR"" , number_of_mdpr ) ; } for ( i = 0 ; i < number_of_mdpr ; i ++ ) { AVStream * st2 ; if ( i > 0 ) { st2 = avformat_new_stream ( s , NULL ) ; if ( ! st2 ) { ret = AVERROR ( ENOMEM ) ; return ret ; } st2 -> id = st -> id + ( i << 16 ) ; st2 -> codecpar -> bit_rate = st -> codecpar -> bit_rate ; st2 -> start_time = st -> start_time ; st2 -> duration = st -> duration ; st2 -> codecpar -> codec_type = AVMEDIA_TYPE_DATA ; st2 -> priv_data = ff_rm_alloc_rmstream ( ) ; if ( ! st2 -> priv_data ) return AVERROR ( ENOMEM ) ; } else st2 = st ; size2 = avio_rb32 ( pb ) ; ret = ff_rm_read_mdpr_codecdata ( s , s -> pb , st2 , st2 -> priv_data , size2 , NULL ) ; if ( ret < 0 ) return ret ; } return 0 ; }" 53,"CWE-310 param_len += i ; if ( ! ( s -> srp_ctx . s = BN_bin2bn ( p , i , NULL ) ) ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , ERR_R_BN_LIB ) ; goto err ; } p += i ; if ( 2 > n - param_len ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , SSL_R_LENGTH_TOO_SHORT ) ; goto f_err ; } param_len += 2 ; n2s ( p , i ) ; if ( i > n - param_len ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , SSL_R_BAD_SRP_B_LENGTH ) ; goto f_err ; } param_len += i ; if ( ! ( s -> srp_ctx . B = BN_bin2bn ( p , i , NULL ) ) ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , ERR_R_BN_LIB ) ; goto err ; } p += i ; n -= param_len ; if ( ! srp_verify_server_param ( s , & al ) ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , SSL_R_BAD_SRP_PARAMETERS ) ; goto f_err ; } # ifndef OPENSSL_NO_RSA if ( alg_a & SSL_aRSA ) pkey = X509_get_pubkey ( s -> session -> sess_cert -> peer_pkeys [ SSL_PKEY_RSA_ENC ] . x509 ) ; # else if ( 0 ) ; # endif # ifndef OPENSSL_NO_DSA else if ( alg_a & SSL_aDSS ) pkey = X509_get_pubkey ( s -> session -> sess_cert -> peer_pkeys [ SSL_PKEY_DSA_SIGN ] . x509 ) ; # endif } else # endif # ifndef OPENSSL_NO_RSA if ( alg_k & SSL_kRSA ) { if ( ( rsa = RSA_new ( ) ) == NULL ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , ERR_R_MALLOC_FAILURE ) ; goto err ; } param_len = 2 ; if ( param_len > n ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , SSL_R_LENGTH_TOO_SHORT ) ; goto f_err ; } n2s ( p , i ) ; if ( i > n - param_len ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , SSL_R_BAD_RSA_MODULUS_LENGTH ) ; goto f_err ; } param_len += i ; if ( ! ( rsa -> n = BN_bin2bn ( p , i , rsa -> n ) ) ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , ERR_R_BN_LIB ) ; goto err ; } p += i ; if ( 2 > n - param_len ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , SSL_R_LENGTH_TOO_SHORT ) ; goto f_err ; } param_len += 2 ; n2s ( p , i ) ; if ( i > n - param_len ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , SSL_R_BAD_RSA_E_LENGTH ) ; goto f_err ; } param_len += i ; if ( ! ( rsa -> e = BN_bin2bn ( p , i , rsa -> e ) ) ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , ERR_R_BN_LIB ) ; goto err ; } p += i ; n -= param_len ; if ( alg_a & SSL_aRSA ) pkey = X509_get_pubkey ( s -> session -> sess_cert -> peer_pkeys [ SSL_PKEY_RSA_ENC ] . x509 ) ; else {","param_len += i ; if ( ! ( s -> srp_ctx . s = BN_bin2bn ( p , i , NULL ) ) ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , ERR_R_BN_LIB ) ; goto err ; } p += i ; if ( 2 > n - param_len ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , SSL_R_LENGTH_TOO_SHORT ) ; goto f_err ; } param_len += 2 ; n2s ( p , i ) ; if ( i > n - param_len ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , SSL_R_BAD_SRP_B_LENGTH ) ; goto f_err ; } param_len += i ; if ( ! ( s -> srp_ctx . B = BN_bin2bn ( p , i , NULL ) ) ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , ERR_R_BN_LIB ) ; goto err ; } p += i ; n -= param_len ; if ( ! srp_verify_server_param ( s , & al ) ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , SSL_R_BAD_SRP_PARAMETERS ) ; goto f_err ; } # ifndef OPENSSL_NO_RSA if ( alg_a & SSL_aRSA ) pkey = X509_get_pubkey ( s -> session -> sess_cert -> peer_pkeys [ SSL_PKEY_RSA_ENC ] . x509 ) ; # else if ( 0 ) ; # endif # ifndef OPENSSL_NO_DSA else if ( alg_a & SSL_aDSS ) pkey = X509_get_pubkey ( s -> session -> sess_cert -> peer_pkeys [ SSL_PKEY_DSA_SIGN ] . x509 ) ; # endif } else # endif # ifndef OPENSSL_NO_RSA if ( alg_k & SSL_kRSA ) { if ( ! SSL_C_IS_EXPORT ( s -> s3 -> tmp . new_cipher ) ) { al = SSL_AD_UNEXPECTED_MESSAGE ; SSLerr ( SSL_F_SSL3_GET_SERVER_CERTIFICATE , SSL_R_UNEXPECTED_MESSAGE ) ; goto f_err ; } if ( ( rsa = RSA_new ( ) ) == NULL ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , ERR_R_MALLOC_FAILURE ) ; goto err ; } param_len = 2 ; if ( param_len > n ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , SSL_R_LENGTH_TOO_SHORT ) ; goto f_err ; } n2s ( p , i ) ; if ( i > n - param_len ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , SSL_R_BAD_RSA_MODULUS_LENGTH ) ; goto f_err ; } param_len += i ; if ( ! ( rsa -> n = BN_bin2bn ( p , i , rsa -> n ) ) ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , ERR_R_BN_LIB ) ; goto err ; } p += i ; if ( 2 > n - param_len ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , SSL_R_LENGTH_TOO_SHORT ) ; goto f_err ; } param_len += 2 ; n2s ( p , i ) ; if ( i > n - param_len ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , SSL_R_BAD_RSA_E_LENGTH ) ; goto f_err ; } param_len += i ; if ( ! ( rsa -> e = BN_bin2bn ( p , i , rsa -> e ) ) ) { SSLerr ( SSL_F_SSL3_GET_KEY_EXCHANGE , ERR_R_BN_LIB ) ; goto err ; } p += i ; n -= param_len ; if ( alg_a & SSL_aRSA ) pkey = X509_get_pubkey ( s -> session -> sess_cert -> peer_pkeys [ SSL_PKEY_RSA_ENC ] . x509 ) ; else {" 54,"CWE-787 void pdf_get_version ( FILE * fp , pdf_t * pdf ) { char * header , * c ; header = get_header ( fp ) ; if ( ( c = strstr ( header , ""%PDF-"" ) ) && ( c + strlen ( ""%PDF-M.m"" ) + 2 ) ) { pdf -> pdf_major_version = atoi ( c + strlen ( ""%PDF-"" ) ) ; pdf -> pdf_minor_version = atoi ( c + strlen ( ""%PDF-M."" ) ) ; } free ( header ) ; }","void pdf_get_version ( FILE * fp , pdf_t * pdf ) { char * header = get_header ( fp ) ; const char * c ; if ( ( c = strstr ( header , ""%PDF-"" ) ) && ( ( c + 6 ) [ 0 ] == '.' ) && isdigit ( ( c + 5 ) [ 0 ] ) && isdigit ( ( c + 7 ) [ 0 ] ) ) { pdf -> pdf_major_version = atoi ( c + strlen ( ""%PDF-"" ) ) ; pdf -> pdf_minor_version = atoi ( c + strlen ( ""%PDF-M."" ) ) ; } free ( header ) ; }" 55,"CWE-200 bool __net_get_random_once ( void * buf , int nbytes , bool * done , struct static_key * done_key ) { static DEFINE_SPINLOCK ( lock ) ; unsigned long flags ; spin_lock_irqsave ( & lock , flags ) ; if ( * done ) { spin_unlock_irqrestore ( & lock , flags ) ; return false ; } get_random_bytes ( buf , nbytes ) ; * done = true ; spin_unlock_irqrestore ( & lock , flags ) ; __net_random_once_disable_jump ( done_key ) ; return true ; }","bool __net_get_random_once ( void * buf , int nbytes , bool * done , struct static_key * once_key ) { static DEFINE_SPINLOCK ( lock ) ; unsigned long flags ; spin_lock_irqsave ( & lock , flags ) ; if ( * done ) { spin_unlock_irqrestore ( & lock , flags ) ; return false ; } get_random_bytes ( buf , nbytes ) ; * done = true ; spin_unlock_irqrestore ( & lock , flags ) ; __net_random_once_disable_jump ( once_key ) ; return true ; }" 56,"CWE-119 void sec_decrypt ( uint8 * data , int length ) { if ( g_sec_decrypt_use_count == 4096 ) { sec_update ( g_sec_decrypt_key , g_sec_decrypt_update_key ) ; rdssl_rc4_set_key ( & g_rc4_decrypt_key , g_sec_decrypt_key , g_rc4_key_len ) ; g_sec_decrypt_use_count = 0 ; } rdssl_rc4_crypt ( & g_rc4_decrypt_key , data , data , length ) ; g_sec_decrypt_use_count ++ ; }","void sec_decrypt ( uint8 * data , int length ) { if ( length <= 0 ) return ; if ( g_sec_decrypt_use_count == 4096 ) { sec_update ( g_sec_decrypt_key , g_sec_decrypt_update_key ) ; rdssl_rc4_set_key ( & g_rc4_decrypt_key , g_sec_decrypt_key , g_rc4_key_len ) ; g_sec_decrypt_use_count = 0 ; } rdssl_rc4_crypt ( & g_rc4_decrypt_key , data , data , length ) ; g_sec_decrypt_use_count ++ ; }" 57,"CWE-90 krb5_error_code krb5_ldap_put_principal ( krb5_context context , krb5_db_entry * entry , char * * db_args ) { int l = 0 , kerberos_principal_object_type = 0 ; unsigned int ntrees = 0 , tre = 0 ; krb5_error_code st = 0 , tempst = 0 ; LDAP * ld = NULL ; LDAPMessage * result = NULL , * ent = NULL ; char * * subtreelist = NULL ; char * user = NULL , * subtree = NULL , * principal_dn = NULL ; char * * values = NULL , * strval [ 10 ] = { NULL } , errbuf [ 1024 ] ; char * filtuser = NULL ; struct berval * * bersecretkey = NULL ; LDAPMod * * mods = NULL ; krb5_boolean create_standalone = FALSE ; krb5_boolean krb_identity_exists = FALSE , establish_links = FALSE ; char * standalone_principal_dn = NULL ; krb5_tl_data * tl_data = NULL ; krb5_key_data * * keys = NULL ; kdb5_dal_handle * dal_handle = NULL ; krb5_ldap_context * ldap_context = NULL ; krb5_ldap_server_handle * ldap_server_handle = NULL ; osa_princ_ent_rec princ_ent = { 0 } ; xargs_t xargs = { 0 } ; char * polname = NULL ; OPERATION optype ; krb5_boolean found_entry = FALSE ; krb5_clear_error_message ( context ) ; SETUP_CONTEXT ( ) ; if ( ldap_context -> lrparams == NULL || ldap_context -> container_dn == NULL ) return EINVAL ; GET_HANDLE ( ) ; if ( ! is_principal_in_realm ( ldap_context , entry -> princ ) ) { st = EINVAL ; k5_setmsg ( context , st , _ ( ""Principal does not belong to the default realm"" ) ) ; goto cleanup ; } if ( ( ( st = krb5_unparse_name ( context , entry -> princ , & user ) ) != 0 ) || ( ( st = krb5_ldap_unparse_principal_name ( user ) ) != 0 ) ) goto cleanup ; filtuser = ldap_filter_correct ( user ) ; if ( filtuser == NULL ) { st = ENOMEM ; goto cleanup ; } if ( entry -> mask & KADM5_PRINCIPAL ) optype = ADD_PRINCIPAL ; else optype = MODIFY_PRINCIPAL ; if ( ( ( st = krb5_get_princ_type ( context , entry , & kerberos_principal_object_type ) ) != 0 ) || ( ( st = krb5_get_userdn ( context , entry , & principal_dn ) ) != 0 ) ) goto cleanup ; if ( ( st = process_db_args ( context , db_args , & xargs , optype ) ) != 0 ) goto cleanup ; if ( entry -> mask & KADM5_LOAD ) { unsigned int tree = 0 ; int numlentries = 0 ; char * filter = NULL ; if ( asprintf ( & filter , FILTER ""%s))"" , filtuser ) < 0 ) { filter = NULL ; st = ENOMEM ; goto cleanup ; } if ( ( st = krb5_get_subtree_info ( ldap_context , & subtreelist , & ntrees ) ) != 0 ) goto cleanup ;","krb5_error_code krb5_ldap_put_principal ( krb5_context context , krb5_db_entry * entry , char * * db_args ) { int l = 0 , kerberos_principal_object_type = 0 ; unsigned int ntrees = 0 , tre = 0 ; krb5_error_code st = 0 , tempst = 0 ; LDAP * ld = NULL ; LDAPMessage * result = NULL , * ent = NULL ; char * * subtreelist = NULL ; char * user = NULL , * subtree = NULL , * principal_dn = NULL ; char * strval [ 10 ] = { NULL } , errbuf [ 1024 ] ; char * filtuser = NULL ; struct berval * * bersecretkey = NULL ; LDAPMod * * mods = NULL ; krb5_boolean create_standalone = FALSE ; krb5_boolean establish_links = FALSE ; char * standalone_principal_dn = NULL ; krb5_tl_data * tl_data = NULL ; krb5_key_data * * keys = NULL ; kdb5_dal_handle * dal_handle = NULL ; krb5_ldap_context * ldap_context = NULL ; krb5_ldap_server_handle * ldap_server_handle = NULL ; osa_princ_ent_rec princ_ent = { 0 } ; xargs_t xargs = { 0 } ; char * polname = NULL ; OPERATION optype ; krb5_boolean found_entry = FALSE ; krb5_clear_error_message ( context ) ; SETUP_CONTEXT ( ) ; if ( ldap_context -> lrparams == NULL || ldap_context -> container_dn == NULL ) return EINVAL ; GET_HANDLE ( ) ; if ( ! is_principal_in_realm ( ldap_context , entry -> princ ) ) { st = EINVAL ; k5_setmsg ( context , st , _ ( ""Principal does not belong to the default realm"" ) ) ; goto cleanup ; } if ( ( ( st = krb5_unparse_name ( context , entry -> princ , & user ) ) != 0 ) || ( ( st = krb5_ldap_unparse_principal_name ( user ) ) != 0 ) ) goto cleanup ; filtuser = ldap_filter_correct ( user ) ; if ( filtuser == NULL ) { st = ENOMEM ; goto cleanup ; } if ( entry -> mask & KADM5_PRINCIPAL ) optype = ADD_PRINCIPAL ; else optype = MODIFY_PRINCIPAL ; if ( ( ( st = krb5_get_princ_type ( context , entry , & kerberos_principal_object_type ) ) != 0 ) || ( ( st = krb5_get_userdn ( context , entry , & principal_dn ) ) != 0 ) ) goto cleanup ; if ( ( st = process_db_args ( context , db_args , & xargs , optype ) ) != 0 ) goto cleanup ; if ( entry -> mask & KADM5_LOAD ) { unsigned int tree = 0 ; int numlentries = 0 ; char * filter = NULL ; if ( asprintf ( & filter , FILTER ""%s))"" , filtuser ) < 0 ) { filter = NULL ; st = ENOMEM ; goto cleanup ; } if ( ( st = krb5_get_subtree_info ( ldap_context , & subtreelist , & ntrees ) ) != 0 ) goto cleanup ;" 58,"CWE-617 int pci_emul_add_msixcap ( struct pci_vdev * dev , int msgnum , int barnum ) { uint32_t tab_size ; struct msixcap msixcap ; assert ( msgnum >= 1 && msgnum <= MAX_MSIX_TABLE_ENTRIES ) ; assert ( barnum >= 0 && barnum <= PCIR_MAX_BAR_0 ) ; tab_size = msgnum * MSIX_TABLE_ENTRY_SIZE ; tab_size = roundup2 ( tab_size , 4096 ) ; dev -> msix . table_bar = barnum ; dev -> msix . pba_bar = barnum ; dev -> msix . table_offset = 0 ; dev -> msix . table_count = msgnum ; dev -> msix . pba_offset = tab_size ; dev -> msix . pba_size = PBA_SIZE ( msgnum ) ; pci_msix_table_init ( dev , msgnum ) ; pci_populate_msixcap ( & msixcap , msgnum , barnum , tab_size ) ; pci_emul_alloc_bar ( dev , barnum , PCIBAR_MEM32 , tab_size + dev -> msix . pba_size ) ; return ( pci_emul_add_capability ( dev , ( u_char * ) & msixcap , sizeof ( msixcap ) ) ) ; }","int pci_emul_add_msixcap ( struct pci_vdev * dev , int msgnum , int barnum ) { uint32_t tab_size ; struct msixcap msixcap ; if ( msgnum > MAX_MSIX_TABLE_ENTRIES ) { pr_err ( ""%s: Too many entries!\\n"" , __func__ ) ; return - 1 ; } tab_size = msgnum * MSIX_TABLE_ENTRY_SIZE ; tab_size = roundup2 ( tab_size , 4096 ) ; dev -> msix . table_bar = barnum ; dev -> msix . pba_bar = barnum ; dev -> msix . table_offset = 0 ; dev -> msix . table_count = msgnum ; dev -> msix . pba_offset = tab_size ; dev -> msix . pba_size = PBA_SIZE ( msgnum ) ; if ( pci_msix_table_init ( dev , msgnum ) != 0 ) return - 1 ; pci_populate_msixcap ( & msixcap , msgnum , barnum , tab_size ) ; pci_emul_alloc_bar ( dev , barnum , PCIBAR_MEM32 , tab_size + dev -> msix . pba_size ) ; return ( pci_emul_add_capability ( dev , ( u_char * ) & msixcap , sizeof ( msixcap ) ) ) ; }" 59,"CWE-125 p = ( const struct ikev1_pl_n * ) ext ; ND_TCHECK ( * p ) ; UNALIGNED_MEMCPY ( & n , ext , sizeof ( n ) ) ; doi = ntohl ( n . doi ) ; proto = n . prot_id ; if ( doi != 1 ) { ND_PRINT ( ( ndo , "" doi=%d"" , doi ) ) ; ND_PRINT ( ( ndo , "" proto=%d"" , proto ) ) ; if ( ntohs ( n . type ) < 8192 ) ND_PRINT ( ( ndo , "" type=%s"" , NOTIFY_ERROR_STR ( ntohs ( n . type ) ) ) ) ; else if ( ntohs ( n . type ) < 16384 ) ND_PRINT ( ( ndo , "" type=%s"" , numstr ( ntohs ( n . type ) ) ) ) ; else if ( ntohs ( n . type ) < 24576 ) ND_PRINT ( ( ndo , "" type=%s"" , NOTIFY_STATUS_STR ( ntohs ( n . type ) ) ) ) ; else ND_PRINT ( ( ndo , "" type=%s"" , numstr ( ntohs ( n . type ) ) ) ) ; if ( n . spi_size ) { ND_PRINT ( ( ndo , "" spi="" ) ) ; if ( ! rawprint ( ndo , ( const uint8_t * ) ( p + 1 ) , n . spi_size ) ) goto trunc ; } return ( const u_char * ) ( p + 1 ) + n . spi_size ; } ND_PRINT ( ( ndo , "" doi=ipsec"" ) ) ; ND_PRINT ( ( ndo , "" proto=%s"" , PROTOIDSTR ( proto ) ) ) ; if ( ntohs ( n . type ) < 8192 ) ND_PRINT ( ( ndo , "" type=%s"" , NOTIFY_ERROR_STR ( ntohs ( n . type ) ) ) ) ; else if ( ntohs ( n . type ) < 16384 ) ND_PRINT ( ( ndo , "" type=%s"" , IPSEC_NOTIFY_ERROR_STR ( ntohs ( n . type ) ) ) ) ; else if ( ntohs ( n . type ) < 24576 ) ND_PRINT ( ( ndo , "" type=%s"" , NOTIFY_STATUS_STR ( ntohs ( n . type ) ) ) ) ; else if ( ntohs ( n . type ) < 32768 ) ND_PRINT ( ( ndo , "" type=%s"" , IPSEC_NOTIFY_STATUS_STR ( ntohs ( n . type ) ) ) ) ; else ND_PRINT ( ( ndo , "" type=%s"" , numstr ( ntohs ( n . type ) ) ) ) ; if ( n . spi_size ) { ND_PRINT ( ( ndo , "" spi="" ) ) ; if ( ! rawprint ( ndo , ( const uint8_t * ) ( p + 1 ) , n . spi_size ) ) goto trunc ; } cp = ( const u_char * ) ( p + 1 ) + n . spi_size ; ep2 = ( const u_char * ) p + item_len ; if ( cp < ep ) { switch ( ntohs ( n . type ) ) { case IPSECDOI_NTYPE_RESPONDER_LIFETIME : { const struct attrmap * map = oakley_t_map ; size_t nmap = sizeof ( oakley_t_map ) / sizeof ( oakley_t_map [ 0 ] ) ; ND_PRINT ( ( ndo , "" attrs=("" ) ) ; while ( cp < ep && cp < ep2 ) { cp = ikev1_attrmap_print ( ndo , cp , ( ep < ep2 ) ? ep : ep2 , map , nmap ) ; } ND_PRINT ( ( ndo , "")"" ) ) ; break ; } case IPSECDOI_NTYPE_REPLAY_STATUS : ND_PRINT ( ( ndo , "" status=("" ) ) ; ND_PRINT ( ( ndo , ""replay detection %sabled"" , EXTRACT_32BITS ( cp ) ? ""en"" : ""dis"" ) ) ; ND_PRINT ( ( ndo , "")"" ) ) ; break ; default : if ( ndo -> ndo_vflag > 3 ) { ND_PRINT ( ( ndo , "" data=("" ) ) ; if ( ! rawprint ( ndo , ( const uint8_t * ) ( cp ) , ep - cp ) ) goto trunc ; ND_PRINT ( ( ndo , "")"" ) ) ; } else { if ( ! ike_show_somedata ( ndo , cp , ep ) ) goto trunc ; } break ; } } return ( const u_char * ) ext + item_len ; trunc : ND_PRINT ( ( ndo , "" [|%s]"" , NPSTR ( ISAKMP_NPTYPE_N ) ) ) ; return NULL ; }","p = ( const struct ikev1_pl_n * ) ext ; ND_TCHECK ( * p ) ; UNALIGNED_MEMCPY ( & n , ext , sizeof ( n ) ) ; doi = ntohl ( n . doi ) ; proto = n . prot_id ; if ( doi != 1 ) { ND_PRINT ( ( ndo , "" doi=%d"" , doi ) ) ; ND_PRINT ( ( ndo , "" proto=%d"" , proto ) ) ; if ( ntohs ( n . type ) < 8192 ) ND_PRINT ( ( ndo , "" type=%s"" , NOTIFY_ERROR_STR ( ntohs ( n . type ) ) ) ) ; else if ( ntohs ( n . type ) < 16384 ) ND_PRINT ( ( ndo , "" type=%s"" , numstr ( ntohs ( n . type ) ) ) ) ; else if ( ntohs ( n . type ) < 24576 ) ND_PRINT ( ( ndo , "" type=%s"" , NOTIFY_STATUS_STR ( ntohs ( n . type ) ) ) ) ; else ND_PRINT ( ( ndo , "" type=%s"" , numstr ( ntohs ( n . type ) ) ) ) ; if ( n . spi_size ) { ND_PRINT ( ( ndo , "" spi="" ) ) ; if ( ! rawprint ( ndo , ( const uint8_t * ) ( p + 1 ) , n . spi_size ) ) goto trunc ; } return ( const u_char * ) ( p + 1 ) + n . spi_size ; } ND_PRINT ( ( ndo , "" doi=ipsec"" ) ) ; ND_PRINT ( ( ndo , "" proto=%s"" , PROTOIDSTR ( proto ) ) ) ; if ( ntohs ( n . type ) < 8192 ) ND_PRINT ( ( ndo , "" type=%s"" , NOTIFY_ERROR_STR ( ntohs ( n . type ) ) ) ) ; else if ( ntohs ( n . type ) < 16384 ) ND_PRINT ( ( ndo , "" type=%s"" , IPSEC_NOTIFY_ERROR_STR ( ntohs ( n . type ) ) ) ) ; else if ( ntohs ( n . type ) < 24576 ) ND_PRINT ( ( ndo , "" type=%s"" , NOTIFY_STATUS_STR ( ntohs ( n . type ) ) ) ) ; else if ( ntohs ( n . type ) < 32768 ) ND_PRINT ( ( ndo , "" type=%s"" , IPSEC_NOTIFY_STATUS_STR ( ntohs ( n . type ) ) ) ) ; else ND_PRINT ( ( ndo , "" type=%s"" , numstr ( ntohs ( n . type ) ) ) ) ; if ( n . spi_size ) { ND_PRINT ( ( ndo , "" spi="" ) ) ; if ( ! rawprint ( ndo , ( const uint8_t * ) ( p + 1 ) , n . spi_size ) ) goto trunc ; } cp = ( const u_char * ) ( p + 1 ) + n . spi_size ; ep2 = ( const u_char * ) p + item_len ; if ( cp < ep ) { switch ( ntohs ( n . type ) ) { case IPSECDOI_NTYPE_RESPONDER_LIFETIME : { const struct attrmap * map = oakley_t_map ; size_t nmap = sizeof ( oakley_t_map ) / sizeof ( oakley_t_map [ 0 ] ) ; ND_PRINT ( ( ndo , "" attrs=("" ) ) ; while ( cp < ep && cp < ep2 ) { cp = ikev1_attrmap_print ( ndo , cp , ep2 , map , nmap ) ; if ( cp == NULL ) { ND_PRINT ( ( ndo , "")"" ) ) ; goto trunc ; } } ND_PRINT ( ( ndo , "")"" ) ) ; break ; } case IPSECDOI_NTYPE_REPLAY_STATUS : ND_PRINT ( ( ndo , "" status=("" ) ) ; ND_PRINT ( ( ndo , ""replay detection %sabled"" , EXTRACT_32BITS ( cp ) ? ""en"" : ""dis"" ) ) ; ND_PRINT ( ( ndo , "")"" ) ) ; break ; default : if ( ndo -> ndo_vflag > 3 ) { ND_PRINT ( ( ndo , "" data=("" ) ) ; if ( ! rawprint ( ndo , ( const uint8_t * ) ( cp ) , ep - cp ) ) goto trunc ; ND_PRINT ( ( ndo , "")"" ) ) ; } else { if ( ! ike_show_somedata ( ndo , cp , ep ) ) goto trunc ; } break ; } } return ( const u_char * ) ext + item_len ; trunc : ND_PRINT ( ( ndo , "" [|%s]"" , NPSTR ( ISAKMP_NPTYPE_N ) ) ) ; return NULL ; }" 60,"CWE-252 static void init_syntax_once ( ) { register int c ; static int done ; if ( done ) return ; bzero ( re_syntax_table , sizeof re_syntax_table ) ; for ( c = 'a' ; c <= 'z' ; c ++ ) re_syntax_table [ c ] = Sword ; for ( c = 'A' ; c <= 'Z' ; c ++ ) re_syntax_table [ c ] = Sword ; for ( c = '0' ; c <= '9' ; c ++ ) re_syntax_table [ c ] = Sword ; re_syntax_table [ '_' ] = Sword ; done = 1 ; }","static void init_syntax_once ( ) { register int c ; static int done = 0 ; if ( done ) return ; bzero ( re_syntax_table , sizeof re_syntax_table ) ; for ( c = 0 ; c < CHAR_SET_SIZE ; ++ c ) if ( ISALNUM ( c ) ) re_syntax_table [ c ] = Sword ; re_syntax_table [ '_' ] = Sword ; done = 1 ; }" 61,"CWE-119 int vp8_yv12_de_alloc_frame_buffer ( YV12_BUFFER_CONFIG * ybf ) { if ( ybf ) { if ( ybf -> buffer_alloc_sz > 0 ) { vpx_free ( ybf -> buffer_alloc ) ; } vpx_memset ( ybf , 0 , sizeof ( YV12_BUFFER_CONFIG ) ) ; } else { return - 1 ; } return 0 ; }","int vp8_yv12_de_alloc_frame_buffer ( YV12_BUFFER_CONFIG * ybf ) { if ( ybf ) { if ( ybf -> buffer_alloc_sz > 0 ) { vpx_free ( ybf -> buffer_alloc ) ; } memset ( ybf , 0 , sizeof ( YV12_BUFFER_CONFIG ) ) ; } else { return - 1 ; } return 0 ; }" 62,"CWE-285 static int __ext4_set_acl ( handle_t * handle , struct inode * inode , int type , struct posix_acl * acl ) { int name_index ; void * value = NULL ; size_t size = 0 ; int error ; switch ( type ) { case ACL_TYPE_ACCESS : name_index = EXT4_XATTR_INDEX_POSIX_ACL_ACCESS ; if ( acl ) { error = posix_acl_equiv_mode ( acl , & inode -> i_mode ) ; if ( error < 0 ) return error ; else { inode -> i_ctime = ext4_current_time ( inode ) ; ext4_mark_inode_dirty ( handle , inode ) ; if ( error == 0 ) acl = NULL ; } } break ; case ACL_TYPE_DEFAULT : name_index = EXT4_XATTR_INDEX_POSIX_ACL_DEFAULT ; if ( ! S_ISDIR ( inode -> i_mode ) ) return acl ? - EACCES : 0 ; break ; default : return - EINVAL ; } if ( acl ) { value = ext4_acl_to_disk ( acl , & size ) ; if ( IS_ERR ( value ) ) return ( int ) PTR_ERR ( value ) ; } error = ext4_xattr_set_handle ( handle , inode , name_index , """" , value , size , 0 ) ; kfree ( value ) ; if ( ! error ) set_cached_acl ( inode , type , acl ) ; return error ; }","static int __ext4_set_acl ( handle_t * handle , struct inode * inode , int type , struct posix_acl * acl ) { int name_index ; void * value = NULL ; size_t size = 0 ; int error ; switch ( type ) { case ACL_TYPE_ACCESS : name_index = EXT4_XATTR_INDEX_POSIX_ACL_ACCESS ; if ( acl ) { error = posix_acl_update_mode ( inode , & inode -> i_mode , & acl ) ; if ( error ) return error ; inode -> i_ctime = ext4_current_time ( inode ) ; ext4_mark_inode_dirty ( handle , inode ) ; } break ; case ACL_TYPE_DEFAULT : name_index = EXT4_XATTR_INDEX_POSIX_ACL_DEFAULT ; if ( ! S_ISDIR ( inode -> i_mode ) ) return acl ? - EACCES : 0 ; break ; default : return - EINVAL ; } if ( acl ) { value = ext4_acl_to_disk ( acl , & size ) ; if ( IS_ERR ( value ) ) return ( int ) PTR_ERR ( value ) ; } error = ext4_xattr_set_handle ( handle , inode , name_index , """" , value , size , 0 ) ; kfree ( value ) ; if ( ! error ) set_cached_acl ( inode , type , acl ) ; return error ; }" 63,"CWE-264 static int kvm_iommu_unmap_memslots ( struct kvm * kvm ) { int idx ; struct kvm_memslots * slots ; struct kvm_memory_slot * memslot ; idx = srcu_read_lock ( & kvm -> srcu ) ; slots = kvm_memslots ( kvm ) ; kvm_for_each_memslot ( memslot , slots ) kvm_iommu_put_pages ( kvm , memslot -> base_gfn , memslot -> npages ) ; srcu_read_unlock ( & kvm -> srcu , idx ) ; return 0 ; }","static int kvm_iommu_unmap_memslots ( struct kvm * kvm ) { int idx ; struct kvm_memslots * slots ; struct kvm_memory_slot * memslot ; idx = srcu_read_lock ( & kvm -> srcu ) ; slots = kvm_memslots ( kvm ) ; kvm_for_each_memslot ( memslot , slots ) kvm_iommu_unmap_pages ( kvm , memslot ) ; srcu_read_unlock ( & kvm -> srcu , idx ) ; return 0 ; }" 64,"CWE-362 struct sock * tcp_v4_syn_recv_sock ( struct sock * sk , struct sk_buff * skb , struct request_sock * req , struct dst_entry * dst ) { struct inet_request_sock * ireq ; struct inet_sock * newinet ; struct tcp_sock * newtp ; struct sock * newsk ; # ifdef CONFIG_TCP_MD5SIG struct tcp_md5sig_key * key ; # endif if ( sk_acceptq_is_full ( sk ) ) goto exit_overflow ; if ( ! dst && ( dst = inet_csk_route_req ( sk , req ) ) == NULL ) goto exit ; newsk = tcp_create_openreq_child ( sk , req , skb ) ; if ( ! newsk ) goto exit_nonewsk ; newsk -> sk_gso_type = SKB_GSO_TCPV4 ; sk_setup_caps ( newsk , dst ) ; newtp = tcp_sk ( newsk ) ; newinet = inet_sk ( newsk ) ; ireq = inet_rsk ( req ) ; newinet -> inet_daddr = ireq -> rmt_addr ; newinet -> inet_rcv_saddr = ireq -> loc_addr ; newinet -> inet_saddr = ireq -> loc_addr ; newinet -> opt = ireq -> opt ; ireq -> opt = NULL ; newinet -> mc_index = inet_iif ( skb ) ; newinet -> mc_ttl = ip_hdr ( skb ) -> ttl ; inet_csk ( newsk ) -> icsk_ext_hdr_len = 0 ; if ( newinet -> opt ) inet_csk ( newsk ) -> icsk_ext_hdr_len = newinet -> opt -> optlen ; newinet -> inet_id = newtp -> write_seq ^ jiffies ; tcp_mtup_init ( newsk ) ; tcp_sync_mss ( newsk , dst_mtu ( dst ) ) ; newtp -> advmss = dst_metric_advmss ( dst ) ; if ( tcp_sk ( sk ) -> rx_opt . user_mss && tcp_sk ( sk ) -> rx_opt . user_mss < newtp -> advmss ) newtp -> advmss = tcp_sk ( sk ) -> rx_opt . user_mss ; tcp_initialize_rcv_mss ( newsk ) ; # ifdef CONFIG_TCP_MD5SIG key = tcp_v4_md5_do_lookup ( sk , newinet -> inet_daddr ) ; if ( key != NULL ) { char * newkey = kmemdup ( key -> key , key -> keylen , GFP_ATOMIC ) ; if ( newkey != NULL ) tcp_v4_md5_do_add ( newsk , newinet -> inet_daddr , newkey , key -> keylen ) ; sk_nocaps_add ( newsk , NETIF_F_GSO_MASK ) ; } # endif if ( __inet_inherit_port ( sk , newsk ) < 0 ) { sock_put ( newsk ) ; goto exit ; } __inet_hash_nolisten ( newsk , NULL ) ; return newsk ; exit_overflow : NET_INC_STATS_BH ( sock_net ( sk ) , LINUX_MIB_LISTENOVERFLOWS ) ; exit_nonewsk : dst_release ( dst ) ; exit : NET_INC_STATS_BH ( sock_net ( sk ) , LINUX_MIB_LISTENDROPS ) ; return NULL ; }","struct sock * tcp_v4_syn_recv_sock ( struct sock * sk , struct sk_buff * skb , struct request_sock * req , struct dst_entry * dst ) { struct inet_request_sock * ireq ; struct inet_sock * newinet ; struct tcp_sock * newtp ; struct sock * newsk ; # ifdef CONFIG_TCP_MD5SIG struct tcp_md5sig_key * key ; # endif struct ip_options_rcu * inet_opt ; if ( sk_acceptq_is_full ( sk ) ) goto exit_overflow ; if ( ! dst && ( dst = inet_csk_route_req ( sk , req ) ) == NULL ) goto exit ; newsk = tcp_create_openreq_child ( sk , req , skb ) ; if ( ! newsk ) goto exit_nonewsk ; newsk -> sk_gso_type = SKB_GSO_TCPV4 ; sk_setup_caps ( newsk , dst ) ; newtp = tcp_sk ( newsk ) ; newinet = inet_sk ( newsk ) ; ireq = inet_rsk ( req ) ; newinet -> inet_daddr = ireq -> rmt_addr ; newinet -> inet_rcv_saddr = ireq -> loc_addr ; newinet -> inet_saddr = ireq -> loc_addr ; inet_opt = ireq -> opt ; rcu_assign_pointer ( newinet -> inet_opt , inet_opt ) ; ireq -> opt = NULL ; newinet -> mc_index = inet_iif ( skb ) ; newinet -> mc_ttl = ip_hdr ( skb ) -> ttl ; inet_csk ( newsk ) -> icsk_ext_hdr_len = 0 ; if ( inet_opt ) inet_csk ( newsk ) -> icsk_ext_hdr_len = inet_opt -> opt . optlen ; newinet -> inet_id = newtp -> write_seq ^ jiffies ; tcp_mtup_init ( newsk ) ; tcp_sync_mss ( newsk , dst_mtu ( dst ) ) ; newtp -> advmss = dst_metric_advmss ( dst ) ; if ( tcp_sk ( sk ) -> rx_opt . user_mss && tcp_sk ( sk ) -> rx_opt . user_mss < newtp -> advmss ) newtp -> advmss = tcp_sk ( sk ) -> rx_opt . user_mss ; tcp_initialize_rcv_mss ( newsk ) ; # ifdef CONFIG_TCP_MD5SIG key = tcp_v4_md5_do_lookup ( sk , newinet -> inet_daddr ) ; if ( key != NULL ) { char * newkey = kmemdup ( key -> key , key -> keylen , GFP_ATOMIC ) ; if ( newkey != NULL ) tcp_v4_md5_do_add ( newsk , newinet -> inet_daddr , newkey , key -> keylen ) ; sk_nocaps_add ( newsk , NETIF_F_GSO_MASK ) ; } # endif if ( __inet_inherit_port ( sk , newsk ) < 0 ) { sock_put ( newsk ) ; goto exit ; } __inet_hash_nolisten ( newsk , NULL ) ; return newsk ; exit_overflow : NET_INC_STATS_BH ( sock_net ( sk ) , LINUX_MIB_LISTENOVERFLOWS ) ; exit_nonewsk : dst_release ( dst ) ; exit : NET_INC_STATS_BH ( sock_net ( sk ) , LINUX_MIB_LISTENDROPS ) ; return NULL ; }" 65,"CWE-834 static int asf_read_marker ( AVFormatContext * s , int64_t size ) { AVIOContext * pb = s -> pb ; ASFContext * asf = s -> priv_data ; int i , count , name_len , ret ; char name [ 1024 ] ; avio_rl64 ( pb ) ; avio_rl64 ( pb ) ; count = avio_rl32 ( pb ) ; avio_rl16 ( pb ) ; name_len = avio_rl16 ( pb ) ; for ( i = 0 ; i < name_len ; i ++ ) avio_r8 ( pb ) ; for ( i = 0 ; i < count ; i ++ ) { int64_t pres_time ; int name_len ; avio_rl64 ( pb ) ; pres_time = avio_rl64 ( pb ) ; pres_time -= asf -> hdr . preroll * 10000 ; avio_rl16 ( pb ) ; avio_rl32 ( pb ) ; avio_rl32 ( pb ) ; name_len = avio_rl32 ( pb ) ; if ( ( ret = avio_get_str16le ( pb , name_len * 2 , name , sizeof ( name ) ) ) < name_len ) avio_skip ( pb , name_len - ret ) ; avpriv_new_chapter ( s , i , ( AVRational ) { 1 , 10000000 } , pres_time , AV_NOPTS_VALUE , name ) ; } return 0 ; }","static int asf_read_marker ( AVFormatContext * s , int64_t size ) { AVIOContext * pb = s -> pb ; ASFContext * asf = s -> priv_data ; int i , count , name_len , ret ; char name [ 1024 ] ; avio_rl64 ( pb ) ; avio_rl64 ( pb ) ; count = avio_rl32 ( pb ) ; avio_rl16 ( pb ) ; name_len = avio_rl16 ( pb ) ; avio_skip ( pb , name_len ) ; for ( i = 0 ; i < count ; i ++ ) { int64_t pres_time ; int name_len ; if ( avio_feof ( pb ) ) return AVERROR_INVALIDDATA ; avio_rl64 ( pb ) ; pres_time = avio_rl64 ( pb ) ; pres_time -= asf -> hdr . preroll * 10000 ; avio_rl16 ( pb ) ; avio_rl32 ( pb ) ; avio_rl32 ( pb ) ; name_len = avio_rl32 ( pb ) ; if ( ( ret = avio_get_str16le ( pb , name_len * 2 , name , sizeof ( name ) ) ) < name_len ) avio_skip ( pb , name_len - ret ) ; avpriv_new_chapter ( s , i , ( AVRational ) { 1 , 10000000 } , pres_time , AV_NOPTS_VALUE , name ) ; } return 0 ; }" 66,"CWE-125 } case PB_HTYPE_REPEATED : if ( wire_type == PB_WT_STRING && PB_LTYPE ( field -> type ) <= PB_LTYPE_LAST_PACKABLE ) { bool status = true ; pb_size_t * size = ( pb_size_t * ) field -> pSize ; size_t allocated_size = * size ; pb_istream_t substream ; if ( ! pb_make_string_substream ( stream , & substream ) ) return false ; while ( substream . bytes_left ) { if ( ( size_t ) * size + 1 > allocated_size ) { allocated_size += ( substream . bytes_left - 1 ) / field -> data_size + 1 ; if ( ! allocate_field ( & substream , field -> pField , field -> data_size , allocated_size ) ) { status = false ; break ; } } field -> pData = * ( char * * ) field -> pField + field -> data_size * ( * size ) ; initialize_pointer_field ( field -> pData , field ) ; if ( ! decode_basic_field ( & substream , field ) ) { status = false ; break ; } if ( * size == PB_SIZE_MAX ) { # ifndef PB_NO_ERRMSG stream -> errmsg = ""too many array entries"" ; # endif status = false ; break ; } ( * size ) ++ ; } if ( ! pb_close_string_substream ( stream , & substream ) ) return false ; return status ; } else { pb_size_t * size = ( pb_size_t * ) field -> pSize ; if ( * size == PB_SIZE_MAX ) PB_RETURN_ERROR ( stream , ""too many array entries"" ) ; if ( ! check_wire_type ( wire_type , field ) ) PB_RETURN_ERROR ( stream , ""wrong wire type"" ) ; ( * size ) ++ ; if ( ! allocate_field ( stream , field -> pField , field -> data_size , * size ) ) return false ; field -> pData = * ( char * * ) field -> pField + field -> data_size * ( * size - 1 ) ; initialize_pointer_field ( field -> pData , field ) ; return decode_basic_field ( stream , field ) ; } default : PB_RETURN_ERROR ( stream , ""invalid field type"" ) ; } # endif }","} case PB_HTYPE_REPEATED : if ( wire_type == PB_WT_STRING && PB_LTYPE ( field -> type ) <= PB_LTYPE_LAST_PACKABLE ) { bool status = true ; pb_size_t * size = ( pb_size_t * ) field -> pSize ; size_t allocated_size = * size ; pb_istream_t substream ; if ( ! pb_make_string_substream ( stream , & substream ) ) return false ; while ( substream . bytes_left ) { if ( ( size_t ) * size + 1 > allocated_size ) { allocated_size += ( substream . bytes_left - 1 ) / field -> data_size + 1 ; if ( ! allocate_field ( & substream , field -> pField , field -> data_size , allocated_size ) ) { status = false ; break ; } } field -> pData = * ( char * * ) field -> pField + field -> data_size * ( * size ) ; initialize_pointer_field ( field -> pData , field ) ; if ( ! decode_basic_field ( & substream , field ) ) { status = false ; break ; } if ( * size == PB_SIZE_MAX ) { # ifndef PB_NO_ERRMSG stream -> errmsg = ""too many array entries"" ; # endif status = false ; break ; } ( * size ) ++ ; } if ( ! pb_close_string_substream ( stream , & substream ) ) return false ; return status ; } else { pb_size_t * size = ( pb_size_t * ) field -> pSize ; if ( * size == PB_SIZE_MAX ) PB_RETURN_ERROR ( stream , ""too many array entries"" ) ; if ( ! check_wire_type ( wire_type , field ) ) PB_RETURN_ERROR ( stream , ""wrong wire type"" ) ; if ( ! allocate_field ( stream , field -> pField , field -> data_size , ( size_t ) ( * size + 1 ) ) ) return false ; field -> pData = * ( char * * ) field -> pField + field -> data_size * ( * size ) ; ( * size ) ++ ; initialize_pointer_field ( field -> pData , field ) ; return decode_basic_field ( stream , field ) ; } default : PB_RETURN_ERROR ( stream , ""invalid field type"" ) ; } # endif }" 67,"CWE-119 static void single_motion_search ( VP9_COMP * cpi , MACROBLOCK * x , const TileInfo * const tile , BLOCK_SIZE bsize , int mi_row , int mi_col , int_mv * tmp_mv , int * rate_mv ) { MACROBLOCKD * xd = & x -> e_mbd ; VP9_COMMON * cm = & cpi -> common ; MB_MODE_INFO * mbmi = & xd -> mi [ 0 ] -> mbmi ; struct buf_2d backup_yv12 [ MAX_MB_PLANE ] = { { 0 } } ; int bestsme = INT_MAX ; int further_steps , step_param ; int sadpb = x -> sadperbit16 ; MV mvp_full ; int ref = mbmi -> ref_frame [ 0 ] ; MV ref_mv = mbmi -> ref_mvs [ ref ] [ 0 ] . as_mv ; int tmp_col_min = x -> mv_col_min ; int tmp_col_max = x -> mv_col_max ; int tmp_row_min = x -> mv_row_min ; int tmp_row_max = x -> mv_row_max ; const YV12_BUFFER_CONFIG * scaled_ref_frame = vp9_get_scaled_ref_frame ( cpi , ref ) ; MV pred_mv [ 3 ] ; pred_mv [ 0 ] = mbmi -> ref_mvs [ ref ] [ 0 ] . as_mv ; pred_mv [ 1 ] = mbmi -> ref_mvs [ ref ] [ 1 ] . as_mv ; pred_mv [ 2 ] = x -> pred_mv [ ref ] . as_mv ; if ( scaled_ref_frame ) { int i ; for ( i = 0 ; i < MAX_MB_PLANE ; i ++ ) backup_yv12 [ i ] = xd -> plane [ i ] . pre [ 0 ] ; vp9_setup_pre_planes ( xd , 0 , scaled_ref_frame , mi_row , mi_col , NULL ) ; } vp9_set_mv_search_range ( x , & ref_mv ) ; if ( cpi -> sf . auto_mv_step_size && cpi -> common . show_frame ) { step_param = ( vp9_init_search_range ( cpi , x -> max_mv_context [ ref ] ) + cpi -> mv_step_param ) >> 1 ; } else { step_param = cpi -> mv_step_param ; } if ( cpi -> sf . adaptive_motion_search && bsize < BLOCK_64X64 && cpi -> common . show_frame ) { int boffset = 2 * ( b_width_log2 ( BLOCK_64X64 ) - MIN ( b_height_log2 ( bsize ) , b_width_log2 ( bsize ) ) ) ; step_param = MAX ( step_param , boffset ) ; } if ( cpi -> sf . adaptive_motion_search ) { int bwl = b_width_log2_lookup [ bsize ] ; int bhl = b_height_log2_lookup [ bsize ] ; int i ; int tlevel = x -> pred_mv_sad [ ref ] >> ( bwl + bhl + 4 ) ; if ( tlevel < 5 ) step_param += 2 ; for ( i = LAST_FRAME ; i <= ALTREF_FRAME && cpi -> common . show_frame ; ++ i ) { if ( ( x -> pred_mv_sad [ ref ] >> 3 ) > x -> pred_mv_sad [ i ] ) { x -> pred_mv [ ref ] . as_int = 0 ; tmp_mv -> as_int = INVALID_MV ; if ( scaled_ref_frame ) { int i ; for ( i = 0 ; i < MAX_MB_PLANE ; i ++ ) xd -> plane [ i ] . pre [ 0 ] = backup_yv12 [ i ] ; } return ; } } } mvp_full = pred_mv [ x -> mv_best_ref_index [ ref ] ] ; mvp_full . col >>= 3 ; mvp_full . row >>= 3 ; further_steps = ( cpi -> sf . max_step_search_steps - 1 ) - step_param ; if ( cpi -> sf . search_method == FAST_DIAMOND ) { bestsme = vp9_fast_dia_search ( x , & mvp_full , step_param , sadpb , 0 , & cpi -> fn_ptr [ bsize ] , 1 , & ref_mv , & tmp_mv -> as_mv ) ; if ( bestsme < INT_MAX ) bestsme = vp9_get_mvpred_var ( x , & tmp_mv -> as_mv , & ref_mv , & cpi -> fn_ptr [ bsize ] , 1 ) ; } else if ( cpi -> sf . search_method == FAST_HEX ) { bestsme = vp9_fast_hex_search ( x , & mvp_full , step_param , sadpb , 0 , & cpi -> fn_ptr [ bsize ] , 1 , & ref_mv , & tmp_mv -> as_mv ) ; if ( bestsme < INT_MAX ) bestsme = vp9_get_mvpred_var ( x , & tmp_mv -> as_mv , & ref_mv , & cpi -> fn_ptr [ bsize ] , 1 ) ; } else if ( cpi -> sf . search_method == HEX ) { bestsme = vp9_hex_search ( x , & mvp_full , step_param , sadpb , 1 , & cpi -> fn_ptr [ bsize ] , 1 , & ref_mv , & tmp_mv -> as_mv ) ; if ( bestsme < INT_MAX ) bestsme = vp9_get_mvpred_var ( x , & tmp_mv -> as_mv , & ref_mv , & cpi -> fn_ptr [ bsize ] , 1 ) ; } else if ( cpi -> sf . search_method == SQUARE ) { bestsme = vp9_square_search ( x , & mvp_full , step_param , sadpb , 1 , & cpi -> fn_ptr [ bsize ] , 1 , & ref_mv , & tmp_mv -> as_mv ) ; if ( bestsme < INT_MAX ) bestsme = vp9_get_mvpred_var ( x , & tmp_mv -> as_mv , & ref_mv , & cpi -> fn_ptr [ bsize ] , 1 ) ; } else if ( cpi -> sf . search_method == BIGDIA ) { bestsme = vp9_bigdia_search ( x , & mvp_full , step_param , sadpb , 1 , & cpi -> fn_ptr [ bsize ] , 1 , & ref_mv , & tmp_mv -> as_mv ) ; if ( bestsme < INT_MAX ) bestsme = vp9_get_mvpred_var ( x , & tmp_mv -> as_mv , & ref_mv , & cpi -> fn_ptr [ bsize ] , 1 ) ; } else { bestsme = vp9_full_pixel_diamond ( cpi , x , & mvp_full , step_param , sadpb , further_steps , 1 , & cpi -> fn_ptr [ bsize ] , & ref_mv , & tmp_mv -> as_mv ) ; } x -> mv_col_min = tmp_col_min ; x -> mv_col_max = tmp_col_max ; x -> mv_row_min = tmp_row_min ; x -> mv_row_max = tmp_row_max ; if ( bestsme < INT_MAX ) { int dis ; cpi -> find_fractional_mv_step ( x , & tmp_mv -> as_mv , & ref_mv , cm -> allow_high_precision_mv , x -> errorperbit , & cpi -> fn_ptr [ bsize ] , cpi -> sf . subpel_force_stop , cpi -> sf . subpel_iters_per_step , x -> nmvjointcost , x -> mvcost , & dis , & x -> pred_sse [ ref ] ) ; } * rate_mv = vp9_mv_bit_cost ( & tmp_mv -> as_mv , & ref_mv , x -> nmvjointcost , x -> mvcost , MV_COST_WEIGHT ) ; if ( cpi -> sf . adaptive_motion_search && cpi -> common . show_frame ) x -> pred_mv [ ref ] . as_int = tmp_mv -> as_int ; if ( scaled_ref_frame ) { int i ; for ( i = 0 ; i < MAX_MB_PLANE ; i ++ ) xd -> plane [ i ] . pre [ 0 ] = backup_yv12 [ i ] ; } }","static void single_motion_search ( VP9_COMP * cpi , MACROBLOCK * x , BLOCK_SIZE bsize , int mi_row , int mi_col , int_mv * tmp_mv , int * rate_mv ) { MACROBLOCKD * xd = & x -> e_mbd ; const VP9_COMMON * cm = & cpi -> common ; MB_MODE_INFO * mbmi = & xd -> mi [ 0 ] -> mbmi ; struct buf_2d backup_yv12 [ MAX_MB_PLANE ] = { { 0 , 0 } } ; int bestsme = INT_MAX ; int step_param ; int sadpb = x -> sadperbit16 ; MV mvp_full ; int ref = mbmi -> ref_frame [ 0 ] ; MV ref_mv = x -> mbmi_ext -> ref_mvs [ ref ] [ 0 ] . as_mv ; int tmp_col_min = x -> mv_col_min ; int tmp_col_max = x -> mv_col_max ; int tmp_row_min = x -> mv_row_min ; int tmp_row_max = x -> mv_row_max ; int cost_list [ 5 ] ; const YV12_BUFFER_CONFIG * scaled_ref_frame = vp9_get_scaled_ref_frame ( cpi , ref ) ; MV pred_mv [ 3 ] ; pred_mv [ 0 ] = x -> mbmi_ext -> ref_mvs [ ref ] [ 0 ] . as_mv ; pred_mv [ 1 ] = x -> mbmi_ext -> ref_mvs [ ref ] [ 1 ] . as_mv ; pred_mv [ 2 ] = x -> pred_mv [ ref ] ; if ( scaled_ref_frame ) { int i ; for ( i = 0 ; i < MAX_MB_PLANE ; i ++ ) backup_yv12 [ i ] = xd -> plane [ i ] . pre [ 0 ] ; vp9_setup_pre_planes ( xd , 0 , scaled_ref_frame , mi_row , mi_col , NULL ) ; } vp9_set_mv_search_range ( x , & ref_mv ) ; if ( cpi -> sf . mv . auto_mv_step_size && cm -> show_frame ) { step_param = ( vp9_init_search_range ( x -> max_mv_context [ ref ] ) + cpi -> mv_step_param ) / 2 ; } else { step_param = cpi -> mv_step_param ; } if ( cpi -> sf . adaptive_motion_search && bsize < BLOCK_64X64 ) { int boffset = 2 * ( b_width_log2_lookup [ BLOCK_64X64 ] - MIN ( b_height_log2_lookup [ bsize ] , b_width_log2_lookup [ bsize ] ) ) ; step_param = MAX ( step_param , boffset ) ; } if ( cpi -> sf . adaptive_motion_search ) { int bwl = b_width_log2_lookup [ bsize ] ; int bhl = b_height_log2_lookup [ bsize ] ; int tlevel = x -> pred_mv_sad [ ref ] >> ( bwl + bhl + 4 ) ; if ( tlevel < 5 ) step_param += 2 ; if ( cpi -> oxcf . resize_mode != RESIZE_DYNAMIC ) { int i ; for ( i = LAST_FRAME ; i <= ALTREF_FRAME && cm -> show_frame ; ++ i ) { if ( ( x -> pred_mv_sad [ ref ] >> 3 ) > x -> pred_mv_sad [ i ] ) { x -> pred_mv [ ref ] . row = 0 ; x -> pred_mv [ ref ] . col = 0 ; tmp_mv -> as_int = INVALID_MV ; if ( scaled_ref_frame ) { int i ; for ( i = 0 ; i < MAX_MB_PLANE ; ++ i ) xd -> plane [ i ] . pre [ 0 ] = backup_yv12 [ i ] ; } return ; } } } } mvp_full = pred_mv [ x -> mv_best_ref_index [ ref ] ] ; mvp_full . col >>= 3 ; mvp_full . row >>= 3 ; bestsme = vp9_full_pixel_search ( cpi , x , bsize , & mvp_full , step_param , sadpb , cond_cost_list ( cpi , cost_list ) , & ref_mv , & tmp_mv -> as_mv , INT_MAX , 1 ) ; x -> mv_col_min = tmp_col_min ; x -> mv_col_max = tmp_col_max ; x -> mv_row_min = tmp_row_min ; x -> mv_row_max = tmp_row_max ; if ( bestsme < INT_MAX ) { int dis ; cpi -> find_fractional_mv_step ( x , & tmp_mv -> as_mv , & ref_mv , cm -> allow_high_precision_mv , x -> errorperbit , & cpi -> fn_ptr [ bsize ] , cpi -> sf . mv . subpel_force_stop , cpi -> sf . mv . subpel_iters_per_step , cond_cost_list ( cpi , cost_list ) , x -> nmvjointcost , x -> mvcost , & dis , & x -> pred_sse [ ref ] , NULL , 0 , 0 ) ; } * rate_mv = vp9_mv_bit_cost ( & tmp_mv -> as_mv , & ref_mv , x -> nmvjointcost , x -> mvcost , MV_COST_WEIGHT ) ; if ( cpi -> sf . adaptive_motion_search ) x -> pred_mv [ ref ] = tmp_mv -> as_mv ; if ( scaled_ref_frame ) { int i ; for ( i = 0 ; i < MAX_MB_PLANE ; i ++ ) xd -> plane [ i ] . pre [ 0 ] = backup_yv12 [ i ] ; } }" 68,"NVD-CWE-Other int tipc_nl_publ_dump ( struct sk_buff * skb , struct netlink_callback * cb ) { int err ; u32 tsk_portid = cb -> args [ 0 ] ; u32 last_publ = cb -> args [ 1 ] ; u32 done = cb -> args [ 2 ] ; struct net * net = sock_net ( skb -> sk ) ; struct tipc_sock * tsk ; if ( ! tsk_portid ) { struct nlattr * * attrs ; struct nlattr * sock [ TIPC_NLA_SOCK_MAX + 1 ] ; err = tipc_nlmsg_parse ( cb -> nlh , & attrs ) ; if ( err ) return err ; err = nla_parse_nested ( sock , TIPC_NLA_SOCK_MAX , attrs [ TIPC_NLA_SOCK ] , tipc_nl_sock_policy ) ; if ( err ) return err ; if ( ! sock [ TIPC_NLA_SOCK_REF ] ) return - EINVAL ; tsk_portid = nla_get_u32 ( sock [ TIPC_NLA_SOCK_REF ] ) ; } if ( done ) return 0 ; tsk = tipc_sk_lookup ( net , tsk_portid ) ; if ( ! tsk ) return - EINVAL ; lock_sock ( & tsk -> sk ) ; err = __tipc_nl_list_sk_publ ( skb , cb , tsk , & last_publ ) ; if ( ! err ) done = 1 ; release_sock ( & tsk -> sk ) ; sock_put ( & tsk -> sk ) ; cb -> args [ 0 ] = tsk_portid ; cb -> args [ 1 ] = last_publ ; cb -> args [ 2 ] = done ; return skb -> len ; }","int tipc_nl_publ_dump ( struct sk_buff * skb , struct netlink_callback * cb ) { int err ; u32 tsk_portid = cb -> args [ 0 ] ; u32 last_publ = cb -> args [ 1 ] ; u32 done = cb -> args [ 2 ] ; struct net * net = sock_net ( skb -> sk ) ; struct tipc_sock * tsk ; if ( ! tsk_portid ) { struct nlattr * * attrs ; struct nlattr * sock [ TIPC_NLA_SOCK_MAX + 1 ] ; err = tipc_nlmsg_parse ( cb -> nlh , & attrs ) ; if ( err ) return err ; if ( ! attrs [ TIPC_NLA_SOCK ] ) return - EINVAL ; err = nla_parse_nested ( sock , TIPC_NLA_SOCK_MAX , attrs [ TIPC_NLA_SOCK ] , tipc_nl_sock_policy ) ; if ( err ) return err ; if ( ! sock [ TIPC_NLA_SOCK_REF ] ) return - EINVAL ; tsk_portid = nla_get_u32 ( sock [ TIPC_NLA_SOCK_REF ] ) ; } if ( done ) return 0 ; tsk = tipc_sk_lookup ( net , tsk_portid ) ; if ( ! tsk ) return - EINVAL ; lock_sock ( & tsk -> sk ) ; err = __tipc_nl_list_sk_publ ( skb , cb , tsk , & last_publ ) ; if ( ! err ) done = 1 ; release_sock ( & tsk -> sk ) ; sock_put ( & tsk -> sk ) ; cb -> args [ 0 ] = tsk_portid ; cb -> args [ 1 ] = last_publ ; cb -> args [ 2 ] = done ; return skb -> len ; }" 69,"CWE-120 static char * get_next_file ( FILE * VFile , char * ptr ) { char * ret ; ret = fgets ( ptr , PATH_MAX , VFile ) ; if ( ! ret ) return NULL ; if ( ptr [ strlen ( ptr ) - 1 ] == '\\n' ) ptr [ strlen ( ptr ) - 1 ] = '\\0' ; return ret ; }","static char * get_next_file ( FILE * VFile , char * ptr ) { char * ret ; size_t len ; ret = fgets ( ptr , PATH_MAX , VFile ) ; if ( ! ret ) return NULL ; len = strlen ( ptr ) ; if ( len > 0 && ptr [ len - 1 ] == '\\n' ) ptr [ len - 1 ] = '\\0' ; return ret ; }" 70,"CWE-119 static void copy_and_extend_plane ( const uint8_t * src , int src_pitch , uint8_t * dst , int dst_pitch , int w , int h , int extend_top , int extend_left , int extend_bottom , int extend_right ) { int i , linesize ; const uint8_t * src_ptr1 = src ; const uint8_t * src_ptr2 = src + w - 1 ; uint8_t * dst_ptr1 = dst - extend_left ; uint8_t * dst_ptr2 = dst + w ; for ( i = 0 ; i < h ; i ++ ) { vpx_memset ( dst_ptr1 , src_ptr1 [ 0 ] , extend_left ) ; vpx_memcpy ( dst_ptr1 + extend_left , src_ptr1 , w ) ; vpx_memset ( dst_ptr2 , src_ptr2 [ 0 ] , extend_right ) ; src_ptr1 += src_pitch ; src_ptr2 += src_pitch ; dst_ptr1 += dst_pitch ; dst_ptr2 += dst_pitch ; } src_ptr1 = dst - extend_left ; src_ptr2 = dst + dst_pitch * ( h - 1 ) - extend_left ; dst_ptr1 = dst + dst_pitch * ( - extend_top ) - extend_left ; dst_ptr2 = dst + dst_pitch * ( h ) - extend_left ; linesize = extend_left + extend_right + w ; for ( i = 0 ; i < extend_top ; i ++ ) { vpx_memcpy ( dst_ptr1 , src_ptr1 , linesize ) ; dst_ptr1 += dst_pitch ; } for ( i = 0 ; i < extend_bottom ; i ++ ) { vpx_memcpy ( dst_ptr2 , src_ptr2 , linesize ) ; dst_ptr2 += dst_pitch ; } }","static void copy_and_extend_plane ( const uint8_t * src , int src_pitch , uint8_t * dst , int dst_pitch , int w , int h , int extend_top , int extend_left , int extend_bottom , int extend_right ) { int i , linesize ; const uint8_t * src_ptr1 = src ; const uint8_t * src_ptr2 = src + w - 1 ; uint8_t * dst_ptr1 = dst - extend_left ; uint8_t * dst_ptr2 = dst + w ; for ( i = 0 ; i < h ; i ++ ) { memset ( dst_ptr1 , src_ptr1 [ 0 ] , extend_left ) ; memcpy ( dst_ptr1 + extend_left , src_ptr1 , w ) ; memset ( dst_ptr2 , src_ptr2 [ 0 ] , extend_right ) ; src_ptr1 += src_pitch ; src_ptr2 += src_pitch ; dst_ptr1 += dst_pitch ; dst_ptr2 += dst_pitch ; } src_ptr1 = dst - extend_left ; src_ptr2 = dst + dst_pitch * ( h - 1 ) - extend_left ; dst_ptr1 = dst + dst_pitch * ( - extend_top ) - extend_left ; dst_ptr2 = dst + dst_pitch * ( h ) - extend_left ; linesize = extend_left + extend_right + w ; for ( i = 0 ; i < extend_top ; i ++ ) { memcpy ( dst_ptr1 , src_ptr1 , linesize ) ; dst_ptr1 += dst_pitch ; } for ( i = 0 ; i < extend_bottom ; i ++ ) { memcpy ( dst_ptr2 , src_ptr2 , linesize ) ; dst_ptr2 += dst_pitch ; } }" 71,"CWE-74 if ( merged -> len > 0 ) { g_ptr_array_add ( merged , NULL ) ; g_key_file_set_string_list ( keyfile , G_KEY_FILE_DESKTOP_GROUP , X_FLATPAK_RENAMED_FROM , ( const char * const * ) merged -> pdata , merged -> len - 1 ) ; } } } groups = g_key_file_get_groups ( keyfile , NULL ) ; for ( i = 0 ; groups [ i ] != NULL ; i ++ ) { g_auto ( GStrv ) flatpak_run_opts = g_key_file_get_string_list ( keyfile , groups [ i ] , ""X-Flatpak-RunOptions"" , NULL , NULL ) ; g_autofree char * flatpak_run_args = format_flatpak_run_args_from_run_opts ( flatpak_run_opts ) ; g_key_file_remove_key ( keyfile , groups [ i ] , ""X-Flatpak-RunOptions"" , NULL ) ; g_key_file_remove_key ( keyfile , groups [ i ] , ""TryExec"" , NULL ) ; g_key_file_remove_key ( keyfile , groups [ i ] , ""X-GNOME-Bugzilla-ExtraInfoScript"" , NULL ) ; new_exec = g_string_new ( """" ) ; g_string_append_printf ( new_exec , FLATPAK_BINDIR ""/flatpak run --branch=%s --arch=%s"" , escaped_branch , escaped_arch ) ; if ( flatpak_run_args != NULL ) g_string_append_printf ( new_exec , ""%s"" , flatpak_run_args ) ; old_exec = g_key_file_get_string ( keyfile , groups [ i ] , ""Exec"" , NULL ) ; if ( old_exec && g_shell_parse_argv ( old_exec , & old_argc , & old_argv , NULL ) && old_argc >= 1 ) { int j ; g_autofree char * command = maybe_quote ( old_argv [ 0 ] ) ; g_string_append_printf ( new_exec , "" --command=%s"" , command ) ; for ( j = 1 ; j < old_argc ; j ++ ) { if ( strcasecmp ( old_argv [ j ] , ""%f"" ) == 0 || strcasecmp ( old_argv [ j ] , ""%u"" ) == 0 ) { g_string_append ( new_exec , "" --file-forwarding"" ) ; break ; } } g_string_append ( new_exec , "" "" ) ; g_string_append ( new_exec , escaped_app ) ; for ( j = 1 ; j < old_argc ; j ++ ) { g_autofree char * arg = maybe_quote ( old_argv [ j ] ) ; if ( strcasecmp ( arg , ""%f"" ) == 0 ) g_string_append_printf ( new_exec , "" @@ %s @@"" , arg ) ; else if ( strcasecmp ( arg , ""%u"" ) == 0 ) g_string_append_printf ( new_exec , "" @@u %s @@"" , arg ) ; else if ( strcmp ( arg , ""@@"" ) == 0 || strcmp ( arg , ""@@u"" ) == 0 ) g_print ( _ ( ""Skipping invalid Exec argument %s\\n"" ) , arg ) ; else g_string_append_printf ( new_exec , "" %s"" , arg ) ; } } else { g_string_append ( new_exec , "" "" ) ; g_string_append ( new_exec , escaped_app ) ; } g_key_file_set_string ( keyfile , groups [ i ] , G_KEY_FILE_DESKTOP_KEY_EXEC , new_exec -> str ) ; } new_data = g_key_file_to_data ( keyfile , & new_data_len , error ) ; if ( new_data == NULL ) goto out ; if ( ! flatpak_open_in_tmpdir_at ( parent_fd , 0755 , tmpfile_name , & out_stream , cancellable , error ) ) goto out ; if ( ! g_output_stream_write_all ( out_stream , new_data , new_data_len , NULL , cancellable , error ) ) goto out ; if ( ! g_output_stream_close ( out_stream , cancellable , error ) ) goto out ; if ( target ) * target = g_steal_pointer ( & tmpfile_name ) ; ret = TRUE ; out : if ( new_exec != NULL ) g_string_free ( new_exec , TRUE ) ; return ret ; }","if ( merged -> len > 0 ) { g_ptr_array_add ( merged , NULL ) ; g_key_file_set_string_list ( keyfile , G_KEY_FILE_DESKTOP_GROUP , X_FLATPAK_RENAMED_FROM , ( const char * const * ) merged -> pdata , merged -> len - 1 ) ; } } } groups = g_key_file_get_groups ( keyfile , NULL ) ; for ( i = 0 ; groups [ i ] != NULL ; i ++ ) { g_auto ( GStrv ) flatpak_run_opts = g_key_file_get_string_list ( keyfile , groups [ i ] , ""X-Flatpak-RunOptions"" , NULL , NULL ) ; g_autofree char * flatpak_run_args = format_flatpak_run_args_from_run_opts ( flatpak_run_opts ) ; g_key_file_remove_key ( keyfile , groups [ i ] , ""X-Flatpak-RunOptions"" , NULL ) ; g_key_file_remove_key ( keyfile , groups [ i ] , ""TryExec"" , NULL ) ; g_key_file_remove_key ( keyfile , groups [ i ] , ""X-GNOME-Bugzilla-ExtraInfoScript"" , NULL ) ; new_exec = g_string_new ( """" ) ; g_string_append_printf ( new_exec , FLATPAK_BINDIR ""/flatpak run --branch=%s --arch=%s"" , escaped_branch , escaped_arch ) ; if ( flatpak_run_args != NULL ) g_string_append_printf ( new_exec , ""%s"" , flatpak_run_args ) ; old_exec = g_key_file_get_string ( keyfile , groups [ i ] , ""Exec"" , NULL ) ; if ( old_exec && g_shell_parse_argv ( old_exec , & old_argc , & old_argv , NULL ) && old_argc >= 1 ) { int j ; g_autofree char * command = maybe_quote ( old_argv [ 0 ] ) ; g_string_append_printf ( new_exec , "" --command=%s"" , command ) ; for ( j = 1 ; j < old_argc ; j ++ ) { if ( strcasecmp ( old_argv [ j ] , ""%f"" ) == 0 || strcasecmp ( old_argv [ j ] , ""%u"" ) == 0 ) { g_string_append ( new_exec , "" --file-forwarding"" ) ; break ; } } g_string_append ( new_exec , "" "" ) ; g_string_append ( new_exec , escaped_app ) ; for ( j = 1 ; j < old_argc ; j ++ ) { g_autofree char * arg = maybe_quote ( old_argv [ j ] ) ; if ( strcasecmp ( arg , ""%f"" ) == 0 ) g_string_append_printf ( new_exec , "" @@ %s @@"" , arg ) ; else if ( strcasecmp ( arg , ""%u"" ) == 0 ) g_string_append_printf ( new_exec , "" @@u %s @@"" , arg ) ; else if ( g_str_has_prefix ( arg , ""@@"" ) ) g_print ( _ ( ""Skipping invalid Exec argument %s\\n"" ) , arg ) ; else g_string_append_printf ( new_exec , "" %s"" , arg ) ; } } else { g_string_append ( new_exec , "" "" ) ; g_string_append ( new_exec , escaped_app ) ; } g_key_file_set_string ( keyfile , groups [ i ] , G_KEY_FILE_DESKTOP_KEY_EXEC , new_exec -> str ) ; } new_data = g_key_file_to_data ( keyfile , & new_data_len , error ) ; if ( new_data == NULL ) goto out ; if ( ! flatpak_open_in_tmpdir_at ( parent_fd , 0755 , tmpfile_name , & out_stream , cancellable , error ) ) goto out ; if ( ! g_output_stream_write_all ( out_stream , new_data , new_data_len , NULL , cancellable , error ) ) goto out ; if ( ! g_output_stream_close ( out_stream , cancellable , error ) ) goto out ; if ( target ) * target = g_steal_pointer ( & tmpfile_name ) ; ret = TRUE ; out : if ( new_exec != NULL ) g_string_free ( new_exec , TRUE ) ; return ret ; }" 72,"CWE-125 static void * Type_MLU_Read ( struct _cms_typehandler_struct * self , cmsIOHANDLER * io , cmsUInt32Number * nItems , cmsUInt32Number SizeOfTag ) { cmsMLU * mlu ; cmsUInt32Number Count , RecLen , NumOfWchar ; cmsUInt32Number SizeOfHeader ; cmsUInt32Number Len , Offset ; cmsUInt32Number i ; wchar_t * Block ; cmsUInt32Number BeginOfThisString , EndOfThisString , LargestPosition ; * nItems = 0 ; if ( ! _cmsReadUInt32Number ( io , & Count ) ) return NULL ; if ( ! _cmsReadUInt32Number ( io , & RecLen ) ) return NULL ; if ( RecLen != 12 ) { cmsSignalError ( self -> ContextID , cmsERROR_UNKNOWN_EXTENSION , ""multiLocalizedUnicodeType of len != 12 is not supported."" ) ; return NULL ; } mlu = cmsMLUalloc ( self -> ContextID , Count ) ; if ( mlu == NULL ) return NULL ; mlu -> UsedEntries = Count ; SizeOfHeader = 12 * Count + sizeof ( _cmsTagBase ) ; LargestPosition = 0 ; for ( i = 0 ; i < Count ; i ++ ) { if ( ! _cmsReadUInt16Number ( io , & mlu -> Entries [ i ] . Language ) ) goto Error ; if ( ! _cmsReadUInt16Number ( io , & mlu -> Entries [ i ] . Country ) ) goto Error ; if ( ! _cmsReadUInt32Number ( io , & Len ) ) goto Error ; if ( ! _cmsReadUInt32Number ( io , & Offset ) ) goto Error ; if ( Offset < ( SizeOfHeader + 8 ) ) goto Error ; BeginOfThisString = Offset - SizeOfHeader - 8 ; mlu -> Entries [ i ] . Len = ( Len * sizeof ( wchar_t ) ) / sizeof ( cmsUInt16Number ) ; mlu -> Entries [ i ] . StrW = ( BeginOfThisString * sizeof ( wchar_t ) ) / sizeof ( cmsUInt16Number ) ; EndOfThisString = BeginOfThisString + Len ; if ( EndOfThisString > LargestPosition ) LargestPosition = EndOfThisString ; } SizeOfTag = ( LargestPosition * sizeof ( wchar_t ) ) / sizeof ( cmsUInt16Number ) ; if ( SizeOfTag == 0 ) { Block = NULL ; NumOfWchar = 0 ; } else { Block = ( wchar_t * ) _cmsMalloc ( self -> ContextID , SizeOfTag ) ; if ( Block == NULL ) goto Error ; NumOfWchar = SizeOfTag / sizeof ( wchar_t ) ; if ( ! _cmsReadWCharArray ( io , NumOfWchar , Block ) ) goto Error ; } mlu -> MemPool = Block ; mlu -> PoolSize = SizeOfTag ; mlu -> PoolUsed = SizeOfTag ; * nItems = 1 ; return ( void * ) mlu ; Error : if ( mlu ) cmsMLUfree ( mlu ) ; return NULL ; }","static void * Type_MLU_Read ( struct _cms_typehandler_struct * self , cmsIOHANDLER * io , cmsUInt32Number * nItems , cmsUInt32Number SizeOfTag ) { cmsMLU * mlu ; cmsUInt32Number Count , RecLen , NumOfWchar ; cmsUInt32Number SizeOfHeader ; cmsUInt32Number Len , Offset ; cmsUInt32Number i ; wchar_t * Block ; cmsUInt32Number BeginOfThisString , EndOfThisString , LargestPosition ; * nItems = 0 ; if ( ! _cmsReadUInt32Number ( io , & Count ) ) return NULL ; if ( ! _cmsReadUInt32Number ( io , & RecLen ) ) return NULL ; if ( RecLen != 12 ) { cmsSignalError ( self -> ContextID , cmsERROR_UNKNOWN_EXTENSION , ""multiLocalizedUnicodeType of len != 12 is not supported."" ) ; return NULL ; } mlu = cmsMLUalloc ( self -> ContextID , Count ) ; if ( mlu == NULL ) return NULL ; mlu -> UsedEntries = Count ; SizeOfHeader = 12 * Count + sizeof ( _cmsTagBase ) ; LargestPosition = 0 ; for ( i = 0 ; i < Count ; i ++ ) { if ( ! _cmsReadUInt16Number ( io , & mlu -> Entries [ i ] . Language ) ) goto Error ; if ( ! _cmsReadUInt16Number ( io , & mlu -> Entries [ i ] . Country ) ) goto Error ; if ( ! _cmsReadUInt32Number ( io , & Len ) ) goto Error ; if ( ! _cmsReadUInt32Number ( io , & Offset ) ) goto Error ; if ( Offset < ( SizeOfHeader + 8 ) ) goto Error ; if ( ( Offset + Len ) > SizeOfTag + 8 ) goto Error ; BeginOfThisString = Offset - SizeOfHeader - 8 ; mlu -> Entries [ i ] . Len = ( Len * sizeof ( wchar_t ) ) / sizeof ( cmsUInt16Number ) ; mlu -> Entries [ i ] . StrW = ( BeginOfThisString * sizeof ( wchar_t ) ) / sizeof ( cmsUInt16Number ) ; EndOfThisString = BeginOfThisString + Len ; if ( EndOfThisString > LargestPosition ) LargestPosition = EndOfThisString ; } SizeOfTag = ( LargestPosition * sizeof ( wchar_t ) ) / sizeof ( cmsUInt16Number ) ; if ( SizeOfTag == 0 ) { Block = NULL ; NumOfWchar = 0 ; } else { Block = ( wchar_t * ) _cmsMalloc ( self -> ContextID , SizeOfTag ) ; if ( Block == NULL ) goto Error ; NumOfWchar = SizeOfTag / sizeof ( wchar_t ) ; if ( ! _cmsReadWCharArray ( io , NumOfWchar , Block ) ) goto Error ; } mlu -> MemPool = Block ; mlu -> PoolSize = SizeOfTag ; mlu -> PoolUsed = SizeOfTag ; * nItems = 1 ; return ( void * ) mlu ; Error : if ( mlu ) cmsMLUfree ( mlu ) ; return NULL ; }" 73,"CWE-119 static int magicmouse_raw_event ( struct hid_device * hdev , struct hid_report * report , u8 * data , int size ) { struct magicmouse_sc * msc = hid_get_drvdata ( hdev ) ; struct input_dev * input = msc -> input ; int x = 0 , y = 0 , ii , clicks = 0 , npoints ; switch ( data [ 0 ] ) { case TRACKPAD_REPORT_ID : if ( size < 4 || ( ( size - 4 ) % 9 ) != 0 ) return 0 ; npoints = ( size - 4 ) / 9 ; msc -> ntouches = 0 ; for ( ii = 0 ; ii < npoints ; ii ++ ) magicmouse_emit_touch ( msc , ii , data + ii * 9 + 4 ) ; clicks = data [ 1 ] ; break ; case MOUSE_REPORT_ID : if ( size < 6 || ( ( size - 6 ) % 8 ) != 0 ) return 0 ; npoints = ( size - 6 ) / 8 ; msc -> ntouches = 0 ; for ( ii = 0 ; ii < npoints ; ii ++ ) magicmouse_emit_touch ( msc , ii , data + ii * 8 + 6 ) ; x = ( int ) ( ( ( data [ 3 ] & 0x0c ) << 28 ) | ( data [ 1 ] << 22 ) ) >> 22 ; y = ( int ) ( ( ( data [ 3 ] & 0x30 ) << 26 ) | ( data [ 2 ] << 22 ) ) >> 22 ; clicks = data [ 3 ] ; break ; case DOUBLE_REPORT_ID : magicmouse_raw_event ( hdev , report , data + 2 , data [ 1 ] ) ; magicmouse_raw_event ( hdev , report , data + 2 + data [ 1 ] , size - 2 - data [ 1 ] ) ; break ; default : return 0 ; } if ( input -> id . product == USB_DEVICE_ID_APPLE_MAGICMOUSE ) { magicmouse_emit_buttons ( msc , clicks & 3 ) ; input_report_rel ( input , REL_X , x ) ; input_report_rel ( input , REL_Y , y ) ; } else { input_report_key ( input , BTN_MOUSE , clicks & 1 ) ; input_mt_report_pointer_emulation ( input , true ) ; } input_sync ( input ) ; return 1 ; }","static int magicmouse_raw_event ( struct hid_device * hdev , struct hid_report * report , u8 * data , int size ) { struct magicmouse_sc * msc = hid_get_drvdata ( hdev ) ; struct input_dev * input = msc -> input ; int x = 0 , y = 0 , ii , clicks = 0 , npoints ; switch ( data [ 0 ] ) { case TRACKPAD_REPORT_ID : if ( size < 4 || ( ( size - 4 ) % 9 ) != 0 ) return 0 ; npoints = ( size - 4 ) / 9 ; if ( npoints > 15 ) { hid_warn ( hdev , ""invalid size value (%d) for TRACKPAD_REPORT_ID\\n"" , size ) ; return 0 ; } msc -> ntouches = 0 ; for ( ii = 0 ; ii < npoints ; ii ++ ) magicmouse_emit_touch ( msc , ii , data + ii * 9 + 4 ) ; clicks = data [ 1 ] ; break ; case MOUSE_REPORT_ID : if ( size < 6 || ( ( size - 6 ) % 8 ) != 0 ) return 0 ; npoints = ( size - 6 ) / 8 ; if ( npoints > 15 ) { hid_warn ( hdev , ""invalid size value (%d) for MOUSE_REPORT_ID\\n"" , size ) ; return 0 ; } msc -> ntouches = 0 ; for ( ii = 0 ; ii < npoints ; ii ++ ) magicmouse_emit_touch ( msc , ii , data + ii * 8 + 6 ) ; x = ( int ) ( ( ( data [ 3 ] & 0x0c ) << 28 ) | ( data [ 1 ] << 22 ) ) >> 22 ; y = ( int ) ( ( ( data [ 3 ] & 0x30 ) << 26 ) | ( data [ 2 ] << 22 ) ) >> 22 ; clicks = data [ 3 ] ; break ; case DOUBLE_REPORT_ID : magicmouse_raw_event ( hdev , report , data + 2 , data [ 1 ] ) ; magicmouse_raw_event ( hdev , report , data + 2 + data [ 1 ] , size - 2 - data [ 1 ] ) ; break ; default : return 0 ; } if ( input -> id . product == USB_DEVICE_ID_APPLE_MAGICMOUSE ) { magicmouse_emit_buttons ( msc , clicks & 3 ) ; input_report_rel ( input , REL_X , x ) ; input_report_rel ( input , REL_Y , y ) ; } else { input_report_key ( input , BTN_MOUSE , clicks & 1 ) ; input_mt_report_pointer_emulation ( input , true ) ; } input_sync ( input ) ; return 1 ; }" 74,"CWE-125 PyObject * ast2obj_keyword ( void * _o ) { keyword_ty o = ( keyword_ty ) _o ; PyObject * result = NULL , * value = NULL ; if ( ! o ) { Py_INCREF ( Py_None ) ; return Py_None ; } result = PyType_GenericNew ( keyword_type , NULL , NULL ) ; if ( ! result ) return NULL ; value = ast2obj_identifier ( o -> arg ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_arg , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; value = ast2obj_expr ( o -> value ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_value , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; return result ; failed : Py_XDECREF ( value ) ; Py_XDECREF ( result ) ; return NULL ; }","PyObject * ast2obj_keyword ( void * _o ) { keyword_ty o = ( keyword_ty ) _o ; PyObject * result = NULL , * value = NULL ; if ( ! o ) { Py_RETURN_NONE ; } result = PyType_GenericNew ( keyword_type , NULL , NULL ) ; if ( ! result ) return NULL ; value = ast2obj_identifier ( o -> arg ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_arg , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; value = ast2obj_expr ( o -> value ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_value , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; return result ; failed : Py_XDECREF ( value ) ; Py_XDECREF ( result ) ; return NULL ; }" 75,"CWE-119 static int kempf_decode_tile ( G2MContext * c , int tile_x , int tile_y , const uint8_t * src , int src_size ) { int width , height ; int hdr , zsize , npal , tidx = - 1 , ret ; int i , j ; const uint8_t * src_end = src + src_size ; uint8_t pal [ 768 ] , transp [ 3 ] ; uLongf dlen = ( c -> tile_width + 1 ) * c -> tile_height ; int sub_type ; int nblocks , cblocks , bstride ; int bits , bitbuf , coded ; uint8_t * dst = c -> framebuf + tile_x * c -> tile_width * 3 + tile_y * c -> tile_height * c -> framebuf_stride ; if ( src_size < 2 ) return AVERROR_INVALIDDATA ; width = FFMIN ( c -> width - tile_x * c -> tile_width , c -> tile_width ) ; height = FFMIN ( c -> height - tile_y * c -> tile_height , c -> tile_height ) ; hdr = * src ++ ; sub_type = hdr >> 5 ; if ( sub_type == 0 ) { int j ; memcpy ( transp , src , 3 ) ; src += 3 ; for ( j = 0 ; j < height ; j ++ , dst += c -> framebuf_stride ) for ( i = 0 ; i < width ; i ++ ) memcpy ( dst + i * 3 , transp , 3 ) ; return 0 ; } else if ( sub_type == 1 ) { return jpg_decode_data ( & c -> jc , width , height , src , src_end - src , dst , c -> framebuf_stride , NULL , 0 , 0 , 0 ) ; } if ( sub_type != 2 ) { memcpy ( transp , src , 3 ) ; src += 3 ; } npal = * src ++ + 1 ; memcpy ( pal , src , npal * 3 ) ; src += npal * 3 ; if ( sub_type != 2 ) { for ( i = 0 ; i < npal ; i ++ ) { if ( ! memcmp ( pal + i * 3 , transp , 3 ) ) { tidx = i ; break ; } } } if ( src_end - src < 2 ) return 0 ; zsize = ( src [ 0 ] << 8 ) | src [ 1 ] ; src += 2 ; if ( src_end - src < zsize ) return AVERROR_INVALIDDATA ; ret = uncompress ( c -> kempf_buf , & dlen , src , zsize ) ; if ( ret ) return AVERROR_INVALIDDATA ; src += zsize ; if ( sub_type == 2 ) { kempf_restore_buf ( c -> kempf_buf , dlen , dst , c -> framebuf_stride , NULL , 0 , width , height , pal , npal , tidx ) ; return 0 ; } nblocks = * src ++ + 1 ; cblocks = 0 ; bstride = FFALIGN ( width , 16 ) >> 4 ; bits = 0 ; for ( i = 0 ; i < ( FFALIGN ( height , 16 ) >> 4 ) ; i ++ ) { for ( j = 0 ; j < ( FFALIGN ( width , 16 ) >> 4 ) ; j ++ ) { if ( ! bits ) { bitbuf = * src ++ ; bits = 8 ; } coded = bitbuf & 1 ; bits -- ; bitbuf >>= 1 ; cblocks += coded ; if ( cblocks > nblocks ) return AVERROR_INVALIDDATA ; c -> kempf_flags [ j + i * bstride ] = coded ; } } memset ( c -> jpeg_tile , 0 , c -> tile_stride * height ) ; jpg_decode_data ( & c -> jc , width , height , src , src_end - src , c -> jpeg_tile , c -> tile_stride , c -> kempf_flags , bstride , nblocks , 0 ) ; kempf_restore_buf ( c -> kempf_buf , dlen , dst , c -> framebuf_stride , c -> jpeg_tile , c -> tile_stride , width , height , pal , npal , tidx ) ; return 0 ; }","static int kempf_decode_tile ( G2MContext * c , int tile_x , int tile_y , const uint8_t * src , int src_size ) { int width , height ; int hdr , zsize , npal , tidx = - 1 , ret ; int i , j ; const uint8_t * src_end = src + src_size ; uint8_t pal [ 768 ] , transp [ 3 ] ; uLongf dlen = ( c -> tile_width + 1 ) * c -> tile_height ; int sub_type ; int nblocks , cblocks , bstride ; int bits , bitbuf , coded ; uint8_t * dst = c -> framebuf + tile_x * c -> tile_width * 3 + tile_y * c -> tile_height * c -> framebuf_stride ; if ( src_size < 2 ) return AVERROR_INVALIDDATA ; width = FFMIN ( c -> width - tile_x * c -> tile_width , c -> tile_width ) ; height = FFMIN ( c -> height - tile_y * c -> tile_height , c -> tile_height ) ; hdr = * src ++ ; sub_type = hdr >> 5 ; if ( sub_type == 0 ) { int j ; memcpy ( transp , src , 3 ) ; src += 3 ; for ( j = 0 ; j < height ; j ++ , dst += c -> framebuf_stride ) for ( i = 0 ; i < width ; i ++ ) memcpy ( dst + i * 3 , transp , 3 ) ; return 0 ; } else if ( sub_type == 1 ) { return jpg_decode_data ( & c -> jc , width , height , src , src_end - src , dst , c -> framebuf_stride , NULL , 0 , 0 , 0 ) ; } if ( sub_type != 2 ) { memcpy ( transp , src , 3 ) ; src += 3 ; } npal = * src ++ + 1 ; memcpy ( pal , src , npal * 3 ) ; src += npal * 3 ; if ( sub_type != 2 ) { for ( i = 0 ; i < npal ; i ++ ) { if ( ! memcmp ( pal + i * 3 , transp , 3 ) ) { tidx = i ; break ; } } } if ( src_end - src < 2 ) return 0 ; zsize = ( src [ 0 ] << 8 ) | src [ 1 ] ; src += 2 ; if ( src_end - src < zsize + ( sub_type != 2 ) ) return AVERROR_INVALIDDATA ; ret = uncompress ( c -> kempf_buf , & dlen , src , zsize ) ; if ( ret ) return AVERROR_INVALIDDATA ; src += zsize ; if ( sub_type == 2 ) { kempf_restore_buf ( c -> kempf_buf , dlen , dst , c -> framebuf_stride , NULL , 0 , width , height , pal , npal , tidx ) ; return 0 ; } nblocks = * src ++ + 1 ; cblocks = 0 ; bstride = FFALIGN ( width , 16 ) >> 4 ; bits = 0 ; for ( i = 0 ; i < ( FFALIGN ( height , 16 ) >> 4 ) ; i ++ ) { for ( j = 0 ; j < ( FFALIGN ( width , 16 ) >> 4 ) ; j ++ ) { if ( ! bits ) { if ( src >= src_end ) return AVERROR_INVALIDDATA ; bitbuf = * src ++ ; bits = 8 ; } coded = bitbuf & 1 ; bits -- ; bitbuf >>= 1 ; cblocks += coded ; if ( cblocks > nblocks ) return AVERROR_INVALIDDATA ; c -> kempf_flags [ j + i * bstride ] = coded ; } } memset ( c -> jpeg_tile , 0 , c -> tile_stride * height ) ; jpg_decode_data ( & c -> jc , width , height , src , src_end - src , c -> jpeg_tile , c -> tile_stride , c -> kempf_flags , bstride , nblocks , 0 ) ; kempf_restore_buf ( c -> kempf_buf , dlen , dst , c -> framebuf_stride , c -> jpeg_tile , c -> tile_stride , width , height , pal , npal , tidx ) ; return 0 ; }" 76,"CWE-284 ssize_t socket_read ( const socket_t * socket , void * buf , size_t count ) { assert ( socket != NULL ) ; assert ( buf != NULL ) ; return recv ( socket -> fd , buf , count , MSG_DONTWAIT ) ; }","ssize_t socket_read ( const socket_t * socket , void * buf , size_t count ) { assert ( socket != NULL ) ; assert ( buf != NULL ) ; return TEMP_FAILURE_RETRY ( recv ( socket -> fd , buf , count , MSG_DONTWAIT ) ) ; }" 77,"CWE-399 static int fst_get_iface ( struct fst_card_info * card , struct fst_port_info * port , struct ifreq * ifr ) { sync_serial_settings sync ; int i ; switch ( port -> hwif ) { case E1 : ifr -> ifr_settings . type = IF_IFACE_E1 ; break ; case T1 : ifr -> ifr_settings . type = IF_IFACE_T1 ; break ; case V35 : ifr -> ifr_settings . type = IF_IFACE_V35 ; break ; case V24 : ifr -> ifr_settings . type = IF_IFACE_V24 ; break ; case X21D : ifr -> ifr_settings . type = IF_IFACE_X21D ; break ; case X21 : default : ifr -> ifr_settings . type = IF_IFACE_X21 ; break ; } if ( ifr -> ifr_settings . size == 0 ) { return 0 ; } if ( ifr -> ifr_settings . size < sizeof ( sync ) ) { return - ENOMEM ; } i = port -> index ; sync . clock_rate = FST_RDL ( card , portConfig [ i ] . lineSpeed ) ; sync . clock_type = FST_RDB ( card , portConfig [ i ] . internalClock ) == INTCLK ? CLOCK_INT : CLOCK_EXT ; sync . loopback = 0 ; if ( copy_to_user ( ifr -> ifr_settings . ifs_ifsu . sync , & sync , sizeof ( sync ) ) ) { return - EFAULT ; } ifr -> ifr_settings . size = sizeof ( sync ) ; return 0 ; }","static int fst_get_iface ( struct fst_card_info * card , struct fst_port_info * port , struct ifreq * ifr ) { sync_serial_settings sync ; int i ; switch ( port -> hwif ) { case E1 : ifr -> ifr_settings . type = IF_IFACE_E1 ; break ; case T1 : ifr -> ifr_settings . type = IF_IFACE_T1 ; break ; case V35 : ifr -> ifr_settings . type = IF_IFACE_V35 ; break ; case V24 : ifr -> ifr_settings . type = IF_IFACE_V24 ; break ; case X21D : ifr -> ifr_settings . type = IF_IFACE_X21D ; break ; case X21 : default : ifr -> ifr_settings . type = IF_IFACE_X21 ; break ; } if ( ifr -> ifr_settings . size == 0 ) { return 0 ; } if ( ifr -> ifr_settings . size < sizeof ( sync ) ) { return - ENOMEM ; } i = port -> index ; memset ( & sync , 0 , sizeof ( sync ) ) ; sync . clock_rate = FST_RDL ( card , portConfig [ i ] . lineSpeed ) ; sync . clock_type = FST_RDB ( card , portConfig [ i ] . internalClock ) == INTCLK ? CLOCK_INT : CLOCK_EXT ; sync . loopback = 0 ; if ( copy_to_user ( ifr -> ifr_settings . ifs_ifsu . sync , & sync , sizeof ( sync ) ) ) { return - EFAULT ; } ifr -> ifr_settings . size = sizeof ( sync ) ; return 0 ; }" 78,"NVD-CWE-Other static int ext4_writepage ( struct page * page , struct writeback_control * wbc ) { int ret = 0 ; loff_t size ; unsigned int len ; struct buffer_head * page_bufs ; struct inode * inode = page -> mapping -> host ; trace_ext4_writepage ( inode , page ) ; size = i_size_read ( inode ) ; if ( page -> index == size >> PAGE_CACHE_SHIFT ) len = size & ~ PAGE_CACHE_MASK ; else len = PAGE_CACHE_SIZE ; if ( page_has_buffers ( page ) ) { page_bufs = page_buffers ( page ) ; if ( walk_page_buffers ( NULL , page_bufs , 0 , len , NULL , ext4_bh_delay_or_unwritten ) ) { redirty_page_for_writepage ( wbc , page ) ; unlock_page ( page ) ; return 0 ; } } else { ret = block_prepare_write ( page , 0 , len , noalloc_get_block_write ) ; if ( ! ret ) { page_bufs = page_buffers ( page ) ; if ( walk_page_buffers ( NULL , page_bufs , 0 , len , NULL , ext4_bh_delay_or_unwritten ) ) { redirty_page_for_writepage ( wbc , page ) ; unlock_page ( page ) ; return 0 ; } } else { redirty_page_for_writepage ( wbc , page ) ; unlock_page ( page ) ; return 0 ; } block_commit_write ( page , 0 , len ) ; } if ( PageChecked ( page ) && ext4_should_journal_data ( inode ) ) { ClearPageChecked ( page ) ; return __ext4_journalled_writepage ( page , len ) ; } if ( test_opt ( inode -> i_sb , NOBH ) && ext4_should_writeback_data ( inode ) ) ret = nobh_writepage ( page , noalloc_get_block_write , wbc ) ; else ret = block_write_full_page ( page , noalloc_get_block_write , wbc ) ; return ret ; }","static int ext4_writepage ( struct page * page , struct writeback_control * wbc ) { int ret = 0 ; loff_t size ; unsigned int len ; struct buffer_head * page_bufs = NULL ; struct inode * inode = page -> mapping -> host ; trace_ext4_writepage ( inode , page ) ; size = i_size_read ( inode ) ; if ( page -> index == size >> PAGE_CACHE_SHIFT ) len = size & ~ PAGE_CACHE_MASK ; else len = PAGE_CACHE_SIZE ; if ( page_has_buffers ( page ) ) { page_bufs = page_buffers ( page ) ; if ( walk_page_buffers ( NULL , page_bufs , 0 , len , NULL , ext4_bh_delay_or_unwritten ) ) { redirty_page_for_writepage ( wbc , page ) ; unlock_page ( page ) ; return 0 ; } } else { ret = block_prepare_write ( page , 0 , len , noalloc_get_block_write ) ; if ( ! ret ) { page_bufs = page_buffers ( page ) ; if ( walk_page_buffers ( NULL , page_bufs , 0 , len , NULL , ext4_bh_delay_or_unwritten ) ) { redirty_page_for_writepage ( wbc , page ) ; unlock_page ( page ) ; return 0 ; } } else { redirty_page_for_writepage ( wbc , page ) ; unlock_page ( page ) ; return 0 ; } block_commit_write ( page , 0 , len ) ; } if ( PageChecked ( page ) && ext4_should_journal_data ( inode ) ) { ClearPageChecked ( page ) ; return __ext4_journalled_writepage ( page , len ) ; } if ( test_opt ( inode -> i_sb , NOBH ) && ext4_should_writeback_data ( inode ) ) ret = nobh_writepage ( page , noalloc_get_block_write , wbc ) ; else if ( page_bufs && buffer_uninit ( page_bufs ) ) { ext4_set_bh_endio ( page_bufs , inode ) ; ret = block_write_full_page_endio ( page , noalloc_get_block_write , wbc , ext4_end_io_buffer_write ) ; } else ret = block_write_full_page ( page , noalloc_get_block_write , wbc ) ; return ret ; }" 79,"CWE-119 int16_t vp9_dc_quant ( int qindex , int delta ) { return dc_qlookup [ clamp ( qindex + delta , 0 , MAXQ ) ] ; }","int16_t vp9_dc_quant ( int qindex , int delta , vpx_bit_depth_t bit_depth ) { # if CONFIG_VP9_HIGHBITDEPTH switch ( bit_depth ) { case VPX_BITS_8 : return dc_qlookup [ clamp ( qindex + delta , 0 , MAXQ ) ] ; case VPX_BITS_10 : return dc_qlookup_10 [ clamp ( qindex + delta , 0 , MAXQ ) ] ; case VPX_BITS_12 : return dc_qlookup_12 [ clamp ( qindex + delta , 0 , MAXQ ) ] ; default : assert ( 0 && ""bit_depth should be VPX_BITS_8, VPX_BITS_10 or VPX_BITS_12"" ) ; return - 1 ; } # else ( void ) bit_depth ; return dc_qlookup [ clamp ( qindex + delta , 0 , MAXQ ) ] ; # endif }" 80,"CWE-119 cJSON * cJSON_DetachItemFromArray ( cJSON * array , int which ) { cJSON * c = array -> child ; while ( c && which > 0 ) { c = c -> next ; -- which ; } if ( ! c ) return 0 ; if ( c -> prev ) c -> prev -> next = c -> next ; if ( c -> next ) c -> next -> prev = c -> prev ; if ( c == array -> child ) array -> child = c -> next ; c -> prev = c -> next = 0 ; return c ; } ","cJSON * cJSON_DetachItemFromArray ( cJSON * array , int which ) { cJSON * c = array -> child ; while ( c && which > 0 ) c = c -> next , which -- ; if ( ! c ) return 0 ; if ( c -> prev ) c -> prev -> next = c -> next ; if ( c -> next ) c -> next -> prev = c -> prev ; if ( c == array -> child ) array -> child = c -> next ; c -> prev = c -> next = 0 ; return c ; }" 81,"CWE-119 int qcurr = cm -> base_qindex ; int qprev = cm -> postproc_state . last_base_qindex ; unsigned char * y_ptr , * u_ptr , * v_ptr ; unsigned char * yd_ptr , * ud_ptr , * vd_ptr ; y_ptr = show -> y_buffer ; u_ptr = show -> u_buffer ; v_ptr = show -> v_buffer ; yd_ptr = dest -> y_buffer ; ud_ptr = dest -> u_buffer ; vd_ptr = dest -> v_buffer ; for ( mb_row = 0 ; mb_row < cm -> mb_rows ; mb_row ++ ) { for ( mb_col = 0 ; mb_col < cm -> mb_cols ; mb_col ++ ) { if ( frame_type == INTER_FRAME ) totmap = qualify_inter_mb ( mode_info_context , map ) ; else totmap = ( frame_type == KEY_FRAME ? 4 : 0 ) ; if ( totmap ) { if ( totmap < 4 ) { int i , j ; for ( i = 0 ; i < 2 ; ++ i ) for ( j = 0 ; j < 2 ; ++ j ) { if ( map [ i * 2 + j ] ) { multiframe_quality_enhance_block ( 8 , qcurr , qprev , y_ptr + 8 * ( i * show -> y_stride + j ) , u_ptr + 4 * ( i * show -> uv_stride + j ) , v_ptr + 4 * ( i * show -> uv_stride + j ) , show -> y_stride , show -> uv_stride , yd_ptr + 8 * ( i * dest -> y_stride + j ) , ud_ptr + 4 * ( i * dest -> uv_stride + j ) , vd_ptr + 4 * ( i * dest -> uv_stride + j ) , dest -> y_stride , dest -> uv_stride ) ; } else { int k ; unsigned char * up = u_ptr + 4 * ( i * show -> uv_stride + j ) ; unsigned char * udp = ud_ptr + 4 * ( i * dest -> uv_stride + j ) ; unsigned char * vp = v_ptr + 4 * ( i * show -> uv_stride + j ) ; unsigned char * vdp = vd_ptr + 4 * ( i * dest -> uv_stride + j ) ; vp8_copy_mem8x8 ( y_ptr + 8 * ( i * show -> y_stride + j ) , show -> y_stride , yd_ptr + 8 * ( i * dest -> y_stride + j ) , dest -> y_stride ) ; for ( k = 0 ; k < 4 ; ++ k , up += show -> uv_stride , udp += dest -> uv_stride , vp += show -> uv_stride , vdp += dest -> uv_stride ) { vpx_memcpy ( udp , up , 4 ) ; vpx_memcpy ( vdp , vp , 4 ) ; } } } } else { multiframe_quality_enhance_block ( 16 , qcurr , qprev , y_ptr , u_ptr , v_ptr , show -> y_stride , show -> uv_stride , yd_ptr , ud_ptr , vd_ptr , dest -> y_stride , dest -> uv_stride ) ; } } else { vp8_copy_mem16x16 ( y_ptr , show -> y_stride , yd_ptr , dest -> y_stride ) ; vp8_copy_mem8x8 ( u_ptr , show -> uv_stride , ud_ptr , dest -> uv_stride ) ; vp8_copy_mem8x8 ( v_ptr , show -> uv_stride , vd_ptr , dest -> uv_stride ) ; } y_ptr += 16 ; u_ptr += 8 ; v_ptr += 8 ; yd_ptr += 16 ; ud_ptr += 8 ; vd_ptr += 8 ; mode_info_context ++ ; } y_ptr += show -> y_stride * 16 - 16 * cm -> mb_cols ; u_ptr += show -> uv_stride * 8 - 8 * cm -> mb_cols ; v_ptr += show -> uv_stride * 8 - 8 * cm -> mb_cols ; yd_ptr += dest -> y_stride * 16 - 16 * cm -> mb_cols ; ud_ptr += dest -> uv_stride * 8 - 8 * cm -> mb_cols ; vd_ptr += dest -> uv_stride * 8 - 8 * cm -> mb_cols ; mode_info_context ++ ; } }","int qcurr = cm -> base_qindex ; int qprev = cm -> postproc_state . last_base_qindex ; unsigned char * y_ptr , * u_ptr , * v_ptr ; unsigned char * yd_ptr , * ud_ptr , * vd_ptr ; y_ptr = show -> y_buffer ; u_ptr = show -> u_buffer ; v_ptr = show -> v_buffer ; yd_ptr = dest -> y_buffer ; ud_ptr = dest -> u_buffer ; vd_ptr = dest -> v_buffer ; for ( mb_row = 0 ; mb_row < cm -> mb_rows ; mb_row ++ ) { for ( mb_col = 0 ; mb_col < cm -> mb_cols ; mb_col ++ ) { if ( frame_type == INTER_FRAME ) totmap = qualify_inter_mb ( mode_info_context , map ) ; else totmap = ( frame_type == KEY_FRAME ? 4 : 0 ) ; if ( totmap ) { if ( totmap < 4 ) { int i , j ; for ( i = 0 ; i < 2 ; ++ i ) for ( j = 0 ; j < 2 ; ++ j ) { if ( map [ i * 2 + j ] ) { multiframe_quality_enhance_block ( 8 , qcurr , qprev , y_ptr + 8 * ( i * show -> y_stride + j ) , u_ptr + 4 * ( i * show -> uv_stride + j ) , v_ptr + 4 * ( i * show -> uv_stride + j ) , show -> y_stride , show -> uv_stride , yd_ptr + 8 * ( i * dest -> y_stride + j ) , ud_ptr + 4 * ( i * dest -> uv_stride + j ) , vd_ptr + 4 * ( i * dest -> uv_stride + j ) , dest -> y_stride , dest -> uv_stride ) ; } else { int k ; unsigned char * up = u_ptr + 4 * ( i * show -> uv_stride + j ) ; unsigned char * udp = ud_ptr + 4 * ( i * dest -> uv_stride + j ) ; unsigned char * vp = v_ptr + 4 * ( i * show -> uv_stride + j ) ; unsigned char * vdp = vd_ptr + 4 * ( i * dest -> uv_stride + j ) ; vp8_copy_mem8x8 ( y_ptr + 8 * ( i * show -> y_stride + j ) , show -> y_stride , yd_ptr + 8 * ( i * dest -> y_stride + j ) , dest -> y_stride ) ; for ( k = 0 ; k < 4 ; ++ k , up += show -> uv_stride , udp += dest -> uv_stride , vp += show -> uv_stride , vdp += dest -> uv_stride ) { memcpy ( udp , up , 4 ) ; memcpy ( vdp , vp , 4 ) ; } } } } else { multiframe_quality_enhance_block ( 16 , qcurr , qprev , y_ptr , u_ptr , v_ptr , show -> y_stride , show -> uv_stride , yd_ptr , ud_ptr , vd_ptr , dest -> y_stride , dest -> uv_stride ) ; } } else { vp8_copy_mem16x16 ( y_ptr , show -> y_stride , yd_ptr , dest -> y_stride ) ; vp8_copy_mem8x8 ( u_ptr , show -> uv_stride , ud_ptr , dest -> uv_stride ) ; vp8_copy_mem8x8 ( v_ptr , show -> uv_stride , vd_ptr , dest -> uv_stride ) ; } y_ptr += 16 ; u_ptr += 8 ; v_ptr += 8 ; yd_ptr += 16 ; ud_ptr += 8 ; vd_ptr += 8 ; mode_info_context ++ ; } y_ptr += show -> y_stride * 16 - 16 * cm -> mb_cols ; u_ptr += show -> uv_stride * 8 - 8 * cm -> mb_cols ; v_ptr += show -> uv_stride * 8 - 8 * cm -> mb_cols ; yd_ptr += dest -> y_stride * 16 - 16 * cm -> mb_cols ; ud_ptr += dest -> uv_stride * 8 - 8 * cm -> mb_cols ; vd_ptr += dest -> uv_stride * 8 - 8 * cm -> mb_cols ; mode_info_context ++ ; } }" 82,"CWE-125 ND_PRINT ( ( ndo , ""\\n\\t Tunnel-type %s (%u), Flags [%s], MPLS Label %u"" , tok2str ( bgp_pmsi_tunnel_values , ""Unknown"" , tunnel_type ) , tunnel_type , bittok2str ( bgp_pmsi_flag_values , ""none"" , flags ) , EXTRACT_24BITS ( tptr + 2 ) >> 4 ) ) ; tptr += 5 ; tlen -= 5 ; switch ( tunnel_type ) { case BGP_PMSI_TUNNEL_PIM_SM : case BGP_PMSI_TUNNEL_PIM_BIDIR : ND_TCHECK2 ( tptr [ 0 ] , 8 ) ; ND_PRINT ( ( ndo , ""\\n\\t Sender %s, P-Group %s"" , ipaddr_string ( ndo , tptr ) , ipaddr_string ( ndo , tptr + 4 ) ) ) ; break ; case BGP_PMSI_TUNNEL_PIM_SSM : ND_TCHECK2 ( tptr [ 0 ] , 8 ) ; ND_PRINT ( ( ndo , ""\\n\\t Root-Node %s, P-Group %s"" , ipaddr_string ( ndo , tptr ) , ipaddr_string ( ndo , tptr + 4 ) ) ) ; break ; case BGP_PMSI_TUNNEL_INGRESS : ND_TCHECK2 ( tptr [ 0 ] , 4 ) ; ND_PRINT ( ( ndo , ""\\n\\t Tunnel-Endpoint %s"" , ipaddr_string ( ndo , tptr ) ) ) ; break ; case BGP_PMSI_TUNNEL_LDP_P2MP : case BGP_PMSI_TUNNEL_LDP_MP2MP : ND_TCHECK2 ( tptr [ 0 ] , 8 ) ; ND_PRINT ( ( ndo , ""\\n\\t Root-Node %s, LSP-ID 0x%08x"" , ipaddr_string ( ndo , tptr ) , EXTRACT_32BITS ( tptr + 4 ) ) ) ; break ; case BGP_PMSI_TUNNEL_RSVP_P2MP : ND_TCHECK2 ( tptr [ 0 ] , 8 ) ; ND_PRINT ( ( ndo , ""\\n\\t Extended-Tunnel-ID %s, P2MP-ID 0x%08x"" , ipaddr_string ( ndo , tptr ) , EXTRACT_32BITS ( tptr + 4 ) ) ) ; break ; default : if ( ndo -> ndo_vflag <= 1 ) { print_unknown_data ( ndo , tptr , ""\\n\\t "" , tlen ) ; } } break ; } case BGPTYPE_AIGP : { uint8_t type ; uint16_t length ; ND_TCHECK2 ( tptr [ 0 ] , 3 ) ; tlen = len ; while ( tlen >= 3 ) { type = * tptr ; length = EXTRACT_16BITS ( tptr + 1 ) ; ND_PRINT ( ( ndo , ""\\n\\t %s TLV (%u), length %u"" , tok2str ( bgp_aigp_values , ""Unknown"" , type ) , type , length ) ) ; ND_TCHECK2 ( tptr [ 3 ] , length - 3 ) ; switch ( type ) { case BGP_AIGP_TLV : ND_TCHECK2 ( tptr [ 3 ] , 8 ) ; ND_PRINT ( ( ndo , "", metric %"" PRIu64 , EXTRACT_64BITS ( tptr + 3 ) ) ) ; break ; default : if ( ndo -> ndo_vflag <= 1 ) { print_unknown_data ( ndo , tptr + 3 , ""\\n\\t "" , length - 3 ) ; } } tptr += length ; tlen -= length ; } break ; } case BGPTYPE_ATTR_SET : ND_TCHECK2 ( tptr [ 0 ] , 4 ) ; if ( len < 4 ) goto trunc ; ND_PRINT ( ( ndo , ""\\n\\t Origin AS: %s"" , as_printf ( ndo , astostr , sizeof ( astostr ) , EXTRACT_32BITS ( tptr ) ) ) ) ; tptr += 4 ; len -= 4 ; while ( len ) { u_int aflags , alenlen , alen ; ND_TCHECK2 ( tptr [ 0 ] , 2 ) ; if ( len < 2 ) goto trunc ; aflags = * tptr ; atype = * ( tptr + 1 ) ; tptr += 2 ; len -= 2 ; alenlen = bgp_attr_lenlen ( aflags , tptr ) ; ND_TCHECK2 ( tptr [ 0 ] , alenlen ) ; if ( len < alenlen ) goto trunc ; alen = bgp_attr_len ( aflags , tptr ) ; tptr += alenlen ; len -= alenlen ; ND_PRINT ( ( ndo , ""\\n\\t %s (%u), length: %u"" , tok2str ( bgp_attr_values , ""Unknown Attribute"" , atype ) , atype , alen ) ) ; if ( aflags ) { ND_PRINT ( ( ndo , "", Flags [%s%s%s%s"" , aflags & 0x80 ? ""O"" : """" , aflags & 0x40 ? ""T"" : """" , aflags & 0x20 ? ""P"" : """" , aflags & 0x10 ? ""E"" : """" ) ) ; if ( aflags & 0xf ) ND_PRINT ( ( ndo , ""+%x"" , aflags & 0xf ) ) ; ND_PRINT ( ( ndo , ""]: "" ) ) ; } if ( ! bgp_attr_print ( ndo , atype , tptr , alen ) ) return 0 ; tptr += alen ; len -= alen ;","ND_PRINT ( ( ndo , ""\\n\\t Tunnel-type %s (%u), Flags [%s], MPLS Label %u"" , tok2str ( bgp_pmsi_tunnel_values , ""Unknown"" , tunnel_type ) , tunnel_type , bittok2str ( bgp_pmsi_flag_values , ""none"" , flags ) , EXTRACT_24BITS ( tptr + 2 ) >> 4 ) ) ; tptr += 5 ; tlen -= 5 ; switch ( tunnel_type ) { case BGP_PMSI_TUNNEL_PIM_SM : case BGP_PMSI_TUNNEL_PIM_BIDIR : ND_TCHECK2 ( tptr [ 0 ] , 8 ) ; ND_PRINT ( ( ndo , ""\\n\\t Sender %s, P-Group %s"" , ipaddr_string ( ndo , tptr ) , ipaddr_string ( ndo , tptr + 4 ) ) ) ; break ; case BGP_PMSI_TUNNEL_PIM_SSM : ND_TCHECK2 ( tptr [ 0 ] , 8 ) ; ND_PRINT ( ( ndo , ""\\n\\t Root-Node %s, P-Group %s"" , ipaddr_string ( ndo , tptr ) , ipaddr_string ( ndo , tptr + 4 ) ) ) ; break ; case BGP_PMSI_TUNNEL_INGRESS : ND_TCHECK2 ( tptr [ 0 ] , 4 ) ; ND_PRINT ( ( ndo , ""\\n\\t Tunnel-Endpoint %s"" , ipaddr_string ( ndo , tptr ) ) ) ; break ; case BGP_PMSI_TUNNEL_LDP_P2MP : case BGP_PMSI_TUNNEL_LDP_MP2MP : ND_TCHECK2 ( tptr [ 0 ] , 8 ) ; ND_PRINT ( ( ndo , ""\\n\\t Root-Node %s, LSP-ID 0x%08x"" , ipaddr_string ( ndo , tptr ) , EXTRACT_32BITS ( tptr + 4 ) ) ) ; break ; case BGP_PMSI_TUNNEL_RSVP_P2MP : ND_TCHECK2 ( tptr [ 0 ] , 8 ) ; ND_PRINT ( ( ndo , ""\\n\\t Extended-Tunnel-ID %s, P2MP-ID 0x%08x"" , ipaddr_string ( ndo , tptr ) , EXTRACT_32BITS ( tptr + 4 ) ) ) ; break ; default : if ( ndo -> ndo_vflag <= 1 ) { print_unknown_data ( ndo , tptr , ""\\n\\t "" , tlen ) ; } } break ; } case BGPTYPE_AIGP : { uint8_t type ; uint16_t length ; tlen = len ; while ( tlen >= 3 ) { ND_TCHECK2 ( tptr [ 0 ] , 3 ) ; type = * tptr ; length = EXTRACT_16BITS ( tptr + 1 ) ; tptr += 3 ; tlen -= 3 ; ND_PRINT ( ( ndo , ""\\n\\t %s TLV (%u), length %u"" , tok2str ( bgp_aigp_values , ""Unknown"" , type ) , type , length ) ) ; if ( length < 3 ) goto trunc ; length -= 3 ; ND_TCHECK2 ( tptr [ 3 ] , length ) ; switch ( type ) { case BGP_AIGP_TLV : if ( length < 8 ) goto trunc ; ND_PRINT ( ( ndo , "", metric %"" PRIu64 , EXTRACT_64BITS ( tptr ) ) ) ; break ; default : if ( ndo -> ndo_vflag <= 1 ) { print_unknown_data ( ndo , tptr , ""\\n\\t "" , length ) ; } } tptr += length ; tlen -= length ; } break ; } case BGPTYPE_ATTR_SET : ND_TCHECK2 ( tptr [ 0 ] , 4 ) ; if ( len < 4 ) goto trunc ; ND_PRINT ( ( ndo , ""\\n\\t Origin AS: %s"" , as_printf ( ndo , astostr , sizeof ( astostr ) , EXTRACT_32BITS ( tptr ) ) ) ) ; tptr += 4 ; len -= 4 ; while ( len ) { u_int aflags , alenlen , alen ; ND_TCHECK2 ( tptr [ 0 ] , 2 ) ; if ( len < 2 ) goto trunc ; aflags = * tptr ; atype = * ( tptr + 1 ) ; tptr += 2 ; len -= 2 ; alenlen = bgp_attr_lenlen ( aflags , tptr ) ; ND_TCHECK2 ( tptr [ 0 ] , alenlen ) ; if ( len < alenlen ) goto trunc ; alen = bgp_attr_len ( aflags , tptr ) ; tptr += alenlen ; len -= alenlen ; ND_PRINT ( ( ndo , ""\\n\\t %s (%u), length: %u"" , tok2str ( bgp_attr_values , ""Unknown Attribute"" , atype ) , atype , alen ) ) ; if ( aflags ) { ND_PRINT ( ( ndo , "", Flags [%s%s%s%s"" , aflags & 0x80 ? ""O"" : """" , aflags & 0x40 ? ""T"" : """" , aflags & 0x20 ? ""P"" : """" , aflags & 0x10 ? ""E"" : """" ) ) ; if ( aflags & 0xf ) ND_PRINT ( ( ndo , ""+%x"" , aflags & 0xf ) ) ; ND_PRINT ( ( ndo , ""]: "" ) ) ; } if ( ! bgp_attr_print ( ndo , atype , tptr , alen ) ) return 0 ; tptr += alen ; len -= alen ;" 83,"CWE-399 static int kvm_guest_time_update ( struct kvm_vcpu * v ) { unsigned long flags , this_tsc_khz ; struct kvm_vcpu_arch * vcpu = & v -> arch ; struct kvm_arch * ka = & v -> kvm -> arch ; void * shared_kaddr ; s64 kernel_ns , max_kernel_ns ; u64 tsc_timestamp , host_tsc ; struct pvclock_vcpu_time_info * guest_hv_clock ; u8 pvclock_flags ; bool use_master_clock ; kernel_ns = 0 ; host_tsc = 0 ; spin_lock ( & ka -> pvclock_gtod_sync_lock ) ; use_master_clock = ka -> use_master_clock ; if ( use_master_clock ) { host_tsc = ka -> master_cycle_now ; kernel_ns = ka -> master_kernel_ns ; } spin_unlock ( & ka -> pvclock_gtod_sync_lock ) ; local_irq_save ( flags ) ; this_tsc_khz = __get_cpu_var ( cpu_tsc_khz ) ; if ( unlikely ( this_tsc_khz == 0 ) ) { local_irq_restore ( flags ) ; kvm_make_request ( KVM_REQ_CLOCK_UPDATE , v ) ; return 1 ; } if ( ! use_master_clock ) { host_tsc = native_read_tsc ( ) ; kernel_ns = get_kernel_ns ( ) ; } tsc_timestamp = kvm_x86_ops -> read_l1_tsc ( v , host_tsc ) ; if ( vcpu -> tsc_catchup ) { u64 tsc = compute_guest_tsc ( v , kernel_ns ) ; if ( tsc > tsc_timestamp ) { adjust_tsc_offset_guest ( v , tsc - tsc_timestamp ) ; tsc_timestamp = tsc ; } } local_irq_restore ( flags ) ; if ( ! vcpu -> time_page ) return 0 ; max_kernel_ns = 0 ; if ( vcpu -> hv_clock . tsc_timestamp ) { max_kernel_ns = vcpu -> last_guest_tsc - vcpu -> hv_clock . tsc_timestamp ; max_kernel_ns = pvclock_scale_delta ( max_kernel_ns , vcpu -> hv_clock . tsc_to_system_mul , vcpu -> hv_clock . tsc_shift ) ; max_kernel_ns += vcpu -> last_kernel_ns ; } if ( unlikely ( vcpu -> hw_tsc_khz != this_tsc_khz ) ) { kvm_get_time_scale ( NSEC_PER_SEC / 1000 , this_tsc_khz , & vcpu -> hv_clock . tsc_shift , & vcpu -> hv_clock . tsc_to_system_mul ) ; vcpu -> hw_tsc_khz = this_tsc_khz ; } if ( ! use_master_clock ) { if ( max_kernel_ns > kernel_ns ) kernel_ns = max_kernel_ns ; } vcpu -> hv_clock . tsc_timestamp = tsc_timestamp ; vcpu -> hv_clock . system_time = kernel_ns + v -> kvm -> arch . kvmclock_offset ; vcpu -> last_kernel_ns = kernel_ns ; vcpu -> last_guest_tsc = tsc_timestamp ; vcpu -> hv_clock . version += 2 ; shared_kaddr = kmap_atomic ( vcpu -> time_page ) ; guest_hv_clock = shared_kaddr + vcpu -> time_offset ; pvclock_flags = ( guest_hv_clock -> flags & PVCLOCK_GUEST_STOPPED ) ; if ( vcpu -> pvclock_set_guest_stopped_request ) { pvclock_flags |= PVCLOCK_GUEST_STOPPED ; vcpu -> pvclock_set_guest_stopped_request = false ; } if ( use_master_clock ) pvclock_flags |= PVCLOCK_TSC_STABLE_BIT ; vcpu -> hv_clock . flags = pvclock_flags ; memcpy ( shared_kaddr + vcpu -> time_offset , & vcpu -> hv_clock , sizeof ( vcpu -> hv_clock ) ) ; kunmap_atomic ( shared_kaddr ) ; mark_page_dirty ( v -> kvm , vcpu -> time >> PAGE_SHIFT ) ; return 0 ; }","static int kvm_guest_time_update ( struct kvm_vcpu * v ) { unsigned long flags , this_tsc_khz ; struct kvm_vcpu_arch * vcpu = & v -> arch ; struct kvm_arch * ka = & v -> kvm -> arch ; s64 kernel_ns , max_kernel_ns ; u64 tsc_timestamp , host_tsc ; struct pvclock_vcpu_time_info guest_hv_clock ; u8 pvclock_flags ; bool use_master_clock ; kernel_ns = 0 ; host_tsc = 0 ; spin_lock ( & ka -> pvclock_gtod_sync_lock ) ; use_master_clock = ka -> use_master_clock ; if ( use_master_clock ) { host_tsc = ka -> master_cycle_now ; kernel_ns = ka -> master_kernel_ns ; } spin_unlock ( & ka -> pvclock_gtod_sync_lock ) ; local_irq_save ( flags ) ; this_tsc_khz = __get_cpu_var ( cpu_tsc_khz ) ; if ( unlikely ( this_tsc_khz == 0 ) ) { local_irq_restore ( flags ) ; kvm_make_request ( KVM_REQ_CLOCK_UPDATE , v ) ; return 1 ; } if ( ! use_master_clock ) { host_tsc = native_read_tsc ( ) ; kernel_ns = get_kernel_ns ( ) ; } tsc_timestamp = kvm_x86_ops -> read_l1_tsc ( v , host_tsc ) ; if ( vcpu -> tsc_catchup ) { u64 tsc = compute_guest_tsc ( v , kernel_ns ) ; if ( tsc > tsc_timestamp ) { adjust_tsc_offset_guest ( v , tsc - tsc_timestamp ) ; tsc_timestamp = tsc ; } } local_irq_restore ( flags ) ; if ( ! vcpu -> pv_time_enabled ) return 0 ; max_kernel_ns = 0 ; if ( vcpu -> hv_clock . tsc_timestamp ) { max_kernel_ns = vcpu -> last_guest_tsc - vcpu -> hv_clock . tsc_timestamp ; max_kernel_ns = pvclock_scale_delta ( max_kernel_ns , vcpu -> hv_clock . tsc_to_system_mul , vcpu -> hv_clock . tsc_shift ) ; max_kernel_ns += vcpu -> last_kernel_ns ; } if ( unlikely ( vcpu -> hw_tsc_khz != this_tsc_khz ) ) { kvm_get_time_scale ( NSEC_PER_SEC / 1000 , this_tsc_khz , & vcpu -> hv_clock . tsc_shift , & vcpu -> hv_clock . tsc_to_system_mul ) ; vcpu -> hw_tsc_khz = this_tsc_khz ; } if ( ! use_master_clock ) { if ( max_kernel_ns > kernel_ns ) kernel_ns = max_kernel_ns ; } vcpu -> hv_clock . tsc_timestamp = tsc_timestamp ; vcpu -> hv_clock . system_time = kernel_ns + v -> kvm -> arch . kvmclock_offset ; vcpu -> last_kernel_ns = kernel_ns ; vcpu -> last_guest_tsc = tsc_timestamp ; vcpu -> hv_clock . version += 2 ; if ( unlikely ( kvm_read_guest_cached ( v -> kvm , & vcpu -> pv_time , & guest_hv_clock , sizeof ( guest_hv_clock ) ) ) ) return 0 ; pvclock_flags = ( guest_hv_clock . flags & PVCLOCK_GUEST_STOPPED ) ; if ( vcpu -> pvclock_set_guest_stopped_request ) { pvclock_flags |= PVCLOCK_GUEST_STOPPED ; vcpu -> pvclock_set_guest_stopped_request = false ; } if ( use_master_clock ) pvclock_flags |= PVCLOCK_TSC_STABLE_BIT ; vcpu -> hv_clock . flags = pvclock_flags ; kvm_write_guest_cached ( v -> kvm , & vcpu -> pv_time , & vcpu -> hv_clock , sizeof ( vcpu -> hv_clock ) ) ; return 0 ; }" 84,"CWE-119 void vp9_tokens_from_tree ( struct vp9_token * tokens , const vp9_tree_index * tree ) { tree2tok ( tokens , tree , 0 , 0 , 0 ) ; }","void vp9_tokens_from_tree ( struct vp9_token * tokens , const vpx_tree_index * tree ) { tree2tok ( tokens , tree , 0 , 0 , 0 ) ; }" 85,"CWE-476 static int add_push_report_sideband_pkt ( git_push * push , git_pkt_data * data_pkt , git_buf * data_pkt_buf ) { git_pkt * pkt ; const char * line , * line_end = NULL ; size_t line_len ; int error ; int reading_from_buf = data_pkt_buf -> size > 0 ; if ( reading_from_buf ) { git_buf_put ( data_pkt_buf , data_pkt -> data , data_pkt -> len ) ; line = data_pkt_buf -> ptr ; line_len = data_pkt_buf -> size ; } else { line = data_pkt -> data ; line_len = data_pkt -> len ; } while ( line_len > 0 ) { error = git_pkt_parse_line ( & pkt , line , & line_end , line_len ) ; if ( error == GIT_EBUFS ) { if ( ! reading_from_buf ) git_buf_put ( data_pkt_buf , line , line_len ) ; error = 0 ; goto done ; } else if ( error < 0 ) goto done ; line_len -= ( line_end - line ) ; line = line_end ; if ( pkt == NULL ) continue ; error = add_push_report_pkt ( push , pkt ) ; git_pkt_free ( pkt ) ; if ( error < 0 && error != GIT_ITEROVER ) goto done ; } error = 0 ; done : if ( reading_from_buf ) git_buf_consume ( data_pkt_buf , line_end ) ; return error ; }","static int add_push_report_sideband_pkt ( git_push * push , git_pkt_data * data_pkt , git_buf * data_pkt_buf ) { git_pkt * pkt ; const char * line , * line_end = NULL ; size_t line_len ; int error ; int reading_from_buf = data_pkt_buf -> size > 0 ; if ( reading_from_buf ) { git_buf_put ( data_pkt_buf , data_pkt -> data , data_pkt -> len ) ; line = data_pkt_buf -> ptr ; line_len = data_pkt_buf -> size ; } else { line = data_pkt -> data ; line_len = data_pkt -> len ; } while ( line_len > 0 ) { error = git_pkt_parse_line ( & pkt , line , & line_end , line_len ) ; if ( error == GIT_EBUFS ) { if ( ! reading_from_buf ) git_buf_put ( data_pkt_buf , line , line_len ) ; error = 0 ; goto done ; } else if ( error < 0 ) goto done ; line_len -= ( line_end - line ) ; line = line_end ; error = add_push_report_pkt ( push , pkt ) ; git_pkt_free ( pkt ) ; if ( error < 0 && error != GIT_ITEROVER ) goto done ; } error = 0 ; done : if ( reading_from_buf ) git_buf_consume ( data_pkt_buf , line_end ) ; return error ; }" 86,"CWE-119 static int logi_dj_raw_event ( struct hid_device * hdev , struct hid_report * report , u8 * data , int size ) { struct dj_receiver_dev * djrcv_dev = hid_get_drvdata ( hdev ) ; struct dj_report * dj_report = ( struct dj_report * ) data ; unsigned long flags ; bool report_processed = false ; dbg_hid ( ""%s, size:%d\\n"" , __func__ , size ) ; spin_lock_irqsave ( & djrcv_dev -> lock , flags ) ; if ( dj_report -> report_id == REPORT_ID_DJ_SHORT ) { switch ( dj_report -> report_type ) { case REPORT_TYPE_NOTIF_DEVICE_PAIRED : case REPORT_TYPE_NOTIF_DEVICE_UNPAIRED : logi_dj_recv_queue_notification ( djrcv_dev , dj_report ) ; break ; case REPORT_TYPE_NOTIF_CONNECTION_STATUS : if ( dj_report -> report_params [ CONNECTION_STATUS_PARAM_STATUS ] == STATUS_LINKLOSS ) { logi_dj_recv_forward_null_report ( djrcv_dev , dj_report ) ; } break ; default : logi_dj_recv_forward_report ( djrcv_dev , dj_report ) ; } report_processed = true ; } spin_unlock_irqrestore ( & djrcv_dev -> lock , flags ) ; return report_processed ; }","static int logi_dj_raw_event ( struct hid_device * hdev , struct hid_report * report , u8 * data , int size ) { struct dj_receiver_dev * djrcv_dev = hid_get_drvdata ( hdev ) ; struct dj_report * dj_report = ( struct dj_report * ) data ; unsigned long flags ; bool report_processed = false ; dbg_hid ( ""%s, size:%d\\n"" , __func__ , size ) ; if ( ( dj_report -> device_index < DJ_DEVICE_INDEX_MIN ) || ( dj_report -> device_index > DJ_DEVICE_INDEX_MAX ) ) { dev_err ( & hdev -> dev , ""%s: invalid device index:%d\\n"" , __func__ , dj_report -> device_index ) ; return false ; } spin_lock_irqsave ( & djrcv_dev -> lock , flags ) ; if ( dj_report -> report_id == REPORT_ID_DJ_SHORT ) { switch ( dj_report -> report_type ) { case REPORT_TYPE_NOTIF_DEVICE_PAIRED : case REPORT_TYPE_NOTIF_DEVICE_UNPAIRED : logi_dj_recv_queue_notification ( djrcv_dev , dj_report ) ; break ; case REPORT_TYPE_NOTIF_CONNECTION_STATUS : if ( dj_report -> report_params [ CONNECTION_STATUS_PARAM_STATUS ] == STATUS_LINKLOSS ) { logi_dj_recv_forward_null_report ( djrcv_dev , dj_report ) ; } break ; default : logi_dj_recv_forward_report ( djrcv_dev , dj_report ) ; } report_processed = true ; } spin_unlock_irqrestore ( & djrcv_dev -> lock , flags ) ; return report_processed ; }" 87,"CWE-787 ""No support for OJPEG image %s with no JPEG File Interchange offset"" , TIFFFileName ( input ) ) ; t2p -> t2p_error = T2P_ERR_ERROR ; return ( 0 ) ; # endif } } # endif # ifdef JPEG_SUPPORT if ( t2p -> tiff_compression == COMPRESSION_JPEG ) { uint32 count = 0 ; buffer = ( unsigned char * ) _TIFFmalloc ( t2p -> tiff_datasize ) ; if ( buffer == NULL ) { TIFFError ( TIFF2PDF_MODULE , ""Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image, %s"" , ( unsigned long ) t2p -> tiff_datasize , TIFFFileName ( input ) ) ; t2p -> t2p_error = T2P_ERR_ERROR ; return ( 0 ) ; } memset ( buffer , 0 , t2p -> tiff_datasize ) ; if ( TIFFGetField ( input , TIFFTAG_JPEGTABLES , & count , & jpt ) != 0 ) { if ( count > 4 ) { _TIFFmemcpy ( buffer , jpt , count ) ; bufferoffset += count - 2 ; } } stripcount = TIFFNumberOfStrips ( input ) ; TIFFGetField ( input , TIFFTAG_STRIPBYTECOUNTS , & sbc ) ; for ( i = 0 ; i < stripcount ; i ++ ) { if ( sbc [ i ] > max_striplength ) max_striplength = sbc [ i ] ; } stripbuffer = ( unsigned char * ) _TIFFmalloc ( max_striplength ) ; if ( stripbuffer == NULL ) { TIFFError ( TIFF2PDF_MODULE , ""Can\'t allocate %u bytes of memory for t2p_readwrite_pdf_image, %s"" , max_striplength , TIFFFileName ( input ) ) ; _TIFFfree ( buffer ) ; t2p -> t2p_error = T2P_ERR_ERROR ; return ( 0 ) ; } for ( i = 0 ; i < stripcount ; i ++ ) { striplength = TIFFReadRawStrip ( input , i , ( tdata_t ) stripbuffer , - 1 ) ; if ( ! t2p_process_jpeg_strip ( stripbuffer , & striplength , buffer , & bufferoffset , i , t2p -> tiff_length ) ) { TIFFError ( TIFF2PDF_MODULE , ""Can\'t process JPEG data in input file %s"" , TIFFFileName ( input ) ) ; _TIFFfree ( samplebuffer ) ; _TIFFfree ( buffer ) ; t2p -> t2p_error = T2P_ERR_ERROR ; return ( 0 ) ; } } buffer [ bufferoffset ++ ] = 0xff ; buffer [ bufferoffset ++ ] = 0xd9 ; t2pWriteFile ( output , ( tdata_t ) buffer , bufferoffset ) ; _TIFFfree ( stripbuffer ) ; _TIFFfree ( buffer ) ; return ( bufferoffset ) ; } # endif ( void ) 0 ; } if ( t2p -> pdf_sample == T2P_SAMPLE_NOTHING ) { buffer = ( unsigned char * ) _TIFFmalloc ( t2p -> tiff_datasize ) ; if ( buffer == NULL ) { TIFFError ( TIFF2PDF_MODULE , ""Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image, %s"" , ( unsigned long ) t2p -> tiff_datasize , TIFFFileName ( input ) ) ; t2p -> t2p_error = T2P_ERR_ERROR ; return ( 0 ) ; } memset ( buffer , 0 , t2p -> tiff_datasize ) ; stripsize = TIFFStripSize ( input ) ; stripcount = TIFFNumberOfStrips ( input ) ; for ( i = 0 ; i < stripcount ; i ++ ) { read = TIFFReadEncodedStrip ( input , i , ( tdata_t ) & buffer [ bufferoffset ] , TIFFmin ( stripsize , t2p -> tiff_datasize - bufferoffset ) ) ; if ( read == - 1 ) { TIFFError ( TIFF2PDF_MODULE , ""Error on decoding strip %u of %s"" , i , TIFFFileName ( input ) ) ; _TIFFfree ( buffer ) ; t2p -> t2p_error = T2P_ERR_ERROR ; return ( 0 ) ; }","""No support for OJPEG image %s with no JPEG File Interchange offset"" , TIFFFileName ( input ) ) ; t2p -> t2p_error = T2P_ERR_ERROR ; return ( 0 ) ; # endif } } # endif # ifdef JPEG_SUPPORT if ( t2p -> tiff_compression == COMPRESSION_JPEG ) { uint32 count = 0 ; buffer = ( unsigned char * ) _TIFFmalloc ( t2p -> tiff_datasize ) ; if ( buffer == NULL ) { TIFFError ( TIFF2PDF_MODULE , ""Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image, %s"" , ( unsigned long ) t2p -> tiff_datasize , TIFFFileName ( input ) ) ; t2p -> t2p_error = T2P_ERR_ERROR ; return ( 0 ) ; } memset ( buffer , 0 , t2p -> tiff_datasize ) ; if ( TIFFGetField ( input , TIFFTAG_JPEGTABLES , & count , & jpt ) != 0 ) { if ( count > 4 ) { _TIFFmemcpy ( buffer , jpt , count ) ; bufferoffset += count - 2 ; } } stripcount = TIFFNumberOfStrips ( input ) ; TIFFGetField ( input , TIFFTAG_STRIPBYTECOUNTS , & sbc ) ; for ( i = 0 ; i < stripcount ; i ++ ) { if ( sbc [ i ] > max_striplength ) max_striplength = sbc [ i ] ; } stripbuffer = ( unsigned char * ) _TIFFmalloc ( max_striplength ) ; if ( stripbuffer == NULL ) { TIFFError ( TIFF2PDF_MODULE , ""Can\'t allocate %u bytes of memory for t2p_readwrite_pdf_image, %s"" , max_striplength , TIFFFileName ( input ) ) ; _TIFFfree ( buffer ) ; t2p -> t2p_error = T2P_ERR_ERROR ; return ( 0 ) ; } for ( i = 0 ; i < stripcount ; i ++ ) { striplength = TIFFReadRawStrip ( input , i , ( tdata_t ) stripbuffer , - 1 ) ; if ( ! t2p_process_jpeg_strip ( stripbuffer , & striplength , buffer , t2p -> tiff_datasize , & bufferoffset , i , t2p -> tiff_length ) ) { TIFFError ( TIFF2PDF_MODULE , ""Can\'t process JPEG data in input file %s"" , TIFFFileName ( input ) ) ; _TIFFfree ( samplebuffer ) ; _TIFFfree ( buffer ) ; t2p -> t2p_error = T2P_ERR_ERROR ; return ( 0 ) ; } } buffer [ bufferoffset ++ ] = 0xff ; buffer [ bufferoffset ++ ] = 0xd9 ; t2pWriteFile ( output , ( tdata_t ) buffer , bufferoffset ) ; _TIFFfree ( stripbuffer ) ; _TIFFfree ( buffer ) ; return ( bufferoffset ) ; } # endif ( void ) 0 ; } if ( t2p -> pdf_sample == T2P_SAMPLE_NOTHING ) { buffer = ( unsigned char * ) _TIFFmalloc ( t2p -> tiff_datasize ) ; if ( buffer == NULL ) { TIFFError ( TIFF2PDF_MODULE , ""Can\'t allocate %lu bytes of memory for t2p_readwrite_pdf_image, %s"" , ( unsigned long ) t2p -> tiff_datasize , TIFFFileName ( input ) ) ; t2p -> t2p_error = T2P_ERR_ERROR ; return ( 0 ) ; } memset ( buffer , 0 , t2p -> tiff_datasize ) ; stripsize = TIFFStripSize ( input ) ; stripcount = TIFFNumberOfStrips ( input ) ; for ( i = 0 ; i < stripcount ; i ++ ) { read = TIFFReadEncodedStrip ( input , i , ( tdata_t ) & buffer [ bufferoffset ] , TIFFmin ( stripsize , t2p -> tiff_datasize - bufferoffset ) ) ; if ( read == - 1 ) { TIFFError ( TIFF2PDF_MODULE , ""Error on decoding strip %u of %s"" , i , TIFFFileName ( input ) ) ; _TIFFfree ( buffer ) ; t2p -> t2p_error = T2P_ERR_ERROR ; return ( 0 ) ; }" 88,"CWE-190 hfs_btree_node * node_desc ; if ( cur_node > tsk_getu32 ( fs -> endian , hfs -> catalog_header . totalNodes ) ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: Node %d too large for file"" , cur_node ) ; free ( node ) ; return 1 ; } cur_off = cur_node * nodesize ; cnt = tsk_fs_attr_read ( hfs -> catalog_attr , cur_off , node , nodesize , 0 ) ; if ( cnt != nodesize ) { if ( cnt >= 0 ) { tsk_error_reset ( ) ; tsk_error_set_errno ( TSK_ERR_FS_READ ) ; } tsk_error_set_errstr2 ( ""hfs_cat_traverse: Error reading node %d at offset %"" PRIuOFF , cur_node , cur_off ) ; free ( node ) ; return 1 ; } if ( nodesize < sizeof ( hfs_btree_node ) ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: Node size %d is too small to be valid"" , nodesize ) ; free ( node ) ; return 1 ; } node_desc = ( hfs_btree_node * ) node ; num_rec = tsk_getu16 ( fs -> endian , node_desc -> num_rec ) ; if ( tsk_verbose ) tsk_fprintf ( stderr , ""hfs_cat_traverse: node %"" PRIu32 "" @ %"" PRIu64 "" has %"" PRIu16 "" records\\n"" , cur_node , cur_off , num_rec ) ; if ( num_rec == 0 ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: zero records in node %"" PRIu32 , cur_node ) ; free ( node ) ; return 1 ; } if ( node_desc -> type == HFS_BT_NODE_TYPE_IDX ) { uint32_t next_node = 0 ; int rec ; for ( rec = 0 ; rec < num_rec ; ++ rec ) { size_t rec_off ; hfs_btree_key_cat * key ; uint8_t retval ; uint16_t keylen ; rec_off = tsk_getu16 ( fs -> endian , & node [ nodesize - ( rec + 1 ) * 2 ] ) ; if ( rec_off > nodesize ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: offset of record %d in index node %d too large (%d vs %"" PRIu16 "")"" , rec , cur_node , ( int ) rec_off , nodesize ) ; free ( node ) ; return 1 ; } key = ( hfs_btree_key_cat * ) & node [ rec_off ] ; keylen = 2 + tsk_getu16 ( hfs -> fs_info . endian , key -> key_len ) ; if ( ( keylen ) > nodesize ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: length of key %d in index node %d too large (%d vs %"" PRIu16 "")"" , rec , cur_node , keylen , nodesize ) ; free ( node ) ; return 1 ; } retval = a_cb ( hfs , HFS_BT_NODE_TYPE_IDX , key , cur_off + rec_off , ptr ) ; if ( retval == HFS_BTREE_CB_ERR ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr2 ( ""hfs_cat_traverse: Callback returned error"" ) ; free ( node ) ; return 1 ; } else if ( ( retval == HFS_BTREE_CB_IDX_LT ) || ( next_node == 0 ) ) { hfs_btree_index_record * idx_rec ; int keylen = 2 + hfs_get_idxkeylen ( hfs , tsk_getu16 ( fs -> endian , key -> key_len ) , & ( hfs -> catalog_header ) ) ; if ( rec_off + keylen > nodesize ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: offset of record and keylength %d in index node %d too large (%d vs %"" PRIu16 "")"" , rec , cur_node , ( int ) rec_off + keylen , nodesize ) ; free ( node ) ; return 1 ; } idx_rec = ( hfs_btree_index_record * ) & node [ rec_off + keylen ] ; next_node = tsk_getu32 ( fs -> endian , idx_rec -> childNode ) ; } if ( retval == HFS_BTREE_CB_IDX_EQGT ) { break ; } } if ( next_node == 0 ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: did not find any keys in index node %d"" , cur_node ) ; is_done = 1 ; break ; } if ( next_node == cur_node ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: node %d references itself as next node"" , cur_node ) ; is_done = 1 ; break ; } cur_node = next_node ; } else if ( node_desc -> type == HFS_BT_NODE_TYPE_LEAF ) { int rec ; for ( rec = 0 ; rec < num_rec ; ++ rec ) { size_t rec_off ; hfs_btree_key_cat * key ; uint8_t retval ; uint16_t keylen ; rec_off = tsk_getu16 ( fs -> endian , & node [ nodesize - ( rec + 1 ) * 2 ] ) ; if ( rec_off > nodesize ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: offset of record %d in leaf node %d too large (%d vs %"" PRIu16 "")"" , rec , cur_node , ( int ) rec_off , nodesize ) ; free ( node ) ; return 1 ; } key = ( hfs_btree_key_cat * ) & node [ rec_off ] ; keylen = 2 + tsk_getu16 ( hfs -> fs_info . endian , key -> key_len ) ; if ( ( keylen ) > nodesize ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: length of key %d in leaf node %d too large (%d vs %"" PRIu16 "")"" , rec , cur_node , keylen , nodesize ) ; free ( node ) ; return 1 ; } retval = a_cb ( hfs , HFS_BT_NODE_TYPE_LEAF , key , cur_off + rec_off , ptr ) ; if ( retval == HFS_BTREE_CB_LEAF_STOP ) { is_done = 1 ; break ; } else if ( retval == HFS_BTREE_CB_ERR ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr2 ( ""hfs_cat_traverse: Callback returned error"" ) ; free ( node ) ; return 1 ; } } if ( is_done == 0 ) { cur_node = tsk_getu32 ( fs -> endian , node_desc -> flink ) ; if ( cur_node == 0 ) { is_done = 1 ; } if ( tsk_verbose ) tsk_fprintf ( stderr , ""hfs_cat_traverse: moving forward to next leaf"" ) ; } } else { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: btree node %"" PRIu32","hfs_btree_node * node_desc ; if ( cur_node > tsk_getu32 ( fs -> endian , hfs -> catalog_header . totalNodes ) ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: Node %d too large for file"" , cur_node ) ; free ( node ) ; return 1 ; } cur_off = cur_node * nodesize ; cnt = tsk_fs_attr_read ( hfs -> catalog_attr , cur_off , node , nodesize , 0 ) ; if ( cnt != nodesize ) { if ( cnt >= 0 ) { tsk_error_reset ( ) ; tsk_error_set_errno ( TSK_ERR_FS_READ ) ; } tsk_error_set_errstr2 ( ""hfs_cat_traverse: Error reading node %d at offset %"" PRIuOFF , cur_node , cur_off ) ; free ( node ) ; return 1 ; } if ( nodesize < sizeof ( hfs_btree_node ) ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: Node size %d is too small to be valid"" , nodesize ) ; free ( node ) ; return 1 ; } node_desc = ( hfs_btree_node * ) node ; num_rec = tsk_getu16 ( fs -> endian , node_desc -> num_rec ) ; if ( tsk_verbose ) tsk_fprintf ( stderr , ""hfs_cat_traverse: node %"" PRIu32 "" @ %"" PRIu64 "" has %"" PRIu16 "" records\\n"" , cur_node , cur_off , num_rec ) ; if ( num_rec == 0 ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: zero records in node %"" PRIu32 , cur_node ) ; free ( node ) ; return 1 ; } if ( node_desc -> type == HFS_BT_NODE_TYPE_IDX ) { uint32_t next_node = 0 ; int rec ; for ( rec = 0 ; rec < num_rec ; ++ rec ) { size_t rec_off ; hfs_btree_key_cat * key ; uint8_t retval ; int keylen ; rec_off = tsk_getu16 ( fs -> endian , & node [ nodesize - ( rec + 1 ) * 2 ] ) ; if ( rec_off > nodesize ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: offset of record %d in index node %d too large (%d vs %"" PRIu16 "")"" , rec , cur_node , ( int ) rec_off , nodesize ) ; free ( node ) ; return 1 ; } key = ( hfs_btree_key_cat * ) & node [ rec_off ] ; keylen = 2 + tsk_getu16 ( hfs -> fs_info . endian , key -> key_len ) ; if ( ( keylen ) > nodesize ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: length of key %d in index node %d too large (%d vs %"" PRIu16 "")"" , rec , cur_node , keylen , nodesize ) ; free ( node ) ; return 1 ; } retval = a_cb ( hfs , HFS_BT_NODE_TYPE_IDX , key , cur_off + rec_off , ptr ) ; if ( retval == HFS_BTREE_CB_ERR ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr2 ( ""hfs_cat_traverse: Callback returned error"" ) ; free ( node ) ; return 1 ; } else if ( ( retval == HFS_BTREE_CB_IDX_LT ) || ( next_node == 0 ) ) { hfs_btree_index_record * idx_rec ; int keylen = 2 + hfs_get_idxkeylen ( hfs , tsk_getu16 ( fs -> endian , key -> key_len ) , & ( hfs -> catalog_header ) ) ; if ( rec_off + keylen > nodesize ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: offset of record and keylength %d in index node %d too large (%d vs %"" PRIu16 "")"" , rec , cur_node , ( int ) rec_off + keylen , nodesize ) ; free ( node ) ; return 1 ; } idx_rec = ( hfs_btree_index_record * ) & node [ rec_off + keylen ] ; next_node = tsk_getu32 ( fs -> endian , idx_rec -> childNode ) ; } if ( retval == HFS_BTREE_CB_IDX_EQGT ) { break ; } } if ( next_node == 0 ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: did not find any keys in index node %d"" , cur_node ) ; is_done = 1 ; break ; } if ( next_node == cur_node ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: node %d references itself as next node"" , cur_node ) ; is_done = 1 ; break ; } cur_node = next_node ; } else if ( node_desc -> type == HFS_BT_NODE_TYPE_LEAF ) { int rec ; for ( rec = 0 ; rec < num_rec ; ++ rec ) { size_t rec_off ; hfs_btree_key_cat * key ; uint8_t retval ; int keylen ; rec_off = tsk_getu16 ( fs -> endian , & node [ nodesize - ( rec + 1 ) * 2 ] ) ; if ( rec_off > nodesize ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: offset of record %d in leaf node %d too large (%d vs %"" PRIu16 "")"" , rec , cur_node , ( int ) rec_off , nodesize ) ; free ( node ) ; return 1 ; } key = ( hfs_btree_key_cat * ) & node [ rec_off ] ; keylen = 2 + tsk_getu16 ( hfs -> fs_info . endian , key -> key_len ) ; if ( ( keylen ) > nodesize ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: length of key %d in leaf node %d too large (%d vs %"" PRIu16 "")"" , rec , cur_node , keylen , nodesize ) ; free ( node ) ; return 1 ; } retval = a_cb ( hfs , HFS_BT_NODE_TYPE_LEAF , key , cur_off + rec_off , ptr ) ; if ( retval == HFS_BTREE_CB_LEAF_STOP ) { is_done = 1 ; break ; } else if ( retval == HFS_BTREE_CB_ERR ) { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr2 ( ""hfs_cat_traverse: Callback returned error"" ) ; free ( node ) ; return 1 ; } } if ( is_done == 0 ) { cur_node = tsk_getu32 ( fs -> endian , node_desc -> flink ) ; if ( cur_node == 0 ) { is_done = 1 ; } if ( tsk_verbose ) tsk_fprintf ( stderr , ""hfs_cat_traverse: moving forward to next leaf"" ) ; } } else { tsk_error_set_errno ( TSK_ERR_FS_GENFS ) ; tsk_error_set_errstr ( ""hfs_cat_traverse: btree node %"" PRIu32" 89,"CWE-119 static void validate_stream_config ( const struct stream_state * stream , const struct VpxEncoderConfig * global ) { const struct stream_state * streami ; if ( ! stream -> config . cfg . g_w || ! stream -> config . cfg . g_h ) fatal ( ""Stream %d: Specify stream dimensions with --width (-w) "" "" and --height (-h)"" , stream -> index ) ; if ( stream -> config . cfg . g_profile != 0 && ! global -> experimental_bitstream ) { fatal ( ""Stream %d: profile %d is experimental and requires the --%s flag"" , stream -> index , stream -> config . cfg . g_profile , experimental_bitstream . long_name ) ; } for ( streami = stream ; streami ; streami = streami -> next ) { if ( ! streami -> config . out_fn ) fatal ( ""Stream %d: Output file is required (specify with -o)"" , streami -> index ) ; if ( streami != stream ) { const char * a = stream -> config . out_fn ; const char * b = streami -> config . out_fn ; if ( ! strcmp ( a , b ) && strcmp ( a , ""/dev/null"" ) && strcmp ( a , "":nul"" ) ) fatal ( ""Stream %d: duplicate output file (from stream %d)"" , streami -> index , stream -> index ) ; } if ( streami != stream ) { const char * a = stream -> config . stats_fn ; const char * b = streami -> config . stats_fn ; if ( a && b && ! strcmp ( a , b ) ) fatal ( ""Stream %d: duplicate stats file (from stream %d)"" , streami -> index , stream -> index ) ; } } }","static void validate_stream_config ( const struct stream_state * stream , const struct VpxEncoderConfig * global ) { const struct stream_state * streami ; ( void ) global ; if ( ! stream -> config . cfg . g_w || ! stream -> config . cfg . g_h ) fatal ( ""Stream %d: Specify stream dimensions with --width (-w) "" "" and --height (-h)"" , stream -> index ) ; if ( stream -> config . cfg . g_input_bit_depth > ( unsigned int ) stream -> config . cfg . g_bit_depth ) { fatal ( ""Stream %d: codec bit depth (%d) less than input bit depth (%d)"" , stream -> index , ( int ) stream -> config . cfg . g_bit_depth , stream -> config . cfg . g_input_bit_depth ) ; } for ( streami = stream ; streami ; streami = streami -> next ) { if ( ! streami -> config . out_fn ) fatal ( ""Stream %d: Output file is required (specify with -o)"" , streami -> index ) ; if ( streami != stream ) { const char * a = stream -> config . out_fn ; const char * b = streami -> config . out_fn ; if ( ! strcmp ( a , b ) && strcmp ( a , ""/dev/null"" ) && strcmp ( a , "":nul"" ) ) fatal ( ""Stream %d: duplicate output file (from stream %d)"" , streami -> index , stream -> index ) ; } if ( streami != stream ) { const char * a = stream -> config . stats_fn ; const char * b = streami -> config . stats_fn ; if ( a && b && ! strcmp ( a , b ) ) fatal ( ""Stream %d: duplicate stats file (from stream %d)"" , streami -> index , stream -> index ) ; } # if CONFIG_FP_MB_STATS if ( streami != stream ) { const char * a = stream -> config . fpmb_stats_fn ; const char * b = streami -> config . fpmb_stats_fn ; if ( a && b && ! strcmp ( a , b ) ) fatal ( ""Stream %d: duplicate mb stats file (from stream %d)"" , streami -> index , stream -> index ) ; } # endif } }" 90,"CWE-119 static int check_entry_size_and_hooks ( struct ipt_entry * e , struct xt_table_info * newinfo , const unsigned char * base , const unsigned char * limit , const unsigned int * hook_entries , const unsigned int * underflows , unsigned int valid_hooks ) { unsigned int h ; int err ; if ( ( unsigned long ) e % __alignof__ ( struct ipt_entry ) != 0 || ( unsigned char * ) e + sizeof ( struct ipt_entry ) >= limit ) { duprintf ( ""Bad offset %p\\n"" , e ) ; return - EINVAL ; } if ( e -> next_offset < sizeof ( struct ipt_entry ) + sizeof ( struct xt_entry_target ) ) { duprintf ( ""checking: element %p size %u\\n"" , e , e -> next_offset ) ; return - EINVAL ; } err = check_entry ( e ) ; if ( err ) return err ; for ( h = 0 ; h < NF_INET_NUMHOOKS ; h ++ ) { if ( ! ( valid_hooks & ( 1 << h ) ) ) continue ; if ( ( unsigned char * ) e - base == hook_entries [ h ] ) newinfo -> hook_entry [ h ] = hook_entries [ h ] ; if ( ( unsigned char * ) e - base == underflows [ h ] ) { if ( ! check_underflow ( e ) ) { pr_err ( ""Underflows must be unconditional and "" ""use the STANDARD target with "" ""ACCEPT/DROP\\n"" ) ; return - EINVAL ; } newinfo -> underflow [ h ] = underflows [ h ] ; } } e -> counters = ( ( struct xt_counters ) { 0 , 0 } ) ; e -> comefrom = 0 ; return 0 ; }","static int check_entry_size_and_hooks ( struct ipt_entry * e , struct xt_table_info * newinfo , const unsigned char * base , const unsigned char * limit , const unsigned int * hook_entries , const unsigned int * underflows , unsigned int valid_hooks ) { unsigned int h ; int err ; if ( ( unsigned long ) e % __alignof__ ( struct ipt_entry ) != 0 || ( unsigned char * ) e + sizeof ( struct ipt_entry ) >= limit || ( unsigned char * ) e + e -> next_offset > limit ) { duprintf ( ""Bad offset %p\\n"" , e ) ; return - EINVAL ; } if ( e -> next_offset < sizeof ( struct ipt_entry ) + sizeof ( struct xt_entry_target ) ) { duprintf ( ""checking: element %p size %u\\n"" , e , e -> next_offset ) ; return - EINVAL ; } err = check_entry ( e ) ; if ( err ) return err ; for ( h = 0 ; h < NF_INET_NUMHOOKS ; h ++ ) { if ( ! ( valid_hooks & ( 1 << h ) ) ) continue ; if ( ( unsigned char * ) e - base == hook_entries [ h ] ) newinfo -> hook_entry [ h ] = hook_entries [ h ] ; if ( ( unsigned char * ) e - base == underflows [ h ] ) { if ( ! check_underflow ( e ) ) { pr_err ( ""Underflows must be unconditional and "" ""use the STANDARD target with "" ""ACCEPT/DROP\\n"" ) ; return - EINVAL ; } newinfo -> underflow [ h ] = underflows [ h ] ; } } e -> counters = ( ( struct xt_counters ) { 0 , 0 } ) ; e -> comefrom = 0 ; return 0 ; }" 91,"CWE-476 static ScreenCell * realloc_buffer ( VTermScreen * screen , ScreenCell * buffer , int new_rows , int new_cols ) { ScreenCell * new_buffer = vterm_allocator_malloc ( screen -> vt , sizeof ( ScreenCell ) * new_rows * new_cols ) ; int row , col ; for ( row = 0 ; row < new_rows ; row ++ ) { for ( col = 0 ; col < new_cols ; col ++ ) { ScreenCell * new_cell = new_buffer + row * new_cols + col ; if ( buffer && row < screen -> rows && col < screen -> cols ) * new_cell = buffer [ row * screen -> cols + col ] ; else { new_cell -> chars [ 0 ] = 0 ; new_cell -> pen = screen -> pen ; } } } if ( buffer ) vterm_allocator_free ( screen -> vt , buffer ) ; return new_buffer ; }","static ScreenCell * realloc_buffer ( VTermScreen * screen , ScreenCell * buffer , int new_rows , int new_cols ) { ScreenCell * new_buffer = vterm_allocator_malloc ( screen -> vt , sizeof ( ScreenCell ) * new_rows * new_cols ) ; int row , col ; for ( row = 0 ; row < new_rows ; row ++ ) { for ( col = 0 ; col < new_cols ; col ++ ) { ScreenCell * new_cell = new_buffer + row * new_cols + col ; if ( buffer && row < screen -> rows && col < screen -> cols ) * new_cell = buffer [ row * screen -> cols + col ] ; else { new_cell -> chars [ 0 ] = 0 ; new_cell -> pen = screen -> pen ; } } } vterm_allocator_free ( screen -> vt , buffer ) ; return new_buffer ; }" 92,"CWE-682 } if ( ps_codec -> pu1_bitsbuf_dynamic ) { ps_codec -> pu1_bitsbuf = ps_codec -> pu1_bitsbuf_dynamic ; ps_codec -> u4_bitsbuf_size = ps_codec -> u4_bitsbuf_size_dynamic ; } else { ps_codec -> pu1_bitsbuf = ps_codec -> pu1_bitsbuf_static ; ps_codec -> u4_bitsbuf_size = ps_codec -> u4_bitsbuf_size_static ; } nal_ofst = ihevcd_nal_search_start_code ( ps_codec -> pu1_inp_bitsbuf , ps_codec -> i4_bytes_remaining ) ; ps_codec -> i4_nal_ofst = nal_ofst ; { WORD32 bytes_remaining = ps_codec -> i4_bytes_remaining - nal_ofst ; bytes_remaining = MIN ( ( UWORD32 ) bytes_remaining , ps_codec -> u4_bitsbuf_size ) ; ihevcd_nal_remv_emuln_bytes ( ps_codec -> pu1_inp_bitsbuf + nal_ofst , ps_codec -> pu1_bitsbuf , bytes_remaining , & nal_len , & bits_len ) ; if ( bits_len < ( WORD32 ) ( ps_codec -> u4_bitsbuf_size - 8 ) ) { memset ( ps_codec -> pu1_bitsbuf + bits_len , 0 , 2 * sizeof ( UWORD32 ) ) ; } } ps_codec -> i4_num_emln_bytes = nal_len - bits_len ; ps_codec -> i4_nal_len = nal_len ; ihevcd_bits_init ( & ps_codec -> s_parse . s_bitstrm , ps_codec -> pu1_bitsbuf , bits_len ) ; ret = ihevcd_nal_unit ( ps_codec ) ; if ( ps_codec -> i4_pic_present && ( ps_codec -> s_parse . i4_next_ctb_indx != ps_codec -> s_parse . ps_sps -> i4_pic_size_in_ctb ) ) { if ( ( ps_codec -> i4_bytes_remaining - ( nal_len + nal_ofst ) <= MIN_START_CODE_LEN ) || ( ps_codec -> i4_header_in_slice_mode ) ) { slice_header_t * ps_slice_hdr_next ; ps_codec -> s_parse . i4_cur_slice_idx -- ; if ( ps_codec -> s_parse . i4_cur_slice_idx < 0 ) ps_codec -> s_parse . i4_cur_slice_idx = 0 ; ps_slice_hdr_next = ps_codec -> s_parse . ps_slice_hdr_base + ( ( ps_codec -> s_parse . i4_cur_slice_idx + 1 ) & ( MAX_SLICE_HDR_CNT - 1 ) ) ; ps_slice_hdr_next -> i2_ctb_x = 0 ; ps_slice_hdr_next -> i2_ctb_y = ps_codec -> s_parse . ps_sps -> i2_pic_ht_in_ctb ; ps_codec -> i4_slice_error = 1 ; continue ; } } if ( IHEVCD_IGNORE_SLICE == ret ) { ps_codec -> s_parse . i4_cur_slice_idx = MAX ( 0 , ( ps_codec -> s_parse . i4_cur_slice_idx - 1 ) ) ; ps_codec -> pu1_inp_bitsbuf += ( nal_ofst + nal_len ) ; ps_codec -> i4_bytes_remaining -= ( nal_ofst + nal_len ) ; continue ; } if ( ( IVD_RES_CHANGED == ret ) || ( IVD_STREAM_WIDTH_HEIGHT_NOT_SUPPORTED == ret ) ) { break ; } if ( ret != IHEVCD_SLICE_IN_HEADER_MODE ) { if ( ( 0 == ps_codec -> i4_slice_error ) || ( ps_codec -> i4_bytes_remaining - ( nal_len + nal_ofst ) <= MIN_START_CODE_LEN ) ) { ps_codec -> pu1_inp_bitsbuf += ( nal_ofst + nal_len ) ; ps_codec -> i4_bytes_remaining -= ( nal_ofst + nal_len ) ; } if ( ret != IHEVCD_SUCCESS ) break ; if ( ps_codec -> s_parse . i4_end_of_frame ) break ; } else { ret = IHEVCD_SUCCESS ; break ; } if ( ( ps_codec -> u4_allocate_dynamic_done == 0 ) && ps_codec -> i4_sps_done ) { WORD32 ret ; ret = ihevcd_allocate_dynamic_bufs ( ps_codec ) ; if ( ret != IV_SUCCESS ) { ihevcd_free_dynamic_bufs ( ps_codec ) ; ps_codec -> i4_error_code = IVD_MEM_ALLOC_FAILED ; ps_dec_op -> u4_error_code |= 1 << IVD_FATALERROR ; ps_dec_op -> u4_error_code |= IVD_MEM_ALLOC_FAILED ; return IV_FAIL ; } } BREAK_AFTER_SLICE_NAL ( ) ; } if ( ( ps_codec -> u4_pic_cnt == 0 ) && ( ret != IHEVCD_SUCCESS ) ) { ps_codec -> i4_error_code = ret ; ihevcd_fill_outargs ( ps_codec , ps_dec_ip , ps_dec_op ) ; return IV_FAIL ; } if ( 1 == ps_codec -> i4_pic_present ) {","} if ( ps_codec -> pu1_bitsbuf_dynamic ) { ps_codec -> pu1_bitsbuf = ps_codec -> pu1_bitsbuf_dynamic ; ps_codec -> u4_bitsbuf_size = ps_codec -> u4_bitsbuf_size_dynamic ; } else { ps_codec -> pu1_bitsbuf = ps_codec -> pu1_bitsbuf_static ; ps_codec -> u4_bitsbuf_size = ps_codec -> u4_bitsbuf_size_static ; } nal_ofst = ihevcd_nal_search_start_code ( ps_codec -> pu1_inp_bitsbuf , ps_codec -> i4_bytes_remaining ) ; ps_codec -> i4_nal_ofst = nal_ofst ; { WORD32 bytes_remaining = ps_codec -> i4_bytes_remaining - nal_ofst ; bytes_remaining = MIN ( ( UWORD32 ) bytes_remaining , ps_codec -> u4_bitsbuf_size ) ; ihevcd_nal_remv_emuln_bytes ( ps_codec -> pu1_inp_bitsbuf + nal_ofst , ps_codec -> pu1_bitsbuf , bytes_remaining , & nal_len , & bits_len ) ; if ( bits_len < ( WORD32 ) ( ps_codec -> u4_bitsbuf_size - 8 ) ) { memset ( ps_codec -> pu1_bitsbuf + bits_len , 0 , 2 * sizeof ( UWORD32 ) ) ; } } ps_codec -> i4_num_emln_bytes = nal_len - bits_len ; ps_codec -> i4_nal_len = nal_len ; ihevcd_bits_init ( & ps_codec -> s_parse . s_bitstrm , ps_codec -> pu1_bitsbuf , bits_len ) ; ret = ihevcd_nal_unit ( ps_codec ) ; if ( ps_codec -> i4_pic_present && ( ps_codec -> s_parse . i4_next_ctb_indx != ps_codec -> s_parse . ps_sps -> i4_pic_size_in_ctb ) ) { if ( ( ps_codec -> i4_bytes_remaining - ( nal_len + nal_ofst ) <= MIN_START_CODE_LEN ) || ( ps_codec -> i4_header_in_slice_mode ) ) { slice_header_t * ps_slice_hdr_next ; ps_codec -> s_parse . i4_cur_slice_idx -- ; if ( ps_codec -> s_parse . i4_cur_slice_idx < 0 ) ps_codec -> s_parse . i4_cur_slice_idx = 0 ; ps_slice_hdr_next = ps_codec -> s_parse . ps_slice_hdr_base + ( ( ps_codec -> s_parse . i4_cur_slice_idx + 1 ) & ( MAX_SLICE_HDR_CNT - 1 ) ) ; ps_slice_hdr_next -> i2_ctb_x = 0 ; ps_slice_hdr_next -> i2_ctb_y = ps_codec -> s_parse . ps_sps -> i2_pic_ht_in_ctb ; ps_codec -> i4_slice_error = 1 ; continue ; } } if ( IHEVCD_IGNORE_SLICE == ret ) { ps_codec -> pu1_inp_bitsbuf += ( nal_ofst + nal_len ) ; ps_codec -> i4_bytes_remaining -= ( nal_ofst + nal_len ) ; continue ; } if ( ( IVD_RES_CHANGED == ret ) || ( IVD_STREAM_WIDTH_HEIGHT_NOT_SUPPORTED == ret ) ) { break ; } if ( ret != IHEVCD_SLICE_IN_HEADER_MODE ) { if ( ( 0 == ps_codec -> i4_slice_error ) || ( ps_codec -> i4_bytes_remaining - ( nal_len + nal_ofst ) <= MIN_START_CODE_LEN ) ) { ps_codec -> pu1_inp_bitsbuf += ( nal_ofst + nal_len ) ; ps_codec -> i4_bytes_remaining -= ( nal_ofst + nal_len ) ; } if ( ret != IHEVCD_SUCCESS ) break ; if ( ps_codec -> s_parse . i4_end_of_frame ) break ; } else { ret = IHEVCD_SUCCESS ; break ; } if ( ( ps_codec -> u4_allocate_dynamic_done == 0 ) && ps_codec -> i4_sps_done ) { WORD32 ret ; ret = ihevcd_allocate_dynamic_bufs ( ps_codec ) ; if ( ret != IV_SUCCESS ) { ihevcd_free_dynamic_bufs ( ps_codec ) ; ps_codec -> i4_error_code = IVD_MEM_ALLOC_FAILED ; ps_dec_op -> u4_error_code |= 1 << IVD_FATALERROR ; ps_dec_op -> u4_error_code |= IVD_MEM_ALLOC_FAILED ; return IV_FAIL ; } } BREAK_AFTER_SLICE_NAL ( ) ; } if ( ( ps_codec -> u4_pic_cnt == 0 ) && ( ret != IHEVCD_SUCCESS ) ) { ps_codec -> i4_error_code = ret ; ihevcd_fill_outargs ( ps_codec , ps_dec_ip , ps_dec_op ) ; return IV_FAIL ; } if ( 1 == ps_codec -> i4_pic_present ) {" 93,"CWE-400 break ; } if ( rv == NGHTTP2_ERR_IGN_HEADER_BLOCK ) { iframe -> state = NGHTTP2_IB_IGN_HEADER_BLOCK ; break ; } iframe -> state = NGHTTP2_IB_READ_HEADER_BLOCK ; break ; case NGHTTP2_PRIORITY : DEBUGF ( ""recv: PRIORITY\\n"" ) ; iframe -> frame . hd . flags = NGHTTP2_FLAG_NONE ; if ( iframe -> payloadleft != NGHTTP2_PRIORITY_SPECLEN ) { busy = 1 ; iframe -> state = NGHTTP2_IB_FRAME_SIZE_ERROR ; break ; } iframe -> state = NGHTTP2_IB_READ_NBYTE ; inbound_frame_set_mark ( iframe , NGHTTP2_PRIORITY_SPECLEN ) ; break ; case NGHTTP2_RST_STREAM : case NGHTTP2_WINDOW_UPDATE : # ifdef DEBUGBUILD switch ( iframe -> frame . hd . type ) { case NGHTTP2_RST_STREAM : DEBUGF ( ""recv: RST_STREAM\\n"" ) ; break ; case NGHTTP2_WINDOW_UPDATE : DEBUGF ( ""recv: WINDOW_UPDATE\\n"" ) ; break ; } # endif iframe -> frame . hd . flags = NGHTTP2_FLAG_NONE ; if ( iframe -> payloadleft != 4 ) { busy = 1 ; iframe -> state = NGHTTP2_IB_FRAME_SIZE_ERROR ; break ; } iframe -> state = NGHTTP2_IB_READ_NBYTE ; inbound_frame_set_mark ( iframe , 4 ) ; break ; case NGHTTP2_SETTINGS : DEBUGF ( ""recv: SETTINGS\\n"" ) ; iframe -> frame . hd . flags &= NGHTTP2_FLAG_ACK ; if ( ( iframe -> frame . hd . length % NGHTTP2_FRAME_SETTINGS_ENTRY_LENGTH ) || ( ( iframe -> frame . hd . flags & NGHTTP2_FLAG_ACK ) && iframe -> payloadleft > 0 ) ) { busy = 1 ; iframe -> state = NGHTTP2_IB_FRAME_SIZE_ERROR ; break ; } iframe -> state = NGHTTP2_IB_READ_SETTINGS ; if ( iframe -> payloadleft ) { nghttp2_settings_entry * min_header_table_size_entry ; iframe -> max_niv = iframe -> frame . hd . length / NGHTTP2_FRAME_SETTINGS_ENTRY_LENGTH + 1 ; if ( iframe -> max_niv - 1 > session -> max_settings ) { rv = nghttp2_session_terminate_session_with_reason ( session , NGHTTP2_ENHANCE_YOUR_CALM , ""SETTINGS: too many setting entries"" ) ; if ( nghttp2_is_fatal ( rv ) ) { return rv ; } return ( ssize_t ) inlen ; } iframe -> iv = nghttp2_mem_malloc ( mem , sizeof ( nghttp2_settings_entry ) * iframe -> max_niv ) ; if ( ! iframe -> iv ) { return NGHTTP2_ERR_NOMEM ; } min_header_table_size_entry = & iframe -> iv [ iframe -> max_niv - 1 ] ; min_header_table_size_entry -> settings_id = NGHTTP2_SETTINGS_HEADER_TABLE_SIZE ; min_header_table_size_entry -> value = UINT32_MAX ; inbound_frame_set_mark ( iframe , NGHTTP2_FRAME_SETTINGS_ENTRY_LENGTH ) ; break ; } busy = 1 ; inbound_frame_set_mark ( iframe , 0 ) ; break ; case NGHTTP2_PUSH_PROMISE : DEBUGF ( ""recv: PUSH_PROMISE\\n"" ) ; iframe -> frame . hd . flags &= ( NGHTTP2_FLAG_END_HEADERS | NGHTTP2_FLAG_PADDED ) ; rv = inbound_frame_handle_pad ( iframe , & iframe -> frame . hd ) ; if ( rv < 0 ) { rv = nghttp2_session_terminate_session_with_reason ( session , NGHTTP2_PROTOCOL_ERROR , ""PUSH_PROMISE: insufficient padding space"" ) ; if ( nghttp2_is_fatal ( rv ) ) { return rv ; } return ( ssize_t ) inlen ; } if ( rv == 1 ) { iframe -> state = NGHTTP2_IB_READ_NBYTE ; break ; } if ( iframe -> payloadleft < 4 ) { busy = 1 ; iframe -> state = NGHTTP2_IB_FRAME_SIZE_ERROR ;","break ; } if ( rv == NGHTTP2_ERR_IGN_HEADER_BLOCK ) { iframe -> state = NGHTTP2_IB_IGN_HEADER_BLOCK ; break ; } iframe -> state = NGHTTP2_IB_READ_HEADER_BLOCK ; break ; case NGHTTP2_PRIORITY : DEBUGF ( ""recv: PRIORITY\\n"" ) ; iframe -> frame . hd . flags = NGHTTP2_FLAG_NONE ; if ( iframe -> payloadleft != NGHTTP2_PRIORITY_SPECLEN ) { busy = 1 ; iframe -> state = NGHTTP2_IB_FRAME_SIZE_ERROR ; break ; } iframe -> state = NGHTTP2_IB_READ_NBYTE ; inbound_frame_set_mark ( iframe , NGHTTP2_PRIORITY_SPECLEN ) ; break ; case NGHTTP2_RST_STREAM : case NGHTTP2_WINDOW_UPDATE : # ifdef DEBUGBUILD switch ( iframe -> frame . hd . type ) { case NGHTTP2_RST_STREAM : DEBUGF ( ""recv: RST_STREAM\\n"" ) ; break ; case NGHTTP2_WINDOW_UPDATE : DEBUGF ( ""recv: WINDOW_UPDATE\\n"" ) ; break ; } # endif iframe -> frame . hd . flags = NGHTTP2_FLAG_NONE ; if ( iframe -> payloadleft != 4 ) { busy = 1 ; iframe -> state = NGHTTP2_IB_FRAME_SIZE_ERROR ; break ; } iframe -> state = NGHTTP2_IB_READ_NBYTE ; inbound_frame_set_mark ( iframe , 4 ) ; break ; case NGHTTP2_SETTINGS : DEBUGF ( ""recv: SETTINGS\\n"" ) ; iframe -> frame . hd . flags &= NGHTTP2_FLAG_ACK ; if ( ( iframe -> frame . hd . length % NGHTTP2_FRAME_SETTINGS_ENTRY_LENGTH ) || ( ( iframe -> frame . hd . flags & NGHTTP2_FLAG_ACK ) && iframe -> payloadleft > 0 ) ) { busy = 1 ; iframe -> state = NGHTTP2_IB_FRAME_SIZE_ERROR ; break ; } if ( session -> obq_flood_counter_ >= session -> max_outbound_ack && ! ( iframe -> frame . hd . flags & NGHTTP2_FLAG_ACK ) ) { return NGHTTP2_ERR_FLOODED ; } iframe -> state = NGHTTP2_IB_READ_SETTINGS ; if ( iframe -> payloadleft ) { nghttp2_settings_entry * min_header_table_size_entry ; iframe -> max_niv = iframe -> frame . hd . length / NGHTTP2_FRAME_SETTINGS_ENTRY_LENGTH + 1 ; if ( iframe -> max_niv - 1 > session -> max_settings ) { rv = nghttp2_session_terminate_session_with_reason ( session , NGHTTP2_ENHANCE_YOUR_CALM , ""SETTINGS: too many setting entries"" ) ; if ( nghttp2_is_fatal ( rv ) ) { return rv ; } return ( ssize_t ) inlen ; } iframe -> iv = nghttp2_mem_malloc ( mem , sizeof ( nghttp2_settings_entry ) * iframe -> max_niv ) ; if ( ! iframe -> iv ) { return NGHTTP2_ERR_NOMEM ; } min_header_table_size_entry = & iframe -> iv [ iframe -> max_niv - 1 ] ; min_header_table_size_entry -> settings_id = NGHTTP2_SETTINGS_HEADER_TABLE_SIZE ; min_header_table_size_entry -> value = UINT32_MAX ; inbound_frame_set_mark ( iframe , NGHTTP2_FRAME_SETTINGS_ENTRY_LENGTH ) ; break ; } busy = 1 ; inbound_frame_set_mark ( iframe , 0 ) ; break ; case NGHTTP2_PUSH_PROMISE : DEBUGF ( ""recv: PUSH_PROMISE\\n"" ) ; iframe -> frame . hd . flags &= ( NGHTTP2_FLAG_END_HEADERS | NGHTTP2_FLAG_PADDED ) ; rv = inbound_frame_handle_pad ( iframe , & iframe -> frame . hd ) ; if ( rv < 0 ) { rv = nghttp2_session_terminate_session_with_reason ( session , NGHTTP2_PROTOCOL_ERROR , ""PUSH_PROMISE: insufficient padding space"" ) ; if ( nghttp2_is_fatal ( rv ) ) { return rv ; } return ( ssize_t ) inlen ; } if ( rv == 1 ) { iframe -> state = NGHTTP2_IB_READ_NBYTE ; break ; } if ( iframe -> payloadleft < 4 ) { busy = 1 ; iframe -> state = NGHTTP2_IB_FRAME_SIZE_ERROR ;" 94,"CWE-416 struct sk_buff * skb_segment ( struct sk_buff * head_skb , netdev_features_t features ) { struct sk_buff * segs = NULL ; struct sk_buff * tail = NULL ; struct sk_buff * list_skb = skb_shinfo ( head_skb ) -> frag_list ; skb_frag_t * frag = skb_shinfo ( head_skb ) -> frags ; unsigned int mss = skb_shinfo ( head_skb ) -> gso_size ; unsigned int doffset = head_skb -> data - skb_mac_header ( head_skb ) ; unsigned int offset = doffset ; unsigned int tnl_hlen = skb_tnl_header_len ( head_skb ) ; unsigned int headroom ; unsigned int len ; __be16 proto ; bool csum ; int sg = ! ! ( features & NETIF_F_SG ) ; int nfrags = skb_shinfo ( head_skb ) -> nr_frags ; int err = - ENOMEM ; int i = 0 ; int pos ; proto = skb_network_protocol ( head_skb ) ; if ( unlikely ( ! proto ) ) return ERR_PTR ( - EINVAL ) ; csum = ! ! can_checksum_protocol ( features , proto ) ; __skb_push ( head_skb , doffset ) ; headroom = skb_headroom ( head_skb ) ; pos = skb_headlen ( head_skb ) ; do { struct sk_buff * nskb ; skb_frag_t * nskb_frag ; int hsize ; int size ; len = head_skb -> len - offset ; if ( len > mss ) len = mss ; hsize = skb_headlen ( head_skb ) - offset ; if ( hsize < 0 ) hsize = 0 ; if ( hsize > len || ! sg ) hsize = len ; if ( ! hsize && i >= nfrags && skb_headlen ( list_skb ) && ( skb_headlen ( list_skb ) == len || sg ) ) { BUG_ON ( skb_headlen ( list_skb ) > len ) ; i = 0 ; nfrags = skb_shinfo ( list_skb ) -> nr_frags ; frag = skb_shinfo ( list_skb ) -> frags ; pos += skb_headlen ( list_skb ) ; while ( pos < offset + len ) { BUG_ON ( i >= nfrags ) ; size = skb_frag_size ( frag ) ; if ( pos + size > offset + len ) break ; i ++ ; pos += size ; frag ++ ; } nskb = skb_clone ( list_skb , GFP_ATOMIC ) ; list_skb = list_skb -> next ; if ( unlikely ( ! nskb ) ) goto err ; if ( unlikely ( pskb_trim ( nskb , len ) ) ) { kfree_skb ( nskb ) ; goto err ; } hsize = skb_end_offset ( nskb ) ; if ( skb_cow_head ( nskb , doffset + headroom ) ) { kfree_skb ( nskb ) ; goto err ; } nskb -> truesize += skb_end_offset ( nskb ) - hsize ; skb_release_head_state ( nskb ) ; __skb_push ( nskb , doffset ) ; } else { nskb = __alloc_skb ( hsize + doffset + headroom , GFP_ATOMIC , skb_alloc_rx_flag ( head_skb ) , NUMA_NO_NODE ) ; if ( unlikely ( ! nskb ) ) goto err ; skb_reserve ( nskb , headroom ) ; __skb_put ( nskb , doffset ) ; } if ( segs ) tail -> next = nskb ; else segs = nskb ; tail = nskb ; __copy_skb_header ( nskb , head_skb ) ; nskb -> mac_len = head_skb -> mac_len ; skb_headers_offset_update ( nskb , skb_headroom ( nskb ) - headroom ) ; skb_copy_from_linear_data_offset ( head_skb , - tnl_hlen , nskb -> data - tnl_hlen , doffset + tnl_hlen ) ; if ( nskb -> len == len + doffset ) goto perform_csum_check ; if ( ! sg ) { nskb -> ip_summed = CHECKSUM_NONE ; nskb -> csum = skb_copy_and_csum_bits ( head_skb , offset , skb_put ( nskb , len ) , len , 0 ) ; continue ; } nskb_frag = skb_shinfo ( nskb ) -> frags ; skb_copy_from_linear_data_offset ( head_skb , offset , skb_put ( nskb , hsize ) , hsize ) ; skb_shinfo ( nskb ) -> tx_flags = skb_shinfo ( head_skb ) -> tx_flags & SKBTX_SHARED_FRAG ; while ( pos < offset + len ) { if ( i >= nfrags ) { BUG_ON ( skb_headlen ( list_skb ) ) ; i = 0 ; nfrags = skb_shinfo ( list_skb ) -> nr_frags ; frag = skb_shinfo ( list_skb ) -> frags ; BUG_ON ( ! nfrags ) ; list_skb = list_skb -> next ; } if ( unlikely ( skb_shinfo ( nskb ) -> nr_frags >= MAX_SKB_FRAGS ) ) { net_warn_ratelimited ( ""skb_segment: too many frags: %u %u\\n"" , pos , mss ) ; goto err ; } * nskb_frag = * frag ; __skb_frag_ref ( nskb_frag ) ; size = skb_frag_size ( nskb_frag ) ; if ( pos < offset ) { nskb_frag -> page_offset += offset - pos ; skb_frag_size_sub ( nskb_frag , offset - pos ) ; } skb_shinfo ( nskb ) -> nr_frags ++ ; if ( pos + size <= offset + len ) { i ++ ; frag ++ ; pos += size ; } else { skb_frag_size_sub ( nskb_frag , pos + size - ( offset + len ) ) ; goto skip_fraglist ; } nskb_frag ++ ; } skip_fraglist : nskb -> data_len = len - hsize ; nskb -> len += nskb -> data_len ; nskb -> truesize += nskb -> data_len ; perform_csum_check : if ( ! csum ) { nskb -> csum = skb_checksum ( nskb , doffset , nskb -> len - doffset , 0 ) ; nskb -> ip_summed = CHECKSUM_NONE ; } } while ( ( offset += len ) < head_skb -> len ) ; return segs ; err : kfree_skb_list ( segs ) ; return ERR_PTR ( err ) ; }","struct sk_buff * skb_segment ( struct sk_buff * head_skb , netdev_features_t features ) { struct sk_buff * segs = NULL ; struct sk_buff * tail = NULL ; struct sk_buff * list_skb = skb_shinfo ( head_skb ) -> frag_list ; skb_frag_t * frag = skb_shinfo ( head_skb ) -> frags ; unsigned int mss = skb_shinfo ( head_skb ) -> gso_size ; unsigned int doffset = head_skb -> data - skb_mac_header ( head_skb ) ; struct sk_buff * frag_skb = head_skb ; unsigned int offset = doffset ; unsigned int tnl_hlen = skb_tnl_header_len ( head_skb ) ; unsigned int headroom ; unsigned int len ; __be16 proto ; bool csum ; int sg = ! ! ( features & NETIF_F_SG ) ; int nfrags = skb_shinfo ( head_skb ) -> nr_frags ; int err = - ENOMEM ; int i = 0 ; int pos ; proto = skb_network_protocol ( head_skb ) ; if ( unlikely ( ! proto ) ) return ERR_PTR ( - EINVAL ) ; csum = ! ! can_checksum_protocol ( features , proto ) ; __skb_push ( head_skb , doffset ) ; headroom = skb_headroom ( head_skb ) ; pos = skb_headlen ( head_skb ) ; do { struct sk_buff * nskb ; skb_frag_t * nskb_frag ; int hsize ; int size ; len = head_skb -> len - offset ; if ( len > mss ) len = mss ; hsize = skb_headlen ( head_skb ) - offset ; if ( hsize < 0 ) hsize = 0 ; if ( hsize > len || ! sg ) hsize = len ; if ( ! hsize && i >= nfrags && skb_headlen ( list_skb ) && ( skb_headlen ( list_skb ) == len || sg ) ) { BUG_ON ( skb_headlen ( list_skb ) > len ) ; i = 0 ; nfrags = skb_shinfo ( list_skb ) -> nr_frags ; frag = skb_shinfo ( list_skb ) -> frags ; frag_skb = list_skb ; pos += skb_headlen ( list_skb ) ; while ( pos < offset + len ) { BUG_ON ( i >= nfrags ) ; size = skb_frag_size ( frag ) ; if ( pos + size > offset + len ) break ; i ++ ; pos += size ; frag ++ ; } nskb = skb_clone ( list_skb , GFP_ATOMIC ) ; list_skb = list_skb -> next ; if ( unlikely ( ! nskb ) ) goto err ; if ( unlikely ( pskb_trim ( nskb , len ) ) ) { kfree_skb ( nskb ) ; goto err ; } hsize = skb_end_offset ( nskb ) ; if ( skb_cow_head ( nskb , doffset + headroom ) ) { kfree_skb ( nskb ) ; goto err ; } nskb -> truesize += skb_end_offset ( nskb ) - hsize ; skb_release_head_state ( nskb ) ; __skb_push ( nskb , doffset ) ; } else { nskb = __alloc_skb ( hsize + doffset + headroom , GFP_ATOMIC , skb_alloc_rx_flag ( head_skb ) , NUMA_NO_NODE ) ; if ( unlikely ( ! nskb ) ) goto err ; skb_reserve ( nskb , headroom ) ; __skb_put ( nskb , doffset ) ; } if ( segs ) tail -> next = nskb ; else segs = nskb ; tail = nskb ; __copy_skb_header ( nskb , head_skb ) ; nskb -> mac_len = head_skb -> mac_len ; skb_headers_offset_update ( nskb , skb_headroom ( nskb ) - headroom ) ; skb_copy_from_linear_data_offset ( head_skb , - tnl_hlen , nskb -> data - tnl_hlen , doffset + tnl_hlen ) ; if ( nskb -> len == len + doffset ) goto perform_csum_check ; if ( ! sg ) { nskb -> ip_summed = CHECKSUM_NONE ; nskb -> csum = skb_copy_and_csum_bits ( head_skb , offset , skb_put ( nskb , len ) , len , 0 ) ; continue ; } nskb_frag = skb_shinfo ( nskb ) -> frags ; skb_copy_from_linear_data_offset ( head_skb , offset , skb_put ( nskb , hsize ) , hsize ) ; skb_shinfo ( nskb ) -> tx_flags = skb_shinfo ( head_skb ) -> tx_flags & SKBTX_SHARED_FRAG ; while ( pos < offset + len ) { if ( i >= nfrags ) { BUG_ON ( skb_headlen ( list_skb ) ) ; i = 0 ; nfrags = skb_shinfo ( list_skb ) -> nr_frags ; frag = skb_shinfo ( list_skb ) -> frags ; frag_skb = list_skb ; BUG_ON ( ! nfrags ) ; list_skb = list_skb -> next ; } if ( unlikely ( skb_shinfo ( nskb ) -> nr_frags >= MAX_SKB_FRAGS ) ) { net_warn_ratelimited ( ""skb_segment: too many frags: %u %u\\n"" , pos , mss ) ; goto err ; } if ( unlikely ( skb_orphan_frags ( frag_skb , GFP_ATOMIC ) ) ) goto err ; * nskb_frag = * frag ; __skb_frag_ref ( nskb_frag ) ; size = skb_frag_size ( nskb_frag ) ; if ( pos < offset ) { nskb_frag -> page_offset += offset - pos ; skb_frag_size_sub ( nskb_frag , offset - pos ) ; } skb_shinfo ( nskb ) -> nr_frags ++ ; if ( pos + size <= offset + len ) { i ++ ; frag ++ ; pos += size ; } else { skb_frag_size_sub ( nskb_frag , pos + size - ( offset + len ) ) ; goto skip_fraglist ; } nskb_frag ++ ; } skip_fraglist : nskb -> data_len = len - hsize ; nskb -> len += nskb -> data_len ; nskb -> truesize += nskb -> data_len ; perform_csum_check : if ( ! csum ) { nskb -> csum = skb_checksum ( nskb , doffset , nskb -> len - doffset , 0 ) ; nskb -> ip_summed = CHECKSUM_NONE ; } } while ( ( offset += len ) < head_skb -> len ) ; return segs ; err : kfree_skb_list ( segs ) ; return ERR_PTR ( err ) ; }" 95,"CWE-399 int perf_event_overflow ( struct perf_event * event , int nmi , struct perf_sample_data * data , struct pt_regs * regs ) { return __perf_event_overflow ( event , nmi , 1 , data , regs ) ; }","int perf_event_overflow ( struct perf_event * event , struct perf_sample_data * data , struct pt_regs * regs ) { return __perf_event_overflow ( event , 1 , data , regs ) ; }" 96,"CWE-189 static int snd_ctl_elem_add ( struct snd_ctl_file * file , struct snd_ctl_elem_info * info , int replace ) { struct snd_card * card = file -> card ; struct snd_kcontrol kctl , * _kctl ; unsigned int access ; long private_size ; struct user_element * ue ; int idx , err ; if ( ! replace && card -> user_ctl_count >= MAX_USER_CONTROLS ) return - ENOMEM ; if ( info -> count < 1 ) return - EINVAL ; access = info -> access == 0 ? SNDRV_CTL_ELEM_ACCESS_READWRITE : ( info -> access & ( SNDRV_CTL_ELEM_ACCESS_READWRITE | SNDRV_CTL_ELEM_ACCESS_INACTIVE | SNDRV_CTL_ELEM_ACCESS_TLV_READWRITE ) ) ; info -> id . numid = 0 ; memset ( & kctl , 0 , sizeof ( kctl ) ) ; down_write ( & card -> controls_rwsem ) ; _kctl = snd_ctl_find_id ( card , & info -> id ) ; err = 0 ; if ( _kctl ) { if ( replace ) err = snd_ctl_remove ( card , _kctl ) ; else err = - EBUSY ; } else { if ( replace ) err = - ENOENT ; } up_write ( & card -> controls_rwsem ) ; if ( err < 0 ) return err ; memcpy ( & kctl . id , & info -> id , sizeof ( info -> id ) ) ; kctl . count = info -> owner ? info -> owner : 1 ; access |= SNDRV_CTL_ELEM_ACCESS_USER ; if ( info -> type == SNDRV_CTL_ELEM_TYPE_ENUMERATED ) kctl . info = snd_ctl_elem_user_enum_info ; else kctl . info = snd_ctl_elem_user_info ; if ( access & SNDRV_CTL_ELEM_ACCESS_READ ) kctl . get = snd_ctl_elem_user_get ; if ( access & SNDRV_CTL_ELEM_ACCESS_WRITE ) kctl . put = snd_ctl_elem_user_put ; if ( access & SNDRV_CTL_ELEM_ACCESS_TLV_READWRITE ) { kctl . tlv . c = snd_ctl_elem_user_tlv ; access |= SNDRV_CTL_ELEM_ACCESS_TLV_CALLBACK ; } switch ( info -> type ) { case SNDRV_CTL_ELEM_TYPE_BOOLEAN : case SNDRV_CTL_ELEM_TYPE_INTEGER : private_size = sizeof ( long ) ; if ( info -> count > 128 ) return - EINVAL ; break ; case SNDRV_CTL_ELEM_TYPE_INTEGER64 : private_size = sizeof ( long long ) ; if ( info -> count > 64 ) return - EINVAL ; break ; case SNDRV_CTL_ELEM_TYPE_ENUMERATED : private_size = sizeof ( unsigned int ) ; if ( info -> count > 128 || info -> value . enumerated . items == 0 ) return - EINVAL ; break ; case SNDRV_CTL_ELEM_TYPE_BYTES : private_size = sizeof ( unsigned char ) ; if ( info -> count > 512 ) return - EINVAL ; break ; case SNDRV_CTL_ELEM_TYPE_IEC958 : private_size = sizeof ( struct snd_aes_iec958 ) ; if ( info -> count != 1 ) return - EINVAL ; break ; default : return - EINVAL ; } private_size *= info -> count ; ue = kzalloc ( sizeof ( struct user_element ) + private_size , GFP_KERNEL ) ; if ( ue == NULL ) return - ENOMEM ; ue -> card = card ;","static int snd_ctl_elem_add ( struct snd_ctl_file * file , struct snd_ctl_elem_info * info , int replace ) { struct snd_card * card = file -> card ; struct snd_kcontrol kctl , * _kctl ; unsigned int access ; long private_size ; struct user_element * ue ; int idx , err ; if ( info -> count < 1 ) return - EINVAL ; access = info -> access == 0 ? SNDRV_CTL_ELEM_ACCESS_READWRITE : ( info -> access & ( SNDRV_CTL_ELEM_ACCESS_READWRITE | SNDRV_CTL_ELEM_ACCESS_INACTIVE | SNDRV_CTL_ELEM_ACCESS_TLV_READWRITE ) ) ; info -> id . numid = 0 ; memset ( & kctl , 0 , sizeof ( kctl ) ) ; if ( replace ) { err = snd_ctl_remove_user_ctl ( file , & info -> id ) ; if ( err ) return err ; } if ( card -> user_ctl_count >= MAX_USER_CONTROLS ) return - ENOMEM ; memcpy ( & kctl . id , & info -> id , sizeof ( info -> id ) ) ; kctl . count = info -> owner ? info -> owner : 1 ; access |= SNDRV_CTL_ELEM_ACCESS_USER ; if ( info -> type == SNDRV_CTL_ELEM_TYPE_ENUMERATED ) kctl . info = snd_ctl_elem_user_enum_info ; else kctl . info = snd_ctl_elem_user_info ; if ( access & SNDRV_CTL_ELEM_ACCESS_READ ) kctl . get = snd_ctl_elem_user_get ; if ( access & SNDRV_CTL_ELEM_ACCESS_WRITE ) kctl . put = snd_ctl_elem_user_put ; if ( access & SNDRV_CTL_ELEM_ACCESS_TLV_READWRITE ) { kctl . tlv . c = snd_ctl_elem_user_tlv ; access |= SNDRV_CTL_ELEM_ACCESS_TLV_CALLBACK ; } switch ( info -> type ) { case SNDRV_CTL_ELEM_TYPE_BOOLEAN : case SNDRV_CTL_ELEM_TYPE_INTEGER : private_size = sizeof ( long ) ; if ( info -> count > 128 ) return - EINVAL ; break ; case SNDRV_CTL_ELEM_TYPE_INTEGER64 : private_size = sizeof ( long long ) ; if ( info -> count > 64 ) return - EINVAL ; break ; case SNDRV_CTL_ELEM_TYPE_ENUMERATED : private_size = sizeof ( unsigned int ) ; if ( info -> count > 128 || info -> value . enumerated . items == 0 ) return - EINVAL ; break ; case SNDRV_CTL_ELEM_TYPE_BYTES : private_size = sizeof ( unsigned char ) ; if ( info -> count > 512 ) return - EINVAL ; break ; case SNDRV_CTL_ELEM_TYPE_IEC958 : private_size = sizeof ( struct snd_aes_iec958 ) ; if ( info -> count != 1 ) return - EINVAL ; break ; default : return - EINVAL ; } private_size *= info -> count ; ue = kzalloc ( sizeof ( struct user_element ) + private_size , GFP_KERNEL ) ; if ( ue == NULL ) return - ENOMEM ; ue -> card = card ;" 97,"CWE-704 static void merge_param ( HashTable * params , zval * zdata , zval * * * current_param , zval * * * current_args TSRMLS_DC ) { zval * * ptr , * * zdata_ptr ; php_http_array_hashkey_t hkey = php_http_array_hashkey_init ( 0 ) ; # if 0 { zval tmp ; INIT_PZVAL_ARRAY ( & tmp , params ) ; fprintf ( stderr , ""params = "" ) ; zend_print_zval_r ( & tmp , 1 TSRMLS_CC ) ; fprintf ( stderr , ""\\n"" ) ; } # endif hkey . type = zend_hash_get_current_key_ex ( Z_ARRVAL_P ( zdata ) , & hkey . str , & hkey . len , & hkey . num , hkey . dup , NULL ) ; if ( ( hkey . type == HASH_KEY_IS_STRING && ! zend_hash_exists ( params , hkey . str , hkey . len ) ) || ( hkey . type == HASH_KEY_IS_LONG && ! zend_hash_index_exists ( params , hkey . num ) ) ) { zval * tmp , * arg , * * args ; zend_hash_get_current_data ( Z_ARRVAL_P ( zdata ) , ( void * ) & ptr ) ; Z_ADDREF_PP ( ptr ) ; MAKE_STD_ZVAL ( tmp ) ; array_init ( tmp ) ; add_assoc_zval_ex ( tmp , ZEND_STRS ( ""value"" ) , * ptr ) ; MAKE_STD_ZVAL ( arg ) ; array_init ( arg ) ; zend_hash_update ( Z_ARRVAL_P ( tmp ) , ""arguments"" , sizeof ( ""arguments"" ) , ( void * ) & arg , sizeof ( zval * ) , ( void * ) & args ) ; * current_args = args ; if ( hkey . type == HASH_KEY_IS_STRING ) { zend_hash_update ( params , hkey . str , hkey . len , ( void * ) & tmp , sizeof ( zval * ) , ( void * ) & ptr ) ; } else { zend_hash_index_update ( params , hkey . num , ( void * ) & tmp , sizeof ( zval * ) , ( void * ) & ptr ) ; } } else { if ( hkey . type == HASH_KEY_IS_STRING ) { zend_hash_find ( params , hkey . str , hkey . len , ( void * ) & ptr ) ; } else { zend_hash_index_find ( params , hkey . num , ( void * ) & ptr ) ; } zdata_ptr = & zdata ; if ( Z_TYPE_PP ( ptr ) == IS_ARRAY && SUCCESS == zend_hash_find ( Z_ARRVAL_PP ( ptr ) , ""value"" , sizeof ( ""value"" ) , ( void * ) & ptr ) && SUCCESS == zend_hash_get_current_data ( Z_ARRVAL_PP ( zdata_ptr ) , ( void * ) & zdata_ptr ) ) { zval * * test_ptr ; while ( Z_TYPE_PP ( zdata_ptr ) == IS_ARRAY && SUCCESS == zend_hash_get_current_data ( Z_ARRVAL_PP ( zdata_ptr ) , ( void * ) & test_ptr ) ) { if ( Z_TYPE_PP ( test_ptr ) == IS_ARRAY ) { if ( HASH_KEY_IS_STRING == zend_hash_get_current_key_ex ( Z_ARRVAL_PP ( zdata_ptr ) , & hkey . str , & hkey . len , & hkey . num , hkey . dup , NULL ) ) { if ( SUCCESS == zend_hash_find ( Z_ARRVAL_PP ( ptr ) , hkey . str , hkey . len , ( void * ) & ptr ) ) { zdata_ptr = test_ptr ; } else { Z_ADDREF_PP ( test_ptr ) ; zend_hash_update ( Z_ARRVAL_PP ( ptr ) , hkey . str , hkey . len , ( void * ) test_ptr , sizeof ( zval * ) , ( void * ) & ptr ) ; break ; } } else { if ( SUCCESS == zend_hash_index_find ( Z_ARRVAL_PP ( ptr ) , hkey . num , ( void * ) & ptr ) ) { zdata_ptr = test_ptr ; } else if ( hkey . num ) { Z_ADDREF_PP ( test_ptr ) ; zend_hash_index_update ( Z_ARRVAL_PP ( ptr ) , hkey . num , ( void * ) test_ptr , sizeof ( zval * ) , ( void * ) & ptr ) ; break ; } else { Z_ADDREF_PP ( test_ptr ) ; zend_hash_next_index_insert ( Z_ARRVAL_PP ( ptr ) , ( void * ) test_ptr , sizeof ( zval * ) , ( void * ) & ptr ) ; break ; } } } else { Z_ADDREF_PP ( test_ptr ) ; if ( Z_TYPE_PP ( ptr ) != IS_ARRAY ) { zval_dtor ( * ptr ) ; array_init ( * ptr ) ; } if ( HASH_KEY_IS_STRING == zend_hash_get_current_key_ex ( Z_ARRVAL_PP ( zdata_ptr ) , & hkey . str , & hkey . len , & hkey . num , hkey . dup , NULL ) ) { zend_hash_update ( Z_ARRVAL_PP ( ptr ) , hkey . str , hkey . len , ( void * ) test_ptr , sizeof ( zval * ) , ( void * ) & ptr ) ; } else if ( hkey . num ) { zend_hash_index_update ( Z_ARRVAL_PP ( ptr ) , hkey . num , ( void * ) test_ptr , sizeof ( zval * ) , ( void * ) & ptr ) ; } else { zend_hash_next_index_insert ( Z_ARRVAL_PP ( ptr ) , ( void * ) test_ptr , sizeof ( zval * ) , ( void * ) & ptr ) ; } break ; } } } } while ( Z_TYPE_PP ( ptr ) == IS_ARRAY && SUCCESS == zend_hash_get_current_data ( Z_ARRVAL_PP ( ptr ) , ( void * ) & ptr ) ) ; * current_param = ptr ; }","static void merge_param ( HashTable * params , zval * zdata , zval * * * current_param , zval * * * current_args TSRMLS_DC ) { zval * * ptr , * * zdata_ptr ; php_http_array_hashkey_t hkey = php_http_array_hashkey_init ( 0 ) ; # if 0 { zval tmp ; INIT_PZVAL_ARRAY ( & tmp , params ) ; fprintf ( stderr , ""params = "" ) ; zend_print_zval_r ( & tmp , 1 TSRMLS_CC ) ; fprintf ( stderr , ""\\n"" ) ; } # endif hkey . type = zend_hash_get_current_key_ex ( Z_ARRVAL_P ( zdata ) , & hkey . str , & hkey . len , & hkey . num , hkey . dup , NULL ) ; if ( ( hkey . type == HASH_KEY_IS_STRING && ! zend_hash_exists ( params , hkey . str , hkey . len ) ) || ( hkey . type == HASH_KEY_IS_LONG && ! zend_hash_index_exists ( params , hkey . num ) ) ) { zval * tmp , * arg , * * args ; zend_hash_get_current_data ( Z_ARRVAL_P ( zdata ) , ( void * ) & ptr ) ; Z_ADDREF_PP ( ptr ) ; MAKE_STD_ZVAL ( tmp ) ; array_init ( tmp ) ; add_assoc_zval_ex ( tmp , ZEND_STRS ( ""value"" ) , * ptr ) ; MAKE_STD_ZVAL ( arg ) ; array_init ( arg ) ; zend_hash_update ( Z_ARRVAL_P ( tmp ) , ""arguments"" , sizeof ( ""arguments"" ) , ( void * ) & arg , sizeof ( zval * ) , ( void * ) & args ) ; * current_args = args ; if ( hkey . type == HASH_KEY_IS_STRING ) { zend_hash_update ( params , hkey . str , hkey . len , ( void * ) & tmp , sizeof ( zval * ) , ( void * ) & ptr ) ; } else { zend_hash_index_update ( params , hkey . num , ( void * ) & tmp , sizeof ( zval * ) , ( void * ) & ptr ) ; } } else { if ( hkey . type == HASH_KEY_IS_STRING ) { zend_hash_find ( params , hkey . str , hkey . len , ( void * ) & ptr ) ; } else { zend_hash_index_find ( params , hkey . num , ( void * ) & ptr ) ; } zdata_ptr = & zdata ; if ( Z_TYPE_PP ( ptr ) == IS_ARRAY && SUCCESS == zend_hash_find ( Z_ARRVAL_PP ( ptr ) , ""value"" , sizeof ( ""value"" ) , ( void * ) & ptr ) && SUCCESS == zend_hash_get_current_data ( Z_ARRVAL_PP ( zdata_ptr ) , ( void * ) & zdata_ptr ) ) { zval * * test_ptr ; while ( Z_TYPE_PP ( zdata_ptr ) == IS_ARRAY && SUCCESS == zend_hash_get_current_data ( Z_ARRVAL_PP ( zdata_ptr ) , ( void * ) & test_ptr ) ) { if ( Z_TYPE_PP ( test_ptr ) == IS_ARRAY && Z_TYPE_PP ( ptr ) == IS_ARRAY ) { if ( HASH_KEY_IS_STRING == zend_hash_get_current_key_ex ( Z_ARRVAL_PP ( zdata_ptr ) , & hkey . str , & hkey . len , & hkey . num , hkey . dup , NULL ) ) { if ( SUCCESS == zend_hash_find ( Z_ARRVAL_PP ( ptr ) , hkey . str , hkey . len , ( void * ) & ptr ) ) { zdata_ptr = test_ptr ; } else { Z_ADDREF_PP ( test_ptr ) ; zend_hash_update ( Z_ARRVAL_PP ( ptr ) , hkey . str , hkey . len , ( void * ) test_ptr , sizeof ( zval * ) , ( void * ) & ptr ) ; break ; } } else { if ( SUCCESS == zend_hash_index_find ( Z_ARRVAL_PP ( ptr ) , hkey . num , ( void * ) & ptr ) ) { zdata_ptr = test_ptr ; } else if ( hkey . num ) { Z_ADDREF_PP ( test_ptr ) ; zend_hash_index_update ( Z_ARRVAL_PP ( ptr ) , hkey . num , ( void * ) test_ptr , sizeof ( zval * ) , ( void * ) & ptr ) ; break ; } else { Z_ADDREF_PP ( test_ptr ) ; zend_hash_next_index_insert ( Z_ARRVAL_PP ( ptr ) , ( void * ) test_ptr , sizeof ( zval * ) , ( void * ) & ptr ) ; break ; } } } else { Z_ADDREF_PP ( test_ptr ) ; if ( Z_TYPE_PP ( ptr ) != IS_ARRAY ) { zval_dtor ( * ptr ) ; array_init ( * ptr ) ; } if ( HASH_KEY_IS_STRING == zend_hash_get_current_key_ex ( Z_ARRVAL_PP ( zdata_ptr ) , & hkey . str , & hkey . len , & hkey . num , hkey . dup , NULL ) ) { zend_hash_update ( Z_ARRVAL_PP ( ptr ) , hkey . str , hkey . len , ( void * ) test_ptr , sizeof ( zval * ) , ( void * ) & ptr ) ; } else if ( hkey . num ) { zend_hash_index_update ( Z_ARRVAL_PP ( ptr ) , hkey . num , ( void * ) test_ptr , sizeof ( zval * ) , ( void * ) & ptr ) ; } else { zend_hash_next_index_insert ( Z_ARRVAL_PP ( ptr ) , ( void * ) test_ptr , sizeof ( zval * ) , ( void * ) & ptr ) ; } break ; } } } } while ( Z_TYPE_PP ( ptr ) == IS_ARRAY && SUCCESS == zend_hash_get_current_data ( Z_ARRVAL_PP ( ptr ) , ( void * ) & ptr ) ) ; * current_param = ptr ; }" 98,"CWE-399 ops -> getpfccfg ( netdev , i - DCB_PFC_UP_ATTR_0 , & value ) ; if ( nla_put_u8 ( skb , i , value ) ) goto nla_put_failure ; } nla_nest_end ( skb , pfc_nest ) ; } spin_lock ( & dcb_lock ) ; app = nla_nest_start ( skb , DCB_ATTR_CEE_APP_TABLE ) ; if ( ! app ) goto dcb_unlock ; list_for_each_entry ( itr , & dcb_app_list , list ) { if ( itr -> ifindex == netdev -> ifindex ) { struct nlattr * app_nest = nla_nest_start ( skb , DCB_ATTR_APP ) ; if ( ! app_nest ) goto dcb_unlock ; err = nla_put_u8 ( skb , DCB_APP_ATTR_IDTYPE , itr -> app . selector ) ; if ( err ) goto dcb_unlock ; err = nla_put_u16 ( skb , DCB_APP_ATTR_ID , itr -> app . protocol ) ; if ( err ) goto dcb_unlock ; err = nla_put_u8 ( skb , DCB_APP_ATTR_PRIORITY , itr -> app . priority ) ; if ( err ) goto dcb_unlock ; nla_nest_end ( skb , app_nest ) ; } } nla_nest_end ( skb , app ) ; if ( netdev -> dcbnl_ops -> getdcbx ) dcbx = netdev -> dcbnl_ops -> getdcbx ( netdev ) ; else dcbx = - EOPNOTSUPP ; spin_unlock ( & dcb_lock ) ; if ( ops -> getfeatcfg ) { struct nlattr * feat = nla_nest_start ( skb , DCB_ATTR_CEE_FEAT ) ; if ( ! feat ) goto nla_put_failure ; for ( i = DCB_FEATCFG_ATTR_ALL + 1 ; i <= DCB_FEATCFG_ATTR_MAX ; i ++ ) if ( ! ops -> getfeatcfg ( netdev , i , & value ) && nla_put_u8 ( skb , i , value ) ) goto nla_put_failure ; nla_nest_end ( skb , feat ) ; } if ( ops -> cee_peer_getpg ) { struct cee_pg pg ; err = ops -> cee_peer_getpg ( netdev , & pg ) ; if ( ! err && nla_put ( skb , DCB_ATTR_CEE_PEER_PG , sizeof ( pg ) , & pg ) ) goto nla_put_failure ; } if ( ops -> cee_peer_getpfc ) { struct cee_pfc pfc ; err = ops -> cee_peer_getpfc ( netdev , & pfc ) ; if ( ! err && nla_put ( skb , DCB_ATTR_CEE_PEER_PFC , sizeof ( pfc ) , & pfc ) ) goto nla_put_failure ; } if ( ops -> peer_getappinfo && ops -> peer_getapptable ) { err = dcbnl_build_peer_app ( netdev , skb , DCB_ATTR_CEE_PEER_APP_TABLE , DCB_ATTR_CEE_PEER_APP_INFO , DCB_ATTR_CEE_PEER_APP ) ; if ( err ) goto nla_put_failure ; } nla_nest_end ( skb , cee ) ; if ( dcbx >= 0 ) { err = nla_put_u8 ( skb , DCB_ATTR_DCBX , dcbx ) ; if ( err ) goto nla_put_failure ; } return 0 ; dcb_unlock : spin_unlock ( & dcb_lock ) ; nla_put_failure : return err ; }","ops -> getpfccfg ( netdev , i - DCB_PFC_UP_ATTR_0 , & value ) ; if ( nla_put_u8 ( skb , i , value ) ) goto nla_put_failure ; } nla_nest_end ( skb , pfc_nest ) ; } spin_lock ( & dcb_lock ) ; app = nla_nest_start ( skb , DCB_ATTR_CEE_APP_TABLE ) ; if ( ! app ) goto dcb_unlock ; list_for_each_entry ( itr , & dcb_app_list , list ) { if ( itr -> ifindex == netdev -> ifindex ) { struct nlattr * app_nest = nla_nest_start ( skb , DCB_ATTR_APP ) ; if ( ! app_nest ) goto dcb_unlock ; err = nla_put_u8 ( skb , DCB_APP_ATTR_IDTYPE , itr -> app . selector ) ; if ( err ) goto dcb_unlock ; err = nla_put_u16 ( skb , DCB_APP_ATTR_ID , itr -> app . protocol ) ; if ( err ) goto dcb_unlock ; err = nla_put_u8 ( skb , DCB_APP_ATTR_PRIORITY , itr -> app . priority ) ; if ( err ) goto dcb_unlock ; nla_nest_end ( skb , app_nest ) ; } } nla_nest_end ( skb , app ) ; if ( netdev -> dcbnl_ops -> getdcbx ) dcbx = netdev -> dcbnl_ops -> getdcbx ( netdev ) ; else dcbx = - EOPNOTSUPP ; spin_unlock ( & dcb_lock ) ; if ( ops -> getfeatcfg ) { struct nlattr * feat = nla_nest_start ( skb , DCB_ATTR_CEE_FEAT ) ; if ( ! feat ) goto nla_put_failure ; for ( i = DCB_FEATCFG_ATTR_ALL + 1 ; i <= DCB_FEATCFG_ATTR_MAX ; i ++ ) if ( ! ops -> getfeatcfg ( netdev , i , & value ) && nla_put_u8 ( skb , i , value ) ) goto nla_put_failure ; nla_nest_end ( skb , feat ) ; } if ( ops -> cee_peer_getpg ) { struct cee_pg pg ; memset ( & pg , 0 , sizeof ( pg ) ) ; err = ops -> cee_peer_getpg ( netdev , & pg ) ; if ( ! err && nla_put ( skb , DCB_ATTR_CEE_PEER_PG , sizeof ( pg ) , & pg ) ) goto nla_put_failure ; } if ( ops -> cee_peer_getpfc ) { struct cee_pfc pfc ; memset ( & pfc , 0 , sizeof ( pfc ) ) ; err = ops -> cee_peer_getpfc ( netdev , & pfc ) ; if ( ! err && nla_put ( skb , DCB_ATTR_CEE_PEER_PFC , sizeof ( pfc ) , & pfc ) ) goto nla_put_failure ; } if ( ops -> peer_getappinfo && ops -> peer_getapptable ) { err = dcbnl_build_peer_app ( netdev , skb , DCB_ATTR_CEE_PEER_APP_TABLE , DCB_ATTR_CEE_PEER_APP_INFO , DCB_ATTR_CEE_PEER_APP ) ; if ( err ) goto nla_put_failure ; } nla_nest_end ( skb , cee ) ; if ( dcbx >= 0 ) { err = nla_put_u8 ( skb , DCB_ATTR_DCBX , dcbx ) ; if ( err ) goto nla_put_failure ; } return 0 ; dcb_unlock : spin_unlock ( & dcb_lock ) ; nla_put_failure : return err ; }" 99,CWE-119 void grubfs_free ( GrubFS * gf ) { if ( gf ) { if ( gf -> file && gf -> file -> device ) free ( gf -> file -> device -> disk ) ; free ( gf -> file ) ; free ( gf ) ; } },void grubfs_free ( GrubFS * gf ) { if ( gf ) { if ( gf -> file && gf -> file -> device ) { free ( gf -> file -> device -> disk ) ; } free ( gf -> file ) ; free ( gf ) ; } } 100,"CWE-20 static unsigned long ioapic_read_indirect ( struct kvm_ioapic * ioapic , unsigned long addr , unsigned long length ) { unsigned long result = 0 ; switch ( ioapic -> ioregsel ) { case IOAPIC_REG_VERSION : result = ( ( ( ( IOAPIC_NUM_PINS - 1 ) & 0xff ) << 16 ) | ( IOAPIC_VERSION_ID & 0xff ) ) ; break ; case IOAPIC_REG_APIC_ID : case IOAPIC_REG_ARB_ID : result = ( ( ioapic -> id & 0xf ) << 24 ) ; break ; default : { u32 redir_index = ( ioapic -> ioregsel - 0x10 ) >> 1 ; u64 redir_content ; ASSERT ( redir_index < IOAPIC_NUM_PINS ) ; redir_content = ioapic -> redirtbl [ redir_index ] . bits ; result = ( ioapic -> ioregsel & 0x1 ) ? ( redir_content >> 32 ) & 0xffffffff : redir_content & 0xffffffff ; break ; } } return result ; }","static unsigned long ioapic_read_indirect ( struct kvm_ioapic * ioapic , unsigned long addr , unsigned long length ) { unsigned long result = 0 ; switch ( ioapic -> ioregsel ) { case IOAPIC_REG_VERSION : result = ( ( ( ( IOAPIC_NUM_PINS - 1 ) & 0xff ) << 16 ) | ( IOAPIC_VERSION_ID & 0xff ) ) ; break ; case IOAPIC_REG_APIC_ID : case IOAPIC_REG_ARB_ID : result = ( ( ioapic -> id & 0xf ) << 24 ) ; break ; default : { u32 redir_index = ( ioapic -> ioregsel - 0x10 ) >> 1 ; u64 redir_content ; if ( redir_index < IOAPIC_NUM_PINS ) redir_content = ioapic -> redirtbl [ redir_index ] . bits ; else redir_content = ~ 0ULL ; result = ( ioapic -> ioregsel & 0x1 ) ? ( redir_content >> 32 ) & 0xffffffff : redir_content & 0xffffffff ; break ; } } return result ; }" 101,"CWE-125 actx -> tls_payload_length = NO_TLS_PAYLOAD_LENGTH ; return 1 ; case EVP_CTRL_COPY : if ( actx ) { EVP_CIPHER_CTX * dst = ( EVP_CIPHER_CTX * ) ptr ; dst -> cipher_data = OPENSSL_memdup ( actx , sizeof ( * actx ) + Poly1305_ctx_size ( ) ) ; if ( dst -> cipher_data == NULL ) { EVPerr ( EVP_F_CHACHA20_POLY1305_CTRL , EVP_R_COPY_ERROR ) ; return 0 ; } } return 1 ; case EVP_CTRL_AEAD_SET_IVLEN : if ( arg <= 0 || arg > CHACHA_CTR_SIZE ) return 0 ; actx -> nonce_len = arg ; return 1 ; case EVP_CTRL_AEAD_SET_IV_FIXED : if ( arg != 12 ) return 0 ; actx -> nonce [ 0 ] = actx -> key . counter [ 1 ] = CHACHA_U8TOU32 ( ( unsigned char * ) ptr ) ; actx -> nonce [ 1 ] = actx -> key . counter [ 2 ] = CHACHA_U8TOU32 ( ( unsigned char * ) ptr + 4 ) ; actx -> nonce [ 2 ] = actx -> key . counter [ 3 ] = CHACHA_U8TOU32 ( ( unsigned char * ) ptr + 8 ) ; return 1 ; case EVP_CTRL_AEAD_SET_TAG : if ( arg <= 0 || arg > POLY1305_BLOCK_SIZE ) return 0 ; if ( ptr != NULL ) { memcpy ( actx -> tag , ptr , arg ) ; actx -> tag_len = arg ; } return 1 ; case EVP_CTRL_AEAD_GET_TAG : if ( arg <= 0 || arg > POLY1305_BLOCK_SIZE || ! ctx -> encrypt ) return 0 ; memcpy ( ptr , actx -> tag , arg ) ; return 1 ; case EVP_CTRL_AEAD_TLS1_AAD : if ( arg != EVP_AEAD_TLS1_AAD_LEN ) return 0 ; { unsigned int len ; unsigned char * aad = ptr , temp [ POLY1305_BLOCK_SIZE ] ; len = aad [ EVP_AEAD_TLS1_AAD_LEN - 2 ] << 8 | aad [ EVP_AEAD_TLS1_AAD_LEN - 1 ] ; if ( ! ctx -> encrypt ) { len -= POLY1305_BLOCK_SIZE ; memcpy ( temp , aad , EVP_AEAD_TLS1_AAD_LEN - 2 ) ; aad = temp ; temp [ EVP_AEAD_TLS1_AAD_LEN - 2 ] = ( unsigned char ) ( len >> 8 ) ; temp [ EVP_AEAD_TLS1_AAD_LEN - 1 ] = ( unsigned char ) len ; } actx -> tls_payload_length = len ; actx -> key . counter [ 1 ] = actx -> nonce [ 0 ] ; actx -> key . counter [ 2 ] = actx -> nonce [ 1 ] ^ CHACHA_U8TOU32 ( aad ) ; actx -> key . counter [ 3 ] = actx -> nonce [ 2 ] ^ CHACHA_U8TOU32 ( aad + 4 ) ; actx -> mac_inited = 0 ; chacha20_poly1305_cipher ( ctx , NULL , aad , EVP_AEAD_TLS1_AAD_LEN ) ; return POLY1305_BLOCK_SIZE ; } case EVP_CTRL_AEAD_SET_MAC_KEY : return 1 ; default : return - 1 ; } }","actx -> tls_payload_length = NO_TLS_PAYLOAD_LENGTH ; return 1 ; case EVP_CTRL_COPY : if ( actx ) { EVP_CIPHER_CTX * dst = ( EVP_CIPHER_CTX * ) ptr ; dst -> cipher_data = OPENSSL_memdup ( actx , sizeof ( * actx ) + Poly1305_ctx_size ( ) ) ; if ( dst -> cipher_data == NULL ) { EVPerr ( EVP_F_CHACHA20_POLY1305_CTRL , EVP_R_COPY_ERROR ) ; return 0 ; } } return 1 ; case EVP_CTRL_AEAD_SET_IVLEN : if ( arg <= 0 || arg > CHACHA_CTR_SIZE ) return 0 ; actx -> nonce_len = arg ; return 1 ; case EVP_CTRL_AEAD_SET_IV_FIXED : if ( arg != 12 ) return 0 ; actx -> nonce [ 0 ] = actx -> key . counter [ 1 ] = CHACHA_U8TOU32 ( ( unsigned char * ) ptr ) ; actx -> nonce [ 1 ] = actx -> key . counter [ 2 ] = CHACHA_U8TOU32 ( ( unsigned char * ) ptr + 4 ) ; actx -> nonce [ 2 ] = actx -> key . counter [ 3 ] = CHACHA_U8TOU32 ( ( unsigned char * ) ptr + 8 ) ; return 1 ; case EVP_CTRL_AEAD_SET_TAG : if ( arg <= 0 || arg > POLY1305_BLOCK_SIZE ) return 0 ; if ( ptr != NULL ) { memcpy ( actx -> tag , ptr , arg ) ; actx -> tag_len = arg ; } return 1 ; case EVP_CTRL_AEAD_GET_TAG : if ( arg <= 0 || arg > POLY1305_BLOCK_SIZE || ! ctx -> encrypt ) return 0 ; memcpy ( ptr , actx -> tag , arg ) ; return 1 ; case EVP_CTRL_AEAD_TLS1_AAD : if ( arg != EVP_AEAD_TLS1_AAD_LEN ) return 0 ; { unsigned int len ; unsigned char * aad = ptr , temp [ POLY1305_BLOCK_SIZE ] ; len = aad [ EVP_AEAD_TLS1_AAD_LEN - 2 ] << 8 | aad [ EVP_AEAD_TLS1_AAD_LEN - 1 ] ; if ( ! ctx -> encrypt ) { if ( len < POLY1305_BLOCK_SIZE ) return 0 ; len -= POLY1305_BLOCK_SIZE ; memcpy ( temp , aad , EVP_AEAD_TLS1_AAD_LEN - 2 ) ; aad = temp ; temp [ EVP_AEAD_TLS1_AAD_LEN - 2 ] = ( unsigned char ) ( len >> 8 ) ; temp [ EVP_AEAD_TLS1_AAD_LEN - 1 ] = ( unsigned char ) len ; } actx -> tls_payload_length = len ; actx -> key . counter [ 1 ] = actx -> nonce [ 0 ] ; actx -> key . counter [ 2 ] = actx -> nonce [ 1 ] ^ CHACHA_U8TOU32 ( aad ) ; actx -> key . counter [ 3 ] = actx -> nonce [ 2 ] ^ CHACHA_U8TOU32 ( aad + 4 ) ; actx -> mac_inited = 0 ; chacha20_poly1305_cipher ( ctx , NULL , aad , EVP_AEAD_TLS1_AAD_LEN ) ; return POLY1305_BLOCK_SIZE ; } case EVP_CTRL_AEAD_SET_MAC_KEY : return 1 ; default : return - 1 ; } }" 102,"CWE-284 static bool has_byte ( const eager_reader_t * reader ) { assert ( reader != NULL ) ; fd_set read_fds ; FD_ZERO ( & read_fds ) ; FD_SET ( reader -> bytes_available_fd , & read_fds ) ; struct timeval timeout ; timeout . tv_sec = 0 ; timeout . tv_usec = 0 ; select ( reader -> bytes_available_fd + 1 , & read_fds , NULL , NULL , & timeout ) ; return FD_ISSET ( reader -> bytes_available_fd , & read_fds ) ; }","static bool has_byte ( const eager_reader_t * reader ) { assert ( reader != NULL ) ; fd_set read_fds ; FD_ZERO ( & read_fds ) ; FD_SET ( reader -> bytes_available_fd , & read_fds ) ; struct timeval timeout ; timeout . tv_sec = 0 ; timeout . tv_usec = 0 ; TEMP_FAILURE_RETRY ( select ( reader -> bytes_available_fd + 1 , & read_fds , NULL , NULL , & timeout ) ) ; return FD_ISSET ( reader -> bytes_available_fd , & read_fds ) ; }" 103,"CWE-20 int ssl3_write_bytes ( SSL * s , int type , const void * buf_ , int len ) { const unsigned char * buf = buf_ ; int tot ; unsigned int n , split_send_fragment , maxpipes ; # if ! defined ( OPENSSL_NO_MULTIBLOCK ) && EVP_CIPH_FLAG_TLS1_1_MULTIBLOCK unsigned int max_send_fragment , nw ; unsigned int u_len = ( unsigned int ) len ; # endif SSL3_BUFFER * wb = & s -> rlayer . wbuf [ 0 ] ; int i ; if ( len < 0 ) { SSLerr ( SSL_F_SSL3_WRITE_BYTES , SSL_R_SSL_NEGATIVE_LENGTH ) ; return - 1 ; } s -> rwstate = SSL_NOTHING ; tot = s -> rlayer . wnum ; if ( ( unsigned int ) len < s -> rlayer . wnum ) { SSLerr ( SSL_F_SSL3_WRITE_BYTES , SSL_R_BAD_LENGTH ) ; return - 1 ; } s -> rlayer . wnum = 0 ; if ( SSL_in_init ( s ) && ! ossl_statem_get_in_handshake ( s ) ) { i = s -> handshake_func ( s ) ; if ( i < 0 ) return ( i ) ; if ( i == 0 ) { SSLerr ( SSL_F_SSL3_WRITE_BYTES , SSL_R_SSL_HANDSHAKE_FAILURE ) ; return - 1 ; } } if ( wb -> left != 0 ) { i = ssl3_write_pending ( s , type , & buf [ tot ] , s -> rlayer . wpend_tot ) ; if ( i <= 0 ) { s -> rlayer . wnum = tot ; return i ; } tot += i ; } # if ! defined ( OPENSSL_NO_MULTIBLOCK ) && EVP_CIPH_FLAG_TLS1_1_MULTIBLOCK if ( type == SSL3_RT_APPLICATION_DATA && u_len >= 4 * ( max_send_fragment = s -> max_send_fragment ) && s -> compress == NULL && s -> msg_callback == NULL && ! SSL_USE_ETM ( s ) && SSL_USE_EXPLICIT_IV ( s ) && EVP_CIPHER_flags ( EVP_CIPHER_CTX_cipher ( s -> enc_write_ctx ) ) & EVP_CIPH_FLAG_TLS1_1_MULTIBLOCK ) { unsigned char aad [ 13 ] ; EVP_CTRL_TLS1_1_MULTIBLOCK_PARAM mb_param ; int packlen ; if ( ( max_send_fragment & 0xfff ) == 0 ) max_send_fragment -= 512 ; if ( tot == 0 || wb -> buf == NULL ) { ssl3_release_write_buffer ( s ) ; packlen = EVP_CIPHER_CTX_ctrl ( s -> enc_write_ctx , EVP_CTRL_TLS1_1_MULTIBLOCK_MAX_BUFSIZE , max_send_fragment , NULL ) ; if ( u_len >= 8 * max_send_fragment ) packlen *= 8 ; else packlen *= 4 ; if ( ! ssl3_setup_write_buffer ( s , 1 , packlen ) ) { SSLerr ( SSL_F_SSL3_WRITE_BYTES , ERR_R_MALLOC_FAILURE ) ; return - 1 ; } } else if ( tot == len ) { ssl3_release_write_buffer ( s ) ; return tot ; } n = ( len - tot ) ; for ( ; ; ) { if ( n < 4 * max_send_fragment ) { ssl3_release_write_buffer ( s ) ; break ; } if ( s -> s3 -> alert_dispatch ) { i = s -> method -> ssl_dispatch_alert ( s ) ; if ( i <= 0 ) { s -> rlayer . wnum = tot ; return i ; } } if ( n >= 8 * max_send_fragment ) nw = max_send_fragment * ( mb_param . interleave = 8 ) ; else nw = max_send_fragment * ( mb_param . interleave = 4 ) ; memcpy ( aad , s -> rlayer . write_sequence , 8 ) ; aad [ 8 ] = type ; aad [ 9 ] = ( unsigned char ) ( s -> version >> 8 ) ; aad [ 10 ] = ( unsigned char ) ( s -> version ) ; aad [ 11 ] = 0 ; aad [ 12 ] = 0 ; mb_param . out = NULL ; mb_param . inp = aad ; mb_param . len = nw ;","int ssl3_write_bytes ( SSL * s , int type , const void * buf_ , int len ) { const unsigned char * buf = buf_ ; int tot ; unsigned int n , split_send_fragment , maxpipes ; # if ! defined ( OPENSSL_NO_MULTIBLOCK ) && EVP_CIPH_FLAG_TLS1_1_MULTIBLOCK unsigned int max_send_fragment , nw ; unsigned int u_len = ( unsigned int ) len ; # endif SSL3_BUFFER * wb = & s -> rlayer . wbuf [ 0 ] ; int i ; if ( len < 0 ) { SSLerr ( SSL_F_SSL3_WRITE_BYTES , SSL_R_SSL_NEGATIVE_LENGTH ) ; return - 1 ; } s -> rwstate = SSL_NOTHING ; tot = s -> rlayer . wnum ; if ( ( unsigned int ) len < s -> rlayer . wnum ) { SSLerr ( SSL_F_SSL3_WRITE_BYTES , SSL_R_BAD_LENGTH ) ; return - 1 ; } s -> rlayer . wnum = 0 ; if ( SSL_in_init ( s ) && ! ossl_statem_get_in_handshake ( s ) ) { i = s -> handshake_func ( s ) ; if ( i < 0 ) return ( i ) ; if ( i == 0 ) { SSLerr ( SSL_F_SSL3_WRITE_BYTES , SSL_R_SSL_HANDSHAKE_FAILURE ) ; return - 1 ; } } if ( wb -> left != 0 ) { i = ssl3_write_pending ( s , type , & buf [ tot ] , s -> rlayer . wpend_tot ) ; if ( i <= 0 ) { s -> rlayer . wnum = tot ; return i ; } tot += i ; } # if ! defined ( OPENSSL_NO_MULTIBLOCK ) && EVP_CIPH_FLAG_TLS1_1_MULTIBLOCK if ( type == SSL3_RT_APPLICATION_DATA && u_len >= 4 * ( max_send_fragment = s -> max_send_fragment ) && s -> compress == NULL && s -> msg_callback == NULL && ! SSL_WRITE_ETM ( s ) && SSL_USE_EXPLICIT_IV ( s ) && EVP_CIPHER_flags ( EVP_CIPHER_CTX_cipher ( s -> enc_write_ctx ) ) & EVP_CIPH_FLAG_TLS1_1_MULTIBLOCK ) { unsigned char aad [ 13 ] ; EVP_CTRL_TLS1_1_MULTIBLOCK_PARAM mb_param ; int packlen ; if ( ( max_send_fragment & 0xfff ) == 0 ) max_send_fragment -= 512 ; if ( tot == 0 || wb -> buf == NULL ) { ssl3_release_write_buffer ( s ) ; packlen = EVP_CIPHER_CTX_ctrl ( s -> enc_write_ctx , EVP_CTRL_TLS1_1_MULTIBLOCK_MAX_BUFSIZE , max_send_fragment , NULL ) ; if ( u_len >= 8 * max_send_fragment ) packlen *= 8 ; else packlen *= 4 ; if ( ! ssl3_setup_write_buffer ( s , 1 , packlen ) ) { SSLerr ( SSL_F_SSL3_WRITE_BYTES , ERR_R_MALLOC_FAILURE ) ; return - 1 ; } } else if ( tot == len ) { ssl3_release_write_buffer ( s ) ; return tot ; } n = ( len - tot ) ; for ( ; ; ) { if ( n < 4 * max_send_fragment ) { ssl3_release_write_buffer ( s ) ; break ; } if ( s -> s3 -> alert_dispatch ) { i = s -> method -> ssl_dispatch_alert ( s ) ; if ( i <= 0 ) { s -> rlayer . wnum = tot ; return i ; } } if ( n >= 8 * max_send_fragment ) nw = max_send_fragment * ( mb_param . interleave = 8 ) ; else nw = max_send_fragment * ( mb_param . interleave = 4 ) ; memcpy ( aad , s -> rlayer . write_sequence , 8 ) ; aad [ 8 ] = type ; aad [ 9 ] = ( unsigned char ) ( s -> version >> 8 ) ; aad [ 10 ] = ( unsigned char ) ( s -> version ) ; aad [ 11 ] = 0 ; aad [ 12 ] = 0 ; mb_param . out = NULL ; mb_param . inp = aad ; mb_param . len = nw ;" 104,"CWE-362 struct dst_entry * inet_csk_route_req ( struct sock * sk , const struct request_sock * req ) { struct rtable * rt ; const struct inet_request_sock * ireq = inet_rsk ( req ) ; struct ip_options * opt = inet_rsk ( req ) -> opt ; struct net * net = sock_net ( sk ) ; struct flowi4 fl4 ; flowi4_init_output ( & fl4 , sk -> sk_bound_dev_if , sk -> sk_mark , RT_CONN_FLAGS ( sk ) , RT_SCOPE_UNIVERSE , sk -> sk_protocol , inet_sk_flowi_flags ( sk ) , ( opt && opt -> srr ) ? opt -> faddr : ireq -> rmt_addr , ireq -> loc_addr , ireq -> rmt_port , inet_sk ( sk ) -> inet_sport ) ; security_req_classify_flow ( req , flowi4_to_flowi ( & fl4 ) ) ; rt = ip_route_output_flow ( net , & fl4 , sk ) ; if ( IS_ERR ( rt ) ) goto no_route ; if ( opt && opt -> is_strictroute && rt -> rt_dst != rt -> rt_gateway ) goto route_err ; return & rt -> dst ; route_err : ip_rt_put ( rt ) ; no_route : IP_INC_STATS_BH ( net , IPSTATS_MIB_OUTNOROUTES ) ; return NULL ; }","struct dst_entry * inet_csk_route_req ( struct sock * sk , const struct request_sock * req ) { struct rtable * rt ; const struct inet_request_sock * ireq = inet_rsk ( req ) ; struct ip_options_rcu * opt = inet_rsk ( req ) -> opt ; struct net * net = sock_net ( sk ) ; struct flowi4 fl4 ; flowi4_init_output ( & fl4 , sk -> sk_bound_dev_if , sk -> sk_mark , RT_CONN_FLAGS ( sk ) , RT_SCOPE_UNIVERSE , sk -> sk_protocol , inet_sk_flowi_flags ( sk ) , ( opt && opt -> opt . srr ) ? opt -> opt . faddr : ireq -> rmt_addr , ireq -> loc_addr , ireq -> rmt_port , inet_sk ( sk ) -> inet_sport ) ; security_req_classify_flow ( req , flowi4_to_flowi ( & fl4 ) ) ; rt = ip_route_output_flow ( net , & fl4 , sk ) ; if ( IS_ERR ( rt ) ) goto no_route ; if ( opt && opt -> opt . is_strictroute && rt -> rt_dst != rt -> rt_gateway ) goto route_err ; return & rt -> dst ; route_err : ip_rt_put ( rt ) ; no_route : IP_INC_STATS_BH ( net , IPSTATS_MIB_OUTNOROUTES ) ; return NULL ; }" 105,"CWE-476 struct key * request_key_and_link ( struct key_type * type , const char * description , const void * callout_info , size_t callout_len , void * aux , struct key * dest_keyring , unsigned long flags ) { struct keyring_search_context ctx = { . index_key . type = type , . index_key . description = description , . cred = current_cred ( ) , . match_data . cmp = type -> match , . match_data . raw_data = description , . match_data . lookup_type = KEYRING_SEARCH_LOOKUP_DIRECT , } ; struct key * key ; key_ref_t key_ref ; int ret ; kenter ( ""%s,%s,%p,%zu,%p,%p,%lx"" , ctx . index_key . type -> name , ctx . index_key . description , callout_info , callout_len , aux , dest_keyring , flags ) ; if ( type -> match_preparse ) { ret = type -> match_preparse ( & ctx . match_data ) ; if ( ret < 0 ) { key = ERR_PTR ( ret ) ; goto error ; } } key_ref = search_process_keyrings ( & ctx ) ; if ( ! IS_ERR ( key_ref ) ) { key = key_ref_to_ptr ( key_ref ) ; if ( dest_keyring ) { construct_get_dest_keyring ( & dest_keyring ) ; ret = key_link ( dest_keyring , key ) ; key_put ( dest_keyring ) ; if ( ret < 0 ) { key_put ( key ) ; key = ERR_PTR ( ret ) ; goto error_free ; } } } else if ( PTR_ERR ( key_ref ) != - EAGAIN ) { key = ERR_CAST ( key_ref ) ; } else { key = ERR_PTR ( - ENOKEY ) ; if ( ! callout_info ) goto error_free ; key = construct_key_and_link ( & ctx , callout_info , callout_len , aux , dest_keyring , flags ) ; } error_free : if ( type -> match_free ) type -> match_free ( & ctx . match_data ) ; error : kleave ( "" = %p"" , key ) ; return key ; }","struct key * request_key_and_link ( struct key_type * type , const char * description , const void * callout_info , size_t callout_len , void * aux , struct key * dest_keyring , unsigned long flags ) { struct keyring_search_context ctx = { . index_key . type = type , . index_key . description = description , . cred = current_cred ( ) , . match_data . cmp = key_default_cmp , . match_data . raw_data = description , . match_data . lookup_type = KEYRING_SEARCH_LOOKUP_DIRECT , } ; struct key * key ; key_ref_t key_ref ; int ret ; kenter ( ""%s,%s,%p,%zu,%p,%p,%lx"" , ctx . index_key . type -> name , ctx . index_key . description , callout_info , callout_len , aux , dest_keyring , flags ) ; if ( type -> match_preparse ) { ret = type -> match_preparse ( & ctx . match_data ) ; if ( ret < 0 ) { key = ERR_PTR ( ret ) ; goto error ; } } key_ref = search_process_keyrings ( & ctx ) ; if ( ! IS_ERR ( key_ref ) ) { key = key_ref_to_ptr ( key_ref ) ; if ( dest_keyring ) { construct_get_dest_keyring ( & dest_keyring ) ; ret = key_link ( dest_keyring , key ) ; key_put ( dest_keyring ) ; if ( ret < 0 ) { key_put ( key ) ; key = ERR_PTR ( ret ) ; goto error_free ; } } } else if ( PTR_ERR ( key_ref ) != - EAGAIN ) { key = ERR_CAST ( key_ref ) ; } else { key = ERR_PTR ( - ENOKEY ) ; if ( ! callout_info ) goto error_free ; key = construct_key_and_link ( & ctx , callout_info , callout_len , aux , dest_keyring , flags ) ; } error_free : if ( type -> match_free ) type -> match_free ( & ctx . match_data ) ; error : kleave ( "" = %p"" , key ) ; return key ; }" 106,"CWE-125 static void l2tp_framing_type_print ( netdissect_options * ndo , const u_char * dat ) { const uint32_t * ptr = ( const uint32_t * ) dat ; if ( EXTRACT_32BITS ( ptr ) & L2TP_FRAMING_TYPE_ASYNC_MASK ) { ND_PRINT ( ( ndo , ""A"" ) ) ; } if ( EXTRACT_32BITS ( ptr ) & L2TP_FRAMING_TYPE_SYNC_MASK ) { ND_PRINT ( ( ndo , ""S"" ) ) ; } }","static void l2tp_framing_type_print ( netdissect_options * ndo , const u_char * dat , u_int length ) { const uint32_t * ptr = ( const uint32_t * ) dat ; if ( length < 4 ) { ND_PRINT ( ( ndo , ""AVP too short"" ) ) ; return ; } if ( EXTRACT_32BITS ( ptr ) & L2TP_FRAMING_TYPE_ASYNC_MASK ) { ND_PRINT ( ( ndo , ""A"" ) ) ; } if ( EXTRACT_32BITS ( ptr ) & L2TP_FRAMING_TYPE_SYNC_MASK ) { ND_PRINT ( ( ndo , ""S"" ) ) ; } }" 107,"CWE-119 static int tile_worker_hook ( void * arg1 , void * arg2 ) { TileWorkerData * const tile_data = ( TileWorkerData * ) arg1 ; const TileInfo * const tile = ( TileInfo * ) arg2 ; int mi_row , mi_col ; for ( mi_row = tile -> mi_row_start ; mi_row < tile -> mi_row_end ; mi_row += MI_BLOCK_SIZE ) { vp9_zero ( tile_data -> xd . left_context ) ; vp9_zero ( tile_data -> xd . left_seg_context ) ; for ( mi_col = tile -> mi_col_start ; mi_col < tile -> mi_col_end ; mi_col += MI_BLOCK_SIZE ) { decode_partition ( tile_data -> cm , & tile_data -> xd , tile , mi_row , mi_col , & tile_data -> bit_reader , BLOCK_64X64 ) ; } } return ! tile_data -> xd . corrupted ; }","static int tile_worker_hook ( TileWorkerData * const tile_data , const TileInfo * const tile ) { int mi_row , mi_col ; if ( setjmp ( tile_data -> error_info . jmp ) ) { tile_data -> error_info . setjmp = 0 ; tile_data -> xd . corrupted = 1 ; return 0 ; } tile_data -> error_info . setjmp = 1 ; tile_data -> xd . error_info = & tile_data -> error_info ; for ( mi_row = tile -> mi_row_start ; mi_row < tile -> mi_row_end ; mi_row += MI_BLOCK_SIZE ) { vp9_zero ( tile_data -> xd . left_context ) ; vp9_zero ( tile_data -> xd . left_seg_context ) ; for ( mi_col = tile -> mi_col_start ; mi_col < tile -> mi_col_end ; mi_col += MI_BLOCK_SIZE ) { decode_partition ( tile_data -> pbi , & tile_data -> xd , mi_row , mi_col , & tile_data -> bit_reader , BLOCK_64X64 , 4 ) ; } } return ! tile_data -> xd . corrupted ; }" 108,"CWE-190 void posixtimer_rearm ( struct siginfo * info ) { struct k_itimer * timr ; unsigned long flags ; timr = lock_timer ( info -> si_tid , & flags ) ; if ( ! timr ) return ; if ( timr -> it_requeue_pending == info -> si_sys_private ) { timr -> kclock -> timer_rearm ( timr ) ; timr -> it_active = 1 ; timr -> it_overrun_last = timr -> it_overrun ; timr -> it_overrun = - 1 ; info -> si_overrun += timr -> it_overrun_last ; } unlock_timer ( timr , flags ) ; }","void posixtimer_rearm ( struct siginfo * info ) { struct k_itimer * timr ; unsigned long flags ; timr = lock_timer ( info -> si_tid , & flags ) ; if ( ! timr ) return ; if ( timr -> it_requeue_pending == info -> si_sys_private ) { timr -> kclock -> timer_rearm ( timr ) ; timr -> it_active = 1 ; timr -> it_overrun_last = timr -> it_overrun ; timr -> it_overrun = - 1LL ; + timr -> it_requeue_pending ; info -> si_overrun = timer_overrun_to_int ( timr , info -> si_overrun ) ; } unlock_timer ( timr , flags ) ; }" 109,"NVD-CWE-Other static int jpc_qcd_dumpparms ( jpc_ms_t * ms , FILE * out ) { jpc_qcd_t * qcd = & ms -> parms . qcd ; int i ; fprintf ( out , ""qntsty = %d; numguard = %d; numstepsizes = %d\\n"" , ( int ) qcd -> compparms . qntsty , qcd -> compparms . numguard , qcd -> compparms . numstepsizes ) ; for ( i = 0 ; i < qcd -> compparms . numstepsizes ; ++ i ) { fprintf ( out , ""expn[%d] = 0x%04x; mant[%d] = 0x%04x;\\n"" , i , ( unsigned ) JPC_QCX_GETEXPN ( qcd -> compparms . stepsizes [ i ] ) , i , ( unsigned ) JPC_QCX_GETMANT ( qcd -> compparms . stepsizes [ i ] ) ) ; } return 0 ; }","static int jpc_qcd_dumpparms ( jpc_ms_t * ms , FILE * out ) { jpc_qcd_t * qcd = & ms -> parms . qcd ; int i ; fprintf ( out , ""qntsty = %d; numguard = %d; numstepsizes = %d\\n"" , ( int ) qcd -> compparms . qntsty , qcd -> compparms . numguard , qcd -> compparms . numstepsizes ) ; for ( i = 0 ; i < qcd -> compparms . numstepsizes ; ++ i ) { fprintf ( out , ""expn[%d] = 0x%04x; mant[%d] = 0x%04x;\\n"" , i , JAS_CAST ( unsigned , JPC_QCX_GETEXPN ( qcd -> compparms . stepsizes [ i ] ) ) , i , JAS_CAST ( unsigned , JPC_QCX_GETMANT ( qcd -> compparms . stepsizes [ i ] ) ) ) ; } return 0 ; }" 110,CWE-264 static void tun_net_init ( struct net_device * dev ) { struct tun_struct * tun = netdev_priv ( dev ) ; switch ( tun -> flags & TUN_TYPE_MASK ) { case TUN_TUN_DEV : dev -> netdev_ops = & tun_netdev_ops ; dev -> hard_header_len = 0 ; dev -> addr_len = 0 ; dev -> mtu = 1500 ; dev -> type = ARPHRD_NONE ; dev -> flags = IFF_POINTOPOINT | IFF_NOARP | IFF_MULTICAST ; dev -> tx_queue_len = TUN_READQ_SIZE ; break ; case TUN_TAP_DEV : dev -> netdev_ops = & tap_netdev_ops ; ether_setup ( dev ) ; random_ether_addr ( dev -> dev_addr ) ; dev -> tx_queue_len = TUN_READQ_SIZE ; break ; } },static void tun_net_init ( struct net_device * dev ) { struct tun_struct * tun = netdev_priv ( dev ) ; switch ( tun -> flags & TUN_TYPE_MASK ) { case TUN_TUN_DEV : dev -> netdev_ops = & tun_netdev_ops ; dev -> hard_header_len = 0 ; dev -> addr_len = 0 ; dev -> mtu = 1500 ; dev -> type = ARPHRD_NONE ; dev -> flags = IFF_POINTOPOINT | IFF_NOARP | IFF_MULTICAST ; dev -> tx_queue_len = TUN_READQ_SIZE ; break ; case TUN_TAP_DEV : dev -> netdev_ops = & tap_netdev_ops ; ether_setup ( dev ) ; dev -> priv_flags &= ~ IFF_TX_SKB_SHARING ; random_ether_addr ( dev -> dev_addr ) ; dev -> tx_queue_len = TUN_READQ_SIZE ; break ; } } 111,"CWE-200 static int ext4_write_end ( struct file * file , struct address_space * mapping , loff_t pos , unsigned len , unsigned copied , struct page * page , void * fsdata ) { handle_t * handle = ext4_journal_current_handle ( ) ; struct inode * inode = mapping -> host ; loff_t old_size = inode -> i_size ; int ret = 0 , ret2 ; int i_size_changed = 0 ; trace_ext4_write_end ( inode , pos , len , copied ) ; if ( ext4_test_inode_state ( inode , EXT4_STATE_ORDERED_MODE ) ) { ret = ext4_jbd2_file_inode ( handle , inode ) ; if ( ret ) { unlock_page ( page ) ; put_page ( page ) ; goto errout ; } } if ( ext4_has_inline_data ( inode ) ) { ret = ext4_write_inline_data_end ( inode , pos , len , copied , page ) ; if ( ret < 0 ) goto errout ; copied = ret ; } else copied = block_write_end ( file , mapping , pos , len , copied , page , fsdata ) ; i_size_changed = ext4_update_inode_size ( inode , pos + copied ) ; unlock_page ( page ) ; put_page ( page ) ; if ( old_size < pos ) pagecache_isize_extended ( inode , old_size , pos ) ; if ( i_size_changed ) ext4_mark_inode_dirty ( handle , inode ) ; if ( pos + len > inode -> i_size && ext4_can_truncate ( inode ) ) ext4_orphan_add ( handle , inode ) ; errout : ret2 = ext4_journal_stop ( handle ) ; if ( ! ret ) ret = ret2 ; if ( pos + len > inode -> i_size ) { ext4_truncate_failed_write ( inode ) ; if ( inode -> i_nlink ) ext4_orphan_del ( NULL , inode ) ; } return ret ? ret : copied ; }","static int ext4_write_end ( struct file * file , struct address_space * mapping , loff_t pos , unsigned len , unsigned copied , struct page * page , void * fsdata ) { handle_t * handle = ext4_journal_current_handle ( ) ; struct inode * inode = mapping -> host ; loff_t old_size = inode -> i_size ; int ret = 0 , ret2 ; int i_size_changed = 0 ; trace_ext4_write_end ( inode , pos , len , copied ) ; if ( ext4_has_inline_data ( inode ) ) { ret = ext4_write_inline_data_end ( inode , pos , len , copied , page ) ; if ( ret < 0 ) goto errout ; copied = ret ; } else copied = block_write_end ( file , mapping , pos , len , copied , page , fsdata ) ; i_size_changed = ext4_update_inode_size ( inode , pos + copied ) ; unlock_page ( page ) ; put_page ( page ) ; if ( old_size < pos ) pagecache_isize_extended ( inode , old_size , pos ) ; if ( i_size_changed ) ext4_mark_inode_dirty ( handle , inode ) ; if ( pos + len > inode -> i_size && ext4_can_truncate ( inode ) ) ext4_orphan_add ( handle , inode ) ; errout : ret2 = ext4_journal_stop ( handle ) ; if ( ! ret ) ret = ret2 ; if ( pos + len > inode -> i_size ) { ext4_truncate_failed_write ( inode ) ; if ( inode -> i_nlink ) ext4_orphan_del ( NULL , inode ) ; } return ret ? ret : copied ; }" 112,"CWE-436 tbit , ECOMMUNITY_FLAG_NON_TRANSITIVE ) ) continue ; stream_put ( s , pnt , 8 ) ; } } } } if ( safi == SAFI_LABELED_UNICAST ) { if ( attr -> flag & ATTR_FLAG_BIT ( BGP_ATTR_PREFIX_SID ) ) { uint32_t label_index ; label_index = attr -> label_index ; if ( label_index != BGP_INVALID_LABEL_INDEX ) { stream_putc ( s , BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANS ) ; stream_putc ( s , BGP_ATTR_PREFIX_SID ) ; stream_putc ( s , 10 ) ; stream_putc ( s , BGP_PREFIX_SID_LABEL_INDEX ) ; stream_putw ( s , BGP_PREFIX_SID_LABEL_INDEX_LENGTH ) ; stream_putc ( s , 0 ) ; stream_putw ( s , 0 ) ; stream_putl ( s , label_index ) ; } } } if ( send_as4_path ) { aspath = aspath_delete_confed_seq ( aspath ) ; stream_putc ( s , BGP_ATTR_FLAG_TRANS | BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_EXTLEN ) ; stream_putc ( s , BGP_ATTR_AS4_PATH ) ; aspath_sizep = stream_get_endp ( s ) ; stream_putw ( s , 0 ) ; stream_putw_at ( s , aspath_sizep , aspath_put ( s , aspath , 1 ) ) ; } if ( aspath != attr -> aspath ) aspath_free ( aspath ) ; if ( send_as4_aggregator ) { stream_putc ( s , BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANS ) ; stream_putc ( s , BGP_ATTR_AS4_AGGREGATOR ) ; stream_putc ( s , 8 ) ; stream_putl ( s , attr -> aggregator_as ) ; stream_put_ipv4 ( s , attr -> aggregator_addr . s_addr ) ; } if ( ( ( afi == AFI_IP || afi == AFI_IP6 ) && ( safi == SAFI_ENCAP || safi == SAFI_MPLS_VPN ) ) || ( afi == AFI_L2VPN && safi == SAFI_EVPN ) ) { bgp_packet_mpattr_tea ( bgp , peer , s , attr , BGP_ATTR_ENCAP ) ; # if ENABLE_BGP_VNC bgp_packet_mpattr_tea ( bgp , peer , s , attr , BGP_ATTR_VNC ) ; # endif } if ( attr -> flag & ATTR_FLAG_BIT ( BGP_ATTR_PMSI_TUNNEL ) ) { stream_putc ( s , BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANS ) ; stream_putc ( s , BGP_ATTR_PMSI_TUNNEL ) ; stream_putc ( s , 9 ) ; stream_putc ( s , 0 ) ; stream_putc ( s , PMSI_TNLTYPE_INGR_REPL ) ; stream_put ( s , & ( attr -> label ) , BGP_LABEL_BYTES ) ; stream_put_ipv4 ( s , attr -> nexthop . s_addr ) ; } if ( attr -> transit ) stream_put ( s , attr -> transit -> val , attr -> transit -> length ) ; return stream_get_endp ( s ) - cp ; }","tbit , ECOMMUNITY_FLAG_NON_TRANSITIVE ) ) continue ; stream_put ( s , pnt , 8 ) ; } } } } if ( safi == SAFI_LABELED_UNICAST ) { if ( attr -> flag & ATTR_FLAG_BIT ( BGP_ATTR_PREFIX_SID ) ) { uint32_t label_index ; label_index = attr -> label_index ; if ( label_index != BGP_INVALID_LABEL_INDEX ) { stream_putc ( s , BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANS ) ; stream_putc ( s , BGP_ATTR_PREFIX_SID ) ; stream_putc ( s , 10 ) ; stream_putc ( s , BGP_PREFIX_SID_LABEL_INDEX ) ; stream_putw ( s , BGP_PREFIX_SID_LABEL_INDEX_LENGTH ) ; stream_putc ( s , 0 ) ; stream_putw ( s , 0 ) ; stream_putl ( s , label_index ) ; } } } if ( send_as4_path ) { aspath = aspath_delete_confed_seq ( aspath ) ; stream_putc ( s , BGP_ATTR_FLAG_TRANS | BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_EXTLEN ) ; stream_putc ( s , BGP_ATTR_AS4_PATH ) ; aspath_sizep = stream_get_endp ( s ) ; stream_putw ( s , 0 ) ; stream_putw_at ( s , aspath_sizep , aspath_put ( s , aspath , 1 ) ) ; } if ( aspath != attr -> aspath ) aspath_free ( aspath ) ; if ( send_as4_aggregator ) { stream_putc ( s , BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANS ) ; stream_putc ( s , BGP_ATTR_AS4_AGGREGATOR ) ; stream_putc ( s , 8 ) ; stream_putl ( s , attr -> aggregator_as ) ; stream_put_ipv4 ( s , attr -> aggregator_addr . s_addr ) ; } if ( ( ( afi == AFI_IP || afi == AFI_IP6 ) && ( safi == SAFI_ENCAP || safi == SAFI_MPLS_VPN ) ) || ( afi == AFI_L2VPN && safi == SAFI_EVPN ) ) { bgp_packet_mpattr_tea ( bgp , peer , s , attr , BGP_ATTR_ENCAP ) ; # if ENABLE_BGP_VNC_ATTR bgp_packet_mpattr_tea ( bgp , peer , s , attr , BGP_ATTR_VNC ) ; # endif } if ( attr -> flag & ATTR_FLAG_BIT ( BGP_ATTR_PMSI_TUNNEL ) ) { stream_putc ( s , BGP_ATTR_FLAG_OPTIONAL | BGP_ATTR_FLAG_TRANS ) ; stream_putc ( s , BGP_ATTR_PMSI_TUNNEL ) ; stream_putc ( s , 9 ) ; stream_putc ( s , 0 ) ; stream_putc ( s , PMSI_TNLTYPE_INGR_REPL ) ; stream_put ( s , & ( attr -> label ) , BGP_LABEL_BYTES ) ; stream_put_ipv4 ( s , attr -> nexthop . s_addr ) ; } if ( attr -> transit ) stream_put ( s , attr -> transit -> val , attr -> transit -> length ) ; return stream_get_endp ( s ) - cp ; }" 113,"CWE-352 static void do_service ( Socket_T s ) { volatile HttpResponse res = create_HttpResponse ( s ) ; volatile HttpRequest req = create_HttpRequest ( s ) ; if ( res && req ) { if ( Run . httpd . flags & Httpd_Ssl ) set_header ( res , ""Strict-Transport-Security"" , ""max-age=63072000; includeSubdomains; preload"" ) ; if ( is_authenticated ( req , res ) ) { if ( IS ( req -> method , METHOD_GET ) ) Impl . doGet ( req , res ) ; else if ( IS ( req -> method , METHOD_POST ) ) Impl . doPost ( req , res ) ; else send_error ( req , res , SC_NOT_IMPLEMENTED , ""Method not implemented"" ) ; } send_response ( req , res ) ; } done ( req , res ) ; }","static void do_service ( Socket_T s ) { volatile HttpResponse res = create_HttpResponse ( s ) ; volatile HttpRequest req = create_HttpRequest ( s ) ; if ( res && req ) { if ( Run . httpd . flags & Httpd_Ssl ) set_header ( res , ""Strict-Transport-Security"" , ""max-age=63072000; includeSubdomains; preload"" ) ; if ( is_authenticated ( req , res ) ) { set_header ( res , ""Set-Cookie"" , ""securitytoken=%s; Max-Age=600; HttpOnly; SameSite=strict%s"" , res -> token , Run . httpd . flags & Httpd_Ssl ? ""; Secure"" : """" ) ; if ( IS ( req -> method , METHOD_GET ) ) Impl . doGet ( req , res ) ; else if ( IS ( req -> method , METHOD_POST ) ) Impl . doPost ( req , res ) ; else send_error ( req , res , SC_NOT_IMPLEMENTED , ""Method not implemented"" ) ; } send_response ( req , res ) ; } done ( req , res ) ; }" 114,"CWE-94 int StreamTcpPacket ( ThreadVars * tv , Packet * p , StreamTcpThread * stt , PacketQueue * pq ) { SCEnter ( ) ; DEBUG_ASSERT_FLOW_LOCKED ( p -> flow ) ; SCLogDebug ( ""p->pcap_cnt %"" PRIu64 , p -> pcap_cnt ) ; HandleThreadId ( tv , p , stt ) ; TcpSession * ssn = ( TcpSession * ) p -> flow -> protoctx ; if ( ssn != NULL ) { ssn -> tcp_packet_flags |= p -> tcph -> th_flags ; if ( PKT_IS_TOSERVER ( p ) ) ssn -> client . tcp_flags |= p -> tcph -> th_flags ; else if ( PKT_IS_TOCLIENT ( p ) ) ssn -> server . tcp_flags |= p -> tcph -> th_flags ; if ( ssn -> flags & STREAMTCP_FLAG_ASYNC && ssn -> client . tcp_flags != 0 && ssn -> server . tcp_flags != 0 ) { SCLogDebug ( ""ssn %p: removing ASYNC flag as we have packets on both sides"" , ssn ) ; ssn -> flags &= ~ STREAMTCP_FLAG_ASYNC ; } } if ( ( p -> tcph -> th_flags & ( TH_SYN | TH_ACK ) ) == ( TH_SYN | TH_ACK ) ) { StatsIncr ( tv , stt -> counter_tcp_synack ) ; } else if ( p -> tcph -> th_flags & ( TH_SYN ) ) { StatsIncr ( tv , stt -> counter_tcp_syn ) ; } if ( p -> tcph -> th_flags & ( TH_RST ) ) { StatsIncr ( tv , stt -> counter_tcp_rst ) ; } if ( ! ( p -> tcph -> th_flags & TH_ACK ) && TCP_GET_ACK ( p ) != 0 ) { StreamTcpSetEvent ( p , STREAM_PKT_BROKEN_ACK ) ; } if ( StreamTcpCheckFlowDrops ( p ) == 1 ) { SCLogDebug ( ""This flow/stream triggered a drop rule"" ) ; FlowSetNoPacketInspectionFlag ( p -> flow ) ; DecodeSetNoPacketInspectionFlag ( p ) ; StreamTcpDisableAppLayer ( p -> flow ) ; PACKET_DROP ( p ) ; StreamTcpSessionPktFree ( p ) ; SCReturnInt ( 0 ) ; } if ( ssn == NULL || ssn -> state == TCP_NONE ) { if ( StreamTcpPacketStateNone ( tv , p , stt , ssn , & stt -> pseudo_queue ) == - 1 ) { goto error ; } if ( ssn != NULL ) SCLogDebug ( ""ssn->alproto %"" PRIu16 """" , p -> flow -> alproto ) ; } else { if ( p -> flags & PKT_PSEUDO_STREAM_END ) { if ( PKT_IS_TOCLIENT ( p ) ) { ssn -> client . last_ack = TCP_GET_ACK ( p ) ; StreamTcpReassembleHandleSegment ( tv , stt -> ra_ctx , ssn , & ssn -> server , p , pq ) ; } else { ssn -> server . last_ack = TCP_GET_ACK ( p ) ; StreamTcpReassembleHandleSegment ( tv , stt -> ra_ctx , ssn , & ssn -> client , p , pq ) ; } goto skip ; } if ( p -> flow -> flags & FLOW_WRONG_THREAD || ssn -> client . flags & STREAMTCP_STREAM_FLAG_GAP || ssn -> server . flags & STREAMTCP_STREAM_FLAG_GAP ) { p -> flags |= PKT_STREAM_NO_EVENTS ; } if ( StreamTcpPacketIsKeepAlive ( ssn , p ) == 1 ) { goto skip ; } if ( StreamTcpPacketIsKeepAliveACK ( ssn , p ) == 1 ) { StreamTcpClearKeepAliveFlag ( ssn , p ) ; goto skip ; } StreamTcpClearKeepAliveFlag ( ssn , p ) ; if ( StreamTcpPacketIsFinShutdownAck ( ssn , p ) == 0 ) if ( StreamTcpPacketIsWindowUpdate ( ssn , p ) == 0 ) if ( StreamTcpPacketIsBadWindowUpdate ( ssn , p ) ) goto skip ; if ( StreamTcpStateDispatch ( tv , p , stt , ssn , & stt -> pseudo_queue , ssn -> state ) < 0 ) goto error ; skip :","int StreamTcpPacket ( ThreadVars * tv , Packet * p , StreamTcpThread * stt , PacketQueue * pq ) { SCEnter ( ) ; DEBUG_ASSERT_FLOW_LOCKED ( p -> flow ) ; SCLogDebug ( ""p->pcap_cnt %"" PRIu64 , p -> pcap_cnt ) ; HandleThreadId ( tv , p , stt ) ; TcpSession * ssn = ( TcpSession * ) p -> flow -> protoctx ; if ( ssn != NULL ) { ssn -> tcp_packet_flags |= p -> tcph -> th_flags ; if ( PKT_IS_TOSERVER ( p ) ) ssn -> client . tcp_flags |= p -> tcph -> th_flags ; else if ( PKT_IS_TOCLIENT ( p ) ) ssn -> server . tcp_flags |= p -> tcph -> th_flags ; if ( ssn -> flags & STREAMTCP_FLAG_ASYNC && ssn -> client . tcp_flags != 0 && ssn -> server . tcp_flags != 0 ) { SCLogDebug ( ""ssn %p: removing ASYNC flag as we have packets on both sides"" , ssn ) ; ssn -> flags &= ~ STREAMTCP_FLAG_ASYNC ; } } if ( ( p -> tcph -> th_flags & ( TH_SYN | TH_ACK ) ) == ( TH_SYN | TH_ACK ) ) { StatsIncr ( tv , stt -> counter_tcp_synack ) ; } else if ( p -> tcph -> th_flags & ( TH_SYN ) ) { StatsIncr ( tv , stt -> counter_tcp_syn ) ; } if ( p -> tcph -> th_flags & ( TH_RST ) ) { StatsIncr ( tv , stt -> counter_tcp_rst ) ; } if ( ! ( p -> tcph -> th_flags & TH_ACK ) && TCP_GET_ACK ( p ) != 0 ) { StreamTcpSetEvent ( p , STREAM_PKT_BROKEN_ACK ) ; goto error ; } if ( StreamTcpCheckFlowDrops ( p ) == 1 ) { SCLogDebug ( ""This flow/stream triggered a drop rule"" ) ; FlowSetNoPacketInspectionFlag ( p -> flow ) ; DecodeSetNoPacketInspectionFlag ( p ) ; StreamTcpDisableAppLayer ( p -> flow ) ; PACKET_DROP ( p ) ; StreamTcpSessionPktFree ( p ) ; SCReturnInt ( 0 ) ; } if ( ssn == NULL || ssn -> state == TCP_NONE ) { if ( StreamTcpPacketStateNone ( tv , p , stt , ssn , & stt -> pseudo_queue ) == - 1 ) { goto error ; } if ( ssn != NULL ) SCLogDebug ( ""ssn->alproto %"" PRIu16 """" , p -> flow -> alproto ) ; } else { if ( p -> flags & PKT_PSEUDO_STREAM_END ) { if ( PKT_IS_TOCLIENT ( p ) ) { ssn -> client . last_ack = TCP_GET_ACK ( p ) ; StreamTcpReassembleHandleSegment ( tv , stt -> ra_ctx , ssn , & ssn -> server , p , pq ) ; } else { ssn -> server . last_ack = TCP_GET_ACK ( p ) ; StreamTcpReassembleHandleSegment ( tv , stt -> ra_ctx , ssn , & ssn -> client , p , pq ) ; } goto skip ; } if ( p -> flow -> flags & FLOW_WRONG_THREAD || ssn -> client . flags & STREAMTCP_STREAM_FLAG_GAP || ssn -> server . flags & STREAMTCP_STREAM_FLAG_GAP ) { p -> flags |= PKT_STREAM_NO_EVENTS ; } if ( StreamTcpPacketIsKeepAlive ( ssn , p ) == 1 ) { goto skip ; } if ( StreamTcpPacketIsKeepAliveACK ( ssn , p ) == 1 ) { StreamTcpClearKeepAliveFlag ( ssn , p ) ; goto skip ; } StreamTcpClearKeepAliveFlag ( ssn , p ) ; if ( StreamTcpPacketIsFinShutdownAck ( ssn , p ) == 0 ) if ( StreamTcpPacketIsWindowUpdate ( ssn , p ) == 0 ) if ( StreamTcpPacketIsBadWindowUpdate ( ssn , p ) ) goto skip ; if ( StreamTcpStateDispatch ( tv , p , stt , ssn , & stt -> pseudo_queue , ssn -> state ) < 0 ) goto error ; skip :" 115,"CWE-119 static vpx_codec_err_t ctrl_set_active_map ( vpx_codec_alg_priv_t * ctx , int ctr_id , va_list args ) { vpx_active_map_t * const map = va_arg ( args , vpx_active_map_t * ) ; if ( map ) { if ( ! vp9_set_active_map ( ctx -> cpi , map -> active_map , map -> rows , map -> cols ) ) return VPX_CODEC_OK ; else return VPX_CODEC_INVALID_PARAM ; } else { return VPX_CODEC_INVALID_PARAM ; } }","static vpx_codec_err_t ctrl_set_active_map ( vpx_codec_alg_priv_t * ctx , va_list args ) { vpx_active_map_t * const map = va_arg ( args , vpx_active_map_t * ) ; if ( map ) { if ( ! vp9_set_active_map ( ctx -> cpi , map -> active_map , ( int ) map -> rows , ( int ) map -> cols ) ) return VPX_CODEC_OK ; else return VPX_CODEC_INVALID_PARAM ; } else { return VPX_CODEC_INVALID_PARAM ; } }" 116,"CWE-189 static struct mobj * alloc_ta_mem ( size_t size ) { # ifdef CFG_PAGED_USER_TA return mobj_paged_alloc ( size ) ; # else struct mobj * mobj = mobj_mm_alloc ( mobj_sec_ddr , size , & tee_mm_sec_ddr ) ; if ( mobj ) memset ( mobj_get_va ( mobj , 0 ) , 0 , size ) ; return mobj ; # endif }","static struct mobj * alloc_ta_mem ( size_t size ) { # ifdef CFG_PAGED_USER_TA return mobj_paged_alloc ( size ) ; # else struct mobj * mobj = mobj_mm_alloc ( mobj_sec_ddr , size , & tee_mm_sec_ddr ) ; if ( mobj ) { size_t granularity = BIT ( tee_mm_sec_ddr . shift ) ; memset ( mobj_get_va ( mobj , 0 ) , 0 , ROUNDUP ( size , granularity ) ) ; } return mobj ; # endif }" 117,"CWE-399 static int db_interception ( struct vcpu_svm * svm ) { struct kvm_run * kvm_run = svm -> vcpu . run ; if ( ! ( svm -> vcpu . guest_debug & ( KVM_GUESTDBG_SINGLESTEP | KVM_GUESTDBG_USE_HW_BP ) ) && ! svm -> nmi_singlestep ) { kvm_queue_exception ( & svm -> vcpu , DB_VECTOR ) ; return 1 ; } if ( svm -> nmi_singlestep ) { svm -> nmi_singlestep = false ; if ( ! ( svm -> vcpu . guest_debug & KVM_GUESTDBG_SINGLESTEP ) ) svm -> vmcb -> save . rflags &= ~ ( X86_EFLAGS_TF | X86_EFLAGS_RF ) ; update_db_bp_intercept ( & svm -> vcpu ) ; } if ( svm -> vcpu . guest_debug & ( KVM_GUESTDBG_SINGLESTEP | KVM_GUESTDBG_USE_HW_BP ) ) { kvm_run -> exit_reason = KVM_EXIT_DEBUG ; kvm_run -> debug . arch . pc = svm -> vmcb -> save . cs . base + svm -> vmcb -> save . rip ; kvm_run -> debug . arch . exception = DB_VECTOR ; return 0 ; } return 1 ; }","static int db_interception ( struct vcpu_svm * svm ) { struct kvm_run * kvm_run = svm -> vcpu . run ; if ( ! ( svm -> vcpu . guest_debug & ( KVM_GUESTDBG_SINGLESTEP | KVM_GUESTDBG_USE_HW_BP ) ) && ! svm -> nmi_singlestep ) { kvm_queue_exception ( & svm -> vcpu , DB_VECTOR ) ; return 1 ; } if ( svm -> nmi_singlestep ) { svm -> nmi_singlestep = false ; if ( ! ( svm -> vcpu . guest_debug & KVM_GUESTDBG_SINGLESTEP ) ) svm -> vmcb -> save . rflags &= ~ ( X86_EFLAGS_TF | X86_EFLAGS_RF ) ; } if ( svm -> vcpu . guest_debug & ( KVM_GUESTDBG_SINGLESTEP | KVM_GUESTDBG_USE_HW_BP ) ) { kvm_run -> exit_reason = KVM_EXIT_DEBUG ; kvm_run -> debug . arch . pc = svm -> vmcb -> save . cs . base + svm -> vmcb -> save . rip ; kvm_run -> debug . arch . exception = DB_VECTOR ; return 0 ; } return 1 ; }" 118,"CWE-119 static int calc_iframe_target_size_one_pass_vbr ( const VP9_COMP * const cpi ) { static const int kf_ratio = 25 ; const RATE_CONTROL * rc = & cpi -> rc ; int target = rc -> av_per_frame_bandwidth * kf_ratio ; return vp9_rc_clamp_iframe_target_size ( cpi , target ) ; }","static int calc_iframe_target_size_one_pass_vbr ( const VP9_COMP * const cpi ) { static const int kf_ratio = 25 ; const RATE_CONTROL * rc = & cpi -> rc ; const int target = rc -> avg_frame_bandwidth * kf_ratio ; return vp9_rc_clamp_iframe_target_size ( cpi , target ) ; }" 119,"CWE-190 SQLITE_PRIVATE ExprList * sqlite3ExprListAppend ( Parse * pParse , ExprList * pList , Expr * pExpr ) { struct ExprList_item * pItem ; sqlite3 * db = pParse -> db ; assert ( db != 0 ) ; if ( pList == 0 ) { pList = sqlite3DbMallocRawNN ( db , sizeof ( ExprList ) ) ; if ( pList == 0 ) { goto no_mem ; } pList -> nExpr = 0 ; } else if ( ( pList -> nExpr & ( pList -> nExpr - 1 ) ) == 0 ) { ExprList * pNew ; pNew = sqlite3DbRealloc ( db , pList , sizeof ( * pList ) + ( 2 * pList -> nExpr - 1 ) * sizeof ( pList -> a [ 0 ] ) ) ; if ( pNew == 0 ) { goto no_mem ; } pList = pNew ; } pItem = & pList -> a [ pList -> nExpr ++ ] ; assert ( offsetof ( struct ExprList_item , zName ) == sizeof ( pItem -> pExpr ) ) ; assert ( offsetof ( struct ExprList_item , pExpr ) == 0 ) ; memset ( & pItem -> zName , 0 , sizeof ( * pItem ) - offsetof ( struct ExprList_item , zName ) ) ; pItem -> pExpr = pExpr ; return pList ; no_mem : sqlite3ExprDelete ( db , pExpr ) ; sqlite3ExprListDelete ( db , pList ) ; return 0 ; }","SQLITE_PRIVATE ExprList * sqlite3ExprListAppend ( Parse * pParse , ExprList * pList , Expr * pExpr ) { struct ExprList_item * pItem ; sqlite3 * db = pParse -> db ; assert ( db != 0 ) ; if ( pList == 0 ) { pList = sqlite3DbMallocRawNN ( db , sizeof ( ExprList ) ) ; if ( pList == 0 ) { goto no_mem ; } pList -> nExpr = 0 ; } else if ( ( pList -> nExpr & ( pList -> nExpr - 1 ) ) == 0 ) { ExprList * pNew ; pNew = sqlite3DbRealloc ( db , pList , sizeof ( * pList ) + ( 2 * ( sqlite3_int64 ) pList -> nExpr - 1 ) * sizeof ( pList -> a [ 0 ] ) ) ; if ( pNew == 0 ) { goto no_mem ; } pList = pNew ; } pItem = & pList -> a [ pList -> nExpr ++ ] ; assert ( offsetof ( struct ExprList_item , zName ) == sizeof ( pItem -> pExpr ) ) ; assert ( offsetof ( struct ExprList_item , pExpr ) == 0 ) ; memset ( & pItem -> zName , 0 , sizeof ( * pItem ) - offsetof ( struct ExprList_item , zName ) ) ; pItem -> pExpr = pExpr ; return pList ; no_mem : sqlite3ExprDelete ( db , pExpr ) ; sqlite3ExprListDelete ( db , pList ) ; return 0 ; }" 120,"CWE-190 static int read_fragment_table ( long long * directory_table_end ) { int res , i ; int bytes = SQUASHFS_FRAGMENT_BYTES ( sBlk . s . fragments ) ; int indexes = SQUASHFS_FRAGMENT_INDEXES ( sBlk . s . fragments ) ; long long fragment_table_index [ indexes ] ; TRACE ( ""read_fragment_table: %d fragments, reading %d fragment indexes "" ""from 0x%llx\\n"" , sBlk . s . fragments , indexes , sBlk . s . fragment_table_start ) ; if ( sBlk . s . fragments == 0 ) { * directory_table_end = sBlk . s . fragment_table_start ; return TRUE ; } fragment_table = malloc ( bytes ) ; if ( fragment_table == NULL ) EXIT_UNSQUASH ( ""read_fragment_table: failed to allocate "" ""fragment table\\n"" ) ; res = read_fs_bytes ( fd , sBlk . s . fragment_table_start , SQUASHFS_FRAGMENT_INDEX_BYTES ( sBlk . s . fragments ) , fragment_table_index ) ; if ( res == FALSE ) { ERROR ( ""read_fragment_table: failed to read fragment table "" ""index\\n"" ) ; return FALSE ; } SQUASHFS_INSWAP_FRAGMENT_INDEXES ( fragment_table_index , indexes ) ; for ( i = 0 ; i < indexes ; i ++ ) { int expected = ( i + 1 ) != indexes ? SQUASHFS_METADATA_SIZE : bytes & ( SQUASHFS_METADATA_SIZE - 1 ) ; int length = read_block ( fd , fragment_table_index [ i ] , NULL , expected , ( ( char * ) fragment_table ) + ( i * SQUASHFS_METADATA_SIZE ) ) ; TRACE ( ""Read fragment table block %d, from 0x%llx, length %d\\n"" , i , fragment_table_index [ i ] , length ) ; if ( length == FALSE ) { ERROR ( ""read_fragment_table: failed to read fragment "" ""table index\\n"" ) ; return FALSE ; } } for ( i = 0 ; i < sBlk . s . fragments ; i ++ ) SQUASHFS_INSWAP_FRAGMENT_ENTRY ( & fragment_table [ i ] ) ; * directory_table_end = fragment_table_index [ 0 ] ; return TRUE ; }","static int read_fragment_table ( long long * table_start ) { int res , i ; long long bytes = SQUASHFS_FRAGMENT_BYTES ( ( long long ) sBlk . s . fragments ) ; int indexes = SQUASHFS_FRAGMENT_INDEXES ( ( long long ) sBlk . s . fragments ) ; int length = SQUASHFS_FRAGMENT_INDEX_BYTES ( ( long long ) sBlk . s . fragments ) ; long long * fragment_table_index ; if ( length != ( * table_start - sBlk . s . fragment_table_start ) ) { ERROR ( ""read_fragment_table: Bad fragment count in super block\\n"" ) ; return FALSE ; } TRACE ( ""read_fragment_table: %d fragments, reading %d fragment indexes "" ""from 0x%llx\\n"" , sBlk . s . fragments , indexes , sBlk . s . fragment_table_start ) ; fragment_table_index = alloc_index_table ( indexes ) ; fragment_table = malloc ( bytes ) ; if ( fragment_table == NULL ) EXIT_UNSQUASH ( ""read_fragment_table: failed to allocate "" ""fragment table\\n"" ) ; res = read_fs_bytes ( fd , sBlk . s . fragment_table_start , length , fragment_table_index ) ; if ( res == FALSE ) { ERROR ( ""read_fragment_table: failed to read fragment table "" ""index\\n"" ) ; return FALSE ; } SQUASHFS_INSWAP_FRAGMENT_INDEXES ( fragment_table_index , indexes ) ; for ( i = 0 ; i < indexes ; i ++ ) { int expected = ( i + 1 ) != indexes ? SQUASHFS_METADATA_SIZE : bytes & ( SQUASHFS_METADATA_SIZE - 1 ) ; int length = read_block ( fd , fragment_table_index [ i ] , NULL , expected , ( ( char * ) fragment_table ) + ( i * SQUASHFS_METADATA_SIZE ) ) ; TRACE ( ""Read fragment table block %d, from 0x%llx, length %d\\n"" , i , fragment_table_index [ i ] , length ) ; if ( length == FALSE ) { ERROR ( ""read_fragment_table: failed to read fragment "" ""table index\\n"" ) ; return FALSE ; } } for ( i = 0 ; i < sBlk . s . fragments ; i ++ ) SQUASHFS_INSWAP_FRAGMENT_ENTRY ( & fragment_table [ i ] ) ; * table_start = fragment_table_index [ 0 ] ; return TRUE ; }" 121,"CWE-20 void ksz8851EventHandler ( NetInterface * interface ) { uint16_t status ; uint_t frameCount ; status = ksz8851ReadReg ( interface , KSZ8851_REG_ISR ) ; if ( ( status & ISR_LCIS ) != 0 ) { ksz8851WriteReg ( interface , KSZ8851_REG_ISR , ISR_LCIS ) ; status = ksz8851ReadReg ( interface , KSZ8851_REG_P1SR ) ; if ( ( status & P1SR_LINK_GOOD ) != 0 ) { if ( ( status & P1SR_OPERATION_SPEED ) != 0 ) { interface -> linkSpeed = NIC_LINK_SPEED_100MBPS ; } else { interface -> linkSpeed = NIC_LINK_SPEED_10MBPS ; } if ( ( status & P1SR_OPERATION_DUPLEX ) != 0 ) { interface -> duplexMode = NIC_FULL_DUPLEX_MODE ; } else { interface -> duplexMode = NIC_HALF_DUPLEX_MODE ; } interface -> linkState = TRUE ; } else { interface -> linkState = FALSE ; } nicNotifyLinkChange ( interface ) ; } if ( ( status & ISR_RXIS ) != 0 ) { ksz8851WriteReg ( interface , KSZ8851_REG_ISR , ISR_RXIS ) ; frameCount = MSB ( ksz8851ReadReg ( interface , KSZ8851_REG_RXFCTR ) ) ; while ( frameCount > 0 ) { ksz8851ReceivePacket ( interface ) ; frameCount -- ; } } ksz8851SetBit ( interface , KSZ8851_REG_IER , IER_LCIE | IER_RXIE ) ; }","void ksz8851EventHandler ( NetInterface * interface ) { uint16_t status ; uint_t frameCount ; status = ksz8851ReadReg ( interface , KSZ8851_ISR ) ; if ( ( status & KSZ8851_ISR_LCIS ) != 0 ) { ksz8851WriteReg ( interface , KSZ8851_ISR , KSZ8851_ISR_LCIS ) ; status = ksz8851ReadReg ( interface , KSZ8851_P1SR ) ; if ( ( status & KSZ8851_P1SR_LINK_GOOD ) != 0 ) { if ( ( status & KSZ8851_P1SR_OPERATION_SPEED ) != 0 ) { interface -> linkSpeed = NIC_LINK_SPEED_100MBPS ; } else { interface -> linkSpeed = NIC_LINK_SPEED_10MBPS ; } if ( ( status & KSZ8851_P1SR_OPERATION_DUPLEX ) != 0 ) { interface -> duplexMode = NIC_FULL_DUPLEX_MODE ; } else { interface -> duplexMode = NIC_HALF_DUPLEX_MODE ; } interface -> linkState = TRUE ; } else { interface -> linkState = FALSE ; } nicNotifyLinkChange ( interface ) ; } if ( ( status & KSZ8851_ISR_RXIS ) != 0 ) { ksz8851WriteReg ( interface , KSZ8851_ISR , KSZ8851_ISR_RXIS ) ; frameCount = MSB ( ksz8851ReadReg ( interface , KSZ8851_RXFCTR ) ) ; while ( frameCount > 0 ) { ksz8851ReceivePacket ( interface ) ; frameCount -- ; } } ksz8851SetBit ( interface , KSZ8851_IER , KSZ8851_IER_LCIE | KSZ8851_IER_RXIE ) ; }" 122,"CWE-310 int ECDSA_verify ( int type , const unsigned char * dgst , int dgst_len , const unsigned char * sigbuf , int sig_len , EC_KEY * eckey ) { ECDSA_SIG * s ; int ret = - 1 ; s = ECDSA_SIG_new ( ) ; if ( s == NULL ) return ( ret ) ; if ( d2i_ECDSA_SIG ( & s , & sigbuf , sig_len ) == NULL ) goto err ; ret = ECDSA_do_verify ( dgst , dgst_len , s , eckey ) ; err : ECDSA_SIG_free ( s ) ; return ( ret ) ; }","int ECDSA_verify ( int type , const unsigned char * dgst , int dgst_len , const unsigned char * sigbuf , int sig_len , EC_KEY * eckey ) { ECDSA_SIG * s ; const unsigned char * p = sigbuf ; unsigned char * der = NULL ; int derlen = - 1 ; int ret = - 1 ; s = ECDSA_SIG_new ( ) ; if ( s == NULL ) return ( ret ) ; if ( d2i_ECDSA_SIG ( & s , & p , sig_len ) == NULL ) goto err ; derlen = i2d_ECDSA_SIG ( s , & der ) ; if ( derlen != sig_len || memcmp ( sigbuf , der , derlen ) ) goto err ; ret = ECDSA_do_verify ( dgst , dgst_len , s , eckey ) ; err : if ( derlen > 0 ) { OPENSSL_cleanse ( der , derlen ) ; OPENSSL_free ( der ) ; } ECDSA_SIG_free ( s ) ; return ( ret ) ; }" 123,"CWE-119 static void set_default_lf_deltas ( VP8_COMP * cpi ) { cpi -> mb . e_mbd . mode_ref_lf_delta_enabled = 1 ; cpi -> mb . e_mbd . mode_ref_lf_delta_update = 1 ; vpx_memset ( cpi -> mb . e_mbd . ref_lf_deltas , 0 , sizeof ( cpi -> mb . e_mbd . ref_lf_deltas ) ) ; vpx_memset ( cpi -> mb . e_mbd . mode_lf_deltas , 0 , sizeof ( cpi -> mb . e_mbd . mode_lf_deltas ) ) ; cpi -> mb . e_mbd . ref_lf_deltas [ INTRA_FRAME ] = 2 ; cpi -> mb . e_mbd . ref_lf_deltas [ LAST_FRAME ] = 0 ; cpi -> mb . e_mbd . ref_lf_deltas [ GOLDEN_FRAME ] = - 2 ; cpi -> mb . e_mbd . ref_lf_deltas [ ALTREF_FRAME ] = - 2 ; cpi -> mb . e_mbd . mode_lf_deltas [ 0 ] = 4 ; if ( cpi -> oxcf . Mode == MODE_REALTIME ) cpi -> mb . e_mbd . mode_lf_deltas [ 1 ] = - 12 ; else cpi -> mb . e_mbd . mode_lf_deltas [ 1 ] = - 2 ; cpi -> mb . e_mbd . mode_lf_deltas [ 2 ] = 2 ; cpi -> mb . e_mbd . mode_lf_deltas [ 3 ] = 4 ; }","static void set_default_lf_deltas ( VP8_COMP * cpi ) { cpi -> mb . e_mbd . mode_ref_lf_delta_enabled = 1 ; cpi -> mb . e_mbd . mode_ref_lf_delta_update = 1 ; memset ( cpi -> mb . e_mbd . ref_lf_deltas , 0 , sizeof ( cpi -> mb . e_mbd . ref_lf_deltas ) ) ; memset ( cpi -> mb . e_mbd . mode_lf_deltas , 0 , sizeof ( cpi -> mb . e_mbd . mode_lf_deltas ) ) ; cpi -> mb . e_mbd . ref_lf_deltas [ INTRA_FRAME ] = 2 ; cpi -> mb . e_mbd . ref_lf_deltas [ LAST_FRAME ] = 0 ; cpi -> mb . e_mbd . ref_lf_deltas [ GOLDEN_FRAME ] = - 2 ; cpi -> mb . e_mbd . ref_lf_deltas [ ALTREF_FRAME ] = - 2 ; cpi -> mb . e_mbd . mode_lf_deltas [ 0 ] = 4 ; if ( cpi -> oxcf . Mode == MODE_REALTIME ) cpi -> mb . e_mbd . mode_lf_deltas [ 1 ] = - 12 ; else cpi -> mb . e_mbd . mode_lf_deltas [ 1 ] = - 2 ; cpi -> mb . e_mbd . mode_lf_deltas [ 2 ] = 2 ; cpi -> mb . e_mbd . mode_lf_deltas [ 3 ] = 4 ; }" 124,"CWE-362 static int snd_timer_user_release ( struct inode * inode , struct file * file ) { struct snd_timer_user * tu ; if ( file -> private_data ) { tu = file -> private_data ; file -> private_data = NULL ; if ( tu -> timeri ) snd_timer_close ( tu -> timeri ) ; kfree ( tu -> queue ) ; kfree ( tu -> tqueue ) ; kfree ( tu ) ; } return 0 ; }","static int snd_timer_user_release ( struct inode * inode , struct file * file ) { struct snd_timer_user * tu ; if ( file -> private_data ) { tu = file -> private_data ; file -> private_data = NULL ; mutex_lock ( & tu -> ioctl_lock ) ; if ( tu -> timeri ) snd_timer_close ( tu -> timeri ) ; mutex_unlock ( & tu -> ioctl_lock ) ; kfree ( tu -> queue ) ; kfree ( tu -> tqueue ) ; kfree ( tu ) ; } return 0 ; }" 125,"CWE-119 static INLINE void write_buffer_16x16 ( int16_t * output , __m128i * in0 , __m128i * in1 , int stride ) { write_buffer_8x8 ( output , in0 , stride ) ; write_buffer_8x8 ( output + 8 * stride , in0 + 8 , stride ) ; output += 8 ; write_buffer_8x8 ( output , in1 , stride ) ; write_buffer_8x8 ( output + 8 * stride , in1 + 8 , stride ) ; }","static INLINE void write_buffer_16x16 ( tran_low_t * output , __m128i * in0 , __m128i * in1 , int stride ) { write_buffer_8x8 ( output , in0 , stride ) ; write_buffer_8x8 ( output + 8 * stride , in0 + 8 , stride ) ; output += 8 ; write_buffer_8x8 ( output , in1 , stride ) ; write_buffer_8x8 ( output + 8 * stride , in1 + 8 , stride ) ; }" 126,"CWE-119 static void nonrd_use_partition ( VP9_COMP * cpi , const TileInfo * const tile , MODE_INFO * * mi_8x8 , TOKENEXTRA * * tp , int mi_row , int mi_col , BLOCK_SIZE bsize , int output_enabled , int * totrate , int64_t * totdist ) { VP9_COMMON * const cm = & cpi -> common ; MACROBLOCK * const x = & cpi -> mb ; MACROBLOCKD * const xd = & x -> e_mbd ; const int bsl = b_width_log2 ( bsize ) , hbs = ( 1 << bsl ) / 4 ; const int mis = cm -> mi_stride ; PARTITION_TYPE partition ; BLOCK_SIZE subsize ; int rate = INT_MAX ; int64_t dist = INT64_MAX ; if ( mi_row >= cm -> mi_rows || mi_col >= cm -> mi_cols ) return ; subsize = ( bsize >= BLOCK_8X8 ) ? mi_8x8 [ 0 ] -> mbmi . sb_type : BLOCK_4X4 ; partition = partition_lookup [ bsl ] [ subsize ] ; switch ( partition ) { case PARTITION_NONE : nonrd_pick_sb_modes ( cpi , tile , mi_row , mi_col , totrate , totdist , subsize ) ; get_block_context ( x , subsize ) -> mic . mbmi = xd -> mi [ 0 ] -> mbmi ; break ; case PARTITION_VERT : * get_sb_index ( x , subsize ) = 0 ; nonrd_pick_sb_modes ( cpi , tile , mi_row , mi_col , totrate , totdist , subsize ) ; get_block_context ( x , subsize ) -> mic . mbmi = xd -> mi [ 0 ] -> mbmi ; if ( mi_col + hbs < cm -> mi_cols ) { * get_sb_index ( x , subsize ) = 1 ; nonrd_pick_sb_modes ( cpi , tile , mi_row , mi_col + hbs , & rate , & dist , subsize ) ; get_block_context ( x , subsize ) -> mic . mbmi = xd -> mi [ 0 ] -> mbmi ; if ( rate != INT_MAX && dist != INT64_MAX && * totrate != INT_MAX && * totdist != INT64_MAX ) { * totrate += rate ; * totdist += dist ; } } break ; case PARTITION_HORZ : * get_sb_index ( x , subsize ) = 0 ; nonrd_pick_sb_modes ( cpi , tile , mi_row , mi_col , totrate , totdist , subsize ) ; get_block_context ( x , subsize ) -> mic . mbmi = xd -> mi [ 0 ] -> mbmi ; if ( mi_row + hbs < cm -> mi_rows ) { * get_sb_index ( x , subsize ) = 1 ; nonrd_pick_sb_modes ( cpi , tile , mi_row + hbs , mi_col , & rate , & dist , subsize ) ; get_block_context ( x , subsize ) -> mic . mbmi = mi_8x8 [ 0 ] -> mbmi ; if ( rate != INT_MAX && dist != INT64_MAX && * totrate != INT_MAX && * totdist != INT64_MAX ) { * totrate += rate ; * totdist += dist ; } } break ; case PARTITION_SPLIT : subsize = get_subsize ( bsize , PARTITION_SPLIT ) ; * get_sb_index ( x , subsize ) = 0 ; nonrd_use_partition ( cpi , tile , mi_8x8 , tp , mi_row , mi_col , subsize , output_enabled , totrate , totdist ) ; * get_sb_index ( x , subsize ) = 1 ; nonrd_use_partition ( cpi , tile , mi_8x8 + hbs , tp , mi_row , mi_col + hbs , subsize , output_enabled , & rate , & dist ) ; if ( rate != INT_MAX && dist != INT64_MAX && * totrate != INT_MAX && * totdist != INT64_MAX ) { * totrate += rate ; * totdist += dist ; } * get_sb_index ( x , subsize ) = 2 ; nonrd_use_partition ( cpi , tile , mi_8x8 + hbs * mis , tp , mi_row + hbs , mi_col , subsize , output_enabled , & rate , & dist ) ; if ( rate != INT_MAX && dist != INT64_MAX && * totrate != INT_MAX && * totdist != INT64_MAX ) { * totrate += rate ; * totdist += dist ; } * get_sb_index ( x , subsize ) = 3 ; nonrd_use_partition ( cpi , tile , mi_8x8 + hbs * mis + hbs , tp , mi_row + hbs , mi_col + hbs , subsize , output_enabled , & rate , & dist ) ; if ( rate != INT_MAX && dist != INT64_MAX && * totrate != INT_MAX && * totdist != INT64_MAX ) { * totrate += rate ; * totdist += dist ; } break ; default : assert ( ""Invalid partition type."" ) ; } if ( bsize == BLOCK_64X64 && output_enabled ) { if ( cpi -> oxcf . aq_mode == CYCLIC_REFRESH_AQ ) vp9_cyclic_refresh_set_rate_and_dist_sb ( cpi -> cyclic_refresh , * totrate , * totdist ) ; encode_sb_rt ( cpi , tile , tp , mi_row , mi_col , 1 , bsize ) ; } }","static void nonrd_use_partition ( VP9_COMP * cpi , ThreadData * td , TileDataEnc * tile_data , MODE_INFO * * mi , TOKENEXTRA * * tp , int mi_row , int mi_col , BLOCK_SIZE bsize , int output_enabled , RD_COST * dummy_cost , PC_TREE * pc_tree ) { VP9_COMMON * const cm = & cpi -> common ; TileInfo * tile_info = & tile_data -> tile_info ; MACROBLOCK * const x = & td -> mb ; MACROBLOCKD * const xd = & x -> e_mbd ; const int bsl = b_width_log2_lookup [ bsize ] , hbs = ( 1 << bsl ) / 4 ; const int mis = cm -> mi_stride ; PARTITION_TYPE partition ; BLOCK_SIZE subsize ; if ( mi_row >= cm -> mi_rows || mi_col >= cm -> mi_cols ) return ; subsize = ( bsize >= BLOCK_8X8 ) ? mi [ 0 ] -> mbmi . sb_type : BLOCK_4X4 ; partition = partition_lookup [ bsl ] [ subsize ] ; if ( output_enabled && bsize != BLOCK_4X4 ) { int ctx = partition_plane_context ( xd , mi_row , mi_col , bsize ) ; td -> counts -> partition [ ctx ] [ partition ] ++ ; } switch ( partition ) { case PARTITION_NONE : pc_tree -> none . pred_pixel_ready = 1 ; nonrd_pick_sb_modes ( cpi , tile_data , x , mi_row , mi_col , dummy_cost , subsize , & pc_tree -> none ) ; pc_tree -> none . mic . mbmi = xd -> mi [ 0 ] -> mbmi ; pc_tree -> none . mbmi_ext = * x -> mbmi_ext ; pc_tree -> none . skip_txfm [ 0 ] = x -> skip_txfm [ 0 ] ; pc_tree -> none . skip = x -> skip ; encode_b_rt ( cpi , td , tile_info , tp , mi_row , mi_col , output_enabled , subsize , & pc_tree -> none ) ; break ; case PARTITION_VERT : pc_tree -> vertical [ 0 ] . pred_pixel_ready = 1 ; nonrd_pick_sb_modes ( cpi , tile_data , x , mi_row , mi_col , dummy_cost , subsize , & pc_tree -> vertical [ 0 ] ) ; pc_tree -> vertical [ 0 ] . mic . mbmi = xd -> mi [ 0 ] -> mbmi ; pc_tree -> vertical [ 0 ] . mbmi_ext = * x -> mbmi_ext ; pc_tree -> vertical [ 0 ] . skip_txfm [ 0 ] = x -> skip_txfm [ 0 ] ; pc_tree -> vertical [ 0 ] . skip = x -> skip ; encode_b_rt ( cpi , td , tile_info , tp , mi_row , mi_col , output_enabled , subsize , & pc_tree -> vertical [ 0 ] ) ; if ( mi_col + hbs < cm -> mi_cols && bsize > BLOCK_8X8 ) { pc_tree -> vertical [ 1 ] . pred_pixel_ready = 1 ; nonrd_pick_sb_modes ( cpi , tile_data , x , mi_row , mi_col + hbs , dummy_cost , subsize , & pc_tree -> vertical [ 1 ] ) ; pc_tree -> vertical [ 1 ] . mic . mbmi = xd -> mi [ 0 ] -> mbmi ; pc_tree -> vertical [ 1 ] . mbmi_ext = * x -> mbmi_ext ; pc_tree -> vertical [ 1 ] . skip_txfm [ 0 ] = x -> skip_txfm [ 0 ] ; pc_tree -> vertical [ 1 ] . skip = x -> skip ; encode_b_rt ( cpi , td , tile_info , tp , mi_row , mi_col + hbs , output_enabled , subsize , & pc_tree -> vertical [ 1 ] ) ; } break ; case PARTITION_HORZ : pc_tree -> horizontal [ 0 ] . pred_pixel_ready = 1 ; nonrd_pick_sb_modes ( cpi , tile_data , x , mi_row , mi_col , dummy_cost , subsize , & pc_tree -> horizontal [ 0 ] ) ; pc_tree -> horizontal [ 0 ] . mic . mbmi = xd -> mi [ 0 ] -> mbmi ; pc_tree -> horizontal [ 0 ] . mbmi_ext = * x -> mbmi_ext ; pc_tree -> horizontal [ 0 ] . skip_txfm [ 0 ] = x -> skip_txfm [ 0 ] ; pc_tree -> horizontal [ 0 ] . skip = x -> skip ; encode_b_rt ( cpi , td , tile_info , tp , mi_row , mi_col , output_enabled , subsize , & pc_tree -> horizontal [ 0 ] ) ; if ( mi_row + hbs < cm -> mi_rows && bsize > BLOCK_8X8 ) { pc_tree -> horizontal [ 1 ] . pred_pixel_ready = 1 ; nonrd_pick_sb_modes ( cpi , tile_data , x , mi_row + hbs , mi_col , dummy_cost , subsize , & pc_tree -> horizontal [ 1 ] ) ; pc_tree -> horizontal [ 1 ] . mic . mbmi = xd -> mi [ 0 ] -> mbmi ; pc_tree -> horizontal [ 1 ] . mbmi_ext = * x -> mbmi_ext ; pc_tree -> horizontal [ 1 ] . skip_txfm [ 0 ] = x -> skip_txfm [ 0 ] ; pc_tree -> horizontal [ 1 ] . skip = x -> skip ; encode_b_rt ( cpi , td , tile_info , tp , mi_row + hbs , mi_col , output_enabled , subsize , & pc_tree -> horizontal [ 1 ] ) ; } break ; case PARTITION_SPLIT : subsize = get_subsize ( bsize , PARTITION_SPLIT ) ; if ( bsize == BLOCK_8X8 ) { nonrd_pick_sb_modes ( cpi , tile_data , x , mi_row , mi_col , dummy_cost , subsize , pc_tree -> leaf_split [ 0 ] ) ; encode_b_rt ( cpi , td , tile_info , tp , mi_row , mi_col , output_enabled , subsize , pc_tree -> leaf_split [ 0 ] ) ; } else { nonrd_use_partition ( cpi , td , tile_data , mi , tp , mi_row , mi_col , subsize , output_enabled , dummy_cost , pc_tree -> split [ 0 ] ) ; nonrd_use_partition ( cpi , td , tile_data , mi + hbs , tp , mi_row , mi_col + hbs , subsize , output_enabled , dummy_cost , pc_tree -> split [ 1 ] ) ; nonrd_use_partition ( cpi , td , tile_data , mi + hbs * mis , tp , mi_row + hbs , mi_col , subsize , output_enabled , dummy_cost , pc_tree -> split [ 2 ] ) ; nonrd_use_partition ( cpi , td , tile_data , mi + hbs * mis + hbs , tp , mi_row + hbs , mi_col + hbs , subsize , output_enabled , dummy_cost , pc_tree -> split [ 3 ] ) ; } break ; default : assert ( 0 && ""Invalid partition type."" ) ; break ; } if ( partition != PARTITION_SPLIT || bsize == BLOCK_8X8 ) update_partition_context ( xd , mi_row , mi_col , subsize , bsize ) ; }" 127,"CWE-119 static void show_object ( struct object * obj , struct strbuf * path , const char * component , void * cb_data ) { struct rev_list_info * info = cb_data ; finish_object ( obj , path , component , cb_data ) ; if ( info -> flags & REV_LIST_QUIET ) return ; show_object_with_name ( stdout , obj , path , component ) ; }","static void show_object ( struct object * obj , const char * name , void * cb_data ) { struct rev_list_info * info = cb_data ; finish_object ( obj , name , cb_data ) ; if ( info -> flags & REV_LIST_QUIET ) return ; show_object_with_name ( stdout , obj , name ) ; }" 128,"CWE-125 static int ast_type_init ( PyObject * self , PyObject * args , PyObject * kw ) { _Py_IDENTIFIER ( _fields ) ; Py_ssize_t i , numfields = 0 ; int res = - 1 ; PyObject * key , * value , * fields ; fields = _PyObject_GetAttrId ( ( PyObject * ) Py_TYPE ( self ) , & PyId__fields ) ; if ( ! fields ) PyErr_Clear ( ) ; if ( fields ) { numfields = PySequence_Size ( fields ) ; if ( numfields == - 1 ) goto cleanup ; } res = 0 ; if ( PyTuple_GET_SIZE ( args ) > 0 ) { if ( numfields != PyTuple_GET_SIZE ( args ) ) { PyErr_Format ( PyExc_TypeError , ""%.400s constructor takes %s"" ""%zd positional argument%s"" , Py_TYPE ( self ) -> tp_name , numfields == 0 ? """" : ""either 0 or "" , numfields , numfields == 1 ? """" : ""s"" ) ; res = - 1 ; goto cleanup ; } for ( i = 0 ; i < PyTuple_GET_SIZE ( args ) ; i ++ ) { PyObject * name = PySequence_GetItem ( fields , i ) ; if ( ! name ) { res = - 1 ; goto cleanup ; } res = PyObject_SetAttr ( self , name , PyTuple_GET_ITEM ( args , i ) ) ; Py_DECREF ( name ) ; if ( res < 0 ) goto cleanup ; } } if ( kw ) { i = 0 ; while ( PyDict_Next ( kw , & i , & key , & value ) ) { res = PyObject_SetAttr ( self , key , value ) ; if ( res < 0 ) goto cleanup ; } } cleanup : Py_XDECREF ( fields ) ; return res ; }","static int ast_type_init ( PyObject * self , PyObject * args , PyObject * kw ) { Py_ssize_t i , numfields = 0 ; int res = - 1 ; PyObject * key , * value , * fields ; if ( lookup_attr_id ( ( PyObject * ) Py_TYPE ( self ) , & PyId__fields , & fields ) < 0 ) { goto cleanup ; } if ( fields ) { numfields = PySequence_Size ( fields ) ; if ( numfields == - 1 ) goto cleanup ; } res = 0 ; if ( numfields < PyTuple_GET_SIZE ( args ) ) { PyErr_Format ( PyExc_TypeError , ""%.400s constructor takes at most "" ""%zd positional argument%s"" , Py_TYPE ( self ) -> tp_name , numfields , numfields == 1 ? """" : ""s"" ) ; res = - 1 ; goto cleanup ; } for ( i = 0 ; i < PyTuple_GET_SIZE ( args ) ; i ++ ) { PyObject * name = PySequence_GetItem ( fields , i ) ; if ( ! name ) { res = - 1 ; goto cleanup ; } res = PyObject_SetAttr ( self , name , PyTuple_GET_ITEM ( args , i ) ) ; Py_DECREF ( name ) ; if ( res < 0 ) goto cleanup ; } if ( kw ) { i = 0 ; while ( PyDict_Next ( kw , & i , & key , & value ) ) { res = PyObject_SetAttr ( self , key , value ) ; if ( res < 0 ) goto cleanup ; } } cleanup : Py_XDECREF ( fields ) ; return res ; }" 129,"CWE-190 jas_stream_t * jas_stream_memopen ( char * buf , int bufsize ) { jas_stream_t * stream ; jas_stream_memobj_t * obj ; JAS_DBGLOG ( 100 , ( ""jas_stream_memopen(%p, %d)\\n"" , buf , bufsize ) ) ; if ( ! ( stream = jas_stream_create ( ) ) ) { return 0 ; } stream -> openmode_ = JAS_STREAM_READ | JAS_STREAM_WRITE | JAS_STREAM_BINARY ; jas_stream_initbuf ( stream , JAS_STREAM_FULLBUF , 0 , 0 ) ; stream -> ops_ = & jas_stream_memops ; if ( ! ( obj = jas_malloc ( sizeof ( jas_stream_memobj_t ) ) ) ) { jas_stream_destroy ( stream ) ; return 0 ; } stream -> obj_ = ( void * ) obj ; obj -> myalloc_ = 0 ; obj -> buf_ = 0 ; if ( bufsize <= 0 ) { obj -> bufsize_ = 1024 ; obj -> growable_ = 1 ; } else { obj -> bufsize_ = bufsize ; obj -> growable_ = 0 ; } if ( buf ) { obj -> buf_ = ( unsigned char * ) buf ; } else { obj -> buf_ = jas_malloc ( obj -> bufsize_ ) ; obj -> myalloc_ = 1 ; } if ( ! obj -> buf_ ) { jas_stream_close ( stream ) ; return 0 ; } JAS_DBGLOG ( 100 , ( ""jas_stream_memopen buffer buf=%p myalloc=%d\\n"" , obj -> buf_ , obj -> myalloc_ ) ) ; if ( bufsize > 0 && buf ) { obj -> len_ = bufsize ; } else { obj -> len_ = 0 ; } obj -> pos_ = 0 ; return stream ; }","jas_stream_t * jas_stream_memopen ( char * buf , int bufsize ) { char * new_buf ; size_t new_bufsize ; JAS_DBGLOG ( 100 , ( ""jas_stream_memopen(%p, %d)\\n"" , buf , bufsize ) ) ; if ( bufsize < 0 ) { jas_deprecated ( ""negative buffer size for jas_stream_memopen"" ) ; } if ( buf && bufsize <= 0 ) { jas_eprintf ( ""Invalid use of jas_stream_memopen detected.\\n"" ) ; jas_deprecated ( ""A user-provided buffer for "" ""jas_stream_memopen cannot be growable.\\n"" ) ; } if ( bufsize <= 0 ) { new_bufsize = 0 ; new_buf = 0 ; } else { new_bufsize = bufsize ; new_buf = buf ; } return jas_stream_memopen2 ( new_buf , new_bufsize ) ; }" 130,"CWE-125 msg_type , msg_len , ( u_int ) ( sizeof ( struct ldp_msg_header ) - 4 ) ) ) ; return 0 ; } ND_PRINT ( ( ndo , ""\\n\\t %s Message (0x%04x), length: %u, Message ID: 0x%08x, Flags: [%s if unknown]"" , tok2str ( ldp_msg_values , ""Unknown"" , msg_type ) , msg_type , msg_len , EXTRACT_32BITS ( & ldp_msg_header -> id ) , LDP_MASK_U_BIT ( EXTRACT_16BITS ( & ldp_msg_header -> type ) ) ? ""continue processing"" : ""ignore"" ) ) ; msg_tptr = tptr + sizeof ( struct ldp_msg_header ) ; msg_tlen = msg_len - ( sizeof ( struct ldp_msg_header ) - 4 ) ; ND_TCHECK2 ( * tptr , msg_len ) ; hexdump = FALSE ; switch ( msg_type ) { case LDP_MSG_NOTIF : case LDP_MSG_HELLO : case LDP_MSG_INIT : case LDP_MSG_KEEPALIVE : case LDP_MSG_ADDRESS : case LDP_MSG_LABEL_MAPPING : case LDP_MSG_ADDRESS_WITHDRAW : case LDP_MSG_LABEL_WITHDRAW : while ( msg_tlen >= 4 ) { processed = ldp_tlv_print ( ndo , msg_tptr , msg_tlen ) ; if ( processed == 0 ) break ; msg_tlen -= processed ; msg_tptr += processed ; } break ; case LDP_MSG_LABEL_REQUEST : case LDP_MSG_LABEL_RELEASE : case LDP_MSG_LABEL_ABORT_REQUEST : default : if ( ndo -> ndo_vflag <= 1 ) print_unknown_data ( ndo , msg_tptr , ""\\n\\t "" , msg_tlen ) ; break ; } if ( ndo -> ndo_vflag > 1 || hexdump == TRUE ) print_unknown_data ( ndo , tptr + sizeof ( struct ldp_msg_header ) , ""\\n\\t "" , msg_len ) ; tptr += msg_len + 4 ; tlen -= msg_len + 4 ; } return pdu_len + 4 ; trunc : ND_PRINT ( ( ndo , ""\\n\\t\\t packet exceeded snapshot"" ) ) ; return 0 ; }","msg_type , msg_len , ( u_int ) ( sizeof ( struct ldp_msg_header ) - 4 ) ) ) ; return 0 ; } ND_PRINT ( ( ndo , ""\\n\\t %s Message (0x%04x), length: %u, Message ID: 0x%08x, Flags: [%s if unknown]"" , tok2str ( ldp_msg_values , ""Unknown"" , msg_type ) , msg_type , msg_len , EXTRACT_32BITS ( & ldp_msg_header -> id ) , LDP_MASK_U_BIT ( EXTRACT_16BITS ( & ldp_msg_header -> type ) ) ? ""continue processing"" : ""ignore"" ) ) ; msg_tptr = tptr + sizeof ( struct ldp_msg_header ) ; msg_tlen = msg_len - ( sizeof ( struct ldp_msg_header ) - 4 ) ; ND_TCHECK2 ( * tptr , msg_len ) ; hexdump = FALSE ; switch ( msg_type ) { case LDP_MSG_NOTIF : case LDP_MSG_HELLO : case LDP_MSG_INIT : case LDP_MSG_KEEPALIVE : case LDP_MSG_ADDRESS : case LDP_MSG_LABEL_MAPPING : case LDP_MSG_ADDRESS_WITHDRAW : case LDP_MSG_LABEL_WITHDRAW : while ( msg_tlen >= 4 ) { processed = ldp_tlv_print ( ndo , msg_tptr , msg_tlen ) ; if ( processed == 0 ) break ; msg_tlen -= processed ; msg_tptr += processed ; } break ; case LDP_MSG_LABEL_REQUEST : case LDP_MSG_LABEL_RELEASE : case LDP_MSG_LABEL_ABORT_REQUEST : default : if ( ndo -> ndo_vflag <= 1 ) print_unknown_data ( ndo , msg_tptr , ""\\n\\t "" , msg_tlen ) ; break ; } if ( ndo -> ndo_vflag > 1 || hexdump == TRUE ) print_unknown_data ( ndo , tptr + sizeof ( struct ldp_msg_header ) , ""\\n\\t "" , msg_len ) ; tptr += msg_len + 4 ; tlen -= msg_len + 4 ; } return pdu_len + 4 ; trunc : ND_PRINT ( ( ndo , ""%s"" , tstr ) ) ; return 0 ; }" 131,"CWE-119 static int rd_pick_intra4x4block ( MACROBLOCK * x , BLOCK * be , BLOCKD * b , B_PREDICTION_MODE * best_mode , const int * bmode_costs , ENTROPY_CONTEXT * a , ENTROPY_CONTEXT * l , int * bestrate , int * bestratey , int * bestdistortion ) { B_PREDICTION_MODE mode ; int best_rd = INT_MAX ; int rate = 0 ; int distortion ; ENTROPY_CONTEXT ta = * a , tempa = * a ; ENTROPY_CONTEXT tl = * l , templ = * l ; DECLARE_ALIGNED_ARRAY ( 16 , unsigned char , best_predictor , 16 * 4 ) ; DECLARE_ALIGNED_ARRAY ( 16 , short , best_dqcoeff , 16 ) ; int dst_stride = x -> e_mbd . dst . y_stride ; unsigned char * dst = x -> e_mbd . dst . y_buffer + b -> offset ; unsigned char * Above = dst - dst_stride ; unsigned char * yleft = dst - 1 ; unsigned char top_left = Above [ - 1 ] ; for ( mode = B_DC_PRED ; mode <= B_HU_PRED ; mode ++ ) { int this_rd ; int ratey ; rate = bmode_costs [ mode ] ; vp8_intra4x4_predict ( Above , yleft , dst_stride , mode , b -> predictor , 16 , top_left ) ; vp8_subtract_b ( be , b , 16 ) ; x -> short_fdct4x4 ( be -> src_diff , be -> coeff , 32 ) ; x -> quantize_b ( be , b ) ; tempa = ta ; templ = tl ; ratey = cost_coeffs ( x , b , PLANE_TYPE_Y_WITH_DC , & tempa , & templ ) ; rate += ratey ; distortion = vp8_block_error ( be -> coeff , b -> dqcoeff ) >> 2 ; this_rd = RDCOST ( x -> rdmult , x -> rddiv , rate , distortion ) ; if ( this_rd < best_rd ) { * bestrate = rate ; * bestratey = ratey ; * bestdistortion = distortion ; best_rd = this_rd ; * best_mode = mode ; * a = tempa ; * l = templ ; copy_predictor ( best_predictor , b -> predictor ) ; vpx_memcpy ( best_dqcoeff , b -> dqcoeff , 32 ) ; } } b -> bmi . as_mode = * best_mode ; vp8_short_idct4x4llm ( best_dqcoeff , best_predictor , 16 , dst , dst_stride ) ; return best_rd ; }","static int rd_pick_intra4x4block ( MACROBLOCK * x , BLOCK * be , BLOCKD * b , B_PREDICTION_MODE * best_mode , const int * bmode_costs , ENTROPY_CONTEXT * a , ENTROPY_CONTEXT * l , int * bestrate , int * bestratey , int * bestdistortion ) { B_PREDICTION_MODE mode ; int best_rd = INT_MAX ; int rate = 0 ; int distortion ; ENTROPY_CONTEXT ta = * a , tempa = * a ; ENTROPY_CONTEXT tl = * l , templ = * l ; DECLARE_ALIGNED ( 16 , unsigned char , best_predictor [ 16 * 4 ] ) ; DECLARE_ALIGNED ( 16 , short , best_dqcoeff [ 16 ] ) ; int dst_stride = x -> e_mbd . dst . y_stride ; unsigned char * dst = x -> e_mbd . dst . y_buffer + b -> offset ; unsigned char * Above = dst - dst_stride ; unsigned char * yleft = dst - 1 ; unsigned char top_left = Above [ - 1 ] ; for ( mode = B_DC_PRED ; mode <= B_HU_PRED ; mode ++ ) { int this_rd ; int ratey ; rate = bmode_costs [ mode ] ; vp8_intra4x4_predict ( Above , yleft , dst_stride , mode , b -> predictor , 16 , top_left ) ; vp8_subtract_b ( be , b , 16 ) ; x -> short_fdct4x4 ( be -> src_diff , be -> coeff , 32 ) ; x -> quantize_b ( be , b ) ; tempa = ta ; templ = tl ; ratey = cost_coeffs ( x , b , PLANE_TYPE_Y_WITH_DC , & tempa , & templ ) ; rate += ratey ; distortion = vp8_block_error ( be -> coeff , b -> dqcoeff ) >> 2 ; this_rd = RDCOST ( x -> rdmult , x -> rddiv , rate , distortion ) ; if ( this_rd < best_rd ) { * bestrate = rate ; * bestratey = ratey ; * bestdistortion = distortion ; best_rd = this_rd ; * best_mode = mode ; * a = tempa ; * l = templ ; copy_predictor ( best_predictor , b -> predictor ) ; memcpy ( best_dqcoeff , b -> dqcoeff , 32 ) ; } } b -> bmi . as_mode = * best_mode ; vp8_short_idct4x4llm ( best_dqcoeff , best_predictor , 16 , dst , dst_stride ) ; return best_rd ; }" 132,"CWE-119 } else { dst_reg -> smin_value = dst_reg -> umin_value ; dst_reg -> smax_value = dst_reg -> umax_value ; } __update_reg_bounds ( dst_reg ) ; break ; case BPF_OR : if ( src_known && dst_known ) { __mark_reg_known ( dst_reg , dst_reg -> var_off . value | src_reg . var_off . value ) ; break ; } dst_reg -> var_off = tnum_or ( dst_reg -> var_off , src_reg . var_off ) ; dst_reg -> umin_value = max ( dst_reg -> umin_value , umin_val ) ; dst_reg -> umax_value = dst_reg -> var_off . value | dst_reg -> var_off . mask ; if ( dst_reg -> smin_value < 0 || smin_val < 0 ) { dst_reg -> smin_value = S64_MIN ; dst_reg -> smax_value = S64_MAX ; } else { dst_reg -> smin_value = dst_reg -> umin_value ; dst_reg -> smax_value = dst_reg -> umax_value ; } __update_reg_bounds ( dst_reg ) ; break ; case BPF_LSH : if ( umax_val > 63 ) { mark_reg_unknown ( env , regs , insn -> dst_reg ) ; break ; } dst_reg -> smin_value = S64_MIN ; dst_reg -> smax_value = S64_MAX ; if ( dst_reg -> umax_value > 1ULL << ( 63 - umax_val ) ) { dst_reg -> umin_value = 0 ; dst_reg -> umax_value = U64_MAX ; } else { dst_reg -> umin_value <<= umin_val ; dst_reg -> umax_value <<= umax_val ; } if ( src_known ) dst_reg -> var_off = tnum_lshift ( dst_reg -> var_off , umin_val ) ; else dst_reg -> var_off = tnum_lshift ( tnum_unknown , umin_val ) ; __update_reg_bounds ( dst_reg ) ; break ; case BPF_RSH : if ( umax_val > 63 ) { mark_reg_unknown ( env , regs , insn -> dst_reg ) ; break ; } if ( dst_reg -> smin_value < 0 ) { if ( umin_val ) { dst_reg -> smin_value = 0 ; } else { dst_reg -> smin_value = S64_MIN ; dst_reg -> smax_value = S64_MAX ; } } else { dst_reg -> smin_value = ( u64 ) ( dst_reg -> smin_value ) >> umax_val ; } if ( src_known ) dst_reg -> var_off = tnum_rshift ( dst_reg -> var_off , umin_val ) ; else dst_reg -> var_off = tnum_rshift ( tnum_unknown , umin_val ) ; dst_reg -> umin_value >>= umax_val ; dst_reg -> umax_value >>= umin_val ; __update_reg_bounds ( dst_reg ) ; break ; default : mark_reg_unknown ( env , regs , insn -> dst_reg ) ; break ; } __reg_deduce_bounds ( dst_reg ) ; __reg_bound_offset ( dst_reg ) ; return 0 ; }","} else { dst_reg -> smin_value = dst_reg -> umin_value ; dst_reg -> smax_value = dst_reg -> umax_value ; } __update_reg_bounds ( dst_reg ) ; break ; case BPF_OR : if ( src_known && dst_known ) { __mark_reg_known ( dst_reg , dst_reg -> var_off . value | src_reg . var_off . value ) ; break ; } dst_reg -> var_off = tnum_or ( dst_reg -> var_off , src_reg . var_off ) ; dst_reg -> umin_value = max ( dst_reg -> umin_value , umin_val ) ; dst_reg -> umax_value = dst_reg -> var_off . value | dst_reg -> var_off . mask ; if ( dst_reg -> smin_value < 0 || smin_val < 0 ) { dst_reg -> smin_value = S64_MIN ; dst_reg -> smax_value = S64_MAX ; } else { dst_reg -> smin_value = dst_reg -> umin_value ; dst_reg -> smax_value = dst_reg -> umax_value ; } __update_reg_bounds ( dst_reg ) ; break ; case BPF_LSH : if ( umax_val > 63 ) { mark_reg_unknown ( env , regs , insn -> dst_reg ) ; break ; } dst_reg -> smin_value = S64_MIN ; dst_reg -> smax_value = S64_MAX ; if ( dst_reg -> umax_value > 1ULL << ( 63 - umax_val ) ) { dst_reg -> umin_value = 0 ; dst_reg -> umax_value = U64_MAX ; } else { dst_reg -> umin_value <<= umin_val ; dst_reg -> umax_value <<= umax_val ; } if ( src_known ) dst_reg -> var_off = tnum_lshift ( dst_reg -> var_off , umin_val ) ; else dst_reg -> var_off = tnum_lshift ( tnum_unknown , umin_val ) ; __update_reg_bounds ( dst_reg ) ; break ; case BPF_RSH : if ( umax_val > 63 ) { mark_reg_unknown ( env , regs , insn -> dst_reg ) ; break ; } dst_reg -> smin_value = S64_MIN ; dst_reg -> smax_value = S64_MAX ; if ( src_known ) dst_reg -> var_off = tnum_rshift ( dst_reg -> var_off , umin_val ) ; else dst_reg -> var_off = tnum_rshift ( tnum_unknown , umin_val ) ; dst_reg -> umin_value >>= umax_val ; dst_reg -> umax_value >>= umin_val ; __update_reg_bounds ( dst_reg ) ; break ; default : mark_reg_unknown ( env , regs , insn -> dst_reg ) ; break ; } __reg_deduce_bounds ( dst_reg ) ; __reg_bound_offset ( dst_reg ) ; return 0 ; }" 133,"CWE-617 if ( rh . stream_id == 0 ) { switch ( rh . command ) { case RELAY_COMMAND_BEGIN : case RELAY_COMMAND_CONNECTED : case RELAY_COMMAND_DATA : case RELAY_COMMAND_END : case RELAY_COMMAND_RESOLVE : case RELAY_COMMAND_RESOLVED : case RELAY_COMMAND_BEGIN_DIR : log_fn ( LOG_PROTOCOL_WARN , LD_PROTOCOL , ""Relay command %d with zero "" ""stream_id. Dropping."" , ( int ) rh . command ) ; return 0 ; default : ; } } if ( conn && ! connection_state_is_open ( TO_CONN ( conn ) ) ) { if ( conn -> base_ . type == CONN_TYPE_EXIT && ( conn -> base_ . state == EXIT_CONN_STATE_CONNECTING || conn -> base_ . state == EXIT_CONN_STATE_RESOLVING ) && rh . command == RELAY_COMMAND_DATA ) { optimistic_data = 1 ; } else { return connection_edge_process_relay_cell_not_open ( & rh , cell , circ , conn , layer_hint ) ; } } switch ( rh . command ) { case RELAY_COMMAND_DROP : return 0 ; case RELAY_COMMAND_BEGIN : case RELAY_COMMAND_BEGIN_DIR : if ( layer_hint && circ -> purpose != CIRCUIT_PURPOSE_S_REND_JOINED ) { log_fn ( LOG_PROTOCOL_WARN , LD_APP , ""Relay begin request unsupported at AP. Dropping."" ) ; return 0 ; } if ( circ -> purpose == CIRCUIT_PURPOSE_S_REND_JOINED && layer_hint != TO_ORIGIN_CIRCUIT ( circ ) -> cpath -> prev ) { log_fn ( LOG_PROTOCOL_WARN , LD_APP , ""Relay begin request to Hidden Service "" ""from intermediary node. Dropping."" ) ; return 0 ; } if ( conn ) { log_fn ( LOG_PROTOCOL_WARN , domain , ""Begin cell for known stream. Dropping."" ) ; return 0 ; } if ( rh . command == RELAY_COMMAND_BEGIN_DIR ) { static uint64_t next_id = 0 ; circ -> dirreq_id = ++ next_id ; TO_OR_CIRCUIT ( circ ) -> p_chan -> dirreq_id = circ -> dirreq_id ; } return connection_exit_begin_conn ( cell , circ ) ; case RELAY_COMMAND_DATA : if ( ( layer_hint && -- layer_hint -> deliver_window < 0 ) || ( ! layer_hint && -- circ -> deliver_window < 0 ) ) { log_fn ( LOG_PROTOCOL_WARN , LD_PROTOCOL , ""(relay data) circ deliver_window below 0. Killing."" ) ; if ( conn ) { connection_edge_end ( conn , END_STREAM_REASON_TORPROTOCOL ) ; connection_mark_for_close ( TO_CONN ( conn ) ) ; } return - END_CIRC_REASON_TORPROTOCOL ; } log_debug ( domain , ""circ deliver_window now %d."" , layer_hint ? layer_hint -> deliver_window : circ -> deliver_window ) ; circuit_consider_sending_sendme ( circ , layer_hint ) ; if ( ! conn ) { log_info ( domain , ""data cell dropped, unknown stream (streamid %d)."" , rh . stream_id ) ; return 0 ; } if ( -- conn -> deliver_window < 0 ) { log_fn ( LOG_PROTOCOL_WARN , LD_PROTOCOL , ""(relay data) conn deliver_window below 0. Killing."" ) ; return - END_CIRC_REASON_TORPROTOCOL ; } stats_n_data_bytes_received += rh . length ; connection_write_to_buf ( ( char * ) ( cell -> payload + RELAY_HEADER_SIZE ) , rh . length , TO_CONN ( conn ) ) ; if ( ! optimistic_data ) { connection_edge_consider_sending_sendme ( conn ) ; } return 0 ; case RELAY_COMMAND_END : reason = rh . length > 0 ? get_uint8 ( cell -> payload + RELAY_HEADER_SIZE ) : END_STREAM_REASON_MISC ; if ( ! conn ) { log_info ( domain , ""end cell (%s) dropped, unknown stream."" , stream_end_reason_to_string ( reason ) ) ; return 0 ; } log_info ( domain , TOR_SOCKET_T_FORMAT "": end cell (%s) for stream %d. "" ""Removing stream."" , conn -> base_ . s , stream_end_reason_to_string ( reason ) , conn -> stream_id ) ;","if ( rh . stream_id == 0 ) { switch ( rh . command ) { case RELAY_COMMAND_BEGIN : case RELAY_COMMAND_CONNECTED : case RELAY_COMMAND_DATA : case RELAY_COMMAND_END : case RELAY_COMMAND_RESOLVE : case RELAY_COMMAND_RESOLVED : case RELAY_COMMAND_BEGIN_DIR : log_fn ( LOG_PROTOCOL_WARN , LD_PROTOCOL , ""Relay command %d with zero "" ""stream_id. Dropping."" , ( int ) rh . command ) ; return 0 ; default : ; } } if ( conn && ! connection_state_is_open ( TO_CONN ( conn ) ) ) { if ( conn -> base_ . type == CONN_TYPE_EXIT && ( conn -> base_ . state == EXIT_CONN_STATE_CONNECTING || conn -> base_ . state == EXIT_CONN_STATE_RESOLVING ) && rh . command == RELAY_COMMAND_DATA ) { optimistic_data = 1 ; } else { return connection_edge_process_relay_cell_not_open ( & rh , cell , circ , conn , layer_hint ) ; } } switch ( rh . command ) { case RELAY_COMMAND_DROP : return 0 ; case RELAY_COMMAND_BEGIN : case RELAY_COMMAND_BEGIN_DIR : if ( layer_hint && circ -> purpose != CIRCUIT_PURPOSE_S_REND_JOINED ) { log_fn ( LOG_PROTOCOL_WARN , LD_APP , ""Relay begin request unsupported at AP. Dropping."" ) ; return 0 ; } if ( circ -> purpose == CIRCUIT_PURPOSE_S_REND_JOINED && layer_hint != TO_ORIGIN_CIRCUIT ( circ ) -> cpath -> prev ) { log_fn ( LOG_PROTOCOL_WARN , LD_APP , ""Relay begin request to Hidden Service "" ""from intermediary node. Dropping."" ) ; return 0 ; } if ( conn ) { log_fn ( LOG_PROTOCOL_WARN , domain , ""Begin cell for known stream. Dropping."" ) ; return 0 ; } if ( rh . command == RELAY_COMMAND_BEGIN_DIR && circ -> purpose != CIRCUIT_PURPOSE_S_REND_JOINED ) { static uint64_t next_id = 0 ; circ -> dirreq_id = ++ next_id ; TO_OR_CIRCUIT ( circ ) -> p_chan -> dirreq_id = circ -> dirreq_id ; } return connection_exit_begin_conn ( cell , circ ) ; case RELAY_COMMAND_DATA : + stats_n_data_cells_received ; if ( ( layer_hint && -- layer_hint -> deliver_window < 0 ) || ( ! layer_hint && -- circ -> deliver_window < 0 ) ) { log_fn ( LOG_PROTOCOL_WARN , LD_PROTOCOL , ""(relay data) circ deliver_window below 0. Killing."" ) ; if ( conn ) { connection_edge_end ( conn , END_STREAM_REASON_TORPROTOCOL ) ; connection_mark_for_close ( TO_CONN ( conn ) ) ; } return - END_CIRC_REASON_TORPROTOCOL ; } log_debug ( domain , ""circ deliver_window now %d."" , layer_hint ? layer_hint -> deliver_window : circ -> deliver_window ) ; circuit_consider_sending_sendme ( circ , layer_hint ) ; if ( ! conn ) { log_info ( domain , ""data cell dropped, unknown stream (streamid %d)."" , rh . stream_id ) ; return 0 ; } if ( -- conn -> deliver_window < 0 ) { log_fn ( LOG_PROTOCOL_WARN , LD_PROTOCOL , ""(relay data) conn deliver_window below 0. Killing."" ) ; return - END_CIRC_REASON_TORPROTOCOL ; } stats_n_data_bytes_received += rh . length ; connection_write_to_buf ( ( char * ) ( cell -> payload + RELAY_HEADER_SIZE ) , rh . length , TO_CONN ( conn ) ) ; if ( ! optimistic_data ) { connection_edge_consider_sending_sendme ( conn ) ; } return 0 ; case RELAY_COMMAND_END : reason = rh . length > 0 ? get_uint8 ( cell -> payload + RELAY_HEADER_SIZE ) : END_STREAM_REASON_MISC ; if ( ! conn ) { log_info ( domain , ""end cell (%s) dropped, unknown stream."" , stream_end_reason_to_string ( reason ) ) ; return 0 ; } log_info ( domain , TOR_SOCKET_T_FORMAT "": end cell (%s) for stream %d. "" ""Removing stream."" , conn -> base_ . s , stream_end_reason_to_string ( reason ) , conn -> stream_id ) ;" 134,"CWE-400 int __usb_get_extra_descriptor ( char * buffer , unsigned size , unsigned char type , void * * ptr ) { struct usb_descriptor_header * header ; while ( size >= sizeof ( struct usb_descriptor_header ) ) { header = ( struct usb_descriptor_header * ) buffer ; if ( header -> bLength < 2 ) { printk ( KERN_ERR ""%s: bogus descriptor, type %d length %d\\n"" , usbcore_name , header -> bDescriptorType , header -> bLength ) ; return - 1 ; } if ( header -> bDescriptorType == type ) { * ptr = header ; return 0 ; } buffer += header -> bLength ; size -= header -> bLength ; } return - 1 ; }","int __usb_get_extra_descriptor ( char * buffer , unsigned size , unsigned char type , void * * ptr , size_t minsize ) { struct usb_descriptor_header * header ; while ( size >= sizeof ( struct usb_descriptor_header ) ) { header = ( struct usb_descriptor_header * ) buffer ; if ( header -> bLength < 2 || header -> bLength > size ) { printk ( KERN_ERR ""%s: bogus descriptor, type %d length %d\\n"" , usbcore_name , header -> bDescriptorType , header -> bLength ) ; return - 1 ; } if ( header -> bDescriptorType == type && header -> bLength >= minsize ) { * ptr = header ; return 0 ; } buffer += header -> bLength ; size -= header -> bLength ; } return - 1 ; }" 135,"CWE-125 static void ip_optprint ( netdissect_options * ndo , register const u_char * cp , u_int length ) { register u_int option_len ; const char * sep = """" ; for ( ; length > 0 ; cp += option_len , length -= option_len ) { u_int option_code ; ND_PRINT ( ( ndo , ""%s"" , sep ) ) ; sep = "","" ; ND_TCHECK ( * cp ) ; option_code = * cp ; ND_PRINT ( ( ndo , ""%s"" , tok2str ( ip_option_values , ""unknown %u"" , option_code ) ) ) ; if ( option_code == IPOPT_NOP || option_code == IPOPT_EOL ) option_len = 1 ; else { ND_TCHECK ( cp [ 1 ] ) ; option_len = cp [ 1 ] ; if ( option_len < 2 ) { ND_PRINT ( ( ndo , "" [bad length %u]"" , option_len ) ) ; return ; } } if ( option_len > length ) { ND_PRINT ( ( ndo , "" [bad length %u]"" , option_len ) ) ; return ; } ND_TCHECK2 ( * cp , option_len ) ; switch ( option_code ) { case IPOPT_EOL : return ; case IPOPT_TS : ip_printts ( ndo , cp , option_len ) ; break ; case IPOPT_RR : case IPOPT_SSRR : case IPOPT_LSRR : ip_printroute ( ndo , cp , option_len ) ; break ; case IPOPT_RA : if ( option_len < 4 ) { ND_PRINT ( ( ndo , "" [bad length %u]"" , option_len ) ) ; break ; } ND_TCHECK ( cp [ 3 ] ) ; if ( EXTRACT_16BITS ( & cp [ 2 ] ) != 0 ) ND_PRINT ( ( ndo , "" value %u"" , EXTRACT_16BITS ( & cp [ 2 ] ) ) ) ; break ; case IPOPT_NOP : case IPOPT_SECURITY : default : break ; } } return ; trunc : ND_PRINT ( ( ndo , ""%s"" , tstr ) ) ; }","static void ip_optprint ( netdissect_options * ndo , register const u_char * cp , u_int length ) { register u_int option_len ; const char * sep = """" ; for ( ; length > 0 ; cp += option_len , length -= option_len ) { u_int option_code ; ND_PRINT ( ( ndo , ""%s"" , sep ) ) ; sep = "","" ; ND_TCHECK ( * cp ) ; option_code = * cp ; ND_PRINT ( ( ndo , ""%s"" , tok2str ( ip_option_values , ""unknown %u"" , option_code ) ) ) ; if ( option_code == IPOPT_NOP || option_code == IPOPT_EOL ) option_len = 1 ; else { ND_TCHECK ( cp [ 1 ] ) ; option_len = cp [ 1 ] ; if ( option_len < 2 ) { ND_PRINT ( ( ndo , "" [bad length %u]"" , option_len ) ) ; return ; } } if ( option_len > length ) { ND_PRINT ( ( ndo , "" [bad length %u]"" , option_len ) ) ; return ; } ND_TCHECK2 ( * cp , option_len ) ; switch ( option_code ) { case IPOPT_EOL : return ; case IPOPT_TS : ip_printts ( ndo , cp , option_len ) ; break ; case IPOPT_RR : case IPOPT_SSRR : case IPOPT_LSRR : if ( ip_printroute ( ndo , cp , option_len ) == - 1 ) goto trunc ; break ; case IPOPT_RA : if ( option_len < 4 ) { ND_PRINT ( ( ndo , "" [bad length %u]"" , option_len ) ) ; break ; } ND_TCHECK ( cp [ 3 ] ) ; if ( EXTRACT_16BITS ( & cp [ 2 ] ) != 0 ) ND_PRINT ( ( ndo , "" value %u"" , EXTRACT_16BITS ( & cp [ 2 ] ) ) ) ; break ; case IPOPT_NOP : case IPOPT_SECURITY : default : break ; } } return ; trunc : ND_PRINT ( ( ndo , ""%s"" , tstr ) ) ; }" 136,"NVD-CWE-noinfo static struct sock * sctp_v6_create_accept_sk ( struct sock * sk , struct sctp_association * asoc , bool kern ) { struct sock * newsk ; struct ipv6_pinfo * newnp , * np = inet6_sk ( sk ) ; struct sctp6_sock * newsctp6sk ; struct ipv6_txoptions * opt ; newsk = sk_alloc ( sock_net ( sk ) , PF_INET6 , GFP_KERNEL , sk -> sk_prot , kern ) ; if ( ! newsk ) goto out ; sock_init_data ( NULL , newsk ) ; sctp_copy_sock ( newsk , sk , asoc ) ; sock_reset_flag ( sk , SOCK_ZAPPED ) ; newsctp6sk = ( struct sctp6_sock * ) newsk ; inet_sk ( newsk ) -> pinet6 = & newsctp6sk -> inet6 ; sctp_sk ( newsk ) -> v4mapped = sctp_sk ( sk ) -> v4mapped ; newnp = inet6_sk ( newsk ) ; memcpy ( newnp , np , sizeof ( struct ipv6_pinfo ) ) ; rcu_read_lock ( ) ; opt = rcu_dereference ( np -> opt ) ; if ( opt ) opt = ipv6_dup_options ( newsk , opt ) ; RCU_INIT_POINTER ( newnp -> opt , opt ) ; rcu_read_unlock ( ) ; sctp_v6_to_sk_daddr ( & asoc -> peer . primary_addr , newsk ) ; newsk -> sk_v6_rcv_saddr = sk -> sk_v6_rcv_saddr ; sk_refcnt_debug_inc ( newsk ) ; if ( newsk -> sk_prot -> init ( newsk ) ) { sk_common_release ( newsk ) ; newsk = NULL ; } out : return newsk ; }","static struct sock * sctp_v6_create_accept_sk ( struct sock * sk , struct sctp_association * asoc , bool kern ) { struct sock * newsk ; struct ipv6_pinfo * newnp , * np = inet6_sk ( sk ) ; struct sctp6_sock * newsctp6sk ; struct ipv6_txoptions * opt ; newsk = sk_alloc ( sock_net ( sk ) , PF_INET6 , GFP_KERNEL , sk -> sk_prot , kern ) ; if ( ! newsk ) goto out ; sock_init_data ( NULL , newsk ) ; sctp_copy_sock ( newsk , sk , asoc ) ; sock_reset_flag ( sk , SOCK_ZAPPED ) ; newsctp6sk = ( struct sctp6_sock * ) newsk ; inet_sk ( newsk ) -> pinet6 = & newsctp6sk -> inet6 ; sctp_sk ( newsk ) -> v4mapped = sctp_sk ( sk ) -> v4mapped ; newnp = inet6_sk ( newsk ) ; memcpy ( newnp , np , sizeof ( struct ipv6_pinfo ) ) ; newnp -> ipv6_mc_list = NULL ; newnp -> ipv6_ac_list = NULL ; newnp -> ipv6_fl_list = NULL ; rcu_read_lock ( ) ; opt = rcu_dereference ( np -> opt ) ; if ( opt ) opt = ipv6_dup_options ( newsk , opt ) ; RCU_INIT_POINTER ( newnp -> opt , opt ) ; rcu_read_unlock ( ) ; sctp_v6_to_sk_daddr ( & asoc -> peer . primary_addr , newsk ) ; newsk -> sk_v6_rcv_saddr = sk -> sk_v6_rcv_saddr ; sk_refcnt_debug_inc ( newsk ) ; if ( newsk -> sk_prot -> init ( newsk ) ) { sk_common_release ( newsk ) ; newsk = NULL ; } out : return newsk ; }" 137,"CWE-77 static void cmd_parse_lsub ( struct ImapData * idata , char * s ) { char buf [ STRING ] ; char errstr [ STRING ] ; struct Buffer err , token ; struct Url url ; struct ImapList list ; if ( idata -> cmddata && idata -> cmdtype == IMAP_CT_LIST ) { cmd_parse_list ( idata , s ) ; return ; } if ( ! ImapCheckSubscribed ) return ; idata -> cmdtype = IMAP_CT_LIST ; idata -> cmddata = & list ; cmd_parse_list ( idata , s ) ; idata -> cmddata = NULL ; if ( ! list . name || list . noselect ) return ; mutt_debug ( 3 , ""Subscribing to %s\\n"" , list . name ) ; mutt_str_strfcpy ( buf , ""mailboxes \\"""" , sizeof ( buf ) ) ; mutt_account_tourl ( & idata -> conn -> account , & url ) ; imap_quote_string ( errstr , sizeof ( errstr ) , list . name ) ; url . path = errstr + 1 ; url . path [ strlen ( url . path ) - 1 ] = '\\0' ; if ( mutt_str_strcmp ( url . user , ImapUser ) == 0 ) url . user = NULL ; url_tostring ( & url , buf + 11 , sizeof ( buf ) - 11 , 0 ) ; mutt_str_strcat ( buf , sizeof ( buf ) , ""\\"""" ) ; mutt_buffer_init ( & token ) ; mutt_buffer_init ( & err ) ; err . data = errstr ; err . dsize = sizeof ( errstr ) ; if ( mutt_parse_rc_line ( buf , & token , & err ) ) mutt_debug ( 1 , ""Error adding subscribed mailbox: %s\\n"" , errstr ) ; FREE ( & token . data ) ; }","static void cmd_parse_lsub ( struct ImapData * idata , char * s ) { char buf [ STRING ] ; char errstr [ STRING ] ; struct Buffer err , token ; struct Url url ; struct ImapList list ; if ( idata -> cmddata && idata -> cmdtype == IMAP_CT_LIST ) { cmd_parse_list ( idata , s ) ; return ; } if ( ! ImapCheckSubscribed ) return ; idata -> cmdtype = IMAP_CT_LIST ; idata -> cmddata = & list ; cmd_parse_list ( idata , s ) ; idata -> cmddata = NULL ; if ( ! list . name || list . noselect ) return ; mutt_debug ( 3 , ""Subscribing to %s\\n"" , list . name ) ; mutt_str_strfcpy ( buf , ""mailboxes \\"""" , sizeof ( buf ) ) ; mutt_account_tourl ( & idata -> conn -> account , & url ) ; imap_quote_string ( errstr , sizeof ( errstr ) , list . name , true ) ; url . path = errstr + 1 ; url . path [ strlen ( url . path ) - 1 ] = '\\0' ; if ( mutt_str_strcmp ( url . user , ImapUser ) == 0 ) url . user = NULL ; url_tostring ( & url , buf + 11 , sizeof ( buf ) - 11 , 0 ) ; mutt_str_strcat ( buf , sizeof ( buf ) , ""\\"""" ) ; mutt_buffer_init ( & token ) ; mutt_buffer_init ( & err ) ; err . data = errstr ; err . dsize = sizeof ( errstr ) ; if ( mutt_parse_rc_line ( buf , & token , & err ) ) mutt_debug ( 1 , ""Error adding subscribed mailbox: %s\\n"" , errstr ) ; FREE ( & token . data ) ; }" 138,"CWE-119 } } else { if ( insn -> src_reg != BPF_REG_0 || insn -> off != 0 || ( insn -> imm != 16 && insn -> imm != 32 && insn -> imm != 64 ) || BPF_CLASS ( insn -> code ) == BPF_ALU64 ) { verbose ( env , ""BPF_END uses reserved fields\\n"" ) ; return - EINVAL ; } } err = check_reg_arg ( env , insn -> dst_reg , SRC_OP ) ; if ( err ) return err ; if ( is_pointer_value ( env , insn -> dst_reg ) ) { verbose ( env , ""R%d pointer arithmetic prohibited\\n"" , insn -> dst_reg ) ; return - EACCES ; } err = check_reg_arg ( env , insn -> dst_reg , DST_OP ) ; if ( err ) return err ; } else if ( opcode == BPF_MOV ) { if ( BPF_SRC ( insn -> code ) == BPF_X ) { if ( insn -> imm != 0 || insn -> off != 0 ) { verbose ( env , ""BPF_MOV uses reserved fields\\n"" ) ; return - EINVAL ; } err = check_reg_arg ( env , insn -> src_reg , SRC_OP ) ; if ( err ) return err ; } else { if ( insn -> src_reg != BPF_REG_0 || insn -> off != 0 ) { verbose ( env , ""BPF_MOV uses reserved fields\\n"" ) ; return - EINVAL ; } } err = check_reg_arg ( env , insn -> dst_reg , DST_OP ) ; if ( err ) return err ; if ( BPF_SRC ( insn -> code ) == BPF_X ) { if ( BPF_CLASS ( insn -> code ) == BPF_ALU64 ) { regs [ insn -> dst_reg ] = regs [ insn -> src_reg ] ; regs [ insn -> dst_reg ] . live |= REG_LIVE_WRITTEN ; } else { if ( is_pointer_value ( env , insn -> src_reg ) ) { verbose ( env , ""R%d partial copy of pointer\\n"" , insn -> src_reg ) ; return - EACCES ; } mark_reg_unknown ( env , regs , insn -> dst_reg ) ; regs [ insn -> dst_reg ] . var_off = tnum_cast ( regs [ insn -> dst_reg ] . var_off , 4 ) ; __update_reg_bounds ( & regs [ insn -> dst_reg ] ) ; } } else { regs [ insn -> dst_reg ] . type = SCALAR_VALUE ; if ( BPF_CLASS ( insn -> code ) == BPF_ALU64 ) { __mark_reg_known ( regs + insn -> dst_reg , insn -> imm ) ; } else { __mark_reg_known ( regs + insn -> dst_reg , ( u32 ) insn -> imm ) ; } } } else if ( opcode > BPF_END ) { verbose ( env , ""invalid BPF_ALU opcode %x\\n"" , opcode ) ; return - EINVAL ; } else { if ( BPF_SRC ( insn -> code ) == BPF_X ) { if ( insn -> imm != 0 || insn -> off != 0 ) { verbose ( env , ""BPF_ALU uses reserved fields\\n"" ) ; return - EINVAL ; } err = check_reg_arg ( env , insn -> src_reg , SRC_OP ) ; if ( err ) return err ; } else { if ( insn -> src_reg != BPF_REG_0 || insn -> off != 0 ) { verbose ( env , ""BPF_ALU uses reserved fields\\n"" ) ; return - EINVAL ; } } err = check_reg_arg ( env , insn -> dst_reg , SRC_OP ) ; if ( err ) return err ; if ( ( opcode == BPF_MOD || opcode == BPF_DIV ) && BPF_SRC ( insn -> code ) == BPF_K && insn -> imm == 0 ) { verbose ( env , ""div by zero\\n"" ) ; return - EINVAL ; } if ( ( opcode == BPF_LSH || opcode == BPF_RSH || opcode == BPF_ARSH ) && BPF_SRC ( insn -> code ) == BPF_K ) { int size = BPF_CLASS ( insn -> code ) == BPF_ALU64 ? 64 : 32 ; if ( insn -> imm < 0 || insn -> imm >= size ) { verbose ( env , ""invalid shift %d\\n"" , insn -> imm ) ; return - EINVAL ; } } err = check_reg_arg ( env , insn -> dst_reg , DST_OP_NO_MARK ) ; if ( err ) return err ; return adjust_reg_min_max_vals ( env , insn ) ; }","} } else { if ( insn -> src_reg != BPF_REG_0 || insn -> off != 0 || ( insn -> imm != 16 && insn -> imm != 32 && insn -> imm != 64 ) || BPF_CLASS ( insn -> code ) == BPF_ALU64 ) { verbose ( env , ""BPF_END uses reserved fields\\n"" ) ; return - EINVAL ; } } err = check_reg_arg ( env , insn -> dst_reg , SRC_OP ) ; if ( err ) return err ; if ( is_pointer_value ( env , insn -> dst_reg ) ) { verbose ( env , ""R%d pointer arithmetic prohibited\\n"" , insn -> dst_reg ) ; return - EACCES ; } err = check_reg_arg ( env , insn -> dst_reg , DST_OP ) ; if ( err ) return err ; } else if ( opcode == BPF_MOV ) { if ( BPF_SRC ( insn -> code ) == BPF_X ) { if ( insn -> imm != 0 || insn -> off != 0 ) { verbose ( env , ""BPF_MOV uses reserved fields\\n"" ) ; return - EINVAL ; } err = check_reg_arg ( env , insn -> src_reg , SRC_OP ) ; if ( err ) return err ; } else { if ( insn -> src_reg != BPF_REG_0 || insn -> off != 0 ) { verbose ( env , ""BPF_MOV uses reserved fields\\n"" ) ; return - EINVAL ; } } err = check_reg_arg ( env , insn -> dst_reg , DST_OP ) ; if ( err ) return err ; if ( BPF_SRC ( insn -> code ) == BPF_X ) { if ( BPF_CLASS ( insn -> code ) == BPF_ALU64 ) { regs [ insn -> dst_reg ] = regs [ insn -> src_reg ] ; regs [ insn -> dst_reg ] . live |= REG_LIVE_WRITTEN ; } else { if ( is_pointer_value ( env , insn -> src_reg ) ) { verbose ( env , ""R%d partial copy of pointer\\n"" , insn -> src_reg ) ; return - EACCES ; } mark_reg_unknown ( env , regs , insn -> dst_reg ) ; coerce_reg_to_size ( & regs [ insn -> dst_reg ] , 4 ) ; } } else { regs [ insn -> dst_reg ] . type = SCALAR_VALUE ; if ( BPF_CLASS ( insn -> code ) == BPF_ALU64 ) { __mark_reg_known ( regs + insn -> dst_reg , insn -> imm ) ; } else { __mark_reg_known ( regs + insn -> dst_reg , ( u32 ) insn -> imm ) ; } } } else if ( opcode > BPF_END ) { verbose ( env , ""invalid BPF_ALU opcode %x\\n"" , opcode ) ; return - EINVAL ; } else { if ( BPF_SRC ( insn -> code ) == BPF_X ) { if ( insn -> imm != 0 || insn -> off != 0 ) { verbose ( env , ""BPF_ALU uses reserved fields\\n"" ) ; return - EINVAL ; } err = check_reg_arg ( env , insn -> src_reg , SRC_OP ) ; if ( err ) return err ; } else { if ( insn -> src_reg != BPF_REG_0 || insn -> off != 0 ) { verbose ( env , ""BPF_ALU uses reserved fields\\n"" ) ; return - EINVAL ; } } err = check_reg_arg ( env , insn -> dst_reg , SRC_OP ) ; if ( err ) return err ; if ( ( opcode == BPF_MOD || opcode == BPF_DIV ) && BPF_SRC ( insn -> code ) == BPF_K && insn -> imm == 0 ) { verbose ( env , ""div by zero\\n"" ) ; return - EINVAL ; } if ( ( opcode == BPF_LSH || opcode == BPF_RSH || opcode == BPF_ARSH ) && BPF_SRC ( insn -> code ) == BPF_K ) { int size = BPF_CLASS ( insn -> code ) == BPF_ALU64 ? 64 : 32 ; if ( insn -> imm < 0 || insn -> imm >= size ) { verbose ( env , ""invalid shift %d\\n"" , insn -> imm ) ; return - EINVAL ; } } err = check_reg_arg ( env , insn -> dst_reg , DST_OP_NO_MARK ) ; if ( err ) return err ; return adjust_reg_min_max_vals ( env , insn ) ; }" 139,"CWE-190 void * xcalloc ( size_t num , size_t size ) { void * ptr = malloc ( num * size ) ; if ( ptr ) { memset ( ptr , '\\0' , ( num * size ) ) ; } return ptr ; }","void * xcalloc ( size_t num , size_t size ) { size_t res ; if ( check_mul_overflow ( num , size , & res ) ) abort ( ) ; void * ptr ; ptr = malloc ( res ) ; if ( ptr ) { memset ( ptr , '\\0' , ( res ) ) ; } return ptr ; }" 140,"CWE-125 static void l2tp_accm_print ( netdissect_options * ndo , const u_char * dat ) { const uint16_t * ptr = ( const uint16_t * ) dat ; uint16_t val_h , val_l ; ptr ++ ; val_h = EXTRACT_16BITS ( ptr ) ; ptr ++ ; val_l = EXTRACT_16BITS ( ptr ) ; ptr ++ ; ND_PRINT ( ( ndo , ""send=%08x "" , ( val_h << 16 ) + val_l ) ) ; val_h = EXTRACT_16BITS ( ptr ) ; ptr ++ ; val_l = EXTRACT_16BITS ( ptr ) ; ptr ++ ; ND_PRINT ( ( ndo , ""recv=%08x "" , ( val_h << 16 ) + val_l ) ) ; }","static void l2tp_accm_print ( netdissect_options * ndo , const u_char * dat , u_int length ) { const uint16_t * ptr = ( const uint16_t * ) dat ; uint16_t val_h , val_l ; if ( length < 2 ) { ND_PRINT ( ( ndo , ""AVP too short"" ) ) ; return ; } ptr ++ ; length -= 2 ; if ( length < 4 ) { ND_PRINT ( ( ndo , ""AVP too short"" ) ) ; return ; } val_h = EXTRACT_16BITS ( ptr ) ; ptr ++ ; length -= 2 ; val_l = EXTRACT_16BITS ( ptr ) ; ptr ++ ; length -= 2 ; ND_PRINT ( ( ndo , ""send=%08x "" , ( val_h << 16 ) + val_l ) ) ; if ( length < 4 ) { ND_PRINT ( ( ndo , ""AVP too short"" ) ) ; return ; } val_h = EXTRACT_16BITS ( ptr ) ; ptr ++ ; val_l = EXTRACT_16BITS ( ptr ) ; ptr ++ ; ND_PRINT ( ( ndo , ""recv=%08x "" , ( val_h << 16 ) + val_l ) ) ; }" 141,"CWE-125 if ( addrtostr6 ( & match -> rpm_prefix , hbuf , sizeof ( hbuf ) ) ) ND_PRINT ( ( ndo , "",%s/%u"" , hbuf , match -> rpm_matchlen ) ) ; else ND_PRINT ( ( ndo , "",?/%u"" , match -> rpm_matchlen ) ) ; ND_PRINT ( ( ndo , "")"" ) ) ; n = match -> rpm_len - 3 ; if ( n % 4 ) goto trunc ; n /= 4 ; while ( n -- > 0 ) { use = ( const struct rr_pco_use * ) cp ; cp = ( const char * ) ( use + 1 ) ; ND_TCHECK ( use -> rpu_prefix ) ; if ( ndo -> ndo_vflag > 1 ) ND_PRINT ( ( ndo , ""\\n\\t"" ) ) ; else ND_PRINT ( ( ndo , "" "" ) ) ; ND_PRINT ( ( ndo , ""use("" ) ) ; if ( use -> rpu_flags ) { # define F ( x , y ) ( ( use -> rpu_flags ) & ( x ) ? ( y ) : """" ) ND_PRINT ( ( ndo , ""%s%s,"" , F ( ICMP6_RR_PCOUSE_FLAGS_DECRVLTIME , ""V"" ) , F ( ICMP6_RR_PCOUSE_FLAGS_DECRPLTIME , ""P"" ) ) ) ; # undef F } if ( ndo -> ndo_vflag ) { ND_PRINT ( ( ndo , ""mask=0x%x,"" , use -> rpu_ramask ) ) ; ND_PRINT ( ( ndo , ""raflags=0x%x,"" , use -> rpu_raflags ) ) ; if ( ~ use -> rpu_vltime == 0 ) ND_PRINT ( ( ndo , ""vltime=infty,"" ) ) ; else ND_PRINT ( ( ndo , ""vltime=%u,"" , EXTRACT_32BITS ( & use -> rpu_vltime ) ) ) ; if ( ~ use -> rpu_pltime == 0 ) ND_PRINT ( ( ndo , ""pltime=infty,"" ) ) ; else ND_PRINT ( ( ndo , ""pltime=%u,"" , EXTRACT_32BITS ( & use -> rpu_pltime ) ) ) ; } if ( addrtostr6 ( & use -> rpu_prefix , hbuf , sizeof ( hbuf ) ) ) ND_PRINT ( ( ndo , ""%s/%u/%u"" , hbuf , use -> rpu_uselen , use -> rpu_keeplen ) ) ; else ND_PRINT ( ( ndo , ""?/%u/%u"" , use -> rpu_uselen , use -> rpu_keeplen ) ) ; ND_PRINT ( ( ndo , "")"" ) ) ; } } return ; trunc : ND_PRINT ( ( ndo , ""[|icmp6]"" ) ) ; }","if ( addrtostr6 ( & match -> rpm_prefix , hbuf , sizeof ( hbuf ) ) ) ND_PRINT ( ( ndo , "",%s/%u"" , hbuf , match -> rpm_matchlen ) ) ; else ND_PRINT ( ( ndo , "",?/%u"" , match -> rpm_matchlen ) ) ; ND_PRINT ( ( ndo , "")"" ) ) ; n = match -> rpm_len - 3 ; if ( n % 4 ) goto trunc ; n /= 4 ; while ( n -- > 0 ) { use = ( const struct rr_pco_use * ) cp ; cp = ( const char * ) ( use + 1 ) ; ND_TCHECK ( use -> rpu_prefix ) ; if ( ndo -> ndo_vflag > 1 ) ND_PRINT ( ( ndo , ""\\n\\t"" ) ) ; else ND_PRINT ( ( ndo , "" "" ) ) ; ND_PRINT ( ( ndo , ""use("" ) ) ; if ( use -> rpu_flags ) { # define F ( x , y ) ( ( use -> rpu_flags ) & ( x ) ? ( y ) : """" ) ND_PRINT ( ( ndo , ""%s%s,"" , F ( ICMP6_RR_PCOUSE_FLAGS_DECRVLTIME , ""V"" ) , F ( ICMP6_RR_PCOUSE_FLAGS_DECRPLTIME , ""P"" ) ) ) ; # undef F } if ( ndo -> ndo_vflag ) { ND_PRINT ( ( ndo , ""mask=0x%x,"" , use -> rpu_ramask ) ) ; ND_PRINT ( ( ndo , ""raflags=0x%x,"" , use -> rpu_raflags ) ) ; if ( ~ use -> rpu_vltime == 0 ) ND_PRINT ( ( ndo , ""vltime=infty,"" ) ) ; else ND_PRINT ( ( ndo , ""vltime=%u,"" , EXTRACT_32BITS ( & use -> rpu_vltime ) ) ) ; if ( ~ use -> rpu_pltime == 0 ) ND_PRINT ( ( ndo , ""pltime=infty,"" ) ) ; else ND_PRINT ( ( ndo , ""pltime=%u,"" , EXTRACT_32BITS ( & use -> rpu_pltime ) ) ) ; } if ( addrtostr6 ( & use -> rpu_prefix , hbuf , sizeof ( hbuf ) ) ) ND_PRINT ( ( ndo , ""%s/%u/%u"" , hbuf , use -> rpu_uselen , use -> rpu_keeplen ) ) ; else ND_PRINT ( ( ndo , ""?/%u/%u"" , use -> rpu_uselen , use -> rpu_keeplen ) ) ; ND_PRINT ( ( ndo , "")"" ) ) ; } } return ; trunc : ND_PRINT ( ( ndo , ""%s"" , icmp6_tstr ) ) ; }" 142,CWE-416 int fscrypt_get_encryption_info ( struct inode * inode ) { struct fscrypt_info * ci = inode -> i_crypt_info ; if ( ! ci || ( ci -> ci_keyring_key && ( ci -> ci_keyring_key -> flags & ( ( 1 << KEY_FLAG_INVALIDATED ) | ( 1 << KEY_FLAG_REVOKED ) | ( 1 << KEY_FLAG_DEAD ) ) ) ) ) return fscrypt_get_crypt_info ( inode ) ; return 0 ; },"int fscrypt_get_encryption_info ( struct inode * inode ) { struct fscrypt_info * crypt_info ; struct fscrypt_context ctx ; struct crypto_skcipher * ctfm ; const char * cipher_str ; int keysize ; u8 * raw_key = NULL ; int res ; if ( inode -> i_crypt_info ) return 0 ; res = fscrypt_initialize ( inode -> i_sb -> s_cop -> flags ) ; if ( res ) return res ; if ( ! inode -> i_sb -> s_cop -> get_context ) return - EOPNOTSUPP ; res = inode -> i_sb -> s_cop -> get_context ( inode , & ctx , sizeof ( ctx ) ) ; if ( res < 0 ) { if ( ! fscrypt_dummy_context_enabled ( inode ) || inode -> i_sb -> s_cop -> is_encrypted ( inode ) ) return res ; memset ( & ctx , 0 , sizeof ( ctx ) ) ; ctx . format = FS_ENCRYPTION_CONTEXT_FORMAT_V1 ; ctx . contents_encryption_mode = FS_ENCRYPTION_MODE_AES_256_XTS ; ctx . filenames_encryption_mode = FS_ENCRYPTION_MODE_AES_256_CTS ; memset ( ctx . master_key_descriptor , 0x42 , FS_KEY_DESCRIPTOR_SIZE ) ; } else if ( res != sizeof ( ctx ) ) { return - EINVAL ; } if ( ctx . format != FS_ENCRYPTION_CONTEXT_FORMAT_V1 ) return - EINVAL ; if ( ctx . flags & ~ FS_POLICY_FLAGS_VALID ) return - EINVAL ; crypt_info = kmem_cache_alloc ( fscrypt_info_cachep , GFP_NOFS ) ; if ( ! crypt_info ) return - ENOMEM ; crypt_info -> ci_flags = ctx . flags ; crypt_info -> ci_data_mode = ctx . contents_encryption_mode ; crypt_info -> ci_filename_mode = ctx . filenames_encryption_mode ; crypt_info -> ci_ctfm = NULL ; memcpy ( crypt_info -> ci_master_key , ctx . master_key_descriptor , sizeof ( crypt_info -> ci_master_key ) ) ; res = determine_cipher_type ( crypt_info , inode , & cipher_str , & keysize ) ; if ( res ) goto out ; res = - ENOMEM ; raw_key = kmalloc ( FS_MAX_KEY_SIZE , GFP_NOFS ) ; if ( ! raw_key ) goto out ; res = validate_user_key ( crypt_info , & ctx , raw_key , FS_KEY_DESC_PREFIX ) ; if ( res && inode -> i_sb -> s_cop -> key_prefix ) { int res2 = validate_user_key ( crypt_info , & ctx , raw_key , inode -> i_sb -> s_cop -> key_prefix ) ; if ( res2 ) { if ( res2 == - ENOKEY ) res = - ENOKEY ; goto out ; } } else if ( res ) { goto out ; } ctfm = crypto_alloc_skcipher ( cipher_str , 0 , 0 ) ; if ( ! ctfm || IS_ERR ( ctfm ) ) { res = ctfm ? PTR_ERR ( ctfm ) : - ENOMEM ; printk ( KERN_DEBUG ""%s: error %d (inode %u) allocating crypto tfm\\n"" , __func__ , res , ( unsigned ) inode -> i_ino ) ; goto out ; } crypt_info -> ci_ctfm = ctfm ; crypto_skcipher_clear_flags ( ctfm , ~ 0 ) ; crypto_skcipher_set_flags ( ctfm , CRYPTO_TFM_REQ_WEAK_KEY ) ; res = crypto_skcipher_setkey ( ctfm , raw_key , keysize ) ; if ( res ) goto out ; if ( cmpxchg ( & inode -> i_crypt_info , NULL , crypt_info ) == NULL ) crypt_info = NULL ; out : if ( res == - ENOKEY ) res = 0 ; put_crypt_info ( crypt_info ) ; kzfree ( raw_key ) ; return res ; }" 143,"CWE-835 break ; case DWG_TYPE_OLE2FRAME : dwg_free_OLE2FRAME ( dat , obj ) ; break ; case DWG_TYPE_DUMMY : dwg_free_DUMMY ( dat , obj ) ; break ; case DWG_TYPE_LONG_TRANSACTION : dwg_free_LONG_TRANSACTION ( dat , obj ) ; break ; case DWG_TYPE_LWPOLYLINE : dwg_free_LWPOLYLINE ( dat , obj ) ; break ; case DWG_TYPE_HATCH : dwg_free_HATCH ( dat , obj ) ; break ; case DWG_TYPE_XRECORD : dwg_free_XRECORD ( dat , obj ) ; break ; case DWG_TYPE_PLACEHOLDER : dwg_free_PLACEHOLDER ( dat , obj ) ; break ; case DWG_TYPE_OLEFRAME : dwg_free_OLEFRAME ( dat , obj ) ; break ; # ifdef DEBUG_VBA_PROJECT case DWG_TYPE_VBA_PROJECT : dwg_free_VBA_PROJECT ( dat , obj ) ; break ; # endif case DWG_TYPE_LAYOUT : dwg_free_LAYOUT ( dat , obj ) ; break ; case DWG_TYPE_PROXY_ENTITY : dwg_free_PROXY_ENTITY ( dat , obj ) ; break ; case DWG_TYPE_PROXY_OBJECT : dwg_free_PROXY_OBJECT ( dat , obj ) ; break ; default : if ( obj -> type == obj -> parent -> layout_type ) { SINCE ( R_13 ) { dwg_free_LAYOUT ( dat , obj ) ; } } else if ( ( error = dwg_free_variable_type ( obj -> parent , obj ) ) & DWG_ERR_UNHANDLEDCLASS ) { int is_entity ; int i ; Dwg_Class * klass ; unhandled : is_entity = 0 ; i = obj -> type - 500 ; klass = NULL ; dwg = obj -> parent ; if ( dwg -> dwg_class && i >= 0 && i < ( int ) dwg -> num_classes ) { klass = & dwg -> dwg_class [ i ] ; is_entity = klass ? dwg_class_is_entity ( klass ) : 0 ; } if ( obj -> fixedtype == DWG_TYPE_TABLE ) { dwg_free_UNKNOWN_ENT ( dat , obj ) ; } else if ( obj -> fixedtype == DWG_TYPE_DATATABLE ) { dwg_free_UNKNOWN_OBJ ( dat , obj ) ; } else if ( klass && ! is_entity ) { dwg_free_UNKNOWN_OBJ ( dat , obj ) ; } else if ( klass && is_entity ) { dwg_free_UNKNOWN_ENT ( dat , obj ) ; } else { FREE_IF ( obj -> tio . unknown ) ; } } } if ( dwg -> opts & DWG_OPTS_INDXF ) FREE_IF ( obj -> dxfname ) ; obj -> type = DWG_TYPE_FREED ; }","break ; case DWG_TYPE_OLE2FRAME : dwg_free_OLE2FRAME ( dat , obj ) ; break ; case DWG_TYPE_DUMMY : dwg_free_DUMMY ( dat , obj ) ; break ; case DWG_TYPE_LONG_TRANSACTION : dwg_free_LONG_TRANSACTION ( dat , obj ) ; break ; case DWG_TYPE_LWPOLYLINE : dwg_free_LWPOLYLINE ( dat , obj ) ; break ; case DWG_TYPE_HATCH : dwg_free_HATCH ( dat , obj ) ; break ; case DWG_TYPE_XRECORD : dwg_free_XRECORD ( dat , obj ) ; break ; case DWG_TYPE_PLACEHOLDER : dwg_free_PLACEHOLDER ( dat , obj ) ; break ; case DWG_TYPE_OLEFRAME : dwg_free_OLEFRAME ( dat , obj ) ; break ; # ifdef DEBUG_VBA_PROJECT case DWG_TYPE_VBA_PROJECT : dwg_free_VBA_PROJECT ( dat , obj ) ; break ; # endif case DWG_TYPE_LAYOUT : dwg_free_LAYOUT ( dat , obj ) ; break ; case DWG_TYPE_PROXY_ENTITY : dwg_free_PROXY_ENTITY ( dat , obj ) ; break ; case DWG_TYPE_PROXY_OBJECT : dwg_free_PROXY_OBJECT ( dat , obj ) ; break ; default : if ( obj -> type == obj -> parent -> layout_type ) { SINCE ( R_13 ) { dwg_free_LAYOUT ( dat , obj ) ; } } else if ( ( error = dwg_free_variable_type ( obj -> parent , obj ) ) & DWG_ERR_UNHANDLEDCLASS ) { unhandled : if ( obj -> fixedtype == DWG_TYPE_UNKNOWN_ENT ) dwg_free_UNKNOWN_ENT ( dat , obj ) ; else if ( obj -> fixedtype == DWG_TYPE_UNKNOWN_OBJ ) dwg_free_UNKNOWN_OBJ ( dat , obj ) ; } } if ( dwg -> opts & DWG_OPTS_INDXF ) FREE_IF ( obj -> dxfname ) ; obj -> type = DWG_TYPE_FREED ; }" 144,"CWE-119 static const char * parse_value ( cJSON * item , const char * value ) { if ( ! value ) return 0 ; if ( ! strncmp ( value , ""null"" , 4 ) ) { item -> type = cJSON_NULL ; return value + 4 ; } if ( ! strncmp ( value , ""false"" , 5 ) ) { item -> type = cJSON_False ; return value + 5 ; } if ( ! strncmp ( value , ""true"" , 4 ) ) { item -> type = cJSON_True ; item -> valueint = 1 ; return value + 4 ; } if ( * value == \'\\""\' ) return parse_string ( item , value ) ; if ( * value == '-' || ( * value >= '0' && * value <= '9' ) ) return parse_number ( item , value ) ; if ( * value == '[' ) return parse_array ( item , value ) ; if ( * value == '{' ) return parse_object ( item , value ) ; ep = value ; return 0 ; }","static const char * parse_value ( cJSON * item , const char * value , const char * * ep ) { if ( ! value ) return 0 ; if ( ! strncmp ( value , ""null"" , 4 ) ) { item -> type = cJSON_NULL ; return value + 4 ; } if ( ! strncmp ( value , ""false"" , 5 ) ) { item -> type = cJSON_False ; return value + 5 ; } if ( ! strncmp ( value , ""true"" , 4 ) ) { item -> type = cJSON_True ; item -> valueint = 1 ; return value + 4 ; } if ( * value == \'\\""\' ) { return parse_string ( item , value , ep ) ; } if ( * value == '-' || ( * value >= '0' && * value <= '9' ) ) { return parse_number ( item , value ) ; } if ( * value == '[' ) { return parse_array ( item , value , ep ) ; } if ( * value == '{' ) { return parse_object ( item , value , ep ) ; } * ep = value ; return 0 ; }" 145,"CWE-119 static l_int32 pixHtmlViewer ( const char * dirin , const char * dirout , const char * rootname , l_int32 thumbwidth , l_int32 viewwidth ) { char * fname , * fullname , * outname ; char * mainname , * linkname , * linknameshort ; char * viewfile , * thumbfile ; char * shtml , * slink ; char charbuf [ 512 ] ; char htmlstring [ ] = """" ; char framestring [ ] = """" ; l_int32 i , nfiles , index , w , d , nimages , ret ; l_float32 factor ; PIX * pix , * pixthumb , * pixview ; SARRAY * safiles , * sathumbs , * saviews , * sahtml , * salink ; PROCNAME ( ""pixHtmlViewer"" ) ; if ( ! dirin ) return ERROR_INT ( ""dirin not defined"" , procName , 1 ) ; if ( ! dirout ) return ERROR_INT ( ""dirout not defined"" , procName , 1 ) ; if ( ! rootname ) return ERROR_INT ( ""rootname not defined"" , procName , 1 ) ; if ( thumbwidth == 0 ) thumbwidth = DEFAULT_THUMB_WIDTH ; if ( thumbwidth < MIN_THUMB_WIDTH ) { L_WARNING ( ""thumbwidth too small; using min value\\n"" , procName ) ; thumbwidth = MIN_THUMB_WIDTH ; } if ( viewwidth == 0 ) viewwidth = DEFAULT_VIEW_WIDTH ; if ( viewwidth < MIN_VIEW_WIDTH ) { L_WARNING ( ""viewwidth too small; using min value\\n"" , procName ) ; viewwidth = MIN_VIEW_WIDTH ; } # ifndef _WIN32 snprintf ( charbuf , sizeof ( charbuf ) , ""mkdir -p %s"" , dirout ) ; ret = system ( charbuf ) ; # else ret = CreateDirectory ( dirout , NULL ) ? 0 : 1 ; # endif if ( ret ) { L_ERROR ( ""output directory %s not made\\n"" , procName , dirout ) ; return 1 ; } if ( ( safiles = getFilenamesInDirectory ( dirin ) ) == NULL ) return ERROR_INT ( ""safiles not made"" , procName , 1 ) ; sprintf ( charbuf , ""%s/%s.html"" , dirout , rootname ) ; mainname = stringNew ( charbuf ) ; sprintf ( charbuf , ""%s/%s-links.html"" , dirout , rootname ) ; linkname = stringNew ( charbuf ) ; linknameshort = stringJoin ( rootname , ""-links.html"" ) ; sathumbs = sarrayCreate ( 0 ) ; saviews = sarrayCreate ( 0 ) ; nfiles = sarrayGetCount ( safiles ) ; index = 0 ; for ( i = 0 ; i < nfiles ; i ++ ) { fname = sarrayGetString ( safiles , i , L_NOCOPY ) ; fullname = genPathname ( dirin , fname ) ; fprintf ( stderr , ""name: %s\\n"" , fullname ) ; if ( ( pix = pixRead ( fullname ) ) == NULL ) { fprintf ( stderr , ""file %s not a readable image\\n"" , fullname ) ; lept_free ( fullname ) ; continue ; } lept_free ( fullname ) ; pixGetDimensions ( pix , & w , NULL , & d ) ; factor = ( l_float32 ) thumbwidth / ( l_float32 ) w ; pixthumb = pixScale ( pix , factor , factor ) ; sprintf ( charbuf , ""%s_thumb_%03d"" , rootname , index ) ; sarrayAddString ( sathumbs , charbuf , L_COPY ) ; outname = genPathname ( dirout , charbuf ) ; WriteFormattedPix ( outname , pixthumb ) ; lept_free ( outname ) ; pixDestroy ( & pixthumb ) ; factor = ( l_float32 ) viewwidth / ( l_float32 ) w ; if ( factor >= 1.0 ) pixview = pixClone ( pix ) ; else pixview = pixScale ( pix , factor , factor ) ; snprintf ( charbuf , sizeof ( charbuf ) , ""%s_view_%03d"" , rootname , index ) ; sarrayAddString ( saviews , charbuf , L_COPY ) ; outname = genPathname ( dirout , charbuf ) ; WriteFormattedPix ( outname , pixview ) ; lept_free ( outname ) ; pixDestroy ( & pixview ) ; pixDestroy ( & pix ) ; index ++ ; } sahtml = sarrayCreate ( 0 ) ; sarrayAddString ( sahtml , htmlstring , L_COPY ) ; sprintf ( charbuf , """" , thumbwidth + 30 ) ; sarrayAddString ( sahtml , charbuf , L_COPY ) ; sprintf ( charbuf , """" , linknameshort ) ; sarrayAddString ( sahtml , charbuf , L_COPY ) ; sprintf ( charbuf , """" , sarrayGetString ( saviews , 0 , L_NOCOPY ) ) ; sarrayAddString ( sahtml , charbuf , L_COPY ) ; sarrayAddString ( sahtml , framestring , L_COPY ) ; shtml = sarrayToString ( sahtml , 1 ) ; l_binaryWrite ( mainname , ""w"" , shtml , strlen ( shtml ) ) ; fprintf ( stderr , ""******************************************\\n"" ""Writing html file: %s\\n"" ""******************************************\\n"" , mainname ) ; lept_free ( shtml ) ; lept_free ( mainname ) ; nimages = sarrayGetCount ( saviews ) ; fprintf ( stderr , ""num. images = %d\\n"" , nimages ) ; salink = sarrayCreate ( 0 ) ; for ( i = 0 ; i < nimages ; i ++ ) { viewfile = sarrayGetString ( saviews , i , L_NOCOPY ) ; thumbfile = sarrayGetString ( sathumbs , i , L_NOCOPY ) ; sprintf ( charbuf , """" , viewfile , thumbfile ) ; sarrayAddString ( salink , charbuf , L_COPY ) ; } slink = sarrayToString ( salink , 1 ) ; l_binaryWrite ( linkname , ""w"" , slink , strlen ( slink ) ) ; lept_free ( slink ) ; lept_free ( linkname ) ;","static l_int32 pixHtmlViewer ( const char * dirin , const char * dirout , const char * rootname , l_int32 thumbwidth , l_int32 viewwidth ) { char * fname , * fullname , * outname ; char * mainname , * linkname , * linknameshort ; char * viewfile , * thumbfile ; char * shtml , * slink ; char charbuf [ 512 ] ; char htmlstring [ ] = """" ; char framestring [ ] = """" ; l_int32 i , nfiles , index , w , d , nimages , ret ; l_float32 factor ; PIX * pix , * pixthumb , * pixview ; SARRAY * safiles , * sathumbs , * saviews , * sahtml , * salink ; PROCNAME ( ""pixHtmlViewer"" ) ; if ( ! dirin ) return ERROR_INT ( ""dirin not defined"" , procName , 1 ) ; if ( ! dirout ) return ERROR_INT ( ""dirout not defined"" , procName , 1 ) ; if ( ! rootname ) return ERROR_INT ( ""rootname not defined"" , procName , 1 ) ; if ( thumbwidth == 0 ) thumbwidth = DEFAULT_THUMB_WIDTH ; if ( thumbwidth < MIN_THUMB_WIDTH ) { L_WARNING ( ""thumbwidth too small; using min value\\n"" , procName ) ; thumbwidth = MIN_THUMB_WIDTH ; } if ( viewwidth == 0 ) viewwidth = DEFAULT_VIEW_WIDTH ; if ( viewwidth < MIN_VIEW_WIDTH ) { L_WARNING ( ""viewwidth too small; using min value\\n"" , procName ) ; viewwidth = MIN_VIEW_WIDTH ; } # ifndef _WIN32 snprintf ( charbuf , sizeof ( charbuf ) , ""mkdir -p %s"" , dirout ) ; ret = system ( charbuf ) ; # else ret = CreateDirectory ( dirout , NULL ) ? 0 : 1 ; # endif if ( ret ) { L_ERROR ( ""output directory %s not made\\n"" , procName , dirout ) ; return 1 ; } if ( ( safiles = getFilenamesInDirectory ( dirin ) ) == NULL ) return ERROR_INT ( ""safiles not made"" , procName , 1 ) ; snprintf ( charbuf , sizeof ( charbuf ) , ""%s/%s.html"" , dirout , rootname ) ; mainname = stringNew ( charbuf ) ; snprintf ( charbuf , sizeof ( charbuf ) , ""%s/%s-links.html"" , dirout , rootname ) ; linkname = stringNew ( charbuf ) ; linknameshort = stringJoin ( rootname , ""-links.html"" ) ; sathumbs = sarrayCreate ( 0 ) ; saviews = sarrayCreate ( 0 ) ; nfiles = sarrayGetCount ( safiles ) ; index = 0 ; for ( i = 0 ; i < nfiles ; i ++ ) { fname = sarrayGetString ( safiles , i , L_NOCOPY ) ; fullname = genPathname ( dirin , fname ) ; fprintf ( stderr , ""name: %s\\n"" , fullname ) ; if ( ( pix = pixRead ( fullname ) ) == NULL ) { fprintf ( stderr , ""file %s not a readable image\\n"" , fullname ) ; lept_free ( fullname ) ; continue ; } lept_free ( fullname ) ; pixGetDimensions ( pix , & w , NULL , & d ) ; factor = ( l_float32 ) thumbwidth / ( l_float32 ) w ; pixthumb = pixScale ( pix , factor , factor ) ; snprintf ( charbuf , sizeof ( charbuf ) , ""%s_thumb_%03d"" , rootname , index ) ; sarrayAddString ( sathumbs , charbuf , L_COPY ) ; outname = genPathname ( dirout , charbuf ) ; WriteFormattedPix ( outname , pixthumb ) ; lept_free ( outname ) ; pixDestroy ( & pixthumb ) ; factor = ( l_float32 ) viewwidth / ( l_float32 ) w ; if ( factor >= 1.0 ) pixview = pixClone ( pix ) ; else pixview = pixScale ( pix , factor , factor ) ; snprintf ( charbuf , sizeof ( charbuf ) , ""%s_view_%03d"" , rootname , index ) ; sarrayAddString ( saviews , charbuf , L_COPY ) ; outname = genPathname ( dirout , charbuf ) ; WriteFormattedPix ( outname , pixview ) ; lept_free ( outname ) ; pixDestroy ( & pixview ) ; pixDestroy ( & pix ) ; index ++ ; } sahtml = sarrayCreate ( 0 ) ; sarrayAddString ( sahtml , htmlstring , L_COPY ) ; sprintf ( charbuf , """" , thumbwidth + 30 ) ; sarrayAddString ( sahtml , charbuf , L_COPY ) ; sprintf ( charbuf , """" , linknameshort ) ; sarrayAddString ( sahtml , charbuf , L_COPY ) ; sprintf ( charbuf , """" , sarrayGetString ( saviews , 0 , L_NOCOPY ) ) ; sarrayAddString ( sahtml , charbuf , L_COPY ) ; sarrayAddString ( sahtml , framestring , L_COPY ) ; shtml = sarrayToString ( sahtml , 1 ) ; l_binaryWrite ( mainname , ""w"" , shtml , strlen ( shtml ) ) ; fprintf ( stderr , ""******************************************\\n"" ""Writing html file: %s\\n"" ""******************************************\\n"" , mainname ) ; lept_free ( shtml ) ; lept_free ( mainname ) ; nimages = sarrayGetCount ( saviews ) ; fprintf ( stderr , ""num. images = %d\\n"" , nimages ) ; salink = sarrayCreate ( 0 ) ; for ( i = 0 ; i < nimages ; i ++ ) { viewfile = sarrayGetString ( saviews , i , L_NOCOPY ) ; thumbfile = sarrayGetString ( sathumbs , i , L_NOCOPY ) ; sprintf ( charbuf , """" , viewfile , thumbfile ) ; sarrayAddString ( salink , charbuf , L_COPY ) ; } slink = sarrayToString ( salink , 1 ) ; l_binaryWrite ( linkname , ""w"" , slink , strlen ( slink ) ) ; lept_free ( slink ) ; lept_free ( linkname ) ;" 146,"CWE-400 static void Sp_match ( js_State * J ) { js_Regexp * re ; const char * text ; int len ; const char * a , * b , * c , * e ; Resub m ; text = checkstring ( J , 0 ) ; if ( js_isregexp ( J , 1 ) ) js_copy ( J , 1 ) ; else if ( js_isundefined ( J , 1 ) ) js_newregexp ( J , """" , 0 ) ; else js_newregexp ( J , js_tostring ( J , 1 ) , 0 ) ; re = js_toregexp ( J , - 1 ) ; if ( ! ( re -> flags & JS_REGEXP_G ) ) { js_RegExp_prototype_exec ( J , re , text ) ; return ; } re -> last = 0 ; js_newarray ( J ) ; len = 0 ; a = text ; e = text + strlen ( text ) ; while ( a <= e ) { if ( js_regexec ( re -> prog , a , & m , a > text ? REG_NOTBOL : 0 ) ) break ; b = m . sub [ 0 ] . sp ; c = m . sub [ 0 ] . ep ; js_pushlstring ( J , b , c - b ) ; js_setindex ( J , - 2 , len ++ ) ; a = c ; if ( c - b == 0 ) } if ( len == 0 ) { js_pop ( J , 1 ) ; js_pushnull ( J ) ; } }","static void Sp_match ( js_State * J ) { js_Regexp * re ; const char * text ; int len ; const char * a , * b , * c , * e ; Resub m ; text = checkstring ( J , 0 ) ; if ( js_isregexp ( J , 1 ) ) js_copy ( J , 1 ) ; else if ( js_isundefined ( J , 1 ) ) js_newregexp ( J , """" , 0 ) ; else js_newregexp ( J , js_tostring ( J , 1 ) , 0 ) ; re = js_toregexp ( J , - 1 ) ; if ( ! ( re -> flags & JS_REGEXP_G ) ) { js_RegExp_prototype_exec ( J , re , text ) ; return ; } re -> last = 0 ; js_newarray ( J ) ; len = 0 ; a = text ; e = text + strlen ( text ) ; while ( a <= e ) { if ( js_doregexec ( J , re -> prog , a , & m , a > text ? REG_NOTBOL : 0 ) ) break ; b = m . sub [ 0 ] . sp ; c = m . sub [ 0 ] . ep ; js_pushlstring ( J , b , c - b ) ; js_setindex ( J , - 2 , len ++ ) ; a = c ; if ( c - b == 0 ) + a ; } if ( len == 0 ) { js_pop ( J , 1 ) ; js_pushnull ( J ) ; } }" 147,"CWE-20 if ( buf_align & ( buf_align - 1 ) ) goto fail ; if ( ! stride_align ) stride_align = 1 ; if ( stride_align & ( stride_align - 1 ) ) goto fail ; switch ( fmt ) { case VPX_IMG_FMT_RGB32 : case VPX_IMG_FMT_RGB32_LE : case VPX_IMG_FMT_ARGB : case VPX_IMG_FMT_ARGB_LE : bps = 32 ; break ; case VPX_IMG_FMT_RGB24 : case VPX_IMG_FMT_BGR24 : bps = 24 ; break ; case VPX_IMG_FMT_RGB565 : case VPX_IMG_FMT_RGB565_LE : case VPX_IMG_FMT_RGB555 : case VPX_IMG_FMT_RGB555_LE : case VPX_IMG_FMT_UYVY : case VPX_IMG_FMT_YUY2 : case VPX_IMG_FMT_YVYU : bps = 16 ; break ; case VPX_IMG_FMT_I420 : case VPX_IMG_FMT_YV12 : case VPX_IMG_FMT_VPXI420 : case VPX_IMG_FMT_VPXYV12 : bps = 12 ; break ; case VPX_IMG_FMT_I422 : case VPX_IMG_FMT_I440 : bps = 16 ; break ; case VPX_IMG_FMT_I444 : bps = 24 ; break ; case VPX_IMG_FMT_I42016 : bps = 24 ; break ; case VPX_IMG_FMT_I42216 : case VPX_IMG_FMT_I44016 : bps = 32 ; break ; case VPX_IMG_FMT_I44416 : bps = 48 ; break ; default : bps = 16 ; break ; } switch ( fmt ) { case VPX_IMG_FMT_I420 : case VPX_IMG_FMT_YV12 : case VPX_IMG_FMT_VPXI420 : case VPX_IMG_FMT_VPXYV12 : case VPX_IMG_FMT_I422 : case VPX_IMG_FMT_I42016 : case VPX_IMG_FMT_I42216 : xcs = 1 ; break ; default : xcs = 0 ; break ; } switch ( fmt ) { case VPX_IMG_FMT_I420 : case VPX_IMG_FMT_I440 : case VPX_IMG_FMT_YV12 : case VPX_IMG_FMT_VPXI420 : case VPX_IMG_FMT_VPXYV12 : case VPX_IMG_FMT_I42016 : case VPX_IMG_FMT_I44016 : ycs = 1 ; break ; default : ycs = 0 ; break ; } align = ( 1 << xcs ) - 1 ; w = ( d_w + align ) & ~ align ; align = ( 1 << ycs ) - 1 ; h = ( d_h + align ) & ~ align ; s = ( fmt & VPX_IMG_FMT_PLANAR ) ? w : bps * w / 8 ; s = ( s + stride_align - 1 ) & ~ ( stride_align - 1 ) ; stride_in_bytes = ( fmt & VPX_IMG_FMT_HIGHBITDEPTH ) ? s * 2 : s ; if ( ! img ) { img = ( vpx_image_t * ) calloc ( 1 , sizeof ( vpx_image_t ) ) ; if ( ! img ) goto fail ; img -> self_allocd = 1 ; } else { memset ( img , 0 , sizeof ( vpx_image_t ) ) ; } img -> img_data = img_data ; if ( ! img_data ) { const uint64_t alloc_size = ( fmt & VPX_IMG_FMT_PLANAR ) ? ( uint64_t ) h * s * bps / 8 : ( uint64_t ) h * s ; if ( alloc_size != ( size_t ) alloc_size ) goto fail ; img -> img_data = ( uint8_t * ) vpx_memalign ( buf_align , ( size_t ) alloc_size ) ; img -> img_data_owner = 1 ; } if ( ! img -> img_data ) goto fail ; img -> fmt = fmt ; img -> bit_depth = ( fmt & VPX_IMG_FMT_HIGHBITDEPTH ) ? 16 : 8 ; img -> w = w ; img -> h = h ; img -> x_chroma_shift = xcs ; img -> y_chroma_shift = ycs ; img -> bps = bps ; img -> stride [ VPX_PLANE_Y ] = img -> stride [ VPX_PLANE_ALPHA ] = stride_in_bytes ; img -> stride [ VPX_PLANE_U ] = img -> stride [ VPX_PLANE_V ] = stride_in_bytes >> xcs ; if ( ! vpx_img_set_rect ( img , 0 , 0 , d_w , d_h ) ) return img ; fail : vpx_img_free ( img ) ; return NULL ; }","if ( buf_align & ( buf_align - 1 ) ) goto fail ; if ( ! stride_align ) stride_align = 1 ; if ( stride_align & ( stride_align - 1 ) ) goto fail ; switch ( fmt ) { case VPX_IMG_FMT_RGB32 : case VPX_IMG_FMT_RGB32_LE : case VPX_IMG_FMT_ARGB : case VPX_IMG_FMT_ARGB_LE : bps = 32 ; break ; case VPX_IMG_FMT_RGB24 : case VPX_IMG_FMT_BGR24 : bps = 24 ; break ; case VPX_IMG_FMT_RGB565 : case VPX_IMG_FMT_RGB565_LE : case VPX_IMG_FMT_RGB555 : case VPX_IMG_FMT_RGB555_LE : case VPX_IMG_FMT_UYVY : case VPX_IMG_FMT_YUY2 : case VPX_IMG_FMT_YVYU : bps = 16 ; break ; case VPX_IMG_FMT_I420 : case VPX_IMG_FMT_YV12 : case VPX_IMG_FMT_VPXI420 : case VPX_IMG_FMT_VPXYV12 : bps = 12 ; break ; case VPX_IMG_FMT_I422 : case VPX_IMG_FMT_I440 : bps = 16 ; break ; case VPX_IMG_FMT_I444 : bps = 24 ; break ; case VPX_IMG_FMT_I42016 : bps = 24 ; break ; case VPX_IMG_FMT_I42216 : case VPX_IMG_FMT_I44016 : bps = 32 ; break ; case VPX_IMG_FMT_I44416 : bps = 48 ; break ; default : bps = 16 ; break ; } switch ( fmt ) { case VPX_IMG_FMT_I420 : case VPX_IMG_FMT_YV12 : case VPX_IMG_FMT_VPXI420 : case VPX_IMG_FMT_VPXYV12 : case VPX_IMG_FMT_I422 : case VPX_IMG_FMT_I42016 : case VPX_IMG_FMT_I42216 : xcs = 1 ; break ; default : xcs = 0 ; break ; } switch ( fmt ) { case VPX_IMG_FMT_I420 : case VPX_IMG_FMT_I440 : case VPX_IMG_FMT_YV12 : case VPX_IMG_FMT_VPXI420 : case VPX_IMG_FMT_VPXYV12 : case VPX_IMG_FMT_I42016 : case VPX_IMG_FMT_I44016 : ycs = 1 ; break ; default : ycs = 0 ; break ; } w = d_w ; h = d_h ; s = ( fmt & VPX_IMG_FMT_PLANAR ) ? w : bps * w / 8 ; s = ( s + stride_align - 1 ) & ~ ( stride_align - 1 ) ; stride_in_bytes = ( fmt & VPX_IMG_FMT_HIGHBITDEPTH ) ? s * 2 : s ; if ( ! img ) { img = ( vpx_image_t * ) calloc ( 1 , sizeof ( vpx_image_t ) ) ; if ( ! img ) goto fail ; img -> self_allocd = 1 ; } else { memset ( img , 0 , sizeof ( vpx_image_t ) ) ; } img -> img_data = img_data ; if ( ! img_data ) { uint64_t alloc_size ; align = ( 1 << xcs ) - 1 ; w = ( d_w + align ) & ~ align ; align = ( 1 << ycs ) - 1 ; h = ( d_h + align ) & ~ align ; s = ( fmt & VPX_IMG_FMT_PLANAR ) ? w : bps * w / 8 ; s = ( s + stride_align - 1 ) & ~ ( stride_align - 1 ) ; stride_in_bytes = ( fmt & VPX_IMG_FMT_HIGHBITDEPTH ) ? s * 2 : s ; alloc_size = ( fmt & VPX_IMG_FMT_PLANAR ) ? ( uint64_t ) h * s * bps / 8 : ( uint64_t ) h * s ; if ( alloc_size != ( size_t ) alloc_size ) goto fail ; img -> img_data = ( uint8_t * ) vpx_memalign ( buf_align , ( size_t ) alloc_size ) ; img -> img_data_owner = 1 ; } if ( ! img -> img_data ) goto fail ; img -> fmt = fmt ; img -> bit_depth = ( fmt & VPX_IMG_FMT_HIGHBITDEPTH ) ? 16 : 8 ; img -> w = w ; img -> h = h ; img -> x_chroma_shift = xcs ; img -> y_chroma_shift = ycs ; img -> bps = bps ; img -> stride [ VPX_PLANE_Y ] = img -> stride [ VPX_PLANE_ALPHA ] = stride_in_bytes ; img -> stride [ VPX_PLANE_U ] = img -> stride [ VPX_PLANE_V ] = stride_in_bytes >> xcs ; if ( ! vpx_img_set_rect ( img , 0 , 0 , d_w , d_h ) ) return img ; fail : vpx_img_free ( img ) ; return NULL ; }" 148,"CWE-404 static int nfs4_callback_svc ( void * vrqstp ) { int err ; struct svc_rqst * rqstp = vrqstp ; set_freezable ( ) ; while ( ! kthread_should_stop ( ) ) { err = svc_recv ( rqstp , MAX_SCHEDULE_TIMEOUT ) ; if ( err == - EAGAIN || err == - EINTR ) continue ; svc_process ( rqstp ) ; } return 0 ; }","static int nfs4_callback_svc ( void * vrqstp ) { int err ; struct svc_rqst * rqstp = vrqstp ; set_freezable ( ) ; while ( ! kthread_freezable_should_stop ( NULL ) ) { if ( signal_pending ( current ) ) flush_signals ( current ) ; err = svc_recv ( rqstp , MAX_SCHEDULE_TIMEOUT ) ; if ( err == - EAGAIN || err == - EINTR ) continue ; svc_process ( rqstp ) ; } svc_exit_thread ( rqstp ) ; module_put_and_exit ( 0 ) ; return 0 ; }" 149,"CWE-119 if ( ! setup_stratum_curl ( pool ) ) goto out ; resend : if ( pool -> sessionid ) sprintf ( s , ""{\\""id\\"": %d, \\""method\\"": \\""mining.subscribe\\"", \\""params\\"": [\\""%s\\""]}"" , swork_id ++ , pool -> sessionid ) ; else sprintf ( s , ""{\\""id\\"": %d, \\""method\\"": \\""mining.subscribe\\"", \\""params\\"": []}"" , swork_id ++ ) ; if ( ! __stratum_send ( pool , s , strlen ( s ) ) ) { applog ( LOG_DEBUG , ""Failed to send s in initiate_stratum"" ) ; goto out ; } if ( ! socket_full ( pool , true ) ) { applog ( LOG_DEBUG , ""Timed out waiting for response in initiate_stratum"" ) ; goto out ; } sret = recv_line ( pool ) ; if ( ! sret ) goto out ; recvd = true ; val = JSON_LOADS ( sret , & err ) ; free ( sret ) ; if ( ! val ) { applog ( LOG_INFO , ""JSON decode failed(%d): %s"" , err . line , err . text ) ; goto out ; } res_val = json_object_get ( val , ""result"" ) ; err_val = json_object_get ( val , ""error"" ) ; if ( ! res_val || json_is_null ( res_val ) || ( err_val && ! json_is_null ( err_val ) ) ) { char * ss ; if ( err_val ) ss = json_dumps ( err_val , JSON_INDENT ( 3 ) ) ; else ss = strdup ( ""(unknown reason)"" ) ; applog ( LOG_INFO , ""JSON-RPC decode failed: %s"" , ss ) ; free ( ss ) ; goto out ; } sessionid = json_array_string ( json_array_get ( res_val , 0 ) , 1 ) ; if ( ! sessionid ) { applog ( LOG_INFO , ""Failed to get sessionid in initiate_stratum"" ) ; goto out ; } nonce1 = json_array_string ( res_val , 1 ) ; if ( ! nonce1 ) { applog ( LOG_INFO , ""Failed to get nonce1 in initiate_stratum"" ) ; free ( sessionid ) ; goto out ; } n2size = json_integer_value ( json_array_get ( res_val , 2 ) ) ; if ( ! n2size ) { applog ( LOG_INFO , ""Failed to get n2size in initiate_stratum"" ) ; free ( sessionid ) ; free ( nonce1 ) ; goto out ; } mutex_lock ( & pool -> pool_lock ) ; pool -> sessionid = sessionid ; free ( pool -> nonce1 ) ; pool -> nonce1 = nonce1 ; pool -> n1_len = strlen ( nonce1 ) / 2 ; pool -> n2size = n2size ; mutex_unlock ( & pool -> pool_lock ) ; applog ( LOG_DEBUG , ""Pool %d stratum session id: %s"" , pool -> pool_no , pool -> sessionid ) ; ret = true ; out : if ( val ) json_decref ( val ) ; if ( ret ) { if ( ! pool -> stratum_url ) pool -> stratum_url = pool -> sockaddr_url ; pool -> stratum_active = true ; pool -> swork . diff = 1 ; if ( opt_protocol ) { applog ( LOG_DEBUG , ""Pool %d confirmed mining.subscribe with extranonce1 %s extran2size %d"" , pool -> pool_no , pool -> nonce1 , pool -> n2size ) ; } } else { if ( recvd && pool -> sessionid ) { mutex_lock ( & pool -> pool_lock ) ; free ( pool -> sessionid ) ; free ( pool -> nonce1 ) ; pool -> sessionid = pool -> nonce1 = NULL ; mutex_unlock ( & pool -> pool_lock ) ; applog ( LOG_DEBUG , ""Failed to resume stratum, trying afresh"" ) ; goto resend ; } applog ( LOG_DEBUG , ""Initiate stratum failed"" ) ; if ( pool -> sock != INVSOCK ) { shutdown ( pool -> sock , SHUT_RDWR ) ; pool -> sock = INVSOCK ; } } return ret ; }","if ( ! setup_stratum_curl ( pool ) ) goto out ; resend : if ( pool -> sessionid ) sprintf ( s , ""{\\""id\\"": %d, \\""method\\"": \\""mining.subscribe\\"", \\""params\\"": [\\""%s\\""]}"" , swork_id ++ , pool -> sessionid ) ; else sprintf ( s , ""{\\""id\\"": %d, \\""method\\"": \\""mining.subscribe\\"", \\""params\\"": []}"" , swork_id ++ ) ; if ( ! __stratum_send ( pool , s , strlen ( s ) ) ) { applog ( LOG_DEBUG , ""Failed to send s in initiate_stratum"" ) ; goto out ; } if ( ! socket_full ( pool , true ) ) { applog ( LOG_DEBUG , ""Timed out waiting for response in initiate_stratum"" ) ; goto out ; } sret = recv_line ( pool ) ; if ( ! sret ) goto out ; recvd = true ; val = JSON_LOADS ( sret , & err ) ; free ( sret ) ; if ( ! val ) { applog ( LOG_INFO , ""JSON decode failed(%d): %s"" , err . line , err . text ) ; goto out ; } res_val = json_object_get ( val , ""result"" ) ; err_val = json_object_get ( val , ""error"" ) ; if ( ! res_val || json_is_null ( res_val ) || ( err_val && ! json_is_null ( err_val ) ) ) { char * ss ; if ( err_val ) ss = json_dumps ( err_val , JSON_INDENT ( 3 ) ) ; else ss = strdup ( ""(unknown reason)"" ) ; applog ( LOG_INFO , ""JSON-RPC decode failed: %s"" , ss ) ; free ( ss ) ; goto out ; } sessionid = json_array_string ( json_array_get ( res_val , 0 ) , 1 ) ; if ( ! sessionid ) { applog ( LOG_INFO , ""Failed to get sessionid in initiate_stratum"" ) ; goto out ; } nonce1 = json_array_string ( res_val , 1 ) ; if ( ! nonce1 ) { applog ( LOG_INFO , ""Failed to get nonce1 in initiate_stratum"" ) ; free ( sessionid ) ; goto out ; } n2size = json_integer_value ( json_array_get ( res_val , 2 ) ) ; if ( n2size < 1 ) { applog ( LOG_INFO , ""Failed to get n2size in initiate_stratum"" ) ; free ( sessionid ) ; free ( nonce1 ) ; goto out ; } mutex_lock ( & pool -> pool_lock ) ; pool -> sessionid = sessionid ; free ( pool -> nonce1 ) ; pool -> nonce1 = nonce1 ; pool -> n1_len = strlen ( nonce1 ) / 2 ; pool -> n2size = n2size ; mutex_unlock ( & pool -> pool_lock ) ; applog ( LOG_DEBUG , ""Pool %d stratum session id: %s"" , pool -> pool_no , pool -> sessionid ) ; ret = true ; out : if ( val ) json_decref ( val ) ; if ( ret ) { if ( ! pool -> stratum_url ) pool -> stratum_url = pool -> sockaddr_url ; pool -> stratum_active = true ; pool -> swork . diff = 1 ; if ( opt_protocol ) { applog ( LOG_DEBUG , ""Pool %d confirmed mining.subscribe with extranonce1 %s extran2size %d"" , pool -> pool_no , pool -> nonce1 , pool -> n2size ) ; } } else { if ( recvd && pool -> sessionid ) { mutex_lock ( & pool -> pool_lock ) ; free ( pool -> sessionid ) ; free ( pool -> nonce1 ) ; pool -> sessionid = pool -> nonce1 = NULL ; mutex_unlock ( & pool -> pool_lock ) ; applog ( LOG_DEBUG , ""Failed to resume stratum, trying afresh"" ) ; goto resend ; } applog ( LOG_DEBUG , ""Initiate stratum failed"" ) ; if ( pool -> sock != INVSOCK ) { shutdown ( pool -> sock , SHUT_RDWR ) ; pool -> sock = INVSOCK ; } } return ret ; }" 150,"CWE-119 static vpx_codec_err_t ctrl_update_reference ( vpx_codec_alg_priv_t * ctx , int ctr_id , va_list args ) { const int ref_frame_flags = va_arg ( args , int ) ; vp9_update_reference ( ctx -> cpi , ref_frame_flags ) ; return VPX_CODEC_OK ; }","static vpx_codec_err_t ctrl_update_reference ( vpx_codec_alg_priv_t * ctx , va_list args ) { const int ref_frame_flags = va_arg ( args , int ) ; vp9_update_reference ( ctx -> cpi , ref_frame_flags ) ; return VPX_CODEC_OK ; }" 151,"CWE-787 int idn2_to_ascii_4i ( const uint32_t * input , size_t inlen , char * output , int flags ) { uint32_t * input_u32 ; uint8_t * input_u8 , * output_u8 ; size_t length ; int rc ; if ( ! input ) { if ( output ) * output = 0 ; return IDN2_OK ; } input_u32 = ( uint32_t * ) malloc ( ( inlen + 1 ) * sizeof ( uint32_t ) ) ; if ( ! input_u32 ) return IDN2_MALLOC ; u32_cpy ( input_u32 , input , inlen ) ; input_u32 [ inlen ] = 0 ; input_u8 = u32_to_u8 ( input_u32 , inlen + 1 , NULL , & length ) ; free ( input_u32 ) ; if ( ! input_u8 ) { if ( errno == ENOMEM ) return IDN2_MALLOC ; return IDN2_ENCODING_ERROR ; } rc = idn2_lookup_u8 ( input_u8 , & output_u8 , flags ) ; free ( input_u8 ) ; if ( rc == IDN2_OK ) { if ( output ) strcpy ( output , ( const char * ) output_u8 ) ; free ( output_u8 ) ; } return rc ; }","int idn2_to_ascii_4i ( const uint32_t * input , size_t inlen , char * output , int flags ) { uint32_t * input_u32 ; uint8_t * input_u8 , * output_u8 ; size_t length ; int rc ; if ( ! input ) { if ( output ) * output = 0 ; return IDN2_OK ; } input_u32 = ( uint32_t * ) malloc ( ( inlen + 1 ) * sizeof ( uint32_t ) ) ; if ( ! input_u32 ) return IDN2_MALLOC ; u32_cpy ( input_u32 , input , inlen ) ; input_u32 [ inlen ] = 0 ; input_u8 = u32_to_u8 ( input_u32 , inlen + 1 , NULL , & length ) ; free ( input_u32 ) ; if ( ! input_u8 ) { if ( errno == ENOMEM ) return IDN2_MALLOC ; return IDN2_ENCODING_ERROR ; } rc = idn2_lookup_u8 ( input_u8 , & output_u8 , flags ) ; free ( input_u8 ) ; if ( rc == IDN2_OK ) { size_t len = strlen ( ( char * ) output_u8 ) ; if ( len > 63 ) { free ( output_u8 ) ; return IDN2_TOO_BIG_DOMAIN ; } if ( output ) strcpy ( output , ( char * ) output_u8 ) ; free ( output_u8 ) ; } return rc ; }" 152,"CWE-20 MonoReflectionMethod * mono_reflection_bind_generic_method_parameters ( MonoReflectionMethod * rmethod , MonoArray * types ) { MonoClass * klass ; MonoMethod * method , * inflated ; MonoMethodInflated * imethod ; MonoGenericContext tmp_context ; MonoGenericInst * ginst ; MonoType * * type_argv ; int count , i ; MONO_ARCH_SAVE_REGS ; if ( ! strcmp ( rmethod -> object . vtable -> klass -> name , ""MethodBuilder"" ) ) { # ifndef DISABLE_REFLECTION_EMIT MonoReflectionMethodBuilder * mb = NULL ; MonoReflectionTypeBuilder * tb ; MonoClass * klass ; mb = ( MonoReflectionMethodBuilder * ) rmethod ; tb = ( MonoReflectionTypeBuilder * ) mb -> type ; klass = mono_class_from_mono_type ( mono_reflection_type_get_handle ( ( MonoReflectionType * ) tb ) ) ; method = methodbuilder_to_mono_method ( klass , mb ) ; # else g_assert_not_reached ( ) ; method = NULL ; # endif } else { method = rmethod -> method ; } klass = method -> klass ; if ( method -> is_inflated ) method = ( ( MonoMethodInflated * ) method ) -> declaring ; count = mono_method_signature ( method ) -> generic_param_count ; if ( count != mono_array_length ( types ) ) return NULL ; type_argv = g_new0 ( MonoType * , count ) ; for ( i = 0 ; i < count ; i ++ ) { MonoReflectionType * garg = mono_array_get ( types , gpointer , i ) ; type_argv [ i ] = mono_reflection_type_get_handle ( garg ) ; } ginst = mono_metadata_get_generic_inst ( count , type_argv ) ; g_free ( type_argv ) ; tmp_context . class_inst = klass -> generic_class ? klass -> generic_class -> context . class_inst : NULL ; tmp_context . method_inst = ginst ; inflated = mono_class_inflate_generic_method ( method , & tmp_context ) ; imethod = ( MonoMethodInflated * ) inflated ; if ( method -> klass -> image -> dynamic ) { MonoDynamicImage * image = ( MonoDynamicImage * ) method -> klass -> image ; mono_loader_lock ( ) ; mono_g_hash_table_insert ( image -> generic_def_objects , imethod , rmethod ) ; mono_loader_unlock ( ) ; } return mono_method_get_object ( mono_object_domain ( rmethod ) , inflated , NULL ) ; }","MonoReflectionMethod * mono_reflection_bind_generic_method_parameters ( MonoReflectionMethod * rmethod , MonoArray * types ) { MonoClass * klass ; MonoMethod * method , * inflated ; MonoMethodInflated * imethod ; MonoGenericContext tmp_context ; MonoGenericInst * ginst ; MonoType * * type_argv ; int count , i ; MONO_ARCH_SAVE_REGS ; if ( ! strcmp ( rmethod -> object . vtable -> klass -> name , ""MethodBuilder"" ) ) { # ifndef DISABLE_REFLECTION_EMIT MonoReflectionMethodBuilder * mb = NULL ; MonoReflectionTypeBuilder * tb ; MonoClass * klass ; mb = ( MonoReflectionMethodBuilder * ) rmethod ; tb = ( MonoReflectionTypeBuilder * ) mb -> type ; klass = mono_class_from_mono_type ( mono_reflection_type_get_handle ( ( MonoReflectionType * ) tb ) ) ; method = methodbuilder_to_mono_method ( klass , mb ) ; # else g_assert_not_reached ( ) ; method = NULL ; # endif } else { method = rmethod -> method ; } klass = method -> klass ; if ( method -> is_inflated ) method = ( ( MonoMethodInflated * ) method ) -> declaring ; count = mono_method_signature ( method ) -> generic_param_count ; if ( count != mono_array_length ( types ) ) return NULL ; type_argv = g_new0 ( MonoType * , count ) ; for ( i = 0 ; i < count ; i ++ ) { MonoReflectionType * garg = mono_array_get ( types , gpointer , i ) ; type_argv [ i ] = mono_reflection_type_get_handle ( garg ) ; } ginst = mono_metadata_get_generic_inst ( count , type_argv ) ; g_free ( type_argv ) ; tmp_context . class_inst = klass -> generic_class ? klass -> generic_class -> context . class_inst : NULL ; tmp_context . method_inst = ginst ; inflated = mono_class_inflate_generic_method ( method , & tmp_context ) ; imethod = ( MonoMethodInflated * ) inflated ; if ( method -> klass -> image -> dynamic ) { MonoDynamicImage * image = ( MonoDynamicImage * ) method -> klass -> image ; mono_loader_lock ( ) ; mono_g_hash_table_insert ( image -> generic_def_objects , imethod , rmethod ) ; mono_loader_unlock ( ) ; } if ( ! mono_verifier_is_method_valid_generic_instantiation ( inflated ) ) mono_raise_exception ( mono_get_exception_argument ( ""typeArguments"" , ""Invalid generic arguments"" ) ) ; return mono_method_get_object ( mono_object_domain ( rmethod ) , inflated , NULL ) ; }" 153,"CWE-617 void pci_populate_msicap ( struct msicap * msicap , int msgnum , int nextptr ) { int mmc ; assert ( ( msgnum & ( msgnum - 1 ) ) == 0 && msgnum >= 1 && msgnum <= 32 ) ; mmc = ffs ( msgnum ) - 1 ; bzero ( msicap , sizeof ( struct msicap ) ) ; msicap -> capid = PCIY_MSI ; msicap -> nextptr = nextptr ; msicap -> msgctrl = PCIM_MSICTRL_64BIT | ( mmc << 1 ) ; }","int pci_populate_msicap ( struct msicap * msicap , int msgnum , int nextptr ) { int mmc ; if ( ( ( msgnum & ( msgnum - 1 ) ) != 0 ) || msgnum < 1 || msgnum > 32 ) { pr_err ( ""%s: invalid number of msi messages!\\n"" , __func__ ) ; return - 1 ; } mmc = ffs ( msgnum ) - 1 ; bzero ( msicap , sizeof ( struct msicap ) ) ; msicap -> capid = PCIY_MSI ; msicap -> nextptr = nextptr ; msicap -> msgctrl = PCIM_MSICTRL_64BIT | ( mmc << 1 ) ; return 0 ; }" 154,"NVD-CWE-Other struct list_head * pos , * temp ; asoc -> c = new -> c ; asoc -> peer . rwnd = new -> peer . rwnd ; asoc -> peer . sack_needed = new -> peer . sack_needed ; asoc -> peer . auth_capable = new -> peer . auth_capable ; asoc -> peer . i = new -> peer . i ; sctp_tsnmap_init ( & asoc -> peer . tsn_map , SCTP_TSN_MAP_INITIAL , asoc -> peer . i . initial_tsn , GFP_ATOMIC ) ; list_for_each_safe ( pos , temp , & asoc -> peer . transport_addr_list ) { trans = list_entry ( pos , struct sctp_transport , transports ) ; if ( ! sctp_assoc_lookup_paddr ( new , & trans -> ipaddr ) ) { sctp_assoc_rm_peer ( asoc , trans ) ; continue ; } if ( asoc -> state >= SCTP_STATE_ESTABLISHED ) sctp_transport_reset ( trans ) ; } if ( asoc -> state >= SCTP_STATE_ESTABLISHED ) { asoc -> next_tsn = new -> next_tsn ; asoc -> ctsn_ack_point = new -> ctsn_ack_point ; asoc -> adv_peer_ack_point = new -> adv_peer_ack_point ; sctp_ssnmap_clear ( asoc -> ssnmap ) ; sctp_ulpq_flush ( & asoc -> ulpq ) ; asoc -> overall_error_count = 0 ; } else { list_for_each_entry ( trans , & new -> peer . transport_addr_list , transports ) { if ( ! sctp_assoc_lookup_paddr ( asoc , & trans -> ipaddr ) ) sctp_assoc_add_peer ( asoc , & trans -> ipaddr , GFP_ATOMIC , trans -> state ) ; } asoc -> ctsn_ack_point = asoc -> next_tsn - 1 ; asoc -> adv_peer_ack_point = asoc -> ctsn_ack_point ; if ( ! asoc -> ssnmap ) { asoc -> ssnmap = new -> ssnmap ; new -> ssnmap = NULL ; } if ( ! asoc -> assoc_id ) { sctp_assoc_set_id ( asoc , GFP_ATOMIC ) ; } } kfree ( asoc -> peer . peer_random ) ; asoc -> peer . peer_random = new -> peer . peer_random ; new -> peer . peer_random = NULL ; kfree ( asoc -> peer . peer_chunks ) ; asoc -> peer . peer_chunks = new -> peer . peer_chunks ; new -> peer . peer_chunks = NULL ; kfree ( asoc -> peer . peer_hmacs ) ; asoc -> peer . peer_hmacs = new -> peer . peer_hmacs ; new -> peer . peer_hmacs = NULL ; sctp_auth_key_put ( asoc -> asoc_shared_key ) ; sctp_auth_asoc_init_active_key ( asoc , GFP_ATOMIC ) ; }","struct list_head * pos , * temp ; asoc -> c = new -> c ; asoc -> peer . rwnd = new -> peer . rwnd ; asoc -> peer . sack_needed = new -> peer . sack_needed ; asoc -> peer . auth_capable = new -> peer . auth_capable ; asoc -> peer . i = new -> peer . i ; sctp_tsnmap_init ( & asoc -> peer . tsn_map , SCTP_TSN_MAP_INITIAL , asoc -> peer . i . initial_tsn , GFP_ATOMIC ) ; list_for_each_safe ( pos , temp , & asoc -> peer . transport_addr_list ) { trans = list_entry ( pos , struct sctp_transport , transports ) ; if ( ! sctp_assoc_lookup_paddr ( new , & trans -> ipaddr ) ) { sctp_assoc_rm_peer ( asoc , trans ) ; continue ; } if ( asoc -> state >= SCTP_STATE_ESTABLISHED ) sctp_transport_reset ( trans ) ; } if ( asoc -> state >= SCTP_STATE_ESTABLISHED ) { asoc -> next_tsn = new -> next_tsn ; asoc -> ctsn_ack_point = new -> ctsn_ack_point ; asoc -> adv_peer_ack_point = new -> adv_peer_ack_point ; sctp_ssnmap_clear ( asoc -> ssnmap ) ; sctp_ulpq_flush ( & asoc -> ulpq ) ; asoc -> overall_error_count = 0 ; } else { list_for_each_entry ( trans , & new -> peer . transport_addr_list , transports ) { if ( ! sctp_assoc_lookup_paddr ( asoc , & trans -> ipaddr ) ) sctp_assoc_add_peer ( asoc , & trans -> ipaddr , GFP_ATOMIC , trans -> state ) ; } asoc -> ctsn_ack_point = asoc -> next_tsn - 1 ; asoc -> adv_peer_ack_point = asoc -> ctsn_ack_point ; if ( ! asoc -> ssnmap ) { asoc -> ssnmap = new -> ssnmap ; new -> ssnmap = NULL ; } if ( ! asoc -> assoc_id ) { sctp_assoc_set_id ( asoc , GFP_ATOMIC ) ; } } kfree ( asoc -> peer . peer_random ) ; asoc -> peer . peer_random = new -> peer . peer_random ; new -> peer . peer_random = NULL ; kfree ( asoc -> peer . peer_chunks ) ; asoc -> peer . peer_chunks = new -> peer . peer_chunks ; new -> peer . peer_chunks = NULL ; kfree ( asoc -> peer . peer_hmacs ) ; asoc -> peer . peer_hmacs = new -> peer . peer_hmacs ; new -> peer . peer_hmacs = NULL ; sctp_auth_asoc_init_active_key ( asoc , GFP_ATOMIC ) ; }" 155,"CWE-20 bt_status_t btif_storage_add_bonded_device ( bt_bdaddr_t * remote_bd_addr , LINK_KEY link_key , uint8_t key_type , uint8_t pin_length ) { bdstr_t bdstr ; bdaddr_to_string ( remote_bd_addr , bdstr , sizeof ( bdstr ) ) ; int ret = btif_config_set_int ( bdstr , ""LinkKeyType"" , ( int ) key_type ) ; ret &= btif_config_set_int ( bdstr , ""PinLength"" , ( int ) pin_length ) ; ret &= btif_config_set_bin ( bdstr , ""LinkKey"" , link_key , sizeof ( LINK_KEY ) ) ; btif_config_flush ( ) ; return ret ? BT_STATUS_SUCCESS : BT_STATUS_FAIL ; }","bt_status_t btif_storage_add_bonded_device ( bt_bdaddr_t * remote_bd_addr , LINK_KEY link_key , uint8_t key_type , uint8_t pin_length ) { bdstr_t bdstr ; bdaddr_to_string ( remote_bd_addr , bdstr , sizeof ( bdstr ) ) ; int ret = btif_config_set_int ( bdstr , ""LinkKeyType"" , ( int ) key_type ) ; ret &= btif_config_set_int ( bdstr , ""PinLength"" , ( int ) pin_length ) ; ret &= btif_config_set_bin ( bdstr , ""LinkKey"" , link_key , sizeof ( LINK_KEY ) ) ; if ( is_restricted_mode ( ) ) { BTIF_TRACE_WARNING ( ""%s: \'%s\' pairing will be removed if unrestricted"" , __func__ , bdstr ) ; btif_config_set_int ( bdstr , ""Restricted"" , 1 ) ; } btif_config_flush ( ) ; return ret ? BT_STATUS_SUCCESS : BT_STATUS_FAIL ; }" 156,"CWE-787 int mwifiex_ret_wmm_get_status ( struct mwifiex_private * priv , const struct host_cmd_ds_command * resp ) { u8 * curr = ( u8 * ) & resp -> params . get_wmm_status ; uint16_t resp_len = le16_to_cpu ( resp -> size ) , tlv_len ; int mask = IEEE80211_WMM_IE_AP_QOSINFO_PARAM_SET_CNT_MASK ; bool valid = true ; struct mwifiex_ie_types_data * tlv_hdr ; struct mwifiex_ie_types_wmm_queue_status * tlv_wmm_qstatus ; struct ieee_types_wmm_parameter * wmm_param_ie = NULL ; struct mwifiex_wmm_ac_status * ac_status ; mwifiex_dbg ( priv -> adapter , INFO , ""info: WMM: WMM_GET_STATUS cmdresp received: %d\\n"" , resp_len ) ; while ( ( resp_len >= sizeof ( tlv_hdr -> header ) ) && valid ) { tlv_hdr = ( struct mwifiex_ie_types_data * ) curr ; tlv_len = le16_to_cpu ( tlv_hdr -> header . len ) ; if ( resp_len < tlv_len + sizeof ( tlv_hdr -> header ) ) break ; switch ( le16_to_cpu ( tlv_hdr -> header . type ) ) { case TLV_TYPE_WMMQSTATUS : tlv_wmm_qstatus = ( struct mwifiex_ie_types_wmm_queue_status * ) tlv_hdr ; mwifiex_dbg ( priv -> adapter , CMD , ""info: CMD_RESP: WMM_GET_STATUS:\\t"" ""QSTATUS TLV: %d, %d, %d\\n"" , tlv_wmm_qstatus -> queue_index , tlv_wmm_qstatus -> flow_required , tlv_wmm_qstatus -> disabled ) ; ac_status = & priv -> wmm . ac_status [ tlv_wmm_qstatus -> queue_index ] ; ac_status -> disabled = tlv_wmm_qstatus -> disabled ; ac_status -> flow_required = tlv_wmm_qstatus -> flow_required ; ac_status -> flow_created = tlv_wmm_qstatus -> flow_created ; break ; case WLAN_EID_VENDOR_SPECIFIC : wmm_param_ie = ( struct ieee_types_wmm_parameter * ) ( curr + 2 ) ; wmm_param_ie -> vend_hdr . len = ( u8 ) tlv_len ; wmm_param_ie -> vend_hdr . element_id = WLAN_EID_VENDOR_SPECIFIC ; mwifiex_dbg ( priv -> adapter , CMD , ""info: CMD_RESP: WMM_GET_STATUS:\\t"" ""WMM Parameter Set Count: %d\\n"" , wmm_param_ie -> qos_info_bitmap & mask ) ; memcpy ( ( u8 * ) & priv -> curr_bss_params . bss_descriptor . wmm_ie , wmm_param_ie , wmm_param_ie -> vend_hdr . len + 2 ) ; break ; default : valid = false ; break ; } curr += ( tlv_len + sizeof ( tlv_hdr -> header ) ) ; resp_len -= ( tlv_len + sizeof ( tlv_hdr -> header ) ) ; } mwifiex_wmm_setup_queue_priorities ( priv , wmm_param_ie ) ; mwifiex_wmm_setup_ac_downgrade ( priv ) ; return 0 ; }","int mwifiex_ret_wmm_get_status ( struct mwifiex_private * priv , const struct host_cmd_ds_command * resp ) { u8 * curr = ( u8 * ) & resp -> params . get_wmm_status ; uint16_t resp_len = le16_to_cpu ( resp -> size ) , tlv_len ; int mask = IEEE80211_WMM_IE_AP_QOSINFO_PARAM_SET_CNT_MASK ; bool valid = true ; struct mwifiex_ie_types_data * tlv_hdr ; struct mwifiex_ie_types_wmm_queue_status * tlv_wmm_qstatus ; struct ieee_types_wmm_parameter * wmm_param_ie = NULL ; struct mwifiex_wmm_ac_status * ac_status ; mwifiex_dbg ( priv -> adapter , INFO , ""info: WMM: WMM_GET_STATUS cmdresp received: %d\\n"" , resp_len ) ; while ( ( resp_len >= sizeof ( tlv_hdr -> header ) ) && valid ) { tlv_hdr = ( struct mwifiex_ie_types_data * ) curr ; tlv_len = le16_to_cpu ( tlv_hdr -> header . len ) ; if ( resp_len < tlv_len + sizeof ( tlv_hdr -> header ) ) break ; switch ( le16_to_cpu ( tlv_hdr -> header . type ) ) { case TLV_TYPE_WMMQSTATUS : tlv_wmm_qstatus = ( struct mwifiex_ie_types_wmm_queue_status * ) tlv_hdr ; mwifiex_dbg ( priv -> adapter , CMD , ""info: CMD_RESP: WMM_GET_STATUS:\\t"" ""QSTATUS TLV: %d, %d, %d\\n"" , tlv_wmm_qstatus -> queue_index , tlv_wmm_qstatus -> flow_required , tlv_wmm_qstatus -> disabled ) ; ac_status = & priv -> wmm . ac_status [ tlv_wmm_qstatus -> queue_index ] ; ac_status -> disabled = tlv_wmm_qstatus -> disabled ; ac_status -> flow_required = tlv_wmm_qstatus -> flow_required ; ac_status -> flow_created = tlv_wmm_qstatus -> flow_created ; break ; case WLAN_EID_VENDOR_SPECIFIC : wmm_param_ie = ( struct ieee_types_wmm_parameter * ) ( curr + 2 ) ; wmm_param_ie -> vend_hdr . len = ( u8 ) tlv_len ; wmm_param_ie -> vend_hdr . element_id = WLAN_EID_VENDOR_SPECIFIC ; mwifiex_dbg ( priv -> adapter , CMD , ""info: CMD_RESP: WMM_GET_STATUS:\\t"" ""WMM Parameter Set Count: %d\\n"" , wmm_param_ie -> qos_info_bitmap & mask ) ; if ( wmm_param_ie -> vend_hdr . len + 2 > sizeof ( struct ieee_types_wmm_parameter ) ) break ; memcpy ( ( u8 * ) & priv -> curr_bss_params . bss_descriptor . wmm_ie , wmm_param_ie , wmm_param_ie -> vend_hdr . len + 2 ) ; break ; default : valid = false ; break ; } curr += ( tlv_len + sizeof ( tlv_hdr -> header ) ) ; resp_len -= ( tlv_len + sizeof ( tlv_hdr -> header ) ) ; } mwifiex_wmm_setup_queue_priorities ( priv , wmm_param_ie ) ; mwifiex_wmm_setup_ac_downgrade ( priv ) ; return 0 ; }" 157,"CWE-125 static void pimv2_print ( netdissect_options * ndo , register const u_char * bp , register u_int len , const u_char * bp2 ) { register const u_char * ep ; register const struct pim * pim = ( const struct pim * ) bp ; int advance ; enum checksum_status cksum_status ; ep = ( const u_char * ) ndo -> ndo_snapend ; if ( bp >= ep ) return ; if ( ep > bp + len ) ep = bp + len ; ND_TCHECK ( pim -> pim_rsv ) ; pimv2_addr_len = pim -> pim_rsv ; if ( pimv2_addr_len != 0 ) ND_PRINT ( ( ndo , "", RFC2117-encoding"" ) ) ; ND_PRINT ( ( ndo , "", cksum 0x%04x "" , EXTRACT_16BITS ( & pim -> pim_cksum ) ) ) ; if ( EXTRACT_16BITS ( & pim -> pim_cksum ) == 0 ) { ND_PRINT ( ( ndo , ""(unverified)"" ) ) ; } else { if ( PIM_TYPE ( pim -> pim_typever ) == PIMV2_TYPE_REGISTER ) { cksum_status = pimv2_check_checksum ( ndo , bp , bp2 , 8 ) ; if ( cksum_status == INCORRECT ) { cksum_status = pimv2_check_checksum ( ndo , bp , bp2 , len ) ; } } else { cksum_status = pimv2_check_checksum ( ndo , bp , bp2 , len ) ; } switch ( cksum_status ) { case CORRECT : ND_PRINT ( ( ndo , ""(correct)"" ) ) ; break ; case INCORRECT : ND_PRINT ( ( ndo , ""(incorrect)"" ) ) ; break ; case UNVERIFIED : ND_PRINT ( ( ndo , ""(unverified)"" ) ) ; break ; } } switch ( PIM_TYPE ( pim -> pim_typever ) ) { case PIMV2_TYPE_HELLO : { uint16_t otype , olen ; bp += 4 ; while ( bp < ep ) { ND_TCHECK2 ( bp [ 0 ] , 4 ) ; otype = EXTRACT_16BITS ( & bp [ 0 ] ) ; olen = EXTRACT_16BITS ( & bp [ 2 ] ) ; ND_TCHECK2 ( bp [ 0 ] , 4 + olen ) ; ND_PRINT ( ( ndo , ""\\n\\t %s Option (%u), length %u, Value: "" , tok2str ( pimv2_hello_option_values , ""Unknown"" , otype ) , otype , olen ) ) ; bp += 4 ; switch ( otype ) { case PIMV2_HELLO_OPTION_HOLDTIME : if ( olen != 2 ) { ND_PRINT ( ( ndo , ""ERROR: Option Length != 2 Bytes (%u)"" , olen ) ) ; } else { unsigned_relts_print ( ndo , EXTRACT_16BITS ( bp ) ) ; } break ; case PIMV2_HELLO_OPTION_LANPRUNEDELAY : if ( olen != 4 ) { ND_PRINT ( ( ndo , ""ERROR: Option Length != 4 Bytes (%u)"" , olen ) ) ; } else { char t_bit ; uint16_t lan_delay , override_interval ; lan_delay = EXTRACT_16BITS ( bp ) ; override_interval = EXTRACT_16BITS ( bp + 2 ) ; t_bit = ( lan_delay & 0x8000 ) ? 1 : 0 ; lan_delay &= ~ 0x8000 ; ND_PRINT ( ( ndo , ""\\n\\t T-bit=%d, LAN delay %dms, Override interval %dms"" , t_bit , lan_delay , override_interval ) ) ; } break ; case PIMV2_HELLO_OPTION_DR_PRIORITY_OLD : case PIMV2_HELLO_OPTION_DR_PRIORITY : switch ( olen ) { case 0 : ND_PRINT ( ( ndo , ""Bi-Directional Capability (Old)"" ) ) ; break ; case 4 : ND_PRINT ( ( ndo , ""%u"" , EXTRACT_32BITS ( bp ) ) ) ; break ; default : ND_PRINT ( ( ndo , ""ERROR: Option Length != 4 Bytes (%u)"" , olen ) ) ; break ; } break ; case PIMV2_HELLO_OPTION_GENID : if ( olen != 4 ) { ND_PRINT ( ( ndo , ""ERROR: Option Length != 4 Bytes (%u)"" , olen ) ) ; } else { ND_PRINT ( ( ndo , ""0x%08x"" , EXTRACT_32BITS ( bp ) ) ) ; } break ; case PIMV2_HELLO_OPTION_REFRESH_CAP : if ( olen != 4 ) { ND_PRINT ( ( ndo , ""ERROR: Option Length != 4 Bytes (%u)"" , olen ) ) ; } else { ND_PRINT ( ( ndo , ""v%d"" , * bp ) ) ; if ( * ( bp + 1 ) != 0 ) { ND_PRINT ( ( ndo , "", interval "" ) ) ; unsigned_relts_print ( ndo , * ( bp + 1 ) ) ; } if ( EXTRACT_16BITS ( bp + 2 ) != 0 ) { ND_PRINT ( ( ndo , "" ?0x%04x?"" , EXTRACT_16BITS ( bp + 2 ) ) ) ; } } break ; case PIMV2_HELLO_OPTION_BIDIR_CAP : break ; case PIMV2_HELLO_OPTION_ADDRESS_LIST_OLD : case PIMV2_HELLO_OPTION_ADDRESS_LIST : if ( ndo -> ndo_vflag > 1 ) { const u_char * ptr = bp ; while ( ptr < ( bp + olen ) ) { ND_PRINT ( ( ndo , ""\\n\\t "" ) ) ; advance = pimv2_addr_print ( ndo , ptr , pimv2_unicast , 0 ) ; if ( advance < 0 ) { ND_PRINT ( ( ndo , ""..."" ) ) ; break ; } ptr += advance ; } } break ; default : if ( ndo -> ndo_vflag <= 1 ) print_unknown_data ( ndo , bp , ""\\n\\t "" , olen ) ; break ; } if ( ndo -> ndo_vflag > 1 ) print_unknown_data ( ndo , bp , ""\\n\\t "" , olen ) ; bp += olen ; } break ; } case PIMV2_TYPE_REGISTER : { const struct ip * ip ; ND_TCHECK2 ( * ( bp + 4 ) , PIMV2_REGISTER_FLAG_LEN ) ; ND_PRINT ( ( ndo , "", Flags [ %s ]\\n\\t"" , tok2str ( pimv2_register_flag_values , ""none"" , EXTRACT_32BITS ( bp + 4 ) ) ) ) ; bp += 8 ; len -= 8 ; ip = ( const struct ip * ) bp ; switch ( IP_V ( ip ) ) { case 0 : ND_PRINT ( ( ndo , ""IP-Null-header %s > %s"" , ipaddr_string ( ndo , & ip -> ip_src ) , ipaddr_string ( ndo , & ip -> ip_dst ) ) ) ; break ; case 4 : ip_print ( ndo , bp , len ) ; break ; case 6 : ip6_print ( ndo , bp , len ) ; break ; default : ND_PRINT ( ( ndo , ""IP ver %d"" , IP_V ( ip ) ) ) ; break ; } break ; } case PIMV2_TYPE_REGISTER_STOP : bp += 4 ; len -= 4 ; if ( bp >= ep ) break ; ND_PRINT ( ( ndo , "" group="" ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , pimv2_group , 0 ) ) < 0 ) { ND_PRINT ( ( ndo , ""..."" ) ) ; break ; } bp += advance ; len -= advance ; if ( bp >= ep ) break ; ND_PRINT ( ( ndo , "" source="" ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , pimv2_unicast , 0 ) ) < 0 ) { ND_PRINT ( ( ndo , ""..."" ) ) ; break ; } bp += advance ; len -= advance ; break ; case PIMV2_TYPE_JOIN_PRUNE : case PIMV2_TYPE_GRAFT : case PIMV2_TYPE_GRAFT_ACK : { uint8_t ngroup ; uint16_t holdtime ; uint16_t njoin ; uint16_t nprune ; int i , j ; bp += 4 ; len -= 4 ; if ( PIM_TYPE ( pim -> pim_typever ) != 7 ) { if ( bp >= ep ) break ; ND_PRINT ( ( ndo , "", upstream-neighbor: "" ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , pimv2_unicast , 0 ) ) < 0 ) { ND_PRINT ( ( ndo , ""..."" ) ) ; break ; } bp += advance ; len -= advance ; } if ( bp + 4 > ep ) break ; ngroup = bp [ 1 ] ; holdtime = EXTRACT_16BITS ( & bp [ 2 ] ) ; ND_PRINT ( ( ndo , ""\\n\\t %u group(s)"" , ngroup ) ) ; if ( PIM_TYPE ( pim -> pim_typever ) != 7 ) { ND_PRINT ( ( ndo , "", holdtime: "" ) ) ; if ( holdtime == 0xffff ) ND_PRINT ( ( ndo , ""infinite"" ) ) ; else unsigned_relts_print ( ndo , holdtime ) ; } bp += 4 ; len -= 4 ; for ( i = 0 ; i < ngroup ; i ++ ) { if ( bp >= ep ) goto jp_done ; ND_PRINT ( ( ndo , ""\\n\\t group #%u: "" , i + 1 ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , pimv2_group , 0 ) ) < 0 ) { ND_PRINT ( ( ndo , ""...)"" ) ) ; goto jp_done ; } bp += advance ; len -= advance ; if ( bp + 4 > ep ) { ND_PRINT ( ( ndo , ""...)"" ) ) ; goto jp_done ; } njoin = EXTRACT_16BITS ( & bp [ 0 ] ) ; nprune = EXTRACT_16BITS ( & bp [ 2 ] ) ; ND_PRINT ( ( ndo , "", joined sources: %u, pruned sources: %u"" , njoin , nprune ) ) ; bp += 4 ; len -= 4 ; for ( j = 0 ; j < njoin ; j ++ ) { ND_PRINT ( ( ndo , ""\\n\\t joined source #%u: "" , j + 1 ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , pimv2_source , 0 ) ) < 0 ) { ND_PRINT ( ( ndo , ""...)"" ) ) ; goto jp_done ; } bp += advance ; len -= advance ; } for ( j = 0 ; j < nprune ; j ++ ) { ND_PRINT ( ( ndo , ""\\n\\t pruned source #%u: "" , j + 1 ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , pimv2_source , 0 ) ) < 0 ) { ND_PRINT ( ( ndo , ""...)"" ) ) ; goto jp_done ; } bp += advance ; len -= advance ; } } jp_done : break ; } case PIMV2_TYPE_BOOTSTRAP : { int i , j , frpcnt ; bp += 4 ; if ( bp + sizeof ( uint16_t ) >= ep ) break ; ND_PRINT ( ( ndo , "" tag=%x"" , EXTRACT_16BITS ( bp ) ) ) ; bp += sizeof ( uint16_t ) ; if ( bp >= ep ) break ; ND_PRINT ( ( ndo , "" hashmlen=%d"" , bp [ 0 ] ) ) ; if ( bp + 1 >= ep ) break ; ND_PRINT ( ( ndo , "" BSRprio=%d"" , bp [ 1 ] ) ) ; bp += 2 ; if ( bp >= ep ) break ; ND_PRINT ( ( ndo , "" BSR="" ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , pimv2_unicast , 0 ) ) < 0 ) { ND_PRINT ( ( ndo , ""..."" ) ) ; break ; } bp += advance ; for ( i = 0 ; bp < ep ; i ++ ) { ND_PRINT ( ( ndo , "" (group%d: "" , i ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , pimv2_group , 0 ) ) < 0 ) { ND_PRINT ( ( ndo , ""...)"" ) ) ; goto bs_done ; } bp += advance ; if ( bp >= ep ) { ND_PRINT ( ( ndo , ""...)"" ) ) ; goto bs_done ; } ND_PRINT ( ( ndo , "" RPcnt=%d"" , bp [ 0 ] ) ) ; if ( bp + 1 >= ep ) { ND_PRINT ( ( ndo , ""...)"" ) ) ; goto bs_done ; } ND_PRINT ( ( ndo , "" FRPcnt=%d"" , frpcnt = bp [ 1 ] ) ) ; bp += 4 ; for ( j = 0 ; j < frpcnt && bp < ep ; j ++ ) { ND_PRINT ( ( ndo , "" RP%d="" , j ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , pimv2_unicast , 0 ) ) < 0 ) { ND_PRINT ( ( ndo , ""...)"" ) ) ; goto bs_done ; } bp += advance ; if ( bp + 1 >= ep ) { ND_PRINT ( ( ndo , ""...)"" ) ) ; goto bs_done ; } ND_PRINT ( ( ndo , "",holdtime="" ) ) ; unsigned_relts_print ( ndo , EXTRACT_16BITS ( bp ) ) ; if ( bp + 2 >= ep ) { ND_PRINT ( ( ndo , ""...)"" ) ) ; goto bs_done ; } ND_PRINT ( ( ndo , "",prio=%d"" , bp [ 2 ] ) ) ; bp += 4 ; } ND_PRINT ( ( ndo , "")"" ) ) ; } bs_done : break ; } case PIMV2_TYPE_ASSERT : bp += 4 ; len -= 4 ; if ( bp >= ep ) break ; ND_PRINT ( ( ndo , "" group="" ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , pimv2_group , 0 ) ) < 0 ) { ND_PRINT ( ( ndo , ""..."" ) ) ; break ; } bp += advance ; len -= advance ; if ( bp >= ep ) break ; ND_PRINT ( ( ndo , "" src="" ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , pimv2_unicast , 0 ) ) < 0 ) { ND_PRINT ( ( ndo , ""..."" ) ) ; break ; } bp += advance ; len -= advance ; if ( bp + 8 > ep ) break ; if ( bp [ 0 ] & 0x80 ) ND_PRINT ( ( ndo , "" RPT"" ) ) ; ND_PRINT ( ( ndo , "" pref=%u"" , EXTRACT_32BITS ( & bp [ 0 ] ) & 0x7fffffff ) ) ; ND_PRINT ( ( ndo , "" metric=%u"" , EXTRACT_32BITS ( & bp [ 4 ] ) ) ) ; break ; case PIMV2_TYPE_CANDIDATE_RP : { int i , pfxcnt ; bp += 4 ; if ( bp >= ep ) break ; ND_PRINT ( ( ndo , "" prefix-cnt=%d"" , bp [ 0 ] ) ) ; pfxcnt = bp [ 0 ] ; if ( bp + 1 >= ep ) break ; ND_PRINT ( ( ndo , "" prio=%d"" , bp [ 1 ] ) ) ; if ( bp + 3 >= ep ) break ; ND_PRINT ( ( ndo , "" holdtime="" ) ) ; unsigned_relts_print ( ndo , EXTRACT_16BITS ( & bp [ 2 ] ) ) ; bp += 4 ; if ( bp >= ep ) break ; ND_PRINT ( ( ndo , "" RP="" ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , pimv2_unicast , 0 ) ) < 0 ) { ND_PRINT ( ( ndo , ""..."" ) ) ; break ; } bp += advance ; for ( i = 0 ; i < pfxcnt && bp < ep ; i ++ ) { ND_PRINT ( ( ndo , "" Group%d="" , i ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , pimv2_group , 0 ) ) < 0 ) { ND_PRINT ( ( ndo , ""..."" ) ) ; break ; } bp += advance ; } break ; } case PIMV2_TYPE_PRUNE_REFRESH : ND_PRINT ( ( ndo , "" src="" ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , pimv2_unicast , 0 ) ) < 0 ) { ND_PRINT ( ( ndo , ""..."" ) ) ; break ; } bp += advance ; ND_PRINT ( ( ndo , "" grp="" ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , pimv2_group , 0 ) ) < 0 ) { ND_PRINT ( ( ndo , ""..."" ) ) ; break ; } bp += advance ; ND_PRINT ( ( ndo , "" forwarder="" ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , pimv2_unicast , 0 ) ) < 0 ) { ND_PRINT ( ( ndo , ""..."" ) ) ; break ; } bp += advance ; ND_TCHECK2 ( bp [ 0 ] , 2 ) ; ND_PRINT ( ( ndo , "" TUNR "" ) ) ; unsigned_relts_print ( ndo , EXTRACT_16BITS ( bp ) ) ; break ; default : ND_PRINT ( ( ndo , "" [type %d]"" , PIM_TYPE ( pim -> pim_typever ) ) ) ; break ; } return ; trunc : ND_PRINT ( ( ndo , ""[|pim]"" ) ) ; }","static void pimv2_print ( netdissect_options * ndo , register const u_char * bp , register u_int len , const u_char * bp2 ) { register const u_char * ep ; register const struct pim * pim = ( const struct pim * ) bp ; int advance ; enum checksum_status cksum_status ; int pimv2_addr_len ; ep = ( const u_char * ) ndo -> ndo_snapend ; if ( bp >= ep ) return ; if ( ep > bp + len ) ep = bp + len ; if ( len < 2 ) goto trunc ; ND_TCHECK ( pim -> pim_rsv ) ; pimv2_addr_len = pim -> pim_rsv ; if ( pimv2_addr_len != 0 ) ND_PRINT ( ( ndo , "", RFC2117-encoding"" ) ) ; if ( len < 4 ) goto trunc ; ND_TCHECK ( pim -> pim_cksum ) ; ND_PRINT ( ( ndo , "", cksum 0x%04x "" , EXTRACT_16BITS ( & pim -> pim_cksum ) ) ) ; if ( EXTRACT_16BITS ( & pim -> pim_cksum ) == 0 ) { ND_PRINT ( ( ndo , ""(unverified)"" ) ) ; } else { if ( PIM_TYPE ( pim -> pim_typever ) == PIMV2_TYPE_REGISTER ) { cksum_status = pimv2_check_checksum ( ndo , bp , bp2 , 8 ) ; if ( cksum_status == INCORRECT ) { cksum_status = pimv2_check_checksum ( ndo , bp , bp2 , len ) ; } } else { cksum_status = pimv2_check_checksum ( ndo , bp , bp2 , len ) ; } switch ( cksum_status ) { case CORRECT : ND_PRINT ( ( ndo , ""(correct)"" ) ) ; break ; case INCORRECT : ND_PRINT ( ( ndo , ""(incorrect)"" ) ) ; break ; case UNVERIFIED : ND_PRINT ( ( ndo , ""(unverified)"" ) ) ; break ; } } bp += 4 ; len -= 4 ; switch ( PIM_TYPE ( pim -> pim_typever ) ) { case PIMV2_TYPE_HELLO : { uint16_t otype , olen ; while ( len > 0 ) { if ( len < 4 ) goto trunc ; ND_TCHECK2 ( bp [ 0 ] , 4 ) ; otype = EXTRACT_16BITS ( & bp [ 0 ] ) ; olen = EXTRACT_16BITS ( & bp [ 2 ] ) ; ND_PRINT ( ( ndo , ""\\n\\t %s Option (%u), length %u, Value: "" , tok2str ( pimv2_hello_option_values , ""Unknown"" , otype ) , otype , olen ) ) ; bp += 4 ; len -= 4 ; if ( len < olen ) goto trunc ; ND_TCHECK2 ( bp [ 0 ] , olen ) ; switch ( otype ) { case PIMV2_HELLO_OPTION_HOLDTIME : if ( olen != 2 ) { ND_PRINT ( ( ndo , ""ERROR: Option Length != 2 Bytes (%u)"" , olen ) ) ; } else { unsigned_relts_print ( ndo , EXTRACT_16BITS ( bp ) ) ; } break ; case PIMV2_HELLO_OPTION_LANPRUNEDELAY : if ( olen != 4 ) { ND_PRINT ( ( ndo , ""ERROR: Option Length != 4 Bytes (%u)"" , olen ) ) ; } else { char t_bit ; uint16_t lan_delay , override_interval ; lan_delay = EXTRACT_16BITS ( bp ) ; override_interval = EXTRACT_16BITS ( bp + 2 ) ; t_bit = ( lan_delay & 0x8000 ) ? 1 : 0 ; lan_delay &= ~ 0x8000 ; ND_PRINT ( ( ndo , ""\\n\\t T-bit=%d, LAN delay %dms, Override interval %dms"" , t_bit , lan_delay , override_interval ) ) ; } break ; case PIMV2_HELLO_OPTION_DR_PRIORITY_OLD : case PIMV2_HELLO_OPTION_DR_PRIORITY : switch ( olen ) { case 0 : ND_PRINT ( ( ndo , ""Bi-Directional Capability (Old)"" ) ) ; break ; case 4 : ND_PRINT ( ( ndo , ""%u"" , EXTRACT_32BITS ( bp ) ) ) ; break ; default : ND_PRINT ( ( ndo , ""ERROR: Option Length != 4 Bytes (%u)"" , olen ) ) ; break ; } break ; case PIMV2_HELLO_OPTION_GENID : if ( olen != 4 ) { ND_PRINT ( ( ndo , ""ERROR: Option Length != 4 Bytes (%u)"" , olen ) ) ; } else { ND_PRINT ( ( ndo , ""0x%08x"" , EXTRACT_32BITS ( bp ) ) ) ; } break ; case PIMV2_HELLO_OPTION_REFRESH_CAP : if ( olen != 4 ) { ND_PRINT ( ( ndo , ""ERROR: Option Length != 4 Bytes (%u)"" , olen ) ) ; } else { ND_PRINT ( ( ndo , ""v%d"" , * bp ) ) ; if ( * ( bp + 1 ) != 0 ) { ND_PRINT ( ( ndo , "", interval "" ) ) ; unsigned_relts_print ( ndo , * ( bp + 1 ) ) ; } if ( EXTRACT_16BITS ( bp + 2 ) != 0 ) { ND_PRINT ( ( ndo , "" ?0x%04x?"" , EXTRACT_16BITS ( bp + 2 ) ) ) ; } } break ; case PIMV2_HELLO_OPTION_BIDIR_CAP : break ; case PIMV2_HELLO_OPTION_ADDRESS_LIST_OLD : case PIMV2_HELLO_OPTION_ADDRESS_LIST : if ( ndo -> ndo_vflag > 1 ) { const u_char * ptr = bp ; u_int plen = len ; while ( ptr < ( bp + olen ) ) { ND_PRINT ( ( ndo , ""\\n\\t "" ) ) ; advance = pimv2_addr_print ( ndo , ptr , plen , pimv2_unicast , pimv2_addr_len , 0 ) ; if ( advance < 0 ) goto trunc ; ptr += advance ; plen -= advance ; } } break ; default : if ( ndo -> ndo_vflag <= 1 ) print_unknown_data ( ndo , bp , ""\\n\\t "" , olen ) ; break ; } if ( ndo -> ndo_vflag > 1 ) print_unknown_data ( ndo , bp , ""\\n\\t "" , olen ) ; bp += olen ; len -= olen ; } break ; } case PIMV2_TYPE_REGISTER : { const struct ip * ip ; if ( len < 4 ) goto trunc ; ND_TCHECK2 ( * bp , PIMV2_REGISTER_FLAG_LEN ) ; ND_PRINT ( ( ndo , "", Flags [ %s ]\\n\\t"" , tok2str ( pimv2_register_flag_values , ""none"" , EXTRACT_32BITS ( bp ) ) ) ) ; bp += 4 ; len -= 4 ; if ( len == 0 ) goto trunc ; ip = ( const struct ip * ) bp ; ND_TCHECK ( ip -> ip_vhl ) ; switch ( IP_V ( ip ) ) { case 0 : ND_TCHECK ( ip -> ip_dst ) ; ND_PRINT ( ( ndo , ""IP-Null-header %s > %s"" , ipaddr_string ( ndo , & ip -> ip_src ) , ipaddr_string ( ndo , & ip -> ip_dst ) ) ) ; break ; case 4 : ip_print ( ndo , bp , len ) ; break ; case 6 : ip6_print ( ndo , bp , len ) ; break ; default : ND_PRINT ( ( ndo , ""IP ver %d"" , IP_V ( ip ) ) ) ; break ; } break ; } case PIMV2_TYPE_REGISTER_STOP : ND_PRINT ( ( ndo , "" group="" ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , len , pimv2_group , pimv2_addr_len , 0 ) ) < 0 ) goto trunc ; bp += advance ; len -= advance ; ND_PRINT ( ( ndo , "" source="" ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , len , pimv2_unicast , pimv2_addr_len , 0 ) ) < 0 ) goto trunc ; bp += advance ; len -= advance ; break ; case PIMV2_TYPE_JOIN_PRUNE : case PIMV2_TYPE_GRAFT : case PIMV2_TYPE_GRAFT_ACK : { uint8_t ngroup ; uint16_t holdtime ; uint16_t njoin ; uint16_t nprune ; int i , j ; if ( PIM_TYPE ( pim -> pim_typever ) != 7 ) { ND_PRINT ( ( ndo , "", upstream-neighbor: "" ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , len , pimv2_unicast , pimv2_addr_len , 0 ) ) < 0 ) goto trunc ; bp += advance ; len -= advance ; } if ( len < 4 ) goto trunc ; ND_TCHECK2 ( * bp , 4 ) ; ngroup = bp [ 1 ] ; holdtime = EXTRACT_16BITS ( & bp [ 2 ] ) ; ND_PRINT ( ( ndo , ""\\n\\t %u group(s)"" , ngroup ) ) ; if ( PIM_TYPE ( pim -> pim_typever ) != 7 ) { ND_PRINT ( ( ndo , "", holdtime: "" ) ) ; if ( holdtime == 0xffff ) ND_PRINT ( ( ndo , ""infinite"" ) ) ; else unsigned_relts_print ( ndo , holdtime ) ; } bp += 4 ; len -= 4 ; for ( i = 0 ; i < ngroup ; i ++ ) { ND_PRINT ( ( ndo , ""\\n\\t group #%u: "" , i + 1 ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , len , pimv2_group , pimv2_addr_len , 0 ) ) < 0 ) goto trunc ; bp += advance ; len -= advance ; if ( len < 4 ) goto trunc ; ND_TCHECK2 ( * bp , 4 ) ; njoin = EXTRACT_16BITS ( & bp [ 0 ] ) ; nprune = EXTRACT_16BITS ( & bp [ 2 ] ) ; ND_PRINT ( ( ndo , "", joined sources: %u, pruned sources: %u"" , njoin , nprune ) ) ; bp += 4 ; len -= 4 ; for ( j = 0 ; j < njoin ; j ++ ) { ND_PRINT ( ( ndo , ""\\n\\t joined source #%u: "" , j + 1 ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , len , pimv2_source , pimv2_addr_len , 0 ) ) < 0 ) goto trunc ; bp += advance ; len -= advance ; } for ( j = 0 ; j < nprune ; j ++ ) { ND_PRINT ( ( ndo , ""\\n\\t pruned source #%u: "" , j + 1 ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , len , pimv2_source , pimv2_addr_len , 0 ) ) < 0 ) goto trunc ; bp += advance ; len -= advance ; } } break ; } case PIMV2_TYPE_BOOTSTRAP : { int i , j , frpcnt ; if ( len < 2 ) goto trunc ; ND_TCHECK_16BITS ( bp ) ; ND_PRINT ( ( ndo , "" tag=%x"" , EXTRACT_16BITS ( bp ) ) ) ; bp += 2 ; len -= 2 ; if ( len < 1 ) goto trunc ; ND_TCHECK ( bp [ 0 ] ) ; ND_PRINT ( ( ndo , "" hashmlen=%d"" , bp [ 0 ] ) ) ; if ( len < 2 ) goto trunc ; ND_TCHECK ( bp [ 2 ] ) ; ND_PRINT ( ( ndo , "" BSRprio=%d"" , bp [ 1 ] ) ) ; bp += 2 ; len -= 2 ; ND_PRINT ( ( ndo , "" BSR="" ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , len , pimv2_unicast , pimv2_addr_len , 0 ) ) < 0 ) goto trunc ; bp += advance ; len -= advance ; for ( i = 0 ; bp < ep ; i ++ ) { ND_PRINT ( ( ndo , "" (group%d: "" , i ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , len , pimv2_group , pimv2_addr_len , 0 ) ) < 0 ) goto trunc ; bp += advance ; len -= advance ; if ( len < 1 ) goto trunc ; ND_TCHECK ( bp [ 0 ] ) ; ND_PRINT ( ( ndo , "" RPcnt=%d"" , bp [ 0 ] ) ) ; if ( len < 2 ) goto trunc ; ND_TCHECK ( bp [ 1 ] ) ; ND_PRINT ( ( ndo , "" FRPcnt=%d"" , frpcnt = bp [ 1 ] ) ) ; if ( len < 4 ) goto trunc ; bp += 4 ; len -= 4 ; for ( j = 0 ; j < frpcnt && bp < ep ; j ++ ) { ND_PRINT ( ( ndo , "" RP%d="" , j ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , len , pimv2_unicast , pimv2_addr_len , 0 ) ) < 0 ) goto trunc ; bp += advance ; len -= advance ; if ( len < 2 ) goto trunc ; ND_TCHECK_16BITS ( bp ) ; ND_PRINT ( ( ndo , "",holdtime="" ) ) ; unsigned_relts_print ( ndo , EXTRACT_16BITS ( bp ) ) ; if ( len < 3 ) goto trunc ; ND_TCHECK ( bp [ 2 ] ) ; ND_PRINT ( ( ndo , "",prio=%d"" , bp [ 2 ] ) ) ; if ( len < 4 ) goto trunc ; bp += 4 ; len -= 4 ; } ND_PRINT ( ( ndo , "")"" ) ) ; } break ; } case PIMV2_TYPE_ASSERT : ND_PRINT ( ( ndo , "" group="" ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , len , pimv2_group , pimv2_addr_len , 0 ) ) < 0 ) goto trunc ; bp += advance ; len -= advance ; ND_PRINT ( ( ndo , "" src="" ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , len , pimv2_unicast , pimv2_addr_len , 0 ) ) < 0 ) goto trunc ; bp += advance ; len -= advance ; if ( len < 8 ) goto trunc ; ND_TCHECK2 ( * bp , 8 ) ; if ( bp [ 0 ] & 0x80 ) ND_PRINT ( ( ndo , "" RPT"" ) ) ; ND_PRINT ( ( ndo , "" pref=%u"" , EXTRACT_32BITS ( & bp [ 0 ] ) & 0x7fffffff ) ) ; ND_PRINT ( ( ndo , "" metric=%u"" , EXTRACT_32BITS ( & bp [ 4 ] ) ) ) ; break ; case PIMV2_TYPE_CANDIDATE_RP : { int i , pfxcnt ; if ( len < 1 ) goto trunc ; ND_TCHECK ( bp [ 0 ] ) ; ND_PRINT ( ( ndo , "" prefix-cnt=%d"" , bp [ 0 ] ) ) ; pfxcnt = bp [ 0 ] ; if ( len < 2 ) goto trunc ; ND_TCHECK ( bp [ 1 ] ) ; ND_PRINT ( ( ndo , "" prio=%d"" , bp [ 1 ] ) ) ; if ( len < 4 ) goto trunc ; ND_TCHECK_16BITS ( & bp [ 2 ] ) ; ND_PRINT ( ( ndo , "" holdtime="" ) ) ; unsigned_relts_print ( ndo , EXTRACT_16BITS ( & bp [ 2 ] ) ) ; bp += 4 ; len -= 4 ; ND_PRINT ( ( ndo , "" RP="" ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , len , pimv2_unicast , pimv2_addr_len , 0 ) ) < 0 ) goto trunc ; bp += advance ; len -= advance ; for ( i = 0 ; i < pfxcnt && bp < ep ; i ++ ) { ND_PRINT ( ( ndo , "" Group%d="" , i ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , len , pimv2_group , pimv2_addr_len , 0 ) ) < 0 ) goto trunc ; bp += advance ; len -= advance ; } break ; } case PIMV2_TYPE_PRUNE_REFRESH : ND_PRINT ( ( ndo , "" src="" ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , len , pimv2_unicast , pimv2_addr_len , 0 ) ) < 0 ) goto trunc ; bp += advance ; len -= advance ; ND_PRINT ( ( ndo , "" grp="" ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , len , pimv2_group , pimv2_addr_len , 0 ) ) < 0 ) goto trunc ; bp += advance ; len -= advance ; ND_PRINT ( ( ndo , "" forwarder="" ) ) ; if ( ( advance = pimv2_addr_print ( ndo , bp , len , pimv2_unicast , pimv2_addr_len , 0 ) ) < 0 ) goto trunc ; bp += advance ; len -= advance ; if ( len < 2 ) goto trunc ; ND_TCHECK_16BITS ( bp ) ; ND_PRINT ( ( ndo , "" TUNR "" ) ) ; unsigned_relts_print ( ndo , EXTRACT_16BITS ( bp ) ) ; break ; default : ND_PRINT ( ( ndo , "" [type %d]"" , PIM_TYPE ( pim -> pim_typever ) ) ) ; break ; } return ; trunc : ND_PRINT ( ( ndo , ""[|pim]"" ) ) ; }" 158,"CWE-119 static unsigned int get_sby_perpixel_diff_variance ( VP9_COMP * cpi , MACROBLOCK * x , int mi_row , int mi_col , BLOCK_SIZE bs ) { const YV12_BUFFER_CONFIG * yv12 = get_ref_frame_buffer ( cpi , LAST_FRAME ) ; int offset = ( mi_row * MI_SIZE ) * yv12 -> y_stride + ( mi_col * MI_SIZE ) ; unsigned int var , sse ; var = cpi -> fn_ptr [ bs ] . vf ( x -> plane [ 0 ] . src . buf , x -> plane [ 0 ] . src . stride , yv12 -> y_buffer + offset , yv12 -> y_stride , & sse ) ; return ROUND_POWER_OF_TWO ( var , num_pels_log2_lookup [ bs ] ) ; }","static unsigned int get_sby_perpixel_diff_variance ( VP9_COMP * cpi , const struct buf_2d * ref , int mi_row , int mi_col , BLOCK_SIZE bs ) { unsigned int sse , var ; uint8_t * last_y ; const YV12_BUFFER_CONFIG * last = get_ref_frame_buffer ( cpi , LAST_FRAME ) ; assert ( last != NULL ) ; last_y = & last -> y_buffer [ mi_row * MI_SIZE * last -> y_stride + mi_col * MI_SIZE ] ; var = cpi -> fn_ptr [ bs ] . vf ( ref -> buf , ref -> stride , last_y , last -> y_stride , & sse ) ; return ROUND_POWER_OF_TWO ( var , num_pels_log2_lookup [ bs ] ) ; }" 159,"CWE-284 static void mntput_no_expire ( struct mount * mnt ) { rcu_read_lock ( ) ; mnt_add_count ( mnt , - 1 ) ; if ( likely ( mnt -> mnt_ns ) ) { rcu_read_unlock ( ) ; return ; } lock_mount_hash ( ) ; if ( mnt_get_count ( mnt ) ) { rcu_read_unlock ( ) ; unlock_mount_hash ( ) ; return ; } if ( unlikely ( mnt -> mnt . mnt_flags & MNT_DOOMED ) ) { rcu_read_unlock ( ) ; unlock_mount_hash ( ) ; return ; } mnt -> mnt . mnt_flags |= MNT_DOOMED ; rcu_read_unlock ( ) ; list_del ( & mnt -> mnt_instance ) ; unlock_mount_hash ( ) ; if ( likely ( ! ( mnt -> mnt . mnt_flags & MNT_INTERNAL ) ) ) { struct task_struct * task = current ; if ( likely ( ! ( task -> flags & PF_KTHREAD ) ) ) { init_task_work ( & mnt -> mnt_rcu , __cleanup_mnt ) ; if ( ! task_work_add ( task , & mnt -> mnt_rcu , true ) ) return ; } if ( llist_add ( & mnt -> mnt_llist , & delayed_mntput_list ) ) schedule_delayed_work ( & delayed_mntput_work , 1 ) ; return ; } cleanup_mnt ( mnt ) ; }","static void mntput_no_expire ( struct mount * mnt ) { rcu_read_lock ( ) ; mnt_add_count ( mnt , - 1 ) ; if ( likely ( mnt -> mnt_ns ) ) { rcu_read_unlock ( ) ; return ; } lock_mount_hash ( ) ; if ( mnt_get_count ( mnt ) ) { rcu_read_unlock ( ) ; unlock_mount_hash ( ) ; return ; } if ( unlikely ( mnt -> mnt . mnt_flags & MNT_DOOMED ) ) { rcu_read_unlock ( ) ; unlock_mount_hash ( ) ; return ; } mnt -> mnt . mnt_flags |= MNT_DOOMED ; rcu_read_unlock ( ) ; list_del ( & mnt -> mnt_instance ) ; if ( unlikely ( ! list_empty ( & mnt -> mnt_mounts ) ) ) { struct mount * p , * tmp ; list_for_each_entry_safe ( p , tmp , & mnt -> mnt_mounts , mnt_child ) { umount_mnt ( p ) ; } } unlock_mount_hash ( ) ; if ( likely ( ! ( mnt -> mnt . mnt_flags & MNT_INTERNAL ) ) ) { struct task_struct * task = current ; if ( likely ( ! ( task -> flags & PF_KTHREAD ) ) ) { init_task_work ( & mnt -> mnt_rcu , __cleanup_mnt ) ; if ( ! task_work_add ( task , & mnt -> mnt_rcu , true ) ) return ; } if ( llist_add ( & mnt -> mnt_llist , & delayed_mntput_list ) ) schedule_delayed_work ( & delayed_mntput_work , 1 ) ; return ; } cleanup_mnt ( mnt ) ; }" 160,"CWE-284 void bta_hl_co_put_rx_data ( UINT8 app_id , tBTA_HL_MDL_HANDLE mdl_handle , UINT16 data_size , UINT8 * p_data , UINT16 evt ) { UINT8 app_idx , mcl_idx , mdl_idx ; btif_hl_mdl_cb_t * p_dcb ; tBTA_HL_STATUS status = BTA_HL_STATUS_FAIL ; int r ; BTIF_TRACE_DEBUG ( ""%s app_id=%d mdl_handle=0x%x data_size=%d"" , __FUNCTION__ , app_id , mdl_handle , data_size ) ; if ( btif_hl_find_mdl_idx_using_handle ( mdl_handle , & app_idx , & mcl_idx , & mdl_idx ) ) { p_dcb = BTIF_HL_GET_MDL_CB_PTR ( app_idx , mcl_idx , mdl_idx ) ; if ( ( p_dcb -> p_rx_pkt = ( UINT8 * ) btif_hl_get_buf ( data_size ) ) != NULL ) { memcpy ( p_dcb -> p_rx_pkt , p_data , data_size ) ; if ( p_dcb -> p_scb ) { BTIF_TRACE_DEBUG ( ""app_idx=%d mcl_idx=0x%x mdl_idx=0x%x data_size=%d"" , app_idx , mcl_idx , mdl_idx , data_size ) ; r = send ( p_dcb -> p_scb -> socket_id [ 1 ] , p_dcb -> p_rx_pkt , data_size , 0 ) ; if ( r == data_size ) { BTIF_TRACE_DEBUG ( ""socket send success data_size=%d"" , data_size ) ; status = BTA_HL_STATUS_OK ; } else { BTIF_TRACE_ERROR ( ""socket send failed r=%d data_size=%d"" , r , data_size ) ; } } btif_hl_free_buf ( ( void * * ) & p_dcb -> p_rx_pkt ) ; } } bta_hl_ci_put_rx_data ( mdl_handle , status , evt ) ; }","void bta_hl_co_put_rx_data ( UINT8 app_id , tBTA_HL_MDL_HANDLE mdl_handle , UINT16 data_size , UINT8 * p_data , UINT16 evt ) { UINT8 app_idx , mcl_idx , mdl_idx ; btif_hl_mdl_cb_t * p_dcb ; tBTA_HL_STATUS status = BTA_HL_STATUS_FAIL ; int r ; BTIF_TRACE_DEBUG ( ""%s app_id=%d mdl_handle=0x%x data_size=%d"" , __FUNCTION__ , app_id , mdl_handle , data_size ) ; if ( btif_hl_find_mdl_idx_using_handle ( mdl_handle , & app_idx , & mcl_idx , & mdl_idx ) ) { p_dcb = BTIF_HL_GET_MDL_CB_PTR ( app_idx , mcl_idx , mdl_idx ) ; if ( ( p_dcb -> p_rx_pkt = ( UINT8 * ) btif_hl_get_buf ( data_size ) ) != NULL ) { memcpy ( p_dcb -> p_rx_pkt , p_data , data_size ) ; if ( p_dcb -> p_scb ) { BTIF_TRACE_DEBUG ( ""app_idx=%d mcl_idx=0x%x mdl_idx=0x%x data_size=%d"" , app_idx , mcl_idx , mdl_idx , data_size ) ; r = TEMP_FAILURE_RETRY ( send ( p_dcb -> p_scb -> socket_id [ 1 ] , p_dcb -> p_rx_pkt , data_size , 0 ) ) ; if ( r == data_size ) { BTIF_TRACE_DEBUG ( ""socket send success data_size=%d"" , data_size ) ; status = BTA_HL_STATUS_OK ; } else { BTIF_TRACE_ERROR ( ""socket send failed r=%d data_size=%d"" , r , data_size ) ; } } btif_hl_free_buf ( ( void * * ) & p_dcb -> p_rx_pkt ) ; } } bta_hl_ci_put_rx_data ( mdl_handle , status , evt ) ; }" 161,"CWE-119 static inline int ip6_ufo_append_data ( struct sock * sk , int getfrag ( void * from , char * to , int offset , int len , int odd , struct sk_buff * skb ) , void * from , int length , int hh_len , int fragheaderlen , int transhdrlen , int mtu , unsigned int flags , struct rt6_info * rt ) { struct sk_buff * skb ; int err ; if ( ( skb = skb_peek_tail ( & sk -> sk_write_queue ) ) == NULL ) { skb = sock_alloc_send_skb ( sk , hh_len + fragheaderlen + transhdrlen + 20 , ( flags & MSG_DONTWAIT ) , & err ) ; if ( skb == NULL ) return err ; skb_reserve ( skb , hh_len ) ; skb_put ( skb , fragheaderlen + transhdrlen ) ; skb_reset_network_header ( skb ) ; skb -> transport_header = skb -> network_header + fragheaderlen ; skb -> protocol = htons ( ETH_P_IPV6 ) ; skb -> ip_summed = CHECKSUM_PARTIAL ; skb -> csum = 0 ; } err = skb_append_datato_frags ( sk , skb , getfrag , from , ( length - transhdrlen ) ) ; if ( ! err ) { struct frag_hdr fhdr ; skb_shinfo ( skb ) -> gso_size = ( mtu - fragheaderlen - sizeof ( struct frag_hdr ) ) & ~ 7 ; skb_shinfo ( skb ) -> gso_type = SKB_GSO_UDP ; ipv6_select_ident ( & fhdr , rt ) ; skb_shinfo ( skb ) -> ip6_frag_id = fhdr . identification ; __skb_queue_tail ( & sk -> sk_write_queue , skb ) ; return 0 ; } kfree_skb ( skb ) ; return err ; }","static inline int ip6_ufo_append_data ( struct sock * sk , int getfrag ( void * from , char * to , int offset , int len , int odd , struct sk_buff * skb ) , void * from , int length , int hh_len , int fragheaderlen , int transhdrlen , int mtu , unsigned int flags , struct rt6_info * rt ) { struct sk_buff * skb ; int err ; if ( ( skb = skb_peek_tail ( & sk -> sk_write_queue ) ) == NULL ) { struct frag_hdr fhdr ; skb = sock_alloc_send_skb ( sk , hh_len + fragheaderlen + transhdrlen + 20 , ( flags & MSG_DONTWAIT ) , & err ) ; if ( skb == NULL ) return err ; skb_reserve ( skb , hh_len ) ; skb_put ( skb , fragheaderlen + transhdrlen ) ; skb_reset_network_header ( skb ) ; skb -> transport_header = skb -> network_header + fragheaderlen ; skb -> protocol = htons ( ETH_P_IPV6 ) ; skb -> ip_summed = CHECKSUM_PARTIAL ; skb -> csum = 0 ; skb_shinfo ( skb ) -> gso_size = ( mtu - fragheaderlen - sizeof ( struct frag_hdr ) ) & ~ 7 ; skb_shinfo ( skb ) -> gso_type = SKB_GSO_UDP ; ipv6_select_ident ( & fhdr , rt ) ; skb_shinfo ( skb ) -> ip6_frag_id = fhdr . identification ; __skb_queue_tail ( & sk -> sk_write_queue , skb ) ; } return skb_append_datato_frags ( sk , skb , getfrag , from , ( length - transhdrlen ) ) ; }" 162,"CWE-416 PHP_MINIT_FUNCTION ( spl_array ) { REGISTER_SPL_STD_CLASS_EX ( ArrayObject , spl_array_object_new , spl_funcs_ArrayObject ) ; REGISTER_SPL_IMPLEMENTS ( ArrayObject , Aggregate ) ; REGISTER_SPL_IMPLEMENTS ( ArrayObject , ArrayAccess ) ; REGISTER_SPL_IMPLEMENTS ( ArrayObject , Serializable ) ; REGISTER_SPL_IMPLEMENTS ( ArrayObject , Countable ) ; memcpy ( & spl_handler_ArrayObject , zend_get_std_object_handlers ( ) , sizeof ( zend_object_handlers ) ) ; spl_handler_ArrayObject . clone_obj = spl_array_object_clone ; spl_handler_ArrayObject . read_dimension = spl_array_read_dimension ; spl_handler_ArrayObject . write_dimension = spl_array_write_dimension ; spl_handler_ArrayObject . unset_dimension = spl_array_unset_dimension ; spl_handler_ArrayObject . has_dimension = spl_array_has_dimension ; spl_handler_ArrayObject . count_elements = spl_array_object_count_elements ; spl_handler_ArrayObject . get_properties = spl_array_get_properties ; spl_handler_ArrayObject . get_debug_info = spl_array_get_debug_info ; spl_handler_ArrayObject . read_property = spl_array_read_property ; spl_handler_ArrayObject . write_property = spl_array_write_property ; spl_handler_ArrayObject . get_property_ptr_ptr = spl_array_get_property_ptr_ptr ; spl_handler_ArrayObject . has_property = spl_array_has_property ; spl_handler_ArrayObject . unset_property = spl_array_unset_property ; spl_handler_ArrayObject . compare_objects = spl_array_compare_objects ; REGISTER_SPL_STD_CLASS_EX ( ArrayIterator , spl_array_object_new , spl_funcs_ArrayIterator ) ; REGISTER_SPL_IMPLEMENTS ( ArrayIterator , Iterator ) ; REGISTER_SPL_IMPLEMENTS ( ArrayIterator , ArrayAccess ) ; REGISTER_SPL_IMPLEMENTS ( ArrayIterator , SeekableIterator ) ; REGISTER_SPL_IMPLEMENTS ( ArrayIterator , Serializable ) ; REGISTER_SPL_IMPLEMENTS ( ArrayIterator , Countable ) ; memcpy ( & spl_handler_ArrayIterator , & spl_handler_ArrayObject , sizeof ( zend_object_handlers ) ) ; spl_ce_ArrayIterator -> get_iterator = spl_array_get_iterator ; REGISTER_SPL_SUB_CLASS_EX ( RecursiveArrayIterator , ArrayIterator , spl_array_object_new , spl_funcs_RecursiveArrayIterator ) ; REGISTER_SPL_IMPLEMENTS ( RecursiveArrayIterator , RecursiveIterator ) ; spl_ce_RecursiveArrayIterator -> get_iterator = spl_array_get_iterator ; REGISTER_SPL_CLASS_CONST_LONG ( ArrayObject , ""STD_PROP_LIST"" , SPL_ARRAY_STD_PROP_LIST ) ; REGISTER_SPL_CLASS_CONST_LONG ( ArrayObject , ""ARRAY_AS_PROPS"" , SPL_ARRAY_ARRAY_AS_PROPS ) ; REGISTER_SPL_CLASS_CONST_LONG ( ArrayIterator , ""STD_PROP_LIST"" , SPL_ARRAY_STD_PROP_LIST ) ; REGISTER_SPL_CLASS_CONST_LONG ( ArrayIterator , ""ARRAY_AS_PROPS"" , SPL_ARRAY_ARRAY_AS_PROPS ) ; REGISTER_SPL_CLASS_CONST_LONG ( RecursiveArrayIterator , ""CHILD_ARRAYS_ONLY"" , SPL_ARRAY_CHILD_ARRAYS_ONLY ) ; return SUCCESS ; }","PHP_MINIT_FUNCTION ( spl_array ) { REGISTER_SPL_STD_CLASS_EX ( ArrayObject , spl_array_object_new , spl_funcs_ArrayObject ) ; REGISTER_SPL_IMPLEMENTS ( ArrayObject , Aggregate ) ; REGISTER_SPL_IMPLEMENTS ( ArrayObject , ArrayAccess ) ; REGISTER_SPL_IMPLEMENTS ( ArrayObject , Serializable ) ; REGISTER_SPL_IMPLEMENTS ( ArrayObject , Countable ) ; memcpy ( & spl_handler_ArrayObject , zend_get_std_object_handlers ( ) , sizeof ( zend_object_handlers ) ) ; spl_handler_ArrayObject . clone_obj = spl_array_object_clone ; spl_handler_ArrayObject . read_dimension = spl_array_read_dimension ; spl_handler_ArrayObject . write_dimension = spl_array_write_dimension ; spl_handler_ArrayObject . unset_dimension = spl_array_unset_dimension ; spl_handler_ArrayObject . has_dimension = spl_array_has_dimension ; spl_handler_ArrayObject . count_elements = spl_array_object_count_elements ; spl_handler_ArrayObject . get_properties = spl_array_get_properties ; spl_handler_ArrayObject . get_debug_info = spl_array_get_debug_info ; spl_handler_ArrayObject . get_gc = spl_array_get_gc ; spl_handler_ArrayObject . read_property = spl_array_read_property ; spl_handler_ArrayObject . write_property = spl_array_write_property ; spl_handler_ArrayObject . get_property_ptr_ptr = spl_array_get_property_ptr_ptr ; spl_handler_ArrayObject . has_property = spl_array_has_property ; spl_handler_ArrayObject . unset_property = spl_array_unset_property ; spl_handler_ArrayObject . compare_objects = spl_array_compare_objects ; REGISTER_SPL_STD_CLASS_EX ( ArrayIterator , spl_array_object_new , spl_funcs_ArrayIterator ) ; REGISTER_SPL_IMPLEMENTS ( ArrayIterator , Iterator ) ; REGISTER_SPL_IMPLEMENTS ( ArrayIterator , ArrayAccess ) ; REGISTER_SPL_IMPLEMENTS ( ArrayIterator , SeekableIterator ) ; REGISTER_SPL_IMPLEMENTS ( ArrayIterator , Serializable ) ; REGISTER_SPL_IMPLEMENTS ( ArrayIterator , Countable ) ; memcpy ( & spl_handler_ArrayIterator , & spl_handler_ArrayObject , sizeof ( zend_object_handlers ) ) ; spl_ce_ArrayIterator -> get_iterator = spl_array_get_iterator ; REGISTER_SPL_SUB_CLASS_EX ( RecursiveArrayIterator , ArrayIterator , spl_array_object_new , spl_funcs_RecursiveArrayIterator ) ; REGISTER_SPL_IMPLEMENTS ( RecursiveArrayIterator , RecursiveIterator ) ; spl_ce_RecursiveArrayIterator -> get_iterator = spl_array_get_iterator ; REGISTER_SPL_CLASS_CONST_LONG ( ArrayObject , ""STD_PROP_LIST"" , SPL_ARRAY_STD_PROP_LIST ) ; REGISTER_SPL_CLASS_CONST_LONG ( ArrayObject , ""ARRAY_AS_PROPS"" , SPL_ARRAY_ARRAY_AS_PROPS ) ; REGISTER_SPL_CLASS_CONST_LONG ( ArrayIterator , ""STD_PROP_LIST"" , SPL_ARRAY_STD_PROP_LIST ) ; REGISTER_SPL_CLASS_CONST_LONG ( ArrayIterator , ""ARRAY_AS_PROPS"" , SPL_ARRAY_ARRAY_AS_PROPS ) ; REGISTER_SPL_CLASS_CONST_LONG ( RecursiveArrayIterator , ""CHILD_ARRAYS_ONLY"" , SPL_ARRAY_CHILD_ARRAYS_ONLY ) ; return SUCCESS ; }" 163,"CWE-119 static char * cJSON_strdup ( const char * str ) { size_t len ; char * copy ; len = strlen ( str ) + 1 ; if ( ! ( copy = ( char * ) cJSON_malloc ( len ) ) ) return 0 ; memcpy ( copy , str , len ) ; return copy ; }","static char * cJSON_strdup ( const char * str ) { size_t len ; char * copy ; len = strlen ( str ) + 1 ; if ( ! ( copy = ( char * ) cJSON_malloc ( len ) ) ) return 0 ; memcpy ( copy , str , len ) ; return copy ; }" 164,"CWE-388 static int handle_exception ( struct kvm_vcpu * vcpu ) { struct vcpu_vmx * vmx = to_vmx ( vcpu ) ; struct kvm_run * kvm_run = vcpu -> run ; u32 intr_info , ex_no , error_code ; unsigned long cr2 , rip , dr6 ; u32 vect_info ; enum emulation_result er ; vect_info = vmx -> idt_vectoring_info ; intr_info = vmx -> exit_intr_info ; if ( is_machine_check ( intr_info ) ) return handle_machine_check ( vcpu ) ; if ( ( intr_info & INTR_INFO_INTR_TYPE_MASK ) == INTR_TYPE_NMI_INTR ) return 1 ; if ( is_no_device ( intr_info ) ) { vmx_fpu_activate ( vcpu ) ; return 1 ; } if ( is_invalid_opcode ( intr_info ) ) { if ( is_guest_mode ( vcpu ) ) { kvm_queue_exception ( vcpu , UD_VECTOR ) ; return 1 ; } er = emulate_instruction ( vcpu , EMULTYPE_TRAP_UD ) ; if ( er != EMULATE_DONE ) kvm_queue_exception ( vcpu , UD_VECTOR ) ; return 1 ; } error_code = 0 ; if ( intr_info & INTR_INFO_DELIVER_CODE_MASK ) error_code = vmcs_read32 ( VM_EXIT_INTR_ERROR_CODE ) ; if ( ( vect_info & VECTORING_INFO_VALID_MASK ) && ! ( is_page_fault ( intr_info ) && ! ( error_code & PFERR_RSVD_MASK ) ) ) { vcpu -> run -> exit_reason = KVM_EXIT_INTERNAL_ERROR ; vcpu -> run -> internal . suberror = KVM_INTERNAL_ERROR_SIMUL_EX ; vcpu -> run -> internal . ndata = 3 ; vcpu -> run -> internal . data [ 0 ] = vect_info ; vcpu -> run -> internal . data [ 1 ] = intr_info ; vcpu -> run -> internal . data [ 2 ] = error_code ; return 0 ; } if ( is_page_fault ( intr_info ) ) { BUG_ON ( enable_ept ) ; cr2 = vmcs_readl ( EXIT_QUALIFICATION ) ; trace_kvm_page_fault ( cr2 , error_code ) ; if ( kvm_event_needs_reinjection ( vcpu ) ) kvm_mmu_unprotect_page_virt ( vcpu , cr2 ) ; return kvm_mmu_page_fault ( vcpu , cr2 , error_code , NULL , 0 ) ; } ex_no = intr_info & INTR_INFO_VECTOR_MASK ; if ( vmx -> rmode . vm86_active && rmode_exception ( vcpu , ex_no ) ) return handle_rmode_exception ( vcpu , ex_no , error_code ) ; switch ( ex_no ) { case AC_VECTOR : kvm_queue_exception_e ( vcpu , AC_VECTOR , error_code ) ; return 1 ; case DB_VECTOR : dr6 = vmcs_readl ( EXIT_QUALIFICATION ) ; if ( ! ( vcpu -> guest_debug & ( KVM_GUESTDBG_SINGLESTEP | KVM_GUESTDBG_USE_HW_BP ) ) ) { vcpu -> arch . dr6 &= ~ 15 ; vcpu -> arch . dr6 |= dr6 | DR6_RTM ; if ( ! ( dr6 & ~ DR6_RESERVED ) )","static int handle_exception ( struct kvm_vcpu * vcpu ) { struct vcpu_vmx * vmx = to_vmx ( vcpu ) ; struct kvm_run * kvm_run = vcpu -> run ; u32 intr_info , ex_no , error_code ; unsigned long cr2 , rip , dr6 ; u32 vect_info ; enum emulation_result er ; vect_info = vmx -> idt_vectoring_info ; intr_info = vmx -> exit_intr_info ; if ( is_machine_check ( intr_info ) ) return handle_machine_check ( vcpu ) ; if ( is_nmi ( intr_info ) ) return 1 ; if ( is_no_device ( intr_info ) ) { vmx_fpu_activate ( vcpu ) ; return 1 ; } if ( is_invalid_opcode ( intr_info ) ) { if ( is_guest_mode ( vcpu ) ) { kvm_queue_exception ( vcpu , UD_VECTOR ) ; return 1 ; } er = emulate_instruction ( vcpu , EMULTYPE_TRAP_UD ) ; if ( er != EMULATE_DONE ) kvm_queue_exception ( vcpu , UD_VECTOR ) ; return 1 ; } error_code = 0 ; if ( intr_info & INTR_INFO_DELIVER_CODE_MASK ) error_code = vmcs_read32 ( VM_EXIT_INTR_ERROR_CODE ) ; if ( ( vect_info & VECTORING_INFO_VALID_MASK ) && ! ( is_page_fault ( intr_info ) && ! ( error_code & PFERR_RSVD_MASK ) ) ) { vcpu -> run -> exit_reason = KVM_EXIT_INTERNAL_ERROR ; vcpu -> run -> internal . suberror = KVM_INTERNAL_ERROR_SIMUL_EX ; vcpu -> run -> internal . ndata = 3 ; vcpu -> run -> internal . data [ 0 ] = vect_info ; vcpu -> run -> internal . data [ 1 ] = intr_info ; vcpu -> run -> internal . data [ 2 ] = error_code ; return 0 ; } if ( is_page_fault ( intr_info ) ) { BUG_ON ( enable_ept ) ; cr2 = vmcs_readl ( EXIT_QUALIFICATION ) ; trace_kvm_page_fault ( cr2 , error_code ) ; if ( kvm_event_needs_reinjection ( vcpu ) ) kvm_mmu_unprotect_page_virt ( vcpu , cr2 ) ; return kvm_mmu_page_fault ( vcpu , cr2 , error_code , NULL , 0 ) ; } ex_no = intr_info & INTR_INFO_VECTOR_MASK ; if ( vmx -> rmode . vm86_active && rmode_exception ( vcpu , ex_no ) ) return handle_rmode_exception ( vcpu , ex_no , error_code ) ; switch ( ex_no ) { case AC_VECTOR : kvm_queue_exception_e ( vcpu , AC_VECTOR , error_code ) ; return 1 ; case DB_VECTOR : dr6 = vmcs_readl ( EXIT_QUALIFICATION ) ; if ( ! ( vcpu -> guest_debug & ( KVM_GUESTDBG_SINGLESTEP | KVM_GUESTDBG_USE_HW_BP ) ) ) { vcpu -> arch . dr6 &= ~ 15 ; vcpu -> arch . dr6 |= dr6 | DR6_RTM ; if ( ! ( dr6 & ~ DR6_RESERVED ) )" 165,"CWE-190 static void cpStripToTile ( uint8 * out , uint8 * in , uint32 rows , uint32 cols , int outskew , int inskew ) { while ( rows -- > 0 ) { uint32 j = cols ; while ( j -- > 0 ) * out ++ = * in ++ ; out += outskew ; in += inskew ; } }","static void cpStripToTile ( uint8 * out , uint8 * in , uint32 rows , uint32 cols , int outskew , int64 inskew ) { while ( rows -- > 0 ) { uint32 j = cols ; while ( j -- > 0 ) * out ++ = * in ++ ; out += outskew ; in += inskew ; } }" 166,"CWE-125 static void set_fdc ( int drive ) { if ( drive >= 0 && drive < N_DRIVE ) { fdc = FDC ( drive ) ; current_drive = drive ; } if ( fdc != 1 && fdc != 0 ) { pr_info ( ""bad fdc value\\n"" ) ; return ; } set_dor ( fdc , ~ 0 , 8 ) ; # if N_FDC > 1 set_dor ( 1 - fdc , ~ 8 , 0 ) ; # endif if ( FDCS -> rawcmd == 2 ) reset_fdc_info ( 1 ) ; if ( fd_inb ( FD_STATUS ) != STATUS_READY ) FDCS -> reset = 1 ; }","static void set_fdc ( int drive ) { unsigned int new_fdc = fdc ; if ( drive >= 0 && drive < N_DRIVE ) { new_fdc = FDC ( drive ) ; current_drive = drive ; } if ( new_fdc >= N_FDC ) { pr_info ( ""bad fdc value\\n"" ) ; return ; } fdc = new_fdc ; set_dor ( fdc , ~ 0 , 8 ) ; # if N_FDC > 1 set_dor ( 1 - fdc , ~ 8 , 0 ) ; # endif if ( FDCS -> rawcmd == 2 ) reset_fdc_info ( 1 ) ; if ( fd_inb ( FD_STATUS ) != STATUS_READY ) FDCS -> reset = 1 ; }" 167,"CWE-476 static int unimac_mdio_probe ( struct platform_device * pdev ) { struct unimac_mdio_pdata * pdata = pdev -> dev . platform_data ; struct unimac_mdio_priv * priv ; struct device_node * np ; struct mii_bus * bus ; struct resource * r ; int ret ; np = pdev -> dev . of_node ; priv = devm_kzalloc ( & pdev -> dev , sizeof ( * priv ) , GFP_KERNEL ) ; if ( ! priv ) return - ENOMEM ; r = platform_get_resource ( pdev , IORESOURCE_MEM , 0 ) ; priv -> base = devm_ioremap ( & pdev -> dev , r -> start , resource_size ( r ) ) ; if ( ! priv -> base ) { dev_err ( & pdev -> dev , ""failed to remap register\\n"" ) ; return - ENOMEM ; } priv -> mii_bus = mdiobus_alloc ( ) ; if ( ! priv -> mii_bus ) return - ENOMEM ; bus = priv -> mii_bus ; bus -> priv = priv ; if ( pdata ) { bus -> name = pdata -> bus_name ; priv -> wait_func = pdata -> wait_func ; priv -> wait_func_data = pdata -> wait_func_data ; bus -> phy_mask = ~ pdata -> phy_mask ; } else { bus -> name = ""unimac MII bus"" ; priv -> wait_func_data = priv ; priv -> wait_func = unimac_mdio_poll ; } bus -> parent = & pdev -> dev ; bus -> read = unimac_mdio_read ; bus -> write = unimac_mdio_write ; bus -> reset = unimac_mdio_reset ; snprintf ( bus -> id , MII_BUS_ID_SIZE , ""%s-%d"" , pdev -> name , pdev -> id ) ; ret = of_mdiobus_register ( bus , np ) ; if ( ret ) { dev_err ( & pdev -> dev , ""MDIO bus registration failed\\n"" ) ; goto out_mdio_free ; } platform_set_drvdata ( pdev , priv ) ; dev_info ( & pdev -> dev , ""Broadcom UniMAC MDIO bus at 0x%p\\n"" , priv -> base ) ; return 0 ; out_mdio_free : mdiobus_free ( bus ) ; return ret ; }","static int unimac_mdio_probe ( struct platform_device * pdev ) { struct unimac_mdio_pdata * pdata = pdev -> dev . platform_data ; struct unimac_mdio_priv * priv ; struct device_node * np ; struct mii_bus * bus ; struct resource * r ; int ret ; np = pdev -> dev . of_node ; priv = devm_kzalloc ( & pdev -> dev , sizeof ( * priv ) , GFP_KERNEL ) ; if ( ! priv ) return - ENOMEM ; r = platform_get_resource ( pdev , IORESOURCE_MEM , 0 ) ; if ( ! r ) return - EINVAL ; priv -> base = devm_ioremap ( & pdev -> dev , r -> start , resource_size ( r ) ) ; if ( ! priv -> base ) { dev_err ( & pdev -> dev , ""failed to remap register\\n"" ) ; return - ENOMEM ; } priv -> mii_bus = mdiobus_alloc ( ) ; if ( ! priv -> mii_bus ) return - ENOMEM ; bus = priv -> mii_bus ; bus -> priv = priv ; if ( pdata ) { bus -> name = pdata -> bus_name ; priv -> wait_func = pdata -> wait_func ; priv -> wait_func_data = pdata -> wait_func_data ; bus -> phy_mask = ~ pdata -> phy_mask ; } else { bus -> name = ""unimac MII bus"" ; priv -> wait_func_data = priv ; priv -> wait_func = unimac_mdio_poll ; } bus -> parent = & pdev -> dev ; bus -> read = unimac_mdio_read ; bus -> write = unimac_mdio_write ; bus -> reset = unimac_mdio_reset ; snprintf ( bus -> id , MII_BUS_ID_SIZE , ""%s-%d"" , pdev -> name , pdev -> id ) ; ret = of_mdiobus_register ( bus , np ) ; if ( ret ) { dev_err ( & pdev -> dev , ""MDIO bus registration failed\\n"" ) ; goto out_mdio_free ; } platform_set_drvdata ( pdev , priv ) ; dev_info ( & pdev -> dev , ""Broadcom UniMAC MDIO bus at 0x%p\\n"" , priv -> base ) ; return 0 ; out_mdio_free : mdiobus_free ( bus ) ; return ret ; }" 168,"CWE-119 static int translate_hex_string ( char * s , char * saved_orphan ) { int c1 = * saved_orphan ; char * start = s ; char * t = s ; for ( ; * s ; s ++ ) { if ( isspace ( * s ) ) continue ; if ( c1 ) { * t ++ = ( hexval ( c1 ) << 4 ) + hexval ( * s ) ; c1 = 0 ; } else c1 = * s ; } * saved_orphan = c1 ; return t - start ; }","static int translate_hex_string ( char * s , char * saved_orphan ) { int c1 = * saved_orphan ; char * start = s ; char * t = s ; for ( ; * s ; s ++ ) { if ( isspace ( ( unsigned char ) * s ) ) continue ; if ( c1 ) { * t ++ = ( hexval ( c1 ) << 4 ) + hexval ( * s ) ; c1 = 0 ; } else c1 = * s ; } * saved_orphan = c1 ; return t - start ; }" 169,"CWE-20 error_t rawSocketReceiveEthPacket ( Socket * socket , SocketMsg * message , uint_t flags ) { error_t error ; SocketQueueItem * queueItem ; if ( ( flags & SOCKET_FLAG_DONT_WAIT ) == 0 ) { if ( socket -> receiveQueue == NULL ) { socket -> eventMask = SOCKET_EVENT_RX_READY ; osResetEvent ( & socket -> event ) ; osReleaseMutex ( & netMutex ) ; osWaitForEvent ( & socket -> event , socket -> timeout ) ; osAcquireMutex ( & netMutex ) ; } } if ( socket -> receiveQueue != NULL ) { queueItem = socket -> receiveQueue ; message -> length = netBufferRead ( message -> data , queueItem -> buffer , queueItem -> offset , message -> size ) ; # if ( ETH_SUPPORT == ENABLED ) message -> srcMacAddr = queueItem -> ancillary . srcMacAddr ; message -> destMacAddr = queueItem -> ancillary . destMacAddr ; # endif # if ( ETH_PORT_TAGGING_SUPPORT == ENABLED ) message -> switchPort = queueItem -> ancillary . port ; # endif # if ( ETH_TIMESTAMP_SUPPORT == ENABLED ) message -> timestamp = queueItem -> ancillary . timestamp ; # endif if ( ( flags & SOCKET_FLAG_PEEK ) == 0 ) { socket -> receiveQueue = queueItem -> next ; netBufferFree ( queueItem -> buffer ) ; } rawSocketUpdateEvents ( socket ) ; error = NO_ERROR ; } else { message -> length = 0 ; error = ERROR_TIMEOUT ; } return error ; }","error_t rawSocketReceiveEthPacket ( Socket * socket , SocketMsg * message , uint_t flags ) { error_t error ; SocketQueueItem * queueItem ; if ( ( flags & SOCKET_FLAG_DONT_WAIT ) == 0 ) { if ( socket -> receiveQueue == NULL ) { socket -> eventMask = SOCKET_EVENT_RX_READY ; osResetEvent ( & socket -> event ) ; osReleaseMutex ( & netMutex ) ; osWaitForEvent ( & socket -> event , socket -> timeout ) ; osAcquireMutex ( & netMutex ) ; } } if ( socket -> receiveQueue != NULL ) { queueItem = socket -> receiveQueue ; message -> length = netBufferRead ( message -> data , queueItem -> buffer , queueItem -> offset , message -> size ) ; message -> interface = queueItem -> interface ; # if ( ETH_SUPPORT == ENABLED ) message -> srcMacAddr = queueItem -> ancillary . srcMacAddr ; message -> destMacAddr = queueItem -> ancillary . destMacAddr ; # endif # if ( ETH_PORT_TAGGING_SUPPORT == ENABLED ) message -> switchPort = queueItem -> ancillary . port ; # endif # if ( ETH_TIMESTAMP_SUPPORT == ENABLED ) message -> timestamp = queueItem -> ancillary . timestamp ; # endif if ( ( flags & SOCKET_FLAG_PEEK ) == 0 ) { socket -> receiveQueue = queueItem -> next ; netBufferFree ( queueItem -> buffer ) ; } rawSocketUpdateEvents ( socket ) ; error = NO_ERROR ; } else { message -> length = 0 ; error = ERROR_TIMEOUT ; } return error ; }" 170,"CWE-399 static int br_multicast_add_group ( struct net_bridge * br , struct net_bridge_port * port , struct br_ip * group ) { struct net_bridge_mdb_entry * mp ; struct net_bridge_port_group * p ; struct net_bridge_port_group __rcu * * pp ; unsigned long now = jiffies ; int err ; spin_lock ( & br -> multicast_lock ) ; if ( ! netif_running ( br -> dev ) || ( port && port -> state == BR_STATE_DISABLED ) ) goto out ; mp = br_multicast_new_group ( br , port , group ) ; err = PTR_ERR ( mp ) ; if ( IS_ERR ( mp ) ) goto err ; if ( ! port ) { hlist_add_head ( & mp -> mglist , & br -> mglist ) ; mod_timer ( & mp -> timer , now + br -> multicast_membership_interval ) ; goto out ; } for ( pp = & mp -> ports ; ( p = mlock_dereference ( * pp , br ) ) != NULL ; pp = & p -> next ) { if ( p -> port == port ) goto found ; if ( ( unsigned long ) p -> port < ( unsigned long ) port ) break ; } p = kzalloc ( sizeof ( * p ) , GFP_ATOMIC ) ; err = - ENOMEM ; if ( unlikely ( ! p ) ) goto err ; p -> addr = * group ; p -> port = port ; p -> next = * pp ; hlist_add_head ( & p -> mglist , & port -> mglist ) ; setup_timer ( & p -> timer , br_multicast_port_group_expired , ( unsigned long ) p ) ; setup_timer ( & p -> query_timer , br_multicast_port_group_query_expired , ( unsigned long ) p ) ; rcu_assign_pointer ( * pp , p ) ; found : mod_timer ( & p -> timer , now + br -> multicast_membership_interval ) ; out : err = 0 ; err : spin_unlock ( & br -> multicast_lock ) ; return err ; }","static int br_multicast_add_group ( struct net_bridge * br , struct net_bridge_port * port , struct br_ip * group ) { struct net_bridge_mdb_entry * mp ; struct net_bridge_port_group * p ; struct net_bridge_port_group __rcu * * pp ; unsigned long now = jiffies ; int err ; spin_lock ( & br -> multicast_lock ) ; if ( ! netif_running ( br -> dev ) || ( port && port -> state == BR_STATE_DISABLED ) ) goto out ; mp = br_multicast_new_group ( br , port , group ) ; err = PTR_ERR ( mp ) ; if ( IS_ERR ( mp ) ) goto err ; if ( ! port ) { if ( hlist_unhashed ( & mp -> mglist ) ) hlist_add_head ( & mp -> mglist , & br -> mglist ) ; mod_timer ( & mp -> timer , now + br -> multicast_membership_interval ) ; goto out ; } for ( pp = & mp -> ports ; ( p = mlock_dereference ( * pp , br ) ) != NULL ; pp = & p -> next ) { if ( p -> port == port ) goto found ; if ( ( unsigned long ) p -> port < ( unsigned long ) port ) break ; } p = kzalloc ( sizeof ( * p ) , GFP_ATOMIC ) ; err = - ENOMEM ; if ( unlikely ( ! p ) ) goto err ; p -> addr = * group ; p -> port = port ; p -> next = * pp ; hlist_add_head ( & p -> mglist , & port -> mglist ) ; setup_timer ( & p -> timer , br_multicast_port_group_expired , ( unsigned long ) p ) ; setup_timer ( & p -> query_timer , br_multicast_port_group_query_expired , ( unsigned long ) p ) ; rcu_assign_pointer ( * pp , p ) ; found : mod_timer ( & p -> timer , now + br -> multicast_membership_interval ) ; out : err = 0 ; err : spin_unlock ( & br -> multicast_lock ) ; return err ; }" 171,"NVD-CWE-Other int flush_completed_IO ( struct inode * inode ) { ext4_io_end_t * io ; int ret = 0 ; int ret2 = 0 ; if ( list_empty ( & EXT4_I ( inode ) -> i_completed_io_list ) ) return ret ; dump_completed_IO ( inode ) ; while ( ! list_empty ( & EXT4_I ( inode ) -> i_completed_io_list ) ) { io = list_entry ( EXT4_I ( inode ) -> i_completed_io_list . next , ext4_io_end_t , list ) ; ret = ext4_end_io_nolock ( io ) ; if ( ret < 0 ) ret2 = ret ; else list_del_init ( & io -> list ) ; } return ( ret2 < 0 ) ? ret2 : 0 ; }","int flush_completed_IO ( struct inode * inode ) { ext4_io_end_t * io ; struct ext4_inode_info * ei = EXT4_I ( inode ) ; unsigned long flags ; int ret = 0 ; int ret2 = 0 ; if ( list_empty ( & ei -> i_completed_io_list ) ) return ret ; dump_completed_IO ( inode ) ; spin_lock_irqsave ( & ei -> i_completed_io_lock , flags ) ; while ( ! list_empty ( & ei -> i_completed_io_list ) ) { io = list_entry ( ei -> i_completed_io_list . next , ext4_io_end_t , list ) ; spin_unlock_irqrestore ( & ei -> i_completed_io_lock , flags ) ; ret = ext4_end_io_nolock ( io ) ; spin_lock_irqsave ( & ei -> i_completed_io_lock , flags ) ; if ( ret < 0 ) ret2 = ret ; else list_del_init ( & io -> list ) ; } spin_unlock_irqrestore ( & ei -> i_completed_io_lock , flags ) ; return ( ret2 < 0 ) ? ret2 : 0 ; }" 172,CWE-119 static TX_MODE select_tx_mode ( const VP9_COMP * cpi ) { if ( cpi -> oxcf . lossless ) { return ONLY_4X4 ; } else if ( cpi -> common . current_video_frame == 0 ) { return TX_MODE_SELECT ; } else { if ( cpi -> sf . tx_size_search_method == USE_LARGESTALL ) { return ALLOW_32X32 ; } else if ( cpi -> sf . tx_size_search_method == USE_FULL_RD ) { const MV_REFERENCE_FRAME frame_type = get_frame_type ( cpi ) ; return cpi -> rd_tx_select_threshes [ frame_type ] [ ALLOW_32X32 ] > cpi -> rd_tx_select_threshes [ frame_type ] [ TX_MODE_SELECT ] ? ALLOW_32X32 : TX_MODE_SELECT ; } else { unsigned int total = 0 ; int i ; for ( i = 0 ; i < TX_SIZES ; ++ i ) total += cpi -> tx_stepdown_count [ i ] ; if ( total ) { const double fraction = ( double ) cpi -> tx_stepdown_count [ 0 ] / total ; return fraction > 0.90 ? ALLOW_32X32 : TX_MODE_SELECT ; } else { return cpi -> common . tx_mode ; } } } } ,"static TX_MODE select_tx_mode ( const VP9_COMP * cpi , MACROBLOCKD * const xd ) { if ( xd -> lossless ) return ONLY_4X4 ; if ( cpi -> common . frame_type == KEY_FRAME && cpi -> sf . use_nonrd_pick_mode ) return ALLOW_16X16 ; if ( cpi -> sf . tx_size_search_method == USE_LARGESTALL ) return ALLOW_32X32 ; else if ( cpi -> sf . tx_size_search_method == USE_FULL_RD || cpi -> sf . tx_size_search_method == USE_TX_8X8 ) return TX_MODE_SELECT ; else return cpi -> common . tx_mode ; }" 173,"CWE-400 int fpm_stdio_init_child ( struct fpm_worker_pool_s * wp ) { # ifdef HAVE_SYSLOG_H if ( fpm_globals . error_log_fd == ZLOG_SYSLOG ) { closelog ( ) ; } else # endif if ( fpm_globals . error_log_fd > 0 ) { close ( fpm_globals . error_log_fd ) ; } fpm_globals . error_log_fd = - 1 ; zlog_set_fd ( - 1 ) ; if ( wp -> listening_socket != STDIN_FILENO ) { if ( 0 > dup2 ( wp -> listening_socket , STDIN_FILENO ) ) { zlog ( ZLOG_SYSERROR , ""failed to init child stdio: dup2()"" ) ; return - 1 ; } } return 0 ; }",int fpm_stdio_init_child ( struct fpm_worker_pool_s * wp ) { # ifdef HAVE_SYSLOG_H if ( fpm_globals . error_log_fd == ZLOG_SYSLOG ) { closelog ( ) ; } else # endif if ( fpm_globals . error_log_fd > 0 ) { close ( fpm_globals . error_log_fd ) ; } fpm_globals . error_log_fd = - 1 ; zlog_set_fd ( - 1 ) ; return 0 ; } 174,"CWE-416 static int tcp_v6_send_synack ( const struct sock * sk , struct dst_entry * dst , struct flowi * fl , struct request_sock * req , struct tcp_fastopen_cookie * foc , bool attach_req ) { struct inet_request_sock * ireq = inet_rsk ( req ) ; struct ipv6_pinfo * np = inet6_sk ( sk ) ; struct flowi6 * fl6 = & fl -> u . ip6 ; struct sk_buff * skb ; int err = - ENOMEM ; if ( ! dst && ( dst = inet6_csk_route_req ( sk , fl6 , req , IPPROTO_TCP ) ) == NULL ) goto done ; skb = tcp_make_synack ( sk , dst , req , foc , attach_req ) ; if ( skb ) { __tcp_v6_send_check ( skb , & ireq -> ir_v6_loc_addr , & ireq -> ir_v6_rmt_addr ) ; fl6 -> daddr = ireq -> ir_v6_rmt_addr ; if ( np -> repflow && ireq -> pktopts ) fl6 -> flowlabel = ip6_flowlabel ( ipv6_hdr ( ireq -> pktopts ) ) ; err = ip6_xmit ( sk , skb , fl6 , np -> opt , np -> tclass ) ; err = net_xmit_eval ( err ) ; } done : return err ; }","static int tcp_v6_send_synack ( const struct sock * sk , struct dst_entry * dst , struct flowi * fl , struct request_sock * req , struct tcp_fastopen_cookie * foc , bool attach_req ) { struct inet_request_sock * ireq = inet_rsk ( req ) ; struct ipv6_pinfo * np = inet6_sk ( sk ) ; struct flowi6 * fl6 = & fl -> u . ip6 ; struct sk_buff * skb ; int err = - ENOMEM ; if ( ! dst && ( dst = inet6_csk_route_req ( sk , fl6 , req , IPPROTO_TCP ) ) == NULL ) goto done ; skb = tcp_make_synack ( sk , dst , req , foc , attach_req ) ; if ( skb ) { __tcp_v6_send_check ( skb , & ireq -> ir_v6_loc_addr , & ireq -> ir_v6_rmt_addr ) ; fl6 -> daddr = ireq -> ir_v6_rmt_addr ; if ( np -> repflow && ireq -> pktopts ) fl6 -> flowlabel = ip6_flowlabel ( ipv6_hdr ( ireq -> pktopts ) ) ; err = ip6_xmit ( sk , skb , fl6 , rcu_dereference ( np -> opt ) , np -> tclass ) ; err = net_xmit_eval ( err ) ; } done : return err ; }" 175,"CWE-119 { matte = MagickTrue ; compression = DXT5Compression ; decoder = ReadDXT5 ; break ; } default : { ThrowReaderException ( CorruptImageError , ""ImageTypeNotSupported"" ) ; } } } else { ThrowReaderException ( CorruptImageError , ""ImageTypeNotSupported"" ) ; } num_images = 1 ; if ( cubemap ) { num_images = 0 ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_POSITIVEX ) num_images ++ ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_NEGATIVEX ) num_images ++ ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_POSITIVEY ) num_images ++ ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_NEGATIVEY ) num_images ++ ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_POSITIVEZ ) num_images ++ ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_NEGATIVEZ ) num_images ++ ; } if ( volume ) num_images = dds_info . depth ; for ( n = 0 ; n < num_images ; n ++ ) { if ( n != 0 ) { AcquireNextImage ( image_info , image ) ; if ( GetNextImageInList ( image ) == ( Image * ) NULL ) return ( DestroyImageList ( image ) ) ; image = SyncNextImageInList ( image ) ; } image -> matte = matte ; image -> compression = compression ; image -> columns = dds_info . width ; image -> rows = dds_info . height ; image -> storage_class = DirectClass ; image -> endian = LSBEndian ; image -> depth = 8 ; if ( image_info -> ping != MagickFalse ) { ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; } if ( ( decoder ) ( image , & dds_info , exception ) != MagickTrue ) { ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; } } if ( EOFBlob ( image ) != MagickFalse ) ThrowFileException ( exception , CorruptImageError , ""UnexpectedEndOfFile"" , image -> filename ) ; ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; }","{ matte = MagickTrue ; compression = DXT5Compression ; decoder = ReadDXT5 ; break ; } default : { ThrowReaderException ( CorruptImageError , ""ImageTypeNotSupported"" ) ; } } } else { ThrowReaderException ( CorruptImageError , ""ImageTypeNotSupported"" ) ; } num_images = 1 ; if ( cubemap ) { num_images = 0 ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_POSITIVEX ) num_images ++ ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_NEGATIVEX ) num_images ++ ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_POSITIVEY ) num_images ++ ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_NEGATIVEY ) num_images ++ ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_POSITIVEZ ) num_images ++ ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_NEGATIVEZ ) num_images ++ ; } if ( volume ) num_images = dds_info . depth ; for ( n = 0 ; n < num_images ; n ++ ) { if ( n != 0 ) { AcquireNextImage ( image_info , image ) ; if ( GetNextImageInList ( image ) == ( Image * ) NULL ) return ( DestroyImageList ( image ) ) ; image = SyncNextImageInList ( image ) ; } image -> matte = matte ; image -> compression = compression ; image -> columns = dds_info . width ; image -> rows = dds_info . height ; image -> storage_class = DirectClass ; image -> endian = LSBEndian ; image -> depth = 8 ; if ( image_info -> ping != MagickFalse ) { ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; } status = SetImageExtent ( image , image -> columns , image -> rows ) ; if ( status == MagickFalse ) { InheritException ( exception , & image -> exception ) ; return ( DestroyImageList ( image ) ) ; } if ( ( decoder ) ( image , & dds_info , exception ) != MagickTrue ) { ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; } } if ( EOFBlob ( image ) != MagickFalse ) ThrowFileException ( exception , CorruptImageError , ""UnexpectedEndOfFile"" , image -> filename ) ; ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; }" 176,"CWE-125 static void nfnetlink_rcv_batch ( struct sk_buff * skb , struct nlmsghdr * nlh , u_int16_t subsys_id ) { struct sk_buff * oskb = skb ; struct net * net = sock_net ( skb -> sk ) ; const struct nfnetlink_subsystem * ss ; const struct nfnl_callback * nc ; static LIST_HEAD ( err_list ) ; u32 status ; int err ; if ( subsys_id >= NFNL_SUBSYS_COUNT ) return netlink_ack ( skb , nlh , - EINVAL ) ; replay : status = 0 ; skb = netlink_skb_clone ( oskb , GFP_KERNEL ) ; if ( ! skb ) return netlink_ack ( oskb , nlh , - ENOMEM ) ; nfnl_lock ( subsys_id ) ; ss = nfnl_dereference_protected ( subsys_id ) ; if ( ! ss ) { # ifdef CONFIG_MODULES nfnl_unlock ( subsys_id ) ; request_module ( ""nfnetlink-subsys-%d"" , subsys_id ) ; nfnl_lock ( subsys_id ) ; ss = nfnl_dereference_protected ( subsys_id ) ; if ( ! ss ) # endif { nfnl_unlock ( subsys_id ) ; netlink_ack ( oskb , nlh , - EOPNOTSUPP ) ; return kfree_skb ( skb ) ; } } if ( ! ss -> commit || ! ss -> abort ) { nfnl_unlock ( subsys_id ) ; netlink_ack ( oskb , nlh , - EOPNOTSUPP ) ; return kfree_skb ( skb ) ; } while ( skb -> len >= nlmsg_total_size ( 0 ) ) { int msglen , type ; nlh = nlmsg_hdr ( skb ) ; err = 0 ; if ( nlmsg_len ( nlh ) < sizeof ( struct nfgenmsg ) || skb -> len < nlh -> nlmsg_len ) { err = - EINVAL ; goto ack ; } if ( ! ( nlh -> nlmsg_flags & NLM_F_REQUEST ) ) { err = - EINVAL ; goto ack ; } type = nlh -> nlmsg_type ; if ( type == NFNL_MSG_BATCH_BEGIN ) { nfnl_err_reset ( & err_list ) ; status |= NFNL_BATCH_FAILURE ; goto done ; } else if ( type == NFNL_MSG_BATCH_END ) { status |= NFNL_BATCH_DONE ; goto done ; } else if ( type < NLMSG_MIN_TYPE ) { err = - EINVAL ; goto ack ; } if ( NFNL_SUBSYS_ID ( type ) != subsys_id ) { err = - EINVAL ; goto ack ; } nc = nfnetlink_find_client ( type , ss ) ; if ( ! nc ) { err = - EINVAL ; goto ack ; } { int min_len = nlmsg_total_size ( sizeof ( struct nfgenmsg ) ) ; u_int8_t cb_id = NFNL_MSG_TYPE ( nlh -> nlmsg_type ) ; struct nlattr * cda [ ss -> cb [ cb_id ] . attr_count + 1 ] ; struct nlattr * attr = ( void * ) nlh + min_len ; int attrlen = nlh -> nlmsg_len - min_len ; err = nla_parse ( cda , ss -> cb [ cb_id ] . attr_count , attr , attrlen , ss -> cb [ cb_id ] . policy ) ; if ( err < 0 ) goto ack ; if ( nc -> call_batch ) { err = nc -> call_batch ( net , net -> nfnl , skb , nlh , ( const struct nlattr * * ) cda ) ; } if ( err == - EAGAIN ) { status |= NFNL_BATCH_REPLAY ; goto next ; } } ack : if ( nlh -> nlmsg_flags & NLM_F_ACK || err ) { if ( nfnl_err_add ( & err_list , nlh , err ) < 0 ) { nfnl_err_reset ( & err_list ) ; netlink_ack ( oskb , nlmsg_hdr ( oskb ) , - ENOMEM ) ;","static void nfnetlink_rcv_batch ( struct sk_buff * skb , struct nlmsghdr * nlh , u_int16_t subsys_id ) { struct sk_buff * oskb = skb ; struct net * net = sock_net ( skb -> sk ) ; const struct nfnetlink_subsystem * ss ; const struct nfnl_callback * nc ; static LIST_HEAD ( err_list ) ; u32 status ; int err ; if ( subsys_id >= NFNL_SUBSYS_COUNT ) return netlink_ack ( skb , nlh , - EINVAL ) ; replay : status = 0 ; skb = netlink_skb_clone ( oskb , GFP_KERNEL ) ; if ( ! skb ) return netlink_ack ( oskb , nlh , - ENOMEM ) ; nfnl_lock ( subsys_id ) ; ss = nfnl_dereference_protected ( subsys_id ) ; if ( ! ss ) { # ifdef CONFIG_MODULES nfnl_unlock ( subsys_id ) ; request_module ( ""nfnetlink-subsys-%d"" , subsys_id ) ; nfnl_lock ( subsys_id ) ; ss = nfnl_dereference_protected ( subsys_id ) ; if ( ! ss ) # endif { nfnl_unlock ( subsys_id ) ; netlink_ack ( oskb , nlh , - EOPNOTSUPP ) ; return kfree_skb ( skb ) ; } } if ( ! ss -> commit || ! ss -> abort ) { nfnl_unlock ( subsys_id ) ; netlink_ack ( oskb , nlh , - EOPNOTSUPP ) ; return kfree_skb ( skb ) ; } while ( skb -> len >= nlmsg_total_size ( 0 ) ) { int msglen , type ; nlh = nlmsg_hdr ( skb ) ; err = 0 ; if ( nlh -> nlmsg_len < NLMSG_HDRLEN || skb -> len < nlh -> nlmsg_len || nlmsg_len ( nlh ) < sizeof ( struct nfgenmsg ) ) { nfnl_err_reset ( & err_list ) ; status |= NFNL_BATCH_FAILURE ; goto done ; } if ( ! ( nlh -> nlmsg_flags & NLM_F_REQUEST ) ) { err = - EINVAL ; goto ack ; } type = nlh -> nlmsg_type ; if ( type == NFNL_MSG_BATCH_BEGIN ) { nfnl_err_reset ( & err_list ) ; status |= NFNL_BATCH_FAILURE ; goto done ; } else if ( type == NFNL_MSG_BATCH_END ) { status |= NFNL_BATCH_DONE ; goto done ; } else if ( type < NLMSG_MIN_TYPE ) { err = - EINVAL ; goto ack ; } if ( NFNL_SUBSYS_ID ( type ) != subsys_id ) { err = - EINVAL ; goto ack ; } nc = nfnetlink_find_client ( type , ss ) ; if ( ! nc ) { err = - EINVAL ; goto ack ; } { int min_len = nlmsg_total_size ( sizeof ( struct nfgenmsg ) ) ; u_int8_t cb_id = NFNL_MSG_TYPE ( nlh -> nlmsg_type ) ; struct nlattr * cda [ ss -> cb [ cb_id ] . attr_count + 1 ] ; struct nlattr * attr = ( void * ) nlh + min_len ; int attrlen = nlh -> nlmsg_len - min_len ; err = nla_parse ( cda , ss -> cb [ cb_id ] . attr_count , attr , attrlen , ss -> cb [ cb_id ] . policy ) ; if ( err < 0 ) goto ack ; if ( nc -> call_batch ) { err = nc -> call_batch ( net , net -> nfnl , skb , nlh , ( const struct nlattr * * ) cda ) ; } if ( err == - EAGAIN ) { status |= NFNL_BATCH_REPLAY ; goto next ; } } ack : if ( nlh -> nlmsg_flags & NLM_F_ACK || err ) { if ( nfnl_err_add ( & err_list , nlh , err ) < 0 ) { nfnl_err_reset ( & err_list ) ; netlink_ack ( oskb , nlmsg_hdr ( oskb ) , - ENOMEM ) ;" 177,"CWE-476 static int add_push_report_sideband_pkt ( git_push * push , git_pkt_data * data_pkt , git_buf * data_pkt_buf ) { git_pkt * pkt ; const char * line , * line_end ; size_t line_len ; int error ; int reading_from_buf = data_pkt_buf -> size > 0 ; if ( reading_from_buf ) { git_buf_put ( data_pkt_buf , data_pkt -> data , data_pkt -> len ) ; line = data_pkt_buf -> ptr ; line_len = data_pkt_buf -> size ; } else { line = data_pkt -> data ; line_len = data_pkt -> len ; } while ( line_len > 0 ) { error = git_pkt_parse_line ( & pkt , line , & line_end , line_len ) ; if ( error == GIT_EBUFS ) { if ( ! reading_from_buf ) git_buf_put ( data_pkt_buf , line , line_len ) ; error = 0 ; goto done ; } else if ( error < 0 ) goto done ; line_len -= ( line_end - line ) ; line = line_end ; if ( pkt == NULL ) continue ; error = add_push_report_pkt ( push , pkt ) ; git_pkt_free ( pkt ) ; if ( error < 0 && error != GIT_ITEROVER ) goto done ; } error = 0 ; done : if ( reading_from_buf ) git_buf_consume ( data_pkt_buf , line_end ) ; return error ; }","static int add_push_report_sideband_pkt ( git_push * push , git_pkt_data * data_pkt , git_buf * data_pkt_buf ) { git_pkt * pkt ; const char * line , * line_end ; size_t line_len ; int error ; int reading_from_buf = data_pkt_buf -> size > 0 ; if ( reading_from_buf ) { git_buf_put ( data_pkt_buf , data_pkt -> data , data_pkt -> len ) ; line = data_pkt_buf -> ptr ; line_len = data_pkt_buf -> size ; } else { line = data_pkt -> data ; line_len = data_pkt -> len ; } while ( line_len > 0 ) { error = git_pkt_parse_line ( & pkt , line , & line_end , line_len ) ; if ( error == GIT_EBUFS ) { if ( ! reading_from_buf ) git_buf_put ( data_pkt_buf , line , line_len ) ; error = 0 ; goto done ; } else if ( error < 0 ) goto done ; line_len -= ( line_end - line ) ; line = line_end ; error = add_push_report_pkt ( push , pkt ) ; git_pkt_free ( pkt ) ; if ( error < 0 && error != GIT_ITEROVER ) goto done ; } error = 0 ; done : if ( reading_from_buf ) git_buf_consume ( data_pkt_buf , line_end ) ; return error ; }" 178,"CWE-347 void pointZZ_pDouble ( PointZZ_p * rop , const PointZZ_p * op , const CurveZZ_p * curve ) { mpz_t numer , denom , lambda ; mpz_inits ( numer , denom , lambda , NULL ) ; mpz_mul ( numer , op -> x , op -> x ) ; mpz_mul_ui ( numer , numer , 3 ) ; mpz_add ( numer , numer , curve -> a ) ; mpz_mul_ui ( denom , op -> y , 2 ) ; mpz_invert ( denom , denom , curve -> p ) ; mpz_mul ( lambda , numer , denom ) ; mpz_mod ( lambda , lambda , curve -> p ) ; mpz_mul ( rop -> x , lambda , lambda ) ; mpz_sub ( rop -> x , rop -> x , op -> x ) ; mpz_sub ( rop -> x , rop -> x , op -> x ) ; mpz_mod ( rop -> x , rop -> x , curve -> p ) ; mpz_sub ( rop -> y , op -> x , rop -> x ) ; mpz_mul ( rop -> y , lambda , rop -> y ) ; mpz_sub ( rop -> y , rop -> y , op -> y ) ; mpz_mod ( rop -> y , rop -> y , curve -> p ) ; mpz_clears ( numer , denom , lambda , NULL ) ; }","void pointZZ_pDouble ( PointZZ_p * rop , const PointZZ_p * op , const CurveZZ_p * curve ) { if ( pointZZ_pIsIdentityElement ( op ) ) { return pointZZ_pSetToIdentityElement ( rop ) ; } mpz_t numer , denom , lambda ; mpz_inits ( numer , denom , lambda , NULL ) ; mpz_mul ( numer , op -> x , op -> x ) ; mpz_mul_ui ( numer , numer , 3 ) ; mpz_add ( numer , numer , curve -> a ) ; mpz_mul_ui ( denom , op -> y , 2 ) ; mpz_invert ( denom , denom , curve -> p ) ; mpz_mul ( lambda , numer , denom ) ; mpz_mod ( lambda , lambda , curve -> p ) ; mpz_mul ( rop -> x , lambda , lambda ) ; mpz_sub ( rop -> x , rop -> x , op -> x ) ; mpz_sub ( rop -> x , rop -> x , op -> x ) ; mpz_mod ( rop -> x , rop -> x , curve -> p ) ; mpz_sub ( rop -> y , op -> x , rop -> x ) ; mpz_mul ( rop -> y , lambda , rop -> y ) ; mpz_sub ( rop -> y , rop -> y , op -> y ) ; mpz_mod ( rop -> y , rop -> y , curve -> p ) ; mpz_clears ( numer , denom , lambda , NULL ) ; }" 179,"CWE-119 static int tiffcp ( TIFF * in , TIFF * out ) { uint16 bitspersample , samplesperpixel = 1 ; uint16 input_compression , input_photometric = PHOTOMETRIC_MINISBLACK ; copyFunc cf ; uint32 width , length ; struct cpTag * p ; CopyField ( TIFFTAG_IMAGEWIDTH , width ) ; CopyField ( TIFFTAG_IMAGELENGTH , length ) ; CopyField ( TIFFTAG_BITSPERSAMPLE , bitspersample ) ; CopyField ( TIFFTAG_SAMPLESPERPIXEL , samplesperpixel ) ; if ( compression != ( uint16 ) - 1 ) TIFFSetField ( out , TIFFTAG_COMPRESSION , compression ) ; else CopyField ( TIFFTAG_COMPRESSION , compression ) ; TIFFGetFieldDefaulted ( in , TIFFTAG_COMPRESSION , & input_compression ) ; TIFFGetFieldDefaulted ( in , TIFFTAG_PHOTOMETRIC , & input_photometric ) ; if ( input_compression == COMPRESSION_JPEG ) { TIFFSetField ( in , TIFFTAG_JPEGCOLORMODE , JPEGCOLORMODE_RGB ) ; } else if ( input_photometric == PHOTOMETRIC_YCBCR ) { uint16 subsamplinghor , subsamplingver ; TIFFGetFieldDefaulted ( in , TIFFTAG_YCBCRSUBSAMPLING , & subsamplinghor , & subsamplingver ) ; if ( subsamplinghor != 1 || subsamplingver != 1 ) { fprintf ( stderr , ""tiffcp: %s: Can\'t copy/convert subsampled image.\\n"" , TIFFFileName ( in ) ) ; return FALSE ; } } if ( compression == COMPRESSION_JPEG ) { if ( input_photometric == PHOTOMETRIC_RGB && jpegcolormode == JPEGCOLORMODE_RGB ) TIFFSetField ( out , TIFFTAG_PHOTOMETRIC , PHOTOMETRIC_YCBCR ) ; else TIFFSetField ( out , TIFFTAG_PHOTOMETRIC , input_photometric ) ; } else if ( compression == COMPRESSION_SGILOG || compression == COMPRESSION_SGILOG24 ) TIFFSetField ( out , TIFFTAG_PHOTOMETRIC , samplesperpixel == 1 ? PHOTOMETRIC_LOGL : PHOTOMETRIC_LOGLUV ) ; else if ( input_compression == COMPRESSION_JPEG && samplesperpixel == 3 ) { TIFFSetField ( out , TIFFTAG_PHOTOMETRIC , PHOTOMETRIC_RGB ) ; } else CopyTag ( TIFFTAG_PHOTOMETRIC , 1 , TIFF_SHORT ) ; if ( fillorder != 0 ) TIFFSetField ( out , TIFFTAG_FILLORDER , fillorder ) ; else CopyTag ( TIFFTAG_FILLORDER , 1 , TIFF_SHORT ) ; TIFFGetFieldDefaulted ( in , TIFFTAG_ORIENTATION , & orientation ) ; switch ( orientation ) {","static int tiffcp ( TIFF * in , TIFF * out ) { uint16 bitspersample = 1 , samplesperpixel = 1 ; uint16 input_compression , input_photometric = PHOTOMETRIC_MINISBLACK ; copyFunc cf ; uint32 width , length ; struct cpTag * p ; CopyField ( TIFFTAG_IMAGEWIDTH , width ) ; CopyField ( TIFFTAG_IMAGELENGTH , length ) ; CopyField ( TIFFTAG_BITSPERSAMPLE , bitspersample ) ; CopyField ( TIFFTAG_SAMPLESPERPIXEL , samplesperpixel ) ; if ( compression != ( uint16 ) - 1 ) TIFFSetField ( out , TIFFTAG_COMPRESSION , compression ) ; else CopyField ( TIFFTAG_COMPRESSION , compression ) ; TIFFGetFieldDefaulted ( in , TIFFTAG_COMPRESSION , & input_compression ) ; TIFFGetFieldDefaulted ( in , TIFFTAG_PHOTOMETRIC , & input_photometric ) ; if ( input_compression == COMPRESSION_JPEG ) { TIFFSetField ( in , TIFFTAG_JPEGCOLORMODE , JPEGCOLORMODE_RGB ) ; } else if ( input_photometric == PHOTOMETRIC_YCBCR ) { uint16 subsamplinghor , subsamplingver ; TIFFGetFieldDefaulted ( in , TIFFTAG_YCBCRSUBSAMPLING , & subsamplinghor , & subsamplingver ) ; if ( subsamplinghor != 1 || subsamplingver != 1 ) { fprintf ( stderr , ""tiffcp: %s: Can\'t copy/convert subsampled image.\\n"" , TIFFFileName ( in ) ) ; return FALSE ; } } if ( compression == COMPRESSION_JPEG ) { if ( input_photometric == PHOTOMETRIC_RGB && jpegcolormode == JPEGCOLORMODE_RGB ) TIFFSetField ( out , TIFFTAG_PHOTOMETRIC , PHOTOMETRIC_YCBCR ) ; else TIFFSetField ( out , TIFFTAG_PHOTOMETRIC , input_photometric ) ; } else if ( compression == COMPRESSION_SGILOG || compression == COMPRESSION_SGILOG24 ) TIFFSetField ( out , TIFFTAG_PHOTOMETRIC , samplesperpixel == 1 ? PHOTOMETRIC_LOGL : PHOTOMETRIC_LOGLUV ) ; else if ( input_compression == COMPRESSION_JPEG && samplesperpixel == 3 ) { TIFFSetField ( out , TIFFTAG_PHOTOMETRIC , PHOTOMETRIC_RGB ) ; } else CopyTag ( TIFFTAG_PHOTOMETRIC , 1 , TIFF_SHORT ) ; if ( fillorder != 0 ) TIFFSetField ( out , TIFFTAG_FILLORDER , fillorder ) ; else CopyTag ( TIFFTAG_FILLORDER , 1 , TIFF_SHORT ) ; TIFFGetFieldDefaulted ( in , TIFFTAG_ORIENTATION , & orientation ) ; switch ( orientation ) {" 180,"CWE-400 static int hwahc_security_create ( struct hwahc * hwahc ) { int result ; struct wusbhc * wusbhc = & hwahc -> wusbhc ; struct usb_device * usb_dev = hwahc -> wa . usb_dev ; struct device * dev = & usb_dev -> dev ; struct usb_security_descriptor * secd ; struct usb_encryption_descriptor * etd ; void * itr , * top ; size_t itr_size , needed , bytes ; u8 index ; char buf [ 64 ] ; index = ( usb_dev -> actconfig - usb_dev -> config ) / sizeof ( usb_dev -> config [ 0 ] ) ; itr = usb_dev -> rawdescriptors [ index ] ; itr_size = le16_to_cpu ( usb_dev -> actconfig -> desc . wTotalLength ) ; top = itr + itr_size ; result = __usb_get_extra_descriptor ( usb_dev -> rawdescriptors [ index ] , le16_to_cpu ( usb_dev -> actconfig -> desc . wTotalLength ) , USB_DT_SECURITY , ( void * * ) & secd ) ; if ( result == - 1 ) { dev_warn ( dev , ""BUG? WUSB host has no security descriptors\\n"" ) ; return 0 ; } needed = sizeof ( * secd ) ; if ( top - ( void * ) secd < needed ) { dev_err ( dev , ""BUG? Not enough data to process security "" ""descriptor header (%zu bytes left vs %zu needed)\\n"" , top - ( void * ) secd , needed ) ; return 0 ; } needed = le16_to_cpu ( secd -> wTotalLength ) ; if ( top - ( void * ) secd < needed ) { dev_err ( dev , ""BUG? Not enough data to process security "" ""descriptors (%zu bytes left vs %zu needed)\\n"" , top - ( void * ) secd , needed ) ; return 0 ; } itr = ( void * ) secd + sizeof ( * secd ) ; top = ( void * ) secd + le16_to_cpu ( secd -> wTotalLength ) ; index = 0 ; bytes = 0 ; while ( itr < top ) { etd = itr ; if ( top - itr < sizeof ( * etd ) ) { dev_err ( dev , ""BUG: bad host security descriptor; "" ""not enough data (%zu vs %zu left)\\n"" , top - itr , sizeof ( * etd ) ) ; break ; } if ( etd -> bLength < sizeof ( * etd ) ) { dev_err ( dev , ""BUG: bad host encryption descriptor; "" ""descriptor is too short "" ""(%zu vs %zu needed)\\n"" , ( size_t ) etd -> bLength , sizeof ( * etd ) ) ; break ; } itr += etd -> bLength ; bytes += snprintf ( buf + bytes , sizeof ( buf ) - bytes , ""%s (0x%02x) "" , wusb_et_name ( etd -> bEncryptionType ) , etd -> bEncryptionValue ) ; wusbhc -> ccm1_etd = etd ; } dev_info ( dev , ""supported encryption types: %s\\n"" , buf ) ; if ( wusbhc -> ccm1_etd == NULL ) { dev_err ( dev , ""E: host doesn\'t support CCM-1 crypto\\n"" ) ; return 0 ; } return 0 ;","static int hwahc_security_create ( struct hwahc * hwahc ) { int result ; struct wusbhc * wusbhc = & hwahc -> wusbhc ; struct usb_device * usb_dev = hwahc -> wa . usb_dev ; struct device * dev = & usb_dev -> dev ; struct usb_security_descriptor * secd ; struct usb_encryption_descriptor * etd ; void * itr , * top ; size_t itr_size , needed , bytes ; u8 index ; char buf [ 64 ] ; index = ( usb_dev -> actconfig - usb_dev -> config ) / sizeof ( usb_dev -> config [ 0 ] ) ; itr = usb_dev -> rawdescriptors [ index ] ; itr_size = le16_to_cpu ( usb_dev -> actconfig -> desc . wTotalLength ) ; top = itr + itr_size ; result = __usb_get_extra_descriptor ( usb_dev -> rawdescriptors [ index ] , le16_to_cpu ( usb_dev -> actconfig -> desc . wTotalLength ) , USB_DT_SECURITY , ( void * * ) & secd , sizeof ( * secd ) ) ; if ( result == - 1 ) { dev_warn ( dev , ""BUG? WUSB host has no security descriptors\\n"" ) ; return 0 ; } needed = sizeof ( * secd ) ; if ( top - ( void * ) secd < needed ) { dev_err ( dev , ""BUG? Not enough data to process security "" ""descriptor header (%zu bytes left vs %zu needed)\\n"" , top - ( void * ) secd , needed ) ; return 0 ; } needed = le16_to_cpu ( secd -> wTotalLength ) ; if ( top - ( void * ) secd < needed ) { dev_err ( dev , ""BUG? Not enough data to process security "" ""descriptors (%zu bytes left vs %zu needed)\\n"" , top - ( void * ) secd , needed ) ; return 0 ; } itr = ( void * ) secd + sizeof ( * secd ) ; top = ( void * ) secd + le16_to_cpu ( secd -> wTotalLength ) ; index = 0 ; bytes = 0 ; while ( itr < top ) { etd = itr ; if ( top - itr < sizeof ( * etd ) ) { dev_err ( dev , ""BUG: bad host security descriptor; "" ""not enough data (%zu vs %zu left)\\n"" , top - itr , sizeof ( * etd ) ) ; break ; } if ( etd -> bLength < sizeof ( * etd ) ) { dev_err ( dev , ""BUG: bad host encryption descriptor; "" ""descriptor is too short "" ""(%zu vs %zu needed)\\n"" , ( size_t ) etd -> bLength , sizeof ( * etd ) ) ; break ; } itr += etd -> bLength ; bytes += snprintf ( buf + bytes , sizeof ( buf ) - bytes , ""%s (0x%02x) "" , wusb_et_name ( etd -> bEncryptionType ) , etd -> bEncryptionValue ) ; wusbhc -> ccm1_etd = etd ; } dev_info ( dev , ""supported encryption types: %s\\n"" , buf ) ; if ( wusbhc -> ccm1_etd == NULL ) { dev_err ( dev , ""E: host doesn\'t support CCM-1 crypto\\n"" ) ; return 0 ; } return 0 ;" 181,"CWE-787 static void add_password ( AUTH_HDR * request , unsigned char type , CONST char * password , char * secret ) { MD5_CTX md5_secret , my_md5 ; unsigned char misc [ AUTH_VECTOR_LEN ] ; int i ; int length = strlen ( password ) ; unsigned char hashed [ 256 + AUTH_PASS_LEN ] ; unsigned char * vector ; attribute_t * attr ; if ( length > MAXPASS ) { length = MAXPASS ; } if ( length == 0 ) { length = AUTH_PASS_LEN ; } if ( ( length & ( AUTH_PASS_LEN - 1 ) ) != 0 ) { length += ( AUTH_PASS_LEN - 1 ) ; length &= ~ ( AUTH_PASS_LEN - 1 ) ; } memset ( hashed , 0 , length ) ; memcpy ( hashed , password , strlen ( password ) ) ; attr = find_attribute ( request , PW_PASSWORD ) ; if ( type == PW_PASSWORD ) { vector = request -> vector ; } else { vector = attr -> data ; } MD5Init ( & md5_secret ) ; MD5Update ( & md5_secret , ( unsigned char * ) secret , strlen ( secret ) ) ; my_md5 = md5_secret ; MD5Update ( & my_md5 , vector , AUTH_VECTOR_LEN ) ; MD5Final ( misc , & my_md5 ) ; xor ( hashed , misc , AUTH_PASS_LEN ) ; for ( i = 1 ; i < ( length >> 4 ) ; i ++ ) { my_md5 = md5_secret ; MD5Update ( & my_md5 , & hashed [ ( i - 1 ) * AUTH_PASS_LEN ] , AUTH_PASS_LEN ) ; MD5Final ( misc , & my_md5 ) ; xor ( & hashed [ i * AUTH_PASS_LEN ] , misc , AUTH_PASS_LEN ) ; } if ( type == PW_OLD_PASSWORD ) { attr = find_attribute ( request , PW_OLD_PASSWORD ) ; } if ( ! attr ) { add_attribute ( request , type , hashed , length ) ; } else { memcpy ( attr -> data , hashed , length ) ; } }","static void add_password ( AUTH_HDR * request , unsigned char type , CONST char * password , char * secret ) { MD5_CTX md5_secret , my_md5 ; unsigned char misc [ AUTH_VECTOR_LEN ] ; int i ; int length = strlen ( password ) ; unsigned char hashed [ 256 + AUTH_PASS_LEN ] ; unsigned char * vector ; attribute_t * attr ; if ( length > MAXPASS ) { length = MAXPASS ; } if ( length == 0 ) { length = AUTH_PASS_LEN ; } if ( ( length & ( AUTH_PASS_LEN - 1 ) ) != 0 ) { length += ( AUTH_PASS_LEN - 1 ) ; length &= ~ ( AUTH_PASS_LEN - 1 ) ; } memset ( hashed , 0 , length ) ; memcpy ( hashed , password , length ) ; attr = find_attribute ( request , PW_PASSWORD ) ; if ( type == PW_PASSWORD ) { vector = request -> vector ; } else { vector = attr -> data ; } MD5Init ( & md5_secret ) ; MD5Update ( & md5_secret , ( unsigned char * ) secret , strlen ( secret ) ) ; my_md5 = md5_secret ; MD5Update ( & my_md5 , vector , AUTH_VECTOR_LEN ) ; MD5Final ( misc , & my_md5 ) ; xor ( hashed , misc , AUTH_PASS_LEN ) ; for ( i = 1 ; i < ( length >> 4 ) ; i ++ ) { my_md5 = md5_secret ; MD5Update ( & my_md5 , & hashed [ ( i - 1 ) * AUTH_PASS_LEN ] , AUTH_PASS_LEN ) ; MD5Final ( misc , & my_md5 ) ; xor ( & hashed [ i * AUTH_PASS_LEN ] , misc , AUTH_PASS_LEN ) ; } if ( type == PW_OLD_PASSWORD ) { attr = find_attribute ( request , PW_OLD_PASSWORD ) ; } if ( ! attr ) { add_attribute ( request , type , hashed , length ) ; } else { memcpy ( attr -> data , hashed , length ) ; } }" 182,"CWE-119 static gboolean cosine_seek_read ( wtap * wth , gint64 seek_off , struct wtap_pkthdr * phdr , Buffer * buf , int * err , gchar * * err_info ) { int pkt_len ; char line [ COSINE_LINE_LENGTH ] ; if ( file_seek ( wth -> random_fh , seek_off , SEEK_SET , err ) == - 1 ) return FALSE ; if ( file_gets ( line , COSINE_LINE_LENGTH , wth -> random_fh ) == NULL ) { * err = file_error ( wth -> random_fh , err_info ) ; if ( * err == 0 ) { * err = WTAP_ERR_SHORT_READ ; } return FALSE ; } pkt_len = parse_cosine_rec_hdr ( phdr , line , err , err_info ) ; if ( pkt_len == - 1 ) return FALSE ; return parse_cosine_hex_dump ( wth -> random_fh , phdr , pkt_len , buf , err , err_info ) ; }","static gboolean cosine_seek_read ( wtap * wth , gint64 seek_off , struct wtap_pkthdr * phdr , Buffer * buf , int * err , gchar * * err_info ) { char line [ COSINE_LINE_LENGTH ] ; if ( file_seek ( wth -> random_fh , seek_off , SEEK_SET , err ) == - 1 ) return FALSE ; if ( file_gets ( line , COSINE_LINE_LENGTH , wth -> random_fh ) == NULL ) { * err = file_error ( wth -> random_fh , err_info ) ; if ( * err == 0 ) { * err = WTAP_ERR_SHORT_READ ; } return FALSE ; } return parse_cosine_packet ( wth -> random_fh , phdr , buf , line , err , err_info ) ; }" 183,"CWE-834 static int mxf_read_index_entry_array ( AVIOContext * pb , MXFIndexTableSegment * segment ) { int i , length ; segment -> nb_index_entries = avio_rb32 ( pb ) ; length = avio_rb32 ( pb ) ; if ( ! ( segment -> temporal_offset_entries = av_calloc ( segment -> nb_index_entries , sizeof ( * segment -> temporal_offset_entries ) ) ) || ! ( segment -> flag_entries = av_calloc ( segment -> nb_index_entries , sizeof ( * segment -> flag_entries ) ) ) || ! ( segment -> stream_offset_entries = av_calloc ( segment -> nb_index_entries , sizeof ( * segment -> stream_offset_entries ) ) ) ) { av_freep ( & segment -> temporal_offset_entries ) ; av_freep ( & segment -> flag_entries ) ; return AVERROR ( ENOMEM ) ; } for ( i = 0 ; i < segment -> nb_index_entries ; i ++ ) { segment -> temporal_offset_entries [ i ] = avio_r8 ( pb ) ; avio_r8 ( pb ) ; segment -> flag_entries [ i ] = avio_r8 ( pb ) ; segment -> stream_offset_entries [ i ] = avio_rb64 ( pb ) ; avio_skip ( pb , length - 11 ) ; } return 0 ; }","static int mxf_read_index_entry_array ( AVIOContext * pb , MXFIndexTableSegment * segment ) { int i , length ; segment -> nb_index_entries = avio_rb32 ( pb ) ; length = avio_rb32 ( pb ) ; if ( segment -> nb_index_entries && length < 11 ) return AVERROR_INVALIDDATA ; if ( ! ( segment -> temporal_offset_entries = av_calloc ( segment -> nb_index_entries , sizeof ( * segment -> temporal_offset_entries ) ) ) || ! ( segment -> flag_entries = av_calloc ( segment -> nb_index_entries , sizeof ( * segment -> flag_entries ) ) ) || ! ( segment -> stream_offset_entries = av_calloc ( segment -> nb_index_entries , sizeof ( * segment -> stream_offset_entries ) ) ) ) { av_freep ( & segment -> temporal_offset_entries ) ; av_freep ( & segment -> flag_entries ) ; return AVERROR ( ENOMEM ) ; } for ( i = 0 ; i < segment -> nb_index_entries ; i ++ ) { if ( avio_feof ( pb ) ) return AVERROR_INVALIDDATA ; segment -> temporal_offset_entries [ i ] = avio_r8 ( pb ) ; avio_r8 ( pb ) ; segment -> flag_entries [ i ] = avio_r8 ( pb ) ; segment -> stream_offset_entries [ i ] = avio_rb64 ( pb ) ; avio_skip ( pb , length - 11 ) ; } return 0 ; }" 184,"CWE-119 static void encode_sb_rt ( VP9_COMP * cpi , const TileInfo * const tile , TOKENEXTRA * * tp , int mi_row , int mi_col , int output_enabled , BLOCK_SIZE bsize ) { VP9_COMMON * const cm = & cpi -> common ; MACROBLOCK * const x = & cpi -> mb ; MACROBLOCKD * const xd = & x -> e_mbd ; const int bsl = b_width_log2 ( bsize ) , hbs = ( 1 << bsl ) / 4 ; int ctx ; PARTITION_TYPE partition ; BLOCK_SIZE subsize ; if ( mi_row >= cm -> mi_rows || mi_col >= cm -> mi_cols ) return ; if ( bsize >= BLOCK_8X8 ) { MACROBLOCKD * const xd = & cpi -> mb . e_mbd ; const int idx_str = xd -> mi_stride * mi_row + mi_col ; MODE_INFO * * mi_8x8 = cm -> mi_grid_visible + idx_str ; ctx = partition_plane_context ( xd , mi_row , mi_col , bsize ) ; subsize = mi_8x8 [ 0 ] -> mbmi . sb_type ; } else { ctx = 0 ; subsize = BLOCK_4X4 ; } partition = partition_lookup [ bsl ] [ subsize ] ; switch ( partition ) { case PARTITION_NONE : if ( output_enabled && bsize >= BLOCK_8X8 ) cm -> counts . partition [ ctx ] [ PARTITION_NONE ] ++ ; encode_b_rt ( cpi , tile , tp , mi_row , mi_col , output_enabled , subsize ) ; break ; case PARTITION_VERT : if ( output_enabled ) cm -> counts . partition [ ctx ] [ PARTITION_VERT ] ++ ; * get_sb_index ( x , subsize ) = 0 ; encode_b_rt ( cpi , tile , tp , mi_row , mi_col , output_enabled , subsize ) ; if ( mi_col + hbs < cm -> mi_cols ) { * get_sb_index ( x , subsize ) = 1 ; encode_b_rt ( cpi , tile , tp , mi_row , mi_col + hbs , output_enabled , subsize ) ; } break ; case PARTITION_HORZ : if ( output_enabled ) cm -> counts . partition [ ctx ] [ PARTITION_HORZ ] ++ ; * get_sb_index ( x , subsize ) = 0 ; encode_b_rt ( cpi , tile , tp , mi_row , mi_col , output_enabled , subsize ) ; if ( mi_row + hbs < cm -> mi_rows ) { * get_sb_index ( x , subsize ) = 1 ; encode_b_rt ( cpi , tile , tp , mi_row + hbs , mi_col , output_enabled , subsize ) ; } break ; case PARTITION_SPLIT : subsize = get_subsize ( bsize , PARTITION_SPLIT ) ; if ( output_enabled ) cm -> counts . partition [ ctx ] [ PARTITION_SPLIT ] ++ ; * get_sb_index ( x , subsize ) = 0 ; encode_sb_rt ( cpi , tile , tp , mi_row , mi_col , output_enabled , subsize ) ; * get_sb_index ( x , subsize ) = 1 ; encode_sb_rt ( cpi , tile , tp , mi_row , mi_col + hbs , output_enabled , subsize ) ; * get_sb_index ( x , subsize ) = 2 ; encode_sb_rt ( cpi , tile , tp , mi_row + hbs , mi_col , output_enabled , subsize ) ; * get_sb_index ( x , subsize ) = 3 ; encode_sb_rt ( cpi , tile , tp , mi_row + hbs , mi_col + hbs , output_enabled , subsize ) ; break ; default : assert ( ""Invalid partition type."" ) ; } if ( partition != PARTITION_SPLIT || bsize == BLOCK_8X8 ) update_partition_context ( xd , mi_row , mi_col , subsize , bsize ) ; }","static void encode_sb_rt ( VP9_COMP * cpi , ThreadData * td , const TileInfo * const tile , TOKENEXTRA * * tp , int mi_row , int mi_col , int output_enabled , BLOCK_SIZE bsize , PC_TREE * pc_tree ) { VP9_COMMON * const cm = & cpi -> common ; MACROBLOCK * const x = & td -> mb ; MACROBLOCKD * const xd = & x -> e_mbd ; const int bsl = b_width_log2_lookup [ bsize ] , hbs = ( 1 << bsl ) / 4 ; int ctx ; PARTITION_TYPE partition ; BLOCK_SIZE subsize ; if ( mi_row >= cm -> mi_rows || mi_col >= cm -> mi_cols ) return ; if ( bsize >= BLOCK_8X8 ) { const int idx_str = xd -> mi_stride * mi_row + mi_col ; MODE_INFO * * mi_8x8 = cm -> mi_grid_visible + idx_str ; ctx = partition_plane_context ( xd , mi_row , mi_col , bsize ) ; subsize = mi_8x8 [ 0 ] -> mbmi . sb_type ; } else { ctx = 0 ; subsize = BLOCK_4X4 ; } partition = partition_lookup [ bsl ] [ subsize ] ; if ( output_enabled && bsize != BLOCK_4X4 ) td -> counts -> partition [ ctx ] [ partition ] ++ ; switch ( partition ) { case PARTITION_NONE : encode_b_rt ( cpi , td , tile , tp , mi_row , mi_col , output_enabled , subsize , & pc_tree -> none ) ; break ; case PARTITION_VERT : encode_b_rt ( cpi , td , tile , tp , mi_row , mi_col , output_enabled , subsize , & pc_tree -> vertical [ 0 ] ) ; if ( mi_col + hbs < cm -> mi_cols && bsize > BLOCK_8X8 ) { encode_b_rt ( cpi , td , tile , tp , mi_row , mi_col + hbs , output_enabled , subsize , & pc_tree -> vertical [ 1 ] ) ; } break ; case PARTITION_HORZ : encode_b_rt ( cpi , td , tile , tp , mi_row , mi_col , output_enabled , subsize , & pc_tree -> horizontal [ 0 ] ) ; if ( mi_row + hbs < cm -> mi_rows && bsize > BLOCK_8X8 ) { encode_b_rt ( cpi , td , tile , tp , mi_row + hbs , mi_col , output_enabled , subsize , & pc_tree -> horizontal [ 1 ] ) ; } break ; case PARTITION_SPLIT : subsize = get_subsize ( bsize , PARTITION_SPLIT ) ; encode_sb_rt ( cpi , td , tile , tp , mi_row , mi_col , output_enabled , subsize , pc_tree -> split [ 0 ] ) ; encode_sb_rt ( cpi , td , tile , tp , mi_row , mi_col + hbs , output_enabled , subsize , pc_tree -> split [ 1 ] ) ; encode_sb_rt ( cpi , td , tile , tp , mi_row + hbs , mi_col , output_enabled , subsize , pc_tree -> split [ 2 ] ) ; encode_sb_rt ( cpi , td , tile , tp , mi_row + hbs , mi_col + hbs , output_enabled , subsize , pc_tree -> split [ 3 ] ) ; break ; default : assert ( 0 && ""Invalid partition type."" ) ; break ; } if ( partition != PARTITION_SPLIT || bsize == BLOCK_8X8 ) update_partition_context ( xd , mi_row , mi_col , subsize , bsize ) ; }" 185,"CWE-125 static void bgp_capabilities_print ( netdissect_options * ndo , const u_char * opt , int caps_len ) { int cap_type , cap_len , tcap_len , cap_offset ; int i = 0 ; while ( i < caps_len ) { ND_TCHECK2 ( opt [ i ] , BGP_CAP_HEADER_SIZE ) ; cap_type = opt [ i ] ; cap_len = opt [ i + 1 ] ; tcap_len = cap_len ; ND_PRINT ( ( ndo , ""\\n\\t %s (%u), length: %u"" , tok2str ( bgp_capcode_values , ""Unknown"" , cap_type ) , cap_type , cap_len ) ) ; ND_TCHECK2 ( opt [ i + 2 ] , cap_len ) ; switch ( cap_type ) { case BGP_CAPCODE_MP : ND_PRINT ( ( ndo , ""\\n\\t\\tAFI %s (%u), SAFI %s (%u)"" , tok2str ( af_values , ""Unknown"" , EXTRACT_16BITS ( opt + i + 2 ) ) , EXTRACT_16BITS ( opt + i + 2 ) , tok2str ( bgp_safi_values , ""Unknown"" , opt [ i + 5 ] ) , opt [ i + 5 ] ) ) ; break ; case BGP_CAPCODE_RESTART : ND_PRINT ( ( ndo , ""\\n\\t\\tRestart Flags: [%s], Restart Time %us"" , ( ( opt [ i + 2 ] ) & 0x80 ) ? ""R"" : ""none"" , EXTRACT_16BITS ( opt + i + 2 ) & 0xfff ) ) ; tcap_len -= 2 ; cap_offset = 4 ; while ( tcap_len >= 4 ) { ND_PRINT ( ( ndo , ""\\n\\t\\t AFI %s (%u), SAFI %s (%u), Forwarding state preserved: %s"" , tok2str ( af_values , ""Unknown"" , EXTRACT_16BITS ( opt + i + cap_offset ) ) , EXTRACT_16BITS ( opt + i + cap_offset ) , tok2str ( bgp_safi_values , ""Unknown"" , opt [ i + cap_offset + 2 ] ) , opt [ i + cap_offset + 2 ] , ( ( opt [ i + cap_offset + 3 ] ) & 0x80 ) ? ""yes"" : ""no"" ) ) ; tcap_len -= 4 ; cap_offset += 4 ; } break ; case BGP_CAPCODE_RR : case BGP_CAPCODE_RR_CISCO : break ; case BGP_CAPCODE_AS_NEW : if ( cap_len == 4 ) { ND_PRINT ( ( ndo , ""\\n\\t\\t 4 Byte AS %s"" , as_printf ( ndo , astostr , sizeof ( astostr ) , EXTRACT_32BITS ( opt + i + 2 ) ) ) ) ; } break ; case BGP_CAPCODE_ADD_PATH : cap_offset = 2 ; if ( tcap_len == 0 ) { ND_PRINT ( ( ndo , "" (bogus)"" ) ) ; break ; } while ( tcap_len > 0 ) { if ( tcap_len < 4 ) { ND_PRINT ( ( ndo , ""\\n\\t\\t(invalid)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t\\tAFI %s (%u), SAFI %s (%u), Send/Receive: %s"" , tok2str ( af_values , ""Unknown"" , EXTRACT_16BITS ( opt + i + cap_offset ) ) , EXTRACT_16BITS ( opt + i + cap_offset ) , tok2str ( bgp_safi_values , ""Unknown"" , opt [ i + cap_offset + 2 ] ) , opt [ i + cap_offset + 2 ] , tok2str ( bgp_add_path_recvsend , ""Bogus (0x%02x)"" , opt [ i + cap_offset + 3 ] ) ) ) ; tcap_len -= 4 ; cap_offset += 4 ; } break ;","static void bgp_capabilities_print ( netdissect_options * ndo , const u_char * opt , int caps_len ) { int cap_type , cap_len , tcap_len , cap_offset ; int i = 0 ; while ( i < caps_len ) { ND_TCHECK2 ( opt [ i ] , BGP_CAP_HEADER_SIZE ) ; cap_type = opt [ i ] ; cap_len = opt [ i + 1 ] ; tcap_len = cap_len ; ND_PRINT ( ( ndo , ""\\n\\t %s (%u), length: %u"" , tok2str ( bgp_capcode_values , ""Unknown"" , cap_type ) , cap_type , cap_len ) ) ; ND_TCHECK2 ( opt [ i + 2 ] , cap_len ) ; switch ( cap_type ) { case BGP_CAPCODE_MP : ND_PRINT ( ( ndo , ""\\n\\t\\tAFI %s (%u), SAFI %s (%u)"" , tok2str ( af_values , ""Unknown"" , EXTRACT_16BITS ( opt + i + 2 ) ) , EXTRACT_16BITS ( opt + i + 2 ) , tok2str ( bgp_safi_values , ""Unknown"" , opt [ i + 5 ] ) , opt [ i + 5 ] ) ) ; break ; case BGP_CAPCODE_RESTART : ND_TCHECK_16BITS ( opt + i + 2 ) ; ND_PRINT ( ( ndo , ""\\n\\t\\tRestart Flags: [%s], Restart Time %us"" , ( ( opt [ i + 2 ] ) & 0x80 ) ? ""R"" : ""none"" , EXTRACT_16BITS ( opt + i + 2 ) & 0xfff ) ) ; tcap_len -= 2 ; cap_offset = 4 ; while ( tcap_len >= 4 ) { ND_PRINT ( ( ndo , ""\\n\\t\\t AFI %s (%u), SAFI %s (%u), Forwarding state preserved: %s"" , tok2str ( af_values , ""Unknown"" , EXTRACT_16BITS ( opt + i + cap_offset ) ) , EXTRACT_16BITS ( opt + i + cap_offset ) , tok2str ( bgp_safi_values , ""Unknown"" , opt [ i + cap_offset + 2 ] ) , opt [ i + cap_offset + 2 ] , ( ( opt [ i + cap_offset + 3 ] ) & 0x80 ) ? ""yes"" : ""no"" ) ) ; tcap_len -= 4 ; cap_offset += 4 ; } break ; case BGP_CAPCODE_RR : case BGP_CAPCODE_RR_CISCO : break ; case BGP_CAPCODE_AS_NEW : if ( cap_len == 4 ) { ND_PRINT ( ( ndo , ""\\n\\t\\t 4 Byte AS %s"" , as_printf ( ndo , astostr , sizeof ( astostr ) , EXTRACT_32BITS ( opt + i + 2 ) ) ) ) ; } break ; case BGP_CAPCODE_ADD_PATH : cap_offset = 2 ; if ( tcap_len == 0 ) { ND_PRINT ( ( ndo , "" (bogus)"" ) ) ; break ; } while ( tcap_len > 0 ) { if ( tcap_len < 4 ) { ND_PRINT ( ( ndo , ""\\n\\t\\t(invalid)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t\\tAFI %s (%u), SAFI %s (%u), Send/Receive: %s"" , tok2str ( af_values , ""Unknown"" , EXTRACT_16BITS ( opt + i + cap_offset ) ) , EXTRACT_16BITS ( opt + i + cap_offset ) , tok2str ( bgp_safi_values , ""Unknown"" , opt [ i + cap_offset + 2 ] ) , opt [ i + cap_offset + 2 ] , tok2str ( bgp_add_path_recvsend , ""Bogus (0x%02x)"" , opt [ i + cap_offset + 3 ] ) ) ) ; tcap_len -= 4 ; cap_offset += 4 ; } break ;" 186,"CWE-190 static int readContigStripsIntoBuffer ( TIFF * in , uint8 * buf ) { uint8 * bufp = buf ; int32 bytes_read = 0 ; uint16 strip , nstrips = TIFFNumberOfStrips ( in ) ; uint32 stripsize = TIFFStripSize ( in ) ; uint32 rows = 0 ; uint32 rps = TIFFGetFieldDefaulted ( in , TIFFTAG_ROWSPERSTRIP , & rps ) ; tsize_t scanline_size = TIFFScanlineSize ( in ) ; if ( scanline_size == 0 ) { TIFFError ( """" , ""TIFF scanline size is zero!"" ) ; return 0 ; } for ( strip = 0 ; strip < nstrips ; strip ++ ) { bytes_read = TIFFReadEncodedStrip ( in , strip , bufp , - 1 ) ; rows = bytes_read / scanline_size ; if ( ( strip < ( nstrips - 1 ) ) && ( bytes_read != ( int32 ) stripsize ) ) TIFFError ( """" , ""Strip %d: read %lu bytes, strip size %lu"" , ( int ) strip + 1 , ( unsigned long ) bytes_read , ( unsigned long ) stripsize ) ; if ( bytes_read < 0 && ! ignore ) { TIFFError ( """" , ""Error reading strip %lu after %lu rows"" , ( unsigned long ) strip , ( unsigned long ) rows ) ; return 0 ; } bufp += bytes_read ; } return 1 ; }","static int readContigStripsIntoBuffer ( TIFF * in , uint8 * buf ) { uint8 * bufp = buf ; int32 bytes_read = 0 ; uint32 strip , nstrips = TIFFNumberOfStrips ( in ) ; uint32 stripsize = TIFFStripSize ( in ) ; uint32 rows = 0 ; uint32 rps = TIFFGetFieldDefaulted ( in , TIFFTAG_ROWSPERSTRIP , & rps ) ; tsize_t scanline_size = TIFFScanlineSize ( in ) ; if ( scanline_size == 0 ) { TIFFError ( """" , ""TIFF scanline size is zero!"" ) ; return 0 ; } for ( strip = 0 ; strip < nstrips ; strip ++ ) { bytes_read = TIFFReadEncodedStrip ( in , strip , bufp , - 1 ) ; rows = bytes_read / scanline_size ; if ( ( strip < ( nstrips - 1 ) ) && ( bytes_read != ( int32 ) stripsize ) ) TIFFError ( """" , ""Strip %d: read %lu bytes, strip size %lu"" , ( int ) strip + 1 , ( unsigned long ) bytes_read , ( unsigned long ) stripsize ) ; if ( bytes_read < 0 && ! ignore ) { TIFFError ( """" , ""Error reading strip %lu after %lu rows"" , ( unsigned long ) strip , ( unsigned long ) rows ) ; return 0 ; } bufp += bytes_read ; } return 1 ; }" 187,"CWE-254 void impeg2d_flush_ext_and_user_data ( dec_state_t * ps_dec ) { UWORD32 u4_start_code ; stream_t * ps_stream ; ps_stream = & ps_dec -> s_bit_stream ; u4_start_code = impeg2d_bit_stream_nxt ( ps_stream , START_CODE_LEN ) ; while ( u4_start_code == EXTENSION_START_CODE || u4_start_code == USER_DATA_START_CODE ) { impeg2d_bit_stream_flush ( ps_stream , START_CODE_LEN ) ; while ( impeg2d_bit_stream_nxt ( ps_stream , START_CODE_PREFIX_LEN ) != START_CODE_PREFIX ) { impeg2d_bit_stream_flush ( ps_stream , 8 ) ; } u4_start_code = impeg2d_bit_stream_nxt ( ps_stream , START_CODE_LEN ) ; } }","void impeg2d_flush_ext_and_user_data ( dec_state_t * ps_dec ) { UWORD32 u4_start_code ; stream_t * ps_stream ; ps_stream = & ps_dec -> s_bit_stream ; u4_start_code = impeg2d_bit_stream_nxt ( ps_stream , START_CODE_LEN ) ; while ( ( u4_start_code == EXTENSION_START_CODE || u4_start_code == USER_DATA_START_CODE ) && ( ps_stream -> u4_offset < ps_stream -> u4_max_offset ) ) { impeg2d_bit_stream_flush ( ps_stream , START_CODE_LEN ) ; while ( impeg2d_bit_stream_nxt ( ps_stream , START_CODE_PREFIX_LEN ) != START_CODE_PREFIX && ( ps_stream -> u4_offset < ps_stream -> u4_max_offset ) ) { impeg2d_bit_stream_flush ( ps_stream , 8 ) ; } u4_start_code = impeg2d_bit_stream_nxt ( ps_stream , START_CODE_LEN ) ; } }" 188,"NVD-CWE-Other static int dn_create ( struct net * net , struct socket * sock , int protocol , int kern ) { struct sock * sk ; if ( ! net_eq ( net , & init_net ) ) return - EAFNOSUPPORT ; switch ( sock -> type ) { case SOCK_SEQPACKET : if ( protocol != DNPROTO_NSP ) return - EPROTONOSUPPORT ; break ; case SOCK_STREAM : break ; default : return - ESOCKTNOSUPPORT ; } if ( ( sk = dn_alloc_sock ( net , sock , GFP_KERNEL , kern ) ) == NULL ) return - ENOBUFS ; sk -> sk_protocol = protocol ; return 0 ; }","static int dn_create ( struct net * net , struct socket * sock , int protocol , int kern ) { struct sock * sk ; if ( protocol < 0 || protocol > SK_PROTOCOL_MAX ) return - EINVAL ; if ( ! net_eq ( net , & init_net ) ) return - EAFNOSUPPORT ; switch ( sock -> type ) { case SOCK_SEQPACKET : if ( protocol != DNPROTO_NSP ) return - EPROTONOSUPPORT ; break ; case SOCK_STREAM : break ; default : return - ESOCKTNOSUPPORT ; } if ( ( sk = dn_alloc_sock ( net , sock , GFP_KERNEL , kern ) ) == NULL ) return - ENOBUFS ; sk -> sk_protocol = protocol ; return 0 ; }" 189,"CWE-119 static int cac_cac1_get_certificate ( sc_card_t * card , u8 * * out_buf , size_t * out_len ) { u8 buf [ CAC_MAX_SIZE ] ; u8 * out_ptr ; size_t size = 0 ; size_t left = 0 ; size_t len , next_len ; sc_apdu_t apdu ; int r = SC_SUCCESS ; SC_FUNC_CALLED ( card -> ctx , SC_LOG_DEBUG_VERBOSE ) ; size = left = * out_buf ? * out_len : sizeof ( buf ) ; out_ptr = * out_buf ? * out_buf : buf ; sc_format_apdu ( card , & apdu , SC_APDU_CASE_2_SHORT , CAC_INS_GET_CERTIFICATE , 0 , 0 ) ; next_len = MIN ( left , 100 ) ; for ( ; left > 0 ; left -= len , out_ptr += len ) { len = next_len ; apdu . resp = out_ptr ; apdu . le = len ; apdu . resplen = left ; r = sc_transmit_apdu ( card , & apdu ) ; if ( r < 0 ) { break ; } if ( apdu . resplen == 0 ) { r = SC_ERROR_INTERNAL ; break ; } if ( apdu . sw1 != 0x63 || apdu . sw2 < 1 ) { r = sc_check_sw ( card , apdu . sw1 , apdu . sw2 ) ; left -= len ; break ; } next_len = MIN ( left , apdu . sw2 ) ; } if ( r < 0 ) { SC_FUNC_RETURN ( card -> ctx , SC_LOG_DEBUG_VERBOSE , r ) ; } r = size - left ; if ( * out_buf == NULL ) { * out_buf = malloc ( r ) ; if ( * out_buf == NULL ) { SC_FUNC_RETURN ( card -> ctx , SC_LOG_DEBUG_VERBOSE , SC_ERROR_OUT_OF_MEMORY ) ; } memcpy ( * out_buf , buf , r ) ; } * out_len = r ; SC_FUNC_RETURN ( card -> ctx , SC_LOG_DEBUG_VERBOSE , r ) ; }","static int cac_cac1_get_certificate ( sc_card_t * card , u8 * * out_buf , size_t * out_len ) { u8 buf [ CAC_MAX_SIZE ] ; u8 * out_ptr ; size_t size = 0 ; size_t left = 0 ; size_t len ; sc_apdu_t apdu ; int r = SC_SUCCESS ; SC_FUNC_CALLED ( card -> ctx , SC_LOG_DEBUG_VERBOSE ) ; size = left = * out_buf ? * out_len : sizeof ( buf ) ; out_ptr = * out_buf ? * out_buf : buf ; sc_format_apdu ( card , & apdu , SC_APDU_CASE_2_SHORT , CAC_INS_GET_CERTIFICATE , 0 , 0 ) ; len = MIN ( left , 100 ) ; for ( ; left > 0 ; ) { apdu . resp = out_ptr ; apdu . le = len ; apdu . resplen = left ; r = sc_transmit_apdu ( card , & apdu ) ; if ( r < 0 ) { break ; } if ( apdu . resplen == 0 ) { r = SC_ERROR_INTERNAL ; break ; } if ( apdu . sw1 != 0x63 || apdu . sw2 < 1 ) { r = sc_check_sw ( card , apdu . sw1 , apdu . sw2 ) ; left -= len ; break ; } left -= len ; out_ptr += len ; len = MIN ( left , apdu . sw2 ) ; } if ( r < 0 ) { SC_FUNC_RETURN ( card -> ctx , SC_LOG_DEBUG_VERBOSE , r ) ; } r = size - left ; if ( * out_buf == NULL ) { * out_buf = malloc ( r ) ; if ( * out_buf == NULL ) { SC_FUNC_RETURN ( card -> ctx , SC_LOG_DEBUG_VERBOSE , SC_ERROR_OUT_OF_MEMORY ) ; } memcpy ( * out_buf , buf , r ) ; } * out_len = r ; SC_FUNC_RETURN ( card -> ctx , SC_LOG_DEBUG_VERBOSE , r ) ; }" 190,"CWE-134 im -> draw_y_grid = 0 ; break ; } ; if ( sscanf ( optarg , ""%lf:%d"" , & im -> ygridstep , & im -> ylabfact ) == 2 ) { if ( im -> ygridstep <= 0 ) { rrd_set_error ( ""grid step must be > 0"" ) ; return ; } else if ( im -> ylabfact < 1 ) { rrd_set_error ( ""label factor must be > 0"" ) ; return ; } } else { rrd_set_error ( ""invalid y-grid format"" ) ; return ; } break ; case 1007 : im -> draw_3d_border = atoi ( optarg ) ; break ; case 1008 : if ( sscanf ( optarg , ""%lf:%lf"" , & im -> grid_dash_on , & im -> grid_dash_off ) != 2 ) { rrd_set_error ( ""expected grid-dash format float:float"" ) ; return ; } break ; case 1009 : im -> dynamic_labels = 1 ; break ; case 1002 : if ( sscanf ( optarg , ""%lf:%lf"" , & im -> second_axis_scale , & im -> second_axis_shift ) == 2 ) { if ( im -> second_axis_scale == 0 ) { rrd_set_error ( ""the second_axis_scale must not be 0"" ) ; return ; } } else { rrd_set_error ( ""invalid right-axis format expected scale:shift"" ) ; return ; } break ; case 1003 : strncpy ( im -> second_axis_legend , optarg , 150 ) ; im -> second_axis_legend [ 150 ] = '\\0' ; break ; case 1004 : if ( bad_format ( optarg ) ) { rrd_set_error ( ""use either %le or %lf formats"" ) ; return ; } strncpy ( im -> second_axis_format , optarg , 150 ) ; im -> second_axis_format [ 150 ] = '\\0' ; break ; case 1010 : if ( bad_format ( optarg ) ) { rrd_set_error ( ""use either %le or %lf formats"" ) ; return ; } strncpy ( im -> primary_axis_format , optarg , 150 ) ; im -> primary_axis_format [ 150 ] = '\\0' ; break ; case 'v' : strncpy ( im -> ylegend , optarg , 150 ) ; im -> ylegend [ 150 ] = '\\0' ; break ; case 'u' : im -> maxval = atof ( optarg ) ; break ; case 'l' : im -> minval = atof ( optarg ) ; break ; case 'b' : im -> base = atol ( optarg ) ; if ( im -> base != 1024 && im -> base != 1000 ) { rrd_set_error ( ""the only sensible value for base apart from 1000 is 1024"" ) ; return ; } break ; case 'w' : long_tmp = atol ( optarg ) ; if ( long_tmp < 10 ) { rrd_set_error ( ""width below 10 pixels"" ) ; return ; } im -> xsize = long_tmp ; break ; case 'h' : long_tmp = atol ( optarg ) ; if ( long_tmp < 10 ) { rrd_set_error ( ""height below 10 pixels"" ) ; return ; } im -> ysize = long_tmp ; break ; case 'D' : im -> extra_flags |= FULL_SIZE_MODE ; break ; case 'i' : break ; case 'r' : im -> rigid = 1 ; break ; case 'f' : im -> imginfo = optarg ; break ;","im -> draw_y_grid = 0 ; break ; } ; if ( sscanf ( optarg , ""%lf:%d"" , & im -> ygridstep , & im -> ylabfact ) == 2 ) { if ( im -> ygridstep <= 0 ) { rrd_set_error ( ""grid step must be > 0"" ) ; return ; } else if ( im -> ylabfact < 1 ) { rrd_set_error ( ""label factor must be > 0"" ) ; return ; } } else { rrd_set_error ( ""invalid y-grid format"" ) ; return ; } break ; case 1007 : im -> draw_3d_border = atoi ( optarg ) ; break ; case 1008 : if ( sscanf ( optarg , ""%lf:%lf"" , & im -> grid_dash_on , & im -> grid_dash_off ) != 2 ) { rrd_set_error ( ""expected grid-dash format float:float"" ) ; return ; } break ; case 1009 : im -> dynamic_labels = 1 ; break ; case 1002 : if ( sscanf ( optarg , ""%lf:%lf"" , & im -> second_axis_scale , & im -> second_axis_shift ) == 2 ) { if ( im -> second_axis_scale == 0 ) { rrd_set_error ( ""the second_axis_scale must not be 0"" ) ; return ; } } else { rrd_set_error ( ""invalid right-axis format expected scale:shift"" ) ; return ; } break ; case 1003 : strncpy ( im -> second_axis_legend , optarg , 150 ) ; im -> second_axis_legend [ 150 ] = '\\0' ; break ; case 1004 : if ( bad_format_axis ( optarg ) ) { return ; } strncpy ( im -> second_axis_format , optarg , 150 ) ; im -> second_axis_format [ 150 ] = '\\0' ; break ; case 1010 : if ( bad_format_axis ( optarg ) ) { return ; } strncpy ( im -> primary_axis_format , optarg , 150 ) ; im -> primary_axis_format [ 150 ] = '\\0' ; break ; case 'v' : strncpy ( im -> ylegend , optarg , 150 ) ; im -> ylegend [ 150 ] = '\\0' ; break ; case 'u' : im -> maxval = atof ( optarg ) ; break ; case 'l' : im -> minval = atof ( optarg ) ; break ; case 'b' : im -> base = atol ( optarg ) ; if ( im -> base != 1024 && im -> base != 1000 ) { rrd_set_error ( ""the only sensible value for base apart from 1000 is 1024"" ) ; return ; } break ; case 'w' : long_tmp = atol ( optarg ) ; if ( long_tmp < 10 ) { rrd_set_error ( ""width below 10 pixels"" ) ; return ; } im -> xsize = long_tmp ; break ; case 'h' : long_tmp = atol ( optarg ) ; if ( long_tmp < 10 ) { rrd_set_error ( ""height below 10 pixels"" ) ; return ; } im -> ysize = long_tmp ; break ; case 'D' : im -> extra_flags |= FULL_SIZE_MODE ; break ; case 'i' : break ; case 'r' : im -> rigid = 1 ; break ; case 'f' : im -> imginfo = optarg ; break ;" 191,CWE-119 cJSON * cJSON_CreateFalse ( void ) { cJSON * item = cJSON_New_Item ( ) ; if ( item ) item -> type = cJSON_False ; return item ; } ,cJSON * cJSON_CreateFalse ( void ) { cJSON * item = cJSON_New_Item ( ) ; if ( item ) item -> type = cJSON_False ; return item ; } 192,"CWE-200 static int sco_sock_getsockopt_old ( struct socket * sock , int optname , char __user * optval , int __user * optlen ) { struct sock * sk = sock -> sk ; struct sco_options opts ; struct sco_conninfo cinfo ; int len , err = 0 ; BT_DBG ( ""sk %p"" , sk ) ; if ( get_user ( len , optlen ) ) return - EFAULT ; lock_sock ( sk ) ; switch ( optname ) { case SCO_OPTIONS : if ( sk -> sk_state != BT_CONNECTED ) { err = - ENOTCONN ; break ; } opts . mtu = sco_pi ( sk ) -> conn -> mtu ; BT_DBG ( ""mtu %d"" , opts . mtu ) ; len = min_t ( unsigned int , len , sizeof ( opts ) ) ; if ( copy_to_user ( optval , ( char * ) & opts , len ) ) err = - EFAULT ; break ; case SCO_CONNINFO : if ( sk -> sk_state != BT_CONNECTED ) { err = - ENOTCONN ; break ; } cinfo . hci_handle = sco_pi ( sk ) -> conn -> hcon -> handle ; memcpy ( cinfo . dev_class , sco_pi ( sk ) -> conn -> hcon -> dev_class , 3 ) ; len = min_t ( unsigned int , len , sizeof ( cinfo ) ) ; if ( copy_to_user ( optval , ( char * ) & cinfo , len ) ) err = - EFAULT ; break ; default : err = - ENOPROTOOPT ; break ; } release_sock ( sk ) ; return err ; }","static int sco_sock_getsockopt_old ( struct socket * sock , int optname , char __user * optval , int __user * optlen ) { struct sock * sk = sock -> sk ; struct sco_options opts ; struct sco_conninfo cinfo ; int len , err = 0 ; BT_DBG ( ""sk %p"" , sk ) ; if ( get_user ( len , optlen ) ) return - EFAULT ; lock_sock ( sk ) ; switch ( optname ) { case SCO_OPTIONS : if ( sk -> sk_state != BT_CONNECTED ) { err = - ENOTCONN ; break ; } opts . mtu = sco_pi ( sk ) -> conn -> mtu ; BT_DBG ( ""mtu %d"" , opts . mtu ) ; len = min_t ( unsigned int , len , sizeof ( opts ) ) ; if ( copy_to_user ( optval , ( char * ) & opts , len ) ) err = - EFAULT ; break ; case SCO_CONNINFO : if ( sk -> sk_state != BT_CONNECTED ) { err = - ENOTCONN ; break ; } memset ( & cinfo , 0 , sizeof ( cinfo ) ) ; cinfo . hci_handle = sco_pi ( sk ) -> conn -> hcon -> handle ; memcpy ( cinfo . dev_class , sco_pi ( sk ) -> conn -> hcon -> dev_class , 3 ) ; len = min_t ( unsigned int , len , sizeof ( cinfo ) ) ; if ( copy_to_user ( optval , ( char * ) & cinfo , len ) ) err = - EFAULT ; break ; default : err = - ENOPROTOOPT ; break ; } release_sock ( sk ) ; return err ; }" 193,"CWE-119 static int DecodeNumberField ( int len , char * str , int fmask , int * tmask , struct tm * tm , fsec_t * fsec , int * is2digits ) { char * cp ; if ( ( cp = strchr ( str , '.' ) ) != NULL ) { # ifdef HAVE_INT64_TIMESTAMP char fstr [ MAXDATELEN + 1 ] ; strcpy ( fstr , ( cp + 1 ) ) ; strcpy ( fstr + strlen ( fstr ) , ""000000"" ) ; * ( fstr + 6 ) = '\\0' ; * fsec = strtol ( fstr , NULL , 10 ) ; # else * fsec = strtod ( cp , NULL ) ; # endif * cp = '\\0' ; len = strlen ( str ) ; } else if ( ( fmask & DTK_DATE_M ) != DTK_DATE_M ) { if ( len == 8 ) { * tmask = DTK_DATE_M ; tm -> tm_mday = atoi ( str + 6 ) ; * ( str + 6 ) = '\\0' ; tm -> tm_mon = atoi ( str + 4 ) ; * ( str + 4 ) = '\\0' ; tm -> tm_year = atoi ( str + 0 ) ; return DTK_DATE ; } else if ( len == 6 ) { * tmask = DTK_DATE_M ; tm -> tm_mday = atoi ( str + 4 ) ; * ( str + 4 ) = '\\0' ; tm -> tm_mon = atoi ( str + 2 ) ; * ( str + 2 ) = '\\0' ; tm -> tm_year = atoi ( str + 0 ) ; * is2digits = TRUE ; return DTK_DATE ; } else if ( len == 5 ) { * tmask = DTK_DATE_M ; tm -> tm_mday = atoi ( str + 2 ) ; * ( str + 2 ) = '\\0' ; tm -> tm_mon = 1 ; tm -> tm_year = atoi ( str + 0 ) ; * is2digits = TRUE ; return DTK_DATE ; } } if ( ( fmask & DTK_TIME_M ) != DTK_TIME_M ) { if ( len == 6 ) { * tmask = DTK_TIME_M ; tm -> tm_sec = atoi ( str + 4 ) ; * ( str + 4 ) = '\\0' ; tm -> tm_min = atoi ( str + 2 ) ; * ( str + 2 ) = '\\0' ;","static int DecodeNumberField ( int len , char * str , int fmask , int * tmask , struct tm * tm , fsec_t * fsec , int * is2digits ) { char * cp ; if ( ( cp = strchr ( str , '.' ) ) != NULL ) { # ifdef HAVE_INT64_TIMESTAMP char fstr [ 7 ] ; int i ; cp ++ ; for ( i = 0 ; i < 6 ; i ++ ) fstr [ i ] = * cp != '\\0' ? * cp ++ : '0' ; fstr [ i ] = '\\0' ; * fsec = strtol ( fstr , NULL , 10 ) ; # else * fsec = strtod ( cp , NULL ) ; # endif * cp = '\\0' ; len = strlen ( str ) ; } else if ( ( fmask & DTK_DATE_M ) != DTK_DATE_M ) { if ( len == 8 ) { * tmask = DTK_DATE_M ; tm -> tm_mday = atoi ( str + 6 ) ; * ( str + 6 ) = '\\0' ; tm -> tm_mon = atoi ( str + 4 ) ; * ( str + 4 ) = '\\0' ; tm -> tm_year = atoi ( str + 0 ) ; return DTK_DATE ; } else if ( len == 6 ) { * tmask = DTK_DATE_M ; tm -> tm_mday = atoi ( str + 4 ) ; * ( str + 4 ) = '\\0' ; tm -> tm_mon = atoi ( str + 2 ) ; * ( str + 2 ) = '\\0' ; tm -> tm_year = atoi ( str + 0 ) ; * is2digits = TRUE ; return DTK_DATE ; } else if ( len == 5 ) { * tmask = DTK_DATE_M ; tm -> tm_mday = atoi ( str + 2 ) ; * ( str + 2 ) = '\\0' ; tm -> tm_mon = 1 ; tm -> tm_year = atoi ( str + 0 ) ; * is2digits = TRUE ; return DTK_DATE ; } } if ( ( fmask & DTK_TIME_M ) != DTK_TIME_M ) { if ( len == 6 ) { * tmask = DTK_TIME_M ; tm -> tm_sec = atoi ( str + 4 ) ; * ( str + 4 ) = '\\0' ; tm -> tm_min = atoi ( str + 2 ) ; * ( str + 2 ) = '\\0' ;" 194,"CWE-119 if ( i < 0 ) return ( i ) ; if ( i == 0 ) { SSLerr ( SSL_F_DTLS1_READ_BYTES , SSL_R_SSL_HANDSHAKE_FAILURE ) ; return ( - 1 ) ; } } start : s -> rwstate = SSL_NOTHING ; rr = & ( s -> s3 -> rrec ) ; if ( s -> state == SSL_ST_OK && rr -> length == 0 ) { pitem * item ; item = pqueue_pop ( s -> d1 -> buffered_app_data . q ) ; if ( item ) { # ifndef OPENSSL_NO_SCTP if ( BIO_dgram_is_sctp ( SSL_get_rbio ( s ) ) ) { DTLS1_RECORD_DATA * rdata = ( DTLS1_RECORD_DATA * ) item -> data ; BIO_ctrl ( SSL_get_rbio ( s ) , BIO_CTRL_DGRAM_SCTP_SET_RCVINFO , sizeof ( rdata -> recordinfo ) , & rdata -> recordinfo ) ; } # endif dtls1_copy_record ( s , item ) ; OPENSSL_free ( item -> data ) ; pitem_free ( item ) ; } } if ( dtls1_handle_timeout ( s ) > 0 ) goto start ; if ( ( rr -> length == 0 ) || ( s -> rstate == SSL_ST_READ_BODY ) ) { ret = dtls1_get_record ( s ) ; if ( ret <= 0 ) { ret = dtls1_read_failed ( s , ret ) ; if ( ret <= 0 ) return ( ret ) ; else goto start ; } } if ( s -> d1 -> listen && rr -> type != SSL3_RT_HANDSHAKE ) { rr -> length = 0 ; goto start ; } if ( s -> s3 -> change_cipher_spec && ( rr -> type != SSL3_RT_HANDSHAKE ) ) { dtls1_buffer_record ( s , & ( s -> d1 -> buffered_app_data ) , rr -> seq_num ) ; rr -> length = 0 ; goto start ; } if ( s -> shutdown & SSL_RECEIVED_SHUTDOWN ) { rr -> length = 0 ; s -> rwstate = SSL_NOTHING ; return ( 0 ) ; } if ( type == rr -> type ) { if ( SSL_in_init ( s ) && ( type == SSL3_RT_APPLICATION_DATA ) && ( s -> enc_read_ctx == NULL ) ) { al = SSL_AD_UNEXPECTED_MESSAGE ; SSLerr ( SSL_F_DTLS1_READ_BYTES , SSL_R_APP_DATA_IN_HANDSHAKE ) ; goto f_err ; } if ( len <= 0 ) return ( len ) ; if ( ( unsigned int ) len > rr -> length ) n = rr -> length ; else n = ( unsigned int ) len ; memcpy ( buf , & ( rr -> data [ rr -> off ] ) , n ) ; if ( ! peek ) { rr -> length -= n ; rr -> off += n ; if ( rr -> length == 0 ) { s -> rstate = SSL_ST_READ_HEADER ; rr -> off = 0 ; } } # ifndef OPENSSL_NO_SCTP if ( BIO_dgram_is_sctp ( SSL_get_rbio ( s ) ) && rr -> type == SSL3_RT_APPLICATION_DATA && ( s -> state == DTLS1_SCTP_ST_SR_READ_SOCK || s -> state == DTLS1_SCTP_ST_CR_READ_SOCK ) ) { s -> rwstate = SSL_READING ; BIO_clear_retry_flags ( SSL_get_rbio ( s ) ) ; BIO_set_retry_read ( SSL_get_rbio ( s ) ) ; } if ( BIO_dgram_is_sctp ( SSL_get_rbio ( s ) ) && s -> d1 -> shutdown_received && ! BIO_dgram_sctp_msg_waiting ( SSL_get_rbio ( s ) ) ) { s -> shutdown |= SSL_RECEIVED_SHUTDOWN ; return ( 0 ) ; } # endif","if ( i < 0 ) return ( i ) ; if ( i == 0 ) { SSLerr ( SSL_F_DTLS1_READ_BYTES , SSL_R_SSL_HANDSHAKE_FAILURE ) ; return ( - 1 ) ; } } start : s -> rwstate = SSL_NOTHING ; rr = & ( s -> s3 -> rrec ) ; if ( s -> state == SSL_ST_OK && rr -> length == 0 ) { pitem * item ; item = pqueue_pop ( s -> d1 -> buffered_app_data . q ) ; if ( item ) { # ifndef OPENSSL_NO_SCTP if ( BIO_dgram_is_sctp ( SSL_get_rbio ( s ) ) ) { DTLS1_RECORD_DATA * rdata = ( DTLS1_RECORD_DATA * ) item -> data ; BIO_ctrl ( SSL_get_rbio ( s ) , BIO_CTRL_DGRAM_SCTP_SET_RCVINFO , sizeof ( rdata -> recordinfo ) , & rdata -> recordinfo ) ; } # endif dtls1_copy_record ( s , item ) ; OPENSSL_free ( item -> data ) ; pitem_free ( item ) ; } } if ( dtls1_handle_timeout ( s ) > 0 ) goto start ; if ( ( rr -> length == 0 ) || ( s -> rstate == SSL_ST_READ_BODY ) ) { ret = dtls1_get_record ( s ) ; if ( ret <= 0 ) { ret = dtls1_read_failed ( s , ret ) ; if ( ret <= 0 ) return ( ret ) ; else goto start ; } } if ( s -> d1 -> listen && rr -> type != SSL3_RT_HANDSHAKE ) { rr -> length = 0 ; goto start ; } if ( s -> s3 -> change_cipher_spec && ( rr -> type != SSL3_RT_HANDSHAKE ) ) { if ( dtls1_buffer_record ( s , & ( s -> d1 -> buffered_app_data ) , rr -> seq_num ) < 0 ) { SSLerr ( SSL_F_DTLS1_READ_BYTES , ERR_R_INTERNAL_ERROR ) ; return - 1 ; } rr -> length = 0 ; goto start ; } if ( s -> shutdown & SSL_RECEIVED_SHUTDOWN ) { rr -> length = 0 ; s -> rwstate = SSL_NOTHING ; return ( 0 ) ; } if ( type == rr -> type ) { if ( SSL_in_init ( s ) && ( type == SSL3_RT_APPLICATION_DATA ) && ( s -> enc_read_ctx == NULL ) ) { al = SSL_AD_UNEXPECTED_MESSAGE ; SSLerr ( SSL_F_DTLS1_READ_BYTES , SSL_R_APP_DATA_IN_HANDSHAKE ) ; goto f_err ; } if ( len <= 0 ) return ( len ) ; if ( ( unsigned int ) len > rr -> length ) n = rr -> length ; else n = ( unsigned int ) len ; memcpy ( buf , & ( rr -> data [ rr -> off ] ) , n ) ; if ( ! peek ) { rr -> length -= n ; rr -> off += n ; if ( rr -> length == 0 ) { s -> rstate = SSL_ST_READ_HEADER ; rr -> off = 0 ; } } # ifndef OPENSSL_NO_SCTP if ( BIO_dgram_is_sctp ( SSL_get_rbio ( s ) ) && rr -> type == SSL3_RT_APPLICATION_DATA && ( s -> state == DTLS1_SCTP_ST_SR_READ_SOCK || s -> state == DTLS1_SCTP_ST_CR_READ_SOCK ) ) { s -> rwstate = SSL_READING ; BIO_clear_retry_flags ( SSL_get_rbio ( s ) ) ; BIO_set_retry_read ( SSL_get_rbio ( s ) ) ; } if ( BIO_dgram_is_sctp ( SSL_get_rbio ( s ) ) && s -> d1 -> shutdown_received && ! BIO_dgram_sctp_msg_waiting ( SSL_get_rbio ( s ) ) ) { s -> shutdown |= SSL_RECEIVED_SHUTDOWN ; return ( 0 ) ; } # endif" 195,"CWE-125 mod_ty PyAST_FromNodeObject ( const node * n , PyCompilerFlags * flags , PyObject * filename , PyArena * arena ) { int i , j , k , num ; asdl_seq * stmts = NULL ; stmt_ty s ; node * ch ; struct compiling c ; mod_ty res = NULL ; c . c_arena = arena ; c . c_filename = filename ; c . c_normalize = NULL ; if ( TYPE ( n ) == encoding_decl ) n = CHILD ( n , 0 ) ; k = 0 ; switch ( TYPE ( n ) ) { case file_input : stmts = _Py_asdl_seq_new ( num_stmts ( n ) , arena ) ; if ( ! stmts ) goto out ; for ( i = 0 ; i < NCH ( n ) - 1 ; i ++ ) { ch = CHILD ( n , i ) ; if ( TYPE ( ch ) == NEWLINE ) continue ; REQ ( ch , stmt ) ; num = num_stmts ( ch ) ; if ( num == 1 ) { s = ast_for_stmt ( & c , ch ) ; if ( ! s ) goto out ; asdl_seq_SET ( stmts , k ++ , s ) ; } else { ch = CHILD ( ch , 0 ) ; REQ ( ch , simple_stmt ) ; for ( j = 0 ; j < num ; j ++ ) { s = ast_for_stmt ( & c , CHILD ( ch , j * 2 ) ) ; if ( ! s ) goto out ; asdl_seq_SET ( stmts , k ++ , s ) ; } } } res = Module ( stmts , arena ) ; break ; case eval_input : { expr_ty testlist_ast ; testlist_ast = ast_for_testlist ( & c , CHILD ( n , 0 ) ) ; if ( ! testlist_ast ) goto out ; res = Expression ( testlist_ast , arena ) ; break ; } case single_input : if ( TYPE ( CHILD ( n , 0 ) ) == NEWLINE ) { stmts = _Py_asdl_seq_new ( 1 , arena ) ; if ( ! stmts ) goto out ; asdl_seq_SET ( stmts , 0 , Pass ( n -> n_lineno , n -> n_col_offset , n -> n_end_lineno , n -> n_end_col_offset , arena ) ) ; if ( ! asdl_seq_GET ( stmts , 0 ) ) goto out ; res = Interactive ( stmts , arena ) ; } else { n = CHILD ( n , 0 ) ; num = num_stmts ( n ) ; stmts = _Py_asdl_seq_new ( num , arena ) ; if ( ! stmts ) goto out ; if ( num == 1 ) { s = ast_for_stmt ( & c , n ) ; if ( ! s ) goto out ; asdl_seq_SET ( stmts , 0 , s ) ; } else { REQ ( n , simple_stmt ) ; for ( i = 0 ; i < NCH ( n ) ; i += 2 ) { if ( TYPE ( CHILD ( n , i ) ) == NEWLINE ) break ; s = ast_for_stmt ( & c , CHILD ( n , i ) ) ; if ( ! s ) goto out ; asdl_seq_SET ( stmts , i / 2 , s ) ; } } res = Interactive ( stmts , arena ) ; } break ; default : PyErr_Format ( PyExc_SystemError , ""invalid node %d for PyAST_FromNode"" , TYPE ( n ) ) ; goto out ; } out : if ( c . c_normalize ) { Py_DECREF ( c . c_normalize ) ; } return res ; }","mod_ty PyAST_FromNodeObject ( const node * n , PyCompilerFlags * flags , PyObject * filename , PyArena * arena ) { int i , j , k , num ; asdl_seq * stmts = NULL ; asdl_seq * type_ignores = NULL ; stmt_ty s ; node * ch ; struct compiling c ; mod_ty res = NULL ; asdl_seq * argtypes = NULL ; expr_ty ret , arg ; c . c_arena = arena ; c . c_filename = filename ; c . c_normalize = NULL ; if ( TYPE ( n ) == encoding_decl ) n = CHILD ( n , 0 ) ; k = 0 ; switch ( TYPE ( n ) ) { case file_input : stmts = _Py_asdl_seq_new ( num_stmts ( n ) , arena ) ; if ( ! stmts ) goto out ; for ( i = 0 ; i < NCH ( n ) - 1 ; i ++ ) { ch = CHILD ( n , i ) ; if ( TYPE ( ch ) == NEWLINE ) continue ; REQ ( ch , stmt ) ; num = num_stmts ( ch ) ; if ( num == 1 ) { s = ast_for_stmt ( & c , ch ) ; if ( ! s ) goto out ; asdl_seq_SET ( stmts , k ++ , s ) ; } else { ch = CHILD ( ch , 0 ) ; REQ ( ch , simple_stmt ) ; for ( j = 0 ; j < num ; j ++ ) { s = ast_for_stmt ( & c , CHILD ( ch , j * 2 ) ) ; if ( ! s ) goto out ; asdl_seq_SET ( stmts , k ++ , s ) ; } } } ch = CHILD ( n , NCH ( n ) - 1 ) ; REQ ( ch , ENDMARKER ) ; num = NCH ( ch ) ; type_ignores = _Py_asdl_seq_new ( num , arena ) ; if ( ! type_ignores ) goto out ; for ( i = 0 ; i < num ; i ++ ) { type_ignore_ty ti = TypeIgnore ( LINENO ( CHILD ( ch , i ) ) , arena ) ; if ( ! ti ) goto out ; asdl_seq_SET ( type_ignores , i , ti ) ; } res = Module ( stmts , type_ignores , arena ) ; break ; case eval_input : { expr_ty testlist_ast ; testlist_ast = ast_for_testlist ( & c , CHILD ( n , 0 ) ) ; if ( ! testlist_ast ) goto out ; res = Expression ( testlist_ast , arena ) ; break ; } case single_input : if ( TYPE ( CHILD ( n , 0 ) ) == NEWLINE ) { stmts = _Py_asdl_seq_new ( 1 , arena ) ; if ( ! stmts ) goto out ; asdl_seq_SET ( stmts , 0 , Pass ( n -> n_lineno , n -> n_col_offset , n -> n_end_lineno , n -> n_end_col_offset , arena ) ) ; if ( ! asdl_seq_GET ( stmts , 0 ) ) goto out ; res = Interactive ( stmts , arena ) ; } else { n = CHILD ( n , 0 ) ; num = num_stmts ( n ) ; stmts = _Py_asdl_seq_new ( num , arena ) ; if ( ! stmts ) goto out ; if ( num == 1 ) { s = ast_for_stmt ( & c , n ) ; if ( ! s ) goto out ; asdl_seq_SET ( stmts , 0 , s ) ; } else { REQ ( n , simple_stmt ) ; for ( i = 0 ; i < NCH ( n ) ; i += 2 ) { if ( TYPE ( CHILD ( n , i ) ) == NEWLINE ) break ; s = ast_for_stmt ( & c , CHILD ( n , i ) ) ; if ( ! s ) goto out ; asdl_seq_SET ( stmts , i / 2 , s ) ; } } res = Interactive ( stmts , arena ) ; } break ; case func_type_input : n = CHILD ( n , 0 ) ; REQ ( n , func_type ) ; if ( TYPE ( CHILD ( n , 1 ) ) == typelist ) { ch = CHILD ( n , 1 ) ; num = 0 ; for ( i = 0 ; i < NCH ( ch ) ; i ++ ) { if ( TYPE ( CHILD ( ch , i ) ) == test ) { num ++ ; } } argtypes = _Py_asdl_seq_new ( num , arena ) ; if ( ! argtypes ) goto out ; j = 0 ; for ( i = 0 ; i < NCH ( ch ) ; i ++ ) { if ( TYPE ( CHILD ( ch , i ) ) == test ) { arg = ast_for_expr ( & c , CHILD ( ch , i ) ) ; if ( ! arg ) goto out ; asdl_seq_SET ( argtypes , j ++ , arg ) ; } } } else { argtypes = _Py_asdl_seq_new ( 0 , arena ) ; if ( ! argtypes ) goto out ; } ret = ast_for_expr ( & c , CHILD ( n , NCH ( n ) - 1 ) ) ; if ( ! ret ) goto out ; res = FunctionType ( argtypes , ret , arena ) ; break ; default : PyErr_Format ( PyExc_SystemError , ""invalid node %d for PyAST_FromNode"" , TYPE ( n ) ) ; goto out ; } out : if ( c . c_normalize ) { Py_DECREF ( c . c_normalize ) ; } return res ; }" 196,"CWE-125 { comment_offset = ( ssize_t ) ( ( int ) ReadBlobMSBLong ( image ) ) ; attributes = ( unsigned char ) ( ( int ) ReadBlobByte ( image ) ) ; count = ReadBlob ( image , 3 , ( unsigned char * ) tag ) ; if ( count != 3 || memcmp ( tag , ""\\x6f\\x80\\x01"" , 3 ) != 0 ) ThrowReaderException ( CorruptImageError , ""CorruptImage"" ) ; } num_pad_bytes = ( size_t ) ( img_offset - TellBlob ( image ) ) ; while ( num_pad_bytes -- != 0 ) { int c ; c = ReadBlobByte ( image ) ; if ( c == EOF ) break ; } count = ReadBlob ( image , sizeof ( pdb_image . name ) , ( unsigned char * ) pdb_image . name ) ; if ( count != sizeof ( pdb_image . name ) ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; pdb_image . version = ReadBlobByte ( image ) ; pdb_image . type = ( unsigned char ) ReadBlobByte ( image ) ; pdb_image . reserved_1 = ReadBlobMSBLong ( image ) ; pdb_image . note = ReadBlobMSBLong ( image ) ; pdb_image . x_last = ( short ) ReadBlobMSBShort ( image ) ; pdb_image . y_last = ( short ) ReadBlobMSBShort ( image ) ; pdb_image . reserved_2 = ReadBlobMSBLong ( image ) ; pdb_image . x_anchor = ReadBlobMSBShort ( image ) ; pdb_image . y_anchor = ReadBlobMSBShort ( image ) ; pdb_image . width = ( short ) ReadBlobMSBShort ( image ) ; pdb_image . height = ( short ) ReadBlobMSBShort ( image ) ; image -> columns = ( size_t ) pdb_image . width ; image -> rows = ( size_t ) pdb_image . height ; image -> depth = 8 ; image -> storage_class = PseudoClass ; bits_per_pixel = pdb_image . type == 0 ? 2UL : pdb_image . type == 2 ? 4UL : 1UL ; one = 1 ; if ( AcquireImageColormap ( image , one << bits_per_pixel ) == MagickFalse ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; if ( image_info -> ping != MagickFalse ) { ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; } status = SetImageExtent ( image , image -> columns , image -> rows ) ; if ( status == MagickFalse ) { InheritException ( exception , & image -> exception ) ; return ( DestroyImageList ( image ) ) ; } packets = ( bits_per_pixel * image -> columns + 7 ) / 8 ; pixels = ( unsigned char * ) AcquireQuantumMemory ( packets + 256UL , image -> rows * sizeof ( * pixels ) ) ; if ( pixels == ( unsigned char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; switch ( pdb_image . version & 0x07 ) { case 0 : { image -> compression = NoCompression ; count = ( ssize_t ) ReadBlob ( image , packets * image -> rows , pixels ) ; break ; } case 1 : { image -> compression = RLECompression ; if ( ! DecodeImage ( image , pixels , packets * image -> rows ) ) ThrowReaderException ( CorruptImageError , ""RLEDecoderError"" ) ; break ; } default : ThrowReaderException ( CorruptImageError , ""UnrecognizedImageCompressionType"" ) ; } p = pixels ; switch ( bits_per_pixel ) { case 1 : { int bit ; for ( y = 0 ; y < ( ssize_t ) image -> rows ; y ++ ) { q = QueueAuthenticPixels ( image , 0 , y , image -> columns , 1 , exception ) ; if ( q == ( PixelPacket * ) NULL ) break ; indexes = GetAuthenticIndexQueue ( image ) ; for ( x = 0 ; x < ( ( ssize_t ) image -> columns - 7 ) ; x += 8 ) { for ( bit = 0 ; bit < 8 ; bit ++ ) { index = ( IndexPacket ) ( * p & ( 0x80 >> bit ) ? 0x00 : 0x01 ) ; SetPixelIndex ( indexes + x + bit , index ) ; } p ++ ; } if ( SyncAuthenticPixels ( image , exception ) == MagickFalse ) break ; status = SetImageProgress ( image , LoadImageTag , ( MagickOffsetType ) y , image -> rows ) ; if ( status == MagickFalse ) break ;","{ comment_offset = ( ssize_t ) ( ( int ) ReadBlobMSBLong ( image ) ) ; attributes = ( unsigned char ) ( ( int ) ReadBlobByte ( image ) ) ; count = ReadBlob ( image , 3 , ( unsigned char * ) tag ) ; if ( count != 3 || memcmp ( tag , ""\\x6f\\x80\\x01"" , 3 ) != 0 ) ThrowReaderException ( CorruptImageError , ""CorruptImage"" ) ; } num_pad_bytes = ( size_t ) ( img_offset - TellBlob ( image ) ) ; while ( num_pad_bytes -- != 0 ) { int c ; c = ReadBlobByte ( image ) ; if ( c == EOF ) break ; } count = ReadBlob ( image , sizeof ( pdb_image . name ) , ( unsigned char * ) pdb_image . name ) ; if ( count != sizeof ( pdb_image . name ) ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; pdb_image . version = ReadBlobByte ( image ) ; pdb_image . type = ( unsigned char ) ReadBlobByte ( image ) ; pdb_image . reserved_1 = ReadBlobMSBLong ( image ) ; pdb_image . note = ReadBlobMSBLong ( image ) ; pdb_image . x_last = ( short ) ReadBlobMSBShort ( image ) ; pdb_image . y_last = ( short ) ReadBlobMSBShort ( image ) ; pdb_image . reserved_2 = ReadBlobMSBLong ( image ) ; pdb_image . x_anchor = ReadBlobMSBShort ( image ) ; pdb_image . y_anchor = ReadBlobMSBShort ( image ) ; pdb_image . width = ( short ) ReadBlobMSBShort ( image ) ; pdb_image . height = ( short ) ReadBlobMSBShort ( image ) ; image -> columns = ( size_t ) pdb_image . width ; image -> rows = ( size_t ) pdb_image . height ; image -> depth = 8 ; image -> storage_class = PseudoClass ; bits_per_pixel = pdb_image . type == 0 ? 2UL : pdb_image . type == 2 ? 4UL : 1UL ; one = 1 ; if ( AcquireImageColormap ( image , one << bits_per_pixel ) == MagickFalse ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; if ( image_info -> ping != MagickFalse ) { ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; } status = SetImageExtent ( image , image -> columns , image -> rows ) ; if ( status == MagickFalse ) { InheritException ( exception , & image -> exception ) ; return ( DestroyImageList ( image ) ) ; } packets = ( bits_per_pixel * image -> columns + 7 ) / 8 ; pixels = ( unsigned char * ) AcquireQuantumMemory ( packets + 257UL , image -> rows * sizeof ( * pixels ) ) ; if ( pixels == ( unsigned char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; switch ( pdb_image . version & 0x07 ) { case 0 : { image -> compression = NoCompression ; count = ( ssize_t ) ReadBlob ( image , packets * image -> rows , pixels ) ; break ; } case 1 : { image -> compression = RLECompression ; if ( ! DecodeImage ( image , pixels , packets * image -> rows ) ) ThrowReaderException ( CorruptImageError , ""RLEDecoderError"" ) ; break ; } default : ThrowReaderException ( CorruptImageError , ""UnrecognizedImageCompressionType"" ) ; } p = pixels ; switch ( bits_per_pixel ) { case 1 : { int bit ; for ( y = 0 ; y < ( ssize_t ) image -> rows ; y ++ ) { q = QueueAuthenticPixels ( image , 0 , y , image -> columns , 1 , exception ) ; if ( q == ( PixelPacket * ) NULL ) break ; indexes = GetAuthenticIndexQueue ( image ) ; for ( x = 0 ; x < ( ( ssize_t ) image -> columns - 7 ) ; x += 8 ) { for ( bit = 0 ; bit < 8 ; bit ++ ) { index = ( IndexPacket ) ( * p & ( 0x80 >> bit ) ? 0x00 : 0x01 ) ; SetPixelIndex ( indexes + x + bit , index ) ; } p ++ ; } if ( SyncAuthenticPixels ( image , exception ) == MagickFalse ) break ; status = SetImageProgress ( image , LoadImageTag , ( MagickOffsetType ) y , image -> rows ) ; if ( status == MagickFalse ) break ;" 197,"CWE-119 static vpx_codec_err_t vp8e_set_reference ( vpx_codec_alg_priv_t * ctx , int ctr_id , va_list args ) { vpx_ref_frame_t * data = va_arg ( args , vpx_ref_frame_t * ) ; if ( data ) { vpx_ref_frame_t * frame = ( vpx_ref_frame_t * ) data ; YV12_BUFFER_CONFIG sd ; image2yuvconfig ( & frame -> img , & sd ) ; vp8_set_reference ( ctx -> cpi , frame -> frame_type , & sd ) ; return VPX_CODEC_OK ; } else return VPX_CODEC_INVALID_PARAM ; }","static vpx_codec_err_t vp8e_set_reference ( vpx_codec_alg_priv_t * ctx , va_list args ) { vpx_ref_frame_t * data = va_arg ( args , vpx_ref_frame_t * ) ; if ( data ) { vpx_ref_frame_t * frame = ( vpx_ref_frame_t * ) data ; YV12_BUFFER_CONFIG sd ; image2yuvconfig ( & frame -> img , & sd ) ; vp8_set_reference ( ctx -> cpi , frame -> frame_type , & sd ) ; return VPX_CODEC_OK ; } else return VPX_CODEC_INVALID_PARAM ; }" 198,"CWE-416 static void lo_release ( struct gendisk * disk , fmode_t mode ) { struct loop_device * lo = disk -> private_data ; int err ; if ( atomic_dec_return ( & lo -> lo_refcnt ) ) return ; mutex_lock ( & lo -> lo_ctl_mutex ) ; if ( lo -> lo_flags & LO_FLAGS_AUTOCLEAR ) { err = loop_clr_fd ( lo ) ; if ( ! err ) return ; } else if ( lo -> lo_state == Lo_bound ) { blk_mq_freeze_queue ( lo -> lo_queue ) ; blk_mq_unfreeze_queue ( lo -> lo_queue ) ; } mutex_unlock ( & lo -> lo_ctl_mutex ) ; }","static void lo_release ( struct gendisk * disk , fmode_t mode ) { mutex_lock ( & loop_index_mutex ) ; __lo_release ( disk -> private_data ) ; mutex_unlock ( & loop_index_mutex ) ; }" 199,"CWE-617 case LLDP_TLV_SYSTEM_NAME : case LLDP_TLV_SYSTEM_DESCR : if ( tlv_size < 1 ) { log_debug ( ""lldp"" , ""empty tlv received on %s"" , hardware -> h_ifname ) ; break ; } if ( ( b = ( char * ) calloc ( 1 , tlv_size + 1 ) ) == NULL ) { log_warn ( ""lldp"" , ""unable to allocate memory for string tlv "" ""received on %s"" , hardware -> h_ifname ) ; goto malformed ; } PEEK_BYTES ( b , tlv_size ) ; if ( tlv_type == LLDP_TLV_PORT_DESCR ) port -> p_descr = b ; else if ( tlv_type == LLDP_TLV_SYSTEM_NAME ) chassis -> c_name = b ; else chassis -> c_descr = b ; break ; case LLDP_TLV_SYSTEM_CAP : CHECK_TLV_SIZE ( 4 , ""System capabilities"" ) ; chassis -> c_cap_available = PEEK_UINT16 ; chassis -> c_cap_enabled = PEEK_UINT16 ; break ; case LLDP_TLV_MGMT_ADDR : CHECK_TLV_SIZE ( 1 , ""Management address"" ) ; addr_str_length = PEEK_UINT8 ; if ( addr_str_length > sizeof ( addr_str_buffer ) ) { log_warnx ( ""lldp"" , ""too large management address on %s"" , hardware -> h_ifname ) ; goto malformed ; } CHECK_TLV_SIZE ( 1 + addr_str_length , ""Management address"" ) ; PEEK_BYTES ( addr_str_buffer , addr_str_length ) ; addr_length = addr_str_length - 1 ; addr_family = addr_str_buffer [ 0 ] ; addr_ptr = & addr_str_buffer [ 1 ] ; CHECK_TLV_SIZE ( 1 + addr_str_length + 5 , ""Management address"" ) ; iface_subtype = PEEK_UINT8 ; iface_number = PEEK_UINT32 ; af = lldpd_af_from_lldp_proto ( addr_family ) ; if ( af == LLDPD_AF_UNSPEC ) break ; if ( iface_subtype == LLDP_MGMT_IFACE_IFINDEX ) iface = iface_number ; else iface = 0 ; mgmt = lldpd_alloc_mgmt ( af , addr_ptr , addr_length , iface ) ; if ( mgmt == NULL ) { assert ( errno == ENOMEM ) ; log_warn ( ""lldp"" , ""unable to allocate memory "" ""for management address"" ) ; goto malformed ; } TAILQ_INSERT_TAIL ( & chassis -> c_mgmt , mgmt , m_entries ) ; break ; case LLDP_TLV_ORG : CHECK_TLV_SIZE ( 1 + ( int ) sizeof ( orgid ) , ""Organisational"" ) ; PEEK_BYTES ( orgid , sizeof ( orgid ) ) ; tlv_subtype = PEEK_UINT8 ; if ( memcmp ( dot1 , orgid , sizeof ( orgid ) ) == 0 ) { # ifndef ENABLE_DOT1 hardware -> h_rx_unrecognized_cnt ++ ; # else switch ( tlv_subtype ) { case LLDP_TLV_DOT1_VLANNAME : CHECK_TLV_SIZE ( 7 , ""VLAN"" ) ; if ( ( vlan = ( struct lldpd_vlan * ) calloc ( 1 , sizeof ( struct lldpd_vlan ) ) ) == NULL ) { log_warn ( ""lldp"" , ""unable to alloc vlan "" ""structure for "" ""tlv received on %s"" , hardware -> h_ifname ) ; goto malformed ; } vlan -> v_vid = PEEK_UINT16 ; vlan_len = PEEK_UINT8 ; CHECK_TLV_SIZE ( 7 + vlan_len , ""VLAN"" ) ; if ( ( vlan -> v_name = ( char * ) calloc ( 1 , vlan_len + 1 ) ) == NULL ) { log_warn ( ""lldp"" , ""unable to alloc vlan name for "" ""tlv received on %s"" , hardware -> h_ifname ) ; goto malformed ; } PEEK_BYTES ( vlan -> v_name , vlan_len ) ; TAILQ_INSERT_TAIL ( & port -> p_vlans , vlan , v_entries ) ; vlan = NULL ; break ; case LLDP_TLV_DOT1_PVID : CHECK_TLV_SIZE ( 6 , ""PVID"" ) ; port -> p_pvid = PEEK_UINT16 ; break ; case LLDP_TLV_DOT1_PPVID : CHECK_TLV_SIZE ( 7 , ""PPVID"" ) ; if ( ( ppvid = ( struct lldpd_ppvid * ) calloc ( 1 , sizeof ( struct lldpd_ppvid ) ) ) == NULL ) { log_warn ( ""lldp"" , ""unable to alloc ppvid "" ""structure for "" ""tlv received on %s"" , hardware -> h_ifname ) ;","case LLDP_TLV_SYSTEM_NAME : case LLDP_TLV_SYSTEM_DESCR : if ( tlv_size < 1 ) { log_debug ( ""lldp"" , ""empty tlv received on %s"" , hardware -> h_ifname ) ; break ; } if ( ( b = ( char * ) calloc ( 1 , tlv_size + 1 ) ) == NULL ) { log_warn ( ""lldp"" , ""unable to allocate memory for string tlv "" ""received on %s"" , hardware -> h_ifname ) ; goto malformed ; } PEEK_BYTES ( b , tlv_size ) ; if ( tlv_type == LLDP_TLV_PORT_DESCR ) port -> p_descr = b ; else if ( tlv_type == LLDP_TLV_SYSTEM_NAME ) chassis -> c_name = b ; else chassis -> c_descr = b ; break ; case LLDP_TLV_SYSTEM_CAP : CHECK_TLV_SIZE ( 4 , ""System capabilities"" ) ; chassis -> c_cap_available = PEEK_UINT16 ; chassis -> c_cap_enabled = PEEK_UINT16 ; break ; case LLDP_TLV_MGMT_ADDR : CHECK_TLV_SIZE ( 1 , ""Management address"" ) ; addr_str_length = PEEK_UINT8 ; if ( addr_str_length > sizeof ( addr_str_buffer ) ) { log_warnx ( ""lldp"" , ""too large management address on %s"" , hardware -> h_ifname ) ; goto malformed ; } CHECK_TLV_SIZE ( 1 + addr_str_length , ""Management address"" ) ; PEEK_BYTES ( addr_str_buffer , addr_str_length ) ; addr_length = addr_str_length - 1 ; addr_family = addr_str_buffer [ 0 ] ; addr_ptr = & addr_str_buffer [ 1 ] ; CHECK_TLV_SIZE ( 1 + addr_str_length + 5 , ""Management address"" ) ; iface_subtype = PEEK_UINT8 ; iface_number = PEEK_UINT32 ; af = lldpd_af_from_lldp_proto ( addr_family ) ; if ( af == LLDPD_AF_UNSPEC ) break ; if ( iface_subtype == LLDP_MGMT_IFACE_IFINDEX ) iface = iface_number ; else iface = 0 ; mgmt = lldpd_alloc_mgmt ( af , addr_ptr , addr_length , iface ) ; if ( mgmt == NULL ) { if ( errno == ENOMEM ) log_warn ( ""lldp"" , ""unable to allocate memory "" ""for management address"" ) ; else log_warn ( ""lldp"" , ""too large management address "" ""received on %s"" , hardware -> h_ifname ) ; goto malformed ; } TAILQ_INSERT_TAIL ( & chassis -> c_mgmt , mgmt , m_entries ) ; break ; case LLDP_TLV_ORG : CHECK_TLV_SIZE ( 1 + ( int ) sizeof ( orgid ) , ""Organisational"" ) ; PEEK_BYTES ( orgid , sizeof ( orgid ) ) ; tlv_subtype = PEEK_UINT8 ; if ( memcmp ( dot1 , orgid , sizeof ( orgid ) ) == 0 ) { # ifndef ENABLE_DOT1 hardware -> h_rx_unrecognized_cnt ++ ; # else switch ( tlv_subtype ) { case LLDP_TLV_DOT1_VLANNAME : CHECK_TLV_SIZE ( 7 , ""VLAN"" ) ; if ( ( vlan = ( struct lldpd_vlan * ) calloc ( 1 , sizeof ( struct lldpd_vlan ) ) ) == NULL ) { log_warn ( ""lldp"" , ""unable to alloc vlan "" ""structure for "" ""tlv received on %s"" , hardware -> h_ifname ) ; goto malformed ; } vlan -> v_vid = PEEK_UINT16 ; vlan_len = PEEK_UINT8 ; CHECK_TLV_SIZE ( 7 + vlan_len , ""VLAN"" ) ; if ( ( vlan -> v_name = ( char * ) calloc ( 1 , vlan_len + 1 ) ) == NULL ) { log_warn ( ""lldp"" , ""unable to alloc vlan name for "" ""tlv received on %s"" , hardware -> h_ifname ) ; goto malformed ; } PEEK_BYTES ( vlan -> v_name , vlan_len ) ; TAILQ_INSERT_TAIL ( & port -> p_vlans , vlan , v_entries ) ; vlan = NULL ; break ; case LLDP_TLV_DOT1_PVID : CHECK_TLV_SIZE ( 6 , ""PVID"" ) ; port -> p_pvid = PEEK_UINT16 ; break ; case LLDP_TLV_DOT1_PPVID : CHECK_TLV_SIZE ( 7 , ""PPVID"" ) ; if ( ( ppvid = ( struct lldpd_ppvid * ) calloc ( 1 , sizeof ( struct lldpd_ppvid ) ) ) == NULL ) { log_warn ( ""lldp"" , ""unable to alloc ppvid "" ""structure for "" ""tlv received on %s"" , hardware -> h_ifname ) ;" 200,"CWE-20 static int jpc_siz_getparms ( jpc_ms_t * ms , jpc_cstate_t * cstate , jas_stream_t * in ) { jpc_siz_t * siz = & ms -> parms . siz ; unsigned int i ; uint_fast8_t tmp ; cstate = 0 ; if ( jpc_getuint16 ( in , & siz -> caps ) || jpc_getuint32 ( in , & siz -> width ) || jpc_getuint32 ( in , & siz -> height ) || jpc_getuint32 ( in , & siz -> xoff ) || jpc_getuint32 ( in , & siz -> yoff ) || jpc_getuint32 ( in , & siz -> tilewidth ) || jpc_getuint32 ( in , & siz -> tileheight ) || jpc_getuint32 ( in , & siz -> tilexoff ) || jpc_getuint32 ( in , & siz -> tileyoff ) || jpc_getuint16 ( in , & siz -> numcomps ) ) { return - 1 ; } if ( ! siz -> width || ! siz -> height || ! siz -> tilewidth || ! siz -> tileheight || ! siz -> numcomps || siz -> numcomps > 16384 ) { return - 1 ; } if ( ! ( siz -> comps = jas_alloc2 ( siz -> numcomps , sizeof ( jpc_sizcomp_t ) ) ) ) { return - 1 ; } for ( i = 0 ; i < siz -> numcomps ; ++ i ) { if ( jpc_getuint8 ( in , & tmp ) || jpc_getuint8 ( in , & siz -> comps [ i ] . hsamp ) || jpc_getuint8 ( in , & siz -> comps [ i ] . vsamp ) ) { jas_free ( siz -> comps ) ; return - 1 ; } if ( siz -> comps [ i ] . hsamp == 0 || siz -> comps [ i ] . hsamp > 255 ) { jas_eprintf ( ""invalid XRsiz value %d\\n"" , siz -> comps [ i ] . hsamp ) ; jas_free ( siz -> comps ) ; return - 1 ; } if ( siz -> comps [ i ] . vsamp == 0 || siz -> comps [ i ] . vsamp > 255 ) { jas_eprintf ( ""invalid YRsiz value %d\\n"" , siz -> comps [ i ] . vsamp ) ; jas_free ( siz -> comps ) ; return - 1 ; } siz -> comps [ i ] . sgnd = ( tmp >> 7 ) & 1 ; siz -> comps [ i ] . prec = ( tmp & 0x7f ) + 1 ; } if ( jas_stream_eof ( in ) ) { jas_free ( siz -> comps ) ; return - 1 ; } return 0 ; }","static int jpc_siz_getparms ( jpc_ms_t * ms , jpc_cstate_t * cstate , jas_stream_t * in ) { jpc_siz_t * siz = & ms -> parms . siz ; unsigned int i ; uint_fast8_t tmp ; cstate = 0 ; if ( jpc_getuint16 ( in , & siz -> caps ) || jpc_getuint32 ( in , & siz -> width ) || jpc_getuint32 ( in , & siz -> height ) || jpc_getuint32 ( in , & siz -> xoff ) || jpc_getuint32 ( in , & siz -> yoff ) || jpc_getuint32 ( in , & siz -> tilewidth ) || jpc_getuint32 ( in , & siz -> tileheight ) || jpc_getuint32 ( in , & siz -> tilexoff ) || jpc_getuint32 ( in , & siz -> tileyoff ) || jpc_getuint16 ( in , & siz -> numcomps ) ) { return - 1 ; } if ( ! siz -> width || ! siz -> height || ! siz -> tilewidth || ! siz -> tileheight || ! siz -> numcomps || siz -> numcomps > 16384 ) { return - 1 ; } if ( siz -> tilexoff >= siz -> width || siz -> tileyoff >= siz -> height ) { jas_eprintf ( ""all tiles are outside the image area\\n"" ) ; return - 1 ; } if ( ! ( siz -> comps = jas_alloc2 ( siz -> numcomps , sizeof ( jpc_sizcomp_t ) ) ) ) { return - 1 ; } for ( i = 0 ; i < siz -> numcomps ; ++ i ) { if ( jpc_getuint8 ( in , & tmp ) || jpc_getuint8 ( in , & siz -> comps [ i ] . hsamp ) || jpc_getuint8 ( in , & siz -> comps [ i ] . vsamp ) ) { jas_free ( siz -> comps ) ; return - 1 ; } if ( siz -> comps [ i ] . hsamp == 0 || siz -> comps [ i ] . hsamp > 255 ) { jas_eprintf ( ""invalid XRsiz value %d\\n"" , siz -> comps [ i ] . hsamp ) ; jas_free ( siz -> comps ) ; return - 1 ; } if ( siz -> comps [ i ] . vsamp == 0 || siz -> comps [ i ] . vsamp > 255 ) { jas_eprintf ( ""invalid YRsiz value %d\\n"" , siz -> comps [ i ] . vsamp ) ; jas_free ( siz -> comps ) ; return - 1 ; } siz -> comps [ i ] . sgnd = ( tmp >> 7 ) & 1 ; siz -> comps [ i ] . prec = ( tmp & 0x7f ) + 1 ; } if ( jas_stream_eof ( in ) ) { jas_free ( siz -> comps ) ; return - 1 ; } return 0 ; }" 201,"CWE-476 BOOL rdp_decrypt ( rdpRdp * rdp , STREAM * s , int length , UINT16 securityFlags ) { BYTE cmac [ 8 ] ; BYTE wmac [ 8 ] ; if ( rdp -> settings -> EncryptionMethods == ENCRYPTION_METHOD_FIPS ) { UINT16 len ; BYTE version , pad ; BYTE * sig ; if ( stream_get_left ( s ) < 12 ) return FALSE ; stream_read_UINT16 ( s , len ) ; stream_read_BYTE ( s , version ) ; stream_read_BYTE ( s , pad ) ; sig = s -> p ; stream_seek ( s , 8 ) ; length -= 12 ; if ( ! security_fips_decrypt ( s -> p , length , rdp ) ) { printf ( ""FATAL: cannot decrypt\\n"" ) ; return FALSE ; } if ( ! security_fips_check_signature ( s -> p , length - pad , sig , rdp ) ) { printf ( ""FATAL: invalid packet signature\\n"" ) ; return FALSE ; } s -> size -= pad ; return TRUE ; } if ( stream_get_left ( s ) < 8 ) return FALSE ; stream_read ( s , wmac , sizeof ( wmac ) ) ; length -= sizeof ( wmac ) ; security_decrypt ( s -> p , length , rdp ) ; if ( securityFlags & SEC_SECURE_CHECKSUM ) security_salted_mac_signature ( rdp , s -> p , length , FALSE , cmac ) ; else security_mac_signature ( rdp , s -> p , length , cmac ) ; if ( memcmp ( wmac , cmac , sizeof ( wmac ) ) != 0 ) { printf ( ""WARNING: invalid packet signature\\n"" ) ; } return TRUE ; }","BOOL rdp_decrypt ( rdpRdp * rdp , STREAM * s , int length , UINT16 securityFlags ) { BYTE cmac [ 8 ] ; BYTE wmac [ 8 ] ; if ( rdp -> settings -> EncryptionMethods == ENCRYPTION_METHOD_FIPS ) { UINT16 len ; BYTE version , pad ; BYTE * sig ; if ( stream_get_left ( s ) < 12 ) return FALSE ; stream_read_UINT16 ( s , len ) ; stream_read_BYTE ( s , version ) ; stream_read_BYTE ( s , pad ) ; sig = s -> p ; stream_seek ( s , 8 ) ; length -= 12 ; if ( ! security_fips_decrypt ( s -> p , length , rdp ) ) { printf ( ""FATAL: cannot decrypt\\n"" ) ; return FALSE ; } if ( ! security_fips_check_signature ( s -> p , length - pad , sig , rdp ) ) { printf ( ""FATAL: invalid packet signature\\n"" ) ; return FALSE ; } s -> size -= pad ; return TRUE ; } if ( stream_get_left ( s ) < 8 ) return FALSE ; stream_read ( s , wmac , sizeof ( wmac ) ) ; length -= sizeof ( wmac ) ; if ( ! security_decrypt ( s -> p , length , rdp ) ) return FALSE ; if ( securityFlags & SEC_SECURE_CHECKSUM ) security_salted_mac_signature ( rdp , s -> p , length , FALSE , cmac ) ; else security_mac_signature ( rdp , s -> p , length , cmac ) ; if ( memcmp ( wmac , cmac , sizeof ( wmac ) ) != 0 ) { printf ( ""WARNING: invalid packet signature\\n"" ) ; } return TRUE ; }" 202,"CWE-125 u_int atm_if_print ( netdissect_options * ndo , const struct pcap_pkthdr * h , const u_char * p ) { u_int caplen = h -> caplen ; u_int length = h -> len ; uint32_t llchdr ; u_int hdrlen = 0 ; if ( caplen < 1 || length < 1 ) { ND_PRINT ( ( ndo , ""%s"" , tstr ) ) ; return ( caplen ) ; } if ( * p == LLC_UI ) { if ( ndo -> ndo_eflag ) ND_PRINT ( ( ndo , ""CNLPID "" ) ) ; isoclns_print ( ndo , p + 1 , length - 1 , caplen - 1 ) ; return hdrlen ; } if ( caplen < 3 || length < 3 ) { ND_PRINT ( ( ndo , ""%s"" , tstr ) ) ; return ( caplen ) ; } llchdr = EXTRACT_24BITS ( p ) ; if ( llchdr != LLC_UI_HDR ( LLCSAP_SNAP ) && llchdr != LLC_UI_HDR ( LLCSAP_ISONS ) && llchdr != LLC_UI_HDR ( LLCSAP_IP ) ) { if ( caplen < 20 || length < 20 ) { ND_PRINT ( ( ndo , ""%s"" , tstr ) ) ; return ( caplen ) ; } if ( ndo -> ndo_eflag ) ND_PRINT ( ( ndo , ""%08x%08x %08x%08x "" , EXTRACT_32BITS ( p ) , EXTRACT_32BITS ( p + 4 ) , EXTRACT_32BITS ( p + 8 ) , EXTRACT_32BITS ( p + 12 ) ) ) ; p += 20 ; length -= 20 ; caplen -= 20 ; hdrlen += 20 ; } hdrlen += atm_llc_print ( ndo , p , length , caplen ) ; return ( hdrlen ) ; }","u_int atm_if_print ( netdissect_options * ndo , const struct pcap_pkthdr * h , const u_char * p ) { u_int caplen = h -> caplen ; u_int length = h -> len ; uint32_t llchdr ; u_int hdrlen = 0 ; if ( caplen < 1 || length < 1 ) { ND_PRINT ( ( ndo , ""%s"" , tstr ) ) ; return ( caplen ) ; } if ( * p == LLC_UI ) { if ( ndo -> ndo_eflag ) ND_PRINT ( ( ndo , ""CNLPID "" ) ) ; isoclns_print ( ndo , p + 1 , length - 1 ) ; return hdrlen ; } if ( caplen < 3 || length < 3 ) { ND_PRINT ( ( ndo , ""%s"" , tstr ) ) ; return ( caplen ) ; } llchdr = EXTRACT_24BITS ( p ) ; if ( llchdr != LLC_UI_HDR ( LLCSAP_SNAP ) && llchdr != LLC_UI_HDR ( LLCSAP_ISONS ) && llchdr != LLC_UI_HDR ( LLCSAP_IP ) ) { if ( caplen < 20 || length < 20 ) { ND_PRINT ( ( ndo , ""%s"" , tstr ) ) ; return ( caplen ) ; } if ( ndo -> ndo_eflag ) ND_PRINT ( ( ndo , ""%08x%08x %08x%08x "" , EXTRACT_32BITS ( p ) , EXTRACT_32BITS ( p + 4 ) , EXTRACT_32BITS ( p + 8 ) , EXTRACT_32BITS ( p + 12 ) ) ) ; p += 20 ; length -= 20 ; caplen -= 20 ; hdrlen += 20 ; } hdrlen += atm_llc_print ( ndo , p , length , caplen ) ; return ( hdrlen ) ; }" 203,"CWE-119 static int cdxl_decode_frame ( AVCodecContext * avctx , void * data , int * got_frame , AVPacket * pkt ) { CDXLVideoContext * c = avctx -> priv_data ; AVFrame * const p = data ; int ret , w , h , encoding , aligned_width , buf_size = pkt -> size ; const uint8_t * buf = pkt -> data ; if ( buf_size < 32 ) return AVERROR_INVALIDDATA ; encoding = buf [ 1 ] & 7 ; c -> format = buf [ 1 ] & 0xE0 ; w = AV_RB16 ( & buf [ 14 ] ) ; h = AV_RB16 ( & buf [ 16 ] ) ; c -> bpp = buf [ 19 ] ; c -> palette_size = AV_RB16 ( & buf [ 20 ] ) ; c -> palette = buf + 32 ; c -> video = c -> palette + c -> palette_size ; c -> video_size = buf_size - c -> palette_size - 32 ; if ( c -> palette_size > 512 ) return AVERROR_INVALIDDATA ; if ( buf_size < c -> palette_size + 32 ) return AVERROR_INVALIDDATA ; if ( c -> bpp < 1 ) return AVERROR_INVALIDDATA ; if ( c -> format != BIT_PLANAR && c -> format != BIT_LINE && c -> format != CHUNKY ) { avpriv_request_sample ( avctx , ""Pixel format 0x%0x"" , c -> format ) ; return AVERROR_PATCHWELCOME ; } if ( ( ret = ff_set_dimensions ( avctx , w , h ) ) < 0 ) return ret ; if ( c -> format == CHUNKY ) aligned_width = avctx -> width ; else aligned_width = FFALIGN ( c -> avctx -> width , 16 ) ; c -> padded_bits = aligned_width - c -> avctx -> width ; if ( c -> video_size < aligned_width * avctx -> height * ( int64_t ) c -> bpp / 8 ) return AVERROR_INVALIDDATA ; if ( ! encoding && c -> palette_size && c -> bpp <= 8 && c -> format != CHUNKY ) { avctx -> pix_fmt = AV_PIX_FMT_PAL8 ; } else if ( encoding == 1 && ( c -> bpp == 6 || c -> bpp == 8 ) ) { if ( c -> palette_size != ( 1 << ( c -> bpp - 1 ) ) ) return AVERROR_INVALIDDATA ; avctx -> pix_fmt = AV_PIX_FMT_BGR24 ; } else if ( ! encoding && c -> bpp == 24 && c -> format == CHUNKY && ! c -> palette_size ) { avctx -> pix_fmt = AV_PIX_FMT_RGB24 ; } else { avpriv_request_sample ( avctx , ""Encoding %d, bpp %d and format 0x%x"" , encoding , c -> bpp , c -> format ) ; return AVERROR_PATCHWELCOME ; } if ( ( ret = ff_get_buffer ( avctx , p , 0 ) ) < 0 ) return ret ; p -> pict_type = AV_PICTURE_TYPE_I ; if ( encoding ) { av_fast_padded_malloc ( & c -> new_video , & c -> new_video_size , h * w + AV_INPUT_BUFFER_PADDING_SIZE ) ; if ( ! c -> new_video ) return AVERROR ( ENOMEM ) ; if ( c -> bpp == 8 ) cdxl_decode_ham8 ( c , p ) ; else cdxl_decode_ham6 ( c , p ) ; } else if ( avctx -> pix_fmt == AV_PIX_FMT_PAL8 ) { cdxl_decode_rgb ( c , p ) ; } else { cdxl_decode_raw ( c , p ) ; } * got_frame = 1 ; return buf_size ; }","static int cdxl_decode_frame ( AVCodecContext * avctx , void * data , int * got_frame , AVPacket * pkt ) { CDXLVideoContext * c = avctx -> priv_data ; AVFrame * const p = data ; int ret , w , h , encoding , aligned_width , buf_size = pkt -> size ; const uint8_t * buf = pkt -> data ; if ( buf_size < 32 ) return AVERROR_INVALIDDATA ; encoding = buf [ 1 ] & 7 ; c -> format = buf [ 1 ] & 0xE0 ; w = AV_RB16 ( & buf [ 14 ] ) ; h = AV_RB16 ( & buf [ 16 ] ) ; c -> bpp = buf [ 19 ] ; c -> palette_size = AV_RB16 ( & buf [ 20 ] ) ; c -> palette = buf + 32 ; c -> video = c -> palette + c -> palette_size ; c -> video_size = buf_size - c -> palette_size - 32 ; if ( c -> palette_size > 512 ) return AVERROR_INVALIDDATA ; if ( buf_size < c -> palette_size + 32 ) return AVERROR_INVALIDDATA ; if ( c -> bpp < 1 ) return AVERROR_INVALIDDATA ; if ( c -> format != BIT_PLANAR && c -> format != BIT_LINE && c -> format != CHUNKY ) { avpriv_request_sample ( avctx , ""Pixel format 0x%0x"" , c -> format ) ; return AVERROR_PATCHWELCOME ; } if ( ( ret = ff_set_dimensions ( avctx , w , h ) ) < 0 ) return ret ; if ( c -> format == CHUNKY ) aligned_width = avctx -> width ; else aligned_width = FFALIGN ( c -> avctx -> width , 16 ) ; c -> padded_bits = aligned_width - c -> avctx -> width ; if ( c -> video_size < aligned_width * avctx -> height * ( int64_t ) c -> bpp / 8 ) return AVERROR_INVALIDDATA ; if ( ! encoding && c -> palette_size && c -> bpp <= 8 && c -> format != CHUNKY ) { avctx -> pix_fmt = AV_PIX_FMT_PAL8 ; } else if ( encoding == 1 && ( c -> bpp == 6 || c -> bpp == 8 ) && c -> format != CHUNKY ) { if ( c -> palette_size != ( 1 << ( c -> bpp - 1 ) ) ) return AVERROR_INVALIDDATA ; avctx -> pix_fmt = AV_PIX_FMT_BGR24 ; } else if ( ! encoding && c -> bpp == 24 && c -> format == CHUNKY && ! c -> palette_size ) { avctx -> pix_fmt = AV_PIX_FMT_RGB24 ; } else { avpriv_request_sample ( avctx , ""Encoding %d, bpp %d and format 0x%x"" , encoding , c -> bpp , c -> format ) ; return AVERROR_PATCHWELCOME ; } if ( ( ret = ff_get_buffer ( avctx , p , 0 ) ) < 0 ) return ret ; p -> pict_type = AV_PICTURE_TYPE_I ; if ( encoding ) { av_fast_padded_malloc ( & c -> new_video , & c -> new_video_size , h * w + AV_INPUT_BUFFER_PADDING_SIZE ) ; if ( ! c -> new_video ) return AVERROR ( ENOMEM ) ; if ( c -> bpp == 8 ) cdxl_decode_ham8 ( c , p ) ; else cdxl_decode_ham6 ( c , p ) ; } else if ( avctx -> pix_fmt == AV_PIX_FMT_PAL8 ) { cdxl_decode_rgb ( c , p ) ; } else { cdxl_decode_raw ( c , p ) ; } * got_frame = 1 ; return buf_size ; }" 204,"CWE-264 int regset_tls_set ( struct task_struct * target , const struct user_regset * regset , unsigned int pos , unsigned int count , const void * kbuf , const void __user * ubuf ) { struct user_desc infobuf [ GDT_ENTRY_TLS_ENTRIES ] ; const struct user_desc * info ; if ( pos >= GDT_ENTRY_TLS_ENTRIES * sizeof ( struct user_desc ) || ( pos % sizeof ( struct user_desc ) ) != 0 || ( count % sizeof ( struct user_desc ) ) != 0 ) return - EINVAL ; if ( kbuf ) info = kbuf ; else if ( __copy_from_user ( infobuf , ubuf , count ) ) return - EFAULT ; else info = infobuf ; set_tls_desc ( target , GDT_ENTRY_TLS_MIN + ( pos / sizeof ( struct user_desc ) ) , info , count / sizeof ( struct user_desc ) ) ; return 0 ; }","int regset_tls_set ( struct task_struct * target , const struct user_regset * regset , unsigned int pos , unsigned int count , const void * kbuf , const void __user * ubuf ) { struct user_desc infobuf [ GDT_ENTRY_TLS_ENTRIES ] ; const struct user_desc * info ; int i ; if ( pos >= GDT_ENTRY_TLS_ENTRIES * sizeof ( struct user_desc ) || ( pos % sizeof ( struct user_desc ) ) != 0 || ( count % sizeof ( struct user_desc ) ) != 0 ) return - EINVAL ; if ( kbuf ) info = kbuf ; else if ( __copy_from_user ( infobuf , ubuf , count ) ) return - EFAULT ; else info = infobuf ; for ( i = 0 ; i < count / sizeof ( struct user_desc ) ; i ++ ) if ( ! tls_desc_okay ( info + i ) ) return - EINVAL ; set_tls_desc ( target , GDT_ENTRY_TLS_MIN + ( pos / sizeof ( struct user_desc ) ) , info , count / sizeof ( struct user_desc ) ) ; return 0 ; }" 205,"NVD-CWE-noinfo static inline int xfrm_replay_verify_len ( struct xfrm_replay_state_esn * replay_esn , struct nlattr * rp ) { struct xfrm_replay_state_esn * up ; int ulen ; if ( ! replay_esn || ! rp ) return 0 ; up = nla_data ( rp ) ; ulen = xfrm_replay_state_esn_len ( up ) ; if ( nla_len ( rp ) < ulen || xfrm_replay_state_esn_len ( replay_esn ) != ulen ) return - EINVAL ; if ( up -> replay_window > up -> bmp_len * sizeof ( __u32 ) * 8 ) return - EINVAL ; return 0 ; }","static inline int xfrm_replay_verify_len ( struct xfrm_replay_state_esn * replay_esn , struct nlattr * rp ) { struct xfrm_replay_state_esn * up ; int ulen ; if ( ! replay_esn || ! rp ) return 0 ; up = nla_data ( rp ) ; ulen = xfrm_replay_state_esn_len ( up ) ; if ( nla_len ( rp ) < ulen || xfrm_replay_state_esn_len ( replay_esn ) != ulen || replay_esn -> bmp_len != up -> bmp_len ) return - EINVAL ; if ( up -> replay_window > up -> bmp_len * sizeof ( __u32 ) * 8 ) return - EINVAL ; return 0 ; }" 206,"CWE-189 static EAS_RESULT Parse_wave ( SDLS_SYNTHESIZER_DATA * pDLSData , EAS_I32 pos , EAS_U16 waveIndex ) { EAS_RESULT result ; EAS_U32 temp ; EAS_I32 size ; EAS_I32 endChunk ; EAS_I32 chunkPos ; EAS_I32 wsmpPos = 0 ; EAS_I32 fmtPos = 0 ; EAS_I32 dataPos = 0 ; EAS_I32 dataSize = 0 ; S_WSMP_DATA * p ; void * pSample ; S_WSMP_DATA wsmp ; chunkPos = pos + 12 ; if ( ( result = EAS_HWFileSeek ( pDLSData -> hwInstData , pDLSData -> fileHandle , pos ) ) != EAS_SUCCESS ) return result ; if ( ( result = NextChunk ( pDLSData , & pos , & temp , & size ) ) != EAS_SUCCESS ) return result ; if ( temp != CHUNK_WAVE ) { { } return EAS_ERROR_FILE_FORMAT ; } pos = chunkPos ; endChunk = pos + size ; while ( pos < endChunk ) { chunkPos = pos ; if ( ( result = NextChunk ( pDLSData , & pos , & temp , & size ) ) != EAS_SUCCESS ) return result ; switch ( temp ) { case CHUNK_WSMP : wsmpPos = chunkPos + 8 ; break ; case CHUNK_FMT : fmtPos = chunkPos + 8 ; break ; case CHUNK_DATA : dataPos = chunkPos + 8 ; dataSize = size ; break ; default : break ; } } if ( dataSize > MAX_DLS_WAVE_SIZE ) { return EAS_ERROR_SOUND_LIBRARY ; } if ( pDLSData -> pDLS == NULL ) p = & wsmp ; else p = & pDLSData -> wsmpData [ waveIndex ] ; p -> fineTune = 0 ; p -> unityNote = 60 ; p -> gain = 0 ; p -> loopStart = 0 ; p -> loopLength = 0 ; if ( ! fmtPos ) { { } return EAS_ERROR_UNRECOGNIZED_FORMAT ; } if ( ! dataPos ) { { } return EAS_ERROR_UNRECOGNIZED_FORMAT ; } if ( wsmpPos ) { if ( ( result = Parse_wsmp ( pDLSData , wsmpPos , p ) ) != EAS_SUCCESS ) return result ; } if ( ( result = Parse_fmt ( pDLSData , fmtPos , p ) ) != EAS_SUCCESS ) return result ; if ( bitDepth == 8 ) { if ( p -> bitsPerSample == 8 ) size = dataSize ; else size = dataSize >> 1 ; if ( p -> loopLength ) size ++ ; } else { if ( p -> bitsPerSample == 16 ) size = dataSize ; else size = dataSize << 1 ; if ( p -> loopLength ) size += 2 ; } if ( pDLSData -> pDLS == NULL ) { pDLSData -> wavePoolSize += ( EAS_U32 ) size ;","static EAS_RESULT Parse_wave ( SDLS_SYNTHESIZER_DATA * pDLSData , EAS_I32 pos , EAS_U16 waveIndex ) { EAS_RESULT result ; EAS_U32 temp ; EAS_I32 size ; EAS_I32 endChunk ; EAS_I32 chunkPos ; EAS_I32 wsmpPos = 0 ; EAS_I32 fmtPos = 0 ; EAS_I32 dataPos = 0 ; EAS_I32 dataSize = 0 ; S_WSMP_DATA * p ; void * pSample ; S_WSMP_DATA wsmp ; chunkPos = pos + 12 ; if ( ( result = EAS_HWFileSeek ( pDLSData -> hwInstData , pDLSData -> fileHandle , pos ) ) != EAS_SUCCESS ) return result ; if ( ( result = NextChunk ( pDLSData , & pos , & temp , & size ) ) != EAS_SUCCESS ) return result ; if ( temp != CHUNK_WAVE ) { { } return EAS_ERROR_FILE_FORMAT ; } pos = chunkPos ; endChunk = pos + size ; while ( pos < endChunk ) { chunkPos = pos ; if ( ( result = NextChunk ( pDLSData , & pos , & temp , & size ) ) != EAS_SUCCESS ) return result ; switch ( temp ) { case CHUNK_WSMP : wsmpPos = chunkPos + 8 ; break ; case CHUNK_FMT : fmtPos = chunkPos + 8 ; break ; case CHUNK_DATA : dataPos = chunkPos + 8 ; dataSize = size ; break ; default : break ; } } if ( dataSize < 0 || dataSize > MAX_DLS_WAVE_SIZE ) { return EAS_ERROR_SOUND_LIBRARY ; } if ( pDLSData -> pDLS == NULL ) p = & wsmp ; else p = & pDLSData -> wsmpData [ waveIndex ] ; p -> fineTune = 0 ; p -> unityNote = 60 ; p -> gain = 0 ; p -> loopStart = 0 ; p -> loopLength = 0 ; if ( ! fmtPos ) { { } return EAS_ERROR_UNRECOGNIZED_FORMAT ; } if ( ! dataPos ) { { } return EAS_ERROR_UNRECOGNIZED_FORMAT ; } if ( wsmpPos ) { if ( ( result = Parse_wsmp ( pDLSData , wsmpPos , p ) ) != EAS_SUCCESS ) return result ; } if ( ( result = Parse_fmt ( pDLSData , fmtPos , p ) ) != EAS_SUCCESS ) return result ; if ( bitDepth == 8 ) { if ( p -> bitsPerSample == 8 ) size = dataSize ; else size = dataSize >> 1 ; if ( p -> loopLength ) size ++ ; } else { if ( p -> bitsPerSample == 16 ) size = dataSize ; else size = dataSize << 1 ; if ( p -> loopLength ) size += 2 ; } if ( pDLSData -> pDLS == NULL ) { pDLSData -> wavePoolSize += ( EAS_U32 ) size ;" 207,"CWE-200 static int proc_connectinfo ( struct usb_dev_state * ps , void __user * arg ) { struct usbdevfs_connectinfo ci = { . devnum = ps -> dev -> devnum , . slow = ps -> dev -> speed == USB_SPEED_LOW } ; if ( copy_to_user ( arg , & ci , sizeof ( ci ) ) ) return - EFAULT ; return 0 ; }","static int proc_connectinfo ( struct usb_dev_state * ps , void __user * arg ) { struct usbdevfs_connectinfo ci ; memset ( & ci , 0 , sizeof ( ci ) ) ; ci . devnum = ps -> dev -> devnum ; ci . slow = ps -> dev -> speed == USB_SPEED_LOW ; if ( copy_to_user ( arg , & ci , sizeof ( ci ) ) ) return - EFAULT ; return 0 ; }" 208,"CWE-190 int jas_stream_pad ( jas_stream_t * stream , int n , int c ) { int m ; m = n ; for ( m = n ; m > 0 ; -- m ) { if ( jas_stream_putc ( stream , c ) == EOF ) return n - m ; } return n ; }","int jas_stream_pad ( jas_stream_t * stream , int n , int c ) { int m ; if ( n < 0 ) { jas_deprecated ( ""negative count for jas_stream_pad"" ) ; } m = n ; for ( m = n ; m > 0 ; -- m ) { if ( jas_stream_putc ( stream , c ) == EOF ) return n - m ; } return n ; }" 209,"CWE-200 for ( x = 0 ; x < ( ssize_t ) map_length ; x ++ ) * p ++ = ( unsigned char ) ScaleShortToQuantum ( ReadBlobLSBShort ( image ) ) ; } if ( ( flags & 0x08 ) != 0 ) { char * comment ; size_t length ; length = ReadBlobLSBShort ( image ) ; if ( length != 0 ) { comment = ( char * ) AcquireQuantumMemory ( length , sizeof ( * comment ) ) ; if ( comment == ( char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; count = ReadBlob ( image , length - 1 , ( unsigned char * ) comment ) ; comment [ length - 1 ] = '\\0' ; ( void ) SetImageProperty ( image , ""comment"" , comment , exception ) ; comment = DestroyString ( comment ) ; if ( ( length & 0x01 ) == 0 ) ( void ) ReadBlobByte ( image ) ; } } if ( EOFBlob ( image ) != MagickFalse ) { ThrowFileException ( exception , CorruptImageError , ""UnexpectedEndOfFile"" , image -> filename ) ; break ; } if ( ( image_info -> ping != MagickFalse ) && ( image_info -> number_scenes != 0 ) ) if ( image -> scene >= ( image_info -> scene + image_info -> number_scenes - 1 ) ) break ; status = SetImageExtent ( image , image -> columns , image -> rows , exception ) ; if ( status == MagickFalse ) return ( DestroyImageList ( image ) ) ; if ( image -> alpha_trait != UndefinedPixelTrait ) number_planes ++ ; number_pixels = ( MagickSizeType ) image -> columns * image -> rows ; number_planes_filled = ( number_planes % 2 == 0 ) ? number_planes : number_planes + 1 ; if ( ( number_pixels * number_planes_filled ) != ( size_t ) ( number_pixels * number_planes_filled ) ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; pixel_info = AcquireVirtualMemory ( image -> columns , image -> rows * MagickMax ( number_planes_filled , 4 ) * sizeof ( * pixels ) ) ; if ( pixel_info == ( MemoryInfo * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; pixel_info_length = image -> columns * image -> rows * MagickMax ( number_planes_filled , 4 ) ; pixels = ( unsigned char * ) GetVirtualMemoryBlob ( pixel_info ) ; if ( ( flags & 0x01 ) && ! ( flags & 0x02 ) ) { ssize_t j ; p = pixels ; for ( i = 0 ; i < ( ssize_t ) number_pixels ; i ++ ) { if ( image -> alpha_trait == UndefinedPixelTrait ) for ( j = 0 ; j < ( ssize_t ) number_planes ; j ++ ) * p ++ = background_color [ j ] ; else { for ( j = 0 ; j < ( ssize_t ) ( number_planes - 1 ) ; j ++ ) * p ++ = background_color [ j ] ; * p ++ = 0 ; } } } plane = 0 ; x = 0 ; y = 0 ; opcode = ReadBlobByte ( image ) ; do { switch ( opcode & 0x3f ) { case SkipLinesOp : { operand = ReadBlobByte ( image ) ; if ( opcode & 0x40 ) operand = ReadBlobLSBSignedShort ( image ) ; x = 0 ; y += operand ; break ; } case SetColorOp : { operand = ReadBlobByte ( image ) ; plane = ( unsigned char ) operand ; if ( plane == 255 ) plane = ( unsigned char ) ( number_planes - 1 ) ; x = 0 ; break ; } case SkipPixelsOp : { operand = ReadBlobByte ( image ) ; if ( opcode & 0x40 ) operand = ReadBlobLSBSignedShort ( image ) ; x += operand ;","for ( x = 0 ; x < ( ssize_t ) map_length ; x ++ ) * p ++ = ( unsigned char ) ScaleShortToQuantum ( ReadBlobLSBShort ( image ) ) ; } if ( ( flags & 0x08 ) != 0 ) { char * comment ; size_t length ; length = ReadBlobLSBShort ( image ) ; if ( length != 0 ) { comment = ( char * ) AcquireQuantumMemory ( length , sizeof ( * comment ) ) ; if ( comment == ( char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; count = ReadBlob ( image , length - 1 , ( unsigned char * ) comment ) ; comment [ length - 1 ] = '\\0' ; ( void ) SetImageProperty ( image , ""comment"" , comment , exception ) ; comment = DestroyString ( comment ) ; if ( ( length & 0x01 ) == 0 ) ( void ) ReadBlobByte ( image ) ; } } if ( EOFBlob ( image ) != MagickFalse ) { ThrowFileException ( exception , CorruptImageError , ""UnexpectedEndOfFile"" , image -> filename ) ; break ; } if ( ( image_info -> ping != MagickFalse ) && ( image_info -> number_scenes != 0 ) ) if ( image -> scene >= ( image_info -> scene + image_info -> number_scenes - 1 ) ) break ; status = SetImageExtent ( image , image -> columns , image -> rows , exception ) ; if ( status == MagickFalse ) return ( DestroyImageList ( image ) ) ; if ( image -> alpha_trait != UndefinedPixelTrait ) number_planes ++ ; number_pixels = ( MagickSizeType ) image -> columns * image -> rows ; number_planes_filled = ( number_planes % 2 == 0 ) ? number_planes : number_planes + 1 ; if ( ( number_pixels * number_planes_filled ) != ( size_t ) ( number_pixels * number_planes_filled ) ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; pixel_info = AcquireVirtualMemory ( image -> columns , image -> rows * MagickMax ( number_planes_filled , 4 ) * sizeof ( * pixels ) ) ; if ( pixel_info == ( MemoryInfo * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; pixel_info_length = image -> columns * image -> rows * MagickMax ( number_planes_filled , 4 ) ; pixels = ( unsigned char * ) GetVirtualMemoryBlob ( pixel_info ) ; ( void ) ResetMagickMemory ( pixels , 0 , pixel_info_length ) ; if ( ( flags & 0x01 ) && ! ( flags & 0x02 ) ) { ssize_t j ; p = pixels ; for ( i = 0 ; i < ( ssize_t ) number_pixels ; i ++ ) { if ( image -> alpha_trait == UndefinedPixelTrait ) for ( j = 0 ; j < ( ssize_t ) number_planes ; j ++ ) * p ++ = background_color [ j ] ; else { for ( j = 0 ; j < ( ssize_t ) ( number_planes - 1 ) ; j ++ ) * p ++ = background_color [ j ] ; * p ++ = 0 ; } } } plane = 0 ; x = 0 ; y = 0 ; opcode = ReadBlobByte ( image ) ; do { switch ( opcode & 0x3f ) { case SkipLinesOp : { operand = ReadBlobByte ( image ) ; if ( opcode & 0x40 ) operand = ReadBlobLSBSignedShort ( image ) ; x = 0 ; y += operand ; break ; } case SetColorOp : { operand = ReadBlobByte ( image ) ; plane = ( unsigned char ) operand ; if ( plane == 255 ) plane = ( unsigned char ) ( number_planes - 1 ) ; x = 0 ; break ; } case SkipPixelsOp : { operand = ReadBlobByte ( image ) ; if ( opcode & 0x40 ) operand = ReadBlobLSBSignedShort ( image ) ; x += operand ;" 210,"CWE-416 static int do_last ( struct nameidata * nd , struct file * file , const struct open_flags * op ) { struct dentry * dir = nd -> path . dentry ; int open_flag = op -> open_flag ; bool will_truncate = ( open_flag & O_TRUNC ) != 0 ; bool got_write = false ; int acc_mode = op -> acc_mode ; unsigned seq ; struct inode * inode ; struct path path ; int error ; nd -> flags &= ~ LOOKUP_PARENT ; nd -> flags |= op -> intent ; if ( nd -> last_type != LAST_NORM ) { error = handle_dots ( nd , nd -> last_type ) ; if ( unlikely ( error ) ) return error ; goto finish_open ; } if ( ! ( open_flag & O_CREAT ) ) { if ( nd -> last . name [ nd -> last . len ] ) nd -> flags |= LOOKUP_FOLLOW | LOOKUP_DIRECTORY ; error = lookup_fast ( nd , & path , & inode , & seq ) ; if ( likely ( error > 0 ) ) goto finish_lookup ; if ( error < 0 ) return error ; BUG_ON ( nd -> inode != dir -> d_inode ) ; BUG_ON ( nd -> flags & LOOKUP_RCU ) ; } else { error = complete_walk ( nd ) ; if ( error ) return error ; audit_inode ( nd -> name , dir , AUDIT_INODE_PARENT ) ; if ( unlikely ( nd -> last . name [ nd -> last . len ] ) ) return - EISDIR ; } if ( open_flag & ( O_CREAT | O_TRUNC | O_WRONLY | O_RDWR ) ) { error = mnt_want_write ( nd -> path . mnt ) ; if ( ! error ) got_write = true ; } if ( open_flag & O_CREAT ) inode_lock ( dir -> d_inode ) ; else inode_lock_shared ( dir -> d_inode ) ; error = lookup_open ( nd , & path , file , op , got_write ) ; if ( open_flag & O_CREAT ) inode_unlock ( dir -> d_inode ) ; else inode_unlock_shared ( dir -> d_inode ) ; if ( error ) goto out ; if ( file -> f_mode & FMODE_OPENED ) { if ( ( file -> f_mode & FMODE_CREATED ) || ! S_ISREG ( file_inode ( file ) -> i_mode ) ) will_truncate = false ; audit_inode ( nd -> name , file -> f_path . dentry , 0 ) ; goto opened ; } if ( file -> f_mode & FMODE_CREATED ) { open_flag &= ~ O_TRUNC ; will_truncate = false ; acc_mode = 0 ; path_to_nameidata ( & path , nd ) ; goto finish_open_created ; } if ( got_write ) { mnt_drop_write ( nd -> path . mnt ) ; got_write = false ; } error = follow_managed ( & path , nd ) ; if ( unlikely ( error < 0 ) ) return error ; audit_inode ( nd -> name , path . dentry , 0 ) ; if ( unlikely ( ( open_flag & ( O_EXCL | O_CREAT ) ) == ( O_EXCL | O_CREAT ) ) ) { path_to_nameidata ( & path , nd ) ; return - EEXIST ; } seq = 0 ; inode = d_backing_inode ( path . dentry ) ; finish_lookup : error = step_into ( nd , & path , 0 , inode , seq ) ; if ( unlikely ( error ) ) return error ; finish_open : error = complete_walk ( nd ) ; if ( error ) return error ; audit_inode ( nd -> name , nd -> path . dentry , 0 ) ; if ( open_flag & O_CREAT ) { error = - EISDIR ; if ( d_is_dir ( nd -> path . dentry ) ) goto out ; error = may_create_in_sticky ( dir , d_backing_inode ( nd -> path . dentry ) ) ; if ( unlikely ( error ) ) goto out ; } error = - ENOTDIR ; if ( ( nd -> flags & LOOKUP_DIRECTORY ) && ! d_can_lookup ( nd -> path . dentry ) ) goto out ; if ( ! d_is_reg ( nd -> path . dentry ) ) will_truncate = false ; if ( will_truncate ) { error = mnt_want_write ( nd -> path . mnt ) ; if ( error ) goto out ; got_write = true ; } finish_open_created : error = may_open ( & nd -> path , acc_mode , open_flag ) ; if ( error ) goto out ; BUG_ON ( file -> f_mode & FMODE_OPENED ) ; error = vfs_open ( & nd -> path , file ) ; if ( error ) goto out ; opened : error = ima_file_check ( file , op -> acc_mode ) ; if ( ! error && will_truncate ) error = handle_truncate ( file ) ; out : if ( unlikely ( error > 0 ) ) { WARN_ON ( 1 ) ; error = - EINVAL ; } if ( got_write ) mnt_drop_write ( nd -> path . mnt ) ; return error ; }","static int do_last ( struct nameidata * nd , struct file * file , const struct open_flags * op ) { struct dentry * dir = nd -> path . dentry ; kuid_t dir_uid = dir -> d_inode -> i_uid ; umode_t dir_mode = dir -> d_inode -> i_mode ; int open_flag = op -> open_flag ; bool will_truncate = ( open_flag & O_TRUNC ) != 0 ; bool got_write = false ; int acc_mode = op -> acc_mode ; unsigned seq ; struct inode * inode ; struct path path ; int error ; nd -> flags &= ~ LOOKUP_PARENT ; nd -> flags |= op -> intent ; if ( nd -> last_type != LAST_NORM ) { error = handle_dots ( nd , nd -> last_type ) ; if ( unlikely ( error ) ) return error ; goto finish_open ; } if ( ! ( open_flag & O_CREAT ) ) { if ( nd -> last . name [ nd -> last . len ] ) nd -> flags |= LOOKUP_FOLLOW | LOOKUP_DIRECTORY ; error = lookup_fast ( nd , & path , & inode , & seq ) ; if ( likely ( error > 0 ) ) goto finish_lookup ; if ( error < 0 ) return error ; BUG_ON ( nd -> inode != dir -> d_inode ) ; BUG_ON ( nd -> flags & LOOKUP_RCU ) ; } else { error = complete_walk ( nd ) ; if ( error ) return error ; audit_inode ( nd -> name , dir , AUDIT_INODE_PARENT ) ; if ( unlikely ( nd -> last . name [ nd -> last . len ] ) ) return - EISDIR ; } if ( open_flag & ( O_CREAT | O_TRUNC | O_WRONLY | O_RDWR ) ) { error = mnt_want_write ( nd -> path . mnt ) ; if ( ! error ) got_write = true ; } if ( open_flag & O_CREAT ) inode_lock ( dir -> d_inode ) ; else inode_lock_shared ( dir -> d_inode ) ; error = lookup_open ( nd , & path , file , op , got_write ) ; if ( open_flag & O_CREAT ) inode_unlock ( dir -> d_inode ) ; else inode_unlock_shared ( dir -> d_inode ) ; if ( error ) goto out ; if ( file -> f_mode & FMODE_OPENED ) { if ( ( file -> f_mode & FMODE_CREATED ) || ! S_ISREG ( file_inode ( file ) -> i_mode ) ) will_truncate = false ; audit_inode ( nd -> name , file -> f_path . dentry , 0 ) ; goto opened ; } if ( file -> f_mode & FMODE_CREATED ) { open_flag &= ~ O_TRUNC ; will_truncate = false ; acc_mode = 0 ; path_to_nameidata ( & path , nd ) ; goto finish_open_created ; } if ( got_write ) { mnt_drop_write ( nd -> path . mnt ) ; got_write = false ; } error = follow_managed ( & path , nd ) ; if ( unlikely ( error < 0 ) ) return error ; audit_inode ( nd -> name , path . dentry , 0 ) ; if ( unlikely ( ( open_flag & ( O_EXCL | O_CREAT ) ) == ( O_EXCL | O_CREAT ) ) ) { path_to_nameidata ( & path , nd ) ; return - EEXIST ; } seq = 0 ; inode = d_backing_inode ( path . dentry ) ; finish_lookup : error = step_into ( nd , & path , 0 , inode , seq ) ; if ( unlikely ( error ) ) return error ; finish_open : error = complete_walk ( nd ) ; if ( error ) return error ; audit_inode ( nd -> name , nd -> path . dentry , 0 ) ; if ( open_flag & O_CREAT ) { error = - EISDIR ; if ( d_is_dir ( nd -> path . dentry ) ) goto out ; error = may_create_in_sticky ( dir_mode , dir_uid , d_backing_inode ( nd -> path . dentry ) ) ; if ( unlikely ( error ) ) goto out ; } error = - ENOTDIR ; if ( ( nd -> flags & LOOKUP_DIRECTORY ) && ! d_can_lookup ( nd -> path . dentry ) ) goto out ; if ( ! d_is_reg ( nd -> path . dentry ) ) will_truncate = false ; if ( will_truncate ) { error = mnt_want_write ( nd -> path . mnt ) ; if ( error ) goto out ; got_write = true ; } finish_open_created : error = may_open ( & nd -> path , acc_mode , open_flag ) ; if ( error ) goto out ; BUG_ON ( file -> f_mode & FMODE_OPENED ) ; error = vfs_open ( & nd -> path , file ) ; if ( error ) goto out ; opened : error = ima_file_check ( file , op -> acc_mode ) ; if ( ! error && will_truncate ) error = handle_truncate ( file ) ; out : if ( unlikely ( error > 0 ) ) { WARN_ON ( 1 ) ; error = - EINVAL ; } if ( got_write ) mnt_drop_write ( nd -> path . mnt ) ; return error ; }" 211,"CWE-125 int main ( ) { gdImagePtr im ; char * buffer ; size_t size ; size = read_test_file ( & buffer , ""heap_overflow.tga"" ) ; im = gdImageCreateFromTgaPtr ( size , ( void * ) buffer ) ; gdTestAssert ( im == NULL ) ; free ( buffer ) ; return gdNumFailures ( ) ; }","int main ( ) { check_file ( ""heap_overflow_1.tga"" ) ; check_file ( ""heap_overflow_2.tga"" ) ; return gdNumFailures ( ) ; }" 212,"CWE-119 int stats_open_file ( stats_io_t * stats , const char * fpf , int pass ) { int res ; stats -> pass = pass ; if ( pass == 0 ) { stats -> file = fopen ( fpf , ""wb"" ) ; stats -> buf . sz = 0 ; stats -> buf . buf = NULL ; res = ( stats -> file != NULL ) ; } else { # if USE_POSIX_MMAP struct stat stat_buf ; int fd ; fd = open ( fpf , O_RDONLY ) ; stats -> file = fdopen ( fd , ""rb"" ) ; fstat ( fd , & stat_buf ) ; stats -> buf . sz = stat_buf . st_size ; stats -> buf . buf = mmap ( NULL , stats -> buf . sz , PROT_READ , MAP_PRIVATE , fd , 0 ) ; res = ( stats -> buf . buf != NULL ) ; # else size_t nbytes ; stats -> file = fopen ( fpf , ""rb"" ) ; if ( fseek ( stats -> file , 0 , SEEK_END ) ) fatal ( ""First-pass stats file must be seekable!"" ) ; stats -> buf . sz = stats -> buf_alloc_sz = ftell ( stats -> file ) ; rewind ( stats -> file ) ; stats -> buf . buf = malloc ( stats -> buf_alloc_sz ) ; if ( ! stats -> buf . buf ) fatal ( ""Failed to allocate first-pass stats buffer (%lu bytes)"" , ( unsigned int ) stats -> buf_alloc_sz ) ; nbytes = fread ( stats -> buf . buf , 1 , stats -> buf . sz , stats -> file ) ; res = ( nbytes == stats -> buf . sz ) ; # endif } return res ; }","int stats_open_file ( stats_io_t * stats , const char * fpf , int pass ) { int res ; stats -> pass = pass ; if ( pass == 0 ) { stats -> file = fopen ( fpf , ""wb"" ) ; stats -> buf . sz = 0 ; stats -> buf . buf = NULL ; res = ( stats -> file != NULL ) ; } else { # if USE_POSIX_MMAP struct stat stat_buf ; int fd ; fd = open ( fpf , O_RDONLY ) ; stats -> file = fdopen ( fd , ""rb"" ) ; fstat ( fd , & stat_buf ) ; stats -> buf . sz = stat_buf . st_size ; stats -> buf . buf = mmap ( NULL , stats -> buf . sz , PROT_READ , MAP_PRIVATE , fd , 0 ) ; res = ( stats -> buf . buf != NULL ) ; # else size_t nbytes ; stats -> file = fopen ( fpf , ""rb"" ) ; if ( stats -> file == NULL ) fatal ( ""First-pass stats file does not exist!"" ) ; if ( fseek ( stats -> file , 0 , SEEK_END ) ) fatal ( ""First-pass stats file must be seekable!"" ) ; stats -> buf . sz = stats -> buf_alloc_sz = ftell ( stats -> file ) ; rewind ( stats -> file ) ; stats -> buf . buf = malloc ( stats -> buf_alloc_sz ) ; if ( ! stats -> buf . buf ) fatal ( ""Failed to allocate first-pass stats buffer (%lu bytes)"" , ( unsigned int ) stats -> buf_alloc_sz ) ; nbytes = fread ( stats -> buf . buf , 1 , stats -> buf . sz , stats -> file ) ; res = ( nbytes == stats -> buf . sz ) ; # endif } return res ; }" 213,"CWE-787 BOOL nsc_process_message ( NSC_CONTEXT * context , UINT16 bpp , UINT32 width , UINT32 height , const BYTE * data , UINT32 length , BYTE * pDstData , UINT32 DstFormat , UINT32 nDstStride , UINT32 nXDst , UINT32 nYDst , UINT32 nWidth , UINT32 nHeight , UINT32 flip ) { wStream * s ; BOOL ret ; s = Stream_New ( ( BYTE * ) data , length ) ; if ( ! s ) return FALSE ; if ( nDstStride == 0 ) nDstStride = nWidth * GetBytesPerPixel ( DstFormat ) ; switch ( bpp ) { case 32 : context -> format = PIXEL_FORMAT_BGRA32 ; break ; case 24 : context -> format = PIXEL_FORMAT_BGR24 ; break ; case 16 : context -> format = PIXEL_FORMAT_BGR16 ; break ; case 8 : context -> format = PIXEL_FORMAT_RGB8 ; break ; case 4 : context -> format = PIXEL_FORMAT_A4 ; break ; default : Stream_Free ( s , TRUE ) ; return FALSE ; } context -> width = width ; context -> height = height ; ret = nsc_context_initialize ( context , s ) ; Stream_Free ( s , FALSE ) ; if ( ! ret ) return FALSE ; PROFILER_ENTER ( context -> priv -> prof_nsc_rle_decompress_data ) nsc_rle_decompress_data ( context ) ; PROFILER_EXIT ( context -> priv -> prof_nsc_rle_decompress_data ) PROFILER_ENTER ( context -> priv -> prof_nsc_decode ) context -> decode ( context ) ; PROFILER_EXIT ( context -> priv -> prof_nsc_decode ) if ( ! freerdp_image_copy ( pDstData , DstFormat , nDstStride , nXDst , nYDst , width , height , context -> BitmapData , PIXEL_FORMAT_BGRA32 , 0 , 0 , 0 , NULL , flip ) ) return FALSE ; return TRUE ; }","BOOL nsc_process_message ( NSC_CONTEXT * context , UINT16 bpp , UINT32 width , UINT32 height , const BYTE * data , UINT32 length , BYTE * pDstData , UINT32 DstFormat , UINT32 nDstStride , UINT32 nXDst , UINT32 nYDst , UINT32 nWidth , UINT32 nHeight , UINT32 flip ) { wStream * s ; BOOL ret ; s = Stream_New ( ( BYTE * ) data , length ) ; if ( ! s ) return FALSE ; if ( nDstStride == 0 ) nDstStride = nWidth * GetBytesPerPixel ( DstFormat ) ; switch ( bpp ) { case 32 : context -> format = PIXEL_FORMAT_BGRA32 ; break ; case 24 : context -> format = PIXEL_FORMAT_BGR24 ; break ; case 16 : context -> format = PIXEL_FORMAT_BGR16 ; break ; case 8 : context -> format = PIXEL_FORMAT_RGB8 ; break ; case 4 : context -> format = PIXEL_FORMAT_A4 ; break ; default : Stream_Free ( s , TRUE ) ; return FALSE ; } context -> width = width ; context -> height = height ; ret = nsc_context_initialize ( context , s ) ; Stream_Free ( s , FALSE ) ; if ( ! ret ) return FALSE ; { BOOL rc ; PROFILER_ENTER ( context -> priv -> prof_nsc_rle_decompress_data ) rc = nsc_rle_decompress_data ( context ) ; PROFILER_EXIT ( context -> priv -> prof_nsc_rle_decompress_data ) if ( ! rc ) return FALSE ; } { BOOL rc ; PROFILER_ENTER ( context -> priv -> prof_nsc_decode ) rc = context -> decode ( context ) ; PROFILER_EXIT ( context -> priv -> prof_nsc_decode ) if ( ! rc ) return FALSE ; } if ( ! freerdp_image_copy ( pDstData , DstFormat , nDstStride , nXDst , nYDst , width , height , context -> BitmapData , PIXEL_FORMAT_BGRA32 , 0 , 0 , 0 , NULL , flip ) ) return FALSE ; return TRUE ; }" 214,"CWE-119 static int candidate_refresh_aq ( const CYCLIC_REFRESH * cr , const MB_MODE_INFO * mbmi , BLOCK_SIZE bsize , int use_rd ) { if ( use_rd ) { if ( cr -> projected_rate_sb < cr -> thresh_rate_sb ) return 1 ; else if ( bsize < cr -> min_block_size || ( mbmi -> mv [ 0 ] . as_int != 0 && cr -> projected_dist_sb > cr -> thresh_dist_sb ) || ! is_inter_block ( mbmi ) ) return 0 ; else return 1 ; } else { if ( bsize < cr -> min_block_size || mbmi -> mv [ 0 ] . as_int != 0 || ! is_inter_block ( mbmi ) ) return 0 ; else return 1 ; } }","static int candidate_refresh_aq ( const CYCLIC_REFRESH * cr , const MB_MODE_INFO * mbmi , int64_t rate , int64_t dist , int bsize ) { MV mv = mbmi -> mv [ 0 ] . as_mv ; if ( dist > cr -> thresh_dist_sb && ( mv . row > cr -> motion_thresh || mv . row < - cr -> motion_thresh || mv . col > cr -> motion_thresh || mv . col < - cr -> motion_thresh || ! is_inter_block ( mbmi ) ) ) return CR_SEGMENT_ID_BASE ; else if ( bsize >= BLOCK_16X16 && rate < cr -> thresh_rate_sb && is_inter_block ( mbmi ) && mbmi -> mv [ 0 ] . as_int == 0 && cr -> rate_boost_fac > 10 ) return CR_SEGMENT_ID_BOOST2 ; else return CR_SEGMENT_ID_BOOST1 ; }" 215,"NVD-CWE-Other char * guestfs___first_line_of_file ( guestfs_h * g , const char * filename ) { CLEANUP_FREE char * * lines = NULL ; int64_t size ; char * ret ; size = guestfs_filesize ( g , filename ) ; if ( size == - 1 ) return NULL ; if ( size > MAX_SMALL_FILE_SIZE ) { error ( g , _ ( ""size of %s is unreasonably large (%"" PRIi64 "" bytes)"" ) , filename , size ) ; return NULL ; } lines = guestfs_head_n ( g , 1 , filename ) ; if ( lines == NULL ) return NULL ; if ( lines [ 0 ] == NULL ) { guestfs___free_string_list ( lines ) ; return safe_strdup ( g , """" ) ; } ret = lines [ 0 ] ; return ret ; }","char * guestfs___first_line_of_file ( guestfs_h * g , const char * filename ) { char * * lines = NULL ; int64_t size ; char * ret ; size = guestfs_filesize ( g , filename ) ; if ( size == - 1 ) return NULL ; if ( size > MAX_SMALL_FILE_SIZE ) { error ( g , _ ( ""size of %s is unreasonably large (%"" PRIi64 "" bytes)"" ) , filename , size ) ; return NULL ; } lines = guestfs_head_n ( g , 1 , filename ) ; if ( lines == NULL ) return NULL ; if ( lines [ 0 ] == NULL ) { guestfs___free_string_list ( lines ) ; return safe_strdup ( g , """" ) ; } ret = lines [ 0 ] ; free ( lines ) ; return ret ; }" 216,"CWE-119 static void rdpdr_process ( STREAM s ) { uint32 handle ; uint16 vmin ; uint16 component ; uint16 pakid ; logger ( Protocol , Debug , ""rdpdr_process()"" ) ; in_uint16 ( s , component ) ; in_uint16 ( s , pakid ) ; if ( component == RDPDR_CTYP_CORE ) { switch ( pakid ) { case PAKID_CORE_DEVICE_IOREQUEST : rdpdr_process_irp ( s ) ; break ; case PAKID_CORE_SERVER_ANNOUNCE : in_uint8s ( s , 2 ) ; in_uint16_le ( s , vmin ) ; in_uint32_le ( s , g_client_id ) ; if ( vmin < 0x000c ) g_client_id = 0x815ed39d ; g_epoch ++ ; # if WITH_SCARD scard_release_all_contexts ( ) ; # endif rdpdr_send_client_announce_reply ( ) ; rdpdr_send_client_name_request ( ) ; break ; case PAKID_CORE_CLIENTID_CONFIRM : rdpdr_send_client_device_list_announce ( ) ; break ; case PAKID_CORE_DEVICE_REPLY : in_uint32 ( s , handle ) ; logger ( Protocol , Debug , ""rdpdr_process(), server connected to resource %d"" , handle ) ; break ; case PAKID_CORE_SERVER_CAPABILITY : rdpdr_send_client_capability_response ( ) ; break ; default : logger ( Protocol , Debug , ""rdpdr_process(), pakid 0x%x of component 0x%x"" , pakid , component ) ; break ; } } else if ( component == RDPDR_CTYP_PRN ) { if ( pakid == PAKID_PRN_CACHE_DATA ) printercache_process ( s ) ; } else logger ( Protocol , Warning , ""rdpdr_process(), unhandled component 0x%x"" , component ) ; }","static void rdpdr_process ( STREAM s ) { uint32 handle ; uint16 vmin ; uint16 component ; uint16 pakid ; struct stream packet = * s ; logger ( Protocol , Debug , ""rdpdr_process()"" ) ; in_uint16 ( s , component ) ; in_uint16 ( s , pakid ) ; if ( component == RDPDR_CTYP_CORE ) { switch ( pakid ) { case PAKID_CORE_DEVICE_IOREQUEST : rdpdr_process_irp ( s ) ; break ; case PAKID_CORE_SERVER_ANNOUNCE : in_uint8s ( s , 2 ) ; in_uint16_le ( s , vmin ) ; in_uint32_le ( s , g_client_id ) ; if ( ! s_check ( s ) ) { rdp_protocol_error ( ""rdpdr_process(), consume of g_client_id from stream did overrun"" , & packet ) ; } if ( vmin < 0x000c ) g_client_id = 0x815ed39d ; g_epoch ++ ; # if WITH_SCARD scard_release_all_contexts ( ) ; # endif rdpdr_send_client_announce_reply ( ) ; rdpdr_send_client_name_request ( ) ; break ; case PAKID_CORE_CLIENTID_CONFIRM : rdpdr_send_client_device_list_announce ( ) ; break ; case PAKID_CORE_DEVICE_REPLY : in_uint32 ( s , handle ) ; logger ( Protocol , Debug , ""rdpdr_process(), server connected to resource %d"" , handle ) ; break ; case PAKID_CORE_SERVER_CAPABILITY : rdpdr_send_client_capability_response ( ) ; break ; default : logger ( Protocol , Debug , ""rdpdr_process(), pakid 0x%x of component 0x%x"" , pakid , component ) ; break ; } } else if ( component == RDPDR_CTYP_PRN ) { if ( pakid == PAKID_PRN_CACHE_DATA ) printercache_process ( s ) ; } else logger ( Protocol , Warning , ""rdpdr_process(), unhandled component 0x%x"" , component ) ; }" 217,"CWE-119 void fadst4_sse2 ( __m128i * in ) { const __m128i k__sinpi_p01_p02 = pair_set_epi16 ( sinpi_1_9 , sinpi_2_9 ) ; const __m128i k__sinpi_p04_m01 = pair_set_epi16 ( sinpi_4_9 , - sinpi_1_9 ) ; const __m128i k__sinpi_p03_p04 = pair_set_epi16 ( sinpi_3_9 , sinpi_4_9 ) ; const __m128i k__sinpi_m03_p02 = pair_set_epi16 ( - sinpi_3_9 , sinpi_2_9 ) ; const __m128i k__sinpi_p03_p03 = _mm_set1_epi16 ( sinpi_3_9 ) ; const __m128i kZero = _mm_set1_epi16 ( 0 ) ; const __m128i k__DCT_CONST_ROUNDING = _mm_set1_epi32 ( DCT_CONST_ROUNDING ) ; __m128i u [ 8 ] , v [ 8 ] ; __m128i in7 = _mm_add_epi16 ( in [ 0 ] , in [ 1 ] ) ; u [ 0 ] = _mm_unpacklo_epi16 ( in [ 0 ] , in [ 1 ] ) ; u [ 1 ] = _mm_unpacklo_epi16 ( in [ 2 ] , in [ 3 ] ) ; u [ 2 ] = _mm_unpacklo_epi16 ( in7 , kZero ) ; u [ 3 ] = _mm_unpacklo_epi16 ( in [ 2 ] , kZero ) ; u [ 4 ] = _mm_unpacklo_epi16 ( in [ 3 ] , kZero ) ; v [ 0 ] = _mm_madd_epi16 ( u [ 0 ] , k__sinpi_p01_p02 ) ; v [ 1 ] = _mm_madd_epi16 ( u [ 1 ] , k__sinpi_p03_p04 ) ; v [ 2 ] = _mm_madd_epi16 ( u [ 2 ] , k__sinpi_p03_p03 ) ; v [ 3 ] = _mm_madd_epi16 ( u [ 0 ] , k__sinpi_p04_m01 ) ; v [ 4 ] = _mm_madd_epi16 ( u [ 1 ] , k__sinpi_m03_p02 ) ; v [ 5 ] = _mm_madd_epi16 ( u [ 3 ] , k__sinpi_p03_p03 ) ; v [ 6 ] = _mm_madd_epi16 ( u [ 4 ] , k__sinpi_p03_p03 ) ; u [ 0 ] = _mm_add_epi32 ( v [ 0 ] , v [ 1 ] ) ; u [ 1 ] = _mm_sub_epi32 ( v [ 2 ] , v [ 6 ] ) ; u [ 2 ] = _mm_add_epi32 ( v [ 3 ] , v [ 4 ] ) ; u [ 3 ] = _mm_sub_epi32 ( u [ 2 ] , u [ 0 ] ) ; u [ 4 ] = _mm_slli_epi32 ( v [ 5 ] , 2 ) ; u [ 5 ] = _mm_sub_epi32 ( u [ 4 ] , v [ 5 ] ) ; u [ 6 ] = _mm_add_epi32 ( u [ 3 ] , u [ 5 ] ) ; v [ 0 ] = _mm_add_epi32 ( u [ 0 ] , k__DCT_CONST_ROUNDING ) ; v [ 1 ] = _mm_add_epi32 ( u [ 1 ] , k__DCT_CONST_ROUNDING ) ; v [ 2 ] = _mm_add_epi32 ( u [ 2 ] , k__DCT_CONST_ROUNDING ) ; v [ 3 ] = _mm_add_epi32 ( u [ 6 ] , k__DCT_CONST_ROUNDING ) ; u [ 0 ] = _mm_srai_epi32 ( v [ 0 ] , DCT_CONST_BITS ) ; u [ 1 ] = _mm_srai_epi32 ( v [ 1 ] , DCT_CONST_BITS ) ; u [ 2 ] = _mm_srai_epi32 ( v [ 2 ] , DCT_CONST_BITS ) ; u [ 3 ] = _mm_srai_epi32 ( v [ 3 ] , DCT_CONST_BITS ) ; in [ 0 ] = _mm_packs_epi32 ( u [ 0 ] , u [ 2 ] ) ; in [ 1 ] = _mm_packs_epi32 ( u [ 1 ] , u [ 3 ] ) ; transpose_4x4 ( in ) ; }","static void fadst4_sse2 ( __m128i * in ) { const __m128i k__sinpi_p01_p02 = pair_set_epi16 ( sinpi_1_9 , sinpi_2_9 ) ; const __m128i k__sinpi_p04_m01 = pair_set_epi16 ( sinpi_4_9 , - sinpi_1_9 ) ; const __m128i k__sinpi_p03_p04 = pair_set_epi16 ( sinpi_3_9 , sinpi_4_9 ) ; const __m128i k__sinpi_m03_p02 = pair_set_epi16 ( - sinpi_3_9 , sinpi_2_9 ) ; const __m128i k__sinpi_p03_p03 = _mm_set1_epi16 ( ( int16_t ) sinpi_3_9 ) ; const __m128i kZero = _mm_set1_epi16 ( 0 ) ; const __m128i k__DCT_CONST_ROUNDING = _mm_set1_epi32 ( DCT_CONST_ROUNDING ) ; __m128i u [ 8 ] , v [ 8 ] ; __m128i in7 = _mm_add_epi16 ( in [ 0 ] , in [ 1 ] ) ; u [ 0 ] = _mm_unpacklo_epi16 ( in [ 0 ] , in [ 1 ] ) ; u [ 1 ] = _mm_unpacklo_epi16 ( in [ 2 ] , in [ 3 ] ) ; u [ 2 ] = _mm_unpacklo_epi16 ( in7 , kZero ) ; u [ 3 ] = _mm_unpacklo_epi16 ( in [ 2 ] , kZero ) ; u [ 4 ] = _mm_unpacklo_epi16 ( in [ 3 ] , kZero ) ; v [ 0 ] = _mm_madd_epi16 ( u [ 0 ] , k__sinpi_p01_p02 ) ; v [ 1 ] = _mm_madd_epi16 ( u [ 1 ] , k__sinpi_p03_p04 ) ; v [ 2 ] = _mm_madd_epi16 ( u [ 2 ] , k__sinpi_p03_p03 ) ; v [ 3 ] = _mm_madd_epi16 ( u [ 0 ] , k__sinpi_p04_m01 ) ; v [ 4 ] = _mm_madd_epi16 ( u [ 1 ] , k__sinpi_m03_p02 ) ; v [ 5 ] = _mm_madd_epi16 ( u [ 3 ] , k__sinpi_p03_p03 ) ; v [ 6 ] = _mm_madd_epi16 ( u [ 4 ] , k__sinpi_p03_p03 ) ; u [ 0 ] = _mm_add_epi32 ( v [ 0 ] , v [ 1 ] ) ; u [ 1 ] = _mm_sub_epi32 ( v [ 2 ] , v [ 6 ] ) ; u [ 2 ] = _mm_add_epi32 ( v [ 3 ] , v [ 4 ] ) ; u [ 3 ] = _mm_sub_epi32 ( u [ 2 ] , u [ 0 ] ) ; u [ 4 ] = _mm_slli_epi32 ( v [ 5 ] , 2 ) ; u [ 5 ] = _mm_sub_epi32 ( u [ 4 ] , v [ 5 ] ) ; u [ 6 ] = _mm_add_epi32 ( u [ 3 ] , u [ 5 ] ) ; v [ 0 ] = _mm_add_epi32 ( u [ 0 ] , k__DCT_CONST_ROUNDING ) ; v [ 1 ] = _mm_add_epi32 ( u [ 1 ] , k__DCT_CONST_ROUNDING ) ; v [ 2 ] = _mm_add_epi32 ( u [ 2 ] , k__DCT_CONST_ROUNDING ) ; v [ 3 ] = _mm_add_epi32 ( u [ 6 ] , k__DCT_CONST_ROUNDING ) ; u [ 0 ] = _mm_srai_epi32 ( v [ 0 ] , DCT_CONST_BITS ) ; u [ 1 ] = _mm_srai_epi32 ( v [ 1 ] , DCT_CONST_BITS ) ; u [ 2 ] = _mm_srai_epi32 ( v [ 2 ] , DCT_CONST_BITS ) ; u [ 3 ] = _mm_srai_epi32 ( v [ 3 ] , DCT_CONST_BITS ) ; in [ 0 ] = _mm_packs_epi32 ( u [ 0 ] , u [ 2 ] ) ; in [ 1 ] = _mm_packs_epi32 ( u [ 1 ] , u [ 3 ] ) ; transpose_4x4 ( in ) ; }" 218,"CWE-416 { assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.constants.one + 1 == tests.constants.two \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.constants.foo == \\""foo\\"" \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.constants.empty == \\""\\"" \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.empty() == \\""\\"" \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.struct_array[1].i == 1 \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.struct_array[0].i == 1 or true \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.integer_array[0] == 0 \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.integer_array[1] == 1 \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.string_array[0] == \\""foo\\"" \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.string_array[2] == \\""baz\\"" \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.string_dict[\\""foo\\""] == \\""foo\\"" \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.string_dict[\\""bar\\""] == \\""bar\\"" \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.isum(1,2) == 3 \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.isum(1,2,3) == 6 \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.fsum(1.0,2.0) == 3.0 \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.fsum(1.0,2.0,3.0) == 6.0 \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.length(\\""dummy\\"") == 5 \\ }"" , NULL ) ; assert_false_rule ( ""import \\""tests\\"" \\ rule test { condition: tests.struct_array[0].i == 1 \\ }"" , NULL ) ; assert_false_rule ( ""import \\""tests\\"" \\ rule test { condition: tests.isum(1,1) == 3 \\ }"" , NULL ) ; assert_false_rule ( ""import \\""tests\\"" \\ rule test { condition: tests.fsum(1.0,1.0) == 3.0 \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { condition: tests.match(/foo/,\\""foo\\"") == 3 \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { condition: tests.match(/foo/,\\""bar\\"") == -1\\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { condition: tests.match(/foo.bar/i,\\""FOO\\\\nBAR\\"") == -1\\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { condition: tests.match(/foo.bar/is,\\""FOO\\\\nBAR\\"") == 7\\ }"" , NULL ) ; assert_error ( ""import \\""\\\\x00\\"""" , ERROR_INVALID_MODULE_NAME ) ; assert_error ( ""import \\""\\"""" , ERROR_INVALID_MODULE_NAME ) ; }","{ assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.constants.one + 1 == tests.constants.two \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.constants.foo == \\""foo\\"" \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.constants.empty == \\""\\"" \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.empty() == \\""\\"" \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.struct_array[1].i == 1 \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.struct_array[0].i == 1 or true \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.integer_array[0] == 0 \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.integer_array[1] == 1 \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.string_array[0] == \\""foo\\"" \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.string_array[2] == \\""baz\\"" \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.string_dict[\\""foo\\""] == \\""foo\\"" \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.string_dict[\\""bar\\""] == \\""bar\\"" \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.isum(1,2) == 3 \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.isum(1,2,3) == 6 \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.fsum(1.0,2.0) == 3.0 \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.fsum(1.0,2.0,3.0) == 6.0 \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.foobar(1) == tests.foobar(1) \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.foobar(1) != tests.foobar(2) \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { \\ condition: tests.length(\\""dummy\\"") == 5 \\ }"" , NULL ) ; assert_false_rule ( ""import \\""tests\\"" \\ rule test { condition: tests.struct_array[0].i == 1 \\ }"" , NULL ) ; assert_false_rule ( ""import \\""tests\\"" \\ rule test { condition: tests.isum(1,1) == 3 \\ }"" , NULL ) ; assert_false_rule ( ""import \\""tests\\"" \\ rule test { condition: tests.fsum(1.0,1.0) == 3.0 \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { condition: tests.match(/foo/,\\""foo\\"") == 3 \\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { condition: tests.match(/foo/,\\""bar\\"") == -1\\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { condition: tests.match(/foo.bar/i,\\""FOO\\\\nBAR\\"") == -1\\ }"" , NULL ) ; assert_true_rule ( ""import \\""tests\\"" \\ rule test { condition: tests.match(/foo.bar/is,\\""FOO\\\\nBAR\\"") == 7\\ }"" , NULL ) ; assert_error ( ""import \\""\\\\x00\\"""" , ERROR_INVALID_MODULE_NAME ) ; assert_error ( ""import \\""\\"""" , ERROR_INVALID_MODULE_NAME ) ; }" 219,"CWE-264 static inline unsigned long zap_pmd_range ( struct mmu_gather * tlb , struct vm_area_struct * vma , pud_t * pud , unsigned long addr , unsigned long end , struct zap_details * details ) { pmd_t * pmd ; unsigned long next ; pmd = pmd_offset ( pud , addr ) ; do { next = pmd_addr_end ( addr , end ) ; if ( pmd_trans_huge ( * pmd ) ) { if ( next - addr != HPAGE_PMD_SIZE ) { VM_BUG_ON ( ! rwsem_is_locked ( & tlb -> mm -> mmap_sem ) ) ; split_huge_page_pmd ( vma -> vm_mm , pmd ) ; } else if ( zap_huge_pmd ( tlb , vma , pmd , addr ) ) continue ; } if ( pmd_none_or_clear_bad ( pmd ) ) continue ; next = zap_pte_range ( tlb , vma , pmd , addr , next , details ) ; cond_resched ( ) ; } while ( pmd ++ , addr = next , addr != end ) ; return addr ; }","static inline unsigned long zap_pmd_range ( struct mmu_gather * tlb , struct vm_area_struct * vma , pud_t * pud , unsigned long addr , unsigned long end , struct zap_details * details ) { pmd_t * pmd ; unsigned long next ; pmd = pmd_offset ( pud , addr ) ; do { next = pmd_addr_end ( addr , end ) ; if ( pmd_trans_huge ( * pmd ) ) { if ( next - addr != HPAGE_PMD_SIZE ) { VM_BUG_ON ( ! rwsem_is_locked ( & tlb -> mm -> mmap_sem ) ) ; split_huge_page_pmd ( vma -> vm_mm , pmd ) ; } else if ( zap_huge_pmd ( tlb , vma , pmd , addr ) ) goto next ; } if ( pmd_none_or_trans_huge_or_clear_bad ( pmd ) ) goto next ; next = zap_pte_range ( tlb , vma , pmd , addr , next , details ) ; next : cond_resched ( ) ; } while ( pmd ++ , addr = next , addr != end ) ; return addr ; }" 220,"CWE-125 void lmp_print ( netdissect_options * ndo , register const u_char * pptr , register u_int len ) { const struct lmp_common_header * lmp_com_header ; const struct lmp_object_header * lmp_obj_header ; const u_char * tptr , * obj_tptr ; int tlen , lmp_obj_len , lmp_obj_ctype , obj_tlen ; int hexdump ; int offset , subobj_type , subobj_len , total_subobj_len ; int link_type ; union { float f ; uint32_t i ; } bw ; tptr = pptr ; lmp_com_header = ( const struct lmp_common_header * ) pptr ; ND_TCHECK ( * lmp_com_header ) ; if ( LMP_EXTRACT_VERSION ( lmp_com_header -> version_res [ 0 ] ) != LMP_VERSION ) { ND_PRINT ( ( ndo , ""LMP version %u packet not supported"" , LMP_EXTRACT_VERSION ( lmp_com_header -> version_res [ 0 ] ) ) ) ; return ; } if ( ndo -> ndo_vflag < 1 ) { ND_PRINT ( ( ndo , ""LMPv%u %s Message, length: %u"" , LMP_EXTRACT_VERSION ( lmp_com_header -> version_res [ 0 ] ) , tok2str ( lmp_msg_type_values , ""unknown (%u)"" , lmp_com_header -> msg_type ) , len ) ) ; return ; } tlen = EXTRACT_16BITS ( lmp_com_header -> length ) ; ND_PRINT ( ( ndo , ""\\n\\tLMPv%u, msg-type: %s, Flags: [%s], length: %u"" , LMP_EXTRACT_VERSION ( lmp_com_header -> version_res [ 0 ] ) , tok2str ( lmp_msg_type_values , ""unknown, type: %u"" , lmp_com_header -> msg_type ) , bittok2str ( lmp_header_flag_values , ""none"" , lmp_com_header -> flags ) , tlen ) ) ; tptr += sizeof ( const struct lmp_common_header ) ; tlen -= sizeof ( const struct lmp_common_header ) ; while ( tlen > 0 ) { ND_TCHECK2 ( * tptr , sizeof ( struct lmp_object_header ) ) ; lmp_obj_header = ( const struct lmp_object_header * ) tptr ; lmp_obj_len = EXTRACT_16BITS ( lmp_obj_header -> length ) ; lmp_obj_ctype = ( lmp_obj_header -> ctype ) & 0x7f ; if ( lmp_obj_len % 4 || lmp_obj_len < 4 ) return ; ND_PRINT ( ( ndo , ""\\n\\t %s Object (%u), Class-Type: %s (%u) Flags: [%snegotiable], length: %u"" , tok2str ( lmp_obj_values , ""Unknown"" , lmp_obj_header -> class_num ) , lmp_obj_header -> class_num , tok2str ( lmp_ctype_values , ""Unknown"" , ( ( lmp_obj_header -> class_num ) << 8 ) + lmp_obj_ctype ) , lmp_obj_ctype , ( lmp_obj_header -> ctype ) & 0x80 ? """" : ""non-"" , lmp_obj_len ) ) ; obj_tptr = tptr + sizeof ( struct lmp_object_header ) ; obj_tlen = lmp_obj_len - sizeof ( struct lmp_object_header ) ; ND_TCHECK2 ( * tptr , lmp_obj_len ) ; hexdump = FALSE ; switch ( lmp_obj_header -> class_num ) { case LMP_OBJ_CC_ID : switch ( lmp_obj_ctype ) { case LMP_CTYPE_LOC : case LMP_CTYPE_RMT : ND_PRINT ( ( ndo , ""\\n\\t Control Channel ID: %u (0x%08x)"" , EXTRACT_32BITS ( obj_tptr ) , EXTRACT_32BITS ( obj_tptr ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_LINK_ID : case LMP_OBJ_INTERFACE_ID : switch ( lmp_obj_ctype ) { case LMP_CTYPE_IPV4_LOC : case LMP_CTYPE_IPV4_RMT : ND_PRINT ( ( ndo , ""\\n\\t IPv4 Link ID: %s (0x%08x)"" , ipaddr_string ( ndo , obj_tptr ) , EXTRACT_32BITS ( obj_tptr ) ) ) ; break ; case LMP_CTYPE_IPV6_LOC : case LMP_CTYPE_IPV6_RMT : ND_PRINT ( ( ndo , ""\\n\\t IPv6 Link ID: %s (0x%08x)"" , ip6addr_string ( ndo , obj_tptr ) , EXTRACT_32BITS ( obj_tptr ) ) ) ; break ; case LMP_CTYPE_UNMD_LOC : case LMP_CTYPE_UNMD_RMT : ND_PRINT ( ( ndo , ""\\n\\t Link ID: %u (0x%08x)"" , EXTRACT_32BITS ( obj_tptr ) , EXTRACT_32BITS ( obj_tptr ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_MESSAGE_ID : switch ( lmp_obj_ctype ) { case LMP_CTYPE_1 : ND_PRINT ( ( ndo , ""\\n\\t Message ID: %u (0x%08x)"" , EXTRACT_32BITS ( obj_tptr ) , EXTRACT_32BITS ( obj_tptr ) ) ) ; break ; case LMP_CTYPE_2 : ND_PRINT ( ( ndo , ""\\n\\t Message ID Ack: %u (0x%08x)"" , EXTRACT_32BITS ( obj_tptr ) , EXTRACT_32BITS ( obj_tptr ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_NODE_ID : switch ( lmp_obj_ctype ) { case LMP_CTYPE_LOC : case LMP_CTYPE_RMT : ND_PRINT ( ( ndo , ""\\n\\t Node ID: %s (0x%08x)"" , ipaddr_string ( ndo , obj_tptr ) , EXTRACT_32BITS ( obj_tptr ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_CONFIG : switch ( lmp_obj_ctype ) { case LMP_CTYPE_HELLO_CONFIG : ND_PRINT ( ( ndo , ""\\n\\t Hello Interval: %u\\n\\t Hello Dead Interval: %u"" , EXTRACT_16BITS ( obj_tptr ) , EXTRACT_16BITS ( obj_tptr + 2 ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_HELLO : switch ( lmp_obj_ctype ) { case LMP_CTYPE_HELLO : ND_PRINT ( ( ndo , ""\\n\\t Tx Seq: %u, Rx Seq: %u"" , EXTRACT_32BITS ( obj_tptr ) , EXTRACT_32BITS ( obj_tptr + 4 ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_TE_LINK : ND_PRINT ( ( ndo , ""\\n\\t Flags: [%s]"" , bittok2str ( lmp_obj_te_link_flag_values , ""none"" , EXTRACT_16BITS ( obj_tptr ) >> 8 ) ) ) ; switch ( lmp_obj_ctype ) { case LMP_CTYPE_IPV4 : ND_PRINT ( ( ndo , ""\\n\\t Local Link-ID: %s (0x%08x)"" ""\\n\\t Remote Link-ID: %s (0x%08x)"" , ipaddr_string ( ndo , obj_tptr + 4 ) , EXTRACT_32BITS ( obj_tptr + 4 ) , ipaddr_string ( ndo , obj_tptr + 8 ) , EXTRACT_32BITS ( obj_tptr + 8 ) ) ) ; break ; case LMP_CTYPE_IPV6 : case LMP_CTYPE_UNMD : default : hexdump = TRUE ; } break ; case LMP_OBJ_DATA_LINK : ND_PRINT ( ( ndo , ""\\n\\t Flags: [%s]"" , bittok2str ( lmp_obj_data_link_flag_values , ""none"" , EXTRACT_16BITS ( obj_tptr ) >> 8 ) ) ) ; switch ( lmp_obj_ctype ) { case LMP_CTYPE_IPV4 : case LMP_CTYPE_UNMD : ND_PRINT ( ( ndo , ""\\n\\t Local Interface ID: %s (0x%08x)"" ""\\n\\t Remote Interface ID: %s (0x%08x)"" , ipaddr_string ( ndo , obj_tptr + 4 ) , EXTRACT_32BITS ( obj_tptr + 4 ) , ipaddr_string ( ndo , obj_tptr + 8 ) , EXTRACT_32BITS ( obj_tptr + 8 ) ) ) ; total_subobj_len = lmp_obj_len - 16 ; offset = 12 ; while ( total_subobj_len > 0 && hexdump == FALSE ) { subobj_type = EXTRACT_16BITS ( obj_tptr + offset ) >> 8 ; subobj_len = EXTRACT_16BITS ( obj_tptr + offset ) & 0x00FF ; ND_PRINT ( ( ndo , ""\\n\\t Subobject, Type: %s (%u), Length: %u"" , tok2str ( lmp_data_link_subobj , ""Unknown"" , subobj_type ) , subobj_type , subobj_len ) ) ; switch ( subobj_type ) { case INT_SWITCHING_TYPE_SUBOBJ : ND_PRINT ( ( ndo , ""\\n\\t Switching Type: %s (%u)"" , tok2str ( gmpls_switch_cap_values , ""Unknown"" , EXTRACT_16BITS ( obj_tptr + offset + 2 ) >> 8 ) , EXTRACT_16BITS ( obj_tptr + offset + 2 ) >> 8 ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Encoding Type: %s (%u)"" , tok2str ( gmpls_encoding_values , ""Unknown"" , EXTRACT_16BITS ( obj_tptr + offset + 2 ) & 0x00FF ) , EXTRACT_16BITS ( obj_tptr + offset + 2 ) & 0x00FF ) ) ; bw . i = EXTRACT_32BITS ( obj_tptr + offset + 4 ) ; ND_PRINT ( ( ndo , ""\\n\\t Min Reservable Bandwidth: %.3f Mbps"" , bw . f * 8 / 1000000 ) ) ; bw . i = EXTRACT_32BITS ( obj_tptr + offset + 8 ) ; ND_PRINT ( ( ndo , ""\\n\\t Max Reservable Bandwidth: %.3f Mbps"" , bw . f * 8 / 1000000 ) ) ; break ; case WAVELENGTH_SUBOBJ : ND_PRINT ( ( ndo , ""\\n\\t Wavelength: %u"" , EXTRACT_32BITS ( obj_tptr + offset + 4 ) ) ) ; break ; default : hexdump = TRUE ; break ; } total_subobj_len -= subobj_len ; offset += subobj_len ; } break ; case LMP_CTYPE_IPV6 : default : hexdump = TRUE ; } break ; case LMP_OBJ_VERIFY_BEGIN : switch ( lmp_obj_ctype ) { case LMP_CTYPE_1 : ND_PRINT ( ( ndo , ""\\n\\t Flags: %s"" , bittok2str ( lmp_obj_begin_verify_flag_values , ""none"" , EXTRACT_16BITS ( obj_tptr ) ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Verify Interval: %u"" , EXTRACT_16BITS ( obj_tptr + 2 ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Data links: %u"" , EXTRACT_32BITS ( obj_tptr + 4 ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Encoding type: %s"" , tok2str ( gmpls_encoding_values , ""Unknown"" , * ( obj_tptr + 8 ) ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Verify Transport Mechanism: %u (0x%x)%s"" , EXTRACT_16BITS ( obj_tptr + 10 ) , EXTRACT_16BITS ( obj_tptr + 10 ) , EXTRACT_16BITS ( obj_tptr + 10 ) & 8000 ? "" (Payload test messages capable)"" : """" ) ) ; bw . i = EXTRACT_32BITS ( obj_tptr + 12 ) ; ND_PRINT ( ( ndo , ""\\n\\t Transmission Rate: %.3f Mbps"" , bw . f * 8 / 1000000 ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Wavelength: %u"" , EXTRACT_32BITS ( obj_tptr + 16 ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_VERIFY_BEGIN_ACK : switch ( lmp_obj_ctype ) { case LMP_CTYPE_1 : ND_PRINT ( ( ndo , ""\\n\\t Verify Dead Interval: %u"" ""\\n\\t Verify Transport Response: %u"" , EXTRACT_16BITS ( obj_tptr ) , EXTRACT_16BITS ( obj_tptr + 2 ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_VERIFY_ID : switch ( lmp_obj_ctype ) { case LMP_CTYPE_1 : ND_PRINT ( ( ndo , ""\\n\\t Verify ID: %u"" , EXTRACT_32BITS ( obj_tptr ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_CHANNEL_STATUS : switch ( lmp_obj_ctype ) { case LMP_CTYPE_IPV4 : case LMP_CTYPE_UNMD : offset = 0 ; while ( offset < ( lmp_obj_len - ( int ) sizeof ( struct lmp_object_header ) ) ) { ND_PRINT ( ( ndo , ""\\n\\t Interface ID: %s (0x%08x)"" , ipaddr_string ( ndo , obj_tptr + offset ) , EXTRACT_32BITS ( obj_tptr + offset ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t\\t Active: %s (%u)"" , ( EXTRACT_32BITS ( obj_tptr + offset + 4 ) >> 31 ) ? ""Allocated"" : ""Non-allocated"" , ( EXTRACT_32BITS ( obj_tptr + offset + 4 ) >> 31 ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t\\t Direction: %s (%u)"" , ( EXTRACT_32BITS ( obj_tptr + offset + 4 ) >> 30 ) & 0x1 ? ""Transmit"" : ""Receive"" , ( EXTRACT_32BITS ( obj_tptr + offset + 4 ) >> 30 ) & 0x1 ) ) ; ND_PRINT ( ( ndo , ""\\n\\t\\t Channel Status: %s (%u)"" , tok2str ( lmp_obj_channel_status_values , ""Unknown"" , EXTRACT_32BITS ( obj_tptr + offset + 4 ) & 0x3FFFFFF ) , EXTRACT_32BITS ( obj_tptr + offset + 4 ) & 0x3FFFFFF ) ) ; offset += 8 ; } break ; case LMP_CTYPE_IPV6 : default : hexdump = TRUE ; } break ; case LMP_OBJ_CHANNEL_STATUS_REQ : switch ( lmp_obj_ctype ) { case LMP_CTYPE_IPV4 : case LMP_CTYPE_UNMD : offset = 0 ; while ( offset < ( lmp_obj_len - ( int ) sizeof ( struct lmp_object_header ) ) ) { ND_PRINT ( ( ndo , ""\\n\\t Interface ID: %s (0x%08x)"" , ipaddr_string ( ndo , obj_tptr + offset ) , EXTRACT_32BITS ( obj_tptr + offset ) ) ) ; offset += 4 ; } break ; case LMP_CTYPE_IPV6 : default : hexdump = TRUE ; } break ; case LMP_OBJ_ERROR_CODE : switch ( lmp_obj_ctype ) { case LMP_CTYPE_BEGIN_VERIFY_ERROR : ND_PRINT ( ( ndo , ""\\n\\t Error Code: %s"" , bittok2str ( lmp_obj_begin_verify_error_values , ""none"" , EXTRACT_32BITS ( obj_tptr ) ) ) ) ; break ; case LMP_CTYPE_LINK_SUMMARY_ERROR : ND_PRINT ( ( ndo , ""\\n\\t Error Code: %s"" , bittok2str ( lmp_obj_link_summary_error_values , ""none"" , EXTRACT_32BITS ( obj_tptr ) ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_SERVICE_CONFIG : switch ( lmp_obj_ctype ) { case LMP_CTYPE_SERVICE_CONFIG_SP : ND_PRINT ( ( ndo , ""\\n\\t Flags: %s"" , bittok2str ( lmp_obj_service_config_sp_flag_values , ""none"" , EXTRACT_16BITS ( obj_tptr ) >> 8 ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t UNI Version: %u"" , EXTRACT_16BITS ( obj_tptr ) & 0x00FF ) ) ; break ; case LMP_CTYPE_SERVICE_CONFIG_CPSA : link_type = EXTRACT_16BITS ( obj_tptr ) >> 8 ; ND_PRINT ( ( ndo , ""\\n\\t Link Type: %s (%u)"" , tok2str ( lmp_sd_service_config_cpsa_link_type_values , ""Unknown"" , link_type ) , link_type ) ) ; if ( link_type == LMP_SD_SERVICE_CONFIG_CPSA_LINK_TYPE_SDH ) { ND_PRINT ( ( ndo , ""\\n\\t Signal Type: %s (%u)"" , tok2str ( lmp_sd_service_config_cpsa_signal_type_sdh_values , ""Unknown"" , EXTRACT_16BITS ( obj_tptr ) & 0x00FF ) , EXTRACT_16BITS ( obj_tptr ) & 0x00FF ) ) ; } if ( link_type == LMP_SD_SERVICE_CONFIG_CPSA_LINK_TYPE_SONET ) { ND_PRINT ( ( ndo , ""\\n\\t Signal Type: %s (%u)"" , tok2str ( lmp_sd_service_config_cpsa_signal_type_sonet_values , ""Unknown"" , EXTRACT_16BITS ( obj_tptr ) & 0x00FF ) , EXTRACT_16BITS ( obj_tptr ) & 0x00FF ) ) ; } ND_PRINT ( ( ndo , ""\\n\\t Transparency: %s"" , bittok2str ( lmp_obj_service_config_cpsa_tp_flag_values , ""none"" , EXTRACT_16BITS ( obj_tptr + 2 ) >> 8 ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Contiguous Concatenation Types: %s"" , bittok2str ( lmp_obj_service_config_cpsa_cct_flag_values , ""none"" , EXTRACT_16BITS ( obj_tptr + 2 ) >> 8 & 0x00FF ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Minimum NCC: %u"" , EXTRACT_16BITS ( obj_tptr + 4 ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Maximum NCC: %u"" , EXTRACT_16BITS ( obj_tptr + 6 ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Minimum NVC:%u"" , EXTRACT_16BITS ( obj_tptr + 8 ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Maximum NVC:%u"" , EXTRACT_16BITS ( obj_tptr + 10 ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Local Interface ID: %s (0x%08x)"" , ipaddr_string ( ndo , obj_tptr + 12 ) , EXTRACT_32BITS ( obj_tptr + 12 ) ) ) ; break ; case LMP_CTYPE_SERVICE_CONFIG_TRANSPARENCY_TCM : ND_PRINT ( ( ndo , ""\\n\\t Transparency Flags: %s"" , bittok2str ( lmp_obj_service_config_nsa_transparency_flag_values , ""none"" , EXTRACT_32BITS ( obj_tptr ) ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t TCM Monitoring Flags: %s"" , bittok2str ( lmp_obj_service_config_nsa_tcm_flag_values , ""none"" , EXTRACT_16BITS ( obj_tptr + 6 ) & 0x00FF ) ) ) ; break ; case LMP_CTYPE_SERVICE_CONFIG_NETWORK_DIVERSITY : ND_PRINT ( ( ndo , ""\\n\\t Diversity: Flags: %s"" , bittok2str ( lmp_obj_service_config_nsa_network_diversity_flag_values , ""none"" , EXTRACT_16BITS ( obj_tptr + 2 ) & 0x00FF ) ) ) ; break ; default : hexdump = TRUE ; } break ; default : if ( ndo -> ndo_vflag <= 1 ) print_unknown_data ( ndo , obj_tptr , ""\\n\\t "" , obj_tlen ) ; break ; } if ( ndo -> ndo_vflag > 1 || hexdump == TRUE ) print_unknown_data ( ndo , tptr + sizeof ( struct lmp_object_header ) , ""\\n\\t "" , lmp_obj_len - sizeof ( struct lmp_object_header ) ) ; tptr += lmp_obj_len ; tlen -= lmp_obj_len ; } return ; trunc : ND_PRINT ( ( ndo , ""\\n\\t\\t packet exceeded snapshot"" ) ) ; }","void lmp_print ( netdissect_options * ndo , register const u_char * pptr , register u_int len ) { const struct lmp_common_header * lmp_com_header ; const struct lmp_object_header * lmp_obj_header ; const u_char * tptr , * obj_tptr ; u_int tlen , lmp_obj_len , lmp_obj_ctype , obj_tlen ; int hexdump ; u_int offset ; u_int link_type ; union { float f ; uint32_t i ; } bw ; tptr = pptr ; lmp_com_header = ( const struct lmp_common_header * ) pptr ; ND_TCHECK ( * lmp_com_header ) ; if ( LMP_EXTRACT_VERSION ( lmp_com_header -> version_res [ 0 ] ) != LMP_VERSION ) { ND_PRINT ( ( ndo , ""LMP version %u packet not supported"" , LMP_EXTRACT_VERSION ( lmp_com_header -> version_res [ 0 ] ) ) ) ; return ; } if ( ndo -> ndo_vflag < 1 ) { ND_PRINT ( ( ndo , ""LMPv%u %s Message, length: %u"" , LMP_EXTRACT_VERSION ( lmp_com_header -> version_res [ 0 ] ) , tok2str ( lmp_msg_type_values , ""unknown (%u)"" , lmp_com_header -> msg_type ) , len ) ) ; return ; } tlen = EXTRACT_16BITS ( lmp_com_header -> length ) ; ND_PRINT ( ( ndo , ""\\n\\tLMPv%u, msg-type: %s, Flags: [%s], length: %u"" , LMP_EXTRACT_VERSION ( lmp_com_header -> version_res [ 0 ] ) , tok2str ( lmp_msg_type_values , ""unknown, type: %u"" , lmp_com_header -> msg_type ) , bittok2str ( lmp_header_flag_values , ""none"" , lmp_com_header -> flags ) , tlen ) ) ; if ( tlen < sizeof ( const struct lmp_common_header ) ) { ND_PRINT ( ( ndo , "" (too short)"" ) ) ; return ; } if ( tlen > len ) { ND_PRINT ( ( ndo , "" (too long)"" ) ) ; tlen = len ; } tptr += sizeof ( const struct lmp_common_header ) ; tlen -= sizeof ( const struct lmp_common_header ) ; while ( tlen > 0 ) { ND_TCHECK2 ( * tptr , sizeof ( struct lmp_object_header ) ) ; lmp_obj_header = ( const struct lmp_object_header * ) tptr ; lmp_obj_len = EXTRACT_16BITS ( lmp_obj_header -> length ) ; lmp_obj_ctype = ( lmp_obj_header -> ctype ) & 0x7f ; ND_PRINT ( ( ndo , ""\\n\\t %s Object (%u), Class-Type: %s (%u) Flags: [%snegotiable], length: %u"" , tok2str ( lmp_obj_values , ""Unknown"" , lmp_obj_header -> class_num ) , lmp_obj_header -> class_num , tok2str ( lmp_ctype_values , ""Unknown"" , ( ( lmp_obj_header -> class_num ) << 8 ) + lmp_obj_ctype ) , lmp_obj_ctype , ( lmp_obj_header -> ctype ) & 0x80 ? """" : ""non-"" , lmp_obj_len ) ) ; if ( lmp_obj_len < 4 ) { ND_PRINT ( ( ndo , "" (too short)"" ) ) ; return ; } if ( ( lmp_obj_len % 4 ) != 0 ) { ND_PRINT ( ( ndo , "" (not a multiple of 4)"" ) ) ; return ; } obj_tptr = tptr + sizeof ( struct lmp_object_header ) ; obj_tlen = lmp_obj_len - sizeof ( struct lmp_object_header ) ; ND_TCHECK2 ( * tptr , lmp_obj_len ) ; hexdump = FALSE ; switch ( lmp_obj_header -> class_num ) { case LMP_OBJ_CC_ID : switch ( lmp_obj_ctype ) { case LMP_CTYPE_LOC : case LMP_CTYPE_RMT : if ( obj_tlen != 4 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Control Channel ID: %u (0x%08x)"" , EXTRACT_32BITS ( obj_tptr ) , EXTRACT_32BITS ( obj_tptr ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_LINK_ID : case LMP_OBJ_INTERFACE_ID : switch ( lmp_obj_ctype ) { case LMP_CTYPE_IPV4_LOC : case LMP_CTYPE_IPV4_RMT : if ( obj_tlen != 4 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t IPv4 Link ID: %s (0x%08x)"" , ipaddr_string ( ndo , obj_tptr ) , EXTRACT_32BITS ( obj_tptr ) ) ) ; break ; case LMP_CTYPE_IPV6_LOC : case LMP_CTYPE_IPV6_RMT : if ( obj_tlen != 16 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t IPv6 Link ID: %s (0x%08x)"" , ip6addr_string ( ndo , obj_tptr ) , EXTRACT_32BITS ( obj_tptr ) ) ) ; break ; case LMP_CTYPE_UNMD_LOC : case LMP_CTYPE_UNMD_RMT : if ( obj_tlen != 4 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Link ID: %u (0x%08x)"" , EXTRACT_32BITS ( obj_tptr ) , EXTRACT_32BITS ( obj_tptr ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_MESSAGE_ID : switch ( lmp_obj_ctype ) { case LMP_CTYPE_1 : if ( obj_tlen != 4 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Message ID: %u (0x%08x)"" , EXTRACT_32BITS ( obj_tptr ) , EXTRACT_32BITS ( obj_tptr ) ) ) ; break ; case LMP_CTYPE_2 : if ( obj_tlen != 4 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Message ID Ack: %u (0x%08x)"" , EXTRACT_32BITS ( obj_tptr ) , EXTRACT_32BITS ( obj_tptr ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_NODE_ID : switch ( lmp_obj_ctype ) { case LMP_CTYPE_LOC : case LMP_CTYPE_RMT : if ( obj_tlen != 4 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Node ID: %s (0x%08x)"" , ipaddr_string ( ndo , obj_tptr ) , EXTRACT_32BITS ( obj_tptr ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_CONFIG : switch ( lmp_obj_ctype ) { case LMP_CTYPE_HELLO_CONFIG : if ( obj_tlen != 4 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Hello Interval: %u\\n\\t Hello Dead Interval: %u"" , EXTRACT_16BITS ( obj_tptr ) , EXTRACT_16BITS ( obj_tptr + 2 ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_HELLO : switch ( lmp_obj_ctype ) { case LMP_CTYPE_HELLO : if ( obj_tlen != 8 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Tx Seq: %u, Rx Seq: %u"" , EXTRACT_32BITS ( obj_tptr ) , EXTRACT_32BITS ( obj_tptr + 4 ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_TE_LINK : switch ( lmp_obj_ctype ) { case LMP_CTYPE_IPV4 : if ( obj_tlen != 12 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Flags: [%s]"" , bittok2str ( lmp_obj_te_link_flag_values , ""none"" , EXTRACT_8BITS ( obj_tptr ) ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Local Link-ID: %s (0x%08x)"" ""\\n\\t Remote Link-ID: %s (0x%08x)"" , ipaddr_string ( ndo , obj_tptr + 4 ) , EXTRACT_32BITS ( obj_tptr + 4 ) , ipaddr_string ( ndo , obj_tptr + 8 ) , EXTRACT_32BITS ( obj_tptr + 8 ) ) ) ; break ; case LMP_CTYPE_IPV6 : if ( obj_tlen != 36 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Flags: [%s]"" , bittok2str ( lmp_obj_te_link_flag_values , ""none"" , EXTRACT_8BITS ( obj_tptr ) ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Local Link-ID: %s (0x%08x)"" ""\\n\\t Remote Link-ID: %s (0x%08x)"" , ip6addr_string ( ndo , obj_tptr + 4 ) , EXTRACT_32BITS ( obj_tptr + 4 ) , ip6addr_string ( ndo , obj_tptr + 20 ) , EXTRACT_32BITS ( obj_tptr + 20 ) ) ) ; break ; case LMP_CTYPE_UNMD : if ( obj_tlen != 12 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Flags: [%s]"" , bittok2str ( lmp_obj_te_link_flag_values , ""none"" , EXTRACT_8BITS ( obj_tptr ) ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Local Link-ID: %u (0x%08x)"" ""\\n\\t Remote Link-ID: %u (0x%08x)"" , EXTRACT_32BITS ( obj_tptr + 4 ) , EXTRACT_32BITS ( obj_tptr + 4 ) , EXTRACT_32BITS ( obj_tptr + 8 ) , EXTRACT_32BITS ( obj_tptr + 8 ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_DATA_LINK : switch ( lmp_obj_ctype ) { case LMP_CTYPE_IPV4 : if ( obj_tlen < 12 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Flags: [%s]"" , bittok2str ( lmp_obj_data_link_flag_values , ""none"" , EXTRACT_8BITS ( obj_tptr ) ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Local Interface ID: %s (0x%08x)"" ""\\n\\t Remote Interface ID: %s (0x%08x)"" , ipaddr_string ( ndo , obj_tptr + 4 ) , EXTRACT_32BITS ( obj_tptr + 4 ) , ipaddr_string ( ndo , obj_tptr + 8 ) , EXTRACT_32BITS ( obj_tptr + 8 ) ) ) ; if ( lmp_print_data_link_subobjs ( ndo , obj_tptr , obj_tlen - 12 , 12 ) ) hexdump = TRUE ; break ; case LMP_CTYPE_IPV6 : if ( obj_tlen < 36 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Flags: [%s]"" , bittok2str ( lmp_obj_data_link_flag_values , ""none"" , EXTRACT_8BITS ( obj_tptr ) ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Local Interface ID: %s (0x%08x)"" ""\\n\\t Remote Interface ID: %s (0x%08x)"" , ip6addr_string ( ndo , obj_tptr + 4 ) , EXTRACT_32BITS ( obj_tptr + 4 ) , ip6addr_string ( ndo , obj_tptr + 20 ) , EXTRACT_32BITS ( obj_tptr + 20 ) ) ) ; if ( lmp_print_data_link_subobjs ( ndo , obj_tptr , obj_tlen - 36 , 36 ) ) hexdump = TRUE ; break ; case LMP_CTYPE_UNMD : if ( obj_tlen < 12 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Flags: [%s]"" , bittok2str ( lmp_obj_data_link_flag_values , ""none"" , EXTRACT_8BITS ( obj_tptr ) ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Local Interface ID: %u (0x%08x)"" ""\\n\\t Remote Interface ID: %u (0x%08x)"" , EXTRACT_32BITS ( obj_tptr + 4 ) , EXTRACT_32BITS ( obj_tptr + 4 ) , EXTRACT_32BITS ( obj_tptr + 8 ) , EXTRACT_32BITS ( obj_tptr + 8 ) ) ) ; if ( lmp_print_data_link_subobjs ( ndo , obj_tptr , obj_tlen - 12 , 12 ) ) hexdump = TRUE ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_VERIFY_BEGIN : switch ( lmp_obj_ctype ) { case LMP_CTYPE_1 : if ( obj_tlen != 20 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Flags: %s"" , bittok2str ( lmp_obj_begin_verify_flag_values , ""none"" , EXTRACT_16BITS ( obj_tptr ) ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Verify Interval: %u"" , EXTRACT_16BITS ( obj_tptr + 2 ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Data links: %u"" , EXTRACT_32BITS ( obj_tptr + 4 ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Encoding type: %s"" , tok2str ( gmpls_encoding_values , ""Unknown"" , * ( obj_tptr + 8 ) ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Verify Transport Mechanism: %u (0x%x)%s"" , EXTRACT_16BITS ( obj_tptr + 10 ) , EXTRACT_16BITS ( obj_tptr + 10 ) , EXTRACT_16BITS ( obj_tptr + 10 ) & 8000 ? "" (Payload test messages capable)"" : """" ) ) ; bw . i = EXTRACT_32BITS ( obj_tptr + 12 ) ; ND_PRINT ( ( ndo , ""\\n\\t Transmission Rate: %.3f Mbps"" , bw . f * 8 / 1000000 ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Wavelength: %u"" , EXTRACT_32BITS ( obj_tptr + 16 ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_VERIFY_BEGIN_ACK : switch ( lmp_obj_ctype ) { case LMP_CTYPE_1 : if ( obj_tlen != 4 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Verify Dead Interval: %u"" ""\\n\\t Verify Transport Response: %u"" , EXTRACT_16BITS ( obj_tptr ) , EXTRACT_16BITS ( obj_tptr + 2 ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_VERIFY_ID : switch ( lmp_obj_ctype ) { case LMP_CTYPE_1 : if ( obj_tlen != 4 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Verify ID: %u"" , EXTRACT_32BITS ( obj_tptr ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_CHANNEL_STATUS : switch ( lmp_obj_ctype ) { case LMP_CTYPE_IPV4 : offset = 0 ; while ( offset + 8 <= obj_tlen ) { ND_PRINT ( ( ndo , ""\\n\\t Interface ID: %s (0x%08x)"" , ipaddr_string ( ndo , obj_tptr + offset ) , EXTRACT_32BITS ( obj_tptr + offset ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t\\t Active: %s (%u)"" , ( EXTRACT_32BITS ( obj_tptr + offset + 4 ) >> 31 ) ? ""Allocated"" : ""Non-allocated"" , ( EXTRACT_32BITS ( obj_tptr + offset + 4 ) >> 31 ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t\\t Direction: %s (%u)"" , ( EXTRACT_32BITS ( obj_tptr + offset + 4 ) >> 30 ) & 0x1 ? ""Transmit"" : ""Receive"" , ( EXTRACT_32BITS ( obj_tptr + offset + 4 ) >> 30 ) & 0x1 ) ) ; ND_PRINT ( ( ndo , ""\\n\\t\\t Channel Status: %s (%u)"" , tok2str ( lmp_obj_channel_status_values , ""Unknown"" , EXTRACT_32BITS ( obj_tptr + offset + 4 ) & 0x3FFFFFF ) , EXTRACT_32BITS ( obj_tptr + offset + 4 ) & 0x3FFFFFF ) ) ; offset += 8 ; } break ; case LMP_CTYPE_IPV6 : offset = 0 ; while ( offset + 20 <= obj_tlen ) { ND_PRINT ( ( ndo , ""\\n\\t Interface ID: %s (0x%08x)"" , ip6addr_string ( ndo , obj_tptr + offset ) , EXTRACT_32BITS ( obj_tptr + offset ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t\\t Active: %s (%u)"" , ( EXTRACT_32BITS ( obj_tptr + offset + 16 ) >> 31 ) ? ""Allocated"" : ""Non-allocated"" , ( EXTRACT_32BITS ( obj_tptr + offset + 16 ) >> 31 ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t\\t Direction: %s (%u)"" , ( EXTRACT_32BITS ( obj_tptr + offset + 16 ) >> 30 ) & 0x1 ? ""Transmit"" : ""Receive"" , ( EXTRACT_32BITS ( obj_tptr + offset + 16 ) >> 30 ) & 0x1 ) ) ; ND_PRINT ( ( ndo , ""\\n\\t\\t Channel Status: %s (%u)"" , tok2str ( lmp_obj_channel_status_values , ""Unknown"" , EXTRACT_32BITS ( obj_tptr + offset + 16 ) & 0x3FFFFFF ) , EXTRACT_32BITS ( obj_tptr + offset + 16 ) & 0x3FFFFFF ) ) ; offset += 20 ; } break ; case LMP_CTYPE_UNMD : offset = 0 ; while ( offset + 8 <= obj_tlen ) { ND_PRINT ( ( ndo , ""\\n\\t Interface ID: %u (0x%08x)"" , EXTRACT_32BITS ( obj_tptr + offset ) , EXTRACT_32BITS ( obj_tptr + offset ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t\\t Active: %s (%u)"" , ( EXTRACT_32BITS ( obj_tptr + offset + 4 ) >> 31 ) ? ""Allocated"" : ""Non-allocated"" , ( EXTRACT_32BITS ( obj_tptr + offset + 4 ) >> 31 ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t\\t Direction: %s (%u)"" , ( EXTRACT_32BITS ( obj_tptr + offset + 4 ) >> 30 ) & 0x1 ? ""Transmit"" : ""Receive"" , ( EXTRACT_32BITS ( obj_tptr + offset + 4 ) >> 30 ) & 0x1 ) ) ; ND_PRINT ( ( ndo , ""\\n\\t\\t Channel Status: %s (%u)"" , tok2str ( lmp_obj_channel_status_values , ""Unknown"" , EXTRACT_32BITS ( obj_tptr + offset + 4 ) & 0x3FFFFFF ) , EXTRACT_32BITS ( obj_tptr + offset + 4 ) & 0x3FFFFFF ) ) ; offset += 8 ; } break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_CHANNEL_STATUS_REQ : switch ( lmp_obj_ctype ) { case LMP_CTYPE_IPV4 : offset = 0 ; while ( offset + 4 <= obj_tlen ) { ND_PRINT ( ( ndo , ""\\n\\t Interface ID: %s (0x%08x)"" , ipaddr_string ( ndo , obj_tptr + offset ) , EXTRACT_32BITS ( obj_tptr + offset ) ) ) ; offset += 4 ; } break ; case LMP_CTYPE_IPV6 : offset = 0 ; while ( offset + 16 <= obj_tlen ) { ND_PRINT ( ( ndo , ""\\n\\t Interface ID: %s (0x%08x)"" , ip6addr_string ( ndo , obj_tptr + offset ) , EXTRACT_32BITS ( obj_tptr + offset ) ) ) ; offset += 16 ; } break ; case LMP_CTYPE_UNMD : offset = 0 ; while ( offset + 4 <= obj_tlen ) { ND_PRINT ( ( ndo , ""\\n\\t Interface ID: %u (0x%08x)"" , EXTRACT_32BITS ( obj_tptr + offset ) , EXTRACT_32BITS ( obj_tptr + offset ) ) ) ; offset += 4 ; } break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_ERROR_CODE : switch ( lmp_obj_ctype ) { case LMP_CTYPE_BEGIN_VERIFY_ERROR : if ( obj_tlen != 4 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Error Code: %s"" , bittok2str ( lmp_obj_begin_verify_error_values , ""none"" , EXTRACT_32BITS ( obj_tptr ) ) ) ) ; break ; case LMP_CTYPE_LINK_SUMMARY_ERROR : if ( obj_tlen != 4 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Error Code: %s"" , bittok2str ( lmp_obj_link_summary_error_values , ""none"" , EXTRACT_32BITS ( obj_tptr ) ) ) ) ; break ; default : hexdump = TRUE ; } break ; case LMP_OBJ_SERVICE_CONFIG : switch ( lmp_obj_ctype ) { case LMP_CTYPE_SERVICE_CONFIG_SP : if ( obj_tlen != 4 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Flags: %s"" , bittok2str ( lmp_obj_service_config_sp_flag_values , ""none"" , EXTRACT_8BITS ( obj_tptr ) ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t UNI Version: %u"" , EXTRACT_8BITS ( obj_tptr + 1 ) ) ) ; break ; case LMP_CTYPE_SERVICE_CONFIG_CPSA : if ( obj_tlen != 16 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } link_type = EXTRACT_8BITS ( obj_tptr ) ; ND_PRINT ( ( ndo , ""\\n\\t Link Type: %s (%u)"" , tok2str ( lmp_sd_service_config_cpsa_link_type_values , ""Unknown"" , link_type ) , link_type ) ) ; switch ( link_type ) { case LMP_SD_SERVICE_CONFIG_CPSA_LINK_TYPE_SDH : ND_PRINT ( ( ndo , ""\\n\\t Signal Type: %s (%u)"" , tok2str ( lmp_sd_service_config_cpsa_signal_type_sdh_values , ""Unknown"" , EXTRACT_8BITS ( obj_tptr + 1 ) ) , EXTRACT_8BITS ( obj_tptr + 1 ) ) ) ; break ; case LMP_SD_SERVICE_CONFIG_CPSA_LINK_TYPE_SONET : ND_PRINT ( ( ndo , ""\\n\\t Signal Type: %s (%u)"" , tok2str ( lmp_sd_service_config_cpsa_signal_type_sonet_values , ""Unknown"" , EXTRACT_8BITS ( obj_tptr + 1 ) ) , EXTRACT_8BITS ( obj_tptr + 1 ) ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Transparency: %s"" , bittok2str ( lmp_obj_service_config_cpsa_tp_flag_values , ""none"" , EXTRACT_8BITS ( obj_tptr + 2 ) ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Contiguous Concatenation Types: %s"" , bittok2str ( lmp_obj_service_config_cpsa_cct_flag_values , ""none"" , EXTRACT_8BITS ( obj_tptr + 3 ) ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Minimum NCC: %u"" , EXTRACT_16BITS ( obj_tptr + 4 ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Maximum NCC: %u"" , EXTRACT_16BITS ( obj_tptr + 6 ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Minimum NVC:%u"" , EXTRACT_16BITS ( obj_tptr + 8 ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Maximum NVC:%u"" , EXTRACT_16BITS ( obj_tptr + 10 ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t Local Interface ID: %s (0x%08x)"" , ipaddr_string ( ndo , obj_tptr + 12 ) , EXTRACT_32BITS ( obj_tptr + 12 ) ) ) ; break ; case LMP_CTYPE_SERVICE_CONFIG_TRANSPARENCY_TCM : if ( obj_tlen != 8 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Transparency Flags: %s"" , bittok2str ( lmp_obj_service_config_nsa_transparency_flag_values , ""none"" , EXTRACT_32BITS ( obj_tptr ) ) ) ) ; ND_PRINT ( ( ndo , ""\\n\\t TCM Monitoring Flags: %s"" , bittok2str ( lmp_obj_service_config_nsa_tcm_flag_values , ""none"" , EXTRACT_8BITS ( obj_tptr + 7 ) ) ) ) ; break ; case LMP_CTYPE_SERVICE_CONFIG_NETWORK_DIVERSITY : if ( obj_tlen != 4 ) { ND_PRINT ( ( ndo , "" (not correct for object)"" ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\t Diversity: Flags: %s"" , bittok2str ( lmp_obj_service_config_nsa_network_diversity_flag_values , ""none"" , EXTRACT_8BITS ( obj_tptr + 3 ) ) ) ) ; break ; default : hexdump = TRUE ; } break ; default : if ( ndo -> ndo_vflag <= 1 ) print_unknown_data ( ndo , obj_tptr , ""\\n\\t "" , obj_tlen ) ; break ; } if ( ndo -> ndo_vflag > 1 || hexdump == TRUE ) print_unknown_data ( ndo , tptr + sizeof ( struct lmp_object_header ) , ""\\n\\t "" , lmp_obj_len - sizeof ( struct lmp_object_header ) ) ; tptr += lmp_obj_len ; tlen -= lmp_obj_len ; } return ; trunc : ND_PRINT ( ( ndo , ""\\n\\t\\t packet exceeded snapshot"" ) ) ; }" 221,"CWE-119 sh . sh_len = CDF_TOLE4 ( shp -> sh_len ) ; # define CDF_SHLEN_LIMIT ( UINT32_MAX / 8 ) if ( sh . sh_len > CDF_SHLEN_LIMIT ) { errno = EFTYPE ; goto out ; } sh . sh_properties = CDF_TOLE4 ( shp -> sh_properties ) ; # define CDF_PROP_LIMIT ( UINT32_MAX / ( 4 * sizeof ( * inp ) ) ) if ( sh . sh_properties > CDF_PROP_LIMIT ) goto out ; DPRINTF ( ( ""section len: %u properties %u\\n"" , sh . sh_len , sh . sh_properties ) ) ; if ( * maxcount ) { if ( * maxcount > CDF_PROP_LIMIT ) goto out ; * maxcount += sh . sh_properties ; inp = CAST ( cdf_property_info_t * , realloc ( * info , * maxcount * sizeof ( * inp ) ) ) ; } else { * maxcount = sh . sh_properties ; inp = CAST ( cdf_property_info_t * , malloc ( * maxcount * sizeof ( * inp ) ) ) ; } if ( inp == NULL ) goto out ; * info = inp ; inp += * count ; * count += sh . sh_properties ; p = CAST ( const uint8_t * , ( const void * ) ( ( const char * ) ( const void * ) sst -> sst_tab + offs + sizeof ( sh ) ) ) ; e = CAST ( const uint8_t * , ( const void * ) ( ( ( const char * ) ( const void * ) shp ) + sh . sh_len ) ) ; if ( cdf_check_stream_offset ( sst , h , e , 0 , __LINE__ ) == - 1 ) goto out ; for ( i = 0 ; i < sh . sh_properties ; i ++ ) { size_t ofs = CDF_GETUINT32 ( p , ( i << 1 ) + 1 ) ; q = ( const uint8_t * ) ( const void * ) ( ( const char * ) ( const void * ) p + ofs 2 * sizeof ( uint32_t ) ) ; if ( q > e ) { DPRINTF ( ( ""Ran of the end %p > %p\\n"" , q , e ) ) ; goto out ; } inp [ i ] . pi_id = CDF_GETUINT32 ( p , i << 1 ) ; inp [ i ] . pi_type = CDF_GETUINT32 ( q , 0 ) ; DPRINTF ( ( ""%"" SIZE_T_FORMAT ""u) id=%x type=%x offs=0x%tx,0x%x\\n"" , i , inp [ i ] . pi_id , inp [ i ] . pi_type , q - p , offs ) ) ; if ( inp [ i ] . pi_type & CDF_VECTOR ) { nelements = CDF_GETUINT32 ( q , 1 ) ; o = 2 ; } else { nelements = 1 ; o = 1 ; } o4 = o * sizeof ( uint32_t ) ; if ( inp [ i ] . pi_type & ( CDF_ARRAY | CDF_BYREF | CDF_RESERVED ) ) goto unknown ; switch ( inp [ i ] . pi_type & CDF_TYPEMASK ) { case CDF_NULL : case CDF_EMPTY : break ; case CDF_SIGNED16 : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & s16 , & q [ o4 ] , sizeof ( s16 ) ) ; inp [ i ] . pi_s16 = CDF_TOLE2 ( s16 ) ; break ; case CDF_SIGNED32 : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & s32 , & q [ o4 ] , sizeof ( s32 ) ) ; inp [ i ] . pi_s32 = CDF_TOLE4 ( ( uint32_t ) s32 ) ; break ; case CDF_BOOL : case CDF_UNSIGNED32 : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & u32 , & q [ o4 ] , sizeof ( u32 ) ) ; inp [ i ] . pi_u32 = CDF_TOLE4 ( u32 ) ; break ; case CDF_SIGNED64 : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & s64 , & q [ o4 ] , sizeof ( s64 ) ) ; inp [ i ] . pi_s64 = CDF_TOLE8 ( ( uint64_t ) s64 ) ; break ; case CDF_UNSIGNED64 : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & u64 , & q [ o4 ] , sizeof ( u64 ) ) ; inp [ i ] . pi_u64 = CDF_TOLE8 ( ( uint64_t ) u64 ) ; break ; case CDF_FLOAT : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & u32 , & q [ o4 ] , sizeof ( u32 ) ) ; u32 = CDF_TOLE4 ( u32 ) ; memcpy ( & inp [ i ] . pi_f , & u32 , sizeof ( inp [ i ] . pi_f ) ) ; break ; case CDF_DOUBLE : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & u64 , & q [ o4 ] , sizeof ( u64 ) ) ; u64 = CDF_TOLE8 ( ( uint64_t ) u64 ) ; memcpy ( & inp [ i ] . pi_d , & u64 , sizeof ( inp [ i ] . pi_d ) ) ; break ; case CDF_LENGTH32_STRING : case CDF_LENGTH32_WSTRING : if ( nelements > 1 ) { size_t nelem = inp - * info ; if ( * maxcount > CDF_PROP_LIMIT || nelements > CDF_PROP_LIMIT ) goto out ; * maxcount += nelements ; inp = CAST ( cdf_property_info_t * , realloc ( * info , * maxcount * sizeof ( * inp ) ) ) ; if ( inp == NULL ) goto out ; * info = inp ; inp = * info + nelem ; } DPRINTF ( ( ""nelements = %"" SIZE_T_FORMAT ""u\\n"" , nelements ) ) ; for ( j = 0 ; j < nelements ; j ++ , i ++ ) { uint32_t l = CDF_GETUINT32 ( q , o ) ; inp [ i ] . pi_str . s_len = l ; inp [ i ] . pi_str . s_buf = ( const char * ) ( const void * ) ( & q [ o4 + sizeof ( l ) ] ) ; DPRINTF ( ( ""l = %d, r = %"" SIZE_T_FORMAT ""u, s = %s\\n"" , l , CDF_ROUND ( l , sizeof ( l ) ) , inp [ i ] . pi_str . s_buf ) ) ; if ( l & 1 ) l ++ ; o += l >> 1 ; if ( q + o >= e ) goto out ; o4 = o * sizeof ( uint32_t ) ; } i -- ; break ; case CDF_FILETIME : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & tp , & q [ o4 ] , sizeof ( tp ) ) ; inp [ i ] . pi_tp = CDF_TOLE8 ( ( uint64_t ) tp ) ; break ; case CDF_CLIPBOARD : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; break ; default : unknown : DPRINTF ( ( ""Don\'t know how to deal with %x\\n"" , inp [ i ] . pi_type ) ) ; break ; } } return 0 ; out : free ( * info ) ; return - 1 ; }","sh . sh_len = CDF_TOLE4 ( shp -> sh_len ) ; # define CDF_SHLEN_LIMIT ( UINT32_MAX / 8 ) if ( sh . sh_len > CDF_SHLEN_LIMIT ) { errno = EFTYPE ; goto out ; } sh . sh_properties = CDF_TOLE4 ( shp -> sh_properties ) ; # define CDF_PROP_LIMIT ( UINT32_MAX / ( 4 * sizeof ( * inp ) ) ) if ( sh . sh_properties > CDF_PROP_LIMIT ) goto out ; DPRINTF ( ( ""section len: %u properties %u\\n"" , sh . sh_len , sh . sh_properties ) ) ; if ( * maxcount ) { if ( * maxcount > CDF_PROP_LIMIT ) goto out ; * maxcount += sh . sh_properties ; inp = CAST ( cdf_property_info_t * , realloc ( * info , * maxcount * sizeof ( * inp ) ) ) ; } else { * maxcount = sh . sh_properties ; inp = CAST ( cdf_property_info_t * , malloc ( * maxcount * sizeof ( * inp ) ) ) ; } if ( inp == NULL ) goto out ; * info = inp ; inp += * count ; * count += sh . sh_properties ; p = CAST ( const uint8_t * , ( const void * ) ( ( const char * ) ( const void * ) sst -> sst_tab + offs + sizeof ( sh ) ) ) ; e = CAST ( const uint8_t * , ( const void * ) ( ( ( const char * ) ( const void * ) shp ) + sh . sh_len ) ) ; if ( cdf_check_stream_offset ( sst , h , e , 0 , __LINE__ ) == - 1 ) goto out ; for ( i = 0 ; i < sh . sh_properties ; i ++ ) { size_t ofs = CDF_GETUINT32 ( p , ( i << 1 ) + 1 ) ; q = ( const uint8_t * ) ( const void * ) ( ( const char * ) ( const void * ) p + ofs if ( q > e ) { DPRINTF ( ( ""Ran of the end %p > %p\\n"" , q , e ) ) ; goto out ; } inp [ i ] . pi_id = CDF_GETUINT32 ( p , i << 1 ) ; inp [ i ] . pi_type = CDF_GETUINT32 ( q , 0 ) ; DPRINTF ( ( ""%"" SIZE_T_FORMAT ""u) id=%x type=%x offs=0x%tx,0x%x\\n"" , i , inp [ i ] . pi_id , inp [ i ] . pi_type , q - p , offs ) ) ; if ( inp [ i ] . pi_type & CDF_VECTOR ) { nelements = CDF_GETUINT32 ( q , 1 ) ; if ( nelements == 0 ) { DPRINTF ( ( ""CDF_VECTOR with nelements == 0\\n"" ) ) ; goto out ; } o = 2 ; } else { nelements = 1 ; o = 1 ; } o4 = o * sizeof ( uint32_t ) ; if ( inp [ i ] . pi_type & ( CDF_ARRAY | CDF_BYREF | CDF_RESERVED ) ) goto unknown ; switch ( inp [ i ] . pi_type & CDF_TYPEMASK ) { case CDF_NULL : case CDF_EMPTY : break ; case CDF_SIGNED16 : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & s16 , & q [ o4 ] , sizeof ( s16 ) ) ; inp [ i ] . pi_s16 = CDF_TOLE2 ( s16 ) ; break ; case CDF_SIGNED32 : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & s32 , & q [ o4 ] , sizeof ( s32 ) ) ; inp [ i ] . pi_s32 = CDF_TOLE4 ( ( uint32_t ) s32 ) ; break ; case CDF_BOOL : case CDF_UNSIGNED32 : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & u32 , & q [ o4 ] , sizeof ( u32 ) ) ; inp [ i ] . pi_u32 = CDF_TOLE4 ( u32 ) ; break ; case CDF_SIGNED64 : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & s64 , & q [ o4 ] , sizeof ( s64 ) ) ; inp [ i ] . pi_s64 = CDF_TOLE8 ( ( uint64_t ) s64 ) ; break ; case CDF_UNSIGNED64 : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & u64 , & q [ o4 ] , sizeof ( u64 ) ) ; inp [ i ] . pi_u64 = CDF_TOLE8 ( ( uint64_t ) u64 ) ; break ; case CDF_FLOAT : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & u32 , & q [ o4 ] , sizeof ( u32 ) ) ; u32 = CDF_TOLE4 ( u32 ) ; memcpy ( & inp [ i ] . pi_f , & u32 , sizeof ( inp [ i ] . pi_f ) ) ; break ; case CDF_DOUBLE : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & u64 , & q [ o4 ] , sizeof ( u64 ) ) ; u64 = CDF_TOLE8 ( ( uint64_t ) u64 ) ; memcpy ( & inp [ i ] . pi_d , & u64 , sizeof ( inp [ i ] . pi_d ) ) ; break ; case CDF_LENGTH32_STRING : case CDF_LENGTH32_WSTRING : if ( nelements > 1 ) { size_t nelem = inp - * info ; if ( * maxcount > CDF_PROP_LIMIT || nelements > CDF_PROP_LIMIT ) goto out ; * maxcount += nelements ; inp = CAST ( cdf_property_info_t * , realloc ( * info , * maxcount * sizeof ( * inp ) ) ) ; if ( inp == NULL ) goto out ; * info = inp ; inp = * info + nelem ; } DPRINTF ( ( ""nelements = %"" SIZE_T_FORMAT ""u\\n"" , nelements ) ) ; for ( j = 0 ; j < nelements && i < sh . sh_properties ; j ++ , i ++ ) { uint32_t l = CDF_GETUINT32 ( q , o ) ; inp [ i ] . pi_str . s_len = l ; inp [ i ] . pi_str . s_buf = ( const char * ) ( const void * ) ( & q [ o4 + sizeof ( l ) ] ) ; DPRINTF ( ( ""l = %d, r = %"" SIZE_T_FORMAT ""u, s = %s\\n"" , l , CDF_ROUND ( l , sizeof ( l ) ) , inp [ i ] . pi_str . s_buf ) ) ; if ( l & 1 ) l ++ ; o += l >> 1 ; if ( q + o >= e ) goto out ; o4 = o * sizeof ( uint32_t ) ; } i -- ; break ; case CDF_FILETIME : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & tp , & q [ o4 ] , sizeof ( tp ) ) ; inp [ i ] . pi_tp = CDF_TOLE8 ( ( uint64_t ) tp ) ; break ; case CDF_CLIPBOARD : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; break ; default : unknown : DPRINTF ( ( ""Don\'t know how to deal with %x\\n"" , inp [ i ] . pi_type ) ) ; break ; } } return 0 ; out : free ( * info ) ; return - 1 ; }" 222,"CWE-617 } errcode = kau_make_tkt_id ( kdc_context , & state -> ticket_reply , & au_state -> tkt_out_id ) ; if ( errcode ) { state -> status = ""GENERATE_TICKET_ID"" ; goto egress ; } state -> ticket_reply . enc_part . kvno = server_key -> key_data_kvno ; errcode = kdc_fast_response_handle_padata ( state -> rstate , state -> request , & state -> reply , state -> client_keyblock . enctype ) ; if ( errcode ) { state -> status = ""MAKE_FAST_RESPONSE"" ; goto egress ; } state -> reply . enc_part . enctype = state -> client_keyblock . enctype ; errcode = kdc_fast_handle_reply_key ( state -> rstate , & state -> client_keyblock , & as_encrypting_key ) ; if ( errcode ) { state -> status = ""MAKE_FAST_REPLY_KEY"" ; goto egress ; } errcode = return_enc_padata ( kdc_context , state -> req_pkt , state -> request , as_encrypting_key , state -> server , & state -> reply_encpart , FALSE ) ; if ( errcode ) { state -> status = ""KDC_RETURN_ENC_PADATA"" ; goto egress ; } if ( kdc_fast_hide_client ( state -> rstate ) ) state -> reply . client = ( krb5_principal ) krb5_anonymous_principal ( ) ; errcode = krb5_encode_kdc_rep ( kdc_context , KRB5_AS_REP , & state -> reply_encpart , 0 , as_encrypting_key , & state -> reply , & response ) ; if ( state -> client_key != NULL ) state -> reply . enc_part . kvno = state -> client_key -> key_data_kvno ; if ( errcode ) { state -> status = ""ENCODE_KDC_REP"" ; goto egress ; } memset ( state -> reply . enc_part . ciphertext . data , 0 , state -> reply . enc_part . ciphertext . length ) ; free ( state -> reply . enc_part . ciphertext . data ) ; log_as_req ( kdc_context , state -> local_addr , state -> remote_addr , state -> request , & state -> reply , state -> client , state -> cname , state -> server , state -> sname , state -> authtime , 0 , 0 , 0 ) ; did_log = 1 ; egress : if ( errcode != 0 ) assert ( state -> status != 0 ) ; au_state -> status = state -> status ; au_state -> reply = & state -> reply ; kau_as_req ( kdc_context , ( errcode || state -> preauth_err ) ? FALSE : TRUE , au_state ) ; kau_free_kdc_req ( au_state ) ; free_padata_context ( kdc_context , state -> pa_context ) ; if ( as_encrypting_key ) krb5_free_keyblock ( kdc_context , as_encrypting_key ) ; if ( errcode ) emsg = krb5_get_error_message ( kdc_context , errcode ) ; if ( state -> status ) { log_as_req ( kdc_context , state -> local_addr , state -> remote_addr , state -> request , & state -> reply , state -> client , state -> cname , state -> server , state -> sname , state -> authtime , state -> status , errcode , emsg ) ; did_log = 1 ; } if ( errcode ) { if ( state -> status == 0 ) { state -> status = emsg ; } if ( errcode != KRB5KDC_ERR_DISCARD ) { errcode -= ERROR_TABLE_BASE_krb5 ; if ( errcode < 0 || errcode > KRB_ERR_MAX ) errcode = KRB_ERR_GENERIC ; errcode = prepare_error_as ( state -> rstate , state -> request , state -> local_tgt , errcode , state -> e_data , state -> typed_e_data , ( ( state -> client != NULL ) ? state -> client -> princ : NULL ) , & response , state -> status ) ; state -> status = 0 ; } } if ( emsg ) krb5_free_error_message ( kdc_context , emsg ) ; if ( state -> enc_tkt_reply . authorization_data != NULL ) krb5_free_authdata ( kdc_context , state -> enc_tkt_reply . authorization_data ) ; if ( state -> server_keyblock . contents != NULL ) krb5_free_keyblock_contents ( kdc_context , & state -> server_keyblock ) ; if ( state -> client_keyblock . contents != NULL ) krb5_free_keyblock_contents ( kdc_context , & state -> client_keyblock ) ; if ( state -> reply . padata != NULL ) krb5_free_pa_data ( kdc_context , state -> reply . padata ) ; if ( state -> reply_encpart . enc_padata ) krb5_free_pa_data ( kdc_context , state -> reply_encpart . enc_padata ) ; if ( state -> cname != NULL ) free ( state -> cname ) ; if ( state -> sname != NULL )","} errcode = kau_make_tkt_id ( kdc_context , & state -> ticket_reply , & au_state -> tkt_out_id ) ; if ( errcode ) { state -> status = ""GENERATE_TICKET_ID"" ; goto egress ; } state -> ticket_reply . enc_part . kvno = server_key -> key_data_kvno ; errcode = kdc_fast_response_handle_padata ( state -> rstate , state -> request , & state -> reply , state -> client_keyblock . enctype ) ; if ( errcode ) { state -> status = ""MAKE_FAST_RESPONSE"" ; goto egress ; } state -> reply . enc_part . enctype = state -> client_keyblock . enctype ; errcode = kdc_fast_handle_reply_key ( state -> rstate , & state -> client_keyblock , & as_encrypting_key ) ; if ( errcode ) { state -> status = ""MAKE_FAST_REPLY_KEY"" ; goto egress ; } errcode = return_enc_padata ( kdc_context , state -> req_pkt , state -> request , as_encrypting_key , state -> server , & state -> reply_encpart , FALSE ) ; if ( errcode ) { state -> status = ""KDC_RETURN_ENC_PADATA"" ; goto egress ; } if ( kdc_fast_hide_client ( state -> rstate ) ) state -> reply . client = ( krb5_principal ) krb5_anonymous_principal ( ) ; errcode = krb5_encode_kdc_rep ( kdc_context , KRB5_AS_REP , & state -> reply_encpart , 0 , as_encrypting_key , & state -> reply , & response ) ; if ( state -> client_key != NULL ) state -> reply . enc_part . kvno = state -> client_key -> key_data_kvno ; if ( errcode ) { state -> status = ""ENCODE_KDC_REP"" ; goto egress ; } memset ( state -> reply . enc_part . ciphertext . data , 0 , state -> reply . enc_part . ciphertext . length ) ; free ( state -> reply . enc_part . ciphertext . data ) ; log_as_req ( kdc_context , state -> local_addr , state -> remote_addr , state -> request , & state -> reply , state -> client , state -> cname , state -> server , state -> sname , state -> authtime , 0 , 0 , 0 ) ; did_log = 1 ; egress : if ( errcode != 0 && state -> status == NULL ) state -> status = ""UNKNOWN_REASON"" ; au_state -> status = state -> status ; au_state -> reply = & state -> reply ; kau_as_req ( kdc_context , ( errcode || state -> preauth_err ) ? FALSE : TRUE , au_state ) ; kau_free_kdc_req ( au_state ) ; free_padata_context ( kdc_context , state -> pa_context ) ; if ( as_encrypting_key ) krb5_free_keyblock ( kdc_context , as_encrypting_key ) ; if ( errcode ) emsg = krb5_get_error_message ( kdc_context , errcode ) ; if ( state -> status ) { log_as_req ( kdc_context , state -> local_addr , state -> remote_addr , state -> request , & state -> reply , state -> client , state -> cname , state -> server , state -> sname , state -> authtime , state -> status , errcode , emsg ) ; did_log = 1 ; } if ( errcode ) { if ( state -> status == 0 ) { state -> status = emsg ; } if ( errcode != KRB5KDC_ERR_DISCARD ) { errcode -= ERROR_TABLE_BASE_krb5 ; if ( errcode < 0 || errcode > KRB_ERR_MAX ) errcode = KRB_ERR_GENERIC ; errcode = prepare_error_as ( state -> rstate , state -> request , state -> local_tgt , errcode , state -> e_data , state -> typed_e_data , ( ( state -> client != NULL ) ? state -> client -> princ : NULL ) , & response , state -> status ) ; state -> status = 0 ; } } if ( emsg ) krb5_free_error_message ( kdc_context , emsg ) ; if ( state -> enc_tkt_reply . authorization_data != NULL ) krb5_free_authdata ( kdc_context , state -> enc_tkt_reply . authorization_data ) ; if ( state -> server_keyblock . contents != NULL ) krb5_free_keyblock_contents ( kdc_context , & state -> server_keyblock ) ; if ( state -> client_keyblock . contents != NULL ) krb5_free_keyblock_contents ( kdc_context , & state -> client_keyblock ) ; if ( state -> reply . padata != NULL ) krb5_free_pa_data ( kdc_context , state -> reply . padata ) ; if ( state -> reply_encpart . enc_padata ) krb5_free_pa_data ( kdc_context , state -> reply_encpart . enc_padata ) ; if ( state -> cname != NULL ) free ( state -> cname ) ; if ( state -> sname != NULL )" 223,"CWE-119 int vp8_alloc_frame_buffers ( VP8_COMMON * oci , int width , int height ) { int i ; vp8_de_alloc_frame_buffers ( oci ) ; if ( ( width & 0xf ) != 0 ) width += 16 - ( width & 0xf ) ; if ( ( height & 0xf ) != 0 ) height += 16 - ( height & 0xf ) ; for ( i = 0 ; i < NUM_YV12_BUFFERS ; i ++ ) { oci -> fb_idx_ref_cnt [ i ] = 0 ; oci -> yv12_fb [ i ] . flags = 0 ; if ( vp8_yv12_alloc_frame_buffer ( & oci -> yv12_fb [ i ] , width , height , VP8BORDERINPIXELS ) < 0 ) goto allocation_fail ; } oci -> new_fb_idx = 0 ; oci -> lst_fb_idx = 1 ; oci -> gld_fb_idx = 2 ; oci -> alt_fb_idx = 3 ; oci -> fb_idx_ref_cnt [ 0 ] = 1 ; oci -> fb_idx_ref_cnt [ 1 ] = 1 ; oci -> fb_idx_ref_cnt [ 2 ] = 1 ; oci -> fb_idx_ref_cnt [ 3 ] = 1 ; if ( vp8_yv12_alloc_frame_buffer ( & oci -> temp_scale_frame , width , 16 , VP8BORDERINPIXELS ) < 0 ) goto allocation_fail ; oci -> mb_rows = height >> 4 ; oci -> mb_cols = width >> 4 ; oci -> MBs = oci -> mb_rows * oci -> mb_cols ; oci -> mode_info_stride = oci -> mb_cols + 1 ; oci -> mip = vpx_calloc ( ( oci -> mb_cols + 1 ) * ( oci -> mb_rows + 1 ) , sizeof ( MODE_INFO ) ) ; if ( ! oci -> mip ) goto allocation_fail ; oci -> mi = oci -> mip + oci -> mode_info_stride + 1 ; oci -> above_context = vpx_calloc ( sizeof ( ENTROPY_CONTEXT_PLANES ) * oci -> mb_cols , 1 ) ; if ( ! oci -> above_context ) goto allocation_fail ; # if CONFIG_POSTPROC if ( vp8_yv12_alloc_frame_buffer ( & oci -> post_proc_buffer , width , height , VP8BORDERINPIXELS ) < 0 ) goto allocation_fail ; oci -> post_proc_buffer_int_used = 0 ; vpx_memset ( & oci -> postproc_state , 0 , sizeof ( oci -> postproc_state ) ) ; vpx_memset ( oci -> post_proc_buffer . buffer_alloc , 128 , oci -> post_proc_buffer . frame_size ) ; oci -> pp_limits_buffer = vpx_memalign ( 16 , 24 * ( ( oci -> mb_cols + 1 ) & ~ 1 ) ) ; if ( ! oci -> pp_limits_buffer ) goto allocation_fail ; # endif return 0 ; allocation_fail : vp8_de_alloc_frame_buffers ( oci ) ; return 1 ; }","int vp8_alloc_frame_buffers ( VP8_COMMON * oci , int width , int height ) { int i ; vp8_de_alloc_frame_buffers ( oci ) ; if ( ( width & 0xf ) != 0 ) width += 16 - ( width & 0xf ) ; if ( ( height & 0xf ) != 0 ) height += 16 - ( height & 0xf ) ; for ( i = 0 ; i < NUM_YV12_BUFFERS ; i ++ ) { oci -> fb_idx_ref_cnt [ i ] = 0 ; oci -> yv12_fb [ i ] . flags = 0 ; if ( vp8_yv12_alloc_frame_buffer ( & oci -> yv12_fb [ i ] , width , height , VP8BORDERINPIXELS ) < 0 ) goto allocation_fail ; } oci -> new_fb_idx = 0 ; oci -> lst_fb_idx = 1 ; oci -> gld_fb_idx = 2 ; oci -> alt_fb_idx = 3 ; oci -> fb_idx_ref_cnt [ 0 ] = 1 ; oci -> fb_idx_ref_cnt [ 1 ] = 1 ; oci -> fb_idx_ref_cnt [ 2 ] = 1 ; oci -> fb_idx_ref_cnt [ 3 ] = 1 ; if ( vp8_yv12_alloc_frame_buffer ( & oci -> temp_scale_frame , width , 16 , VP8BORDERINPIXELS ) < 0 ) goto allocation_fail ; oci -> mb_rows = height >> 4 ; oci -> mb_cols = width >> 4 ; oci -> MBs = oci -> mb_rows * oci -> mb_cols ; oci -> mode_info_stride = oci -> mb_cols + 1 ; oci -> mip = vpx_calloc ( ( oci -> mb_cols + 1 ) * ( oci -> mb_rows + 1 ) , sizeof ( MODE_INFO ) ) ; if ( ! oci -> mip ) goto allocation_fail ; oci -> mi = oci -> mip + oci -> mode_info_stride + 1 ; oci -> above_context = vpx_calloc ( sizeof ( ENTROPY_CONTEXT_PLANES ) * oci -> mb_cols , 1 ) ; if ( ! oci -> above_context ) goto allocation_fail ; # if CONFIG_POSTPROC if ( vp8_yv12_alloc_frame_buffer ( & oci -> post_proc_buffer , width , height , VP8BORDERINPIXELS ) < 0 ) goto allocation_fail ; oci -> post_proc_buffer_int_used = 0 ; memset ( & oci -> postproc_state , 0 , sizeof ( oci -> postproc_state ) ) ; memset ( oci -> post_proc_buffer . buffer_alloc , 128 , oci -> post_proc_buffer . frame_size ) ; oci -> pp_limits_buffer = vpx_memalign ( 16 , 24 * ( ( oci -> mb_cols + 1 ) & ~ 1 ) ) ; if ( ! oci -> pp_limits_buffer ) goto allocation_fail ; # endif return 0 ; allocation_fail : vp8_de_alloc_frame_buffers ( oci ) ; return 1 ; }" 224,"CWE-119 static int calc_arf_boost ( VP9_COMP * cpi , int offset , int f_frames , int b_frames , int * f_boost , int * b_boost ) { FIRSTPASS_STATS this_frame ; struct twopass_rc * const twopass = & cpi -> twopass ; int i ; double boost_score = 0.0 ; double mv_ratio_accumulator = 0.0 ; double decay_accumulator = 1.0 ; double this_frame_mv_in_out = 0.0 ; double mv_in_out_accumulator = 0.0 ; double abs_mv_in_out_accumulator = 0.0 ; int arf_boost ; int flash_detected = 0 ; for ( i = 0 ; i < f_frames ; ++ i ) { if ( read_frame_stats ( twopass , & this_frame , ( i + offset ) ) == EOF ) break ; accumulate_frame_motion_stats ( & this_frame , & this_frame_mv_in_out , & mv_in_out_accumulator , & abs_mv_in_out_accumulator , & mv_ratio_accumulator ) ; flash_detected = detect_flash ( twopass , i + offset ) || detect_flash ( twopass , i + offset + 1 ) ; if ( ! flash_detected ) { decay_accumulator *= get_prediction_decay_rate ( & cpi -> common , & this_frame ) ; decay_accumulator = decay_accumulator < MIN_DECAY_FACTOR ? MIN_DECAY_FACTOR : decay_accumulator ; } boost_score += ( decay_accumulator * calc_frame_boost ( cpi , & this_frame , this_frame_mv_in_out ) ) ; } * f_boost = ( int ) boost_score ; boost_score = 0.0 ; mv_ratio_accumulator = 0.0 ; decay_accumulator = 1.0 ; this_frame_mv_in_out = 0.0 ; mv_in_out_accumulator = 0.0 ; abs_mv_in_out_accumulator = 0.0 ; for ( i = - 1 ; i >= - b_frames ; -- i ) { if ( read_frame_stats ( twopass , & this_frame , ( i + offset ) ) == EOF ) break ; accumulate_frame_motion_stats ( & this_frame , & this_frame_mv_in_out , & mv_in_out_accumulator , & abs_mv_in_out_accumulator , & mv_ratio_accumulator ) ; flash_detected = detect_flash ( twopass , i + offset ) || detect_flash ( twopass , i + offset + 1 ) ; if ( ! flash_detected ) { decay_accumulator *= get_prediction_decay_rate ( & cpi -> common , & this_frame ) ; decay_accumulator = decay_accumulator < MIN_DECAY_FACTOR ? MIN_DECAY_FACTOR : decay_accumulator ; } boost_score += ( decay_accumulator * calc_frame_boost ( cpi , & this_frame , this_frame_mv_in_out ) ) ; } * b_boost = ( int ) boost_score ; arf_boost = ( * f_boost + * b_boost ) ; if ( arf_boost < ( ( b_frames + f_frames ) * 20 ) ) arf_boost = ( ( b_frames + f_frames ) * 20 ) ; return arf_boost ; }","static int calc_arf_boost ( VP9_COMP * cpi , int offset , int f_frames , int b_frames , int * f_boost , int * b_boost ) { TWO_PASS * const twopass = & cpi -> twopass ; int i ; double boost_score = 0.0 ; double mv_ratio_accumulator = 0.0 ; double decay_accumulator = 1.0 ; double this_frame_mv_in_out = 0.0 ; double mv_in_out_accumulator = 0.0 ; double abs_mv_in_out_accumulator = 0.0 ; int arf_boost ; int flash_detected = 0 ; for ( i = 0 ; i < f_frames ; ++ i ) { const FIRSTPASS_STATS * this_frame = read_frame_stats ( twopass , i + offset ) ; if ( this_frame == NULL ) break ; accumulate_frame_motion_stats ( this_frame , & this_frame_mv_in_out , & mv_in_out_accumulator , & abs_mv_in_out_accumulator , & mv_ratio_accumulator ) ; flash_detected = detect_flash ( twopass , i + offset ) || detect_flash ( twopass , i + offset + 1 ) ; if ( ! flash_detected ) { decay_accumulator *= get_prediction_decay_rate ( cpi , this_frame ) ; decay_accumulator = decay_accumulator < MIN_DECAY_FACTOR ? MIN_DECAY_FACTOR : decay_accumulator ; } boost_score += decay_accumulator * calc_frame_boost ( cpi , this_frame , this_frame_mv_in_out , GF_MAX_BOOST ) ; } * f_boost = ( int ) boost_score ; boost_score = 0.0 ; mv_ratio_accumulator = 0.0 ; decay_accumulator = 1.0 ; this_frame_mv_in_out = 0.0 ; mv_in_out_accumulator = 0.0 ; abs_mv_in_out_accumulator = 0.0 ; for ( i = - 1 ; i >= - b_frames ; -- i ) { const FIRSTPASS_STATS * this_frame = read_frame_stats ( twopass , i + offset ) ; if ( this_frame == NULL ) break ; accumulate_frame_motion_stats ( this_frame , & this_frame_mv_in_out , & mv_in_out_accumulator , & abs_mv_in_out_accumulator , & mv_ratio_accumulator ) ; flash_detected = detect_flash ( twopass , i + offset ) || detect_flash ( twopass , i + offset + 1 ) ; if ( ! flash_detected ) { decay_accumulator *= get_prediction_decay_rate ( cpi , this_frame ) ; decay_accumulator = decay_accumulator < MIN_DECAY_FACTOR ? MIN_DECAY_FACTOR : decay_accumulator ; } boost_score += decay_accumulator * calc_frame_boost ( cpi , this_frame , this_frame_mv_in_out , GF_MAX_BOOST ) ; } * b_boost = ( int ) boost_score ; arf_boost = ( * f_boost + * b_boost ) ; if ( arf_boost < ( ( b_frames + f_frames ) * 20 ) ) arf_boost = ( ( b_frames + f_frames ) * 20 ) ; arf_boost = MAX ( arf_boost , MIN_ARF_GF_BOOST ) ; return arf_boost ; }" 225,"CWE-119 static void yv12_extend_frame_top_c ( YV12_BUFFER_CONFIG * ybf ) { int i ; unsigned char * src_ptr1 ; unsigned char * dest_ptr1 ; unsigned int Border ; int plane_stride ; Border = ybf -> border ; plane_stride = ybf -> y_stride ; src_ptr1 = ybf -> y_buffer - Border ; dest_ptr1 = src_ptr1 - ( Border * plane_stride ) ; for ( i = 0 ; i < ( int ) Border ; i ++ ) { vpx_memcpy ( dest_ptr1 , src_ptr1 , plane_stride ) ; dest_ptr1 += plane_stride ; } plane_stride = ybf -> uv_stride ; Border /= 2 ; src_ptr1 = ybf -> u_buffer - Border ; dest_ptr1 = src_ptr1 - ( Border * plane_stride ) ; for ( i = 0 ; i < ( int ) ( Border ) ; i ++ ) { vpx_memcpy ( dest_ptr1 , src_ptr1 , plane_stride ) ; dest_ptr1 += plane_stride ; } src_ptr1 = ybf -> v_buffer - Border ; dest_ptr1 = src_ptr1 - ( Border * plane_stride ) ; for ( i = 0 ; i < ( int ) ( Border ) ; i ++ ) { vpx_memcpy ( dest_ptr1 , src_ptr1 , plane_stride ) ; dest_ptr1 += plane_stride ; } }","static void yv12_extend_frame_top_c ( YV12_BUFFER_CONFIG * ybf ) { int i ; unsigned char * src_ptr1 ; unsigned char * dest_ptr1 ; unsigned int Border ; int plane_stride ; Border = ybf -> border ; plane_stride = ybf -> y_stride ; src_ptr1 = ybf -> y_buffer - Border ; dest_ptr1 = src_ptr1 - ( Border * plane_stride ) ; for ( i = 0 ; i < ( int ) Border ; i ++ ) { memcpy ( dest_ptr1 , src_ptr1 , plane_stride ) ; dest_ptr1 += plane_stride ; } plane_stride = ybf -> uv_stride ; Border /= 2 ; src_ptr1 = ybf -> u_buffer - Border ; dest_ptr1 = src_ptr1 - ( Border * plane_stride ) ; for ( i = 0 ; i < ( int ) ( Border ) ; i ++ ) { memcpy ( dest_ptr1 , src_ptr1 , plane_stride ) ; dest_ptr1 += plane_stride ; } src_ptr1 = ybf -> v_buffer - Border ; dest_ptr1 = src_ptr1 - ( Border * plane_stride ) ; for ( i = 0 ; i < ( int ) ( Border ) ; i ++ ) { memcpy ( dest_ptr1 , src_ptr1 , plane_stride ) ; dest_ptr1 += plane_stride ; } }" 226,"CWE-119 void * pvPortMalloc ( size_t xWantedSize ) { void * pvReturn = NULL ; static uint8_t * pucAlignedHeap = NULL ; # if ( portBYTE_ALIGNMENT != 1 ) { if ( xWantedSize & portBYTE_ALIGNMENT_MASK ) { xWantedSize += ( portBYTE_ALIGNMENT - ( xWantedSize & portBYTE_ALIGNMENT_MASK ) ) ; } } # endif vTaskSuspendAll ( ) ; { if ( pucAlignedHeap == NULL ) { pucAlignedHeap = ( uint8_t * ) ( ( ( portPOINTER_SIZE_TYPE ) & ucHeap [ portBYTE_ALIGNMENT ] ) & ( ~ ( ( portPOINTER_SIZE_TYPE ) portBYTE_ALIGNMENT_MASK ) ) ) ; } if ( ( ( xNextFreeByte + xWantedSize ) < configADJUSTED_HEAP_SIZE ) && ( ( xNextFreeByte + xWantedSize ) > xNextFreeByte ) ) { pvReturn = pucAlignedHeap + xNextFreeByte ; xNextFreeByte += xWantedSize ; } traceMALLOC ( pvReturn , xWantedSize ) ; } ( void ) xTaskResumeAll ( ) ; # if ( configUSE_MALLOC_FAILED_HOOK == 1 ) { if ( pvReturn == NULL ) { extern void vApplicationMallocFailedHook ( void ) ; vApplicationMallocFailedHook ( ) ; } } # endif return pvReturn ; }","void * pvPortMalloc ( size_t xWantedSize ) { void * pvReturn = NULL ; static uint8_t * pucAlignedHeap = NULL ; # if ( portBYTE_ALIGNMENT != 1 ) { if ( xWantedSize & portBYTE_ALIGNMENT_MASK ) { if ( ( xWantedSize + ( portBYTE_ALIGNMENT - ( xWantedSize & portBYTE_ALIGNMENT_MASK ) ) ) > xWantedSize ) { xWantedSize += ( portBYTE_ALIGNMENT - ( xWantedSize & portBYTE_ALIGNMENT_MASK ) ) ; } else { xWantedSize = 0 ; } } } # endif vTaskSuspendAll ( ) ; { if ( pucAlignedHeap == NULL ) { pucAlignedHeap = ( uint8_t * ) ( ( ( portPOINTER_SIZE_TYPE ) & ucHeap [ portBYTE_ALIGNMENT ] ) & ( ~ ( ( portPOINTER_SIZE_TYPE ) portBYTE_ALIGNMENT_MASK ) ) ) ; } if ( ( xWantedSize > 0 ) && ( ( xNextFreeByte + xWantedSize ) < configADJUSTED_HEAP_SIZE ) && ( ( xNextFreeByte + xWantedSize ) > xNextFreeByte ) ) { pvReturn = pucAlignedHeap + xNextFreeByte ; xNextFreeByte += xWantedSize ; } traceMALLOC ( pvReturn , xWantedSize ) ; } ( void ) xTaskResumeAll ( ) ; # if ( configUSE_MALLOC_FAILED_HOOK == 1 ) { if ( pvReturn == NULL ) { extern void vApplicationMallocFailedHook ( void ) ; vApplicationMallocFailedHook ( ) ; } } # endif return pvReturn ; }" 227,"CWE-20 x86_pmu . extra_regs = intel_nehalem_extra_regs ; intel_perfmon_event_map [ PERF_COUNT_HW_STALLED_CYCLES_FRONTEND ] = X86_CONFIG ( . event = 0x0e , . umask = 0x01 , . inv = 1 , . cmask = 1 ) ; intel_perfmon_event_map [ PERF_COUNT_HW_STALLED_CYCLES_BACKEND ] = X86_CONFIG ( . event = 0xb1 , . umask = 0x3f , . inv = 1 , . cmask = 1 ) ; x86_add_quirk ( intel_nehalem_quirk ) ; pr_cont ( ""Nehalem events, "" ) ; break ; case 28 : case 38 : case 39 : case 53 : case 54 : memcpy ( hw_cache_event_ids , atom_hw_cache_event_ids , sizeof ( hw_cache_event_ids ) ) ; intel_pmu_lbr_init_atom ( ) ; x86_pmu . event_constraints = intel_gen_event_constraints ; x86_pmu . pebs_constraints = intel_atom_pebs_event_constraints ; pr_cont ( ""Atom events, "" ) ; break ; case 37 : case 44 : case 47 : memcpy ( hw_cache_event_ids , westmere_hw_cache_event_ids , sizeof ( hw_cache_event_ids ) ) ; memcpy ( hw_cache_extra_regs , nehalem_hw_cache_extra_regs , sizeof ( hw_cache_extra_regs ) ) ; intel_pmu_lbr_init_nhm ( ) ; x86_pmu . event_constraints = intel_westmere_event_constraints ; x86_pmu . enable_all = intel_pmu_nhm_enable_all ; x86_pmu . pebs_constraints = intel_westmere_pebs_event_constraints ; x86_pmu . extra_regs = intel_westmere_extra_regs ; x86_pmu . er_flags |= ERF_HAS_RSP_1 ; intel_perfmon_event_map [ PERF_COUNT_HW_STALLED_CYCLES_FRONTEND ] = X86_CONFIG ( . event = 0x0e , . umask = 0x01 , . inv = 1 , . cmask = 1 ) ; intel_perfmon_event_map [ PERF_COUNT_HW_STALLED_CYCLES_BACKEND ] = X86_CONFIG ( . event = 0xb1 , . umask = 0x3f , . inv = 1 , . cmask = 1 ) ; pr_cont ( ""Westmere events, "" ) ; break ; case 42 : case 45 : x86_add_quirk ( intel_sandybridge_quirk ) ; memcpy ( hw_cache_event_ids , snb_hw_cache_event_ids , sizeof ( hw_cache_event_ids ) ) ; memcpy ( hw_cache_extra_regs , snb_hw_cache_extra_regs , sizeof ( hw_cache_extra_regs ) ) ; intel_pmu_lbr_init_snb ( ) ; x86_pmu . event_constraints = intel_snb_event_constraints ; x86_pmu . pebs_constraints = intel_snb_pebs_event_constraints ; x86_pmu . pebs_aliases = intel_pebs_aliases_snb ; x86_pmu . extra_regs = intel_snb_extra_regs ; x86_pmu . er_flags |= ERF_HAS_RSP_1 ; x86_pmu . er_flags |= ERF_NO_HT_SHARING ; intel_perfmon_event_map [ PERF_COUNT_HW_STALLED_CYCLES_FRONTEND ] = X86_CONFIG ( . event = 0x0e , . umask = 0x01 , . inv = 1 , . cmask = 1 ) ; intel_perfmon_event_map [ PERF_COUNT_HW_STALLED_CYCLES_BACKEND ] = X86_CONFIG ( . event = 0xb1 , . umask = 0x01 , . inv = 1 , . cmask = 1 ) ; pr_cont ( ""SandyBridge events, "" ) ; break ; case 58 : case 62 : memcpy ( hw_cache_event_ids , snb_hw_cache_event_ids , sizeof ( hw_cache_event_ids ) ) ; memcpy ( hw_cache_extra_regs , snb_hw_cache_extra_regs , sizeof ( hw_cache_extra_regs ) ) ; intel_pmu_lbr_init_snb ( ) ; x86_pmu . event_constraints = intel_ivb_event_constraints ; x86_pmu . pebs_constraints = intel_ivb_pebs_event_constraints ; x86_pmu . pebs_aliases = intel_pebs_aliases_snb ; x86_pmu . extra_regs = intel_snb_extra_regs ; x86_pmu . er_flags |= ERF_HAS_RSP_1 ; x86_pmu . er_flags |= ERF_NO_HT_SHARING ; intel_perfmon_event_map [ PERF_COUNT_HW_STALLED_CYCLES_FRONTEND ] = X86_CONFIG ( . event = 0x0e , . umask = 0x01 , . inv = 1 , . cmask = 1 ) ; pr_cont ( ""IvyBridge events, "" ) ; break ; default : switch ( x86_pmu . version ) { case 1 : x86_pmu . event_constraints = intel_v1_event_constraints ; pr_cont ( ""generic architected perfmon v1, "" ) ; break ; default : x86_pmu . event_constraints = intel_gen_event_constraints ; pr_cont ( ""generic architected perfmon, "" ) ; break ; } } if ( x86_pmu . num_counters > INTEL_PMC_MAX_GENERIC ) { WARN ( 1 , KERN_ERR ""hw perf events %d > max(%d), clipping!"" , x86_pmu . num_counters , INTEL_PMC_MAX_GENERIC ) ; x86_pmu . num_counters = INTEL_PMC_MAX_GENERIC ; } x86_pmu . intel_ctrl = ( 1 << x86_pmu . num_counters ) - 1 ; if ( x86_pmu . num_counters_fixed > INTEL_PMC_MAX_FIXED ) { WARN ( 1 , KERN_ERR ""hw perf events fixed %d > max(%d), clipping!"" , x86_pmu . num_counters_fixed , INTEL_PMC_MAX_FIXED ) ; x86_pmu . num_counters_fixed = INTEL_PMC_MAX_FIXED ; } x86_pmu . intel_ctrl |= ( ( 1LL << x86_pmu . num_counters_fixed ) - 1 ) << INTEL_PMC_IDX_FIXED ; if ( x86_pmu . event_constraints ) { for_each_event_constraint ( c , x86_pmu . event_constraints ) { if ( c -> cmask != X86_RAW_EVENT_MASK || c -> idxmsk64 == INTEL_PMC_MSK_FIXED_REF_CYCLES ) { continue ; } c -> idxmsk64 |= ( 1ULL << x86_pmu . num_counters ) - 1 ; c -> weight += x86_pmu . num_counters ; } } return 0 ; }","x86_pmu . extra_regs = intel_nehalem_extra_regs ; intel_perfmon_event_map [ PERF_COUNT_HW_STALLED_CYCLES_FRONTEND ] = X86_CONFIG ( . event = 0x0e , . umask = 0x01 , . inv = 1 , . cmask = 1 ) ; intel_perfmon_event_map [ PERF_COUNT_HW_STALLED_CYCLES_BACKEND ] = X86_CONFIG ( . event = 0xb1 , . umask = 0x3f , . inv = 1 , . cmask = 1 ) ; x86_add_quirk ( intel_nehalem_quirk ) ; pr_cont ( ""Nehalem events, "" ) ; break ; case 28 : case 38 : case 39 : case 53 : case 54 : memcpy ( hw_cache_event_ids , atom_hw_cache_event_ids , sizeof ( hw_cache_event_ids ) ) ; intel_pmu_lbr_init_atom ( ) ; x86_pmu . event_constraints = intel_gen_event_constraints ; x86_pmu . pebs_constraints = intel_atom_pebs_event_constraints ; pr_cont ( ""Atom events, "" ) ; break ; case 37 : case 44 : case 47 : memcpy ( hw_cache_event_ids , westmere_hw_cache_event_ids , sizeof ( hw_cache_event_ids ) ) ; memcpy ( hw_cache_extra_regs , nehalem_hw_cache_extra_regs , sizeof ( hw_cache_extra_regs ) ) ; intel_pmu_lbr_init_nhm ( ) ; x86_pmu . event_constraints = intel_westmere_event_constraints ; x86_pmu . enable_all = intel_pmu_nhm_enable_all ; x86_pmu . pebs_constraints = intel_westmere_pebs_event_constraints ; x86_pmu . extra_regs = intel_westmere_extra_regs ; x86_pmu . er_flags |= ERF_HAS_RSP_1 ; intel_perfmon_event_map [ PERF_COUNT_HW_STALLED_CYCLES_FRONTEND ] = X86_CONFIG ( . event = 0x0e , . umask = 0x01 , . inv = 1 , . cmask = 1 ) ; intel_perfmon_event_map [ PERF_COUNT_HW_STALLED_CYCLES_BACKEND ] = X86_CONFIG ( . event = 0xb1 , . umask = 0x3f , . inv = 1 , . cmask = 1 ) ; pr_cont ( ""Westmere events, "" ) ; break ; case 42 : case 45 : x86_add_quirk ( intel_sandybridge_quirk ) ; memcpy ( hw_cache_event_ids , snb_hw_cache_event_ids , sizeof ( hw_cache_event_ids ) ) ; memcpy ( hw_cache_extra_regs , snb_hw_cache_extra_regs , sizeof ( hw_cache_extra_regs ) ) ; intel_pmu_lbr_init_snb ( ) ; x86_pmu . event_constraints = intel_snb_event_constraints ; x86_pmu . pebs_constraints = intel_snb_pebs_event_constraints ; x86_pmu . pebs_aliases = intel_pebs_aliases_snb ; if ( boot_cpu_data . x86_model == 45 ) x86_pmu . extra_regs = intel_snbep_extra_regs ; else x86_pmu . extra_regs = intel_snb_extra_regs ; x86_pmu . er_flags |= ERF_HAS_RSP_1 ; x86_pmu . er_flags |= ERF_NO_HT_SHARING ; intel_perfmon_event_map [ PERF_COUNT_HW_STALLED_CYCLES_FRONTEND ] = X86_CONFIG ( . event = 0x0e , . umask = 0x01 , . inv = 1 , . cmask = 1 ) ; intel_perfmon_event_map [ PERF_COUNT_HW_STALLED_CYCLES_BACKEND ] = X86_CONFIG ( . event = 0xb1 , . umask = 0x01 , . inv = 1 , . cmask = 1 ) ; pr_cont ( ""SandyBridge events, "" ) ; break ; case 58 : case 62 : memcpy ( hw_cache_event_ids , snb_hw_cache_event_ids , sizeof ( hw_cache_event_ids ) ) ; memcpy ( hw_cache_extra_regs , snb_hw_cache_extra_regs , sizeof ( hw_cache_extra_regs ) ) ; intel_pmu_lbr_init_snb ( ) ; x86_pmu . event_constraints = intel_ivb_event_constraints ; x86_pmu . pebs_constraints = intel_ivb_pebs_event_constraints ; x86_pmu . pebs_aliases = intel_pebs_aliases_snb ; if ( boot_cpu_data . x86_model == 62 ) x86_pmu . extra_regs = intel_snbep_extra_regs ; else x86_pmu . extra_regs = intel_snb_extra_regs ; x86_pmu . er_flags |= ERF_HAS_RSP_1 ; x86_pmu . er_flags |= ERF_NO_HT_SHARING ; intel_perfmon_event_map [ PERF_COUNT_HW_STALLED_CYCLES_FRONTEND ] = X86_CONFIG ( . event = 0x0e , . umask = 0x01 , . inv = 1 , . cmask = 1 ) ; pr_cont ( ""IvyBridge events, "" ) ; break ; default : switch ( x86_pmu . version ) { case 1 : x86_pmu . event_constraints = intel_v1_event_constraints ; pr_cont ( ""generic architected perfmon v1, "" ) ; break ; default : x86_pmu . event_constraints = intel_gen_event_constraints ; pr_cont ( ""generic architected perfmon, "" ) ; break ; } } if ( x86_pmu . num_counters > INTEL_PMC_MAX_GENERIC ) { WARN ( 1 , KERN_ERR ""hw perf events %d > max(%d), clipping!"" , x86_pmu . num_counters , INTEL_PMC_MAX_GENERIC ) ; x86_pmu . num_counters = INTEL_PMC_MAX_GENERIC ; } x86_pmu . intel_ctrl = ( 1 << x86_pmu . num_counters ) - 1 ; if ( x86_pmu . num_counters_fixed > INTEL_PMC_MAX_FIXED ) { WARN ( 1 , KERN_ERR ""hw perf events fixed %d > max(%d), clipping!"" , x86_pmu . num_counters_fixed , INTEL_PMC_MAX_FIXED ) ; x86_pmu . num_counters_fixed = INTEL_PMC_MAX_FIXED ; } x86_pmu . intel_ctrl |= ( ( 1LL << x86_pmu . num_counters_fixed ) - 1 ) << INTEL_PMC_IDX_FIXED ; if ( x86_pmu . event_constraints ) { for_each_event_constraint ( c , x86_pmu . event_constraints ) { if ( c -> cmask != X86_RAW_EVENT_MASK || c -> idxmsk64 == INTEL_PMC_MSK_FIXED_REF_CYCLES ) { continue ; } c -> idxmsk64 |= ( 1ULL << x86_pmu . num_counters ) - 1 ; c -> weight += x86_pmu . num_counters ; } } return 0 ; }" 228,"NVD-CWE-Other SYSCALL_DEFINE4 ( epoll_ctl , int , epfd , int , op , int , fd , struct epoll_event __user * , event ) { int error ; int did_lock_epmutex = 0 ; struct file * file , * tfile ; struct eventpoll * ep ; struct epitem * epi ; struct epoll_event epds ; error = - EFAULT ; if ( ep_op_has_event ( op ) && copy_from_user ( & epds , event , sizeof ( struct epoll_event ) ) ) goto error_return ; error = - EBADF ; file = fget ( epfd ) ; if ( ! file ) goto error_return ; tfile = fget ( fd ) ; if ( ! tfile ) goto error_fput ; error = - EPERM ; if ( ! tfile -> f_op || ! tfile -> f_op -> poll ) goto error_tgt_fput ; error = - EINVAL ; if ( file == tfile || ! is_file_epoll ( file ) ) goto error_tgt_fput ; ep = file -> private_data ; if ( op == EPOLL_CTL_ADD || op == EPOLL_CTL_DEL ) { mutex_lock ( & epmutex ) ; did_lock_epmutex = 1 ; } if ( op == EPOLL_CTL_ADD ) { if ( is_file_epoll ( tfile ) ) { error = - ELOOP ; if ( ep_loop_check ( ep , tfile ) != 0 ) goto error_tgt_fput ; } else list_add ( & tfile -> f_tfile_llink , & tfile_check_list ) ; } mutex_lock_nested ( & ep -> mtx , 0 ) ; epi = ep_find ( ep , tfile , fd ) ; error = - EINVAL ; switch ( op ) { case EPOLL_CTL_ADD : if ( ! epi ) { epds . events |= POLLERR | POLLHUP ; error = ep_insert ( ep , & epds , tfile , fd ) ; } else error = - EEXIST ; clear_tfile_check_list ( ) ; break ; case EPOLL_CTL_DEL : if ( epi ) error = ep_remove ( ep , epi ) ; else error = - ENOENT ; break ; case EPOLL_CTL_MOD : if ( epi ) { epds . events |= POLLERR | POLLHUP ; error = ep_modify ( ep , epi , & epds ) ; } else error = - ENOENT ; break ; } mutex_unlock ( & ep -> mtx ) ; error_tgt_fput : if ( did_lock_epmutex ) mutex_unlock ( & epmutex ) ; fput ( tfile ) ; error_fput : fput ( file ) ; error_return : return error ; }","SYSCALL_DEFINE4 ( epoll_ctl , int , epfd , int , op , int , fd , struct epoll_event __user * , event ) { int error ; int did_lock_epmutex = 0 ; struct file * file , * tfile ; struct eventpoll * ep ; struct epitem * epi ; struct epoll_event epds ; error = - EFAULT ; if ( ep_op_has_event ( op ) && copy_from_user ( & epds , event , sizeof ( struct epoll_event ) ) ) goto error_return ; error = - EBADF ; file = fget ( epfd ) ; if ( ! file ) goto error_return ; tfile = fget ( fd ) ; if ( ! tfile ) goto error_fput ; error = - EPERM ; if ( ! tfile -> f_op || ! tfile -> f_op -> poll ) goto error_tgt_fput ; error = - EINVAL ; if ( file == tfile || ! is_file_epoll ( file ) ) goto error_tgt_fput ; ep = file -> private_data ; if ( op == EPOLL_CTL_ADD || op == EPOLL_CTL_DEL ) { mutex_lock ( & epmutex ) ; did_lock_epmutex = 1 ; } if ( op == EPOLL_CTL_ADD ) { if ( is_file_epoll ( tfile ) ) { error = - ELOOP ; if ( ep_loop_check ( ep , tfile ) != 0 ) { clear_tfile_check_list ( ) ; goto error_tgt_fput ; } } else list_add ( & tfile -> f_tfile_llink , & tfile_check_list ) ; } mutex_lock_nested ( & ep -> mtx , 0 ) ; epi = ep_find ( ep , tfile , fd ) ; error = - EINVAL ; switch ( op ) { case EPOLL_CTL_ADD : if ( ! epi ) { epds . events |= POLLERR | POLLHUP ; error = ep_insert ( ep , & epds , tfile , fd ) ; } else error = - EEXIST ; clear_tfile_check_list ( ) ; break ; case EPOLL_CTL_DEL : if ( epi ) error = ep_remove ( ep , epi ) ; else error = - ENOENT ; break ; case EPOLL_CTL_MOD : if ( epi ) { epds . events |= POLLERR | POLLHUP ; error = ep_modify ( ep , epi , & epds ) ; } else error = - ENOENT ; break ; } mutex_unlock ( & ep -> mtx ) ; error_tgt_fput : if ( did_lock_epmutex ) mutex_unlock ( & epmutex ) ; fput ( tfile ) ; error_fput : fput ( file ) ; error_return : return error ; }" 229,"CWE-476 } track_num = gf_isom_get_tracknum_from_id ( trak -> moov , trak -> Header -> trackID ) ; if ( gf_isom_is_cenc_media ( trak -> moov -> mov , track_num , DescIndex ) || traf -> sample_encryption ) { GF_SampleEncryptionBox * senc = NULL ; u32 scheme_type ; gf_isom_get_cenc_info ( trak -> moov -> mov , track_num , DescIndex , NULL , & scheme_type , NULL ) ; if ( traf -> sample_encryption ) { for ( i = 0 ; i < gf_list_count ( trak -> Media -> information -> sampleTable -> child_boxes ) ; i ++ ) { GF_Box * a = ( GF_Box * ) gf_list_get ( trak -> Media -> information -> sampleTable -> child_boxes , i ) ; if ( a -> type != traf -> sample_encryption -> type ) continue ; if ( ( a -> type == GF_ISOM_BOX_TYPE_UUID ) && ( ( ( GF_UUIDBox * ) a ) -> internal_4cc == GF_ISOM_BOX_UUID_PSEC ) ) { senc = ( GF_SampleEncryptionBox * ) a ; break ; } else if ( a -> type == GF_ISOM_BOX_TYPE_SENC ) { senc = ( GF_SampleEncryptionBox * ) a ; break ; } } if ( ! senc && trak -> sample_encryption ) senc = trak -> sample_encryption ; if ( ! senc ) { if ( traf -> sample_encryption -> piff_type == 1 ) { senc = ( GF_SampleEncryptionBox * ) gf_isom_create_piff_psec_box ( 1 , 0x2 , 0 , 0 , NULL ) ; } else { senc = gf_isom_create_samp_enc_box ( 1 , 0x2 ) ; } if ( ! trak -> Media -> information -> sampleTable -> child_boxes ) trak -> Media -> information -> sampleTable -> child_boxes = gf_list_new ( ) ; trak -> sample_encryption = senc ; if ( ! trak -> child_boxes ) trak -> child_boxes = gf_list_new ( ) ; gf_list_add ( trak -> child_boxes , senc ) ; } } if ( gf_isom_cenc_has_saiz_saio_traf ( traf , scheme_type ) ) { u32 nb_saio ; u32 aux_info_type ; u64 offset ; GF_Err e ; Bool is_encrypted ; GF_SampleAuxiliaryInfoOffsetBox * saio = NULL ; GF_SampleAuxiliaryInfoSizeBox * saiz = NULL ; offset = nb_saio = 0 ; for ( i = 0 ; i < gf_list_count ( traf -> sai_offsets ) ; i ++ ) { saio = ( GF_SampleAuxiliaryInfoOffsetBox * ) gf_list_get ( traf -> sai_offsets , i ) ; aux_info_type = saio -> aux_info_type ; if ( ! aux_info_type ) aux_info_type = scheme_type ; if ( ( aux_info_type == GF_ISOM_CENC_SCHEME ) || ( aux_info_type == GF_ISOM_CBC_SCHEME ) || ( aux_info_type == GF_ISOM_CENS_SCHEME ) || ( aux_info_type == GF_ISOM_CBCS_SCHEME ) || ( gf_list_count ( traf -> sai_offsets ) == 1 ) ) { offset = saio -> offsets [ 0 ] + moof_offset ; nb_saio = saio -> entry_count ; break ; } } for ( i = 0 ; i < gf_list_count ( traf -> sai_sizes ) ; i ++ ) { saiz = ( GF_SampleAuxiliaryInfoSizeBox * ) gf_list_get ( traf -> sai_sizes , i ) ; aux_info_type = saiz -> aux_info_type ; if ( ! aux_info_type ) aux_info_type = scheme_type ; if ( ( aux_info_type == GF_ISOM_CENC_SCHEME ) || ( aux_info_type == GF_ISOM_CBC_SCHEME ) || ( aux_info_type == GF_ISOM_CENS_SCHEME ) || ( aux_info_type == GF_ISOM_CBCS_SCHEME ) || ( gf_list_count ( traf -> sai_sizes ) == 1 ) ) { break ; } } if ( saiz && saio && senc ) { for ( i = 0 ; i < saiz -> sample_count ; i ++ ) { GF_CENCSampleAuxInfo * sai ; const u8 * key_info = NULL ; u32 key_info_size ; u64 cur_position ; if ( nb_saio != 1 ) offset = saio -> offsets [ i ] + moof_offset ; size = saiz -> default_sample_info_size ? saiz -> default_sample_info_size : saiz -> sample_info_size [ i ] ; cur_position = gf_bs_get_position ( trak -> moov -> mov -> movieFileMap -> bs ) ; gf_bs_seek ( trak -> moov -> mov -> movieFileMap -> bs , offset ) ; GF_SAFEALLOC ( sai , GF_CENCSampleAuxInfo ) ; if ( ! sai ) return GF_OUT_OF_MEM ; e = gf_isom_get_sample_cenc_info_internal ( trak , traf , senc , i + 1 , & is_encrypted , NULL , NULL , & key_info , & key_info_size ) ; if ( e ) { GF_LOG ( GF_LOG_ERROR , GF_LOG_CONTAINER , ( ""[isobmf] could not get cenc info for sample %d: %s\\n"" , i + 1 , gf_error_to_string ( e ) ) ) ; return e ; } if ( is_encrypted ) { sai -> cenc_data_size = size ; sai -> cenc_data = gf_malloc ( sizeof ( u8 ) * size ) ; if ( ! sai -> cenc_data ) return GF_OUT_OF_MEM ; gf_bs_read_data ( trak -> moov -> mov -> movieFileMap -> bs , sai -> cenc_data , sai -> cenc_data_size ) ; } else { sai -> isNotProtected = 1 ; } if ( key_info ) { if ( ! key_info [ 0 ] ) { if ( size > key_info [ 3 ] ) senc -> flags = 0x00000002 ; } else { senc -> flags = 0x00000002 ; } } gf_bs_seek ( trak -> moov -> mov -> movieFileMap -> bs , cur_position ) ; gf_list_add ( senc -> samp_aux_info , sai ) ; e = gf_isom_cenc_merge_saiz_saio ( senc , trak -> Media -> information -> sampleTable , offset , size ) ; if ( e ) return e ; if ( nb_saio == 1 ) offset += size ; } } } else if ( traf -> sample_encryption ) { senc_Parse ( trak -> moov -> mov -> movieFileMap -> bs , trak , traf , traf -> sample_encryption ) ; trak -> sample_encryption -> AlgorithmID = traf -> sample_encryption -> AlgorithmID ; if ( ! trak -> sample_encryption -> IV_size ) trak -> sample_encryption -> IV_size = traf -> sample_encryption -> IV_size ; if ( ! trak -> sample_encryption -> samp_aux_info ) trak -> sample_encryption -> samp_aux_info = gf_list_new ( ) ;","} track_num = gf_isom_get_tracknum_from_id ( trak -> moov , trak -> Header -> trackID ) ; if ( gf_isom_is_cenc_media ( trak -> moov -> mov , track_num , DescIndex ) || traf -> sample_encryption ) { GF_SampleEncryptionBox * senc = NULL ; u32 scheme_type ; gf_isom_get_cenc_info ( trak -> moov -> mov , track_num , DescIndex , NULL , & scheme_type , NULL ) ; if ( traf -> sample_encryption ) { for ( i = 0 ; i < gf_list_count ( trak -> Media -> information -> sampleTable -> child_boxes ) ; i ++ ) { GF_Box * a = ( GF_Box * ) gf_list_get ( trak -> Media -> information -> sampleTable -> child_boxes , i ) ; if ( a -> type != traf -> sample_encryption -> type ) continue ; if ( ( a -> type == GF_ISOM_BOX_TYPE_UUID ) && ( ( ( GF_UUIDBox * ) a ) -> internal_4cc == GF_ISOM_BOX_UUID_PSEC ) ) { senc = ( GF_SampleEncryptionBox * ) a ; break ; } else if ( a -> type == GF_ISOM_BOX_TYPE_SENC ) { senc = ( GF_SampleEncryptionBox * ) a ; break ; } } if ( ! senc && trak -> sample_encryption ) senc = trak -> sample_encryption ; if ( ! senc ) { if ( traf -> sample_encryption -> piff_type == 1 ) { senc = ( GF_SampleEncryptionBox * ) gf_isom_create_piff_psec_box ( 1 , 0x2 , 0 , 0 , NULL ) ; } else { senc = gf_isom_create_samp_enc_box ( 1 , 0x2 ) ; } if ( ! trak -> Media -> information -> sampleTable -> child_boxes ) trak -> Media -> information -> sampleTable -> child_boxes = gf_list_new ( ) ; trak -> sample_encryption = senc ; if ( ! trak -> child_boxes ) trak -> child_boxes = gf_list_new ( ) ; gf_list_add ( trak -> child_boxes , senc ) ; } } if ( gf_isom_cenc_has_saiz_saio_traf ( traf , scheme_type ) ) { u32 nb_saio ; u32 aux_info_type ; u64 offset ; GF_Err e ; Bool is_encrypted ; GF_SampleAuxiliaryInfoOffsetBox * saio = NULL ; GF_SampleAuxiliaryInfoSizeBox * saiz = NULL ; offset = nb_saio = 0 ; for ( i = 0 ; i < gf_list_count ( traf -> sai_offsets ) ; i ++ ) { saio = ( GF_SampleAuxiliaryInfoOffsetBox * ) gf_list_get ( traf -> sai_offsets , i ) ; aux_info_type = saio -> aux_info_type ; if ( ! aux_info_type ) aux_info_type = scheme_type ; if ( ( aux_info_type == GF_ISOM_CENC_SCHEME ) || ( aux_info_type == GF_ISOM_CBC_SCHEME ) || ( aux_info_type == GF_ISOM_CENS_SCHEME ) || ( aux_info_type == GF_ISOM_CBCS_SCHEME ) || ( gf_list_count ( traf -> sai_offsets ) == 1 ) ) { if ( saio -> offsets && saio -> entry_count ) { offset = saio -> offsets [ 0 ] + moof_offset ; nb_saio = saio -> entry_count ; break ; } } saio = NULL ; } for ( i = 0 ; i < gf_list_count ( traf -> sai_sizes ) ; i ++ ) { saiz = ( GF_SampleAuxiliaryInfoSizeBox * ) gf_list_get ( traf -> sai_sizes , i ) ; aux_info_type = saiz -> aux_info_type ; if ( ! aux_info_type ) aux_info_type = scheme_type ; if ( ( aux_info_type == GF_ISOM_CENC_SCHEME ) || ( aux_info_type == GF_ISOM_CBC_SCHEME ) || ( aux_info_type == GF_ISOM_CENS_SCHEME ) || ( aux_info_type == GF_ISOM_CBCS_SCHEME ) || ( gf_list_count ( traf -> sai_sizes ) == 1 ) ) { break ; } saiz = NULL ; } if ( saiz && saio && senc ) { for ( i = 0 ; i < saiz -> sample_count ; i ++ ) { GF_CENCSampleAuxInfo * sai ; const u8 * key_info = NULL ; u32 key_info_size ; u64 cur_position ; if ( nb_saio != 1 ) offset = saio -> offsets [ i ] + moof_offset ; size = saiz -> default_sample_info_size ? saiz -> default_sample_info_size : saiz -> sample_info_size [ i ] ; cur_position = gf_bs_get_position ( trak -> moov -> mov -> movieFileMap -> bs ) ; gf_bs_seek ( trak -> moov -> mov -> movieFileMap -> bs , offset ) ; GF_SAFEALLOC ( sai , GF_CENCSampleAuxInfo ) ; if ( ! sai ) return GF_OUT_OF_MEM ; e = gf_isom_get_sample_cenc_info_internal ( trak , traf , senc , i + 1 , & is_encrypted , NULL , NULL , & key_info , & key_info_size ) ; if ( e ) { GF_LOG ( GF_LOG_ERROR , GF_LOG_CONTAINER , ( ""[isobmf] could not get cenc info for sample %d: %s\\n"" , i + 1 , gf_error_to_string ( e ) ) ) ; return e ; } if ( is_encrypted ) { sai -> cenc_data_size = size ; sai -> cenc_data = gf_malloc ( sizeof ( u8 ) * size ) ; if ( ! sai -> cenc_data ) return GF_OUT_OF_MEM ; gf_bs_read_data ( trak -> moov -> mov -> movieFileMap -> bs , sai -> cenc_data , sai -> cenc_data_size ) ; } else { sai -> isNotProtected = 1 ; } if ( key_info ) { if ( ! key_info [ 0 ] ) { if ( size > key_info [ 3 ] ) senc -> flags = 0x00000002 ; } else { senc -> flags = 0x00000002 ; } } gf_bs_seek ( trak -> moov -> mov -> movieFileMap -> bs , cur_position ) ; gf_list_add ( senc -> samp_aux_info , sai ) ; e = gf_isom_cenc_merge_saiz_saio ( senc , trak -> Media -> information -> sampleTable , offset , size ) ; if ( e ) return e ; if ( nb_saio == 1 ) offset += size ; } } } else if ( traf -> sample_encryption ) { senc_Parse ( trak -> moov -> mov -> movieFileMap -> bs , trak , traf , traf -> sample_encryption ) ; trak -> sample_encryption -> AlgorithmID = traf -> sample_encryption -> AlgorithmID ; if ( ! trak -> sample_encryption -> IV_size ) trak -> sample_encryption -> IV_size = traf -> sample_encryption -> IV_size ; if ( ! trak -> sample_encryption -> samp_aux_info ) trak -> sample_encryption -> samp_aux_info = gf_list_new ( ) ;" 230,CWE-352 static HttpResponse create_HttpResponse ( Socket_T S ) { HttpResponse res = NULL ; NEW ( res ) ; res -> S = S ; res -> status = SC_OK ; res -> outputbuffer = StringBuffer_create ( 256 ) ; res -> is_committed = false ; res -> protocol = SERVER_PROTOCOL ; res -> status_msg = get_status_string ( SC_OK ) ; return res ; },static HttpResponse create_HttpResponse ( Socket_T S ) { HttpResponse res = NULL ; NEW ( res ) ; res -> S = S ; res -> status = SC_OK ; res -> outputbuffer = StringBuffer_create ( 256 ) ; res -> is_committed = false ; res -> protocol = SERVER_PROTOCOL ; res -> status_msg = get_status_string ( SC_OK ) ; Util_getToken ( res -> token ) ; return res ; } 231,"CWE-119 void vp9_copy_and_extend_frame ( const YV12_BUFFER_CONFIG * src , YV12_BUFFER_CONFIG * dst ) { const int et_y = 16 ; const int el_y = 16 ; const int eb_y = MAX ( ALIGN_POWER_OF_TWO ( src -> y_width , 6 ) - src -> y_width , 16 ) ; const int er_y = MAX ( ALIGN_POWER_OF_TWO ( src -> y_height , 6 ) - src -> y_height , 16 ) ; const int uv_width_subsampling = ( src -> uv_width != src -> y_width ) ; const int uv_height_subsampling = ( src -> uv_height != src -> y_height ) ; const int et_uv = et_y >> uv_height_subsampling ; const int el_uv = el_y >> uv_width_subsampling ; const int eb_uv = eb_y >> uv_height_subsampling ; const int er_uv = er_y >> uv_width_subsampling ; # if CONFIG_ALPHA const int et_a = dst -> border >> ( dst -> alpha_height != dst -> y_height ) ; const int el_a = dst -> border >> ( dst -> alpha_width != dst -> y_width ) ; const int eb_a = et_a + dst -> alpha_height - src -> alpha_height ; const int er_a = el_a + dst -> alpha_width - src -> alpha_width ; copy_and_extend_plane ( src -> alpha_buffer , src -> alpha_stride , dst -> alpha_buffer , dst -> alpha_stride , src -> alpha_width , src -> alpha_height , et_a , el_a , eb_a , er_a ) ; # endif copy_and_extend_plane ( src -> y_buffer , src -> y_stride , dst -> y_buffer , dst -> y_stride , src -> y_width , src -> y_height , et_y , el_y , eb_y , er_y ) ; copy_and_extend_plane ( src -> u_buffer , src -> uv_stride , dst -> u_buffer , dst -> uv_stride , src -> uv_width , src -> uv_height , et_uv , el_uv , eb_uv , er_uv ) ; copy_and_extend_plane ( src -> v_buffer , src -> uv_stride , dst -> v_buffer , dst -> uv_stride , src -> uv_width , src -> uv_height , et_uv , el_uv , eb_uv , er_uv ) ; }","void vp9_copy_and_extend_frame ( const YV12_BUFFER_CONFIG * src , YV12_BUFFER_CONFIG * dst ) { const int et_y = 16 ; const int el_y = 16 ; const int er_y = MAX ( src -> y_width + 16 , ALIGN_POWER_OF_TWO ( src -> y_width , 6 ) ) - src -> y_crop_width ; const int eb_y = MAX ( src -> y_height + 16 , ALIGN_POWER_OF_TWO ( src -> y_height , 6 ) ) - src -> y_crop_height ; const int uv_width_subsampling = ( src -> uv_width != src -> y_width ) ; const int uv_height_subsampling = ( src -> uv_height != src -> y_height ) ; const int et_uv = et_y >> uv_height_subsampling ; const int el_uv = el_y >> uv_width_subsampling ; const int eb_uv = eb_y >> uv_height_subsampling ; const int er_uv = er_y >> uv_width_subsampling ; # if CONFIG_VP9_HIGHBITDEPTH if ( src -> flags & YV12_FLAG_HIGHBITDEPTH ) { highbd_copy_and_extend_plane ( src -> y_buffer , src -> y_stride , dst -> y_buffer , dst -> y_stride , src -> y_crop_width , src -> y_crop_height , et_y , el_y , eb_y , er_y ) ; highbd_copy_and_extend_plane ( src -> u_buffer , src -> uv_stride , dst -> u_buffer , dst -> uv_stride , src -> uv_crop_width , src -> uv_crop_height , et_uv , el_uv , eb_uv , er_uv ) ; highbd_copy_and_extend_plane ( src -> v_buffer , src -> uv_stride , dst -> v_buffer , dst -> uv_stride , src -> uv_crop_width , src -> uv_crop_height , et_uv , el_uv , eb_uv , er_uv ) ; return ; } # endif copy_and_extend_plane ( src -> y_buffer , src -> y_stride , dst -> y_buffer , dst -> y_stride , src -> y_crop_width , src -> y_crop_height , et_y , el_y , eb_y , er_y ) ; copy_and_extend_plane ( src -> u_buffer , src -> uv_stride , dst -> u_buffer , dst -> uv_stride , src -> uv_crop_width , src -> uv_crop_height , et_uv , el_uv , eb_uv , er_uv ) ; copy_and_extend_plane ( src -> v_buffer , src -> uv_stride , dst -> v_buffer , dst -> uv_stride , src -> uv_crop_width , src -> uv_crop_height , et_uv , el_uv , eb_uv , er_uv ) ; }" 232,"CWE-200 static int raw_recvmsg ( struct kiocb * iocb , struct sock * sk , struct msghdr * msg , size_t len , int noblock , int flags , int * addr_len ) { struct inet_sock * inet = inet_sk ( sk ) ; size_t copied = 0 ; int err = - EOPNOTSUPP ; struct sockaddr_in * sin = ( struct sockaddr_in * ) msg -> msg_name ; struct sk_buff * skb ; if ( flags & MSG_OOB ) goto out ; if ( addr_len ) * addr_len = sizeof ( * sin ) ; if ( flags & MSG_ERRQUEUE ) { err = ip_recv_error ( sk , msg , len ) ; goto out ; } skb = skb_recv_datagram ( sk , flags , noblock , & err ) ; if ( ! skb ) goto out ; copied = skb -> len ; if ( len < copied ) { msg -> msg_flags |= MSG_TRUNC ; copied = len ; } err = skb_copy_datagram_iovec ( skb , 0 , msg -> msg_iov , copied ) ; if ( err ) goto done ; sock_recv_ts_and_drops ( msg , sk , skb ) ; if ( sin ) { sin -> sin_family = AF_INET ; sin -> sin_addr . s_addr = ip_hdr ( skb ) -> saddr ; sin -> sin_port = 0 ; memset ( & sin -> sin_zero , 0 , sizeof ( sin -> sin_zero ) ) ; } if ( inet -> cmsg_flags ) ip_cmsg_recv ( msg , skb ) ; if ( flags & MSG_TRUNC ) copied = skb -> len ; done : skb_free_datagram ( sk , skb ) ; out : if ( err ) return err ; return copied ; }","static int raw_recvmsg ( struct kiocb * iocb , struct sock * sk , struct msghdr * msg , size_t len , int noblock , int flags , int * addr_len ) { struct inet_sock * inet = inet_sk ( sk ) ; size_t copied = 0 ; int err = - EOPNOTSUPP ; struct sockaddr_in * sin = ( struct sockaddr_in * ) msg -> msg_name ; struct sk_buff * skb ; if ( flags & MSG_OOB ) goto out ; if ( flags & MSG_ERRQUEUE ) { err = ip_recv_error ( sk , msg , len ) ; goto out ; } skb = skb_recv_datagram ( sk , flags , noblock , & err ) ; if ( ! skb ) goto out ; copied = skb -> len ; if ( len < copied ) { msg -> msg_flags |= MSG_TRUNC ; copied = len ; } err = skb_copy_datagram_iovec ( skb , 0 , msg -> msg_iov , copied ) ; if ( err ) goto done ; sock_recv_ts_and_drops ( msg , sk , skb ) ; if ( sin ) { sin -> sin_family = AF_INET ; sin -> sin_addr . s_addr = ip_hdr ( skb ) -> saddr ; sin -> sin_port = 0 ; memset ( & sin -> sin_zero , 0 , sizeof ( sin -> sin_zero ) ) ; * addr_len = sizeof ( * sin ) ; } if ( inet -> cmsg_flags ) ip_cmsg_recv ( msg , skb ) ; if ( flags & MSG_TRUNC ) copied = skb -> len ; done : skb_free_datagram ( sk , skb ) ; out : if ( err ) return err ; return copied ; }" 233,"CWE-20 if ( cap_valid ( cap_setid ) && ! file_ns_capable ( file , ns , CAP_SYS_ADMIN ) ) goto out ; ret = - EINVAL ; pos = kbuf ; for ( ; pos ; pos = next_line ) { next_line = strchr ( pos , '\\n' ) ; if ( next_line ) { * next_line = '\\0' ; next_line ++ ; if ( * next_line == '\\0' ) next_line = NULL ; } pos = skip_spaces ( pos ) ; extent . first = simple_strtoul ( pos , & pos , 10 ) ; if ( ! isspace ( * pos ) ) goto out ; pos = skip_spaces ( pos ) ; extent . lower_first = simple_strtoul ( pos , & pos , 10 ) ; if ( ! isspace ( * pos ) ) goto out ; pos = skip_spaces ( pos ) ; extent . count = simple_strtoul ( pos , & pos , 10 ) ; if ( * pos && ! isspace ( * pos ) ) goto out ; pos = skip_spaces ( pos ) ; if ( * pos != '\\0' ) goto out ; if ( ( extent . first == ( u32 ) - 1 ) || ( extent . lower_first == ( u32 ) - 1 ) ) goto out ; if ( ( extent . first + extent . count ) <= extent . first ) goto out ; if ( ( extent . lower_first + extent . count ) <= extent . lower_first ) goto out ; if ( mappings_overlap ( & new_map , & extent ) ) goto out ; if ( ( new_map . nr_extents + 1 ) == UID_GID_MAP_MAX_EXTENTS && ( next_line != NULL ) ) goto out ; ret = insert_extent ( & new_map , & extent ) ; if ( ret < 0 ) goto out ; ret = - EINVAL ; } if ( new_map . nr_extents == 0 ) goto out ; ret = - EPERM ; if ( ! new_idmap_permitted ( file , ns , cap_setid , & new_map ) ) goto out ; ret = sort_idmaps ( & new_map ) ; if ( ret < 0 ) goto out ; ret = - EPERM ; for ( idx = 0 ; idx < new_map . nr_extents ; idx ++ ) { struct uid_gid_extent * e ; u32 lower_first ; if ( new_map . nr_extents <= UID_GID_MAP_MAX_BASE_EXTENTS ) e = & new_map . extent [ idx ] ; else e = & new_map . forward [ idx ] ; lower_first = map_id_range_down ( parent_map , e -> lower_first , e -> count ) ; if ( lower_first == ( u32 ) - 1 ) goto out ; e -> lower_first = lower_first ; } if ( new_map . nr_extents <= UID_GID_MAP_MAX_BASE_EXTENTS ) { memcpy ( map -> extent , new_map . extent , new_map . nr_extents * sizeof ( new_map . extent [ 0 ] ) ) ; } else { map -> forward = new_map . forward ; map -> reverse = new_map . reverse ; } smp_wmb ( ) ; map -> nr_extents = new_map . nr_extents ; * ppos = count ; ret = count ; out : if ( ret < 0 && new_map . nr_extents > UID_GID_MAP_MAX_BASE_EXTENTS ) { kfree ( new_map . forward ) ; kfree ( new_map . reverse ) ; map -> forward = NULL ; map -> reverse = NULL ; map -> nr_extents = 0 ; } mutex_unlock ( & userns_state_mutex ) ; kfree ( kbuf ) ; return ret ; }","if ( cap_valid ( cap_setid ) && ! file_ns_capable ( file , ns , CAP_SYS_ADMIN ) ) goto out ; ret = - EINVAL ; pos = kbuf ; for ( ; pos ; pos = next_line ) { next_line = strchr ( pos , '\\n' ) ; if ( next_line ) { * next_line = '\\0' ; next_line ++ ; if ( * next_line == '\\0' ) next_line = NULL ; } pos = skip_spaces ( pos ) ; extent . first = simple_strtoul ( pos , & pos , 10 ) ; if ( ! isspace ( * pos ) ) goto out ; pos = skip_spaces ( pos ) ; extent . lower_first = simple_strtoul ( pos , & pos , 10 ) ; if ( ! isspace ( * pos ) ) goto out ; pos = skip_spaces ( pos ) ; extent . count = simple_strtoul ( pos , & pos , 10 ) ; if ( * pos && ! isspace ( * pos ) ) goto out ; pos = skip_spaces ( pos ) ; if ( * pos != '\\0' ) goto out ; if ( ( extent . first == ( u32 ) - 1 ) || ( extent . lower_first == ( u32 ) - 1 ) ) goto out ; if ( ( extent . first + extent . count ) <= extent . first ) goto out ; if ( ( extent . lower_first + extent . count ) <= extent . lower_first ) goto out ; if ( mappings_overlap ( & new_map , & extent ) ) goto out ; if ( ( new_map . nr_extents + 1 ) == UID_GID_MAP_MAX_EXTENTS && ( next_line != NULL ) ) goto out ; ret = insert_extent ( & new_map , & extent ) ; if ( ret < 0 ) goto out ; ret = - EINVAL ; } if ( new_map . nr_extents == 0 ) goto out ; ret = - EPERM ; if ( ! new_idmap_permitted ( file , ns , cap_setid , & new_map ) ) goto out ; ret = - EPERM ; for ( idx = 0 ; idx < new_map . nr_extents ; idx ++ ) { struct uid_gid_extent * e ; u32 lower_first ; if ( new_map . nr_extents <= UID_GID_MAP_MAX_BASE_EXTENTS ) e = & new_map . extent [ idx ] ; else e = & new_map . forward [ idx ] ; lower_first = map_id_range_down ( parent_map , e -> lower_first , e -> count ) ; if ( lower_first == ( u32 ) - 1 ) goto out ; e -> lower_first = lower_first ; } ret = sort_idmaps ( & new_map ) ; if ( ret < 0 ) goto out ; if ( new_map . nr_extents <= UID_GID_MAP_MAX_BASE_EXTENTS ) { memcpy ( map -> extent , new_map . extent , new_map . nr_extents * sizeof ( new_map . extent [ 0 ] ) ) ; } else { map -> forward = new_map . forward ; map -> reverse = new_map . reverse ; } smp_wmb ( ) ; map -> nr_extents = new_map . nr_extents ; * ppos = count ; ret = count ; out : if ( ret < 0 && new_map . nr_extents > UID_GID_MAP_MAX_BASE_EXTENTS ) { kfree ( new_map . forward ) ; kfree ( new_map . reverse ) ; map -> forward = NULL ; map -> reverse = NULL ; map -> nr_extents = 0 ; } mutex_unlock ( & userns_state_mutex ) ; kfree ( kbuf ) ; return ret ; }" 234,"CWE-20 error_t tcpCheckSeqNum ( Socket * socket , TcpHeader * segment , size_t length ) { bool_t acceptable = FALSE ; if ( ! length && ! socket -> rcvWnd ) { if ( segment -> seqNum == socket -> rcvNxt ) { acceptable = TRUE ; } } else if ( ! length && socket -> rcvWnd ) { if ( TCP_CMP_SEQ ( segment -> seqNum , socket -> rcvNxt ) >= 0 && TCP_CMP_SEQ ( segment -> seqNum , socket -> rcvNxt + socket -> rcvWnd ) < 0 ) { acceptable = TRUE ; } } else if ( length && socket -> rcvWnd ) { if ( TCP_CMP_SEQ ( segment -> seqNum , socket -> rcvNxt ) >= 0 && TCP_CMP_SEQ ( segment -> seqNum , socket -> rcvNxt + socket -> rcvWnd ) < 0 ) { acceptable = TRUE ; } else if ( TCP_CMP_SEQ ( segment -> seqNum + length - 1 , socket -> rcvNxt ) >= 0 && TCP_CMP_SEQ ( segment -> seqNum + length - 1 , socket -> rcvNxt + socket -> rcvWnd ) < 0 ) { acceptable = TRUE ; } } if ( ! acceptable ) { TRACE_WARNING ( ""Sequence number is not acceptable!\\r\\n"" ) ; if ( ! ( segment -> flags & TCP_FLAG_RST ) ) tcpSendSegment ( socket , TCP_FLAG_ACK , socket -> sndNxt , socket -> rcvNxt , 0 , FALSE ) ; return ERROR_FAILURE ; } return NO_ERROR ; }","error_t tcpCheckSeqNum ( Socket * socket , TcpHeader * segment , size_t length ) { bool_t acceptable = FALSE ; if ( ! length && ! socket -> rcvWnd ) { if ( segment -> seqNum == socket -> rcvNxt ) { acceptable = TRUE ; } } else if ( ! length && socket -> rcvWnd ) { if ( TCP_CMP_SEQ ( segment -> seqNum , socket -> rcvNxt ) >= 0 && TCP_CMP_SEQ ( segment -> seqNum , socket -> rcvNxt + socket -> rcvWnd ) < 0 ) { acceptable = TRUE ; } } else if ( length && socket -> rcvWnd ) { if ( TCP_CMP_SEQ ( segment -> seqNum , socket -> rcvNxt ) >= 0 && TCP_CMP_SEQ ( segment -> seqNum , socket -> rcvNxt + socket -> rcvWnd ) < 0 ) { acceptable = TRUE ; } else if ( TCP_CMP_SEQ ( segment -> seqNum + length - 1 , socket -> rcvNxt ) >= 0 && TCP_CMP_SEQ ( segment -> seqNum + length - 1 , socket -> rcvNxt + socket -> rcvWnd ) < 0 ) { acceptable = TRUE ; } } if ( ! acceptable ) { TRACE_WARNING ( ""Sequence number is not acceptable!\\r\\n"" ) ; if ( ! ( segment -> flags & TCP_FLAG_RST ) ) { tcpSendSegment ( socket , TCP_FLAG_ACK , socket -> sndNxt , socket -> rcvNxt , 0 , FALSE ) ; } return ERROR_FAILURE ; } return NO_ERROR ; }" 235,"CWE-200 static void snd_timer_user_tinterrupt ( struct snd_timer_instance * timeri , unsigned long resolution , unsigned long ticks ) { struct snd_timer_user * tu = timeri -> callback_data ; struct snd_timer_tread * r , r1 ; struct timespec tstamp ; int prev , append = 0 ; memset ( & tstamp , 0 , sizeof ( tstamp ) ) ; spin_lock ( & tu -> qlock ) ; if ( ( tu -> filter & ( ( 1 << SNDRV_TIMER_EVENT_RESOLUTION ) | ( 1 << SNDRV_TIMER_EVENT_TICK ) ) ) == 0 ) { spin_unlock ( & tu -> qlock ) ; return ; } if ( tu -> last_resolution != resolution || ticks > 0 ) { if ( timer_tstamp_monotonic ) ktime_get_ts ( & tstamp ) ; else getnstimeofday ( & tstamp ) ; } if ( ( tu -> filter & ( 1 << SNDRV_TIMER_EVENT_RESOLUTION ) ) && tu -> last_resolution != resolution ) { r1 . event = SNDRV_TIMER_EVENT_RESOLUTION ; r1 . tstamp = tstamp ; r1 . val = resolution ; snd_timer_user_append_to_tqueue ( tu , & r1 ) ; tu -> last_resolution = resolution ; append ++ ; } if ( ( tu -> filter & ( 1 << SNDRV_TIMER_EVENT_TICK ) ) == 0 ) goto __wake ; if ( ticks == 0 ) goto __wake ; if ( tu -> qused > 0 ) { prev = tu -> qtail == 0 ? tu -> queue_size - 1 : tu -> qtail - 1 ; r = & tu -> tqueue [ prev ] ; if ( r -> event == SNDRV_TIMER_EVENT_TICK ) { r -> tstamp = tstamp ; r -> val += ticks ; append ++ ; goto __wake ; } } r1 . event = SNDRV_TIMER_EVENT_TICK ; r1 . tstamp = tstamp ; r1 . val = ticks ; snd_timer_user_append_to_tqueue ( tu , & r1 ) ; append ++ ; __wake : spin_unlock ( & tu -> qlock ) ; if ( append == 0 ) return ; kill_fasync ( & tu -> fasync , SIGIO , POLL_IN ) ; wake_up ( & tu -> qchange_sleep ) ; }","static void snd_timer_user_tinterrupt ( struct snd_timer_instance * timeri , unsigned long resolution , unsigned long ticks ) { struct snd_timer_user * tu = timeri -> callback_data ; struct snd_timer_tread * r , r1 ; struct timespec tstamp ; int prev , append = 0 ; memset ( & tstamp , 0 , sizeof ( tstamp ) ) ; spin_lock ( & tu -> qlock ) ; if ( ( tu -> filter & ( ( 1 << SNDRV_TIMER_EVENT_RESOLUTION ) | ( 1 << SNDRV_TIMER_EVENT_TICK ) ) ) == 0 ) { spin_unlock ( & tu -> qlock ) ; return ; } if ( tu -> last_resolution != resolution || ticks > 0 ) { if ( timer_tstamp_monotonic ) ktime_get_ts ( & tstamp ) ; else getnstimeofday ( & tstamp ) ; } if ( ( tu -> filter & ( 1 << SNDRV_TIMER_EVENT_RESOLUTION ) ) && tu -> last_resolution != resolution ) { memset ( & r1 , 0 , sizeof ( r1 ) ) ; r1 . event = SNDRV_TIMER_EVENT_RESOLUTION ; r1 . tstamp = tstamp ; r1 . val = resolution ; snd_timer_user_append_to_tqueue ( tu , & r1 ) ; tu -> last_resolution = resolution ; append ++ ; } if ( ( tu -> filter & ( 1 << SNDRV_TIMER_EVENT_TICK ) ) == 0 ) goto __wake ; if ( ticks == 0 ) goto __wake ; if ( tu -> qused > 0 ) { prev = tu -> qtail == 0 ? tu -> queue_size - 1 : tu -> qtail - 1 ; r = & tu -> tqueue [ prev ] ; if ( r -> event == SNDRV_TIMER_EVENT_TICK ) { r -> tstamp = tstamp ; r -> val += ticks ; append ++ ; goto __wake ; } } r1 . event = SNDRV_TIMER_EVENT_TICK ; r1 . tstamp = tstamp ; r1 . val = ticks ; snd_timer_user_append_to_tqueue ( tu , & r1 ) ; append ++ ; __wake : spin_unlock ( & tu -> qlock ) ; if ( append == 0 ) return ; kill_fasync ( & tu -> fasync , SIGIO , POLL_IN ) ; wake_up ( & tu -> qchange_sleep ) ; }" 236,"CWE-119 } # endif case 514 : case 61448 : tiff_ifd [ ifd ] . bytes = get4 ( ) ; break ; case 61454 : FORC3 cam_mul [ ( 4 - c ) % 3 ] = getint ( type ) ; break ; case 305 : case 11 : fgets ( software , 64 , ifp ) ; if ( ! strncmp ( software , ""Adobe"" , 5 ) || ! strncmp ( software , ""dcraw"" , 5 ) || ! strncmp ( software , ""UFRaw"" , 5 ) || ! strncmp ( software , ""Bibble"" , 6 ) || ! strcmp ( software , ""Digital Photo Professional"" ) ) is_raw = 0 ; break ; case 306 : get_timestamp ( 0 ) ; break ; case 315 : fread ( artist , 64 , 1 , ifp ) ; break ; case 317 : tiff_ifd [ ifd ] . predictor = getint ( type ) ; break ; case 322 : tiff_ifd [ ifd ] . t_tile_width = getint ( type ) ; break ; case 323 : tiff_ifd [ ifd ] . t_tile_length = getint ( type ) ; break ; case 324 : tiff_ifd [ ifd ] . offset = len > 1 ? ftell ( ifp ) : get4 ( ) ; if ( len == 1 ) tiff_ifd [ ifd ] . t_tile_width = tiff_ifd [ ifd ] . t_tile_length = 0 ; if ( len == 4 ) { load_raw = & CLASS sinar_4shot_load_raw ; is_raw = 5 ; } break ; case 325 : tiff_ifd [ ifd ] . bytes = len > 1 ? ftell ( ifp ) : get4 ( ) ; break ; case 330 : if ( ! strcmp ( model , ""DSLR-A100"" ) && tiff_ifd [ ifd ] . t_width == 3872 ) { load_raw = & CLASS sony_arw_load_raw ; data_offset = get4 ( ) + base ; ifd ++ ; break ; } # ifdef LIBRAW_LIBRARY_BUILD if ( ! strncmp ( make , ""Hasselblad"" , 10 ) && libraw_internal_data . unpacker_data . hasselblad_parser_flag ) { fseek ( ifp , ftell ( ifp ) + 4 , SEEK_SET ) ; fseek ( ifp , get4 ( ) + base , SEEK_SET ) ; parse_tiff_ifd ( base ) ; break ; } # endif if ( len > 1000 ) len = 1000 ; while ( len -- ) { i = ftell ( ifp ) ; fseek ( ifp , get4 ( ) + base , SEEK_SET ) ; if ( parse_tiff_ifd ( base ) ) break ; fseek ( ifp , i + 4 , SEEK_SET ) ; } break ; case 339 : tiff_ifd [ ifd ] . sample_format = getint ( type ) ; break ; case 400 : strcpy ( make , ""Sarnoff"" ) ; maximum = 0xfff ; break ; # ifdef LIBRAW_LIBRARY_BUILD case 700 : if ( ( type == 1 || type == 2 || type == 6 || type == 7 ) && len > 1 && len < 5100000 ) { xmpdata = ( char * ) malloc ( xmplen = len + 1 ) ; fread ( xmpdata , len , 1 , ifp ) ; xmpdata [ len ] = 0 ; } break ; # endif case 28688 : FORC4 sony_curve [ c + 1 ] = get2 ( ) >> 2 & 0xfff ; for ( i = 0 ; i < 5 ; i ++ ) for ( j = sony_curve [ i ] + 1 ; j <= sony_curve [ i + 1 ] ; j ++ ) curve [ j ] = curve [ j - 1 ] + ( 1 << i ) ; break ; case 29184 : sony_offset = get4 ( ) ; break ; case 29185 : sony_length = get4 ( ) ;","} # endif case 514 : case 61448 : tiff_ifd [ ifd ] . bytes = get4 ( ) ; break ; case 61454 : FORC3 cam_mul [ ( 4 - c ) % 3 ] = getint ( type ) ; break ; case 305 : case 11 : fgets ( software , 64 , ifp ) ; if ( ! strncmp ( software , ""Adobe"" , 5 ) || ! strncmp ( software , ""dcraw"" , 5 ) || ! strncmp ( software , ""UFRaw"" , 5 ) || ! strncmp ( software , ""Bibble"" , 6 ) || ! strcmp ( software , ""Digital Photo Professional"" ) ) is_raw = 0 ; break ; case 306 : get_timestamp ( 0 ) ; break ; case 315 : fread ( artist , 64 , 1 , ifp ) ; break ; case 317 : tiff_ifd [ ifd ] . predictor = getint ( type ) ; break ; case 322 : tiff_ifd [ ifd ] . t_tile_width = getint ( type ) ; break ; case 323 : tiff_ifd [ ifd ] . t_tile_length = getint ( type ) ; break ; case 324 : tiff_ifd [ ifd ] . offset = len > 1 ? ftell ( ifp ) : get4 ( ) ; if ( len == 1 ) tiff_ifd [ ifd ] . t_tile_width = tiff_ifd [ ifd ] . t_tile_length = 0 ; if ( len == 4 ) { load_raw = & CLASS sinar_4shot_load_raw ; is_raw = 5 ; } break ; case 325 : tiff_ifd [ ifd ] . bytes = len > 1 ? ftell ( ifp ) : get4 ( ) ; break ; case 330 : if ( ! strcmp ( model , ""DSLR-A100"" ) && tiff_ifd [ ifd ] . t_width == 3872 ) { load_raw = & CLASS sony_arw_load_raw ; data_offset = get4 ( ) + base ; ifd ++ ; # ifdef LIBRAW_LIBRARY_BUILD if ( ifd >= sizeof tiff_ifd / sizeof tiff_ifd [ 0 ] ) throw LIBRAW_EXCEPTION_IO_CORRUPT ; # endif break ; } # ifdef LIBRAW_LIBRARY_BUILD if ( ! strncmp ( make , ""Hasselblad"" , 10 ) && libraw_internal_data . unpacker_data . hasselblad_parser_flag ) { fseek ( ifp , ftell ( ifp ) + 4 , SEEK_SET ) ; fseek ( ifp , get4 ( ) + base , SEEK_SET ) ; parse_tiff_ifd ( base ) ; break ; } # endif if ( len > 1000 ) len = 1000 ; while ( len -- ) { i = ftell ( ifp ) ; fseek ( ifp , get4 ( ) + base , SEEK_SET ) ; if ( parse_tiff_ifd ( base ) ) break ; fseek ( ifp , i + 4 , SEEK_SET ) ; } break ; case 339 : tiff_ifd [ ifd ] . sample_format = getint ( type ) ; break ; case 400 : strcpy ( make , ""Sarnoff"" ) ; maximum = 0xfff ; break ; # ifdef LIBRAW_LIBRARY_BUILD case 700 : if ( ( type == 1 || type == 2 || type == 6 || type == 7 ) && len > 1 && len < 5100000 ) { xmpdata = ( char * ) malloc ( xmplen = len + 1 ) ; fread ( xmpdata , len , 1 , ifp ) ; xmpdata [ len ] = 0 ; } break ; # endif case 28688 : FORC4 sony_curve [ c + 1 ] = get2 ( ) >> 2 & 0xfff ; for ( i = 0 ; i < 5 ; i ++ ) for ( j = sony_curve [ i ] + 1 ; j <= sony_curve [ i + 1 ] ; j ++ ) curve [ j ] = curve [ j - 1 ] + ( 1 << i ) ; break ; case 29184 : sony_offset = get4 ( ) ; break ; case 29185 : sony_length = get4 ( ) ;" 237,"CWE-119 static int check_entry_size_and_hooks ( struct ipt_entry * e , struct xt_table_info * newinfo , const unsigned char * base , const unsigned char * limit , const unsigned int * hook_entries , const unsigned int * underflows , unsigned int valid_hooks ) { unsigned int h ; int err ; if ( ( unsigned long ) e % __alignof__ ( struct ipt_entry ) != 0 || ( unsigned char * ) e + sizeof ( struct ipt_entry ) >= limit || ( unsigned char * ) e + e -> next_offset > limit ) { duprintf ( ""Bad offset %p\\n"" , e ) ; return - EINVAL ; } if ( e -> next_offset < sizeof ( struct ipt_entry ) + sizeof ( struct xt_entry_target ) ) { duprintf ( ""checking: element %p size %u\\n"" , e , e -> next_offset ) ; return - EINVAL ; } err = check_entry ( e ) ; if ( err ) return err ; for ( h = 0 ; h < NF_INET_NUMHOOKS ; h ++ ) { if ( ! ( valid_hooks & ( 1 << h ) ) ) continue ; if ( ( unsigned char * ) e - base == hook_entries [ h ] ) newinfo -> hook_entry [ h ] = hook_entries [ h ] ; if ( ( unsigned char * ) e - base == underflows [ h ] ) { if ( ! check_underflow ( e ) ) { pr_err ( ""Underflows must be unconditional and "" ""use the STANDARD target with "" ""ACCEPT/DROP\\n"" ) ; return - EINVAL ; } newinfo -> underflow [ h ] = underflows [ h ] ; } } e -> counters = ( ( struct xt_counters ) { 0 , 0 } ) ; e -> comefrom = 0 ; return 0 ; }","static int check_entry_size_and_hooks ( struct ipt_entry * e , struct xt_table_info * newinfo , const unsigned char * base , const unsigned char * limit , const unsigned int * hook_entries , const unsigned int * underflows , unsigned int valid_hooks ) { unsigned int h ; int err ; if ( ( unsigned long ) e % __alignof__ ( struct ipt_entry ) != 0 || ( unsigned char * ) e + sizeof ( struct ipt_entry ) >= limit || ( unsigned char * ) e + e -> next_offset > limit ) { duprintf ( ""Bad offset %p\\n"" , e ) ; return - EINVAL ; } if ( e -> next_offset < sizeof ( struct ipt_entry ) + sizeof ( struct xt_entry_target ) ) { duprintf ( ""checking: element %p size %u\\n"" , e , e -> next_offset ) ; return - EINVAL ; } err = check_entry ( e ) ; if ( err ) return err ; for ( h = 0 ; h < NF_INET_NUMHOOKS ; h ++ ) { if ( ! ( valid_hooks & ( 1 << h ) ) ) continue ; if ( ( unsigned char * ) e - base == hook_entries [ h ] ) newinfo -> hook_entry [ h ] = hook_entries [ h ] ; if ( ( unsigned char * ) e - base == underflows [ h ] ) { if ( ! check_underflow ( e ) ) { pr_debug ( ""Underflows must be unconditional and "" ""use the STANDARD target with "" ""ACCEPT/DROP\\n"" ) ; return - EINVAL ; } newinfo -> underflow [ h ] = underflows [ h ] ; } } e -> counters = ( ( struct xt_counters ) { 0 , 0 } ) ; e -> comefrom = 0 ; return 0 ; }" 238,"CWE-835 static enum rules_token lex ( struct scanner * s , union lvalue * val ) { skip_more_whitespace_and_comments : while ( is_space ( peek ( s ) ) ) if ( next ( s ) == '\\n' ) return TOK_END_OF_LINE ; if ( chr ( s , '#' ) ) { skip_to_eol ( s ) ; goto skip_more_whitespace_and_comments ; } if ( eof ( s ) ) return TOK_END_OF_FILE ; s -> token_line = s -> line ; s -> token_column = s -> column ; s -> buf_pos = 0 ; if ( chr ( s , '<' ) ) { while ( peek ( s ) != '>' && ! eol ( s ) ) buf_append ( s , next ( s ) ) ; if ( ! chr ( s , '>' ) ) { scanner_err ( s , ""unterminated keysym literal"" ) ; return TOK_ERROR ; } if ( ! buf_append ( s , '\\0' ) ) { scanner_err ( s , ""keysym literal is too long"" ) ; return TOK_ERROR ; } val -> string . str = s -> buf ; val -> string . len = s -> buf_pos ; return TOK_LHS_KEYSYM ; } if ( chr ( s , ':' ) ) return TOK_COLON ; if ( chr ( s , '!' ) ) return TOK_BANG ; if ( chr ( s , '~' ) ) return TOK_TILDE ; if ( chr ( s , \'\\""\' ) ) { while ( ! eof ( s ) && ! eol ( s ) && peek ( s ) != \'\\""\' ) { if ( chr ( s , '\\\\' ) ) { uint8_t o ; if ( chr ( s , '\\\\' ) ) { buf_append ( s , '\\\\' ) ; } else if ( chr ( s , \'""\' ) ) { buf_append ( s , \'""\' ) ; } else if ( chr ( s , 'x' ) || chr ( s , 'X' ) ) { if ( hex ( s , & o ) ) buf_append ( s , ( char ) o ) ; else scanner_warn ( s , ""illegal hexadecimal escape sequence in string literal"" ) ; } else if ( oct ( s , & o ) ) { buf_append ( s , ( char ) o ) ; } else { scanner_warn ( s , ""unknown escape sequence (%c) in string literal"" , peek ( s ) ) ; } } else { buf_append ( s , next ( s ) ) ; } } if ( ! chr ( s , \'\\""\' ) ) { scanner_err ( s , ""unterminated string literal"" ) ; return TOK_ERROR ; } if ( ! buf_append ( s , '\\0' ) ) {","static enum rules_token lex ( struct scanner * s , union lvalue * val ) { skip_more_whitespace_and_comments : while ( is_space ( peek ( s ) ) ) if ( next ( s ) == '\\n' ) return TOK_END_OF_LINE ; if ( chr ( s , '#' ) ) { skip_to_eol ( s ) ; goto skip_more_whitespace_and_comments ; } if ( eof ( s ) ) return TOK_END_OF_FILE ; s -> token_line = s -> line ; s -> token_column = s -> column ; s -> buf_pos = 0 ; if ( chr ( s , '<' ) ) { while ( peek ( s ) != '>' && ! eol ( s ) && ! eof ( s ) ) buf_append ( s , next ( s ) ) ; if ( ! chr ( s , '>' ) ) { scanner_err ( s , ""unterminated keysym literal"" ) ; return TOK_ERROR ; } if ( ! buf_append ( s , '\\0' ) ) { scanner_err ( s , ""keysym literal is too long"" ) ; return TOK_ERROR ; } val -> string . str = s -> buf ; val -> string . len = s -> buf_pos ; return TOK_LHS_KEYSYM ; } if ( chr ( s , ':' ) ) return TOK_COLON ; if ( chr ( s , '!' ) ) return TOK_BANG ; if ( chr ( s , '~' ) ) return TOK_TILDE ; if ( chr ( s , \'\\""\' ) ) { while ( ! eof ( s ) && ! eol ( s ) && peek ( s ) != \'\\""\' ) { if ( chr ( s , '\\\\' ) ) { uint8_t o ; if ( chr ( s , '\\\\' ) ) { buf_append ( s , '\\\\' ) ; } else if ( chr ( s , \'""\' ) ) { buf_append ( s , \'""\' ) ; } else if ( chr ( s , 'x' ) || chr ( s , 'X' ) ) { if ( hex ( s , & o ) ) buf_append ( s , ( char ) o ) ; else scanner_warn ( s , ""illegal hexadecimal escape sequence in string literal"" ) ; } else if ( oct ( s , & o ) ) { buf_append ( s , ( char ) o ) ; } else { scanner_warn ( s , ""unknown escape sequence (%c) in string literal"" , peek ( s ) ) ; } } else { buf_append ( s , next ( s ) ) ; } } if ( ! chr ( s , \'\\""\' ) ) { scanner_err ( s , ""unterminated string literal"" ) ; return TOK_ERROR ; } if ( ! buf_append ( s , '\\0' ) ) {" 239,"CWE-119 SNDFILE * sf_open_virtual ( SF_VIRTUAL_IO * sfvirtual , int mode , SF_INFO * sfinfo , void * user_data ) { SF_PRIVATE * psf ; if ( sfvirtual -> get_filelen == NULL || sfvirtual -> seek == NULL || sfvirtual -> tell == NULL ) { sf_errno = SFE_BAD_VIRTUAL_IO ; snprintf ( sf_parselog , sizeof ( sf_parselog ) , ""Bad vio_get_filelen / vio_seek / vio_tell in SF_VIRTUAL_IO struct.\\n"" ) ; return NULL ; } ; if ( ( mode == SFM_READ || mode == SFM_RDWR ) && sfvirtual -> read == NULL ) { sf_errno = SFE_BAD_VIRTUAL_IO ; snprintf ( sf_parselog , sizeof ( sf_parselog ) , ""Bad vio_read in SF_VIRTUAL_IO struct.\\n"" ) ; return NULL ; } ; if ( ( mode == SFM_WRITE || mode == SFM_RDWR ) && sfvirtual -> write == NULL ) { sf_errno = SFE_BAD_VIRTUAL_IO ; snprintf ( sf_parselog , sizeof ( sf_parselog ) , ""Bad vio_write in SF_VIRTUAL_IO struct.\\n"" ) ; return NULL ; } ; if ( ( psf = calloc ( 1 , sizeof ( SF_PRIVATE ) ) ) == NULL ) { sf_errno = SFE_MALLOC_FAILED ; return NULL ; } ; psf_init_files ( psf ) ; psf -> virtual_io = SF_TRUE ; psf -> vio = * sfvirtual ; psf -> vio_user_data = user_data ; psf -> file . mode = mode ; return psf_open_file ( psf , sfinfo ) ; }","SNDFILE * sf_open_virtual ( SF_VIRTUAL_IO * sfvirtual , int mode , SF_INFO * sfinfo , void * user_data ) { SF_PRIVATE * psf ; if ( sfvirtual -> get_filelen == NULL || sfvirtual -> seek == NULL || sfvirtual -> tell == NULL ) { sf_errno = SFE_BAD_VIRTUAL_IO ; snprintf ( sf_parselog , sizeof ( sf_parselog ) , ""Bad vio_get_filelen / vio_seek / vio_tell in SF_VIRTUAL_IO struct.\\n"" ) ; return NULL ; } ; if ( ( mode == SFM_READ || mode == SFM_RDWR ) && sfvirtual -> read == NULL ) { sf_errno = SFE_BAD_VIRTUAL_IO ; snprintf ( sf_parselog , sizeof ( sf_parselog ) , ""Bad vio_read in SF_VIRTUAL_IO struct.\\n"" ) ; return NULL ; } ; if ( ( mode == SFM_WRITE || mode == SFM_RDWR ) && sfvirtual -> write == NULL ) { sf_errno = SFE_BAD_VIRTUAL_IO ; snprintf ( sf_parselog , sizeof ( sf_parselog ) , ""Bad vio_write in SF_VIRTUAL_IO struct.\\n"" ) ; return NULL ; } ; if ( ( psf = psf_allocate ( ) ) == NULL ) { sf_errno = SFE_MALLOC_FAILED ; return NULL ; } ; psf_init_files ( psf ) ; psf -> virtual_io = SF_TRUE ; psf -> vio = * sfvirtual ; psf -> vio_user_data = user_data ; psf -> file . mode = mode ; return psf_open_file ( psf , sfinfo ) ; }" 240,"CWE-119 break ; case MODE_BESTQUALITY : cpi -> pass = 0 ; cpi -> compressor_speed = 0 ; break ; case MODE_FIRSTPASS : cpi -> pass = 1 ; cpi -> compressor_speed = 1 ; break ; case MODE_SECONDPASS : cpi -> pass = 2 ; cpi -> compressor_speed = 1 ; if ( cpi -> oxcf . cpu_used < - 5 ) { cpi -> oxcf . cpu_used = - 5 ; } if ( cpi -> oxcf . cpu_used > 5 ) cpi -> oxcf . cpu_used = 5 ; break ; case MODE_SECONDPASS_BEST : cpi -> pass = 2 ; cpi -> compressor_speed = 0 ; break ; } if ( cpi -> pass == 0 ) cpi -> auto_worst_q = 1 ; cpi -> oxcf . worst_allowed_q = q_trans [ oxcf -> worst_allowed_q ] ; cpi -> oxcf . best_allowed_q = q_trans [ oxcf -> best_allowed_q ] ; cpi -> oxcf . cq_level = q_trans [ cpi -> oxcf . cq_level ] ; if ( oxcf -> fixed_q >= 0 ) { if ( oxcf -> worst_allowed_q < 0 ) cpi -> oxcf . fixed_q = q_trans [ 0 ] ; else cpi -> oxcf . fixed_q = q_trans [ oxcf -> worst_allowed_q ] ; if ( oxcf -> alt_q < 0 ) cpi -> oxcf . alt_q = q_trans [ 0 ] ; else cpi -> oxcf . alt_q = q_trans [ oxcf -> alt_q ] ; if ( oxcf -> key_q < 0 ) cpi -> oxcf . key_q = q_trans [ 0 ] ; else cpi -> oxcf . key_q = q_trans [ oxcf -> key_q ] ; if ( oxcf -> gold_q < 0 ) cpi -> oxcf . gold_q = q_trans [ 0 ] ; else cpi -> oxcf . gold_q = q_trans [ oxcf -> gold_q ] ; } cpi -> baseline_gf_interval = cpi -> oxcf . alt_freq ? cpi -> oxcf . alt_freq : DEFAULT_GF_INTERVAL ; cpi -> ref_frame_flags = VP8_ALTR_FRAME | VP8_GOLD_FRAME | VP8_LAST_FRAME ; cm -> refresh_golden_frame = 0 ; cm -> refresh_last_frame = 1 ; cm -> refresh_entropy_probs = 1 ; # if ( CONFIG_REALTIME_ONLY & CONFIG_ONTHEFLY_BITPACKING ) cpi -> oxcf . token_partitions = 3 ; # endif if ( cpi -> oxcf . token_partitions >= 0 && cpi -> oxcf . token_partitions <= 3 ) cm -> multi_token_partition = ( TOKEN_PARTITION ) cpi -> oxcf . token_partitions ; setup_features ( cpi ) ; { int i ; for ( i = 0 ; i < MAX_MB_SEGMENTS ; i ++ ) cpi -> segment_encode_breakout [ i ] = cpi -> oxcf . encode_breakout ; } if ( cpi -> oxcf . fixed_q > MAXQ ) cpi -> oxcf . fixed_q = MAXQ ; if ( cpi -> oxcf . end_usage == USAGE_LOCAL_FILE_PLAYBACK ) { cpi -> oxcf . starting_buffer_level = 60000 ; cpi -> oxcf . optimal_buffer_level = 60000 ; cpi -> oxcf . maximum_buffer_size = 240000 ; cpi -> oxcf . starting_buffer_level_in_ms = 60000 ; cpi -> oxcf . optimal_buffer_level_in_ms = 60000 ; cpi -> oxcf . maximum_buffer_size_in_ms = 240000 ; } cpi -> oxcf . target_bandwidth *= 1000 ; cpi -> oxcf . starting_buffer_level = rescale ( ( int ) cpi -> oxcf . starting_buffer_level , cpi -> oxcf . target_bandwidth , 1000 ) ; if ( cpi -> oxcf . optimal_buffer_level == 0 ) cpi -> oxcf . optimal_buffer_level = cpi -> oxcf . target_bandwidth / 8 ; else cpi -> oxcf . optimal_buffer_level = rescale ( ( int ) cpi -> oxcf . optimal_buffer_level , cpi -> oxcf . target_bandwidth , 1000 ) ; if ( cpi -> oxcf . maximum_buffer_size == 0 ) cpi -> oxcf . maximum_buffer_size = cpi -> oxcf . target_bandwidth / 8 ; else cpi -> oxcf . maximum_buffer_size = rescale ( ( int ) cpi -> oxcf . maximum_buffer_size , cpi -> oxcf . target_bandwidth , 1000 ) ; if ( cpi -> bits_off_target > cpi -> oxcf . maximum_buffer_size ) { cpi -> bits_off_target = cpi -> oxcf . maximum_buffer_size ; cpi -> buffer_level = cpi -> bits_off_target ; } vp8_new_framerate ( cpi , cpi -> framerate ) ; cpi -> worst_quality = cpi -> oxcf . worst_allowed_q ; cpi -> best_quality = cpi -> oxcf . best_allowed_q ; if ( cpi -> active_worst_quality > cpi -> oxcf . worst_allowed_q ) { cpi -> active_worst_quality = cpi -> oxcf . worst_allowed_q ; } else if ( cpi -> active_worst_quality < cpi -> oxcf . best_allowed_q ) { cpi -> active_worst_quality = cpi -> oxcf . best_allowed_q ; } if ( cpi -> active_best_quality < cpi -> oxcf . best_allowed_q ) { cpi -> active_best_quality = cpi -> oxcf . best_allowed_q ; } else if ( cpi -> active_best_quality > cpi -> oxcf . worst_allowed_q ) { cpi -> active_best_quality = cpi -> oxcf . worst_allowed_q ; } cpi -> buffered_mode = cpi -> oxcf . optimal_buffer_level > 0 ; cpi -> cq_target_quality = cpi -> oxcf . cq_level ; cpi -> drop_frames_allowed = cpi -> oxcf . allow_df && cpi -> buffered_mode ; cpi -> target_bandwidth = cpi -> oxcf . target_bandwidth ; if ( cpi -> oxcf . number_of_layers != prev_number_of_layers ) { cpi -> temporal_pattern_counter = 0 ; reset_temporal_layer_change ( cpi , oxcf , prev_number_of_layers ) ; } cm -> Width = cpi -> oxcf . Width ; cm -> Height = cpi -> oxcf . Height ; if ( cpi -> oxcf . Sharpness > 7 ) cpi -> oxcf . Sharpness = 7 ; cm -> sharpness_level = cpi -> oxcf . Sharpness ; if ( cm -> horiz_scale != NORMAL || cm -> vert_scale != NORMAL ) { int UNINITIALIZED_IS_SAFE ( hr ) , UNINITIALIZED_IS_SAFE ( hs ) ; int UNINITIALIZED_IS_SAFE ( vr ) , UNINITIALIZED_IS_SAFE ( vs ) ; Scale2Ratio ( cm -> horiz_scale , & hr , & hs ) ; Scale2Ratio ( cm -> vert_scale , & vr , & vs ) ; cm -> Width = ( hs - 1 + cpi -> oxcf . Width * hr ) / hs ; cm -> Height = ( vs - 1 + cpi -> oxcf . Height * vr ) / vs ; } if ( last_w != cpi -> oxcf . Width || last_h != cpi -> oxcf . Height ) cpi -> force_next_frame_intra = 1 ; if ( ( ( cm -> Width + 15 ) & 0xfffffff0 ) != cm -> yv12_fb [ cm -> lst_fb_idx ] . y_width || ( ( cm -> Height + 15 ) & 0xfffffff0 ) != cm -> yv12_fb [ cm -> lst_fb_idx ] . y_height || cm -> yv12_fb [ cm -> lst_fb_idx ] . y_width == 0 ) { dealloc_raw_frame_buffers ( cpi ) ; alloc_raw_frame_buffers ( cpi ) ; vp8_alloc_compressor_data ( cpi ) ; } if ( cpi -> oxcf . fixed_q >= 0 ) { cpi -> last_q [ 0 ] = cpi -> oxcf . fixed_q ; cpi -> last_q [ 1 ] = cpi -> oxcf . fixed_q ; } cpi -> Speed = cpi -> oxcf . cpu_used ; if ( cpi -> oxcf . lag_in_frames == 0 ) { cpi -> oxcf . allow_lag = 0 ; } else if ( cpi -> oxcf . lag_in_frames > MAX_LAG_BUFFERS ) cpi -> oxcf . lag_in_frames = MAX_LAG_BUFFERS ; cpi -> alt_ref_source = NULL ; cpi -> is_src_frame_alt_ref = 0 ; # if CONFIG_TEMPORAL_DENOISING if ( cpi -> oxcf . noise_sensitivity ) { if ( ! cpi -> denoiser . yv12_mc_running_avg . buffer_alloc ) { int width = ( cpi -> oxcf . Width + 15 ) & ~ 15 ; int height = ( cpi -> oxcf . Height + 15 ) & ~ 15 ; vp8_denoiser_allocate ( & cpi -> denoiser , width , height ) ; } } # endif # if 0 cpi -> frame_distortion = 0 ; cpi -> last_frame_distortion = 0 ; # endif }","break ; case MODE_BESTQUALITY : cpi -> pass = 0 ; cpi -> compressor_speed = 0 ; break ; case MODE_FIRSTPASS : cpi -> pass = 1 ; cpi -> compressor_speed = 1 ; break ; case MODE_SECONDPASS : cpi -> pass = 2 ; cpi -> compressor_speed = 1 ; if ( cpi -> oxcf . cpu_used < - 5 ) { cpi -> oxcf . cpu_used = - 5 ; } if ( cpi -> oxcf . cpu_used > 5 ) cpi -> oxcf . cpu_used = 5 ; break ; case MODE_SECONDPASS_BEST : cpi -> pass = 2 ; cpi -> compressor_speed = 0 ; break ; } if ( cpi -> pass == 0 ) cpi -> auto_worst_q = 1 ; cpi -> oxcf . worst_allowed_q = q_trans [ oxcf -> worst_allowed_q ] ; cpi -> oxcf . best_allowed_q = q_trans [ oxcf -> best_allowed_q ] ; cpi -> oxcf . cq_level = q_trans [ cpi -> oxcf . cq_level ] ; if ( oxcf -> fixed_q >= 0 ) { if ( oxcf -> worst_allowed_q < 0 ) cpi -> oxcf . fixed_q = q_trans [ 0 ] ; else cpi -> oxcf . fixed_q = q_trans [ oxcf -> worst_allowed_q ] ; if ( oxcf -> alt_q < 0 ) cpi -> oxcf . alt_q = q_trans [ 0 ] ; else cpi -> oxcf . alt_q = q_trans [ oxcf -> alt_q ] ; if ( oxcf -> key_q < 0 ) cpi -> oxcf . key_q = q_trans [ 0 ] ; else cpi -> oxcf . key_q = q_trans [ oxcf -> key_q ] ; if ( oxcf -> gold_q < 0 ) cpi -> oxcf . gold_q = q_trans [ 0 ] ; else cpi -> oxcf . gold_q = q_trans [ oxcf -> gold_q ] ; } cpi -> baseline_gf_interval = cpi -> oxcf . alt_freq ? cpi -> oxcf . alt_freq : DEFAULT_GF_INTERVAL ; # if ( CONFIG_REALTIME_ONLY & CONFIG_ONTHEFLY_BITPACKING ) cpi -> oxcf . token_partitions = 3 ; # endif if ( cpi -> oxcf . token_partitions >= 0 && cpi -> oxcf . token_partitions <= 3 ) cm -> multi_token_partition = ( TOKEN_PARTITION ) cpi -> oxcf . token_partitions ; setup_features ( cpi ) ; { int i ; for ( i = 0 ; i < MAX_MB_SEGMENTS ; i ++ ) cpi -> segment_encode_breakout [ i ] = cpi -> oxcf . encode_breakout ; } if ( cpi -> oxcf . fixed_q > MAXQ ) cpi -> oxcf . fixed_q = MAXQ ; if ( cpi -> oxcf . end_usage == USAGE_LOCAL_FILE_PLAYBACK ) { cpi -> oxcf . starting_buffer_level = 60000 ; cpi -> oxcf . optimal_buffer_level = 60000 ; cpi -> oxcf . maximum_buffer_size = 240000 ; cpi -> oxcf . starting_buffer_level_in_ms = 60000 ; cpi -> oxcf . optimal_buffer_level_in_ms = 60000 ; cpi -> oxcf . maximum_buffer_size_in_ms = 240000 ; } cpi -> oxcf . target_bandwidth *= 1000 ; cpi -> oxcf . starting_buffer_level = rescale ( ( int ) cpi -> oxcf . starting_buffer_level , cpi -> oxcf . target_bandwidth , 1000 ) ; if ( cpi -> oxcf . optimal_buffer_level == 0 ) cpi -> oxcf . optimal_buffer_level = cpi -> oxcf . target_bandwidth / 8 ; else cpi -> oxcf . optimal_buffer_level = rescale ( ( int ) cpi -> oxcf . optimal_buffer_level , cpi -> oxcf . target_bandwidth , 1000 ) ; if ( cpi -> oxcf . maximum_buffer_size == 0 ) cpi -> oxcf . maximum_buffer_size = cpi -> oxcf . target_bandwidth / 8 ; else cpi -> oxcf . maximum_buffer_size = rescale ( ( int ) cpi -> oxcf . maximum_buffer_size , cpi -> oxcf . target_bandwidth , 1000 ) ; if ( cpi -> bits_off_target > cpi -> oxcf . maximum_buffer_size ) { cpi -> bits_off_target = cpi -> oxcf . maximum_buffer_size ; cpi -> buffer_level = cpi -> bits_off_target ; } vp8_new_framerate ( cpi , cpi -> framerate ) ; cpi -> worst_quality = cpi -> oxcf . worst_allowed_q ; cpi -> best_quality = cpi -> oxcf . best_allowed_q ; if ( cpi -> active_worst_quality > cpi -> oxcf . worst_allowed_q ) { cpi -> active_worst_quality = cpi -> oxcf . worst_allowed_q ; } else if ( cpi -> active_worst_quality < cpi -> oxcf . best_allowed_q ) { cpi -> active_worst_quality = cpi -> oxcf . best_allowed_q ; } if ( cpi -> active_best_quality < cpi -> oxcf . best_allowed_q ) { cpi -> active_best_quality = cpi -> oxcf . best_allowed_q ; } else if ( cpi -> active_best_quality > cpi -> oxcf . worst_allowed_q ) { cpi -> active_best_quality = cpi -> oxcf . worst_allowed_q ; } cpi -> buffered_mode = cpi -> oxcf . optimal_buffer_level > 0 ; cpi -> cq_target_quality = cpi -> oxcf . cq_level ; cpi -> drop_frames_allowed = cpi -> oxcf . allow_df && cpi -> buffered_mode ; cpi -> target_bandwidth = cpi -> oxcf . target_bandwidth ; if ( cpi -> oxcf . number_of_layers != prev_number_of_layers ) { if ( cpi -> temporal_layer_id > 0 ) { cpi -> temporal_layer_id = 0 ; } cpi -> temporal_pattern_counter = 0 ; reset_temporal_layer_change ( cpi , oxcf , prev_number_of_layers ) ; } if ( ! cpi -> initial_width ) { cpi -> initial_width = cpi -> oxcf . Width ; cpi -> initial_height = cpi -> oxcf . Height ; } cm -> Width = cpi -> oxcf . Width ; cm -> Height = cpi -> oxcf . Height ; assert ( cm -> Width <= cpi -> initial_width ) ; assert ( cm -> Height <= cpi -> initial_height ) ; if ( cpi -> oxcf . Sharpness > 7 ) cpi -> oxcf . Sharpness = 7 ; cm -> sharpness_level = cpi -> oxcf . Sharpness ; if ( cm -> horiz_scale != NORMAL || cm -> vert_scale != NORMAL ) { int UNINITIALIZED_IS_SAFE ( hr ) , UNINITIALIZED_IS_SAFE ( hs ) ; int UNINITIALIZED_IS_SAFE ( vr ) , UNINITIALIZED_IS_SAFE ( vs ) ; Scale2Ratio ( cm -> horiz_scale , & hr , & hs ) ; Scale2Ratio ( cm -> vert_scale , & vr , & vs ) ; cm -> Width = ( hs - 1 + cpi -> oxcf . Width * hr ) / hs ; cm -> Height = ( vs - 1 + cpi -> oxcf . Height * vr ) / vs ; } if ( last_w != cpi -> oxcf . Width || last_h != cpi -> oxcf . Height ) cpi -> force_next_frame_intra = 1 ; if ( ( ( cm -> Width + 15 ) & 0xfffffff0 ) != cm -> yv12_fb [ cm -> lst_fb_idx ] . y_width || ( ( cm -> Height + 15 ) & 0xfffffff0 ) != cm -> yv12_fb [ cm -> lst_fb_idx ] . y_height || cm -> yv12_fb [ cm -> lst_fb_idx ] . y_width == 0 ) { dealloc_raw_frame_buffers ( cpi ) ; alloc_raw_frame_buffers ( cpi ) ; vp8_alloc_compressor_data ( cpi ) ; } if ( cpi -> oxcf . fixed_q >= 0 ) { cpi -> last_q [ 0 ] = cpi -> oxcf . fixed_q ; cpi -> last_q [ 1 ] = cpi -> oxcf . fixed_q ; } cpi -> Speed = cpi -> oxcf . cpu_used ; if ( cpi -> oxcf . lag_in_frames == 0 ) { cpi -> oxcf . allow_lag = 0 ; } else if ( cpi -> oxcf . lag_in_frames > MAX_LAG_BUFFERS ) cpi -> oxcf . lag_in_frames = MAX_LAG_BUFFERS ; cpi -> alt_ref_source = NULL ; cpi -> is_src_frame_alt_ref = 0 ; # if CONFIG_TEMPORAL_DENOISING if ( cpi -> oxcf . noise_sensitivity ) { if ( ! cpi -> denoiser . yv12_mc_running_avg . buffer_alloc ) { int width = ( cpi -> oxcf . Width + 15 ) & ~ 15 ; int height = ( cpi -> oxcf . Height + 15 ) & ~ 15 ; vp8_denoiser_allocate ( & cpi -> denoiser , width , height , cm -> mb_rows , cm -> mb_cols , cpi -> oxcf . noise_sensitivity ) ; } } # endif # if 0 cpi -> frame_distortion = 0 ; cpi -> last_frame_distortion = 0 ; # endif }" 241,"CWE-835 static void gsm_xsmp_client_disconnect ( GsmXSMPClient * client ) { if ( client -> priv -> watch_id > 0 ) { g_source_remove ( client -> priv -> watch_id ) ; } if ( client -> priv -> conn != NULL ) { SmsCleanUp ( client -> priv -> conn ) ; } if ( client -> priv -> ice_connection != NULL ) { IceSetShutdownNegotiation ( client -> priv -> ice_connection , FALSE ) ; IceCloseConnection ( client -> priv -> ice_connection ) ; } if ( client -> priv -> protocol_timeout > 0 ) { g_source_remove ( client -> priv -> protocol_timeout ) ; } }","static void gsm_xsmp_client_disconnect ( GsmXSMPClient * client ) { if ( client -> priv -> watch_id > 0 ) { g_source_remove ( client -> priv -> watch_id ) ; } if ( client -> priv -> conn != NULL ) { SmsCleanUp ( client -> priv -> conn ) ; } if ( client -> priv -> ice_connection != NULL ) { IceSetShutdownNegotiation ( client -> priv -> ice_connection , FALSE ) ; IceCloseConnection ( client -> priv -> ice_connection ) ; } }" 242,"CWE-119 static vpx_codec_err_t ctrl_use_reference ( vpx_codec_alg_priv_t * ctx , int ctr_id , va_list args ) { const int reference_flag = va_arg ( args , int ) ; vp9_use_as_reference ( ctx -> cpi , reference_flag ) ; return VPX_CODEC_OK ; }","static vpx_codec_err_t ctrl_use_reference ( vpx_codec_alg_priv_t * ctx , va_list args ) { const int reference_flag = va_arg ( args , int ) ; vp9_use_as_reference ( ctx -> cpi , reference_flag ) ; return VPX_CODEC_OK ; }" 243,"CWE-416 static void fanout_release ( struct sock * sk ) { struct packet_sock * po = pkt_sk ( sk ) ; struct packet_fanout * f ; f = po -> fanout ; if ( ! f ) return ; mutex_lock ( & fanout_mutex ) ; po -> fanout = NULL ; if ( atomic_dec_and_test ( & f -> sk_ref ) ) { list_del ( & f -> list ) ; dev_remove_pack ( & f -> prot_hook ) ; fanout_release_data ( f ) ; kfree ( f ) ; } mutex_unlock ( & fanout_mutex ) ; if ( po -> rollover ) kfree_rcu ( po -> rollover , rcu ) ; } ","static void fanout_release ( struct sock * sk ) { struct packet_sock * po = pkt_sk ( sk ) ; struct packet_fanout * f ; mutex_lock ( & fanout_mutex ) ; f = po -> fanout ; if ( f ) { po -> fanout = NULL ; if ( atomic_dec_and_test ( & f -> sk_ref ) ) { list_del ( & f -> list ) ; dev_remove_pack ( & f -> prot_hook ) ; fanout_release_data ( f ) ; kfree ( f ) ; } if ( po -> rollover ) kfree_rcu ( po -> rollover , rcu ) ; } mutex_unlock ( & fanout_mutex ) ; }" 244,"CWE-189 static int efx_probe_all ( struct efx_nic * efx ) { int rc ; rc = efx_probe_nic ( efx ) ; if ( rc ) { netif_err ( efx , probe , efx -> net_dev , ""failed to create NIC\\n"" ) ; goto fail1 ; } rc = efx_probe_port ( efx ) ; if ( rc ) { netif_err ( efx , probe , efx -> net_dev , ""failed to create port\\n"" ) ; goto fail2 ; } efx -> rxq_entries = efx -> txq_entries = EFX_DEFAULT_DMAQ_SIZE ; rc = efx_probe_channels ( efx ) ; if ( rc ) goto fail3 ; rc = efx_probe_filters ( efx ) ; if ( rc ) { netif_err ( efx , probe , efx -> net_dev , ""failed to create filter tables\\n"" ) ; goto fail4 ; } return 0 ; fail4 : efx_remove_channels ( efx ) ; fail3 : efx_remove_port ( efx ) ; fail2 : efx_remove_nic ( efx ) ; fail1 : return rc ; }","static int efx_probe_all ( struct efx_nic * efx ) { int rc ; rc = efx_probe_nic ( efx ) ; if ( rc ) { netif_err ( efx , probe , efx -> net_dev , ""failed to create NIC\\n"" ) ; goto fail1 ; } rc = efx_probe_port ( efx ) ; if ( rc ) { netif_err ( efx , probe , efx -> net_dev , ""failed to create port\\n"" ) ; goto fail2 ; } BUILD_BUG_ON ( EFX_DEFAULT_DMAQ_SIZE < EFX_RXQ_MIN_ENT ) ; if ( WARN_ON ( EFX_DEFAULT_DMAQ_SIZE < EFX_TXQ_MIN_ENT ( efx ) ) ) { rc = - EINVAL ; goto fail3 ; } efx -> rxq_entries = efx -> txq_entries = EFX_DEFAULT_DMAQ_SIZE ; rc = efx_probe_channels ( efx ) ; if ( rc ) goto fail3 ; rc = efx_probe_filters ( efx ) ; if ( rc ) { netif_err ( efx , probe , efx -> net_dev , ""failed to create filter tables\\n"" ) ; goto fail4 ; } return 0 ; fail4 : efx_remove_channels ( efx ) ; fail3 : efx_remove_port ( efx ) ; fail2 : efx_remove_nic ( efx ) ; fail1 : return rc ; }" 245,"CWE-399 long do_io_submit ( aio_context_t ctx_id , long nr , struct iocb __user * __user * iocbpp , bool compat ) { struct kioctx * ctx ; long ret = 0 ; int i = 0 ; struct blk_plug plug ; struct kiocb_batch batch ; if ( unlikely ( nr < 0 ) ) return - EINVAL ; if ( unlikely ( nr > LONG_MAX / sizeof ( * iocbpp ) ) ) nr = LONG_MAX / sizeof ( * iocbpp ) ; if ( unlikely ( ! access_ok ( VERIFY_READ , iocbpp , ( nr * sizeof ( * iocbpp ) ) ) ) ) return - EFAULT ; ctx = lookup_ioctx ( ctx_id ) ; if ( unlikely ( ! ctx ) ) { pr_debug ( ""EINVAL: io_submit: invalid context id\\n"" ) ; return - EINVAL ; } kiocb_batch_init ( & batch , nr ) ; blk_start_plug ( & plug ) ; for ( i = 0 ; i < nr ; i ++ ) { struct iocb __user * user_iocb ; struct iocb tmp ; if ( unlikely ( __get_user ( user_iocb , iocbpp + i ) ) ) { ret = - EFAULT ; break ; } if ( unlikely ( copy_from_user ( & tmp , user_iocb , sizeof ( tmp ) ) ) ) { ret = - EFAULT ; break ; } ret = io_submit_one ( ctx , user_iocb , & tmp , & batch , compat ) ; if ( ret ) break ; } blk_finish_plug ( & plug ) ; kiocb_batch_free ( & batch ) ; put_ioctx ( ctx ) ; return i ? i : ret ; }","long do_io_submit ( aio_context_t ctx_id , long nr , struct iocb __user * __user * iocbpp , bool compat ) { struct kioctx * ctx ; long ret = 0 ; int i = 0 ; struct blk_plug plug ; struct kiocb_batch batch ; if ( unlikely ( nr < 0 ) ) return - EINVAL ; if ( unlikely ( nr > LONG_MAX / sizeof ( * iocbpp ) ) ) nr = LONG_MAX / sizeof ( * iocbpp ) ; if ( unlikely ( ! access_ok ( VERIFY_READ , iocbpp , ( nr * sizeof ( * iocbpp ) ) ) ) ) return - EFAULT ; ctx = lookup_ioctx ( ctx_id ) ; if ( unlikely ( ! ctx ) ) { pr_debug ( ""EINVAL: io_submit: invalid context id\\n"" ) ; return - EINVAL ; } kiocb_batch_init ( & batch , nr ) ; blk_start_plug ( & plug ) ; for ( i = 0 ; i < nr ; i ++ ) { struct iocb __user * user_iocb ; struct iocb tmp ; if ( unlikely ( __get_user ( user_iocb , iocbpp + i ) ) ) { ret = - EFAULT ; break ; } if ( unlikely ( copy_from_user ( & tmp , user_iocb , sizeof ( tmp ) ) ) ) { ret = - EFAULT ; break ; } ret = io_submit_one ( ctx , user_iocb , & tmp , & batch , compat ) ; if ( ret ) break ; } blk_finish_plug ( & plug ) ; kiocb_batch_free ( ctx , & batch ) ; put_ioctx ( ctx ) ; return i ? i : ret ; }" 246,"CWE-19 if ( be32_to_cpu ( entry -> hashval ) == cursor -> hashval ) { if ( cursor -> offset == context -> dupcnt ) { context -> dupcnt = 0 ; break ; } context -> dupcnt ++ ; } else if ( be32_to_cpu ( entry -> hashval ) > cursor -> hashval ) { context -> dupcnt = 0 ; break ; } } if ( i == ichdr . count ) { trace_xfs_attr_list_notfound ( context ) ; return 0 ; } } else { entry = & entries [ 0 ] ; i = 0 ; } context -> resynch = 0 ; retval = 0 ; for ( ; i < ichdr . count ; entry ++ , i ++ ) { if ( be32_to_cpu ( entry -> hashval ) != cursor -> hashval ) { cursor -> hashval = be32_to_cpu ( entry -> hashval ) ; cursor -> offset = 0 ; } if ( entry -> flags & XFS_ATTR_INCOMPLETE ) continue ; if ( entry -> flags & XFS_ATTR_LOCAL ) { xfs_attr_leaf_name_local_t * name_loc = xfs_attr3_leaf_name_local ( leaf , i ) ; retval = context -> put_listent ( context , entry -> flags , name_loc -> nameval , ( int ) name_loc -> namelen , be16_to_cpu ( name_loc -> valuelen ) , & name_loc -> nameval [ name_loc -> namelen ] ) ; if ( retval ) return retval ; } else { xfs_attr_leaf_name_remote_t * name_rmt = xfs_attr3_leaf_name_remote ( leaf , i ) ; int valuelen = be32_to_cpu ( name_rmt -> valuelen ) ; if ( context -> put_value ) { xfs_da_args_t args ; memset ( ( char * ) & args , 0 , sizeof ( args ) ) ; args . dp = context -> dp ; args . whichfork = XFS_ATTR_FORK ; args . valuelen = valuelen ; args . value = kmem_alloc ( valuelen , KM_SLEEP | KM_NOFS ) ; args . rmtblkno = be32_to_cpu ( name_rmt -> valueblk ) ; args . rmtblkcnt = xfs_attr3_rmt_blocks ( args . dp -> i_mount , valuelen ) ; retval = xfs_attr_rmtval_get ( & args ) ; if ( retval ) return retval ; retval = context -> put_listent ( context , entry -> flags , name_rmt -> name , ( int ) name_rmt -> namelen , valuelen , args . value ) ; kmem_free ( args . value ) ; } else { retval = context -> put_listent ( context , entry -> flags , name_rmt -> name , ( int ) name_rmt -> namelen , valuelen , NULL ) ; } if ( retval ) return retval ; } if ( context -> seen_enough ) break ; cursor -> offset ++ ; } trace_xfs_attr_list_leaf_end ( context ) ; return retval ; }","if ( be32_to_cpu ( entry -> hashval ) == cursor -> hashval ) { if ( cursor -> offset == context -> dupcnt ) { context -> dupcnt = 0 ; break ; } context -> dupcnt ++ ; } else if ( be32_to_cpu ( entry -> hashval ) > cursor -> hashval ) { context -> dupcnt = 0 ; break ; } } if ( i == ichdr . count ) { trace_xfs_attr_list_notfound ( context ) ; return 0 ; } } else { entry = & entries [ 0 ] ; i = 0 ; } context -> resynch = 0 ; retval = 0 ; for ( ; i < ichdr . count ; entry ++ , i ++ ) { if ( be32_to_cpu ( entry -> hashval ) != cursor -> hashval ) { cursor -> hashval = be32_to_cpu ( entry -> hashval ) ; cursor -> offset = 0 ; } if ( entry -> flags & XFS_ATTR_INCOMPLETE ) continue ; if ( entry -> flags & XFS_ATTR_LOCAL ) { xfs_attr_leaf_name_local_t * name_loc = xfs_attr3_leaf_name_local ( leaf , i ) ; retval = context -> put_listent ( context , entry -> flags , name_loc -> nameval , ( int ) name_loc -> namelen , be16_to_cpu ( name_loc -> valuelen ) , & name_loc -> nameval [ name_loc -> namelen ] ) ; if ( retval ) return retval ; } else { xfs_attr_leaf_name_remote_t * name_rmt = xfs_attr3_leaf_name_remote ( leaf , i ) ; int valuelen = be32_to_cpu ( name_rmt -> valuelen ) ; if ( context -> put_value ) { xfs_da_args_t args ; memset ( ( char * ) & args , 0 , sizeof ( args ) ) ; args . dp = context -> dp ; args . whichfork = XFS_ATTR_FORK ; args . valuelen = valuelen ; args . rmtvaluelen = valuelen ; args . value = kmem_alloc ( valuelen , KM_SLEEP | KM_NOFS ) ; args . rmtblkno = be32_to_cpu ( name_rmt -> valueblk ) ; args . rmtblkcnt = xfs_attr3_rmt_blocks ( args . dp -> i_mount , valuelen ) ; retval = xfs_attr_rmtval_get ( & args ) ; if ( retval ) return retval ; retval = context -> put_listent ( context , entry -> flags , name_rmt -> name , ( int ) name_rmt -> namelen , valuelen , args . value ) ; kmem_free ( args . value ) ; } else { retval = context -> put_listent ( context , entry -> flags , name_rmt -> name , ( int ) name_rmt -> namelen , valuelen , NULL ) ; } if ( retval ) return retval ; } if ( context -> seen_enough ) break ; cursor -> offset ++ ; } trace_xfs_attr_list_leaf_end ( context ) ; return retval ; }" 247,"CWE-362 int my_redel ( const char * org_name , const char * tmp_name , time_t backup_time_stamp , myf MyFlags ) { int error = 1 ; DBUG_ENTER ( ""my_redel"" ) ; DBUG_PRINT ( ""my"" , ( ""org_name: \'%s\' tmp_name: \'%s\' MyFlags: %d"" , org_name , tmp_name , MyFlags ) ) ; if ( my_copystat ( org_name , tmp_name , MyFlags ) < 0 ) goto end ; if ( MyFlags & MY_REDEL_MAKE_BACKUP ) { char name_buff [ FN_REFLEN + MY_BACKUP_NAME_EXTRA_LENGTH ] ; my_create_backup_name ( name_buff , org_name , backup_time_stamp ) ; if ( my_rename ( org_name , name_buff , MyFlags ) ) goto end ; } else if ( my_delete ( org_name , MyFlags ) ) goto end ; if ( my_rename ( tmp_name , org_name , MyFlags ) ) goto end ; error = 0 ; end : DBUG_RETURN ( error ) ; }","int my_redel ( const char * org_name , const char * tmp_name , time_t backup_time_stamp , myf MyFlags ) { int error = 1 ; DBUG_ENTER ( ""my_redel"" ) ; DBUG_PRINT ( ""my"" , ( ""org_name: \'%s\' tmp_name: \'%s\' MyFlags: %d"" , org_name , tmp_name , MyFlags ) ) ; if ( ! my_disable_copystat_in_redel && my_copystat ( org_name , tmp_name , MyFlags ) < 0 ) goto end ; if ( MyFlags & MY_REDEL_MAKE_BACKUP ) { char name_buff [ FN_REFLEN + MY_BACKUP_NAME_EXTRA_LENGTH ] ; my_create_backup_name ( name_buff , org_name , backup_time_stamp ) ; if ( my_rename ( org_name , name_buff , MyFlags ) ) goto end ; } else if ( my_delete ( org_name , MyFlags ) ) goto end ; if ( my_rename ( tmp_name , org_name , MyFlags ) ) goto end ; error = 0 ; end : DBUG_RETURN ( error ) ; }" 248,"CWE-20 static int do_fault ( struct mm_struct * mm , struct vm_area_struct * vma , unsigned long address , pte_t * page_table , pmd_t * pmd , unsigned int flags , pte_t orig_pte ) { pgoff_t pgoff = ( ( ( address & PAGE_MASK ) vma -> vm_start ) >> PAGE_SHIFT ) + vma -> vm_pgoff ; pte_unmap ( page_table ) ; if ( ! ( flags & FAULT_FLAG_WRITE ) ) return do_read_fault ( mm , vma , address , pmd , pgoff , flags , orig_pte ) ; if ( ! ( vma -> vm_flags & VM_SHARED ) ) return do_cow_fault ( mm , vma , address , pmd , pgoff , flags , orig_pte ) ; return do_shared_fault ( mm , vma , address , pmd , pgoff , flags , orig_pte ) ; }","static int do_fault ( struct mm_struct * mm , struct vm_area_struct * vma , unsigned long address , pte_t * page_table , pmd_t * pmd , unsigned int flags , pte_t orig_pte ) { pgoff_t pgoff = ( ( ( address & PAGE_MASK ) pte_unmap ( page_table ) ; if ( ! vma -> vm_ops -> fault ) return VM_FAULT_SIGBUS ; if ( ! ( flags & FAULT_FLAG_WRITE ) ) return do_read_fault ( mm , vma , address , pmd , pgoff , flags , orig_pte ) ; if ( ! ( vma -> vm_flags & VM_SHARED ) ) return do_cow_fault ( mm , vma , address , pmd , pgoff , flags , orig_pte ) ; return do_shared_fault ( mm , vma , address , pmd , pgoff , flags , orig_pte ) ; }" 249,"CWE-125 stmt_ty With ( asdl_seq * items , asdl_seq * body , int lineno , int col_offset , int end_lineno , int end_col_offset , PyArena * arena ) { stmt_ty p ; p = ( stmt_ty ) PyArena_Malloc ( arena , sizeof ( * p ) ) ; if ( ! p ) return NULL ; p -> kind = With_kind ; p -> v . With . items = items ; p -> v . With . body = body ; p -> lineno = lineno ; p -> col_offset = col_offset ; p -> end_lineno = end_lineno ; p -> end_col_offset = end_col_offset ; return p ; }","stmt_ty With ( asdl_seq * items , asdl_seq * body , string type_comment , int lineno , int col_offset , int end_lineno , int end_col_offset , PyArena * arena ) { stmt_ty p ; p = ( stmt_ty ) PyArena_Malloc ( arena , sizeof ( * p ) ) ; if ( ! p ) return NULL ; p -> kind = With_kind ; p -> v . With . items = items ; p -> v . With . body = body ; p -> v . With . type_comment = type_comment ; p -> lineno = lineno ; p -> col_offset = col_offset ; p -> end_lineno = end_lineno ; p -> end_col_offset = end_col_offset ; return p ; }" 250,"CWE-119 static void encode_b ( VP9_COMP * cpi , const TileInfo * const tile , TOKENEXTRA * * tp , int mi_row , int mi_col , int output_enabled , BLOCK_SIZE bsize ) { MACROBLOCK * const x = & cpi -> mb ; if ( bsize < BLOCK_8X8 ) { if ( x -> ab_index > 0 ) return ; } set_offsets ( cpi , tile , mi_row , mi_col , bsize ) ; update_state ( cpi , get_block_context ( x , bsize ) , mi_row , mi_col , bsize , output_enabled ) ; encode_superblock ( cpi , tp , output_enabled , mi_row , mi_col , bsize ) ; if ( output_enabled ) { update_stats ( cpi ) ; ( * tp ) -> token = EOSB_TOKEN ; ( * tp ) ++ ; } }","static void encode_b ( VP9_COMP * cpi , const TileInfo * const tile , ThreadData * td , TOKENEXTRA * * tp , int mi_row , int mi_col , int output_enabled , BLOCK_SIZE bsize , PICK_MODE_CONTEXT * ctx ) { MACROBLOCK * const x = & td -> mb ; set_offsets ( cpi , tile , x , mi_row , mi_col , bsize ) ; update_state ( cpi , td , ctx , mi_row , mi_col , bsize , output_enabled ) ; encode_superblock ( cpi , td , tp , output_enabled , mi_row , mi_col , bsize , ctx ) ; if ( output_enabled ) { update_stats ( & cpi -> common , td ) ; ( * tp ) -> token = EOSB_TOKEN ; ( * tp ) ++ ; } }" 251,"CWE-401 static int htc_config_pipe_credits ( struct htc_target * target ) { struct sk_buff * skb ; struct htc_config_pipe_msg * cp_msg ; int ret ; unsigned long time_left ; skb = alloc_skb ( 50 + sizeof ( struct htc_frame_hdr ) , GFP_ATOMIC ) ; if ( ! skb ) { dev_err ( target -> dev , ""failed to allocate send buffer\\n"" ) ; return - ENOMEM ; } skb_reserve ( skb , sizeof ( struct htc_frame_hdr ) ) ; cp_msg = skb_put ( skb , sizeof ( struct htc_config_pipe_msg ) ) ; cp_msg -> message_id = cpu_to_be16 ( HTC_MSG_CONFIG_PIPE_ID ) ; cp_msg -> pipe_id = USB_WLAN_TX_PIPE ; cp_msg -> credits = target -> credits ; target -> htc_flags |= HTC_OP_CONFIG_PIPE_CREDITS ; ret = htc_issue_send ( target , skb , skb -> len , 0 , ENDPOINT0 ) ; if ( ret ) goto err ; time_left = wait_for_completion_timeout ( & target -> cmd_wait , HZ ) ; if ( ! time_left ) { dev_err ( target -> dev , ""HTC credit config timeout\\n"" ) ; return - ETIMEDOUT ; } return 0 ; err : kfree_skb ( skb ) ; return - EINVAL ; }","static int htc_config_pipe_credits ( struct htc_target * target ) { struct sk_buff * skb ; struct htc_config_pipe_msg * cp_msg ; int ret ; unsigned long time_left ; skb = alloc_skb ( 50 + sizeof ( struct htc_frame_hdr ) , GFP_ATOMIC ) ; if ( ! skb ) { dev_err ( target -> dev , ""failed to allocate send buffer\\n"" ) ; return - ENOMEM ; } skb_reserve ( skb , sizeof ( struct htc_frame_hdr ) ) ; cp_msg = skb_put ( skb , sizeof ( struct htc_config_pipe_msg ) ) ; cp_msg -> message_id = cpu_to_be16 ( HTC_MSG_CONFIG_PIPE_ID ) ; cp_msg -> pipe_id = USB_WLAN_TX_PIPE ; cp_msg -> credits = target -> credits ; target -> htc_flags |= HTC_OP_CONFIG_PIPE_CREDITS ; ret = htc_issue_send ( target , skb , skb -> len , 0 , ENDPOINT0 ) ; if ( ret ) goto err ; time_left = wait_for_completion_timeout ( & target -> cmd_wait , HZ ) ; if ( ! time_left ) { dev_err ( target -> dev , ""HTC credit config timeout\\n"" ) ; kfree_skb ( skb ) ; return - ETIMEDOUT ; } return 0 ; err : kfree_skb ( skb ) ; return - EINVAL ; }" 252,"CWE-19 STATIC int xfs_attr_leaf_addname ( xfs_da_args_t * args ) { xfs_inode_t * dp ; struct xfs_buf * bp ; int retval , error , committed , forkoff ; trace_xfs_attr_leaf_addname ( args ) ; dp = args -> dp ; args -> blkno = 0 ; error = xfs_attr3_leaf_read ( args -> trans , args -> dp , args -> blkno , - 1 , & bp ) ; if ( error ) return error ; retval = xfs_attr3_leaf_lookup_int ( bp , args ) ; if ( ( args -> flags & ATTR_REPLACE ) && ( retval == ENOATTR ) ) { xfs_trans_brelse ( args -> trans , bp ) ; return retval ; } else if ( retval == EEXIST ) { if ( args -> flags & ATTR_CREATE ) { xfs_trans_brelse ( args -> trans , bp ) ; return retval ; } trace_xfs_attr_leaf_replace ( args ) ; args -> op_flags |= XFS_DA_OP_RENAME ; args -> blkno2 = args -> blkno ; args -> index2 = args -> index ; args -> rmtblkno2 = args -> rmtblkno ; args -> rmtblkcnt2 = args -> rmtblkcnt ; } retval = xfs_attr3_leaf_add ( bp , args ) ; if ( retval == ENOSPC ) { xfs_bmap_init ( args -> flist , args -> firstblock ) ; error = xfs_attr3_leaf_to_node ( args ) ; if ( ! error ) { error = xfs_bmap_finish ( & args -> trans , args -> flist , & committed ) ; } if ( error ) { ASSERT ( committed ) ; args -> trans = NULL ; xfs_bmap_cancel ( args -> flist ) ; return ( error ) ; } if ( committed ) xfs_trans_ijoin ( args -> trans , dp , 0 ) ; error = xfs_trans_roll ( & args -> trans , dp ) ; if ( error ) return ( error ) ; error = xfs_attr_node_addname ( args ) ; return ( error ) ; } error = xfs_trans_roll ( & args -> trans , dp ) ; if ( error ) return ( error ) ; if ( args -> rmtblkno > 0 ) { error = xfs_attr_rmtval_set ( args ) ; if ( error ) return ( error ) ; } if ( args -> op_flags & XFS_DA_OP_RENAME ) { error = xfs_attr3_leaf_flipflags ( args ) ; if ( error ) return ( error ) ; args -> index = args -> index2 ; args -> blkno = args -> blkno2 ; args -> rmtblkno = args -> rmtblkno2 ; args -> rmtblkcnt = args -> rmtblkcnt2 ; if ( args -> rmtblkno ) { error = xfs_attr_rmtval_remove ( args ) ; if ( error ) return ( error ) ; } error = xfs_attr3_leaf_read ( args -> trans , args -> dp , args -> blkno , 1 , & bp ) ; if ( error ) return error ; xfs_attr3_leaf_remove ( bp , args ) ; if ( ( forkoff = xfs_attr_shortform_allfit ( bp , dp ) ) ) { xfs_bmap_init ( args -> flist , args -> firstblock ) ; error = xfs_attr3_leaf_to_shortform ( bp , args , forkoff ) ; if ( ! error ) { error = xfs_bmap_finish ( & args -> trans , args -> flist , & committed ) ; } if ( error ) { ASSERT ( committed ) ; args -> trans = NULL ; xfs_bmap_cancel ( args -> flist ) ; return ( error ) ; } if ( committed ) xfs_trans_ijoin ( args -> trans , dp , 0 ) ; } error = xfs_trans_roll ( & args -> trans , dp ) ; } else if ( args -> rmtblkno > 0 ) { error = xfs_attr3_leaf_clearflag ( args ) ; } return error ; }","STATIC int xfs_attr_leaf_addname ( xfs_da_args_t * args ) { xfs_inode_t * dp ; struct xfs_buf * bp ; int retval , error , committed , forkoff ; trace_xfs_attr_leaf_addname ( args ) ; dp = args -> dp ; args -> blkno = 0 ; error = xfs_attr3_leaf_read ( args -> trans , args -> dp , args -> blkno , - 1 , & bp ) ; if ( error ) return error ; retval = xfs_attr3_leaf_lookup_int ( bp , args ) ; if ( ( args -> flags & ATTR_REPLACE ) && ( retval == ENOATTR ) ) { xfs_trans_brelse ( args -> trans , bp ) ; return retval ; } else if ( retval == EEXIST ) { if ( args -> flags & ATTR_CREATE ) { xfs_trans_brelse ( args -> trans , bp ) ; return retval ; } trace_xfs_attr_leaf_replace ( args ) ; args -> op_flags |= XFS_DA_OP_RENAME ; args -> blkno2 = args -> blkno ; args -> index2 = args -> index ; args -> rmtblkno2 = args -> rmtblkno ; args -> rmtblkcnt2 = args -> rmtblkcnt ; args -> rmtvaluelen2 = args -> rmtvaluelen ; args -> rmtblkno = 0 ; args -> rmtblkcnt = 0 ; args -> rmtvaluelen = 0 ; } retval = xfs_attr3_leaf_add ( bp , args ) ; if ( retval == ENOSPC ) { xfs_bmap_init ( args -> flist , args -> firstblock ) ; error = xfs_attr3_leaf_to_node ( args ) ; if ( ! error ) { error = xfs_bmap_finish ( & args -> trans , args -> flist , & committed ) ; } if ( error ) { ASSERT ( committed ) ; args -> trans = NULL ; xfs_bmap_cancel ( args -> flist ) ; return ( error ) ; } if ( committed ) xfs_trans_ijoin ( args -> trans , dp , 0 ) ; error = xfs_trans_roll ( & args -> trans , dp ) ; if ( error ) return ( error ) ; error = xfs_attr_node_addname ( args ) ; return ( error ) ; } error = xfs_trans_roll ( & args -> trans , dp ) ; if ( error ) return ( error ) ; if ( args -> rmtblkno > 0 ) { error = xfs_attr_rmtval_set ( args ) ; if ( error ) return ( error ) ; } if ( args -> op_flags & XFS_DA_OP_RENAME ) { error = xfs_attr3_leaf_flipflags ( args ) ; if ( error ) return ( error ) ; args -> index = args -> index2 ; args -> blkno = args -> blkno2 ; args -> rmtblkno = args -> rmtblkno2 ; args -> rmtblkcnt = args -> rmtblkcnt2 ; args -> rmtvaluelen = args -> rmtvaluelen2 ; if ( args -> rmtblkno ) { error = xfs_attr_rmtval_remove ( args ) ; if ( error ) return ( error ) ; } error = xfs_attr3_leaf_read ( args -> trans , args -> dp , args -> blkno , if ( error ) return error ; xfs_attr3_leaf_remove ( bp , args ) ; if ( ( forkoff = xfs_attr_shortform_allfit ( bp , dp ) ) ) { xfs_bmap_init ( args -> flist , args -> firstblock ) ; error = xfs_attr3_leaf_to_shortform ( bp , args , forkoff ) ; if ( ! error ) { error = xfs_bmap_finish ( & args -> trans , args -> flist , & committed ) ; } if ( error ) { ASSERT ( committed ) ; args -> trans = NULL ; xfs_bmap_cancel ( args -> flist ) ; return ( error ) ; } if ( committed ) xfs_trans_ijoin ( args -> trans , dp , 0 ) ; } error = xfs_trans_roll ( & args -> trans , dp ) ; } else if ( args -> rmtblkno > 0 ) { error = xfs_attr3_leaf_clearflag ( args ) ; } return error ; }" 253,"CWE-399 static void perf_event_interrupt ( struct pt_regs * regs ) { int i ; struct cpu_hw_events * cpuhw = & __get_cpu_var ( cpu_hw_events ) ; struct perf_event * event ; unsigned long val ; int found = 0 ; int nmi ; nmi = perf_intr_is_nmi ( regs ) ; if ( nmi ) nmi_enter ( ) ; else irq_enter ( ) ; for ( i = 0 ; i < ppmu -> n_counter ; ++ i ) { event = cpuhw -> event [ i ] ; val = read_pmc ( i ) ; if ( ( int ) val < 0 ) { if ( event ) { found = 1 ; record_and_restart ( event , val , regs , nmi ) ; } else { write_pmc ( i , 0 ) ; } } } mtmsr ( mfmsr ( ) | MSR_PMM ) ; mtpmr ( PMRN_PMGC0 , PMGC0_PMIE | PMGC0_FCECE ) ; isync ( ) ; if ( nmi ) nmi_exit ( ) ; else irq_exit ( ) ; }","static void perf_event_interrupt ( struct pt_regs * regs ) { int i ; struct cpu_hw_events * cpuhw = & __get_cpu_var ( cpu_hw_events ) ; struct perf_event * event ; unsigned long val ; int found = 0 ; int nmi ; nmi = perf_intr_is_nmi ( regs ) ; if ( nmi ) nmi_enter ( ) ; else irq_enter ( ) ; for ( i = 0 ; i < ppmu -> n_counter ; ++ i ) { event = cpuhw -> event [ i ] ; val = read_pmc ( i ) ; if ( ( int ) val < 0 ) { if ( event ) { found = 1 ; record_and_restart ( event , val , regs ) ; } else { write_pmc ( i , 0 ) ; } } } mtmsr ( mfmsr ( ) | MSR_PMM ) ; mtpmr ( PMRN_PMGC0 , PMGC0_PMIE | PMGC0_FCECE ) ; isync ( ) ; if ( nmi ) nmi_exit ( ) ; else irq_exit ( ) ; }" 254,"CWE-20 for ( ; ; ) { struct bpf_insn * insn ; u8 class ; int err ; if ( insn_idx >= insn_cnt ) { verbose ( env , ""invalid insn idx %d insn_cnt %d\\n"" , insn_idx , insn_cnt ) ; return - EFAULT ; } insn = & insns [ insn_idx ] ; class = BPF_CLASS ( insn -> code ) ; if ( ++ insn_processed > BPF_COMPLEXITY_LIMIT_INSNS ) { verbose ( env , ""BPF program is too large. Processed %d insn\\n"" , insn_processed ) ; return - E2BIG ; } err = is_state_visited ( env , insn_idx ) ; if ( err < 0 ) return err ; if ( err == 1 ) { if ( env -> log . level ) { if ( do_print_state ) verbose ( env , ""\\nfrom %d to %d: safe\\n"" , prev_insn_idx , insn_idx ) ; else verbose ( env , ""%d: safe\\n"" , insn_idx ) ; } goto process_bpf_exit ; } if ( need_resched ( ) ) cond_resched ( ) ; if ( env -> log . level > 1 || ( env -> log . level && do_print_state ) ) { if ( env -> log . level > 1 ) verbose ( env , ""%d:"" , insn_idx ) ; else verbose ( env , ""\\nfrom %d to %d:"" , prev_insn_idx , insn_idx ) ; print_verifier_state ( env , state ) ; do_print_state = false ; } if ( env -> log . level ) { verbose ( env , ""%d: "" , insn_idx ) ; print_bpf_insn ( verbose , env , insn , env -> allow_ptr_leaks ) ; } err = ext_analyzer_insn_hook ( env , insn_idx , prev_insn_idx ) ; if ( err ) return err ; regs = cur_regs ( env ) ; if ( class == BPF_ALU || class == BPF_ALU64 ) { err = check_alu_op ( env , insn ) ; if ( err ) return err ; } else if ( class == BPF_LDX ) { enum bpf_reg_type * prev_src_type , src_reg_type ; err = check_reg_arg ( env , insn -> src_reg , SRC_OP ) ; if ( err ) return err ; err = check_reg_arg ( env , insn -> dst_reg , DST_OP_NO_MARK ) ; if ( err ) return err ; src_reg_type = regs [ insn -> src_reg ] . type ; err = check_mem_access ( env , insn_idx , insn -> src_reg , insn -> off , BPF_SIZE ( insn -> code ) , BPF_READ , insn -> dst_reg ) ; if ( err ) return err ; prev_src_type = & env -> insn_aux_data [ insn_idx ] . ptr_type ; if ( * prev_src_type == NOT_INIT ) { * prev_src_type = src_reg_type ; } else if ( src_reg_type != * prev_src_type && ( src_reg_type == PTR_TO_CTX || * prev_src_type == PTR_TO_CTX ) ) { verbose ( env , ""same insn cannot be used with different pointers\\n"" ) ; return - EINVAL ; } } else if ( class == BPF_STX ) { enum bpf_reg_type * prev_dst_type , dst_reg_type ; if ( BPF_MODE ( insn -> code ) == BPF_XADD ) { err = check_xadd ( env , insn_idx , insn ) ; if ( err ) return err ; insn_idx ++ ; continue ; } err = check_reg_arg ( env , insn -> src_reg , SRC_OP ) ; if ( err ) return err ; err = check_reg_arg ( env , insn -> dst_reg , SRC_OP ) ; if ( err ) return err ; dst_reg_type = regs [ insn -> dst_reg ] . type ; err = check_mem_access ( env , insn_idx , insn -> dst_reg , insn -> off , BPF_SIZE ( insn -> code ) , BPF_WRITE , insn -> src_reg ) ; if ( err ) return err ; prev_dst_type = & env -> insn_aux_data [ insn_idx ] . ptr_type ; if ( * prev_dst_type == NOT_INIT ) {","for ( ; ; ) { struct bpf_insn * insn ; u8 class ; int err ; if ( insn_idx >= insn_cnt ) { verbose ( env , ""invalid insn idx %d insn_cnt %d\\n"" , insn_idx , insn_cnt ) ; return - EFAULT ; } insn = & insns [ insn_idx ] ; class = BPF_CLASS ( insn -> code ) ; if ( ++ insn_processed > BPF_COMPLEXITY_LIMIT_INSNS ) { verbose ( env , ""BPF program is too large. Processed %d insn\\n"" , insn_processed ) ; return - E2BIG ; } err = is_state_visited ( env , insn_idx ) ; if ( err < 0 ) return err ; if ( err == 1 ) { if ( env -> log . level ) { if ( do_print_state ) verbose ( env , ""\\nfrom %d to %d: safe\\n"" , prev_insn_idx , insn_idx ) ; else verbose ( env , ""%d: safe\\n"" , insn_idx ) ; } goto process_bpf_exit ; } if ( need_resched ( ) ) cond_resched ( ) ; if ( env -> log . level > 1 || ( env -> log . level && do_print_state ) ) { if ( env -> log . level > 1 ) verbose ( env , ""%d:"" , insn_idx ) ; else verbose ( env , ""\\nfrom %d to %d:"" , prev_insn_idx , insn_idx ) ; print_verifier_state ( env , state ) ; do_print_state = false ; } if ( env -> log . level ) { verbose ( env , ""%d: "" , insn_idx ) ; print_bpf_insn ( verbose , env , insn , env -> allow_ptr_leaks ) ; } err = ext_analyzer_insn_hook ( env , insn_idx , prev_insn_idx ) ; if ( err ) return err ; regs = cur_regs ( env ) ; env -> insn_aux_data [ insn_idx ] . seen = true ; if ( class == BPF_ALU || class == BPF_ALU64 ) { err = check_alu_op ( env , insn ) ; if ( err ) return err ; } else if ( class == BPF_LDX ) { enum bpf_reg_type * prev_src_type , src_reg_type ; err = check_reg_arg ( env , insn -> src_reg , SRC_OP ) ; if ( err ) return err ; err = check_reg_arg ( env , insn -> dst_reg , DST_OP_NO_MARK ) ; if ( err ) return err ; src_reg_type = regs [ insn -> src_reg ] . type ; err = check_mem_access ( env , insn_idx , insn -> src_reg , insn -> off , BPF_SIZE ( insn -> code ) , BPF_READ , insn -> dst_reg ) ; if ( err ) return err ; prev_src_type = & env -> insn_aux_data [ insn_idx ] . ptr_type ; if ( * prev_src_type == NOT_INIT ) { * prev_src_type = src_reg_type ; } else if ( src_reg_type != * prev_src_type && ( src_reg_type == PTR_TO_CTX || * prev_src_type == PTR_TO_CTX ) ) { verbose ( env , ""same insn cannot be used with different pointers\\n"" ) ; return - EINVAL ; } } else if ( class == BPF_STX ) { enum bpf_reg_type * prev_dst_type , dst_reg_type ; if ( BPF_MODE ( insn -> code ) == BPF_XADD ) { err = check_xadd ( env , insn_idx , insn ) ; if ( err ) return err ; insn_idx ++ ; continue ; } err = check_reg_arg ( env , insn -> src_reg , SRC_OP ) ; if ( err ) return err ; err = check_reg_arg ( env , insn -> dst_reg , SRC_OP ) ; if ( err ) return err ; dst_reg_type = regs [ insn -> dst_reg ] . type ; err = check_mem_access ( env , insn_idx , insn -> dst_reg , insn -> off , BPF_SIZE ( insn -> code ) , BPF_WRITE , insn -> src_reg ) ; if ( err ) return err ; prev_dst_type = & env -> insn_aux_data [ insn_idx ] . ptr_type ; if ( * prev_dst_type == NOT_INIT ) {" 255,"CWE-476 return - EFAULT ; err = - EMSGSIZE ; if ( msg_sys -> msg_iovlen > UIO_MAXIOV ) goto out ; err = - ENOMEM ; iov_size = msg_sys -> msg_iovlen * sizeof ( struct iovec ) ; if ( msg_sys -> msg_iovlen > UIO_FASTIOV ) { iov = sock_kmalloc ( sock -> sk , iov_size , GFP_KERNEL ) ; if ( ! iov ) goto out ; } if ( MSG_CMSG_COMPAT & flags ) { err = verify_compat_iovec ( msg_sys , iov , ( struct sockaddr * ) & address , VERIFY_READ ) ; } else err = verify_iovec ( msg_sys , iov , ( struct sockaddr * ) & address , VERIFY_READ ) ; if ( err < 0 ) goto out_freeiov ; total_len = err ; err = - ENOBUFS ; if ( msg_sys -> msg_controllen > INT_MAX ) goto out_freeiov ; ctl_len = msg_sys -> msg_controllen ; if ( ( MSG_CMSG_COMPAT & flags ) && ctl_len ) { err = cmsghdr_from_user_compat_to_kern ( msg_sys , sock -> sk , ctl , sizeof ( ctl ) ) ; if ( err ) goto out_freeiov ; ctl_buf = msg_sys -> msg_control ; ctl_len = msg_sys -> msg_controllen ; } else if ( ctl_len ) { if ( ctl_len > sizeof ( ctl ) ) { ctl_buf = sock_kmalloc ( sock -> sk , ctl_len , GFP_KERNEL ) ; if ( ctl_buf == NULL ) goto out_freeiov ; } err = - EFAULT ; if ( copy_from_user ( ctl_buf , ( void __user __force * ) msg_sys -> msg_control , ctl_len ) ) goto out_freectl ; msg_sys -> msg_control = ctl_buf ; } msg_sys -> msg_flags = flags ; if ( sock -> file -> f_flags & O_NONBLOCK ) msg_sys -> msg_flags |= MSG_DONTWAIT ; if ( used_address && used_address -> name_len == msg_sys -> msg_namelen && ! memcmp ( & used_address -> name , msg -> msg_name , used_address -> name_len ) ) { err = sock_sendmsg_nosec ( sock , msg_sys , total_len ) ; goto out_freectl ; } err = sock_sendmsg ( sock , msg_sys , total_len ) ; if ( used_address && err >= 0 ) { used_address -> name_len = msg_sys -> msg_namelen ; memcpy ( & used_address -> name , msg -> msg_name , used_address -> name_len ) ; } out_freectl : if ( ctl_buf != ctl ) sock_kfree_s ( sock -> sk , ctl_buf , ctl_len ) ; out_freeiov : if ( iov != iovstack ) sock_kfree_s ( sock -> sk , iov , iov_size ) ; out : return err ; }","return - EFAULT ; err = - EMSGSIZE ; if ( msg_sys -> msg_iovlen > UIO_MAXIOV ) goto out ; err = - ENOMEM ; iov_size = msg_sys -> msg_iovlen * sizeof ( struct iovec ) ; if ( msg_sys -> msg_iovlen > UIO_FASTIOV ) { iov = sock_kmalloc ( sock -> sk , iov_size , GFP_KERNEL ) ; if ( ! iov ) goto out ; } if ( MSG_CMSG_COMPAT & flags ) { err = verify_compat_iovec ( msg_sys , iov , ( struct sockaddr * ) & address , VERIFY_READ ) ; } else err = verify_iovec ( msg_sys , iov , ( struct sockaddr * ) & address , VERIFY_READ ) ; if ( err < 0 ) goto out_freeiov ; total_len = err ; err = - ENOBUFS ; if ( msg_sys -> msg_controllen > INT_MAX ) goto out_freeiov ; ctl_len = msg_sys -> msg_controllen ; if ( ( MSG_CMSG_COMPAT & flags ) && ctl_len ) { err = cmsghdr_from_user_compat_to_kern ( msg_sys , sock -> sk , ctl , sizeof ( ctl ) ) ; if ( err ) goto out_freeiov ; ctl_buf = msg_sys -> msg_control ; ctl_len = msg_sys -> msg_controllen ; } else if ( ctl_len ) { if ( ctl_len > sizeof ( ctl ) ) { ctl_buf = sock_kmalloc ( sock -> sk , ctl_len , GFP_KERNEL ) ; if ( ctl_buf == NULL ) goto out_freeiov ; } err = - EFAULT ; if ( copy_from_user ( ctl_buf , ( void __user __force * ) msg_sys -> msg_control , ctl_len ) ) goto out_freectl ; msg_sys -> msg_control = ctl_buf ; } msg_sys -> msg_flags = flags ; if ( sock -> file -> f_flags & O_NONBLOCK ) msg_sys -> msg_flags |= MSG_DONTWAIT ; if ( used_address && msg_sys -> msg_name && used_address -> name_len == msg_sys -> msg_namelen && ! memcmp ( & used_address -> name , msg_sys -> msg_name , used_address -> name_len ) ) { err = sock_sendmsg_nosec ( sock , msg_sys , total_len ) ; goto out_freectl ; } err = sock_sendmsg ( sock , msg_sys , total_len ) ; if ( used_address && err >= 0 ) { used_address -> name_len = msg_sys -> msg_namelen ; if ( msg_sys -> msg_name ) memcpy ( & used_address -> name , msg_sys -> msg_name , used_address -> name_len ) ; } out_freectl : if ( ctl_buf != ctl ) sock_kfree_s ( sock -> sk , ctl_buf , ctl_len ) ; out_freeiov : if ( iov != iovstack ) sock_kfree_s ( sock -> sk , iov , iov_size ) ; out : return err ; }" 256,"CWE-190 bool layer_resize ( int layer , int x_size , int y_size ) { int old_height ; int old_width ; struct map_tile * tile ; int tile_width ; int tile_height ; struct map_tile * tilemap ; struct map_trigger * trigger ; struct map_zone * zone ; int x , y , i ; old_width = s_map -> layers [ layer ] . width ; old_height = s_map -> layers [ layer ] . height ; if ( ! ( tilemap = malloc ( x_size * y_size * sizeof ( struct map_tile ) ) ) ) return false ; for ( x = 0 ; x < x_size ; ++ x ) { for ( y = 0 ; y < y_size ; ++ y ) { if ( x < old_width && y < old_height ) { tilemap [ x + y * x_size ] = s_map -> layers [ layer ] . tilemap [ x + y * old_width ] ; } else { tile = & tilemap [ x + y * x_size ] ; tile -> frames_left = tileset_get_delay ( s_map -> tileset , 0 ) ; tile -> tile_index = 0 ; } } } free ( s_map -> layers [ layer ] . tilemap ) ; s_map -> layers [ layer ] . tilemap = tilemap ; s_map -> layers [ layer ] . width = x_size ; s_map -> layers [ layer ] . height = y_size ; tileset_get_size ( s_map -> tileset , & tile_width , & tile_height ) ; s_map -> width = 0 ; s_map -> height = 0 ; for ( i = 0 ; i < s_map -> num_layers ; ++ i ) { if ( ! s_map -> layers [ i ] . is_parallax ) { s_map -> width = fmax ( s_map -> width , s_map -> layers [ i ] . width * tile_width ) ; s_map -> height = fmax ( s_map -> height , s_map -> layers [ i ] . height * tile_height ) ; } } for ( i = ( int ) vector_len ( s_map -> zones ) - 1 ; i >= 0 ; -- i ) { zone = vector_get ( s_map -> zones , i ) ; if ( zone -> bounds . x1 >= s_map -> width || zone -> bounds . y1 >= s_map -> height ) vector_remove ( s_map -> zones , i ) ; else { if ( zone -> bounds . x2 > s_map -> width ) zone -> bounds . x2 = s_map -> width ; if ( zone -> bounds . y2 > s_map -> height ) zone -> bounds . y2 = s_map -> height ; } } for ( i = ( int ) vector_len ( s_map -> triggers ) - 1 ; i >= 0 ; -- i ) { trigger = vector_get ( s_map -> triggers , i ) ; if ( trigger -> x >= s_map -> width || trigger -> y >= s_map -> height ) vector_remove ( s_map -> triggers , i ) ; } return true ; }","bool layer_resize ( int layer , int x_size , int y_size ) { int old_height ; int old_width ; struct map_tile * tile ; int tile_width ; int tile_height ; struct map_tile * tilemap ; struct map_trigger * trigger ; struct map_zone * zone ; size_t tilemap_size ; int x , y , i ; old_width = s_map -> layers [ layer ] . width ; old_height = s_map -> layers [ layer ] . height ; tilemap_size = x_size * y_size * sizeof ( struct map_tile ) ; if ( x_size == 0 || tilemap_size / x_size / sizeof ( struct map_tile ) != y_size || ! ( tilemap = malloc ( tilemap_size ) ) ) return false ; for ( x = 0 ; x < x_size ; ++ x ) { for ( y = 0 ; y < y_size ; ++ y ) { if ( x < old_width && y < old_height ) { tilemap [ x + y * x_size ] = s_map -> layers [ layer ] . tilemap [ x + y * old_width ] ; } else { tile = & tilemap [ x + y * x_size ] ; tile -> frames_left = tileset_get_delay ( s_map -> tileset , 0 ) ; tile -> tile_index = 0 ; } } } free ( s_map -> layers [ layer ] . tilemap ) ; s_map -> layers [ layer ] . tilemap = tilemap ; s_map -> layers [ layer ] . width = x_size ; s_map -> layers [ layer ] . height = y_size ; tileset_get_size ( s_map -> tileset , & tile_width , & tile_height ) ; s_map -> width = 0 ; s_map -> height = 0 ; for ( i = 0 ; i < s_map -> num_layers ; ++ i ) { if ( ! s_map -> layers [ i ] . is_parallax ) { s_map -> width = fmax ( s_map -> width , s_map -> layers [ i ] . width * tile_width ) ; s_map -> height = fmax ( s_map -> height , s_map -> layers [ i ] . height * tile_height ) ; } } for ( i = ( int ) vector_len ( s_map -> zones ) - 1 ; i >= 0 ; -- i ) { zone = vector_get ( s_map -> zones , i ) ; if ( zone -> bounds . x1 >= s_map -> width || zone -> bounds . y1 >= s_map -> height ) vector_remove ( s_map -> zones , i ) ; else { if ( zone -> bounds . x2 > s_map -> width ) zone -> bounds . x2 = s_map -> width ; if ( zone -> bounds . y2 > s_map -> height ) zone -> bounds . y2 = s_map -> height ; } } for ( i = ( int ) vector_len ( s_map -> triggers ) - 1 ; i >= 0 ; -- i ) { trigger = vector_get ( s_map -> triggers , i ) ; if ( trigger -> x >= s_map -> width || trigger -> y >= s_map -> height ) vector_remove ( s_map -> triggers , i ) ; } return true ; }" 257,"CWE-20 static int lookup1_values ( int entries , int dim ) { int r = ( int ) floor ( exp ( ( float ) log ( ( float ) entries ) / dim ) ) ; if ( ( int ) floor ( pow ( ( float ) r + 1 , dim ) ) <= entries ) assert ( pow ( ( float ) r + 1 , dim ) > entries ) ; assert ( ( int ) floor ( pow ( ( float ) r , dim ) ) <= entries ) ; return r ; }","static int lookup1_values ( int entries , int dim ) { int r = ( int ) floor ( exp ( ( float ) log ( ( float ) entries ) / dim ) ) ; if ( ( int ) floor ( pow ( ( float ) r + 1 , dim ) ) <= entries ) + r ; if ( pow ( ( float ) r + 1 , dim ) <= entries ) return - 1 ; if ( ( int ) floor ( pow ( ( float ) r , dim ) ) > entries ) return - 1 ; return r ; }" 258,"CWE-119 int main ( void ) { # line 52 ""dt_test2.pgc"" date date1 ; # line 53 ""dt_test2.pgc"" timestamp ts1 , ts2 ; # line 54 ""dt_test2.pgc"" char * text ; # line 55 ""dt_test2.pgc"" interval * i1 ; # line 56 ""dt_test2.pgc"" date * dc ; # line 57 ""dt_test2.pgc"" int i , j ; char * endptr ; ECPGdebug ( 1 , stderr ) ; ts1 = PGTYPEStimestamp_from_asc ( ""2003-12-04 17:34:29"" , NULL ) ; text = PGTYPEStimestamp_to_asc ( ts1 ) ; printf ( ""timestamp: %s\\n"" , text ) ; free ( text ) ; date1 = PGTYPESdate_from_timestamp ( ts1 ) ; dc = PGTYPESdate_new ( ) ; * dc = date1 ; text = PGTYPESdate_to_asc ( * dc ) ; printf ( ""Date of timestamp: %s\\n"" , text ) ; free ( text ) ; PGTYPESdate_free ( dc ) ; for ( i = 0 ; dates [ i ] ; i ++ ) { bool err = false ; date1 = PGTYPESdate_from_asc ( dates [ i ] , & endptr ) ; if ( date1 == INT_MIN ) { err = true ; } text = PGTYPESdate_to_asc ( date1 ) ; printf ( ""Date[%d]: %s (%c - %c)\\n"" , i , err ? ""-"" : text , endptr ? 'N' : 'Y' , err ? 'T' : 'F' ) ; free ( text ) ; if ( ! err ) { for ( j = 0 ; times [ j ] ; j ++ ) { int length = strlen ( dates [ i ] ) char * t = malloc ( length ) ; sprintf ( t , ""%s %s"" , dates [ i ] , times [ j ] ) ; ts1 = PGTYPEStimestamp_from_asc ( t , NULL ) ; text = PGTYPEStimestamp_to_asc ( ts1 ) ; if ( i != 19 || j != 3 ) printf ( ""TS[%d,%d]: %s\\n"" , i , j , errno ? ""-"" : text ) ; free ( text ) ; free ( t ) ; } } } ts1 = PGTYPEStimestamp_from_asc ( ""2004-04-04 23:23:23"" , NULL ) ; for ( i = 0 ; intervals [ i ] ; i ++ ) {","int main ( void ) { # line 62 ""dt_test2.pgc"" date date1 ; # line 63 ""dt_test2.pgc"" timestamp ts1 , ts2 ; # line 64 ""dt_test2.pgc"" char * text ; # line 65 ""dt_test2.pgc"" interval * i1 ; # line 66 ""dt_test2.pgc"" date * dc ; # line 67 ""dt_test2.pgc"" int i , j ; char * endptr ; ECPGdebug ( 1 , stderr ) ; ts1 = PGTYPEStimestamp_from_asc ( ""2003-12-04 17:34:29"" , NULL ) ; text = PGTYPEStimestamp_to_asc ( ts1 ) ; printf ( ""timestamp: %s\\n"" , text ) ; free ( text ) ; date1 = PGTYPESdate_from_timestamp ( ts1 ) ; dc = PGTYPESdate_new ( ) ; * dc = date1 ; text = PGTYPESdate_to_asc ( * dc ) ; printf ( ""Date of timestamp: %s\\n"" , text ) ; free ( text ) ; PGTYPESdate_free ( dc ) ; for ( i = 0 ; dates [ i ] ; i ++ ) { bool err = false ; date1 = PGTYPESdate_from_asc ( dates [ i ] , & endptr ) ; if ( date1 == INT_MIN ) { err = true ; } text = PGTYPESdate_to_asc ( date1 ) ; printf ( ""Date[%d]: %s (%c - %c)\\n"" , i , err ? ""-"" : text , endptr ? 'N' : 'Y' , err ? 'T' : 'F' ) ; free ( text ) ; if ( ! err ) { for ( j = 0 ; times [ j ] ; j ++ ) { int length = strlen ( dates [ i ] ) 1 strlen ( times [ j ] ) 1 ; char * t = malloc ( length ) ; sprintf ( t , ""%s %s"" , dates [ i ] , times [ j ] ) ; ts1 = PGTYPEStimestamp_from_asc ( t , NULL ) ; text = PGTYPEStimestamp_to_asc ( ts1 ) ; if ( i != 19 || j != 3 ) printf ( ""TS[%d,%d]: %s\\n"" , i , j , errno ? ""-"" : text ) ; free ( text ) ; free ( t ) ; } } } ts1 = PGTYPEStimestamp_from_asc ( ""2004-04-04 23:23:23"" , NULL ) ; for ( i = 0 ; intervals [ i ] ; i ++ ) {" 259,"CWE-476 long keyctl_update_key ( key_serial_t id , const void __user * _payload , size_t plen ) { key_ref_t key_ref ; void * payload ; long ret ; ret = - EINVAL ; if ( plen > PAGE_SIZE ) goto error ; payload = NULL ; if ( _payload ) { ret = - ENOMEM ; payload = kmalloc ( plen , GFP_KERNEL ) ; if ( ! payload ) goto error ; ret = - EFAULT ; if ( copy_from_user ( payload , _payload , plen ) != 0 ) goto error2 ; } key_ref = lookup_user_key ( id , 0 , KEY_NEED_WRITE ) ; if ( IS_ERR ( key_ref ) ) { ret = PTR_ERR ( key_ref ) ; goto error2 ; } ret = key_update ( key_ref , payload , plen ) ; key_ref_put ( key_ref ) ; error2 : kfree ( payload ) ; error : return ret ; }","long keyctl_update_key ( key_serial_t id , const void __user * _payload , size_t plen ) { key_ref_t key_ref ; void * payload ; long ret ; ret = - EINVAL ; if ( plen > PAGE_SIZE ) goto error ; payload = NULL ; if ( plen ) { ret = - ENOMEM ; payload = kmalloc ( plen , GFP_KERNEL ) ; if ( ! payload ) goto error ; ret = - EFAULT ; if ( copy_from_user ( payload , _payload , plen ) != 0 ) goto error2 ; } key_ref = lookup_user_key ( id , 0 , KEY_NEED_WRITE ) ; if ( IS_ERR ( key_ref ) ) { ret = PTR_ERR ( key_ref ) ; goto error2 ; } ret = key_update ( key_ref , payload , plen ) ; key_ref_put ( key_ref ) ; error2 : kfree ( payload ) ; error : return ret ; }" 260,"CWE-125 } g_value_unset ( & from_val ) ; } } } else { GST_DEBUG ( ""Setting metadata"" ) ; g_value_init ( & tag_value , G_TYPE_STRING ) ; g_value_set_string ( & tag_value , value_utf8 ) ; if ( content3D ) { guint i ; if ( strncmp ( ""StereoscopicLayout"" , name_utf8 , strlen ( name_utf8 ) ) == 0 ) { for ( i = 0 ; i < G_N_ELEMENTS ( stereoscopic_layout_map ) ; i ++ ) { if ( g_str_equal ( stereoscopic_layout_map [ i ] . interleave_name , value_utf8 ) ) { demux -> asf_3D_mode = stereoscopic_layout_map [ i ] . interleaving_type ; GST_INFO ( ""find interleave type %u"" , demux -> asf_3D_mode ) ; } } } GST_INFO_OBJECT ( demux , ""3d type is %u"" , demux -> asf_3D_mode ) ; } else { demux -> asf_3D_mode = GST_ASF_3D_NONE ; GST_INFO_OBJECT ( demux , ""None 3d type"" ) ; } } } else if ( value_utf8 == NULL ) { GST_WARNING ( ""Failed to convert string value to UTF8, skipping"" ) ; } else { GST_DEBUG ( ""Skipping empty string value for %s"" , GST_STR_NULL ( gst_tag_name ) ) ; } g_free ( value_utf8 ) ; break ; } case ASF_DEMUX_DATA_TYPE_BYTE_ARRAY : { if ( gst_tag_name ) { if ( ! g_str_equal ( gst_tag_name , GST_TAG_IMAGE ) ) { GST_FIXME ( ""Unhandled byte array tag %s"" , GST_STR_NULL ( gst_tag_name ) ) ; break ; } else { asf_demux_parse_picture_tag ( taglist , ( guint8 * ) value , value_len ) ; } } break ; } case ASF_DEMUX_DATA_TYPE_DWORD : { guint uint_val = GST_READ_UINT32_LE ( value ) ; g_value_init ( & tag_value , G_TYPE_UINT ) ; if ( ! strcmp ( name_utf8 , ""WM/Track"" ) ) g_value_set_uint ( & tag_value , uint_val ) ; break ; } case ASF_DEMUX_DATA_TYPE_BOOL : { gboolean bool_val = GST_READ_UINT32_LE ( value ) ; if ( strncmp ( ""Stereoscopic"" , name_utf8 , strlen ( name_utf8 ) ) == 0 ) { if ( bool_val ) { GST_INFO_OBJECT ( demux , ""This is 3D contents"" ) ; content3D = TRUE ; } else { GST_INFO_OBJECT ( demux , ""This is not 3D contenst"" ) ; content3D = FALSE ; } } break ; } default : { GST_DEBUG ( ""Skipping tag %s of type %d"" , gst_tag_name , datatype ) ; break ; } } if ( G_IS_VALUE ( & tag_value ) ) { if ( gst_tag_name ) { GstTagMergeMode merge_mode = GST_TAG_MERGE_APPEND ; if ( strcmp ( name_utf8 , ""WM/TrackNumber"" ) == 0 ) merge_mode = GST_TAG_MERGE_REPLACE ; gst_tag_list_add_values ( taglist , merge_mode , gst_tag_name , & tag_value , NULL ) ; } else { GST_DEBUG ( ""Setting global metadata %s"" , name_utf8 ) ; gst_structure_set_value ( demux -> global_metadata , name_utf8 , & tag_value ) ; } g_value_unset ( & tag_value ) ; } } g_free ( name ) ; g_free ( value ) ; g_free ( name_utf8 ) ; } gst_asf_demux_add_global_tags ( demux , taglist ) ; return GST_FLOW_OK ; not_enough_data : { GST_WARNING ( ""Unexpected end of data parsing ext content desc object"" ) ; gst_tag_list_unref ( taglist ) ; return GST_FLOW_OK ; } }","} g_value_unset ( & from_val ) ; } } } else { GST_DEBUG ( ""Setting metadata"" ) ; g_value_init ( & tag_value , G_TYPE_STRING ) ; g_value_set_string ( & tag_value , value_utf8 ) ; if ( content3D ) { guint i ; if ( strncmp ( ""StereoscopicLayout"" , name_utf8 , strlen ( name_utf8 ) ) == 0 ) { for ( i = 0 ; i < G_N_ELEMENTS ( stereoscopic_layout_map ) ; i ++ ) { if ( g_str_equal ( stereoscopic_layout_map [ i ] . interleave_name , value_utf8 ) ) { demux -> asf_3D_mode = stereoscopic_layout_map [ i ] . interleaving_type ; GST_INFO ( ""find interleave type %u"" , demux -> asf_3D_mode ) ; } } } GST_INFO_OBJECT ( demux , ""3d type is %u"" , demux -> asf_3D_mode ) ; } else { demux -> asf_3D_mode = GST_ASF_3D_NONE ; GST_INFO_OBJECT ( demux , ""None 3d type"" ) ; } } } else if ( value_utf8 == NULL ) { GST_WARNING ( ""Failed to convert string value to UTF8, skipping"" ) ; } else { GST_DEBUG ( ""Skipping empty string value for %s"" , GST_STR_NULL ( gst_tag_name ) ) ; } g_free ( value_utf8 ) ; break ; } case ASF_DEMUX_DATA_TYPE_BYTE_ARRAY : { if ( gst_tag_name ) { if ( ! g_str_equal ( gst_tag_name , GST_TAG_IMAGE ) ) { GST_FIXME ( ""Unhandled byte array tag %s"" , GST_STR_NULL ( gst_tag_name ) ) ; break ; } else { asf_demux_parse_picture_tag ( taglist , ( guint8 * ) value , value_len ) ; } } break ; } case ASF_DEMUX_DATA_TYPE_DWORD : { guint uint_val ; if ( value_len < 4 ) break ; uint_val = GST_READ_UINT32_LE ( value ) ; g_value_init ( & tag_value , G_TYPE_UINT ) ; if ( ! strcmp ( name_utf8 , ""WM/Track"" ) ) + uint_val ; g_value_set_uint ( & tag_value , uint_val ) ; break ; } case ASF_DEMUX_DATA_TYPE_BOOL : { gboolean bool_val ; if ( value_len < 4 ) break ; bool_val = GST_READ_UINT32_LE ( value ) ; if ( strncmp ( ""Stereoscopic"" , name_utf8 , strlen ( name_utf8 ) ) == 0 ) { if ( bool_val ) { GST_INFO_OBJECT ( demux , ""This is 3D contents"" ) ; content3D = TRUE ; } else { GST_INFO_OBJECT ( demux , ""This is not 3D contenst"" ) ; content3D = FALSE ; } } break ; } default : { GST_DEBUG ( ""Skipping tag %s of type %d"" , gst_tag_name , datatype ) ; break ; } } if ( G_IS_VALUE ( & tag_value ) ) { if ( gst_tag_name ) { GstTagMergeMode merge_mode = GST_TAG_MERGE_APPEND ; if ( strcmp ( name_utf8 , ""WM/TrackNumber"" ) == 0 ) merge_mode = GST_TAG_MERGE_REPLACE ; gst_tag_list_add_values ( taglist , merge_mode , gst_tag_name , & tag_value , NULL ) ; } else { GST_DEBUG ( ""Setting global metadata %s"" , name_utf8 ) ; gst_structure_set_value ( demux -> global_metadata , name_utf8 , & tag_value ) ; } g_value_unset ( & tag_value ) ; } } g_free ( name ) ; g_free ( value ) ; g_free ( name_utf8 ) ; } gst_asf_demux_add_global_tags ( demux , taglist ) ; return GST_FLOW_OK ; not_enough_data : { GST_WARNING ( ""Unexpected end of data parsing ext content desc object"" ) ; gst_tag_list_unref ( taglist ) ; return GST_FLOW_OK ; } }" 261,"NVD-CWE-noinfo static struct sock * tcp_v6_syn_recv_sock ( const struct sock * sk , struct sk_buff * skb , struct request_sock * req , struct dst_entry * dst , struct request_sock * req_unhash , bool * own_req ) { struct inet_request_sock * ireq ; struct ipv6_pinfo * newnp ; const struct ipv6_pinfo * np = inet6_sk ( sk ) ; struct ipv6_txoptions * opt ; struct tcp6_sock * newtcp6sk ; struct inet_sock * newinet ; struct tcp_sock * newtp ; struct sock * newsk ; # ifdef CONFIG_TCP_MD5SIG struct tcp_md5sig_key * key ; # endif struct flowi6 fl6 ; if ( skb -> protocol == htons ( ETH_P_IP ) ) { newsk = tcp_v4_syn_recv_sock ( sk , skb , req , dst , req_unhash , own_req ) ; if ( ! newsk ) return NULL ; newtcp6sk = ( struct tcp6_sock * ) newsk ; inet_sk ( newsk ) -> pinet6 = & newtcp6sk -> inet6 ; newinet = inet_sk ( newsk ) ; newnp = inet6_sk ( newsk ) ; newtp = tcp_sk ( newsk ) ; memcpy ( newnp , np , sizeof ( struct ipv6_pinfo ) ) ; newnp -> saddr = newsk -> sk_v6_rcv_saddr ; inet_csk ( newsk ) -> icsk_af_ops = & ipv6_mapped ; newsk -> sk_backlog_rcv = tcp_v4_do_rcv ; # ifdef CONFIG_TCP_MD5SIG newtp -> af_specific = & tcp_sock_ipv6_mapped_specific ; # endif newnp -> ipv6_ac_list = NULL ; newnp -> ipv6_fl_list = NULL ; newnp -> pktoptions = NULL ; newnp -> opt = NULL ; newnp -> mcast_oif = tcp_v6_iif ( skb ) ; newnp -> mcast_hops = ipv6_hdr ( skb ) -> hop_limit ; newnp -> rcv_flowinfo = ip6_flowinfo ( ipv6_hdr ( skb ) ) ; if ( np -> repflow ) newnp -> flow_label = ip6_flowlabel ( ipv6_hdr ( skb ) ) ; tcp_sync_mss ( newsk , inet_csk ( newsk ) -> icsk_pmtu_cookie ) ; return newsk ; } ireq = inet_rsk ( req ) ; if ( sk_acceptq_is_full ( sk ) ) goto out_overflow ; if ( ! dst ) { dst = inet6_csk_route_req ( sk , & fl6 , req , IPPROTO_TCP ) ; if ( ! dst ) goto out ; } newsk = tcp_create_openreq_child ( sk , req , skb ) ; if ( ! newsk ) goto out_nonewsk ; newsk -> sk_gso_type = SKB_GSO_TCPV6 ; ip6_dst_store ( newsk , dst , NULL , NULL ) ; inet6_sk_rx_dst_set ( newsk , skb ) ; newtcp6sk = ( struct tcp6_sock * ) newsk ; inet_sk ( newsk ) -> pinet6 = & newtcp6sk -> inet6 ; newtp = tcp_sk ( newsk ) ; newinet = inet_sk ( newsk ) ; newnp = inet6_sk ( newsk ) ; memcpy ( newnp , np , sizeof ( struct ipv6_pinfo ) ) ; newsk -> sk_v6_daddr = ireq -> ir_v6_rmt_addr ; newnp -> saddr = ireq -> ir_v6_loc_addr ; newsk -> sk_v6_rcv_saddr = ireq -> ir_v6_loc_addr ; newsk -> sk_bound_dev_if = ireq -> ir_iif ; newinet -> inet_opt = NULL ; newnp -> ipv6_ac_list = NULL ; newnp -> ipv6_fl_list = NULL ; newnp -> rxopt . all = np -> rxopt . all ; newnp -> pktoptions = NULL ; newnp -> opt = NULL ; newnp -> mcast_oif = tcp_v6_iif ( skb ) ; newnp -> mcast_hops = ipv6_hdr ( skb ) -> hop_limit ; newnp -> rcv_flowinfo = ip6_flowinfo ( ipv6_hdr ( skb ) ) ; if ( np -> repflow ) newnp -> flow_label = ip6_flowlabel ( ipv6_hdr ( skb ) ) ; opt = ireq -> ipv6_opt ; if ( ! opt ) opt = rcu_dereference ( np -> opt ) ; if ( opt ) { opt = ipv6_dup_options ( newsk , opt ) ; RCU_INIT_POINTER ( newnp -> opt , opt ) ; } inet_csk ( newsk ) -> icsk_ext_hdr_len = 0 ; if ( opt ) inet_csk ( newsk ) -> icsk_ext_hdr_len = opt -> opt_nflen + opt -> opt_flen ; tcp_ca_openreq_child ( newsk , dst ) ; tcp_sync_mss ( newsk , dst_mtu ( dst ) ) ; newtp -> advmss = tcp_mss_clamp ( tcp_sk ( sk ) , dst_metric_advmss ( dst ) ) ; tcp_initialize_rcv_mss ( newsk ) ; newinet -> inet_daddr = newinet -> inet_saddr = LOOPBACK4_IPV6 ; newinet -> inet_rcv_saddr = LOOPBACK4_IPV6 ; # ifdef CONFIG_TCP_MD5SIG key = tcp_v6_md5_do_lookup ( sk , & newsk -> sk_v6_daddr ) ; if ( key ) { tcp_md5_do_add ( newsk , ( union tcp_md5_addr * ) & newsk -> sk_v6_daddr , AF_INET6 , key -> key , key -> keylen , sk_gfp_mask ( sk , GFP_ATOMIC ) ) ; } # endif if ( __inet_inherit_port ( sk , newsk ) < 0 ) { inet_csk_prepare_forced_close ( newsk ) ; tcp_done ( newsk ) ; goto out ; } * own_req = inet_ehash_nolisten ( newsk , req_to_sk ( req_unhash ) ) ; if ( * own_req ) { tcp_move_syn ( newtp , req ) ; if ( ireq -> pktopts ) { newnp -> pktoptions = skb_clone ( ireq -> pktopts , sk_gfp_mask ( sk , GFP_ATOMIC ) ) ; consume_skb ( ireq -> pktopts ) ; ireq -> pktopts = NULL ; if ( newnp -> pktoptions ) { tcp_v6_restore_cb ( newnp -> pktoptions ) ;","static struct sock * tcp_v6_syn_recv_sock ( const struct sock * sk , struct sk_buff * skb , struct request_sock * req , struct dst_entry * dst , struct request_sock * req_unhash , bool * own_req ) { struct inet_request_sock * ireq ; struct ipv6_pinfo * newnp ; const struct ipv6_pinfo * np = inet6_sk ( sk ) ; struct ipv6_txoptions * opt ; struct tcp6_sock * newtcp6sk ; struct inet_sock * newinet ; struct tcp_sock * newtp ; struct sock * newsk ; # ifdef CONFIG_TCP_MD5SIG struct tcp_md5sig_key * key ; # endif struct flowi6 fl6 ; if ( skb -> protocol == htons ( ETH_P_IP ) ) { newsk = tcp_v4_syn_recv_sock ( sk , skb , req , dst , req_unhash , own_req ) ; if ( ! newsk ) return NULL ; newtcp6sk = ( struct tcp6_sock * ) newsk ; inet_sk ( newsk ) -> pinet6 = & newtcp6sk -> inet6 ; newinet = inet_sk ( newsk ) ; newnp = inet6_sk ( newsk ) ; newtp = tcp_sk ( newsk ) ; memcpy ( newnp , np , sizeof ( struct ipv6_pinfo ) ) ; newnp -> saddr = newsk -> sk_v6_rcv_saddr ; inet_csk ( newsk ) -> icsk_af_ops = & ipv6_mapped ; newsk -> sk_backlog_rcv = tcp_v4_do_rcv ; # ifdef CONFIG_TCP_MD5SIG newtp -> af_specific = & tcp_sock_ipv6_mapped_specific ; # endif newnp -> ipv6_mc_list = NULL ; newnp -> ipv6_ac_list = NULL ; newnp -> ipv6_fl_list = NULL ; newnp -> pktoptions = NULL ; newnp -> opt = NULL ; newnp -> mcast_oif = tcp_v6_iif ( skb ) ; newnp -> mcast_hops = ipv6_hdr ( skb ) -> hop_limit ; newnp -> rcv_flowinfo = ip6_flowinfo ( ipv6_hdr ( skb ) ) ; if ( np -> repflow ) newnp -> flow_label = ip6_flowlabel ( ipv6_hdr ( skb ) ) ; tcp_sync_mss ( newsk , inet_csk ( newsk ) -> icsk_pmtu_cookie ) ; return newsk ; } ireq = inet_rsk ( req ) ; if ( sk_acceptq_is_full ( sk ) ) goto out_overflow ; if ( ! dst ) { dst = inet6_csk_route_req ( sk , & fl6 , req , IPPROTO_TCP ) ; if ( ! dst ) goto out ; } newsk = tcp_create_openreq_child ( sk , req , skb ) ; if ( ! newsk ) goto out_nonewsk ; newsk -> sk_gso_type = SKB_GSO_TCPV6 ; ip6_dst_store ( newsk , dst , NULL , NULL ) ; inet6_sk_rx_dst_set ( newsk , skb ) ; newtcp6sk = ( struct tcp6_sock * ) newsk ; inet_sk ( newsk ) -> pinet6 = & newtcp6sk -> inet6 ; newtp = tcp_sk ( newsk ) ; newinet = inet_sk ( newsk ) ; newnp = inet6_sk ( newsk ) ; memcpy ( newnp , np , sizeof ( struct ipv6_pinfo ) ) ; newsk -> sk_v6_daddr = ireq -> ir_v6_rmt_addr ; newnp -> saddr = ireq -> ir_v6_loc_addr ; newsk -> sk_v6_rcv_saddr = ireq -> ir_v6_loc_addr ; newsk -> sk_bound_dev_if = ireq -> ir_iif ; newinet -> inet_opt = NULL ; newnp -> ipv6_mc_list = NULL ; newnp -> ipv6_ac_list = NULL ; newnp -> ipv6_fl_list = NULL ; newnp -> rxopt . all = np -> rxopt . all ; newnp -> pktoptions = NULL ; newnp -> opt = NULL ; newnp -> mcast_oif = tcp_v6_iif ( skb ) ; newnp -> mcast_hops = ipv6_hdr ( skb ) -> hop_limit ; newnp -> rcv_flowinfo = ip6_flowinfo ( ipv6_hdr ( skb ) ) ; if ( np -> repflow ) newnp -> flow_label = ip6_flowlabel ( ipv6_hdr ( skb ) ) ; opt = ireq -> ipv6_opt ; if ( ! opt ) opt = rcu_dereference ( np -> opt ) ; if ( opt ) { opt = ipv6_dup_options ( newsk , opt ) ; RCU_INIT_POINTER ( newnp -> opt , opt ) ; } inet_csk ( newsk ) -> icsk_ext_hdr_len = 0 ; if ( opt ) inet_csk ( newsk ) -> icsk_ext_hdr_len = opt -> opt_nflen + opt -> opt_flen ; tcp_ca_openreq_child ( newsk , dst ) ; tcp_sync_mss ( newsk , dst_mtu ( dst ) ) ; newtp -> advmss = tcp_mss_clamp ( tcp_sk ( sk ) , dst_metric_advmss ( dst ) ) ; tcp_initialize_rcv_mss ( newsk ) ; newinet -> inet_daddr = newinet -> inet_saddr = LOOPBACK4_IPV6 ; newinet -> inet_rcv_saddr = LOOPBACK4_IPV6 ; # ifdef CONFIG_TCP_MD5SIG key = tcp_v6_md5_do_lookup ( sk , & newsk -> sk_v6_daddr ) ; if ( key ) { tcp_md5_do_add ( newsk , ( union tcp_md5_addr * ) & newsk -> sk_v6_daddr , AF_INET6 , key -> key , key -> keylen , sk_gfp_mask ( sk , GFP_ATOMIC ) ) ; } # endif if ( __inet_inherit_port ( sk , newsk ) < 0 ) { inet_csk_prepare_forced_close ( newsk ) ; tcp_done ( newsk ) ; goto out ; } * own_req = inet_ehash_nolisten ( newsk , req_to_sk ( req_unhash ) ) ; if ( * own_req ) { tcp_move_syn ( newtp , req ) ; if ( ireq -> pktopts ) { newnp -> pktoptions = skb_clone ( ireq -> pktopts , sk_gfp_mask ( sk , GFP_ATOMIC ) ) ; consume_skb ( ireq -> pktopts ) ; ireq -> pktopts = NULL ; if ( newnp -> pktoptions ) { tcp_v6_restore_cb ( newnp -> pktoptions ) ;" 262,"CWE-399 int cib_remote_signon ( cib_t * cib , const char * name , enum cib_conn_type type ) { int rc = pcmk_ok ; cib_remote_opaque_t * private = cib -> variant_opaque ; if ( private -> passwd == NULL ) { struct termios settings ; int rc ; rc = tcgetattr ( 0 , & settings ) ; settings . c_lflag &= ~ ECHO ; rc = tcsetattr ( 0 , TCSANOW , & settings ) ; fprintf ( stderr , ""Password: "" ) ; private -> passwd = calloc ( 1 , 1024 ) ; rc = scanf ( ""%s"" , private -> passwd ) ; fprintf ( stdout , ""\\n"" ) ; if ( rc < 1 ) { private -> passwd = NULL ; } settings . c_lflag |= ECHO ; rc = tcsetattr ( 0 , TCSANOW , & settings ) ; } if ( private -> server == NULL || private -> user == NULL ) { rc = - EINVAL ; } if ( rc == pcmk_ok ) { rc = cib_tls_signon ( cib , & ( private -> command ) ) ; } if ( rc == pcmk_ok ) { rc = cib_tls_signon ( cib , & ( private -> callback ) ) ; } if ( rc == pcmk_ok ) { xmlNode * hello = cib_create_op ( 0 , private -> callback . token , CRM_OP_REGISTER , NULL , NULL , NULL , 0 , NULL ) ; crm_xml_add ( hello , F_CIB_CLIENTNAME , name ) ; crm_send_remote_msg ( private -> command . session , hello , private -> command . encrypted ) ; free_xml ( hello ) ; } if ( rc == pcmk_ok ) { fprintf ( stderr , ""%s: Opened connection to %s:%d\\n"" , name , private -> server , private -> port ) ; cib -> state = cib_connected_command ; cib -> type = cib_command ; } else { fprintf ( stderr , ""%s: Connection to %s:%d failed: %s\\n"" , name , private -> server , private -> port , pcmk_strerror ( rc ) ) ; } return rc ; }","int cib_remote_signon ( cib_t * cib , const char * name , enum cib_conn_type type ) { int rc = pcmk_ok ; cib_remote_opaque_t * private = cib -> variant_opaque ; if ( private -> passwd == NULL ) { struct termios settings ; int rc ; rc = tcgetattr ( 0 , & settings ) ; settings . c_lflag &= ~ ECHO ; rc = tcsetattr ( 0 , TCSANOW , & settings ) ; fprintf ( stderr , ""Password: "" ) ; private -> passwd = calloc ( 1 , 1024 ) ; rc = scanf ( ""%s"" , private -> passwd ) ; fprintf ( stdout , ""\\n"" ) ; if ( rc < 1 ) { private -> passwd = NULL ; } settings . c_lflag |= ECHO ; rc = tcsetattr ( 0 , TCSANOW , & settings ) ; } if ( private -> server == NULL || private -> user == NULL ) { rc = - EINVAL ; } if ( rc == pcmk_ok ) { rc = cib_tls_signon ( cib , & ( private -> command ) , FALSE ) ; } if ( rc == pcmk_ok ) { rc = cib_tls_signon ( cib , & ( private -> callback ) , TRUE ) ; } if ( rc == pcmk_ok ) { xmlNode * hello = cib_create_op ( 0 , private -> callback . token , CRM_OP_REGISTER , NULL , NULL , NULL , 0 , NULL ) ; crm_xml_add ( hello , F_CIB_CLIENTNAME , name ) ; crm_send_remote_msg ( private -> command . session , hello , private -> command . encrypted ) ; free_xml ( hello ) ; } if ( rc == pcmk_ok ) { fprintf ( stderr , ""%s: Opened connection to %s:%d\\n"" , name , private -> server , private -> port ) ; cib -> state = cib_connected_command ; cib -> type = cib_command ; } else { fprintf ( stderr , ""%s: Connection to %s:%d failed: %s\\n"" , name , private -> server , private -> port , pcmk_strerror ( rc ) ) ; } return rc ; }" 263,"CWE-399 static void call_bind_status ( struct rpc_task * task ) { int status = - EIO ; if ( task -> tk_status >= 0 ) { dprint_status ( task ) ; task -> tk_status = 0 ; task -> tk_action = call_connect ; return ; } switch ( task -> tk_status ) { case - ENOMEM : dprintk ( ""RPC: %5u rpcbind out of memory\\n"" , task -> tk_pid ) ; rpc_delay ( task , HZ >> 2 ) ; goto retry_timeout ; case - EACCES : dprintk ( ""RPC: %5u remote rpcbind: RPC program/version "" ""unavailable\\n"" , task -> tk_pid ) ; if ( task -> tk_msg . rpc_proc -> p_proc == 0 ) { status = - EOPNOTSUPP ; break ; } rpc_delay ( task , 3 * HZ ) ; goto retry_timeout ; case - ETIMEDOUT : dprintk ( ""RPC: %5u rpcbind request timed out\\n"" , task -> tk_pid ) ; goto retry_timeout ; case - EPFNOSUPPORT : dprintk ( ""RPC: %5u unrecognized remote rpcbind service\\n"" , task -> tk_pid ) ; break ; case - EPROTONOSUPPORT : dprintk ( ""RPC: %5u remote rpcbind version unavailable, retrying\\n"" , task -> tk_pid ) ; task -> tk_status = 0 ; task -> tk_action = call_bind ; return ; case - ECONNREFUSED : case - ECONNRESET : case - ENOTCONN : case - EHOSTDOWN : case - EHOSTUNREACH : case - ENETUNREACH : case - EPIPE : dprintk ( ""RPC: %5u remote rpcbind unreachable: %d\\n"" , task -> tk_pid , task -> tk_status ) ; if ( ! RPC_IS_SOFTCONN ( task ) ) { rpc_delay ( task , 5 * HZ ) ; goto retry_timeout ; } status = task -> tk_status ; break ; default : dprintk ( ""RPC: %5u unrecognized rpcbind error (%d)\\n"" , task -> tk_pid , - task -> tk_status ) ; } rpc_exit ( task , status ) ; return ; retry_timeout : task -> tk_action = call_timeout ; }","static void call_bind_status ( struct rpc_task * task ) { int status = - EIO ; if ( task -> tk_status >= 0 ) { dprint_status ( task ) ; task -> tk_status = 0 ; task -> tk_action = call_connect ; return ; } switch ( task -> tk_status ) { case - ENOMEM : dprintk ( ""RPC: %5u rpcbind out of memory\\n"" , task -> tk_pid ) ; rpc_delay ( task , HZ >> 2 ) ; goto retry_timeout ; case - EACCES : dprintk ( ""RPC: %5u remote rpcbind: RPC program/version "" ""unavailable\\n"" , task -> tk_pid ) ; if ( task -> tk_msg . rpc_proc -> p_proc == 0 ) { status = - EOPNOTSUPP ; break ; } if ( task -> tk_rebind_retry == 0 ) break ; task -> tk_rebind_retry -- ; rpc_delay ( task , 3 * HZ ) ; goto retry_timeout ; case - ETIMEDOUT : dprintk ( ""RPC: %5u rpcbind request timed out\\n"" , task -> tk_pid ) ; goto retry_timeout ; case - EPFNOSUPPORT : dprintk ( ""RPC: %5u unrecognized remote rpcbind service\\n"" , task -> tk_pid ) ; break ; case - EPROTONOSUPPORT : dprintk ( ""RPC: %5u remote rpcbind version unavailable, retrying\\n"" , task -> tk_pid ) ; task -> tk_status = 0 ; task -> tk_action = call_bind ; return ; case - ECONNREFUSED : case - ECONNRESET : case - ENOTCONN : case - EHOSTDOWN : case - EHOSTUNREACH : case - ENETUNREACH : case - EPIPE : dprintk ( ""RPC: %5u remote rpcbind unreachable: %d\\n"" , task -> tk_pid , task -> tk_status ) ; if ( ! RPC_IS_SOFTCONN ( task ) ) { rpc_delay ( task , 5 * HZ ) ; goto retry_timeout ; } status = task -> tk_status ; break ; default : dprintk ( ""RPC: %5u unrecognized rpcbind error (%d)\\n"" , task -> tk_pid , - task -> tk_status ) ; } rpc_exit ( task , status ) ; return ; retry_timeout : task -> tk_action = call_timeout ; }" 264,"CWE-119 MagickExport void * AcquireAlignedMemory ( const size_t count , const size_t quantum ) { # define AlignedExtent ( size , alignment ) \\ ( ( ( size ) + ( ( alignment ) - 1 ) ) & ~ ( ( alignment ) - 1 ) ) size_t alignment , extent , size ; void * memory ; if ( CheckMemoryOverflow ( count , quantum ) != MagickFalse ) return ( ( void * ) NULL ) ; memory = NULL ; alignment = CACHE_LINE_SIZE ; size = count * quantum ; extent = AlignedExtent ( size , alignment ) ; if ( ( size == 0 ) || ( alignment < sizeof ( void * ) ) || ( extent < size ) ) return ( ( void * ) NULL ) ; # if defined ( MAGICKCORE_HAVE_POSIX_MEMALIGN ) if ( posix_memalign ( & memory , alignment , extent ) != 0 ) memory = NULL ; # elif defined ( MAGICKCORE_HAVE__ALIGNED_MALLOC ) memory = _aligned_malloc ( extent , alignment ) ; # else { void * p ; extent = ( size + alignment - 1 ) + sizeof ( void * ) ; if ( extent > size ) { p = malloc ( extent ) ; if ( p != NULL ) { memory = ( void * ) AlignedExtent ( ( size_t ) p + sizeof ( void * ) , alignment ) ; * ( ( void * * ) memory - 1 ) = p ; } } } # endif return ( memory ) ; }","MagickExport void * AcquireAlignedMemory ( const size_t count , const size_t quantum ) { # define AlignedExtent ( size , alignment ) \\ ( ( ( size ) + ( ( alignment ) - 1 ) ) & ~ ( ( alignment ) - 1 ) ) size_t alignment , extent , size ; void * memory ; if ( HeapOverflowSanityCheck ( count , quantum ) != MagickFalse ) return ( ( void * ) NULL ) ; memory = NULL ; alignment = CACHE_LINE_SIZE ; size = count * quantum ; extent = AlignedExtent ( size , alignment ) ; if ( ( size == 0 ) || ( alignment < sizeof ( void * ) ) || ( extent < size ) ) return ( ( void * ) NULL ) ; # if defined ( MAGICKCORE_HAVE_POSIX_MEMALIGN ) if ( posix_memalign ( & memory , alignment , extent ) != 0 ) memory = NULL ; # elif defined ( MAGICKCORE_HAVE__ALIGNED_MALLOC ) memory = _aligned_malloc ( extent , alignment ) ; # else { void * p ; extent = ( size + alignment - 1 ) + sizeof ( void * ) ; if ( extent > size ) { p = malloc ( extent ) ; if ( p != NULL ) { memory = ( void * ) AlignedExtent ( ( size_t ) p + sizeof ( void * ) , alignment ) ; * ( ( void * * ) memory - 1 ) = p ; } } } # endif return ( memory ) ; }" 265,"CWE-119 struct VP8_COMP * vp8_create_compressor ( VP8_CONFIG * oxcf ) { int i ; VP8_COMP * cpi ; VP8_COMMON * cm ; cpi = vpx_memalign ( 32 , sizeof ( VP8_COMP ) ) ; if ( ! cpi ) return 0 ; cm = & cpi -> common ; vpx_memset ( cpi , 0 , sizeof ( VP8_COMP ) ) ; if ( setjmp ( cm -> error . jmp ) ) { cpi -> common . error . setjmp = 0 ; vp8_remove_compressor ( & cpi ) ; return 0 ; } cpi -> common . error . setjmp = 1 ; CHECK_MEM_ERROR ( cpi -> mb . ss , vpx_calloc ( sizeof ( search_site ) , ( MAX_MVSEARCH_STEPS * 8 ) + 1 ) ) ; vp8_create_common ( & cpi -> common ) ; init_config ( cpi , oxcf ) ; memcpy ( cpi -> base_skip_false_prob , vp8cx_base_skip_false_prob , sizeof ( vp8cx_base_skip_false_prob ) ) ; cpi -> common . current_video_frame = 0 ; cpi -> temporal_pattern_counter = 0 ; cpi -> kf_overspend_bits = 0 ; cpi -> kf_bitrate_adjustment = 0 ; cpi -> frames_till_gf_update_due = 0 ; cpi -> gf_overspend_bits = 0 ; cpi -> non_gf_bitrate_adjustment = 0 ; cpi -> prob_last_coded = 128 ; cpi -> prob_gf_coded = 128 ; cpi -> prob_intra_coded = 63 ; cpi -> recent_ref_frame_usage [ INTRA_FRAME ] = 1 ; cpi -> recent_ref_frame_usage [ LAST_FRAME ] = 1 ; cpi -> recent_ref_frame_usage [ GOLDEN_FRAME ] = 1 ; cpi -> recent_ref_frame_usage [ ALTREF_FRAME ] = 1 ; cpi -> common . ref_frame_sign_bias [ ALTREF_FRAME ] = 1 ; cpi -> twopass . gf_decay_rate = 0 ; cpi -> baseline_gf_interval = DEFAULT_GF_INTERVAL ; cpi -> gold_is_last = 0 ; cpi -> alt_is_last = 0 ; cpi -> gold_is_alt = 0 ; cpi -> active_map_enabled = 0 ; # if 0 if ( cpi -> pass == 0 ) { cpi -> one_pass_frame_index = 0 ; for ( i = 0 ; i < MAX_LAG_BUFFERS ; i ++ ) { cpi -> one_pass_frame_stats [ i ] . frames_so_far = 0 ; cpi -> one_pass_frame_stats [ i ] . frame_intra_error = 0.0 ; cpi -> one_pass_frame_stats [ i ] . frame_coded_error = 0.0 ; cpi -> one_pass_frame_stats [ i ] . frame_pcnt_inter = 0.0 ; cpi -> one_pass_frame_stats [ i ] . frame_pcnt_motion = 0.0 ; cpi -> one_pass_frame_stats [ i ] . frame_mvr = 0.0 ; cpi -> one_pass_frame_stats [ i ] . frame_mvr_abs = 0.0 ; cpi -> one_pass_frame_stats [ i ] . frame_mvc = 0.0 ; cpi -> one_pass_frame_stats [ i ] . frame_mvc_abs = 0.0 ; } } # endif cpi -> cyclic_refresh_mode_enabled = cpi -> oxcf . error_resilient_mode ; cpi -> cyclic_refresh_mode_max_mbs_perframe = ( cpi -> common . mb_rows * cpi -> common . mb_cols ) / 5 ; cpi -> cyclic_refresh_mode_index = 0 ; cpi -> cyclic_refresh_q = 32 ; if ( cpi -> cyclic_refresh_mode_enabled ) { CHECK_MEM_ERROR ( cpi -> cyclic_refresh_map , vpx_calloc ( ( cpi -> common . mb_rows * cpi -> common . mb_cols ) , 1 ) ) ; } else cpi -> cyclic_refresh_map = ( signed char * ) NULL ; # ifdef VP8_ENTROPY_STATS init_context_counters ( ) ; # endif cpi -> activity_avg = 90 << 12 ; cpi -> frames_since_key = 8 ; cpi -> key_frame_frequency = cpi -> oxcf . key_freq ; cpi -> this_key_frame_forced = 0 ; cpi -> next_key_frame_forced = 0 ; cpi -> source_alt_ref_pending = 0 ; cpi -> source_alt_ref_active = 0 ; cpi -> common . refresh_alt_ref_frame = 0 ; cpi -> b_calculate_psnr = CONFIG_INTERNAL_STATS ; # if CONFIG_INTERNAL_STATS cpi -> b_calculate_ssimg = 0 ; cpi -> count = 0 ; cpi -> bytes = 0 ; if ( cpi -> b_calculate_psnr ) { cpi -> total_sq_error = 0.0 ; cpi -> total_sq_error2 = 0.0 ; cpi -> total_y = 0.0 ; cpi -> total_u = 0.0 ; cpi -> total_v = 0.0 ; cpi -> total = 0.0 ; cpi -> totalp_y = 0.0 ; cpi -> totalp_u = 0.0 ; cpi -> totalp_v = 0.0 ; cpi -> totalp = 0.0 ; cpi -> tot_recode_hits = 0 ; cpi -> summed_quality = 0 ; cpi -> summed_weights = 0 ; } if ( cpi -> b_calculate_ssimg ) { cpi -> total_ssimg_y = 0 ; cpi -> total_ssimg_u = 0 ; cpi -> total_ssimg_v = 0 ; cpi -> total_ssimg_all = 0 ; } # endif cpi -> first_time_stamp_ever = 0x7FFFFFFF ; cpi -> frames_till_gf_update_due = 0 ; cpi -> key_frame_count = 1 ; cpi -> ni_av_qi = cpi -> oxcf . worst_allowed_q ; cpi -> ni_tot_qi = 0 ; cpi -> ni_frames = 0 ; cpi -> total_byte_count = 0 ; cpi -> drop_frame = 0 ; cpi -> rate_correction_factor = 1.0 ; cpi -> key_frame_rate_correction_factor = 1.0 ; cpi -> gf_rate_correction_factor = 1.0 ; cpi -> twopass . est_max_qcorrection_factor = 1.0 ; for ( i = 0 ; i < KEY_FRAME_CONTEXT ; i ++ ) { cpi -> prior_key_frame_distance [ i ] = ( int ) cpi -> output_framerate ; } # ifdef OUTPUT_YUV_SRC yuv_file = fopen ( ""bd.yuv"" , ""ab"" ) ; # endif # if 0 framepsnr = fopen ( ""framepsnr.stt"" , ""a"" ) ; kf_list = fopen ( ""kf_list.stt"" , ""w"" ) ; # endif cpi -> output_pkt_list = oxcf -> output_pkt_list ; # if ! ( CONFIG_REALTIME_ONLY ) if ( cpi -> pass == 1 ) { vp8_init_first_pass ( cpi ) ; } else if ( cpi -> pass == 2 ) { size_t packet_sz = sizeof ( FIRSTPASS_STATS ) ; int packets = ( int ) ( oxcf -> two_pass_stats_in . sz / packet_sz ) ; cpi -> twopass . stats_in_start = oxcf -> two_pass_stats_in . buf ; cpi -> twopass . stats_in = cpi -> twopass . stats_in_start ; cpi -> twopass . stats_in_end = ( void * ) ( ( char * ) cpi -> twopass . stats_in vp8_init_second_pass ( cpi ) ; } # endif if ( cpi -> compressor_speed == 2 ) { cpi -> avg_encode_time = 0 ; cpi -> avg_pick_mode_time = 0 ; } vp8_set_speed_features ( cpi ) ; for ( i = 0 ; i < MAX_MODES ; i ++ ) { cpi -> mb . rd_thresh_mult [ i ] = 128 ; } # ifdef VP8_ENTROPY_STATS init_mv_ref_counts ( ) ; # endif # if CONFIG_MULTITHREAD if ( vp8cx_create_encoder_threads ( cpi ) ) { vp8_remove_compressor ( & cpi ) ; return 0 ; } # endif cpi -> fn_ptr [ BLOCK_16X16 ] . sdf = vp8_sad16x16 ; cpi -> fn_ptr [ BLOCK_16X16 ] . vf = vp8_variance16x16 ; cpi -> fn_ptr [ BLOCK_16X16 ] . svf = vp8_sub_pixel_variance16x16 ; cpi -> fn_ptr [ BLOCK_16X16 ] . svf_halfpix_h = vp8_variance_halfpixvar16x16_h ; cpi -> fn_ptr [ BLOCK_16X16 ] . svf_halfpix_v = vp8_variance_halfpixvar16x16_v ; cpi -> fn_ptr [ BLOCK_16X16 ] . svf_halfpix_hv = vp8_variance_halfpixvar16x16_hv ; cpi -> fn_ptr [ BLOCK_16X16 ] . sdx3f = vp8_sad16x16x3 ; cpi -> fn_ptr [ BLOCK_16X16 ] . sdx8f = vp8_sad16x16x8 ; cpi -> fn_ptr [ BLOCK_16X16 ] . sdx4df = vp8_sad16x16x4d ; cpi -> fn_ptr [ BLOCK_16X8 ] . sdf = vp8_sad16x8 ; cpi -> fn_ptr [ BLOCK_16X8 ] . vf = vp8_variance16x8 ; cpi -> fn_ptr [ BLOCK_16X8 ] . svf = vp8_sub_pixel_variance16x8 ; cpi -> fn_ptr [ BLOCK_16X8 ] . svf_halfpix_h = NULL ; cpi -> fn_ptr [ BLOCK_16X8 ] . svf_halfpix_v = NULL ; cpi -> fn_ptr [ BLOCK_16X8 ] . svf_halfpix_hv = NULL ; cpi -> fn_ptr [ BLOCK_16X8 ] . sdx3f = vp8_sad16x8x3 ; cpi -> fn_ptr [ BLOCK_16X8 ] . sdx8f = vp8_sad16x8x8 ; cpi -> fn_ptr [ BLOCK_16X8 ] . sdx4df = vp8_sad16x8x4d ; cpi -> fn_ptr [ BLOCK_8X16 ] . sdf = vp8_sad8x16 ; cpi -> fn_ptr [ BLOCK_8X16 ] . vf = vp8_variance8x16 ; cpi -> fn_ptr [ BLOCK_8X16 ] . svf = vp8_sub_pixel_variance8x16 ; cpi -> fn_ptr [ BLOCK_8X16 ] . svf_halfpix_h = NULL ; cpi -> fn_ptr [ BLOCK_8X16 ] . svf_halfpix_v = NULL ; cpi -> fn_ptr [ BLOCK_8X16 ] . svf_halfpix_hv = NULL ; cpi -> fn_ptr [ BLOCK_8X16 ] . sdx3f = vp8_sad8x16x3 ; cpi -> fn_ptr [ BLOCK_8X16 ] . sdx8f = vp8_sad8x16x8 ; cpi -> fn_ptr [ BLOCK_8X16 ] . sdx4df = vp8_sad8x16x4d ; cpi -> fn_ptr [ BLOCK_8X8 ] . sdf = vp8_sad8x8 ; cpi -> fn_ptr [ BLOCK_8X8 ] . vf = vp8_variance8x8 ; cpi -> fn_ptr [ BLOCK_8X8 ] . svf = vp8_sub_pixel_variance8x8 ; cpi -> fn_ptr [ BLOCK_8X8 ] . svf_halfpix_h = NULL ; cpi -> fn_ptr [ BLOCK_8X8 ] . svf_halfpix_v = NULL ; cpi -> fn_ptr [ BLOCK_8X8 ] . svf_halfpix_hv = NULL ; cpi -> fn_ptr [ BLOCK_8X8 ] . sdx3f = vp8_sad8x8x3 ; cpi -> fn_ptr [ BLOCK_8X8 ] . sdx8f = vp8_sad8x8x8 ; cpi -> fn_ptr [ BLOCK_8X8 ] . sdx4df = vp8_sad8x8x4d ; cpi -> fn_ptr [ BLOCK_4X4 ] . sdf = vp8_sad4x4 ; cpi -> fn_ptr [ BLOCK_4X4 ] . vf = vp8_variance4x4 ; cpi -> fn_ptr [ BLOCK_4X4 ] . svf = vp8_sub_pixel_variance4x4 ; cpi -> fn_ptr [ BLOCK_4X4 ] . svf_halfpix_h = NULL ; cpi -> fn_ptr [ BLOCK_4X4 ] . svf_halfpix_v = NULL ; cpi -> fn_ptr [ BLOCK_4X4 ] . svf_halfpix_hv = NULL ; cpi -> fn_ptr [ BLOCK_4X4 ] . sdx3f = vp8_sad4x4x3 ; cpi -> fn_ptr [ BLOCK_4X4 ] . sdx8f = vp8_sad4x4x8 ; cpi -> fn_ptr [ BLOCK_4X4 ] . sdx4df = vp8_sad4x4x4d ; # if ARCH_X86 || ARCH_X86_64 cpi -> fn_ptr [ BLOCK_16X16 ] . copymem = vp8_copy32xn ; cpi -> fn_ptr [ BLOCK_16X8 ] . copymem = vp8_copy32xn ; cpi -> fn_ptr [ BLOCK_8X16 ] . copymem = vp8_copy32xn ; cpi -> fn_ptr [ BLOCK_8X8 ] . copymem = vp8_copy32xn ; cpi -> fn_ptr [ BLOCK_4X4 ] . copymem = vp8_copy32xn ; # endif cpi -> full_search_sad = vp8_full_search_sad ; cpi -> diamond_search_sad = vp8_diamond_search_sad ; cpi -> refining_search_sad = vp8_refining_search_sad ; cpi -> mb . error_bins [ 0 ] = cpi -> common . MBs ; vp8cx_init_quantizer ( cpi ) ; vp8_loop_filter_init ( cm ) ; cpi -> common . error . setjmp = 0 ; # if CONFIG_MULTI_RES_ENCODING if ( cpi -> oxcf . mr_encoder_id > 0 ) vp8_cal_low_res_mb_cols ( cpi ) ; # endif cpi -> mb . mvcost [ 0 ] = & cpi -> rd_costs . mvcosts [ 0 ] [ mv_max + 1 ] ; cpi -> mb . mvcost [ 1 ] = & cpi -> rd_costs . mvcosts [ 1 ] [ mv_max + 1 ] ; cpi -> mb . mvsadcost [ 0 ] = & cpi -> rd_costs . mvsadcosts [ 0 ] [ mvfp_max + 1 ] ; cpi -> mb . mvsadcost [ 1 ] = & cpi -> rd_costs . mvsadcosts [ 1 ] [ mvfp_max + 1 ] ; cal_mvsadcosts ( cpi -> mb . mvsadcost ) ; cpi -> mb . mbmode_cost = cpi -> rd_costs . mbmode_cost ; cpi -> mb . intra_uv_mode_cost = cpi -> rd_costs . intra_uv_mode_cost ; cpi -> mb . bmode_costs = cpi -> rd_costs . bmode_costs ; cpi -> mb . inter_bmode_costs = cpi -> rd_costs . inter_bmode_costs ; cpi -> mb . token_costs = cpi -> rd_costs . token_costs ; vp8_setup_block_ptrs ( & cpi -> mb ) ; vp8_setup_block_dptrs ( & cpi -> mb . e_mbd ) ; return cpi ; }","struct VP8_COMP * vp8_create_compressor ( VP8_CONFIG * oxcf ) { int i ; VP8_COMP * cpi ; VP8_COMMON * cm ; cpi = vpx_memalign ( 32 , sizeof ( VP8_COMP ) ) ; if ( ! cpi ) return 0 ; cm = & cpi -> common ; memset ( cpi , 0 , sizeof ( VP8_COMP ) ) ; if ( setjmp ( cm -> error . jmp ) ) { cpi -> common . error . setjmp = 0 ; vp8_remove_compressor ( & cpi ) ; return 0 ; } cpi -> common . error . setjmp = 1 ; CHECK_MEM_ERROR ( cpi -> mb . ss , vpx_calloc ( sizeof ( search_site ) , ( MAX_MVSEARCH_STEPS * 8 ) + 1 ) ) ; vp8_create_common ( & cpi -> common ) ; init_config ( cpi , oxcf ) ; memcpy ( cpi -> base_skip_false_prob , vp8cx_base_skip_false_prob , sizeof ( vp8cx_base_skip_false_prob ) ) ; cpi -> common . current_video_frame = 0 ; cpi -> temporal_pattern_counter = 0 ; cpi -> temporal_layer_id = - 1 ; cpi -> kf_overspend_bits = 0 ; cpi -> kf_bitrate_adjustment = 0 ; cpi -> frames_till_gf_update_due = 0 ; cpi -> gf_overspend_bits = 0 ; cpi -> non_gf_bitrate_adjustment = 0 ; cpi -> prob_last_coded = 128 ; cpi -> prob_gf_coded = 128 ; cpi -> prob_intra_coded = 63 ; cpi -> recent_ref_frame_usage [ INTRA_FRAME ] = 1 ; cpi -> recent_ref_frame_usage [ LAST_FRAME ] = 1 ; cpi -> recent_ref_frame_usage [ GOLDEN_FRAME ] = 1 ; cpi -> recent_ref_frame_usage [ ALTREF_FRAME ] = 1 ; cpi -> common . ref_frame_sign_bias [ ALTREF_FRAME ] = 1 ; cpi -> twopass . gf_decay_rate = 0 ; cpi -> baseline_gf_interval = DEFAULT_GF_INTERVAL ; cpi -> gold_is_last = 0 ; cpi -> alt_is_last = 0 ; cpi -> gold_is_alt = 0 ; cpi -> active_map_enabled = 0 ; # if 0 if ( cpi -> pass == 0 ) { cpi -> one_pass_frame_index = 0 ; for ( i = 0 ; i < MAX_LAG_BUFFERS ; i ++ ) { cpi -> one_pass_frame_stats [ i ] . frames_so_far = 0 ; cpi -> one_pass_frame_stats [ i ] . frame_intra_error = 0.0 ; cpi -> one_pass_frame_stats [ i ] . frame_coded_error = 0.0 ; cpi -> one_pass_frame_stats [ i ] . frame_pcnt_inter = 0.0 ; cpi -> one_pass_frame_stats [ i ] . frame_pcnt_motion = 0.0 ; cpi -> one_pass_frame_stats [ i ] . frame_mvr = 0.0 ; cpi -> one_pass_frame_stats [ i ] . frame_mvr_abs = 0.0 ; cpi -> one_pass_frame_stats [ i ] . frame_mvc = 0.0 ; cpi -> one_pass_frame_stats [ i ] . frame_mvc_abs = 0.0 ; } } # endif cpi -> mse_source_denoised = 0 ; cpi -> cyclic_refresh_mode_enabled = cpi -> oxcf . error_resilient_mode ; cpi -> cyclic_refresh_mode_max_mbs_perframe = ( cpi -> common . mb_rows * cpi -> common . mb_cols ) / 5 ; if ( cpi -> oxcf . number_of_layers == 1 ) { cpi -> cyclic_refresh_mode_max_mbs_perframe = ( cpi -> common . mb_rows * cpi -> common . mb_cols ) / 20 ; } else if ( cpi -> oxcf . number_of_layers == 2 ) { cpi -> cyclic_refresh_mode_max_mbs_perframe = ( cpi -> common . mb_rows * cpi -> common . mb_cols ) / 10 ; } cpi -> cyclic_refresh_mode_index = 0 ; cpi -> cyclic_refresh_q = 32 ; if ( cpi -> cyclic_refresh_mode_enabled ) { CHECK_MEM_ERROR ( cpi -> cyclic_refresh_map , vpx_calloc ( ( cpi -> common . mb_rows * cpi -> common . mb_cols ) , 1 ) ) ; } else cpi -> cyclic_refresh_map = ( signed char * ) NULL ; CHECK_MEM_ERROR ( cpi -> consec_zero_last , vpx_calloc ( cm -> mb_rows * cm -> mb_cols , 1 ) ) ; CHECK_MEM_ERROR ( cpi -> consec_zero_last_mvbias , vpx_calloc ( ( cpi -> common . mb_rows * cpi -> common . mb_cols ) , 1 ) ) ; # ifdef VP8_ENTROPY_STATS init_context_counters ( ) ; # endif cpi -> activity_avg = 90 << 12 ; cpi -> frames_since_key = 8 ; cpi -> key_frame_frequency = cpi -> oxcf . key_freq ; cpi -> this_key_frame_forced = 0 ; cpi -> next_key_frame_forced = 0 ; cpi -> source_alt_ref_pending = 0 ; cpi -> source_alt_ref_active = 0 ; cpi -> common . refresh_alt_ref_frame = 0 ; cpi -> force_maxqp = 0 ; cpi -> b_calculate_psnr = CONFIG_INTERNAL_STATS ; # if CONFIG_INTERNAL_STATS cpi -> b_calculate_ssimg = 0 ; cpi -> count = 0 ; cpi -> bytes = 0 ; if ( cpi -> b_calculate_psnr ) { cpi -> total_sq_error = 0.0 ; cpi -> total_sq_error2 = 0.0 ; cpi -> total_y = 0.0 ; cpi -> total_u = 0.0 ; cpi -> total_v = 0.0 ; cpi -> total = 0.0 ; cpi -> totalp_y = 0.0 ; cpi -> totalp_u = 0.0 ; cpi -> totalp_v = 0.0 ; cpi -> totalp = 0.0 ; cpi -> tot_recode_hits = 0 ; cpi -> summed_quality = 0 ; cpi -> summed_weights = 0 ; } if ( cpi -> b_calculate_ssimg ) { cpi -> total_ssimg_y = 0 ; cpi -> total_ssimg_u = 0 ; cpi -> total_ssimg_v = 0 ; cpi -> total_ssimg_all = 0 ; } # endif cpi -> first_time_stamp_ever = 0x7FFFFFFF ; cpi -> frames_till_gf_update_due = 0 ; cpi -> key_frame_count = 1 ; cpi -> ni_av_qi = cpi -> oxcf . worst_allowed_q ; cpi -> ni_tot_qi = 0 ; cpi -> ni_frames = 0 ; cpi -> total_byte_count = 0 ; cpi -> drop_frame = 0 ; cpi -> rate_correction_factor = 1.0 ; cpi -> key_frame_rate_correction_factor = 1.0 ; cpi -> gf_rate_correction_factor = 1.0 ; cpi -> twopass . est_max_qcorrection_factor = 1.0 ; for ( i = 0 ; i < KEY_FRAME_CONTEXT ; i ++ ) { cpi -> prior_key_frame_distance [ i ] = ( int ) cpi -> output_framerate ; } # ifdef OUTPUT_YUV_SRC yuv_file = fopen ( ""bd.yuv"" , ""ab"" ) ; # endif # ifdef OUTPUT_YUV_DENOISED yuv_denoised_file = fopen ( ""denoised.yuv"" , ""ab"" ) ; # endif # if 0 framepsnr = fopen ( ""framepsnr.stt"" , ""a"" ) ; kf_list = fopen ( ""kf_list.stt"" , ""w"" ) ; # endif cpi -> output_pkt_list = oxcf -> output_pkt_list ; # if ! ( CONFIG_REALTIME_ONLY ) if ( cpi -> pass == 1 ) { vp8_init_first_pass ( cpi ) ; } else if ( cpi -> pass == 2 ) { size_t packet_sz = sizeof ( FIRSTPASS_STATS ) ; int packets = ( int ) ( oxcf -> two_pass_stats_in . sz / packet_sz ) ; cpi -> twopass . stats_in_start = oxcf -> two_pass_stats_in . buf ; cpi -> twopass . stats_in = cpi -> twopass . stats_in_start ; cpi -> twopass . stats_in_end = ( void * ) ( ( char * ) cpi -> twopass . stats_in ( packets - 1 ) * packet_sz ) ; vp8_init_second_pass ( cpi ) ; } # endif if ( cpi -> compressor_speed == 2 ) { cpi -> avg_encode_time = 0 ; cpi -> avg_pick_mode_time = 0 ; } vp8_set_speed_features ( cpi ) ; for ( i = 0 ; i < MAX_MODES ; i ++ ) { cpi -> mb . rd_thresh_mult [ i ] = 128 ; } # ifdef VP8_ENTROPY_STATS init_mv_ref_counts ( ) ; # endif # if CONFIG_MULTITHREAD if ( vp8cx_create_encoder_threads ( cpi ) ) { vp8_remove_compressor ( & cpi ) ; return 0 ; } # endif cpi -> fn_ptr [ BLOCK_16X16 ] . sdf = vpx_sad16x16 ; cpi -> fn_ptr [ BLOCK_16X16 ] . vf = vpx_variance16x16 ; cpi -> fn_ptr [ BLOCK_16X16 ] . svf = vpx_sub_pixel_variance16x16 ; cpi -> fn_ptr [ BLOCK_16X16 ] . svf_halfpix_h = vpx_variance_halfpixvar16x16_h ; cpi -> fn_ptr [ BLOCK_16X16 ] . svf_halfpix_v = vpx_variance_halfpixvar16x16_v ; cpi -> fn_ptr [ BLOCK_16X16 ] . svf_halfpix_hv = vpx_variance_halfpixvar16x16_hv ; cpi -> fn_ptr [ BLOCK_16X16 ] . sdx3f = vpx_sad16x16x3 ; cpi -> fn_ptr [ BLOCK_16X16 ] . sdx8f = vpx_sad16x16x8 ; cpi -> fn_ptr [ BLOCK_16X16 ] . sdx4df = vpx_sad16x16x4d ; cpi -> fn_ptr [ BLOCK_16X8 ] . sdf = vpx_sad16x8 ; cpi -> fn_ptr [ BLOCK_16X8 ] . vf = vpx_variance16x8 ; cpi -> fn_ptr [ BLOCK_16X8 ] . svf = vpx_sub_pixel_variance16x8 ; cpi -> fn_ptr [ BLOCK_16X8 ] . svf_halfpix_h = NULL ; cpi -> fn_ptr [ BLOCK_16X8 ] . svf_halfpix_v = NULL ; cpi -> fn_ptr [ BLOCK_16X8 ] . svf_halfpix_hv = NULL ; cpi -> fn_ptr [ BLOCK_16X8 ] . sdx3f = vpx_sad16x8x3 ; cpi -> fn_ptr [ BLOCK_16X8 ] . sdx8f = vpx_sad16x8x8 ; cpi -> fn_ptr [ BLOCK_16X8 ] . sdx4df = vpx_sad16x8x4d ; cpi -> fn_ptr [ BLOCK_8X16 ] . sdf = vpx_sad8x16 ; cpi -> fn_ptr [ BLOCK_8X16 ] . vf = vpx_variance8x16 ; cpi -> fn_ptr [ BLOCK_8X16 ] . svf = vpx_sub_pixel_variance8x16 ; cpi -> fn_ptr [ BLOCK_8X16 ] . svf_halfpix_h = NULL ; cpi -> fn_ptr [ BLOCK_8X16 ] . svf_halfpix_v = NULL ; cpi -> fn_ptr [ BLOCK_8X16 ] . svf_halfpix_hv = NULL ; cpi -> fn_ptr [ BLOCK_8X16 ] . sdx3f = vpx_sad8x16x3 ; cpi -> fn_ptr [ BLOCK_8X16 ] . sdx8f = vpx_sad8x16x8 ; cpi -> fn_ptr [ BLOCK_8X16 ] . sdx4df = vpx_sad8x16x4d ; cpi -> fn_ptr [ BLOCK_8X8 ] . sdf = vpx_sad8x8 ; cpi -> fn_ptr [ BLOCK_8X8 ] . vf = vpx_variance8x8 ; cpi -> fn_ptr [ BLOCK_8X8 ] . svf = vpx_sub_pixel_variance8x8 ; cpi -> fn_ptr [ BLOCK_8X8 ] . svf_halfpix_h = NULL ; cpi -> fn_ptr [ BLOCK_8X8 ] . svf_halfpix_v = NULL ; cpi -> fn_ptr [ BLOCK_8X8 ] . svf_halfpix_hv = NULL ; cpi -> fn_ptr [ BLOCK_8X8 ] . sdx3f = vpx_sad8x8x3 ; cpi -> fn_ptr [ BLOCK_8X8 ] . sdx8f = vpx_sad8x8x8 ; cpi -> fn_ptr [ BLOCK_8X8 ] . sdx4df = vpx_sad8x8x4d ; cpi -> fn_ptr [ BLOCK_4X4 ] . sdf = vpx_sad4x4 ; cpi -> fn_ptr [ BLOCK_4X4 ] . vf = vpx_variance4x4 ; cpi -> fn_ptr [ BLOCK_4X4 ] . svf = vpx_sub_pixel_variance4x4 ; cpi -> fn_ptr [ BLOCK_4X4 ] . svf_halfpix_h = NULL ; cpi -> fn_ptr [ BLOCK_4X4 ] . svf_halfpix_v = NULL ; cpi -> fn_ptr [ BLOCK_4X4 ] . svf_halfpix_hv = NULL ; cpi -> fn_ptr [ BLOCK_4X4 ] . sdx3f = vpx_sad4x4x3 ; cpi -> fn_ptr [ BLOCK_4X4 ] . sdx8f = vpx_sad4x4x8 ; cpi -> fn_ptr [ BLOCK_4X4 ] . sdx4df = vpx_sad4x4x4d ; # if ARCH_X86 || ARCH_X86_64 cpi -> fn_ptr [ BLOCK_16X16 ] . copymem = vp8_copy32xn ; cpi -> fn_ptr [ BLOCK_16X8 ] . copymem = vp8_copy32xn ; cpi -> fn_ptr [ BLOCK_8X16 ] . copymem = vp8_copy32xn ; cpi -> fn_ptr [ BLOCK_8X8 ] . copymem = vp8_copy32xn ; cpi -> fn_ptr [ BLOCK_4X4 ] . copymem = vp8_copy32xn ; # endif cpi -> full_search_sad = vp8_full_search_sad ; cpi -> diamond_search_sad = vp8_diamond_search_sad ; cpi -> refining_search_sad = vp8_refining_search_sad ; cpi -> mb . error_bins [ 0 ] = cpi -> common . MBs ; vp8cx_init_quantizer ( cpi ) ; vp8_loop_filter_init ( cm ) ; cpi -> common . error . setjmp = 0 ; # if CONFIG_MULTI_RES_ENCODING if ( cpi -> oxcf . mr_encoder_id > 0 ) vp8_cal_low_res_mb_cols ( cpi ) ; # endif cpi -> mb . mvcost [ 0 ] = & cpi -> rd_costs . mvcosts [ 0 ] [ mv_max + 1 ] ; cpi -> mb . mvcost [ 1 ] = & cpi -> rd_costs . mvcosts [ 1 ] [ mv_max + 1 ] ; cpi -> mb . mvsadcost [ 0 ] = & cpi -> rd_costs . mvsadcosts [ 0 ] [ mvfp_max + 1 ] ; cpi -> mb . mvsadcost [ 1 ] = & cpi -> rd_costs . mvsadcosts [ 1 ] [ mvfp_max + 1 ] ; cal_mvsadcosts ( cpi -> mb . mvsadcost ) ; cpi -> mb . mbmode_cost = cpi -> rd_costs . mbmode_cost ; cpi -> mb . intra_uv_mode_cost = cpi -> rd_costs . intra_uv_mode_cost ; cpi -> mb . bmode_costs = cpi -> rd_costs . bmode_costs ; cpi -> mb . inter_bmode_costs = cpi -> rd_costs . inter_bmode_costs ; cpi -> mb . token_costs = cpi -> rd_costs . token_costs ; vp8_setup_block_ptrs ( & cpi -> mb ) ; vp8_setup_block_dptrs ( & cpi -> mb . e_mbd ) ; return cpi ; }" 266,"CWE-295 NOEXPORT char * parse_service_option ( CMD cmd , SERVICE_OPTIONS * * section_ptr , char * opt , char * arg ) { SERVICE_OPTIONS * section ; int endpoints = 0 ; # ifndef USE_WIN32 struct group * gr ; struct passwd * pw ; # endif section = section_ptr ? * section_ptr : NULL ; if ( cmd == CMD_SET_DEFAULTS || cmd == CMD_SET_COPY ) { section -> ref = 1 ; } else if ( cmd == CMD_FREE ) { if ( section == & service_options || section == & new_service_options ) s_log ( LOG_DEBUG , ""Deallocating section defaults"" ) ; else s_log ( LOG_DEBUG , ""Deallocating section [%s]"" , section -> servname ) ; } else if ( cmd == CMD_PRINT_DEFAULTS || cmd == CMD_PRINT_HELP ) { s_log ( LOG_NOTICE , "" "" ) ; s_log ( LOG_NOTICE , ""Service-level options:"" ) ; } switch ( cmd ) { case CMD_SET_DEFAULTS : addrlist_clear ( & section -> local_addr , 1 ) ; section -> local_fd = NULL ; break ; case CMD_SET_COPY : addrlist_clear ( & section -> local_addr , 1 ) ; section -> local_fd = NULL ; name_list_dup ( & section -> local_addr . names , new_service_options . local_addr . names ) ; break ; case CMD_FREE : name_list_free ( section -> local_addr . names ) ; str_free ( section -> local_addr . addr ) ; str_free ( section -> local_fd ) ; break ; case CMD_SET_VALUE : if ( strcasecmp ( opt , ""accept"" ) ) break ; section -> option . accept = 1 ; name_list_append ( & section -> local_addr . names , arg ) ; return NULL ; case CMD_INITIALIZE : if ( section -> local_addr . names ) { unsigned i ; if ( ! addrlist_resolve ( & section -> local_addr ) ) return ""Cannot resolve accept target"" ; section -> local_fd = str_alloc_detached ( section -> local_addr . num * sizeof ( SOCKET ) ) ; for ( i = 0 ; i < section -> local_addr . num ; ++ i ) section -> local_fd [ i ] = INVALID_SOCKET ; } break ; case CMD_PRINT_DEFAULTS : break ; case CMD_PRINT_HELP : s_log ( LOG_NOTICE , ""%-22s = [host:]port accept connections on specified host:port"" , ""accept"" ) ; break ; } switch ( cmd ) { case CMD_SET_DEFAULTS : # if 0 section -> ca_dir = ( char * ) X509_get_default_cert_dir ( ) ;","NOEXPORT char * parse_service_option ( CMD cmd , SERVICE_OPTIONS * * section_ptr , char * opt , char * arg ) { SERVICE_OPTIONS * section ; int endpoints = 0 ; # ifndef USE_WIN32 struct group * gr ; struct passwd * pw ; # endif section = section_ptr ? * section_ptr : NULL ; if ( cmd == CMD_SET_DEFAULTS || cmd == CMD_SET_COPY ) { section -> ref = 1 ; if ( section == & service_options ) s_log ( LOG_ERR , ""INTERNAL ERROR: Initializing deployed section defaults"" ) ; else if ( section == & new_service_options ) s_log ( LOG_INFO , ""Initializing inetd mode configuration"" ) ; else s_log ( LOG_INFO , ""Initializing service [%s]"" , section -> servname ) ; } else if ( cmd == CMD_FREE ) { if ( section == & service_options ) s_log ( LOG_DEBUG , ""Deallocating deployed section defaults"" ) ; else if ( section == & new_service_options ) s_log ( LOG_DEBUG , ""Deallocating temporary section defaults"" ) ; else s_log ( LOG_DEBUG , ""Deallocating section [%s]"" , section -> servname ) ; } else if ( cmd == CMD_PRINT_DEFAULTS || cmd == CMD_PRINT_HELP ) { s_log ( LOG_NOTICE , "" "" ) ; s_log ( LOG_NOTICE , ""Service-level options:"" ) ; } switch ( cmd ) { case CMD_SET_DEFAULTS : addrlist_clear ( & section -> local_addr , 1 ) ; section -> local_fd = NULL ; break ; case CMD_SET_COPY : addrlist_clear ( & section -> local_addr , 1 ) ; section -> local_fd = NULL ; name_list_dup ( & section -> local_addr . names , new_service_options . local_addr . names ) ; break ; case CMD_FREE : name_list_free ( section -> local_addr . names ) ; str_free ( section -> local_addr . addr ) ; str_free ( section -> local_fd ) ; break ; case CMD_SET_VALUE : if ( strcasecmp ( opt , ""accept"" ) ) break ; section -> option . accept = 1 ; name_list_append ( & section -> local_addr . names , arg ) ; return NULL ; case CMD_INITIALIZE : if ( section -> local_addr . names ) { unsigned i ; if ( ! addrlist_resolve ( & section -> local_addr ) ) return ""Cannot resolve accept target"" ; section -> local_fd = str_alloc_detached ( section -> local_addr . num * sizeof ( SOCKET ) ) ; for ( i = 0 ; i < section -> local_addr . num ; ++ i ) section -> local_fd [ i ] = INVALID_SOCKET ; + endpoints ; } break ; case CMD_PRINT_DEFAULTS : break ; case CMD_PRINT_HELP : s_log ( LOG_NOTICE , ""%-22s = [host:]port accept connections on specified host:port"" , ""accept"" ) ; break ; } switch ( cmd ) { case CMD_SET_DEFAULTS : # if 0 section -> ca_dir = ( char * ) X509_get_default_cert_dir ( ) ;" 267,"CWE-119 int vp8_skip_fractional_mv_step ( MACROBLOCK * mb , BLOCK * b , BLOCKD * d , int_mv * bestmv , int_mv * ref_mv , int error_per_bit , const vp8_variance_fn_ptr_t * vfp , int * mvcost [ 2 ] , int * distortion , unsigned int * sse ) { ( void ) b ; ( void ) d ; ( void ) ref_mv ; ( void ) error_per_bit ; ( void ) vfp ; ( void ) mvcost ; ( void ) distortion ; ( void ) sse ; bestmv -> as_mv . row <<= 3 ; bestmv -> as_mv . col <<= 3 ; return 0 ; }","int vp8_skip_fractional_mv_step ( MACROBLOCK * mb , BLOCK * b , BLOCKD * d , int_mv * bestmv , int_mv * ref_mv , int error_per_bit , const vp8_variance_fn_ptr_t * vfp , int * mvcost [ 2 ] , int * distortion , unsigned int * sse ) { ( void ) b ; ( void ) d ; ( void ) ref_mv ; ( void ) error_per_bit ; ( void ) vfp ; ( void ) mb ; ( void ) mvcost ; ( void ) distortion ; ( void ) sse ; bestmv -> as_mv . row <<= 3 ; bestmv -> as_mv . col <<= 3 ; return 0 ; }" 268,CWE-119 void vpx_svc_release ( SvcContext * svc_ctx ) { SvcInternal * si ; if ( svc_ctx == NULL ) return ; si = ( SvcInternal * ) svc_ctx -> internal ; if ( si != NULL ) { free ( si -> buffer ) ; if ( si -> rc_stats_buf ) { free ( si -> rc_stats_buf ) ; } free ( si ) ; svc_ctx -> internal = NULL ; } },void vpx_svc_release ( SvcContext * svc_ctx ) { SvcInternal_t * si ; if ( svc_ctx == NULL ) return ; si = ( SvcInternal_t * ) svc_ctx -> internal ; if ( si != NULL ) { free ( si ) ; svc_ctx -> internal = NULL ; } } 269,"CWE-20 static int ssl_scan_serverhello_tlsext ( SSL * s , PACKET * pkt , int * al ) { unsigned int length , type , size ; int tlsext_servername = 0 ; int renegotiate_seen = 0 ; # ifndef OPENSSL_NO_NEXTPROTONEG s -> s3 -> next_proto_neg_seen = 0 ; # endif s -> tlsext_ticket_expected = 0 ; OPENSSL_free ( s -> s3 -> alpn_selected ) ; s -> s3 -> alpn_selected = NULL ; # ifndef OPENSSL_NO_HEARTBEATS s -> tlsext_heartbeat &= ~ ( SSL_DTLSEXT_HB_ENABLED | SSL_DTLSEXT_HB_DONT_SEND_REQUESTS ) ; # endif s -> s3 -> flags &= ~ TLS1_FLAGS_ENCRYPT_THEN_MAC ; s -> s3 -> flags &= ~ TLS1_FLAGS_RECEIVED_EXTMS ; if ( ! PACKET_get_net_2 ( pkt , & length ) ) goto ri_check ; if ( PACKET_remaining ( pkt ) != length ) { * al = SSL_AD_DECODE_ERROR ; return 0 ; } if ( ! tls1_check_duplicate_extensions ( pkt ) ) { * al = SSL_AD_DECODE_ERROR ; return 0 ; } while ( PACKET_get_net_2 ( pkt , & type ) && PACKET_get_net_2 ( pkt , & size ) ) { const unsigned char * data ; PACKET spkt ; if ( ! PACKET_get_sub_packet ( pkt , & spkt , size ) || ! PACKET_peek_bytes ( & spkt , & data , size ) ) goto ri_check ; if ( s -> tlsext_debug_cb ) s -> tlsext_debug_cb ( s , 1 , type , data , size , s -> tlsext_debug_arg ) ; if ( type == TLSEXT_TYPE_renegotiate ) { if ( ! ssl_parse_serverhello_renegotiate_ext ( s , & spkt , al ) ) return 0 ; renegotiate_seen = 1 ; } else if ( s -> version == SSL3_VERSION ) { } else if ( type == TLSEXT_TYPE_server_name ) { if ( s -> tlsext_hostname == NULL || size > 0 ) { * al = TLS1_AD_UNRECOGNIZED_NAME ; return 0 ; } tlsext_servername = 1 ; } # ifndef OPENSSL_NO_EC else if ( type == TLSEXT_TYPE_ec_point_formats ) { unsigned int ecpointformatlist_length ; if ( ! PACKET_get_1 ( & spkt , & ecpointformatlist_length ) || ecpointformatlist_length != size - 1 ) { * al = TLS1_AD_DECODE_ERROR ; return 0 ; } if ( ! s -> hit ) { s -> session -> tlsext_ecpointformatlist_length = 0 ; OPENSSL_free ( s -> session -> tlsext_ecpointformatlist ) ; if ( ( s -> session -> tlsext_ecpointformatlist = OPENSSL_malloc ( ecpointformatlist_length ) ) == NULL ) { * al = TLS1_AD_INTERNAL_ERROR ; return 0 ; } s -> session -> tlsext_ecpointformatlist_length = ecpointformatlist_length ; if ( ! PACKET_copy_bytes ( & spkt ,","static int ssl_scan_serverhello_tlsext ( SSL * s , PACKET * pkt , int * al ) { unsigned int length , type , size ; int tlsext_servername = 0 ; int renegotiate_seen = 0 ; # ifndef OPENSSL_NO_NEXTPROTONEG s -> s3 -> next_proto_neg_seen = 0 ; # endif s -> tlsext_ticket_expected = 0 ; OPENSSL_free ( s -> s3 -> alpn_selected ) ; s -> s3 -> alpn_selected = NULL ; # ifndef OPENSSL_NO_HEARTBEATS s -> tlsext_heartbeat &= ~ ( SSL_DTLSEXT_HB_ENABLED | SSL_DTLSEXT_HB_DONT_SEND_REQUESTS ) ; # endif s -> tlsext_use_etm = 0 ; s -> s3 -> flags &= ~ TLS1_FLAGS_RECEIVED_EXTMS ; if ( ! PACKET_get_net_2 ( pkt , & length ) ) goto ri_check ; if ( PACKET_remaining ( pkt ) != length ) { * al = SSL_AD_DECODE_ERROR ; return 0 ; } if ( ! tls1_check_duplicate_extensions ( pkt ) ) { * al = SSL_AD_DECODE_ERROR ; return 0 ; } while ( PACKET_get_net_2 ( pkt , & type ) && PACKET_get_net_2 ( pkt , & size ) ) { const unsigned char * data ; PACKET spkt ; if ( ! PACKET_get_sub_packet ( pkt , & spkt , size ) || ! PACKET_peek_bytes ( & spkt , & data , size ) ) goto ri_check ; if ( s -> tlsext_debug_cb ) s -> tlsext_debug_cb ( s , 1 , type , data , size , s -> tlsext_debug_arg ) ; if ( type == TLSEXT_TYPE_renegotiate ) { if ( ! ssl_parse_serverhello_renegotiate_ext ( s , & spkt , al ) ) return 0 ; renegotiate_seen = 1 ; } else if ( s -> version == SSL3_VERSION ) { } else if ( type == TLSEXT_TYPE_server_name ) { if ( s -> tlsext_hostname == NULL || size > 0 ) { * al = TLS1_AD_UNRECOGNIZED_NAME ; return 0 ; } tlsext_servername = 1 ; } # ifndef OPENSSL_NO_EC else if ( type == TLSEXT_TYPE_ec_point_formats ) { unsigned int ecpointformatlist_length ; if ( ! PACKET_get_1 ( & spkt , & ecpointformatlist_length ) || ecpointformatlist_length != size - 1 ) { * al = TLS1_AD_DECODE_ERROR ; return 0 ; } if ( ! s -> hit ) { s -> session -> tlsext_ecpointformatlist_length = 0 ; OPENSSL_free ( s -> session -> tlsext_ecpointformatlist ) ; if ( ( s -> session -> tlsext_ecpointformatlist = OPENSSL_malloc ( ecpointformatlist_length ) ) == NULL ) { * al = TLS1_AD_INTERNAL_ERROR ; return 0 ; } s -> session -> tlsext_ecpointformatlist_length = ecpointformatlist_length ; if ( ! PACKET_copy_bytes ( & spkt ," 270,"CWE-20 void sctp_association_free ( struct sctp_association * asoc ) { struct sock * sk = asoc -> base . sk ; struct sctp_transport * transport ; struct list_head * pos , * temp ; int i ; if ( ! asoc -> temp ) { list_del ( & asoc -> asocs ) ; if ( sctp_style ( sk , TCP ) && sctp_sstate ( sk , LISTENING ) ) sk -> sk_ack_backlog -- ; } asoc -> base . dead = true ; sctp_outq_free ( & asoc -> outqueue ) ; sctp_ulpq_free ( & asoc -> ulpq ) ; sctp_inq_free ( & asoc -> base . inqueue ) ; sctp_tsnmap_free ( & asoc -> peer . tsn_map ) ; sctp_ssnmap_free ( asoc -> ssnmap ) ; sctp_bind_addr_free ( & asoc -> base . bind_addr ) ; for ( i = SCTP_EVENT_TIMEOUT_NONE ; i < SCTP_NUM_TIMEOUT_TYPES ; ++ i ) { if ( del_timer ( & asoc -> timers [ i ] ) ) sctp_association_put ( asoc ) ; } kfree ( asoc -> peer . cookie ) ; kfree ( asoc -> peer . peer_random ) ; kfree ( asoc -> peer . peer_chunks ) ; kfree ( asoc -> peer . peer_hmacs ) ; list_for_each_safe ( pos , temp , & asoc -> peer . transport_addr_list ) { transport = list_entry ( pos , struct sctp_transport , transports ) ; list_del_rcu ( pos ) ; sctp_transport_free ( transport ) ; } asoc -> peer . transport_count = 0 ; sctp_asconf_queue_teardown ( asoc ) ; if ( asoc -> asconf_addr_del_pending != NULL ) kfree ( asoc -> asconf_addr_del_pending ) ; sctp_auth_destroy_keys ( & asoc -> endpoint_shared_keys ) ; sctp_auth_key_put ( asoc -> asoc_shared_key ) ; sctp_association_put ( asoc ) ; }","void sctp_association_free ( struct sctp_association * asoc ) { struct sock * sk = asoc -> base . sk ; struct sctp_transport * transport ; struct list_head * pos , * temp ; int i ; if ( ! list_empty ( & asoc -> asocs ) ) { list_del ( & asoc -> asocs ) ; if ( sctp_style ( sk , TCP ) && sctp_sstate ( sk , LISTENING ) ) sk -> sk_ack_backlog -- ; } asoc -> base . dead = true ; sctp_outq_free ( & asoc -> outqueue ) ; sctp_ulpq_free ( & asoc -> ulpq ) ; sctp_inq_free ( & asoc -> base . inqueue ) ; sctp_tsnmap_free ( & asoc -> peer . tsn_map ) ; sctp_ssnmap_free ( asoc -> ssnmap ) ; sctp_bind_addr_free ( & asoc -> base . bind_addr ) ; for ( i = SCTP_EVENT_TIMEOUT_NONE ; i < SCTP_NUM_TIMEOUT_TYPES ; ++ i ) { if ( del_timer ( & asoc -> timers [ i ] ) ) sctp_association_put ( asoc ) ; } kfree ( asoc -> peer . cookie ) ; kfree ( asoc -> peer . peer_random ) ; kfree ( asoc -> peer . peer_chunks ) ; kfree ( asoc -> peer . peer_hmacs ) ; list_for_each_safe ( pos , temp , & asoc -> peer . transport_addr_list ) { transport = list_entry ( pos , struct sctp_transport , transports ) ; list_del_rcu ( pos ) ; sctp_transport_free ( transport ) ; } asoc -> peer . transport_count = 0 ; sctp_asconf_queue_teardown ( asoc ) ; if ( asoc -> asconf_addr_del_pending != NULL ) kfree ( asoc -> asconf_addr_del_pending ) ; sctp_auth_destroy_keys ( & asoc -> endpoint_shared_keys ) ; sctp_auth_key_put ( asoc -> asoc_shared_key ) ; sctp_association_put ( asoc ) ; }" 271,"CWE-189 static Image * ExtractPostscript ( Image * image , const ImageInfo * image_info , MagickOffsetType PS_Offset , ssize_t PS_Size , ExceptionInfo * exception ) { char postscript_file [ MaxTextExtent ] ; const MagicInfo * magic_info ; FILE * ps_file ; ImageInfo * clone_info ; Image * image2 ; unsigned char magick [ 2 * MaxTextExtent ] ; if ( ( clone_info = CloneImageInfo ( image_info ) ) == NULL ) return ( image ) ; clone_info -> blob = ( void * ) NULL ; clone_info -> length = 0 ; ( void ) AcquireUniqueFilename ( postscript_file ) ; ps_file = fopen_utf8 ( postscript_file , ""wb"" ) ; if ( ps_file == ( FILE * ) NULL ) goto FINISH ; ( void ) SeekBlob ( image , PS_Offset , SEEK_SET ) ; ( void ) ReadBlob ( image , 2 * MaxTextExtent , magick ) ; ( void ) SeekBlob ( image , PS_Offset , SEEK_SET ) ; while ( PS_Size -- > 0 ) { ( void ) fputc ( ReadBlobByte ( image ) , ps_file ) ; } ( void ) fclose ( ps_file ) ; magic_info = GetMagicInfo ( magick , 2 * MaxTextExtent , exception ) ; if ( magic_info == ( const MagicInfo * ) NULL ) goto FINISH_UNL ; if ( exception -> severity != UndefinedException ) goto FINISH_UNL ; if ( magic_info -> name == ( char * ) NULL ) goto FINISH_UNL ; ( void ) strncpy ( clone_info -> magick , magic_info -> name , MaxTextExtent ) ; FormatLocaleString ( clone_info -> filename , MaxTextExtent , ""%s"" , postscript_file ) ; image2 = ReadImage ( clone_info , exception ) ; if ( ! image2 ) goto FINISH_UNL ; ( void ) CopyMagickString ( image2 -> filename , image -> filename , MaxTextExtent ) ; ( void ) CopyMagickString ( image2 -> magick_filename , image -> magick_filename , MaxTextExtent ) ; ( void ) CopyMagickString ( image2 -> magick , image -> magick , MaxTextExtent ) ; image2 -> depth = image -> depth ; DestroyBlob ( image2 ) ; image2 -> blob = ReferenceBlob ( image -> blob ) ; if ( ( image -> rows == 0 ) || ( image -> columns == 0 ) ) DeleteImageFromList ( & image ) ; AppendImageToList ( & image , image2 ) ; FINISH_UNL : ( void ) RelinquishUniqueFileResource ( postscript_file ) ; FINISH : DestroyImageInfo ( clone_info ) ; return ( image ) ; }","static Image * ExtractPostscript ( Image * image , const ImageInfo * image_info , MagickOffsetType PS_Offset , ssize_t PS_Size , ExceptionInfo * exception ) { char postscript_file [ MaxTextExtent ] ; const MagicInfo * magic_info ; FILE * ps_file ; ImageInfo * clone_info ; Image * image2 ; unsigned char magick [ 2 * MaxTextExtent ] ; if ( ( clone_info = CloneImageInfo ( image_info ) ) == NULL ) return ( image ) ; clone_info -> blob = ( void * ) NULL ; clone_info -> length = 0 ; ( void ) AcquireUniqueFilename ( postscript_file ) ; ps_file = fopen_utf8 ( postscript_file , ""wb"" ) ; if ( ps_file == ( FILE * ) NULL ) goto FINISH ; ( void ) SeekBlob ( image , PS_Offset , SEEK_SET ) ; ( void ) ReadBlob ( image , 2 * MaxTextExtent , magick ) ; ( void ) SeekBlob ( image , PS_Offset , SEEK_SET ) ; while ( PS_Size -- > 0 ) { ( void ) fputc ( ReadBlobByte ( image ) , ps_file ) ; } ( void ) fclose ( ps_file ) ; magic_info = GetMagicInfo ( magick , 2 * MaxTextExtent , exception ) ; if ( magic_info == ( const MagicInfo * ) NULL ) goto FINISH_UNL ; if ( exception -> severity != UndefinedException ) goto FINISH_UNL ; if ( magic_info -> name == ( char * ) NULL ) goto FINISH_UNL ; ( void ) strncpy ( clone_info -> magick , magic_info -> name , MaxTextExtent - 1 ) ; FormatLocaleString ( clone_info -> filename , MaxTextExtent , ""%s"" , postscript_file ) ; image2 = ReadImage ( clone_info , exception ) ; if ( ! image2 ) goto FINISH_UNL ; ( void ) CopyMagickString ( image2 -> filename , image -> filename , MaxTextExtent ) ; ( void ) CopyMagickString ( image2 -> magick_filename , image -> magick_filename , MaxTextExtent ) ; ( void ) CopyMagickString ( image2 -> magick , image -> magick , MaxTextExtent ) ; image2 -> depth = image -> depth ; DestroyBlob ( image2 ) ; image2 -> blob = ReferenceBlob ( image -> blob ) ; if ( ( image -> rows == 0 ) || ( image -> columns == 0 ) ) DeleteImageFromList ( & image ) ; AppendImageToList ( & image , image2 ) ; FINISH_UNL : ( void ) RelinquishUniqueFileResource ( postscript_file ) ; FINISH : DestroyImageInfo ( clone_info ) ; return ( image ) ; }" 272,"CWE-264 const char * string_of_NPNVariable ( int variable ) { const char * str ; switch ( variable ) { # define _ ( VAL ) case VAL : str = # VAL ; break ; _ ( NPNVxDisplay ) ; _ ( NPNVxtAppContext ) ; _ ( NPNVnetscapeWindow ) ; _ ( NPNVjavascriptEnabledBool ) ; _ ( NPNVasdEnabledBool ) ; _ ( NPNVisOfflineBool ) ; _ ( NPNVserviceManager ) ; _ ( NPNVDOMElement ) ; _ ( NPNVDOMWindow ) ; _ ( NPNVToolkit ) ; _ ( NPNVSupportsXEmbedBool ) ; _ ( NPNVWindowNPObject ) ; _ ( NPNVPluginElementNPObject ) ; _ ( NPNVSupportsWindowless ) ; # undef _ default : switch ( variable & 0xff ) { # define _ ( VAL , VAR ) case VAL : str = # VAR ; break _ ( 10 , NPNVserviceManager ) ; _ ( 11 , NPNVDOMElement ) ; _ ( 12 , NPNVDOMWindow ) ; _ ( 13 , NPNVToolkit ) ; # undef _ default : str = """" ; break ; } break ; } return str ; }","const char * string_of_NPNVariable ( int variable ) { const char * str ; switch ( variable ) { # define _ ( VAL ) case VAL : str = # VAL ; break ; _ ( NPNVxDisplay ) ; _ ( NPNVxtAppContext ) ; _ ( NPNVnetscapeWindow ) ; _ ( NPNVjavascriptEnabledBool ) ; _ ( NPNVasdEnabledBool ) ; _ ( NPNVisOfflineBool ) ; _ ( NPNVserviceManager ) ; _ ( NPNVDOMElement ) ; _ ( NPNVDOMWindow ) ; _ ( NPNVToolkit ) ; _ ( NPNVSupportsXEmbedBool ) ; _ ( NPNVWindowNPObject ) ; _ ( NPNVPluginElementNPObject ) ; _ ( NPNVSupportsWindowless ) ; _ ( NPNVprivateModeBool ) ; _ ( NPNVsupportsAdvancedKeyHandling ) ; # undef _ default : switch ( variable & 0xff ) { # define _ ( VAL , VAR ) case VAL : str = # VAR ; break _ ( 10 , NPNVserviceManager ) ; _ ( 11 , NPNVDOMElement ) ; _ ( 12 , NPNVDOMWindow ) ; _ ( 13 , NPNVToolkit ) ; # undef _ default : str = """" ; break ; } break ; } return str ; }" 273,"CWE-119 void vp9_setup_mask ( VP9_COMMON * const cm , const int mi_row , const int mi_col , MODE_INFO * * mi_8x8 , const int mode_info_stride , LOOP_FILTER_MASK * lfm ) { int idx_32 , idx_16 , idx_8 ; const loop_filter_info_n * const lfi_n = & cm -> lf_info ; MODE_INFO * * mip = mi_8x8 ; MODE_INFO * * mip2 = mi_8x8 ; const int offset_32 [ ] = { 4 , ( mode_info_stride << 2 ) - 4 , 4 , ( mode_info_stride << 2 ) - 4 } ; const int offset_16 [ ] = { 2 , ( mode_info_stride << 1 ) - 2 , 2 , ( mode_info_stride << 1 ) - 2 } ; const int offset [ ] = { 1 , mode_info_stride - 1 , 1 , - mode_info_stride - 1 } ; const int shift_32_y [ ] = { 0 , 4 , 32 , 36 } ; const int shift_16_y [ ] = { 0 , 2 , 16 , 18 } ; const int shift_8_y [ ] = { 0 , 1 , 8 , 9 } ; const int shift_32_uv [ ] = { 0 , 2 , 8 , 10 } ; const int shift_16_uv [ ] = { 0 , 1 , 4 , 5 } ; int i ; const int max_rows = ( mi_row + MI_BLOCK_SIZE > cm -> mi_rows ? cm -> mi_rows - mi_row : MI_BLOCK_SIZE ) ; const int max_cols = ( mi_col + MI_BLOCK_SIZE > cm -> mi_cols ? cm -> mi_cols - mi_col : MI_BLOCK_SIZE ) ; vp9_zero ( * lfm ) ; switch ( mip [ 0 ] -> mbmi . sb_type ) { case BLOCK_64X64 : build_masks ( lfi_n , mip [ 0 ] , 0 , 0 , lfm ) ; break ; case BLOCK_64X32 : build_masks ( lfi_n , mip [ 0 ] , 0 , 0 , lfm ) ; mip2 = mip + mode_info_stride * 4 ; if ( 4 >= max_rows ) break ; build_masks ( lfi_n , mip2 [ 0 ] , 32 , 8 , lfm ) ; break ; case BLOCK_32X64 : build_masks ( lfi_n , mip [ 0 ] , 0 , 0 , lfm ) ; mip2 = mip + 4 ; if ( 4 >= max_cols ) break ; build_masks ( lfi_n , mip2 [ 0 ] , 4 , 2 , lfm ) ; break ; default : for ( idx_32 = 0 ; idx_32 < 4 ; mip += offset_32 [ idx_32 ] , ++ idx_32 ) { const int shift_y = shift_32_y [ idx_32 ] ; const int shift_uv = shift_32_uv [ idx_32 ] ; const int mi_32_col_offset = ( ( idx_32 & 1 ) << 2 ) ; const int mi_32_row_offset = ( ( idx_32 >> 1 ) << 2 ) ; if ( mi_32_col_offset >= max_cols || mi_32_row_offset >= max_rows ) continue ; switch ( mip [ 0 ] -> mbmi . sb_type ) { case BLOCK_32X32 : build_masks ( lfi_n , mip [ 0 ] , shift_y , shift_uv , lfm ) ; break ; case BLOCK_32X16 : build_masks ( lfi_n , mip [ 0 ] , shift_y , shift_uv , lfm ) ; if ( mi_32_row_offset + 2 >= max_rows ) continue ; mip2 = mip + mode_info_stride * 2 ; build_masks ( lfi_n , mip2 [ 0 ] , shift_y + 16 , shift_uv + 4 , lfm ) ; break ; case BLOCK_16X32 : build_masks ( lfi_n , mip [ 0 ] , shift_y , shift_uv , lfm ) ; if ( mi_32_col_offset + 2 >= max_cols ) continue ; mip2 = mip + 2 ; build_masks ( lfi_n , mip2 [ 0 ] , shift_y + 2 , shift_uv + 1 , lfm ) ; break ; default : for ( idx_16 = 0 ; idx_16 < 4 ; mip += offset_16 [ idx_16 ] , ++ idx_16 ) { const int shift_y = shift_32_y [ idx_32 ] + shift_16_y [ idx_16 ] ; const int shift_uv = shift_32_uv [ idx_32 ] + shift_16_uv [ idx_16 ] ; const int mi_16_col_offset = mi_32_col_offset + ( ( idx_16 & 1 ) << 1 ) ;","void vp9_setup_mask ( VP9_COMMON * const cm , const int mi_row , const int mi_col , MODE_INFO * * mi , const int mode_info_stride , LOOP_FILTER_MASK * lfm ) { int idx_32 , idx_16 , idx_8 ; const loop_filter_info_n * const lfi_n = & cm -> lf_info ; MODE_INFO * * mip = mi ; MODE_INFO * * mip2 = mi ; const int offset_32 [ ] = { 4 , ( mode_info_stride << 2 ) - 4 , 4 , const int offset_16 [ ] = { 2 , ( mode_info_stride << 1 ) - 2 , 2 , const int offset [ ] = { 1 , mode_info_stride - 1 , 1 , - mode_info_stride - 1 } ; const int shift_32_y [ ] = { 0 , 4 , 32 , 36 } ; const int shift_16_y [ ] = { 0 , 2 , 16 , 18 } ; const int shift_8_y [ ] = { 0 , 1 , 8 , 9 } ; const int shift_32_uv [ ] = { 0 , 2 , 8 , 10 } ; const int shift_16_uv [ ] = { 0 , 1 , 4 , 5 } ; int i ; const int max_rows = ( mi_row + MI_BLOCK_SIZE > cm -> mi_rows ? cm -> mi_rows - mi_row : MI_BLOCK_SIZE ) ; const int max_cols = ( mi_col + MI_BLOCK_SIZE > cm -> mi_cols ? cm -> mi_cols - mi_col : MI_BLOCK_SIZE ) ; vp9_zero ( * lfm ) ; assert ( mip [ 0 ] != NULL ) ; switch ( mip [ 0 ] -> mbmi . sb_type ) { case BLOCK_64X64 : build_masks ( lfi_n , mip [ 0 ] , 0 , 0 , lfm ) ; break ; case BLOCK_64X32 : build_masks ( lfi_n , mip [ 0 ] , 0 , 0 , lfm ) ; mip2 = mip + mode_info_stride * 4 ; if ( 4 >= max_rows ) break ; build_masks ( lfi_n , mip2 [ 0 ] , 32 , 8 , lfm ) ; break ; case BLOCK_32X64 : build_masks ( lfi_n , mip [ 0 ] , 0 , 0 , lfm ) ; mip2 = mip + 4 ; if ( 4 >= max_cols ) break ; build_masks ( lfi_n , mip2 [ 0 ] , 4 , 2 , lfm ) ; break ; default : for ( idx_32 = 0 ; idx_32 < 4 ; mip += offset_32 [ idx_32 ] , ++ idx_32 ) { const int shift_y = shift_32_y [ idx_32 ] ; const int shift_uv = shift_32_uv [ idx_32 ] ; const int mi_32_col_offset = ( ( idx_32 & 1 ) << 2 ) ; const int mi_32_row_offset = ( ( idx_32 >> 1 ) << 2 ) ; if ( mi_32_col_offset >= max_cols || mi_32_row_offset >= max_rows ) continue ; switch ( mip [ 0 ] -> mbmi . sb_type ) { case BLOCK_32X32 : build_masks ( lfi_n , mip [ 0 ] , shift_y , shift_uv , lfm ) ; break ; case BLOCK_32X16 : build_masks ( lfi_n , mip [ 0 ] , shift_y , shift_uv , lfm ) ; if ( mi_32_row_offset + 2 >= max_rows ) continue ; mip2 = mip + mode_info_stride * 2 ; build_masks ( lfi_n , mip2 [ 0 ] , shift_y + 16 , shift_uv + 4 , lfm ) ; break ; case BLOCK_16X32 : build_masks ( lfi_n , mip [ 0 ] , shift_y , shift_uv , lfm ) ; if ( mi_32_col_offset + 2 >= max_cols ) continue ; mip2 = mip + 2 ; build_masks ( lfi_n , mip2 [ 0 ] , shift_y + 2 , shift_uv + 1 , lfm ) ; break ; default : for ( idx_16 = 0 ; idx_16 < 4 ; mip += offset_16 [ idx_16 ] , ++ idx_16 ) { const int shift_y = shift_32_y [ idx_32 ] + shift_16_y [ idx_16 ] ; const int shift_uv = shift_32_uv [ idx_32 ] + shift_16_uv [ idx_16 ] ; const int mi_16_col_offset = mi_32_col_offset + ( ( idx_16 & 1 ) << 1 ) ;" 274,"CWE-284 static int send_client_reply_packet ( MCPVIO_EXT * mpvio , const uchar * data , int data_len ) { MYSQL * mysql = mpvio -> mysql ; NET * net = & mysql -> net ; char * buff , * end ; size_t buff_size ; size_t connect_attrs_len = ( mysql -> server_capabilities & CLIENT_CONNECT_ATTRS && mysql -> options . extension ) ? mysql -> options . extension -> connection_attributes_length : 0 ; DBUG_ASSERT ( connect_attrs_len < MAX_CONNECTION_ATTR_STORAGE_LENGTH ) ; buff_size = 33 + USERNAME_LENGTH + data_len + 9 + NAME_LEN + NAME_LEN + connect_attrs_len + 9 ; buff = my_alloca ( buff_size ) ; mysql -> client_flag |= mysql -> options . client_flag ; mysql -> client_flag |= CLIENT_CAPABILITIES ; if ( mysql -> client_flag & CLIENT_MULTI_STATEMENTS ) mysql -> client_flag |= CLIENT_MULTI_RESULTS ; # if defined ( HAVE_OPENSSL ) && ! defined ( EMBEDDED_LIBRARY ) if ( mysql -> options . ssl_key || mysql -> options . ssl_cert || mysql -> options . ssl_ca || mysql -> options . ssl_capath || mysql -> options . ssl_cipher || ( mysql -> options . extension && mysql -> options . extension -> ssl_crl ) || ( mysql -> options . extension && mysql -> options . extension -> ssl_crlpath ) ) mysql -> options . use_ssl = 1 ; if ( mysql -> options . use_ssl ) mysql -> client_flag |= CLIENT_SSL ; # endif if ( mpvio -> db ) mysql -> client_flag |= CLIENT_CONNECT_WITH_DB ; else mysql -> client_flag &= ~ CLIENT_CONNECT_WITH_DB ; mysql -> client_flag = mysql -> client_flag & ( ~ ( CLIENT_COMPRESS | CLIENT_SSL | CLIENT_PROTOCOL_41 ) | mysql -> server_capabilities ) ; # ifndef HAVE_COMPRESS mysql -> client_flag &= ~ CLIENT_COMPRESS ; # endif if ( mysql -> client_flag & CLIENT_PROTOCOL_41 ) { int4store ( buff , mysql -> client_flag ) ; int4store ( buff + 4 , net -> max_packet_size ) ; buff [ 8 ] = ( char ) mysql -> charset -> number ; memset ( buff + 9 , 0 , 32 - 9 ) ; end = buff + 32 ; } else { int2store ( buff , mysql -> client_flag ) ; int3store ( buff + 2 , net -> max_packet_size ) ; end = buff + 5 ; } # ifdef HAVE_OPENSSL if ( mysql -> client_flag & CLIENT_SSL ) { struct st_mysql_options * options = & mysql -> options ; struct st_VioSSLFd * ssl_fd ; enum enum_ssl_init_error ssl_init_error ; const char * cert_error ; unsigned long ssl_error ; MYSQL_TRACE ( SEND_SSL_REQUEST , mysql , ( end - buff , ( const unsigned char * ) buff ) ) ; if ( my_net_write ( net , ( uchar * ) buff , ( size_t ) ( end - buff ) ) || net_flush ( net ) ) { set_mysql_extended_error ( mysql , CR_SERVER_LOST , unknown_sqlstate , ER ( CR_SERVER_LOST_EXTENDED ) , ""sending connection information to server"" , errno ) ; goto error ; } MYSQL_TRACE_STAGE ( mysql , SSL_NEGOTIATION ) ; if ( ! ( ssl_fd = new_VioSSLConnectorFd ( options -> ssl_key , options -> ssl_cert , options -> ssl_ca , options -> ssl_capath , options -> ssl_cipher , & ssl_init_error , options -> extension ? options -> extension -> ssl_crl : NULL , options -> extension ? options -> extension -> ssl_crlpath : NULL ) ) ) { set_mysql_extended_error ( mysql , CR_SSL_CONNECTION_ERROR , unknown_sqlstate , ER ( CR_SSL_CONNECTION_ERROR ) , sslGetErrString ( ssl_init_error ) ) ; goto error ; } mysql -> connector_fd = ( unsigned char * ) ssl_fd ; DBUG_PRINT ( ""info"" , ( ""IO layer change in progress..."" ) ) ; MYSQL_TRACE ( SSL_CONNECT , mysql , ( ) ) ; if ( sslconnect ( ssl_fd , net -> vio , ( long ) ( mysql -> options . connect_timeout ) , & ssl_error ) ) { char buf [ 512 ] ; ERR_error_string_n ( ssl_error , buf , 512 ) ; buf [ 511 ] = 0 ; set_mysql_extended_error ( mysql , CR_SSL_CONNECTION_ERROR , unknown_sqlstate , ER ( CR_SSL_CONNECTION_ERROR ) , buf ) ; goto error ; } DBUG_PRINT ( ""info"" , ( ""IO layer change done!"" ) ) ; if ( ( mysql -> client_flag & CLIENT_SSL_VERIFY_SERVER_CERT ) && ssl_verify_server_cert ( net -> vio , mysql -> host , & cert_error ) ) { set_mysql_extended_error ( mysql , CR_SSL_CONNECTION_ERROR , unknown_sqlstate , ER ( CR_SSL_CONNECTION_ERROR ) , cert_error ) ; goto error ; } MYSQL_TRACE ( SSL_CONNECTED , mysql , ( ) ) ; MYSQL_TRACE_STAGE ( mysql , AUTHENTICATE ) ; }","static int send_client_reply_packet ( MCPVIO_EXT * mpvio , const uchar * data , int data_len ) { MYSQL * mysql = mpvio -> mysql ; NET * net = & mysql -> net ; char * buff , * end ; size_t buff_size ; size_t connect_attrs_len = ( mysql -> server_capabilities & CLIENT_CONNECT_ATTRS && mysql -> options . extension ) ? mysql -> options . extension -> connection_attributes_length : 0 ; DBUG_ASSERT ( connect_attrs_len < MAX_CONNECTION_ATTR_STORAGE_LENGTH ) ; buff_size = 33 + USERNAME_LENGTH + data_len + 9 + NAME_LEN + NAME_LEN + connect_attrs_len + 9 ; buff = my_alloca ( buff_size ) ; mysql -> client_flag |= mysql -> options . client_flag ; mysql -> client_flag |= CLIENT_CAPABILITIES ; if ( mysql -> client_flag & CLIENT_MULTI_STATEMENTS ) mysql -> client_flag |= CLIENT_MULTI_RESULTS ; # if defined ( HAVE_OPENSSL ) && ! defined ( EMBEDDED_LIBRARY ) if ( mysql -> options . ssl_key || mysql -> options . ssl_cert || mysql -> options . ssl_ca || mysql -> options . ssl_capath || mysql -> options . ssl_cipher || ( mysql -> options . extension && mysql -> options . extension -> ssl_crl ) || ( mysql -> options . extension && mysql -> options . extension -> ssl_crlpath ) || ( mysql -> options . extension && mysql -> options . extension -> ssl_enforce ) ) mysql -> options . use_ssl = TRUE ; if ( mysql -> options . use_ssl ) mysql -> client_flag |= CLIENT_SSL ; # endif if ( mpvio -> db ) mysql -> client_flag |= CLIENT_CONNECT_WITH_DB ; else mysql -> client_flag &= ~ CLIENT_CONNECT_WITH_DB ; mysql -> client_flag = mysql -> client_flag & ( ~ ( CLIENT_COMPRESS | CLIENT_SSL | CLIENT_PROTOCOL_41 ) | mysql -> server_capabilities ) ; # ifndef HAVE_COMPRESS mysql -> client_flag &= ~ CLIENT_COMPRESS ; # endif if ( mysql -> client_flag & CLIENT_PROTOCOL_41 ) { int4store ( buff , mysql -> client_flag ) ; int4store ( buff + 4 , net -> max_packet_size ) ; buff [ 8 ] = ( char ) mysql -> charset -> number ; memset ( buff + 9 , 0 , 32 - 9 ) ; end = buff + 32 ; } else { int2store ( buff , mysql -> client_flag ) ; int3store ( buff + 2 , net -> max_packet_size ) ; end = buff + 5 ; } # ifdef HAVE_OPENSSL if ( mysql -> options . extension && mysql -> options . extension -> ssl_enforce ) { DBUG_ASSERT ( mysql -> options . use_ssl ) ; if ( ! ( mysql -> server_capabilities & CLIENT_SSL ) ) { set_mysql_extended_error ( mysql , CR_SSL_CONNECTION_ERROR , unknown_sqlstate , ER ( CR_SSL_CONNECTION_ERROR ) , ""SSL is required but the server doesn\'t "" ""support it"" ) ; goto error ; } } if ( ( mysql -> server_capabilities & CLIENT_SSL ) && mysql -> options . use_ssl ) { struct st_mysql_options * options = & mysql -> options ; struct st_VioSSLFd * ssl_fd ; enum enum_ssl_init_error ssl_init_error ; const char * cert_error ; unsigned long ssl_error ; if ( ! mysql -> options . ssl_cipher ) { SET_OPTION ( ssl_cipher , default_ssl_cipher ) ; } MYSQL_TRACE ( SEND_SSL_REQUEST , mysql , ( end - buff , ( const unsigned char * ) buff ) ) ; if ( my_net_write ( net , ( uchar * ) buff , ( size_t ) ( end - buff ) ) || net_flush ( net ) ) { set_mysql_extended_error ( mysql , CR_SERVER_LOST , unknown_sqlstate , ER ( CR_SERVER_LOST_EXTENDED ) , ""sending connection information to server"" , errno ) ; goto error ; } MYSQL_TRACE_STAGE ( mysql , SSL_NEGOTIATION ) ; if ( ! ( ssl_fd = new_VioSSLConnectorFd ( options -> ssl_key , options -> ssl_cert , options -> ssl_ca , options -> ssl_capath , options -> ssl_cipher , & ssl_init_error , options -> extension ? options -> extension -> ssl_crl : NULL , options -> extension ? options -> extension -> ssl_crlpath : NULL ) ) ) { set_mysql_extended_error ( mysql , CR_SSL_CONNECTION_ERROR , unknown_sqlstate , ER ( CR_SSL_CONNECTION_ERROR ) , sslGetErrString ( ssl_init_error ) ) ; goto error ; } mysql -> connector_fd = ( unsigned char * ) ssl_fd ; DBUG_PRINT ( ""info"" , ( ""IO layer change in progress..."" ) ) ; MYSQL_TRACE ( SSL_CONNECT , mysql , ( ) ) ; if ( sslconnect ( ssl_fd , net -> vio , ( long ) ( mysql -> options . connect_timeout ) , & ssl_error ) ) { char buf [ 512 ] ; ERR_error_string_n ( ssl_error , buf , 512 ) ; buf [ 511 ] = 0 ; set_mysql_extended_error ( mysql , CR_SSL_CONNECTION_ERROR , unknown_sqlstate , ER ( CR_SSL_CONNECTION_ERROR ) , buf ) ; goto error ; } DBUG_PRINT ( ""info"" , ( ""IO layer change done!"" ) ) ; if ( ( mysql -> client_flag & CLIENT_SSL_VERIFY_SERVER_CERT ) && ssl_verify_server_cert ( net -> vio , mysql -> host , & cert_error ) ) { set_mysql_extended_error ( mysql , CR_SSL_CONNECTION_ERROR , unknown_sqlstate , ER ( CR_SSL_CONNECTION_ERROR ) , cert_error ) ; goto error ; } MYSQL_TRACE ( SSL_CONNECTED , mysql , ( ) ) ; MYSQL_TRACE_STAGE ( mysql , AUTHENTICATE ) ; }" 275,"CWE-119 SEL * selReadStream ( FILE * fp ) { char * selname ; char linebuf [ L_BUF_SIZE ] ; l_int32 sy , sx , cy , cx , i , j , version , ignore ; SEL * sel ; PROCNAME ( ""selReadStream"" ) ; if ( ! fp ) return ( SEL * ) ERROR_PTR ( ""stream not defined"" , procName , NULL ) ; if ( fscanf ( fp , "" Sel Version %d\\n"" , & version ) != 1 ) return ( SEL * ) ERROR_PTR ( ""not a sel file"" , procName , NULL ) ; if ( version != SEL_VERSION_NUMBER ) return ( SEL * ) ERROR_PTR ( ""invalid sel version"" , procName , NULL ) ; if ( fgets ( linebuf , L_BUF_SIZE , fp ) == NULL ) return ( SEL * ) ERROR_PTR ( ""error reading into linebuf"" , procName , NULL ) ; selname = stringNew ( linebuf ) ; sscanf ( linebuf , "" ------ %s ------"" , selname ) ; if ( fscanf ( fp , "" sy = %d, sx = %d, cy = %d, cx = %d\\n"" , & sy , & sx , & cy , & cx ) != 4 ) { LEPT_FREE ( selname ) ; return ( SEL * ) ERROR_PTR ( ""dimensions not read"" , procName , NULL ) ; } if ( ( sel = selCreate ( sy , sx , selname ) ) == NULL ) { LEPT_FREE ( selname ) ; return ( SEL * ) ERROR_PTR ( ""sel not made"" , procName , NULL ) ; } selSetOrigin ( sel , cy , cx ) ; for ( i = 0 ; i < sy ; i ++ ) { ignore = fscanf ( fp , "" "" ) ; for ( j = 0 ; j < sx ; j ++ ) ignore = fscanf ( fp , ""%1d"" , & sel -> data [ i ] [ j ] ) ; ignore = fscanf ( fp , ""\\n"" ) ; } ignore = fscanf ( fp , ""\\n"" ) ; LEPT_FREE ( selname ) ; return sel ; }","SEL * selReadStream ( FILE * fp ) { char * selname ; char linebuf [ L_BUFSIZE ] ; l_int32 sy , sx , cy , cx , i , j , version , ignore ; SEL * sel ; PROCNAME ( ""selReadStream"" ) ; if ( ! fp ) return ( SEL * ) ERROR_PTR ( ""stream not defined"" , procName , NULL ) ; if ( fscanf ( fp , "" Sel Version %d\\n"" , & version ) != 1 ) return ( SEL * ) ERROR_PTR ( ""not a sel file"" , procName , NULL ) ; if ( version != SEL_VERSION_NUMBER ) return ( SEL * ) ERROR_PTR ( ""invalid sel version"" , procName , NULL ) ; if ( fgets ( linebuf , L_BUFSIZE , fp ) == NULL ) return ( SEL * ) ERROR_PTR ( ""error reading into linebuf"" , procName , NULL ) ; selname = stringNew ( linebuf ) ; sscanf ( linebuf , "" ------ %200s ------"" , selname ) ; if ( fscanf ( fp , "" sy = %d, sx = %d, cy = %d, cx = %d\\n"" , & sy , & sx , & cy , & cx ) != 4 ) { LEPT_FREE ( selname ) ; return ( SEL * ) ERROR_PTR ( ""dimensions not read"" , procName , NULL ) ; } if ( ( sel = selCreate ( sy , sx , selname ) ) == NULL ) { LEPT_FREE ( selname ) ; return ( SEL * ) ERROR_PTR ( ""sel not made"" , procName , NULL ) ; } selSetOrigin ( sel , cy , cx ) ; for ( i = 0 ; i < sy ; i ++ ) { ignore = fscanf ( fp , "" "" ) ; for ( j = 0 ; j < sx ; j ++ ) ignore = fscanf ( fp , ""%1d"" , & sel -> data [ i ] [ j ] ) ; ignore = fscanf ( fp , ""\\n"" ) ; } ignore = fscanf ( fp , ""\\n"" ) ; LEPT_FREE ( selname ) ; return sel ; }" 276,"CWE-119 static void read_intra_frame_mode_info ( VP9_COMMON * const cm , MACROBLOCKD * const xd , int mi_row , int mi_col , vp9_reader * r ) { MODE_INFO * const mi = xd -> mi [ 0 ] ; MB_MODE_INFO * const mbmi = & mi -> mbmi ; const MODE_INFO * above_mi = xd -> mi [ - cm -> mi_stride ] ; const MODE_INFO * left_mi = xd -> left_available ? xd -> mi [ - 1 ] : NULL ; const BLOCK_SIZE bsize = mbmi -> sb_type ; int i ; mbmi -> segment_id = read_intra_segment_id ( cm , xd , mi_row , mi_col , r ) ; mbmi -> skip = read_skip ( cm , xd , mbmi -> segment_id , r ) ; mbmi -> tx_size = read_tx_size ( cm , xd , cm -> tx_mode , bsize , 1 , r ) ; mbmi -> ref_frame [ 0 ] = INTRA_FRAME ; mbmi -> ref_frame [ 1 ] = NONE ; switch ( bsize ) { case BLOCK_4X4 : for ( i = 0 ; i < 4 ; ++ i ) mi -> bmi [ i ] . as_mode = read_intra_mode ( r , get_y_mode_probs ( mi , above_mi , left_mi , i ) ) ; mbmi -> mode = mi -> bmi [ 3 ] . as_mode ; break ; case BLOCK_4X8 : mi -> bmi [ 0 ] . as_mode = mi -> bmi [ 2 ] . as_mode = read_intra_mode ( r , get_y_mode_probs ( mi , above_mi , left_mi , 0 ) ) ; mi -> bmi [ 1 ] . as_mode = mi -> bmi [ 3 ] . as_mode = mbmi -> mode = read_intra_mode ( r , get_y_mode_probs ( mi , above_mi , left_mi , 1 ) ) ; break ; case BLOCK_8X4 : mi -> bmi [ 0 ] . as_mode = mi -> bmi [ 1 ] . as_mode = read_intra_mode ( r , get_y_mode_probs ( mi , above_mi , left_mi , 0 ) ) ; mi -> bmi [ 2 ] . as_mode = mi -> bmi [ 3 ] . as_mode = mbmi -> mode = read_intra_mode ( r , get_y_mode_probs ( mi , above_mi , left_mi , 2 ) ) ; break ; default : mbmi -> mode = read_intra_mode ( r , get_y_mode_probs ( mi , above_mi , left_mi , 0 ) ) ; } mbmi -> uv_mode = read_intra_mode ( r , vp9_kf_uv_mode_prob [ mbmi -> mode ] ) ; }","static void read_intra_frame_mode_info ( VP9_COMMON * const cm , MACROBLOCKD * const xd , int mi_row , int mi_col , vpx_reader * r ) { MODE_INFO * const mi = xd -> mi [ 0 ] ; MB_MODE_INFO * const mbmi = & mi -> mbmi ; const MODE_INFO * above_mi = xd -> above_mi ; const MODE_INFO * left_mi = xd -> left_mi ; const BLOCK_SIZE bsize = mbmi -> sb_type ; int i ; const int mi_offset = mi_row * cm -> mi_cols + mi_col ; const int bw = xd -> plane [ 0 ] . n4_w >> 1 ; const int bh = xd -> plane [ 0 ] . n4_h >> 1 ; const int x_mis = MIN ( cm -> mi_cols - mi_col , bw ) ; const int y_mis = MIN ( cm -> mi_rows - mi_row , bh ) ; mbmi -> segment_id = read_intra_segment_id ( cm , mi_offset , x_mis , y_mis , r ) ; mbmi -> skip = read_skip ( cm , xd , mbmi -> segment_id , r ) ; mbmi -> tx_size = read_tx_size ( cm , xd , 1 , r ) ; mbmi -> ref_frame [ 0 ] = INTRA_FRAME ; mbmi -> ref_frame [ 1 ] = NONE ; switch ( bsize ) { case BLOCK_4X4 : for ( i = 0 ; i < 4 ; ++ i ) mi -> bmi [ i ] . as_mode = read_intra_mode ( r , get_y_mode_probs ( mi , above_mi , left_mi , i ) ) ; mbmi -> mode = mi -> bmi [ 3 ] . as_mode ; break ; case BLOCK_4X8 : mi -> bmi [ 0 ] . as_mode = mi -> bmi [ 2 ] . as_mode = read_intra_mode ( r , get_y_mode_probs ( mi , above_mi , left_mi , 0 ) ) ; mi -> bmi [ 1 ] . as_mode = mi -> bmi [ 3 ] . as_mode = mbmi -> mode = read_intra_mode ( r , get_y_mode_probs ( mi , above_mi , left_mi , 1 ) ) ; break ; case BLOCK_8X4 : mi -> bmi [ 0 ] . as_mode = mi -> bmi [ 1 ] . as_mode = read_intra_mode ( r , get_y_mode_probs ( mi , above_mi , left_mi , 0 ) ) ; mi -> bmi [ 2 ] . as_mode = mi -> bmi [ 3 ] . as_mode = mbmi -> mode = read_intra_mode ( r , get_y_mode_probs ( mi , above_mi , left_mi , 2 ) ) ; break ; default : mbmi -> mode = read_intra_mode ( r , get_y_mode_probs ( mi , above_mi , left_mi , 0 ) ) ; } mbmi -> uv_mode = read_intra_mode ( r , vp9_kf_uv_mode_prob [ mbmi -> mode ] ) ; }" 277,"CWE-401 struct resource_pool * dce100_create_resource_pool ( uint8_t num_virtual_links , struct dc * dc ) { struct dce110_resource_pool * pool = kzalloc ( sizeof ( struct dce110_resource_pool ) , GFP_KERNEL ) ; if ( ! pool ) return NULL ; if ( construct ( num_virtual_links , dc , pool ) ) return & pool -> base ; BREAK_TO_DEBUGGER ( ) ; return NULL ; }","struct resource_pool * dce100_create_resource_pool ( uint8_t num_virtual_links , struct dc * dc ) { struct dce110_resource_pool * pool = kzalloc ( sizeof ( struct dce110_resource_pool ) , GFP_KERNEL ) ; if ( ! pool ) return NULL ; if ( construct ( num_virtual_links , dc , pool ) ) return & pool -> base ; kfree ( pool ) ; BREAK_TO_DEBUGGER ( ) ; return NULL ; }" 278,"CWE-284 static void umount_tree ( struct mount * mnt , enum umount_tree_flags how ) { LIST_HEAD ( tmp_list ) ; struct mount * p ; if ( how & UMOUNT_PROPAGATE ) propagate_mount_unlock ( mnt ) ; for ( p = mnt ; p ; p = next_mnt ( p , mnt ) ) { p -> mnt . mnt_flags |= MNT_UMOUNT ; list_move ( & p -> mnt_list , & tmp_list ) ; } list_for_each_entry ( p , & tmp_list , mnt_list ) { list_del_init ( & p -> mnt_child ) ; } if ( how & UMOUNT_PROPAGATE ) propagate_umount ( & tmp_list ) ; while ( ! list_empty ( & tmp_list ) ) { p = list_first_entry ( & tmp_list , struct mount , mnt_list ) ; list_del_init ( & p -> mnt_expire ) ; list_del_init ( & p -> mnt_list ) ; __touch_mnt_namespace ( p -> mnt_ns ) ; p -> mnt_ns = NULL ; if ( how & UMOUNT_SYNC ) p -> mnt . mnt_flags |= MNT_SYNC_UMOUNT ; pin_insert_group ( & p -> mnt_umount , & p -> mnt_parent -> mnt , & unmounted ) ; if ( mnt_has_parent ( p ) ) { mnt_add_count ( p -> mnt_parent , - 1 ) ; umount_mnt ( p ) ; } change_mnt_propagation ( p , MS_PRIVATE ) ; } }","static void umount_tree ( struct mount * mnt , enum umount_tree_flags how ) { LIST_HEAD ( tmp_list ) ; struct mount * p ; if ( how & UMOUNT_PROPAGATE ) propagate_mount_unlock ( mnt ) ; for ( p = mnt ; p ; p = next_mnt ( p , mnt ) ) { p -> mnt . mnt_flags |= MNT_UMOUNT ; list_move ( & p -> mnt_list , & tmp_list ) ; } list_for_each_entry ( p , & tmp_list , mnt_list ) { list_del_init ( & p -> mnt_child ) ; } if ( how & UMOUNT_PROPAGATE ) propagate_umount ( & tmp_list ) ; while ( ! list_empty ( & tmp_list ) ) { bool disconnect ; p = list_first_entry ( & tmp_list , struct mount , mnt_list ) ; list_del_init ( & p -> mnt_expire ) ; list_del_init ( & p -> mnt_list ) ; __touch_mnt_namespace ( p -> mnt_ns ) ; p -> mnt_ns = NULL ; if ( how & UMOUNT_SYNC ) p -> mnt . mnt_flags |= MNT_SYNC_UMOUNT ; disconnect = ! IS_MNT_LOCKED_AND_LAZY ( p ) ; pin_insert_group ( & p -> mnt_umount , & p -> mnt_parent -> mnt , disconnect ? & unmounted : NULL ) ; if ( mnt_has_parent ( p ) ) { mnt_add_count ( p -> mnt_parent , - 1 ) ; if ( ! disconnect ) { list_add_tail ( & p -> mnt_child , & p -> mnt_parent -> mnt_mounts ) ; } else { umount_mnt ( p ) ; } } change_mnt_propagation ( p , MS_PRIVATE ) ; } }" 279,"CWE-119 static int check_entry_size_and_hooks ( struct ip6t_entry * e , struct xt_table_info * newinfo , const unsigned char * base , const unsigned char * limit , const unsigned int * hook_entries , const unsigned int * underflows , unsigned int valid_hooks ) { unsigned int h ; int err ; if ( ( unsigned long ) e % __alignof__ ( struct ip6t_entry ) != 0 || ( unsigned char * ) e + sizeof ( struct ip6t_entry ) >= limit || ( unsigned char * ) e + e -> next_offset > limit ) { duprintf ( ""Bad offset %p\\n"" , e ) ; return - EINVAL ; } if ( e -> next_offset < sizeof ( struct ip6t_entry ) + sizeof ( struct xt_entry_target ) ) { duprintf ( ""checking: element %p size %u\\n"" , e , e -> next_offset ) ; return - EINVAL ; } err = check_entry ( e ) ; if ( err ) return err ; for ( h = 0 ; h < NF_INET_NUMHOOKS ; h ++ ) { if ( ! ( valid_hooks & ( 1 << h ) ) ) continue ; if ( ( unsigned char * ) e - base == hook_entries [ h ] ) newinfo -> hook_entry [ h ] = hook_entries [ h ] ; if ( ( unsigned char * ) e - base == underflows [ h ] ) { if ( ! check_underflow ( e ) ) { pr_err ( ""Underflows must be unconditional and "" ""use the STANDARD target with "" ""ACCEPT/DROP\\n"" ) ; return - EINVAL ; } newinfo -> underflow [ h ] = underflows [ h ] ; } } e -> counters = ( ( struct xt_counters ) { 0 , 0 } ) ; e -> comefrom = 0 ; return 0 ; }","static int check_entry_size_and_hooks ( struct ip6t_entry * e , struct xt_table_info * newinfo , const unsigned char * base , const unsigned char * limit , const unsigned int * hook_entries , const unsigned int * underflows , unsigned int valid_hooks ) { unsigned int h ; int err ; if ( ( unsigned long ) e % __alignof__ ( struct ip6t_entry ) != 0 || ( unsigned char * ) e + sizeof ( struct ip6t_entry ) >= limit || ( unsigned char * ) e + e -> next_offset > limit ) { duprintf ( ""Bad offset %p\\n"" , e ) ; return - EINVAL ; } if ( e -> next_offset < sizeof ( struct ip6t_entry ) + sizeof ( struct xt_entry_target ) ) { duprintf ( ""checking: element %p size %u\\n"" , e , e -> next_offset ) ; return - EINVAL ; } err = check_entry ( e ) ; if ( err ) return err ; for ( h = 0 ; h < NF_INET_NUMHOOKS ; h ++ ) { if ( ! ( valid_hooks & ( 1 << h ) ) ) continue ; if ( ( unsigned char * ) e - base == hook_entries [ h ] ) newinfo -> hook_entry [ h ] = hook_entries [ h ] ; if ( ( unsigned char * ) e - base == underflows [ h ] ) { if ( ! check_underflow ( e ) ) { pr_debug ( ""Underflows must be unconditional and "" ""use the STANDARD target with "" ""ACCEPT/DROP\\n"" ) ; return - EINVAL ; } newinfo -> underflow [ h ] = underflows [ h ] ; } } e -> counters = ( ( struct xt_counters ) { 0 , 0 } ) ; e -> comefrom = 0 ; return 0 ; }" 280,"CWE-20 static int rose_recvmsg ( struct kiocb * iocb , struct socket * sock , struct msghdr * msg , size_t size , int flags ) { struct sock * sk = sock -> sk ; struct rose_sock * rose = rose_sk ( sk ) ; struct sockaddr_rose * srose = ( struct sockaddr_rose * ) msg -> msg_name ; size_t copied ; unsigned char * asmptr ; struct sk_buff * skb ; int n , er , qbit ; if ( sk -> sk_state != TCP_ESTABLISHED ) return - ENOTCONN ; if ( ( skb = skb_recv_datagram ( sk , flags & ~ MSG_DONTWAIT , flags & MSG_DONTWAIT , & er ) ) == NULL ) return er ; qbit = ( skb -> data [ 0 ] & ROSE_Q_BIT ) == ROSE_Q_BIT ; skb_pull ( skb , ROSE_MIN_LEN ) ; if ( rose -> qbitincl ) { asmptr = skb_push ( skb , 1 ) ; * asmptr = qbit ; } skb_reset_transport_header ( skb ) ; copied = skb -> len ; if ( copied > size ) { copied = size ; msg -> msg_flags |= MSG_TRUNC ; } skb_copy_datagram_iovec ( skb , 0 , msg -> msg_iov , copied ) ; if ( srose != NULL ) { memset ( srose , 0 , msg -> msg_namelen ) ; srose -> srose_family = AF_ROSE ; srose -> srose_addr = rose -> dest_addr ; srose -> srose_call = rose -> dest_call ; srose -> srose_ndigis = rose -> dest_ndigis ; if ( msg -> msg_namelen >= sizeof ( struct full_sockaddr_rose ) ) { struct full_sockaddr_rose * full_srose = ( struct full_sockaddr_rose * ) msg -> msg_name ; for ( n = 0 ; n < rose -> dest_ndigis ; n ++ ) full_srose -> srose_digis [ n ] = rose -> dest_digis [ n ] ; msg -> msg_namelen = sizeof ( struct full_sockaddr_rose ) ; } else { if ( rose -> dest_ndigis >= 1 ) { srose -> srose_ndigis = 1 ; srose -> srose_digi = rose -> dest_digis [ 0 ] ; } msg -> msg_namelen = sizeof ( struct sockaddr_rose ) ; } } skb_free_datagram ( sk , skb ) ; return copied ; }","static int rose_recvmsg ( struct kiocb * iocb , struct socket * sock , struct msghdr * msg , size_t size , int flags ) { struct sock * sk = sock -> sk ; struct rose_sock * rose = rose_sk ( sk ) ; size_t copied ; unsigned char * asmptr ; struct sk_buff * skb ; int n , er , qbit ; if ( sk -> sk_state != TCP_ESTABLISHED ) return - ENOTCONN ; if ( ( skb = skb_recv_datagram ( sk , flags & ~ MSG_DONTWAIT , flags & MSG_DONTWAIT , & er ) ) == NULL ) return er ; qbit = ( skb -> data [ 0 ] & ROSE_Q_BIT ) == ROSE_Q_BIT ; skb_pull ( skb , ROSE_MIN_LEN ) ; if ( rose -> qbitincl ) { asmptr = skb_push ( skb , 1 ) ; * asmptr = qbit ; } skb_reset_transport_header ( skb ) ; copied = skb -> len ; if ( copied > size ) { copied = size ; msg -> msg_flags |= MSG_TRUNC ; } skb_copy_datagram_iovec ( skb , 0 , msg -> msg_iov , copied ) ; if ( msg -> msg_name ) { struct sockaddr_rose * srose ; memset ( msg -> msg_name , 0 , sizeof ( struct full_sockaddr_rose ) ) ; srose = msg -> msg_name ; srose -> srose_family = AF_ROSE ; srose -> srose_addr = rose -> dest_addr ; srose -> srose_call = rose -> dest_call ; srose -> srose_ndigis = rose -> dest_ndigis ; if ( msg -> msg_namelen >= sizeof ( struct full_sockaddr_rose ) ) { struct full_sockaddr_rose * full_srose = ( struct full_sockaddr_rose * ) msg -> msg_name ; for ( n = 0 ; n < rose -> dest_ndigis ; n ++ ) full_srose -> srose_digis [ n ] = rose -> dest_digis [ n ] ; msg -> msg_namelen = sizeof ( struct full_sockaddr_rose ) ; } else { if ( rose -> dest_ndigis >= 1 ) { srose -> srose_ndigis = 1 ; srose -> srose_digi = rose -> dest_digis [ 0 ] ; } msg -> msg_namelen = sizeof ( struct sockaddr_rose ) ; } } skb_free_datagram ( sk , skb ) ; return copied ; }" 281,"CWE-399 long video_usercopy ( struct file * file , unsigned int cmd , unsigned long arg , v4l2_kioctl func ) { char sbuf [ 128 ] ; void * mbuf = NULL ; void * parg = NULL ; long err = - EINVAL ; int is_ext_ctrl ; size_t ctrls_size = 0 ; void __user * user_ptr = NULL ; is_ext_ctrl = ( cmd == VIDIOC_S_EXT_CTRLS || cmd == VIDIOC_G_EXT_CTRLS || cmd == VIDIOC_TRY_EXT_CTRLS ) ; switch ( _IOC_DIR ( cmd ) ) { case _IOC_NONE : parg = NULL ; break ; case _IOC_READ : case _IOC_WRITE : case ( _IOC_WRITE | _IOC_READ ) : if ( _IOC_SIZE ( cmd ) <= sizeof ( sbuf ) ) { parg = sbuf ; } else { mbuf = kmalloc ( _IOC_SIZE ( cmd ) , GFP_KERNEL ) ; if ( NULL == mbuf ) return - ENOMEM ; parg = mbuf ; } err = - EFAULT ; if ( _IOC_DIR ( cmd ) & _IOC_WRITE ) if ( copy_from_user ( parg , ( void __user * ) arg , _IOC_SIZE ( cmd ) ) ) goto out ; break ; } if ( is_ext_ctrl ) { struct v4l2_ext_controls * p = parg ; p -> error_idx = p -> count ; user_ptr = ( void __user * ) p -> controls ; if ( p -> count ) { ctrls_size = sizeof ( struct v4l2_ext_control ) * p -> count ; mbuf = kmalloc ( ctrls_size , GFP_KERNEL ) ; err = - ENOMEM ; if ( NULL == mbuf ) goto out_ext_ctrl ; err = - EFAULT ; if ( copy_from_user ( mbuf , user_ptr , ctrls_size ) ) goto out_ext_ctrl ; p -> controls = mbuf ; } } err = func ( file , cmd , parg ) ; if ( err == - ENOIOCTLCMD ) err = - EINVAL ; if ( is_ext_ctrl ) { struct v4l2_ext_controls * p = parg ; p -> controls = ( void * ) user_ptr ; if ( p -> count && err == 0 && copy_to_user ( user_ptr , mbuf , ctrls_size ) ) err = - EFAULT ; goto out_ext_ctrl ; } if ( err < 0 ) goto out ; out_ext_ctrl : switch ( _IOC_DIR ( cmd ) ) { case _IOC_READ : case ( _IOC_WRITE | _IOC_READ ) : if ( copy_to_user ( ( void __user * ) arg , parg , _IOC_SIZE ( cmd ) ) ) err = - EFAULT ; break ; } out : kfree ( mbuf ) ; return err ; }","long video_usercopy ( struct file * file , unsigned int cmd , unsigned long arg , v4l2_kioctl func ) { char sbuf [ 128 ] ; void * mbuf = NULL ; void * parg = ( void * ) arg ; long err = - EINVAL ; bool has_array_args ; size_t array_size = 0 ; void __user * user_ptr = NULL ; void * * kernel_ptr = NULL ; if ( _IOC_DIR ( cmd ) != _IOC_NONE ) { if ( _IOC_SIZE ( cmd ) <= sizeof ( sbuf ) ) { parg = sbuf ; } else { mbuf = kmalloc ( _IOC_SIZE ( cmd ) , GFP_KERNEL ) ; if ( NULL == mbuf ) return - ENOMEM ; parg = mbuf ; } err = - EFAULT ; if ( _IOC_DIR ( cmd ) & _IOC_WRITE ) { unsigned long n = cmd_input_size ( cmd ) ; if ( copy_from_user ( parg , ( void __user * ) arg , n ) ) goto out ; if ( n < _IOC_SIZE ( cmd ) ) memset ( ( u8 * ) parg + n , 0 , _IOC_SIZE ( cmd ) - n ) ; } else { memset ( parg , 0 , _IOC_SIZE ( cmd ) ) ; } } err = check_array_args ( cmd , parg , & array_size , & user_ptr , & kernel_ptr ) ; if ( err < 0 ) goto out ; has_array_args = err ; if ( has_array_args ) { mbuf = kmalloc ( array_size , GFP_KERNEL ) ; err = - ENOMEM ; if ( NULL == mbuf ) goto out_array_args ; err = - EFAULT ; if ( copy_from_user ( mbuf , user_ptr , array_size ) ) goto out_array_args ; * kernel_ptr = mbuf ; } err = func ( file , cmd , parg ) ; if ( err == - ENOIOCTLCMD ) err = - EINVAL ; if ( has_array_args ) { * kernel_ptr = user_ptr ; if ( copy_to_user ( user_ptr , mbuf , array_size ) ) err = - EFAULT ; goto out_array_args ; } if ( err < 0 ) goto out ; out_array_args : switch ( _IOC_DIR ( cmd ) ) { case _IOC_READ : case ( _IOC_WRITE | _IOC_READ ) : if ( copy_to_user ( ( void __user * ) arg , parg , _IOC_SIZE ( cmd ) ) ) err = - EFAULT ; break ; } out : kfree ( mbuf ) ; return err ; }" 282,"CWE-476 void pdo_stmt_init ( TSRMLS_D ) { zend_class_entry ce ; INIT_CLASS_ENTRY ( ce , ""PDOStatement"" , pdo_dbstmt_functions ) ; pdo_dbstmt_ce = zend_register_internal_class ( & ce TSRMLS_CC ) ; pdo_dbstmt_ce -> get_iterator = pdo_stmt_iter_get ; pdo_dbstmt_ce -> create_object = pdo_dbstmt_new ; zend_class_implements ( pdo_dbstmt_ce TSRMLS_CC , 1 , zend_ce_traversable ) ; zend_declare_property_null ( pdo_dbstmt_ce , ""queryString"" , sizeof ( ""queryString"" ) - 1 , ZEND_ACC_PUBLIC TSRMLS_CC ) ; memcpy ( & pdo_dbstmt_object_handlers , & std_object_handlers , sizeof ( zend_object_handlers ) ) ; pdo_dbstmt_object_handlers . write_property = dbstmt_prop_write ; pdo_dbstmt_object_handlers . unset_property = dbstmt_prop_delete ; pdo_dbstmt_object_handlers . get_method = dbstmt_method_get ; pdo_dbstmt_object_handlers . compare_objects = dbstmt_compare ; pdo_dbstmt_object_handlers . clone_obj = dbstmt_clone_obj ; INIT_CLASS_ENTRY ( ce , ""PDORow"" , pdo_row_functions ) ; pdo_row_ce = zend_register_internal_class ( & ce TSRMLS_CC ) ; pdo_row_ce -> ce_flags |= ZEND_ACC_FINAL_CLASS ; pdo_row_ce -> create_object = pdo_row_new ; pdo_row_ce -> serialize = pdo_row_serialize ; }","void pdo_stmt_init ( TSRMLS_D ) { zend_class_entry ce ; INIT_CLASS_ENTRY ( ce , ""PDOStatement"" , pdo_dbstmt_functions ) ; pdo_dbstmt_ce = zend_register_internal_class ( & ce TSRMLS_CC ) ; pdo_dbstmt_ce -> get_iterator = pdo_stmt_iter_get ; pdo_dbstmt_ce -> create_object = pdo_dbstmt_new ; zend_class_implements ( pdo_dbstmt_ce TSRMLS_CC , 1 , zend_ce_traversable ) ; zend_declare_property_null ( pdo_dbstmt_ce , ""queryString"" , sizeof ( ""queryString"" ) - 1 , ZEND_ACC_PUBLIC TSRMLS_CC ) ; memcpy ( & pdo_dbstmt_object_handlers , & std_object_handlers , sizeof ( zend_object_handlers ) ) ; pdo_dbstmt_object_handlers . write_property = dbstmt_prop_write ; pdo_dbstmt_object_handlers . unset_property = dbstmt_prop_delete ; pdo_dbstmt_object_handlers . get_method = dbstmt_method_get ; pdo_dbstmt_object_handlers . compare_objects = dbstmt_compare ; pdo_dbstmt_object_handlers . clone_obj = dbstmt_clone_obj ; INIT_CLASS_ENTRY ( ce , ""PDORow"" , pdo_row_functions ) ; pdo_row_ce = zend_register_internal_class ( & ce TSRMLS_CC ) ; pdo_row_ce -> ce_flags |= ZEND_ACC_FINAL_CLASS ; pdo_row_ce -> create_object = pdo_row_new ; pdo_row_ce -> serialize = pdo_row_serialize ; pdo_row_ce -> unserialize = zend_class_unserialize_deny ; }" 283,"CWE-119 void vp9_init_plane_quantizers ( VP9_COMP * cpi , MACROBLOCK * x ) { const VP9_COMMON * const cm = & cpi -> common ; MACROBLOCKD * const xd = & x -> e_mbd ; QUANTS * const quants = & cpi -> quants ; const int segment_id = xd -> mi [ 0 ] -> mbmi . segment_id ; const int qindex = vp9_get_qindex ( & cm -> seg , segment_id , cm -> base_qindex ) ; const int rdmult = vp9_compute_rd_mult ( cpi , qindex + cm -> y_dc_delta_q ) ; const int zbin = cpi -> zbin_mode_boost + x -> act_zbin_adj ; int i ; x -> plane [ 0 ] . quant = quants -> y_quant [ qindex ] ; x -> plane [ 0 ] . quant_shift = quants -> y_quant_shift [ qindex ] ; x -> plane [ 0 ] . zbin = quants -> y_zbin [ qindex ] ; x -> plane [ 0 ] . round = quants -> y_round [ qindex ] ; x -> plane [ 0 ] . zbin_extra = ( int16_t ) ( ( cm -> y_dequant [ qindex ] [ 1 ] * zbin ) >> 7 ) ; xd -> plane [ 0 ] . dequant = cm -> y_dequant [ qindex ] ; for ( i = 1 ; i < 3 ; i ++ ) { x -> plane [ i ] . quant = quants -> uv_quant [ qindex ] ; x -> plane [ i ] . quant_shift = quants -> uv_quant_shift [ qindex ] ; x -> plane [ i ] . zbin = quants -> uv_zbin [ qindex ] ; x -> plane [ i ] . round = quants -> uv_round [ qindex ] ; x -> plane [ i ] . zbin_extra = ( int16_t ) ( ( cm -> uv_dequant [ qindex ] [ 1 ] * zbin ) >> 7 ) ; xd -> plane [ i ] . dequant = cm -> uv_dequant [ qindex ] ; } # if CONFIG_ALPHA x -> plane [ 3 ] . quant = cpi -> a_quant [ qindex ] ; x -> plane [ 3 ] . quant_shift = cpi -> a_quant_shift [ qindex ] ; x -> plane [ 3 ] . zbin = cpi -> a_zbin [ qindex ] ; x -> plane [ 3 ] . round = cpi -> a_round [ qindex ] ; x -> plane [ 3 ] . zbin_extra = ( int16_t ) ( ( cm -> a_dequant [ qindex ] [ 1 ] * zbin ) >> 7 ) ; xd -> plane [ 3 ] . dequant = cm -> a_dequant [ qindex ] ; # endif x -> skip_block = vp9_segfeature_active ( & cm -> seg , segment_id , SEG_LVL_SKIP ) ; x -> q_index = qindex ; x -> errorperbit = rdmult >> 6 ; x -> errorperbit += ( x -> errorperbit == 0 ) ; vp9_initialize_me_consts ( cpi , x -> q_index ) ; }","void vp9_init_plane_quantizers ( VP9_COMP * cpi , MACROBLOCK * x ) { const VP9_COMMON * const cm = & cpi -> common ; MACROBLOCKD * const xd = & x -> e_mbd ; QUANTS * const quants = & cpi -> quants ; const int segment_id = xd -> mi [ 0 ] -> mbmi . segment_id ; const int qindex = vp9_get_qindex ( & cm -> seg , segment_id , cm -> base_qindex ) ; const int rdmult = vp9_compute_rd_mult ( cpi , qindex + cm -> y_dc_delta_q ) ; int i ; x -> plane [ 0 ] . quant = quants -> y_quant [ qindex ] ; x -> plane [ 0 ] . quant_fp = quants -> y_quant_fp [ qindex ] ; x -> plane [ 0 ] . round_fp = quants -> y_round_fp [ qindex ] ; x -> plane [ 0 ] . quant_shift = quants -> y_quant_shift [ qindex ] ; x -> plane [ 0 ] . zbin = quants -> y_zbin [ qindex ] ; x -> plane [ 0 ] . round = quants -> y_round [ qindex ] ; xd -> plane [ 0 ] . dequant = cpi -> y_dequant [ qindex ] ; x -> plane [ 0 ] . quant_thred [ 0 ] = x -> plane [ 0 ] . zbin [ 0 ] * x -> plane [ 0 ] . zbin [ 0 ] ; x -> plane [ 0 ] . quant_thred [ 1 ] = x -> plane [ 0 ] . zbin [ 1 ] * x -> plane [ 0 ] . zbin [ 1 ] ; for ( i = 1 ; i < 3 ; i ++ ) { x -> plane [ i ] . quant = quants -> uv_quant [ qindex ] ; x -> plane [ i ] . quant_fp = quants -> uv_quant_fp [ qindex ] ; x -> plane [ i ] . round_fp = quants -> uv_round_fp [ qindex ] ; x -> plane [ i ] . quant_shift = quants -> uv_quant_shift [ qindex ] ; x -> plane [ i ] . zbin = quants -> uv_zbin [ qindex ] ; x -> plane [ i ] . round = quants -> uv_round [ qindex ] ; xd -> plane [ i ] . dequant = cpi -> uv_dequant [ qindex ] ; x -> plane [ i ] . quant_thred [ 0 ] = x -> plane [ i ] . zbin [ 0 ] * x -> plane [ i ] . zbin [ 0 ] ; x -> plane [ i ] . quant_thred [ 1 ] = x -> plane [ i ] . zbin [ 1 ] * x -> plane [ i ] . zbin [ 1 ] ; } x -> skip_block = segfeature_active ( & cm -> seg , segment_id , SEG_LVL_SKIP ) ; x -> q_index = qindex ; x -> errorperbit = rdmult >> 6 ; x -> errorperbit += ( x -> errorperbit == 0 ) ; vp9_initialize_me_consts ( cpi , x , x -> q_index ) ; }" 284,"CWE-399 public int magic_setparam ( struct magic_set * ms , int param , const void * val ) { switch ( param ) { case MAGIC_PARAM_INDIR_MAX : ms -> indir_max = * ( const size_t * ) val ; return 0 ; case MAGIC_PARAM_NAME_MAX : ms -> name_max = * ( const size_t * ) val ; return 0 ; case MAGIC_PARAM_ELF_PHNUM_MAX : ms -> elf_phnum_max = * ( const size_t * ) val ; return 0 ; case MAGIC_PARAM_ELF_SHNUM_MAX : ms -> elf_shnum_max = * ( const size_t * ) val ; return 0 ; default : errno = EINVAL ; return - 1 ; } }","public int magic_setparam ( struct magic_set * ms , int param , const void * val ) { switch ( param ) { case MAGIC_PARAM_INDIR_MAX : ms -> indir_max = * ( const size_t * ) val ; return 0 ; case MAGIC_PARAM_NAME_MAX : ms -> name_max = * ( const size_t * ) val ; return 0 ; case MAGIC_PARAM_ELF_PHNUM_MAX : ms -> elf_phnum_max = * ( const size_t * ) val ; return 0 ; case MAGIC_PARAM_ELF_SHNUM_MAX : ms -> elf_shnum_max = * ( const size_t * ) val ; return 0 ; case MAGIC_PARAM_ELF_NOTES_MAX : ms -> elf_notes_max = * ( const size_t * ) val ; return 0 ; default : errno = EINVAL ; return - 1 ; } }" 285,"CWE-119 static vpx_codec_err_t encoder_set_config ( vpx_codec_alg_priv_t * ctx , const vpx_codec_enc_cfg_t * cfg ) { vpx_codec_err_t res ; if ( cfg -> g_w != ctx -> cfg . g_w || cfg -> g_h != ctx -> cfg . g_h ) ERROR ( ""Cannot change width or height after initialization"" ) ; if ( cfg -> g_lag_in_frames > ctx -> cfg . g_lag_in_frames ) ERROR ( ""Cannot increase lag_in_frames"" ) ; res = validate_config ( ctx , cfg , & ctx -> extra_cfg ) ; if ( res == VPX_CODEC_OK ) { ctx -> cfg = * cfg ; set_encoder_config ( & ctx -> oxcf , & ctx -> cfg , & ctx -> extra_cfg ) ; vp9_change_config ( ctx -> cpi , & ctx -> oxcf ) ; } return res ; }","static vpx_codec_err_t encoder_set_config ( vpx_codec_alg_priv_t * ctx , const vpx_codec_enc_cfg_t * cfg ) { vpx_codec_err_t res ; int force_key = 0 ; if ( cfg -> g_w != ctx -> cfg . g_w || cfg -> g_h != ctx -> cfg . g_h ) { if ( cfg -> g_lag_in_frames > 1 || cfg -> g_pass != VPX_RC_ONE_PASS ) ERROR ( ""Cannot change width or height after initialization"" ) ; if ( ! valid_ref_frame_size ( ctx -> cfg . g_w , ctx -> cfg . g_h , cfg -> g_w , cfg -> g_h ) || ( ctx -> cpi -> initial_width && ( int ) cfg -> g_w > ctx -> cpi -> initial_width ) || ( ctx -> cpi -> initial_height && ( int ) cfg -> g_h > ctx -> cpi -> initial_height ) ) force_key = 1 ; } if ( cfg -> g_lag_in_frames > ctx -> cfg . g_lag_in_frames ) ERROR ( ""Cannot increase lag_in_frames"" ) ; res = validate_config ( ctx , cfg , & ctx -> extra_cfg ) ; if ( res == VPX_CODEC_OK ) { ctx -> cfg = * cfg ; set_encoder_config ( & ctx -> oxcf , & ctx -> cfg , & ctx -> extra_cfg ) ; force_key |= ctx -> cpi -> common . profile != ctx -> oxcf . profile ; vp9_change_config ( ctx -> cpi , & ctx -> oxcf ) ; } if ( force_key ) ctx -> next_frame_flags |= VPX_EFLAG_FORCE_KF ; return res ; }" 286,"CWE-415 case ';' : GIF_DEBUG ( ( ""term\\n"" ) ) ; goto done ; case '!' : block = gifgetbyte ( grr ) ; GIF_DEBUG ( ( ""ext(0x%02X) "" , block ) ) ; switch ( block ) { case 0xF9 : read_graphic_control_extension ( & gfc , gfi , grr ) ; break ; case 0xCE : last_name = suck_data ( last_name , 0 , grr ) ; break ; case 0xFE : if ( ! read_comment_extension ( gfi , grr ) ) goto done ; break ; case 0xFF : read_application_extension ( & gfc , grr ) ; break ; default : read_unknown_extension ( & gfc , grr , block , 0 , 0 ) ; break ; } break ; default : if ( ! unknown_block_type ) { char buf [ 256 ] ; sprintf ( buf , ""unknown block type %d at file offset %u"" , block , grr -> pos - 1 ) ; gif_read_error ( & gfc , 1 , buf ) ; unknown_block_type = 1 ; } break ; } } done : if ( gfs && gfi ) { Gif_Extension * gfex ; gfs -> end_comment = gfi -> comment ; gfi -> comment = 0 ; gfs -> end_extension_list = gfi -> extension_list ; gfi -> extension_list = 0 ; for ( gfex = gfs -> end_extension_list ; gfex ; gfex = gfex -> next ) gfex -> image = NULL ; } Gif_DeleteImage ( gfi ) ; Gif_DeleteArray ( last_name ) ; Gif_DeleteArray ( gfc . prefix ) ; Gif_DeleteArray ( gfc . suffix ) ; Gif_DeleteArray ( gfc . length ) ; gfc . gfi = 0 ; if ( gfs ) gfs -> errors = gfc . errors [ 1 ] ; if ( gfs && gfc . errors [ 1 ] == 0 && ! ( read_flags & GIF_READ_TRAILING_GARBAGE_OK ) && ! grr -> eofer ( grr ) ) gif_read_error ( & gfc , 0 , ""trailing garbage after GIF ignored"" ) ; gif_read_error ( & gfc , - 1 , 0 ) ; return gfs ; }","case ';' : GIF_DEBUG ( ( ""term\\n"" ) ) ; goto done ; case '!' : block = gifgetbyte ( grr ) ; GIF_DEBUG ( ( ""ext(0x%02X) "" , block ) ) ; switch ( block ) { case 0xF9 : read_graphic_control_extension ( & gfc , gfi , grr ) ; break ; case 0xCE : last_name = suck_data ( last_name , 0 , grr ) ; break ; case 0xFE : if ( ! read_comment_extension ( gfi , grr ) ) goto done ; break ; case 0xFF : read_application_extension ( & gfc , grr ) ; break ; default : read_unknown_extension ( & gfc , grr , block , 0 , 0 ) ; break ; } break ; default : if ( ! unknown_block_type ) { char buf [ 256 ] ; sprintf ( buf , ""unknown block type %d at file offset %u"" , block , grr -> pos - 1 ) ; gif_read_error ( & gfc , 1 , buf ) ; unknown_block_type = 1 ; } break ; } } done : if ( gfs && gfi ) { Gif_Extension * gfex ; gfs -> end_comment = gfi -> comment ; gfi -> comment = 0 ; gfs -> end_extension_list = gfi -> extension_list ; gfi -> extension_list = 0 ; for ( gfex = gfs -> end_extension_list ; gfex ; gfex = gfex -> next ) gfex -> image = NULL ; } Gif_DeleteImage ( gfi ) ; Gif_DeleteArray ( last_name ) ; Gif_DeleteArray ( gfc . prefix ) ; Gif_DeleteArray ( gfc . suffix ) ; Gif_DeleteArray ( gfc . length ) ; gfc . gfi = 0 ; last_name = 0 ; if ( gfs ) gfs -> errors = gfc . errors [ 1 ] ; if ( gfs && gfc . errors [ 1 ] == 0 && ! ( read_flags & GIF_READ_TRAILING_GARBAGE_OK ) && ! grr -> eofer ( grr ) ) gif_read_error ( & gfc , 0 , ""trailing garbage after GIF ignored"" ) ; gif_read_error ( & gfc , - 1 , 0 ) ; return gfs ; }" 287,"CWE-125 static stmt_ty ast_for_for_stmt ( struct compiling * c , const node * n0 , bool is_async ) { const node * const n = is_async ? CHILD ( n0 , 1 ) : n0 ; asdl_seq * _target , * seq = NULL , * suite_seq ; expr_ty expression ; expr_ty target , first ; const node * node_target ; int end_lineno , end_col_offset ; REQ ( n , for_stmt ) ; if ( NCH ( n ) == 9 ) { seq = ast_for_suite ( c , CHILD ( n , 8 ) ) ; if ( ! seq ) return NULL ; } node_target = CHILD ( n , 1 ) ; _target = ast_for_exprlist ( c , node_target , Store ) ; if ( ! _target ) return NULL ; first = ( expr_ty ) asdl_seq_GET ( _target , 0 ) ; if ( NCH ( node_target ) == 1 ) target = first ; else target = Tuple ( _target , Store , first -> lineno , first -> col_offset , node_target -> n_end_lineno , node_target -> n_end_col_offset , c -> c_arena ) ; expression = ast_for_testlist ( c , CHILD ( n , 3 ) ) ; if ( ! expression ) return NULL ; suite_seq = ast_for_suite ( c , CHILD ( n , 5 ) ) ; if ( ! suite_seq ) return NULL ; if ( seq != NULL ) { get_last_end_pos ( seq , & end_lineno , & end_col_offset ) ; } else { get_last_end_pos ( suite_seq , & end_lineno , & end_col_offset ) ; } if ( is_async ) return AsyncFor ( target , expression , suite_seq , seq , LINENO ( n0 ) , n0 -> n_col_offset , end_lineno , end_col_offset , c -> c_arena ) ; else return For ( target , expression , suite_seq , seq , LINENO ( n ) , n -> n_col_offset , end_lineno , end_col_offset , c -> c_arena ) ; }","static stmt_ty ast_for_for_stmt ( struct compiling * c , const node * n0 , bool is_async ) { const node * const n = is_async ? CHILD ( n0 , 1 ) : n0 ; asdl_seq * _target , * seq = NULL , * suite_seq ; expr_ty expression ; expr_ty target , first ; const node * node_target ; int end_lineno , end_col_offset ; int has_type_comment ; string type_comment ; REQ ( n , for_stmt ) ; has_type_comment = TYPE ( CHILD ( n , 5 ) ) == TYPE_COMMENT ; if ( NCH ( n ) == 9 + has_type_comment ) { seq = ast_for_suite ( c , CHILD ( n , 8 + has_type_comment ) ) ; if ( ! seq ) return NULL ; } node_target = CHILD ( n , 1 ) ; _target = ast_for_exprlist ( c , node_target , Store ) ; if ( ! _target ) return NULL ; first = ( expr_ty ) asdl_seq_GET ( _target , 0 ) ; if ( NCH ( node_target ) == 1 ) target = first ; else target = Tuple ( _target , Store , first -> lineno , first -> col_offset , node_target -> n_end_lineno , node_target -> n_end_col_offset , c -> c_arena ) ; expression = ast_for_testlist ( c , CHILD ( n , 3 ) ) ; if ( ! expression ) return NULL ; suite_seq = ast_for_suite ( c , CHILD ( n , 5 + has_type_comment ) ) ; if ( ! suite_seq ) return NULL ; if ( seq != NULL ) { get_last_end_pos ( seq , & end_lineno , & end_col_offset ) ; } else { get_last_end_pos ( suite_seq , & end_lineno , & end_col_offset ) ; } if ( has_type_comment ) { type_comment = NEW_TYPE_COMMENT ( CHILD ( n , 5 ) ) ; if ( ! type_comment ) return NULL ; } else type_comment = NULL ; if ( is_async ) return AsyncFor ( target , expression , suite_seq , seq , type_comment , LINENO ( n0 ) , n0 -> n_col_offset , end_lineno , end_col_offset , c -> c_arena ) ; else return For ( target , expression , suite_seq , seq , type_comment , LINENO ( n ) , n -> n_col_offset , end_lineno , end_col_offset , c -> c_arena ) ; }" 288,"CWE-125 static arguments_ty ast_for_arguments ( struct compiling * c , const node * n ) { int i , j , k , nposargs = 0 , nkwonlyargs = 0 ; int nposdefaults = 0 , found_default = 0 ; asdl_seq * posargs , * posdefaults , * kwonlyargs , * kwdefaults ; arg_ty vararg = NULL , kwarg = NULL ; arg_ty arg ; node * ch ; if ( TYPE ( n ) == parameters ) { if ( NCH ( n ) == 2 ) return arguments ( NULL , NULL , NULL , NULL , NULL , NULL , c -> c_arena ) ; n = CHILD ( n , 1 ) ; } assert ( TYPE ( n ) == typedargslist || TYPE ( n ) == varargslist ) ; for ( i = 0 ; i < NCH ( n ) ; i ++ ) { ch = CHILD ( n , i ) ; if ( TYPE ( ch ) == STAR ) { i ++ ; if ( i < NCH ( n ) && ( TYPE ( CHILD ( n , i ) ) == tfpdef || TYPE ( CHILD ( n , i ) ) == vfpdef ) ) { i ++ ; } break ; } if ( TYPE ( ch ) == DOUBLESTAR ) break ; if ( TYPE ( ch ) == vfpdef || TYPE ( ch ) == tfpdef ) nposargs ++ ; if ( TYPE ( ch ) == EQUAL ) nposdefaults ++ ; } for ( ; i < NCH ( n ) ; ++ i ) { ch = CHILD ( n , i ) ; if ( TYPE ( ch ) == DOUBLESTAR ) break ; if ( TYPE ( ch ) == tfpdef || TYPE ( ch ) == vfpdef ) nkwonlyargs ++ ; } posargs = ( nposargs ? _Ta3_asdl_seq_new ( nposargs , c -> c_arena ) : NULL ) ; if ( ! posargs && nposargs ) return NULL ; kwonlyargs = ( nkwonlyargs ? _Ta3_asdl_seq_new ( nkwonlyargs , c -> c_arena ) : NULL ) ; if ( ! kwonlyargs && nkwonlyargs ) return NULL ; posdefaults = ( nposdefaults ? _Ta3_asdl_seq_new ( nposdefaults , c -> c_arena ) : NULL ) ; if ( ! posdefaults && nposdefaults ) return NULL ; kwdefaults = ( nkwonlyargs ? _Ta3_asdl_seq_new ( nkwonlyargs , c -> c_arena ) : NULL ) ; if ( ! kwdefaults && nkwonlyargs ) return NULL ; if ( nposargs + nkwonlyargs > 255 ) { ast_error ( c , n , ""more than 255 arguments"" ) ; return NULL ; } i = 0 ; j = 0 ; k = 0 ; while ( i < NCH ( n ) ) { ch = CHILD ( n , i ) ; switch ( TYPE ( ch ) ) { case tfpdef : case vfpdef : if ( i + 1 < NCH ( n ) && TYPE ( CHILD ( n , i + 1 ) ) == EQUAL ) { expr_ty expression = ast_for_expr ( c , CHILD ( n , i + 2 ) ) ; if ( ! expression ) return NULL ; assert ( posdefaults != NULL ) ; asdl_seq_SET ( posdefaults , j ++ , expression ) ; i += 2 ; found_default = 1 ; } else if ( found_default ) { ast_error ( c , n , ""non-default argument follows default argument"" ) ; return NULL ; } arg = ast_for_arg ( c , ch ) ; if ( ! arg ) return NULL ; asdl_seq_SET ( posargs , k ++ , arg ) ; i += 1 ; if ( i < NCH ( n ) && TYPE ( CHILD ( n , i ) ) == COMMA ) i += 1 ; break ; case STAR : if ( i + 1 >= NCH ( n ) || ( i + 2 == NCH ( n ) && ( TYPE ( CHILD ( n , i + 1 ) ) == COMMA || TYPE ( CHILD ( n , i + 1 ) ) == TYPE_COMMENT ) ) ) { ast_error ( c , CHILD ( n , i ) , ""named arguments must follow bare *"" ) ; return NULL ; } ch = CHILD ( n , i + 1 ) ; if ( TYPE ( ch ) == COMMA ) { int res = 0 ; i += 2 ; if ( i < NCH ( n ) && TYPE ( CHILD ( n , i ) ) == TYPE_COMMENT ) { ast_error ( c , CHILD ( n , i ) , ""bare * has associated type comment"" ) ; return NULL ; } res = handle_keywordonly_args ( c , n , i , kwonlyargs , kwdefaults ) ; if ( res == - 1 ) return NULL ; i = res ; } else { vararg = ast_for_arg ( c , ch ) ; if ( ! vararg ) return NULL ; i += 2 ; if ( i < NCH ( n ) && TYPE ( CHILD ( n , i ) ) == COMMA ) i += 1 ; if ( i < NCH ( n ) && TYPE ( CHILD ( n , i ) ) == TYPE_COMMENT ) { vararg -> type_comment = NEW_TYPE_COMMENT ( CHILD ( n , i ) ) ; i += 1 ; } if ( i < NCH ( n ) && ( TYPE ( CHILD ( n , i ) ) == tfpdef || TYPE ( CHILD ( n , i ) ) == vfpdef ) ) { int res = 0 ; res = handle_keywordonly_args ( c , n , i , kwonlyargs , kwdefaults ) ; if ( res == - 1 ) return NULL ; i = res ; } } break ; case DOUBLESTAR : ch = CHILD ( n , i + 1 ) ; assert ( TYPE ( ch ) == tfpdef || TYPE ( ch ) == vfpdef ) ; kwarg = ast_for_arg ( c , ch ) ; if ( ! kwarg ) return NULL ; i += 2 ; if ( i < NCH ( n ) && TYPE ( CHILD ( n , i ) ) == COMMA ) i += 1 ; break ; case TYPE_COMMENT : assert ( i ) ; if ( kwarg ) arg = kwarg ; arg -> type_comment = NEW_TYPE_COMMENT ( ch ) ; i += 1 ; break ; default : PyErr_Format ( PyExc_SystemError , ""unexpected node in varargslist: %d @ %d"" , TYPE ( ch ) , i ) ; return NULL ; } } return arguments ( posargs , vararg , kwonlyargs , kwdefaults , kwarg , posdefaults , c -> c_arena ) ; }","static arguments_ty ast_for_arguments ( struct compiling * c , const node * n ) { int i , j , k , nposargs = 0 , nkwonlyargs = 0 ; int nposdefaults = 0 , found_default = 0 ; asdl_seq * posargs , * posdefaults , * kwonlyargs , * kwdefaults ; arg_ty vararg = NULL , kwarg = NULL ; arg_ty arg ; node * ch ; if ( TYPE ( n ) == parameters ) { if ( NCH ( n ) == 2 ) return arguments ( NULL , NULL , NULL , NULL , NULL , NULL , c -> c_arena ) ; n = CHILD ( n , 1 ) ; } assert ( TYPE ( n ) == typedargslist || TYPE ( n ) == varargslist ) ; for ( i = 0 ; i < NCH ( n ) ; i ++ ) { ch = CHILD ( n , i ) ; if ( TYPE ( ch ) == STAR ) { i ++ ; if ( i < NCH ( n ) && ( TYPE ( CHILD ( n , i ) ) == tfpdef || TYPE ( CHILD ( n , i ) ) == vfpdef ) ) { i ++ ; } break ; } if ( TYPE ( ch ) == DOUBLESTAR ) break ; if ( TYPE ( ch ) == vfpdef || TYPE ( ch ) == tfpdef ) nposargs ++ ; if ( TYPE ( ch ) == EQUAL ) nposdefaults ++ ; } for ( ; i < NCH ( n ) ; ++ i ) { ch = CHILD ( n , i ) ; if ( TYPE ( ch ) == DOUBLESTAR ) break ; if ( TYPE ( ch ) == tfpdef || TYPE ( ch ) == vfpdef ) nkwonlyargs ++ ; } posargs = ( nposargs ? _Ta3_asdl_seq_new ( nposargs , c -> c_arena ) : NULL ) ; if ( ! posargs && nposargs ) return NULL ; kwonlyargs = ( nkwonlyargs ? _Ta3_asdl_seq_new ( nkwonlyargs , c -> c_arena ) : NULL ) ; if ( ! kwonlyargs && nkwonlyargs ) return NULL ; posdefaults = ( nposdefaults ? _Ta3_asdl_seq_new ( nposdefaults , c -> c_arena ) : NULL ) ; if ( ! posdefaults && nposdefaults ) return NULL ; kwdefaults = ( nkwonlyargs ? _Ta3_asdl_seq_new ( nkwonlyargs , c -> c_arena ) : NULL ) ; if ( ! kwdefaults && nkwonlyargs ) return NULL ; i = 0 ; j = 0 ; k = 0 ; while ( i < NCH ( n ) ) { ch = CHILD ( n , i ) ; switch ( TYPE ( ch ) ) { case tfpdef : case vfpdef : if ( i + 1 < NCH ( n ) && TYPE ( CHILD ( n , i + 1 ) ) == EQUAL ) { expr_ty expression = ast_for_expr ( c , CHILD ( n , i + 2 ) ) ; if ( ! expression ) return NULL ; assert ( posdefaults != NULL ) ; asdl_seq_SET ( posdefaults , j ++ , expression ) ; i += 2 ; found_default = 1 ; } else if ( found_default ) { ast_error ( c , n , ""non-default argument follows default argument"" ) ; return NULL ; } arg = ast_for_arg ( c , ch ) ; if ( ! arg ) return NULL ; asdl_seq_SET ( posargs , k ++ , arg ) ; i += 1 ; if ( TYPE ( CHILD ( n , i ) ) == COMMA ) i += 1 ; break ; case STAR : if ( i + 1 >= NCH ( n ) || ( i + 2 == NCH ( n ) && ( TYPE ( CHILD ( n , i + 1 ) ) == COMMA || TYPE ( CHILD ( n , i + 1 ) ) == TYPE_COMMENT ) ) ) { ast_error ( c , CHILD ( n , i ) , ""named arguments must follow bare *"" ) ; return NULL ; } ch = CHILD ( n , i + 1 ) ; if ( TYPE ( ch ) == COMMA ) { int res = 0 ; i += 2 ; if ( TYPE ( CHILD ( n , i ) ) == TYPE_COMMENT ) { ast_error ( c , CHILD ( n , i ) , ""bare * has associated type comment"" ) ; return NULL ; } res = handle_keywordonly_args ( c , n , i , kwonlyargs , kwdefaults ) ; if ( res == - 1 ) return NULL ; i = res ; } else { vararg = ast_for_arg ( c , ch ) ; if ( ! vararg ) return NULL ; i += 2 ; if ( TYPE ( CHILD ( n , i ) ) == COMMA ) i += 1 ; if ( TYPE ( CHILD ( n , i ) ) == TYPE_COMMENT ) { vararg -> type_comment = NEW_TYPE_COMMENT ( CHILD ( n , i ) ) ; i += 1 ; } if ( i < NCH ( n ) && ( TYPE ( CHILD ( n , i ) ) == tfpdef || TYPE ( CHILD ( n , i ) ) == vfpdef ) ) { int res = 0 ; res = handle_keywordonly_args ( c , n , i , kwonlyargs , kwdefaults ) ; if ( res == - 1 ) return NULL ; i = res ; } } break ; case DOUBLESTAR : ch = CHILD ( n , i + 1 ) ; assert ( TYPE ( ch ) == tfpdef || TYPE ( ch ) == vfpdef ) ; kwarg = ast_for_arg ( c , ch ) ; if ( ! kwarg ) return NULL ; i += 2 ; if ( TYPE ( CHILD ( n , i ) ) == COMMA ) i += 1 ; break ; case TYPE_COMMENT : assert ( i ) ; if ( kwarg ) arg = kwarg ; arg -> type_comment = NEW_TYPE_COMMENT ( ch ) ; i += 1 ; break ; default : PyErr_Format ( PyExc_SystemError , ""unexpected node in varargslist: %d @ %d"" , TYPE ( ch ) , i ) ; return NULL ; } } return arguments ( posargs , vararg , kwonlyargs , kwdefaults , kwarg , posdefaults , c -> c_arena ) ; }" 289,"CWE-119 static void filter_selectively_vert_row2 ( PLANE_TYPE plane_type , uint8_t * s , int pitch , unsigned int mask_16x16_l , unsigned int mask_8x8_l , unsigned int mask_4x4_l , unsigned int mask_4x4_int_l , const loop_filter_info_n * lfi_n , const uint8_t * lfl ) { const int mask_shift = plane_type ? 4 : 8 ; const int mask_cutoff = plane_type ? 0xf : 0xff ; const int lfl_forward = plane_type ? 4 : 8 ; unsigned int mask_16x16_0 = mask_16x16_l & mask_cutoff ; unsigned int mask_8x8_0 = mask_8x8_l & mask_cutoff ; unsigned int mask_4x4_0 = mask_4x4_l & mask_cutoff ; unsigned int mask_4x4_int_0 = mask_4x4_int_l & mask_cutoff ; unsigned int mask_16x16_1 = ( mask_16x16_l >> mask_shift ) & mask_cutoff ; unsigned int mask_8x8_1 = ( mask_8x8_l >> mask_shift ) & mask_cutoff ; unsigned int mask_4x4_1 = ( mask_4x4_l >> mask_shift ) & mask_cutoff ; unsigned int mask_4x4_int_1 = ( mask_4x4_int_l >> mask_shift ) & mask_cutoff ; unsigned int mask ; for ( mask = mask_16x16_0 | mask_8x8_0 | mask_4x4_0 | mask_4x4_int_0 | mask_16x16_1 | mask_8x8_1 | mask_4x4_1 | mask_4x4_int_1 ; mask ; mask >>= 1 ) { const loop_filter_thresh * lfi0 = lfi_n -> lfthr + * lfl ; const loop_filter_thresh * lfi1 = lfi_n -> lfthr + * ( lfl + lfl_forward ) ; if ( mask & 1 ) { if ( ( mask_16x16_0 | mask_16x16_1 ) & 1 ) { if ( ( mask_16x16_0 & mask_16x16_1 ) & 1 ) { vp9_lpf_vertical_16_dual ( s , pitch , lfi0 -> mblim , lfi0 -> lim , lfi0 -> hev_thr ) ; } else if ( mask_16x16_0 & 1 ) { vp9_lpf_vertical_16 ( s , pitch , lfi0 -> mblim , lfi0 -> lim , lfi0 -> hev_thr ) ; } else { vp9_lpf_vertical_16 ( s + 8 * pitch , pitch , lfi1 -> mblim , lfi1 -> lim , lfi1 -> hev_thr ) ; } } if ( ( mask_8x8_0 | mask_8x8_1 ) & 1 ) { if ( ( mask_8x8_0 & mask_8x8_1 ) & 1 ) { vp9_lpf_vertical_8_dual ( s , pitch , lfi0 -> mblim , lfi0 -> lim , lfi0 -> hev_thr , lfi1 -> mblim , lfi1 -> lim , lfi1 -> hev_thr ) ; } else if ( mask_8x8_0 & 1 ) { vp9_lpf_vertical_8 ( s , pitch , lfi0 -> mblim , lfi0 -> lim , lfi0 -> hev_thr , 1 ) ; } else { vp9_lpf_vertical_8 ( s + 8 * pitch , pitch , lfi1 -> mblim , lfi1 -> lim , lfi1 -> hev_thr , 1 ) ; } } if ( ( mask_4x4_0 | mask_4x4_1 ) & 1 ) { if ( ( mask_4x4_0 & mask_4x4_1 ) & 1 ) { vp9_lpf_vertical_4_dual ( s , pitch , lfi0 -> mblim , lfi0 -> lim , lfi0 -> hev_thr , lfi1 -> mblim , lfi1 -> lim , lfi1 -> hev_thr ) ; } else if ( mask_4x4_0 & 1 ) { vp9_lpf_vertical_4 ( s , pitch , lfi0 -> mblim , lfi0 -> lim , lfi0 -> hev_thr , 1 ) ; } else { vp9_lpf_vertical_4 ( s + 8 * pitch , pitch , lfi1 -> mblim , lfi1 -> lim , lfi1 -> hev_thr , 1 ) ; } } if ( ( mask_4x4_int_0 | mask_4x4_int_1 ) & 1 ) { if ( ( mask_4x4_int_0 & mask_4x4_int_1 ) & 1 ) { vp9_lpf_vertical_4_dual ( s + 4 , pitch , lfi0 -> mblim , lfi0 -> lim , lfi0 -> hev_thr , lfi1 -> mblim , lfi1 -> lim , lfi1 -> hev_thr ) ; } else if ( mask_4x4_int_0 & 1 ) { vp9_lpf_vertical_4 ( s + 4 , pitch , lfi0 -> mblim , lfi0 -> lim , lfi0 -> hev_thr , 1 ) ; } else { vp9_lpf_vertical_4 ( s + 8 * pitch + 4 , pitch , lfi1 -> mblim , lfi1 -> lim , lfi1 -> hev_thr , 1 ) ; } } } s += 8 ; lfl += 1 ; mask_16x16_0 >>= 1 ; mask_8x8_0 >>= 1 ; mask_4x4_0 >>= 1 ; mask_4x4_int_0 >>= 1 ; mask_16x16_1 >>= 1 ; mask_8x8_1 >>= 1 ; mask_4x4_1 >>= 1 ; mask_4x4_int_1 >>= 1 ; } }","static void filter_selectively_vert_row2 ( int subsampling_factor , uint8_t * s , int pitch , unsigned int mask_16x16_l , unsigned int mask_8x8_l , unsigned int mask_4x4_l , unsigned int mask_4x4_int_l , const loop_filter_info_n * lfi_n , const uint8_t * lfl ) { const int mask_shift = subsampling_factor ? 4 : 8 ; const int mask_cutoff = subsampling_factor ? 0xf : 0xff ; const int lfl_forward = subsampling_factor ? 4 : 8 ; unsigned int mask_16x16_0 = mask_16x16_l & mask_cutoff ; unsigned int mask_8x8_0 = mask_8x8_l & mask_cutoff ; unsigned int mask_4x4_0 = mask_4x4_l & mask_cutoff ; unsigned int mask_4x4_int_0 = mask_4x4_int_l & mask_cutoff ; unsigned int mask_16x16_1 = ( mask_16x16_l >> mask_shift ) & mask_cutoff ; unsigned int mask_8x8_1 = ( mask_8x8_l >> mask_shift ) & mask_cutoff ; unsigned int mask_4x4_1 = ( mask_4x4_l >> mask_shift ) & mask_cutoff ; unsigned int mask_4x4_int_1 = ( mask_4x4_int_l >> mask_shift ) & mask_cutoff ; unsigned int mask ; for ( mask = mask_16x16_0 | mask_8x8_0 | mask_4x4_0 | mask_4x4_int_0 | mask_16x16_1 | mask_8x8_1 | mask_4x4_1 | mask_4x4_int_1 ; mask ; mask >>= 1 ) { const loop_filter_thresh * lfi0 = lfi_n -> lfthr + * lfl ; const loop_filter_thresh * lfi1 = lfi_n -> lfthr + * ( lfl + lfl_forward ) ; if ( mask & 1 ) { if ( ( mask_16x16_0 | mask_16x16_1 ) & 1 ) { if ( ( mask_16x16_0 & mask_16x16_1 ) & 1 ) { vpx_lpf_vertical_16_dual ( s , pitch , lfi0 -> mblim , lfi0 -> lim , lfi0 -> hev_thr ) ; } else if ( mask_16x16_0 & 1 ) { vpx_lpf_vertical_16 ( s , pitch , lfi0 -> mblim , lfi0 -> lim , lfi0 -> hev_thr ) ; } else { vpx_lpf_vertical_16 ( s + 8 * pitch , pitch , lfi1 -> mblim , lfi1 -> lim , lfi1 -> hev_thr ) ; } } if ( ( mask_8x8_0 | mask_8x8_1 ) & 1 ) { if ( ( mask_8x8_0 & mask_8x8_1 ) & 1 ) { vpx_lpf_vertical_8_dual ( s , pitch , lfi0 -> mblim , lfi0 -> lim , lfi0 -> hev_thr , lfi1 -> mblim , lfi1 -> lim , lfi1 -> hev_thr ) ; } else if ( mask_8x8_0 & 1 ) { vpx_lpf_vertical_8 ( s , pitch , lfi0 -> mblim , lfi0 -> lim , lfi0 -> hev_thr , 1 ) ; } else { vpx_lpf_vertical_8 ( s + 8 * pitch , pitch , lfi1 -> mblim , lfi1 -> lim , lfi1 -> hev_thr , 1 ) ; } } if ( ( mask_4x4_0 | mask_4x4_1 ) & 1 ) { if ( ( mask_4x4_0 & mask_4x4_1 ) & 1 ) { vpx_lpf_vertical_4_dual ( s , pitch , lfi0 -> mblim , lfi0 -> lim , lfi0 -> hev_thr , lfi1 -> mblim , lfi1 -> lim , lfi1 -> hev_thr ) ; } else if ( mask_4x4_0 & 1 ) { vpx_lpf_vertical_4 ( s , pitch , lfi0 -> mblim , lfi0 -> lim , lfi0 -> hev_thr , 1 ) ; } else { vpx_lpf_vertical_4 ( s + 8 * pitch , pitch , lfi1 -> mblim , lfi1 -> lim , lfi1 -> hev_thr , 1 ) ; } } if ( ( mask_4x4_int_0 | mask_4x4_int_1 ) & 1 ) { if ( ( mask_4x4_int_0 & mask_4x4_int_1 ) & 1 ) { vpx_lpf_vertical_4_dual ( s + 4 , pitch , lfi0 -> mblim , lfi0 -> lim , lfi0 -> hev_thr , lfi1 -> mblim , lfi1 -> lim , lfi1 -> hev_thr ) ; } else if ( mask_4x4_int_0 & 1 ) { vpx_lpf_vertical_4 ( s + 4 , pitch , lfi0 -> mblim , lfi0 -> lim , lfi0 -> hev_thr , 1 ) ; } else { vpx_lpf_vertical_4 ( s + 8 * pitch + 4 , pitch , lfi1 -> mblim , lfi1 -> lim , lfi1 -> hev_thr , 1 ) ; } } } s += 8 ; lfl += 1 ; mask_16x16_0 >>= 1 ; mask_8x8_0 >>= 1 ; mask_4x4_0 >>= 1 ; mask_4x4_int_0 >>= 1 ; mask_16x16_1 >>= 1 ; mask_8x8_1 >>= 1 ; mask_4x4_1 >>= 1 ; mask_4x4_int_1 >>= 1 ; } }" 290,"CWE-352 char * Util_monitId ( char * idfile ) { FILE * file = NULL ; ASSERT ( idfile ) ; if ( ! File_exist ( idfile ) ) { md5_context_t ctx ; char buf [ STRLEN ] ; MD_T digest ; file = fopen ( idfile , ""w"" ) ; if ( ! file ) { LogError ( ""Error opening the idfile \'%s\' -- %s\\n"" , idfile , STRERROR ) ; return NULL ; } snprintf ( buf , STRLEN , ""%lu%d%lu"" , ( unsigned long ) Time_now ( ) , getpid ( ) , random ( ) ) ; md5_init ( & ctx ) ; md5_append ( & ctx , ( const md5_byte_t * ) buf , STRLEN - 1 ) ; md5_finish ( & ctx , ( md5_byte_t * ) digest ) ; Util_digest2Bytes ( ( unsigned char * ) digest , 16 , Run . id ) ; fprintf ( file , ""%s"" , Run . id ) ; LogInfo ( "" New Monit id: %s\\n Stored in \'%s\'\\n"" , Run . id , idfile ) ; } else { if ( ! File_isFile ( idfile ) ) { LogError ( ""idfile \'%s\' is not a regular file\\n"" , idfile ) ; return NULL ; } if ( ( file = fopen ( idfile , ""r"" ) ) == ( FILE * ) NULL ) { LogError ( ""Error opening the idfile \'%s\' -- %s\\n"" , idfile , STRERROR ) ; return NULL ; } if ( fscanf ( file , ""%64s"" , Run . id ) != 1 ) { LogError ( ""Error reading id from file \'%s\'\\n"" , idfile ) ; if ( fclose ( file ) ) LogError ( ""Error closing file \'%s\' -- %s\\n"" , idfile , STRERROR ) ; return NULL ; } } if ( fclose ( file ) ) LogError ( ""Error closing file \'%s\' -- %s\\n"" , idfile , STRERROR ) ; return Run . id ; }","char * Util_monitId ( char * idfile ) { ASSERT ( idfile ) ; FILE * file = NULL ; if ( ! File_exist ( idfile ) ) { file = fopen ( idfile , ""w"" ) ; if ( ! file ) { LogError ( ""Error opening the idfile \'%s\' -- %s\\n"" , idfile , STRERROR ) ; return NULL ; } fprintf ( file , ""%s"" , Util_getToken ( Run . id ) ) ; LogInfo ( "" New Monit id: %s\\n Stored in \'%s\'\\n"" , Run . id , idfile ) ; } else { if ( ! File_isFile ( idfile ) ) { LogError ( ""idfile \'%s\' is not a regular file\\n"" , idfile ) ; return NULL ; } if ( ( file = fopen ( idfile , ""r"" ) ) == ( FILE * ) NULL ) { LogError ( ""Error opening the idfile \'%s\' -- %s\\n"" , idfile , STRERROR ) ; return NULL ; } if ( fscanf ( file , ""%64s"" , Run . id ) != 1 ) { LogError ( ""Error reading id from file \'%s\'\\n"" , idfile ) ; if ( fclose ( file ) ) LogError ( ""Error closing file \'%s\' -- %s\\n"" , idfile , STRERROR ) ; return NULL ; } } if ( fclose ( file ) ) LogError ( ""Error closing file \'%s\' -- %s\\n"" , idfile , STRERROR ) ; return Run . id ; }" 291,"CWE-285 int jffs2_set_acl ( struct inode * inode , struct posix_acl * acl , int type ) { int rc , xprefix ; switch ( type ) { case ACL_TYPE_ACCESS : xprefix = JFFS2_XPREFIX_ACL_ACCESS ; if ( acl ) { umode_t mode = inode -> i_mode ; rc = posix_acl_equiv_mode ( acl , & mode ) ; if ( rc < 0 ) return rc ; if ( inode -> i_mode != mode ) { struct iattr attr ; attr . ia_valid = ATTR_MODE | ATTR_CTIME ; attr . ia_mode = mode ; attr . ia_ctime = CURRENT_TIME_SEC ; rc = jffs2_do_setattr ( inode , & attr ) ; if ( rc < 0 ) return rc ; } if ( rc == 0 ) acl = NULL ; } break ; case ACL_TYPE_DEFAULT : xprefix = JFFS2_XPREFIX_ACL_DEFAULT ; if ( ! S_ISDIR ( inode -> i_mode ) ) return acl ? - EACCES : 0 ; break ; default : return - EINVAL ; } rc = __jffs2_set_acl ( inode , xprefix , acl ) ; if ( ! rc ) set_cached_acl ( inode , type , acl ) ; return rc ; }","int jffs2_set_acl ( struct inode * inode , struct posix_acl * acl , int type ) { int rc , xprefix ; switch ( type ) { case ACL_TYPE_ACCESS : xprefix = JFFS2_XPREFIX_ACL_ACCESS ; if ( acl ) { umode_t mode ; rc = posix_acl_update_mode ( inode , & mode , & acl ) ; if ( rc ) return rc ; if ( inode -> i_mode != mode ) { struct iattr attr ; attr . ia_valid = ATTR_MODE | ATTR_CTIME ; attr . ia_mode = mode ; attr . ia_ctime = CURRENT_TIME_SEC ; rc = jffs2_do_setattr ( inode , & attr ) ; if ( rc < 0 ) return rc ; } } break ; case ACL_TYPE_DEFAULT : xprefix = JFFS2_XPREFIX_ACL_DEFAULT ; if ( ! S_ISDIR ( inode -> i_mode ) ) return acl ? - EACCES : 0 ; break ; default : return - EINVAL ; } rc = __jffs2_set_acl ( inode , xprefix , acl ) ; if ( ! rc ) set_cached_acl ( inode , type , acl ) ; return rc ; }" 292,"CWE-200 static int crypto_report_one ( struct crypto_alg * alg , struct crypto_user_alg * ualg , struct sk_buff * skb ) { strlcpy ( ualg -> cru_name , alg -> cra_name , sizeof ( ualg -> cru_name ) ) ; strlcpy ( ualg -> cru_driver_name , alg -> cra_driver_name , sizeof ( ualg -> cru_driver_name ) ) ; strlcpy ( ualg -> cru_module_name , module_name ( alg -> cra_module ) , sizeof ( ualg -> cru_module_name ) ) ; ualg -> cru_type = 0 ; ualg -> cru_mask = 0 ; ualg -> cru_flags = alg -> cra_flags ; ualg -> cru_refcnt = refcount_read ( & alg -> cra_refcnt ) ; if ( nla_put_u32 ( skb , CRYPTOCFGA_PRIORITY_VAL , alg -> cra_priority ) ) goto nla_put_failure ; if ( alg -> cra_flags & CRYPTO_ALG_LARVAL ) { struct crypto_report_larval rl ; strlcpy ( rl . type , ""larval"" , sizeof ( rl . type ) ) ; if ( nla_put ( skb , CRYPTOCFGA_REPORT_LARVAL , sizeof ( struct crypto_report_larval ) , & rl ) ) goto nla_put_failure ; goto out ; } if ( alg -> cra_type && alg -> cra_type -> report ) { if ( alg -> cra_type -> report ( skb , alg ) ) goto nla_put_failure ; goto out ; } switch ( alg -> cra_flags & ( CRYPTO_ALG_TYPE_MASK | CRYPTO_ALG_LARVAL ) ) { case CRYPTO_ALG_TYPE_CIPHER : if ( crypto_report_cipher ( skb , alg ) ) goto nla_put_failure ; break ; case CRYPTO_ALG_TYPE_COMPRESS : if ( crypto_report_comp ( skb , alg ) ) goto nla_put_failure ; break ; case CRYPTO_ALG_TYPE_ACOMPRESS : if ( crypto_report_acomp ( skb , alg ) ) goto nla_put_failure ; break ; case CRYPTO_ALG_TYPE_AKCIPHER : if ( crypto_report_akcipher ( skb , alg ) ) goto nla_put_failure ; break ; case CRYPTO_ALG_TYPE_KPP : if ( crypto_report_kpp ( skb , alg ) ) goto nla_put_failure ; break ; } out : return 0 ; nla_put_failure : return - EMSGSIZE ; }","static int crypto_report_one ( struct crypto_alg * alg , struct crypto_user_alg * ualg , struct sk_buff * skb ) { strncpy ( ualg -> cru_name , alg -> cra_name , sizeof ( ualg -> cru_name ) ) ; strncpy ( ualg -> cru_driver_name , alg -> cra_driver_name , sizeof ( ualg -> cru_driver_name ) ) ; strncpy ( ualg -> cru_module_name , module_name ( alg -> cra_module ) , sizeof ( ualg -> cru_module_name ) ) ; ualg -> cru_type = 0 ; ualg -> cru_mask = 0 ; ualg -> cru_flags = alg -> cra_flags ; ualg -> cru_refcnt = refcount_read ( & alg -> cra_refcnt ) ; if ( nla_put_u32 ( skb , CRYPTOCFGA_PRIORITY_VAL , alg -> cra_priority ) ) goto nla_put_failure ; if ( alg -> cra_flags & CRYPTO_ALG_LARVAL ) { struct crypto_report_larval rl ; strncpy ( rl . type , ""larval"" , sizeof ( rl . type ) ) ; if ( nla_put ( skb , CRYPTOCFGA_REPORT_LARVAL , sizeof ( struct crypto_report_larval ) , & rl ) ) goto nla_put_failure ; goto out ; } if ( alg -> cra_type && alg -> cra_type -> report ) { if ( alg -> cra_type -> report ( skb , alg ) ) goto nla_put_failure ; goto out ; } switch ( alg -> cra_flags & ( CRYPTO_ALG_TYPE_MASK | CRYPTO_ALG_LARVAL ) ) { case CRYPTO_ALG_TYPE_CIPHER : if ( crypto_report_cipher ( skb , alg ) ) goto nla_put_failure ; break ; case CRYPTO_ALG_TYPE_COMPRESS : if ( crypto_report_comp ( skb , alg ) ) goto nla_put_failure ; break ; case CRYPTO_ALG_TYPE_ACOMPRESS : if ( crypto_report_acomp ( skb , alg ) ) goto nla_put_failure ; break ; case CRYPTO_ALG_TYPE_AKCIPHER : if ( crypto_report_akcipher ( skb , alg ) ) goto nla_put_failure ; break ; case CRYPTO_ALG_TYPE_KPP : if ( crypto_report_kpp ( skb , alg ) ) goto nla_put_failure ; break ; } out : return 0 ; nla_put_failure : return - EMSGSIZE ; }" 293,"CWE-119 static vpx_codec_err_t ctrl_set_previewpp ( vpx_codec_alg_priv_t * ctx , int ctr_id , va_list args ) { # if CONFIG_VP9_POSTPROC vp8_postproc_cfg_t * config = va_arg ( args , vp8_postproc_cfg_t * ) ; ( void ) ctr_id ; if ( config != NULL ) { ctx -> preview_ppcfg = * config ; return VPX_CODEC_OK ; } else { return VPX_CODEC_INVALID_PARAM ; } # else ( void ) ctx ; ( void ) ctr_id ; ( void ) args ; return VPX_CODEC_INCAPABLE ; # endif }","static vpx_codec_err_t ctrl_set_previewpp ( vpx_codec_alg_priv_t * ctx , va_list args ) { # if CONFIG_VP9_POSTPROC vp8_postproc_cfg_t * config = va_arg ( args , vp8_postproc_cfg_t * ) ; if ( config != NULL ) { ctx -> preview_ppcfg = * config ; return VPX_CODEC_OK ; } else { return VPX_CODEC_INVALID_PARAM ; } # else ( void ) ctx ; ( void ) args ; return VPX_CODEC_INCAPABLE ; # endif }" 294,"CWE-119 u32 h264bsdInitDpb ( dpbStorage_t * dpb , u32 picSizeInMbs , u32 dpbSize , u32 maxRefFrames , u32 maxFrameNum , u32 noReordering ) { u32 i ; ASSERT ( picSizeInMbs ) ; ASSERT ( maxRefFrames <= MAX_NUM_REF_PICS ) ; ASSERT ( maxRefFrames <= dpbSize ) ; ASSERT ( maxFrameNum ) ; ASSERT ( dpbSize ) ; dpb -> maxLongTermFrameIdx = NO_LONG_TERM_FRAME_INDICES ; dpb -> maxRefFrames = MAX ( maxRefFrames , 1 ) ; if ( noReordering ) dpb -> dpbSize = dpb -> maxRefFrames ; else dpb -> dpbSize = dpbSize ; dpb -> maxFrameNum = maxFrameNum ; dpb -> noReordering = noReordering ; dpb -> fullness = 0 ; dpb -> numRefFrames = 0 ; dpb -> prevRefFrameNum = 0 ; ALLOCATE ( dpb -> buffer , MAX_NUM_REF_IDX_L0_ACTIVE + 1 , dpbPicture_t ) ; if ( dpb -> buffer == NULL ) return ( MEMORY_ALLOCATION_ERROR ) ; H264SwDecMemset ( dpb -> buffer , 0 , ( MAX_NUM_REF_IDX_L0_ACTIVE + 1 ) * sizeof ( dpbPicture_t ) ) ; for ( i = 0 ; i < dpb -> dpbSize + 1 ; i ++ ) { ALLOCATE ( dpb -> buffer [ i ] . pAllocatedData , ( picSizeInMbs * 384 + 32 + 15 ) , u8 ) ; if ( dpb -> buffer [ i ] . pAllocatedData == NULL ) return ( MEMORY_ALLOCATION_ERROR ) ; dpb -> buffer [ i ] . data = ALIGN ( dpb -> buffer [ i ] . pAllocatedData , 16 ) ; } ALLOCATE ( dpb -> list , MAX_NUM_REF_IDX_L0_ACTIVE + 1 , dpbPicture_t * ) ; ALLOCATE ( dpb -> outBuf , dpb -> dpbSize + 1 , dpbOutPicture_t ) ; if ( dpb -> list == NULL || dpb -> outBuf == NULL ) return ( MEMORY_ALLOCATION_ERROR ) ; H264SwDecMemset ( dpb -> list , 0 , ( ( MAX_NUM_REF_IDX_L0_ACTIVE + 1 ) * sizeof ( dpbPicture_t * ) ) ) ; dpb -> numOut = dpb -> outIndex = 0 ; return ( HANTRO_OK ) ; }","u32 h264bsdInitDpb ( dpbStorage_t * dpb , u32 picSizeInMbs , u32 dpbSize , u32 maxRefFrames , u32 maxFrameNum , u32 noReordering ) { u32 i ; ASSERT ( picSizeInMbs ) ; ASSERT ( maxRefFrames <= MAX_NUM_REF_PICS ) ; ASSERT ( maxRefFrames <= dpbSize ) ; ASSERT ( maxFrameNum ) ; ASSERT ( dpbSize ) ; if ( picSizeInMbs > ( UINT32_MAX - 32 - 15 ) / 384 ) { ALOGE ( ""b/28533562"" ) ; android_errorWriteLog ( 0x534e4554 , ""28533562"" ) ; return ( MEMORY_ALLOCATION_ERROR ) ; } dpb -> maxLongTermFrameIdx = NO_LONG_TERM_FRAME_INDICES ; dpb -> maxRefFrames = MAX ( maxRefFrames , 1 ) ; if ( noReordering ) dpb -> dpbSize = dpb -> maxRefFrames ; else dpb -> dpbSize = dpbSize ; dpb -> maxFrameNum = maxFrameNum ; dpb -> noReordering = noReordering ; dpb -> fullness = 0 ; dpb -> numRefFrames = 0 ; dpb -> prevRefFrameNum = 0 ; ALLOCATE ( dpb -> buffer , MAX_NUM_REF_IDX_L0_ACTIVE + 1 , dpbPicture_t ) ; if ( dpb -> buffer == NULL ) return ( MEMORY_ALLOCATION_ERROR ) ; H264SwDecMemset ( dpb -> buffer , 0 , ( MAX_NUM_REF_IDX_L0_ACTIVE + 1 ) * sizeof ( dpbPicture_t ) ) ; for ( i = 0 ; i < dpb -> dpbSize + 1 ; i ++ ) { ALLOCATE ( dpb -> buffer [ i ] . pAllocatedData , ( picSizeInMbs * 384 + 32 + 15 ) , u8 ) ; if ( dpb -> buffer [ i ] . pAllocatedData == NULL ) return ( MEMORY_ALLOCATION_ERROR ) ; dpb -> buffer [ i ] . data = ALIGN ( dpb -> buffer [ i ] . pAllocatedData , 16 ) ; } ALLOCATE ( dpb -> list , MAX_NUM_REF_IDX_L0_ACTIVE + 1 , dpbPicture_t * ) ; ALLOCATE ( dpb -> outBuf , dpb -> dpbSize + 1 , dpbOutPicture_t ) ; if ( dpb -> list == NULL || dpb -> outBuf == NULL ) return ( MEMORY_ALLOCATION_ERROR ) ; H264SwDecMemset ( dpb -> list , 0 , ( ( MAX_NUM_REF_IDX_L0_ACTIVE + 1 ) * sizeof ( dpbPicture_t * ) ) ) ; dpb -> numOut = dpb -> outIndex = 0 ; return ( HANTRO_OK ) ; }" 295,"CWE-200 static int xfrm_alloc_replay_state_esn ( struct xfrm_replay_state_esn * * replay_esn , struct xfrm_replay_state_esn * * preplay_esn , struct nlattr * rta ) { struct xfrm_replay_state_esn * p , * pp , * up ; if ( ! rta ) return 0 ; up = nla_data ( rta ) ; p = kmemdup ( up , xfrm_replay_state_esn_len ( up ) , GFP_KERNEL ) ; if ( ! p ) return - ENOMEM ; pp = kmemdup ( up , xfrm_replay_state_esn_len ( up ) , GFP_KERNEL ) ; if ( ! pp ) { kfree ( p ) ; return - ENOMEM ; } * replay_esn = p ; * preplay_esn = pp ; return 0 ; }","static int xfrm_alloc_replay_state_esn ( struct xfrm_replay_state_esn * * replay_esn , struct xfrm_replay_state_esn * * preplay_esn , struct nlattr * rta ) { struct xfrm_replay_state_esn * p , * pp , * up ; int klen , ulen ; if ( ! rta ) return 0 ; up = nla_data ( rta ) ; klen = xfrm_replay_state_esn_len ( up ) ; ulen = nla_len ( rta ) >= klen ? klen : sizeof ( * up ) ; p = kzalloc ( klen , GFP_KERNEL ) ; if ( ! p ) return - ENOMEM ; pp = kzalloc ( klen , GFP_KERNEL ) ; if ( ! pp ) { kfree ( p ) ; return - ENOMEM ; } memcpy ( p , up , ulen ) ; memcpy ( pp , up , ulen ) ; * replay_esn = p ; * preplay_esn = pp ; return 0 ; }" 296,"CWE-119 static int try_filter_frame ( const YV12_BUFFER_CONFIG * sd , VP9_COMP * const cpi , int filt_level , int partial_frame ) { VP9_COMMON * const cm = & cpi -> common ; int filt_err ; vp9_loop_filter_frame ( cm , & cpi -> mb . e_mbd , filt_level , 1 , partial_frame ) ; filt_err = vp9_get_y_sse ( sd , cm -> frame_to_show ) ; vpx_yv12_copy_y ( & cpi -> last_frame_uf , cm -> frame_to_show ) ; return filt_err ; }","static int64_t try_filter_frame ( const YV12_BUFFER_CONFIG * sd , VP9_COMP * const cpi , int filt_level , int partial_frame ) { VP9_COMMON * const cm = & cpi -> common ; int64_t filt_err ; if ( cpi -> num_workers > 1 ) vp9_loop_filter_frame_mt ( cm -> frame_to_show , cm , cpi -> td . mb . e_mbd . plane , filt_level , 1 , partial_frame , cpi -> workers , cpi -> num_workers , & cpi -> lf_row_sync ) ; else vp9_loop_filter_frame ( cm -> frame_to_show , cm , & cpi -> td . mb . e_mbd , filt_level , 1 , partial_frame ) ; # if CONFIG_VP9_HIGHBITDEPTH if ( cm -> use_highbitdepth ) { filt_err = vp9_highbd_get_y_sse ( sd , cm -> frame_to_show ) ; } else { filt_err = vp9_get_y_sse ( sd , cm -> frame_to_show ) ; } # else filt_err = vp9_get_y_sse ( sd , cm -> frame_to_show ) ; # endif vpx_yv12_copy_y ( & cpi -> last_frame_uf , cm -> frame_to_show ) ; return filt_err ; }" 297,"NVD-CWE-Other h -> droppable = h -> nal_ref_idc == 0 ; if ( h -> sps . frame_mbs_only_flag ) { h -> picture_structure = PICT_FRAME ; } else { if ( ! h -> sps . direct_8x8_inference_flag && slice_type == AV_PICTURE_TYPE_B ) { av_log ( h -> avctx , AV_LOG_ERROR , ""This stream was generated by a broken encoder, invalid 8x8 inference\\n"" ) ; return - 1 ; } field_pic_flag = get_bits1 ( & h -> gb ) ; if ( field_pic_flag ) { bottom_field_flag = get_bits1 ( & h -> gb ) ; h -> picture_structure = PICT_TOP_FIELD + bottom_field_flag ; } else { h -> picture_structure = PICT_FRAME ; h -> mb_aff_frame = h -> sps . mb_aff ; } } h -> mb_field_decoding_flag = h -> picture_structure != PICT_FRAME ; if ( h0 -> current_slice != 0 ) { if ( last_pic_structure != h -> picture_structure || last_pic_droppable != h -> droppable ) { av_log ( h -> avctx , AV_LOG_ERROR , ""Changing field mode (%d -> %d) between slices is not allowed\\n"" , last_pic_structure , h -> picture_structure ) ; h -> picture_structure = last_pic_structure ; h -> droppable = last_pic_droppable ; return AVERROR_INVALIDDATA ; } else if ( ! h0 -> cur_pic_ptr ) { av_log ( h -> avctx , AV_LOG_ERROR , ""unset cur_pic_ptr on %d. slice\\n"" , h0 -> current_slice + 1 ) ; return AVERROR_INVALIDDATA ; } } else { if ( h -> frame_num != h -> prev_frame_num && h -> prev_frame_num >= 0 ) { int unwrap_prev_frame_num = h -> prev_frame_num ; int max_frame_num = 1 << h -> sps . log2_max_frame_num ; if ( unwrap_prev_frame_num > h -> frame_num ) unwrap_prev_frame_num -= max_frame_num ; if ( ( h -> frame_num - unwrap_prev_frame_num ) > h -> sps . ref_frame_count ) { unwrap_prev_frame_num = ( h -> frame_num - h -> sps . ref_frame_count ) - 1 ; if ( unwrap_prev_frame_num < 0 ) unwrap_prev_frame_num += max_frame_num ; h -> prev_frame_num = unwrap_prev_frame_num ; } } if ( h0 -> first_field ) { assert ( h0 -> cur_pic_ptr ) ; assert ( h0 -> cur_pic_ptr -> f . data [ 0 ] ) ; assert ( h0 -> cur_pic_ptr -> reference != DELAYED_PIC_REF ) ; if ( ! last_pic_droppable && h0 -> cur_pic_ptr -> tf . owner == h0 -> avctx ) { ff_thread_report_progress ( & h0 -> cur_pic_ptr -> tf , INT_MAX , last_pic_structure == PICT_BOTTOM_FIELD ) ; } if ( ! FIELD_PICTURE ( h ) || h -> picture_structure == last_pic_structure ) { if ( ! last_pic_droppable && last_pic_structure != PICT_FRAME ) { ff_thread_report_progress ( & h0 -> cur_pic_ptr -> tf , INT_MAX , last_pic_structure == PICT_TOP_FIELD ) ; } } else { if ( h0 -> cur_pic_ptr -> frame_num != h -> frame_num ) { if ( ! last_pic_droppable && last_pic_structure != PICT_FRAME ) { ff_thread_report_progress ( & h0 -> cur_pic_ptr -> tf , INT_MAX , last_pic_structure == PICT_TOP_FIELD ) ; } } else { if ( ! ( ( last_pic_structure == PICT_TOP_FIELD && h -> picture_structure == PICT_BOTTOM_FIELD ) || ( last_pic_structure == PICT_BOTTOM_FIELD && h -> picture_structure == PICT_TOP_FIELD ) ) ) { av_log ( h -> avctx , AV_LOG_ERROR , ""Invalid field mode combination %d/%d\\n"" , last_pic_structure , h -> picture_structure ) ; h -> picture_structure = last_pic_structure ; h -> droppable = last_pic_droppable ; return AVERROR_INVALIDDATA ; } else if ( last_pic_droppable != h -> droppable ) { avpriv_request_sample ( h -> avctx , ""Found reference and non-reference fields in the same frame, which"" ) ; h -> picture_structure = last_pic_structure ; h -> droppable = last_pic_droppable ; return AVERROR_PATCHWELCOME ; } } } } while ( h -> frame_num != h -> prev_frame_num && h -> prev_frame_num >= 0 && ! h0 -> first_field && h -> frame_num != ( h -> prev_frame_num + 1 ) % ( 1 << h -> sps . log2_max_frame_num ) ) { Picture * prev = h -> short_ref_count ? h -> short_ref [ 0 ] : NULL ; av_log ( h -> avctx , AV_LOG_DEBUG , ""Frame num gap %d %d\\n"" , h -> frame_num , h -> prev_frame_num ) ; if ( ! h -> sps . gaps_in_frame_num_allowed_flag ) for ( i = 0 ; i < FF_ARRAY_ELEMS ( h -> last_pocs ) ; i ++ ) h -> last_pocs [ i ] = INT_MIN ; ret = h264_frame_start ( h ) ; if ( ret < 0 ) return ret ; h -> prev_frame_num ++ ; h -> prev_frame_num %= 1 << h -> sps . log2_max_frame_num ; h -> cur_pic_ptr -> frame_num = h -> prev_frame_num ; ff_thread_report_progress ( & h -> cur_pic_ptr -> tf , INT_MAX , 0 ) ; ff_thread_report_progress ( & h -> cur_pic_ptr -> tf , INT_MAX , 1 ) ; ret = ff_generate_sliding_window_mmcos ( h , 1 ) ; if ( ret < 0 && ( h -> avctx -> err_recognition & AV_EF_EXPLODE ) ) return ret ; ret = ff_h264_execute_ref_pic_marking ( h , h -> mmco , h -> mmco_index ) ; if ( ret < 0 && ( h -> avctx -> err_recognition & AV_EF_EXPLODE ) ) return ret ; if ( h -> short_ref_count ) { if ( prev ) { av_image_copy ( h -> short_ref [ 0 ] -> f . data , h -> short_ref [ 0 ] -> f . linesize ,","h -> droppable = h -> nal_ref_idc == 0 ; if ( h -> sps . frame_mbs_only_flag ) { h -> picture_structure = PICT_FRAME ; } else { if ( ! h -> sps . direct_8x8_inference_flag && slice_type == AV_PICTURE_TYPE_B ) { av_log ( h -> avctx , AV_LOG_ERROR , ""This stream was generated by a broken encoder, invalid 8x8 inference\\n"" ) ; return - 1 ; } field_pic_flag = get_bits1 ( & h -> gb ) ; if ( field_pic_flag ) { bottom_field_flag = get_bits1 ( & h -> gb ) ; h -> picture_structure = PICT_TOP_FIELD + bottom_field_flag ; } else { h -> picture_structure = PICT_FRAME ; h -> mb_aff_frame = h -> sps . mb_aff ; } } h -> mb_field_decoding_flag = h -> picture_structure != PICT_FRAME ; if ( h0 -> current_slice != 0 ) { if ( last_pic_structure != h -> picture_structure || last_pic_droppable != h -> droppable ) { av_log ( h -> avctx , AV_LOG_ERROR , ""Changing field mode (%d -> %d) between slices is not allowed\\n"" , last_pic_structure , h -> picture_structure ) ; h -> picture_structure = last_pic_structure ; h -> droppable = last_pic_droppable ; return AVERROR_INVALIDDATA ; } else if ( ! h0 -> cur_pic_ptr ) { av_log ( h -> avctx , AV_LOG_ERROR , ""unset cur_pic_ptr on %d. slice\\n"" , h0 -> current_slice + 1 ) ; return AVERROR_INVALIDDATA ; } } else { if ( h -> frame_num != h -> prev_frame_num && h -> prev_frame_num >= 0 ) { int unwrap_prev_frame_num = h -> prev_frame_num ; int max_frame_num = 1 << h -> sps . log2_max_frame_num ; if ( unwrap_prev_frame_num > h -> frame_num ) unwrap_prev_frame_num -= max_frame_num ; if ( ( h -> frame_num - unwrap_prev_frame_num ) > h -> sps . ref_frame_count ) { unwrap_prev_frame_num = ( h -> frame_num - h -> sps . ref_frame_count ) - 1 ; if ( unwrap_prev_frame_num < 0 ) unwrap_prev_frame_num += max_frame_num ; h -> prev_frame_num = unwrap_prev_frame_num ; } } if ( h0 -> first_field ) { assert ( h0 -> cur_pic_ptr ) ; assert ( h0 -> cur_pic_ptr -> f . data [ 0 ] ) ; assert ( h0 -> cur_pic_ptr -> reference != DELAYED_PIC_REF ) ; if ( h0 -> cur_pic_ptr -> tf . owner == h0 -> avctx ) { ff_thread_report_progress ( & h0 -> cur_pic_ptr -> tf , INT_MAX , last_pic_structure == PICT_BOTTOM_FIELD ) ; } if ( ! FIELD_PICTURE ( h ) || h -> picture_structure == last_pic_structure ) { if ( last_pic_structure != PICT_FRAME ) { ff_thread_report_progress ( & h0 -> cur_pic_ptr -> tf , INT_MAX , last_pic_structure == PICT_TOP_FIELD ) ; } } else { if ( h0 -> cur_pic_ptr -> frame_num != h -> frame_num ) { if ( last_pic_structure != PICT_FRAME ) { ff_thread_report_progress ( & h0 -> cur_pic_ptr -> tf , INT_MAX , last_pic_structure == PICT_TOP_FIELD ) ; } } else { if ( ! ( ( last_pic_structure == PICT_TOP_FIELD && h -> picture_structure == PICT_BOTTOM_FIELD ) || ( last_pic_structure == PICT_BOTTOM_FIELD && h -> picture_structure == PICT_TOP_FIELD ) ) ) { av_log ( h -> avctx , AV_LOG_ERROR , ""Invalid field mode combination %d/%d\\n"" , last_pic_structure , h -> picture_structure ) ; h -> picture_structure = last_pic_structure ; h -> droppable = last_pic_droppable ; return AVERROR_INVALIDDATA ; } else if ( last_pic_droppable != h -> droppable ) { avpriv_request_sample ( h -> avctx , ""Found reference and non-reference fields in the same frame, which"" ) ; h -> picture_structure = last_pic_structure ; h -> droppable = last_pic_droppable ; return AVERROR_PATCHWELCOME ; } } } } while ( h -> frame_num != h -> prev_frame_num && h -> prev_frame_num >= 0 && ! h0 -> first_field && h -> frame_num != ( h -> prev_frame_num + 1 ) % ( 1 << h -> sps . log2_max_frame_num ) ) { Picture * prev = h -> short_ref_count ? h -> short_ref [ 0 ] : NULL ; av_log ( h -> avctx , AV_LOG_DEBUG , ""Frame num gap %d %d\\n"" , h -> frame_num , h -> prev_frame_num ) ; if ( ! h -> sps . gaps_in_frame_num_allowed_flag ) for ( i = 0 ; i < FF_ARRAY_ELEMS ( h -> last_pocs ) ; i ++ ) h -> last_pocs [ i ] = INT_MIN ; ret = h264_frame_start ( h ) ; if ( ret < 0 ) return ret ; h -> prev_frame_num ++ ; h -> prev_frame_num %= 1 << h -> sps . log2_max_frame_num ; h -> cur_pic_ptr -> frame_num = h -> prev_frame_num ; ff_thread_report_progress ( & h -> cur_pic_ptr -> tf , INT_MAX , 0 ) ; ff_thread_report_progress ( & h -> cur_pic_ptr -> tf , INT_MAX , 1 ) ; ret = ff_generate_sliding_window_mmcos ( h , 1 ) ; if ( ret < 0 && ( h -> avctx -> err_recognition & AV_EF_EXPLODE ) ) return ret ; ret = ff_h264_execute_ref_pic_marking ( h , h -> mmco , h -> mmco_index ) ; if ( ret < 0 && ( h -> avctx -> err_recognition & AV_EF_EXPLODE ) ) return ret ; if ( h -> short_ref_count ) { if ( prev ) { av_image_copy ( h -> short_ref [ 0 ] -> f . data , h -> short_ref [ 0 ] -> f . linesize ," 298,"CWE-284 static void a2dp_open_ctrl_path ( struct a2dp_stream_common * common ) { int i ; for ( i = 0 ; i < CTRL_CHAN_RETRY_COUNT ; i ++ ) { if ( ( common -> ctrl_fd = skt_connect ( A2DP_CTRL_PATH , common -> buffer_sz ) ) > 0 ) { if ( check_a2dp_ready ( common ) == 0 ) break ; ERROR ( ""error : a2dp not ready, wait 250 ms and retry"" ) ; usleep ( 250000 ) ; skt_disconnect ( common -> ctrl_fd ) ; common -> ctrl_fd = AUDIO_SKT_DISCONNECTED ; } usleep ( 250000 ) ; } }","static void a2dp_open_ctrl_path ( struct a2dp_stream_common * common ) { int i ; for ( i = 0 ; i < CTRL_CHAN_RETRY_COUNT ; i ++ ) { if ( ( common -> ctrl_fd = skt_connect ( A2DP_CTRL_PATH , common -> buffer_sz ) ) > 0 ) { if ( check_a2dp_ready ( common ) == 0 ) break ; ERROR ( ""error : a2dp not ready, wait 250 ms and retry"" ) ; TEMP_FAILURE_RETRY ( usleep ( 250000 ) ) ; skt_disconnect ( common -> ctrl_fd ) ; common -> ctrl_fd = AUDIO_SKT_DISCONNECTED ; } TEMP_FAILURE_RETRY ( usleep ( 250000 ) ) ; } }" 299,"CWE-362 static int sock_close ( struct inode * inode , struct file * filp ) { sock_release ( SOCKET_I ( inode ) ) ; return 0 ; }","static int sock_close ( struct inode * inode , struct file * filp ) { __sock_release ( SOCKET_I ( inode ) , inode ) ; return 0 ; }" 300,"CWE-119 static int check_stack_boundary ( struct bpf_verifier_env * env , int regno , int access_size , bool zero_size_allowed , struct bpf_call_arg_meta * meta ) { struct bpf_verifier_state * state = env -> cur_state ; struct bpf_reg_state * regs = state -> regs ; int off , i , slot , spi ; if ( regs [ regno ] . type != PTR_TO_STACK ) { if ( zero_size_allowed && access_size == 0 && register_is_null ( regs [ regno ] ) ) return 0 ; verbose ( env , ""R%d type=%s expected=%s\\n"" , regno , reg_type_str [ regs [ regno ] . type ] , reg_type_str [ PTR_TO_STACK ] ) ; return - EACCES ; } if ( ! tnum_is_const ( regs [ regno ] . var_off ) ) { char tn_buf [ 48 ] ; tnum_strn ( tn_buf , sizeof ( tn_buf ) , regs [ regno ] . var_off ) ; verbose ( env , ""invalid variable stack read R%d var_off=%s\\n"" , regno , tn_buf ) ; } off = regs [ regno ] . off + regs [ regno ] . var_off . value ; if ( off >= 0 || off < - MAX_BPF_STACK || off + access_size > 0 || access_size < 0 || ( access_size == 0 && ! zero_size_allowed ) ) { verbose ( env , ""invalid stack type R%d off=%d access_size=%d\\n"" , regno , off , access_size ) ; return - EACCES ; } if ( env -> prog -> aux -> stack_depth < - off ) env -> prog -> aux -> stack_depth = - off ; if ( meta && meta -> raw_mode ) { meta -> access_size = access_size ; meta -> regno = regno ; return 0 ; } for ( i = 0 ; i < access_size ; i ++ ) { slot = - ( off + i ) - 1 ; spi = slot / BPF_REG_SIZE ; if ( state -> allocated_stack <= slot || state -> stack [ spi ] . slot_type [ slot % BPF_REG_SIZE ] != STACK_MISC ) { verbose ( env , ""invalid indirect read from stack off %d+%d size %d\\n"" , off , i , access_size ) ; return - EACCES ; } } return 0 ; }","static int check_stack_boundary ( struct bpf_verifier_env * env , int regno , int access_size , bool zero_size_allowed , struct bpf_call_arg_meta * meta ) { struct bpf_verifier_state * state = env -> cur_state ; struct bpf_reg_state * regs = state -> regs ; int off , i , slot , spi ; if ( regs [ regno ] . type != PTR_TO_STACK ) { if ( zero_size_allowed && access_size == 0 && register_is_null ( regs [ regno ] ) ) return 0 ; verbose ( env , ""R%d type=%s expected=%s\\n"" , regno , reg_type_str [ regs [ regno ] . type ] , reg_type_str [ PTR_TO_STACK ] ) ; return - EACCES ; } if ( ! tnum_is_const ( regs [ regno ] . var_off ) ) { char tn_buf [ 48 ] ; tnum_strn ( tn_buf , sizeof ( tn_buf ) , regs [ regno ] . var_off ) ; verbose ( env , ""invalid variable stack read R%d var_off=%s\\n"" , regno , tn_buf ) ; return - EACCES ; } off = regs [ regno ] . off + regs [ regno ] . var_off . value ; if ( off >= 0 || off < - MAX_BPF_STACK || off + access_size > 0 || access_size < 0 || ( access_size == 0 && ! zero_size_allowed ) ) { verbose ( env , ""invalid stack type R%d off=%d access_size=%d\\n"" , regno , off , access_size ) ; return - EACCES ; } if ( env -> prog -> aux -> stack_depth < - off ) env -> prog -> aux -> stack_depth = - off ; if ( meta && meta -> raw_mode ) { meta -> access_size = access_size ; meta -> regno = regno ; return 0 ; } for ( i = 0 ; i < access_size ; i ++ ) { slot = - ( off + i ) - 1 ; spi = slot / BPF_REG_SIZE ; if ( state -> allocated_stack <= slot || state -> stack [ spi ] . slot_type [ slot % BPF_REG_SIZE ] != STACK_MISC ) { verbose ( env , ""invalid indirect read from stack off %d+%d size %d\\n"" , off , i , access_size ) ; return - EACCES ; } } return 0 ; }" 301,"CWE-119 static int nci_extract_activation_params_iso_dep ( struct nci_dev * ndev , struct nci_rf_intf_activated_ntf * ntf , __u8 * data ) { struct activation_params_nfca_poll_iso_dep * nfca_poll ; struct activation_params_nfcb_poll_iso_dep * nfcb_poll ; switch ( ntf -> activation_rf_tech_and_mode ) { case NCI_NFC_A_PASSIVE_POLL_MODE : nfca_poll = & ntf -> activation_params . nfca_poll_iso_dep ; nfca_poll -> rats_res_len = * data ++ ; pr_debug ( ""rats_res_len %d\\n"" , nfca_poll -> rats_res_len ) ; if ( nfca_poll -> rats_res_len > 0 ) { memcpy ( nfca_poll -> rats_res , data , nfca_poll -> rats_res_len ) ; } break ; case NCI_NFC_B_PASSIVE_POLL_MODE : nfcb_poll = & ntf -> activation_params . nfcb_poll_iso_dep ; nfcb_poll -> attrib_res_len = * data ++ ; pr_debug ( ""attrib_res_len %d\\n"" , nfcb_poll -> attrib_res_len ) ; if ( nfcb_poll -> attrib_res_len > 0 ) { memcpy ( nfcb_poll -> attrib_res , data , nfcb_poll -> attrib_res_len ) ; } break ; default : pr_err ( ""unsupported activation_rf_tech_and_mode 0x%x\\n"" , ntf -> activation_rf_tech_and_mode ) ; return NCI_STATUS_RF_PROTOCOL_ERROR ; } return NCI_STATUS_OK ; }","static int nci_extract_activation_params_iso_dep ( struct nci_dev * ndev , struct nci_rf_intf_activated_ntf * ntf , __u8 * data ) { struct activation_params_nfca_poll_iso_dep * nfca_poll ; struct activation_params_nfcb_poll_iso_dep * nfcb_poll ; switch ( ntf -> activation_rf_tech_and_mode ) { case NCI_NFC_A_PASSIVE_POLL_MODE : nfca_poll = & ntf -> activation_params . nfca_poll_iso_dep ; nfca_poll -> rats_res_len = min_t ( __u8 , * data ++ , 20 ) ; pr_debug ( ""rats_res_len %d\\n"" , nfca_poll -> rats_res_len ) ; if ( nfca_poll -> rats_res_len > 0 ) { memcpy ( nfca_poll -> rats_res , data , nfca_poll -> rats_res_len ) ; } break ; case NCI_NFC_B_PASSIVE_POLL_MODE : nfcb_poll = & ntf -> activation_params . nfcb_poll_iso_dep ; nfcb_poll -> attrib_res_len = min_t ( __u8 , * data ++ , 50 ) ; pr_debug ( ""attrib_res_len %d\\n"" , nfcb_poll -> attrib_res_len ) ; if ( nfcb_poll -> attrib_res_len > 0 ) { memcpy ( nfcb_poll -> attrib_res , data , nfcb_poll -> attrib_res_len ) ; } break ; default : pr_err ( ""unsupported activation_rf_tech_and_mode 0x%x\\n"" , ntf -> activation_rf_tech_and_mode ) ; return NCI_STATUS_RF_PROTOCOL_ERROR ; } return NCI_STATUS_OK ; }" 302,"CWE-416 done_reading : if ( image2 != NULL ) if ( image2 != image ) { DeleteImageFromList ( & image2 ) ; if ( clone_info ) { if ( clone_info -> file ) { fclose ( clone_info -> file ) ; clone_info -> file = NULL ; ( void ) remove_utf8 ( clone_info -> filename ) ; } } } AcquireNextImage ( image_info , image , exception ) ; if ( image -> next == ( Image * ) NULL ) break ; image = SyncNextImageInList ( image ) ; image -> columns = image -> rows = 0 ; image -> colors = 0 ; RelinquishMagickMemory ( BImgBuff ) ; BImgBuff = NULL ; if ( -- Frames > 0 ) { z = z2 ; if ( image2 == NULL ) image2 = image ; goto NEXT_FRAME ; } if ( ( image2 != NULL ) && ( image2 != image ) ) { DeleteImageFromList ( & image2 ) ; if ( clone_info ) { if ( clone_info -> file ) { fclose ( clone_info -> file ) ; clone_info -> file = NULL ; ( void ) remove_utf8 ( clone_info -> filename ) ; } } } if ( quantum_info != ( QuantumInfo * ) NULL ) quantum_info = DestroyQuantumInfo ( quantum_info ) ; if ( clone_info ) clone_info = DestroyImageInfo ( clone_info ) ; } RelinquishMagickMemory ( BImgBuff ) ; if ( quantum_info != ( QuantumInfo * ) NULL ) quantum_info = DestroyQuantumInfo ( quantum_info ) ; END_OF_READING : if ( clone_info ) clone_info = DestroyImageInfo ( clone_info ) ; CloseBlob ( image ) ; { Image * p ; ssize_t scene = 0 ; p = image ; image = NULL ; while ( p != ( Image * ) NULL ) { Image * tmp = p ; if ( ( p -> rows == 0 ) || ( p -> columns == 0 ) ) { p = p -> previous ; DeleteImageFromList ( & tmp ) ; } else { image = p ; p = p -> previous ; } } for ( p = image ; p != ( Image * ) NULL ; p = p -> next ) p -> scene = scene ++ ; } if ( clone_info != NULL ) { if ( clone_info -> file ) { fclose ( clone_info -> file ) ; clone_info -> file = NULL ; ( void ) remove_utf8 ( clone_info -> filename ) ; } DestroyImageInfo ( clone_info ) ; clone_info = NULL ; } if ( logging ) ( void ) LogMagickEvent ( CoderEvent , GetMagickModule ( ) , ""return"" ) ; if ( image == NULL ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) else if ( ( image != image2 ) && ( image2 != ( Image * ) NULL ) ) image2 = DestroyImage ( image2 ) ; return ( image ) ; }","done_reading : if ( image2 != NULL ) if ( image2 != image ) { DeleteImageFromList ( & image2 ) ; if ( clone_info ) { if ( clone_info -> file ) { fclose ( clone_info -> file ) ; clone_info -> file = NULL ; ( void ) remove_utf8 ( clone_info -> filename ) ; } } } AcquireNextImage ( image_info , image , exception ) ; if ( image -> next == ( Image * ) NULL ) break ; image = SyncNextImageInList ( image ) ; image -> columns = image -> rows = 0 ; image -> colors = 0 ; RelinquishMagickMemory ( BImgBuff ) ; BImgBuff = NULL ; if ( -- Frames > 0 ) { z = z2 ; if ( image2 == NULL ) image2 = image ; goto NEXT_FRAME ; } if ( ( image2 != NULL ) && ( image2 != image ) ) { DeleteImageFromList ( & image2 ) ; if ( clone_info ) { if ( clone_info -> file ) { fclose ( clone_info -> file ) ; clone_info -> file = NULL ; ( void ) remove_utf8 ( clone_info -> filename ) ; } } } if ( quantum_info != ( QuantumInfo * ) NULL ) quantum_info = DestroyQuantumInfo ( quantum_info ) ; if ( clone_info ) clone_info = DestroyImageInfo ( clone_info ) ; } RelinquishMagickMemory ( BImgBuff ) ; if ( quantum_info != ( QuantumInfo * ) NULL ) quantum_info = DestroyQuantumInfo ( quantum_info ) ; END_OF_READING : CloseBlob ( image ) ; { Image * p ; ssize_t scene = 0 ; p = image ; image = NULL ; while ( p != ( Image * ) NULL ) { Image * tmp = p ; if ( ( p -> rows == 0 ) || ( p -> columns == 0 ) ) { p = p -> previous ; if ( tmp == image2 ) image2 = ( Image * ) NULL ; DeleteImageFromList ( & tmp ) ; } else { image = p ; p = p -> previous ; } } for ( p = image ; p != ( Image * ) NULL ; p = p -> next ) p -> scene = scene ++ ; } if ( clone_info != NULL ) { if ( clone_info -> file ) { fclose ( clone_info -> file ) ; clone_info -> file = NULL ; ( void ) remove_utf8 ( clone_info -> filename ) ; } DestroyImageInfo ( clone_info ) ; clone_info = NULL ; } if ( logging ) ( void ) LogMagickEvent ( CoderEvent , GetMagickModule ( ) , ""return"" ) ; if ( image == NULL ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) else if ( ( image != image2 ) && ( image2 != ( Image * ) NULL ) ) image2 = DestroyImage ( image2 ) ; return ( image ) ; }" 303,"CWE-119 eprintf ( ""Core file not open\\n"" ) ; return 0 ; } const char * fn = input [ 1 ] == ' ' ? input + 2 : cf -> desc -> name ; ut64 baddr = r_config_get_i ( core -> config , ""bin.baddr"" ) ; r_core_bin_load ( core , fn , baddr ) ; } break ; # define RBININFO ( n , x , y , z ) \\ if ( is_array ) { \\ if ( is_array == 1 ) { is_array ++ ; \\ } else { r_cons_printf ( "","" ) ; } \\ r_cons_printf ( ""\\""%s\\"":"" , n ) ; \\ } \\ if ( z ) { playMsg ( core , n , z ) ; } \\ r_core_bin_info ( core , x , mode , va , NULL , y ) ; case 'A' : newline = false ; if ( input [ 1 ] == 'j' ) { r_cons_printf ( ""{"" ) ; r_bin_list_archs ( core -> bin , 'j' ) ; r_cons_printf ( ""}\\n"" ) ; } else { r_bin_list_archs ( core -> bin , 1 ) ; } break ; case 'E' : RBININFO ( ""exports"" , R_CORE_BIN_ACC_EXPORTS , NULL , 0 ) ; break ; case 'Z' : RBININFO ( ""size"" , R_CORE_BIN_ACC_SIZE , NULL , 0 ) ; break ; case 'S' : if ( ( input [ 1 ] == 'm' && input [ 2 ] == 'z' ) || ! input [ 1 ] ) { RBININFO ( ""sections"" , R_CORE_BIN_ACC_SECTIONS , NULL , 0 ) ; } else { RBinObject * obj = r_bin_cur_object ( core -> bin ) ; if ( mode == R_CORE_BIN_RADARE || mode == R_CORE_BIN_JSON || mode == R_CORE_BIN_SIMPLE ) { RBININFO ( ""sections"" , R_CORE_BIN_ACC_SECTIONS , input + 2 , obj ? r_list_length ( obj -> sections ) : 0 ) ; } else { RBININFO ( ""sections"" , R_CORE_BIN_ACC_SECTIONS , input + 1 , obj ? r_list_length ( obj -> sections ) : 0 ) ; } while ( * ( ++ input ) ) ; input -- ; } break ; case 'H' : if ( input [ 1 ] == 'H' ) { RBININFO ( ""header"" , R_CORE_BIN_ACC_HEADER , NULL , - 1 ) ; break ; } case 'h' : RBININFO ( ""fields"" , R_CORE_BIN_ACC_FIELDS , NULL , 0 ) ; break ; case 'l' : RBININFO ( ""libs"" , R_CORE_BIN_ACC_LIBS , NULL , obj ? r_list_length ( obj -> libs ) : 0 ) ; break ; case 'L' : { char * ptr = strchr ( input , ' ' ) ; int json = input [ 1 ] == 'j' ? 'j' : 0 ; if ( ptr && ptr [ 1 ] ) { const char * plugin_name = ptr + 1 ; if ( is_array ) { r_cons_printf ( ""\\""plugin\\"": "" ) ; } r_bin_list_plugin ( core -> bin , plugin_name , json ) ; } else { r_bin_list ( core -> bin , json ) ; } newline = false ; goto done ; } break ; case 's' : if ( input [ 1 ] == '.' ) { ut64 addr = core -> offset + ( core -> print -> cur_enabled ? core -> print -> cur : 0 ) ; RFlagItem * f = r_flag_get_at ( core -> flags , addr , false ) ; if ( f ) { if ( f -> offset == addr || ! f -> offset ) { r_cons_printf ( ""%s"" , f -> name ) ; } else { r_cons_printf ( ""%s+%d"" , f -> name , ( int ) ( addr - f -> offset ) ) ; } } input ++ ; break ; } else { RBinObject * obj = r_bin_cur_object ( core -> bin ) ; RBININFO ( ""symbols"" , R_CORE_BIN_ACC_SYMBOLS , NULL , obj ? r_list_length ( obj -> symbols ) : 0 ) ; break ; } case 'R' : if ( input [ 1 ] == '*' ) { mode = R_CORE_BIN_RADARE ; } else if ( input [ 1 ] == 'j' ) { mode = R_CORE_BIN_JSON ; } RBININFO ( ""resources"" , R_CORE_BIN_ACC_RESOURCES , NULL , 0 ) ; break ; case 'r' : RBININFO ( ""relocs"" , R_CORE_BIN_ACC_RELOCS , NULL , 0 ) ; break ; case 'd' : RBININFO ( ""dwarf"" , R_CORE_BIN_ACC_DWARF , NULL , - 1 ) ; break ; case 'i' : RBININFO ( ""imports"" , R_CORE_BIN_ACC_IMPORTS , NULL , obj ? r_list_length ( obj -> imports ) : 0 ) ; break ; case 'I' : RBININFO ( ""info"" , R_CORE_BIN_ACC_INFO , NULL , 0 ) ; break ; case 'e' : RBININFO ( ""entries"" , R_CORE_BIN_ACC_ENTRIES , NULL , 0 ) ; break ; case 'M' : RBININFO ( ""main"" , R_CORE_BIN_ACC_MAIN , NULL , 0 ) ; break ; case 'm' : RBININFO ( ""memory"" , R_CORE_BIN_ACC_MEM , NULL , 0 ) ; break ; case 'V' : RBININFO ( ""versioninfo"" , R_CORE_BIN_ACC_VERSIONINFO , NULL , 0 ) ; break ; case 'C' : RBININFO ( ""signature"" , R_CORE_BIN_ACC_SIGNATURE , NULL , 0 ) ; break ; case 'z' : if ( input [ 1 ] == 'z' ) { switch ( input [ 2 ] ) { case '*' : mode = R_CORE_BIN_RADARE ; break ; case 'j' : mode = R_CORE_BIN_JSON ; break ; case 'q' : if ( input [ 3 ] == 'q' ) { mode = R_CORE_BIN_SIMPLEST ; input ++ ; } else { mode = R_CORE_BIN_SIMPLE ; } break ; default : mode = R_CORE_BIN_PRINT ; break ; } input ++ ; RBININFO ( ""strings"" , R_CORE_BIN_ACC_RAW_STRINGS , NULL , 0 ) ; } else { RBinObject * obj = r_bin_cur_object ( core -> bin ) ; if ( input [ 1 ] == 'q' ) { mode = ( input [ 2 ] == 'q' ) ? R_CORE_BIN_SIMPLEST : R_CORE_BIN_SIMPLE ; input ++ ; } if ( obj ) { RBININFO ( ""strings"" , R_CORE_BIN_ACC_STRINGS , NULL , obj ? r_list_length ( obj -> strings ) : 0 ) ; } } break ; case 'c' : if ( input [ 1 ] == '?' ) { eprintf ( ""Usage: ic[ljq*] [class-index or name]\\n"" ) ; } else if ( input [ 1 ] == ' ' || input [ 1 ] == 'q' || input [ 1 ] == 'j' || input [ 1 ] == 'l' ) { RBinClass * cls ; RBinSymbol * sym ; RListIter * iter , * iter2 ;","eprintf ( ""Core file not open\\n"" ) ; return 0 ; } const char * fn = input [ 1 ] == ' ' ? input + 2 : cf -> desc -> name ; ut64 baddr = r_config_get_i ( core -> config , ""bin.baddr"" ) ; r_core_bin_load ( core , fn , baddr ) ; } break ; # define RBININFO ( n , x , y , z ) \\ if ( is_array ) { \\ if ( is_array == 1 ) { is_array ++ ; \\ } else { r_cons_printf ( "","" ) ; } \\ r_cons_printf ( ""\\""%s\\"":"" , n ) ; \\ } \\ if ( z ) { playMsg ( core , n , z ) ; } \\ r_core_bin_info ( core , x , mode , va , NULL , y ) ; case 'A' : newline = false ; if ( input [ 1 ] == 'j' ) { r_cons_printf ( ""{"" ) ; r_bin_list_archs ( core -> bin , 'j' ) ; r_cons_printf ( ""}\\n"" ) ; } else { r_bin_list_archs ( core -> bin , 1 ) ; } break ; case 'E' : RBININFO ( ""exports"" , R_CORE_BIN_ACC_EXPORTS , NULL , 0 ) ; break ; case 'Z' : RBININFO ( ""size"" , R_CORE_BIN_ACC_SIZE , NULL , 0 ) ; break ; case 'S' : if ( ( input [ 1 ] == 'm' && input [ 2 ] == 'z' ) || ! input [ 1 ] ) { RBININFO ( ""sections"" , R_CORE_BIN_ACC_SECTIONS , NULL , 0 ) ; } else { RBinObject * obj = r_bin_cur_object ( core -> bin ) ; if ( mode == R_CORE_BIN_RADARE || mode == R_CORE_BIN_JSON || mode == R_CORE_BIN_SIMPLE ) { RBININFO ( ""sections"" , R_CORE_BIN_ACC_SECTIONS , input + 2 , obj ? r_list_length ( obj -> sections ) : 0 ) ; } else { RBININFO ( ""sections"" , R_CORE_BIN_ACC_SECTIONS , input + 1 , obj ? r_list_length ( obj -> sections ) : 0 ) ; } while ( * ( ++ input ) ) ; input -- ; } break ; case 'H' : if ( input [ 1 ] == 'H' ) { RBININFO ( ""header"" , R_CORE_BIN_ACC_HEADER , NULL , - 1 ) ; break ; } case 'h' : RBININFO ( ""fields"" , R_CORE_BIN_ACC_FIELDS , NULL , 0 ) ; break ; case 'l' : { RBinObject * obj = r_bin_cur_object ( core -> bin ) ; RBININFO ( ""libs"" , R_CORE_BIN_ACC_LIBS , NULL , obj ? r_list_length ( obj -> libs ) : 0 ) ; } break ; case 'L' : { char * ptr = strchr ( input , ' ' ) ; int json = input [ 1 ] == 'j' ? 'j' : 0 ; if ( ptr && ptr [ 1 ] ) { const char * plugin_name = ptr + 1 ; if ( is_array ) { r_cons_printf ( ""\\""plugin\\"": "" ) ; } r_bin_list_plugin ( core -> bin , plugin_name , json ) ; } else { r_bin_list ( core -> bin , json ) ; } newline = false ; goto done ; } break ; case 's' : if ( input [ 1 ] == '.' ) { ut64 addr = core -> offset + ( core -> print -> cur_enabled ? core -> print -> cur : 0 ) ; RFlagItem * f = r_flag_get_at ( core -> flags , addr , false ) ; if ( f ) { if ( f -> offset == addr || ! f -> offset ) { r_cons_printf ( ""%s"" , f -> name ) ; } else { r_cons_printf ( ""%s+%d"" , f -> name , ( int ) ( addr - f -> offset ) ) ; } } input ++ ; break ; } else { RBinObject * obj = r_bin_cur_object ( core -> bin ) ; RBININFO ( ""symbols"" , R_CORE_BIN_ACC_SYMBOLS , NULL , obj ? r_list_length ( obj -> symbols ) : 0 ) ; break ; } case 'R' : if ( input [ 1 ] == '*' ) { mode = R_CORE_BIN_RADARE ; } else if ( input [ 1 ] == 'j' ) { mode = R_CORE_BIN_JSON ; } RBININFO ( ""resources"" , R_CORE_BIN_ACC_RESOURCES , NULL , 0 ) ; break ; case 'r' : RBININFO ( ""relocs"" , R_CORE_BIN_ACC_RELOCS , NULL , 0 ) ; break ; case 'd' : RBININFO ( ""dwarf"" , R_CORE_BIN_ACC_DWARF , NULL , - 1 ) ; break ; case 'i' : { RBinObject * obj = r_bin_cur_object ( core -> bin ) ; RBININFO ( ""imports"" , R_CORE_BIN_ACC_IMPORTS , NULL , obj ? r_list_length ( obj -> imports ) : 0 ) ; } break ; case 'I' : RBININFO ( ""info"" , R_CORE_BIN_ACC_INFO , NULL , 0 ) ; break ; case 'e' : RBININFO ( ""entries"" , R_CORE_BIN_ACC_ENTRIES , NULL , 0 ) ; break ; case 'M' : RBININFO ( ""main"" , R_CORE_BIN_ACC_MAIN , NULL , 0 ) ; break ; case 'm' : RBININFO ( ""memory"" , R_CORE_BIN_ACC_MEM , NULL , 0 ) ; break ; case 'V' : RBININFO ( ""versioninfo"" , R_CORE_BIN_ACC_VERSIONINFO , NULL , 0 ) ; break ; case 'C' : RBININFO ( ""signature"" , R_CORE_BIN_ACC_SIGNATURE , NULL , 0 ) ; break ; case 'z' : if ( input [ 1 ] == 'z' ) { switch ( input [ 2 ] ) { case '*' : mode = R_CORE_BIN_RADARE ; break ; case 'j' : mode = R_CORE_BIN_JSON ; break ; case 'q' : if ( input [ 3 ] == 'q' ) { mode = R_CORE_BIN_SIMPLEST ; input ++ ; } else { mode = R_CORE_BIN_SIMPLE ; } break ; default : mode = R_CORE_BIN_PRINT ; break ; } input ++ ; RBININFO ( ""strings"" , R_CORE_BIN_ACC_RAW_STRINGS , NULL , 0 ) ; } else { RBinObject * obj = r_bin_cur_object ( core -> bin ) ; if ( input [ 1 ] == 'q' ) { mode = ( input [ 2 ] == 'q' ) ? R_CORE_BIN_SIMPLEST : R_CORE_BIN_SIMPLE ; input ++ ; } if ( obj ) { RBININFO ( ""strings"" , R_CORE_BIN_ACC_STRINGS , NULL , obj ? r_list_length ( obj -> strings ) : 0 ) ; } } break ; case 'c' : if ( input [ 1 ] == '?' ) { eprintf ( ""Usage: ic[ljq*] [class-index or name]\\n"" ) ; } else if ( input [ 1 ] == ' ' || input [ 1 ] == 'q' || input [ 1 ] == 'j' || input [ 1 ] == 'l' ) { RBinClass * cls ; RBinSymbol * sym ; RListIter * iter , * iter2 ;" 304,"CWE-20 static inline int mk_vhost_fdt_open ( int id , unsigned int hash , struct session_request * sr ) { int i ; int fd ; struct vhost_fdt_hash_table * ht = NULL ; struct vhost_fdt_hash_chain * hc ; if ( config -> fdt == MK_FALSE ) { return open ( sr -> real_path . data , sr -> file_info . flags_read_only ) ; } ht = mk_vhost_fdt_table_lookup ( id , sr -> host_conf ) ; if ( mk_unlikely ( ! ht ) ) { return open ( sr -> real_path . data , sr -> file_info . flags_read_only ) ; } hc = mk_vhost_fdt_chain_lookup ( hash , ht ) ; if ( hc ) { hc -> readers ++ ; return hc -> fd ; } fd = open ( sr -> real_path . data , sr -> file_info . flags_read_only ) ; if ( fd == - 1 ) { return - 1 ; } if ( ht -> av_slots <= 0 ) { return fd ; } for ( i = 0 ; i < VHOST_FDT_HASHTABLE_CHAINS ; i ++ ) { hc = & ht -> chain [ i ] ; if ( hc -> fd == - 1 ) { hc -> fd = fd ; hc -> hash = hash ; hc -> readers ++ ; ht -> av_slots -- ; sr -> vhost_fdt_id = id ; sr -> vhost_fdt_hash = hash ; return fd ; } } return - 1 ; }","static inline int mk_vhost_fdt_open ( int id , unsigned int hash , struct session_request * sr ) { int i ; int fd ; struct vhost_fdt_hash_table * ht = NULL ; struct vhost_fdt_hash_chain * hc ; if ( config -> fdt == MK_FALSE ) { return open ( sr -> real_path . data , sr -> file_info . flags_read_only ) ; } ht = mk_vhost_fdt_table_lookup ( id , sr -> host_conf ) ; if ( mk_unlikely ( ! ht ) ) { return open ( sr -> real_path . data , sr -> file_info . flags_read_only ) ; } hc = mk_vhost_fdt_chain_lookup ( hash , ht ) ; if ( hc ) { hc -> readers ++ ; return hc -> fd ; } fd = open ( sr -> real_path . data , sr -> file_info . flags_read_only ) ; if ( fd == - 1 ) { return - 1 ; } if ( ht -> av_slots <= 0 ) { return fd ; } for ( i = 0 ; i < VHOST_FDT_HASHTABLE_CHAINS ; i ++ ) { hc = & ht -> chain [ i ] ; if ( hc -> fd == - 1 ) { hc -> fd = fd ; hc -> hash = hash ; hc -> readers ++ ; ht -> av_slots -- ; sr -> vhost_fdt_id = id ; sr -> vhost_fdt_hash = hash ; sr -> fd_is_fdt = MK_TRUE ; return fd ; } } return - 1 ; }" 305,"CWE-119 static Sdb * store_versioninfo_gnu_verdef ( ELFOBJ * bin , Elf_ ( Shdr ) * shdr , int sz ) { const char * section_name = """" ; const char * link_section_name = """" ; char * end = NULL ; Elf_ ( Shdr ) * link_shdr = NULL ; ut8 dfs [ sizeof ( Elf_ ( Verdef ) ) ] = { 0 } ; Sdb * sdb ; int cnt , i ; if ( shdr -> sh_link > bin -> ehdr . e_shnum ) { return false ; } link_shdr = & bin -> shdr [ shdr -> sh_link ] ; if ( shdr -> sh_size < 1 ) { return false ; } Elf_ ( Verdef ) * defs = calloc ( shdr -> sh_size , sizeof ( char ) ) ; if ( ! defs ) { return false ; } if ( bin -> shstrtab && shdr -> sh_name < bin -> shstrtab_size ) { section_name = & bin -> shstrtab [ shdr -> sh_name ] ; } if ( link_shdr && bin -> shstrtab && link_shdr -> sh_name < bin -> shstrtab_size ) { link_section_name = & bin -> shstrtab [ link_shdr -> sh_name ] ; } if ( ! defs ) { bprintf ( ""Warning: Cannot allocate memory (Check Elf_(Verdef))\\n"" ) ; return NULL ; } sdb = sdb_new0 ( ) ; end = ( char * ) defs + shdr -> sh_size ; sdb_set ( sdb , ""section_name"" , section_name , 0 ) ; sdb_num_set ( sdb , ""entries"" , shdr -> sh_info , 0 ) ; sdb_num_set ( sdb , ""addr"" , shdr -> sh_addr , 0 ) ; sdb_num_set ( sdb , ""offset"" , shdr -> sh_offset , 0 ) ; sdb_num_set ( sdb , ""link"" , shdr -> sh_link , 0 ) ; sdb_set ( sdb , ""link_section_name"" , link_section_name , 0 ) ; for ( cnt = 0 , i = 0 ; i >= 0 && cnt < shdr -> sh_info && ( ( char * ) defs + i < end ) ; ++ cnt ) { Sdb * sdb_verdef = sdb_new0 ( ) ; char * vstart = ( ( char * ) defs ) + i ; char key [ 32 ] = { 0 } ; Elf_ ( Verdef ) * verdef = ( Elf_ ( Verdef ) * ) vstart ; Elf_ ( Verdaux ) aux = { 0 } ; int j = 0 ; int isum = 0 ; r_buf_read_at ( bin -> b , shdr -> sh_offset + i , dfs , sizeof ( Elf_ ( Verdef ) ) ) ; verdef -> vd_version = READ16 ( dfs , j ) verdef -> vd_flags = READ16 ( dfs , j ) verdef -> vd_ndx = READ16 ( dfs , j ) verdef -> vd_cnt = READ16 ( dfs , j ) verdef -> vd_hash = READ32 ( dfs , j ) verdef -> vd_aux = READ32 ( dfs , j ) verdef -> vd_next = READ32 ( dfs , j ) int vdaux = verdef -> vd_aux ; if ( vdaux < 1 ) { sdb_free ( sdb_verdef ) ; goto out_error ; } vstart += vdaux ; if ( vstart > end || vstart + sizeof ( Elf_ ( Verdaux ) ) > end ) { sdb_free ( sdb_verdef ) ; goto out_error ; }","static Sdb * store_versioninfo_gnu_verdef ( ELFOBJ * bin , Elf_ ( Shdr ) * shdr , int sz ) { const char * section_name = """" ; const char * link_section_name = """" ; char * end = NULL ; Elf_ ( Shdr ) * link_shdr = NULL ; ut8 dfs [ sizeof ( Elf_ ( Verdef ) ) ] = { 0 } ; Sdb * sdb ; int cnt , i ; if ( shdr -> sh_link > bin -> ehdr . e_shnum ) { return false ; } link_shdr = & bin -> shdr [ shdr -> sh_link ] ; if ( shdr -> sh_size < 1 || shdr -> sh_size > SIZE_MAX ) { return false ; } Elf_ ( Verdef ) * defs = calloc ( shdr -> sh_size , sizeof ( char ) ) ; if ( ! defs ) { return false ; } if ( bin -> shstrtab && shdr -> sh_name < bin -> shstrtab_size ) { section_name = & bin -> shstrtab [ shdr -> sh_name ] ; } if ( link_shdr && bin -> shstrtab && link_shdr -> sh_name < bin -> shstrtab_size ) { link_section_name = & bin -> shstrtab [ link_shdr -> sh_name ] ; } if ( ! defs ) { bprintf ( ""Warning: Cannot allocate memory (Check Elf_(Verdef))\\n"" ) ; return NULL ; } sdb = sdb_new0 ( ) ; end = ( char * ) defs + shdr -> sh_size ; sdb_set ( sdb , ""section_name"" , section_name , 0 ) ; sdb_num_set ( sdb , ""entries"" , shdr -> sh_info , 0 ) ; sdb_num_set ( sdb , ""addr"" , shdr -> sh_addr , 0 ) ; sdb_num_set ( sdb , ""offset"" , shdr -> sh_offset , 0 ) ; sdb_num_set ( sdb , ""link"" , shdr -> sh_link , 0 ) ; sdb_set ( sdb , ""link_section_name"" , link_section_name , 0 ) ; for ( cnt = 0 , i = 0 ; i >= 0 && cnt < shdr -> sh_info && ( ( char * ) defs + i < end ) ; ++ cnt ) { Sdb * sdb_verdef = sdb_new0 ( ) ; char * vstart = ( ( char * ) defs ) + i ; char key [ 32 ] = { 0 } ; Elf_ ( Verdef ) * verdef = ( Elf_ ( Verdef ) * ) vstart ; Elf_ ( Verdaux ) aux = { 0 } ; int j = 0 ; int isum = 0 ; r_buf_read_at ( bin -> b , shdr -> sh_offset + i , dfs , sizeof ( Elf_ ( Verdef ) ) ) ; verdef -> vd_version = READ16 ( dfs , j ) verdef -> vd_flags = READ16 ( dfs , j ) verdef -> vd_ndx = READ16 ( dfs , j ) verdef -> vd_cnt = READ16 ( dfs , j ) verdef -> vd_hash = READ32 ( dfs , j ) verdef -> vd_aux = READ32 ( dfs , j ) verdef -> vd_next = READ32 ( dfs , j ) int vdaux = verdef -> vd_aux ; if ( vdaux < 1 ) { sdb_free ( sdb_verdef ) ; goto out_error ; } vstart += vdaux ; if ( vstart > end || vstart + sizeof ( Elf_ ( Verdaux ) ) > end ) { sdb_free ( sdb_verdef ) ; goto out_error ; }" 306,"CWE-119 int vp8_diamond_search_sad_c ( MACROBLOCK * x , BLOCK * b , BLOCKD * d , int_mv * ref_mv , int_mv * best_mv , int search_param , int sad_per_bit , int * num00 , vp8_variance_fn_ptr_t * fn_ptr , int * mvcost [ 2 ] , int_mv * center_mv ) { int i , j , step ; unsigned char * what = ( * ( b -> base_src ) + b -> src ) ; int what_stride = b -> src_stride ; unsigned char * in_what ; int pre_stride = x -> e_mbd . pre . y_stride ; unsigned char * base_pre = x -> e_mbd . pre . y_buffer ; int in_what_stride = pre_stride ; unsigned char * best_address ; int tot_steps ; int_mv this_mv ; unsigned int bestsad ; unsigned int thissad ; int best_site = 0 ; int last_site = 0 ; int ref_row ; int ref_col ; int this_row_offset ; int this_col_offset ; search_site * ss ; unsigned char * check_here ; int * mvsadcost [ 2 ] ; int_mv fcenter_mv ; mvsadcost [ 0 ] = x -> mvsadcost [ 0 ] ; mvsadcost [ 1 ] = x -> mvsadcost [ 1 ] ; fcenter_mv . as_mv . row = center_mv -> as_mv . row >> 3 ; fcenter_mv . as_mv . col = center_mv -> as_mv . col >> 3 ; vp8_clamp_mv ( ref_mv , x -> mv_col_min , x -> mv_col_max , x -> mv_row_min , x -> mv_row_max ) ; ref_row = ref_mv -> as_mv . row ; ref_col = ref_mv -> as_mv . col ; * num00 = 0 ; best_mv -> as_mv . row = ref_row ; best_mv -> as_mv . col = ref_col ; in_what = ( unsigned char * ) ( base_pre + d -> offset + ( ref_row * pre_stride ) + ref_col ) ; best_address = in_what ; bestsad = fn_ptr -> sdf ( what , what_stride , in_what , in_what_stride , UINT_MAX ) ss = & x -> ss [ search_param * x -> searches_per_step ] ; tot_steps = ( x -> ss_count / x -> searches_per_step ) - search_param ; i = 1 ; for ( step = 0 ; step < tot_steps ; step ++ ) { for ( j = 0 ; j < x -> searches_per_step ; j ++ ) { this_row_offset = best_mv -> as_mv . row + ss [ i ] . mv . row ; this_col_offset = best_mv -> as_mv . col + ss [ i ] . mv . col ; if ( ( this_col_offset > x -> mv_col_min ) && ( this_col_offset < x -> mv_col_max ) && ( this_row_offset > x -> mv_row_min ) && ( this_row_offset < x -> mv_row_max ) ) { check_here = ss [ i ] . offset + best_address ; thissad = fn_ptr -> sdf ( what , what_stride , check_here , in_what_stride , bestsad ) ; if ( thissad < bestsad ) { this_mv . as_mv . row = this_row_offset ; this_mv . as_mv . col = this_col_offset ; thissad += mvsad_err_cost ( & this_mv , & fcenter_mv , mvsadcost , sad_per_bit ) ; if ( thissad < bestsad ) { bestsad = thissad ; best_site = i ; } } } i ++ ; } if ( best_site != last_site ) { best_mv -> as_mv . row += ss [ best_site ] . mv . row ; best_mv -> as_mv . col += ss [ best_site ] . mv . col ; best_address += ss [ best_site ] . offset ; last_site = best_site ; } else if ( best_address == in_what ) ( * num00 ) ++ ; } this_mv . as_mv . row = best_mv -> as_mv . row << 3 ; this_mv . as_mv . col = best_mv -> as_mv . col << 3 ; return fn_ptr -> vf ( what , what_stride , best_address , in_what_stride , & thissad ) }","int vp8_diamond_search_sad_c ( MACROBLOCK * x , BLOCK * b , BLOCKD * d , int_mv * ref_mv , int_mv * best_mv , int search_param , int sad_per_bit , int * num00 , vp8_variance_fn_ptr_t * fn_ptr , int * mvcost [ 2 ] , int_mv * center_mv ) { int i , j , step ; unsigned char * what = ( * ( b -> base_src ) + b -> src ) ; int what_stride = b -> src_stride ; unsigned char * in_what ; int pre_stride = x -> e_mbd . pre . y_stride ; unsigned char * base_pre = x -> e_mbd . pre . y_buffer ; int in_what_stride = pre_stride ; unsigned char * best_address ; int tot_steps ; int_mv this_mv ; unsigned int bestsad ; unsigned int thissad ; int best_site = 0 ; int last_site = 0 ; int ref_row ; int ref_col ; int this_row_offset ; int this_col_offset ; search_site * ss ; unsigned char * check_here ; int * mvsadcost [ 2 ] ; int_mv fcenter_mv ; mvsadcost [ 0 ] = x -> mvsadcost [ 0 ] ; mvsadcost [ 1 ] = x -> mvsadcost [ 1 ] ; fcenter_mv . as_mv . row = center_mv -> as_mv . row >> 3 ; fcenter_mv . as_mv . col = center_mv -> as_mv . col >> 3 ; vp8_clamp_mv ( ref_mv , x -> mv_col_min , x -> mv_col_max , x -> mv_row_min , x -> mv_row_max ) ; ref_row = ref_mv -> as_mv . row ; ref_col = ref_mv -> as_mv . col ; * num00 = 0 ; best_mv -> as_mv . row = ref_row ; best_mv -> as_mv . col = ref_col ; in_what = ( unsigned char * ) ( base_pre + d -> offset + ( ref_row * pre_stride ) + ref_col ) ; best_address = in_what ; bestsad = fn_ptr -> sdf ( what , what_stride , in_what , in_what_stride ) mvsad_err_cost ( best_mv , & fcenter_mv , mvsadcost , sad_per_bit ) ; ss = & x -> ss [ search_param * x -> searches_per_step ] ; tot_steps = ( x -> ss_count / x -> searches_per_step ) - search_param ; i = 1 ; for ( step = 0 ; step < tot_steps ; step ++ ) { for ( j = 0 ; j < x -> searches_per_step ; j ++ ) { this_row_offset = best_mv -> as_mv . row + ss [ i ] . mv . row ; this_col_offset = best_mv -> as_mv . col + ss [ i ] . mv . col ; if ( ( this_col_offset > x -> mv_col_min ) && ( this_col_offset < x -> mv_col_max ) && ( this_row_offset > x -> mv_row_min ) && ( this_row_offset < x -> mv_row_max ) ) { check_here = ss [ i ] . offset + best_address ; thissad = fn_ptr -> sdf ( what , what_stride , check_here , in_what_stride ) ; if ( thissad < bestsad ) { this_mv . as_mv . row = this_row_offset ; this_mv . as_mv . col = this_col_offset ; thissad += mvsad_err_cost ( & this_mv , & fcenter_mv , mvsadcost , sad_per_bit ) ; if ( thissad < bestsad ) { bestsad = thissad ; best_site = i ; } } } i ++ ; } if ( best_site != last_site ) { best_mv -> as_mv . row += ss [ best_site ] . mv . row ; best_mv -> as_mv . col += ss [ best_site ] . mv . col ; best_address += ss [ best_site ] . offset ; last_site = best_site ; } else if ( best_address == in_what ) ( * num00 ) ++ ; } this_mv . as_mv . row = best_mv -> as_mv . row << 3 ; this_mv . as_mv . col = best_mv -> as_mv . col << 3 ; return fn_ptr -> vf ( what , what_stride , best_address , in_what_stride , & thissad ) mv_err_cost ( & this_mv , center_mv , mvcost , x -> errorperbit ) ; }" 307,"NVD-CWE-Other static int ras_getcmap ( jas_stream_t * in , ras_hdr_t * hdr , ras_cmap_t * cmap ) { int i ; int j ; int x ; int c ; int numcolors ; int actualnumcolors ; switch ( hdr -> maptype ) { case RAS_MT_NONE : break ; case RAS_MT_EQUALRGB : { jas_eprintf ( ""warning: palettized images not fully supported\\n"" ) ; numcolors = 1 << hdr -> depth ; assert ( numcolors <= RAS_CMAP_MAXSIZ ) ; actualnumcolors = hdr -> maplength / 3 ; for ( i = 0 ; i < numcolors ; i ++ ) { cmap -> data [ i ] = 0 ; } if ( ( hdr -> maplength % 3 ) || hdr -> maplength < 0 || hdr -> maplength > 3 * numcolors ) { return - 1 ; } for ( i = 0 ; i < 3 ; i ++ ) { for ( j = 0 ; j < actualnumcolors ; j ++ ) { if ( ( c = jas_stream_getc ( in ) ) == EOF ) { return - 1 ; } x = 0 ; switch ( i ) { case 0 : x = RAS_RED ( c ) ; break ; case 1 : x = RAS_GREEN ( c ) ; break ; case 2 : x = RAS_BLUE ( c ) ; break ; } cmap -> data [ j ] |= x ; } } } break ; default : return - 1 ; break ; } return 0 ; }","static int ras_getcmap ( jas_stream_t * in , ras_hdr_t * hdr , ras_cmap_t * cmap ) { int i ; int j ; int x ; int c ; int numcolors ; int actualnumcolors ; switch ( hdr -> maptype ) { case RAS_MT_NONE : break ; case RAS_MT_EQUALRGB : { jas_eprintf ( ""warning: palettized images not fully supported\\n"" ) ; numcolors = 1 << hdr -> depth ; if ( numcolors > RAS_CMAP_MAXSIZ ) { return - 1 ; } actualnumcolors = hdr -> maplength / 3 ; for ( i = 0 ; i < numcolors ; i ++ ) { cmap -> data [ i ] = 0 ; } if ( ( hdr -> maplength % 3 ) || hdr -> maplength < 0 || hdr -> maplength > 3 * numcolors ) { return - 1 ; } for ( i = 0 ; i < 3 ; i ++ ) { for ( j = 0 ; j < actualnumcolors ; j ++ ) { if ( ( c = jas_stream_getc ( in ) ) == EOF ) { return - 1 ; } x = 0 ; switch ( i ) { case 0 : x = RAS_RED ( c ) ; break ; case 1 : x = RAS_GREEN ( c ) ; break ; case 2 : x = RAS_BLUE ( c ) ; break ; } cmap -> data [ j ] |= x ; } } } break ; default : return - 1 ; break ; } return 0 ; }" 308,"CWE-189 goto out ; } shp = CAST ( const cdf_section_header_t * , ( const void * ) ( ( const char * ) sst -> sst_tab + offs ) ) ; if ( cdf_check_stream_offset ( sst , h , shp , sizeof ( * shp ) , __LINE__ ) == - 1 ) goto out ; sh . sh_len = CDF_TOLE4 ( shp -> sh_len ) ; # define CDF_SHLEN_LIMIT ( UINT32_MAX / 8 ) if ( sh . sh_len > CDF_SHLEN_LIMIT ) { errno = EFTYPE ; goto out ; } sh . sh_properties = CDF_TOLE4 ( shp -> sh_properties ) ; # define CDF_PROP_LIMIT ( UINT32_MAX / ( 4 * sizeof ( * inp ) ) ) if ( sh . sh_properties > CDF_PROP_LIMIT ) goto out ; DPRINTF ( ( ""section len: %u properties %u\\n"" , sh . sh_len , sh . sh_properties ) ) ; if ( * maxcount ) { if ( * maxcount > CDF_PROP_LIMIT ) goto out ; * maxcount += sh . sh_properties ; inp = CAST ( cdf_property_info_t * , realloc ( * info , * maxcount * sizeof ( * inp ) ) ) ; } else { * maxcount = sh . sh_properties ; inp = CAST ( cdf_property_info_t * , malloc ( * maxcount * sizeof ( * inp ) ) ) ; } if ( inp == NULL ) goto out ; * info = inp ; inp += * count ; * count += sh . sh_properties ; p = CAST ( const uint8_t * , ( const void * ) ( ( const char * ) ( const void * ) sst -> sst_tab + offs + sizeof ( sh ) ) ) ; e = CAST ( const uint8_t * , ( const void * ) ( ( ( const char * ) ( const void * ) shp ) + sh . sh_len ) ) ; if ( cdf_check_stream_offset ( sst , h , e , 0 , __LINE__ ) == - 1 ) goto out ; for ( i = 0 ; i < sh . sh_properties ; i ++ ) { size_t ofs , tail = ( i << 1 ) + 1 ; if ( cdf_check_stream_offset ( sst , h , p , tail * sizeof ( uint32_t ) , __LINE__ ) == - 1 ) goto out ; ofs = CDF_GETUINT32 ( p , tail ) ; q = ( const uint8_t * ) ( const void * ) ( ( const char * ) ( const void * ) p + ofs 2 * sizeof ( uint32_t ) ) ; if ( q > e ) { DPRINTF ( ( ""Ran of the end %p > %p\\n"" , q , e ) ) ; goto out ; } inp [ i ] . pi_id = CDF_GETUINT32 ( p , i << 1 ) ; inp [ i ] . pi_type = CDF_GETUINT32 ( q , 0 ) ; DPRINTF ( ( ""%"" SIZE_T_FORMAT ""u) id=%x type=%x offs=0x%tx,0x%x\\n"" , i , inp [ i ] . pi_id , inp [ i ] . pi_type , q - p , offs ) ) ; if ( inp [ i ] . pi_type & CDF_VECTOR ) { nelements = CDF_GETUINT32 ( q , 1 ) ; if ( nelements == 0 ) { DPRINTF ( ( ""CDF_VECTOR with nelements == 0\\n"" ) ) ; goto out ; } o = 2 ; } else { nelements = 1 ; o = 1 ; } o4 = o * sizeof ( uint32_t ) ; if ( inp [ i ] . pi_type & ( CDF_ARRAY | CDF_BYREF | CDF_RESERVED ) ) goto unknown ; switch ( inp [ i ] . pi_type & CDF_TYPEMASK ) { case CDF_NULL : case CDF_EMPTY : break ; case CDF_SIGNED16 : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & s16 , & q [ o4 ] , sizeof ( s16 ) ) ; inp [ i ] . pi_s16 = CDF_TOLE2 ( s16 ) ; break ; case CDF_SIGNED32 : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & s32 , & q [ o4 ] , sizeof ( s32 ) ) ; inp [ i ] . pi_s32 = CDF_TOLE4 ( ( uint32_t ) s32 ) ; break ; case CDF_BOOL : case CDF_UNSIGNED32 : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & u32 , & q [ o4 ] , sizeof ( u32 ) ) ; inp [ i ] . pi_u32 = CDF_TOLE4 ( u32 ) ; break ; case CDF_SIGNED64 : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & s64 , & q [ o4 ] , sizeof ( s64 ) ) ; inp [ i ] . pi_s64 = CDF_TOLE8 ( ( uint64_t ) s64 ) ; break ;","goto out ; } shp = CAST ( const cdf_section_header_t * , ( const void * ) ( ( const char * ) sst -> sst_tab + offs ) ) ; if ( cdf_check_stream_offset ( sst , h , shp , sizeof ( * shp ) , __LINE__ ) == - 1 ) goto out ; sh . sh_len = CDF_TOLE4 ( shp -> sh_len ) ; # define CDF_SHLEN_LIMIT ( UINT32_MAX / 8 ) if ( sh . sh_len > CDF_SHLEN_LIMIT ) { errno = EFTYPE ; goto out ; } sh . sh_properties = CDF_TOLE4 ( shp -> sh_properties ) ; # define CDF_PROP_LIMIT ( UINT32_MAX / ( 4 * sizeof ( * inp ) ) ) if ( sh . sh_properties > CDF_PROP_LIMIT ) goto out ; DPRINTF ( ( ""section len: %u properties %u\\n"" , sh . sh_len , sh . sh_properties ) ) ; if ( * maxcount ) { if ( * maxcount > CDF_PROP_LIMIT ) goto out ; * maxcount += sh . sh_properties ; inp = CAST ( cdf_property_info_t * , realloc ( * info , * maxcount * sizeof ( * inp ) ) ) ; } else { * maxcount = sh . sh_properties ; inp = CAST ( cdf_property_info_t * , malloc ( * maxcount * sizeof ( * inp ) ) ) ; } if ( inp == NULL ) goto out ; * info = inp ; inp += * count ; * count += sh . sh_properties ; p = CAST ( const uint8_t * , ( const void * ) ( ( const char * ) ( const void * ) sst -> sst_tab + offs + sizeof ( sh ) ) ) ; e = CAST ( const uint8_t * , ( const void * ) ( ( ( const char * ) ( const void * ) shp ) + sh . sh_len ) ) ; if ( cdf_check_stream_offset ( sst , h , e , 0 , __LINE__ ) == - 1 ) goto out ; for ( i = 0 ; i < sh . sh_properties ; i ++ ) { size_t ofs , tail = ( i << 1 ) + 1 ; if ( cdf_check_stream_offset ( sst , h , p , tail * sizeof ( uint32_t ) , __LINE__ ) == - 1 ) goto out ; ofs = CDF_GETUINT32 ( p , tail ) ; q = ( const uint8_t * ) ( const void * ) ( ( const char * ) ( const void * ) p + ofs if ( q < p || q > e ) { DPRINTF ( ( ""Ran of the end %p > %p\\n"" , q , e ) ) ; goto out ; } inp [ i ] . pi_id = CDF_GETUINT32 ( p , i << 1 ) ; inp [ i ] . pi_type = CDF_GETUINT32 ( q , 0 ) ; DPRINTF ( ( ""%"" SIZE_T_FORMAT ""u) id=%x type=%x offs=0x%tx,0x%x\\n"" , i , inp [ i ] . pi_id , inp [ i ] . pi_type , q - p , offs ) ) ; if ( inp [ i ] . pi_type & CDF_VECTOR ) { nelements = CDF_GETUINT32 ( q , 1 ) ; if ( nelements == 0 ) { DPRINTF ( ( ""CDF_VECTOR with nelements == 0\\n"" ) ) ; goto out ; } o = 2 ; } else { nelements = 1 ; o = 1 ; } o4 = o * sizeof ( uint32_t ) ; if ( inp [ i ] . pi_type & ( CDF_ARRAY | CDF_BYREF | CDF_RESERVED ) ) goto unknown ; switch ( inp [ i ] . pi_type & CDF_TYPEMASK ) { case CDF_NULL : case CDF_EMPTY : break ; case CDF_SIGNED16 : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & s16 , & q [ o4 ] , sizeof ( s16 ) ) ; inp [ i ] . pi_s16 = CDF_TOLE2 ( s16 ) ; break ; case CDF_SIGNED32 : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & s32 , & q [ o4 ] , sizeof ( s32 ) ) ; inp [ i ] . pi_s32 = CDF_TOLE4 ( ( uint32_t ) s32 ) ; break ; case CDF_BOOL : case CDF_UNSIGNED32 : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & u32 , & q [ o4 ] , sizeof ( u32 ) ) ; inp [ i ] . pi_u32 = CDF_TOLE4 ( u32 ) ; break ; case CDF_SIGNED64 : if ( inp [ i ] . pi_type & CDF_VECTOR ) goto unknown ; ( void ) memcpy ( & s64 , & q [ o4 ] , sizeof ( s64 ) ) ; inp [ i ] . pi_s64 = CDF_TOLE8 ( ( uint64_t ) s64 ) ; break ;" 309,"CWE-20 void initServer ( ) { int j ; signal ( SIGHUP , SIG_IGN ) ; signal ( SIGPIPE , SIG_IGN ) ; setupSigSegvAction ( ) ; if ( server . syslog_enabled ) { openlog ( server . syslog_ident , LOG_PID | LOG_NDELAY | LOG_NOWAIT , server . syslog_facility ) ; } server . mainthread = pthread_self ( ) ; server . clients = listCreate ( ) ; server . slaves = listCreate ( ) ; server . monitors = listCreate ( ) ; server . unblocked_clients = listCreate ( ) ; createSharedObjects ( ) ; server . el = aeCreateEventLoop ( ) ; server . db = zmalloc ( sizeof ( redisDb ) * server . dbnum ) ; server . ipfd = anetTcpServer ( server . neterr , server . port , server . bindaddr ) ; if ( server . ipfd == ANET_ERR ) { redisLog ( REDIS_WARNING , ""Opening port: %s"" , server . neterr ) ; exit ( 1 ) ; } if ( server . unixsocket != NULL ) { unlink ( server . unixsocket ) ; server . sofd = anetUnixServer ( server . neterr , server . unixsocket ) ; if ( server . sofd == ANET_ERR ) { redisLog ( REDIS_WARNING , ""Opening socket: %s"" , server . neterr ) ; exit ( 1 ) ; } } if ( server . ipfd < 0 && server . sofd < 0 ) { redisLog ( REDIS_WARNING , ""Configured to not listen anywhere, exiting."" ) ; exit ( 1 ) ; } for ( j = 0 ; j < server . dbnum ; j ++ ) { server . db [ j ] . dict = dictCreate ( & dbDictType , NULL ) ; server . db [ j ] . expires = dictCreate ( & keyptrDictType , NULL ) ; server . db [ j ] . blocking_keys = dictCreate ( & keylistDictType , NULL ) ; server . db [ j ] . watched_keys = dictCreate ( & keylistDictType , NULL ) ; if ( server . vm_enabled ) server . db [ j ] . io_keys = dictCreate ( & keylistDictType , NULL ) ; server . db [ j ] . id = j ; } server . pubsub_channels = dictCreate ( & keylistDictType , NULL ) ; server . pubsub_patterns = listCreate ( ) ; listSetFreeMethod ( server . pubsub_patterns , freePubsubPattern ) ; listSetMatchMethod ( server . pubsub_patterns , listMatchPubsubPattern ) ; server . cronloops = 0 ; server . bgsavechildpid = - 1 ; server . bgrewritechildpid = - 1 ; server . bgrewritebuf = sdsempty ( ) ; server . aofbuf = sdsempty ( ) ; server . lastsave = time ( NULL ) ; server . dirty = 0 ; server . stat_numcommands = 0 ; server . stat_numconnections = 0 ; server . stat_expiredkeys = 0 ; server . stat_evictedkeys = 0 ; server . stat_starttime = time ( NULL ) ; server . stat_keyspace_misses = 0 ; server . stat_keyspace_hits = 0 ; server . unixtime = time ( NULL ) ; aeCreateTimeEvent ( server . el , 1 , serverCron , NULL , NULL ) ; if ( server . ipfd > 0 && aeCreateFileEvent ( server . el , server . ipfd , AE_READABLE , acceptTcpHandler , NULL ) == AE_ERR ) oom ( ""creating file event"" ) ; if ( server . sofd > 0 && aeCreateFileEvent ( server . el , server . sofd , AE_READABLE , acceptUnixHandler , NULL ) == AE_ERR ) oom ( ""creating file event"" ) ; if ( server . appendonly ) { server . appendfd = open ( server . appendfilename , O_WRONLY | O_APPEND | O_CREAT , 0644 ) ; if ( server . appendfd == - 1 ) { redisLog ( REDIS_WARNING , ""Can\'t open the append-only file: %s"" , strerror ( errno ) ) ; exit ( 1 ) ; } } if ( server . vm_enabled ) vmInit ( ) ; }","void initServer ( ) { int j ; signal ( SIGHUP , SIG_IGN ) ; signal ( SIGPIPE , SIG_IGN ) ; setupSigSegvAction ( ) ; if ( server . syslog_enabled ) { openlog ( server . syslog_ident , LOG_PID | LOG_NDELAY | LOG_NOWAIT , server . syslog_facility ) ; } server . mainthread = pthread_self ( ) ; server . clients = listCreate ( ) ; server . slaves = listCreate ( ) ; server . monitors = listCreate ( ) ; server . unblocked_clients = listCreate ( ) ; createSharedObjects ( ) ; server . el = aeCreateEventLoop ( ) ; server . db = zmalloc ( sizeof ( redisDb ) * server . dbnum ) ; server . ipfd = anetTcpServer ( server . neterr , server . port , server . bindaddr ) ; if ( server . ipfd == ANET_ERR ) { redisLog ( REDIS_WARNING , ""Opening port: %s"" , server . neterr ) ; exit ( 1 ) ; } if ( server . unixsocket != NULL ) { unlink ( server . unixsocket ) ; server . sofd = anetUnixServer ( server . neterr , server . unixsocket ) ; if ( server . sofd == ANET_ERR ) { redisLog ( REDIS_WARNING , ""Opening socket: %s"" , server . neterr ) ; exit ( 1 ) ; } } if ( server . ipfd < 0 && server . sofd < 0 ) { redisLog ( REDIS_WARNING , ""Configured to not listen anywhere, exiting."" ) ; exit ( 1 ) ; } for ( j = 0 ; j < server . dbnum ; j ++ ) { server . db [ j ] . dict = dictCreate ( & dbDictType , NULL ) ; server . db [ j ] . expires = dictCreate ( & keyptrDictType , NULL ) ; server . db [ j ] . blocking_keys = dictCreate ( & keylistDictType , NULL ) ; server . db [ j ] . watched_keys = dictCreate ( & keylistDictType , NULL ) ; if ( server . ds_enabled ) server . db [ j ] . io_keys = dictCreate ( & keylistDictType , NULL ) ; server . db [ j ] . id = j ; } server . pubsub_channels = dictCreate ( & keylistDictType , NULL ) ; server . pubsub_patterns = listCreate ( ) ; listSetFreeMethod ( server . pubsub_patterns , freePubsubPattern ) ; listSetMatchMethod ( server . pubsub_patterns , listMatchPubsubPattern ) ; server . cronloops = 0 ; server . bgsavechildpid = - 1 ; server . bgrewritechildpid = - 1 ; server . bgrewritebuf = sdsempty ( ) ; server . aofbuf = sdsempty ( ) ; server . lastsave = time ( NULL ) ; server . dirty = 0 ; server . stat_numcommands = 0 ; server . stat_numconnections = 0 ; server . stat_expiredkeys = 0 ; server . stat_evictedkeys = 0 ; server . stat_starttime = time ( NULL ) ; server . stat_keyspace_misses = 0 ; server . stat_keyspace_hits = 0 ; server . unixtime = time ( NULL ) ; aeCreateTimeEvent ( server . el , 1 , serverCron , NULL , NULL ) ; if ( server . ipfd > 0 && aeCreateFileEvent ( server . el , server . ipfd , AE_READABLE , acceptTcpHandler , NULL ) == AE_ERR ) oom ( ""creating file event"" ) ; if ( server . sofd > 0 && aeCreateFileEvent ( server . el , server . sofd , AE_READABLE , acceptUnixHandler , NULL ) == AE_ERR ) oom ( ""creating file event"" ) ; if ( server . appendonly ) { server . appendfd = open ( server . appendfilename , O_WRONLY | O_APPEND | O_CREAT , 0644 ) ; if ( server . appendfd == - 1 ) { redisLog ( REDIS_WARNING , ""Can\'t open the append-only file: %s"" , strerror ( errno ) ) ; exit ( 1 ) ; } } if ( server . ds_enabled ) dsInit ( ) ; }" 310,"CWE-119 void vp8_mbpost_proc_across_ip_c ( unsigned char * src , int pitch , int rows , int cols , int flimit ) { int r , c , i ; unsigned char * s = src ; unsigned char d [ 16 ] ; for ( r = 0 ; r < rows ; r ++ ) { int sumsq = 0 ; int sum = 0 ; for ( i = - 8 ; i < 0 ; i ++ ) s [ i ] = s [ 0 ] ; for ( i = cols ; i < cols + 17 ; i ++ ) s [ i ] = s [ cols - 1 ] ; for ( i = - 8 ; i <= 6 ; i ++ ) { sumsq += s [ i ] * s [ i ] ; sum += s [ i ] ; d [ i + 8 ] = 0 ; } for ( c = 0 ; c < cols + 8 ; c ++ ) { int x = s [ c + 7 ] - s [ c - 8 ] ; int y = s [ c + 7 ] + s [ c - 8 ] ; sum += x ; sumsq += x * y ; d [ c & 15 ] = s [ c ] ; if ( sumsq * 15 - sum * sum < flimit ) { d [ c & 15 ] = ( 8 + sum + s [ c ] ) >> 4 ; } s [ c - 8 ] = d [ ( c - 8 ) & 15 ] ; } s += pitch ; } }","void vp8_mbpost_proc_across_ip_c ( unsigned char * src , int pitch , int rows , int cols , int flimit ) { int r , c , i ; unsigned char * s = src ; unsigned char d [ 16 ] ; for ( r = 0 ; r < rows ; r ++ ) { int sumsq = 0 ; int sum = 0 ; for ( i = - 8 ; i < 0 ; i ++ ) s [ i ] = s [ 0 ] ; for ( i = 0 ; i < 17 ; i ++ ) s [ i + cols ] = s [ cols - 1 ] ; for ( i = - 8 ; i <= 6 ; i ++ ) { sumsq += s [ i ] * s [ i ] ; sum += s [ i ] ; d [ i + 8 ] = 0 ; } for ( c = 0 ; c < cols + 8 ; c ++ ) { int x = s [ c + 7 ] - s [ c - 8 ] ; int y = s [ c + 7 ] + s [ c - 8 ] ; sum += x ; sumsq += x * y ; d [ c & 15 ] = s [ c ] ; if ( sumsq * 15 - sum * sum < flimit ) { d [ c & 15 ] = ( 8 + sum + s [ c ] ) >> 4 ; } s [ c - 8 ] = d [ ( c - 8 ) & 15 ] ; } s += pitch ; } }" 311,"CWE-200 static int l2tp_ip6_getname ( struct socket * sock , struct sockaddr * uaddr , int * uaddr_len , int peer ) { struct sockaddr_l2tpip6 * lsa = ( struct sockaddr_l2tpip6 * ) uaddr ; struct sock * sk = sock -> sk ; struct ipv6_pinfo * np = inet6_sk ( sk ) ; struct l2tp_ip6_sock * lsk = l2tp_ip6_sk ( sk ) ; lsa -> l2tp_family = AF_INET6 ; lsa -> l2tp_flowinfo = 0 ; lsa -> l2tp_scope_id = 0 ; if ( peer ) { if ( ! lsk -> peer_conn_id ) return - ENOTCONN ; lsa -> l2tp_conn_id = lsk -> peer_conn_id ; lsa -> l2tp_addr = np -> daddr ; if ( np -> sndflow ) lsa -> l2tp_flowinfo = np -> flow_label ; } else { if ( ipv6_addr_any ( & np -> rcv_saddr ) ) lsa -> l2tp_addr = np -> saddr ; else lsa -> l2tp_addr = np -> rcv_saddr ; lsa -> l2tp_conn_id = lsk -> conn_id ; } if ( ipv6_addr_type ( & lsa -> l2tp_addr ) & IPV6_ADDR_LINKLOCAL ) lsa -> l2tp_scope_id = sk -> sk_bound_dev_if ; * uaddr_len = sizeof ( * lsa ) ; return 0 ; }","static int l2tp_ip6_getname ( struct socket * sock , struct sockaddr * uaddr , int * uaddr_len , int peer ) { struct sockaddr_l2tpip6 * lsa = ( struct sockaddr_l2tpip6 * ) uaddr ; struct sock * sk = sock -> sk ; struct ipv6_pinfo * np = inet6_sk ( sk ) ; struct l2tp_ip6_sock * lsk = l2tp_ip6_sk ( sk ) ; lsa -> l2tp_family = AF_INET6 ; lsa -> l2tp_flowinfo = 0 ; lsa -> l2tp_scope_id = 0 ; lsa -> l2tp_unused = 0 ; if ( peer ) { if ( ! lsk -> peer_conn_id ) return - ENOTCONN ; lsa -> l2tp_conn_id = lsk -> peer_conn_id ; lsa -> l2tp_addr = np -> daddr ; if ( np -> sndflow ) lsa -> l2tp_flowinfo = np -> flow_label ; } else { if ( ipv6_addr_any ( & np -> rcv_saddr ) ) lsa -> l2tp_addr = np -> saddr ; else lsa -> l2tp_addr = np -> rcv_saddr ; lsa -> l2tp_conn_id = lsk -> conn_id ; } if ( ipv6_addr_type ( & lsa -> l2tp_addr ) & IPV6_ADDR_LINKLOCAL ) lsa -> l2tp_scope_id = sk -> sk_bound_dev_if ; * uaddr_len = sizeof ( * lsa ) ; return 0 ; }" 312,"CWE-362 int ssl3_get_new_session_ticket ( SSL * s ) { int ok , al , ret = 0 , ticklen ; long n ; const unsigned char * p ; unsigned char * d ; n = s -> method -> ssl_get_message ( s , SSL3_ST_CR_SESSION_TICKET_A , SSL3_ST_CR_SESSION_TICKET_B , SSL3_MT_NEWSESSION_TICKET , 16384 , & ok ) ; if ( ! ok ) return ( ( int ) n ) ; if ( n < 6 ) { al = SSL_AD_DECODE_ERROR ; SSLerr ( SSL_F_SSL3_GET_NEW_SESSION_TICKET , SSL_R_LENGTH_MISMATCH ) ; goto f_err ; } p = d = ( unsigned char * ) s -> init_msg ; n2l ( p , s -> session -> tlsext_tick_lifetime_hint ) ; n2s ( p , ticklen ) ; if ( ticklen + 6 != n ) { al = SSL_AD_DECODE_ERROR ; SSLerr ( SSL_F_SSL3_GET_NEW_SESSION_TICKET , SSL_R_LENGTH_MISMATCH ) ; goto f_err ; } OPENSSL_free ( s -> session -> tlsext_tick ) ; s -> session -> tlsext_ticklen = 0 ; s -> session -> tlsext_tick = OPENSSL_malloc ( ticklen ) ; if ( ! s -> session -> tlsext_tick ) { SSLerr ( SSL_F_SSL3_GET_NEW_SESSION_TICKET , ERR_R_MALLOC_FAILURE ) ; goto err ; } memcpy ( s -> session -> tlsext_tick , p , ticklen ) ; s -> session -> tlsext_ticklen = ticklen ; EVP_Digest ( p , ticklen , s -> session -> session_id , & s -> session -> session_id_length , EVP_sha256 ( ) , NULL ) ; ret = 1 ; return ( ret ) ; f_err : ssl3_send_alert ( s , SSL3_AL_FATAL , al ) ; err : s -> state = SSL_ST_ERR ; return ( - 1 ) ; }","int ssl3_get_new_session_ticket ( SSL * s ) { int ok , al , ret = 0 , ticklen ; long n ; const unsigned char * p ; unsigned char * d ; n = s -> method -> ssl_get_message ( s , SSL3_ST_CR_SESSION_TICKET_A , SSL3_ST_CR_SESSION_TICKET_B , SSL3_MT_NEWSESSION_TICKET , 16384 , & ok ) ; if ( ! ok ) return ( ( int ) n ) ; if ( n < 6 ) { al = SSL_AD_DECODE_ERROR ; SSLerr ( SSL_F_SSL3_GET_NEW_SESSION_TICKET , SSL_R_LENGTH_MISMATCH ) ; goto f_err ; } p = d = ( unsigned char * ) s -> init_msg ; if ( s -> session -> session_id_length > 0 ) { int i = s -> session_ctx -> session_cache_mode ; SSL_SESSION * new_sess ; if ( i & SSL_SESS_CACHE_CLIENT ) { if ( i & SSL_SESS_CACHE_NO_INTERNAL_STORE ) { if ( s -> session_ctx -> remove_session_cb != NULL ) s -> session_ctx -> remove_session_cb ( s -> session_ctx , s -> session ) ; } else { SSL_CTX_remove_session ( s -> session_ctx , s -> session ) ; } } if ( ( new_sess = ssl_session_dup ( s -> session , 0 ) ) == 0 ) { al = SSL_AD_INTERNAL_ERROR ; SSLerr ( SSL_F_SSL3_GET_NEW_SESSION_TICKET , ERR_R_MALLOC_FAILURE ) ; goto f_err ; } SSL_SESSION_free ( s -> session ) ; s -> session = new_sess ; } n2l ( p , s -> session -> tlsext_tick_lifetime_hint ) ; n2s ( p , ticklen ) ; if ( ticklen + 6 != n ) { al = SSL_AD_DECODE_ERROR ; SSLerr ( SSL_F_SSL3_GET_NEW_SESSION_TICKET , SSL_R_LENGTH_MISMATCH ) ; goto f_err ; } OPENSSL_free ( s -> session -> tlsext_tick ) ; s -> session -> tlsext_ticklen = 0 ; s -> session -> tlsext_tick = OPENSSL_malloc ( ticklen ) ; if ( ! s -> session -> tlsext_tick ) { SSLerr ( SSL_F_SSL3_GET_NEW_SESSION_TICKET , ERR_R_MALLOC_FAILURE ) ; goto err ; } memcpy ( s -> session -> tlsext_tick , p , ticklen ) ; s -> session -> tlsext_ticklen = ticklen ; EVP_Digest ( p , ticklen , s -> session -> session_id , & s -> session -> session_id_length , EVP_sha256 ( ) , NULL ) ; ret = 1 ; return ( ret ) ; f_err : ssl3_send_alert ( s , SSL3_AL_FATAL , al ) ; err : s -> state = SSL_ST_ERR ; return ( - 1 ) ; }" 313,"NVD-CWE-Other static int ras_putdatastd ( jas_stream_t * out , ras_hdr_t * hdr , jas_image_t * image , int numcmpts , int * cmpts ) { int rowsize ; int pad ; unsigned int z ; int nz ; int c ; int x ; int y ; int v ; jas_matrix_t * data [ 3 ] ; int i ; for ( i = 0 ; i < numcmpts ; ++ i ) { data [ i ] = jas_matrix_create ( jas_image_height ( image ) , jas_image_width ( image ) ) ; assert ( data [ i ] ) ; } rowsize = RAS_ROWSIZE ( hdr ) ; pad = rowsize - ( hdr -> width * hdr -> depth + 7 ) / 8 ; hdr -> length = hdr -> height * rowsize ; for ( y = 0 ; y < hdr -> height ; y ++ ) { for ( i = 0 ; i < numcmpts ; ++ i ) { if ( jas_image_readcmpt ( image , cmpts [ i ] , 0 , y , jas_image_width ( image ) , 1 , data [ i ] ) ) { return - 1 ; } } z = 0 ; nz = 0 ; for ( x = 0 ; x < hdr -> width ; x ++ ) { z <<= hdr -> depth ; if ( RAS_ISRGB ( hdr ) ) { v = RAS_RED ( ( jas_matrix_getv ( data [ 0 ] , x ) ) ) | RAS_GREEN ( ( jas_matrix_getv ( data [ 1 ] , x ) ) ) | RAS_BLUE ( ( jas_matrix_getv ( data [ 2 ] , x ) ) ) ; } else { v = ( jas_matrix_getv ( data [ 0 ] , x ) ) ; } z |= v & RAS_ONES ( hdr -> depth ) ; nz += hdr -> depth ; while ( nz >= 8 ) { c = ( z >> ( nz - 8 ) ) & 0xff ; if ( jas_stream_putc ( out , c ) == EOF ) { return - 1 ; } nz -= 8 ; z &= RAS_ONES ( nz ) ; } } if ( nz > 0 ) { c = ( z >> ( 8 - nz ) ) & RAS_ONES ( nz ) ; if ( jas_stream_putc ( out , c ) == EOF ) { return - 1 ; } } if ( pad % 2 ) { if ( jas_stream_putc ( out , 0 ) == EOF ) { return - 1 ; } } } for ( i = 0 ; i < numcmpts ; ++ i ) { jas_matrix_destroy ( data [ i ] ) ; } return 0 ; }","static int ras_putdatastd ( jas_stream_t * out , ras_hdr_t * hdr , jas_image_t * image , int numcmpts , int * cmpts ) { int rowsize ; int pad ; unsigned int z ; int nz ; int c ; int x ; int y ; int v ; jas_matrix_t * data [ 3 ] ; int i ; assert ( numcmpts <= 3 ) ; for ( i = 0 ; i < 3 ; ++ i ) { data [ i ] = 0 ; } for ( i = 0 ; i < numcmpts ; ++ i ) { if ( ! ( data [ i ] = jas_matrix_create ( jas_image_height ( image ) , jas_image_width ( image ) ) ) ) { goto error ; } } rowsize = RAS_ROWSIZE ( hdr ) ; pad = rowsize - ( hdr -> width * hdr -> depth + 7 ) / 8 ; hdr -> length = hdr -> height * rowsize ; for ( y = 0 ; y < hdr -> height ; y ++ ) { for ( i = 0 ; i < numcmpts ; ++ i ) { if ( jas_image_readcmpt ( image , cmpts [ i ] , 0 , y , jas_image_width ( image ) , 1 , data [ i ] ) ) { goto error ; } } z = 0 ; nz = 0 ; for ( x = 0 ; x < hdr -> width ; x ++ ) { z <<= hdr -> depth ; if ( RAS_ISRGB ( hdr ) ) { v = RAS_RED ( ( jas_matrix_getv ( data [ 0 ] , x ) ) ) | RAS_GREEN ( ( jas_matrix_getv ( data [ 1 ] , x ) ) ) | RAS_BLUE ( ( jas_matrix_getv ( data [ 2 ] , x ) ) ) ; } else { v = ( jas_matrix_getv ( data [ 0 ] , x ) ) ; } z |= v & RAS_ONES ( hdr -> depth ) ; nz += hdr -> depth ; while ( nz >= 8 ) { c = ( z >> ( nz - 8 ) ) & 0xff ; if ( jas_stream_putc ( out , c ) == EOF ) { goto error ; } nz -= 8 ; z &= RAS_ONES ( nz ) ; } } if ( nz > 0 ) { c = ( z >> ( 8 - nz ) ) & RAS_ONES ( nz ) ; if ( jas_stream_putc ( out , c ) == EOF ) { goto error ; } } if ( pad % 2 ) { if ( jas_stream_putc ( out , 0 ) == EOF ) { goto error ; } } } for ( i = 0 ; i < numcmpts ; ++ i ) { jas_matrix_destroy ( data [ i ] ) ; data [ i ] = 0 ; } return 0 ; error : for ( i = 0 ; i < numcmpts ; ++ i ) { if ( data [ i ] ) { jas_matrix_destroy ( data [ i ] ) ; } } return - 1 ; }" 314,"CWE-200 int keepalived_main ( int argc , char * * argv ) { bool report_stopped = true ; struct utsname uname_buf ; char * end ; set_time_now ( ) ; save_cmd_line_options ( argc , argv ) ; debug = 0 ; # ifndef _DEBUG_ prog_type = PROG_TYPE_PARENT ; # endif # ifdef _WITH_VRRP_ __set_bit ( DAEMON_VRRP , & daemon_mode ) ; # endif # ifdef _WITH_LVS_ __set_bit ( DAEMON_CHECKERS , & daemon_mode ) ; # endif # ifdef _WITH_BFD_ __set_bit ( DAEMON_BFD , & daemon_mode ) ; # endif openlog ( PACKAGE_NAME , LOG_PID , log_facility ) ; # ifdef _MEM_CHECK_ mem_log_init ( PACKAGE_NAME , ""Parent process"" ) ; # endif if ( uname ( & uname_buf ) ) log_message ( LOG_INFO , ""Unable to get uname() information - error %d"" , errno ) ; else { os_major = ( unsigned ) strtoul ( uname_buf . release , & end , 10 ) ; if ( * end != '.' ) os_major = 0 ; else { os_minor = ( unsigned ) strtoul ( end + 1 , & end , 10 ) ; if ( * end != '.' ) os_major = 0 ; else { if ( ! isdigit ( end [ 1 ] ) ) os_major = 0 ; else os_release = ( unsigned ) strtoul ( end + 1 , & end , 10 ) ; } } if ( ! os_major ) log_message ( LOG_INFO , ""Unable to parse kernel version %s"" , uname_buf . release ) ; if ( ! config_id ) { end = strchrnul ( uname_buf . nodename , '.' ) ; config_id = MALLOC ( ( size_t ) ( end - uname_buf . nodename ) + 1 ) ; strncpy ( config_id , uname_buf . nodename , ( size_t ) ( end - uname_buf . nodename ) ) ; config_id [ end - uname_buf . nodename ] = '\\0' ; } } if ( parse_cmdline ( argc , argv ) ) { closelog ( ) ; if ( ! __test_bit ( NO_SYSLOG_BIT , & debug ) ) openlog ( PACKAGE_NAME , LOG_PID | ( ( __test_bit ( LOG_CONSOLE_BIT , & debug ) ) ? LOG_CONS : 0 ) , log_facility ) ; } if ( __test_bit ( LOG_CONSOLE_BIT , & debug ) ) enable_console_log ( ) ; # ifdef GIT_COMMIT log_message ( LOG_INFO , ""Starting %s, git commit %s"" , version_string , GIT_COMMIT ) ; # else log_message ( LOG_INFO , ""Starting %s"" , version_string ) ; # endif core_dump_init ( ) ; if ( os_major ) { if ( KERNEL_VERSION ( os_major , os_minor , os_release ) < LINUX_VERSION_CODE ) { log_message ( LOG_INFO , ""WARNING - keepalived was build for newer Linux %d.%d.%d, running on %s %s %s"" , ( LINUX_VERSION_CODE >> 16 ) & 0xff , ( LINUX_VERSION_CODE >> 8 ) & 0xff , ( LINUX_VERSION_CODE ) & 0xff , uname_buf . sysname , uname_buf . release , uname_buf . version ) ; } else { log_message ( LOG_INFO , ""Running on %s %s %s (built for Linux %d.%d.%d)"" , uname_buf . sysname , uname_buf . release , uname_buf . version , ( LINUX_VERSION_CODE >> 16 ) & 0xff , ( LINUX_VERSION_CODE >> 8 ) & 0xff , ( LINUX_VERSION_CODE ) & 0xff ) ; } } # ifndef _DEBUG_ log_command_line ( 0 ) ; # endif if ( ! check_conf_file ( conf_file ) ) { if ( __test_bit ( CONFIG_TEST_BIT , & debug ) ) config_test_exit ( ) ; goto end ; } global_data = alloc_global_data ( ) ; read_config_file ( ) ; init_global_data ( global_data , NULL ) ; # if HAVE_DECL_CLONE_NEWNET if ( override_namespace ) { if ( global_data -> network_namespace ) { log_message ( LOG_INFO , ""Overriding config net_namespace \'%s\' with command line namespace \'%s\'"" , global_data -> network_namespace , override_namespace ) ; FREE ( global_data -> network_namespace ) ; } global_data -> network_namespace = override_namespace ; override_namespace = NULL ; } # endif if ( ! __test_bit ( CONFIG_TEST_BIT , & debug ) && ( global_data -> instance_name # if HAVE_DECL_CLONE_NEWNET || global_data -> network_namespace # endif ) ) { if ( ( syslog_ident = make_syslog_ident ( PACKAGE_NAME ) ) ) { log_message ( LOG_INFO , ""Changing syslog ident to %s"" , syslog_ident ) ; closelog ( ) ; openlog ( syslog_ident , LOG_PID | ( ( __test_bit ( LOG_CONSOLE_BIT , & debug ) ) ? LOG_CONS : 0 ) , log_facility ) ; } else log_message ( LOG_INFO , ""Unable to change syslog ident"" ) ; use_pid_dir = true ; open_log_file ( log_file_name , NULL , # if HAVE_DECL_CLONE_NEWNET global_data -> network_namespace , # else NULL , # endif global_data -> instance_name ) ; } set_child_finder_name ( find_keepalived_child_name ) ; if ( ! __test_bit ( CONFIG_TEST_BIT , & debug ) ) { if ( use_pid_dir ) { create_pid_dir ( ) ; } } # if HAVE_DECL_CLONE_NEWNET if ( global_data -> network_namespace ) { if ( global_data -> network_namespace && ! set_namespaces ( global_data -> network_namespace ) ) { log_message ( LOG_ERR , ""Unable to set network namespace %s - exiting"" , global_data -> network_namespace ) ; goto end ; } } # endif if ( ! __test_bit ( CONFIG_TEST_BIT , & debug ) ) {","int keepalived_main ( int argc , char * * argv ) { bool report_stopped = true ; struct utsname uname_buf ; char * end ; set_time_now ( ) ; save_cmd_line_options ( argc , argv ) ; debug = 0 ; # ifndef _DEBUG_ prog_type = PROG_TYPE_PARENT ; # endif # ifdef _WITH_VRRP_ __set_bit ( DAEMON_VRRP , & daemon_mode ) ; # endif # ifdef _WITH_LVS_ __set_bit ( DAEMON_CHECKERS , & daemon_mode ) ; # endif # ifdef _WITH_BFD_ __set_bit ( DAEMON_BFD , & daemon_mode ) ; # endif umask ( 022 ) ; openlog ( PACKAGE_NAME , LOG_PID , log_facility ) ; # ifdef _MEM_CHECK_ mem_log_init ( PACKAGE_NAME , ""Parent process"" ) ; # endif if ( uname ( & uname_buf ) ) log_message ( LOG_INFO , ""Unable to get uname() information - error %d"" , errno ) ; else { os_major = ( unsigned ) strtoul ( uname_buf . release , & end , 10 ) ; if ( * end != '.' ) os_major = 0 ; else { os_minor = ( unsigned ) strtoul ( end + 1 , & end , 10 ) ; if ( * end != '.' ) os_major = 0 ; else { if ( ! isdigit ( end [ 1 ] ) ) os_major = 0 ; else os_release = ( unsigned ) strtoul ( end + 1 , & end , 10 ) ; } } if ( ! os_major ) log_message ( LOG_INFO , ""Unable to parse kernel version %s"" , uname_buf . release ) ; if ( ! config_id ) { end = strchrnul ( uname_buf . nodename , '.' ) ; config_id = MALLOC ( ( size_t ) ( end - uname_buf . nodename ) + 1 ) ; strncpy ( config_id , uname_buf . nodename , ( size_t ) ( end - uname_buf . nodename ) ) ; config_id [ end - uname_buf . nodename ] = '\\0' ; } } if ( parse_cmdline ( argc , argv ) ) { closelog ( ) ; if ( ! __test_bit ( NO_SYSLOG_BIT , & debug ) ) openlog ( PACKAGE_NAME , LOG_PID | ( ( __test_bit ( LOG_CONSOLE_BIT , & debug ) ) ? LOG_CONS : 0 ) , log_facility ) ; } if ( __test_bit ( LOG_CONSOLE_BIT , & debug ) ) enable_console_log ( ) ; # ifdef GIT_COMMIT log_message ( LOG_INFO , ""Starting %s, git commit %s"" , version_string , GIT_COMMIT ) ; # else log_message ( LOG_INFO , ""Starting %s"" , version_string ) ; # endif core_dump_init ( ) ; if ( os_major ) { if ( KERNEL_VERSION ( os_major , os_minor , os_release ) < LINUX_VERSION_CODE ) { log_message ( LOG_INFO , ""WARNING - keepalived was build for newer Linux %d.%d.%d, running on %s %s %s"" , ( LINUX_VERSION_CODE >> 16 ) & 0xff , ( LINUX_VERSION_CODE >> 8 ) & 0xff , ( LINUX_VERSION_CODE ) & 0xff , uname_buf . sysname , uname_buf . release , uname_buf . version ) ; } else { log_message ( LOG_INFO , ""Running on %s %s %s (built for Linux %d.%d.%d)"" , uname_buf . sysname , uname_buf . release , uname_buf . version , ( LINUX_VERSION_CODE >> 16 ) & 0xff , ( LINUX_VERSION_CODE >> 8 ) & 0xff , ( LINUX_VERSION_CODE ) & 0xff ) ; } } # ifndef _DEBUG_ log_command_line ( 0 ) ; # endif if ( ! check_conf_file ( conf_file ) ) { if ( __test_bit ( CONFIG_TEST_BIT , & debug ) ) config_test_exit ( ) ; goto end ; } global_data = alloc_global_data ( ) ; global_data -> umask = umask_val ; read_config_file ( ) ; init_global_data ( global_data , NULL ) ; # if HAVE_DECL_CLONE_NEWNET if ( override_namespace ) { if ( global_data -> network_namespace ) { log_message ( LOG_INFO , ""Overriding config net_namespace \'%s\' with command line namespace \'%s\'"" , global_data -> network_namespace , override_namespace ) ; FREE ( global_data -> network_namespace ) ; } global_data -> network_namespace = override_namespace ; override_namespace = NULL ; } # endif if ( ! __test_bit ( CONFIG_TEST_BIT , & debug ) && ( global_data -> instance_name # if HAVE_DECL_CLONE_NEWNET || global_data -> network_namespace # endif ) ) { if ( ( syslog_ident = make_syslog_ident ( PACKAGE_NAME ) ) ) { log_message ( LOG_INFO , ""Changing syslog ident to %s"" , syslog_ident ) ; closelog ( ) ; openlog ( syslog_ident , LOG_PID | ( ( __test_bit ( LOG_CONSOLE_BIT , & debug ) ) ? LOG_CONS : 0 ) , log_facility ) ; } else log_message ( LOG_INFO , ""Unable to change syslog ident"" ) ; use_pid_dir = true ; open_log_file ( log_file_name , NULL , # if HAVE_DECL_CLONE_NEWNET global_data -> network_namespace , # else NULL , # endif global_data -> instance_name ) ; } set_child_finder_name ( find_keepalived_child_name ) ; if ( ! __test_bit ( CONFIG_TEST_BIT , & debug ) ) { if ( use_pid_dir ) { create_pid_dir ( ) ; } } # if HAVE_DECL_CLONE_NEWNET if ( global_data -> network_namespace ) { if ( global_data -> network_namespace && ! set_namespaces ( global_data -> network_namespace ) ) { log_message ( LOG_ERR , ""Unable to set network namespace %s - exiting"" , global_data -> network_namespace ) ; goto end ; } } # endif if ( ! __test_bit ( CONFIG_TEST_BIT , & debug ) ) {" 315,"CWE-416 int yr_object_copy ( YR_OBJECT * object , YR_OBJECT * * object_copy ) { YR_OBJECT * copy ; YR_OBJECT * o ; YR_STRUCTURE_MEMBER * structure_member ; YR_OBJECT_FUNCTION * func ; YR_OBJECT_FUNCTION * func_copy ; int i ; * object_copy = NULL ; FAIL_ON_ERROR ( yr_object_create ( object -> type , object -> identifier , NULL , & copy ) ) ; switch ( object -> type ) { case OBJECT_TYPE_INTEGER : ( ( YR_OBJECT_INTEGER * ) copy ) -> value = UNDEFINED ; break ; case OBJECT_TYPE_STRING : ( ( YR_OBJECT_STRING * ) copy ) -> value = NULL ; break ; case OBJECT_TYPE_FUNCTION : func = ( YR_OBJECT_FUNCTION * ) object ; func_copy = ( YR_OBJECT_FUNCTION * ) copy ; FAIL_ON_ERROR_WITH_CLEANUP ( yr_object_copy ( func -> return_obj , & func_copy -> return_obj ) , yr_object_destroy ( copy ) ) ; for ( i = 0 ; i < MAX_OVERLOADED_FUNCTIONS ; i ++ ) func_copy -> prototypes [ i ] = func -> prototypes [ i ] ; break ; case OBJECT_TYPE_STRUCTURE : structure_member = ( ( YR_OBJECT_STRUCTURE * ) object ) -> members ; while ( structure_member != NULL ) { FAIL_ON_ERROR_WITH_CLEANUP ( yr_object_copy ( structure_member -> object , & o ) , yr_object_destroy ( copy ) ) ; FAIL_ON_ERROR_WITH_CLEANUP ( yr_object_structure_set_member ( copy , o ) , yr_free ( o ) ; yr_object_destroy ( copy ) ) ; structure_member = structure_member -> next ; } break ; case OBJECT_TYPE_ARRAY : yr_object_copy ( ( ( YR_OBJECT_ARRAY * ) object ) -> prototype_item , & o ) ; ( ( YR_OBJECT_ARRAY * ) copy ) -> prototype_item = o ; break ; case OBJECT_TYPE_DICTIONARY : yr_object_copy ( ( ( YR_OBJECT_DICTIONARY * ) object ) -> prototype_item , & o ) ; ( ( YR_OBJECT_DICTIONARY * ) copy ) -> prototype_item = o ; break ; default : assert ( FALSE ) ; } * object_copy = copy ; return ERROR_SUCCESS ; }","int yr_object_copy ( YR_OBJECT * object , YR_OBJECT * * object_copy ) { YR_OBJECT * copy ; YR_OBJECT * o ; YR_STRUCTURE_MEMBER * structure_member ; YR_OBJECT_FUNCTION * func ; YR_OBJECT_FUNCTION * func_copy ; int i ; * object_copy = NULL ; FAIL_ON_ERROR ( yr_object_create ( object -> type , object -> identifier , NULL , & copy ) ) ; switch ( object -> type ) { case OBJECT_TYPE_INTEGER : ( ( YR_OBJECT_INTEGER * ) copy ) -> value = ( ( YR_OBJECT_INTEGER * ) object ) -> value ; break ; case OBJECT_TYPE_STRING : if ( ( ( YR_OBJECT_STRING * ) object ) -> value != NULL ) { ( ( YR_OBJECT_STRING * ) copy ) -> value = sized_string_dup ( ( ( YR_OBJECT_STRING * ) object ) -> value ) ; } else { ( ( YR_OBJECT_STRING * ) copy ) -> value = NULL ; } break ; case OBJECT_TYPE_FLOAT : ( ( YR_OBJECT_DOUBLE * ) copy ) -> value = ( ( YR_OBJECT_DOUBLE * ) object ) -> value ; break ; case OBJECT_TYPE_FUNCTION : func = ( YR_OBJECT_FUNCTION * ) object ; func_copy = ( YR_OBJECT_FUNCTION * ) copy ; FAIL_ON_ERROR_WITH_CLEANUP ( yr_object_copy ( func -> return_obj , & func_copy -> return_obj ) , yr_object_destroy ( copy ) ) ; for ( i = 0 ; i < MAX_OVERLOADED_FUNCTIONS ; i ++ ) func_copy -> prototypes [ i ] = func -> prototypes [ i ] ; break ; case OBJECT_TYPE_STRUCTURE : structure_member = ( ( YR_OBJECT_STRUCTURE * ) object ) -> members ; while ( structure_member != NULL ) { FAIL_ON_ERROR_WITH_CLEANUP ( yr_object_copy ( structure_member -> object , & o ) , yr_object_destroy ( copy ) ) ; FAIL_ON_ERROR_WITH_CLEANUP ( yr_object_structure_set_member ( copy , o ) , yr_free ( o ) ; yr_object_destroy ( copy ) ) ; structure_member = structure_member -> next ; } break ; case OBJECT_TYPE_ARRAY : yr_object_copy ( ( ( YR_OBJECT_ARRAY * ) object ) -> prototype_item , & o ) ; ( ( YR_OBJECT_ARRAY * ) copy ) -> prototype_item = o ; break ; case OBJECT_TYPE_DICTIONARY : yr_object_copy ( ( ( YR_OBJECT_DICTIONARY * ) object ) -> prototype_item , & o ) ; ( ( YR_OBJECT_DICTIONARY * ) copy ) -> prototype_item = o ; break ; default : assert ( FALSE ) ; } * object_copy = copy ; return ERROR_SUCCESS ; }" 316,"CWE-119 static int64_t http_seek_internal ( URLContext * h , int64_t off , int whence , int force_reconnect ) { HTTPContext * s = h -> priv_data ; URLContext * old_hd = s -> hd ; int64_t old_off = s -> off ; uint8_t old_buf [ BUFFER_SIZE ] ; int old_buf_size , ret ; AVDictionary * options = NULL ; if ( whence == AVSEEK_SIZE ) return s -> filesize ; else if ( ! force_reconnect && ( ( whence == SEEK_CUR && off == 0 ) || ( whence == SEEK_SET && off == s -> off ) ) ) return s -> off ; else if ( ( s -> filesize == - 1 && whence == SEEK_END ) ) return AVERROR ( ENOSYS ) ; if ( whence == SEEK_CUR ) off += s -> off ; else if ( whence == SEEK_END ) off += s -> filesize ; else if ( whence != SEEK_SET ) return AVERROR ( EINVAL ) ; if ( off < 0 ) return AVERROR ( EINVAL ) ; s -> off = off ; if ( s -> off && h -> is_streamed ) return AVERROR ( ENOSYS ) ; old_buf_size = s -> buf_end - s -> buf_ptr ; memcpy ( old_buf , s -> buf_ptr , old_buf_size ) ; s -> hd = NULL ; if ( ( ret = http_open_cnx ( h , & options ) ) < 0 ) { av_dict_free ( & options ) ; memcpy ( s -> buffer , old_buf , old_buf_size ) ; s -> buf_ptr = s -> buffer ; s -> buf_end = s -> buffer + old_buf_size ; s -> hd = old_hd ; s -> off = old_off ; return ret ; } av_dict_free ( & options ) ; ffurl_close ( old_hd ) ; return off ; }","static int64_t http_seek_internal ( URLContext * h , int64_t off , int whence , int force_reconnect ) { HTTPContext * s = h -> priv_data ; URLContext * old_hd = s -> hd ; uint64_t old_off = s -> off ; uint8_t old_buf [ BUFFER_SIZE ] ; int old_buf_size , ret ; AVDictionary * options = NULL ; if ( whence == AVSEEK_SIZE ) return s -> filesize ; else if ( ! force_reconnect && ( ( whence == SEEK_CUR && off == 0 ) || ( whence == SEEK_SET && off == s -> off ) ) ) return s -> off ; else if ( ( s -> filesize == UINT64_MAX && whence == SEEK_END ) ) return AVERROR ( ENOSYS ) ; if ( whence == SEEK_CUR ) off += s -> off ; else if ( whence == SEEK_END ) off += s -> filesize ; else if ( whence != SEEK_SET ) return AVERROR ( EINVAL ) ; if ( off < 0 ) return AVERROR ( EINVAL ) ; s -> off = off ; if ( s -> off && h -> is_streamed ) return AVERROR ( ENOSYS ) ; old_buf_size = s -> buf_end - s -> buf_ptr ; memcpy ( old_buf , s -> buf_ptr , old_buf_size ) ; s -> hd = NULL ; if ( ( ret = http_open_cnx ( h , & options ) ) < 0 ) { av_dict_free ( & options ) ; memcpy ( s -> buffer , old_buf , old_buf_size ) ; s -> buf_ptr = s -> buffer ; s -> buf_end = s -> buffer + old_buf_size ; s -> hd = old_hd ; s -> off = old_off ; return ret ; } av_dict_free ( & options ) ; ffurl_close ( old_hd ) ; return off ; }" 317,"CWE-125 { const struct ikev2_t * p ; struct ikev2_t t ; uint16_t t_id ; const u_char * cp ; const char * idstr ; const struct attrmap * map ; size_t nmap ; const u_char * ep2 ; p = ( const struct ikev2_t * ) ext ; ND_TCHECK ( * p ) ; UNALIGNED_MEMCPY ( & t , ext , sizeof ( t ) ) ; ikev2_pay_print ( ndo , NPSTR ( ISAKMP_NPTYPE_T ) , t . h . critical ) ; t_id = ntohs ( t . t_id ) ; map = NULL ; nmap = 0 ; switch ( t . t_type ) { case IV2_T_ENCR : idstr = STR_OR_ID ( t_id , esp_p_map ) ; map = encr_t_map ; nmap = sizeof ( encr_t_map ) / sizeof ( encr_t_map [ 0 ] ) ; break ; case IV2_T_PRF : idstr = STR_OR_ID ( t_id , prf_p_map ) ; break ; case IV2_T_INTEG : idstr = STR_OR_ID ( t_id , integ_p_map ) ; break ; case IV2_T_DH : idstr = STR_OR_ID ( t_id , dh_p_map ) ; break ; case IV2_T_ESN : idstr = STR_OR_ID ( t_id , esn_p_map ) ; break ; default : idstr = NULL ; break ; } if ( idstr ) ND_PRINT ( ( ndo , "" #%u type=%s id=%s "" , tcount , STR_OR_ID ( t . t_type , ikev2_t_type_map ) , idstr ) ) ; else ND_PRINT ( ( ndo , "" #%u type=%s id=%u "" , tcount , STR_OR_ID ( t . t_type , ikev2_t_type_map ) , t . t_id ) ) ; cp = ( const u_char * ) ( p + 1 ) ; ep2 = ( const u_char * ) p + item_len ; while ( cp < ep && cp < ep2 ) { if ( map && nmap ) { cp = ikev1_attrmap_print ( ndo , cp , ( ep < ep2 ) ? ep : ep2 , map , nmap ) ; } else cp = ikev1_attr_print ( ndo , cp , ( ep < ep2 ) ? ep : ep2 ) ; } if ( ep < ep2 ) ND_PRINT ( ( ndo , ""..."" ) ) ; return cp ; trunc : ND_PRINT ( ( ndo , "" [|%s]"" , NPSTR ( ISAKMP_NPTYPE_T ) ) ) ; return NULL ; }","{ const struct ikev2_t * p ; struct ikev2_t t ; uint16_t t_id ; const u_char * cp ; const char * idstr ; const struct attrmap * map ; size_t nmap ; const u_char * ep2 ; p = ( const struct ikev2_t * ) ext ; ND_TCHECK ( * p ) ; UNALIGNED_MEMCPY ( & t , ext , sizeof ( t ) ) ; ikev2_pay_print ( ndo , NPSTR ( ISAKMP_NPTYPE_T ) , t . h . critical ) ; t_id = ntohs ( t . t_id ) ; map = NULL ; nmap = 0 ; switch ( t . t_type ) { case IV2_T_ENCR : idstr = STR_OR_ID ( t_id , esp_p_map ) ; map = encr_t_map ; nmap = sizeof ( encr_t_map ) / sizeof ( encr_t_map [ 0 ] ) ; break ; case IV2_T_PRF : idstr = STR_OR_ID ( t_id , prf_p_map ) ; break ; case IV2_T_INTEG : idstr = STR_OR_ID ( t_id , integ_p_map ) ; break ; case IV2_T_DH : idstr = STR_OR_ID ( t_id , dh_p_map ) ; break ; case IV2_T_ESN : idstr = STR_OR_ID ( t_id , esn_p_map ) ; break ; default : idstr = NULL ; break ; } if ( idstr ) ND_PRINT ( ( ndo , "" #%u type=%s id=%s "" , tcount , STR_OR_ID ( t . t_type , ikev2_t_type_map ) , idstr ) ) ; else ND_PRINT ( ( ndo , "" #%u type=%s id=%u "" , tcount , STR_OR_ID ( t . t_type , ikev2_t_type_map ) , t . t_id ) ) ; cp = ( const u_char * ) ( p + 1 ) ; ep2 = ( const u_char * ) p + item_len ; while ( cp < ep && cp < ep2 ) { if ( map && nmap ) { cp = ikev1_attrmap_print ( ndo , cp , ep2 , map , nmap ) ; } else cp = ikev1_attr_print ( ndo , cp , ep2 ) ; if ( cp == NULL ) goto trunc ; } if ( ep < ep2 ) ND_PRINT ( ( ndo , ""..."" ) ) ; return cp ; trunc : ND_PRINT ( ( ndo , "" [|%s]"" , NPSTR ( ISAKMP_NPTYPE_T ) ) ) ; return NULL ; }" 318,"CWE-125 int git_delta_apply ( void * * out , size_t * out_len , const unsigned char * base , size_t base_len , const unsigned char * delta , size_t delta_len ) { const unsigned char * delta_end = delta + delta_len ; size_t base_sz , res_sz , alloc_sz ; unsigned char * res_dp ; * out = NULL ; * out_len = 0 ; if ( ( hdr_sz ( & base_sz , & delta , delta_end ) < 0 ) || ( base_sz != base_len ) ) { giterr_set ( GITERR_INVALID , ""failed to apply delta: base size does not match given data"" ) ; return - 1 ; } if ( hdr_sz ( & res_sz , & delta , delta_end ) < 0 ) { giterr_set ( GITERR_INVALID , ""failed to apply delta: base size does not match given data"" ) ; return - 1 ; } GITERR_CHECK_ALLOC_ADD ( & alloc_sz , res_sz , 1 ) ; res_dp = git__malloc ( alloc_sz ) ; GITERR_CHECK_ALLOC ( res_dp ) ; res_dp [ res_sz ] = '\\0' ; * out = res_dp ; * out_len = res_sz ; while ( delta < delta_end ) { unsigned char cmd = * delta ++ ; if ( cmd & 0x80 ) { size_t off = 0 , len = 0 ; if ( cmd & 0x01 ) off = * delta ++ ; if ( cmd & 0x02 ) off |= * delta ++ << 8UL ; if ( cmd & 0x04 ) off |= * delta ++ << 16UL ; if ( cmd & 0x08 ) off |= ( ( unsigned ) * delta ++ << 24UL ) ; if ( cmd & 0x10 ) len = * delta ++ ; if ( cmd & 0x20 ) len |= * delta ++ << 8UL ; if ( cmd & 0x40 ) len |= * delta ++ << 16UL ; if ( ! len ) len = 0x10000 ; if ( base_len < off + len || res_sz < len ) goto fail ; memcpy ( res_dp , base + off , len ) ; res_dp += len ; res_sz -= len ; } else if ( cmd ) { if ( delta_end - delta < cmd || res_sz < cmd ) goto fail ; memcpy ( res_dp , delta , cmd ) ; delta += cmd ; res_dp += cmd ; res_sz -= cmd ; } else { goto fail ; } } if ( delta != delta_end || res_sz ) goto fail ; return 0 ; fail : git__free ( * out ) ; * out = NULL ; * out_len = 0 ; giterr_set ( GITERR_INVALID , ""failed to apply delta"" ) ; return - 1 ; }","int git_delta_apply ( void * * out , size_t * out_len , const unsigned char * base , size_t base_len , const unsigned char * delta , size_t delta_len ) { const unsigned char * delta_end = delta + delta_len ; size_t base_sz , res_sz , alloc_sz ; unsigned char * res_dp ; * out = NULL ; * out_len = 0 ; if ( ( hdr_sz ( & base_sz , & delta , delta_end ) < 0 ) || ( base_sz != base_len ) ) { giterr_set ( GITERR_INVALID , ""failed to apply delta: base size does not match given data"" ) ; return - 1 ; } if ( hdr_sz ( & res_sz , & delta , delta_end ) < 0 ) { giterr_set ( GITERR_INVALID , ""failed to apply delta: base size does not match given data"" ) ; return - 1 ; } GITERR_CHECK_ALLOC_ADD ( & alloc_sz , res_sz , 1 ) ; res_dp = git__malloc ( alloc_sz ) ; GITERR_CHECK_ALLOC ( res_dp ) ; res_dp [ res_sz ] = '\\0' ; * out = res_dp ; * out_len = res_sz ; while ( delta < delta_end ) { unsigned char cmd = * delta ++ ; if ( cmd & 0x80 ) { size_t off = 0 , len = 0 ; # define ADD_DELTA ( o , shift ) { if ( delta < delta_end ) ( o ) |= ( ( unsigned ) * delta ++ << shift ) ; else goto fail ; } if ( cmd & 0x01 ) ADD_DELTA ( off , 0UL ) ; if ( cmd & 0x02 ) ADD_DELTA ( off , 8UL ) ; if ( cmd & 0x04 ) ADD_DELTA ( off , 16UL ) ; if ( cmd & 0x08 ) ADD_DELTA ( off , 24UL ) ; if ( cmd & 0x10 ) ADD_DELTA ( len , 0UL ) ; if ( cmd & 0x20 ) ADD_DELTA ( len , 8UL ) ; if ( cmd & 0x40 ) ADD_DELTA ( len , 16UL ) ; if ( ! len ) len = 0x10000 ; # undef ADD_DELTA if ( base_len < off + len || res_sz < len ) goto fail ; memcpy ( res_dp , base + off , len ) ; res_dp += len ; res_sz -= len ; } else if ( cmd ) { if ( delta_end - delta < cmd || res_sz < cmd ) goto fail ; memcpy ( res_dp , delta , cmd ) ; delta += cmd ; res_dp += cmd ; res_sz -= cmd ; } else { goto fail ; } } if ( delta != delta_end || res_sz ) goto fail ; return 0 ; fail : git__free ( * out ) ; * out = NULL ; * out_len = 0 ; giterr_set ( GITERR_INVALID , ""failed to apply delta"" ) ; return - 1 ; }" 319,"CWE-119 cJSON * cJSON_CreateFloatArray ( double * numbers , int count ) { int i ; cJSON * n = 0 , * p = 0 , * a = cJSON_CreateArray ( ) ; for ( i = 0 ; a && i < count ; ++ i ) { n = cJSON_CreateFloat ( numbers [ i ] ) ; if ( ! i ) a -> child = n ; else suffix_object ( p , n ) ; p = n ; } return a ; } ","cJSON * cJSON_CreateFloatArray ( const float * numbers , int count ) { int i ; cJSON * n = 0 , * p = 0 , * a = cJSON_CreateArray ( ) ; for ( i = 0 ; a && i < count ; i ++ ) { n = cJSON_CreateNumber ( numbers [ i ] ) ; if ( ! n ) { cJSON_Delete ( a ) ; return 0 ; } if ( ! i ) a -> child = n ; else suffix_object ( p , n ) ; p = n ; } return a ; }" 320,"CWE-20 error_t dm9000SendPacket ( NetInterface * interface , const NetBuffer * buffer , size_t offset , NetTxAncillary * ancillary ) { size_t i ; size_t length ; uint16_t * p ; Dm9000Context * context ; context = ( Dm9000Context * ) interface -> nicContext ; length = netBufferGetLength ( buffer ) - offset ; if ( length > ETH_MAX_FRAME_SIZE ) { osSetEvent ( & interface -> nicTxEvent ) ; return ERROR_INVALID_LENGTH ; } netBufferRead ( context -> txBuffer , buffer , offset , length ) ; dm9000WriteReg ( DM9000_REG_MWCMDX , 0 ) ; DM9000_INDEX_REG = DM9000_REG_MWCMD ; p = ( uint16_t * ) context -> txBuffer ; for ( i = length ; i > 1 ; i -= 2 ) { DM9000_DATA_REG = * ( p ++ ) ; } if ( i > 0 ) { DM9000_DATA_REG = * ( ( uint8_t * ) p ) ; } dm9000WriteReg ( DM9000_REG_TXPLL , LSB ( length ) ) ; dm9000WriteReg ( DM9000_REG_TXPLH , MSB ( length ) ) ; dm9000WriteReg ( DM9000_REG_ISR , ISR_PT ) ; dm9000WriteReg ( DM9000_REG_TCR , TCR_TXREQ ) ; context -> queuedPackets ++ ; return NO_ERROR ; }","error_t dm9000SendPacket ( NetInterface * interface , const NetBuffer * buffer , size_t offset , NetTxAncillary * ancillary ) { size_t i ; size_t length ; uint16_t * p ; Dm9000Context * context ; context = ( Dm9000Context * ) interface -> nicContext ; length = netBufferGetLength ( buffer ) - offset ; if ( length > ETH_MAX_FRAME_SIZE ) { osSetEvent ( & interface -> nicTxEvent ) ; return ERROR_INVALID_LENGTH ; } netBufferRead ( context -> txBuffer , buffer , offset , length ) ; dm9000WriteReg ( DM9000_MWCMDX , 0 ) ; DM9000_INDEX_REG = DM9000_MWCMD ; p = ( uint16_t * ) context -> txBuffer ; for ( i = length ; i > 1 ; i -= 2 ) { DM9000_DATA_REG = * ( p ++ ) ; } if ( i > 0 ) { DM9000_DATA_REG = * ( ( uint8_t * ) p ) ; } dm9000WriteReg ( DM9000_TXPLL , LSB ( length ) ) ; dm9000WriteReg ( DM9000_TXPLH , MSB ( length ) ) ; dm9000WriteReg ( DM9000_ISR , DM9000_ISR_PT ) ; dm9000WriteReg ( DM9000_TCR , DM9000_TCR_TXREQ ) ; context -> queuedPackets ++ ; return NO_ERROR ; }" 321,"CWE-125 static void ChopUpSingleUncompressedStrip ( TIFF * tif ) { register TIFFDirectory * td = & tif -> tif_dir ; uint64 bytecount ; uint64 offset ; uint32 rowblock ; uint64 rowblockbytes ; uint64 stripbytes ; uint32 strip ; uint64 nstrips64 ; uint32 nstrips32 ; uint32 rowsperstrip ; uint64 * newcounts ; uint64 * newoffsets ; bytecount = td -> td_stripbytecount [ 0 ] ; offset = td -> td_stripoffset [ 0 ] ; assert ( td -> td_planarconfig == PLANARCONFIG_CONTIG ) ; if ( ( td -> td_photometric == PHOTOMETRIC_YCBCR ) && ( ! isUpSampled ( tif ) ) ) rowblock = td -> td_ycbcrsubsampling [ 1 ] ; else rowblock = 1 ; rowblockbytes = TIFFVTileSize64 ( tif , rowblock ) ; if ( rowblockbytes > STRIP_SIZE_DEFAULT ) { stripbytes = rowblockbytes ; rowsperstrip = rowblock ; } else if ( rowblockbytes > 0 ) { uint32 rowblocksperstrip ; rowblocksperstrip = ( uint32 ) ( STRIP_SIZE_DEFAULT / rowblockbytes ) ; rowsperstrip = rowblocksperstrip * rowblock ; stripbytes = rowblocksperstrip * rowblockbytes ; } else return ; if ( rowsperstrip >= td -> td_rowsperstrip ) return ; nstrips64 = TIFFhowmany_64 ( bytecount , stripbytes ) ; if ( ( nstrips64 == 0 ) || ( nstrips64 > 0xFFFFFFFF ) ) return ; nstrips32 = ( uint32 ) nstrips64 ; newcounts = ( uint64 * ) _TIFFCheckMalloc ( tif , nstrips32 , sizeof ( uint64 ) , ""for chopped \\""StripByteCounts\\"" array"" ) ; newoffsets = ( uint64 * ) _TIFFCheckMalloc ( tif , nstrips32 , sizeof ( uint64 ) , ""for chopped \\""StripOffsets\\"" array"" ) ; if ( newcounts == NULL || newoffsets == NULL ) { if ( newcounts != NULL ) _TIFFfree ( newcounts ) ; if ( newoffsets != NULL ) _TIFFfree ( newoffsets ) ; return ; } for ( strip = 0 ; strip < nstrips32 ; strip ++ ) { if ( stripbytes > bytecount ) stripbytes = bytecount ; newcounts [ strip ] = stripbytes ; newoffsets [ strip ] = offset ; offset += stripbytes ; bytecount -= stripbytes ; } td -> td_stripsperimage = td -> td_nstrips = nstrips32 ; TIFFSetField ( tif , TIFFTAG_ROWSPERSTRIP , rowsperstrip ) ; _TIFFfree ( td -> td_stripbytecount ) ; _TIFFfree ( td -> td_stripoffset ) ; td -> td_stripbytecount = newcounts ; td -> td_stripoffset = newoffsets ; td -> td_stripbytecountsorted = 1 ; }","static void ChopUpSingleUncompressedStrip ( TIFF * tif ) { register TIFFDirectory * td = & tif -> tif_dir ; uint64 bytecount ; uint64 offset ; uint32 rowblock ; uint64 rowblockbytes ; uint64 stripbytes ; uint32 strip ; uint32 nstrips ; uint32 rowsperstrip ; uint64 * newcounts ; uint64 * newoffsets ; bytecount = td -> td_stripbytecount [ 0 ] ; offset = td -> td_stripoffset [ 0 ] ; assert ( td -> td_planarconfig == PLANARCONFIG_CONTIG ) ; if ( ( td -> td_photometric == PHOTOMETRIC_YCBCR ) && ( ! isUpSampled ( tif ) ) ) rowblock = td -> td_ycbcrsubsampling [ 1 ] ; else rowblock = 1 ; rowblockbytes = TIFFVTileSize64 ( tif , rowblock ) ; if ( rowblockbytes > STRIP_SIZE_DEFAULT ) { stripbytes = rowblockbytes ; rowsperstrip = rowblock ; } else if ( rowblockbytes > 0 ) { uint32 rowblocksperstrip ; rowblocksperstrip = ( uint32 ) ( STRIP_SIZE_DEFAULT / rowblockbytes ) ; rowsperstrip = rowblocksperstrip * rowblock ; stripbytes = rowblocksperstrip * rowblockbytes ; } else return ; if ( rowsperstrip >= td -> td_rowsperstrip ) return ; nstrips = TIFFhowmany_32 ( td -> td_imagelength , rowsperstrip ) ; if ( nstrips == 0 ) return ; newcounts = ( uint64 * ) _TIFFCheckMalloc ( tif , nstrips , sizeof ( uint64 ) , ""for chopped \\""StripByteCounts\\"" array"" ) ; newoffsets = ( uint64 * ) _TIFFCheckMalloc ( tif , nstrips , sizeof ( uint64 ) , ""for chopped \\""StripOffsets\\"" array"" ) ; if ( newcounts == NULL || newoffsets == NULL ) { if ( newcounts != NULL ) _TIFFfree ( newcounts ) ; if ( newoffsets != NULL ) _TIFFfree ( newoffsets ) ; return ; } for ( strip = 0 ; strip < nstrips ; strip ++ ) { if ( stripbytes > bytecount ) stripbytes = bytecount ; newcounts [ strip ] = stripbytes ; newoffsets [ strip ] = stripbytes ? offset : 0 ; offset += stripbytes ; bytecount -= stripbytes ; } td -> td_stripsperimage = td -> td_nstrips = nstrips ; TIFFSetField ( tif , TIFFTAG_ROWSPERSTRIP , rowsperstrip ) ; _TIFFfree ( td -> td_stripbytecount ) ; _TIFFfree ( td -> td_stripoffset ) ; td -> td_stripbytecount = newcounts ; td -> td_stripoffset = newoffsets ; td -> td_stripbytecountsorted = 1 ; }" 322,"CWE-444 bool agoo_ws_create_req ( agooCon c , long mlen ) { uint8_t op = 0x0F & * c -> buf ; if ( NULL == ( c -> req = agoo_req_create ( mlen ) ) ) { agoo_log_cat ( & agoo_error_cat , ""Out of memory attempting to allocate request."" ) ; return true ; } if ( NULL == c -> up || agoo_server . ctx_nil_value == c -> up -> ctx ) { return true ; } memset ( c -> req , 0 , sizeof ( struct _agooReq ) ) ; if ( ( long ) c -> bcnt <= mlen ) { memcpy ( c -> req -> msg , c -> buf , c -> bcnt ) ; if ( ( long ) c -> bcnt < mlen ) { memset ( c -> req -> msg + c -> bcnt , 0 , mlen - c -> bcnt ) ; } } else { memcpy ( c -> req -> msg , c -> buf , mlen ) ; } c -> req -> msg [ mlen ] = '\\0' ; c -> req -> mlen = mlen ; c -> req -> method = ( AGOO_WS_OP_BIN == op ) ? AGOO_ON_BIN : AGOO_ON_MSG ; c -> req -> upgrade = AGOO_UP_NONE ; c -> req -> up = c -> up ; c -> req -> res = NULL ; if ( c -> up -> on_msg ) { c -> req -> hook = agoo_hook_create ( AGOO_NONE , NULL , c -> up -> ctx , PUSH_HOOK , & agoo_server . eval_queue ) ; } return false ; }","bool agoo_ws_create_req ( agooCon c , long mlen ) { uint8_t op = 0x0F & * c -> buf ; if ( NULL == ( c -> req = agoo_req_create ( mlen ) ) ) { agoo_log_cat ( & agoo_error_cat , ""Out of memory attempting to allocate request."" ) ; return true ; } if ( NULL == c -> up || agoo_server . ctx_nil_value == c -> up -> ctx ) { return true ; } memset ( c -> req , 0 , sizeof ( struct _agooReq ) ) ; if ( ( long ) c -> bcnt <= mlen ) { memcpy ( c -> req -> msg , c -> buf , c -> bcnt ) ; if ( ( long ) c -> bcnt < mlen ) { memset ( c -> req -> msg + c -> bcnt , 0 , mlen - c -> bcnt ) ; } } else { memcpy ( c -> req -> msg , c -> buf , mlen ) ; } c -> req -> msg [ mlen ] = '\\0' ; c -> req -> mlen = mlen ; c -> req -> method = ( AGOO_WS_OP_BIN == op ) ? AGOO_ON_BIN : AGOO_ON_MSG ; c -> req -> upgrade = AGOO_UP_NONE ; c -> req -> up = c -> up ; memcpy ( c -> req -> remote , c -> remote , sizeof ( c -> remote ) ) ; c -> req -> res = NULL ; if ( c -> up -> on_msg ) { c -> req -> hook = agoo_hook_create ( AGOO_NONE , NULL , c -> up -> ctx , PUSH_HOOK , & agoo_server . eval_queue ) ; } return false ; }" 323,"CWE-674 krb5_error_code k5_asn1_full_decode ( const krb5_data * code , const struct atype_info * a , void * * retrep ) { krb5_error_code ret ; const uint8_t * contents , * remainder ; size_t clen , rlen ; taginfo t ; * retrep = NULL ; ret = get_tag ( ( uint8_t * ) code -> data , code -> length , & t , & contents , & clen , & remainder , & rlen ) ; if ( ret ) return ret ; if ( ! check_atype_tag ( a , & t ) ) return ASN1_BAD_ID ; return decode_atype_to_ptr ( & t , contents , clen , a , retrep ) ; }","krb5_error_code k5_asn1_full_decode ( const krb5_data * code , const struct atype_info * a , void * * retrep ) { krb5_error_code ret ; const uint8_t * contents , * remainder ; size_t clen , rlen ; taginfo t ; * retrep = NULL ; ret = get_tag ( ( uint8_t * ) code -> data , code -> length , & t , & contents , & clen , & remainder , & rlen , 0 ) ; if ( ret ) return ret ; if ( ! check_atype_tag ( a , & t ) ) return ASN1_BAD_ID ; return decode_atype_to_ptr ( & t , contents , clen , a , retrep ) ; }" 324,"CWE-476 int migrate_page_move_mapping ( struct address_space * mapping , struct page * newpage , struct page * page , struct buffer_head * head , enum migrate_mode mode , int extra_count ) { int expected_count = 1 + extra_count ; void * * pslot ; if ( ! mapping ) { if ( page_count ( page ) != expected_count ) return - EAGAIN ; set_page_memcg ( newpage , page_memcg ( page ) ) ; newpage -> index = page -> index ; newpage -> mapping = page -> mapping ; if ( PageSwapBacked ( page ) ) SetPageSwapBacked ( newpage ) ; return MIGRATEPAGE_SUCCESS ; } spin_lock_irq ( & mapping -> tree_lock ) ; pslot = radix_tree_lookup_slot ( & mapping -> page_tree , page_index ( page ) ) ; expected_count += 1 + page_has_private ( page ) ; if ( page_count ( page ) != expected_count || radix_tree_deref_slot_protected ( pslot , & mapping -> tree_lock ) != page ) { spin_unlock_irq ( & mapping -> tree_lock ) ; return - EAGAIN ; } if ( ! page_freeze_refs ( page , expected_count ) ) { spin_unlock_irq ( & mapping -> tree_lock ) ; return - EAGAIN ; } if ( mode == MIGRATE_ASYNC && head && ! buffer_migrate_lock_buffers ( head , mode ) ) { page_unfreeze_refs ( page , expected_count ) ; spin_unlock_irq ( & mapping -> tree_lock ) ; return - EAGAIN ; } set_page_memcg ( newpage , page_memcg ( page ) ) ; newpage -> index = page -> index ; newpage -> mapping = page -> mapping ; if ( PageSwapBacked ( page ) ) SetPageSwapBacked ( newpage ) ; get_page ( newpage ) ; if ( PageSwapCache ( page ) ) { SetPageSwapCache ( newpage ) ; set_page_private ( newpage , page_private ( page ) ) ; } radix_tree_replace_slot ( pslot , newpage ) ; page_unfreeze_refs ( page , expected_count - 1 ) ; __dec_zone_page_state ( page , NR_FILE_PAGES ) ; __inc_zone_page_state ( newpage , NR_FILE_PAGES ) ; if ( ! PageSwapCache ( page ) && PageSwapBacked ( page ) ) { __dec_zone_page_state ( page , NR_SHMEM ) ; __inc_zone_page_state ( newpage , NR_SHMEM ) ; } spin_unlock_irq ( & mapping -> tree_lock ) ; return MIGRATEPAGE_SUCCESS ; }","int migrate_page_move_mapping ( struct address_space * mapping , struct page * newpage , struct page * page , struct buffer_head * head , enum migrate_mode mode , int extra_count ) { struct zone * oldzone , * newzone ; int dirty ; int expected_count = 1 + extra_count ; void * * pslot ; if ( ! mapping ) { if ( page_count ( page ) != expected_count ) return - EAGAIN ; set_page_memcg ( newpage , page_memcg ( page ) ) ; newpage -> index = page -> index ; newpage -> mapping = page -> mapping ; if ( PageSwapBacked ( page ) ) SetPageSwapBacked ( newpage ) ; return MIGRATEPAGE_SUCCESS ; } oldzone = page_zone ( page ) ; newzone = page_zone ( newpage ) ; spin_lock_irq ( & mapping -> tree_lock ) ; pslot = radix_tree_lookup_slot ( & mapping -> page_tree , page_index ( page ) ) ; expected_count += 1 + page_has_private ( page ) ; if ( page_count ( page ) != expected_count || radix_tree_deref_slot_protected ( pslot , & mapping -> tree_lock ) != page ) { spin_unlock_irq ( & mapping -> tree_lock ) ; return - EAGAIN ; } if ( ! page_freeze_refs ( page , expected_count ) ) { spin_unlock_irq ( & mapping -> tree_lock ) ; return - EAGAIN ; } if ( mode == MIGRATE_ASYNC && head && ! buffer_migrate_lock_buffers ( head , mode ) ) { page_unfreeze_refs ( page , expected_count ) ; spin_unlock_irq ( & mapping -> tree_lock ) ; return - EAGAIN ; } set_page_memcg ( newpage , page_memcg ( page ) ) ; newpage -> index = page -> index ; newpage -> mapping = page -> mapping ; if ( PageSwapBacked ( page ) ) SetPageSwapBacked ( newpage ) ; get_page ( newpage ) ; if ( PageSwapCache ( page ) ) { SetPageSwapCache ( newpage ) ; set_page_private ( newpage , page_private ( page ) ) ; } dirty = PageDirty ( page ) ; if ( dirty ) { ClearPageDirty ( page ) ; SetPageDirty ( newpage ) ; } radix_tree_replace_slot ( pslot , newpage ) ; page_unfreeze_refs ( page , expected_count - 1 ) ; spin_unlock ( & mapping -> tree_lock ) ; if ( newzone != oldzone ) { __dec_zone_state ( oldzone , NR_FILE_PAGES ) ; __inc_zone_state ( newzone , NR_FILE_PAGES ) ; if ( PageSwapBacked ( page ) && ! PageSwapCache ( page ) ) { __dec_zone_state ( oldzone , NR_SHMEM ) ; __inc_zone_state ( newzone , NR_SHMEM ) ; } if ( dirty && mapping_cap_account_dirty ( mapping ) ) { __dec_zone_state ( oldzone , NR_FILE_DIRTY ) ; __inc_zone_state ( newzone , NR_FILE_DIRTY ) ; } } local_irq_enable ( ) ; return MIGRATEPAGE_SUCCESS ; }" 325,"CWE-119 int nfssvc_decode_writeargs ( struct svc_rqst * rqstp , __be32 * p , struct nfsd_writeargs * args ) { unsigned int len , hdr , dlen ; struct kvec * head = rqstp -> rq_arg . head ; int v ; p = decode_fh ( p , & args -> fh ) ; if ( ! p ) return 0 ; p ++ ; args -> offset = ntohl ( * p ++ ) ; p ++ ; len = args -> len = ntohl ( * p ++ ) ; if ( len > NFSSVC_MAXBLKSIZE_V2 ) return 0 ; hdr = ( void * ) p - head -> iov_base ; dlen = head -> iov_len + rqstp -> rq_arg . page_len - hdr ; if ( dlen < XDR_QUADLEN ( len ) * 4 ) return 0 ; rqstp -> rq_vec [ 0 ] . iov_base = ( void * ) p ; rqstp -> rq_vec [ 0 ] . iov_len = head -> iov_len - hdr ; v = 0 ; while ( len > rqstp -> rq_vec [ v ] . iov_len ) { len -= rqstp -> rq_vec [ v ] . iov_len ; v ++ ; rqstp -> rq_vec [ v ] . iov_base = page_address ( rqstp -> rq_pages [ v ] ) ; rqstp -> rq_vec [ v ] . iov_len = PAGE_SIZE ; } rqstp -> rq_vec [ v ] . iov_len = len ; args -> vlen = v + 1 ; return 1 ; }","int nfssvc_decode_writeargs ( struct svc_rqst * rqstp , __be32 * p , struct nfsd_writeargs * args ) { unsigned int len , hdr , dlen ; struct kvec * head = rqstp -> rq_arg . head ; int v ; p = decode_fh ( p , & args -> fh ) ; if ( ! p ) return 0 ; p ++ ; args -> offset = ntohl ( * p ++ ) ; p ++ ; len = args -> len = ntohl ( * p ++ ) ; if ( len > NFSSVC_MAXBLKSIZE_V2 ) return 0 ; hdr = ( void * ) p - head -> iov_base ; if ( hdr > head -> iov_len ) return 0 ; dlen = head -> iov_len + rqstp -> rq_arg . page_len - hdr ; if ( dlen < XDR_QUADLEN ( len ) * 4 ) return 0 ; rqstp -> rq_vec [ 0 ] . iov_base = ( void * ) p ; rqstp -> rq_vec [ 0 ] . iov_len = head -> iov_len - hdr ; v = 0 ; while ( len > rqstp -> rq_vec [ v ] . iov_len ) { len -= rqstp -> rq_vec [ v ] . iov_len ; v ++ ; rqstp -> rq_vec [ v ] . iov_base = page_address ( rqstp -> rq_pages [ v ] ) ; rqstp -> rq_vec [ v ] . iov_len = PAGE_SIZE ; } rqstp -> rq_vec [ v ] . iov_len = len ; args -> vlen = v + 1 ; return 1 ; }" 326,"CWE-20 int res_inverse ( vorbis_dsp_state * vd , vorbis_info_residue * info , ogg_int32_t * * in , int * nonzero , int ch ) { int i , j , k , s , used = 0 ; codec_setup_info * ci = ( codec_setup_info * ) vd -> vi -> codec_setup ; codebook * phrasebook = ci -> book_param + info -> groupbook ; int samples_per_partition = info -> grouping ; int partitions_per_word = phrasebook -> dim ; int pcmend = ci -> blocksizes [ vd -> W ] ; if ( info -> type < 2 ) { int max = pcmend >> 1 ; int end = ( info -> end < max ? info -> end : max ) ; int n = end - info -> begin ; if ( n > 0 ) { int partvals = n / samples_per_partition ; int partwords = ( partvals + partitions_per_word - 1 ) / partitions_per_word ; for ( i = 0 ; i < ch ; i ++ ) if ( nonzero [ i ] ) in [ used ++ ] = in [ i ] ; ch = used ; if ( used ) { char * * partword = ( char * * ) alloca ( ch * sizeof ( * partword ) ) ; for ( j = 0 ; j < ch ; j ++ ) partword [ j ] = ( char * ) alloca ( partwords * partitions_per_word * sizeof ( * partword [ j ] ) ) ; for ( s = 0 ; s < info -> stages ; s ++ ) { for ( i = 0 ; i < partvals ; ) { if ( s == 0 ) { partword [ 0 ] [ i + partitions_per_word - 1 ] = 1 ; for ( k = partitions_per_word - 2 ; k >= 0 ; k -- ) partword [ 0 ] [ i + k ] = partword [ 0 ] [ i + k + 1 ] * info -> partitions ; for ( j = 1 ; j < ch ; j ++ ) for ( k = partitions_per_word - 1 ; k >= 0 ; k -- ) partword [ j ] [ i + k ] = partword [ j - 1 ] [ i + k ] ; for ( j = 0 ; j < ch ; j ++ ) { int temp = vorbis_book_decode ( phrasebook , & vd -> opb ) ; if ( temp == - 1 ) goto eopbreak ; for ( k = 0 ; k < partitions_per_word ; k ++ ) { ogg_uint32_t div = partword [ j ] [ i + k ] ; partword [ j ] [ i + k ] = temp / div ; temp -= partword [ j ] [ i + k ] * div ; } } } for ( k = 0 ; k < partitions_per_word && i < partvals ; k ++ , i ++ ) for ( j = 0 ; j < ch ; j ++ ) { long offset = info -> begin + i * samples_per_partition ; if ( info -> stagemasks [ ( int ) partword [ j ] [ i ] ] & ( 1 << s ) ) { codebook * stagebook = ci -> book_param + info -> stagebooks [ ( partword [ j ] [ i ] << 3 ) + s ] ; if ( info -> type ) { if ( vorbis_book_decodev_add ( stagebook , in [ j ] + offset , & vd -> opb , samples_per_partition , - 8 ) == - 1 ) goto eopbreak ; } else { if ( vorbis_book_decodevs_add ( stagebook , in [ j ] + offset , & vd -> opb , samples_per_partition , - 8 ) == - 1 ) goto eopbreak ; } } } } } } } } else { int max = ( pcmend * ch ) >> 1 ; int end = ( info -> end < max ? info -> end : max ) ; int n = end - info -> begin ; if ( n > 0 ) { int partvals = n / samples_per_partition ; int partwords = ( partvals + partitions_per_word - 1 ) / partitions_per_word ; char * partword = ( char * ) alloca ( partwords * partitions_per_word * sizeof ( * partword ) ) ; int beginoff = info -> begin / ch ; for ( i = 0 ; i < ch ; i ++ ) if ( nonzero [ i ] ) break ; if ( i == ch ) return ( 0 ) ; samples_per_partition /= ch ; for ( s = 0 ; s < info -> stages ; s ++ ) { for ( i = 0 ; i < partvals ; ) { if ( s == 0 ) { int temp ; partword [ i + partitions_per_word - 1 ] = 1 ; for ( k = partitions_per_word - 2 ; k >= 0 ; k -- ) partword [ i + k ] = partword [ i + k + 1 ] * info -> partitions ; temp = vorbis_book_decode ( phrasebook , & vd -> opb ) ; if ( temp == - 1 ) goto eopbreak ; for ( k = 0 ; k < partitions_per_word ; k ++ ) { ogg_uint32_t div = partword [ i + k ] ; partword [ i + k ] = temp / div ; temp -= partword [ i + k ] * div ; } } for ( k = 0 ; k < partitions_per_word && i < partvals ; k ++ , i ++ ) if ( info -> stagemasks [ ( int ) partword [ i ] ] & ( 1 << s ) ) { codebook * stagebook = ci -> book_param + info -> stagebooks [ ( partword [ i ] << 3 ) + s ] ; if ( vorbis_book_decodevv_add ( stagebook , in ,","int res_inverse ( vorbis_dsp_state * vd , vorbis_info_residue * info , ogg_int32_t * * in , int * nonzero , int ch ) { int i , j , k , s , used = 0 ; codec_setup_info * ci = ( codec_setup_info * ) vd -> vi -> codec_setup ; codebook * phrasebook = ci -> book_param + info -> groupbook ; int samples_per_partition = info -> grouping ; int partitions_per_word = phrasebook -> dim ; int pcmend = ci -> blocksizes [ vd -> W ] ; if ( info -> type < 2 ) { int max = pcmend >> 1 ; int end = ( info -> end < max ? info -> end : max ) ; int n = end - info -> begin ; if ( n > 0 ) { int partvals = n / samples_per_partition ; int partwords = ( partvals + partitions_per_word - 1 ) / partitions_per_word ; for ( i = 0 ; i < ch ; i ++ ) if ( nonzero [ i ] ) in [ used ++ ] = in [ i ] ; ch = used ; if ( used ) { char * * partword = ( char * * ) alloca ( ch * sizeof ( * partword ) ) ; for ( j = 0 ; j < ch ; j ++ ) partword [ j ] = ( char * ) alloca ( partwords * partitions_per_word * sizeof ( * partword [ j ] ) ) ; for ( s = 0 ; s < info -> stages ; s ++ ) { for ( i = 0 ; i < partvals ; ) { if ( s == 0 ) { partword [ 0 ] [ i + partitions_per_word - 1 ] = 1 ; for ( k = partitions_per_word - 2 ; k >= 0 ; k -- ) partword [ 0 ] [ i + k ] = partword [ 0 ] [ i + k + 1 ] * info -> partitions ; for ( j = 1 ; j < ch ; j ++ ) for ( k = partitions_per_word - 1 ; k >= 0 ; k -- ) partword [ j ] [ i + k ] = partword [ j - 1 ] [ i + k ] ; for ( j = 0 ; j < ch ; j ++ ) { int temp = vorbis_book_decode ( phrasebook , & vd -> opb ) ; if ( temp == - 1 ) goto eopbreak ; for ( k = 0 ; k < partitions_per_word ; k ++ ) { ogg_uint32_t div = partword [ j ] [ i + k ] ; partword [ j ] [ i + k ] = temp / div ; temp -= partword [ j ] [ i + k ] * div ; } } } for ( k = 0 ; k < partitions_per_word && i < partvals ; k ++ , i ++ ) for ( j = 0 ; j < ch ; j ++ ) { long offset = info -> begin + i * samples_per_partition ; int idx = ( int ) partword [ j ] [ i ] ; if ( idx < info -> partitions && info -> stagemasks [ idx ] & ( 1 << s ) ) { codebook * stagebook = ci -> book_param + info -> stagebooks [ ( partword [ j ] [ i ] << 3 ) + s ] ; if ( info -> type ) { if ( vorbis_book_decodev_add ( stagebook , in [ j ] + offset , & vd -> opb , samples_per_partition , - 8 ) == - 1 ) goto eopbreak ; } else { if ( vorbis_book_decodevs_add ( stagebook , in [ j ] + offset , & vd -> opb , samples_per_partition , - 8 ) == - 1 ) goto eopbreak ; } } } } } } } } else { int max = ( pcmend * ch ) >> 1 ; int end = ( info -> end < max ? info -> end : max ) ; int n = end - info -> begin ; if ( n > 0 ) { int partvals = n / samples_per_partition ; int partwords = ( partvals + partitions_per_word - 1 ) / partitions_per_word ; char * partword = ( char * ) alloca ( partwords * partitions_per_word * sizeof ( * partword ) ) ; int beginoff = info -> begin / ch ; for ( i = 0 ; i < ch ; i ++ ) if ( nonzero [ i ] ) break ; if ( i == ch ) return ( 0 ) ; samples_per_partition /= ch ; for ( s = 0 ; s < info -> stages ; s ++ ) { for ( i = 0 ; i < partvals ; ) { if ( s == 0 ) { int temp ; partword [ i + partitions_per_word - 1 ] = 1 ; for ( k = partitions_per_word - 2 ; k >= 0 ; k -- ) partword [ i + k ] = partword [ i + k + 1 ] * info -> partitions ; temp = vorbis_book_decode ( phrasebook , & vd -> opb ) ; if ( temp == - 1 ) goto eopbreak ; for ( k = 0 ; k < partitions_per_word ; k ++ ) { ogg_uint32_t div = partword [ i + k ] ; partword [ i + k ] = temp / div ; temp -= partword [ i + k ] * div ; } } for ( k = 0 ; k < partitions_per_word && i < partvals ; k ++ , i ++ ) if ( info -> stagemasks [ ( int ) partword [ i ] ] & ( 1 << s ) ) { codebook * stagebook = ci -> book_param + info -> stagebooks [ ( partword [ i ] << 3 ) + s ] ; if ( vorbis_book_decodevv_add ( stagebook , in ," 327,"CWE-119 static Sdb * store_versioninfo_gnu_verdef ( ELFOBJ * bin , Elf_ ( Shdr ) * shdr , int sz ) { const char * section_name = """" ; const char * link_section_name = """" ; char * end = NULL ; Elf_ ( Shdr ) * link_shdr = NULL ; ut8 dfs [ sizeof ( Elf_ ( Verdef ) ) ] = { 0 } ; Sdb * sdb ; int cnt , i ; if ( shdr -> sh_link > bin -> ehdr . e_shnum ) { return false ; } link_shdr = & bin -> shdr [ shdr -> sh_link ] ; if ( shdr -> sh_size < 1 ) { return false ; } Elf_ ( Verdef ) * defs = calloc ( shdr -> sh_size , sizeof ( char ) ) ; if ( ! defs ) { return false ; } if ( bin -> shstrtab && shdr -> sh_name < bin -> shstrtab_size ) { section_name = & bin -> shstrtab [ shdr -> sh_name ] ; } if ( link_shdr && bin -> shstrtab && link_shdr -> sh_name < bin -> shstrtab_size ) { link_section_name = & bin -> shstrtab [ link_shdr -> sh_name ] ; } if ( ! defs ) { bprintf ( ""Warning: Cannot allocate memory (Check Elf_(Verdef))\\n"" ) ; return NULL ; } sdb = sdb_new0 ( ) ; end = ( char * ) defs + shdr -> sh_size ; sdb_set ( sdb , ""section_name"" , section_name , 0 ) ; sdb_num_set ( sdb , ""entries"" , shdr -> sh_info , 0 ) ; sdb_num_set ( sdb , ""addr"" , shdr -> sh_addr , 0 ) ; sdb_num_set ( sdb , ""offset"" , shdr -> sh_offset , 0 ) ; sdb_num_set ( sdb , ""link"" , shdr -> sh_link , 0 ) ; sdb_set ( sdb , ""link_section_name"" , link_section_name , 0 ) ; for ( cnt = 0 , i = 0 ; cnt < shdr -> sh_info && ( ( char * ) defs + i < end ) ; ++ cnt ) { Sdb * sdb_verdef = sdb_new0 ( ) ; char * vstart = ( ( char * ) defs ) + i ; char key [ 32 ] = { 0 } ; Elf_ ( Verdef ) * verdef = ( Elf_ ( Verdef ) * ) vstart ; Elf_ ( Verdaux ) aux = { 0 } ; int j = 0 ; int isum = 0 ; r_buf_read_at ( bin -> b , shdr -> sh_offset + i , dfs , sizeof ( Elf_ ( Verdef ) ) ) ; verdef -> vd_version = READ16 ( dfs , j ) verdef -> vd_flags = READ16 ( dfs , j ) verdef -> vd_ndx = READ16 ( dfs , j ) verdef -> vd_cnt = READ16 ( dfs , j ) verdef -> vd_hash = READ32 ( dfs , j ) verdef -> vd_aux = READ32 ( dfs , j ) verdef -> vd_next = READ32 ( dfs , j ) vstart += verdef -> vd_aux ; if ( vstart > end || vstart + sizeof ( Elf_ ( Verdaux ) ) > end ) { sdb_free ( sdb_verdef ) ; goto out_error ; } j = 0 ; aux . vda_name = READ32 ( vstart , j ) aux . vda_next = READ32 ( vstart , j ) isum = i + verdef -> vd_aux ; if ( aux . vda_name > bin -> dynstr_size ) { sdb_free ( sdb_verdef ) ; goto out_error ; } sdb_num_set ( sdb_verdef , ""idx"" , i , 0 ) ; sdb_num_set ( sdb_verdef , ""vd_version"" , verdef -> vd_version , 0 ) ; sdb_num_set ( sdb_verdef , ""vd_ndx"" , verdef -> vd_ndx , 0 ) ; sdb_num_set ( sdb_verdef , ""vd_cnt"" , verdef -> vd_cnt , 0 ) ; sdb_set ( sdb_verdef , ""vda_name"" , & bin -> dynstr [ aux . vda_name ] , 0 ) ; sdb_set ( sdb_verdef , ""flags"" , get_ver_flags ( verdef -> vd_flags ) , 0 ) ; for ( j = 1 ; j < verdef -> vd_cnt ; ++ j ) { int k ; Sdb * sdb_parent = sdb_new0 ( ) ; isum += aux . vda_next ; vstart += aux . vda_next ; if ( vstart > end || vstart + sizeof ( Elf_ ( Verdaux ) ) > end ) { sdb_free ( sdb_verdef ) ; sdb_free ( sdb_parent ) ; goto out_error ; } k = 0 ; aux . vda_name = READ32 ( vstart , k ) aux . vda_next = READ32 ( vstart , k ) if ( aux . vda_name > bin -> dynstr_size ) { sdb_free ( sdb_verdef ) ; sdb_free ( sdb_parent ) ; goto out_error ; } sdb_num_set ( sdb_parent , ""idx"" , isum , 0 ) ; sdb_num_set ( sdb_parent , ""parent"" , j , 0 ) ; sdb_set ( sdb_parent , ""vda_name"" , & bin -> dynstr [ aux . vda_name ] , 0 ) ; snprintf ( key , sizeof ( key ) , ""parent%d"" , j - 1 ) ; sdb_ns_set ( sdb_verdef , key , sdb_parent ) ; } snprintf ( key , sizeof ( key ) , ""verdef%d"" , cnt ) ; sdb_ns_set ( sdb , key , sdb_verdef ) ; if ( ! verdef -> vd_next ) { sdb_free ( sdb_verdef ) ; goto out_error ; } i += verdef -> vd_next ; } free ( defs ) ; return sdb ; out_error : free ( defs ) ; sdb_free ( sdb ) ; return NULL ; }","static Sdb * store_versioninfo_gnu_verdef ( ELFOBJ * bin , Elf_ ( Shdr ) * shdr , int sz ) { const char * section_name = """" ; const char * link_section_name = """" ; char * end = NULL ; Elf_ ( Shdr ) * link_shdr = NULL ; ut8 dfs [ sizeof ( Elf_ ( Verdef ) ) ] = { 0 } ; Sdb * sdb ; int cnt , i ; if ( shdr -> sh_link > bin -> ehdr . e_shnum ) { return false ; } link_shdr = & bin -> shdr [ shdr -> sh_link ] ; if ( shdr -> sh_size < 1 ) { return false ; } Elf_ ( Verdef ) * defs = calloc ( shdr -> sh_size , sizeof ( char ) ) ; if ( ! defs ) { return false ; } if ( bin -> shstrtab && shdr -> sh_name < bin -> shstrtab_size ) { section_name = & bin -> shstrtab [ shdr -> sh_name ] ; } if ( link_shdr && bin -> shstrtab && link_shdr -> sh_name < bin -> shstrtab_size ) { link_section_name = & bin -> shstrtab [ link_shdr -> sh_name ] ; } if ( ! defs ) { bprintf ( ""Warning: Cannot allocate memory (Check Elf_(Verdef))\\n"" ) ; return NULL ; } sdb = sdb_new0 ( ) ; end = ( char * ) defs + shdr -> sh_size ; sdb_set ( sdb , ""section_name"" , section_name , 0 ) ; sdb_num_set ( sdb , ""entries"" , shdr -> sh_info , 0 ) ; sdb_num_set ( sdb , ""addr"" , shdr -> sh_addr , 0 ) ; sdb_num_set ( sdb , ""offset"" , shdr -> sh_offset , 0 ) ; sdb_num_set ( sdb , ""link"" , shdr -> sh_link , 0 ) ; sdb_set ( sdb , ""link_section_name"" , link_section_name , 0 ) ; for ( cnt = 0 , i = 0 ; i >= 0 && cnt < shdr -> sh_info && ( ( char * ) defs + i < end ) ; ++ cnt ) { Sdb * sdb_verdef = sdb_new0 ( ) ; char * vstart = ( ( char * ) defs ) + i ; char key [ 32 ] = { 0 } ; Elf_ ( Verdef ) * verdef = ( Elf_ ( Verdef ) * ) vstart ; Elf_ ( Verdaux ) aux = { 0 } ; int j = 0 ; int isum = 0 ; r_buf_read_at ( bin -> b , shdr -> sh_offset + i , dfs , sizeof ( Elf_ ( Verdef ) ) ) ; verdef -> vd_version = READ16 ( dfs , j ) verdef -> vd_flags = READ16 ( dfs , j ) verdef -> vd_ndx = READ16 ( dfs , j ) verdef -> vd_cnt = READ16 ( dfs , j ) verdef -> vd_hash = READ32 ( dfs , j ) verdef -> vd_aux = READ32 ( dfs , j ) verdef -> vd_next = READ32 ( dfs , j ) vstart += verdef -> vd_aux ; if ( vstart > end || vstart + sizeof ( Elf_ ( Verdaux ) ) > end ) { sdb_free ( sdb_verdef ) ; goto out_error ; } j = 0 ; aux . vda_name = READ32 ( vstart , j ) aux . vda_next = READ32 ( vstart , j ) isum = i + verdef -> vd_aux ; if ( aux . vda_name > bin -> dynstr_size ) { sdb_free ( sdb_verdef ) ; goto out_error ; } sdb_num_set ( sdb_verdef , ""idx"" , i , 0 ) ; sdb_num_set ( sdb_verdef , ""vd_version"" , verdef -> vd_version , 0 ) ; sdb_num_set ( sdb_verdef , ""vd_ndx"" , verdef -> vd_ndx , 0 ) ; sdb_num_set ( sdb_verdef , ""vd_cnt"" , verdef -> vd_cnt , 0 ) ; sdb_set ( sdb_verdef , ""vda_name"" , & bin -> dynstr [ aux . vda_name ] , 0 ) ; sdb_set ( sdb_verdef , ""flags"" , get_ver_flags ( verdef -> vd_flags ) , 0 ) ; for ( j = 1 ; j < verdef -> vd_cnt ; ++ j ) { int k ; Sdb * sdb_parent = sdb_new0 ( ) ; isum += aux . vda_next ; vstart += aux . vda_next ; if ( vstart > end || vstart + sizeof ( Elf_ ( Verdaux ) ) > end ) { sdb_free ( sdb_verdef ) ; sdb_free ( sdb_parent ) ; goto out_error ; } k = 0 ; aux . vda_name = READ32 ( vstart , k ) aux . vda_next = READ32 ( vstart , k ) if ( aux . vda_name > bin -> dynstr_size ) { sdb_free ( sdb_verdef ) ; sdb_free ( sdb_parent ) ; goto out_error ; } sdb_num_set ( sdb_parent , ""idx"" , isum , 0 ) ; sdb_num_set ( sdb_parent , ""parent"" , j , 0 ) ; sdb_set ( sdb_parent , ""vda_name"" , & bin -> dynstr [ aux . vda_name ] , 0 ) ; snprintf ( key , sizeof ( key ) , ""parent%d"" , j - 1 ) ; sdb_ns_set ( sdb_verdef , key , sdb_parent ) ; } snprintf ( key , sizeof ( key ) , ""verdef%d"" , cnt ) ; sdb_ns_set ( sdb , key , sdb_verdef ) ; if ( ! verdef -> vd_next ) { sdb_free ( sdb_verdef ) ; goto out_error ; } if ( ( st32 ) verdef -> vd_next < 1 ) { eprintf ( ""Warning: Invalid vd_next in the ELF version\\n"" ) ; break ; } i += verdef -> vd_next ; } free ( defs ) ; return sdb ; out_error : free ( defs ) ; sdb_free ( sdb ) ; return NULL ; }" 328,"CWE-476 ? SIZE_OP_MEMORY_END_PUSH_REC : SIZE_OP_MEMORY_END_PUSH ) ; else len += ( NODE_IS_RECURSION ( node ) ? SIZE_OP_MEMORY_END_REC : SIZE_OP_MEMORY_END ) ; } else if ( NODE_IS_RECURSION ( node ) ) { len = SIZE_OP_MEMORY_START_PUSH ; len += tlen + ( MEM_STATUS_AT0 ( reg -> bt_mem_end , node -> m . regnum ) ? SIZE_OP_MEMORY_END_PUSH_REC : SIZE_OP_MEMORY_END_REC ) ; } else # endif { if ( MEM_STATUS_AT0 ( reg -> bt_mem_start , node -> m . regnum ) ) len = SIZE_OP_MEMORY_START_PUSH ; else len = SIZE_OP_MEMORY_START ; len += tlen + ( MEM_STATUS_AT0 ( reg -> bt_mem_end , node -> m . regnum ) ? SIZE_OP_MEMORY_END_PUSH : SIZE_OP_MEMORY_END ) ; } break ; case BAG_STOP_BACKTRACK : if ( NODE_IS_STOP_BT_SIMPLE_REPEAT ( node ) ) { int v ; QuantNode * qn ; qn = QUANT_ ( NODE_BAG_BODY ( node ) ) ; tlen = compile_length_tree ( NODE_QUANT_BODY ( qn ) , reg ) ; if ( tlen < 0 ) return tlen ; v = onig_positive_int_multiply ( qn -> lower , tlen ) ; if ( v < 0 ) return ONIGERR_TOO_BIG_NUMBER_FOR_REPEAT_RANGE ; len = v + SIZE_OP_PUSH + tlen + SIZE_OP_POP_OUT + SIZE_OP_JUMP ; } else { len = SIZE_OP_ATOMIC_START + tlen + SIZE_OP_ATOMIC_END ; } break ; case BAG_IF_ELSE : { Node * cond = NODE_BAG_BODY ( node ) ; Node * Then = node -> te . Then ; Node * Else = node -> te . Else ; len = compile_length_tree ( cond , reg ) ; if ( len < 0 ) return len ; len += SIZE_OP_PUSH ; len += SIZE_OP_ATOMIC_START + SIZE_OP_ATOMIC_END ; if ( IS_NOT_NULL ( Then ) ) { tlen = compile_length_tree ( Then , reg ) ; if ( tlen < 0 ) return tlen ; len += tlen ; } if ( IS_NOT_NULL ( Else ) ) { len += SIZE_OP_JUMP ; tlen = compile_length_tree ( Else , reg ) ; if ( tlen < 0 ) return tlen ; len += tlen ; } } break ; case BAG_OPTION : len = 0 ; break ; } return len ; }","? SIZE_OP_MEMORY_END_PUSH_REC : SIZE_OP_MEMORY_END_PUSH ) ; else len += ( NODE_IS_RECURSION ( node ) ? SIZE_OP_MEMORY_END_REC : SIZE_OP_MEMORY_END ) ; } else if ( NODE_IS_RECURSION ( node ) ) { len = SIZE_OP_MEMORY_START_PUSH ; len += tlen + ( MEM_STATUS_AT0 ( reg -> bt_mem_end , node -> m . regnum ) ? SIZE_OP_MEMORY_END_PUSH_REC : SIZE_OP_MEMORY_END_REC ) ; } else # endif { if ( MEM_STATUS_AT0 ( reg -> bt_mem_start , node -> m . regnum ) ) len = SIZE_OP_MEMORY_START_PUSH ; else len = SIZE_OP_MEMORY_START ; len += tlen + ( MEM_STATUS_AT0 ( reg -> bt_mem_end , node -> m . regnum ) ? SIZE_OP_MEMORY_END_PUSH : SIZE_OP_MEMORY_END ) ; } break ; case BAG_STOP_BACKTRACK : if ( NODE_IS_STOP_BT_SIMPLE_REPEAT ( node ) ) { int v ; QuantNode * qn ; qn = QUANT_ ( NODE_BAG_BODY ( node ) ) ; tlen = compile_length_tree ( NODE_QUANT_BODY ( qn ) , reg ) ; if ( tlen < 0 ) return tlen ; v = onig_positive_int_multiply ( qn -> lower , tlen ) ; if ( v < 0 ) return ONIGERR_TOO_BIG_NUMBER_FOR_REPEAT_RANGE ; len = v + SIZE_OP_PUSH + tlen + SIZE_OP_POP_OUT + SIZE_OP_JUMP ; } else { len = SIZE_OP_ATOMIC_START + tlen + SIZE_OP_ATOMIC_END ; } break ; case BAG_IF_ELSE : { Node * cond = NODE_BAG_BODY ( node ) ; Node * Then = node -> te . Then ; Node * Else = node -> te . Else ; len = compile_length_tree ( cond , reg ) ; if ( len < 0 ) return len ; len += SIZE_OP_PUSH ; len += SIZE_OP_ATOMIC_START + SIZE_OP_ATOMIC_END ; if ( IS_NOT_NULL ( Then ) ) { tlen = compile_length_tree ( Then , reg ) ; if ( tlen < 0 ) return tlen ; len += tlen ; } len += SIZE_OP_JUMP + SIZE_OP_ATOMIC_END ; if ( IS_NOT_NULL ( Else ) ) { tlen = compile_length_tree ( Else , reg ) ; if ( tlen < 0 ) return tlen ; len += tlen ; } } break ; case BAG_OPTION : len = 0 ; break ; } return len ; }" 329,"CWE-404 int nfs3svc_decode_readdirargs ( struct svc_rqst * rqstp , __be32 * p , struct nfsd3_readdirargs * args ) { p = decode_fh ( p , & args -> fh ) ; if ( ! p ) return 0 ; p = xdr_decode_hyper ( p , & args -> cookie ) ; args -> verf = p ; p += 2 ; args -> dircount = ~ 0 ; args -> count = ntohl ( * p ++ ) ; args -> count = min_t ( u32 , args -> count , PAGE_SIZE ) ; args -> buffer = page_address ( * ( rqstp -> rq_next_page ++ ) ) ; return xdr_argsize_check ( rqstp , p ) ; }","int nfs3svc_decode_readdirargs ( struct svc_rqst * rqstp , __be32 * p , struct nfsd3_readdirargs * args ) { p = decode_fh ( p , & args -> fh ) ; if ( ! p ) return 0 ; p = xdr_decode_hyper ( p , & args -> cookie ) ; args -> verf = p ; p += 2 ; args -> dircount = ~ 0 ; args -> count = ntohl ( * p ++ ) ; if ( ! xdr_argsize_check ( rqstp , p ) ) return 0 ; args -> count = min_t ( u32 , args -> count , PAGE_SIZE ) ; args -> buffer = page_address ( * ( rqstp -> rq_next_page ++ ) ) ; return 1 ; }" 330,"CWE-19 struct mb_cache * ext4_xattr_create_cache ( char * name ) { return mb_cache_create ( name , HASH_BUCKET_BITS ) ; }",struct mb2_cache * ext4_xattr_create_cache ( void ) { return mb2_cache_create ( HASH_BUCKET_BITS ) ; } 331,"CWE-787 else if ( strncmp ( argv [ i ] , ""-i"" , 2 ) == 0 ) flags |= PDF_FLAG_DISP_CREATOR ; else if ( strncmp ( argv [ i ] , ""-q"" , 2 ) == 0 ) flags |= PDF_FLAG_QUIET ; else if ( strncmp ( argv [ i ] , ""-s"" , 2 ) == 0 ) do_scrub = 1 ; else if ( argv [ i ] [ 0 ] != '-' ) name = argv [ i ] ; else if ( argv [ i ] [ 0 ] == '-' ) usage ( ) ; } if ( ! name ) usage ( ) ; if ( ! ( fp = fopen ( name , ""r"" ) ) ) { ERR ( ""Could not open file \'%s\'\\n"" , argv [ 1 ] ) ; return - 1 ; } else if ( ! pdf_is_pdf ( fp ) ) { ERR ( ""\'%s\' specified is not a valid PDF\\n"" , name ) ; fclose ( fp ) ; return - 1 ; } if ( ! ( pdf = init_pdf ( fp , name ) ) ) { fclose ( fp ) ; return - 1 ; } for ( i = 0 , n_valid = 0 ; i < pdf -> n_xrefs ; i ++ ) if ( pdf -> xrefs [ i ] . version ) if ( n_valid < 2 ) { if ( ! ( flags & ( PDF_FLAG_QUIET | PDF_FLAG_DISP_CREATOR ) ) ) printf ( ""%s: There is only one version of this PDF\\n"" , pdf -> name ) ; if ( do_write ) { fclose ( fp ) ; pdf_delete ( pdf ) ; return 0 ; } } dname = NULL ; if ( do_write ) { if ( ( c = strrchr ( name , '/' ) ) ) name = c + 1 ; if ( ( c = strrchr ( name , '.' ) ) ) * c = '\\0' ; dname = malloc ( strlen ( name ) + 16 ) ; sprintf ( dname , ""%s-versions"" , name ) ; if ( ! ( dir = opendir ( dname ) ) ) mkdir ( dname , S_IRWXU ) ; else { ERR ( ""This directory already exists, PDF version extraction will "" ""not occur.\\n"" ) ; fclose ( fp ) ; closedir ( dir ) ; free ( dname ) ; pdf_delete ( pdf ) ; return - 1 ; } for ( i = 0 ; i < pdf -> n_xrefs ; i ++ ) if ( pdf -> xrefs [ i ] . version ) write_version ( fp , name , dname , & pdf -> xrefs [ i ] ) ; } pdf_summarize ( fp , pdf , dname , flags ) ; if ( do_scrub ) scrub_document ( fp , pdf ) ; if ( flags & PDF_FLAG_DISP_CREATOR ) display_creator ( fp , pdf ) ; fclose ( fp ) ; free ( dname ) ; pdf_delete ( pdf ) ; return 0 ; }","else if ( strncmp ( argv [ i ] , ""-i"" , 2 ) == 0 ) flags |= PDF_FLAG_DISP_CREATOR ; else if ( strncmp ( argv [ i ] , ""-q"" , 2 ) == 0 ) flags |= PDF_FLAG_QUIET ; else if ( strncmp ( argv [ i ] , ""-s"" , 2 ) == 0 ) do_scrub = 1 ; else if ( argv [ i ] [ 0 ] != '-' ) name = argv [ i ] ; else if ( argv [ i ] [ 0 ] == '-' ) usage ( ) ; } if ( ! name ) usage ( ) ; if ( ! ( fp = fopen ( name , ""r"" ) ) ) { ERR ( ""Could not open file \'%s\'\\n"" , argv [ 1 ] ) ; return - 1 ; } else if ( ! pdf_is_pdf ( fp ) ) { ERR ( ""\'%s\' specified is not a valid PDF\\n"" , name ) ; fclose ( fp ) ; return - 1 ; } if ( ! ( pdf = init_pdf ( fp , name ) ) ) { fclose ( fp ) ; return - 1 ; } for ( i = 0 , n_valid = 0 ; i < pdf -> n_xrefs ; i ++ ) if ( pdf -> xrefs [ i ] . version ) + n_valid ; if ( n_valid < 2 ) { if ( ! ( flags & ( PDF_FLAG_QUIET | PDF_FLAG_DISP_CREATOR ) ) ) printf ( ""%s: There is only one version of this PDF\\n"" , pdf -> name ) ; if ( do_write ) { fclose ( fp ) ; pdf_delete ( pdf ) ; return 0 ; } } dname = NULL ; if ( do_write ) { if ( ( c = strrchr ( name , '/' ) ) ) name = c + 1 ; if ( ( c = strrchr ( name , '.' ) ) ) * c = '\\0' ; dname = safe_calloc ( strlen ( name ) + 16 ) ; sprintf ( dname , ""%s-versions"" , name ) ; if ( ! ( dir = opendir ( dname ) ) ) mkdir ( dname , S_IRWXU ) ; else { ERR ( ""This directory already exists, PDF version extraction will "" ""not occur.\\n"" ) ; fclose ( fp ) ; closedir ( dir ) ; free ( dname ) ; pdf_delete ( pdf ) ; return - 1 ; } for ( i = 0 ; i < pdf -> n_xrefs ; i ++ ) if ( pdf -> xrefs [ i ] . version ) write_version ( fp , name , dname , & pdf -> xrefs [ i ] ) ; } pdf_summarize ( fp , pdf , dname , flags ) ; if ( do_scrub ) scrub_document ( fp , pdf ) ; if ( flags & PDF_FLAG_DISP_CREATOR ) display_creator ( fp , pdf ) ; fclose ( fp ) ; free ( dname ) ; pdf_delete ( pdf ) ; return 0 ; }" 332,"CWE-190 static PyObject * _Unpickler_MemoGet ( UnpicklerObject * self , Py_ssize_t idx ) { if ( idx < 0 || idx >= self -> memo_size ) return NULL ; return self -> memo [ idx ] ; }","static PyObject * _Unpickler_MemoGet ( UnpicklerObject * self , size_t idx ) { if ( idx >= self -> memo_size ) return NULL ; return self -> memo [ idx ] ; }" 333,"CWE-190 void * xmalloc ( size_t size ) { void * ptr = malloc ( size ) ; if ( ! ptr && ( size != 0 ) ) { perror ( ""xmalloc: Memory allocation failure"" ) ; abort ( ) ; } return ptr ; }","void * xmalloc ( size_t num , size_t size ) { size_t res ; if ( check_mul_overflow ( num , size , & res ) ) abort ( ) ; void * ptr = malloc ( res ) ; if ( ! ptr && ( size != 0 ) ) { perror ( ""xmalloc: Memory allocation failure"" ) ; abort ( ) ; } return ptr ; }" 334,"CWE-119 static void scsi_free_request ( SCSIRequest * req ) { SCSIDiskReq * r = DO_UPCAST ( SCSIDiskReq , req , req ) ; qemu_vfree ( r -> iov . iov_base ) ; } ","static void scsi_free_request ( SCSIRequest * req ) { SCSIDiskReq * r = DO_UPCAST ( SCSIDiskReq , req , req ) ; if ( r -> iov . iov_base ) { qemu_vfree ( r -> iov . iov_base ) ; } }" 335,"CWE-674 krb5_error_code ret ; switch ( a -> type ) { case atype_fn : { const struct fn_info * fn = a -> tinfo ; assert ( fn -> dec != NULL ) ; return fn -> dec ( t , asn1 , len , val ) ; } case atype_sequence : return decode_sequence ( asn1 , len , a -> tinfo , val ) ; case atype_ptr : { const struct ptr_info * ptrinfo = a -> tinfo ; void * ptr = LOADPTR ( val , ptrinfo ) ; assert ( ptrinfo -> basetype != NULL ) ; if ( ptr != NULL ) { return decode_atype ( t , asn1 , len , ptrinfo -> basetype , ptr ) ; } else { ret = decode_atype_to_ptr ( t , asn1 , len , ptrinfo -> basetype , & ptr ) ; if ( ret ) return ret ; STOREPTR ( ptr , ptrinfo , val ) ; break ; } } case atype_offset : { const struct offset_info * off = a -> tinfo ; assert ( off -> basetype != NULL ) ; return decode_atype ( t , asn1 , len , off -> basetype , ( char * ) val + off -> dataoff ) ; } case atype_optional : { const struct optional_info * opt = a -> tinfo ; return decode_atype ( t , asn1 , len , opt -> basetype , val ) ; } case atype_counted : { const struct counted_info * counted = a -> tinfo ; void * dataptr = ( char * ) val + counted -> dataoff ; size_t count ; assert ( counted -> basetype != NULL ) ; ret = decode_cntype ( t , asn1 , len , counted -> basetype , dataptr , & count ) ; if ( ret ) return ret ; return store_count ( count , counted , val ) ; } case atype_tagged_thing : { const struct tagged_info * tag = a -> tinfo ; taginfo inner_tag ; const taginfo * tp = t ; const uint8_t * rem ; size_t rlen ; if ( ! tag -> implicit ) { ret = get_tag ( asn1 , len , & inner_tag , & asn1 , & len , & rem , & rlen ) ; if ( ret ) return ret ; tp = & inner_tag ; if ( ! check_atype_tag ( tag -> basetype , tp ) ) return ASN1_BAD_ID ; } return decode_atype ( tp , asn1 , len , tag -> basetype , val ) ; } case atype_bool : { intmax_t intval ; ret = k5_asn1_decode_bool ( asn1 , len , & intval ) ; if ( ret ) return ret ; return store_int ( intval , a -> size , val ) ; } case atype_int : { intmax_t intval ; ret = k5_asn1_decode_int ( asn1 , len , & intval ) ; if ( ret ) return ret ; return store_int ( intval , a -> size , val ) ; } case atype_uint : { uintmax_t intval ; ret = k5_asn1_decode_uint ( asn1 , len , & intval ) ; if ( ret ) return ret ; return store_uint ( intval , a -> size , val ) ; } case atype_int_immediate : { const struct immediate_info * imm = a -> tinfo ; intmax_t intval ; ret = k5_asn1_decode_int ( asn1 , len , & intval ) ; if ( ret ) return ret ; if ( intval != imm -> val && imm -> err != 0 ) return imm -> err ; break ; } default : assert ( a -> type != atype_nullterm_sequence_of ) ; assert ( a -> type != atype_nonempty_nullterm_sequence_of ) ; assert ( a -> type > atype_min ) ; assert ( a -> type < atype_max ) ; abort ( ) ; } return 0 ; }","krb5_error_code ret ; switch ( a -> type ) { case atype_fn : { const struct fn_info * fn = a -> tinfo ; assert ( fn -> dec != NULL ) ; return fn -> dec ( t , asn1 , len , val ) ; } case atype_sequence : return decode_sequence ( asn1 , len , a -> tinfo , val ) ; case atype_ptr : { const struct ptr_info * ptrinfo = a -> tinfo ; void * ptr = LOADPTR ( val , ptrinfo ) ; assert ( ptrinfo -> basetype != NULL ) ; if ( ptr != NULL ) { return decode_atype ( t , asn1 , len , ptrinfo -> basetype , ptr ) ; } else { ret = decode_atype_to_ptr ( t , asn1 , len , ptrinfo -> basetype , & ptr ) ; if ( ret ) return ret ; STOREPTR ( ptr , ptrinfo , val ) ; break ; } } case atype_offset : { const struct offset_info * off = a -> tinfo ; assert ( off -> basetype != NULL ) ; return decode_atype ( t , asn1 , len , off -> basetype , ( char * ) val + off -> dataoff ) ; } case atype_optional : { const struct optional_info * opt = a -> tinfo ; return decode_atype ( t , asn1 , len , opt -> basetype , val ) ; } case atype_counted : { const struct counted_info * counted = a -> tinfo ; void * dataptr = ( char * ) val + counted -> dataoff ; size_t count ; assert ( counted -> basetype != NULL ) ; ret = decode_cntype ( t , asn1 , len , counted -> basetype , dataptr , & count ) ; if ( ret ) return ret ; return store_count ( count , counted , val ) ; } case atype_tagged_thing : { const struct tagged_info * tag = a -> tinfo ; taginfo inner_tag ; const taginfo * tp = t ; const uint8_t * rem ; size_t rlen ; if ( ! tag -> implicit ) { ret = get_tag ( asn1 , len , & inner_tag , & asn1 , & len , & rem , & rlen , 0 ) ; if ( ret ) return ret ; tp = & inner_tag ; if ( ! check_atype_tag ( tag -> basetype , tp ) ) return ASN1_BAD_ID ; } return decode_atype ( tp , asn1 , len , tag -> basetype , val ) ; } case atype_bool : { intmax_t intval ; ret = k5_asn1_decode_bool ( asn1 , len , & intval ) ; if ( ret ) return ret ; return store_int ( intval , a -> size , val ) ; } case atype_int : { intmax_t intval ; ret = k5_asn1_decode_int ( asn1 , len , & intval ) ; if ( ret ) return ret ; return store_int ( intval , a -> size , val ) ; } case atype_uint : { uintmax_t intval ; ret = k5_asn1_decode_uint ( asn1 , len , & intval ) ; if ( ret ) return ret ; return store_uint ( intval , a -> size , val ) ; } case atype_int_immediate : { const struct immediate_info * imm = a -> tinfo ; intmax_t intval ; ret = k5_asn1_decode_int ( asn1 , len , & intval ) ; if ( ret ) return ret ; if ( intval != imm -> val && imm -> err != 0 ) return imm -> err ; break ; } default : assert ( a -> type != atype_nullterm_sequence_of ) ; assert ( a -> type != atype_nonempty_nullterm_sequence_of ) ; assert ( a -> type > atype_min ) ; assert ( a -> type < atype_max ) ; abort ( ) ; } return 0 ; }" 336,"CWE-20 static int apparmor_setprocattr ( struct task_struct * task , char * name , void * value , size_t size ) { char * command , * args = value ; size_t arg_size ; int error ; if ( size == 0 ) return - EINVAL ; if ( args [ size - 1 ] != '\\0' ) { if ( size == PAGE_SIZE ) return - EINVAL ; args [ size ] = '\\0' ; } if ( current != task ) return - EACCES ; args = value ; args = strim ( args ) ; command = strsep ( & args , "" "" ) ; if ( ! args ) return - EINVAL ; args = skip_spaces ( args ) ; if ( ! * args ) return - EINVAL ; arg_size = size - ( args - ( char * ) value ) ; if ( strcmp ( name , ""current"" ) == 0 ) { if ( strcmp ( command , ""changehat"" ) == 0 ) { error = aa_setprocattr_changehat ( args , arg_size , ! AA_DO_TEST ) ; } else if ( strcmp ( command , ""permhat"" ) == 0 ) { error = aa_setprocattr_changehat ( args , arg_size , AA_DO_TEST ) ; } else if ( strcmp ( command , ""changeprofile"" ) == 0 ) { error = aa_setprocattr_changeprofile ( args , ! AA_ONEXEC , ! AA_DO_TEST ) ; } else if ( strcmp ( command , ""permprofile"" ) == 0 ) { error = aa_setprocattr_changeprofile ( args , ! AA_ONEXEC , AA_DO_TEST ) ; } else if ( strcmp ( command , ""permipc"" ) == 0 ) { error = aa_setprocattr_permipc ( args ) ; } else { struct common_audit_data sa ; COMMON_AUDIT_DATA_INIT ( & sa , NONE ) ; sa . aad . op = OP_SETPROCATTR ; sa . aad . info = name ; sa . aad . error = - EINVAL ; return aa_audit ( AUDIT_APPARMOR_DENIED , NULL , GFP_KERNEL , & sa , NULL ) ; } } else if ( strcmp ( name , ""exec"" ) == 0 ) { error = aa_setprocattr_changeprofile ( args , AA_ONEXEC , ! AA_DO_TEST ) ; } else { return - EINVAL ; } if ( ! error ) error = size ; return error ; }","static int apparmor_setprocattr ( struct task_struct * task , char * name , void * value , size_t size ) { char * command , * args = value ; size_t arg_size ; int error ; if ( size == 0 ) return - EINVAL ; if ( args [ size - 1 ] != '\\0' ) { if ( size == PAGE_SIZE ) return - EINVAL ; args [ size ] = '\\0' ; } if ( current != task ) return - EACCES ; args = value ; args = strim ( args ) ; command = strsep ( & args , "" "" ) ; if ( ! args ) return - EINVAL ; args = skip_spaces ( args ) ; if ( ! * args ) return - EINVAL ; arg_size = size - ( args - ( char * ) value ) ; if ( strcmp ( name , ""current"" ) == 0 ) { if ( strcmp ( command , ""changehat"" ) == 0 ) { error = aa_setprocattr_changehat ( args , arg_size , ! AA_DO_TEST ) ; } else if ( strcmp ( command , ""permhat"" ) == 0 ) { error = aa_setprocattr_changehat ( args , arg_size , AA_DO_TEST ) ; } else if ( strcmp ( command , ""changeprofile"" ) == 0 ) { error = aa_setprocattr_changeprofile ( args , ! AA_ONEXEC , ! AA_DO_TEST ) ; } else if ( strcmp ( command , ""permprofile"" ) == 0 ) { error = aa_setprocattr_changeprofile ( args , ! AA_ONEXEC , AA_DO_TEST ) ; } else if ( strcmp ( command , ""permipc"" ) == 0 ) { error = aa_setprocattr_permipc ( args ) ; } else { struct common_audit_data sa ; COMMON_AUDIT_DATA_INIT ( & sa , NONE ) ; sa . aad . op = OP_SETPROCATTR ; sa . aad . info = name ; sa . aad . error = - EINVAL ; return aa_audit ( AUDIT_APPARMOR_DENIED , __aa_current_profile ( ) , GFP_KERNEL , & sa , NULL ) ; } } else if ( strcmp ( name , ""exec"" ) == 0 ) { error = aa_setprocattr_changeprofile ( args , AA_ONEXEC , ! AA_DO_TEST ) ; } else { return - EINVAL ; } if ( ! error ) error = size ; return error ; }" 337,"CWE-125 static int print_lcp_config_options ( netdissect_options * ndo , const u_char * p , int length ) { int len , opt ; if ( length < 2 ) return 0 ; ND_TCHECK2 ( * p , 2 ) ; len = p [ 1 ] ; opt = p [ 0 ] ; if ( length < len ) return 0 ; if ( len < 2 ) { if ( ( opt >= LCPOPT_MIN ) && ( opt <= LCPOPT_MAX ) ) ND_PRINT ( ( ndo , ""\\n\\t %s Option (0x%02x), length %u (length bogus, should be >= 2)"" , lcpconfopts [ opt ] , opt , len ) ) ; else ND_PRINT ( ( ndo , ""\\n\\tunknown LCP option 0x%02x"" , opt ) ) ; return 0 ; } if ( ( opt >= LCPOPT_MIN ) && ( opt <= LCPOPT_MAX ) ) ND_PRINT ( ( ndo , ""\\n\\t %s Option (0x%02x), length %u"" , lcpconfopts [ opt ] , opt , len ) ) ; else { ND_PRINT ( ( ndo , ""\\n\\tunknown LCP option 0x%02x"" , opt ) ) ; return len ; } switch ( opt ) { case LCPOPT_VEXT : if ( len < 6 ) { ND_PRINT ( ( ndo , "" (length bogus, should be >= 6)"" ) ) ; return len ; } ND_TCHECK2 ( * ( p + 2 ) , 3 ) ; ND_PRINT ( ( ndo , "": Vendor: %s (%u)"" , tok2str ( oui_values , ""Unknown"" , EXTRACT_24BITS ( p + 2 ) ) , EXTRACT_24BITS ( p + 2 ) ) ) ; # if 0 ND_TCHECK ( p [ 5 ] ) ; ND_PRINT ( ( ndo , "", kind: 0x%02x"" , p [ 5 ] ) ) ; ND_PRINT ( ( ndo , "", Value: 0x"" ) ) ; for ( i = 0 ; i < len - 6 ; i ++ ) { ND_TCHECK ( p [ 6 + i ] ) ; ND_PRINT ( ( ndo , ""%02x"" , p [ 6 + i ] ) ) ; } # endif break ; case LCPOPT_MRU : if ( len != 4 ) { ND_PRINT ( ( ndo , "" (length bogus, should be = 4)"" ) ) ; return len ; } ND_TCHECK2 ( * ( p + 2 ) , 2 ) ; ND_PRINT ( ( ndo , "": %u"" , EXTRACT_16BITS ( p + 2 ) ) ) ; break ; case LCPOPT_ACCM : if ( len != 6 ) { ND_PRINT ( ( ndo , "" (length bogus, should be = 6)"" ) ) ; return len ; } ND_TCHECK2 ( * ( p + 2 ) , 4 ) ; ND_PRINT ( ( ndo , "": 0x%08x"" , EXTRACT_32BITS ( p + 2 ) ) ) ; break ; case LCPOPT_AP : if ( len < 4 ) { ND_PRINT ( ( ndo , "" (length bogus, should be >= 4)"" ) ) ; return len ; } ND_TCHECK2 ( * ( p + 2 ) , 2 ) ; ND_PRINT ( ( ndo , "": %s"" , tok2str ( ppptype2str , ""Unknown Auth Proto (0x04x)"" , EXTRACT_16BITS ( p + 2 ) ) ) ) ; switch ( EXTRACT_16BITS ( p + 2 ) ) { case PPP_CHAP : ND_TCHECK ( p [ 4 ] ) ; ND_PRINT ( ( ndo , "", %s"" , tok2str ( authalg_values , ""Unknown Auth Alg %u"" , p [ 4 ] ) ) ) ; break ; case PPP_PAP : case PPP_EAP : case PPP_SPAP : case PPP_SPAP_OLD : break ; default : print_unknown_data ( ndo , p , ""\\n\\t"" , len ) ; } break ; case LCPOPT_QP : if ( len < 4 ) { ND_PRINT ( ( ndo , "" (length bogus, should be >= 4)"" ) ) ; return 0 ; } ND_TCHECK2 ( * ( p + 2 ) , 2 ) ; if ( EXTRACT_16BITS ( p + 2 ) == PPP_LQM ) ND_PRINT ( ( ndo , "": LQR"" ) ) ; else ND_PRINT ( ( ndo , "": unknown"" ) ) ; break ; case LCPOPT_MN : if ( len != 6 ) { ND_PRINT ( ( ndo , "" (length bogus, should be = 6)"" ) ) ; return 0 ; } ND_TCHECK2 ( * ( p + 2 ) , 4 ) ; ND_PRINT ( ( ndo , "": 0x%08x"" , EXTRACT_32BITS ( p + 2 ) ) ) ; break ; case LCPOPT_PFC : break ; case LCPOPT_ACFC : break ; case LCPOPT_LD : if ( len != 4 ) { ND_PRINT ( ( ndo , "" (length bogus, should be = 4)"" ) ) ; return 0 ; } ND_TCHECK2 ( * ( p + 2 ) , 2 ) ; ND_PRINT ( ( ndo , "": 0x%04x"" , EXTRACT_16BITS ( p + 2 ) ) ) ; break ; case LCPOPT_CBACK : if ( len < 3 ) { ND_PRINT ( ( ndo , "" (length bogus, should be >= 3)"" ) ) ; return 0 ; } ND_PRINT ( ( ndo , "": "" ) ) ; ND_TCHECK ( p [ 2 ] ) ; ND_PRINT ( ( ndo , "": Callback Operation %s (%u)"" , tok2str ( ppp_callback_values , ""Unknown"" , p [ 2 ] ) , p [ 2 ] ) ) ; break ; case LCPOPT_MLMRRU : if ( len != 4 ) { ND_PRINT ( ( ndo , "" (length bogus, should be = 4)"" ) ) ; return 0 ; } ND_TCHECK2 ( * ( p + 2 ) , 2 ) ; ND_PRINT ( ( ndo , "": %u"" , EXTRACT_16BITS ( p + 2 ) ) ) ; break ; case LCPOPT_MLED : if ( len < 3 ) { ND_PRINT ( ( ndo , "" (length bogus, should be >= 3)"" ) ) ; return 0 ; } ND_TCHECK ( p [ 2 ] ) ; switch ( p [ 2 ] ) { case MEDCLASS_NULL : ND_PRINT ( ( ndo , "": Null"" ) ) ; break ; case MEDCLASS_LOCAL : ND_PRINT ( ( ndo , "": Local"" ) ) ; break ; case MEDCLASS_IPV4 : if ( len != 7 ) { ND_PRINT ( ( ndo , "" (length bogus, should be = 7)"" ) ) ; return 0 ; } ND_TCHECK2 ( * ( p + 3 ) , 4 ) ; ND_PRINT ( ( ndo , "": IPv4 %s"" , ipaddr_string ( ndo , p + 3 ) ) ) ; break ; case MEDCLASS_MAC : if ( len != 9 ) { ND_PRINT ( ( ndo , "" (length bogus, should be = 9)"" ) ) ; return 0 ; } ND_TCHECK2 ( * ( p + 3 ) , 6 ) ; ND_PRINT ( ( ndo , "": MAC %s"" , etheraddr_string ( ndo , p + 3 ) ) ) ; break ; case MEDCLASS_MNB : ND_PRINT ( ( ndo , "": Magic-Num-Block"" ) ) ; break ; case MEDCLASS_PSNDN : ND_PRINT ( ( ndo , "": PSNDN"" ) ) ; break ; default : ND_PRINT ( ( ndo , "": Unknown class %u"" , p [ 2 ] ) ) ; break ; } break ; # if 0 case LCPOPT_DEP6 : case LCPOPT_FCSALT : case LCPOPT_SDP : case LCPOPT_NUMMODE : case LCPOPT_DEP12 : case LCPOPT_DEP14 : case LCPOPT_DEP15 :","static int print_lcp_config_options ( netdissect_options * ndo , const u_char * p , int length ) { int len , opt ; if ( length < 2 ) return 0 ; ND_TCHECK2 ( * p , 2 ) ; len = p [ 1 ] ; opt = p [ 0 ] ; if ( length < len ) return 0 ; if ( len < 2 ) { if ( ( opt >= LCPOPT_MIN ) && ( opt <= LCPOPT_MAX ) ) ND_PRINT ( ( ndo , ""\\n\\t %s Option (0x%02x), length %u (length bogus, should be >= 2)"" , lcpconfopts [ opt ] , opt , len ) ) ; else ND_PRINT ( ( ndo , ""\\n\\tunknown LCP option 0x%02x"" , opt ) ) ; return 0 ; } if ( ( opt >= LCPOPT_MIN ) && ( opt <= LCPOPT_MAX ) ) ND_PRINT ( ( ndo , ""\\n\\t %s Option (0x%02x), length %u"" , lcpconfopts [ opt ] , opt , len ) ) ; else { ND_PRINT ( ( ndo , ""\\n\\tunknown LCP option 0x%02x"" , opt ) ) ; return len ; } switch ( opt ) { case LCPOPT_VEXT : if ( len < 6 ) { ND_PRINT ( ( ndo , "" (length bogus, should be >= 6)"" ) ) ; return len ; } ND_TCHECK_24BITS ( p + 2 ) ; ND_PRINT ( ( ndo , "": Vendor: %s (%u)"" , tok2str ( oui_values , ""Unknown"" , EXTRACT_24BITS ( p + 2 ) ) , EXTRACT_24BITS ( p + 2 ) ) ) ; # if 0 ND_TCHECK ( p [ 5 ] ) ; ND_PRINT ( ( ndo , "", kind: 0x%02x"" , p [ 5 ] ) ) ; ND_PRINT ( ( ndo , "", Value: 0x"" ) ) ; for ( i = 0 ; i < len - 6 ; i ++ ) { ND_TCHECK ( p [ 6 + i ] ) ; ND_PRINT ( ( ndo , ""%02x"" , p [ 6 + i ] ) ) ; } # endif break ; case LCPOPT_MRU : if ( len != 4 ) { ND_PRINT ( ( ndo , "" (length bogus, should be = 4)"" ) ) ; return len ; } ND_TCHECK_16BITS ( p + 2 ) ; ND_PRINT ( ( ndo , "": %u"" , EXTRACT_16BITS ( p + 2 ) ) ) ; break ; case LCPOPT_ACCM : if ( len != 6 ) { ND_PRINT ( ( ndo , "" (length bogus, should be = 6)"" ) ) ; return len ; } ND_TCHECK_32BITS ( p + 2 ) ; ND_PRINT ( ( ndo , "": 0x%08x"" , EXTRACT_32BITS ( p + 2 ) ) ) ; break ; case LCPOPT_AP : if ( len < 4 ) { ND_PRINT ( ( ndo , "" (length bogus, should be >= 4)"" ) ) ; return len ; } ND_TCHECK_16BITS ( p + 2 ) ; ND_PRINT ( ( ndo , "": %s"" , tok2str ( ppptype2str , ""Unknown Auth Proto (0x04x)"" , EXTRACT_16BITS ( p + 2 ) ) ) ) ; switch ( EXTRACT_16BITS ( p + 2 ) ) { case PPP_CHAP : ND_TCHECK ( p [ 4 ] ) ; ND_PRINT ( ( ndo , "", %s"" , tok2str ( authalg_values , ""Unknown Auth Alg %u"" , p [ 4 ] ) ) ) ; break ; case PPP_PAP : case PPP_EAP : case PPP_SPAP : case PPP_SPAP_OLD : break ; default : print_unknown_data ( ndo , p , ""\\n\\t"" , len ) ; } break ; case LCPOPT_QP : if ( len < 4 ) { ND_PRINT ( ( ndo , "" (length bogus, should be >= 4)"" ) ) ; return 0 ; } ND_TCHECK_16BITS ( p + 2 ) ; if ( EXTRACT_16BITS ( p + 2 ) == PPP_LQM ) ND_PRINT ( ( ndo , "": LQR"" ) ) ; else ND_PRINT ( ( ndo , "": unknown"" ) ) ; break ; case LCPOPT_MN : if ( len != 6 ) { ND_PRINT ( ( ndo , "" (length bogus, should be = 6)"" ) ) ; return 0 ; } ND_TCHECK_32BITS ( p + 2 ) ; ND_PRINT ( ( ndo , "": 0x%08x"" , EXTRACT_32BITS ( p + 2 ) ) ) ; break ; case LCPOPT_PFC : break ; case LCPOPT_ACFC : break ; case LCPOPT_LD : if ( len != 4 ) { ND_PRINT ( ( ndo , "" (length bogus, should be = 4)"" ) ) ; return 0 ; } ND_TCHECK_16BITS ( p + 2 ) ; ND_PRINT ( ( ndo , "": 0x%04x"" , EXTRACT_16BITS ( p + 2 ) ) ) ; break ; case LCPOPT_CBACK : if ( len < 3 ) { ND_PRINT ( ( ndo , "" (length bogus, should be >= 3)"" ) ) ; return 0 ; } ND_PRINT ( ( ndo , "": "" ) ) ; ND_TCHECK ( p [ 2 ] ) ; ND_PRINT ( ( ndo , "": Callback Operation %s (%u)"" , tok2str ( ppp_callback_values , ""Unknown"" , p [ 2 ] ) , p [ 2 ] ) ) ; break ; case LCPOPT_MLMRRU : if ( len != 4 ) { ND_PRINT ( ( ndo , "" (length bogus, should be = 4)"" ) ) ; return 0 ; } ND_TCHECK_16BITS ( p + 2 ) ; ND_PRINT ( ( ndo , "": %u"" , EXTRACT_16BITS ( p + 2 ) ) ) ; break ; case LCPOPT_MLED : if ( len < 3 ) { ND_PRINT ( ( ndo , "" (length bogus, should be >= 3)"" ) ) ; return 0 ; } ND_TCHECK ( p [ 2 ] ) ; switch ( p [ 2 ] ) { case MEDCLASS_NULL : ND_PRINT ( ( ndo , "": Null"" ) ) ; break ; case MEDCLASS_LOCAL : ND_PRINT ( ( ndo , "": Local"" ) ) ; break ; case MEDCLASS_IPV4 : if ( len != 7 ) { ND_PRINT ( ( ndo , "" (length bogus, should be = 7)"" ) ) ; return 0 ; } ND_TCHECK2 ( * ( p + 3 ) , 4 ) ; ND_PRINT ( ( ndo , "": IPv4 %s"" , ipaddr_string ( ndo , p + 3 ) ) ) ; break ; case MEDCLASS_MAC : if ( len != 9 ) { ND_PRINT ( ( ndo , "" (length bogus, should be = 9)"" ) ) ; return 0 ; } ND_TCHECK2 ( * ( p + 3 ) , 6 ) ; ND_PRINT ( ( ndo , "": MAC %s"" , etheraddr_string ( ndo , p + 3 ) ) ) ; break ; case MEDCLASS_MNB : ND_PRINT ( ( ndo , "": Magic-Num-Block"" ) ) ; break ; case MEDCLASS_PSNDN : ND_PRINT ( ( ndo , "": PSNDN"" ) ) ; break ; default : ND_PRINT ( ( ndo , "": Unknown class %u"" , p [ 2 ] ) ) ; break ; } break ; # if 0 case LCPOPT_DEP6 : case LCPOPT_FCSALT : case LCPOPT_SDP : case LCPOPT_NUMMODE : case LCPOPT_DEP12 : case LCPOPT_DEP14 : case LCPOPT_DEP15 :" 338,"CWE-20 static void __munlock_pagevec ( struct pagevec * pvec , struct zone * zone ) { int i ; int nr = pagevec_count ( pvec ) ; int delta_munlocked ; struct pagevec pvec_putback ; int pgrescued = 0 ; pagevec_init ( & pvec_putback , 0 ) ; spin_lock_irq ( zone_lru_lock ( zone ) ) ; for ( i = 0 ; i < nr ; i ++ ) { struct page * page = pvec -> pages [ i ] ; if ( TestClearPageMlocked ( page ) ) { if ( __munlock_isolate_lru_page ( page , false ) ) continue ; else __munlock_isolation_failed ( page ) ; } pagevec_add ( & pvec_putback , pvec -> pages [ i ] ) ; pvec -> pages [ i ] = NULL ; } delta_munlocked = - nr + pagevec_count ( & pvec_putback ) ; __mod_zone_page_state ( zone , NR_MLOCK , delta_munlocked ) ; spin_unlock_irq ( zone_lru_lock ( zone ) ) ; pagevec_release ( & pvec_putback ) ; for ( i = 0 ; i < nr ; i ++ ) { struct page * page = pvec -> pages [ i ] ; if ( page ) { lock_page ( page ) ; if ( ! __putback_lru_fast_prepare ( page , & pvec_putback , & pgrescued ) ) { get_page ( page ) ; __munlock_isolated_page ( page ) ; unlock_page ( page ) ; put_page ( page ) ; } } } if ( pagevec_count ( & pvec_putback ) ) __putback_lru_fast ( & pvec_putback , pgrescued ) ; }","static void __munlock_pagevec ( struct pagevec * pvec , struct zone * zone ) { int i ; int nr = pagevec_count ( pvec ) ; int delta_munlocked = - nr ; struct pagevec pvec_putback ; int pgrescued = 0 ; pagevec_init ( & pvec_putback , 0 ) ; spin_lock_irq ( zone_lru_lock ( zone ) ) ; for ( i = 0 ; i < nr ; i ++ ) { struct page * page = pvec -> pages [ i ] ; if ( TestClearPageMlocked ( page ) ) { if ( __munlock_isolate_lru_page ( page , false ) ) continue ; else __munlock_isolation_failed ( page ) ; } else { delta_munlocked ++ ; } pagevec_add ( & pvec_putback , pvec -> pages [ i ] ) ; pvec -> pages [ i ] = NULL ; } __mod_zone_page_state ( zone , NR_MLOCK , delta_munlocked ) ; spin_unlock_irq ( zone_lru_lock ( zone ) ) ; pagevec_release ( & pvec_putback ) ; for ( i = 0 ; i < nr ; i ++ ) { struct page * page = pvec -> pages [ i ] ; if ( page ) { lock_page ( page ) ; if ( ! __putback_lru_fast_prepare ( page , & pvec_putback , & pgrescued ) ) { get_page ( page ) ; __munlock_isolated_page ( page ) ; unlock_page ( page ) ; put_page ( page ) ; } } } if ( pagevec_count ( & pvec_putback ) ) __putback_lru_fast ( & pvec_putback , pgrescued ) ; }" 339,"NVD-CWE-noinfo vmcs_write32 ( PAGE_FAULT_ERROR_CODE_MATCH , enable_ept ? vmcs12 -> page_fault_error_code_match : 0 ) ; if ( cpu_has_secondary_exec_ctrls ( ) ) { exec_control = vmx -> secondary_exec_control ; exec_control &= ~ ( SECONDARY_EXEC_VIRTUALIZE_APIC_ACCESSES | SECONDARY_EXEC_ENABLE_INVPCID | SECONDARY_EXEC_RDTSCP | SECONDARY_EXEC_XSAVES | SECONDARY_EXEC_VIRTUAL_INTR_DELIVERY | SECONDARY_EXEC_APIC_REGISTER_VIRT | SECONDARY_EXEC_ENABLE_VMFUNC ) ; if ( nested_cpu_has ( vmcs12 , CPU_BASED_ACTIVATE_SECONDARY_CONTROLS ) ) { vmcs12_exec_ctrl = vmcs12 -> secondary_vm_exec_control & ~ SECONDARY_EXEC_ENABLE_PML ; exec_control |= vmcs12_exec_ctrl ; } if ( exec_control & SECONDARY_EXEC_ENABLE_VMFUNC ) vmcs_write64 ( VM_FUNCTION_CONTROL , 0 ) ; if ( exec_control & SECONDARY_EXEC_VIRTUAL_INTR_DELIVERY ) { vmcs_write64 ( EOI_EXIT_BITMAP0 , vmcs12 -> eoi_exit_bitmap0 ) ; vmcs_write64 ( EOI_EXIT_BITMAP1 , vmcs12 -> eoi_exit_bitmap1 ) ; vmcs_write64 ( EOI_EXIT_BITMAP2 , vmcs12 -> eoi_exit_bitmap2 ) ; vmcs_write64 ( EOI_EXIT_BITMAP3 , vmcs12 -> eoi_exit_bitmap3 ) ; vmcs_write16 ( GUEST_INTR_STATUS , vmcs12 -> guest_intr_status ) ; } if ( exec_control & SECONDARY_EXEC_VIRTUALIZE_APIC_ACCESSES ) vmcs_write64 ( APIC_ACCESS_ADDR , - 1ull ) ; vmcs_write32 ( SECONDARY_VM_EXEC_CONTROL , exec_control ) ; } vmx_set_constant_host_state ( vmx ) ; vmcs_write32 ( VM_EXIT_MSR_STORE_COUNT , 0 ) ; vmcs_write32 ( VM_EXIT_MSR_LOAD_COUNT , vmx -> msr_autoload . nr ) ; vmcs_write64 ( VM_EXIT_MSR_LOAD_ADDR , __pa ( vmx -> msr_autoload . host ) ) ; vmcs_write32 ( VM_ENTRY_MSR_LOAD_COUNT , vmx -> msr_autoload . nr ) ; vmcs_write64 ( VM_ENTRY_MSR_LOAD_ADDR , __pa ( vmx -> msr_autoload . guest ) ) ; vmx -> host_rsp = 0 ; exec_control = vmx_exec_control ( vmx ) ; exec_control &= ~ CPU_BASED_VIRTUAL_INTR_PENDING ; exec_control &= ~ CPU_BASED_VIRTUAL_NMI_PENDING ; exec_control &= ~ CPU_BASED_TPR_SHADOW ; exec_control |= vmcs12 -> cpu_based_vm_exec_control ; if ( exec_control & CPU_BASED_TPR_SHADOW ) { vmcs_write64 ( VIRTUAL_APIC_PAGE_ADDR , - 1ull ) ; vmcs_write32 ( TPR_THRESHOLD , vmcs12 -> tpr_threshold ) ; } exec_control &= ~ CPU_BASED_USE_IO_BITMAPS ; exec_control |= CPU_BASED_UNCOND_IO_EXITING ; vmcs_write32 ( CPU_BASED_VM_EXEC_CONTROL , exec_control ) ; update_exception_bitmap ( vcpu ) ; vcpu -> arch . cr0_guest_owned_bits &= ~ vmcs12 -> cr0_guest_host_mask ; vmcs_writel ( CR0_GUEST_HOST_MASK , ~ vcpu -> arch . cr0_guest_owned_bits ) ; vmcs_write32 ( VM_EXIT_CONTROLS , vmcs_config . vmexit_ctrl ) ; vm_entry_controls_init ( vmx , ( vmcs12 -> vm_entry_controls & ~ VM_ENTRY_LOAD_IA32_EFER & ~ VM_ENTRY_IA32E_MODE ) | ( vmcs_config . vmentry_ctrl & ~ VM_ENTRY_IA32E_MODE ) ) ; if ( from_vmentry && ( vmcs12 -> vm_entry_controls & VM_ENTRY_LOAD_IA32_PAT ) ) { vmcs_write64 ( GUEST_IA32_PAT , vmcs12 -> guest_ia32_pat ) ; vcpu -> arch . pat = vmcs12 -> guest_ia32_pat ; } else if ( vmcs_config . vmentry_ctrl & VM_ENTRY_LOAD_IA32_PAT ) { vmcs_write64 ( GUEST_IA32_PAT , vmx -> vcpu . arch . pat ) ; } set_cr4_guest_host_mask ( vmx ) ; if ( from_vmentry && vmcs12 -> vm_entry_controls & VM_ENTRY_LOAD_BNDCFGS ) vmcs_write64 ( GUEST_BNDCFGS , vmcs12 -> guest_bndcfgs ) ; if ( vmcs12 -> cpu_based_vm_exec_control & CPU_BASED_USE_TSC_OFFSETING ) vmcs_write64 ( TSC_OFFSET , vcpu -> arch . tsc_offset + vmcs12 -> tsc_offset ) ; else vmcs_write64 ( TSC_OFFSET , vcpu -> arch . tsc_offset ) ; if ( kvm_has_tsc_control ) decache_tsc_multiplier ( vmx ) ; if ( enable_vpid ) { if ( nested_cpu_has_vpid ( vmcs12 ) && vmx -> nested . vpid02 ) { vmcs_write16 ( VIRTUAL_PROCESSOR_ID , vmx -> nested . vpid02 ) ; if ( vmcs12 -> virtual_processor_id != vmx -> nested . last_vpid ) { vmx -> nested . last_vpid = vmcs12 -> virtual_processor_id ; __vmx_flush_tlb ( vcpu , to_vmx ( vcpu ) -> nested . vpid02 ) ; } } else { vmcs_write16 ( VIRTUAL_PROCESSOR_ID , vmx -> vpid ) ; vmx_flush_tlb ( vcpu ) ; } } if ( enable_pml ) { ASSERT ( vmx -> pml_pg ) ; vmcs_write64 ( PML_ADDRESS , page_to_phys ( vmx -> pml_pg ) ) ; vmcs_write16 ( GUEST_PML_INDEX , PML_ENTITY_NUM - 1 ) ; } if ( nested_cpu_has_ept ( vmcs12 ) ) { if ( nested_ept_init_mmu_context ( vcpu ) ) { * entry_failure_code = ENTRY_FAIL_DEFAULT ;","vmcs_write32 ( PAGE_FAULT_ERROR_CODE_MATCH , enable_ept ? vmcs12 -> page_fault_error_code_match : 0 ) ; if ( cpu_has_secondary_exec_ctrls ( ) ) { exec_control = vmx -> secondary_exec_control ; exec_control &= ~ ( SECONDARY_EXEC_VIRTUALIZE_APIC_ACCESSES | SECONDARY_EXEC_ENABLE_INVPCID | SECONDARY_EXEC_RDTSCP | SECONDARY_EXEC_XSAVES | SECONDARY_EXEC_VIRTUAL_INTR_DELIVERY | SECONDARY_EXEC_APIC_REGISTER_VIRT | SECONDARY_EXEC_ENABLE_VMFUNC ) ; if ( nested_cpu_has ( vmcs12 , CPU_BASED_ACTIVATE_SECONDARY_CONTROLS ) ) { vmcs12_exec_ctrl = vmcs12 -> secondary_vm_exec_control & ~ SECONDARY_EXEC_ENABLE_PML ; exec_control |= vmcs12_exec_ctrl ; } if ( exec_control & SECONDARY_EXEC_ENABLE_VMFUNC ) vmcs_write64 ( VM_FUNCTION_CONTROL , 0 ) ; if ( exec_control & SECONDARY_EXEC_VIRTUAL_INTR_DELIVERY ) { vmcs_write64 ( EOI_EXIT_BITMAP0 , vmcs12 -> eoi_exit_bitmap0 ) ; vmcs_write64 ( EOI_EXIT_BITMAP1 , vmcs12 -> eoi_exit_bitmap1 ) ; vmcs_write64 ( EOI_EXIT_BITMAP2 , vmcs12 -> eoi_exit_bitmap2 ) ; vmcs_write64 ( EOI_EXIT_BITMAP3 , vmcs12 -> eoi_exit_bitmap3 ) ; vmcs_write16 ( GUEST_INTR_STATUS , vmcs12 -> guest_intr_status ) ; } if ( exec_control & SECONDARY_EXEC_VIRTUALIZE_APIC_ACCESSES ) vmcs_write64 ( APIC_ACCESS_ADDR , - 1ull ) ; vmcs_write32 ( SECONDARY_VM_EXEC_CONTROL , exec_control ) ; } vmx_set_constant_host_state ( vmx ) ; vmcs_write32 ( VM_EXIT_MSR_STORE_COUNT , 0 ) ; vmcs_write32 ( VM_EXIT_MSR_LOAD_COUNT , vmx -> msr_autoload . nr ) ; vmcs_write64 ( VM_EXIT_MSR_LOAD_ADDR , __pa ( vmx -> msr_autoload . host ) ) ; vmcs_write32 ( VM_ENTRY_MSR_LOAD_COUNT , vmx -> msr_autoload . nr ) ; vmcs_write64 ( VM_ENTRY_MSR_LOAD_ADDR , __pa ( vmx -> msr_autoload . guest ) ) ; vmx -> host_rsp = 0 ; exec_control = vmx_exec_control ( vmx ) ; exec_control &= ~ CPU_BASED_VIRTUAL_INTR_PENDING ; exec_control &= ~ CPU_BASED_VIRTUAL_NMI_PENDING ; exec_control &= ~ CPU_BASED_TPR_SHADOW ; exec_control |= vmcs12 -> cpu_based_vm_exec_control ; if ( exec_control & CPU_BASED_TPR_SHADOW ) { vmcs_write64 ( VIRTUAL_APIC_PAGE_ADDR , - 1ull ) ; vmcs_write32 ( TPR_THRESHOLD , vmcs12 -> tpr_threshold ) ; } else { # ifdef CONFIG_X86_64 exec_control |= CPU_BASED_CR8_LOAD_EXITING | CPU_BASED_CR8_STORE_EXITING ; # endif } exec_control &= ~ CPU_BASED_USE_IO_BITMAPS ; exec_control |= CPU_BASED_UNCOND_IO_EXITING ; vmcs_write32 ( CPU_BASED_VM_EXEC_CONTROL , exec_control ) ; update_exception_bitmap ( vcpu ) ; vcpu -> arch . cr0_guest_owned_bits &= ~ vmcs12 -> cr0_guest_host_mask ; vmcs_writel ( CR0_GUEST_HOST_MASK , ~ vcpu -> arch . cr0_guest_owned_bits ) ; vmcs_write32 ( VM_EXIT_CONTROLS , vmcs_config . vmexit_ctrl ) ; vm_entry_controls_init ( vmx , ( vmcs12 -> vm_entry_controls & ~ VM_ENTRY_LOAD_IA32_EFER & ~ VM_ENTRY_IA32E_MODE ) | ( vmcs_config . vmentry_ctrl & ~ VM_ENTRY_IA32E_MODE ) ) ; if ( from_vmentry && ( vmcs12 -> vm_entry_controls & VM_ENTRY_LOAD_IA32_PAT ) ) { vmcs_write64 ( GUEST_IA32_PAT , vmcs12 -> guest_ia32_pat ) ; vcpu -> arch . pat = vmcs12 -> guest_ia32_pat ; } else if ( vmcs_config . vmentry_ctrl & VM_ENTRY_LOAD_IA32_PAT ) { vmcs_write64 ( GUEST_IA32_PAT , vmx -> vcpu . arch . pat ) ; } set_cr4_guest_host_mask ( vmx ) ; if ( from_vmentry && vmcs12 -> vm_entry_controls & VM_ENTRY_LOAD_BNDCFGS ) vmcs_write64 ( GUEST_BNDCFGS , vmcs12 -> guest_bndcfgs ) ; if ( vmcs12 -> cpu_based_vm_exec_control & CPU_BASED_USE_TSC_OFFSETING ) vmcs_write64 ( TSC_OFFSET , vcpu -> arch . tsc_offset + vmcs12 -> tsc_offset ) ; else vmcs_write64 ( TSC_OFFSET , vcpu -> arch . tsc_offset ) ; if ( kvm_has_tsc_control ) decache_tsc_multiplier ( vmx ) ; if ( enable_vpid ) { if ( nested_cpu_has_vpid ( vmcs12 ) && vmx -> nested . vpid02 ) { vmcs_write16 ( VIRTUAL_PROCESSOR_ID , vmx -> nested . vpid02 ) ; if ( vmcs12 -> virtual_processor_id != vmx -> nested . last_vpid ) { vmx -> nested . last_vpid = vmcs12 -> virtual_processor_id ; __vmx_flush_tlb ( vcpu , to_vmx ( vcpu ) -> nested . vpid02 ) ; } } else { vmcs_write16 ( VIRTUAL_PROCESSOR_ID , vmx -> vpid ) ; vmx_flush_tlb ( vcpu ) ; } } if ( enable_pml ) { ASSERT ( vmx -> pml_pg ) ; vmcs_write64 ( PML_ADDRESS , page_to_phys ( vmx -> pml_pg ) ) ; vmcs_write16 ( GUEST_PML_INDEX , PML_ENTITY_NUM - 1 ) ; } if ( nested_cpu_has_ept ( vmcs12 ) ) { if ( nested_ept_init_mmu_context ( vcpu ) ) { * entry_failure_code = ENTRY_FAIL_DEFAULT ;" 340,"CWE-119 void vp9_update_mbgraph_stats ( VP9_COMP * cpi ) { VP9_COMMON * const cm = & cpi -> common ; int i , n_frames = vp9_lookahead_depth ( cpi -> lookahead ) ; YV12_BUFFER_CONFIG * golden_ref = get_ref_frame_buffer ( cpi , GOLDEN_FRAME ) ; if ( n_frames <= cpi -> rc . frames_till_gf_update_due ) return ; if ( n_frames > MAX_LAG_BUFFERS ) n_frames = MAX_LAG_BUFFERS ; cpi -> mbgraph_n_frames = n_frames ; for ( i = 0 ; i < n_frames ; i ++ ) { MBGRAPH_FRAME_STATS * frame_stats = & cpi -> mbgraph_stats [ i ] ; vpx_memset ( frame_stats -> mb_stats , 0 , cm -> mb_rows * cm -> mb_cols * sizeof ( * cpi -> mbgraph_stats [ i ] . mb_stats ) ) ; } for ( i = 0 ; i < n_frames ; i ++ ) { MBGRAPH_FRAME_STATS * frame_stats = & cpi -> mbgraph_stats [ i ] ; struct lookahead_entry * q_cur = vp9_lookahead_peek ( cpi -> lookahead , i ) ; assert ( q_cur != NULL ) ; update_mbgraph_frame_stats ( cpi , frame_stats , & q_cur -> img , golden_ref , cpi -> Source ) ; } vp9_clear_system_state ( ) ; separate_arf_mbs ( cpi ) ; }","void vp9_update_mbgraph_stats ( VP9_COMP * cpi ) { VP9_COMMON * const cm = & cpi -> common ; int i , n_frames = vp9_lookahead_depth ( cpi -> lookahead ) ; YV12_BUFFER_CONFIG * golden_ref = get_ref_frame_buffer ( cpi , GOLDEN_FRAME ) ; assert ( golden_ref != NULL ) ; if ( n_frames <= cpi -> rc . frames_till_gf_update_due ) return ; if ( n_frames > MAX_LAG_BUFFERS ) n_frames = MAX_LAG_BUFFERS ; cpi -> mbgraph_n_frames = n_frames ; for ( i = 0 ; i < n_frames ; i ++ ) { MBGRAPH_FRAME_STATS * frame_stats = & cpi -> mbgraph_stats [ i ] ; memset ( frame_stats -> mb_stats , 0 , cm -> mb_rows * cm -> mb_cols * sizeof ( * cpi -> mbgraph_stats [ i ] . mb_stats ) ) ; } for ( i = 0 ; i < n_frames ; i ++ ) { MBGRAPH_FRAME_STATS * frame_stats = & cpi -> mbgraph_stats [ i ] ; struct lookahead_entry * q_cur = vp9_lookahead_peek ( cpi -> lookahead , i ) ; assert ( q_cur != NULL ) ; update_mbgraph_frame_stats ( cpi , frame_stats , & q_cur -> img , golden_ref , cpi -> Source ) ; } vpx_clear_system_state ( ) ; separate_arf_mbs ( cpi ) ; }" 341,"CWE-125 PyObject * ast2obj_comprehension ( void * _o ) { comprehension_ty o = ( comprehension_ty ) _o ; PyObject * result = NULL , * value = NULL ; if ( ! o ) { Py_INCREF ( Py_None ) ; return Py_None ; } result = PyType_GenericNew ( comprehension_type , NULL , NULL ) ; if ( ! result ) return NULL ; value = ast2obj_expr ( o -> target ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_target , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; value = ast2obj_expr ( o -> iter ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_iter , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; value = ast2obj_list ( o -> ifs , ast2obj_expr ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_ifs , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; value = ast2obj_int ( o -> is_async ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_is_async , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; return result ; failed : Py_XDECREF ( value ) ; Py_XDECREF ( result ) ; return NULL ; }","PyObject * ast2obj_comprehension ( void * _o ) { comprehension_ty o = ( comprehension_ty ) _o ; PyObject * result = NULL , * value = NULL ; if ( ! o ) { Py_RETURN_NONE ; } result = PyType_GenericNew ( comprehension_type , NULL , NULL ) ; if ( ! result ) return NULL ; value = ast2obj_expr ( o -> target ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_target , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; value = ast2obj_expr ( o -> iter ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_iter , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; value = ast2obj_list ( o -> ifs , ast2obj_expr ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_ifs , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; value = ast2obj_int ( o -> is_async ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_is_async , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; return result ; failed : Py_XDECREF ( value ) ; Py_XDECREF ( result ) ; return NULL ; }" 342,"CWE-119 static void show_object ( struct object * obj , struct strbuf * path , const char * last , void * data ) { char * name = path_name ( path , last ) ; add_preferred_base_object ( name ) ; add_object_entry ( obj -> oid . hash , obj -> type , name , 0 ) ; obj -> flags |= OBJECT_ADDED ; free ( ( char * ) name ) ; }","static void show_object ( struct object * obj , const char * name , void * data ) { add_preferred_base_object ( name ) ; add_object_entry ( obj -> oid . hash , obj -> type , name , 0 ) ; obj -> flags |= OBJECT_ADDED ; }" 343,"CWE-362 static int mptctl_getiocinfo ( unsigned long arg , unsigned int data_size ) { struct mpt_ioctl_iocinfo __user * uarg = ( void __user * ) arg ; struct mpt_ioctl_iocinfo * karg ; MPT_ADAPTER * ioc ; struct pci_dev * pdev ; int iocnum ; unsigned int port ; int cim_rev ; struct scsi_device * sdev ; VirtDevice * vdevice ; if ( data_size == sizeof ( struct mpt_ioctl_iocinfo_rev0 ) ) cim_rev = 0 ; else if ( data_size == sizeof ( struct mpt_ioctl_iocinfo_rev1 ) ) cim_rev = 1 ; else if ( data_size == sizeof ( struct mpt_ioctl_iocinfo ) ) cim_rev = 2 ; else if ( data_size == ( sizeof ( struct mpt_ioctl_iocinfo_rev0 ) + 12 ) ) cim_rev = 0 ; else return - EFAULT ; karg = memdup_user ( uarg , data_size ) ; if ( IS_ERR ( karg ) ) { printk ( KERN_ERR MYNAM ""%s@%d::mpt_ioctl_iocinfo() - memdup_user returned error [%ld]\\n"" , __FILE__ , __LINE__ , PTR_ERR ( karg ) ) ; return PTR_ERR ( karg ) ; } if ( ( ( iocnum = mpt_verify_adapter ( karg -> hdr . iocnum , & ioc ) ) < 0 ) || ( ioc == NULL ) ) { printk ( KERN_DEBUG MYNAM ""%s::mptctl_getiocinfo() @%d - ioc%d not found!\\n"" , __FILE__ , __LINE__ , iocnum ) ; kfree ( karg ) ; return - ENODEV ; } if ( karg -> hdr . maxDataSize != data_size ) { printk ( MYIOC_s_ERR_FMT ""%s@%d::mptctl_getiocinfo - "" ""Structure size mismatch. Command not completed.\\n"" , ioc -> name , __FILE__ , __LINE__ ) ; kfree ( karg ) ; return - EFAULT ; } dctlprintk ( ioc , printk ( MYIOC_s_DEBUG_FMT ""mptctl_getiocinfo called.\\n"" , ioc -> name ) ) ; if ( ioc -> bus_type == SAS ) karg -> adapterType = MPT_IOCTL_INTERFACE_SAS ; else if ( ioc -> bus_type == FC ) karg -> adapterType = MPT_IOCTL_INTERFACE_FC ; else karg -> adapterType = MPT_IOCTL_INTERFACE_SCSI ; if ( karg -> hdr . port > 1 ) { kfree ( karg ) ; return - EINVAL ; } port = karg -> hdr . port ; karg -> port = port ; pdev = ( struct pci_dev * ) ioc -> pcidev ; karg -> pciId = pdev -> device ; karg -> hwRev = pdev -> revision ; karg -> subSystemDevice = pdev -> subsystem_device ; karg -> subSystemVendor = pdev -> subsystem_vendor ; if ( cim_rev == 1 ) { karg -> pciInfo . u . bits . busNumber = pdev -> bus -> number ; karg -> pciInfo . u . bits . deviceNumber = PCI_SLOT ( pdev -> devfn ) ; karg -> pciInfo . u . bits . functionNumber = PCI_FUNC ( pdev -> devfn ) ; } else if ( cim_rev == 2 ) { karg -> pciInfo . u . bits . busNumber = pdev -> bus -> number ; karg -> pciInfo . u . bits . deviceNumber = PCI_SLOT ( pdev -> devfn ) ; karg -> pciInfo . u . bits . functionNumber = PCI_FUNC ( pdev -> devfn ) ; karg -> pciInfo . segmentID = pci_domain_nr ( pdev -> bus ) ; } karg -> numDevices = 0 ; if ( ioc -> sh ) { shost_for_each_device ( sdev , ioc -> sh ) { vdevice = sdev -> hostdata ; if ( vdevice == NULL || vdevice -> vtarget == NULL ) continue ; if ( vdevice -> vtarget -> tflags & MPT_TARGET_FLAGS_RAID_COMPONENT ) continue ; karg -> numDevices ++ ; } } karg -> FWVersion = ioc -> facts . FWVersion . Word ;","static int mptctl_getiocinfo ( MPT_ADAPTER * ioc , unsigned long arg , unsigned int data_size ) { struct mpt_ioctl_iocinfo __user * uarg = ( void __user * ) arg ; struct mpt_ioctl_iocinfo * karg ; struct pci_dev * pdev ; unsigned int port ; int cim_rev ; struct scsi_device * sdev ; VirtDevice * vdevice ; if ( data_size == sizeof ( struct mpt_ioctl_iocinfo_rev0 ) ) cim_rev = 0 ; else if ( data_size == sizeof ( struct mpt_ioctl_iocinfo_rev1 ) ) cim_rev = 1 ; else if ( data_size == sizeof ( struct mpt_ioctl_iocinfo ) ) cim_rev = 2 ; else if ( data_size == ( sizeof ( struct mpt_ioctl_iocinfo_rev0 ) + 12 ) ) cim_rev = 0 ; else return - EFAULT ; karg = memdup_user ( uarg , data_size ) ; if ( IS_ERR ( karg ) ) { printk ( KERN_ERR MYNAM ""%s@%d::mpt_ioctl_iocinfo() - memdup_user returned error [%ld]\\n"" , __FILE__ , __LINE__ , PTR_ERR ( karg ) ) ; return PTR_ERR ( karg ) ; } if ( karg -> hdr . maxDataSize != data_size ) { printk ( MYIOC_s_ERR_FMT ""%s@%d::mptctl_getiocinfo - "" ""Structure size mismatch. Command not completed.\\n"" , ioc -> name , __FILE__ , __LINE__ ) ; kfree ( karg ) ; return - EFAULT ; } dctlprintk ( ioc , printk ( MYIOC_s_DEBUG_FMT ""mptctl_getiocinfo called.\\n"" , ioc -> name ) ) ; if ( ioc -> bus_type == SAS ) karg -> adapterType = MPT_IOCTL_INTERFACE_SAS ; else if ( ioc -> bus_type == FC ) karg -> adapterType = MPT_IOCTL_INTERFACE_FC ; else karg -> adapterType = MPT_IOCTL_INTERFACE_SCSI ; if ( karg -> hdr . port > 1 ) { kfree ( karg ) ; return - EINVAL ; } port = karg -> hdr . port ; karg -> port = port ; pdev = ( struct pci_dev * ) ioc -> pcidev ; karg -> pciId = pdev -> device ; karg -> hwRev = pdev -> revision ; karg -> subSystemDevice = pdev -> subsystem_device ; karg -> subSystemVendor = pdev -> subsystem_vendor ; if ( cim_rev == 1 ) { karg -> pciInfo . u . bits . busNumber = pdev -> bus -> number ; karg -> pciInfo . u . bits . deviceNumber = PCI_SLOT ( pdev -> devfn ) ; karg -> pciInfo . u . bits . functionNumber = PCI_FUNC ( pdev -> devfn ) ; } else if ( cim_rev == 2 ) { karg -> pciInfo . u . bits . busNumber = pdev -> bus -> number ; karg -> pciInfo . u . bits . deviceNumber = PCI_SLOT ( pdev -> devfn ) ; karg -> pciInfo . u . bits . functionNumber = PCI_FUNC ( pdev -> devfn ) ; karg -> pciInfo . segmentID = pci_domain_nr ( pdev -> bus ) ; } karg -> numDevices = 0 ; if ( ioc -> sh ) { shost_for_each_device ( sdev , ioc -> sh ) { vdevice = sdev -> hostdata ; if ( vdevice == NULL || vdevice -> vtarget == NULL ) continue ; if ( vdevice -> vtarget -> tflags & MPT_TARGET_FLAGS_RAID_COMPONENT ) continue ; karg -> numDevices ++ ; } } karg -> FWVersion = ioc -> facts . FWVersion . Word ;" 344,"CWE-20 SYSCALL_DEFINE6 ( recvfrom , int , fd , void __user * , ubuf , size_t , size , unsigned int , flags , struct sockaddr __user * , addr , int __user * , addr_len ) { struct socket * sock ; struct iovec iov ; struct msghdr msg ; struct sockaddr_storage address ; int err , err2 ; int fput_needed ; if ( size > INT_MAX ) size = INT_MAX ; sock = sockfd_lookup_light ( fd , & err , & fput_needed ) ; if ( ! sock ) goto out ; msg . msg_control = NULL ; msg . msg_controllen = 0 ; msg . msg_iovlen = 1 ; msg . msg_iov = & iov ; iov . iov_len = size ; iov . iov_base = ubuf ; msg . msg_name = ( struct sockaddr * ) & address ; msg . msg_namelen = sizeof ( address ) ; if ( sock -> file -> f_flags & O_NONBLOCK ) flags |= MSG_DONTWAIT ; err = sock_recvmsg ( sock , & msg , size , flags ) ; if ( err >= 0 && addr != NULL ) { err2 = move_addr_to_user ( & address , msg . msg_namelen , addr , addr_len ) ; if ( err2 < 0 ) err = err2 ; } fput_light ( sock -> file , fput_needed ) ; out : return err ; }","SYSCALL_DEFINE6 ( recvfrom , int , fd , void __user * , ubuf , size_t , size , unsigned int , flags , struct sockaddr __user * , addr , int __user * , addr_len ) { struct socket * sock ; struct iovec iov ; struct msghdr msg ; struct sockaddr_storage address ; int err , err2 ; int fput_needed ; if ( size > INT_MAX ) size = INT_MAX ; sock = sockfd_lookup_light ( fd , & err , & fput_needed ) ; if ( ! sock ) goto out ; msg . msg_control = NULL ; msg . msg_controllen = 0 ; msg . msg_iovlen = 1 ; msg . msg_iov = & iov ; iov . iov_len = size ; iov . iov_base = ubuf ; msg . msg_name = addr ? ( struct sockaddr * ) & address : NULL ; msg . msg_namelen = 0 ; if ( sock -> file -> f_flags & O_NONBLOCK ) flags |= MSG_DONTWAIT ; err = sock_recvmsg ( sock , & msg , size , flags ) ; if ( err >= 0 && addr != NULL ) { err2 = move_addr_to_user ( & address , msg . msg_namelen , addr , addr_len ) ; if ( err2 < 0 ) err = err2 ; } fput_light ( sock -> file , fput_needed ) ; out : return err ; }" 345,"CWE-269 static void copy_xauthority ( void ) { char * src = RUN_XAUTHORITY_FILE ; char * dest ; if ( asprintf ( & dest , ""%s/.Xauthority"" , cfg . homedir ) == - 1 ) errExit ( ""asprintf"" ) ; if ( is_link ( dest ) ) { fprintf ( stderr , ""Error: %s is a symbolic link\\n"" , dest ) ; exit ( 1 ) ; } pid_t child = fork ( ) ; if ( child < 0 ) errExit ( ""fork"" ) ; if ( child == 0 ) { drop_privs ( 0 ) ; int rv = copy_file ( src , dest , getuid ( ) , getgid ( ) , S_IRUSR | S_IWUSR ) ; if ( rv ) fprintf ( stderr , ""Warning: cannot transfer .Xauthority in private home directory\\n"" ) ; else { fs_logger2 ( ""clone"" , dest ) ; } _exit ( 0 ) ; } waitpid ( child , NULL , 0 ) ; unlink ( src ) ; }","static void copy_xauthority ( void ) { char * src = RUN_XAUTHORITY_FILE ; char * dest ; if ( asprintf ( & dest , ""%s/.Xauthority"" , cfg . homedir ) == - 1 ) errExit ( ""asprintf"" ) ; if ( is_link ( dest ) ) { fprintf ( stderr , ""Error: %s is a symbolic link\\n"" , dest ) ; exit ( 1 ) ; } copy_file_as_user ( src , dest , getuid ( ) , getgid ( ) , S_IRUSR | S_IWUSR ) ; fs_logger2 ( ""clone"" , dest ) ; unlink ( src ) ; }" 346,"CWE-190 static void Process_ipfix_template_withdraw ( exporter_ipfix_domain_t * exporter , void * DataPtr , uint32_t size_left , FlowSource_t * fs ) { ipfix_template_record_t * ipfix_template_record ; while ( size_left ) { uint32_t id ; ipfix_template_record = ( ipfix_template_record_t * ) DataPtr ; size_left -= 4 ; id = ntohs ( ipfix_template_record -> TemplateID ) ; if ( id == IPFIX_TEMPLATE_FLOWSET_ID ) { remove_all_translation_tables ( exporter ) ; ReInitExtensionMapList ( fs ) ; } else { remove_translation_table ( fs , exporter , id ) ; } DataPtr = DataPtr + 4 ; if ( size_left < 4 ) { dbg_printf ( ""Skip %u bytes padding\\n"" , size_left ) ; size_left = 0 ; } } }","static void Process_ipfix_template_withdraw ( exporter_ipfix_domain_t * exporter , void * DataPtr , uint32_t size_left , FlowSource_t * fs ) { ipfix_template_record_t * ipfix_template_record ; while ( size_left ) { uint32_t id ; if ( size_left < 4 ) { LogError ( ""Process_ipfix [%u] Template withdraw size error at %s line %u"" , exporter -> info . id , __FILE__ , __LINE__ , strerror ( errno ) ) ; size_left = 0 ; continue ; } ipfix_template_record = ( ipfix_template_record_t * ) DataPtr ; size_left -= 4 ; id = ntohs ( ipfix_template_record -> TemplateID ) ; if ( id == IPFIX_TEMPLATE_FLOWSET_ID ) { remove_all_translation_tables ( exporter ) ; ReInitExtensionMapList ( fs ) ; } else { remove_translation_table ( fs , exporter , id ) ; } DataPtr = DataPtr + 4 ; if ( size_left < 4 ) { dbg_printf ( ""Skip %u bytes padding\\n"" , size_left ) ; size_left = 0 ; } } }" 347,"NVD-CWE-noinfo static void sas_discover_domain ( struct work_struct * work ) { struct domain_device * dev ; int error = 0 ; struct sas_discovery_event * ev = to_sas_discovery_event ( work ) ; struct asd_sas_port * port = ev -> port ; clear_bit ( DISCE_DISCOVER_DOMAIN , & port -> disc . pending ) ; if ( port -> port_dev ) return ; error = sas_get_port_device ( port ) ; if ( error ) return ; dev = port -> port_dev ; SAS_DPRINTK ( ""DOING DISCOVERY on port %d, pid:%d\\n"" , port -> id , task_pid_nr ( current ) ) ; switch ( dev -> dev_type ) { case SAS_END_DEVICE : error = sas_discover_end_dev ( dev ) ; break ; case SAS_EDGE_EXPANDER_DEVICE : case SAS_FANOUT_EXPANDER_DEVICE : error = sas_discover_root_expander ( dev ) ; break ; case SAS_SATA_DEV : case SAS_SATA_PM : # ifdef CONFIG_SCSI_SAS_ATA error = sas_discover_sata ( dev ) ; break ; # else SAS_DPRINTK ( ""ATA device seen but CONFIG_SCSI_SAS_ATA=N so cannot attach\\n"" ) ; # endif default : error = - ENXIO ; SAS_DPRINTK ( ""unhandled device %d\\n"" , dev -> dev_type ) ; break ; } if ( error ) { sas_rphy_free ( dev -> rphy ) ; list_del_init ( & dev -> disco_list_node ) ; spin_lock_irq ( & port -> dev_list_lock ) ; list_del_init ( & dev -> dev_list_node ) ; spin_unlock_irq ( & port -> dev_list_lock ) ; sas_put_device ( dev ) ; port -> port_dev = NULL ; } SAS_DPRINTK ( ""DONE DISCOVERY on port %d, pid:%d, result:%d\\n"" , port -> id , task_pid_nr ( current ) , error ) ; }","static void sas_discover_domain ( struct work_struct * work ) { struct domain_device * dev ; int error = 0 ; struct sas_discovery_event * ev = to_sas_discovery_event ( work ) ; struct asd_sas_port * port = ev -> port ; clear_bit ( DISCE_DISCOVER_DOMAIN , & port -> disc . pending ) ; if ( port -> port_dev ) return ; error = sas_get_port_device ( port ) ; if ( error ) return ; dev = port -> port_dev ; SAS_DPRINTK ( ""DOING DISCOVERY on port %d, pid:%d\\n"" , port -> id , task_pid_nr ( current ) ) ; switch ( dev -> dev_type ) { case SAS_END_DEVICE : error = sas_discover_end_dev ( dev ) ; break ; case SAS_EDGE_EXPANDER_DEVICE : case SAS_FANOUT_EXPANDER_DEVICE : error = sas_discover_root_expander ( dev ) ; break ; case SAS_SATA_DEV : case SAS_SATA_PM : # ifdef CONFIG_SCSI_SAS_ATA error = sas_discover_sata ( dev ) ; break ; # else SAS_DPRINTK ( ""ATA device seen but CONFIG_SCSI_SAS_ATA=N so cannot attach\\n"" ) ; # endif default : error = - ENXIO ; SAS_DPRINTK ( ""unhandled device %d\\n"" , dev -> dev_type ) ; break ; } if ( error ) { sas_rphy_free ( dev -> rphy ) ; list_del_init ( & dev -> disco_list_node ) ; spin_lock_irq ( & port -> dev_list_lock ) ; list_del_init ( & dev -> dev_list_node ) ; spin_unlock_irq ( & port -> dev_list_lock ) ; sas_put_device ( dev ) ; port -> port_dev = NULL ; } sas_probe_devices ( port ) ; SAS_DPRINTK ( ""DONE DISCOVERY on port %d, pid:%d, result:%d\\n"" , port -> id , task_pid_nr ( current ) , error ) ; }" 348,"CWE-264 static int command_write ( struct pci_dev * dev , int offset , u16 value , void * data ) { struct xen_pcibk_dev_data * dev_data ; int err ; dev_data = pci_get_drvdata ( dev ) ; if ( ! pci_is_enabled ( dev ) && is_enable_cmd ( value ) ) { if ( unlikely ( verbose_request ) ) printk ( KERN_DEBUG DRV_NAME "": %s: enable\\n"" , pci_name ( dev ) ) ; err = pci_enable_device ( dev ) ; if ( err ) return err ; if ( dev_data ) dev_data -> enable_intx = 1 ; } else if ( pci_is_enabled ( dev ) && ! is_enable_cmd ( value ) ) { if ( unlikely ( verbose_request ) ) printk ( KERN_DEBUG DRV_NAME "": %s: disable\\n"" , pci_name ( dev ) ) ; pci_disable_device ( dev ) ; if ( dev_data ) dev_data -> enable_intx = 0 ; } if ( ! dev -> is_busmaster && is_master_cmd ( value ) ) { if ( unlikely ( verbose_request ) ) printk ( KERN_DEBUG DRV_NAME "": %s: set bus master\\n"" , pci_name ( dev ) ) ; pci_set_master ( dev ) ; } if ( value & PCI_COMMAND_INVALIDATE ) { if ( unlikely ( verbose_request ) ) printk ( KERN_DEBUG DRV_NAME "": %s: enable memory-write-invalidate\\n"" , pci_name ( dev ) ) ; err = pci_set_mwi ( dev ) ; if ( err ) { pr_warn ( ""%s: cannot enable memory-write-invalidate (%d)\\n"" , pci_name ( dev ) , err ) ; value &= ~ PCI_COMMAND_INVALIDATE ; } } return pci_write_config_word ( dev , offset , value ) ; }","static int command_write ( struct pci_dev * dev , int offset , u16 value , void * data ) { struct xen_pcibk_dev_data * dev_data ; int err ; u16 val ; struct pci_cmd_info * cmd = data ; dev_data = pci_get_drvdata ( dev ) ; if ( ! pci_is_enabled ( dev ) && is_enable_cmd ( value ) ) { if ( unlikely ( verbose_request ) ) printk ( KERN_DEBUG DRV_NAME "": %s: enable\\n"" , pci_name ( dev ) ) ; err = pci_enable_device ( dev ) ; if ( err ) return err ; if ( dev_data ) dev_data -> enable_intx = 1 ; } else if ( pci_is_enabled ( dev ) && ! is_enable_cmd ( value ) ) { if ( unlikely ( verbose_request ) ) printk ( KERN_DEBUG DRV_NAME "": %s: disable\\n"" , pci_name ( dev ) ) ; pci_disable_device ( dev ) ; if ( dev_data ) dev_data -> enable_intx = 0 ; } if ( ! dev -> is_busmaster && is_master_cmd ( value ) ) { if ( unlikely ( verbose_request ) ) printk ( KERN_DEBUG DRV_NAME "": %s: set bus master\\n"" , pci_name ( dev ) ) ; pci_set_master ( dev ) ; } if ( value & PCI_COMMAND_INVALIDATE ) { if ( unlikely ( verbose_request ) ) printk ( KERN_DEBUG DRV_NAME "": %s: enable memory-write-invalidate\\n"" , pci_name ( dev ) ) ; err = pci_set_mwi ( dev ) ; if ( err ) { pr_warn ( ""%s: cannot enable memory-write-invalidate (%d)\\n"" , pci_name ( dev ) , err ) ; value &= ~ PCI_COMMAND_INVALIDATE ; } } cmd -> val = value ; if ( ! permissive && ( ! dev_data || ! dev_data -> permissive ) ) return 0 ; err = pci_read_config_word ( dev , offset , & val ) ; if ( err || val == value ) return err ; value &= PCI_COMMAND_GUEST ; value |= val & ~ PCI_COMMAND_GUEST ; return pci_write_config_word ( dev , offset , value ) ; }" 349,"CWE-119 int ParseRiffHeaderConfig ( FILE * infile , char * infilename , char * fourcc , WavpackContext * wpc , WavpackConfig * config ) { int is_rf64 = ! strncmp ( fourcc , ""RF64"" , 4 ) , got_ds64 = 0 ; int64_t total_samples = 0 , infilesize ; RiffChunkHeader riff_chunk_header ; ChunkHeader chunk_header ; WaveHeader WaveHeader ; DS64Chunk ds64_chunk ; uint32_t bcount ; CLEAR ( WaveHeader ) ; CLEAR ( ds64_chunk ) ; infilesize = DoGetFileSize ( infile ) ; if ( ! is_rf64 && infilesize >= 4294967296LL && ! ( config -> qmode & QMODE_IGNORE_LENGTH ) ) { error_line ( ""can\'t handle .WAV files larger than 4 GB (non-standard)!"" ) ; return WAVPACK_SOFT_ERROR ; } memcpy ( & riff_chunk_header , fourcc , 4 ) ; if ( ( ! DoReadFile ( infile , ( ( char * ) & riff_chunk_header ) + 4 , sizeof ( RiffChunkHeader ) - 4 , & bcount ) || bcount != sizeof ( RiffChunkHeader ) - 4 || strncmp ( riff_chunk_header . formType , ""WAVE"" , 4 ) ) ) { error_line ( ""%s is not a valid .WAV file!"" , infilename ) ; return WAVPACK_SOFT_ERROR ; } else if ( ! ( config -> qmode & QMODE_NO_STORE_WRAPPER ) && ! WavpackAddWrapper ( wpc , & riff_chunk_header , sizeof ( RiffChunkHeader ) ) ) { error_line ( ""%s"" , WavpackGetErrorMessage ( wpc ) ) ; return WAVPACK_SOFT_ERROR ; } while ( 1 ) { if ( ! DoReadFile ( infile , & chunk_header , sizeof ( ChunkHeader ) , & bcount ) || bcount != sizeof ( ChunkHeader ) ) { error_line ( ""%s is not a valid .WAV file!"" , infilename ) ; return WAVPACK_SOFT_ERROR ; } else if ( ! ( config -> qmode & QMODE_NO_STORE_WRAPPER ) && ! WavpackAddWrapper ( wpc , & chunk_header , sizeof ( ChunkHeader ) ) ) { error_line ( ""%s"" , WavpackGetErrorMessage ( wpc ) ) ; return WAVPACK_SOFT_ERROR ; } WavpackLittleEndianToNative ( & chunk_header , ChunkHeaderFormat ) ; if ( ! strncmp ( chunk_header . ckID , ""ds64"" , 4 ) ) { if ( chunk_header . ckSize < sizeof ( DS64Chunk ) || ! DoReadFile ( infile , & ds64_chunk , chunk_header . ckSize , & bcount ) || bcount != chunk_header . ckSize ) { error_line ( ""%s is not a valid .WAV file!"" , infilename ) ; return WAVPACK_SOFT_ERROR ; } else if ( ! ( config -> qmode & QMODE_NO_STORE_WRAPPER ) && ! WavpackAddWrapper ( wpc , & ds64_chunk , chunk_header . ckSize ) ) { error_line ( ""%s"" , WavpackGetErrorMessage ( wpc ) ) ; return WAVPACK_SOFT_ERROR ; } got_ds64 = 1 ; WavpackLittleEndianToNative ( & ds64_chunk , DS64ChunkFormat ) ; if ( debug_logging_mode ) error_line ( ""DS64: riffSize = %lld, dataSize = %lld, sampleCount = %lld, table_length = %d"" , ( long long ) ds64_chunk . riffSize64 , ( long long ) ds64_chunk . dataSize64 , ( long long ) ds64_chunk . sampleCount64 , ds64_chunk . tableLength ) ; if ( ds64_chunk . tableLength * sizeof ( CS64Chunk ) != chunk_header . ckSize - sizeof ( DS64Chunk ) ) { error_line ( ""%s is not a valid .WAV file!"" , infilename ) ; return WAVPACK_SOFT_ERROR ; } while ( ds64_chunk . tableLength -- ) { CS64Chunk cs64_chunk ; if ( ! DoReadFile ( infile , & cs64_chunk , sizeof ( CS64Chunk ) , & bcount ) || bcount != sizeof ( CS64Chunk ) || ( ! ( config -> qmode & QMODE_NO_STORE_WRAPPER ) && ! WavpackAddWrapper ( wpc , & cs64_chunk , sizeof ( CS64Chunk ) ) ) ) { error_line ( ""%s"" , WavpackGetErrorMessage ( wpc ) ) ; return WAVPACK_SOFT_ERROR ; } } } else if ( ! strncmp ( chunk_header . ckID , ""fmt "" , 4 ) ) { int supported = TRUE , format ; if ( chunk_header . ckSize < 16 || chunk_header . ckSize > sizeof ( WaveHeader ) || ! DoReadFile ( infile , & WaveHeader , chunk_header . ckSize , & bcount ) || bcount != chunk_header . ckSize ) { error_line ( ""%s is not a valid .WAV file!"" , infilename ) ; return WAVPACK_SOFT_ERROR ; } else if ( ! ( config -> qmode & QMODE_NO_STORE_WRAPPER ) && ! WavpackAddWrapper ( wpc , & WaveHeader , chunk_header . ckSize ) ) { error_line ( ""%s"" , WavpackGetErrorMessage ( wpc ) ) ; return WAVPACK_SOFT_ERROR ; } WavpackLittleEndianToNative ( & WaveHeader , WaveHeaderFormat ) ; if ( debug_logging_mode ) { error_line ( ""format tag size = %d"" , chunk_header . ckSize ) ; error_line ( ""FormatTag = %x, NumChannels = %d, BitsPerSample = %d"" , WaveHeader . FormatTag , WaveHeader . NumChannels , WaveHeader . BitsPerSample ) ; error_line ( ""BlockAlign = %d, SampleRate = %d, BytesPerSecond = %d"" , WaveHeader . BlockAlign , WaveHeader . SampleRate , WaveHeader . BytesPerSecond ) ; if ( chunk_header . ckSize > 16 ) error_line ( ""cbSize = %d, ValidBitsPerSample = %d"" , WaveHeader . cbSize , WaveHeader . ValidBitsPerSample ) ; if ( chunk_header . ckSize > 20 ) error_line ( ""ChannelMask = %x, SubFormat = %d"" , WaveHeader . ChannelMask , WaveHeader . SubFormat ) ;","int ParseRiffHeaderConfig ( FILE * infile , char * infilename , char * fourcc , WavpackContext * wpc , WavpackConfig * config ) { int is_rf64 = ! strncmp ( fourcc , ""RF64"" , 4 ) , got_ds64 = 0 ; int64_t total_samples = 0 , infilesize ; RiffChunkHeader riff_chunk_header ; ChunkHeader chunk_header ; WaveHeader WaveHeader ; DS64Chunk ds64_chunk ; uint32_t bcount ; CLEAR ( WaveHeader ) ; CLEAR ( ds64_chunk ) ; infilesize = DoGetFileSize ( infile ) ; if ( ! is_rf64 && infilesize >= 4294967296LL && ! ( config -> qmode & QMODE_IGNORE_LENGTH ) ) { error_line ( ""can\'t handle .WAV files larger than 4 GB (non-standard)!"" ) ; return WAVPACK_SOFT_ERROR ; } memcpy ( & riff_chunk_header , fourcc , 4 ) ; if ( ( ! DoReadFile ( infile , ( ( char * ) & riff_chunk_header ) + 4 , sizeof ( RiffChunkHeader ) - 4 , & bcount ) || bcount != sizeof ( RiffChunkHeader ) - 4 || strncmp ( riff_chunk_header . formType , ""WAVE"" , 4 ) ) ) { error_line ( ""%s is not a valid .WAV file!"" , infilename ) ; return WAVPACK_SOFT_ERROR ; } else if ( ! ( config -> qmode & QMODE_NO_STORE_WRAPPER ) && ! WavpackAddWrapper ( wpc , & riff_chunk_header , sizeof ( RiffChunkHeader ) ) ) { error_line ( ""%s"" , WavpackGetErrorMessage ( wpc ) ) ; return WAVPACK_SOFT_ERROR ; } while ( 1 ) { if ( ! DoReadFile ( infile , & chunk_header , sizeof ( ChunkHeader ) , & bcount ) || bcount != sizeof ( ChunkHeader ) ) { error_line ( ""%s is not a valid .WAV file!"" , infilename ) ; return WAVPACK_SOFT_ERROR ; } else if ( ! ( config -> qmode & QMODE_NO_STORE_WRAPPER ) && ! WavpackAddWrapper ( wpc , & chunk_header , sizeof ( ChunkHeader ) ) ) { error_line ( ""%s"" , WavpackGetErrorMessage ( wpc ) ) ; return WAVPACK_SOFT_ERROR ; } WavpackLittleEndianToNative ( & chunk_header , ChunkHeaderFormat ) ; if ( ! strncmp ( chunk_header . ckID , ""ds64"" , 4 ) ) { if ( chunk_header . ckSize < sizeof ( DS64Chunk ) || ! DoReadFile ( infile , & ds64_chunk , sizeof ( DS64Chunk ) , & bcount ) || bcount != sizeof ( DS64Chunk ) ) { error_line ( ""%s is not a valid .WAV file!"" , infilename ) ; return WAVPACK_SOFT_ERROR ; } else if ( ! ( config -> qmode & QMODE_NO_STORE_WRAPPER ) && ! WavpackAddWrapper ( wpc , & ds64_chunk , sizeof ( DS64Chunk ) ) ) { error_line ( ""%s"" , WavpackGetErrorMessage ( wpc ) ) ; return WAVPACK_SOFT_ERROR ; } got_ds64 = 1 ; WavpackLittleEndianToNative ( & ds64_chunk , DS64ChunkFormat ) ; if ( debug_logging_mode ) error_line ( ""DS64: riffSize = %lld, dataSize = %lld, sampleCount = %lld, table_length = %d"" , ( long long ) ds64_chunk . riffSize64 , ( long long ) ds64_chunk . dataSize64 , ( long long ) ds64_chunk . sampleCount64 , ds64_chunk . tableLength ) ; if ( ds64_chunk . tableLength * sizeof ( CS64Chunk ) != chunk_header . ckSize - sizeof ( DS64Chunk ) ) { error_line ( ""%s is not a valid .WAV file!"" , infilename ) ; return WAVPACK_SOFT_ERROR ; } while ( ds64_chunk . tableLength -- ) { CS64Chunk cs64_chunk ; if ( ! DoReadFile ( infile , & cs64_chunk , sizeof ( CS64Chunk ) , & bcount ) || bcount != sizeof ( CS64Chunk ) || ( ! ( config -> qmode & QMODE_NO_STORE_WRAPPER ) && ! WavpackAddWrapper ( wpc , & cs64_chunk , sizeof ( CS64Chunk ) ) ) ) { error_line ( ""%s"" , WavpackGetErrorMessage ( wpc ) ) ; return WAVPACK_SOFT_ERROR ; } } } else if ( ! strncmp ( chunk_header . ckID , ""fmt "" , 4 ) ) { int supported = TRUE , format ; if ( chunk_header . ckSize < 16 || chunk_header . ckSize > sizeof ( WaveHeader ) || ! DoReadFile ( infile , & WaveHeader , chunk_header . ckSize , & bcount ) || bcount != chunk_header . ckSize ) { error_line ( ""%s is not a valid .WAV file!"" , infilename ) ; return WAVPACK_SOFT_ERROR ; } else if ( ! ( config -> qmode & QMODE_NO_STORE_WRAPPER ) && ! WavpackAddWrapper ( wpc , & WaveHeader , chunk_header . ckSize ) ) { error_line ( ""%s"" , WavpackGetErrorMessage ( wpc ) ) ; return WAVPACK_SOFT_ERROR ; } WavpackLittleEndianToNative ( & WaveHeader , WaveHeaderFormat ) ; if ( debug_logging_mode ) { error_line ( ""format tag size = %d"" , chunk_header . ckSize ) ; error_line ( ""FormatTag = %x, NumChannels = %d, BitsPerSample = %d"" , WaveHeader . FormatTag , WaveHeader . NumChannels , WaveHeader . BitsPerSample ) ; error_line ( ""BlockAlign = %d, SampleRate = %d, BytesPerSecond = %d"" , WaveHeader . BlockAlign , WaveHeader . SampleRate , WaveHeader . BytesPerSecond ) ; if ( chunk_header . ckSize > 16 ) error_line ( ""cbSize = %d, ValidBitsPerSample = %d"" , WaveHeader . cbSize , WaveHeader . ValidBitsPerSample ) ; if ( chunk_header . ckSize > 20 ) error_line ( ""ChannelMask = %x, SubFormat = %d"" , WaveHeader . ChannelMask , WaveHeader . SubFormat ) ;" 350,"CWE-200 ps_dec_op -> e_output_format = ps_dec -> s_disp_op . e_output_format ; ps_dec_op -> s_disp_frm_buf = ps_dec -> s_disp_op . s_disp_frm_buf ; ps_dec_op -> e4_fld_type = ps_dec -> s_disp_op . e4_fld_type ; ps_dec_op -> u4_ts = ps_dec -> s_disp_op . u4_ts ; ps_dec_op -> u4_disp_buf_id = ps_dec -> s_disp_op . u4_disp_buf_id ; ps_dec_op -> u4_is_ref_flag = - 1 ; ps_dec_op -> e_pic_type = IV_NA_FRAME ; ps_dec_op -> u4_frame_decoded_flag = 0 ; if ( 0 == ps_dec -> s_disp_op . u4_error_code ) { return ( IV_SUCCESS ) ; } else return ( IV_FAIL ) ; } if ( ps_dec -> u1_res_changed == 1 ) { ih264d_init_decoder ( ps_dec ) ; } ps_dec -> u4_prev_nal_skipped = 0 ; ps_dec -> u2_cur_mb_addr = 0 ; ps_dec -> u2_total_mbs_coded = 0 ; ps_dec -> u2_cur_slice_num = 0 ; ps_dec -> cur_dec_mb_num = 0 ; ps_dec -> cur_recon_mb_num = 0 ; ps_dec -> u4_first_slice_in_pic = 1 ; ps_dec -> u1_slice_header_done = 0 ; ps_dec -> u1_dangling_field = 0 ; ps_dec -> u4_dec_thread_created = 0 ; ps_dec -> u4_bs_deblk_thread_created = 0 ; ps_dec -> u4_cur_bs_mb_num = 0 ; ps_dec -> u4_start_recon_deblk = 0 ; ps_dec -> u4_sps_cnt_in_process = 0 ; DEBUG_THREADS_PRINTF ( "" Starting process call\\n"" ) ; ps_dec -> u4_pic_buf_got = 0 ; do { WORD32 buf_size ; pu1_buf = ( UWORD8 * ) ps_dec_ip -> pv_stream_buffer u4_max_ofst = ps_dec_ip -> u4_num_Bytes ps_dec_op -> u4_num_bytes_consumed ; if ( ( NULL == ps_dec -> pu1_bits_buf_dynamic ) && ( ps_dec -> i4_header_decoded & 1 ) ) { WORD32 size ; void * pv_buf ; void * pv_mem_ctxt = ps_dec -> pv_mem_ctxt ; size = MAX ( 256000 , ps_dec -> u2_pic_wd * ps_dec -> u2_pic_ht * 3 / 2 ) ; pv_buf = ps_dec -> pf_aligned_alloc ( pv_mem_ctxt , 128 , size ) ; RETURN_IF ( ( NULL == pv_buf ) , IV_FAIL ) ; ps_dec -> pu1_bits_buf_dynamic = pv_buf ; ps_dec -> u4_dynamic_bits_buf_size = size ; } if ( ps_dec -> pu1_bits_buf_dynamic ) { pu1_bitstrm_buf = ps_dec -> pu1_bits_buf_dynamic ; buf_size = ps_dec -> u4_dynamic_bits_buf_size ; } else { pu1_bitstrm_buf = ps_dec -> pu1_bits_buf_static ; buf_size = ps_dec -> u4_static_bits_buf_size ; } u4_next_is_aud = 0 ; buflen = ih264d_find_start_code ( pu1_buf , 0 , u4_max_ofst , & u4_length_of_start_code , & u4_next_is_aud ) ; if ( buflen == - 1 ) buflen = 0 ; buflen = MIN ( buflen , buf_size - 8 ) ; bytes_consumed = buflen + u4_length_of_start_code ; ps_dec_op -> u4_num_bytes_consumed += bytes_consumed ; { UWORD8 u1_firstbyte , u1_nal_ref_idc ; if ( ps_dec -> i4_app_skip_mode == IVD_SKIP_B ) { u1_firstbyte = * ( pu1_buf + u4_length_of_start_code ) ; u1_nal_ref_idc = ( UWORD8 ) ( NAL_REF_IDC ( u1_firstbyte ) ) ; if ( u1_nal_ref_idc == 0 ) { cur_slice_is_nonref = 1 ; continue ; } else { if ( 1 == cur_slice_is_nonref ) { ps_dec_op -> u4_num_bytes_consumed -= bytes_consumed ; ps_dec_op -> e_pic_type = IV_B_FRAME ; ps_dec_op -> u4_error_code = IVD_DEC_FRM_SKIPPED ; ps_dec_op -> u4_error_code |= ( 1 << IVD_UNSUPPORTEDPARAM ) ; ps_dec_op -> u4_frame_decoded_flag = 0 ; ps_dec_op -> u4_size = sizeof ( ivd_video_decode_op_t ) ; ih264d_signal_decode_thread ( ps_dec ) ; if ( ps_dec -> u4_num_cores == 3 )","ps_dec_op -> e_output_format = ps_dec -> s_disp_op . e_output_format ; ps_dec_op -> s_disp_frm_buf = ps_dec -> s_disp_op . s_disp_frm_buf ; ps_dec_op -> e4_fld_type = ps_dec -> s_disp_op . e4_fld_type ; ps_dec_op -> u4_ts = ps_dec -> s_disp_op . u4_ts ; ps_dec_op -> u4_disp_buf_id = ps_dec -> s_disp_op . u4_disp_buf_id ; ps_dec_op -> u4_is_ref_flag = - 1 ; ps_dec_op -> e_pic_type = IV_NA_FRAME ; ps_dec_op -> u4_frame_decoded_flag = 0 ; if ( 0 == ps_dec -> s_disp_op . u4_error_code ) { return ( IV_SUCCESS ) ; } else return ( IV_FAIL ) ; } if ( ps_dec -> u1_res_changed == 1 ) { ih264d_init_decoder ( ps_dec ) ; } ps_dec -> u4_prev_nal_skipped = 0 ; ps_dec -> u2_cur_mb_addr = 0 ; ps_dec -> u2_total_mbs_coded = 0 ; ps_dec -> u2_cur_slice_num = 0 ; ps_dec -> cur_dec_mb_num = 0 ; ps_dec -> cur_recon_mb_num = 0 ; ps_dec -> u4_first_slice_in_pic = 1 ; ps_dec -> u1_slice_header_done = 0 ; ps_dec -> u1_dangling_field = 0 ; ps_dec -> u4_dec_thread_created = 0 ; ps_dec -> u4_bs_deblk_thread_created = 0 ; ps_dec -> u4_cur_bs_mb_num = 0 ; ps_dec -> u4_start_recon_deblk = 0 ; ps_dec -> u4_sps_cnt_in_process = 0 ; DEBUG_THREADS_PRINTF ( "" Starting process call\\n"" ) ; ps_dec -> u4_pic_buf_got = 0 ; do { WORD32 buf_size ; pu1_buf = ( UWORD8 * ) ps_dec_ip -> pv_stream_buffer ps_dec_op -> u4_num_bytes_consumed ; u4_max_ofst = ps_dec_ip -> u4_num_Bytes if ( ( NULL == ps_dec -> pu1_bits_buf_dynamic ) && ( ps_dec -> i4_header_decoded & 1 ) ) { WORD32 size ; void * pv_buf ; void * pv_mem_ctxt = ps_dec -> pv_mem_ctxt ; size = MAX ( 256000 , ps_dec -> u2_pic_wd * ps_dec -> u2_pic_ht * 3 / 2 ) ; pv_buf = ps_dec -> pf_aligned_alloc ( pv_mem_ctxt , 128 , size + EXTRA_BS_OFFSET ) ; RETURN_IF ( ( NULL == pv_buf ) , IV_FAIL ) ; ps_dec -> pu1_bits_buf_dynamic = pv_buf ; ps_dec -> u4_dynamic_bits_buf_size = size ; } if ( ps_dec -> pu1_bits_buf_dynamic ) { pu1_bitstrm_buf = ps_dec -> pu1_bits_buf_dynamic ; buf_size = ps_dec -> u4_dynamic_bits_buf_size ; } else { pu1_bitstrm_buf = ps_dec -> pu1_bits_buf_static ; buf_size = ps_dec -> u4_static_bits_buf_size ; } u4_next_is_aud = 0 ; buflen = ih264d_find_start_code ( pu1_buf , 0 , u4_max_ofst , & u4_length_of_start_code , & u4_next_is_aud ) ; if ( buflen == - 1 ) buflen = 0 ; buflen = MIN ( buflen , buf_size - 8 ) ; bytes_consumed = buflen + u4_length_of_start_code ; ps_dec_op -> u4_num_bytes_consumed += bytes_consumed ; { UWORD8 u1_firstbyte , u1_nal_ref_idc ; if ( ps_dec -> i4_app_skip_mode == IVD_SKIP_B ) { u1_firstbyte = * ( pu1_buf + u4_length_of_start_code ) ; u1_nal_ref_idc = ( UWORD8 ) ( NAL_REF_IDC ( u1_firstbyte ) ) ; if ( u1_nal_ref_idc == 0 ) { cur_slice_is_nonref = 1 ; continue ; } else { if ( 1 == cur_slice_is_nonref ) { ps_dec_op -> u4_num_bytes_consumed -= bytes_consumed ; ps_dec_op -> e_pic_type = IV_B_FRAME ; ps_dec_op -> u4_error_code = IVD_DEC_FRM_SKIPPED ; ps_dec_op -> u4_error_code |= ( 1 << IVD_UNSUPPORTEDPARAM ) ; ps_dec_op -> u4_frame_decoded_flag = 0 ; ps_dec_op -> u4_size = sizeof ( ivd_video_decode_op_t ) ; ih264d_signal_decode_thread ( ps_dec ) ; if ( ps_dec -> u4_num_cores == 3 )" 351,"CWE-119 static vpx_codec_err_t ctrl_set_svc_parameters ( vpx_codec_alg_priv_t * ctx , int ctr_id , va_list args ) { VP9_COMP * const cpi = ctx -> cpi ; vpx_svc_parameters_t * const params = va_arg ( args , vpx_svc_parameters_t * ) ; if ( params == NULL ) return VPX_CODEC_INVALID_PARAM ; cpi -> svc . spatial_layer_id = params -> spatial_layer ; cpi -> svc . temporal_layer_id = params -> temporal_layer ; cpi -> lst_fb_idx = params -> lst_fb_idx ; cpi -> gld_fb_idx = params -> gld_fb_idx ; cpi -> alt_fb_idx = params -> alt_fb_idx ; if ( vp9_set_size_literal ( ctx -> cpi , params -> width , params -> height ) != 0 ) return VPX_CODEC_INVALID_PARAM ; ctx -> cfg . rc_max_quantizer = params -> max_quantizer ; ctx -> cfg . rc_min_quantizer = params -> min_quantizer ; set_encoder_config ( & ctx -> oxcf , & ctx -> cfg , & ctx -> extra_cfg ) ; vp9_change_config ( ctx -> cpi , & ctx -> oxcf ) ; return VPX_CODEC_OK ; }","static vpx_codec_err_t ctrl_set_svc_parameters ( vpx_codec_alg_priv_t * ctx , va_list args ) { VP9_COMP * const cpi = ctx -> cpi ; vpx_svc_extra_cfg_t * const params = va_arg ( args , vpx_svc_extra_cfg_t * ) ; int sl , tl ; for ( sl = 0 ; sl < cpi -> svc . number_spatial_layers ; ++ sl ) { for ( tl = 0 ; tl < cpi -> svc . number_temporal_layers ; ++ tl ) { const int layer = LAYER_IDS_TO_IDX ( sl , tl , cpi -> svc . number_temporal_layers ) ; LAYER_CONTEXT * lc = & cpi -> svc . layer_context [ layer ] ; lc -> max_q = params -> max_quantizers [ sl ] ; lc -> min_q = params -> min_quantizers [ sl ] ; lc -> scaling_factor_num = params -> scaling_factor_num [ sl ] ; lc -> scaling_factor_den = params -> scaling_factor_den [ sl ] ; } } return VPX_CODEC_OK ; }" 352,"CWE-362 static int userfaultfd_register ( struct userfaultfd_ctx * ctx , unsigned long arg ) { struct mm_struct * mm = ctx -> mm ; struct vm_area_struct * vma , * prev , * cur ; int ret ; struct uffdio_register uffdio_register ; struct uffdio_register __user * user_uffdio_register ; unsigned long vm_flags , new_flags ; bool found ; bool basic_ioctls ; unsigned long start , end , vma_end ; user_uffdio_register = ( struct uffdio_register __user * ) arg ; ret = - EFAULT ; if ( copy_from_user ( & uffdio_register , user_uffdio_register , sizeof ( uffdio_register ) - sizeof ( __u64 ) ) ) goto out ; ret = - EINVAL ; if ( ! uffdio_register . mode ) goto out ; if ( uffdio_register . mode & ~ ( UFFDIO_REGISTER_MODE_MISSING | UFFDIO_REGISTER_MODE_WP ) ) goto out ; vm_flags = 0 ; if ( uffdio_register . mode & UFFDIO_REGISTER_MODE_MISSING ) vm_flags |= VM_UFFD_MISSING ; if ( uffdio_register . mode & UFFDIO_REGISTER_MODE_WP ) { vm_flags |= VM_UFFD_WP ; ret = - EINVAL ; goto out ; } ret = validate_range ( mm , uffdio_register . range . start , uffdio_register . range . len ) ; if ( ret ) goto out ; start = uffdio_register . range . start ; end = start + uffdio_register . range . len ; ret = - ENOMEM ; if ( ! mmget_not_zero ( mm ) ) goto out ; down_write ( & mm -> mmap_sem ) ; vma = find_vma_prev ( mm , start , & prev ) ; if ( ! vma ) goto out_unlock ; ret = - EINVAL ; if ( vma -> vm_start >= end ) goto out_unlock ; if ( is_vm_hugetlb_page ( vma ) ) { unsigned long vma_hpagesize = vma_kernel_pagesize ( vma ) ; if ( start & ( vma_hpagesize - 1 ) ) goto out_unlock ; } found = false ; basic_ioctls = false ; for ( cur = vma ; cur && cur -> vm_start < end ; cur = cur -> vm_next ) { cond_resched ( ) ; BUG_ON ( ! ! cur -> vm_userfaultfd_ctx . ctx ^ ! ! ( cur -> vm_flags & ( VM_UFFD_MISSING | VM_UFFD_WP ) ) ) ; ret = - EINVAL ; if ( ! vma_can_userfault ( cur ) ) goto out_unlock ; ret = - EPERM ; if ( unlikely ( ! ( cur -> vm_flags & VM_MAYWRITE ) ) ) goto out_unlock ; if ( is_vm_hugetlb_page ( cur ) && end <= cur -> vm_end && end > cur -> vm_start ) { unsigned long vma_hpagesize = vma_kernel_pagesize ( cur ) ; ret = - EINVAL ; if ( end & ( vma_hpagesize - 1 ) ) goto out_unlock ; } ret = - EBUSY ; if ( cur -> vm_userfaultfd_ctx . ctx && cur -> vm_userfaultfd_ctx . ctx != ctx ) goto out_unlock ; if ( is_vm_hugetlb_page ( cur ) ) basic_ioctls = true ; found = true ; } BUG_ON ( ! found ) ; if ( vma -> vm_start < start ) prev = vma ; ret = 0 ; do { cond_resched ( ) ; BUG_ON ( ! vma_can_userfault ( vma ) ) ; BUG_ON ( vma -> vm_userfaultfd_ctx . ctx && vma -> vm_userfaultfd_ctx . ctx != ctx ) ; WARN_ON ( ! ( vma -> vm_flags & VM_MAYWRITE ) ) ; if ( vma -> vm_userfaultfd_ctx . ctx == ctx && ( vma -> vm_flags & vm_flags ) == vm_flags )","static int userfaultfd_register ( struct userfaultfd_ctx * ctx , unsigned long arg ) { struct mm_struct * mm = ctx -> mm ; struct vm_area_struct * vma , * prev , * cur ; int ret ; struct uffdio_register uffdio_register ; struct uffdio_register __user * user_uffdio_register ; unsigned long vm_flags , new_flags ; bool found ; bool basic_ioctls ; unsigned long start , end , vma_end ; user_uffdio_register = ( struct uffdio_register __user * ) arg ; ret = - EFAULT ; if ( copy_from_user ( & uffdio_register , user_uffdio_register , sizeof ( uffdio_register ) - sizeof ( __u64 ) ) ) goto out ; ret = - EINVAL ; if ( ! uffdio_register . mode ) goto out ; if ( uffdio_register . mode & ~ ( UFFDIO_REGISTER_MODE_MISSING | UFFDIO_REGISTER_MODE_WP ) ) goto out ; vm_flags = 0 ; if ( uffdio_register . mode & UFFDIO_REGISTER_MODE_MISSING ) vm_flags |= VM_UFFD_MISSING ; if ( uffdio_register . mode & UFFDIO_REGISTER_MODE_WP ) { vm_flags |= VM_UFFD_WP ; ret = - EINVAL ; goto out ; } ret = validate_range ( mm , uffdio_register . range . start , uffdio_register . range . len ) ; if ( ret ) goto out ; start = uffdio_register . range . start ; end = start + uffdio_register . range . len ; ret = - ENOMEM ; if ( ! mmget_not_zero ( mm ) ) goto out ; down_write ( & mm -> mmap_sem ) ; if ( ! mmget_still_valid ( mm ) ) goto out_unlock ; vma = find_vma_prev ( mm , start , & prev ) ; if ( ! vma ) goto out_unlock ; ret = - EINVAL ; if ( vma -> vm_start >= end ) goto out_unlock ; if ( is_vm_hugetlb_page ( vma ) ) { unsigned long vma_hpagesize = vma_kernel_pagesize ( vma ) ; if ( start & ( vma_hpagesize - 1 ) ) goto out_unlock ; } found = false ; basic_ioctls = false ; for ( cur = vma ; cur && cur -> vm_start < end ; cur = cur -> vm_next ) { cond_resched ( ) ; BUG_ON ( ! ! cur -> vm_userfaultfd_ctx . ctx ^ ! ! ( cur -> vm_flags & ( VM_UFFD_MISSING | VM_UFFD_WP ) ) ) ; ret = - EINVAL ; if ( ! vma_can_userfault ( cur ) ) goto out_unlock ; ret = - EPERM ; if ( unlikely ( ! ( cur -> vm_flags & VM_MAYWRITE ) ) ) goto out_unlock ; if ( is_vm_hugetlb_page ( cur ) && end <= cur -> vm_end && end > cur -> vm_start ) { unsigned long vma_hpagesize = vma_kernel_pagesize ( cur ) ; ret = - EINVAL ; if ( end & ( vma_hpagesize - 1 ) ) goto out_unlock ; } ret = - EBUSY ; if ( cur -> vm_userfaultfd_ctx . ctx && cur -> vm_userfaultfd_ctx . ctx != ctx ) goto out_unlock ; if ( is_vm_hugetlb_page ( cur ) ) basic_ioctls = true ; found = true ; } BUG_ON ( ! found ) ; if ( vma -> vm_start < start ) prev = vma ; ret = 0 ; do { cond_resched ( ) ; BUG_ON ( ! vma_can_userfault ( vma ) ) ; BUG_ON ( vma -> vm_userfaultfd_ctx . ctx && vma -> vm_userfaultfd_ctx . ctx != ctx ) ; WARN_ON ( ! ( vma -> vm_flags & VM_MAYWRITE ) ) ; if ( vma -> vm_userfaultfd_ctx . ctx == ctx && ( vma -> vm_flags & vm_flags ) == vm_flags )" 353,"CWE-120 int ConnectClientToUnixSock ( const char * sockFile ) { # ifdef WIN32 rfbClientErr ( ""Windows doesn\'t support UNIX sockets\\n"" ) ; return - 1 ; # else int sock ; struct sockaddr_un addr ; addr . sun_family = AF_UNIX ; strcpy ( addr . sun_path , sockFile ) ; sock = socket ( AF_UNIX , SOCK_STREAM , 0 ) ; if ( sock < 0 ) { rfbClientErr ( ""ConnectToUnixSock: socket (%s)\\n"" , strerror ( errno ) ) ; return - 1 ; } if ( connect ( sock , ( struct sockaddr * ) & addr , sizeof ( addr . sun_family ) + strlen ( addr . sun_path ) ) < 0 ) { rfbClientErr ( ""ConnectToUnixSock: connect\\n"" ) ; close ( sock ) ; return - 1 ; } return sock ; # endif }","int ConnectClientToUnixSock ( const char * sockFile ) { # ifdef WIN32 rfbClientErr ( ""Windows doesn\'t support UNIX sockets\\n"" ) ; return - 1 ; # else int sock ; struct sockaddr_un addr ; addr . sun_family = AF_UNIX ; if ( strlen ( sockFile ) + 1 > sizeof ( addr . sun_path ) ) { rfbClientErr ( ""ConnectToUnixSock: socket file name too long\\n"" ) ; return - 1 ; } strcpy ( addr . sun_path , sockFile ) ; sock = socket ( AF_UNIX , SOCK_STREAM , 0 ) ; if ( sock < 0 ) { rfbClientErr ( ""ConnectToUnixSock: socket (%s)\\n"" , strerror ( errno ) ) ; return - 1 ; } if ( connect ( sock , ( struct sockaddr * ) & addr , sizeof ( addr . sun_family ) + strlen ( addr . sun_path ) ) < 0 ) { rfbClientErr ( ""ConnectToUnixSock: connect\\n"" ) ; close ( sock ) ; return - 1 ; } return sock ; # endif }" 354,"CWE-476 static int tls_construct_cke_dhe ( SSL * s , unsigned char * * p , int * len , int * al ) { # ifndef OPENSSL_NO_DH DH * dh_clnt = NULL ; const BIGNUM * pub_key ; EVP_PKEY * ckey = NULL , * skey = NULL ; skey = s -> s3 -> peer_tmp ; if ( skey == NULL ) { SSLerr ( SSL_F_TLS_CONSTRUCT_CKE_DHE , ERR_R_INTERNAL_ERROR ) ; return 0 ; } ckey = ssl_generate_pkey ( skey ) ; dh_clnt = EVP_PKEY_get0_DH ( ckey ) ; if ( dh_clnt == NULL || ssl_derive ( s , ckey , skey ) == 0 ) { SSLerr ( SSL_F_TLS_CONSTRUCT_CKE_DHE , ERR_R_INTERNAL_ERROR ) ; EVP_PKEY_free ( ckey ) ; return 0 ; } DH_get0_key ( dh_clnt , & pub_key , NULL ) ; * len = BN_num_bytes ( pub_key ) ; s2n ( * len , * p ) ; BN_bn2bin ( pub_key , * p ) ; * len += 2 ; EVP_PKEY_free ( ckey ) ; return 1 ; # else SSLerr ( SSL_F_TLS_CONSTRUCT_CKE_DHE , ERR_R_INTERNAL_ERROR ) ; * al = SSL_AD_INTERNAL_ERROR ; return 0 ; # endif }","static int tls_construct_cke_dhe ( SSL * s , unsigned char * * p , int * len , int * al ) { # ifndef OPENSSL_NO_DH DH * dh_clnt = NULL ; const BIGNUM * pub_key ; EVP_PKEY * ckey = NULL , * skey = NULL ; skey = s -> s3 -> peer_tmp ; if ( skey == NULL ) { SSLerr ( SSL_F_TLS_CONSTRUCT_CKE_DHE , ERR_R_INTERNAL_ERROR ) ; return 0 ; } ckey = ssl_generate_pkey ( skey ) ; if ( ckey == NULL ) { SSLerr ( SSL_F_TLS_CONSTRUCT_CKE_DHE , ERR_R_INTERNAL_ERROR ) ; return 0 ; } dh_clnt = EVP_PKEY_get0_DH ( ckey ) ; if ( dh_clnt == NULL || ssl_derive ( s , ckey , skey ) == 0 ) { SSLerr ( SSL_F_TLS_CONSTRUCT_CKE_DHE , ERR_R_INTERNAL_ERROR ) ; EVP_PKEY_free ( ckey ) ; return 0 ; } DH_get0_key ( dh_clnt , & pub_key , NULL ) ; * len = BN_num_bytes ( pub_key ) ; s2n ( * len , * p ) ; BN_bn2bin ( pub_key , * p ) ; * len += 2 ; EVP_PKEY_free ( ckey ) ; return 1 ; # else SSLerr ( SSL_F_TLS_CONSTRUCT_CKE_DHE , ERR_R_INTERNAL_ERROR ) ; * al = SSL_AD_INTERNAL_ERROR ; return 0 ; # endif }" 355,"CWE-125 static int dhcpv6_print ( netdissect_options * ndo , const u_char * cp , u_int length , int indent ) { u_int i , t ; const u_char * tlv , * value ; uint16_t type , optlen ; i = 0 ; while ( i < length ) { tlv = cp + i ; type = EXTRACT_16BITS ( tlv ) ; optlen = EXTRACT_16BITS ( tlv + 2 ) ; value = tlv + 4 ; ND_PRINT ( ( ndo , ""\\n"" ) ) ; for ( t = indent ; t > 0 ; t -- ) ND_PRINT ( ( ndo , ""\\t"" ) ) ; ND_PRINT ( ( ndo , ""%s"" , tok2str ( dh6opt_str , ""Unknown"" , type ) ) ) ; ND_PRINT ( ( ndo , "" (%u)"" , optlen + 4 ) ) ; switch ( type ) { case DH6OPT_DNS_SERVERS : case DH6OPT_SNTP_SERVERS : { if ( optlen % 16 != 0 ) { ND_PRINT ( ( ndo , "" %s"" , istr ) ) ; return - 1 ; } for ( t = 0 ; t < optlen ; t += 16 ) ND_PRINT ( ( ndo , "" %s"" , ip6addr_string ( ndo , value + t ) ) ) ; } break ; case DH6OPT_DOMAIN_LIST : { const u_char * tp = value ; while ( tp < value + optlen ) { ND_PRINT ( ( ndo , "" "" ) ) ; if ( ( tp = ns_nprint ( ndo , tp , value + optlen ) ) == NULL ) return - 1 ; } } break ; } i += 4 + optlen ; } return 0 ; }","static int dhcpv6_print ( netdissect_options * ndo , const u_char * cp , u_int length , int indent ) { u_int i , t ; const u_char * tlv , * value ; uint16_t type , optlen ; i = 0 ; while ( i < length ) { if ( i + 4 > length ) return - 1 ; tlv = cp + i ; type = EXTRACT_16BITS ( tlv ) ; optlen = EXTRACT_16BITS ( tlv + 2 ) ; value = tlv + 4 ; ND_PRINT ( ( ndo , ""\\n"" ) ) ; for ( t = indent ; t > 0 ; t -- ) ND_PRINT ( ( ndo , ""\\t"" ) ) ; ND_PRINT ( ( ndo , ""%s"" , tok2str ( dh6opt_str , ""Unknown"" , type ) ) ) ; ND_PRINT ( ( ndo , "" (%u)"" , optlen + 4 ) ) ; if ( i + 4 + optlen > length ) return - 1 ; switch ( type ) { case DH6OPT_DNS_SERVERS : case DH6OPT_SNTP_SERVERS : { if ( optlen % 16 != 0 ) { ND_PRINT ( ( ndo , "" %s"" , istr ) ) ; return - 1 ; } for ( t = 0 ; t < optlen ; t += 16 ) ND_PRINT ( ( ndo , "" %s"" , ip6addr_string ( ndo , value + t ) ) ) ; } break ; case DH6OPT_DOMAIN_LIST : { const u_char * tp = value ; while ( tp < value + optlen ) { ND_PRINT ( ( ndo , "" "" ) ) ; if ( ( tp = ns_nprint ( ndo , tp , value + optlen ) ) == NULL ) return - 1 ; } } break ; } i += 4 + optlen ; } return 0 ; }" 356,"CWE-125 void common_timer_get ( struct k_itimer * timr , struct itimerspec64 * cur_setting ) { const struct k_clock * kc = timr -> kclock ; ktime_t now , remaining , iv ; struct timespec64 ts64 ; bool sig_none ; sig_none = ( timr -> it_sigev_notify & ~ SIGEV_THREAD_ID ) == SIGEV_NONE ; iv = timr -> it_interval ; if ( iv ) { cur_setting -> it_interval = ktime_to_timespec64 ( iv ) ; } else if ( ! timr -> it_active ) { if ( ! sig_none ) return ; } kc -> clock_get ( timr -> it_clock , & ts64 ) ; now = timespec64_to_ktime ( ts64 ) ; if ( iv && ( timr -> it_requeue_pending & REQUEUE_PENDING || sig_none ) ) timr -> it_overrun += kc -> timer_forward ( timr , now ) ; remaining = kc -> timer_remaining ( timr , now ) ; if ( remaining <= 0 ) { if ( ! sig_none ) cur_setting -> it_value . tv_nsec = 1 ; } else { cur_setting -> it_value = ktime_to_timespec64 ( remaining ) ; } }","void common_timer_get ( struct k_itimer * timr , struct itimerspec64 * cur_setting ) { const struct k_clock * kc = timr -> kclock ; ktime_t now , remaining , iv ; struct timespec64 ts64 ; bool sig_none ; sig_none = timr -> it_sigev_notify == SIGEV_NONE ; iv = timr -> it_interval ; if ( iv ) { cur_setting -> it_interval = ktime_to_timespec64 ( iv ) ; } else if ( ! timr -> it_active ) { if ( ! sig_none ) return ; } kc -> clock_get ( timr -> it_clock , & ts64 ) ; now = timespec64_to_ktime ( ts64 ) ; if ( iv && ( timr -> it_requeue_pending & REQUEUE_PENDING || sig_none ) ) timr -> it_overrun += kc -> timer_forward ( timr , now ) ; remaining = kc -> timer_remaining ( timr , now ) ; if ( remaining <= 0 ) { if ( ! sig_none ) cur_setting -> it_value . tv_nsec = 1 ; } else { cur_setting -> it_value = ktime_to_timespec64 ( remaining ) ; } }" 357,"CWE-200 static int open_url ( AVFormatContext * s , AVIOContext * * pb , const char * url , AVDictionary * opts , AVDictionary * opts2 , int * is_http ) { HLSContext * c = s -> priv_data ; AVDictionary * tmp = NULL ; const char * proto_name = NULL ; int ret ; av_dict_copy ( & tmp , opts , 0 ) ; av_dict_copy ( & tmp , opts2 , 0 ) ; if ( av_strstart ( url , ""crypto"" , NULL ) ) { if ( url [ 6 ] == '+' || url [ 6 ] == ':' ) proto_name = avio_find_protocol_name ( url + 7 ) ; } if ( ! proto_name ) proto_name = avio_find_protocol_name ( url ) ; if ( ! proto_name ) return AVERROR_INVALIDDATA ; if ( ! av_strstart ( proto_name , ""http"" , NULL ) && ! av_strstart ( proto_name , ""file"" , NULL ) ) return AVERROR_INVALIDDATA ; if ( ! strncmp ( proto_name , url , strlen ( proto_name ) ) && url [ strlen ( proto_name ) ] == ':' ) ; else if ( av_strstart ( url , ""crypto"" , NULL ) && ! strncmp ( proto_name , url + 7 , strlen ( proto_name ) ) && url [ 7 + strlen ( proto_name ) ] == ':' ) ; else if ( strcmp ( proto_name , ""file"" ) || ! strncmp ( url , ""file,"" , 5 ) ) return AVERROR_INVALIDDATA ; ret = s -> io_open ( s , pb , url , AVIO_FLAG_READ , & tmp ) ; if ( ret >= 0 ) { char * new_cookies = NULL ; if ( ! ( s -> flags & AVFMT_FLAG_CUSTOM_IO ) ) av_opt_get ( * pb , ""cookies"" , AV_OPT_SEARCH_CHILDREN , ( uint8_t * * ) & new_cookies ) ; if ( new_cookies ) { av_free ( c -> cookies ) ; c -> cookies = new_cookies ; } av_dict_set ( & opts , ""cookies"" , c -> cookies , 0 ) ; } av_dict_free ( & tmp ) ; if ( is_http ) * is_http = av_strstart ( proto_name , ""http"" , NULL ) ; return ret ; }","static int open_url ( AVFormatContext * s , AVIOContext * * pb , const char * url , AVDictionary * opts , AVDictionary * opts2 , int * is_http ) { HLSContext * c = s -> priv_data ; AVDictionary * tmp = NULL ; const char * proto_name = NULL ; int ret ; av_dict_copy ( & tmp , opts , 0 ) ; av_dict_copy ( & tmp , opts2 , 0 ) ; if ( av_strstart ( url , ""crypto"" , NULL ) ) { if ( url [ 6 ] == '+' || url [ 6 ] == ':' ) proto_name = avio_find_protocol_name ( url + 7 ) ; } if ( ! proto_name ) proto_name = avio_find_protocol_name ( url ) ; if ( ! proto_name ) return AVERROR_INVALIDDATA ; if ( av_strstart ( proto_name , ""file"" , NULL ) ) { if ( strcmp ( c -> allowed_extensions , ""ALL"" ) && ! av_match_ext ( url , c -> allowed_extensions ) ) { av_log ( s , AV_LOG_ERROR , ""Filename extension of \\\'%s\\\' is not a common multimedia extension, blocked for security reasons.\\n"" ""If you wish to override this adjust allowed_extensions, you can set it to \\\'ALL\\\' to allow all\\n"" , url ) ; return AVERROR_INVALIDDATA ; } } else if ( av_strstart ( proto_name , ""http"" , NULL ) ) { ; } else return AVERROR_INVALIDDATA ; if ( ! strncmp ( proto_name , url , strlen ( proto_name ) ) && url [ strlen ( proto_name ) ] == ':' ) ; else if ( av_strstart ( url , ""crypto"" , NULL ) && ! strncmp ( proto_name , url + 7 , strlen ( proto_name ) ) && url [ 7 + strlen ( proto_name ) ] == ':' ) ; else if ( strcmp ( proto_name , ""file"" ) || ! strncmp ( url , ""file,"" , 5 ) ) return AVERROR_INVALIDDATA ; ret = s -> io_open ( s , pb , url , AVIO_FLAG_READ , & tmp ) ; if ( ret >= 0 ) { char * new_cookies = NULL ; if ( ! ( s -> flags & AVFMT_FLAG_CUSTOM_IO ) ) av_opt_get ( * pb , ""cookies"" , AV_OPT_SEARCH_CHILDREN , ( uint8_t * * ) & new_cookies ) ; if ( new_cookies ) { av_free ( c -> cookies ) ; c -> cookies = new_cookies ; } av_dict_set ( & opts , ""cookies"" , c -> cookies , 0 ) ; } av_dict_free ( & tmp ) ; if ( is_http ) * is_http = av_strstart ( proto_name , ""http"" , NULL ) ; return ret ; }" 358,"CWE-20 static int get_cox ( Jpeg2000DecoderContext * s , Jpeg2000CodingStyle * c ) { uint8_t byte ; if ( bytestream2_get_bytes_left ( & s -> g ) < 5 ) return AVERROR_INVALIDDATA ; c -> nreslevels = bytestream2_get_byteu ( & s -> g ) + 1 ; if ( c -> nreslevels >= JPEG2000_MAX_RESLEVELS ) { av_log ( s -> avctx , AV_LOG_ERROR , ""nreslevels %d is invalid\\n"" , c -> nreslevels ) ; return AVERROR_INVALIDDATA ; } if ( c -> nreslevels < s -> reduction_factor ) c -> nreslevels2decode = 1 ; else c -> nreslevels2decode = c -> nreslevels - s -> reduction_factor ; c -> log2_cblk_width = ( bytestream2_get_byteu ( & s -> g ) & 15 ) + 2 ; c -> log2_cblk_height = ( bytestream2_get_byteu ( & s -> g ) & 15 ) + 2 ; if ( c -> log2_cblk_width > 10 || c -> log2_cblk_height > 10 || c -> log2_cblk_width + c -> log2_cblk_height > 12 ) { av_log ( s -> avctx , AV_LOG_ERROR , ""cblk size invalid\\n"" ) ; return AVERROR_INVALIDDATA ; } if ( c -> log2_cblk_width > 6 || c -> log2_cblk_height > 6 ) { avpriv_request_sample ( s -> avctx , ""cblk size > 64"" ) ; return AVERROR_PATCHWELCOME ; } c -> cblk_style = bytestream2_get_byteu ( & s -> g ) ; if ( c -> cblk_style != 0 ) { av_log ( s -> avctx , AV_LOG_WARNING , ""extra cblk styles %X\\n"" , c -> cblk_style ) ; } c -> transform = bytestream2_get_byteu ( & s -> g ) ; if ( ( s -> avctx -> flags & CODEC_FLAG_BITEXACT ) && ( c -> transform == FF_DWT97 ) ) c -> transform = FF_DWT97_INT ; if ( c -> csty & JPEG2000_CSTY_PREC ) { int i ; for ( i = 0 ; i < c -> nreslevels ; i ++ ) { byte = bytestream2_get_byte ( & s -> g ) ; c -> log2_prec_widths [ i ] = byte & 0x0F ; c -> log2_prec_heights [ i ] = ( byte >> 4 ) & 0x0F ; } } else { memset ( c -> log2_prec_widths , 15 , sizeof ( c -> log2_prec_widths ) ) ; memset ( c -> log2_prec_heights , 15 , sizeof ( c -> log2_prec_heights ) ) ; } return 0 ; }","static int get_cox ( Jpeg2000DecoderContext * s , Jpeg2000CodingStyle * c ) { uint8_t byte ; if ( bytestream2_get_bytes_left ( & s -> g ) < 5 ) return AVERROR_INVALIDDATA ; c -> nreslevels = bytestream2_get_byteu ( & s -> g ) + 1 ; if ( c -> nreslevels >= JPEG2000_MAX_RESLEVELS ) { av_log ( s -> avctx , AV_LOG_ERROR , ""nreslevels %d is invalid\\n"" , c -> nreslevels ) ; return AVERROR_INVALIDDATA ; } if ( c -> nreslevels <= s -> reduction_factor ) { av_log ( s -> avctx , AV_LOG_ERROR , ""reduction_factor too large for this bitstream, max is %d\\n"" , c -> nreslevels - 1 ) ; s -> reduction_factor = c -> nreslevels - 1 ; return AVERROR ( EINVAL ) ; } c -> nreslevels2decode = c -> nreslevels - s -> reduction_factor ; c -> log2_cblk_width = ( bytestream2_get_byteu ( & s -> g ) & 15 ) + 2 ; c -> log2_cblk_height = ( bytestream2_get_byteu ( & s -> g ) & 15 ) + 2 ; if ( c -> log2_cblk_width > 10 || c -> log2_cblk_height > 10 || c -> log2_cblk_width + c -> log2_cblk_height > 12 ) { av_log ( s -> avctx , AV_LOG_ERROR , ""cblk size invalid\\n"" ) ; return AVERROR_INVALIDDATA ; } if ( c -> log2_cblk_width > 6 || c -> log2_cblk_height > 6 ) { avpriv_request_sample ( s -> avctx , ""cblk size > 64"" ) ; return AVERROR_PATCHWELCOME ; } c -> cblk_style = bytestream2_get_byteu ( & s -> g ) ; if ( c -> cblk_style != 0 ) { av_log ( s -> avctx , AV_LOG_WARNING , ""extra cblk styles %X\\n"" , c -> cblk_style ) ; } c -> transform = bytestream2_get_byteu ( & s -> g ) ; if ( ( s -> avctx -> flags & CODEC_FLAG_BITEXACT ) && ( c -> transform == FF_DWT97 ) ) c -> transform = FF_DWT97_INT ; if ( c -> csty & JPEG2000_CSTY_PREC ) { int i ; for ( i = 0 ; i < c -> nreslevels ; i ++ ) { byte = bytestream2_get_byte ( & s -> g ) ; c -> log2_prec_widths [ i ] = byte & 0x0F ; c -> log2_prec_heights [ i ] = ( byte >> 4 ) & 0x0F ; } } else { memset ( c -> log2_prec_widths , 15 , sizeof ( c -> log2_prec_widths ) ) ; memset ( c -> log2_prec_heights , 15 , sizeof ( c -> log2_prec_heights ) ) ; } return 0 ; }" 359,"CWE-119 int psf_binheader_writef ( SF_PRIVATE * psf , const char * format , ... ) { va_list argptr ; sf_count_t countdata ; unsigned long longdata ; unsigned int data ; float floatdata ; double doubledata ; void * bindata ; size_t size ; char c , * strptr ; int count = 0 , trunc_8to4 ; trunc_8to4 = SF_FALSE ; va_start ( argptr , format ) ; while ( ( c = * format ++ ) ) { switch ( c ) { case ' ' : break ; case 'e' : psf -> rwf_endian = SF_ENDIAN_LITTLE ; break ; case 'E' : psf -> rwf_endian = SF_ENDIAN_BIG ; break ; case 't' : trunc_8to4 = SF_TRUE ; break ; case 'T' : trunc_8to4 = SF_FALSE ; break ; case 'm' : data = va_arg ( argptr , unsigned int ) ; header_put_marker ( psf , data ) ; count += 4 ; break ; case '1' : data = va_arg ( argptr , unsigned int ) ; header_put_byte ( psf , data ) ; count += 1 ; break ; case '2' : data = va_arg ( argptr , unsigned int ) ; if ( psf -> rwf_endian == SF_ENDIAN_BIG ) { header_put_be_short ( psf , data ) ; } else { header_put_le_short ( psf , data ) ; } ; count += 2 ; break ; case '3' : data = va_arg ( argptr , unsigned int ) ; if ( psf -> rwf_endian == SF_ENDIAN_BIG ) { header_put_be_3byte ( psf , data ) ; } else { header_put_le_3byte ( psf , data ) ; } ; count += 3 ; break ; case '4' : data = va_arg ( argptr , unsigned int ) ; if ( psf -> rwf_endian == SF_ENDIAN_BIG ) { header_put_be_int ( psf , data ) ; } else { header_put_le_int ( psf , data ) ; } ; count += 4 ; break ; case '8' : countdata = va_arg ( argptr , sf_count_t ) ; if ( psf -> rwf_endian == SF_ENDIAN_BIG && trunc_8to4 == SF_FALSE ) { header_put_be_8byte ( psf , countdata ) ; count += 8 ; } else if ( psf -> rwf_endian == SF_ENDIAN_LITTLE && trunc_8to4 == SF_FALSE ) { header_put_le_8byte ( psf , countdata ) ; count += 8 ; } else if ( psf -> rwf_endian == SF_ENDIAN_BIG && trunc_8to4 == SF_TRUE ) { longdata = countdata & 0xFFFFFFFF ; header_put_be_int ( psf , longdata ) ; count += 4 ; } else if ( psf -> rwf_endian == SF_ENDIAN_LITTLE && trunc_8to4 == SF_TRUE ) { longdata = countdata & 0xFFFFFFFF ; header_put_le_int ( psf , longdata ) ; count += 4 ; } break ; case 'f' : floatdata = ( float ) va_arg ( argptr , double ) ; if ( psf -> rwf_endian == SF_ENDIAN_BIG ) float32_be_write ( floatdata , psf -> header + psf -> headindex ) ; else float32_le_write ( floatdata , psf -> header + psf -> headindex ) ; psf -> headindex += 4 ; count += 4 ; break ; case 'd' : doubledata = va_arg ( argptr , double ) ; if ( psf -> rwf_endian == SF_ENDIAN_BIG ) double64_be_write ( doubledata , psf -> header + psf -> headindex ) ; else double64_le_write ( doubledata , psf -> header + psf -> headindex ) ; psf -> headindex += 8 ; count += 8 ; break ; case 's' : strptr = va_arg ( argptr , char * ) ; size = strlen ( strptr ) + 1 ; size += ( size & 1 ) ; if ( psf -> rwf_endian == SF_ENDIAN_BIG ) header_put_be_int ( psf , size ) ; else header_put_le_int ( psf , size ) ; memcpy ( & ( psf -> header [ psf -> headindex ] ) , strptr , size ) ; psf -> headindex += size ; psf -> header [ psf -> headindex - 1 ] = 0 ; count += 4 + size ; break ; case 'S' : strptr = va_arg ( argptr , char * ) ; size = strlen ( strptr ) ; if ( psf -> rwf_endian == SF_ENDIAN_BIG ) header_put_be_int ( psf , size ) ; else header_put_le_int ( psf , size ) ; memcpy ( & ( psf -> header [ psf -> headindex ] ) , strptr , size + 1 ) ; size += ( size & 1 ) ; psf -> headindex += size ; psf -> header [ psf -> headindex ] = 0 ; count += 4 + size ; break ; case 'p' : strptr = va_arg ( argptr , char * ) ; size = strlen ( strptr ) ; size = ( size & 1 ) ? size : size + 1 ; size = ( size > 254 ) ? 254 : size ; header_put_byte ( psf , size ) ; memcpy ( & ( psf -> header [ psf -> headindex ] ) , strptr , size ) ; psf -> headindex += size ; count += 1 + size ; break ; case 'b' : bindata = va_arg ( argptr , void * ) ; size = va_arg ( argptr , size_t ) ; if ( psf -> headindex + size < sizeof ( psf -> header ) ) { memcpy ( & ( psf -> header [ psf -> headindex ] ) , bindata , size ) ; psf -> headindex += size ; count += size ; } ; break ; case 'z' : size = va_arg ( argptr , size_t ) ; count += size ; while ( size ) { psf -> header [ psf -> headindex ] = 0 ; psf -> headindex ++ ; size -- ; } ; break ; case 'h' : bindata = va_arg ( argptr , void * ) ; memcpy ( & ( psf -> header [ psf -> headindex ] ) , bindata , 16 ) ; psf -> headindex += 16 ; count += 16 ; break ; case 'j' : size = va_arg ( argptr , size_t ) ; psf -> headindex += size ; count += size ; break ; case 'o' : size = va_arg ( argptr , size_t ) ; if ( size < sizeof ( psf -> header ) ) { psf -> headindex = size ; count = 0 ; } ; break ; default : psf_log_printf ( psf , ""*** Invalid format specifier `%c\'\\n"" , c ) ; psf -> error = SFE_INTERNAL ; break ; } ; } ; va_end ( argptr ) ; return count ; }","int psf_binheader_writef ( SF_PRIVATE * psf , const char * format , ... ) { va_list argptr ; sf_count_t countdata ; unsigned long longdata ; unsigned int data ; float floatdata ; double doubledata ; void * bindata ; size_t size ; char c , * strptr ; int count = 0 , trunc_8to4 ; trunc_8to4 = SF_FALSE ; va_start ( argptr , format ) ; while ( ( c = * format ++ ) ) { if ( psf -> header . indx + 16 >= psf -> header . len && psf_bump_header_allocation ( psf , 16 ) ) return count ; switch ( c ) { case ' ' : break ; case 'e' : psf -> rwf_endian = SF_ENDIAN_LITTLE ; break ; case 'E' : psf -> rwf_endian = SF_ENDIAN_BIG ; break ; case 't' : trunc_8to4 = SF_TRUE ; break ; case 'T' : trunc_8to4 = SF_FALSE ; break ; case 'm' : data = va_arg ( argptr , unsigned int ) ; header_put_marker ( psf , data ) ; count += 4 ; break ; case '1' : data = va_arg ( argptr , unsigned int ) ; header_put_byte ( psf , data ) ; count += 1 ; break ; case '2' : data = va_arg ( argptr , unsigned int ) ; if ( psf -> rwf_endian == SF_ENDIAN_BIG ) { header_put_be_short ( psf , data ) ; } else { header_put_le_short ( psf , data ) ; } ; count += 2 ; break ; case '3' : data = va_arg ( argptr , unsigned int ) ; if ( psf -> rwf_endian == SF_ENDIAN_BIG ) { header_put_be_3byte ( psf , data ) ; } else { header_put_le_3byte ( psf , data ) ; } ; count += 3 ; break ; case '4' : data = va_arg ( argptr , unsigned int ) ; if ( psf -> rwf_endian == SF_ENDIAN_BIG ) { header_put_be_int ( psf , data ) ; } else { header_put_le_int ( psf , data ) ; } ; count += 4 ; break ; case '8' : countdata = va_arg ( argptr , sf_count_t ) ; if ( psf -> rwf_endian == SF_ENDIAN_BIG && trunc_8to4 == SF_FALSE ) { header_put_be_8byte ( psf , countdata ) ; count += 8 ; } else if ( psf -> rwf_endian == SF_ENDIAN_LITTLE && trunc_8to4 == SF_FALSE ) { header_put_le_8byte ( psf , countdata ) ; count += 8 ; } else if ( psf -> rwf_endian == SF_ENDIAN_BIG && trunc_8to4 == SF_TRUE ) { longdata = countdata & 0xFFFFFFFF ; header_put_be_int ( psf , longdata ) ; count += 4 ; } else if ( psf -> rwf_endian == SF_ENDIAN_LITTLE && trunc_8to4 == SF_TRUE ) { longdata = countdata & 0xFFFFFFFF ; header_put_le_int ( psf , longdata ) ; count += 4 ; } break ; case 'f' : floatdata = ( float ) va_arg ( argptr , double ) ; if ( psf -> rwf_endian == SF_ENDIAN_BIG ) float32_be_write ( floatdata , psf -> header . ptr + psf -> header . indx ) ; else float32_le_write ( floatdata , psf -> header . ptr + psf -> header . indx ) ; psf -> header . indx += 4 ; count += 4 ; break ; case 'd' : doubledata = va_arg ( argptr , double ) ; if ( psf -> rwf_endian == SF_ENDIAN_BIG ) double64_be_write ( doubledata , psf -> header . ptr + psf -> header . indx ) ; else double64_le_write ( doubledata , psf -> header . ptr + psf -> header . indx ) ; psf -> header . indx += 8 ; count += 8 ; break ; case 's' : strptr = va_arg ( argptr , char * ) ; size = strlen ( strptr ) + 1 ; size += ( size & 1 ) ; if ( psf -> header . indx + ( sf_count_t ) size >= psf -> header . len && psf_bump_header_allocation ( psf , 16 ) ) return count ; if ( psf -> rwf_endian == SF_ENDIAN_BIG ) header_put_be_int ( psf , size ) ; else header_put_le_int ( psf , size ) ; memcpy ( & ( psf -> header . ptr [ psf -> header . indx ] ) , strptr , size ) ; psf -> header . indx += size ; psf -> header . ptr [ psf -> header . indx - 1 ] = 0 ; count += 4 + size ; break ; case 'S' : strptr = va_arg ( argptr , char * ) ; size = strlen ( strptr ) ; if ( psf -> header . indx + ( sf_count_t ) size > psf -> header . len && psf_bump_header_allocation ( psf , size ) ) return count ; if ( psf -> rwf_endian == SF_ENDIAN_BIG ) header_put_be_int ( psf , size ) ; else header_put_le_int ( psf , size ) ; memcpy ( & ( psf -> header . ptr [ psf -> header . indx ] ) , strptr , size + 1 ) ; size += ( size & 1 ) ; psf -> header . indx += size ; psf -> header . ptr [ psf -> header . indx ] = 0 ; count += 4 + size ; break ; case 'p' : strptr = va_arg ( argptr , char * ) ; size = strlen ( strptr ) ; size = ( size & 1 ) ? size : size + 1 ; size = ( size > 254 ) ? 254 : size ; if ( psf -> header . indx + ( sf_count_t ) size > psf -> header . len && psf_bump_header_allocation ( psf , size ) ) return count ; header_put_byte ( psf , size ) ; memcpy ( & ( psf -> header . ptr [ psf -> header . indx ] ) , strptr , size ) ; psf -> header . indx += size ; count += 1 + size ; break ; case 'b' : bindata = va_arg ( argptr , void * ) ; size = va_arg ( argptr , size_t ) ; if ( psf -> header . indx + ( sf_count_t ) size > psf -> header . len && psf_bump_header_allocation ( psf , size ) ) return count ; memcpy ( & ( psf -> header . ptr [ psf -> header . indx ] ) , bindata , size ) ; psf -> header . indx += size ; count += size ; break ; case 'z' : size = va_arg ( argptr , size_t ) ; if ( psf -> header . indx + ( sf_count_t ) size > psf -> header . len && psf_bump_header_allocation ( psf , size ) ) return count ; count += size ; while ( size ) { psf -> header . ptr [ psf -> header . indx ] = 0 ; psf -> header . indx ++ ; size -- ; } ; break ; case 'h' : bindata = va_arg ( argptr , void * ) ; memcpy ( & ( psf -> header . ptr [ psf -> header . indx ] ) , bindata , 16 ) ; psf -> header . indx += 16 ; count += 16 ; break ; case 'j' : size = va_arg ( argptr , size_t ) ; if ( psf -> header . indx + ( sf_count_t ) size > psf -> header . len && psf_bump_header_allocation ( psf , size ) ) return count ; psf -> header . indx += size ; count += size ; break ; case 'o' : size = va_arg ( argptr , size_t ) ; if ( ( sf_count_t ) size >= psf -> header . len && psf_bump_header_allocation ( psf , size ) ) return count ; psf -> header . indx = size ; break ; default : psf_log_printf ( psf , ""*** Invalid format specifier `%c\'\\n"" , c ) ; psf -> error = SFE_INTERNAL ; break ; } ; } ; va_end ( argptr ) ; return count ; }" 360,"CWE-404 static int omninet_open ( struct tty_struct * tty , struct usb_serial_port * port ) { struct usb_serial * serial = port -> serial ; struct usb_serial_port * wport ; wport = serial -> port [ 1 ] ; tty_port_tty_set ( & wport -> port , tty ) ; return usb_serial_generic_open ( tty , port ) ; }","static int omninet_open ( struct tty_struct * tty , struct usb_serial_port * port ) { return usb_serial_generic_open ( tty , port ) ; }" 361,"CWE-787 next = ptr ++ ; if ( isspace ( * next ) ) continue ; switch ( * next ) { case ')' : case '\\0' : break ; case '&' : case '|' : if ( next [ 1 ] == next [ 0 ] ) { ptr ++ ; break ; } default : parse_error ( pe , FILT_ERR_TOO_MANY_PREDS , next - str ) ; goto out_free ; } invert = * top & INVERT ; if ( * top & PROCESS_AND ) { update_preds ( prog , N - 1 , invert ) ; * top &= ~ PROCESS_AND ; } if ( * next == '&' ) { * top |= PROCESS_AND ; break ; } if ( * top & PROCESS_OR ) { update_preds ( prog , N - 1 , ! invert ) ; * top &= ~ PROCESS_OR ; } if ( * next == '|' ) { * top |= PROCESS_OR ; break ; } if ( ! * next ) goto out ; if ( top == op_stack ) { ret = - 1 ; parse_error ( pe , FILT_ERR_TOO_MANY_CLOSE , ptr - str ) ; goto out_free ; } top -- ; } } out : if ( top != op_stack ) { parse_error ( pe , FILT_ERR_TOO_MANY_OPEN , ptr - str ) ; goto out_free ; } prog [ N ] . pred = NULL ; prog [ N ] . target = 1 ; prog [ N + 1 ] . pred = NULL ; prog [ N + 1 ] . target = 0 ; prog [ N - 1 ] . target = N ; prog [ N - 1 ] . when_to_branch = false ; for ( i = N - 1 ; i -- ; ) { int target = prog [ i ] . target ; if ( prog [ i ] . when_to_branch == prog [ target ] . when_to_branch ) prog [ i ] . target = prog [ target ] . target ; } for ( i = 0 ; i < N ; i ++ ) { invert = inverts [ i ] ^ prog [ i ] . when_to_branch ; prog [ i ] . when_to_branch = invert ; if ( WARN_ON ( prog [ i ] . target <= i ) ) { ret = - EINVAL ; goto out_free ; } } return prog ; out_free : kfree ( op_stack ) ; kfree ( prog_stack ) ; kfree ( inverts ) ; return ERR_PTR ( ret ) ; }","next = ptr ++ ; if ( isspace ( * next ) ) continue ; switch ( * next ) { case ')' : case '\\0' : break ; case '&' : case '|' : if ( next [ 1 ] == next [ 0 ] ) { ptr ++ ; break ; } default : parse_error ( pe , FILT_ERR_TOO_MANY_PREDS , next - str ) ; goto out_free ; } invert = * top & INVERT ; if ( * top & PROCESS_AND ) { update_preds ( prog , N - 1 , invert ) ; * top &= ~ PROCESS_AND ; } if ( * next == '&' ) { * top |= PROCESS_AND ; break ; } if ( * top & PROCESS_OR ) { update_preds ( prog , N - 1 , ! invert ) ; * top &= ~ PROCESS_OR ; } if ( * next == '|' ) { * top |= PROCESS_OR ; break ; } if ( ! * next ) goto out ; if ( top == op_stack ) { ret = - 1 ; parse_error ( pe , FILT_ERR_TOO_MANY_CLOSE , ptr - str ) ; goto out_free ; } top -- ; } } out : if ( top != op_stack ) { parse_error ( pe , FILT_ERR_TOO_MANY_OPEN , ptr - str ) ; goto out_free ; } if ( ! N ) { ret = - EINVAL ; parse_error ( pe , FILT_ERR_NO_FILTER , ptr - str ) ; goto out_free ; } prog [ N ] . pred = NULL ; prog [ N ] . target = 1 ; prog [ N + 1 ] . pred = NULL ; prog [ N + 1 ] . target = 0 ; prog [ N - 1 ] . target = N ; prog [ N - 1 ] . when_to_branch = false ; for ( i = N - 1 ; i -- ; ) { int target = prog [ i ] . target ; if ( prog [ i ] . when_to_branch == prog [ target ] . when_to_branch ) prog [ i ] . target = prog [ target ] . target ; } for ( i = 0 ; i < N ; i ++ ) { invert = inverts [ i ] ^ prog [ i ] . when_to_branch ; prog [ i ] . when_to_branch = invert ; if ( WARN_ON ( prog [ i ] . target <= i ) ) { ret = - EINVAL ; goto out_free ; } } return prog ; out_free : kfree ( op_stack ) ; kfree ( prog_stack ) ; kfree ( inverts ) ; return ERR_PTR ( ret ) ; }" 362,"CWE-399 static int cib_tls_signon ( cib_t * cib , struct remote_connection_s * connection ) { int sock ; cib_remote_opaque_t * private = cib -> variant_opaque ; struct sockaddr_in addr ; int rc = 0 ; char * server = private -> server ; int ret_ga ; struct addrinfo * res ; struct addrinfo hints ; xmlNode * answer = NULL ; xmlNode * login = NULL ; static struct mainloop_fd_callbacks cib_fd_callbacks = { . dispatch = cib_remote_dispatch , . destroy = cib_remote_connection_destroy , } ; connection -> socket = 0 ; connection -> session = NULL ; sock = socket ( PF_INET , SOCK_STREAM , IPPROTO_TCP ) ; if ( sock == - 1 ) { crm_perror ( LOG_ERR , ""Socket creation failed"" ) ; return - 1 ; } bzero ( & hints , sizeof ( struct addrinfo ) ) ; hints . ai_flags = AI_CANONNAME ; hints . ai_family = AF_INET ; hints . ai_socktype = SOCK_RAW ; if ( hints . ai_family == AF_INET6 ) { hints . ai_protocol = IPPROTO_ICMPV6 ; } else { hints . ai_protocol = IPPROTO_ICMP ; } crm_debug ( ""Looking up %s"" , server ) ; ret_ga = getaddrinfo ( server , NULL , & hints , & res ) ; if ( ret_ga ) { crm_err ( ""getaddrinfo: %s"" , gai_strerror ( ret_ga ) ) ; close ( sock ) ; return - 1 ; } if ( res -> ai_canonname ) { server = res -> ai_canonname ; } crm_debug ( ""Got address %s for %s"" , server , private -> server ) ; if ( ! res -> ai_addr ) { fprintf ( stderr , ""getaddrinfo failed"" ) ; crm_exit ( 1 ) ; } # if 1 memcpy ( & addr , res -> ai_addr , res -> ai_addrlen ) ; # else memset ( & addr , 0 , sizeof ( addr ) ) ; addr . sin_family = AF_INET ; addr . sin_addr . s_addr = inet_addr ( server ) ; # endif addr . sin_port = htons ( private -> port ) ; if ( connect ( sock , ( struct sockaddr * ) & addr , sizeof ( addr ) ) == - 1 ) { crm_perror ( LOG_ERR , ""Connection to %s:%d failed"" , server , private -> port ) ; close ( sock ) ; return - 1 ; } if ( connection -> encrypted ) { # ifdef HAVE_GNUTLS_GNUTLS_H gnutls_global_init ( ) ; gnutls_anon_allocate_client_credentials ( & anon_cred_c ) ; connection -> session = create_tls_session ( sock , GNUTLS_CLIENT ) ; if ( connection -> session == NULL ) { crm_perror ( LOG_ERR , ""Session creation for %s:%d failed"" , server , private -> port ) ; close ( sock ) ; cib_tls_close ( cib ) ; return - 1 ; } # else return - EPROTONOSUPPORT ; # endif } else { connection -> session = GUINT_TO_POINTER ( sock ) ; } login = create_xml_node ( NULL , ""cib_command"" ) ; crm_xml_add ( login , ""op"" , ""authenticate"" ) ; crm_xml_add ( login , ""user"" , private -> user ) ; crm_xml_add ( login , ""password"" , private -> passwd ) ; crm_xml_add ( login , ""hidden"" , ""password"" ) ; crm_send_remote_msg ( connection -> session , login , connection -> encrypted ) ; free_xml ( login ) ; answer = crm_recv_remote_msg ( connection -> session , connection -> encrypted ) ; crm_log_xml_trace ( answer , ""Reply"" ) ; if ( answer == NULL ) { rc = - EPROTO ; } else { const char * msg_type = crm_element_value ( answer , F_CIB_OPERATION ) ; const char * tmp_ticket = crm_element_value ( answer , F_CIB_CLIENTID ) ; if ( safe_str_neq ( msg_type , CRM_OP_REGISTER ) ) { crm_err ( ""Invalid registration message: %s"" , msg_type ) ; rc = - EPROTO ; } else if ( tmp_ticket == NULL ) { rc = - EPROTO ; } else { connection -> token = strdup ( tmp_ticket ) ; } } if ( rc != 0 ) { cib_tls_close ( cib ) ; } connection -> socket = sock ; connection -> source = mainloop_add_fd ( ""cib-remote"" , G_PRIORITY_HIGH , connection -> socket , cib , & cib_fd_callbacks ) ; return rc ; }","static int cib_tls_signon ( cib_t * cib , struct remote_connection_s * connection , gboolean event_channel ) { int sock ; cib_remote_opaque_t * private = cib -> variant_opaque ; int rc = 0 ; int disconnected = 0 ; xmlNode * answer = NULL ; xmlNode * login = NULL ; static struct mainloop_fd_callbacks cib_fd_callbacks = { 0 , } ; cib_fd_callbacks . dispatch = event_channel ? cib_remote_callback_dispatch : cib_remote_command_dispatch ; cib_fd_callbacks . destroy = cib_remote_connection_destroy ; connection -> socket = 0 ; connection -> session = NULL ; sock = crm_remote_tcp_connect ( private -> server , private -> port ) ; if ( sock <= 0 ) { crm_perror ( LOG_ERR , ""remote tcp connection to %s:%d failed"" , private -> server , private -> port ) ; } connection -> socket = sock ; if ( connection -> encrypted ) { # ifdef HAVE_GNUTLS_GNUTLS_H if ( remote_gnutls_credentials_init == FALSE ) { gnutls_global_init ( ) ; gnutls_anon_allocate_client_credentials ( & anon_cred_c ) ; remote_gnutls_credentials_init = TRUE ; } connection -> session = crm_create_anon_tls_session ( sock , GNUTLS_CLIENT , anon_cred_c ) ; if ( crm_initiate_client_tls_handshake ( connection -> session , DEFAULT_CLIENT_HANDSHAKE_TIMEOUT ) != 0 ) { crm_err ( ""Session creation for %s:%d failed"" , private -> server , private -> port ) ; gnutls_deinit ( * connection -> session ) ; gnutls_free ( connection -> session ) ; connection -> session = NULL ; cib_tls_close ( cib ) ; return - 1 ; } # else return - EPROTONOSUPPORT ; # endif } else { connection -> session = GUINT_TO_POINTER ( sock ) ; } login = create_xml_node ( NULL , ""cib_command"" ) ; crm_xml_add ( login , ""op"" , ""authenticate"" ) ; crm_xml_add ( login , ""user"" , private -> user ) ; crm_xml_add ( login , ""password"" , private -> passwd ) ; crm_xml_add ( login , ""hidden"" , ""password"" ) ; crm_send_remote_msg ( connection -> session , login , connection -> encrypted ) ; free_xml ( login ) ; crm_recv_remote_msg ( connection -> session , & connection -> recv_buf , connection -> encrypted , - 1 , & disconnected ) ; if ( disconnected ) { rc = - ENOTCONN ; } answer = crm_parse_remote_buffer ( & connection -> recv_buf ) ; crm_log_xml_trace ( answer , ""Reply"" ) ; if ( answer == NULL ) { rc = - EPROTO ; } else { const char * msg_type = crm_element_value ( answer , F_CIB_OPERATION ) ; const char * tmp_ticket = crm_element_value ( answer , F_CIB_CLIENTID ) ; if ( safe_str_neq ( msg_type , CRM_OP_REGISTER ) ) { crm_err ( ""Invalid registration message: %s"" , msg_type ) ; rc = - EPROTO ; } else if ( tmp_ticket == NULL ) { rc = - EPROTO ; } else { connection -> token = strdup ( tmp_ticket ) ; } } free_xml ( answer ) ; answer = NULL ; if ( rc != 0 ) { cib_tls_close ( cib ) ; return rc ; } crm_trace ( ""remote client connection established"" ) ; connection -> source = mainloop_add_fd ( ""cib-remote"" , G_PRIORITY_HIGH , connection -> socket , cib , & cib_fd_callbacks ) ; return rc ; }" 363,"nan COPYTHECONTEXT ( ""SH: slice_type"" , ( u1_slice_type ) ) ; ps_dec -> u1_sl_typ_5_9 = 0 ; if ( u1_slice_type > 4 ) { u1_slice_type -= 5 ; ps_dec -> u1_sl_typ_5_9 = 1 ; } { UWORD32 skip ; if ( ( ps_dec -> i4_app_skip_mode == IVD_SKIP_PB ) || ( ps_dec -> i4_dec_skip_mode == IVD_SKIP_PB ) ) { UWORD32 u4_bit_stream_offset = 0 ; if ( ps_dec -> u1_nal_unit_type == IDR_SLICE_NAL ) { skip = 0 ; ps_dec -> i4_dec_skip_mode = IVD_SKIP_NONE ; } else if ( ( I_SLICE == u1_slice_type ) && ( 1 >= ps_dec -> ps_cur_sps -> u1_num_ref_frames ) ) { skip = 0 ; ps_dec -> i4_dec_skip_mode = IVD_SKIP_NONE ; } else { skip = 1 ; } if ( ( 0 == u2_first_mb_in_slice ) && ( 1 == ps_dec -> u4_prev_nal_skipped ) ) { skip = 0 ; } if ( skip ) { ps_dec -> u4_prev_nal_skipped = 1 ; ps_dec -> i4_dec_skip_mode = IVD_SKIP_PB ; return 0 ; } else { if ( 1 == ps_dec -> u4_prev_nal_skipped ) { ps_dec -> u4_return_to_app = 1 ; return 0 ; } } } } u4_temp = ih264d_uev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) ; if ( u4_temp & MASK_ERR_PIC_SET_ID ) return ERROR_INV_SPS_PPS_T ; COPYTHECONTEXT ( ""SH: pic_parameter_set_id"" , u4_temp ) ; ps_pps = & ps_dec -> ps_pps [ u4_temp ] ; if ( FALSE == ps_pps -> u1_is_valid ) { return ERROR_INV_SPS_PPS_T ; } ps_seq = ps_pps -> ps_sps ; if ( ! ps_seq ) return ERROR_INV_SPS_PPS_T ; if ( FALSE == ps_seq -> u1_is_valid ) return ERROR_INV_SPS_PPS_T ; u2_frame_num = ih264d_get_bits_h264 ( ps_bitstrm , ps_seq -> u1_bits_in_frm_num ) ; COPYTHECONTEXT ( ""SH: frame_num"" , u2_frame_num ) ; if ( ! ps_seq -> u1_frame_mbs_only_flag ) { u1_field_pic_flag = ih264d_get_bit_h264 ( ps_bitstrm ) ; COPYTHECONTEXT ( ""SH: field_pic_flag"" , u1_field_pic_flag ) ; u1_bottom_field_flag = 0 ; if ( u1_field_pic_flag ) { ps_dec -> pu1_inv_scan = ( UWORD8 * ) gau1_ih264d_inv_scan_fld ; u1_bottom_field_flag = ih264d_get_bit_h264 ( ps_bitstrm ) ; COPYTHECONTEXT ( ""SH: bottom_field_flag"" , u1_bottom_field_flag ) ; } else { ps_dec -> pu1_inv_scan = ( UWORD8 * ) gau1_ih264d_inv_scan ; } } else { u1_field_pic_flag = 0 ; u1_bottom_field_flag = 0 ; ps_dec -> pu1_inv_scan = ( UWORD8 * ) gau1_ih264d_inv_scan ; } u1_nal_unit_type = SLICE_NAL ; if ( u1_is_idr_slice ) { if ( 0 == u1_field_pic_flag ) { ps_dec -> u1_top_bottom_decoded = TOP_FIELD_ONLY | BOT_FIELD_ONLY ; } u1_nal_unit_type = IDR_SLICE_NAL ; u4_idr_pic_id = ih264d_uev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) ; if ( u4_idr_pic_id > 65535 ) return ERROR_INV_SPS_PPS_T ; COPYTHECONTEXT ( ""SH: "" , u4_idr_pic_id ) ; } i_delta_poc [ 0 ] = i_delta_poc [ 1 ] = 0 ; s_tmp_poc . i4_pic_order_cnt_lsb = 0 ; s_tmp_poc . i4_delta_pic_order_cnt_bottom = 0 ; u1_pic_order_cnt_type = ps_seq -> u1_pic_order_cnt_type ; if ( u1_pic_order_cnt_type == 0 ) { i_temp = ih264d_get_bits_h264 ( ps_bitstrm , ps_seq -> u1_log2_max_pic_order_cnt_lsb_minus ) ; if ( i_temp < 0 || i_temp >= ps_seq -> i4_max_pic_order_cntLsb ) return ERROR_INV_SPS_PPS_T ; s_tmp_poc . i4_pic_order_cnt_lsb = i_temp ; COPYTHECONTEXT ( ""SH: pic_order_cnt_lsb"" , s_tmp_poc . i4_pic_order_cnt_lsb ) ; if ( ( ps_pps -> u1_pic_order_present_flag == 1 ) && ( ! u1_field_pic_flag ) ) { s_tmp_poc . i4_delta_pic_order_cnt_bottom = ih264d_sev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) ; COPYTHECONTEXT ( ""SH: delta_pic_order_cnt_bottom"" , s_tmp_poc . i4_delta_pic_order_cnt_bottom ) ; } } s_tmp_poc . i4_delta_pic_order_cnt [ 0 ] = 0 ; s_tmp_poc . i4_delta_pic_order_cnt [ 1 ] = 0 ; if ( u1_pic_order_cnt_type == 1 && ( ! ps_seq -> u1_delta_pic_order_always_zero_flag ) ) { s_tmp_poc . i4_delta_pic_order_cnt [ 0 ] = ih264d_sev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) ; COPYTHECONTEXT ( ""SH: delta_pic_order_cnt[0]"" , s_tmp_poc . i4_delta_pic_order_cnt [ 0 ] ) ; if ( ps_pps -> u1_pic_order_present_flag && ! u1_field_pic_flag ) { s_tmp_poc . i4_delta_pic_order_cnt [ 1 ] = ih264d_sev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) ; COPYTHECONTEXT ( ""SH: delta_pic_order_cnt[1]"" , s_tmp_poc . i4_delta_pic_order_cnt [ 1 ] ) ; } } if ( ps_pps -> u1_redundant_pic_cnt_present_flag ) { u4_temp = ih264d_uev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) ; if ( u4_temp > MAX_REDUNDANT_PIC_CNT ) return ERROR_INV_SPS_PPS_T ; u1_redundant_pic_cnt = u4_temp ; COPYTHECONTEXT ( ""SH: redundant_pic_cnt"" , u1_redundant_pic_cnt ) ; } i1_is_end_of_poc = 0 ; if ( ! ps_dec -> u1_first_slice_in_stream ) { i1_is_end_of_poc = ih264d_is_end_of_pic ( u2_frame_num , u1_nal_ref_idc , & s_tmp_poc , & ps_dec -> s_cur_pic_poc , ps_cur_slice , u1_pic_order_cnt_type , u1_nal_unit_type , u4_idr_pic_id , u1_field_pic_flag , u1_bottom_field_flag ) ; if ( ( ps_dec -> u4_first_slice_in_pic == 2 ) && ( i1_is_end_of_poc == 0 ) ) { ps_dec -> ps_dec_err_status -> u1_err_flag |= REJECT_CUR_PIC ; i1_is_end_of_poc = 1 ; } else { ps_dec -> ps_dec_err_status -> u1_err_flag &= MASK_REJECT_CUR_PIC ; } } u1_mbaff = ps_seq -> u1_mb_aff_flag && ( ! u1_field_pic_flag ) ; prev_slice_err = 0 ; if ( i1_is_end_of_poc || ps_dec -> u1_first_slice_in_stream ) { if ( u2_frame_num != ps_dec -> u2_prv_frame_num && ps_dec -> u1_top_bottom_decoded != 0 && ps_dec -> u1_top_bottom_decoded != ( TOP_FIELD_ONLY | BOT_FIELD_ONLY ) ) { ps_dec -> u1_dangling_field = 1 ; if ( ps_dec -> u4_first_slice_in_pic ) { prev_slice_err = 1 ; } else { prev_slice_err = 2 ; } if ( ps_dec -> u1_top_bottom_decoded == TOP_FIELD_ONLY ) ps_cur_slice -> u1_bottom_field_flag = 1 ; else ps_cur_slice -> u1_bottom_field_flag = 0 ; num_mb_skipped = ( ps_dec -> u2_frm_ht_in_mbs * ps_dec -> u2_frm_wd_in_mbs ) ps_dec -> u2_total_mbs_coded ; ps_cur_poc = & ps_dec -> s_cur_pic_poc ; u1_is_idr_slice = ps_cur_slice -> u1_nal_unit_type == IDR_SLICE_NAL ; } else if ( ps_dec -> u4_first_slice_in_pic == 2 )","COPYTHECONTEXT ( ""SH: slice_type"" , ( u1_slice_type ) ) ; ps_dec -> u1_sl_typ_5_9 = 0 ; if ( u1_slice_type > 4 ) { u1_slice_type -= 5 ; ps_dec -> u1_sl_typ_5_9 = 1 ; } { UWORD32 skip ; if ( ( ps_dec -> i4_app_skip_mode == IVD_SKIP_PB ) || ( ps_dec -> i4_dec_skip_mode == IVD_SKIP_PB ) ) { UWORD32 u4_bit_stream_offset = 0 ; if ( ps_dec -> u1_nal_unit_type == IDR_SLICE_NAL ) { skip = 0 ; ps_dec -> i4_dec_skip_mode = IVD_SKIP_NONE ; } else if ( ( I_SLICE == u1_slice_type ) && ( 1 >= ps_dec -> ps_cur_sps -> u1_num_ref_frames ) ) { skip = 0 ; ps_dec -> i4_dec_skip_mode = IVD_SKIP_NONE ; } else { skip = 1 ; } if ( ( 0 == u2_first_mb_in_slice ) && ( 1 == ps_dec -> u4_prev_nal_skipped ) ) { skip = 0 ; } if ( skip ) { ps_dec -> u4_prev_nal_skipped = 1 ; ps_dec -> i4_dec_skip_mode = IVD_SKIP_PB ; return 0 ; } else { if ( 1 == ps_dec -> u4_prev_nal_skipped ) { ps_dec -> u4_return_to_app = 1 ; return 0 ; } } } } u4_temp = ih264d_uev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) ; if ( u4_temp & MASK_ERR_PIC_SET_ID ) return ERROR_INV_SLICE_HDR_T ; COPYTHECONTEXT ( ""SH: pic_parameter_set_id"" , u4_temp ) ; ps_pps = & ps_dec -> ps_pps [ u4_temp ] ; if ( FALSE == ps_pps -> u1_is_valid ) { return ERROR_INV_SLICE_HDR_T ; } ps_seq = ps_pps -> ps_sps ; if ( ! ps_seq ) return ERROR_INV_SLICE_HDR_T ; if ( FALSE == ps_seq -> u1_is_valid ) return ERROR_INV_SLICE_HDR_T ; u2_frame_num = ih264d_get_bits_h264 ( ps_bitstrm , ps_seq -> u1_bits_in_frm_num ) ; COPYTHECONTEXT ( ""SH: frame_num"" , u2_frame_num ) ; if ( ! ps_seq -> u1_frame_mbs_only_flag ) { u1_field_pic_flag = ih264d_get_bit_h264 ( ps_bitstrm ) ; COPYTHECONTEXT ( ""SH: field_pic_flag"" , u1_field_pic_flag ) ; u1_bottom_field_flag = 0 ; if ( u1_field_pic_flag ) { ps_dec -> pu1_inv_scan = ( UWORD8 * ) gau1_ih264d_inv_scan_fld ; u1_bottom_field_flag = ih264d_get_bit_h264 ( ps_bitstrm ) ; COPYTHECONTEXT ( ""SH: bottom_field_flag"" , u1_bottom_field_flag ) ; } else { ps_dec -> pu1_inv_scan = ( UWORD8 * ) gau1_ih264d_inv_scan ; } } else { u1_field_pic_flag = 0 ; u1_bottom_field_flag = 0 ; ps_dec -> pu1_inv_scan = ( UWORD8 * ) gau1_ih264d_inv_scan ; } u1_nal_unit_type = SLICE_NAL ; if ( u1_is_idr_slice ) { if ( 0 == u1_field_pic_flag ) { ps_dec -> u1_top_bottom_decoded = TOP_FIELD_ONLY | BOT_FIELD_ONLY ; } u1_nal_unit_type = IDR_SLICE_NAL ; u4_idr_pic_id = ih264d_uev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) ; if ( u4_idr_pic_id > 65535 ) return ERROR_INV_SLICE_HDR_T ; COPYTHECONTEXT ( ""SH: "" , u4_idr_pic_id ) ; } i_delta_poc [ 0 ] = i_delta_poc [ 1 ] = 0 ; s_tmp_poc . i4_pic_order_cnt_lsb = 0 ; s_tmp_poc . i4_delta_pic_order_cnt_bottom = 0 ; u1_pic_order_cnt_type = ps_seq -> u1_pic_order_cnt_type ; if ( u1_pic_order_cnt_type == 0 ) { i_temp = ih264d_get_bits_h264 ( ps_bitstrm , ps_seq -> u1_log2_max_pic_order_cnt_lsb_minus ) ; if ( i_temp < 0 || i_temp >= ps_seq -> i4_max_pic_order_cntLsb ) return ERROR_INV_SLICE_HDR_T ; s_tmp_poc . i4_pic_order_cnt_lsb = i_temp ; COPYTHECONTEXT ( ""SH: pic_order_cnt_lsb"" , s_tmp_poc . i4_pic_order_cnt_lsb ) ; if ( ( ps_pps -> u1_pic_order_present_flag == 1 ) && ( ! u1_field_pic_flag ) ) { s_tmp_poc . i4_delta_pic_order_cnt_bottom = ih264d_sev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) ; COPYTHECONTEXT ( ""SH: delta_pic_order_cnt_bottom"" , s_tmp_poc . i4_delta_pic_order_cnt_bottom ) ; } } s_tmp_poc . i4_delta_pic_order_cnt [ 0 ] = 0 ; s_tmp_poc . i4_delta_pic_order_cnt [ 1 ] = 0 ; if ( u1_pic_order_cnt_type == 1 && ( ! ps_seq -> u1_delta_pic_order_always_zero_flag ) ) { s_tmp_poc . i4_delta_pic_order_cnt [ 0 ] = ih264d_sev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) ; COPYTHECONTEXT ( ""SH: delta_pic_order_cnt[0]"" , s_tmp_poc . i4_delta_pic_order_cnt [ 0 ] ) ; if ( ps_pps -> u1_pic_order_present_flag && ! u1_field_pic_flag ) { s_tmp_poc . i4_delta_pic_order_cnt [ 1 ] = ih264d_sev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) ; COPYTHECONTEXT ( ""SH: delta_pic_order_cnt[1]"" , s_tmp_poc . i4_delta_pic_order_cnt [ 1 ] ) ; } } if ( ps_pps -> u1_redundant_pic_cnt_present_flag ) { u4_temp = ih264d_uev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) ; if ( u4_temp > MAX_REDUNDANT_PIC_CNT ) return ERROR_INV_SLICE_HDR_T ; u1_redundant_pic_cnt = u4_temp ; COPYTHECONTEXT ( ""SH: redundant_pic_cnt"" , u1_redundant_pic_cnt ) ; } i1_is_end_of_poc = 0 ; if ( ! ps_dec -> u1_first_slice_in_stream ) { i1_is_end_of_poc = ih264d_is_end_of_pic ( u2_frame_num , u1_nal_ref_idc , & s_tmp_poc , & ps_dec -> s_cur_pic_poc , ps_cur_slice , u1_pic_order_cnt_type , u1_nal_unit_type , u4_idr_pic_id , u1_field_pic_flag , u1_bottom_field_flag ) ; if ( ( ps_dec -> u4_first_slice_in_pic == 2 ) && ( i1_is_end_of_poc == 0 ) ) { ps_dec -> ps_dec_err_status -> u1_err_flag |= REJECT_CUR_PIC ; i1_is_end_of_poc = 1 ; } else { ps_dec -> ps_dec_err_status -> u1_err_flag &= MASK_REJECT_CUR_PIC ; } } u1_mbaff = ps_seq -> u1_mb_aff_flag && ( ! u1_field_pic_flag ) ; prev_slice_err = 0 ; if ( i1_is_end_of_poc || ps_dec -> u1_first_slice_in_stream ) { if ( u2_frame_num != ps_dec -> u2_prv_frame_num && ps_dec -> u1_top_bottom_decoded != 0 && ps_dec -> u1_top_bottom_decoded != ( TOP_FIELD_ONLY | BOT_FIELD_ONLY ) ) { ps_dec -> u1_dangling_field = 1 ; if ( ps_dec -> u4_first_slice_in_pic ) { prev_slice_err = 1 ; } else { prev_slice_err = 2 ; } if ( ps_dec -> u1_top_bottom_decoded == TOP_FIELD_ONLY ) ps_cur_slice -> u1_bottom_field_flag = 1 ; else ps_cur_slice -> u1_bottom_field_flag = 0 ; num_mb_skipped = ( ps_dec -> u2_frm_ht_in_mbs * ps_dec -> u2_frm_wd_in_mbs ) ps_cur_poc = & ps_dec -> s_cur_pic_poc ; u1_is_idr_slice = ps_cur_slice -> u1_nal_unit_type == IDR_SLICE_NAL ; } else if ( ps_dec -> u4_first_slice_in_pic == 2 )" 364,"CWE-200 int udpv6_recvmsg ( struct kiocb * iocb , struct sock * sk , struct msghdr * msg , size_t len , int noblock , int flags , int * addr_len ) { struct ipv6_pinfo * np = inet6_sk ( sk ) ; struct inet_sock * inet = inet_sk ( sk ) ; struct sk_buff * skb ; unsigned int ulen , copied ; int peeked , off = 0 ; int err ; int is_udplite = IS_UDPLITE ( sk ) ; int is_udp4 ; bool slow ; if ( addr_len ) * addr_len = sizeof ( struct sockaddr_in6 ) ; if ( flags & MSG_ERRQUEUE ) return ipv6_recv_error ( sk , msg , len ) ; if ( np -> rxpmtu && np -> rxopt . bits . rxpmtu ) return ipv6_recv_rxpmtu ( sk , msg , len ) ; try_again : skb = __skb_recv_datagram ( sk , flags | ( noblock ? MSG_DONTWAIT : 0 ) , & peeked , & off , & err ) ; if ( ! skb ) goto out ; ulen = skb -> len - sizeof ( struct udphdr ) ; copied = len ; if ( copied > ulen ) copied = ulen ; else if ( copied < ulen ) msg -> msg_flags |= MSG_TRUNC ; is_udp4 = ( skb -> protocol == htons ( ETH_P_IP ) ) ; if ( copied < ulen || UDP_SKB_CB ( skb ) -> partial_cov ) { if ( udp_lib_checksum_complete ( skb ) ) goto csum_copy_err ; } if ( skb_csum_unnecessary ( skb ) ) err = skb_copy_datagram_iovec ( skb , sizeof ( struct udphdr ) , msg -> msg_iov , copied ) ; else { err = skb_copy_and_csum_datagram_iovec ( skb , sizeof ( struct udphdr ) , msg -> msg_iov ) ; if ( err == - EINVAL ) goto csum_copy_err ; } if ( unlikely ( err ) ) { trace_kfree_skb ( skb , udpv6_recvmsg ) ; if ( ! peeked ) { atomic_inc ( & sk -> sk_drops ) ; if ( is_udp4 ) UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INERRORS , is_udplite ) ; else UDP6_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INERRORS , is_udplite ) ; } goto out_free ; } if ( ! peeked ) { if ( is_udp4 ) UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INDATAGRAMS , is_udplite ) ; else UDP6_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INDATAGRAMS , is_udplite ) ; } sock_recv_ts_and_drops ( msg , sk , skb ) ; if ( msg -> msg_name ) { struct sockaddr_in6 * sin6 ; sin6 = ( struct sockaddr_in6 * ) msg -> msg_name ; sin6 -> sin6_family = AF_INET6 ; sin6 -> sin6_port = udp_hdr ( skb ) -> source ; sin6 -> sin6_flowinfo = 0 ; if ( is_udp4 ) { ipv6_addr_set_v4mapped ( ip_hdr ( skb ) -> saddr , & sin6 -> sin6_addr ) ; sin6 -> sin6_scope_id = 0 ; } else { sin6 -> sin6_addr = ipv6_hdr ( skb ) -> saddr ; sin6 -> sin6_scope_id = ipv6_iface_scope_id ( & sin6 -> sin6_addr , IP6CB ( skb ) -> iif ) ; } } if ( is_udp4 ) { if ( inet -> cmsg_flags ) ip_cmsg_recv ( msg , skb ) ; } else { if ( np -> rxopt . all ) ip6_datagram_recv_ctl ( sk , msg , skb ) ; } err = copied ; if ( flags & MSG_TRUNC ) err = ulen ; out_free : skb_free_datagram_locked ( sk , skb ) ; out : return err ; csum_copy_err : slow = lock_sock_fast ( sk ) ; if ( ! skb_kill_datagram ( sk , skb , flags ) ) { if ( is_udp4 ) { UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_CSUMERRORS , is_udplite ) ; UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INERRORS , is_udplite ) ; } else { UDP6_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_CSUMERRORS , is_udplite ) ; UDP6_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INERRORS , is_udplite ) ; } } unlock_sock_fast ( sk , slow ) ; if ( noblock ) return - EAGAIN ; msg -> msg_flags &= ~ MSG_TRUNC ; goto try_again ; }","int udpv6_recvmsg ( struct kiocb * iocb , struct sock * sk , struct msghdr * msg , size_t len , int noblock , int flags , int * addr_len ) { struct ipv6_pinfo * np = inet6_sk ( sk ) ; struct inet_sock * inet = inet_sk ( sk ) ; struct sk_buff * skb ; unsigned int ulen , copied ; int peeked , off = 0 ; int err ; int is_udplite = IS_UDPLITE ( sk ) ; int is_udp4 ; bool slow ; if ( flags & MSG_ERRQUEUE ) return ipv6_recv_error ( sk , msg , len ) ; if ( np -> rxpmtu && np -> rxopt . bits . rxpmtu ) return ipv6_recv_rxpmtu ( sk , msg , len ) ; try_again : skb = __skb_recv_datagram ( sk , flags | ( noblock ? MSG_DONTWAIT : 0 ) , & peeked , & off , & err ) ; if ( ! skb ) goto out ; ulen = skb -> len - sizeof ( struct udphdr ) ; copied = len ; if ( copied > ulen ) copied = ulen ; else if ( copied < ulen ) msg -> msg_flags |= MSG_TRUNC ; is_udp4 = ( skb -> protocol == htons ( ETH_P_IP ) ) ; if ( copied < ulen || UDP_SKB_CB ( skb ) -> partial_cov ) { if ( udp_lib_checksum_complete ( skb ) ) goto csum_copy_err ; } if ( skb_csum_unnecessary ( skb ) ) err = skb_copy_datagram_iovec ( skb , sizeof ( struct udphdr ) , msg -> msg_iov , copied ) ; else { err = skb_copy_and_csum_datagram_iovec ( skb , sizeof ( struct udphdr ) , msg -> msg_iov ) ; if ( err == - EINVAL ) goto csum_copy_err ; } if ( unlikely ( err ) ) { trace_kfree_skb ( skb , udpv6_recvmsg ) ; if ( ! peeked ) { atomic_inc ( & sk -> sk_drops ) ; if ( is_udp4 ) UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INERRORS , is_udplite ) ; else UDP6_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INERRORS , is_udplite ) ; } goto out_free ; } if ( ! peeked ) { if ( is_udp4 ) UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INDATAGRAMS , is_udplite ) ; else UDP6_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INDATAGRAMS , is_udplite ) ; } sock_recv_ts_and_drops ( msg , sk , skb ) ; if ( msg -> msg_name ) { struct sockaddr_in6 * sin6 ; sin6 = ( struct sockaddr_in6 * ) msg -> msg_name ; sin6 -> sin6_family = AF_INET6 ; sin6 -> sin6_port = udp_hdr ( skb ) -> source ; sin6 -> sin6_flowinfo = 0 ; if ( is_udp4 ) { ipv6_addr_set_v4mapped ( ip_hdr ( skb ) -> saddr , & sin6 -> sin6_addr ) ; sin6 -> sin6_scope_id = 0 ; } else { sin6 -> sin6_addr = ipv6_hdr ( skb ) -> saddr ; sin6 -> sin6_scope_id = ipv6_iface_scope_id ( & sin6 -> sin6_addr , IP6CB ( skb ) -> iif ) ; } * addr_len = sizeof ( * sin6 ) ; } if ( is_udp4 ) { if ( inet -> cmsg_flags ) ip_cmsg_recv ( msg , skb ) ; } else { if ( np -> rxopt . all ) ip6_datagram_recv_ctl ( sk , msg , skb ) ; } err = copied ; if ( flags & MSG_TRUNC ) err = ulen ; out_free : skb_free_datagram_locked ( sk , skb ) ; out : return err ; csum_copy_err : slow = lock_sock_fast ( sk ) ; if ( ! skb_kill_datagram ( sk , skb , flags ) ) { if ( is_udp4 ) { UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_CSUMERRORS , is_udplite ) ; UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INERRORS , is_udplite ) ; } else { UDP6_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_CSUMERRORS , is_udplite ) ; UDP6_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INERRORS , is_udplite ) ; } } unlock_sock_fast ( sk , slow ) ; if ( noblock ) return - EAGAIN ; msg -> msg_flags &= ~ MSG_TRUNC ; goto try_again ; }" 365,"CWE-200 int res_unpack ( vorbis_info_residue * info , vorbis_info * vi , oggpack_buffer * opb ) { int j , k ; codec_setup_info * ci = ( codec_setup_info * ) vi -> codec_setup ; memset ( info , 0 , sizeof ( * info ) ) ; info -> type = oggpack_read ( opb , 16 ) ; if ( info -> type > 2 || info -> type < 0 ) goto errout ; info -> begin = oggpack_read ( opb , 24 ) ; info -> end = oggpack_read ( opb , 24 ) ; info -> grouping = oggpack_read ( opb , 24 ) + 1 ; info -> partitions = ( char ) ( oggpack_read ( opb , 6 ) + 1 ) ; info -> groupbook = ( unsigned char ) oggpack_read ( opb , 8 ) ; if ( info -> groupbook >= ci -> books ) goto errout ; info -> stagemasks = _ogg_malloc ( info -> partitions * sizeof ( * info -> stagemasks ) ) ; info -> stagebooks = _ogg_malloc ( info -> partitions * 8 * sizeof ( * info -> stagebooks ) ) ; for ( j = 0 ; j < info -> partitions ; j ++ ) { int cascade = oggpack_read ( opb , 3 ) ; if ( oggpack_read ( opb , 1 ) ) cascade |= ( oggpack_read ( opb , 5 ) << 3 ) ; info -> stagemasks [ j ] = cascade ; } for ( j = 0 ; j < info -> partitions ; j ++ ) { for ( k = 0 ; k < 8 ; k ++ ) { if ( ( info -> stagemasks [ j ] >> k ) & 1 ) { unsigned char book = ( unsigned char ) oggpack_read ( opb , 8 ) ; if ( book >= ci -> books ) goto errout ; info -> stagebooks [ j * 8 + k ] = book ; if ( k + 1 > info -> stages ) info -> stages = k + 1 ; } else info -> stagebooks [ j * 8 + k ] = 0xff ; } } if ( oggpack_eop ( opb ) ) goto errout ; return 0 ; errout : res_clear_info ( info ) ; return 1 ; }","int res_unpack ( vorbis_info_residue * info , vorbis_info * vi , oggpack_buffer * opb ) { int j , k ; codec_setup_info * ci = ( codec_setup_info * ) vi -> codec_setup ; memset ( info , 0 , sizeof ( * info ) ) ; info -> type = oggpack_read ( opb , 16 ) ; if ( info -> type > 2 || info -> type < 0 ) goto errout ; info -> begin = oggpack_read ( opb , 24 ) ; info -> end = oggpack_read ( opb , 24 ) ; info -> grouping = oggpack_read ( opb , 24 ) + 1 ; info -> partitions = ( char ) ( oggpack_read ( opb , 6 ) + 1 ) ; info -> groupbook = ( unsigned char ) oggpack_read ( opb , 8 ) ; if ( info -> groupbook >= ci -> books ) goto errout ; info -> stagemasks = _ogg_malloc ( info -> partitions * sizeof ( * info -> stagemasks ) ) ; info -> stagebooks = _ogg_malloc ( info -> partitions * 8 * sizeof ( * info -> stagebooks ) ) ; for ( j = 0 ; j < info -> partitions ; j ++ ) { int cascade = oggpack_read ( opb , 3 ) ; if ( oggpack_read ( opb , 1 ) ) cascade |= ( oggpack_read ( opb , 5 ) << 3 ) ; info -> stagemasks [ j ] = cascade ; } for ( j = 0 ; j < info -> partitions ; j ++ ) { for ( k = 0 ; k < 8 ; k ++ ) { if ( ( info -> stagemasks [ j ] >> k ) & 1 ) { unsigned char book = ( unsigned char ) oggpack_read ( opb , 8 ) ; if ( book >= ci -> books ) goto errout ; info -> stagebooks [ j * 8 + k ] = book ; if ( k + 1 > info -> stages ) info -> stages = k + 1 ; } else info -> stagebooks [ j * 8 + k ] = 0xff ; } } if ( oggpack_eop ( opb ) ) goto errout ; int limit = ( info -> type == 2 ? vi -> channels : 1 ) * ci -> blocksizes [ 1 ] / 2 ; if ( info -> begin > info -> end || info -> end > limit ) { goto errout ; } return 0 ; errout : res_clear_info ( info ) ; return 1 ; }" 366,"CWE-119 void jslGetTokenString ( char * str , size_t len ) { if ( lex -> tk == LEX_ID ) { strncpy ( str , ""ID:"" , len ) ; strncat ( str , jslGetTokenValueAsString ( ) , len ) ; } else if ( lex -> tk == LEX_STR ) { strncpy ( str , ""String:\'"" , len ) ; strncat ( str , jslGetTokenValueAsString ( ) , len ) ; strncat ( str , ""\'"" , len ) ; } else jslTokenAsString ( lex -> tk , str , len ) ; }","void jslGetTokenString ( char * str , size_t len ) { if ( lex -> tk == LEX_ID ) { espruino_snprintf ( str , len , ""ID:%s"" , jslGetTokenValueAsString ( ) ) ; } else if ( lex -> tk == LEX_STR ) { espruino_snprintf ( str , len , ""String:\'%s\'"" , jslGetTokenValueAsString ( ) ) ; } else jslTokenAsString ( lex -> tk , str , len ) ; }" 367,"CWE-189 static ssize_t f_hidg_write ( struct file * file , const char __user * buffer , size_t count , loff_t * offp ) { struct f_hidg * hidg = file -> private_data ; struct usb_request * req ; unsigned long flags ; ssize_t status = - ENOMEM ; if ( ! access_ok ( buffer , count ) ) return - EFAULT ; spin_lock_irqsave ( & hidg -> write_spinlock , flags ) ; # define WRITE_COND ( ! hidg -> write_pending ) try_again : while ( ! WRITE_COND ) { spin_unlock_irqrestore ( & hidg -> write_spinlock , flags ) ; if ( file -> f_flags & O_NONBLOCK ) return - EAGAIN ; if ( wait_event_interruptible_exclusive ( hidg -> write_queue , WRITE_COND ) ) return - ERESTARTSYS ; spin_lock_irqsave ( & hidg -> write_spinlock , flags ) ; } hidg -> write_pending = 1 ; req = hidg -> req ; count = min_t ( unsigned , count , hidg -> report_length ) ; spin_unlock_irqrestore ( & hidg -> write_spinlock , flags ) ; status = copy_from_user ( req -> buf , buffer , count ) ; if ( status != 0 ) { ERROR ( hidg -> func . config -> cdev , ""copy_from_user error\\n"" ) ; status = - EINVAL ; goto release_write_pending ; } spin_lock_irqsave ( & hidg -> write_spinlock , flags ) ; if ( ! hidg -> req ) { free_ep_req ( hidg -> in_ep , req ) ; goto try_again ; } req -> status = 0 ; req -> zero = 0 ; req -> length = count ; req -> complete = f_hidg_req_complete ; req -> context = hidg ; status = usb_ep_queue ( hidg -> in_ep , req , GFP_ATOMIC ) ; if ( status < 0 ) { ERROR ( hidg -> func . config -> cdev , ""usb_ep_queue error on int endpoint %zd\\n"" , status ) ; goto release_write_pending_unlocked ; } else { status = count ; } spin_unlock_irqrestore ( & hidg -> write_spinlock , flags ) ; return status ; release_write_pending : spin_lock_irqsave ( & hidg -> write_spinlock , flags ) ; release_write_pending_unlocked : hidg -> write_pending = 0 ; spin_unlock_irqrestore ( & hidg -> write_spinlock , flags ) ; wake_up ( & hidg -> write_queue ) ; return status ; }","static ssize_t f_hidg_write ( struct file * file , const char __user * buffer , size_t count , loff_t * offp ) { struct f_hidg * hidg = file -> private_data ; struct usb_request * req ; unsigned long flags ; ssize_t status = - ENOMEM ; if ( ! access_ok ( buffer , count ) ) return - EFAULT ; spin_lock_irqsave ( & hidg -> write_spinlock , flags ) ; # define WRITE_COND ( ! hidg -> write_pending ) try_again : while ( ! WRITE_COND ) { spin_unlock_irqrestore ( & hidg -> write_spinlock , flags ) ; if ( file -> f_flags & O_NONBLOCK ) return - EAGAIN ; if ( wait_event_interruptible_exclusive ( hidg -> write_queue , WRITE_COND ) ) return - ERESTARTSYS ; spin_lock_irqsave ( & hidg -> write_spinlock , flags ) ; } hidg -> write_pending = 1 ; req = hidg -> req ; count = min_t ( unsigned , count , hidg -> report_length ) ; spin_unlock_irqrestore ( & hidg -> write_spinlock , flags ) ; status = copy_from_user ( req -> buf , buffer , count ) ; if ( status != 0 ) { ERROR ( hidg -> func . config -> cdev , ""copy_from_user error\\n"" ) ; status = - EINVAL ; goto release_write_pending ; } spin_lock_irqsave ( & hidg -> write_spinlock , flags ) ; if ( ! hidg -> req ) { free_ep_req ( hidg -> in_ep , req ) ; goto try_again ; } req -> status = 0 ; req -> zero = 0 ; req -> length = count ; req -> complete = f_hidg_req_complete ; req -> context = hidg ; spin_unlock_irqrestore ( & hidg -> write_spinlock , flags ) ; status = usb_ep_queue ( hidg -> in_ep , req , GFP_ATOMIC ) ; if ( status < 0 ) { ERROR ( hidg -> func . config -> cdev , ""usb_ep_queue error on int endpoint %zd\\n"" , status ) ; goto release_write_pending ; } else { status = count ; } return status ; release_write_pending : spin_lock_irqsave ( & hidg -> write_spinlock , flags ) ; hidg -> write_pending = 0 ; spin_unlock_irqrestore ( & hidg -> write_spinlock , flags ) ; wake_up ( & hidg -> write_queue ) ; return status ; }" 368,"CWE-125 MaxVal = 0 ; if ( CellType == miDOUBLE || CellType == miSINGLE ) { CalcMinMax ( image2 , image_info -> endian , MATLAB_HDR . SizeX , MATLAB_HDR . SizeY , CellType , ldblk , BImgBuff , & quantum_info -> minimum , & quantum_info -> maximum ) ; } if ( z == 1 ) z = 0 ; do { for ( i = 0 ; i < ( ssize_t ) MATLAB_HDR . SizeY ; i ++ ) { q = GetAuthenticPixels ( image , 0 , MATLAB_HDR . SizeY - i - 1 , image -> columns , 1 , exception ) ; if ( q == ( PixelPacket * ) NULL ) { if ( logging ) ( void ) LogMagickEvent ( CoderEvent , GetMagickModule ( ) , "" MAT set image pixels returns unexpected NULL on a row %u."" , ( unsigned ) ( MATLAB_HDR . SizeY - i - 1 ) ) ; goto done_reading ; } if ( ReadBlob ( image2 , ldblk , ( unsigned char * ) BImgBuff ) != ( ssize_t ) ldblk ) { if ( logging ) ( void ) LogMagickEvent ( CoderEvent , GetMagickModule ( ) , "" MAT cannot read scanrow %u from a file."" , ( unsigned ) ( MATLAB_HDR . SizeY - i - 1 ) ) ; goto ExitLoop ; } if ( ( CellType == miINT8 || CellType == miUINT8 ) && ( MATLAB_HDR . StructureFlag & FLAG_LOGICAL ) ) { FixLogical ( ( unsigned char * ) BImgBuff , ldblk ) ; if ( ImportQuantumPixels ( image , ( CacheView * ) NULL , quantum_info , z2qtype [ z ] , BImgBuff , exception ) <= 0 ) { ImportQuantumPixelsFailed : if ( logging ) ( void ) LogMagickEvent ( CoderEvent , GetMagickModule ( ) , "" MAT failed to ImportQuantumPixels for a row %u"" , ( unsigned ) ( MATLAB_HDR . SizeY - i - 1 ) ) ; break ; } } else { if ( ImportQuantumPixels ( image , ( CacheView * ) NULL , quantum_info , z2qtype [ z ] , BImgBuff , exception ) <= 0 ) goto ImportQuantumPixelsFailed ; if ( z <= 1 && ( CellType == miINT8 || CellType == miINT16 || CellType == miINT32 || CellType == miINT64 ) ) FixSignedValues ( q , MATLAB_HDR . SizeX ) ; } if ( ! SyncAuthenticPixels ( image , exception ) ) { if ( logging ) ( void ) LogMagickEvent ( CoderEvent , GetMagickModule ( ) , "" MAT failed to sync image pixels for a row %u"" , ( unsigned ) ( MATLAB_HDR . SizeY - i - 1 ) ) ; goto ExitLoop ; } } } while ( z -- >= 2 ) ; ExitLoop : if ( MATLAB_HDR . StructureFlag & FLAG_COMPLEX ) { CellType = ReadBlobXXXLong ( image2 ) ; i = ReadBlobXXXLong ( image2 ) ; if ( CellType == miDOUBLE || CellType == miSINGLE ) { CalcMinMax ( image2 , image_info -> endian , MATLAB_HDR . SizeX , MATLAB_HDR . SizeY , CellType , ldblk , BImgBuff , & MinVal , & MaxVal ) ; } if ( CellType == miDOUBLE ) for ( i = 0 ; i < ( ssize_t ) MATLAB_HDR . SizeY ; i ++ ) { ReadBlobDoublesXXX ( image2 , ldblk , ( double * ) BImgBuff ) ; InsertComplexDoubleRow ( ( double * ) BImgBuff , i , image , MinVal , MaxVal ) ; } if ( CellType == miSINGLE ) for ( i = 0 ; i < ( ssize_t ) MATLAB_HDR . SizeY ; i ++ ) { ReadBlobFloatsXXX ( image2 , ldblk , ( float * ) BImgBuff ) ; InsertComplexFloatRow ( ( float * ) BImgBuff , i , image , MinVal , MaxVal ) ; } } if ( ( MATLAB_HDR . DimFlag == 8 ) && ( ( MATLAB_HDR . StructureFlag & FLAG_COMPLEX ) == 0 ) ) image -> type = GrayscaleType ; if ( image -> depth == 1 ) image -> type = BilevelType ; if ( image2 == image ) image2 = NULL ; rotated_image = RotateImage ( image , 90.0 , exception ) ; if ( rotated_image != ( Image * ) NULL ) { rotated_image -> page . x = 0 ; rotated_image -> page . y = 0 ; blob = rotated_image -> blob ; rotated_image -> blob = image -> blob ; rotated_image -> colors = image -> colors ; image -> blob = blob ; AppendImageToList ( & image , rotated_image ) ; DeleteImageFromList ( & image ) ; } done_reading : if ( image2 != NULL ) if ( image2 != image ) { DeleteImageFromList ( & image2 ) ; if ( clone_info ) { if ( clone_info -> file ) {","MaxVal = 0 ; if ( CellType == miDOUBLE || CellType == miSINGLE ) { CalcMinMax ( image2 , image_info -> endian , MATLAB_HDR . SizeX , MATLAB_HDR . SizeY , CellType , ldblk , BImgBuff , & quantum_info -> minimum , & quantum_info -> maximum ) ; } if ( z == 1 ) z = 0 ; do { for ( i = 0 ; i < ( ssize_t ) MATLAB_HDR . SizeY ; i ++ ) { q = GetAuthenticPixels ( image , 0 , MATLAB_HDR . SizeY - i - 1 , image -> columns , 1 , exception ) ; if ( q == ( PixelPacket * ) NULL ) { if ( logging ) ( void ) LogMagickEvent ( CoderEvent , GetMagickModule ( ) , "" MAT set image pixels returns unexpected NULL on a row %u."" , ( unsigned ) ( MATLAB_HDR . SizeY - i - 1 ) ) ; goto done_reading ; } if ( ReadBlob ( image2 , ldblk , ( unsigned char * ) BImgBuff ) != ( ssize_t ) ldblk ) { if ( logging ) ( void ) LogMagickEvent ( CoderEvent , GetMagickModule ( ) , "" MAT cannot read scanrow %u from a file."" , ( unsigned ) ( MATLAB_HDR . SizeY - i - 1 ) ) ; goto ExitLoop ; } if ( ( CellType == miINT8 || CellType == miUINT8 ) && ( MATLAB_HDR . StructureFlag & FLAG_LOGICAL ) ) { FixLogical ( ( unsigned char * ) BImgBuff , ldblk ) ; if ( ImportQuantumPixels ( image , ( CacheView * ) NULL , quantum_info , z2qtype [ z ] , BImgBuff , exception ) <= 0 ) { ImportQuantumPixelsFailed : if ( logging ) ( void ) LogMagickEvent ( CoderEvent , GetMagickModule ( ) , "" MAT failed to ImportQuantumPixels for a row %u"" , ( unsigned ) ( MATLAB_HDR . SizeY - i - 1 ) ) ; break ; } } else { if ( ImportQuantumPixels ( image , ( CacheView * ) NULL , quantum_info , z2qtype [ z ] , BImgBuff , exception ) <= 0 ) goto ImportQuantumPixelsFailed ; if ( z <= 1 && ( CellType == miINT8 || CellType == miINT16 || CellType == miINT32 || CellType == miINT64 ) ) FixSignedValues ( q , MATLAB_HDR . SizeX ) ; } if ( ! SyncAuthenticPixels ( image , exception ) ) { if ( logging ) ( void ) LogMagickEvent ( CoderEvent , GetMagickModule ( ) , "" MAT failed to sync image pixels for a row %u"" , ( unsigned ) ( MATLAB_HDR . SizeY - i - 1 ) ) ; goto ExitLoop ; } } } while ( z -- >= 2 ) ; quantum_info = DestroyQuantumInfo ( quantum_info ) ; ExitLoop : if ( MATLAB_HDR . StructureFlag & FLAG_COMPLEX ) { CellType = ReadBlobXXXLong ( image2 ) ; i = ReadBlobXXXLong ( image2 ) ; if ( CellType == miDOUBLE || CellType == miSINGLE ) { CalcMinMax ( image2 , image_info -> endian , MATLAB_HDR . SizeX , MATLAB_HDR . SizeY , CellType , ldblk , BImgBuff , & MinVal , & MaxVal ) ; } if ( CellType == miDOUBLE ) for ( i = 0 ; i < ( ssize_t ) MATLAB_HDR . SizeY ; i ++ ) { ReadBlobDoublesXXX ( image2 , ldblk , ( double * ) BImgBuff ) ; InsertComplexDoubleRow ( ( double * ) BImgBuff , i , image , MinVal , MaxVal ) ; } if ( CellType == miSINGLE ) for ( i = 0 ; i < ( ssize_t ) MATLAB_HDR . SizeY ; i ++ ) { ReadBlobFloatsXXX ( image2 , ldblk , ( float * ) BImgBuff ) ; InsertComplexFloatRow ( ( float * ) BImgBuff , i , image , MinVal , MaxVal ) ; } } if ( ( MATLAB_HDR . DimFlag == 8 ) && ( ( MATLAB_HDR . StructureFlag & FLAG_COMPLEX ) == 0 ) ) image -> type = GrayscaleType ; if ( image -> depth == 1 ) image -> type = BilevelType ; if ( image2 == image ) image2 = NULL ; rotated_image = RotateImage ( image , 90.0 , exception ) ; if ( rotated_image != ( Image * ) NULL ) { rotated_image -> page . x = 0 ; rotated_image -> page . y = 0 ; blob = rotated_image -> blob ; rotated_image -> blob = image -> blob ; rotated_image -> colors = image -> colors ; image -> blob = blob ; AppendImageToList ( & image , rotated_image ) ; DeleteImageFromList ( & image ) ; } done_reading : if ( image2 != NULL ) if ( image2 != image ) { DeleteImageFromList ( & image2 ) ; if ( clone_info ) { if ( clone_info -> file ) {" 369,CWE-78 bool all_tests ( ) { mu_run_test ( test_r_str_newf ) ; mu_run_test ( test_r_str_replace_char_once ) ; mu_run_test ( test_r_str_replace_char ) ; mu_run_test ( test_r_str_replace ) ; mu_run_test ( test_r_str_bits64 ) ; mu_run_test ( test_r_str_rwx ) ; mu_run_test ( test_r_str_rwx_i ) ; mu_run_test ( test_r_str_bool ) ; mu_run_test ( test_r_str_trim ) ; mu_run_test ( test_r_str_case ) ; mu_run_test ( test_r_str_split ) ; mu_run_test ( test_r_str_tokenize ) ; mu_run_test ( test_r_str_char_count ) ; mu_run_test ( test_r_str_word_count ) ; mu_run_test ( test_r_str_ichr ) ; mu_run_test ( test_r_str_lchr ) ; mu_run_test ( test_r_sub_str_lchr ) ; mu_run_test ( test_r_sub_str_rchr ) ; mu_run_test ( test_r_str_rchr ) ; mu_run_test ( test_r_str_ansi_len ) ; mu_run_test ( test_r_str_len_utf8_ansi ) ; mu_run_test ( test_r_str_utf8_charsize ) ; mu_run_test ( test_r_str_utf8_charsize_prev ) ; mu_run_test ( test_r_str_sanitize_sdb_key ) ; mu_run_test ( test_r_str_unescape ) ; mu_run_test ( test_r_str_constpool ) ; mu_run_test ( test_r_str_format_msvc_argv ) ; mu_run_test ( test_r_str_str_xy ) ; return tests_passed != tests_run ; },bool all_tests ( ) { mu_run_test ( test_r_str_newf ) ; mu_run_test ( test_r_str_replace_char_once ) ; mu_run_test ( test_r_str_replace_char ) ; mu_run_test ( test_r_str_replace ) ; mu_run_test ( test_r_str_bits64 ) ; mu_run_test ( test_r_str_rwx ) ; mu_run_test ( test_r_str_rwx_i ) ; mu_run_test ( test_r_str_bool ) ; mu_run_test ( test_r_str_trim ) ; mu_run_test ( test_r_str_case ) ; mu_run_test ( test_r_str_split ) ; mu_run_test ( test_r_str_tokenize ) ; mu_run_test ( test_r_str_char_count ) ; mu_run_test ( test_r_str_word_count ) ; mu_run_test ( test_r_str_ichr ) ; mu_run_test ( test_r_str_lchr ) ; mu_run_test ( test_r_sub_str_lchr ) ; mu_run_test ( test_r_sub_str_rchr ) ; mu_run_test ( test_r_str_rchr ) ; mu_run_test ( test_r_str_ansi_len ) ; mu_run_test ( test_r_str_len_utf8_ansi ) ; mu_run_test ( test_r_str_utf8_charsize ) ; mu_run_test ( test_r_str_utf8_charsize_prev ) ; mu_run_test ( test_r_str_sanitize_sdb_key ) ; mu_run_test ( test_r_str_escape_sh ) ; mu_run_test ( test_r_str_unescape ) ; mu_run_test ( test_r_str_constpool ) ; mu_run_test ( test_r_str_format_msvc_argv ) ; mu_run_test ( test_r_str_str_xy ) ; return tests_passed != tests_run ; } 370,"CWE-284 int send_event ( int fd , uint16_t type , uint16_t code , int32_t value ) { struct uinput_event event ; BTIF_TRACE_DEBUG ( ""%s type:%u code:%u value:%d"" , __FUNCTION__ , type , code , value ) ; memset ( & event , 0 , sizeof ( event ) ) ; event . type = type ; event . code = code ; event . value = value ; return write ( fd , & event , sizeof ( event ) ) ; }","int send_event ( int fd , uint16_t type , uint16_t code , int32_t value ) { struct uinput_event event ; BTIF_TRACE_DEBUG ( ""%s type:%u code:%u value:%d"" , __FUNCTION__ , type , code , value ) ; memset ( & event , 0 , sizeof ( event ) ) ; event . type = type ; event . code = code ; event . value = value ; return TEMP_FAILURE_RETRY ( write ( fd , & event , sizeof ( event ) ) ) ; }" 371,"CWE-20 { c = ReadBlobByte ( image ) ; if ( ( c == EOF ) || ( c == ( int ) '\\n' ) ) break ; if ( ( size_t ) ( p - comment + 1 ) >= length ) { * p = '\\0' ; length <<= 1 ; comment = ( char * ) ResizeQuantumMemory ( comment , length + MaxTextExtent , sizeof ( * comment ) ) ; if ( comment == ( char * ) NULL ) break ; p = comment + strlen ( comment ) ; } * p = ( char ) c ; } if ( comment == ( char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; * p = '\\0' ; ( void ) SetImageProperty ( image , ""comment"" , comment , exception ) ; comment = DestroyString ( comment ) ; c = ReadBlobByte ( image ) ; } else if ( isalnum ( c ) == MagickFalse ) c = ReadBlobByte ( image ) ; else { register char * p ; p = keyword ; do { if ( ( size_t ) ( p - keyword ) < ( MaxTextExtent - 1 ) ) * p ++ = c ; c = ReadBlobByte ( image ) ; } while ( isalnum ( c ) || ( c == '_' ) ) ; * p = '\\0' ; value_expected = MagickFalse ; while ( ( isspace ( ( int ) ( ( unsigned char ) c ) ) != 0 ) || ( c == '=' ) ) { if ( c == '=' ) value_expected = MagickTrue ; c = ReadBlobByte ( image ) ; } if ( LocaleCompare ( keyword , ""Y"" ) == 0 ) value_expected = MagickTrue ; if ( value_expected == MagickFalse ) continue ; p = value ; while ( ( c != '\\n' ) && ( c != '\\0' ) ) { if ( ( size_t ) ( p - value ) < ( MaxTextExtent - 1 ) ) * p ++ = c ; c = ReadBlobByte ( image ) ; } * p = '\\0' ; switch ( * keyword ) { case 'F' : case 'f' : { if ( LocaleCompare ( keyword , ""format"" ) == 0 ) { ( void ) CopyMagickString ( format , value , MaxTextExtent ) ; break ; } ( void ) FormatLocaleString ( tag , MaxTextExtent , ""hdr:%s"" , keyword ) ; ( void ) SetImageProperty ( image , tag , value , exception ) ; break ; } case 'G' : case 'g' : { if ( LocaleCompare ( keyword , ""gamma"" ) == 0 ) { image -> gamma = StringToDouble ( value , ( char * * ) NULL ) ; break ; } ( void ) FormatLocaleString ( tag , MaxTextExtent , ""hdr:%s"" , keyword ) ; ( void ) SetImageProperty ( image , tag , value , exception ) ; break ; } case 'P' : case 'p' : { if ( LocaleCompare ( keyword , ""primaries"" ) == 0 ) { float chromaticity [ 6 ] , white_point [ 2 ] ; ( void ) sscanf ( value , ""%g %g %g %g %g %g %g %g"" , & chromaticity [ 0 ] , & chromaticity [ 1 ] , & chromaticity [ 2 ] , & chromaticity [ 3 ] , & chromaticity [ 4 ] , & chromaticity [ 5 ] , & white_point [ 0 ] , & white_point [ 1 ] ) ; image -> chromaticity . red_primary . x = chromaticity [ 0 ] ; image -> chromaticity . red_primary . y = chromaticity [ 1 ] ; image -> chromaticity . green_primary . x = chromaticity [ 2 ] ; image -> chromaticity . green_primary . y = chromaticity [ 3 ] ; image -> chromaticity . blue_primary . x = chromaticity [ 4 ] ; image -> chromaticity . blue_primary . y = chromaticity [ 5 ] ; image -> chromaticity . white_point . x = white_point [ 0 ] , image -> chromaticity . white_point . y = white_point [ 1 ] ; break ; } ( void ) FormatLocaleString ( tag , MaxTextExtent , ""hdr:%s"" , keyword ) ; ( void ) SetImageProperty ( image , tag , value , exception ) ; break ; } case 'Y' : case 'y' : { char target [ ] = ""Y"" ; if ( strcmp ( keyword , target ) == 0 ) { int height , width ; ( void ) sscanf ( value , ""%d +X %d"" , & height , & width ) ; image -> columns = ( size_t ) width ; image -> rows = ( size_t ) height ; break ; } ( void ) FormatLocaleString ( tag , MaxTextExtent , ""hdr:%s"" , keyword ) ; ( void ) SetImageProperty ( image , tag , value , exception ) ; break ; } default : { ( void ) FormatLocaleString ( tag , MaxTextExtent , ""hdr:%s"" , keyword ) ; ( void ) SetImageProperty ( image , tag , value , exception ) ; break ; } } } if ( ( image -> columns == 0 ) && ( image -> rows == 0 ) ) while ( isspace ( ( int ) ( ( unsigned char ) c ) ) != 0 ) c = ReadBlobByte ( image ) ; } if ( ( LocaleCompare ( format , ""32-bit_rle_rgbe"" ) != 0 ) && ( LocaleCompare ( format , ""32-bit_rle_xyze"" ) != 0 ) ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; if ( ( image -> columns == 0 ) || ( image -> rows == 0 ) ) ThrowReaderException ( CorruptImageError , ""NegativeOrZeroImageSize"" ) ; ( void ) SetImageColorspace ( image , RGBColorspace , exception ) ; if ( LocaleCompare ( format , ""32-bit_rle_xyze"" ) == 0 ) ( void ) SetImageColorspace ( image , XYZColorspace , exception ) ; image -> compression = ( image -> columns < 8 ) || ( image -> columns > 0x7ffff ) ? NoCompression : RLECompression ; if ( image_info -> ping != MagickFalse ) { ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; } status = SetImageExtent ( image , image -> columns , image -> rows , exception ) ; if ( status == MagickFalse ) return ( DestroyImageList ( image ) ) ; pixels = ( unsigned char * ) AcquireQuantumMemory ( image -> columns , 4 * sizeof ( * pixels ) ) ; if ( pixels == ( unsigned char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; for ( y = 0 ; y < ( ssize_t ) image -> rows ; y ++ ) { if ( image -> compression != RLECompression ) { count = ReadBlob ( image , 4 * image -> columns * sizeof ( * pixels ) , pixels ) ; if ( count != ( ssize_t ) ( 4 * image -> columns * sizeof ( * pixels ) ) ) break ; } else {","{ c = ReadBlobByte ( image ) ; if ( ( c == EOF ) || ( c == ( int ) '\\n' ) ) break ; if ( ( size_t ) ( p - comment + 1 ) >= length ) { * p = '\\0' ; length <<= 1 ; comment = ( char * ) ResizeQuantumMemory ( comment , length + MaxTextExtent , sizeof ( * comment ) ) ; if ( comment == ( char * ) NULL ) break ; p = comment + strlen ( comment ) ; } * p = ( char ) c ; } if ( comment == ( char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; * p = '\\0' ; ( void ) SetImageProperty ( image , ""comment"" , comment , exception ) ; comment = DestroyString ( comment ) ; c = ReadBlobByte ( image ) ; } else if ( isalnum ( c ) == MagickFalse ) c = ReadBlobByte ( image ) ; else { register char * p ; p = keyword ; do { if ( ( size_t ) ( p - keyword ) < ( MaxTextExtent - 1 ) ) * p ++ = c ; c = ReadBlobByte ( image ) ; } while ( isalnum ( c ) || ( c == '_' ) ) ; * p = '\\0' ; value_expected = MagickFalse ; while ( ( isspace ( ( int ) ( ( unsigned char ) c ) ) != 0 ) || ( c == '=' ) ) { if ( c == '=' ) value_expected = MagickTrue ; c = ReadBlobByte ( image ) ; } if ( LocaleCompare ( keyword , ""Y"" ) == 0 ) value_expected = MagickTrue ; if ( value_expected == MagickFalse ) continue ; p = value ; while ( ( c != '\\n' ) && ( c != '\\0' ) && ( c != EOF ) ) { if ( ( size_t ) ( p - value ) < ( MaxTextExtent - 1 ) ) * p ++ = c ; c = ReadBlobByte ( image ) ; } * p = '\\0' ; switch ( * keyword ) { case 'F' : case 'f' : { if ( LocaleCompare ( keyword , ""format"" ) == 0 ) { ( void ) CopyMagickString ( format , value , MaxTextExtent ) ; break ; } ( void ) FormatLocaleString ( tag , MaxTextExtent , ""hdr:%s"" , keyword ) ; ( void ) SetImageProperty ( image , tag , value , exception ) ; break ; } case 'G' : case 'g' : { if ( LocaleCompare ( keyword , ""gamma"" ) == 0 ) { image -> gamma = StringToDouble ( value , ( char * * ) NULL ) ; break ; } ( void ) FormatLocaleString ( tag , MaxTextExtent , ""hdr:%s"" , keyword ) ; ( void ) SetImageProperty ( image , tag , value , exception ) ; break ; } case 'P' : case 'p' : { if ( LocaleCompare ( keyword , ""primaries"" ) == 0 ) { float chromaticity [ 6 ] , white_point [ 2 ] ; if ( sscanf ( value , ""%g %g %g %g %g %g %g %g"" , & chromaticity [ 0 ] , & chromaticity [ 1 ] , & chromaticity [ 2 ] , & chromaticity [ 3 ] , & chromaticity [ 4 ] , & chromaticity [ 5 ] , & white_point [ 0 ] , & white_point [ 1 ] ) == 8 ) { image -> chromaticity . red_primary . x = chromaticity [ 0 ] ; image -> chromaticity . red_primary . y = chromaticity [ 1 ] ; image -> chromaticity . green_primary . x = chromaticity [ 2 ] ; image -> chromaticity . green_primary . y = chromaticity [ 3 ] ; image -> chromaticity . blue_primary . x = chromaticity [ 4 ] ; image -> chromaticity . blue_primary . y = chromaticity [ 5 ] ; image -> chromaticity . white_point . x = white_point [ 0 ] , image -> chromaticity . white_point . y = white_point [ 1 ] ; } break ; } ( void ) FormatLocaleString ( tag , MaxTextExtent , ""hdr:%s"" , keyword ) ; ( void ) SetImageProperty ( image , tag , value , exception ) ; break ; } case 'Y' : case 'y' : { char target [ ] = ""Y"" ; if ( strcmp ( keyword , target ) == 0 ) { int height , width ; if ( sscanf ( value , ""%d +X %d"" , & height , & width ) == 2 ) { image -> columns = ( size_t ) width ; image -> rows = ( size_t ) height ; } break ; } ( void ) FormatLocaleString ( tag , MaxTextExtent , ""hdr:%s"" , keyword ) ; ( void ) SetImageProperty ( image , tag , value , exception ) ; break ; } default : { ( void ) FormatLocaleString ( tag , MaxTextExtent , ""hdr:%s"" , keyword ) ; ( void ) SetImageProperty ( image , tag , value , exception ) ; break ; } } } if ( ( image -> columns == 0 ) && ( image -> rows == 0 ) ) while ( isspace ( ( int ) ( ( unsigned char ) c ) ) != 0 ) c = ReadBlobByte ( image ) ; } if ( ( LocaleCompare ( format , ""32-bit_rle_rgbe"" ) != 0 ) && ( LocaleCompare ( format , ""32-bit_rle_xyze"" ) != 0 ) ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; if ( ( image -> columns == 0 ) || ( image -> rows == 0 ) ) ThrowReaderException ( CorruptImageError , ""NegativeOrZeroImageSize"" ) ; ( void ) SetImageColorspace ( image , RGBColorspace , exception ) ; if ( LocaleCompare ( format , ""32-bit_rle_xyze"" ) == 0 ) ( void ) SetImageColorspace ( image , XYZColorspace , exception ) ; image -> compression = ( image -> columns < 8 ) || ( image -> columns > 0x7ffff ) ? NoCompression : RLECompression ; if ( image_info -> ping != MagickFalse ) { ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; } status = SetImageExtent ( image , image -> columns , image -> rows , exception ) ; if ( status == MagickFalse ) return ( DestroyImageList ( image ) ) ; pixels = ( unsigned char * ) AcquireQuantumMemory ( image -> columns , 4 * sizeof ( * pixels ) ) ; if ( pixels == ( unsigned char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; for ( y = 0 ; y < ( ssize_t ) image -> rows ; y ++ ) { if ( image -> compression != RLECompression ) { count = ReadBlob ( image , 4 * image -> columns * sizeof ( * pixels ) , pixels ) ; if ( count != ( ssize_t ) ( 4 * image -> columns * sizeof ( * pixels ) ) ) break ; } else {" 372,"CWE-416 static void nodeConstruct ( struct SaveNode * node , tr_variant const * v , bool sort_dicts ) { node -> isVisited = false ; node -> childIndex = 0 ; if ( sort_dicts && tr_variantIsDict ( v ) ) { size_t const n = v -> val . l . count ; struct KeyIndex * tmp = tr_new ( struct KeyIndex , n ) ; for ( size_t i = 0 ; i < n ; i ++ ) { tmp [ i ] . val = v -> val . l . vals + i ; tmp [ i ] . keystr = tr_quark_get_string ( tmp [ i ] . val -> key , NULL ) ; } qsort ( tmp , n , sizeof ( struct KeyIndex ) , compareKeyIndex ) ; tr_variantInitDict ( & node -> sorted , n ) ; for ( size_t i = 0 ; i < n ; ++ i ) { node -> sorted . val . l . vals [ i ] = * tmp [ i ] . val ; } node -> sorted . val . l . count = n ; tr_free ( tmp ) ; node -> v = & node -> sorted ; } else { node -> v = v ; } } ","static void nodeConstruct ( struct SaveNode * node , tr_variant const * v , bool sort_dicts ) { node -> isVisited = false ; node -> childIndex = 0 ; if ( sort_dicts && tr_variantIsDict ( v ) ) { size_t const n = v -> val . l . count ; struct KeyIndex * tmp = tr_new ( struct KeyIndex , n ) ; for ( size_t i = 0 ; i < n ; i ++ ) { tmp [ i ] . val = v -> val . l . vals + i ; tmp [ i ] . keystr = tr_quark_get_string ( tmp [ i ] . val -> key , NULL ) ; } qsort ( tmp , n , sizeof ( struct KeyIndex ) , compareKeyIndex ) ; node -> sorted = tr_new ( tr_variant , 1 ) ; tr_variantInitDict ( node -> sorted , n ) ; for ( size_t i = 0 ; i < n ; ++ i ) { node -> sorted -> val . l . vals [ i ] = * tmp [ i ] . val ; } node -> sorted -> val . l . count = n ; tr_free ( tmp ) ; v = node -> sorted ; } else { node -> sorted = NULL ; } node -> v = v ; }" 373,"CWE-119 static int su3000_frontend_attach ( struct dvb_usb_adapter * d ) { u8 obuf [ 3 ] = { 0xe , 0x80 , 0 } ; u8 ibuf [ ] = { 0 } ; if ( dvb_usb_generic_rw ( d -> dev , obuf , 3 , ibuf , 1 , 0 ) < 0 ) err ( ""command 0x0e transfer failed."" ) ; obuf [ 0 ] = 0xe ; obuf [ 1 ] = 0x02 ; obuf [ 2 ] = 1 ; if ( dvb_usb_generic_rw ( d -> dev , obuf , 3 , ibuf , 1 , 0 ) < 0 ) err ( ""command 0x0e transfer failed."" ) ; msleep ( 300 ) ; obuf [ 0 ] = 0xe ; obuf [ 1 ] = 0x83 ; obuf [ 2 ] = 0 ; if ( dvb_usb_generic_rw ( d -> dev , obuf , 3 , ibuf , 1 , 0 ) < 0 ) err ( ""command 0x0e transfer failed."" ) ; obuf [ 0 ] = 0xe ; obuf [ 1 ] = 0x83 ; obuf [ 2 ] = 1 ; if ( dvb_usb_generic_rw ( d -> dev , obuf , 3 , ibuf , 1 , 0 ) < 0 ) err ( ""command 0x0e transfer failed."" ) ; obuf [ 0 ] = 0x51 ; if ( dvb_usb_generic_rw ( d -> dev , obuf , 1 , ibuf , 1 , 0 ) < 0 ) err ( ""command 0x51 transfer failed."" ) ; d -> fe_adap [ 0 ] . fe = dvb_attach ( ds3000_attach , & su3000_ds3000_config , & d -> dev -> i2c_adap ) ; if ( d -> fe_adap [ 0 ] . fe == NULL ) return - EIO ; if ( dvb_attach ( ts2020_attach , d -> fe_adap [ 0 ] . fe , & dw2104_ts2020_config , & d -> dev -> i2c_adap ) ) { info ( ""Attached DS3000/TS2020!"" ) ; return 0 ; } info ( ""Failed to attach DS3000/TS2020!"" ) ; return - EIO ; }","static int su3000_frontend_attach ( struct dvb_usb_adapter * adap ) { struct dvb_usb_device * d = adap -> dev ; struct dw2102_state * state = d -> priv ; mutex_lock ( & d -> data_mutex ) ; state -> data [ 0 ] = 0xe ; state -> data [ 1 ] = 0x80 ; state -> data [ 2 ] = 0 ; if ( dvb_usb_generic_rw ( d , state -> data , 3 , state -> data , 1 , 0 ) < 0 ) err ( ""command 0x0e transfer failed."" ) ; state -> data [ 0 ] = 0xe ; state -> data [ 1 ] = 0x02 ; state -> data [ 2 ] = 1 ; if ( dvb_usb_generic_rw ( d , state -> data , 3 , state -> data , 1 , 0 ) < 0 ) err ( ""command 0x0e transfer failed."" ) ; msleep ( 300 ) ; state -> data [ 0 ] = 0xe ; state -> data [ 1 ] = 0x83 ; state -> data [ 2 ] = 0 ; if ( dvb_usb_generic_rw ( d , state -> data , 3 , state -> data , 1 , 0 ) < 0 ) err ( ""command 0x0e transfer failed."" ) ; state -> data [ 0 ] = 0xe ; state -> data [ 1 ] = 0x83 ; state -> data [ 2 ] = 1 ; if ( dvb_usb_generic_rw ( d , state -> data , 3 , state -> data , 1 , 0 ) < 0 ) err ( ""command 0x0e transfer failed."" ) ; state -> data [ 0 ] = 0x51 ; if ( dvb_usb_generic_rw ( d , state -> data , 1 , state -> data , 1 , 0 ) < 0 ) err ( ""command 0x51 transfer failed."" ) ; mutex_unlock ( & d -> data_mutex ) ; adap -> fe_adap [ 0 ] . fe = dvb_attach ( ds3000_attach , & su3000_ds3000_config , & d -> i2c_adap ) ; if ( adap -> fe_adap [ 0 ] . fe == NULL ) return - EIO ; if ( dvb_attach ( ts2020_attach , adap -> fe_adap [ 0 ] . fe , & dw2104_ts2020_config , & d -> i2c_adap ) ) { info ( ""Attached DS3000/TS2020!"" ) ; return 0 ; } info ( ""Failed to attach DS3000/TS2020!"" ) ; return - EIO ; }" 374,"CWE-189 void * chk_malloc ( size_t bytes ) { char * buffer = ( char * ) dlmalloc ( bytes + CHK_OVERHEAD_SIZE ) ; if ( buffer ) { memset ( buffer , CHK_SENTINEL_VALUE , bytes + CHK_OVERHEAD_SIZE ) ; size_t offset = dlmalloc_usable_size ( buffer ) - sizeof ( size_t ) ; * ( size_t * ) ( buffer + offset ) = bytes ; buffer += CHK_SENTINEL_HEAD_SIZE ; } return buffer ; }","void * chk_malloc ( size_t bytes ) { size_t size = bytes + CHK_OVERHEAD_SIZE ; if ( size < bytes ) { return NULL ; } uint8_t * buffer = ( uint8_t * ) dlmalloc ( size ) ; if ( buffer ) { memset ( buffer , CHK_SENTINEL_VALUE , bytes + CHK_OVERHEAD_SIZE ) ; size_t offset = dlmalloc_usable_size ( buffer ) - sizeof ( size_t ) ; * ( size_t * ) ( buffer + offset ) = bytes ; buffer += CHK_SENTINEL_HEAD_SIZE ; } return buffer ; }" 375,"CWE-119 int vp9_get_frame_buffer ( void * cb_priv , size_t min_size , vpx_codec_frame_buffer_t * fb ) { int i ; InternalFrameBufferList * const int_fb_list = ( InternalFrameBufferList * ) cb_priv ; if ( int_fb_list == NULL ) return - 1 ; for ( i = 0 ; i < int_fb_list -> num_internal_frame_buffers ; ++ i ) { if ( ! int_fb_list -> int_fb [ i ] . in_use ) break ; } if ( i == int_fb_list -> num_internal_frame_buffers ) return - 1 ; if ( int_fb_list -> int_fb [ i ] . size < min_size ) { int_fb_list -> int_fb [ i ] . data = ( uint8_t * ) vpx_realloc ( int_fb_list -> int_fb [ i ] . data , min_size ) ; if ( ! int_fb_list -> int_fb [ i ] . data ) return - 1 ; int_fb_list -> int_fb [ i ] . size = min_size ; } fb -> data = int_fb_list -> int_fb [ i ] . data ; fb -> size = int_fb_list -> int_fb [ i ] . size ; int_fb_list -> int_fb [ i ] . in_use = 1 ; fb -> priv = & int_fb_list -> int_fb [ i ] ; return 0 ; }","int vp9_get_frame_buffer ( void * cb_priv , size_t min_size , vpx_codec_frame_buffer_t * fb ) { int i ; InternalFrameBufferList * const int_fb_list = ( InternalFrameBufferList * ) cb_priv ; if ( int_fb_list == NULL ) return - 1 ; for ( i = 0 ; i < int_fb_list -> num_internal_frame_buffers ; ++ i ) { if ( ! int_fb_list -> int_fb [ i ] . in_use ) break ; } if ( i == int_fb_list -> num_internal_frame_buffers ) return - 1 ; if ( int_fb_list -> int_fb [ i ] . size < min_size ) { int_fb_list -> int_fb [ i ] . data = ( uint8_t * ) vpx_realloc ( int_fb_list -> int_fb [ i ] . data , min_size ) ; if ( ! int_fb_list -> int_fb [ i ] . data ) return - 1 ; memset ( int_fb_list -> int_fb [ i ] . data , 0 , min_size ) ; int_fb_list -> int_fb [ i ] . size = min_size ; } fb -> data = int_fb_list -> int_fb [ i ] . data ; fb -> size = int_fb_list -> int_fb [ i ] . size ; int_fb_list -> int_fb [ i ] . in_use = 1 ; fb -> priv = & int_fb_list -> int_fb [ i ] ; return 0 ; }" 376,"CWE-732 || config -> default_listener . socket_domain || config -> default_listener . security_options . password_file || config -> default_listener . security_options . psk_file || config -> default_listener . security_options . auth_plugin_config_count || config -> default_listener . security_options . allow_anonymous != - 1 ) { config -> listener_count ++ ; config -> listeners = mosquitto__realloc ( config -> listeners , sizeof ( struct mosquitto__listener ) * config -> listener_count ) ; if ( ! config -> listeners ) { log__printf ( NULL , MOSQ_LOG_ERR , ""Error: Out of memory."" ) ; return MOSQ_ERR_NOMEM ; } memset ( & config -> listeners [ config -> listener_count - 1 ] , 0 , sizeof ( struct mosquitto__listener ) ) ; if ( config -> default_listener . port ) { config -> listeners [ config -> listener_count - 1 ] . port = config -> default_listener . port ; } else { config -> listeners [ config -> listener_count - 1 ] . port = 1883 ; } if ( config -> default_listener . host ) { config -> listeners [ config -> listener_count - 1 ] . host = config -> default_listener . host ; } else { config -> listeners [ config -> listener_count - 1 ] . host = NULL ; } if ( config -> default_listener . mount_point ) { config -> listeners [ config -> listener_count - 1 ] . mount_point = config -> default_listener . mount_point ; } else { config -> listeners [ config -> listener_count - 1 ] . mount_point = NULL ; } config -> listeners [ config -> listener_count - 1 ] . max_connections = config -> default_listener . max_connections ; config -> listeners [ config -> listener_count - 1 ] . protocol = config -> default_listener . protocol ; config -> listeners [ config -> listener_count - 1 ] . socket_domain = config -> default_listener . socket_domain ; config -> listeners [ config -> listener_count - 1 ] . client_count = 0 ; config -> listeners [ config -> listener_count - 1 ] . socks = NULL ; config -> listeners [ config -> listener_count - 1 ] . sock_count = 0 ; config -> listeners [ config -> listener_count - 1 ] . client_count = 0 ; config -> listeners [ config -> listener_count - 1 ] . use_username_as_clientid = config -> default_listener . use_username_as_clientid ; # ifdef WITH_TLS config -> listeners [ config -> listener_count - 1 ] . tls_version = config -> default_listener . tls_version ; config -> listeners [ config -> listener_count - 1 ] . cafile = config -> default_listener . cafile ; config -> listeners [ config -> listener_count - 1 ] . capath = config -> default_listener . capath ; config -> listeners [ config -> listener_count - 1 ] . certfile = config -> default_listener . certfile ; config -> listeners [ config -> listener_count - 1 ] . keyfile = config -> default_listener . keyfile ; config -> listeners [ config -> listener_count - 1 ] . ciphers = config -> default_listener . ciphers ; config -> listeners [ config -> listener_count - 1 ] . psk_hint = config -> default_listener . psk_hint ; config -> listeners [ config -> listener_count - 1 ] . require_certificate = config -> default_listener . require_certificate ; config -> listeners [ config -> listener_count - 1 ] . ssl_ctx = NULL ; config -> listeners [ config -> listener_count - 1 ] . crlfile = config -> default_listener . crlfile ; config -> listeners [ config -> listener_count - 1 ] . use_identity_as_username = config -> default_listener . use_identity_as_username ; config -> listeners [ config -> listener_count - 1 ] . use_subject_as_username = config -> default_listener . use_subject_as_username ; # endif config -> listeners [ config -> listener_count - 1 ] . security_options . password_file = config -> default_listener . security_options . password_file ; config -> listeners [ config -> listener_count - 1 ] . security_options . psk_file = config -> default_listener . security_options . psk_file ; config -> listeners [ config -> listener_count - 1 ] . security_options . auth_plugin_configs = config -> default_listener . security_options . auth_plugin_configs ; config -> listeners [ config -> listener_count - 1 ] . security_options . auth_plugin_config_count = config -> default_listener . security_options . auth_plugin_config_count ; config -> listeners [ config -> listener_count - 1 ] . security_options . allow_anonymous = config -> default_listener . security_options . allow_anonymous ; } if ( ! config -> user ) { config -> user = ""mosquitto"" ; } if ( db -> verbose ) { config -> log_type = INT_MAX ; } return config__check ( config ) ; }","|| config -> default_listener . socket_domain || config -> default_listener . security_options . password_file || config -> default_listener . security_options . psk_file || config -> default_listener . security_options . auth_plugin_config_count || config -> default_listener . security_options . allow_anonymous != - 1 ) { config -> listener_count ++ ; config -> listeners = mosquitto__realloc ( config -> listeners , sizeof ( struct mosquitto__listener ) * config -> listener_count ) ; if ( ! config -> listeners ) { log__printf ( NULL , MOSQ_LOG_ERR , ""Error: Out of memory."" ) ; return MOSQ_ERR_NOMEM ; } memset ( & config -> listeners [ config -> listener_count - 1 ] , 0 , sizeof ( struct mosquitto__listener ) ) ; if ( config -> default_listener . port ) { config -> listeners [ config -> listener_count - 1 ] . port = config -> default_listener . port ; } else { config -> listeners [ config -> listener_count - 1 ] . port = 1883 ; } if ( config -> default_listener . host ) { config -> listeners [ config -> listener_count - 1 ] . host = config -> default_listener . host ; } else { config -> listeners [ config -> listener_count - 1 ] . host = NULL ; } if ( config -> default_listener . mount_point ) { config -> listeners [ config -> listener_count - 1 ] . mount_point = config -> default_listener . mount_point ; } else { config -> listeners [ config -> listener_count - 1 ] . mount_point = NULL ; } config -> listeners [ config -> listener_count - 1 ] . max_connections = config -> default_listener . max_connections ; config -> listeners [ config -> listener_count - 1 ] . protocol = config -> default_listener . protocol ; config -> listeners [ config -> listener_count - 1 ] . socket_domain = config -> default_listener . socket_domain ; config -> listeners [ config -> listener_count - 1 ] . client_count = 0 ; config -> listeners [ config -> listener_count - 1 ] . socks = NULL ; config -> listeners [ config -> listener_count - 1 ] . sock_count = 0 ; config -> listeners [ config -> listener_count - 1 ] . client_count = 0 ; config -> listeners [ config -> listener_count - 1 ] . use_username_as_clientid = config -> default_listener . use_username_as_clientid ; # ifdef WITH_TLS config -> listeners [ config -> listener_count - 1 ] . tls_version = config -> default_listener . tls_version ; config -> listeners [ config -> listener_count - 1 ] . cafile = config -> default_listener . cafile ; config -> listeners [ config -> listener_count - 1 ] . capath = config -> default_listener . capath ; config -> listeners [ config -> listener_count - 1 ] . certfile = config -> default_listener . certfile ; config -> listeners [ config -> listener_count - 1 ] . keyfile = config -> default_listener . keyfile ; config -> listeners [ config -> listener_count - 1 ] . ciphers = config -> default_listener . ciphers ; config -> listeners [ config -> listener_count - 1 ] . psk_hint = config -> default_listener . psk_hint ; config -> listeners [ config -> listener_count - 1 ] . require_certificate = config -> default_listener . require_certificate ; config -> listeners [ config -> listener_count - 1 ] . ssl_ctx = NULL ; config -> listeners [ config -> listener_count - 1 ] . crlfile = config -> default_listener . crlfile ; config -> listeners [ config -> listener_count - 1 ] . use_identity_as_username = config -> default_listener . use_identity_as_username ; config -> listeners [ config -> listener_count - 1 ] . use_subject_as_username = config -> default_listener . use_subject_as_username ; # endif config -> listeners [ config -> listener_count - 1 ] . security_options . acl_file = config -> default_listener . security_options . acl_file ; config -> listeners [ config -> listener_count - 1 ] . security_options . password_file = config -> default_listener . security_options . password_file ; config -> listeners [ config -> listener_count - 1 ] . security_options . psk_file = config -> default_listener . security_options . psk_file ; config -> listeners [ config -> listener_count - 1 ] . security_options . auth_plugin_configs = config -> default_listener . security_options . auth_plugin_configs ; config -> listeners [ config -> listener_count - 1 ] . security_options . auth_plugin_config_count = config -> default_listener . security_options . auth_plugin_config_count ; config -> listeners [ config -> listener_count - 1 ] . security_options . allow_anonymous = config -> default_listener . security_options . allow_anonymous ; } if ( ! config -> user ) { config -> user = ""mosquitto"" ; } if ( db -> verbose ) { config -> log_type = INT_MAX ; } return config__check ( config ) ; }" 377,"CWE-362 static int smb_send_rqst ( struct TCP_Server_Info * server , struct smb_rqst * rqst ) { int rc ; struct kvec * iov = rqst -> rq_iov ; int n_vec = rqst -> rq_nvec ; unsigned int smb_buf_length = get_rfc1002_length ( iov [ 0 ] . iov_base ) ; unsigned int i ; size_t total_len = 0 , sent ; struct socket * ssocket = server -> ssocket ; int val = 1 ; cFYI ( 1 , ""Sending smb: smb_len=%u"" , smb_buf_length ) ; dump_smb ( iov [ 0 ] . iov_base , iov [ 0 ] . iov_len ) ; kernel_setsockopt ( ssocket , SOL_TCP , TCP_CORK , ( char * ) & val , sizeof ( val ) ) ; rc = smb_send_kvec ( server , iov , n_vec , & sent ) ; if ( rc < 0 ) goto uncork ; total_len += sent ; for ( i = 0 ; i < rqst -> rq_npages ; i ++ ) { struct kvec p_iov ; cifs_rqst_page_to_kvec ( rqst , i , & p_iov ) ; rc = smb_send_kvec ( server , & p_iov , 1 , & sent ) ; kunmap ( rqst -> rq_pages [ i ] ) ; if ( rc < 0 ) break ; total_len += sent ; } uncork : val = 0 ; kernel_setsockopt ( ssocket , SOL_TCP , TCP_CORK , ( char * ) & val , sizeof ( val ) ) ; if ( ( total_len > 0 ) && ( total_len != smb_buf_length + 4 ) ) { cFYI ( 1 , ""partial send (wanted=%u sent=%zu): terminating "" ""session"" , smb_buf_length + 4 , total_len ) ; server -> tcpStatus = CifsNeedReconnect ; } if ( rc < 0 && rc != - EINTR ) cERROR ( 1 , ""Error %d sending data on socket to server"" , rc ) ; else rc = 0 ; return rc ; }","static int smb_send_rqst ( struct TCP_Server_Info * server , struct smb_rqst * rqst ) { int rc ; struct kvec * iov = rqst -> rq_iov ; int n_vec = rqst -> rq_nvec ; unsigned int smb_buf_length = get_rfc1002_length ( iov [ 0 ] . iov_base ) ; unsigned int i ; size_t total_len = 0 , sent ; struct socket * ssocket = server -> ssocket ; int val = 1 ; if ( ssocket == NULL ) return - ENOTSOCK ; cFYI ( 1 , ""Sending smb: smb_len=%u"" , smb_buf_length ) ; dump_smb ( iov [ 0 ] . iov_base , iov [ 0 ] . iov_len ) ; kernel_setsockopt ( ssocket , SOL_TCP , TCP_CORK , ( char * ) & val , sizeof ( val ) ) ; rc = smb_send_kvec ( server , iov , n_vec , & sent ) ; if ( rc < 0 ) goto uncork ; total_len += sent ; for ( i = 0 ; i < rqst -> rq_npages ; i ++ ) { struct kvec p_iov ; cifs_rqst_page_to_kvec ( rqst , i , & p_iov ) ; rc = smb_send_kvec ( server , & p_iov , 1 , & sent ) ; kunmap ( rqst -> rq_pages [ i ] ) ; if ( rc < 0 ) break ; total_len += sent ; } uncork : val = 0 ; kernel_setsockopt ( ssocket , SOL_TCP , TCP_CORK , ( char * ) & val , sizeof ( val ) ) ; if ( ( total_len > 0 ) && ( total_len != smb_buf_length + 4 ) ) { cFYI ( 1 , ""partial send (wanted=%u sent=%zu): terminating "" ""session"" , smb_buf_length + 4 , total_len ) ; server -> tcpStatus = CifsNeedReconnect ; } if ( rc < 0 && rc != - EINTR ) cERROR ( 1 , ""Error %d sending data on socket to server"" , rc ) ; else rc = 0 ; return rc ; }" 378,"CWE-399 static int br_mdb_dump ( struct sk_buff * skb , struct netlink_callback * cb ) { struct net_device * dev ; struct net * net = sock_net ( skb -> sk ) ; struct nlmsghdr * nlh = NULL ; int idx = 0 , s_idx ; s_idx = cb -> args [ 0 ] ; rcu_read_lock ( ) ; cb -> seq = net -> dev_base_seq + br_mdb_rehash_seq ; for_each_netdev_rcu ( net , dev ) { if ( dev -> priv_flags & IFF_EBRIDGE ) { struct br_port_msg * bpm ; if ( idx < s_idx ) goto skip ; nlh = nlmsg_put ( skb , NETLINK_CB ( cb -> skb ) . portid , cb -> nlh -> nlmsg_seq , RTM_GETMDB , sizeof ( * bpm ) , NLM_F_MULTI ) ; if ( nlh == NULL ) break ; bpm = nlmsg_data ( nlh ) ; bpm -> ifindex = dev -> ifindex ; if ( br_mdb_fill_info ( skb , cb , dev ) < 0 ) goto out ; if ( br_rports_fill_info ( skb , cb , dev ) < 0 ) goto out ; cb -> args [ 1 ] = 0 ; nlmsg_end ( skb , nlh ) ; skip : idx ++ ; } } out : if ( nlh ) nlmsg_end ( skb , nlh ) ; rcu_read_unlock ( ) ; cb -> args [ 0 ] = idx ; return skb -> len ; }","static int br_mdb_dump ( struct sk_buff * skb , struct netlink_callback * cb ) { struct net_device * dev ; struct net * net = sock_net ( skb -> sk ) ; struct nlmsghdr * nlh = NULL ; int idx = 0 , s_idx ; s_idx = cb -> args [ 0 ] ; rcu_read_lock ( ) ; cb -> seq = net -> dev_base_seq + br_mdb_rehash_seq ; for_each_netdev_rcu ( net , dev ) { if ( dev -> priv_flags & IFF_EBRIDGE ) { struct br_port_msg * bpm ; if ( idx < s_idx ) goto skip ; nlh = nlmsg_put ( skb , NETLINK_CB ( cb -> skb ) . portid , cb -> nlh -> nlmsg_seq , RTM_GETMDB , sizeof ( * bpm ) , NLM_F_MULTI ) ; if ( nlh == NULL ) break ; bpm = nlmsg_data ( nlh ) ; memset ( bpm , 0 , sizeof ( * bpm ) ) ; bpm -> ifindex = dev -> ifindex ; if ( br_mdb_fill_info ( skb , cb , dev ) < 0 ) goto out ; if ( br_rports_fill_info ( skb , cb , dev ) < 0 ) goto out ; cb -> args [ 1 ] = 0 ; nlmsg_end ( skb , nlh ) ; skip : idx ++ ; } } out : if ( nlh ) nlmsg_end ( skb , nlh ) ; rcu_read_unlock ( ) ; cb -> args [ 0 ] = idx ; return skb -> len ; }" 379,"CWE-119 static unsigned int tt_activity_measure ( VP8_COMP * cpi , MACROBLOCK * x ) { unsigned int act ; unsigned int sse ; act = vp8_variance16x16 ( x -> src . y_buffer , x -> src . y_stride , VP8_VAR_OFFS , 0 , & sse ) ; act = act << 4 ; if ( act < 8 << 12 ) act = act < 5 << 12 ? act : 5 << 12 ; return act ; }","static unsigned int tt_activity_measure ( VP8_COMP * cpi , MACROBLOCK * x ) { unsigned int act ; unsigned int sse ; ( void ) cpi ; act = vpx_variance16x16 ( x -> src . y_buffer , x -> src . y_stride , VP8_VAR_OFFS , 0 , & sse ) ; act = act << 4 ; if ( act < 8 << 12 ) act = act < 5 << 12 ? act : 5 << 12 ; return act ; }" 380,"CWE-119 void vp9_cost_tokens ( int * costs , const vp9_prob * probs , vp9_tree tree ) { cost ( costs , tree , probs , 0 , 0 ) ; }","void vp9_cost_tokens ( int * costs , const vpx_prob * probs , vpx_tree tree ) { cost ( costs , tree , probs , 0 , 0 ) ; }" 381,"CWE-200 static int pvc_getname ( struct socket * sock , struct sockaddr * sockaddr , int * sockaddr_len , int peer ) { struct sockaddr_atmpvc * addr ; struct atm_vcc * vcc = ATM_SD ( sock ) ; if ( ! vcc -> dev || ! test_bit ( ATM_VF_ADDR , & vcc -> flags ) ) return - ENOTCONN ; * sockaddr_len = sizeof ( struct sockaddr_atmpvc ) ; addr = ( struct sockaddr_atmpvc * ) sockaddr ; addr -> sap_family = AF_ATMPVC ; addr -> sap_addr . itf = vcc -> dev -> number ; addr -> sap_addr . vpi = vcc -> vpi ; addr -> sap_addr . vci = vcc -> vci ; return 0 ; }","static int pvc_getname ( struct socket * sock , struct sockaddr * sockaddr , int * sockaddr_len , int peer ) { struct sockaddr_atmpvc * addr ; struct atm_vcc * vcc = ATM_SD ( sock ) ; if ( ! vcc -> dev || ! test_bit ( ATM_VF_ADDR , & vcc -> flags ) ) return - ENOTCONN ; * sockaddr_len = sizeof ( struct sockaddr_atmpvc ) ; addr = ( struct sockaddr_atmpvc * ) sockaddr ; memset ( addr , 0 , sizeof ( * addr ) ) ; addr -> sap_family = AF_ATMPVC ; addr -> sap_addr . itf = vcc -> dev -> number ; addr -> sap_addr . vpi = vcc -> vpi ; addr -> sap_addr . vci = vcc -> vci ; return 0 ; }" 382,"CWE-119 static int svc_log ( SvcContext * svc_ctx , int level , const char * fmt , ... ) { char buf [ 512 ] ; int retval = 0 ; va_list ap ; SvcInternal * const si = get_svc_internal ( svc_ctx ) ; if ( level > svc_ctx -> log_level ) { return retval ; } va_start ( ap , fmt ) ; retval = vsnprintf ( buf , sizeof ( buf ) , fmt , ap ) ; va_end ( ap ) ; if ( svc_ctx -> log_print ) { printf ( ""%s"" , buf ) ; } else { strncat ( si -> message_buffer , buf , sizeof ( si -> message_buffer ) - strlen ( si -> message_buffer ) - 1 ) ; } if ( level == SVC_LOG_ERROR ) { si -> codec_ctx -> err_detail = si -> message_buffer ; } return retval ; }","static int svc_log ( SvcContext * svc_ctx , SVC_LOG_LEVEL level , const char * fmt , ... ) { char buf [ 512 ] ; int retval = 0 ; va_list ap ; SvcInternal_t * const si = get_svc_internal ( svc_ctx ) ; if ( level > svc_ctx -> log_level ) { return retval ; } va_start ( ap , fmt ) ; retval = vsnprintf ( buf , sizeof ( buf ) , fmt , ap ) ; va_end ( ap ) ; if ( svc_ctx -> log_print ) { printf ( ""%s"" , buf ) ; } else { strncat ( si -> message_buffer , buf , sizeof ( si -> message_buffer ) - strlen ( si -> message_buffer ) - 1 ) ; } if ( level == SVC_LOG_ERROR ) { si -> codec_ctx -> err_detail = si -> message_buffer ; } return retval ; }" 383,"CWE-416 static void ext4_clamp_want_extra_isize ( struct super_block * sb ) { struct ext4_sb_info * sbi = EXT4_SB ( sb ) ; struct ext4_super_block * es = sbi -> s_es ; if ( sbi -> s_inode_size > EXT4_GOOD_OLD_INODE_SIZE && sbi -> s_want_extra_isize == 0 ) { sbi -> s_want_extra_isize = sizeof ( struct ext4_inode ) - EXT4_GOOD_OLD_INODE_SIZE ; if ( ext4_has_feature_extra_isize ( sb ) ) { if ( sbi -> s_want_extra_isize < le16_to_cpu ( es -> s_want_extra_isize ) ) sbi -> s_want_extra_isize = le16_to_cpu ( es -> s_want_extra_isize ) ; if ( sbi -> s_want_extra_isize < le16_to_cpu ( es -> s_min_extra_isize ) ) sbi -> s_want_extra_isize = le16_to_cpu ( es -> s_min_extra_isize ) ; } } if ( EXT4_GOOD_OLD_INODE_SIZE + sbi -> s_want_extra_isize > sbi -> s_inode_size ) { sbi -> s_want_extra_isize = sizeof ( struct ext4_inode ) - EXT4_GOOD_OLD_INODE_SIZE ; ext4_msg ( sb , KERN_INFO , ""required extra inode space not available"" ) ; } }","static void ext4_clamp_want_extra_isize ( struct super_block * sb ) { struct ext4_sb_info * sbi = EXT4_SB ( sb ) ; struct ext4_super_block * es = sbi -> s_es ; unsigned def_extra_isize = sizeof ( struct ext4_inode ) - EXT4_GOOD_OLD_INODE_SIZE ; if ( sbi -> s_inode_size == EXT4_GOOD_OLD_INODE_SIZE ) { sbi -> s_want_extra_isize = 0 ; return ; } if ( sbi -> s_want_extra_isize < 4 ) { sbi -> s_want_extra_isize = def_extra_isize ; if ( ext4_has_feature_extra_isize ( sb ) ) { if ( sbi -> s_want_extra_isize < le16_to_cpu ( es -> s_want_extra_isize ) ) sbi -> s_want_extra_isize = le16_to_cpu ( es -> s_want_extra_isize ) ; if ( sbi -> s_want_extra_isize < le16_to_cpu ( es -> s_min_extra_isize ) ) sbi -> s_want_extra_isize = le16_to_cpu ( es -> s_min_extra_isize ) ; } } if ( ( sbi -> s_want_extra_isize > sbi -> s_inode_size ) || ( EXT4_GOOD_OLD_INODE_SIZE + sbi -> s_want_extra_isize > sbi -> s_inode_size ) ) { sbi -> s_want_extra_isize = def_extra_isize ; ext4_msg ( sb , KERN_INFO , ""required extra inode space not available"" ) ; } }" 384,"CWE-401 static int gs_can_open ( struct net_device * netdev ) { struct gs_can * dev = netdev_priv ( netdev ) ; struct gs_usb * parent = dev -> parent ; int rc , i ; struct gs_device_mode * dm ; u32 ctrlmode ; rc = open_candev ( netdev ) ; if ( rc ) return rc ; if ( atomic_add_return ( 1 , & parent -> active_channels ) == 1 ) { for ( i = 0 ; i < GS_MAX_RX_URBS ; i ++ ) { struct urb * urb ; u8 * buf ; urb = usb_alloc_urb ( 0 , GFP_KERNEL ) ; if ( ! urb ) return - ENOMEM ; buf = usb_alloc_coherent ( dev -> udev , sizeof ( struct gs_host_frame ) , GFP_KERNEL , & urb -> transfer_dma ) ; if ( ! buf ) { netdev_err ( netdev , ""No memory left for USB buffer\\n"" ) ; usb_free_urb ( urb ) ; return - ENOMEM ; } usb_fill_bulk_urb ( urb , dev -> udev , usb_rcvbulkpipe ( dev -> udev , GSUSB_ENDPOINT_IN ) , buf , sizeof ( struct gs_host_frame ) , gs_usb_receive_bulk_callback , parent ) ; urb -> transfer_flags |= URB_NO_TRANSFER_DMA_MAP ; usb_anchor_urb ( urb , & parent -> rx_submitted ) ; rc = usb_submit_urb ( urb , GFP_KERNEL ) ; if ( rc ) { if ( rc == - ENODEV ) netif_device_detach ( dev -> netdev ) ; netdev_err ( netdev , ""usb_submit failed (err=%d)\\n"" , rc ) ; usb_unanchor_urb ( urb ) ; break ; } usb_free_urb ( urb ) ; } } dm = kmalloc ( sizeof ( * dm ) , GFP_KERNEL ) ; if ( ! dm ) return - ENOMEM ; ctrlmode = dev -> can . ctrlmode ; dm -> flags = 0 ; if ( ctrlmode & CAN_CTRLMODE_LOOPBACK ) dm -> flags |= GS_CAN_MODE_LOOP_BACK ; else if ( ctrlmode & CAN_CTRLMODE_LISTENONLY ) dm -> flags |= GS_CAN_MODE_LISTEN_ONLY ; if ( ctrlmode & CAN_CTRLMODE_ONE_SHOT ) dm -> flags |= GS_CAN_MODE_ONE_SHOT ; if ( ctrlmode & CAN_CTRLMODE_3_SAMPLES ) dm -> flags |= GS_CAN_MODE_TRIPLE_SAMPLE ; dm -> mode = GS_CAN_MODE_START ; rc = usb_control_msg ( interface_to_usbdev ( dev -> iface ) , usb_sndctrlpipe ( interface_to_usbdev ( dev -> iface ) , 0 ) , GS_USB_BREQ_MODE , USB_DIR_OUT | USB_TYPE_VENDOR | USB_RECIP_INTERFACE , dev -> channel , 0 , dm , sizeof ( * dm ) , 1000 ) ; if ( rc < 0 ) { netdev_err ( netdev , ""Couldn\'t start device (err=%d)\\n"" , rc ) ; kfree ( dm ) ; return rc ; } kfree ( dm ) ; dev -> can . state = CAN_STATE_ERROR_ACTIVE ; if ( ! ( dev -> can . ctrlmode & CAN_CTRLMODE_LISTENONLY ) ) netif_start_queue ( netdev ) ; return 0 ; }","static int gs_can_open ( struct net_device * netdev ) { struct gs_can * dev = netdev_priv ( netdev ) ; struct gs_usb * parent = dev -> parent ; int rc , i ; struct gs_device_mode * dm ; u32 ctrlmode ; rc = open_candev ( netdev ) ; if ( rc ) return rc ; if ( atomic_add_return ( 1 , & parent -> active_channels ) == 1 ) { for ( i = 0 ; i < GS_MAX_RX_URBS ; i ++ ) { struct urb * urb ; u8 * buf ; urb = usb_alloc_urb ( 0 , GFP_KERNEL ) ; if ( ! urb ) return - ENOMEM ; buf = usb_alloc_coherent ( dev -> udev , sizeof ( struct gs_host_frame ) , GFP_KERNEL , & urb -> transfer_dma ) ; if ( ! buf ) { netdev_err ( netdev , ""No memory left for USB buffer\\n"" ) ; usb_free_urb ( urb ) ; return - ENOMEM ; } usb_fill_bulk_urb ( urb , dev -> udev , usb_rcvbulkpipe ( dev -> udev , GSUSB_ENDPOINT_IN ) , buf , sizeof ( struct gs_host_frame ) , gs_usb_receive_bulk_callback , parent ) ; urb -> transfer_flags |= URB_NO_TRANSFER_DMA_MAP ; usb_anchor_urb ( urb , & parent -> rx_submitted ) ; rc = usb_submit_urb ( urb , GFP_KERNEL ) ; if ( rc ) { if ( rc == - ENODEV ) netif_device_detach ( dev -> netdev ) ; netdev_err ( netdev , ""usb_submit failed (err=%d)\\n"" , rc ) ; usb_unanchor_urb ( urb ) ; usb_free_urb ( urb ) ; break ; } usb_free_urb ( urb ) ; } } dm = kmalloc ( sizeof ( * dm ) , GFP_KERNEL ) ; if ( ! dm ) return - ENOMEM ; ctrlmode = dev -> can . ctrlmode ; dm -> flags = 0 ; if ( ctrlmode & CAN_CTRLMODE_LOOPBACK ) dm -> flags |= GS_CAN_MODE_LOOP_BACK ; else if ( ctrlmode & CAN_CTRLMODE_LISTENONLY ) dm -> flags |= GS_CAN_MODE_LISTEN_ONLY ; if ( ctrlmode & CAN_CTRLMODE_ONE_SHOT ) dm -> flags |= GS_CAN_MODE_ONE_SHOT ; if ( ctrlmode & CAN_CTRLMODE_3_SAMPLES ) dm -> flags |= GS_CAN_MODE_TRIPLE_SAMPLE ; dm -> mode = GS_CAN_MODE_START ; rc = usb_control_msg ( interface_to_usbdev ( dev -> iface ) , usb_sndctrlpipe ( interface_to_usbdev ( dev -> iface ) , 0 ) , GS_USB_BREQ_MODE , USB_DIR_OUT | USB_TYPE_VENDOR | USB_RECIP_INTERFACE , dev -> channel , 0 , dm , sizeof ( * dm ) , 1000 ) ; if ( rc < 0 ) { netdev_err ( netdev , ""Couldn\'t start device (err=%d)\\n"" , rc ) ; kfree ( dm ) ; return rc ; } kfree ( dm ) ; dev -> can . state = CAN_STATE_ERROR_ACTIVE ; if ( ! ( dev -> can . ctrlmode & CAN_CTRLMODE_LISTENONLY ) ) netif_start_queue ( netdev ) ; return 0 ; }" 385,"CWE-119 assert ( image_info != ( const ImageInfo * ) NULL ) ; assert ( image_info -> signature == MagickSignature ) ; if ( image_info -> debug != MagickFalse ) ( void ) LogMagickEvent ( TraceEvent , GetMagickModule ( ) , ""%s"" , image_info -> filename ) ; assert ( exception != ( ExceptionInfo * ) NULL ) ; assert ( exception -> signature == MagickSignature ) ; image = AcquireImage ( image_info ) ; status = OpenBlob ( image_info , image , ReadBinaryBlobMode , exception ) ; if ( status == MagickFalse ) { image = DestroyImageList ( image ) ; return ( ( Image * ) NULL ) ; } palette = NULL ; clone_info = NULL ; Header . Width = ReadBlobLSBShort ( image ) ; Header . Height = ReadBlobLSBShort ( image ) ; Header . Reserved = ReadBlobLSBShort ( image ) ; if ( Header . Width == 0 || Header . Height == 0 || Header . Reserved != 0 ) CUT_KO : ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; EncodedByte = ReadBlobLSBShort ( image ) ; RunCount = ( unsigned char ) ReadBlobByte ( image ) ; RunCountMasked = RunCount & 0x7F ; ldblk = 0 ; while ( ( int ) RunCountMasked != 0 ) { i = 1 ; if ( ( int ) RunCount < 0x80 ) i = ( ssize_t ) RunCountMasked ; offset = SeekBlob ( image , TellBlob ( image ) + i , SEEK_SET ) ; if ( offset < 0 ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; if ( EOFBlob ( image ) != MagickFalse ) goto CUT_KO ; EncodedByte -= i + 1 ; ldblk += ( ssize_t ) RunCountMasked ; RunCount = ( unsigned char ) ReadBlobByte ( image ) ; if ( EOFBlob ( image ) != MagickFalse ) goto CUT_KO ; RunCountMasked = RunCount & 0x7F ; } if ( EncodedByte != 1 ) goto CUT_KO ; i = 0 ; if ( ldblk == ( int ) Header . Width ) i = 8 ; if ( 2 * ldblk == ( int ) Header . Width ) i = 4 ; if ( 8 * ldblk == ( int ) Header . Width ) i = 1 ; if ( i == 0 ) goto CUT_KO ; depth = i ; image -> columns = Header . Width ; image -> rows = Header . Height ; image -> depth = 8 ; image -> colors = ( size_t ) ( GetQuantumRange ( 1UL * i ) + 1 ) ; if ( image_info -> ping ) goto Finish ; if ( ( clone_info = CloneImageInfo ( image_info ) ) == NULL ) goto NoPalette ; i = ( ssize_t ) strlen ( clone_info -> filename ) ; j = i ; while ( -- i > 0 ) { if ( clone_info -> filename [ i ] == '.' ) { break ; } if ( clone_info -> filename [ i ] == '/' || clone_info -> filename [ i ] == '\\\\' || clone_info -> filename [ i ] == ':' ) { i = j ; break ; } } ( void ) CopyMagickString ( clone_info -> filename + i , "".PAL"" , ( size_t ) ( MaxTextExtent - i ) ) ; if ( ( clone_info -> file = fopen_utf8 ( clone_info -> filename , ""rb"" ) ) == NULL ) { ( void ) CopyMagickString ( clone_info -> filename + i , "".pal"" , ( size_t ) ( MaxTextExtent - i ) ) ; if ( ( clone_info -> file = fopen_utf8 ( clone_info -> filename , ""rb"" ) ) == NULL ) { clone_info -> filename [ i ] = '\\0' ; if ( ( clone_info -> file = fopen_utf8 ( clone_info -> filename , ""rb"" ) ) == NULL ) { clone_info = DestroyImageInfo ( clone_info ) ; clone_info = NULL ; goto NoPalette ; } } } if ( ( palette = AcquireImage ( clone_info ) ) == NULL ) goto NoPalette ; status = OpenBlob ( clone_info , palette , ReadBinaryBlobMode , exception ) ; if ( status == MagickFalse ) { ErasePalette : palette = DestroyImage ( palette ) ; palette = NULL ; goto NoPalette ; } if ( palette != NULL ) { ( void ) ReadBlob ( palette , 2 , ( unsigned char * ) PalHeader . FileId ) ; if ( strncmp ( PalHeader . FileId , ""AH"" , 2 ) != 0 ) goto ErasePalette ; PalHeader . Version = ReadBlobLSBShort ( palette ) ; PalHeader . Size = ReadBlobLSBShort ( palette ) ; PalHeader . FileType = ( char ) ReadBlobByte ( palette ) ; PalHeader . SubType = ( char ) ReadBlobByte ( palette ) ;","assert ( image_info != ( const ImageInfo * ) NULL ) ; assert ( image_info -> signature == MagickSignature ) ; if ( image_info -> debug != MagickFalse ) ( void ) LogMagickEvent ( TraceEvent , GetMagickModule ( ) , ""%s"" , image_info -> filename ) ; assert ( exception != ( ExceptionInfo * ) NULL ) ; assert ( exception -> signature == MagickSignature ) ; image = AcquireImage ( image_info ) ; status = OpenBlob ( image_info , image , ReadBinaryBlobMode , exception ) ; if ( status == MagickFalse ) { image = DestroyImageList ( image ) ; return ( ( Image * ) NULL ) ; } palette = NULL ; clone_info = NULL ; Header . Width = ReadBlobLSBShort ( image ) ; Header . Height = ReadBlobLSBShort ( image ) ; Header . Reserved = ReadBlobLSBShort ( image ) ; if ( Header . Width == 0 || Header . Height == 0 || Header . Reserved != 0 ) CUT_KO : ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; EncodedByte = ReadBlobLSBShort ( image ) ; RunCount = ( unsigned char ) ReadBlobByte ( image ) ; RunCountMasked = RunCount & 0x7F ; ldblk = 0 ; while ( ( int ) RunCountMasked != 0 ) { i = 1 ; if ( ( int ) RunCount < 0x80 ) i = ( ssize_t ) RunCountMasked ; offset = SeekBlob ( image , TellBlob ( image ) + i , SEEK_SET ) ; if ( offset < 0 ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; if ( EOFBlob ( image ) != MagickFalse ) goto CUT_KO ; EncodedByte -= i + 1 ; ldblk += ( ssize_t ) RunCountMasked ; RunCount = ( unsigned char ) ReadBlobByte ( image ) ; if ( EOFBlob ( image ) != MagickFalse ) goto CUT_KO ; RunCountMasked = RunCount & 0x7F ; } if ( EncodedByte != 1 ) goto CUT_KO ; i = 0 ; if ( ldblk == ( int ) Header . Width ) i = 8 ; if ( 2 * ldblk == ( int ) Header . Width ) i = 4 ; if ( 8 * ldblk == ( int ) Header . Width ) i = 1 ; if ( i == 0 ) goto CUT_KO ; depth = i ; image -> columns = Header . Width ; image -> rows = Header . Height ; image -> depth = 8 ; image -> colors = ( size_t ) ( GetQuantumRange ( 1UL * i ) + 1 ) ; if ( image_info -> ping != MagickFalse ) goto Finish ; status = SetImageExtent ( image , image -> columns , image -> rows ) ; if ( status == MagickFalse ) { InheritException ( exception , & image -> exception ) ; return ( DestroyImageList ( image ) ) ; } if ( ( clone_info = CloneImageInfo ( image_info ) ) == NULL ) goto NoPalette ; i = ( ssize_t ) strlen ( clone_info -> filename ) ; j = i ; while ( -- i > 0 ) { if ( clone_info -> filename [ i ] == '.' ) { break ; } if ( clone_info -> filename [ i ] == '/' || clone_info -> filename [ i ] == '\\\\' || clone_info -> filename [ i ] == ':' ) { i = j ; break ; } } ( void ) CopyMagickString ( clone_info -> filename + i , "".PAL"" , ( size_t ) ( MaxTextExtent - i ) ) ; if ( ( clone_info -> file = fopen_utf8 ( clone_info -> filename , ""rb"" ) ) == NULL ) { ( void ) CopyMagickString ( clone_info -> filename + i , "".pal"" , ( size_t ) ( MaxTextExtent - i ) ) ; if ( ( clone_info -> file = fopen_utf8 ( clone_info -> filename , ""rb"" ) ) == NULL ) { clone_info -> filename [ i ] = '\\0' ; if ( ( clone_info -> file = fopen_utf8 ( clone_info -> filename , ""rb"" ) ) == NULL ) { clone_info = DestroyImageInfo ( clone_info ) ; clone_info = NULL ; goto NoPalette ; } } } if ( ( palette = AcquireImage ( clone_info ) ) == NULL ) goto NoPalette ; status = OpenBlob ( clone_info , palette , ReadBinaryBlobMode , exception ) ; if ( status == MagickFalse ) { ErasePalette : palette = DestroyImage ( palette ) ; palette = NULL ; goto NoPalette ; } if ( palette != NULL ) { ( void ) ReadBlob ( palette , 2 , ( unsigned char * ) PalHeader . FileId ) ; if ( strncmp ( PalHeader . FileId , ""AH"" , 2 ) != 0 ) goto ErasePalette ; PalHeader . Version = ReadBlobLSBShort ( palette ) ; PalHeader . Size = ReadBlobLSBShort ( palette ) ; PalHeader . FileType = ( char ) ReadBlobByte ( palette ) ; PalHeader . SubType = ( char ) ReadBlobByte ( palette ) ;" 386,"CWE-476 static int pcd_detect ( void ) { char id [ 18 ] ; int k , unit ; struct pcd_unit * cd ; printk ( ""%s: %s version %s, major %d, nice %d\\n"" , name , name , PCD_VERSION , major , nice ) ; par_drv = pi_register_driver ( name ) ; if ( ! par_drv ) { pr_err ( ""failed to register %s driver\\n"" , name ) ; return - 1 ; } k = 0 ; if ( pcd_drive_count == 0 ) { cd = pcd ; if ( pi_init ( cd -> pi , 1 , - 1 , - 1 , - 1 , - 1 , - 1 , pcd_buffer , PI_PCD , verbose , cd -> name ) ) { if ( ! pcd_probe ( cd , - 1 , id ) && cd -> disk ) { cd -> present = 1 ; k ++ ; } else pi_release ( cd -> pi ) ; } } else { for ( unit = 0 , cd = pcd ; unit < PCD_UNITS ; unit ++ , cd ++ ) { int * conf = * drives [ unit ] ; if ( ! conf [ D_PRT ] ) continue ; if ( ! pi_init ( cd -> pi , 0 , conf [ D_PRT ] , conf [ D_MOD ] , conf [ D_UNI ] , conf [ D_PRO ] , conf [ D_DLY ] , pcd_buffer , PI_PCD , verbose , cd -> name ) ) continue ; if ( ! pcd_probe ( cd , conf [ D_SLV ] , id ) && cd -> disk ) { cd -> present = 1 ; k ++ ; } else pi_release ( cd -> pi ) ; } } if ( k ) return 0 ; printk ( ""%s: No CD-ROM drive found\\n"" , name ) ; for ( unit = 0 , cd = pcd ; unit < PCD_UNITS ; unit ++ , cd ++ ) { blk_cleanup_queue ( cd -> disk -> queue ) ; cd -> disk -> queue = NULL ; blk_mq_free_tag_set ( & cd -> tag_set ) ; put_disk ( cd -> disk ) ; } pi_unregister_driver ( par_drv ) ; return - 1 ; }","static int pcd_detect ( void ) { char id [ 18 ] ; int k , unit ; struct pcd_unit * cd ; printk ( ""%s: %s version %s, major %d, nice %d\\n"" , name , name , PCD_VERSION , major , nice ) ; par_drv = pi_register_driver ( name ) ; if ( ! par_drv ) { pr_err ( ""failed to register %s driver\\n"" , name ) ; return - 1 ; } k = 0 ; if ( pcd_drive_count == 0 ) { cd = pcd ; if ( pi_init ( cd -> pi , 1 , - 1 , - 1 , - 1 , - 1 , - 1 , pcd_buffer , PI_PCD , verbose , cd -> name ) ) { if ( ! pcd_probe ( cd , - 1 , id ) && cd -> disk ) { cd -> present = 1 ; k ++ ; } else pi_release ( cd -> pi ) ; } } else { for ( unit = 0 , cd = pcd ; unit < PCD_UNITS ; unit ++ , cd ++ ) { int * conf = * drives [ unit ] ; if ( ! conf [ D_PRT ] ) continue ; if ( ! pi_init ( cd -> pi , 0 , conf [ D_PRT ] , conf [ D_MOD ] , conf [ D_UNI ] , conf [ D_PRO ] , conf [ D_DLY ] , pcd_buffer , PI_PCD , verbose , cd -> name ) ) continue ; if ( ! pcd_probe ( cd , conf [ D_SLV ] , id ) && cd -> disk ) { cd -> present = 1 ; k ++ ; } else pi_release ( cd -> pi ) ; } } if ( k ) return 0 ; printk ( ""%s: No CD-ROM drive found\\n"" , name ) ; for ( unit = 0 , cd = pcd ; unit < PCD_UNITS ; unit ++ , cd ++ ) { if ( ! cd -> disk ) continue ; blk_cleanup_queue ( cd -> disk -> queue ) ; cd -> disk -> queue = NULL ; blk_mq_free_tag_set ( & cd -> tag_set ) ; put_disk ( cd -> disk ) ; } pi_unregister_driver ( par_drv ) ; return - 1 ; }" 387,"CWE-190 int SWFInput_readSBits ( SWFInput input , int number ) { int num = SWFInput_readBits ( input , number ) ; if ( num & ( 1 << ( number - 1 ) ) ) return num - ( 1 << number ) ; else return num ; }","int SWFInput_readSBits ( SWFInput input , int number ) { int num = SWFInput_readBits ( input , number ) ; if ( number && num & ( 1 << ( number - 1 ) ) ) return num - ( 1 << number ) ; else return num ; }" 388,CWE-399 static void kvmclock_reset ( struct kvm_vcpu * vcpu ) { if ( vcpu -> arch . time_page ) { kvm_release_page_dirty ( vcpu -> arch . time_page ) ; vcpu -> arch . time_page = NULL ; } },static void kvmclock_reset ( struct kvm_vcpu * vcpu ) { vcpu -> arch . pv_time_enabled = false ; } 389,"CWE-362 static int snd_ctl_elem_user_get ( struct snd_kcontrol * kcontrol , struct snd_ctl_elem_value * ucontrol ) { struct user_element * ue = kcontrol -> private_data ; memcpy ( & ucontrol -> value , ue -> elem_data , ue -> elem_data_size ) ; return 0 ; }","static int snd_ctl_elem_user_get ( struct snd_kcontrol * kcontrol , struct snd_ctl_elem_value * ucontrol ) { struct user_element * ue = kcontrol -> private_data ; mutex_lock ( & ue -> card -> user_ctl_lock ) ; memcpy ( & ucontrol -> value , ue -> elem_data , ue -> elem_data_size ) ; mutex_unlock ( & ue -> card -> user_ctl_lock ) ; return 0 ; }" 390,"CWE-119 static ssize_t k90_show_macro_mode ( struct device * dev , struct device_attribute * attr , char * buf ) { int ret ; struct usb_interface * usbif = to_usb_interface ( dev -> parent ) ; struct usb_device * usbdev = interface_to_usbdev ( usbif ) ; const char * macro_mode ; char data [ 8 ] ; ret = usb_control_msg ( usbdev , usb_rcvctrlpipe ( usbdev , 0 ) , K90_REQUEST_GET_MODE , USB_DIR_IN | USB_TYPE_VENDOR | USB_RECIP_DEVICE , 0 , 0 , data , 2 , USB_CTRL_SET_TIMEOUT ) ; if ( ret < 0 ) { dev_warn ( dev , ""Failed to get K90 initial mode (error %d).\\n"" , ret ) ; return - EIO ; } switch ( data [ 0 ] ) { case K90_MACRO_MODE_HW : macro_mode = ""HW"" ; break ; case K90_MACRO_MODE_SW : macro_mode = ""SW"" ; break ; default : dev_warn ( dev , ""K90 in unknown mode: %02hhx.\\n"" , data [ 0 ] ) ; return - EIO ; } return snprintf ( buf , PAGE_SIZE , ""%s\\n"" , macro_mode ) ; }","static ssize_t k90_show_macro_mode ( struct device * dev , struct device_attribute * attr , char * buf ) { int ret ; struct usb_interface * usbif = to_usb_interface ( dev -> parent ) ; struct usb_device * usbdev = interface_to_usbdev ( usbif ) ; const char * macro_mode ; char * data ; data = kmalloc ( 2 , GFP_KERNEL ) ; if ( ! data ) return - ENOMEM ; ret = usb_control_msg ( usbdev , usb_rcvctrlpipe ( usbdev , 0 ) , K90_REQUEST_GET_MODE , USB_DIR_IN | USB_TYPE_VENDOR | USB_RECIP_DEVICE , 0 , 0 , data , 2 , USB_CTRL_SET_TIMEOUT ) ; if ( ret < 0 ) { dev_warn ( dev , ""Failed to get K90 initial mode (error %d).\\n"" , ret ) ; ret = - EIO ; goto out ; } switch ( data [ 0 ] ) { case K90_MACRO_MODE_HW : macro_mode = ""HW"" ; break ; case K90_MACRO_MODE_SW : macro_mode = ""SW"" ; break ; default : dev_warn ( dev , ""K90 in unknown mode: %02hhx.\\n"" , data [ 0 ] ) ; ret = - EIO ; goto out ; } ret = snprintf ( buf , PAGE_SIZE , ""%s\\n"" , macro_mode ) ; out : kfree ( data ) ; return ret ; }" 391,"nan uint16_t http_DissectRequest ( struct sess * sp ) { struct http_conn * htc ; struct http * hp ; uint16_t retval ; CHECK_OBJ_NOTNULL ( sp , SESS_MAGIC ) ; htc = sp -> htc ; CHECK_OBJ_NOTNULL ( htc , HTTP_CONN_MAGIC ) ; hp = sp -> http ; CHECK_OBJ_NOTNULL ( hp , HTTP_MAGIC ) ; hp -> logtag = HTTP_Rx ; retval = http_splitline ( sp -> wrk , sp -> fd , hp , htc , HTTP_HDR_REQ , HTTP_HDR_URL , HTTP_HDR_PROTO ) ; if ( retval != 0 ) { WSPR ( sp , SLT_HttpGarbage , htc -> rxbuf ) ; return ( retval ) ; } http_ProtoVer ( hp ) ; retval = htc_request_check_host_hdr ( hp ) ; if ( retval != 0 ) { WSP ( sp , SLT_Error , ""Duplicated Host header"" ) ; return ( retval ) ; } return ( retval ) ; }","uint16_t http_DissectRequest ( struct sess * sp ) { struct http_conn * htc ; struct http * hp ; uint16_t retval ; CHECK_OBJ_NOTNULL ( sp , SESS_MAGIC ) ; htc = sp -> htc ; CHECK_OBJ_NOTNULL ( htc , HTTP_CONN_MAGIC ) ; hp = sp -> http ; CHECK_OBJ_NOTNULL ( hp , HTTP_MAGIC ) ; hp -> logtag = HTTP_Rx ; retval = http_splitline ( sp -> wrk , sp -> fd , hp , htc , HTTP_HDR_REQ , HTTP_HDR_URL , HTTP_HDR_PROTO ) ; if ( retval != 0 ) { WSPR ( sp , SLT_HttpGarbage , htc -> rxbuf ) ; return ( retval ) ; } http_ProtoVer ( hp ) ; retval = htc_request_check_hdrs ( sp , hp ) ; return ( retval ) ; }" 392,"CWE-119 static int create_qp_common ( struct mlx5_ib_dev * dev , struct ib_pd * pd , struct ib_qp_init_attr * init_attr , struct ib_udata * udata , struct mlx5_ib_qp * qp ) { struct mlx5_ib_resources * devr = & dev -> devr ; int inlen = MLX5_ST_SZ_BYTES ( create_qp_in ) ; struct mlx5_core_dev * mdev = dev -> mdev ; struct mlx5_ib_create_qp_resp resp ; struct mlx5_ib_cq * send_cq ; struct mlx5_ib_cq * recv_cq ; unsigned long flags ; u32 uidx = MLX5_IB_DEFAULT_UIDX ; struct mlx5_ib_create_qp ucmd ; struct mlx5_ib_qp_base * base ; int mlx5_st ; void * qpc ; u32 * in ; int err ; mutex_init ( & qp -> mutex ) ; spin_lock_init ( & qp -> sq . lock ) ; spin_lock_init ( & qp -> rq . lock ) ; mlx5_st = to_mlx5_st ( init_attr -> qp_type ) ; if ( mlx5_st < 0 ) return - EINVAL ; if ( init_attr -> rwq_ind_tbl ) { if ( ! udata ) return - ENOSYS ; err = create_rss_raw_qp_tir ( dev , qp , pd , init_attr , udata ) ; return err ; } if ( init_attr -> create_flags & IB_QP_CREATE_BLOCK_MULTICAST_LOOPBACK ) { if ( ! MLX5_CAP_GEN ( mdev , block_lb_mc ) ) { mlx5_ib_dbg ( dev , ""block multicast loopback isn\'t supported\\n"" ) ; return - EINVAL ; } else { qp -> flags |= MLX5_IB_QP_BLOCK_MULTICAST_LOOPBACK ; } } if ( init_attr -> create_flags & ( IB_QP_CREATE_CROSS_CHANNEL | IB_QP_CREATE_MANAGED_SEND | IB_QP_CREATE_MANAGED_RECV ) ) { if ( ! MLX5_CAP_GEN ( mdev , cd ) ) { mlx5_ib_dbg ( dev , ""cross-channel isn\'t supported\\n"" ) ; return - EINVAL ; } if ( init_attr -> create_flags & IB_QP_CREATE_CROSS_CHANNEL ) qp -> flags |= MLX5_IB_QP_CROSS_CHANNEL ; if ( init_attr -> create_flags & IB_QP_CREATE_MANAGED_SEND ) qp -> flags |= MLX5_IB_QP_MANAGED_SEND ; if ( init_attr -> create_flags & IB_QP_CREATE_MANAGED_RECV ) qp -> flags |= MLX5_IB_QP_MANAGED_RECV ; } if ( init_attr -> qp_type == IB_QPT_UD && ( init_attr -> create_flags & IB_QP_CREATE_IPOIB_UD_LSO ) ) if ( ! MLX5_CAP_GEN ( mdev , ipoib_basic_offloads ) ) { mlx5_ib_dbg ( dev , ""ipoib UD lso qp isn\'t supported\\n"" ) ; return - EOPNOTSUPP ;","static int create_qp_common ( struct mlx5_ib_dev * dev , struct ib_pd * pd , struct ib_qp_init_attr * init_attr , struct ib_udata * udata , struct mlx5_ib_qp * qp ) { struct mlx5_ib_resources * devr = & dev -> devr ; int inlen = MLX5_ST_SZ_BYTES ( create_qp_in ) ; struct mlx5_core_dev * mdev = dev -> mdev ; struct mlx5_ib_create_qp_resp resp = { } ; struct mlx5_ib_cq * send_cq ; struct mlx5_ib_cq * recv_cq ; unsigned long flags ; u32 uidx = MLX5_IB_DEFAULT_UIDX ; struct mlx5_ib_create_qp ucmd ; struct mlx5_ib_qp_base * base ; int mlx5_st ; void * qpc ; u32 * in ; int err ; mutex_init ( & qp -> mutex ) ; spin_lock_init ( & qp -> sq . lock ) ; spin_lock_init ( & qp -> rq . lock ) ; mlx5_st = to_mlx5_st ( init_attr -> qp_type ) ; if ( mlx5_st < 0 ) return - EINVAL ; if ( init_attr -> rwq_ind_tbl ) { if ( ! udata ) return - ENOSYS ; err = create_rss_raw_qp_tir ( dev , qp , pd , init_attr , udata ) ; return err ; } if ( init_attr -> create_flags & IB_QP_CREATE_BLOCK_MULTICAST_LOOPBACK ) { if ( ! MLX5_CAP_GEN ( mdev , block_lb_mc ) ) { mlx5_ib_dbg ( dev , ""block multicast loopback isn\'t supported\\n"" ) ; return - EINVAL ; } else { qp -> flags |= MLX5_IB_QP_BLOCK_MULTICAST_LOOPBACK ; } } if ( init_attr -> create_flags & ( IB_QP_CREATE_CROSS_CHANNEL | IB_QP_CREATE_MANAGED_SEND | IB_QP_CREATE_MANAGED_RECV ) ) { if ( ! MLX5_CAP_GEN ( mdev , cd ) ) { mlx5_ib_dbg ( dev , ""cross-channel isn\'t supported\\n"" ) ; return - EINVAL ; } if ( init_attr -> create_flags & IB_QP_CREATE_CROSS_CHANNEL ) qp -> flags |= MLX5_IB_QP_CROSS_CHANNEL ; if ( init_attr -> create_flags & IB_QP_CREATE_MANAGED_SEND ) qp -> flags |= MLX5_IB_QP_MANAGED_SEND ; if ( init_attr -> create_flags & IB_QP_CREATE_MANAGED_RECV ) qp -> flags |= MLX5_IB_QP_MANAGED_RECV ; } if ( init_attr -> qp_type == IB_QPT_UD && ( init_attr -> create_flags & IB_QP_CREATE_IPOIB_UD_LSO ) ) if ( ! MLX5_CAP_GEN ( mdev , ipoib_basic_offloads ) ) { mlx5_ib_dbg ( dev , ""ipoib UD lso qp isn\'t supported\\n"" ) ; return - EOPNOTSUPP ;" 393,"CWE-119 LIBXSMM_API_INTERN void libxsmm_sparse_csc_reader ( libxsmm_generated_code * io_generated_code , const char * i_csc_file_in , unsigned int * * o_row_idx , unsigned int * * o_column_idx , double * * o_values , unsigned int * o_row_count , unsigned int * o_column_count , unsigned int * o_element_count ) { FILE * l_csc_file_handle ; const unsigned int l_line_length = 512 ; char l_line [ 512 + 1 ] ; unsigned int l_header_read = 0 ; unsigned int * l_column_idx_id = NULL ; unsigned int l_i = 0 ; l_csc_file_handle = fopen ( i_csc_file_in , ""r"" ) ; if ( l_csc_file_handle == NULL ) { LIBXSMM_HANDLE_ERROR ( io_generated_code , LIBXSMM_ERR_CSC_INPUT ) ; return ; } while ( fgets ( l_line , l_line_length , l_csc_file_handle ) != NULL ) { if ( strlen ( l_line ) == l_line_length ) { free ( * o_row_idx ) ; free ( * o_column_idx ) ; free ( * o_values ) ; free ( l_column_idx_id ) ; * o_row_idx = 0 ; * o_column_idx = 0 ; * o_values = 0 ; fclose ( l_csc_file_handle ) ; LIBXSMM_HANDLE_ERROR ( io_generated_code , LIBXSMM_ERR_CSC_READ_LEN ) ; return ; } if ( l_line [ 0 ] == '%' ) { continue ; } else { if ( l_header_read == 0 ) { if ( sscanf ( l_line , ""%u %u %u"" , o_row_count , o_column_count , o_element_count ) == 3 ) { * o_row_idx = ( unsigned int * ) malloc ( sizeof ( unsigned int ) * ( * o_element_count ) ) ; * o_column_idx = ( unsigned int * ) malloc ( sizeof ( unsigned int ) * ( ( size_t ) ( * o_column_count ) + 1 ) ) ; * o_values = ( double * ) malloc ( sizeof ( double ) * ( * o_element_count ) ) ; l_column_idx_id = ( unsigned int * ) malloc ( sizeof ( unsigned int ) * ( * o_column_count ) ) ; if ( ( * o_row_idx == NULL ) || ( * o_column_idx == NULL ) || ( * o_values == NULL ) || ( l_column_idx_id == NULL ) ) { free ( * o_row_idx ) ; free ( * o_column_idx ) ; free ( * o_values ) ; free ( l_column_idx_id ) ; * o_row_idx = 0 ; * o_column_idx = 0 ; * o_values = 0 ; fclose ( l_csc_file_handle ) ; LIBXSMM_HANDLE_ERROR ( io_generated_code , LIBXSMM_ERR_CSC_ALLOC_DATA ) ; return ; } memset ( * o_row_idx , 0 , sizeof ( unsigned int ) * ( * o_element_count ) ) ; memset ( * o_column_idx , 0 , sizeof ( unsigned int ) * ( ( size_t ) ( * o_column_count ) + 1 ) ) ; memset ( * o_values , 0 , sizeof ( double ) * ( * o_element_count ) ) ; memset ( l_column_idx_id , 0 , sizeof ( unsigned int ) * ( * o_column_count ) ) ; for ( l_i = 0 ; l_i <= * o_column_count ; ++ l_i ) { ( * o_column_idx ) [ l_i ] = * o_element_count ; } ( * o_column_idx ) [ 0 ] = 0 ; l_i = 0 ; l_header_read = 1 ; } else { LIBXSMM_HANDLE_ERROR ( io_generated_code , LIBXSMM_ERR_CSC_READ_DESC ) ; fclose ( l_csc_file_handle ) ; return ; } } else { unsigned int l_row = 0 , l_column = 0 ; double l_value = 0 ; if ( sscanf ( l_line , ""%u %u %lf"" , & l_row , & l_column , & l_value ) != 3 ) { free ( * o_row_idx ) ; free ( * o_column_idx ) ; free ( * o_values ) ; free ( l_column_idx_id ) ; * o_row_idx = 0 ; * o_column_idx = 0 ; * o_values = 0 ; fclose ( l_csc_file_handle ) ; LIBXSMM_HANDLE_ERROR ( io_generated_code , LIBXSMM_ERR_CSC_READ_ELEMS ) ; return ; } l_row -- ; l_column -- ; ( * o_row_idx ) [ l_i ] = l_row ; ( * o_values ) [ l_i ] = l_value ; l_i ++ ; l_column_idx_id [ l_column ] = 1 ; ( * o_column_idx ) [ l_column + 1 ] = l_i ; } } } fclose ( l_csc_file_handle ) ; if ( l_i != ( * o_element_count ) ) { free ( * o_row_idx ) ; free ( * o_column_idx ) ; free ( * o_values ) ; free ( l_column_idx_id ) ; * o_row_idx = 0 ; * o_column_idx = 0 ; * o_values = 0 ; LIBXSMM_HANDLE_ERROR ( io_generated_code , LIBXSMM_ERR_CSC_LEN ) ; return ; } if ( l_column_idx_id != NULL ) { for ( l_i = 0 ; l_i < ( * o_column_count ) ; l_i ++ ) { if ( l_column_idx_id [ l_i ] == 0 ) { ( * o_column_idx ) [ l_i + 1 ] = ( * o_column_idx ) [ l_i ] ; } } free ( l_column_idx_id ) ; } }","LIBXSMM_API_INTERN void libxsmm_sparse_csc_reader ( libxsmm_generated_code * io_generated_code , const char * i_csc_file_in , unsigned int * * o_row_idx , unsigned int * * o_column_idx , double * * o_values , unsigned int * o_row_count , unsigned int * o_column_count , unsigned int * o_element_count ) { FILE * l_csc_file_handle ; const unsigned int l_line_length = 512 ; char l_line [ 512 + 1 ] ; unsigned int l_header_read = 0 ; unsigned int * l_column_idx_id = NULL ; unsigned int l_i = 0 ; l_csc_file_handle = fopen ( i_csc_file_in , ""r"" ) ; if ( l_csc_file_handle == NULL ) { LIBXSMM_HANDLE_ERROR ( io_generated_code , LIBXSMM_ERR_CSC_INPUT ) ; return ; } while ( fgets ( l_line , l_line_length , l_csc_file_handle ) != NULL ) { if ( strlen ( l_line ) == l_line_length ) { free ( * o_row_idx ) ; free ( * o_column_idx ) ; free ( * o_values ) ; free ( l_column_idx_id ) ; * o_row_idx = 0 ; * o_column_idx = 0 ; * o_values = 0 ; fclose ( l_csc_file_handle ) ; LIBXSMM_HANDLE_ERROR ( io_generated_code , LIBXSMM_ERR_CSC_READ_LEN ) ; return ; } if ( l_line [ 0 ] == '%' ) { continue ; } else { if ( l_header_read == 0 ) { if ( 3 == sscanf ( l_line , ""%u %u %u"" , o_row_count , o_column_count , o_element_count ) && 0 != * o_row_count && 0 != * o_column_count && 0 != * o_element_count ) { * o_row_idx = ( unsigned int * ) malloc ( sizeof ( unsigned int ) * ( * o_element_count ) ) ; * o_column_idx = ( unsigned int * ) malloc ( sizeof ( unsigned int ) * ( ( size_t ) ( * o_column_count ) + 1 ) ) ; * o_values = ( double * ) malloc ( sizeof ( double ) * ( * o_element_count ) ) ; l_column_idx_id = ( unsigned int * ) malloc ( sizeof ( unsigned int ) * ( * o_column_count ) ) ; if ( ( * o_row_idx == NULL ) || ( * o_column_idx == NULL ) || ( * o_values == NULL ) || ( l_column_idx_id == NULL ) ) { free ( * o_row_idx ) ; free ( * o_column_idx ) ; free ( * o_values ) ; free ( l_column_idx_id ) ; * o_row_idx = 0 ; * o_column_idx = 0 ; * o_values = 0 ; fclose ( l_csc_file_handle ) ; LIBXSMM_HANDLE_ERROR ( io_generated_code , LIBXSMM_ERR_CSC_ALLOC_DATA ) ; return ; } memset ( * o_row_idx , 0 , sizeof ( unsigned int ) * ( * o_element_count ) ) ; memset ( * o_column_idx , 0 , sizeof ( unsigned int ) * ( ( size_t ) ( * o_column_count ) + 1 ) ) ; memset ( * o_values , 0 , sizeof ( double ) * ( * o_element_count ) ) ; memset ( l_column_idx_id , 0 , sizeof ( unsigned int ) * ( * o_column_count ) ) ; for ( l_i = 0 ; l_i <= * o_column_count ; ++ l_i ) { ( * o_column_idx ) [ l_i ] = * o_element_count ; } ( * o_column_idx ) [ 0 ] = 0 ; l_i = 0 ; l_header_read = 1 ; } else { LIBXSMM_HANDLE_ERROR ( io_generated_code , LIBXSMM_ERR_CSC_READ_DESC ) ; fclose ( l_csc_file_handle ) ; return ; } } else { unsigned int l_row = 0 , l_column = 0 ; double l_value = 0 ; if ( sscanf ( l_line , ""%u %u %lf"" , & l_row , & l_column , & l_value ) != 3 ) { free ( * o_row_idx ) ; free ( * o_column_idx ) ; free ( * o_values ) ; free ( l_column_idx_id ) ; * o_row_idx = 0 ; * o_column_idx = 0 ; * o_values = 0 ; fclose ( l_csc_file_handle ) ; LIBXSMM_HANDLE_ERROR ( io_generated_code , LIBXSMM_ERR_CSC_READ_ELEMS ) ; return ; } LIBXSMM_ASSERT ( 0 != l_row && 0 != l_column ) ; l_row -- ; l_column -- ; ( * o_row_idx ) [ l_i ] = l_row ; ( * o_values ) [ l_i ] = l_value ; l_i ++ ; l_column_idx_id [ l_column ] = 1 ; ( * o_column_idx ) [ l_column + 1 ] = l_i ; } } } fclose ( l_csc_file_handle ) ; if ( l_i != ( * o_element_count ) ) { free ( * o_row_idx ) ; free ( * o_column_idx ) ; free ( * o_values ) ; free ( l_column_idx_id ) ; * o_row_idx = 0 ; * o_column_idx = 0 ; * o_values = 0 ; LIBXSMM_HANDLE_ERROR ( io_generated_code , LIBXSMM_ERR_CSC_LEN ) ; return ; } if ( l_column_idx_id != NULL ) { for ( l_i = 0 ; l_i < ( * o_column_count ) ; l_i ++ ) { if ( l_column_idx_id [ l_i ] == 0 ) { ( * o_column_idx ) [ l_i + 1 ] = ( * o_column_idx ) [ l_i ] ; } } free ( l_column_idx_id ) ; } }" 394,"CWE-119 static vpx_codec_err_t vp8_get_reference ( vpx_codec_alg_priv_t * ctx , int ctr_id , va_list args ) { vpx_ref_frame_t * data = va_arg ( args , vpx_ref_frame_t * ) ; if ( data && ! ctx -> yv12_frame_buffers . use_frame_threads ) { vpx_ref_frame_t * frame = ( vpx_ref_frame_t * ) data ; YV12_BUFFER_CONFIG sd ; image2yuvconfig ( & frame -> img , & sd ) ; return vp8dx_get_reference ( ctx -> yv12_frame_buffers . pbi [ 0 ] , frame -> frame_type , & sd ) ; } else return VPX_CODEC_INVALID_PARAM ; }","static vpx_codec_err_t vp8_get_reference ( vpx_codec_alg_priv_t * ctx , va_list args ) { vpx_ref_frame_t * data = va_arg ( args , vpx_ref_frame_t * ) ; if ( data && ! ctx -> yv12_frame_buffers . use_frame_threads ) { vpx_ref_frame_t * frame = ( vpx_ref_frame_t * ) data ; YV12_BUFFER_CONFIG sd ; image2yuvconfig ( & frame -> img , & sd ) ; return vp8dx_get_reference ( ctx -> yv12_frame_buffers . pbi [ 0 ] , frame -> frame_type , & sd ) ; } else return VPX_CODEC_INVALID_PARAM ; }" 395,"CWE-399 int ip6_append_data ( struct sock * sk , int getfrag ( void * from , char * to , int offset , int len , int odd , struct sk_buff * skb ) , void * from , int length , int transhdrlen , int hlimit , int tclass , struct ipv6_txoptions * opt , struct flowi6 * fl6 , struct rt6_info * rt , unsigned int flags , int dontfrag ) { struct inet_sock * inet = inet_sk ( sk ) ; struct ipv6_pinfo * np = inet6_sk ( sk ) ; struct inet_cork * cork ; struct sk_buff * skb , * skb_prev = NULL ; unsigned int maxfraglen , fragheaderlen ; int exthdrlen ; int dst_exthdrlen ; int hh_len ; int mtu ; int copy ; int err ; int offset = 0 ; __u8 tx_flags = 0 ; if ( flags & MSG_PROBE ) return 0 ; cork = & inet -> cork . base ; if ( skb_queue_empty ( & sk -> sk_write_queue ) ) { if ( opt ) { if ( WARN_ON ( np -> cork . opt ) ) return - EINVAL ; np -> cork . opt = kzalloc ( opt -> tot_len , sk -> sk_allocation ) ; if ( unlikely ( np -> cork . opt == NULL ) ) return - ENOBUFS ; np -> cork . opt -> tot_len = opt -> tot_len ; np -> cork . opt -> opt_flen = opt -> opt_flen ; np -> cork . opt -> opt_nflen = opt -> opt_nflen ; np -> cork . opt -> dst0opt = ip6_opt_dup ( opt -> dst0opt , sk -> sk_allocation ) ; if ( opt -> dst0opt && ! np -> cork . opt -> dst0opt ) return - ENOBUFS ; np -> cork . opt -> dst1opt = ip6_opt_dup ( opt -> dst1opt , sk -> sk_allocation ) ; if ( opt -> dst1opt && ! np -> cork . opt -> dst1opt ) return - ENOBUFS ; np -> cork . opt -> hopopt = ip6_opt_dup ( opt -> hopopt , sk -> sk_allocation ) ; if ( opt -> hopopt && ! np -> cork . opt -> hopopt ) return - ENOBUFS ; np -> cork . opt -> srcrt = ip6_rthdr_dup ( opt -> srcrt , sk -> sk_allocation ) ; if ( opt -> srcrt && ! np -> cork . opt -> srcrt ) return - ENOBUFS ; } dst_hold ( & rt -> dst ) ; cork -> dst = & rt -> dst ; inet -> cork . fl . u . ip6 = * fl6 ; np -> cork . hop_limit = hlimit ; np -> cork . tclass = tclass ; if ( rt -> dst . flags & DST_XFRM_TUNNEL ) mtu = np -> pmtudisc == IPV6_PMTUDISC_PROBE ? rt -> dst . dev -> mtu : dst_mtu ( & rt -> dst ) ; else mtu = np -> pmtudisc == IPV6_PMTUDISC_PROBE ? rt -> dst . dev -> mtu : dst_mtu ( rt -> dst . path ) ; if ( np -> frag_size < mtu ) { if ( np -> frag_size ) mtu = np -> frag_size ; } cork -> fragsize = mtu ;","int ip6_append_data ( struct sock * sk , int getfrag ( void * from , char * to , int offset , int len , int odd , struct sk_buff * skb ) , void * from , int length , int transhdrlen , int hlimit , int tclass , struct ipv6_txoptions * opt , struct flowi6 * fl6 , struct rt6_info * rt , unsigned int flags , int dontfrag ) { struct inet_sock * inet = inet_sk ( sk ) ; struct ipv6_pinfo * np = inet6_sk ( sk ) ; struct inet_cork * cork ; struct sk_buff * skb , * skb_prev = NULL ; unsigned int maxfraglen , fragheaderlen , mtu ; int exthdrlen ; int dst_exthdrlen ; int hh_len ; int copy ; int err ; int offset = 0 ; __u8 tx_flags = 0 ; if ( flags & MSG_PROBE ) return 0 ; cork = & inet -> cork . base ; if ( skb_queue_empty ( & sk -> sk_write_queue ) ) { if ( opt ) { if ( WARN_ON ( np -> cork . opt ) ) return - EINVAL ; np -> cork . opt = kzalloc ( opt -> tot_len , sk -> sk_allocation ) ; if ( unlikely ( np -> cork . opt == NULL ) ) return - ENOBUFS ; np -> cork . opt -> tot_len = opt -> tot_len ; np -> cork . opt -> opt_flen = opt -> opt_flen ; np -> cork . opt -> opt_nflen = opt -> opt_nflen ; np -> cork . opt -> dst0opt = ip6_opt_dup ( opt -> dst0opt , sk -> sk_allocation ) ; if ( opt -> dst0opt && ! np -> cork . opt -> dst0opt ) return - ENOBUFS ; np -> cork . opt -> dst1opt = ip6_opt_dup ( opt -> dst1opt , sk -> sk_allocation ) ; if ( opt -> dst1opt && ! np -> cork . opt -> dst1opt ) return - ENOBUFS ; np -> cork . opt -> hopopt = ip6_opt_dup ( opt -> hopopt , sk -> sk_allocation ) ; if ( opt -> hopopt && ! np -> cork . opt -> hopopt ) return - ENOBUFS ; np -> cork . opt -> srcrt = ip6_rthdr_dup ( opt -> srcrt , sk -> sk_allocation ) ; if ( opt -> srcrt && ! np -> cork . opt -> srcrt ) return - ENOBUFS ; } dst_hold ( & rt -> dst ) ; cork -> dst = & rt -> dst ; inet -> cork . fl . u . ip6 = * fl6 ; np -> cork . hop_limit = hlimit ; np -> cork . tclass = tclass ; if ( rt -> dst . flags & DST_XFRM_TUNNEL ) mtu = np -> pmtudisc == IPV6_PMTUDISC_PROBE ? rt -> dst . dev -> mtu : dst_mtu ( & rt -> dst ) ; else mtu = np -> pmtudisc == IPV6_PMTUDISC_PROBE ? rt -> dst . dev -> mtu : dst_mtu ( rt -> dst . path ) ; if ( np -> frag_size < mtu ) { if ( np -> frag_size ) mtu = np -> frag_size ; } cork -> fragsize = mtu ;" 396,"CWE-20 void CleanupOutput ( char * str ) { char * s , * t ; int period = 0 ; s = t = str ; while ( * s && * s != '}' ) { if ( * s == '\\n' ) * s = ' ' ; if ( ( * s == ' ' || * s == '\\n' ) && ( s [ 1 ] == ' ' || s [ 1 ] == '\\n' ) ) s ++ ; else * t ++ = * s ++ ; } while ( * s ) * t ++ = * s ++ ; * t = 0 ; s = t = str ; while ( * s ) { if ( * s == '.' ) { period = 1 ; * t ++ = * s ++ ; } else if ( * s == '-' && s [ 1 ] == '0' && s [ 2 ] == ' ' ) { s ++ ; } else if ( * s <= '9' && * s >= '0' ) { * t ++ = * s ++ ; } else if ( * s == '\\n' && ( t > str && t [ - 1 ] == '\\n' ) ) { s ++ ; } else if ( period ) { while ( t > str && t [ - 1 ] == '0' ) t -- ; if ( t > str && t [ - 1 ] == '.' ) t -- ; while ( * s == ' ' && s [ 1 ] == ' ' ) s ++ ; period = 0 ; * t ++ = * s ++ ; } else if ( * s == ' ' && s [ 1 ] == ' ' ) s ++ ; else { period = 0 ; * t ++ = * s ++ ; } } * t = 0 ; s = t = str ; while ( * s ) { if ( * s == '-' && s [ 1 ] == '0' && s [ 2 ] == ' ' ) { s ++ ; } else * t ++ = * s ++ ; } * t = 0 ; }","void CleanupOutput ( char * str ) { char * s , * t ; int period = 0 ; s = t = str ; while ( * s ) { if ( * s == '\\n' ) { * s = ' ' ; } if ( ( * s == ' ' ) && ( s [ 1 ] == ' ' || s [ 1 ] == '\\n' || s [ 1 ] == 0 ) ) { s ++ ; } else { * t ++ = * s ++ ; } } * t = 0 ; s = t = str ; while ( * s ) { if ( * s == '.' ) { period = 1 ; * t ++ = * s ++ ; } else if ( isdigit ( * s ) ) { * t ++ = * s ++ ; } else if ( period ) { while ( t > str && t [ - 1 ] == '0' ) { t -- ; } if ( t > str && t [ - 1 ] == '.' ) { t -- ; if ( t > str && ! isdigit ( t [ - 1 ] ) ) { * t ++ = '0' ; } } period = 0 ; * t ++ = * s ++ ; } else { period = 0 ; * t ++ = * s ++ ; } } * t = 0 ; s = t = str ; while ( * s ) { if ( * s == '-' && s [ 1 ] == '0' && s [ 2 ] == ' ' ) { s ++ ; } else * t ++ = * s ++ ; } * t = 0 ; }" 397,"CWE-399 static struct fsnotify_group * inotify_new_group ( struct user_struct * user , unsigned int max_events ) { struct fsnotify_group * group ; group = fsnotify_alloc_group ( & inotify_fsnotify_ops ) ; if ( IS_ERR ( group ) ) return group ; group -> max_events = max_events ; spin_lock_init ( & group -> inotify_data . idr_lock ) ; idr_init ( & group -> inotify_data . idr ) ; group -> inotify_data . last_wd = 0 ; group -> inotify_data . user = user ; group -> inotify_data . fa = NULL ; return group ; }",static struct fsnotify_group * inotify_new_group ( unsigned int max_events ) { struct fsnotify_group * group ; group = fsnotify_alloc_group ( & inotify_fsnotify_ops ) ; if ( IS_ERR ( group ) ) return group ; group -> max_events = max_events ; spin_lock_init ( & group -> inotify_data . idr_lock ) ; idr_init ( & group -> inotify_data . idr ) ; group -> inotify_data . last_wd = 0 ; group -> inotify_data . fa = NULL ; group -> inotify_data . user = get_current_user ( ) ; if ( atomic_inc_return ( & group -> inotify_data . user -> inotify_devs ) > inotify_max_user_instances ) { fsnotify_put_group ( group ) ; return ERR_PTR ( - EMFILE ) ; } return group ; } 398,"NVD-CWE-noinfo static void sas_probe_devices ( struct work_struct * work ) { struct domain_device * dev , * n ; struct sas_discovery_event * ev = to_sas_discovery_event ( work ) ; struct asd_sas_port * port = ev -> port ; clear_bit ( DISCE_PROBE , & port -> disc . pending ) ; list_for_each_entry ( dev , & port -> disco_list , disco_list_node ) { spin_lock_irq ( & port -> dev_list_lock ) ; list_add_tail ( & dev -> dev_list_node , & port -> dev_list ) ; spin_unlock_irq ( & port -> dev_list_lock ) ; } sas_probe_sata ( port ) ; list_for_each_entry_safe ( dev , n , & port -> disco_list , disco_list_node ) { int err ; err = sas_rphy_add ( dev -> rphy ) ; if ( err ) sas_fail_probe ( dev , __func__ , err ) ; else list_del_init ( & dev -> disco_list_node ) ; } }","static void sas_probe_devices ( struct asd_sas_port * port ) { struct domain_device * dev , * n ; list_for_each_entry ( dev , & port -> disco_list , disco_list_node ) { spin_lock_irq ( & port -> dev_list_lock ) ; list_add_tail ( & dev -> dev_list_node , & port -> dev_list ) ; spin_unlock_irq ( & port -> dev_list_lock ) ; } sas_probe_sata ( port ) ; list_for_each_entry_safe ( dev , n , & port -> disco_list , disco_list_node ) { int err ; err = sas_rphy_add ( dev -> rphy ) ; if ( err ) sas_fail_probe ( dev , __func__ , err ) ; else list_del_init ( & dev -> disco_list_node ) ; } }" 399,"CWE-416 void comps_rtree_unite ( COMPS_RTree * rt1 , COMPS_RTree * rt2 ) { COMPS_HSList * tmplist , * tmp_subnodes ; COMPS_HSListItem * it ; struct Pair { COMPS_HSList * subnodes ; char * key ; char added ; } * pair , * parent_pair ; pair = malloc ( sizeof ( struct Pair ) ) ; pair -> subnodes = rt2 -> subnodes ; pair -> key = NULL ; tmplist = comps_hslist_create ( ) ; comps_hslist_init ( tmplist , NULL , NULL , & free ) ; comps_hslist_append ( tmplist , pair , 0 ) ; while ( tmplist -> first != NULL ) { it = tmplist -> first ; comps_hslist_remove ( tmplist , tmplist -> first ) ; tmp_subnodes = ( ( struct Pair * ) it -> data ) -> subnodes ; parent_pair = ( struct Pair * ) it -> data ; free ( it ) ; for ( it = tmp_subnodes -> first ; it != NULL ; it = it -> next ) { pair = malloc ( sizeof ( struct Pair ) ) ; pair -> subnodes = ( ( COMPS_RTreeData * ) it -> data ) -> subnodes ; if ( parent_pair -> key != NULL ) { pair -> key = malloc ( sizeof ( char ) * ( strlen ( ( ( COMPS_RTreeData * ) it -> data ) -> key ) memcpy ( pair -> key , parent_pair -> key , sizeof ( char ) * strlen ( parent_pair -> key ) ) ; memcpy ( pair -> key + strlen ( parent_pair -> key ) , ( ( COMPS_RTreeData * ) it -> data ) -> key , sizeof ( char ) * ( strlen ( ( ( COMPS_RTreeData * ) it -> data ) -> key ) + 1 ) ) ; } else { pair -> key = malloc ( sizeof ( char ) * ( strlen ( ( ( COMPS_RTreeData * ) it -> data ) -> key ) + 1 ) ) ; memcpy ( pair -> key , ( ( COMPS_RTreeData * ) it -> data ) -> key , sizeof ( char ) * ( strlen ( ( ( COMPS_RTreeData * ) it -> data ) -> key ) + 1 ) ) ; } if ( ( ( COMPS_RTreeData * ) it -> data ) -> data != NULL ) { comps_rtree_set ( rt1 , pair -> key , rt2 -> data_cloner ( ( ( COMPS_RTreeData * ) it -> data ) -> data ) ) ; } if ( ( ( COMPS_RTreeData * ) it -> data ) -> subnodes -> first ) { comps_hslist_append ( tmplist , pair , 0 ) ; } else { free ( pair -> key ) ; free ( pair ) ; } } free ( parent_pair -> key ) ; free ( parent_pair ) ; } comps_hslist_destroy ( & tmplist ) ; }","void comps_rtree_unite ( COMPS_RTree * rt1 , COMPS_RTree * rt2 ) { COMPS_HSList * tmplist , * tmp_subnodes ; COMPS_HSListItem * it ; struct Pair { COMPS_HSList * subnodes ; char * key ; } * pair , * parent_pair ; pair = malloc ( sizeof ( struct Pair ) ) ; pair -> subnodes = rt2 -> subnodes ; pair -> key = NULL ; tmplist = comps_hslist_create ( ) ; comps_hslist_init ( tmplist , NULL , NULL , & free ) ; comps_hslist_append ( tmplist , pair , 0 ) ; while ( tmplist -> first != NULL ) { it = tmplist -> first ; comps_hslist_remove ( tmplist , tmplist -> first ) ; tmp_subnodes = ( ( struct Pair * ) it -> data ) -> subnodes ; parent_pair = ( struct Pair * ) it -> data ; free ( it ) ; for ( it = tmp_subnodes -> first ; it != NULL ; it = it -> next ) { pair = malloc ( sizeof ( struct Pair ) ) ; pair -> subnodes = ( ( COMPS_RTreeData * ) it -> data ) -> subnodes ; if ( parent_pair -> key != NULL ) { pair -> key = malloc ( sizeof ( char ) * ( strlen ( ( ( COMPS_RTreeData * ) it -> data ) -> key ) strlen ( parent_pair -> key ) + 1 ) ) ; memcpy ( pair -> key , parent_pair -> key , sizeof ( char ) * strlen ( parent_pair -> key ) ) ; memcpy ( pair -> key + strlen ( parent_pair -> key ) , ( ( COMPS_RTreeData * ) it -> data ) -> key , sizeof ( char ) * ( strlen ( ( ( COMPS_RTreeData * ) it -> data ) -> key ) + 1 ) ) ; } else { pair -> key = malloc ( sizeof ( char ) * ( strlen ( ( ( COMPS_RTreeData * ) it -> data ) -> key ) + 1 ) ) ; memcpy ( pair -> key , ( ( COMPS_RTreeData * ) it -> data ) -> key , sizeof ( char ) * ( strlen ( ( ( COMPS_RTreeData * ) it -> data ) -> key ) + 1 ) ) ; } if ( ( ( COMPS_RTreeData * ) it -> data ) -> data != NULL ) { comps_rtree_set ( rt1 , pair -> key , rt2 -> data_cloner ( ( ( COMPS_RTreeData * ) it -> data ) -> data ) ) ; } if ( ( ( COMPS_RTreeData * ) it -> data ) -> subnodes -> first ) { comps_hslist_append ( tmplist , pair , 0 ) ; } else { free ( pair -> key ) ; free ( pair ) ; } } free ( parent_pair -> key ) ; free ( parent_pair ) ; } comps_hslist_destroy ( & tmplist ) ; }" 400,"CWE-20 || ( s -> s3 -> tmp . new_cipher -> id & 0xFFFF ) == 0x81 ) && ( SSL_get_options ( s ) & SSL_OP_CRYPTOPRO_TLSEXT_BUG ) ) { const unsigned char cryptopro_ext [ 36 ] = { 0xfd , 0xe8 , 0x00 , 0x20 , 0x30 , 0x1e , 0x30 , 0x08 , 0x06 , 0x06 , 0x2a , 0x85 , 0x03 , 0x02 , 0x02 , 0x09 , 0x30 , 0x08 , 0x06 , 0x06 , 0x2a , 0x85 , 0x03 , 0x02 , 0x02 , 0x16 , 0x30 , 0x08 , 0x06 , 0x06 , 0x2a , 0x85 , 0x03 , 0x02 , 0x02 , 0x17 } ; if ( CHECKLEN ( ret , sizeof ( cryptopro_ext ) , limit ) ) return NULL ; memcpy ( ret , cryptopro_ext , sizeof ( cryptopro_ext ) ) ; ret += sizeof ( cryptopro_ext ) ; } # ifndef OPENSSL_NO_HEARTBEATS if ( SSL_IS_DTLS ( s ) && ( s -> tlsext_heartbeat & SSL_DTLSEXT_HB_ENABLED ) ) { if ( CHECKLEN ( ret , 5 , limit ) ) return NULL ; s2n ( TLSEXT_TYPE_heartbeat , ret ) ; s2n ( 1 , ret ) ; if ( s -> tlsext_heartbeat & SSL_DTLSEXT_HB_DONT_RECV_REQUESTS ) * ( ret ++ ) = SSL_DTLSEXT_HB_DONT_SEND_REQUESTS ; else * ( ret ++ ) = SSL_DTLSEXT_HB_ENABLED ; } # endif # ifndef OPENSSL_NO_NEXTPROTONEG next_proto_neg_seen = s -> s3 -> next_proto_neg_seen ; s -> s3 -> next_proto_neg_seen = 0 ; if ( next_proto_neg_seen && s -> ctx -> next_protos_advertised_cb ) { const unsigned char * npa ; unsigned int npalen ; int r ; r = s -> ctx -> next_protos_advertised_cb ( s , & npa , & npalen , s -> ctx -> next_protos_advertised_cb_arg ) ; if ( r == SSL_TLSEXT_ERR_OK ) { if ( CHECKLEN ( ret , 4 + npalen , limit ) ) return NULL ; s2n ( TLSEXT_TYPE_next_proto_neg , ret ) ; s2n ( npalen , ret ) ; memcpy ( ret , npa , npalen ) ; ret += npalen ; s -> s3 -> next_proto_neg_seen = 1 ; } } # endif if ( ! custom_ext_add ( s , 1 , & ret , limit , al ) ) return NULL ; if ( s -> s3 -> flags & TLS1_FLAGS_ENCRYPT_THEN_MAC ) { if ( SSL_IS_DTLS ( s ) || s -> s3 -> tmp . new_cipher -> algorithm_mac == SSL_AEAD || s -> s3 -> tmp . new_cipher -> algorithm_enc == SSL_RC4 || s -> s3 -> tmp . new_cipher -> algorithm_enc == SSL_eGOST2814789CNT || s -> s3 -> tmp . new_cipher -> algorithm_enc == SSL_eGOST2814789CNT12 ) s -> s3 -> flags &= ~ TLS1_FLAGS_ENCRYPT_THEN_MAC ; else { if ( CHECKLEN ( ret , 4 , limit ) ) return NULL ; s2n ( TLSEXT_TYPE_encrypt_then_mac , ret ) ; s2n ( 0 , ret ) ; } } if ( s -> s3 -> flags & TLS1_FLAGS_RECEIVED_EXTMS ) { if ( CHECKLEN ( ret , 4 , limit ) ) return NULL ; s2n ( TLSEXT_TYPE_extended_master_secret , ret ) ; s2n ( 0 , ret ) ; } if ( s -> s3 -> alpn_selected != NULL ) { const unsigned char * selected = s -> s3 -> alpn_selected ; size_t len = s -> s3 -> alpn_selected_len ; if ( CHECKLEN ( ret , 7 + len , limit ) ) return NULL ; s2n ( TLSEXT_TYPE_application_layer_protocol_negotiation , ret ) ; s2n ( 3 + len , ret ) ; s2n ( 1 + len , ret ) ; * ret ++ = len ; memcpy ( ret , selected , len ) ; ret += len ; } done : if ( ( extdatalen = ret - orig - 2 ) == 0 ) return orig ; s2n ( extdatalen , orig ) ; return ret ; }","|| ( s -> s3 -> tmp . new_cipher -> id & 0xFFFF ) == 0x81 ) && ( SSL_get_options ( s ) & SSL_OP_CRYPTOPRO_TLSEXT_BUG ) ) { const unsigned char cryptopro_ext [ 36 ] = { 0xfd , 0xe8 , 0x00 , 0x20 , 0x30 , 0x1e , 0x30 , 0x08 , 0x06 , 0x06 , 0x2a , 0x85 , 0x03 , 0x02 , 0x02 , 0x09 , 0x30 , 0x08 , 0x06 , 0x06 , 0x2a , 0x85 , 0x03 , 0x02 , 0x02 , 0x16 , 0x30 , 0x08 , 0x06 , 0x06 , 0x2a , 0x85 , 0x03 , 0x02 , 0x02 , 0x17 } ; if ( CHECKLEN ( ret , sizeof ( cryptopro_ext ) , limit ) ) return NULL ; memcpy ( ret , cryptopro_ext , sizeof ( cryptopro_ext ) ) ; ret += sizeof ( cryptopro_ext ) ; } # ifndef OPENSSL_NO_HEARTBEATS if ( SSL_IS_DTLS ( s ) && ( s -> tlsext_heartbeat & SSL_DTLSEXT_HB_ENABLED ) ) { if ( CHECKLEN ( ret , 5 , limit ) ) return NULL ; s2n ( TLSEXT_TYPE_heartbeat , ret ) ; s2n ( 1 , ret ) ; if ( s -> tlsext_heartbeat & SSL_DTLSEXT_HB_DONT_RECV_REQUESTS ) * ( ret ++ ) = SSL_DTLSEXT_HB_DONT_SEND_REQUESTS ; else * ( ret ++ ) = SSL_DTLSEXT_HB_ENABLED ; } # endif # ifndef OPENSSL_NO_NEXTPROTONEG next_proto_neg_seen = s -> s3 -> next_proto_neg_seen ; s -> s3 -> next_proto_neg_seen = 0 ; if ( next_proto_neg_seen && s -> ctx -> next_protos_advertised_cb ) { const unsigned char * npa ; unsigned int npalen ; int r ; r = s -> ctx -> next_protos_advertised_cb ( s , & npa , & npalen , s -> ctx -> next_protos_advertised_cb_arg ) ; if ( r == SSL_TLSEXT_ERR_OK ) { if ( CHECKLEN ( ret , 4 + npalen , limit ) ) return NULL ; s2n ( TLSEXT_TYPE_next_proto_neg , ret ) ; s2n ( npalen , ret ) ; memcpy ( ret , npa , npalen ) ; ret += npalen ; s -> s3 -> next_proto_neg_seen = 1 ; } } # endif if ( ! custom_ext_add ( s , 1 , & ret , limit , al ) ) return NULL ; if ( s -> tlsext_use_etm ) { if ( SSL_IS_DTLS ( s ) || s -> s3 -> tmp . new_cipher -> algorithm_mac == SSL_AEAD || s -> s3 -> tmp . new_cipher -> algorithm_enc == SSL_RC4 || s -> s3 -> tmp . new_cipher -> algorithm_enc == SSL_eGOST2814789CNT || s -> s3 -> tmp . new_cipher -> algorithm_enc == SSL_eGOST2814789CNT12 ) s -> tlsext_use_etm = 0 ; else { if ( CHECKLEN ( ret , 4 , limit ) ) return NULL ; s2n ( TLSEXT_TYPE_encrypt_then_mac , ret ) ; s2n ( 0 , ret ) ; } } if ( s -> s3 -> flags & TLS1_FLAGS_RECEIVED_EXTMS ) { if ( CHECKLEN ( ret , 4 , limit ) ) return NULL ; s2n ( TLSEXT_TYPE_extended_master_secret , ret ) ; s2n ( 0 , ret ) ; } if ( s -> s3 -> alpn_selected != NULL ) { const unsigned char * selected = s -> s3 -> alpn_selected ; size_t len = s -> s3 -> alpn_selected_len ; if ( CHECKLEN ( ret , 7 + len , limit ) ) return NULL ; s2n ( TLSEXT_TYPE_application_layer_protocol_negotiation , ret ) ; s2n ( 3 + len , ret ) ; s2n ( 1 + len , ret ) ; * ret ++ = len ; memcpy ( ret , selected , len ) ; ret += len ; } done : if ( ( extdatalen = ret - orig - 2 ) == 0 ) return orig ; s2n ( extdatalen , orig ) ; return ret ; }" 401,"NVD-CWE-Other static int asn1_find_indefinite_length ( const unsigned char * data , size_t datalen , size_t * _dp , size_t * _len , const char * * _errmsg ) { unsigned char tag , tmp ; size_t dp = * _dp , len , n ; int indef_level = 1 ; next_tag : if ( unlikely ( datalen - dp < 2 ) ) { if ( datalen == dp ) goto missing_eoc ; goto data_overrun_error ; } tag = data [ dp ++ ] ; if ( tag == 0 ) { if ( data [ dp ++ ] != 0 ) goto invalid_eoc ; if ( -- indef_level <= 0 ) { * _len = dp - * _dp ; * _dp = dp ; return 0 ; } goto next_tag ; } if ( unlikely ( ( tag & 0x1f ) == ASN1_LONG_TAG ) ) { do { if ( unlikely ( datalen - dp < 2 ) ) goto data_overrun_error ; tmp = data [ dp ++ ] ; } while ( tmp & 0x80 ) ; } len = data [ dp ++ ] ; if ( len <= 0x7f ) { dp += len ; goto next_tag ; } if ( unlikely ( len == ASN1_INDEFINITE_LENGTH ) ) { if ( unlikely ( ( tag & ASN1_CONS_BIT ) == ASN1_PRIM << 5 ) ) goto indefinite_len_primitive ; indef_level ++ ; goto next_tag ; } n = len - 0x80 ; if ( unlikely ( n > sizeof ( size_t ) - 1 ) ) goto length_too_long ; if ( unlikely ( n > datalen - dp ) ) goto data_overrun_error ; for ( len = 0 ; n > 0 ; n -- ) { len <<= 8 ; len |= data [ dp ++ ] ; } dp += len ; goto next_tag ; length_too_long : * _errmsg = ""Unsupported length"" ; goto error ; indefinite_len_primitive : * _errmsg = ""Indefinite len primitive not permitted"" ; goto error ; invalid_eoc : * _errmsg = ""Invalid length EOC"" ; goto error ; data_overrun_error : * _errmsg = ""Data overrun error"" ; goto error ; missing_eoc : * _errmsg = ""Missing EOC in indefinite len cons"" ; error : * _dp = dp ; return - 1 ; }","static int asn1_find_indefinite_length ( const unsigned char * data , size_t datalen , size_t * _dp , size_t * _len , const char * * _errmsg ) { unsigned char tag , tmp ; size_t dp = * _dp , len , n ; int indef_level = 1 ; next_tag : if ( unlikely ( datalen - dp < 2 ) ) { if ( datalen == dp ) goto missing_eoc ; goto data_overrun_error ; } tag = data [ dp ++ ] ; if ( tag == ASN1_EOC ) { if ( data [ dp ++ ] != 0 ) goto invalid_eoc ; if ( -- indef_level <= 0 ) { * _len = dp - * _dp ; * _dp = dp ; return 0 ; } goto next_tag ; } if ( unlikely ( ( tag & 0x1f ) == ASN1_LONG_TAG ) ) { do { if ( unlikely ( datalen - dp < 2 ) ) goto data_overrun_error ; tmp = data [ dp ++ ] ; } while ( tmp & 0x80 ) ; } len = data [ dp ++ ] ; if ( len <= 0x7f ) goto check_length ; if ( unlikely ( len == ASN1_INDEFINITE_LENGTH ) ) { if ( unlikely ( ( tag & ASN1_CONS_BIT ) == ASN1_PRIM << 5 ) ) goto indefinite_len_primitive ; indef_level ++ ; goto next_tag ; } n = len - 0x80 ; if ( unlikely ( n > sizeof ( len ) - 1 ) ) goto length_too_long ; if ( unlikely ( n > datalen - dp ) ) goto data_overrun_error ; len = 0 ; for ( ; n > 0 ; n -- ) { len <<= 8 ; len |= data [ dp ++ ] ; } check_length : if ( len > datalen - dp ) goto data_overrun_error ; dp += len ; goto next_tag ; length_too_long : * _errmsg = ""Unsupported length"" ; goto error ; indefinite_len_primitive : * _errmsg = ""Indefinite len primitive not permitted"" ; goto error ; invalid_eoc : * _errmsg = ""Invalid length EOC"" ; goto error ; data_overrun_error : * _errmsg = ""Data overrun error"" ; goto error ; missing_eoc : * _errmsg = ""Missing EOC in indefinite len cons"" ; error : * _dp = dp ; return - 1 ; }" 402,"NVD-CWE-noinfo static void sas_init_port ( struct asd_sas_port * port , struct sas_ha_struct * sas_ha , int i ) { memset ( port , 0 , sizeof ( * port ) ) ; port -> id = i ; INIT_LIST_HEAD ( & port -> dev_list ) ; INIT_LIST_HEAD ( & port -> disco_list ) ; INIT_LIST_HEAD ( & port -> destroy_list ) ; spin_lock_init ( & port -> phy_list_lock ) ; INIT_LIST_HEAD ( & port -> phy_list ) ; port -> ha = sas_ha ; spin_lock_init ( & port -> dev_list_lock ) ; }","static void sas_init_port ( struct asd_sas_port * port , struct sas_ha_struct * sas_ha , int i ) { memset ( port , 0 , sizeof ( * port ) ) ; port -> id = i ; INIT_LIST_HEAD ( & port -> dev_list ) ; INIT_LIST_HEAD ( & port -> disco_list ) ; INIT_LIST_HEAD ( & port -> destroy_list ) ; INIT_LIST_HEAD ( & port -> sas_port_del_list ) ; spin_lock_init ( & port -> phy_list_lock ) ; INIT_LIST_HEAD ( & port -> phy_list ) ; port -> ha = sas_ha ; spin_lock_init ( & port -> dev_list_lock ) ; }" 403,"CWE-264 static ssize_t hfi1_file_write ( struct file * fp , const char __user * data , size_t count , loff_t * offset ) { const struct hfi1_cmd __user * ucmd ; struct hfi1_filedata * fd = fp -> private_data ; struct hfi1_ctxtdata * uctxt = fd -> uctxt ; struct hfi1_cmd cmd ; struct hfi1_user_info uinfo ; struct hfi1_tid_info tinfo ; unsigned long addr ; ssize_t consumed = 0 , copy = 0 , ret = 0 ; void * dest = NULL ; __u64 user_val = 0 ; int uctxt_required = 1 ; int must_be_root = 0 ; if ( count < sizeof ( cmd ) ) { ret = - EINVAL ; goto bail ; } ucmd = ( const struct hfi1_cmd __user * ) data ; if ( copy_from_user ( & cmd , ucmd , sizeof ( cmd ) ) ) { ret = - EFAULT ; goto bail ; } consumed = sizeof ( cmd ) ; switch ( cmd . type ) { case HFI1_CMD_ASSIGN_CTXT : uctxt_required = 0 ; copy = sizeof ( uinfo ) ; dest = & uinfo ; break ; case HFI1_CMD_SDMA_STATUS_UPD : case HFI1_CMD_CREDIT_UPD : copy = 0 ; break ; case HFI1_CMD_TID_UPDATE : case HFI1_CMD_TID_FREE : case HFI1_CMD_TID_INVAL_READ : copy = sizeof ( tinfo ) ; dest = & tinfo ; break ; case HFI1_CMD_USER_INFO : case HFI1_CMD_RECV_CTRL : case HFI1_CMD_POLL_TYPE : case HFI1_CMD_ACK_EVENT : case HFI1_CMD_CTXT_INFO : case HFI1_CMD_SET_PKEY : case HFI1_CMD_CTXT_RESET : copy = 0 ; user_val = cmd . addr ; break ; case HFI1_CMD_EP_INFO : case HFI1_CMD_EP_ERASE_CHIP : case HFI1_CMD_EP_ERASE_RANGE : case HFI1_CMD_EP_READ_RANGE : case HFI1_CMD_EP_WRITE_RANGE : uctxt_required = 0 ; must_be_root = 1 ; copy = 0 ; break ; default : ret = - EINVAL ; goto bail ; } if ( copy ) {","static ssize_t hfi1_file_write ( struct file * fp , const char __user * data , size_t count , loff_t * offset ) { const struct hfi1_cmd __user * ucmd ; struct hfi1_filedata * fd = fp -> private_data ; struct hfi1_ctxtdata * uctxt = fd -> uctxt ; struct hfi1_cmd cmd ; struct hfi1_user_info uinfo ; struct hfi1_tid_info tinfo ; unsigned long addr ; ssize_t consumed = 0 , copy = 0 , ret = 0 ; void * dest = NULL ; __u64 user_val = 0 ; int uctxt_required = 1 ; int must_be_root = 0 ; if ( WARN_ON_ONCE ( ! ib_safe_file_access ( fp ) ) ) return - EACCES ; if ( count < sizeof ( cmd ) ) { ret = - EINVAL ; goto bail ; } ucmd = ( const struct hfi1_cmd __user * ) data ; if ( copy_from_user ( & cmd , ucmd , sizeof ( cmd ) ) ) { ret = - EFAULT ; goto bail ; } consumed = sizeof ( cmd ) ; switch ( cmd . type ) { case HFI1_CMD_ASSIGN_CTXT : uctxt_required = 0 ; copy = sizeof ( uinfo ) ; dest = & uinfo ; break ; case HFI1_CMD_SDMA_STATUS_UPD : case HFI1_CMD_CREDIT_UPD : copy = 0 ; break ; case HFI1_CMD_TID_UPDATE : case HFI1_CMD_TID_FREE : case HFI1_CMD_TID_INVAL_READ : copy = sizeof ( tinfo ) ; dest = & tinfo ; break ; case HFI1_CMD_USER_INFO : case HFI1_CMD_RECV_CTRL : case HFI1_CMD_POLL_TYPE : case HFI1_CMD_ACK_EVENT : case HFI1_CMD_CTXT_INFO : case HFI1_CMD_SET_PKEY : case HFI1_CMD_CTXT_RESET : copy = 0 ; user_val = cmd . addr ; break ; case HFI1_CMD_EP_INFO : case HFI1_CMD_EP_ERASE_CHIP : case HFI1_CMD_EP_ERASE_RANGE : case HFI1_CMD_EP_READ_RANGE : case HFI1_CMD_EP_WRITE_RANGE : uctxt_required = 0 ; must_be_root = 1 ; copy = 0 ; break ; default : ret = - EINVAL ; goto bail ; } if ( copy ) {" 404,"CWE-119 static BOOL rdp_read_font_capability_set ( wStream * s , UINT16 length , rdpSettings * settings ) { WINPR_UNUSED ( settings ) ; if ( length > 4 ) Stream_Seek_UINT16 ( s ) ; if ( length > 6 ) Stream_Seek_UINT16 ( s ) ; return TRUE ; }","static BOOL rdp_read_font_capability_set ( wStream * s , UINT16 length , rdpSettings * settings ) { WINPR_UNUSED ( settings ) ; if ( length > 5 ) Stream_Seek_UINT16 ( s ) ; if ( length > 7 ) Stream_Seek_UINT16 ( s ) ; return TRUE ; }" 405,"CWE-20 static int read_bytes ( FILE * fp , void * buf , size_t bytes_to_read , int fail_on_eof , char * errbuf ) { size_t amt_read ; amt_read = fread ( buf , 1 , bytes_to_read , fp ) ; if ( amt_read != bytes_to_read ) { if ( ferror ( fp ) ) { pcap_fmt_errmsg_for_errno ( errbuf , PCAP_ERRBUF_SIZE , errno , ""error reading dump file"" ) ; } else { if ( amt_read == 0 && ! fail_on_eof ) return ( 0 ) ; pcap_snprintf ( errbuf , PCAP_ERRBUF_SIZE , ""truncated dump file; tried to read %"" PRIsize "" bytes, only got %"" PRIsize , bytes_to_read , amt_read ) ; } return ( - 1 ) ; } return ( 1 ) ; }","static int read_bytes ( FILE * fp , void * buf , size_t bytes_to_read , int fail_on_eof , char * errbuf ) { size_t amt_read ; amt_read = fread ( buf , 1 , bytes_to_read , fp ) ; if ( amt_read != bytes_to_read ) { if ( ferror ( fp ) ) { pcap_fmt_errmsg_for_errno ( errbuf , PCAP_ERRBUF_SIZE , errno , ""error reading dump file"" ) ; } else { if ( amt_read == 0 && ! fail_on_eof ) return ( 0 ) ; pcap_snprintf ( errbuf , PCAP_ERRBUF_SIZE , ""truncated pcapng dump file; tried to read %"" PRIsize "" bytes, only got %"" PRIsize , bytes_to_read , amt_read ) ; } return ( - 1 ) ; } return ( 1 ) ; }" 406,"CWE-119 static void decode_residue ( vorb * f , float * residue_buffers [ ] , int ch , int n , int rn , uint8 * do_not_decode ) { int i , j , pass ; Residue * r = f -> residue_config + rn ; int rtype = f -> residue_types [ rn ] ; int c = r -> classbook ; int classwords = f -> codebooks [ c ] . dimensions ; int n_read = r -> end - r -> begin ; int part_read = n_read / r -> part_size ; int temp_alloc_point = temp_alloc_save ( f ) ; # ifndef STB_VORBIS_DIVIDES_IN_RESIDUE uint8 * * * part_classdata = ( uint8 * * * ) temp_block_array ( f , f -> channels , part_read * sizeof ( * * part_classdata ) ) ; # else int * * classifications = ( int * * ) temp_block_array ( f , f -> channels , part_read * sizeof ( * * classifications ) ) ; # endif CHECK ( f ) ; for ( i = 0 ; i < ch ; ++ i ) if ( ! do_not_decode [ i ] ) memset ( residue_buffers [ i ] , 0 , sizeof ( float ) * n ) ; if ( rtype == 2 && ch != 1 ) { for ( j = 0 ; j < ch ; ++ j ) if ( ! do_not_decode [ j ] ) break ; if ( j == ch ) goto done ; for ( pass = 0 ; pass < 8 ; ++ pass ) { int pcount = 0 , class_set = 0 ; if ( ch == 2 ) { while ( pcount < part_read ) { int z = r -> begin + pcount * r -> part_size ; int c_inter = ( z & 1 ) , p_inter = z >> 1 ; if ( pass == 0 ) { Codebook * c = f -> codebooks + r -> classbook ; int q ; DECODE ( q , f , c ) ; if ( q == EOP ) goto done ; # ifndef STB_VORBIS_DIVIDES_IN_RESIDUE part_classdata [ 0 ] [ class_set ] = r -> classdata [ q ] ; # else for ( i = classwords - 1 ; i >= 0 ; -- i ) { classifications [ 0 ] [ i + pcount ] = q % r -> classifications ; q /= r -> classifications ; } # endif } for ( i = 0 ; i < classwords && pcount < part_read ; ++ i , ++ pcount ) { int z = r -> begin + pcount * r -> part_size ; # ifndef STB_VORBIS_DIVIDES_IN_RESIDUE int c = part_classdata [ 0 ] [ class_set ] [ i ] ; # else int c = classifications [ 0 ] [ pcount ] ; # endif int b = r -> residue_books [ c ] [ pass ] ; if ( b >= 0 ) { Codebook * book = f -> codebooks + b ; # ifdef STB_VORBIS_DIVIDES_IN_CODEBOOK if ( ! codebook_decode_deinterleave_repeat ( f , book , residue_buffers , ch , & c_inter , & p_inter , n , r -> part_size ) ) goto done ;","static void decode_residue ( vorb * f , float * residue_buffers [ ] , int ch , int n , int rn , uint8 * do_not_decode ) { int i , j , pass ; Residue * r = f -> residue_config + rn ; int rtype = f -> residue_types [ rn ] ; int c = r -> classbook ; int classwords = f -> codebooks [ c ] . dimensions ; unsigned int actual_size = rtype == 2 ? n * 2 : n ; unsigned int limit_r_begin = ( r -> begin < actual_size ? r -> begin : actual_size ) ; unsigned int limit_r_end = ( r -> end < actual_size ? r -> end : actual_size ) ; int n_read = limit_r_end - limit_r_begin ; int part_read = n_read / r -> part_size ; int temp_alloc_point = temp_alloc_save ( f ) ; # ifndef STB_VORBIS_DIVIDES_IN_RESIDUE uint8 * * * part_classdata = ( uint8 * * * ) temp_block_array ( f , f -> channels , part_read * sizeof ( * * part_classdata ) ) ; # else int * * classifications = ( int * * ) temp_block_array ( f , f -> channels , part_read * sizeof ( * * classifications ) ) ; # endif CHECK ( f ) ; for ( i = 0 ; i < ch ; ++ i ) if ( ! do_not_decode [ i ] ) memset ( residue_buffers [ i ] , 0 , sizeof ( float ) * n ) ; if ( rtype == 2 && ch != 1 ) { for ( j = 0 ; j < ch ; ++ j ) if ( ! do_not_decode [ j ] ) break ; if ( j == ch ) goto done ; for ( pass = 0 ; pass < 8 ; ++ pass ) { int pcount = 0 , class_set = 0 ; if ( ch == 2 ) { while ( pcount < part_read ) { int z = r -> begin + pcount * r -> part_size ; int c_inter = ( z & 1 ) , p_inter = z >> 1 ; if ( pass == 0 ) { Codebook * c = f -> codebooks + r -> classbook ; int q ; DECODE ( q , f , c ) ; if ( q == EOP ) goto done ; # ifndef STB_VORBIS_DIVIDES_IN_RESIDUE part_classdata [ 0 ] [ class_set ] = r -> classdata [ q ] ; # else for ( i = classwords - 1 ; i >= 0 ; -- i ) { classifications [ 0 ] [ i + pcount ] = q % r -> classifications ; q /= r -> classifications ; } # endif } for ( i = 0 ; i < classwords && pcount < part_read ; ++ i , ++ pcount ) { int z = r -> begin + pcount * r -> part_size ; # ifndef STB_VORBIS_DIVIDES_IN_RESIDUE int c = part_classdata [ 0 ] [ class_set ] [ i ] ; # else int c = classifications [ 0 ] [ pcount ] ; # endif int b = r -> residue_books [ c ] [ pass ] ; if ( b >= 0 ) { Codebook * book = f -> codebooks + b ; # ifdef STB_VORBIS_DIVIDES_IN_CODEBOOK if ( ! codebook_decode_deinterleave_repeat ( f , book , residue_buffers , ch , & c_inter , & p_inter , n , r -> part_size ) ) goto done ;" 407,"CWE-134 int argc , char * * argv ) { image_desc_t im ; rrd_info_t * grinfo ; char * old_locale ; rrd_graph_init ( & im ) ; old_locale = setlocale ( LC_NUMERIC , ""C"" ) ; rrd_graph_options ( argc , argv , & im ) ; if ( rrd_test_error ( ) ) { rrd_info_free ( im . grinfo ) ; im_free ( & im ) ; return NULL ; } if ( optind >= argc ) { rrd_info_free ( im . grinfo ) ; im_free ( & im ) ; rrd_set_error ( ""missing filename"" ) ; return NULL ; } if ( strlen ( argv [ optind ] ) >= MAXPATH ) { rrd_set_error ( ""filename (including path) too long"" ) ; rrd_info_free ( im . grinfo ) ; im_free ( & im ) ; return NULL ; } strncpy ( im . graphfile , argv [ optind ] , MAXPATH - 1 ) ; im . graphfile [ MAXPATH - 1 ] = '\\0' ; if ( strcmp ( im . graphfile , ""-"" ) == 0 ) { im . graphfile [ 0 ] = '\\0' ; } rrd_graph_script ( argc , argv , & im , 1 ) ; setlocale ( LC_NUMERIC , old_locale ) ; if ( rrd_test_error ( ) ) { rrd_info_free ( im . grinfo ) ; im_free ( & im ) ; return NULL ; } if ( graph_paint ( & im ) == - 1 ) { rrd_info_free ( im . grinfo ) ; im_free ( & im ) ; return NULL ; } if ( im . imginfo ) { rrd_infoval_t info ; char * path ; char * filename ; if ( bad_format_imginfo ( im . imginfo ) ) { rrd_info_free ( im . grinfo ) ; im_free ( & im ) ; rrd_set_error ( ""bad format for imginfo"" ) ; return NULL ; } path = strdup ( im . graphfile ) ; filename = basename ( path ) ; info . u_str = sprintf_alloc ( im . imginfo , filename , ( long ) ( im . zoom * im . ximg ) , ( long ) ( im . zoom * im . yimg ) ) ; grinfo_push ( & im , sprintf_alloc ( ""image_info"" ) , RD_I_STR , info ) ; free ( info . u_str ) ; free ( path ) ; } if ( im . rendered_image ) { rrd_infoval_t img ; img . u_blo . size = im . rendered_image_size ; img . u_blo . ptr = im . rendered_image ; grinfo_push ( & im , sprintf_alloc ( ""image"" ) , RD_I_BLO , img ) ; } grinfo = im . grinfo ; im_free ( & im ) ; return grinfo ; }","int argc , char * * argv ) { image_desc_t im ; rrd_info_t * grinfo ; char * old_locale ; rrd_graph_init ( & im ) ; old_locale = setlocale ( LC_NUMERIC , ""C"" ) ; rrd_graph_options ( argc , argv , & im ) ; if ( rrd_test_error ( ) ) { rrd_info_free ( im . grinfo ) ; im_free ( & im ) ; return NULL ; } if ( optind >= argc ) { rrd_info_free ( im . grinfo ) ; im_free ( & im ) ; rrd_set_error ( ""missing filename"" ) ; return NULL ; } if ( strlen ( argv [ optind ] ) >= MAXPATH ) { rrd_set_error ( ""filename (including path) too long"" ) ; rrd_info_free ( im . grinfo ) ; im_free ( & im ) ; return NULL ; } strncpy ( im . graphfile , argv [ optind ] , MAXPATH - 1 ) ; im . graphfile [ MAXPATH - 1 ] = '\\0' ; if ( strcmp ( im . graphfile , ""-"" ) == 0 ) { im . graphfile [ 0 ] = '\\0' ; } rrd_graph_script ( argc , argv , & im , 1 ) ; setlocale ( LC_NUMERIC , old_locale ) ; if ( rrd_test_error ( ) ) { rrd_info_free ( im . grinfo ) ; im_free ( & im ) ; return NULL ; } if ( graph_paint ( & im ) == - 1 ) { rrd_info_free ( im . grinfo ) ; im_free ( & im ) ; return NULL ; } if ( im . imginfo ) { rrd_infoval_t info ; char * path ; char * filename ; if ( bad_format_imginfo ( im . imginfo ) ) { rrd_info_free ( im . grinfo ) ; im_free ( & im ) ; return NULL ; } path = strdup ( im . graphfile ) ; filename = basename ( path ) ; info . u_str = sprintf_alloc ( im . imginfo , filename , ( long ) ( im . zoom * im . ximg ) , ( long ) ( im . zoom * im . yimg ) ) ; grinfo_push ( & im , sprintf_alloc ( ""image_info"" ) , RD_I_STR , info ) ; free ( info . u_str ) ; free ( path ) ; } if ( im . rendered_image ) { rrd_infoval_t img ; img . u_blo . size = im . rendered_image_size ; img . u_blo . ptr = im . rendered_image ; grinfo_push ( & im , sprintf_alloc ( ""image"" ) , RD_I_BLO , img ) ; } grinfo = im . grinfo ; im_free ( & im ) ; return grinfo ; }" 408,"CWE-416 static int l2tp_ip6_bind ( struct sock * sk , struct sockaddr * uaddr , int addr_len ) { struct inet_sock * inet = inet_sk ( sk ) ; struct ipv6_pinfo * np = inet6_sk ( sk ) ; struct sockaddr_l2tpip6 * addr = ( struct sockaddr_l2tpip6 * ) uaddr ; struct net * net = sock_net ( sk ) ; __be32 v4addr = 0 ; int addr_type ; int err ; if ( ! sock_flag ( sk , SOCK_ZAPPED ) ) return - EINVAL ; if ( addr -> l2tp_family != AF_INET6 ) return - EINVAL ; if ( addr_len < sizeof ( * addr ) ) return - EINVAL ; addr_type = ipv6_addr_type ( & addr -> l2tp_addr ) ; if ( addr_type == IPV6_ADDR_MAPPED ) return - EADDRNOTAVAIL ; if ( addr_type & IPV6_ADDR_MULTICAST ) return - EADDRNOTAVAIL ; err = - EADDRINUSE ; read_lock_bh ( & l2tp_ip6_lock ) ; if ( __l2tp_ip6_bind_lookup ( net , & addr -> l2tp_addr , sk -> sk_bound_dev_if , addr -> l2tp_conn_id ) ) goto out_in_use ; read_unlock_bh ( & l2tp_ip6_lock ) ; lock_sock ( sk ) ; err = - EINVAL ; if ( sk -> sk_state != TCP_CLOSE ) goto out_unlock ; rcu_read_lock ( ) ; if ( addr_type != IPV6_ADDR_ANY ) { struct net_device * dev = NULL ; if ( addr_type & IPV6_ADDR_LINKLOCAL ) { if ( addr_len >= sizeof ( struct sockaddr_in6 ) && addr -> l2tp_scope_id ) { sk -> sk_bound_dev_if = addr -> l2tp_scope_id ; } if ( ! sk -> sk_bound_dev_if ) goto out_unlock_rcu ; err = - ENODEV ; dev = dev_get_by_index_rcu ( sock_net ( sk ) , sk -> sk_bound_dev_if ) ; if ( ! dev ) goto out_unlock_rcu ; } v4addr = LOOPBACK4_IPV6 ; err = - EADDRNOTAVAIL ; if ( ! ipv6_chk_addr ( sock_net ( sk ) , & addr -> l2tp_addr , dev , 0 ) ) goto out_unlock_rcu ; } rcu_read_unlock ( ) ; inet -> inet_rcv_saddr = inet -> inet_saddr = v4addr ; sk -> sk_v6_rcv_saddr = addr -> l2tp_addr ; np -> saddr = addr -> l2tp_addr ; l2tp_ip6_sk ( sk ) -> conn_id = addr -> l2tp_conn_id ; write_lock_bh ( & l2tp_ip6_lock ) ; sk_add_bind_node ( sk , & l2tp_ip6_bind_table ) ; sk_del_node_init ( sk ) ; write_unlock_bh ( & l2tp_ip6_lock ) ; sock_reset_flag ( sk , SOCK_ZAPPED ) ; release_sock ( sk ) ; return 0 ; out_unlock_rcu : rcu_read_unlock ( ) ; out_unlock : release_sock ( sk ) ; return err ; out_in_use : read_unlock_bh ( & l2tp_ip6_lock ) ; return err ; }","static int l2tp_ip6_bind ( struct sock * sk , struct sockaddr * uaddr , int addr_len ) { struct inet_sock * inet = inet_sk ( sk ) ; struct ipv6_pinfo * np = inet6_sk ( sk ) ; struct sockaddr_l2tpip6 * addr = ( struct sockaddr_l2tpip6 * ) uaddr ; struct net * net = sock_net ( sk ) ; __be32 v4addr = 0 ; int addr_type ; int err ; if ( addr -> l2tp_family != AF_INET6 ) return - EINVAL ; if ( addr_len < sizeof ( * addr ) ) return - EINVAL ; addr_type = ipv6_addr_type ( & addr -> l2tp_addr ) ; if ( addr_type == IPV6_ADDR_MAPPED ) return - EADDRNOTAVAIL ; if ( addr_type & IPV6_ADDR_MULTICAST ) return - EADDRNOTAVAIL ; err = - EADDRINUSE ; read_lock_bh ( & l2tp_ip6_lock ) ; if ( __l2tp_ip6_bind_lookup ( net , & addr -> l2tp_addr , sk -> sk_bound_dev_if , addr -> l2tp_conn_id ) ) goto out_in_use ; read_unlock_bh ( & l2tp_ip6_lock ) ; lock_sock ( sk ) ; err = - EINVAL ; if ( ! sock_flag ( sk , SOCK_ZAPPED ) ) goto out_unlock ; if ( sk -> sk_state != TCP_CLOSE ) goto out_unlock ; rcu_read_lock ( ) ; if ( addr_type != IPV6_ADDR_ANY ) { struct net_device * dev = NULL ; if ( addr_type & IPV6_ADDR_LINKLOCAL ) { if ( addr_len >= sizeof ( struct sockaddr_in6 ) && addr -> l2tp_scope_id ) { sk -> sk_bound_dev_if = addr -> l2tp_scope_id ; } if ( ! sk -> sk_bound_dev_if ) goto out_unlock_rcu ; err = - ENODEV ; dev = dev_get_by_index_rcu ( sock_net ( sk ) , sk -> sk_bound_dev_if ) ; if ( ! dev ) goto out_unlock_rcu ; } v4addr = LOOPBACK4_IPV6 ; err = - EADDRNOTAVAIL ; if ( ! ipv6_chk_addr ( sock_net ( sk ) , & addr -> l2tp_addr , dev , 0 ) ) goto out_unlock_rcu ; } rcu_read_unlock ( ) ; inet -> inet_rcv_saddr = inet -> inet_saddr = v4addr ; sk -> sk_v6_rcv_saddr = addr -> l2tp_addr ; np -> saddr = addr -> l2tp_addr ; l2tp_ip6_sk ( sk ) -> conn_id = addr -> l2tp_conn_id ; write_lock_bh ( & l2tp_ip6_lock ) ; sk_add_bind_node ( sk , & l2tp_ip6_bind_table ) ; sk_del_node_init ( sk ) ; write_unlock_bh ( & l2tp_ip6_lock ) ; sock_reset_flag ( sk , SOCK_ZAPPED ) ; release_sock ( sk ) ; return 0 ; out_unlock_rcu : rcu_read_unlock ( ) ; out_unlock : release_sock ( sk ) ; return err ; out_in_use : read_unlock_bh ( & l2tp_ip6_lock ) ; return err ; }" 409,"CWE-119 static void decode_macroblock ( VP8D_COMP * pbi , MACROBLOCKD * xd , unsigned int mb_idx ) { MB_PREDICTION_MODE mode ; int i ; # if CONFIG_ERROR_CONCEALMENT int corruption_detected = 0 ; # endif if ( xd -> mode_info_context -> mbmi . mb_skip_coeff ) { vp8_reset_mb_tokens_context ( xd ) ; } else if ( ! vp8dx_bool_error ( xd -> current_bc ) ) { int eobtotal ; eobtotal = vp8_decode_mb_tokens ( pbi , xd ) ; xd -> mode_info_context -> mbmi . mb_skip_coeff = ( eobtotal == 0 ) ; } mode = xd -> mode_info_context -> mbmi . mode ; if ( xd -> segmentation_enabled ) vp8_mb_init_dequantizer ( pbi , xd ) ; # if CONFIG_ERROR_CONCEALMENT if ( pbi -> ec_active ) { int throw_residual ; throw_residual = ( ! pbi -> independent_partitions && pbi -> frame_corrupt_residual ) ; throw_residual = ( throw_residual || vp8dx_bool_error ( xd -> current_bc ) ) ; if ( ( mb_idx >= pbi -> mvs_corrupt_from_mb || throw_residual ) ) { pbi -> frame_corrupt_residual = 1 ; vpx_memset ( xd -> qcoeff , 0 , sizeof ( xd -> qcoeff ) ) ; vp8_conceal_corrupt_mb ( xd ) ; corruption_detected = 1 ; vpx_memset ( xd -> eobs , 0 , 25 ) ; } } # endif if ( xd -> mode_info_context -> mbmi . ref_frame == INTRA_FRAME ) { vp8_build_intra_predictors_mbuv_s ( xd , xd -> recon_above [ 1 ] , xd -> recon_above [ 2 ] , xd -> recon_left [ 1 ] , xd -> recon_left [ 2 ] , xd -> recon_left_stride [ 1 ] , xd -> dst . u_buffer , xd -> dst . v_buffer , xd -> dst . uv_stride ) ; if ( mode != B_PRED ) { vp8_build_intra_predictors_mby_s ( xd , xd -> recon_above [ 0 ] , xd -> recon_left [ 0 ] , xd -> recon_left_stride [ 0 ] , xd -> dst . y_buffer , xd -> dst . y_stride ) ; } else { short * DQC = xd -> dequant_y1 ; int dst_stride = xd -> dst . y_stride ; if ( xd -> mode_info_context -> mbmi . mb_skip_coeff ) vpx_memset ( xd -> eobs , 0 , 25 ) ; intra_prediction_down_copy ( xd , xd -> recon_above [ 0 ] + 16 ) ; for ( i = 0 ; i < 16 ; i ++ ) { BLOCKD * b = & xd -> block [ i ] ; unsigned char * dst = xd -> dst . y_buffer + b -> offset ; B_PREDICTION_MODE b_mode = xd -> mode_info_context -> bmi [ i ] . as_mode ; unsigned char * Above = dst - dst_stride ; unsigned char * yleft = dst - 1 ; int left_stride = dst_stride ; unsigned char top_left = Above [ - 1 ] ; vp8_intra4x4_predict ( Above , yleft , left_stride , b_mode , dst , dst_stride , top_left ) ; if ( xd -> eobs [ i ] ) { if ( xd -> eobs [ i ] > 1 ) { vp8_dequant_idct_add ( b -> qcoeff , DQC , dst , dst_stride ) ; } else { vp8_dc_only_idct_add ( b -> qcoeff [ 0 ] * DQC [ 0 ] , dst , dst_stride , dst , dst_stride ) ; vpx_memset ( b -> qcoeff , 0 , 2 * sizeof ( b -> qcoeff [ 0 ] ) ) ; } } } } } else { vp8_build_inter_predictors_mb ( xd ) ; } # if CONFIG_ERROR_CONCEALMENT if ( corruption_detected ) { return ; } # endif if ( ! xd -> mode_info_context -> mbmi . mb_skip_coeff ) { if ( mode != B_PRED ) { short * DQC = xd -> dequant_y1 ; if ( mode != SPLITMV ) { BLOCKD * b = & xd -> block [ 24 ] ; if ( xd -> eobs [ 24 ] > 1 ) { vp8_dequantize_b ( b , xd -> dequant_y2 ) ; vp8_short_inv_walsh4x4 ( & b -> dqcoeff [ 0 ] , xd -> qcoeff ) ; vpx_memset ( b -> qcoeff , 0 , 16 * sizeof ( b -> qcoeff [ 0 ] ) ) ; } else { b -> dqcoeff [ 0 ] = b -> qcoeff [ 0 ] * xd -> dequant_y2 [ 0 ] ; vp8_short_inv_walsh4x4_1 ( & b -> dqcoeff [ 0 ] , xd -> qcoeff ) ; vpx_memset ( b -> qcoeff , 0 , 2 * sizeof ( b -> qcoeff [ 0 ] ) ) ; } DQC = xd -> dequant_y1_dc ; } vp8_dequant_idct_add_y_block ( xd -> qcoeff , DQC , xd -> dst . y_buffer , xd -> dst . y_stride , xd -> eobs ) ; } vp8_dequant_idct_add_uv_block ( xd -> qcoeff + 16 * 16 , xd -> dequant_uv , xd -> dst . u_buffer , xd -> dst . v_buffer , xd -> dst . uv_stride , xd -> eobs + 16 ) ; } }","static void decode_macroblock ( VP8D_COMP * pbi , MACROBLOCKD * xd , unsigned int mb_idx ) { MB_PREDICTION_MODE mode ; int i ; # if CONFIG_ERROR_CONCEALMENT int corruption_detected = 0 ; # else ( void ) mb_idx ; # endif if ( xd -> mode_info_context -> mbmi . mb_skip_coeff ) { vp8_reset_mb_tokens_context ( xd ) ; } else if ( ! vp8dx_bool_error ( xd -> current_bc ) ) { int eobtotal ; eobtotal = vp8_decode_mb_tokens ( pbi , xd ) ; xd -> mode_info_context -> mbmi . mb_skip_coeff = ( eobtotal == 0 ) ; } mode = xd -> mode_info_context -> mbmi . mode ; if ( xd -> segmentation_enabled ) vp8_mb_init_dequantizer ( pbi , xd ) ; # if CONFIG_ERROR_CONCEALMENT if ( pbi -> ec_active ) { int throw_residual ; throw_residual = ( ! pbi -> independent_partitions && pbi -> frame_corrupt_residual ) ; throw_residual = ( throw_residual || vp8dx_bool_error ( xd -> current_bc ) ) ; if ( ( mb_idx >= pbi -> mvs_corrupt_from_mb || throw_residual ) ) { pbi -> frame_corrupt_residual = 1 ; memset ( xd -> qcoeff , 0 , sizeof ( xd -> qcoeff ) ) ; vp8_conceal_corrupt_mb ( xd ) ; corruption_detected = 1 ; memset ( xd -> eobs , 0 , 25 ) ; } } # endif if ( xd -> mode_info_context -> mbmi . ref_frame == INTRA_FRAME ) { vp8_build_intra_predictors_mbuv_s ( xd , xd -> recon_above [ 1 ] , xd -> recon_above [ 2 ] , xd -> recon_left [ 1 ] , xd -> recon_left [ 2 ] , xd -> recon_left_stride [ 1 ] , xd -> dst . u_buffer , xd -> dst . v_buffer , xd -> dst . uv_stride ) ; if ( mode != B_PRED ) { vp8_build_intra_predictors_mby_s ( xd , xd -> recon_above [ 0 ] , xd -> recon_left [ 0 ] , xd -> recon_left_stride [ 0 ] , xd -> dst . y_buffer , xd -> dst . y_stride ) ; } else { short * DQC = xd -> dequant_y1 ; int dst_stride = xd -> dst . y_stride ; if ( xd -> mode_info_context -> mbmi . mb_skip_coeff ) memset ( xd -> eobs , 0 , 25 ) ; intra_prediction_down_copy ( xd , xd -> recon_above [ 0 ] + 16 ) ; for ( i = 0 ; i < 16 ; i ++ ) { BLOCKD * b = & xd -> block [ i ] ; unsigned char * dst = xd -> dst . y_buffer + b -> offset ; B_PREDICTION_MODE b_mode = xd -> mode_info_context -> bmi [ i ] . as_mode ; unsigned char * Above = dst - dst_stride ; unsigned char * yleft = dst - 1 ; int left_stride = dst_stride ; unsigned char top_left = Above [ - 1 ] ; vp8_intra4x4_predict ( Above , yleft , left_stride , b_mode , dst , dst_stride , top_left ) ; if ( xd -> eobs [ i ] ) { if ( xd -> eobs [ i ] > 1 ) { vp8_dequant_idct_add ( b -> qcoeff , DQC , dst , dst_stride ) ; } else { vp8_dc_only_idct_add ( b -> qcoeff [ 0 ] * DQC [ 0 ] , dst , dst_stride , dst , dst_stride ) ; memset ( b -> qcoeff , 0 , 2 * sizeof ( b -> qcoeff [ 0 ] ) ) ; } } } } } else { vp8_build_inter_predictors_mb ( xd ) ; } # if CONFIG_ERROR_CONCEALMENT if ( corruption_detected ) { return ; } # endif if ( ! xd -> mode_info_context -> mbmi . mb_skip_coeff ) { if ( mode != B_PRED ) { short * DQC = xd -> dequant_y1 ; if ( mode != SPLITMV ) { BLOCKD * b = & xd -> block [ 24 ] ; if ( xd -> eobs [ 24 ] > 1 ) { vp8_dequantize_b ( b , xd -> dequant_y2 ) ; vp8_short_inv_walsh4x4 ( & b -> dqcoeff [ 0 ] , xd -> qcoeff ) ; memset ( b -> qcoeff , 0 , 16 * sizeof ( b -> qcoeff [ 0 ] ) ) ; } else { b -> dqcoeff [ 0 ] = b -> qcoeff [ 0 ] * xd -> dequant_y2 [ 0 ] ; vp8_short_inv_walsh4x4_1 ( & b -> dqcoeff [ 0 ] , xd -> qcoeff ) ; memset ( b -> qcoeff , 0 , 2 * sizeof ( b -> qcoeff [ 0 ] ) ) ; } DQC = xd -> dequant_y1_dc ; } vp8_dequant_idct_add_y_block ( xd -> qcoeff , DQC , xd -> dst . y_buffer , xd -> dst . y_stride , xd -> eobs ) ; } vp8_dequant_idct_add_uv_block ( xd -> qcoeff + 16 * 16 , xd -> dequant_uv , xd -> dst . u_buffer , xd -> dst . v_buffer , xd -> dst . uv_stride , xd -> eobs + 16 ) ; } }" 410,"CWE-119 static void iwl_sta_ucode_activate ( struct iwl_priv * priv , u8 sta_id ) { if ( ! ( priv -> stations [ sta_id ] . used & IWL_STA_DRIVER_ACTIVE ) ) IWL_ERR ( priv , ""ACTIVATE a non DRIVER active station id %u "" ""addr %pM\\n"" , sta_id , priv -> stations [ sta_id ] . sta . sta . addr ) ; if ( priv -> stations [ sta_id ] . used & IWL_STA_UCODE_ACTIVE ) { IWL_DEBUG_ASSOC ( priv , ""STA id %u addr %pM already present in uCode "" ""(according to driver)\\n"" , sta_id , priv -> stations [ sta_id ] . sta . sta . addr ) ; } else { priv -> stations [ sta_id ] . used |= IWL_STA_UCODE_ACTIVE ; IWL_DEBUG_ASSOC ( priv , ""Added STA id %u addr %pM to uCode\\n"" , sta_id , priv -> stations [ sta_id ] . sta . sta . addr ) ; } }","static int iwl_sta_ucode_activate ( struct iwl_priv * priv , u8 sta_id ) { if ( sta_id >= IWLAGN_STATION_COUNT ) { IWL_ERR ( priv , ""invalid sta_id %u"" , sta_id ) ; return - EINVAL ; } if ( ! ( priv -> stations [ sta_id ] . used & IWL_STA_DRIVER_ACTIVE ) ) IWL_ERR ( priv , ""ACTIVATE a non DRIVER active station id %u "" ""addr %pM\\n"" , sta_id , priv -> stations [ sta_id ] . sta . sta . addr ) ; if ( priv -> stations [ sta_id ] . used & IWL_STA_UCODE_ACTIVE ) { IWL_DEBUG_ASSOC ( priv , ""STA id %u addr %pM already present in uCode "" ""(according to driver)\\n"" , sta_id , priv -> stations [ sta_id ] . sta . sta . addr ) ; } else { priv -> stations [ sta_id ] . used |= IWL_STA_UCODE_ACTIVE ; IWL_DEBUG_ASSOC ( priv , ""Added STA id %u addr %pM to uCode\\n"" , sta_id , priv -> stations [ sta_id ] . sta . sta . addr ) ; } return 0 ; }" 411,"CWE-20 static int cleanup_pathname ( struct archive_write_disk * a ) { char * dest , * src ; char separator = '\\0' ; dest = src = a -> name ; if ( * src == '\\0' ) { archive_set_error ( & a -> archive , ARCHIVE_ERRNO_MISC , ""Invalid empty pathname"" ) ; return ( ARCHIVE_FAILED ) ; } # if defined ( __CYGWIN__ ) cleanup_pathname_win ( a ) ; # endif if ( * src == '/' ) { if ( a -> flags & ARCHIVE_EXTRACT_SECURE_NOABSOLUTEPATHS ) { archive_set_error ( & a -> archive , ARCHIVE_ERRNO_MISC , ""Path is absolute"" ) ; return ( ARCHIVE_FAILED ) ; } separator = * src ++ ; } for ( ; ; ) { if ( src [ 0 ] == '\\0' ) { break ; } else if ( src [ 0 ] == '/' ) { src ++ ; continue ; } else if ( src [ 0 ] == '.' ) { if ( src [ 1 ] == '\\0' ) { break ; } else if ( src [ 1 ] == '/' ) { src += 2 ; continue ; } else if ( src [ 1 ] == '.' ) { if ( src [ 2 ] == '/' || src [ 2 ] == '\\0' ) { if ( a -> flags & ARCHIVE_EXTRACT_SECURE_NODOTDOT ) { archive_set_error ( & a -> archive , ARCHIVE_ERRNO_MISC , ""Path contains \'..\'"" ) ; return ( ARCHIVE_FAILED ) ; } } } } if ( separator ) * dest ++ = '/' ; while ( * src != '\\0' && * src != '/' ) { * dest ++ = * src ++ ; } if ( * src == '\\0' ) break ; separator = * src ++ ; } if ( dest == a -> name ) { if ( separator ) * dest ++ = '/' ; else * dest ++ = '.' ; } * dest = '\\0' ; return ( ARCHIVE_OK ) ; }","static int cleanup_pathname ( struct archive_write_disk * a ) { struct archive_string error_string ; int error_number ; int rc ; archive_string_init ( & error_string ) ; rc = cleanup_pathname_fsobj ( a -> name , & error_number , & error_string , a -> flags ) ; if ( rc != ARCHIVE_OK ) { archive_set_error ( & a -> archive , error_number , ""%s"" , error_string . s ) ; } archive_string_free ( & error_string ) ; return rc ; }" 412,"CWE-399 ( void ) status ; width = ( size_t ) floor ( metrics . width + draw_info -> stroke_width + 0.5 ) ; height = ( size_t ) floor ( metrics . height + draw_info -> stroke_width + 0.5 ) ; if ( ( image -> columns != 0 ) && ( image -> rows != 0 ) ) { if ( ( width >= image -> columns ) && ( height >= image -> rows ) ) break ; } else if ( ( ( image -> columns != 0 ) && ( width >= image -> columns ) ) || ( ( image -> rows != 0 ) && ( height >= image -> rows ) ) ) break ; } high = draw_info -> pointsize ; for ( low = 1.0 ; ( high - low ) > 0.5 ; ) { draw_info -> pointsize = ( low + high ) / 2.0 ; text = AcquireString ( caption ) ; i = FormatMagickCaption ( image , draw_info , split , & metrics , & text ) ; ( void ) CloneString ( & draw_info -> text , text ) ; text = DestroyString ( text ) ; ( void ) FormatLocaleString ( geometry , MaxTextExtent , ""%+g%+g"" , metrics . bounds . x1 , metrics . ascent ) ; if ( draw_info -> gravity == UndefinedGravity ) ( void ) CloneString ( & draw_info -> geometry , geometry ) ; ( void ) GetMultilineTypeMetrics ( image , draw_info , & metrics ) ; width = ( size_t ) floor ( metrics . width + draw_info -> stroke_width + 0.5 ) ; height = ( size_t ) floor ( metrics . height + draw_info -> stroke_width + 0.5 ) ; if ( ( image -> columns != 0 ) && ( image -> rows != 0 ) ) { if ( ( width < image -> columns ) && ( height < image -> rows ) ) low = draw_info -> pointsize + 0.5 ; else high = draw_info -> pointsize - 0.5 ; } else if ( ( ( image -> columns != 0 ) && ( width < image -> columns ) ) || ( ( image -> rows != 0 ) && ( height < image -> rows ) ) ) low = draw_info -> pointsize + 0.5 ; else high = draw_info -> pointsize - 0.5 ; } draw_info -> pointsize = floor ( ( low + high ) / 2.0 - 0.5 ) ; } i = FormatMagickCaption ( image , draw_info , split , & metrics , & caption ) ; ( void ) CloneString ( & draw_info -> text , caption ) ; ( void ) FormatLocaleString ( geometry , MaxTextExtent , ""%+g%+g"" , MagickMax ( draw_info -> direction == RightToLeftDirection ? image -> columns - metrics . bounds . x2 : - metrics . bounds . x1 , 0.0 ) , draw_info -> gravity == UndefinedGravity ? metrics . ascent : 0.0 ) ; draw_info -> geometry = AcquireString ( geometry ) ; status = AnnotateImage ( image , draw_info ) ; if ( image_info -> pointsize == 0.0 ) { char pointsize [ MaxTextExtent ] ; ( void ) FormatLocaleString ( pointsize , MaxTextExtent , ""%.20g"" , draw_info -> pointsize ) ; ( void ) SetImageProperty ( image , ""caption:pointsize"" , pointsize ) ; } draw_info = DestroyDrawInfo ( draw_info ) ; caption = DestroyString ( caption ) ; if ( status == MagickFalse ) { image = DestroyImageList ( image ) ; return ( ( Image * ) NULL ) ; } return ( GetFirstImageInList ( image ) ) ; }","( void ) status ; width = ( size_t ) floor ( metrics . width + draw_info -> stroke_width + 0.5 ) ; height = ( size_t ) floor ( metrics . height + draw_info -> stroke_width + 0.5 ) ; if ( ( image -> columns != 0 ) && ( image -> rows != 0 ) ) { if ( ( width >= image -> columns ) && ( height >= image -> rows ) ) break ; } else if ( ( ( image -> columns != 0 ) && ( width >= image -> columns ) ) || ( ( image -> rows != 0 ) && ( height >= image -> rows ) ) ) break ; } high = draw_info -> pointsize ; for ( low = 1.0 ; ( high - low ) > 0.5 ; ) { draw_info -> pointsize = ( low + high ) / 2.0 ; text = AcquireString ( caption ) ; i = FormatMagickCaption ( image , draw_info , split , & metrics , & text ) ; ( void ) CloneString ( & draw_info -> text , text ) ; text = DestroyString ( text ) ; ( void ) FormatLocaleString ( geometry , MaxTextExtent , ""%+g%+g"" , if ( draw_info -> gravity == UndefinedGravity ) ( void ) CloneString ( & draw_info -> geometry , geometry ) ; ( void ) GetMultilineTypeMetrics ( image , draw_info , & metrics ) ; width = ( size_t ) floor ( metrics . width + draw_info -> stroke_width + 0.5 ) ; height = ( size_t ) floor ( metrics . height + draw_info -> stroke_width + 0.5 ) ; if ( ( image -> columns != 0 ) && ( image -> rows != 0 ) ) { if ( ( width < image -> columns ) && ( height < image -> rows ) ) low = draw_info -> pointsize + 0.5 ; else high = draw_info -> pointsize - 0.5 ; } else if ( ( ( image -> columns != 0 ) && ( width < image -> columns ) ) || ( ( image -> rows != 0 ) && ( height < image -> rows ) ) ) low = draw_info -> pointsize + 0.5 ; else high = draw_info -> pointsize - 0.5 ; } draw_info -> pointsize = floor ( ( low + high ) / 2.0 - 0.5 ) ; } i = FormatMagickCaption ( image , draw_info , split , & metrics , & caption ) ; ( void ) CloneString ( & draw_info -> text , caption ) ; ( void ) FormatLocaleString ( geometry , MaxTextExtent , ""%+g%+g"" , MagickMax ( draw_info -> direction == RightToLeftDirection ? image -> columns - metrics . bounds . x2 : - metrics . bounds . x1 , 0.0 ) , draw_info -> gravity == UndefinedGravity ? metrics . ascent : 0.0 ) ; ( void ) CloneString ( & draw_info -> geometry , geometry ) ; status = AnnotateImage ( image , draw_info ) ; if ( image_info -> pointsize == 0.0 ) { char pointsize [ MaxTextExtent ] ; ( void ) FormatLocaleString ( pointsize , MaxTextExtent , ""%.20g"" , draw_info -> pointsize ) ; ( void ) SetImageProperty ( image , ""caption:pointsize"" , pointsize ) ; } draw_info = DestroyDrawInfo ( draw_info ) ; caption = DestroyString ( caption ) ; if ( status == MagickFalse ) { image = DestroyImageList ( image ) ; return ( ( Image * ) NULL ) ; } return ( GetFirstImageInList ( image ) ) ; }" 413,"CWE-119 bool radeon_atom_get_tv_timings ( struct radeon_device * rdev , int index , struct drm_display_mode * mode ) { struct radeon_mode_info * mode_info = & rdev -> mode_info ; ATOM_ANALOG_TV_INFO * tv_info ; ATOM_ANALOG_TV_INFO_V1_2 * tv_info_v1_2 ; ATOM_DTD_FORMAT * dtd_timings ; int data_index = GetIndexIntoMasterTable ( DATA , AnalogTV_Info ) ; u8 frev , crev ; u16 data_offset , misc ; if ( ! atom_parse_data_header ( mode_info -> atom_context , data_index , NULL , & frev , & crev , & data_offset ) ) return false ; switch ( crev ) { case 1 : tv_info = ( ATOM_ANALOG_TV_INFO * ) ( mode_info -> atom_context -> bios + data_offset ) ; if ( index > MAX_SUPPORTED_TV_TIMING ) return false ; mode -> crtc_htotal = le16_to_cpu ( tv_info -> aModeTimings [ index ] . usCRTC_H_Total ) ; mode -> crtc_hdisplay = le16_to_cpu ( tv_info -> aModeTimings [ index ] . usCRTC_H_Disp ) ; mode -> crtc_hsync_start = le16_to_cpu ( tv_info -> aModeTimings [ index ] . usCRTC_H_SyncStart ) ; mode -> crtc_hsync_end = le16_to_cpu ( tv_info -> aModeTimings [ index ] . usCRTC_H_SyncStart ) + le16_to_cpu ( tv_info -> aModeTimings [ index ] . usCRTC_H_SyncWidth ) ; mode -> crtc_vtotal = le16_to_cpu ( tv_info -> aModeTimings [ index ] . usCRTC_V_Total ) ; mode -> crtc_vdisplay = le16_to_cpu ( tv_info -> aModeTimings [ index ] . usCRTC_V_Disp ) ; mode -> crtc_vsync_start = le16_to_cpu ( tv_info -> aModeTimings [ index ] . usCRTC_V_SyncStart ) ; mode -> crtc_vsync_end = le16_to_cpu ( tv_info -> aModeTimings [ index ] . usCRTC_V_SyncStart ) + le16_to_cpu ( tv_info -> aModeTimings [ index ] . usCRTC_V_SyncWidth ) ; mode -> flags = 0 ; misc = le16_to_cpu ( tv_info -> aModeTimings [ index ] . susModeMiscInfo . usAccess ) ; if ( misc & ATOM_VSYNC_POLARITY ) mode -> flags |= DRM_MODE_FLAG_NVSYNC ; if ( misc & ATOM_HSYNC_POLARITY ) mode -> flags |= DRM_MODE_FLAG_NHSYNC ; if ( misc & ATOM_COMPOSITESYNC ) mode -> flags |= DRM_MODE_FLAG_CSYNC ; if ( misc & ATOM_INTERLACE ) mode -> flags |= DRM_MODE_FLAG_INTERLACE ; if ( misc & ATOM_DOUBLE_CLOCK_MODE ) mode -> flags |= DRM_MODE_FLAG_DBLSCAN ; mode -> clock = le16_to_cpu ( tv_info -> aModeTimings [ index ] . usPixelClock ) * 10 ; if ( index == 1 ) { mode -> crtc_htotal -= 1 ; mode -> crtc_vtotal -= 1 ; } break ; case 2 : tv_info_v1_2 = ( ATOM_ANALOG_TV_INFO_V1_2 * ) ( mode_info -> atom_context -> bios + data_offset ) ; if ( index > MAX_SUPPORTED_TV_TIMING_V1_2 ) return false ; dtd_timings = & tv_info_v1_2 -> aModeTimings [ index ] ; mode -> crtc_htotal = le16_to_cpu ( dtd_timings -> usHActive ) + le16_to_cpu ( dtd_timings -> usHBlanking_Time ) ; mode -> crtc_hdisplay = le16_to_cpu ( dtd_timings -> usHActive ) ; mode -> crtc_hsync_start = le16_to_cpu ( dtd_timings -> usHActive ) + le16_to_cpu ( dtd_timings -> usHSyncOffset ) ; mode -> crtc_hsync_end = mode -> crtc_hsync_start + le16_to_cpu ( dtd_timings -> usHSyncWidth ) ; mode -> crtc_vtotal = le16_to_cpu ( dtd_timings -> usVActive ) + le16_to_cpu ( dtd_timings -> usVBlanking_Time ) ; mode -> crtc_vdisplay = le16_to_cpu ( dtd_timings -> usVActive ) ; mode -> crtc_vsync_start = le16_to_cpu ( dtd_timings -> usVActive ) + le16_to_cpu ( dtd_timings -> usVSyncOffset ) ; mode -> crtc_vsync_end = mode -> crtc_vsync_start + le16_to_cpu ( dtd_timings -> usVSyncWidth ) ; mode -> flags = 0 ; misc = le16_to_cpu ( dtd_timings -> susModeMiscInfo . usAccess ) ; if ( misc & ATOM_VSYNC_POLARITY ) mode -> flags |= DRM_MODE_FLAG_NVSYNC ; if ( misc & ATOM_HSYNC_POLARITY ) mode -> flags |= DRM_MODE_FLAG_NHSYNC ; if ( misc & ATOM_COMPOSITESYNC ) mode -> flags |= DRM_MODE_FLAG_CSYNC ; if ( misc & ATOM_INTERLACE ) mode -> flags |= DRM_MODE_FLAG_INTERLACE ; if ( misc & ATOM_DOUBLE_CLOCK_MODE ) mode -> flags |= DRM_MODE_FLAG_DBLSCAN ; mode -> clock = le16_to_cpu ( dtd_timings -> usPixClk ) * 10 ; break ; } return true ; }","bool radeon_atom_get_tv_timings ( struct radeon_device * rdev , int index , struct drm_display_mode * mode ) { struct radeon_mode_info * mode_info = & rdev -> mode_info ; ATOM_ANALOG_TV_INFO * tv_info ; ATOM_ANALOG_TV_INFO_V1_2 * tv_info_v1_2 ; ATOM_DTD_FORMAT * dtd_timings ; int data_index = GetIndexIntoMasterTable ( DATA , AnalogTV_Info ) ; u8 frev , crev ; u16 data_offset , misc ; if ( ! atom_parse_data_header ( mode_info -> atom_context , data_index , NULL , & frev , & crev , & data_offset ) ) return false ; switch ( crev ) { case 1 : tv_info = ( ATOM_ANALOG_TV_INFO * ) ( mode_info -> atom_context -> bios + data_offset ) ; if ( index >= MAX_SUPPORTED_TV_TIMING ) return false ; mode -> crtc_htotal = le16_to_cpu ( tv_info -> aModeTimings [ index ] . usCRTC_H_Total ) ; mode -> crtc_hdisplay = le16_to_cpu ( tv_info -> aModeTimings [ index ] . usCRTC_H_Disp ) ; mode -> crtc_hsync_start = le16_to_cpu ( tv_info -> aModeTimings [ index ] . usCRTC_H_SyncStart ) ; mode -> crtc_hsync_end = le16_to_cpu ( tv_info -> aModeTimings [ index ] . usCRTC_H_SyncStart ) + le16_to_cpu ( tv_info -> aModeTimings [ index ] . usCRTC_H_SyncWidth ) ; mode -> crtc_vtotal = le16_to_cpu ( tv_info -> aModeTimings [ index ] . usCRTC_V_Total ) ; mode -> crtc_vdisplay = le16_to_cpu ( tv_info -> aModeTimings [ index ] . usCRTC_V_Disp ) ; mode -> crtc_vsync_start = le16_to_cpu ( tv_info -> aModeTimings [ index ] . usCRTC_V_SyncStart ) ; mode -> crtc_vsync_end = le16_to_cpu ( tv_info -> aModeTimings [ index ] . usCRTC_V_SyncStart ) + le16_to_cpu ( tv_info -> aModeTimings [ index ] . usCRTC_V_SyncWidth ) ; mode -> flags = 0 ; misc = le16_to_cpu ( tv_info -> aModeTimings [ index ] . susModeMiscInfo . usAccess ) ; if ( misc & ATOM_VSYNC_POLARITY ) mode -> flags |= DRM_MODE_FLAG_NVSYNC ; if ( misc & ATOM_HSYNC_POLARITY ) mode -> flags |= DRM_MODE_FLAG_NHSYNC ; if ( misc & ATOM_COMPOSITESYNC ) mode -> flags |= DRM_MODE_FLAG_CSYNC ; if ( misc & ATOM_INTERLACE ) mode -> flags |= DRM_MODE_FLAG_INTERLACE ; if ( misc & ATOM_DOUBLE_CLOCK_MODE ) mode -> flags |= DRM_MODE_FLAG_DBLSCAN ; mode -> clock = le16_to_cpu ( tv_info -> aModeTimings [ index ] . usPixelClock ) * 10 ; if ( index == 1 ) { mode -> crtc_htotal -= 1 ; mode -> crtc_vtotal -= 1 ; } break ; case 2 : tv_info_v1_2 = ( ATOM_ANALOG_TV_INFO_V1_2 * ) ( mode_info -> atom_context -> bios + data_offset ) ; if ( index >= MAX_SUPPORTED_TV_TIMING_V1_2 ) return false ; dtd_timings = & tv_info_v1_2 -> aModeTimings [ index ] ; mode -> crtc_htotal = le16_to_cpu ( dtd_timings -> usHActive ) + le16_to_cpu ( dtd_timings -> usHBlanking_Time ) ; mode -> crtc_hdisplay = le16_to_cpu ( dtd_timings -> usHActive ) ; mode -> crtc_hsync_start = le16_to_cpu ( dtd_timings -> usHActive ) + le16_to_cpu ( dtd_timings -> usHSyncOffset ) ; mode -> crtc_hsync_end = mode -> crtc_hsync_start + le16_to_cpu ( dtd_timings -> usHSyncWidth ) ; mode -> crtc_vtotal = le16_to_cpu ( dtd_timings -> usVActive ) + le16_to_cpu ( dtd_timings -> usVBlanking_Time ) ; mode -> crtc_vdisplay = le16_to_cpu ( dtd_timings -> usVActive ) ; mode -> crtc_vsync_start = le16_to_cpu ( dtd_timings -> usVActive ) + le16_to_cpu ( dtd_timings -> usVSyncOffset ) ; mode -> crtc_vsync_end = mode -> crtc_vsync_start + le16_to_cpu ( dtd_timings -> usVSyncWidth ) ; mode -> flags = 0 ; misc = le16_to_cpu ( dtd_timings -> susModeMiscInfo . usAccess ) ; if ( misc & ATOM_VSYNC_POLARITY ) mode -> flags |= DRM_MODE_FLAG_NVSYNC ; if ( misc & ATOM_HSYNC_POLARITY ) mode -> flags |= DRM_MODE_FLAG_NHSYNC ; if ( misc & ATOM_COMPOSITESYNC ) mode -> flags |= DRM_MODE_FLAG_CSYNC ; if ( misc & ATOM_INTERLACE ) mode -> flags |= DRM_MODE_FLAG_INTERLACE ; if ( misc & ATOM_DOUBLE_CLOCK_MODE ) mode -> flags |= DRM_MODE_FLAG_DBLSCAN ; mode -> clock = le16_to_cpu ( dtd_timings -> usPixClk ) * 10 ; break ; } return true ; }" 414,"CWE-611 dcfg -> auditlog2_fd = NOT_SET_P ; dcfg -> auditlog_storage_dir = NOT_SET_P ; dcfg -> auditlog_parts = NOT_SET_P ; dcfg -> auditlog_relevant_regex = NOT_SET_P ; dcfg -> ruleset = NULL ; dcfg -> tmp_dir = NOT_SET_P ; dcfg -> upload_dir = NOT_SET_P ; dcfg -> upload_keep_files = NOT_SET ; dcfg -> upload_validates_files = NOT_SET ; dcfg -> upload_filemode = NOT_SET ; dcfg -> upload_file_limit = NOT_SET ; dcfg -> tmp_chain_starter = NULL ; dcfg -> tmp_default_actionset = NULL ; dcfg -> tmp_rule_placeholders = NULL ; dcfg -> data_dir = NOT_SET_P ; dcfg -> webappid = NOT_SET_P ; dcfg -> sensor_id = NOT_SET_P ; dcfg -> httpBlkey = NOT_SET_P ; dcfg -> content_injection_enabled = NOT_SET ; dcfg -> stream_inbody_inspection = NOT_SET ; dcfg -> stream_outbody_inspection = NOT_SET ; dcfg -> geo = NOT_SET_P ; dcfg -> gsb = NOT_SET_P ; dcfg -> u_map = NOT_SET_P ; dcfg -> cache_trans = NOT_SET ; dcfg -> cache_trans_incremental = NOT_SET ; dcfg -> cache_trans_min = NOT_SET ; dcfg -> cache_trans_max = NOT_SET ; dcfg -> cache_trans_maxitems = NOT_SET ; dcfg -> rule_id_htab = apr_hash_make ( mp ) ; dcfg -> component_signatures = apr_array_make ( mp , 16 , sizeof ( char * ) ) ; dcfg -> request_encoding = NOT_SET_P ; dcfg -> disable_backend_compression = NOT_SET ; dcfg -> col_timeout = NOT_SET ; dcfg -> crypto_key = NOT_SET_P ; dcfg -> crypto_key_len = NOT_SET ; dcfg -> crypto_key_add = NOT_SET ; dcfg -> crypto_param_name = NOT_SET_P ; dcfg -> hash_is_enabled = NOT_SET ; dcfg -> hash_enforcement = NOT_SET ; dcfg -> crypto_hash_href_rx = NOT_SET ; dcfg -> crypto_hash_faction_rx = NOT_SET ; dcfg -> crypto_hash_location_rx = NOT_SET ; dcfg -> crypto_hash_iframesrc_rx = NOT_SET ; dcfg -> crypto_hash_framesrc_rx = NOT_SET ; dcfg -> crypto_hash_href_pm = NOT_SET ; dcfg -> crypto_hash_faction_pm = NOT_SET ; dcfg -> crypto_hash_location_pm = NOT_SET ; dcfg -> crypto_hash_iframesrc_pm = NOT_SET ; dcfg -> crypto_hash_framesrc_pm = NOT_SET ; return dcfg ; }","dcfg -> auditlog2_fd = NOT_SET_P ; dcfg -> auditlog_storage_dir = NOT_SET_P ; dcfg -> auditlog_parts = NOT_SET_P ; dcfg -> auditlog_relevant_regex = NOT_SET_P ; dcfg -> ruleset = NULL ; dcfg -> tmp_dir = NOT_SET_P ; dcfg -> upload_dir = NOT_SET_P ; dcfg -> upload_keep_files = NOT_SET ; dcfg -> upload_validates_files = NOT_SET ; dcfg -> upload_filemode = NOT_SET ; dcfg -> upload_file_limit = NOT_SET ; dcfg -> tmp_chain_starter = NULL ; dcfg -> tmp_default_actionset = NULL ; dcfg -> tmp_rule_placeholders = NULL ; dcfg -> data_dir = NOT_SET_P ; dcfg -> webappid = NOT_SET_P ; dcfg -> sensor_id = NOT_SET_P ; dcfg -> httpBlkey = NOT_SET_P ; dcfg -> content_injection_enabled = NOT_SET ; dcfg -> stream_inbody_inspection = NOT_SET ; dcfg -> stream_outbody_inspection = NOT_SET ; dcfg -> geo = NOT_SET_P ; dcfg -> gsb = NOT_SET_P ; dcfg -> u_map = NOT_SET_P ; dcfg -> cache_trans = NOT_SET ; dcfg -> cache_trans_incremental = NOT_SET ; dcfg -> cache_trans_min = NOT_SET ; dcfg -> cache_trans_max = NOT_SET ; dcfg -> cache_trans_maxitems = NOT_SET ; dcfg -> rule_id_htab = apr_hash_make ( mp ) ; dcfg -> component_signatures = apr_array_make ( mp , 16 , sizeof ( char * ) ) ; dcfg -> request_encoding = NOT_SET_P ; dcfg -> disable_backend_compression = NOT_SET ; dcfg -> col_timeout = NOT_SET ; dcfg -> crypto_key = NOT_SET_P ; dcfg -> crypto_key_len = NOT_SET ; dcfg -> crypto_key_add = NOT_SET ; dcfg -> crypto_param_name = NOT_SET_P ; dcfg -> hash_is_enabled = NOT_SET ; dcfg -> hash_enforcement = NOT_SET ; dcfg -> crypto_hash_href_rx = NOT_SET ; dcfg -> crypto_hash_faction_rx = NOT_SET ; dcfg -> crypto_hash_location_rx = NOT_SET ; dcfg -> crypto_hash_iframesrc_rx = NOT_SET ; dcfg -> crypto_hash_framesrc_rx = NOT_SET ; dcfg -> crypto_hash_href_pm = NOT_SET ; dcfg -> crypto_hash_faction_pm = NOT_SET ; dcfg -> crypto_hash_location_pm = NOT_SET ; dcfg -> crypto_hash_iframesrc_pm = NOT_SET ; dcfg -> crypto_hash_framesrc_pm = NOT_SET ; dcfg -> xml_external_entity = NOT_SET ; return dcfg ; }" 415,"CWE-120 int read_fru_area ( struct ipmi_intf * intf , struct fru_info * fru , uint8_t id , uint32_t offset , uint32_t length , uint8_t * frubuf ) { uint32_t off = offset , tmp , finish ; struct ipmi_rs * rsp ; struct ipmi_rq req ; uint8_t msg_data [ 4 ] ; if ( offset > fru -> size ) { lprintf ( LOG_ERR , ""Read FRU Area offset incorrect: %d > %d"" , offset , fru -> size ) ; return - 1 ; } finish = offset + length ; if ( finish > fru -> size ) { finish = fru -> size ; lprintf ( LOG_NOTICE , ""Read FRU Area length %d too large, "" ""Adjusting to %d"" , offset + length , finish - offset ) ; } memset ( & req , 0 , sizeof ( req ) ) ; req . msg . netfn = IPMI_NETFN_STORAGE ; req . msg . cmd = GET_FRU_DATA ; req . msg . data = msg_data ; req . msg . data_len = 4 ; if ( fru -> max_read_size == 0 ) { uint16_t max_rs_size = ipmi_intf_get_max_response_data_size ( intf ) - 1 ; if ( max_rs_size <= 1 ) { lprintf ( LOG_ERROR , ""Maximum response size is too small to send "" ""a read request"" ) ; return - 1 ; } if ( max_rs_size - 1 > 255 ) { fru -> max_read_size = 255 ; } else { fru -> max_read_size = max_rs_size - 1 ; } if ( fru -> access ) { fru -> max_read_size &= ~ 1 ; } } do { tmp = fru -> access ? off >> 1 : off ; msg_data [ 0 ] = id ; msg_data [ 1 ] = ( uint8_t ) ( tmp & 0xff ) ; msg_data [ 2 ] = ( uint8_t ) ( tmp >> 8 ) ; tmp = finish - off ; if ( tmp > fru -> max_read_size ) msg_data [ 3 ] = ( uint8_t ) fru -> max_read_size ; else msg_data [ 3 ] = ( uint8_t ) tmp ; rsp = intf -> sendrecv ( intf , & req ) ; if ( ! rsp ) { lprintf ( LOG_NOTICE , ""FRU Read failed"" ) ; break ; } if ( rsp -> ccode ) { if ( fru_cc_rq2big ( rsp -> ccode ) && fru -> max_read_size > FRU_BLOCK_SZ ) { if ( fru -> max_read_size > FRU_AREA_MAXIMUM_BLOCK_SZ ) { fru -> max_read_size -= FRU_BLOCK_SZ ; } else { fru -> max_read_size -- ; } lprintf ( LOG_INFO , ""Retrying FRU read with request size %d"" , fru -> max_read_size ) ; continue ; } lprintf ( LOG_NOTICE , ""FRU Read failed: %s"" , val2str ( rsp -> ccode , completion_code_vals ) ) ; break ; } tmp = fru -> access ? rsp -> data [ 0 ] << 1 : rsp -> data [ 0 ] ; memcpy ( frubuf , rsp -> data + 1 , tmp ) ; off += tmp ; frubuf += tmp ; if ( tmp == 0 && off < finish ) { return 0 ; } } while ( off < finish ) ; if ( off < finish ) { return - 1 ; } return 0 ; }","int read_fru_area ( struct ipmi_intf * intf , struct fru_info * fru , uint8_t id , uint32_t offset , uint32_t length , uint8_t * frubuf ) { uint32_t off = offset ; uint32_t tmp ; uint32_t finish ; uint32_t size_left_in_buffer ; struct ipmi_rs * rsp ; struct ipmi_rq req ; uint8_t msg_data [ 4 ] ; if ( offset > fru -> size ) { lprintf ( LOG_ERR , ""Read FRU Area offset incorrect: %d > %d"" , offset , fru -> size ) ; return - 1 ; } finish = offset + length ; if ( finish > fru -> size ) { memset ( frubuf + fru -> size , 0 , length - fru -> size ) ; finish = fru -> size ; lprintf ( LOG_NOTICE , ""Read FRU Area length %d too large, "" ""Adjusting to %d"" , offset + length , finish - offset ) ; length = finish - offset ; } memset ( & req , 0 , sizeof ( req ) ) ; req . msg . netfn = IPMI_NETFN_STORAGE ; req . msg . cmd = GET_FRU_DATA ; req . msg . data = msg_data ; req . msg . data_len = 4 ; if ( fru -> max_read_size == 0 ) { uint16_t max_rs_size = ipmi_intf_get_max_response_data_size ( intf ) - 1 ; if ( max_rs_size <= 1 ) { lprintf ( LOG_ERROR , ""Maximum response size is too small to send "" ""a read request"" ) ; return - 1 ; } if ( max_rs_size - 1 > 255 ) { fru -> max_read_size = 255 ; } else { fru -> max_read_size = max_rs_size - 1 ; } if ( fru -> access ) { fru -> max_read_size &= ~ 1 ; } } size_left_in_buffer = length ; do { tmp = fru -> access ? off >> 1 : off ; msg_data [ 0 ] = id ; msg_data [ 1 ] = ( uint8_t ) ( tmp & 0xff ) ; msg_data [ 2 ] = ( uint8_t ) ( tmp >> 8 ) ; tmp = finish - off ; if ( tmp > fru -> max_read_size ) msg_data [ 3 ] = ( uint8_t ) fru -> max_read_size ; else msg_data [ 3 ] = ( uint8_t ) tmp ; rsp = intf -> sendrecv ( intf , & req ) ; if ( ! rsp ) { lprintf ( LOG_NOTICE , ""FRU Read failed"" ) ; break ; } if ( rsp -> ccode ) { if ( fru_cc_rq2big ( rsp -> ccode ) && fru -> max_read_size > FRU_BLOCK_SZ ) { if ( fru -> max_read_size > FRU_AREA_MAXIMUM_BLOCK_SZ ) { fru -> max_read_size -= FRU_BLOCK_SZ ; } else { fru -> max_read_size -- ; } lprintf ( LOG_INFO , ""Retrying FRU read with request size %d"" , fru -> max_read_size ) ; continue ; } lprintf ( LOG_NOTICE , ""FRU Read failed: %s"" , val2str ( rsp -> ccode , completion_code_vals ) ) ; break ; } tmp = fru -> access ? rsp -> data [ 0 ] << 1 : rsp -> data [ 0 ] ; if ( rsp -> data_len < 1 || tmp > rsp -> data_len - 1 || tmp > size_left_in_buffer ) { printf ( "" Not enough buffer size"" ) ; return - 1 ; } memcpy ( frubuf , rsp -> data + 1 , tmp ) ; off += tmp ; frubuf += tmp ; size_left_in_buffer -= tmp ; if ( tmp == 0 && off < finish ) { return 0 ; } } while ( off < finish ) ; if ( off < finish ) { return - 1 ; } return 0 ; }" 416,"CWE-358 void DefragRegisterTests ( void ) { # ifdef UNITTESTS UtRegisterTest ( ""DefragInOrderSimpleTest"" , DefragInOrderSimpleTest ) ; UtRegisterTest ( ""DefragReverseSimpleTest"" , DefragReverseSimpleTest ) ; UtRegisterTest ( ""DefragSturgesNovakBsdTest"" , DefragSturgesNovakBsdTest ) ; UtRegisterTest ( ""DefragSturgesNovakLinuxTest"" , DefragSturgesNovakLinuxTest ) ; UtRegisterTest ( ""DefragSturgesNovakWindowsTest"" , DefragSturgesNovakWindowsTest ) ; UtRegisterTest ( ""DefragSturgesNovakSolarisTest"" , DefragSturgesNovakSolarisTest ) ; UtRegisterTest ( ""DefragSturgesNovakFirstTest"" , DefragSturgesNovakFirstTest ) ; UtRegisterTest ( ""DefragSturgesNovakLastTest"" , DefragSturgesNovakLastTest ) ; UtRegisterTest ( ""DefragIPv4NoDataTest"" , DefragIPv4NoDataTest ) ; UtRegisterTest ( ""DefragIPv4TooLargeTest"" , DefragIPv4TooLargeTest ) ; UtRegisterTest ( ""IPV6DefragInOrderSimpleTest"" , IPV6DefragInOrderSimpleTest ) ; UtRegisterTest ( ""IPV6DefragReverseSimpleTest"" , IPV6DefragReverseSimpleTest ) ; UtRegisterTest ( ""IPV6DefragSturgesNovakBsdTest"" , IPV6DefragSturgesNovakBsdTest ) ; UtRegisterTest ( ""IPV6DefragSturgesNovakLinuxTest"" , IPV6DefragSturgesNovakLinuxTest ) ; UtRegisterTest ( ""IPV6DefragSturgesNovakWindowsTest"" , IPV6DefragSturgesNovakWindowsTest ) ; UtRegisterTest ( ""IPV6DefragSturgesNovakSolarisTest"" , IPV6DefragSturgesNovakSolarisTest ) ; UtRegisterTest ( ""IPV6DefragSturgesNovakFirstTest"" , IPV6DefragSturgesNovakFirstTest ) ; UtRegisterTest ( ""IPV6DefragSturgesNovakLastTest"" , IPV6DefragSturgesNovakLastTest ) ; UtRegisterTest ( ""DefragVlanTest"" , DefragVlanTest ) ; UtRegisterTest ( ""DefragVlanQinQTest"" , DefragVlanQinQTest ) ; UtRegisterTest ( ""DefragTrackerReuseTest"" , DefragTrackerReuseTest ) ; UtRegisterTest ( ""DefragTimeoutTest"" , DefragTimeoutTest ) ; UtRegisterTest ( ""DefragMfIpv4Test"" , DefragMfIpv4Test ) ; UtRegisterTest ( ""DefragMfIpv6Test"" , DefragMfIpv6Test ) ; # endif }","void DefragRegisterTests ( void ) { # ifdef UNITTESTS UtRegisterTest ( ""DefragInOrderSimpleTest"" , DefragInOrderSimpleTest ) ; UtRegisterTest ( ""DefragReverseSimpleTest"" , DefragReverseSimpleTest ) ; UtRegisterTest ( ""DefragSturgesNovakBsdTest"" , DefragSturgesNovakBsdTest ) ; UtRegisterTest ( ""DefragSturgesNovakLinuxTest"" , DefragSturgesNovakLinuxTest ) ; UtRegisterTest ( ""DefragSturgesNovakWindowsTest"" , DefragSturgesNovakWindowsTest ) ; UtRegisterTest ( ""DefragSturgesNovakSolarisTest"" , DefragSturgesNovakSolarisTest ) ; UtRegisterTest ( ""DefragSturgesNovakFirstTest"" , DefragSturgesNovakFirstTest ) ; UtRegisterTest ( ""DefragSturgesNovakLastTest"" , DefragSturgesNovakLastTest ) ; UtRegisterTest ( ""DefragIPv4NoDataTest"" , DefragIPv4NoDataTest ) ; UtRegisterTest ( ""DefragIPv4TooLargeTest"" , DefragIPv4TooLargeTest ) ; UtRegisterTest ( ""IPV6DefragInOrderSimpleTest"" , IPV6DefragInOrderSimpleTest ) ; UtRegisterTest ( ""IPV6DefragReverseSimpleTest"" , IPV6DefragReverseSimpleTest ) ; UtRegisterTest ( ""IPV6DefragSturgesNovakBsdTest"" , IPV6DefragSturgesNovakBsdTest ) ; UtRegisterTest ( ""IPV6DefragSturgesNovakLinuxTest"" , IPV6DefragSturgesNovakLinuxTest ) ; UtRegisterTest ( ""IPV6DefragSturgesNovakWindowsTest"" , IPV6DefragSturgesNovakWindowsTest ) ; UtRegisterTest ( ""IPV6DefragSturgesNovakSolarisTest"" , IPV6DefragSturgesNovakSolarisTest ) ; UtRegisterTest ( ""IPV6DefragSturgesNovakFirstTest"" , IPV6DefragSturgesNovakFirstTest ) ; UtRegisterTest ( ""IPV6DefragSturgesNovakLastTest"" , IPV6DefragSturgesNovakLastTest ) ; UtRegisterTest ( ""DefragVlanTest"" , DefragVlanTest ) ; UtRegisterTest ( ""DefragVlanQinQTest"" , DefragVlanQinQTest ) ; UtRegisterTest ( ""DefragTrackerReuseTest"" , DefragTrackerReuseTest ) ; UtRegisterTest ( ""DefragTimeoutTest"" , DefragTimeoutTest ) ; UtRegisterTest ( ""DefragMfIpv4Test"" , DefragMfIpv4Test ) ; UtRegisterTest ( ""DefragMfIpv6Test"" , DefragMfIpv6Test ) ; UtRegisterTest ( ""DefragTestBadProto"" , DefragTestBadProto ) ; # endif }" 417,"CWE-59 static char * lxclock_name ( const char * p , const char * n ) { int ret ; int len ; char * dest ; char * rundir ; len = strlen ( ""/lock/lxc/"" ) + strlen ( n ) + strlen ( p ) + 3 ; rundir = get_rundir ( ) ; if ( ! rundir ) return NULL ; len += strlen ( rundir ) ; if ( ( dest = malloc ( len ) ) == NULL ) { free ( rundir ) ; return NULL ; } ret = snprintf ( dest , len , ""%s/lock/lxc/%s"" , rundir , p ) ; if ( ret < 0 || ret >= len ) { free ( dest ) ; free ( rundir ) ; return NULL ; } ret = mkdir_p ( dest , 0755 ) ; if ( ret < 0 ) { int l2 = 22 + strlen ( n ) + strlen ( p ) ; if ( l2 > len ) { char * d ; d = realloc ( dest , l2 ) ; if ( ! d ) { free ( dest ) ; free ( rundir ) ; return NULL ; } len = l2 ; dest = d ; } ret = snprintf ( dest , len , ""/tmp/%d/lxc%s"" , geteuid ( ) , p ) ; if ( ret < 0 || ret >= len ) { free ( dest ) ; free ( rundir ) ; return NULL ; } ret = mkdir_p ( dest , 0755 ) ; if ( ret < 0 ) { free ( dest ) ; free ( rundir ) ; return NULL ; } ret = snprintf ( dest , len , ""/tmp/%d/lxc%s/.%s"" , geteuid ( ) , p , n ) ; } else ret = snprintf ( dest , len , ""%s/lock/lxc/%s/.%s"" , rundir , p , n ) ; free ( rundir ) ; if ( ret < 0 || ret >= len ) { free ( dest ) ; return NULL ; } return dest ; }","static char * lxclock_name ( const char * p , const char * n ) { int ret ; int len ; char * dest ; char * rundir ; len = strlen ( ""/lxc/lock/"" ) + strlen ( n ) + strlen ( p ) + 3 ; rundir = get_rundir ( ) ; if ( ! rundir ) return NULL ; len += strlen ( rundir ) ; if ( ( dest = malloc ( len ) ) == NULL ) { free ( rundir ) ; return NULL ; } ret = snprintf ( dest , len , ""%s/lxc/lock/%s"" , rundir , p ) ; if ( ret < 0 || ret >= len ) { free ( dest ) ; free ( rundir ) ; return NULL ; } ret = mkdir_p ( dest , 0755 ) ; if ( ret < 0 ) { free ( dest ) ; free ( rundir ) ; return NULL ; } ret = snprintf ( dest , len , ""%s/lxc/lock/%s/.%s"" , rundir , p , n ) ; free ( rundir ) ; if ( ret < 0 || ret >= len ) { free ( dest ) ; return NULL ; } return dest ; }" 418,"CWE-400 static enum gro_result dev_gro_receive ( struct napi_struct * napi , struct sk_buff * skb ) { struct sk_buff * * pp = NULL ; struct packet_offload * ptype ; __be16 type = skb -> protocol ; struct list_head * head = & offload_base ; int same_flow ; enum gro_result ret ; int grow ; if ( ! ( skb -> dev -> features & NETIF_F_GRO ) ) goto normal ; if ( skb_is_gso ( skb ) || skb_has_frag_list ( skb ) || skb -> csum_bad ) goto normal ; gro_list_prepare ( napi , skb ) ; rcu_read_lock ( ) ; list_for_each_entry_rcu ( ptype , head , list ) { if ( ptype -> type != type || ! ptype -> callbacks . gro_receive ) continue ; skb_set_network_header ( skb , skb_gro_offset ( skb ) ) ; skb_reset_mac_len ( skb ) ; NAPI_GRO_CB ( skb ) -> same_flow = 0 ; NAPI_GRO_CB ( skb ) -> flush = 0 ; NAPI_GRO_CB ( skb ) -> free = 0 ; NAPI_GRO_CB ( skb ) -> udp_mark = 0 ; NAPI_GRO_CB ( skb ) -> gro_remcsum_start = 0 ; switch ( skb -> ip_summed ) { case CHECKSUM_COMPLETE : NAPI_GRO_CB ( skb ) -> csum = skb -> csum ; NAPI_GRO_CB ( skb ) -> csum_valid = 1 ; NAPI_GRO_CB ( skb ) -> csum_cnt = 0 ; break ; case CHECKSUM_UNNECESSARY : NAPI_GRO_CB ( skb ) -> csum_cnt = skb -> csum_level + 1 ; NAPI_GRO_CB ( skb ) -> csum_valid = 0 ; break ; default : NAPI_GRO_CB ( skb ) -> csum_cnt = 0 ; NAPI_GRO_CB ( skb ) -> csum_valid = 0 ; } pp = ptype -> callbacks . gro_receive ( & napi -> gro_list , skb ) ; break ; } rcu_read_unlock ( ) ; if ( & ptype -> list == head ) goto normal ; same_flow = NAPI_GRO_CB ( skb ) -> same_flow ; ret = NAPI_GRO_CB ( skb ) -> free ? GRO_MERGED_FREE : GRO_MERGED ; if ( pp ) { struct sk_buff * nskb = * pp ; * pp = nskb -> next ; nskb -> next = NULL ; napi_gro_complete ( nskb ) ; napi -> gro_count -- ; } if ( same_flow ) goto ok ; if ( NAPI_GRO_CB ( skb ) -> flush ) goto normal ; if ( unlikely ( napi -> gro_count >= MAX_GRO_SKBS ) ) { struct sk_buff * nskb = napi -> gro_list ; while ( nskb -> next ) { pp = & nskb -> next ; nskb = * pp ; } * pp = NULL ; nskb -> next = NULL ; napi_gro_complete ( nskb ) ; } else { napi -> gro_count ++ ; } NAPI_GRO_CB ( skb ) -> count = 1 ; NAPI_GRO_CB ( skb ) -> age = jiffies ; NAPI_GRO_CB ( skb ) -> last = skb ; skb_shinfo ( skb ) -> gso_size = skb_gro_len ( skb ) ;","static enum gro_result dev_gro_receive ( struct napi_struct * napi , struct sk_buff * skb ) { struct sk_buff * * pp = NULL ; struct packet_offload * ptype ; __be16 type = skb -> protocol ; struct list_head * head = & offload_base ; int same_flow ; enum gro_result ret ; int grow ; if ( ! ( skb -> dev -> features & NETIF_F_GRO ) ) goto normal ; if ( skb_is_gso ( skb ) || skb_has_frag_list ( skb ) || skb -> csum_bad ) goto normal ; gro_list_prepare ( napi , skb ) ; rcu_read_lock ( ) ; list_for_each_entry_rcu ( ptype , head , list ) { if ( ptype -> type != type || ! ptype -> callbacks . gro_receive ) continue ; skb_set_network_header ( skb , skb_gro_offset ( skb ) ) ; skb_reset_mac_len ( skb ) ; NAPI_GRO_CB ( skb ) -> same_flow = 0 ; NAPI_GRO_CB ( skb ) -> flush = 0 ; NAPI_GRO_CB ( skb ) -> free = 0 ; NAPI_GRO_CB ( skb ) -> encap_mark = 0 ; NAPI_GRO_CB ( skb ) -> gro_remcsum_start = 0 ; switch ( skb -> ip_summed ) { case CHECKSUM_COMPLETE : NAPI_GRO_CB ( skb ) -> csum = skb -> csum ; NAPI_GRO_CB ( skb ) -> csum_valid = 1 ; NAPI_GRO_CB ( skb ) -> csum_cnt = 0 ; break ; case CHECKSUM_UNNECESSARY : NAPI_GRO_CB ( skb ) -> csum_cnt = skb -> csum_level + 1 ; NAPI_GRO_CB ( skb ) -> csum_valid = 0 ; break ; default : NAPI_GRO_CB ( skb ) -> csum_cnt = 0 ; NAPI_GRO_CB ( skb ) -> csum_valid = 0 ; } pp = ptype -> callbacks . gro_receive ( & napi -> gro_list , skb ) ; break ; } rcu_read_unlock ( ) ; if ( & ptype -> list == head ) goto normal ; same_flow = NAPI_GRO_CB ( skb ) -> same_flow ; ret = NAPI_GRO_CB ( skb ) -> free ? GRO_MERGED_FREE : GRO_MERGED ; if ( pp ) { struct sk_buff * nskb = * pp ; * pp = nskb -> next ; nskb -> next = NULL ; napi_gro_complete ( nskb ) ; napi -> gro_count -- ; } if ( same_flow ) goto ok ; if ( NAPI_GRO_CB ( skb ) -> flush ) goto normal ; if ( unlikely ( napi -> gro_count >= MAX_GRO_SKBS ) ) { struct sk_buff * nskb = napi -> gro_list ; while ( nskb -> next ) { pp = & nskb -> next ; nskb = * pp ; } * pp = NULL ; nskb -> next = NULL ; napi_gro_complete ( nskb ) ; } else { napi -> gro_count ++ ; } NAPI_GRO_CB ( skb ) -> count = 1 ; NAPI_GRO_CB ( skb ) -> age = jiffies ; NAPI_GRO_CB ( skb ) -> last = skb ; skb_shinfo ( skb ) -> gso_size = skb_gro_len ( skb ) ;" 419,"NVD-CWE-Other static int ati_remote2_probe ( struct usb_interface * interface , const struct usb_device_id * id ) { struct usb_device * udev = interface_to_usbdev ( interface ) ; struct usb_host_interface * alt = interface -> cur_altsetting ; struct ati_remote2 * ar2 ; int r ; if ( alt -> desc . bInterfaceNumber ) return - ENODEV ; ar2 = kzalloc ( sizeof ( struct ati_remote2 ) , GFP_KERNEL ) ; if ( ! ar2 ) return - ENOMEM ; ar2 -> udev = udev ; ar2 -> intf [ 0 ] = interface ; ar2 -> ep [ 0 ] = & alt -> endpoint [ 0 ] . desc ; ar2 -> intf [ 1 ] = usb_ifnum_to_if ( udev , 1 ) ; r = usb_driver_claim_interface ( & ati_remote2_driver , ar2 -> intf [ 1 ] , ar2 ) ; if ( r ) goto fail1 ; alt = ar2 -> intf [ 1 ] -> cur_altsetting ; ar2 -> ep [ 1 ] = & alt -> endpoint [ 0 ] . desc ; r = ati_remote2_urb_init ( ar2 ) ; if ( r ) goto fail2 ; ar2 -> channel_mask = channel_mask ; ar2 -> mode_mask = mode_mask ; r = ati_remote2_setup ( ar2 , ar2 -> channel_mask ) ; if ( r ) goto fail2 ; usb_make_path ( udev , ar2 -> phys , sizeof ( ar2 -> phys ) ) ; strlcat ( ar2 -> phys , ""/input0"" , sizeof ( ar2 -> phys ) ) ; strlcat ( ar2 -> name , ""ATI Remote Wonder II"" , sizeof ( ar2 -> name ) ) ; r = sysfs_create_group ( & udev -> dev . kobj , & ati_remote2_attr_group ) ; if ( r ) goto fail2 ; r = ati_remote2_input_init ( ar2 ) ; if ( r ) goto fail3 ; usb_set_intfdata ( interface , ar2 ) ; interface -> needs_remote_wakeup = 1 ; return 0 ; fail3 : sysfs_remove_group ( & udev -> dev . kobj , & ati_remote2_attr_group ) ; fail2 : ati_remote2_urb_cleanup ( ar2 ) ; usb_driver_release_interface ( & ati_remote2_driver , ar2 -> intf [ 1 ] ) ; fail1 : kfree ( ar2 ) ; return r ; }","static int ati_remote2_probe ( struct usb_interface * interface , const struct usb_device_id * id ) { struct usb_device * udev = interface_to_usbdev ( interface ) ; struct usb_host_interface * alt = interface -> cur_altsetting ; struct ati_remote2 * ar2 ; int r ; if ( alt -> desc . bInterfaceNumber ) return - ENODEV ; ar2 = kzalloc ( sizeof ( struct ati_remote2 ) , GFP_KERNEL ) ; if ( ! ar2 ) return - ENOMEM ; ar2 -> udev = udev ; if ( alt -> desc . bNumEndpoints < 1 || ! alt -> endpoint ) { dev_err ( & interface -> dev , ""%s(): interface 0 must have an endpoint\\n"" , __func__ ) ; r = - ENODEV ; goto fail1 ; } ar2 -> intf [ 0 ] = interface ; ar2 -> ep [ 0 ] = & alt -> endpoint [ 0 ] . desc ; ar2 -> intf [ 1 ] = usb_ifnum_to_if ( udev , 1 ) ; if ( ( udev -> actconfig -> desc . bNumInterfaces < 2 ) || ! ar2 -> intf [ 1 ] ) { dev_err ( & interface -> dev , ""%s(): need 2 interfaces, found %d\\n"" , __func__ , udev -> actconfig -> desc . bNumInterfaces ) ; r = - ENODEV ; goto fail1 ; } r = usb_driver_claim_interface ( & ati_remote2_driver , ar2 -> intf [ 1 ] , ar2 ) ; if ( r ) goto fail1 ; alt = ar2 -> intf [ 1 ] -> cur_altsetting ; if ( alt -> desc . bNumEndpoints < 1 || ! alt -> endpoint ) { dev_err ( & interface -> dev , ""%s(): interface 1 must have an endpoint\\n"" , __func__ ) ; r = - ENODEV ; goto fail2 ; } ar2 -> ep [ 1 ] = & alt -> endpoint [ 0 ] . desc ; r = ati_remote2_urb_init ( ar2 ) ; if ( r ) goto fail3 ; ar2 -> channel_mask = channel_mask ; ar2 -> mode_mask = mode_mask ; r = ati_remote2_setup ( ar2 , ar2 -> channel_mask ) ; if ( r ) goto fail3 ; usb_make_path ( udev , ar2 -> phys , sizeof ( ar2 -> phys ) ) ; strlcat ( ar2 -> phys , ""/input0"" , sizeof ( ar2 -> phys ) ) ; strlcat ( ar2 -> name , ""ATI Remote Wonder II"" , sizeof ( ar2 -> name ) ) ; r = sysfs_create_group ( & udev -> dev . kobj , & ati_remote2_attr_group ) ; if ( r ) goto fail3 ; r = ati_remote2_input_init ( ar2 ) ; if ( r ) goto fail4 ; usb_set_intfdata ( interface , ar2 ) ; interface -> needs_remote_wakeup = 1 ; return 0 ; fail4 : sysfs_remove_group ( & udev -> dev . kobj , & ati_remote2_attr_group ) ; fail3 : ati_remote2_urb_cleanup ( ar2 ) ; fail2 : usb_driver_release_interface ( & ati_remote2_driver , ar2 -> intf [ 1 ] ) ; fail1 : kfree ( ar2 ) ; return r ; }" 420,"CWE-125 static int l_strnstart ( const char * tstr1 , u_int tl1 , const char * str2 , u_int l2 ) { if ( tl1 > l2 ) return 0 ; return ( strncmp ( tstr1 , str2 , tl1 ) == 0 ? 1 : 0 ) ; }","static int l_strnstart ( netdissect_options * ndo , const char * tstr1 , u_int tl1 , const char * str2 , u_int l2 ) { if ( ! ND_TTEST2 ( * str2 , tl1 ) ) { return 0 ; } if ( tl1 > l2 ) return 0 ; return ( strncmp ( tstr1 , str2 , tl1 ) == 0 ? 1 : 0 ) ; }" 421,"CWE-269 void virtio_config_writel ( VirtIODevice * vdev , uint32_t addr , uint32_t data ) { VirtioDeviceClass * k = VIRTIO_DEVICE_GET_CLASS ( vdev ) ; uint32_t val = data ; if ( addr > ( vdev -> config_len - sizeof ( val ) ) ) return ; stl_p ( vdev -> config + addr , val ) ; if ( k -> set_config ) { k -> set_config ( vdev , vdev -> config ) ; } }","void virtio_config_writel ( VirtIODevice * vdev , uint32_t addr , uint32_t data ) { VirtioDeviceClass * k = VIRTIO_DEVICE_GET_CLASS ( vdev ) ; uint32_t val = data ; if ( addr + sizeof ( val ) > vdev -> config_len ) { return ; } stl_p ( vdev -> config + addr , val ) ; if ( k -> set_config ) { k -> set_config ( vdev , vdev -> config ) ; } }" 422,"CWE-77 static int save_dev ( blkid_dev dev , FILE * file ) { struct list_head * p ; if ( ! dev || dev -> bid_name [ 0 ] != '/' ) return 0 ; DBG ( SAVE , ul_debug ( ""device %s, type %s"" , dev -> bid_name , dev -> bid_type ? dev -> bid_type : ""(null)"" ) ) ; fprintf ( file , "" bid_devno , ( long ) dev -> bid_time , ( long ) dev -> bid_utime ) ; if ( dev -> bid_pri ) fprintf ( file , "" PRI=\\""%d\\"""" , dev -> bid_pri ) ; list_for_each ( p , & dev -> bid_tags ) { blkid_tag tag = list_entry ( p , struct blkid_struct_tag , bit_tags ) ; fprintf ( file , "" %s=\\""%s\\"""" , tag -> bit_name , tag -> bit_val ) ; } fprintf ( file , "">%s\\n"" , dev -> bid_name ) ; return 0 ; }","static int save_dev ( blkid_dev dev , FILE * file ) { struct list_head * p ; if ( ! dev || dev -> bid_name [ 0 ] != '/' ) return 0 ; DBG ( SAVE , ul_debug ( ""device %s, type %s"" , dev -> bid_name , dev -> bid_type ? dev -> bid_type : ""(null)"" ) ) ; fprintf ( file , "" bid_devno , ( long ) dev -> bid_time , ( long ) dev -> bid_utime ) ; if ( dev -> bid_pri ) fprintf ( file , "" PRI=\\""%d\\"""" , dev -> bid_pri ) ; list_for_each ( p , & dev -> bid_tags ) { blkid_tag tag = list_entry ( p , struct blkid_struct_tag , bit_tags ) ; fputc ( ' ' , file ) ; fputs ( tag -> bit_name , file ) ; fputc ( '=' , file ) ; save_quoted ( tag -> bit_val , file ) ; } fprintf ( file , "">%s\\n"" , dev -> bid_name ) ; return 0 ; }" 423,"CWE-200 { return ERROR_INV_SLICE_HDR_T ; } if ( ps_dec -> u4_pic_buf_got == 0 ) { ps_dec -> ps_cur_slice -> u1_slice_type = P_SLICE ; ps_dec -> ps_cur_slice -> u1_nal_ref_idc = 1 ; ps_dec -> ps_cur_slice -> u1_nal_unit_type = 1 ; ret = ih264d_start_of_pic ( ps_dec , poc , ps_cur_poc , ps_dec -> ps_cur_slice -> u2_frame_num , & ps_dec -> ps_pps [ j ] ) ; if ( ret != OK ) { return ret ; } } ps_dec -> ps_ref_pic_buf_lx [ 0 ] [ 0 ] -> u1_pic_buf_id = 0 ; ps_dec -> u4_output_present = 0 ; { ih264d_get_next_display_field ( ps_dec , ps_dec -> ps_out_buffer , & ( ps_dec -> s_disp_op ) ) ; if ( 0 != ps_dec -> s_disp_op . u4_error_code ) { ps_dec -> u4_fmt_conv_cur_row = ps_dec -> s_disp_frame_info . u4_y_ht ; } else ps_dec -> u4_output_present = 1 ; } if ( ps_dec -> u1_separate_parse == 1 ) { if ( ps_dec -> u4_dec_thread_created == 0 ) { ithread_create ( ps_dec -> pv_dec_thread_handle , NULL , ( void * ) ih264d_decode_picture_thread , ( void * ) ps_dec ) ; ps_dec -> u4_dec_thread_created = 1 ; } if ( ( ps_dec -> u4_num_cores == 3 ) && ( ( ps_dec -> u4_app_disable_deblk_frm == 0 ) || ps_dec -> i1_recon_in_thread3_flag ) && ( ps_dec -> u4_bs_deblk_thread_created == 0 ) ) { ps_dec -> u4_start_recon_deblk = 0 ; ithread_create ( ps_dec -> pv_bs_deblk_thread_handle , NULL , ( void * ) ih264d_recon_deblk_thread , ( void * ) ps_dec ) ; ps_dec -> u4_bs_deblk_thread_created = 1 ; } } } ps_dec -> u4_first_slice_in_pic = 0 ; } else { dec_slice_struct_t * ps_parse_cur_slice ; ps_parse_cur_slice = ps_dec -> ps_dec_slice_buf + ps_dec -> u2_cur_slice_num ; if ( ps_dec -> u1_slice_header_done && ps_parse_cur_slice == ps_dec -> ps_parse_cur_slice ) { if ( ( u1_mbaff ) && ( ps_dec -> u4_num_mbs_cur_nmb & 1 ) ) { ps_dec -> u4_num_mbs_cur_nmb = ps_dec -> u4_num_mbs_cur_nmb - 1 ; ps_dec -> u2_cur_mb_addr -- ; } u1_num_mbs = ps_dec -> u4_num_mbs_cur_nmb ; if ( u1_num_mbs ) { ps_cur_mb_info = ps_dec -> ps_nmb_info + u1_num_mbs - 1 ; } else { if ( ps_dec -> u1_separate_parse ) { ps_cur_mb_info = ps_dec -> ps_nmb_info ; } else { ps_cur_mb_info = ps_dec -> ps_nmb_info } } ps_dec -> u2_mby = ps_cur_mb_info -> u2_mby ; ps_dec -> u2_mbx = ps_cur_mb_info -> u2_mbx ; ps_dec -> u1_mb_ngbr_availablity = ps_cur_mb_info -> u1_mb_ngbr_availablity ; if ( u1_num_mbs ) { ps_dec -> pv_parse_tu_coeff_data = ps_dec -> pv_prev_mb_parse_tu_coeff_data ; ps_dec -> u2_cur_mb_addr -- ; ps_dec -> i4_submb_ofst -= SUB_BLK_SIZE ; if ( ps_dec -> u1_pr_sl_type == P_SLICE || ps_dec -> u1_pr_sl_type == B_SLICE ) { ps_dec -> pf_mvpred_ref_tfr_nby2mb ( ps_dec , u1_mb_idx , u1_num_mbs ) ; ps_dec -> ps_part = ps_dec -> ps_parse_part_params ; } u1_num_mbs_next = i2_pic_wdin_mbs - ps_dec -> u2_mbx - 1 ; u1_end_of_row = ( ! u1_num_mbs_next ) && ( ! ( u1_mbaff && ( u1_num_mbs & 0x01 ) ) ) ; u1_slice_end = 1 ; u1_tfr_n_mb = 1 ;","{ return ERROR_INV_SLICE_HDR_T ; } if ( ps_dec -> u4_pic_buf_got == 0 ) { ps_dec -> ps_cur_slice -> u1_slice_type = P_SLICE ; ps_dec -> ps_cur_slice -> u1_nal_ref_idc = 1 ; ps_dec -> ps_cur_slice -> u1_nal_unit_type = 1 ; ret = ih264d_start_of_pic ( ps_dec , poc , ps_cur_poc , ps_dec -> ps_cur_slice -> u2_frame_num , & ps_dec -> ps_pps [ j ] ) ; if ( ret != OK ) { return ret ; } } ps_dec -> ps_ref_pic_buf_lx [ 0 ] [ 0 ] -> u1_pic_buf_id = 0 ; ps_dec -> u4_output_present = 0 ; { ih264d_get_next_display_field ( ps_dec , ps_dec -> ps_out_buffer , & ( ps_dec -> s_disp_op ) ) ; if ( 0 != ps_dec -> s_disp_op . u4_error_code ) { ps_dec -> u4_fmt_conv_cur_row = ps_dec -> s_disp_frame_info . u4_y_ht ; } else ps_dec -> u4_output_present = 1 ; } if ( ps_dec -> u1_separate_parse == 1 ) { if ( ps_dec -> u4_dec_thread_created == 0 ) { ithread_create ( ps_dec -> pv_dec_thread_handle , NULL , ( void * ) ih264d_decode_picture_thread , ( void * ) ps_dec ) ; ps_dec -> u4_dec_thread_created = 1 ; } if ( ( ps_dec -> u4_num_cores == 3 ) && ( ( ps_dec -> u4_app_disable_deblk_frm == 0 ) || ps_dec -> i1_recon_in_thread3_flag ) && ( ps_dec -> u4_bs_deblk_thread_created == 0 ) ) { ps_dec -> u4_start_recon_deblk = 0 ; ithread_create ( ps_dec -> pv_bs_deblk_thread_handle , NULL , ( void * ) ih264d_recon_deblk_thread , ( void * ) ps_dec ) ; ps_dec -> u4_bs_deblk_thread_created = 1 ; } } } } else { dec_slice_struct_t * ps_parse_cur_slice ; ps_parse_cur_slice = ps_dec -> ps_dec_slice_buf + ps_dec -> u2_cur_slice_num ; if ( ps_dec -> u1_slice_header_done && ps_parse_cur_slice == ps_dec -> ps_parse_cur_slice ) { if ( ( u1_mbaff ) && ( ps_dec -> u4_num_mbs_cur_nmb & 1 ) ) { ps_dec -> u4_num_mbs_cur_nmb = ps_dec -> u4_num_mbs_cur_nmb - 1 ; ps_dec -> u2_cur_mb_addr -- ; } u1_num_mbs = ps_dec -> u4_num_mbs_cur_nmb ; if ( u1_num_mbs ) { ps_cur_mb_info = ps_dec -> ps_nmb_info + u1_num_mbs - 1 ; } else { if ( ps_dec -> u1_separate_parse ) { ps_cur_mb_info = ps_dec -> ps_nmb_info ; } else { ps_cur_mb_info = ps_dec -> ps_nmb_info ps_dec -> u4_num_mbs_prev_nmb - 1 ; } } ps_dec -> u2_mby = ps_cur_mb_info -> u2_mby ; ps_dec -> u2_mbx = ps_cur_mb_info -> u2_mbx ; ps_dec -> u1_mb_ngbr_availablity = ps_cur_mb_info -> u1_mb_ngbr_availablity ; if ( u1_num_mbs ) { ps_dec -> pv_parse_tu_coeff_data = ps_dec -> pv_prev_mb_parse_tu_coeff_data ; ps_dec -> u2_cur_mb_addr -- ; ps_dec -> i4_submb_ofst -= SUB_BLK_SIZE ; if ( ps_dec -> u1_pr_sl_type == P_SLICE || ps_dec -> u1_pr_sl_type == B_SLICE ) { ps_dec -> pf_mvpred_ref_tfr_nby2mb ( ps_dec , u1_mb_idx , u1_num_mbs ) ; ps_dec -> ps_part = ps_dec -> ps_parse_part_params ; } u1_num_mbs_next = i2_pic_wdin_mbs - ps_dec -> u2_mbx - 1 ; u1_end_of_row = ( ! u1_num_mbs_next ) && ( ! ( u1_mbaff && ( u1_num_mbs & 0x01 ) ) ) ; u1_slice_end = 1 ; u1_tfr_n_mb = 1 ;" 424,CWE-787 rfbBool webSocketsHasDataInBuffer ( rfbClientPtr cl ) { ws_ctx_t * wsctx = ( ws_ctx_t * ) cl -> wsctx ; if ( wsctx && wsctx -> readbuflen ) return TRUE ; return ( cl -> sslctx && rfbssl_pending ( cl ) > 0 ) ; },rfbBool webSocketsHasDataInBuffer ( rfbClientPtr cl ) { ws_ctx_t * wsctx = ( ws_ctx_t * ) cl -> wsctx ; if ( wsctx && wsctx -> readlen ) return TRUE ; return ( cl -> sslctx && rfbssl_pending ( cl ) > 0 ) ; } 425,"CWE-119 void cJSON_AddItemToArray ( cJSON * array , cJSON * item ) { cJSON * c = array -> child ; if ( ! item ) return ; if ( ! c ) { array -> child = item ; } else { while ( c && c -> next ) c = c -> next ; suffix_object ( c , item ) ; } } ","void cJSON_AddItemToArray ( cJSON * array , cJSON * item ) { cJSON * c = array -> child ; if ( ! item ) return ; if ( ! c ) { array -> child = item ; } else { while ( c && c -> next ) c = c -> next ; suffix_object ( c , item ) ; } }" 426,"CWE-399 static void do_local_notify ( xmlNode * notify_src , const char * client_id , gboolean sync_reply , gboolean from_peer ) { cib_client_t * client_obj = NULL ; int local_rc = pcmk_ok ; if ( client_id != NULL ) { client_obj = g_hash_table_lookup ( client_list , client_id ) ; } else { crm_trace ( ""No client to sent the response to. F_CIB_CLIENTID not set."" ) ; } if ( client_obj == NULL ) { local_rc = - ECONNRESET ; } else { int rid = 0 ; if ( sync_reply ) { CRM_LOG_ASSERT ( client_obj -> request_id ) ; rid = client_obj -> request_id ; client_obj -> request_id = 0 ; crm_trace ( ""Sending response %d to %s %s"" , rid , client_obj -> name , from_peer ? ""(originator of delegated request)"" : """" ) ; } else { crm_trace ( ""Sending an event to %s %s"" , client_obj -> name , from_peer ? ""(originator of delegated request)"" : """" ) ; } if ( client_obj -> ipc && crm_ipcs_send ( client_obj -> ipc , rid , notify_src , ! sync_reply ) < 0 ) { local_rc = - ENOMSG ; # ifdef HAVE_GNUTLS_GNUTLS_H } else if ( client_obj -> session ) { crm_send_remote_msg ( client_obj -> session , notify_src , client_obj -> encrypted ) ; # endif } else if ( client_obj -> ipc == NULL ) { crm_err ( ""Unknown transport for %s"" , client_obj -> name ) ; } } if ( local_rc != pcmk_ok && client_obj != NULL ) { crm_warn ( ""%sSync reply to %s failed: %s"" , sync_reply ? """" : ""A-"" , client_obj ? client_obj -> name : """" , pcmk_strerror ( local_rc ) ) ; } }","static void do_local_notify ( xmlNode * notify_src , const char * client_id , gboolean sync_reply , gboolean from_peer ) { cib_client_t * client_obj = NULL ; int local_rc = pcmk_ok ; if ( client_id != NULL ) { client_obj = g_hash_table_lookup ( client_list , client_id ) ; } else { crm_trace ( ""No client to sent the response to. F_CIB_CLIENTID not set."" ) ; } if ( client_obj == NULL ) { local_rc = - ECONNRESET ; } else { int rid = 0 ; if ( sync_reply ) { if ( client_obj -> ipc ) { CRM_LOG_ASSERT ( client_obj -> request_id ) ; rid = client_obj -> request_id ; client_obj -> request_id = 0 ; crm_trace ( ""Sending response %d to %s %s"" , rid , client_obj -> name , from_peer ? ""(originator of delegated request)"" : """" ) ; } else { crm_trace ( ""Sending response to %s %s"" , client_obj -> name , from_peer ? ""(originator of delegated request)"" : """" ) ; } } else { crm_trace ( ""Sending an event to %s %s"" , client_obj -> name , from_peer ? ""(originator of delegated request)"" : """" ) ; } if ( client_obj -> ipc && crm_ipcs_send ( client_obj -> ipc , rid , notify_src , ! sync_reply ) < 0 ) { local_rc = - ENOMSG ; # ifdef HAVE_GNUTLS_GNUTLS_H } else if ( client_obj -> session ) { crm_send_remote_msg ( client_obj -> session , notify_src , client_obj -> encrypted ) ; # endif } else if ( client_obj -> ipc == NULL ) { crm_err ( ""Unknown transport for %s"" , client_obj -> name ) ; } } if ( local_rc != pcmk_ok && client_obj != NULL ) { crm_warn ( ""%sSync reply to %s failed: %s"" , sync_reply ? """" : ""A-"" , client_obj ? client_obj -> name : """" , pcmk_strerror ( local_rc ) ) ; } }" 427,"CWE-125 PyObject * ast2obj_excepthandler ( void * _o ) { excepthandler_ty o = ( excepthandler_ty ) _o ; PyObject * result = NULL , * value = NULL ; if ( ! o ) { Py_INCREF ( Py_None ) ; return Py_None ; } switch ( o -> kind ) { case ExceptHandler_kind : result = PyType_GenericNew ( ExceptHandler_type , NULL , NULL ) ; if ( ! result ) goto failed ; value = ast2obj_expr ( o -> v . ExceptHandler . type ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_type , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; value = ast2obj_identifier ( o -> v . ExceptHandler . name ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_name , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; value = ast2obj_list ( o -> v . ExceptHandler . body , ast2obj_stmt ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_body , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; break ; } value = ast2obj_int ( o -> lineno ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_lineno , value ) < 0 ) goto failed ; Py_DECREF ( value ) ; value = ast2obj_int ( o -> col_offset ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_col_offset , value ) < 0 ) goto failed ; Py_DECREF ( value ) ; return result ; failed : Py_XDECREF ( value ) ; Py_XDECREF ( result ) ; return NULL ; }","PyObject * ast2obj_excepthandler ( void * _o ) { excepthandler_ty o = ( excepthandler_ty ) _o ; PyObject * result = NULL , * value = NULL ; if ( ! o ) { Py_RETURN_NONE ; } switch ( o -> kind ) { case ExceptHandler_kind : result = PyType_GenericNew ( ExceptHandler_type , NULL , NULL ) ; if ( ! result ) goto failed ; value = ast2obj_expr ( o -> v . ExceptHandler . type ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_type , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; value = ast2obj_identifier ( o -> v . ExceptHandler . name ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_name , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; value = ast2obj_list ( o -> v . ExceptHandler . body , ast2obj_stmt ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_body , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; break ; } value = ast2obj_int ( o -> lineno ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_lineno , value ) < 0 ) goto failed ; Py_DECREF ( value ) ; value = ast2obj_int ( o -> col_offset ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_col_offset , value ) < 0 ) goto failed ; Py_DECREF ( value ) ; return result ; failed : Py_XDECREF ( value ) ; Py_XDECREF ( result ) ; return NULL ; }" 428,"CWE-20 error_t mqttSnClientSubscribe ( MqttSnClientContext * context , const char_t * topicName , MqttSnQosLevel qos ) { error_t error ; systime_t time ; if ( context == NULL || topicName == NULL ) return ERROR_INVALID_PARAMETER ; error = NO_ERROR ; while ( ! error ) { time = osGetSystemTime ( ) ; if ( context -> state == MQTT_SN_CLIENT_STATE_ACTIVE ) { mqttSnClientGenerateMessageId ( context ) ; context -> startTime = time ; error = mqttSnClientSendSubscribe ( context , topicName , qos ) ; } else if ( context -> state == MQTT_SN_CLIENT_STATE_SENDING_REQ ) { if ( timeCompare ( time , context -> startTime + context -> timeout ) >= 0 ) { context -> state = MQTT_SN_CLIENT_STATE_DISCONNECTING ; error = ERROR_TIMEOUT ; } else if ( timeCompare ( time , context -> retransmitStartTime + MQTT_SN_CLIENT_RETRY_TIMEOUT ) >= 0 ) { error = mqttSnClientSendSubscribe ( context , topicName , qos ) ; } else { error = mqttSnClientProcessEvents ( context , MQTT_SN_CLIENT_TICK_INTERVAL ) ; } } else if ( context -> state == MQTT_SN_CLIENT_STATE_RESP_RECEIVED ) { context -> state = MQTT_SN_CLIENT_STATE_ACTIVE ; if ( context -> msgType == MQTT_SN_MSG_TYPE_SUBACK ) { if ( context -> returnCode == MQTT_SN_RETURN_CODE_ACCEPTED ) { if ( strchr ( topicName , '#' ) == NULL && strchr ( topicName , '+' ) == NULL ) { error = mqttSnClientAddTopic ( context , topicName , context -> topicId ) ; } break ; } else { error = ERROR_REQUEST_REJECTED ; } } else { error = ERROR_UNEXPECTED_RESPONSE ; } } else { error = ERROR_NOT_CONNECTED ; } } return error ; }","error_t mqttSnClientSubscribe ( MqttSnClientContext * context , const char_t * topicName , MqttSnQosLevel qos ) { error_t error ; systime_t time ; if ( context == NULL || topicName == NULL ) return ERROR_INVALID_PARAMETER ; error = NO_ERROR ; while ( ! error ) { time = osGetSystemTime ( ) ; if ( context -> state == MQTT_SN_CLIENT_STATE_ACTIVE ) { mqttSnClientGenerateMessageId ( context ) ; context -> startTime = time ; error = mqttSnClientSendSubscribe ( context , topicName , qos ) ; } else if ( context -> state == MQTT_SN_CLIENT_STATE_SENDING_REQ ) { if ( timeCompare ( time , context -> startTime + context -> timeout ) >= 0 ) { context -> state = MQTT_SN_CLIENT_STATE_DISCONNECTING ; error = ERROR_TIMEOUT ; } else if ( timeCompare ( time , context -> retransmitStartTime + MQTT_SN_CLIENT_RETRY_TIMEOUT ) >= 0 ) { error = mqttSnClientSendSubscribe ( context , topicName , qos ) ; } else { error = mqttSnClientProcessEvents ( context , MQTT_SN_CLIENT_TICK_INTERVAL ) ; } } else if ( context -> state == MQTT_SN_CLIENT_STATE_RESP_RECEIVED ) { context -> state = MQTT_SN_CLIENT_STATE_ACTIVE ; if ( context -> msgType == MQTT_SN_MSG_TYPE_SUBACK ) { if ( context -> returnCode == MQTT_SN_RETURN_CODE_ACCEPTED ) { if ( osStrchr ( topicName , '#' ) == NULL && osStrchr ( topicName , '+' ) == NULL ) { error = mqttSnClientAddTopic ( context , topicName , context -> topicId ) ; } break ; } else { error = ERROR_REQUEST_REJECTED ; } } else { error = ERROR_UNEXPECTED_RESPONSE ; } } else { error = ERROR_NOT_CONNECTED ; } } return error ; }" 429,"CWE-20 int key_update ( key_ref_t key_ref , const void * payload , size_t plen ) { struct key_preparsed_payload prep ; struct key * key = key_ref_to_ptr ( key_ref ) ; int ret ; key_check ( key ) ; ret = key_permission ( key_ref , KEY_NEED_WRITE ) ; if ( ret < 0 ) return ret ; if ( ! key -> type -> update ) return - EOPNOTSUPP ; memset ( & prep , 0 , sizeof ( prep ) ) ; prep . data = payload ; prep . datalen = plen ; prep . quotalen = key -> type -> def_datalen ; prep . expiry = TIME_T_MAX ; if ( key -> type -> preparse ) { ret = key -> type -> preparse ( & prep ) ; if ( ret < 0 ) goto error ; } down_write ( & key -> sem ) ; ret = key -> type -> update ( key , & prep ) ; if ( ret == 0 ) clear_bit ( KEY_FLAG_NEGATIVE , & key -> flags ) ; up_write ( & key -> sem ) ; error : if ( key -> type -> preparse ) key -> type -> free_preparse ( & prep ) ; return ret ; }","int key_update ( key_ref_t key_ref , const void * payload , size_t plen ) { struct key_preparsed_payload prep ; struct key * key = key_ref_to_ptr ( key_ref ) ; int ret ; key_check ( key ) ; ret = key_permission ( key_ref , KEY_NEED_WRITE ) ; if ( ret < 0 ) return ret ; if ( ! key -> type -> update ) return - EOPNOTSUPP ; memset ( & prep , 0 , sizeof ( prep ) ) ; prep . data = payload ; prep . datalen = plen ; prep . quotalen = key -> type -> def_datalen ; prep . expiry = TIME_T_MAX ; if ( key -> type -> preparse ) { ret = key -> type -> preparse ( & prep ) ; if ( ret < 0 ) goto error ; } down_write ( & key -> sem ) ; ret = key -> type -> update ( key , & prep ) ; if ( ret == 0 ) mark_key_instantiated ( key , 0 ) ; up_write ( & key -> sem ) ; error : if ( key -> type -> preparse ) key -> type -> free_preparse ( & prep ) ; return ret ; }" 430,"CWE-772 gstrings_ret * get_strings_2_svc ( gstrings_arg * arg , struct svc_req * rqstp ) { static gstrings_ret ret ; char * prime_arg ; gss_buffer_desc client_name , service_name ; OM_uint32 minor_stat ; kadm5_server_handle_t handle ; const char * errmsg = NULL ; xdr_free ( xdr_gstrings_ret , & ret ) ; if ( ( ret . code = new_server_handle ( arg -> api_version , rqstp , & handle ) ) ) goto exit_func ; if ( ( ret . code = check_handle ( ( void * ) handle ) ) ) goto exit_func ; ret . api_version = handle -> api_version ; if ( setup_gss_names ( rqstp , & client_name , & service_name ) < 0 ) { ret . code = KADM5_FAILURE ; goto exit_func ; } if ( krb5_unparse_name ( handle -> context , arg -> princ , & prime_arg ) ) { ret . code = KADM5_BAD_PRINCIPAL ; goto exit_func ; } if ( ! cmp_gss_krb5_name ( handle , rqst2name ( rqstp ) , arg -> princ ) && ( CHANGEPW_SERVICE ( rqstp ) || ! kadm5int_acl_check ( handle -> context , rqst2name ( rqstp ) , ACL_INQUIRE , arg -> princ , NULL ) ) ) { ret . code = KADM5_AUTH_GET ; log_unauth ( ""kadm5_get_strings"" , prime_arg , & client_name , & service_name , rqstp ) ; } else { ret . code = kadm5_get_strings ( ( void * ) handle , arg -> princ , & ret . strings , & ret . count ) ; if ( ret . code != 0 ) errmsg = krb5_get_error_message ( handle -> context , ret . code ) ; log_done ( ""kadm5_get_strings"" , prime_arg , errmsg , & client_name , & service_name , rqstp ) ; if ( errmsg != NULL ) krb5_free_error_message ( handle -> context , errmsg ) ; } free ( prime_arg ) ; gss_release_buffer ( & minor_stat , & client_name ) ; gss_release_buffer ( & minor_stat , & service_name ) ; exit_func : free_server_handle ( handle ) ; return & ret ; }","gstrings_ret * get_strings_2_svc ( gstrings_arg * arg , struct svc_req * rqstp ) { static gstrings_ret ret ; char * prime_arg ; gss_buffer_desc client_name = GSS_C_EMPTY_BUFFER ; gss_buffer_desc service_name = GSS_C_EMPTY_BUFFER ; OM_uint32 minor_stat ; kadm5_server_handle_t handle ; const char * errmsg = NULL ; xdr_free ( xdr_gstrings_ret , & ret ) ; if ( ( ret . code = new_server_handle ( arg -> api_version , rqstp , & handle ) ) ) goto exit_func ; if ( ( ret . code = check_handle ( ( void * ) handle ) ) ) goto exit_func ; ret . api_version = handle -> api_version ; if ( setup_gss_names ( rqstp , & client_name , & service_name ) < 0 ) { ret . code = KADM5_FAILURE ; goto exit_func ; } if ( krb5_unparse_name ( handle -> context , arg -> princ , & prime_arg ) ) { ret . code = KADM5_BAD_PRINCIPAL ; goto exit_func ; } if ( ! cmp_gss_krb5_name ( handle , rqst2name ( rqstp ) , arg -> princ ) && ( CHANGEPW_SERVICE ( rqstp ) || ! kadm5int_acl_check ( handle -> context , rqst2name ( rqstp ) , ACL_INQUIRE , arg -> princ , NULL ) ) ) { ret . code = KADM5_AUTH_GET ; log_unauth ( ""kadm5_get_strings"" , prime_arg , & client_name , & service_name , rqstp ) ; } else { ret . code = kadm5_get_strings ( ( void * ) handle , arg -> princ , & ret . strings , & ret . count ) ; if ( ret . code != 0 ) errmsg = krb5_get_error_message ( handle -> context , ret . code ) ; log_done ( ""kadm5_get_strings"" , prime_arg , errmsg , & client_name , & service_name , rqstp ) ; if ( errmsg != NULL ) krb5_free_error_message ( handle -> context , errmsg ) ; } free ( prime_arg ) ; exit_func : gss_release_buffer ( & minor_stat , & client_name ) ; gss_release_buffer ( & minor_stat , & service_name ) ; free_server_handle ( handle ) ; return & ret ; }" 431,"CWE-190 static int burl_normalize_2F_to_slash_fix ( buffer * b , int qs , int i ) { char * const s = b -> ptr ; const int blen = ( int ) buffer_string_length ( b ) ; const int used = qs < 0 ? blen : qs ; int j = i ; for ( ; i < used ; ++ i , ++ j ) { s [ j ] = s [ i ] ; if ( s [ i ] == '%' && s [ i + 1 ] == '2' && s [ i + 2 ] == 'F' ) { s [ j ] = '/' ; i += 2 ; } } if ( qs >= 0 ) { memmove ( s + j , s + qs , blen - qs ) ; j += blen - qs ; } buffer_string_set_length ( b , j ) ; return qs ; }","static int burl_normalize_2F_to_slash_fix ( buffer * b , int qs , int i ) { char * const s = b -> ptr ; const int blen = ( int ) buffer_string_length ( b ) ; const int used = qs < 0 ? blen : qs ; int j = i ; for ( ; i < used ; ++ i , ++ j ) { s [ j ] = s [ i ] ; if ( s [ i ] == '%' && s [ i + 1 ] == '2' && s [ i + 2 ] == 'F' ) { s [ j ] = '/' ; i += 2 ; } } if ( qs >= 0 ) { const int qslen = blen - qs ; memmove ( s + j , s + qs , ( size_t ) qslen ) ; qs = j ; j += qslen ; } buffer_string_set_length ( b , j ) ; return qs ; }" 432,"CWE-125 BOOL rdp_read_share_control_header ( wStream * s , UINT16 * length , UINT16 * type , UINT16 * channel_id ) { if ( Stream_GetRemainingLength ( s ) < 2 ) return FALSE ; Stream_Read_UINT16 ( s , * length ) ; if ( * length == 0x8000 ) { rdp_read_flow_control_pdu ( s , type ) ; * channel_id = 0 ; * length = 8 ; return TRUE ; } if ( ( ( size_t ) * length - 2 ) > Stream_GetRemainingLength ( s ) ) return FALSE ; Stream_Read_UINT16 ( s , * type ) ; * type &= 0x0F ; if ( * length > 4 ) Stream_Read_UINT16 ( s , * channel_id ) ; else * channel_id = 0 ; return TRUE ; }","BOOL rdp_read_share_control_header ( wStream * s , UINT16 * length , UINT16 * type , UINT16 * channel_id ) { UINT16 len ; if ( Stream_GetRemainingLength ( s ) < 2 ) return FALSE ; Stream_Read_UINT16 ( s , len ) ; * length = len ; if ( len == 0x8000 ) { if ( ! rdp_read_flow_control_pdu ( s , type ) ) return FALSE ; * channel_id = 0 ; * length = 8 ; return TRUE ; } if ( ( len < 4 ) || ( ( len - 2 ) > Stream_GetRemainingLength ( s ) ) ) return FALSE ; Stream_Read_UINT16 ( s , * type ) ; * type &= 0x0F ; if ( len > 4 ) Stream_Read_UINT16 ( s , * channel_id ) ; else * channel_id = 0 ; return TRUE ; }" 433,"CWE-119 CAMLprim value caml_alloc_dummy ( value size ) { mlsize_t wosize = Int_val ( size ) ; if ( wosize == 0 ) return Atom ( 0 ) ; return caml_alloc ( wosize , 0 ) ; }","CAMLprim value caml_alloc_dummy ( value size ) { mlsize_t wosize = Long_val ( size ) ; if ( wosize == 0 ) return Atom ( 0 ) ; return caml_alloc ( wosize , 0 ) ; }" 434,"NVD-CWE-noinfo static void nfs4_close_done ( struct rpc_task * task , void * data ) { struct nfs4_closedata * calldata = data ; struct nfs4_state * state = calldata -> state ; struct nfs_server * server = NFS_SERVER ( calldata -> inode ) ; if ( RPC_ASSASSINATED ( task ) ) return ; switch ( task -> tk_status ) { case 0 : nfs_set_open_stateid ( state , & calldata -> res . stateid , 0 ) ; renew_lease ( server , calldata -> timestamp ) ; break ; case - NFS4ERR_STALE_STATEID : case - NFS4ERR_OLD_STATEID : case - NFS4ERR_BAD_STATEID : case - NFS4ERR_EXPIRED : if ( calldata -> arg . open_flags == 0 ) break ; default : if ( nfs4_async_handle_error ( task , server , state ) == - EAGAIN ) { rpc_restart_call ( task ) ; return ; } } nfs_refresh_inode ( calldata -> inode , calldata -> res . fattr ) ; }","static void nfs4_close_done ( struct rpc_task * task , void * data ) { struct nfs4_closedata * calldata = data ; struct nfs4_state * state = calldata -> state ; struct nfs_server * server = NFS_SERVER ( calldata -> inode ) ; if ( RPC_ASSASSINATED ( task ) ) return ; switch ( task -> tk_status ) { case 0 : nfs_set_open_stateid ( state , & calldata -> res . stateid , 0 ) ; renew_lease ( server , calldata -> timestamp ) ; break ; case - NFS4ERR_STALE_STATEID : case - NFS4ERR_OLD_STATEID : case - NFS4ERR_BAD_STATEID : case - NFS4ERR_EXPIRED : if ( calldata -> arg . fmode == 0 ) break ; default : if ( nfs4_async_handle_error ( task , server , state ) == - EAGAIN ) { rpc_restart_call ( task ) ; return ; } } nfs_refresh_inode ( calldata -> inode , calldata -> res . fattr ) ; }" 435,"CWE-269 static int store_xauthority ( void ) { fs_build_mnt_dir ( ) ; char * src ; char * dest = RUN_XAUTHORITY_FILE ; FILE * fp = fopen ( dest , ""w"" ) ; if ( fp ) { fprintf ( fp , ""\\n"" ) ; SET_PERMS_STREAM ( fp , getuid ( ) , getgid ( ) , 0600 ) ; fclose ( fp ) ; } if ( asprintf ( & src , ""%s/.Xauthority"" , cfg . homedir ) == - 1 ) errExit ( ""asprintf"" ) ; struct stat s ; if ( stat ( src , & s ) == 0 ) { if ( is_link ( src ) ) { fprintf ( stderr , ""Error: invalid .Xauthority file\\n"" ) ; exit ( 1 ) ; } pid_t child = fork ( ) ; if ( child < 0 ) errExit ( ""fork"" ) ; if ( child == 0 ) { drop_privs ( 0 ) ; int rv = copy_file ( src , dest ) ; if ( rv ) fprintf ( stderr , ""Warning: cannot transfer .Xauthority in private home directory\\n"" ) ; else { fs_logger2 ( ""clone"" , dest ) ; } _exit ( 0 ) ; } waitpid ( child , NULL , 0 ) ; if ( chown ( dest , getuid ( ) , getgid ( ) ) == - 1 ) errExit ( ""fchown"" ) ; if ( chmod ( dest , 0600 ) == - 1 ) errExit ( ""fchmod"" ) ; return 1 ; } return 0 ; }","static int store_xauthority ( void ) { fs_build_mnt_dir ( ) ; char * src ; char * dest = RUN_XAUTHORITY_FILE ; FILE * fp = fopen ( dest , ""w"" ) ; if ( fp ) { fprintf ( fp , ""\\n"" ) ; SET_PERMS_STREAM ( fp , getuid ( ) , getgid ( ) , 0600 ) ; fclose ( fp ) ; } if ( asprintf ( & src , ""%s/.Xauthority"" , cfg . homedir ) == - 1 ) errExit ( ""asprintf"" ) ; struct stat s ; if ( stat ( src , & s ) == 0 ) { if ( is_link ( src ) ) { fprintf ( stderr , ""Warning: invalid .Xauthority file\\n"" ) ; return 0 ; } copy_file_as_user ( src , dest , getuid ( ) , getgid ( ) , 0600 ) ; fs_logger2 ( ""clone"" , dest ) ; return 1 ; } return 0 ; }" 436,"CWE-119 int fourcc_is_ivf ( const char detect [ 4 ] ) { if ( memcmp ( detect , ""DKIF"" , 4 ) == 0 ) { return 1 ; } return 0 ; }","static int fourcc_is_ivf ( const char detect [ 4 ] ) { if ( memcmp ( detect , ""DKIF"" , 4 ) == 0 ) { return 1 ; } return 0 ; }" 437,"CWE-20 req = ( protocol_binary_request_header * ) c -> rcurr ; if ( settings . verbose > 1 ) { int ii ; fprintf ( stderr , ""<%d Read binary protocol data:"" , c -> sfd ) ; for ( ii = 0 ; ii < sizeof ( req -> bytes ) ; ++ ii ) { if ( ii % 4 == 0 ) { fprintf ( stderr , ""\\n<%d "" , c -> sfd ) ; } fprintf ( stderr , "" 0x%02x"" , req -> bytes [ ii ] ) ; } fprintf ( stderr , ""\\n"" ) ; } c -> binary_header = * req ; c -> binary_header . request . keylen = ntohs ( req -> request . keylen ) ; c -> binary_header . request . bodylen = ntohl ( req -> request . bodylen ) ; c -> binary_header . request . cas = ntohll ( req -> request . cas ) ; if ( c -> binary_header . request . magic != PROTOCOL_BINARY_REQ ) { if ( settings . verbose ) { fprintf ( stderr , ""Invalid magic: %x\\n"" , c -> binary_header . request . magic ) ; } conn_set_state ( c , conn_closing ) ; return - 1 ; } c -> msgcurr = 0 ; c -> msgused = 0 ; c -> iovused = 0 ; if ( add_msghdr ( c ) != 0 ) { out_string ( c , ""SERVER_ERROR out of memory"" ) ; return 0 ; } c -> cmd = c -> binary_header . request . opcode ; c -> keylen = c -> binary_header . request . keylen ; c -> opaque = c -> binary_header . request . opaque ; c -> cas = 0 ; dispatch_bin_command ( c ) ; c -> rbytes -= sizeof ( c -> binary_header ) ; c -> rcurr += sizeof ( c -> binary_header ) ; } } else { char * el , * cont ; if ( c -> rbytes == 0 ) return 0 ; el = memchr ( c -> rcurr , '\\n' , c -> rbytes ) ; if ( ! el ) { if ( c -> rbytes > 1024 ) { char * ptr = c -> rcurr ; while ( * ptr == ' ' ) { } if ( strcmp ( ptr , ""get "" ) && strcmp ( ptr , ""gets "" ) ) { conn_set_state ( c , conn_closing ) ; return 1 ; } } return 0 ; } cont = el + 1 ; if ( ( el - c -> rcurr ) > 1 && * ( el - 1 ) == '\\r' ) { el -- ; } * el = '\\0' ; assert ( cont <= ( c -> rcurr + c -> rbytes ) ) ; process_command ( c , c -> rcurr ) ; c -> rbytes -= ( cont - c -> rcurr ) ; c -> rcurr = cont ; assert ( c -> rcurr <= ( c -> rbuf + c -> rsize ) ) ; } return 1 ; }","req = ( protocol_binary_request_header * ) c -> rcurr ; if ( settings . verbose > 1 ) { int ii ; fprintf ( stderr , ""<%d Read binary protocol data:"" , c -> sfd ) ; for ( ii = 0 ; ii < sizeof ( req -> bytes ) ; ++ ii ) { if ( ii % 4 == 0 ) { fprintf ( stderr , ""\\n<%d "" , c -> sfd ) ; } fprintf ( stderr , "" 0x%02x"" , req -> bytes [ ii ] ) ; } fprintf ( stderr , ""\\n"" ) ; } c -> binary_header = * req ; c -> binary_header . request . keylen = ntohs ( req -> request . keylen ) ; c -> binary_header . request . bodylen = ntohl ( req -> request . bodylen ) ; c -> binary_header . request . cas = ntohll ( req -> request . cas ) ; if ( c -> binary_header . request . magic != PROTOCOL_BINARY_REQ ) { if ( settings . verbose ) { fprintf ( stderr , ""Invalid magic: %x\\n"" , c -> binary_header . request . magic ) ; } conn_set_state ( c , conn_closing ) ; return - 1 ; } c -> msgcurr = 0 ; c -> msgused = 0 ; c -> iovused = 0 ; if ( add_msghdr ( c ) != 0 ) { out_string ( c , ""SERVER_ERROR out of memory"" ) ; return 0 ; } c -> cmd = c -> binary_header . request . opcode ; c -> keylen = c -> binary_header . request . keylen ; c -> opaque = c -> binary_header . request . opaque ; c -> cas = 0 ; dispatch_bin_command ( c ) ; c -> rbytes -= sizeof ( c -> binary_header ) ; c -> rcurr += sizeof ( c -> binary_header ) ; } } else { char * el , * cont ; if ( c -> rbytes == 0 ) return 0 ; el = memchr ( c -> rcurr , '\\n' , c -> rbytes ) ; if ( ! el ) { if ( c -> rbytes > 1024 ) { char * ptr = c -> rcurr ; while ( * ptr == ' ' ) { + ptr ; } if ( ptr - c -> rcurr > 100 || ( strncmp ( ptr , ""get "" , 4 ) && strncmp ( ptr , ""gets "" , 5 ) ) ) { conn_set_state ( c , conn_closing ) ; return 1 ; } } return 0 ; } cont = el + 1 ; if ( ( el - c -> rcurr ) > 1 && * ( el - 1 ) == '\\r' ) { el -- ; } * el = '\\0' ; assert ( cont <= ( c -> rcurr + c -> rbytes ) ) ; process_command ( c , c -> rcurr ) ; c -> rbytes -= ( cont - c -> rcurr ) ; c -> rcurr = cont ; assert ( c -> rcurr <= ( c -> rbuf + c -> rsize ) ) ; } return 1 ; }" 438,"CWE-200 static int rfcomm_get_dev_list ( void __user * arg ) { struct rfcomm_dev * dev ; struct rfcomm_dev_list_req * dl ; struct rfcomm_dev_info * di ; int n = 0 , size , err ; u16 dev_num ; BT_DBG ( """" ) ; if ( get_user ( dev_num , ( u16 __user * ) arg ) ) return - EFAULT ; if ( ! dev_num || dev_num > ( PAGE_SIZE * 4 ) / sizeof ( * di ) ) return - EINVAL ; size = sizeof ( * dl ) + dev_num * sizeof ( * di ) ; dl = kmalloc ( size , GFP_KERNEL ) ; if ( ! dl ) return - ENOMEM ; di = dl -> dev_info ; spin_lock ( & rfcomm_dev_lock ) ; list_for_each_entry ( dev , & rfcomm_dev_list , list ) { if ( test_bit ( RFCOMM_TTY_RELEASED , & dev -> flags ) ) continue ; ( di + n ) -> id = dev -> id ; ( di + n ) -> flags = dev -> flags ; ( di + n ) -> state = dev -> dlc -> state ; ( di + n ) -> channel = dev -> channel ; bacpy ( & ( di + n ) -> src , & dev -> src ) ; bacpy ( & ( di + n ) -> dst , & dev -> dst ) ; if ( ++ n >= dev_num ) break ; } spin_unlock ( & rfcomm_dev_lock ) ; dl -> dev_num = n ; size = sizeof ( * dl ) + n * sizeof ( * di ) ; err = copy_to_user ( arg , dl , size ) ; kfree ( dl ) ; return err ? - EFAULT : 0 ; }","static int rfcomm_get_dev_list ( void __user * arg ) { struct rfcomm_dev * dev ; struct rfcomm_dev_list_req * dl ; struct rfcomm_dev_info * di ; int n = 0 , size , err ; u16 dev_num ; BT_DBG ( """" ) ; if ( get_user ( dev_num , ( u16 __user * ) arg ) ) return - EFAULT ; if ( ! dev_num || dev_num > ( PAGE_SIZE * 4 ) / sizeof ( * di ) ) return - EINVAL ; size = sizeof ( * dl ) + dev_num * sizeof ( * di ) ; dl = kzalloc ( size , GFP_KERNEL ) ; if ( ! dl ) return - ENOMEM ; di = dl -> dev_info ; spin_lock ( & rfcomm_dev_lock ) ; list_for_each_entry ( dev , & rfcomm_dev_list , list ) { if ( test_bit ( RFCOMM_TTY_RELEASED , & dev -> flags ) ) continue ; ( di + n ) -> id = dev -> id ; ( di + n ) -> flags = dev -> flags ; ( di + n ) -> state = dev -> dlc -> state ; ( di + n ) -> channel = dev -> channel ; bacpy ( & ( di + n ) -> src , & dev -> src ) ; bacpy ( & ( di + n ) -> dst , & dev -> dst ) ; if ( ++ n >= dev_num ) break ; } spin_unlock ( & rfcomm_dev_lock ) ; dl -> dev_num = n ; size = sizeof ( * dl ) + n * sizeof ( * di ) ; err = copy_to_user ( arg , dl , size ) ; kfree ( dl ) ; return err ? - EFAULT : 0 ; }" 439,"CWE-200 static int llc_ui_recvmsg ( struct kiocb * iocb , struct socket * sock , struct msghdr * msg , size_t len , int flags ) { struct sockaddr_llc * uaddr = ( struct sockaddr_llc * ) msg -> msg_name ; const int nonblock = flags & MSG_DONTWAIT ; struct sk_buff * skb = NULL ; struct sock * sk = sock -> sk ; struct llc_sock * llc = llc_sk ( sk ) ; unsigned long cpu_flags ; size_t copied = 0 ; u32 peek_seq = 0 ; u32 * seq ; unsigned long used ; int target ; long timeo ; lock_sock ( sk ) ; copied = - ENOTCONN ; if ( unlikely ( sk -> sk_type == SOCK_STREAM && sk -> sk_state == TCP_LISTEN ) ) goto out ; timeo = sock_rcvtimeo ( sk , nonblock ) ; seq = & llc -> copied_seq ; if ( flags & MSG_PEEK ) { peek_seq = llc -> copied_seq ; seq = & peek_seq ; } target = sock_rcvlowat ( sk , flags & MSG_WAITALL , len ) ; copied = 0 ; do { u32 offset ; if ( signal_pending ( current ) ) { if ( copied ) break ; copied = timeo ? sock_intr_errno ( timeo ) : - EAGAIN ; break ; } skb = skb_peek ( & sk -> sk_receive_queue ) ; if ( skb ) { offset = * seq ; goto found_ok_skb ; } if ( copied >= target && ! sk -> sk_backlog . tail ) break ; if ( copied ) { if ( sk -> sk_err || sk -> sk_state == TCP_CLOSE || ( sk -> sk_shutdown & RCV_SHUTDOWN ) || ! timeo || ( flags & MSG_PEEK ) ) break ; } else { if ( sock_flag ( sk , SOCK_DONE ) ) break ; if ( sk -> sk_err ) { copied = sock_error ( sk ) ; break ; } if ( sk -> sk_shutdown & RCV_SHUTDOWN ) break ; if ( sk -> sk_type == SOCK_STREAM && sk -> sk_state == TCP_CLOSE ) { if ( ! sock_flag ( sk , SOCK_DONE ) ) { copied = - ENOTCONN ; break ; } break ; }","static int llc_ui_recvmsg ( struct kiocb * iocb , struct socket * sock , struct msghdr * msg , size_t len , int flags ) { struct sockaddr_llc * uaddr = ( struct sockaddr_llc * ) msg -> msg_name ; const int nonblock = flags & MSG_DONTWAIT ; struct sk_buff * skb = NULL ; struct sock * sk = sock -> sk ; struct llc_sock * llc = llc_sk ( sk ) ; unsigned long cpu_flags ; size_t copied = 0 ; u32 peek_seq = 0 ; u32 * seq ; unsigned long used ; int target ; long timeo ; msg -> msg_namelen = 0 ; lock_sock ( sk ) ; copied = - ENOTCONN ; if ( unlikely ( sk -> sk_type == SOCK_STREAM && sk -> sk_state == TCP_LISTEN ) ) goto out ; timeo = sock_rcvtimeo ( sk , nonblock ) ; seq = & llc -> copied_seq ; if ( flags & MSG_PEEK ) { peek_seq = llc -> copied_seq ; seq = & peek_seq ; } target = sock_rcvlowat ( sk , flags & MSG_WAITALL , len ) ; copied = 0 ; do { u32 offset ; if ( signal_pending ( current ) ) { if ( copied ) break ; copied = timeo ? sock_intr_errno ( timeo ) : - EAGAIN ; break ; } skb = skb_peek ( & sk -> sk_receive_queue ) ; if ( skb ) { offset = * seq ; goto found_ok_skb ; } if ( copied >= target && ! sk -> sk_backlog . tail ) break ; if ( copied ) { if ( sk -> sk_err || sk -> sk_state == TCP_CLOSE || ( sk -> sk_shutdown & RCV_SHUTDOWN ) || ! timeo || ( flags & MSG_PEEK ) ) break ; } else { if ( sock_flag ( sk , SOCK_DONE ) ) break ; if ( sk -> sk_err ) { copied = sock_error ( sk ) ; break ; } if ( sk -> sk_shutdown & RCV_SHUTDOWN ) break ; if ( sk -> sk_type == SOCK_STREAM && sk -> sk_state == TCP_CLOSE ) { if ( ! sock_flag ( sk , SOCK_DONE ) ) { copied = - ENOTCONN ; break ; } break ; }" 440,CWE-119 int test ( char * URL ) { int errors = 0 ; ( void ) URL ; errors += test_weird_arguments ( ) ; errors += test_unsigned_short_formatting ( ) ; errors += test_signed_short_formatting ( ) ; errors += test_unsigned_int_formatting ( ) ; errors += test_signed_int_formatting ( ) ; errors += test_unsigned_long_formatting ( ) ; errors += test_signed_long_formatting ( ) ; errors += test_curl_off_t_formatting ( ) ; errors += test_string_formatting ( ) ; if ( errors ) return TEST_ERR_MAJOR_BAD ; else return 0 ; },int test ( char * URL ) { int errors = 0 ; ( void ) URL ; errors += test_weird_arguments ( ) ; errors += test_unsigned_short_formatting ( ) ; errors += test_signed_short_formatting ( ) ; errors += test_unsigned_int_formatting ( ) ; errors += test_signed_int_formatting ( ) ; errors += test_unsigned_long_formatting ( ) ; errors += test_signed_long_formatting ( ) ; errors += test_curl_off_t_formatting ( ) ; errors += test_string_formatting ( ) ; errors += test_float_formatting ( ) ; if ( errors ) return TEST_ERR_MAJOR_BAD ; else return 0 ; } 441,"CWE-362 # endif if ( skb -> protocol == htons ( ETH_P_IP ) ) { newsk = tcp_v4_syn_recv_sock ( sk , skb , req , dst ) ; if ( newsk == NULL ) return NULL ; newtcp6sk = ( struct tcp6_sock * ) newsk ; inet_sk ( newsk ) -> pinet6 = & newtcp6sk -> inet6 ; newinet = inet_sk ( newsk ) ; newnp = inet6_sk ( newsk ) ; newtp = tcp_sk ( newsk ) ; memcpy ( newnp , np , sizeof ( struct ipv6_pinfo ) ) ; ipv6_addr_set_v4mapped ( newinet -> inet_daddr , & newnp -> daddr ) ; ipv6_addr_set_v4mapped ( newinet -> inet_saddr , & newnp -> saddr ) ; ipv6_addr_copy ( & newnp -> rcv_saddr , & newnp -> saddr ) ; inet_csk ( newsk ) -> icsk_af_ops = & ipv6_mapped ; newsk -> sk_backlog_rcv = tcp_v4_do_rcv ; # ifdef CONFIG_TCP_MD5SIG newtp -> af_specific = & tcp_sock_ipv6_mapped_specific ; # endif newnp -> pktoptions = NULL ; newnp -> opt = NULL ; newnp -> mcast_oif = inet6_iif ( skb ) ; newnp -> mcast_hops = ipv6_hdr ( skb ) -> hop_limit ; tcp_sync_mss ( newsk , inet_csk ( newsk ) -> icsk_pmtu_cookie ) ; return newsk ; } treq = inet6_rsk ( req ) ; opt = np -> opt ; if ( sk_acceptq_is_full ( sk ) ) goto out_overflow ; if ( ! dst ) { dst = inet6_csk_route_req ( sk , req ) ; if ( ! dst ) goto out ; } newsk = tcp_create_openreq_child ( sk , req , skb ) ; if ( newsk == NULL ) goto out_nonewsk ; newsk -> sk_gso_type = SKB_GSO_TCPV6 ; __ip6_dst_store ( newsk , dst , NULL , NULL ) ; newtcp6sk = ( struct tcp6_sock * ) newsk ; inet_sk ( newsk ) -> pinet6 = & newtcp6sk -> inet6 ; newtp = tcp_sk ( newsk ) ; newinet = inet_sk ( newsk ) ; newnp = inet6_sk ( newsk ) ; memcpy ( newnp , np , sizeof ( struct ipv6_pinfo ) ) ; ipv6_addr_copy ( & newnp -> daddr , & treq -> rmt_addr ) ; ipv6_addr_copy ( & newnp -> saddr , & treq -> loc_addr ) ; ipv6_addr_copy ( & newnp -> rcv_saddr , & treq -> loc_addr ) ; newsk -> sk_bound_dev_if = treq -> iif ; newinet -> opt = NULL ; newnp -> ipv6_fl_list = NULL ; newnp -> rxopt . all = np -> rxopt . all ; newnp -> pktoptions = NULL ; if ( treq -> pktopts != NULL ) { newnp -> pktoptions = skb_clone ( treq -> pktopts , GFP_ATOMIC ) ; kfree_skb ( treq -> pktopts ) ; treq -> pktopts = NULL ; if ( newnp -> pktoptions ) skb_set_owner_r ( newnp -> pktoptions , newsk ) ; } newnp -> opt = NULL ; newnp -> mcast_oif = inet6_iif ( skb ) ; newnp -> mcast_hops = ipv6_hdr ( skb ) -> hop_limit ; if ( opt ) { newnp -> opt = ipv6_dup_options ( newsk , opt ) ; if ( opt != np -> opt ) sock_kfree_s ( sk , opt , opt -> tot_len ) ; } inet_csk ( newsk ) -> icsk_ext_hdr_len = 0 ; if ( newnp -> opt ) inet_csk ( newsk ) -> icsk_ext_hdr_len = ( newnp -> opt -> opt_nflen + newnp -> opt -> opt_flen ) ; tcp_mtup_init ( newsk ) ; tcp_sync_mss ( newsk , dst_mtu ( dst ) ) ; newtp -> advmss = dst_metric_advmss ( dst ) ; tcp_initialize_rcv_mss ( newsk ) ; newinet -> inet_daddr = newinet -> inet_saddr = LOOPBACK4_IPV6 ; newinet -> inet_rcv_saddr = LOOPBACK4_IPV6 ; # ifdef CONFIG_TCP_MD5SIG if ( ( key = tcp_v6_md5_do_lookup ( sk , & newnp -> daddr ) ) != NULL ) { char * newkey = kmemdup ( key -> key , key -> keylen , GFP_ATOMIC ) ; if ( newkey != NULL ) tcp_v6_md5_do_add ( newsk , & newnp -> daddr , newkey , key -> keylen ) ; } # endif if ( __inet_inherit_port ( sk , newsk ) < 0 ) { sock_put ( newsk ) ; goto out ; } __inet6_hash ( newsk , NULL ) ; return newsk ; out_overflow : NET_INC_STATS_BH ( sock_net ( sk ) , LINUX_MIB_LISTENOVERFLOWS ) ; out_nonewsk : if ( opt && opt != np -> opt ) sock_kfree_s ( sk , opt , opt -> tot_len ) ; dst_release ( dst ) ; out : NET_INC_STATS_BH ( sock_net ( sk ) , LINUX_MIB_LISTENDROPS ) ;","# endif if ( skb -> protocol == htons ( ETH_P_IP ) ) { newsk = tcp_v4_syn_recv_sock ( sk , skb , req , dst ) ; if ( newsk == NULL ) return NULL ; newtcp6sk = ( struct tcp6_sock * ) newsk ; inet_sk ( newsk ) -> pinet6 = & newtcp6sk -> inet6 ; newinet = inet_sk ( newsk ) ; newnp = inet6_sk ( newsk ) ; newtp = tcp_sk ( newsk ) ; memcpy ( newnp , np , sizeof ( struct ipv6_pinfo ) ) ; ipv6_addr_set_v4mapped ( newinet -> inet_daddr , & newnp -> daddr ) ; ipv6_addr_set_v4mapped ( newinet -> inet_saddr , & newnp -> saddr ) ; ipv6_addr_copy ( & newnp -> rcv_saddr , & newnp -> saddr ) ; inet_csk ( newsk ) -> icsk_af_ops = & ipv6_mapped ; newsk -> sk_backlog_rcv = tcp_v4_do_rcv ; # ifdef CONFIG_TCP_MD5SIG newtp -> af_specific = & tcp_sock_ipv6_mapped_specific ; # endif newnp -> pktoptions = NULL ; newnp -> opt = NULL ; newnp -> mcast_oif = inet6_iif ( skb ) ; newnp -> mcast_hops = ipv6_hdr ( skb ) -> hop_limit ; tcp_sync_mss ( newsk , inet_csk ( newsk ) -> icsk_pmtu_cookie ) ; return newsk ; } treq = inet6_rsk ( req ) ; opt = np -> opt ; if ( sk_acceptq_is_full ( sk ) ) goto out_overflow ; if ( ! dst ) { dst = inet6_csk_route_req ( sk , req ) ; if ( ! dst ) goto out ; } newsk = tcp_create_openreq_child ( sk , req , skb ) ; if ( newsk == NULL ) goto out_nonewsk ; newsk -> sk_gso_type = SKB_GSO_TCPV6 ; __ip6_dst_store ( newsk , dst , NULL , NULL ) ; newtcp6sk = ( struct tcp6_sock * ) newsk ; inet_sk ( newsk ) -> pinet6 = & newtcp6sk -> inet6 ; newtp = tcp_sk ( newsk ) ; newinet = inet_sk ( newsk ) ; newnp = inet6_sk ( newsk ) ; memcpy ( newnp , np , sizeof ( struct ipv6_pinfo ) ) ; ipv6_addr_copy ( & newnp -> daddr , & treq -> rmt_addr ) ; ipv6_addr_copy ( & newnp -> saddr , & treq -> loc_addr ) ; ipv6_addr_copy ( & newnp -> rcv_saddr , & treq -> loc_addr ) ; newsk -> sk_bound_dev_if = treq -> iif ; newinet -> inet_opt = NULL ; newnp -> ipv6_fl_list = NULL ; newnp -> rxopt . all = np -> rxopt . all ; newnp -> pktoptions = NULL ; if ( treq -> pktopts != NULL ) { newnp -> pktoptions = skb_clone ( treq -> pktopts , GFP_ATOMIC ) ; kfree_skb ( treq -> pktopts ) ; treq -> pktopts = NULL ; if ( newnp -> pktoptions ) skb_set_owner_r ( newnp -> pktoptions , newsk ) ; } newnp -> opt = NULL ; newnp -> mcast_oif = inet6_iif ( skb ) ; newnp -> mcast_hops = ipv6_hdr ( skb ) -> hop_limit ; if ( opt ) { newnp -> opt = ipv6_dup_options ( newsk , opt ) ; if ( opt != np -> opt ) sock_kfree_s ( sk , opt , opt -> tot_len ) ; } inet_csk ( newsk ) -> icsk_ext_hdr_len = 0 ; if ( newnp -> opt ) inet_csk ( newsk ) -> icsk_ext_hdr_len = ( newnp -> opt -> opt_nflen + newnp -> opt -> opt_flen ) ; tcp_mtup_init ( newsk ) ; tcp_sync_mss ( newsk , dst_mtu ( dst ) ) ; newtp -> advmss = dst_metric_advmss ( dst ) ; tcp_initialize_rcv_mss ( newsk ) ; newinet -> inet_daddr = newinet -> inet_saddr = LOOPBACK4_IPV6 ; newinet -> inet_rcv_saddr = LOOPBACK4_IPV6 ; # ifdef CONFIG_TCP_MD5SIG if ( ( key = tcp_v6_md5_do_lookup ( sk , & newnp -> daddr ) ) != NULL ) { char * newkey = kmemdup ( key -> key , key -> keylen , GFP_ATOMIC ) ; if ( newkey != NULL ) tcp_v6_md5_do_add ( newsk , & newnp -> daddr , newkey , key -> keylen ) ; } # endif if ( __inet_inherit_port ( sk , newsk ) < 0 ) { sock_put ( newsk ) ; goto out ; } __inet6_hash ( newsk , NULL ) ; return newsk ; out_overflow : NET_INC_STATS_BH ( sock_net ( sk ) , LINUX_MIB_LISTENOVERFLOWS ) ; out_nonewsk : if ( opt && opt != np -> opt ) sock_kfree_s ( sk , opt , opt -> tot_len ) ; dst_release ( dst ) ; out : NET_INC_STATS_BH ( sock_net ( sk ) , LINUX_MIB_LISTENDROPS ) ;" 442,"CWE-119 static int fuse_notify_inval_entry ( struct fuse_conn * fc , unsigned int size , struct fuse_copy_state * cs ) { struct fuse_notify_inval_entry_out outarg ; int err = - ENOMEM ; char * buf ; struct qstr name ; buf = kzalloc ( FUSE_NAME_MAX + 1 , GFP_KERNEL ) ; if ( ! buf ) goto err ; err = - EINVAL ; if ( size < sizeof ( outarg ) ) goto err ; err = fuse_copy_one ( cs , & outarg , sizeof ( outarg ) ) ; if ( err ) goto err ; err = - ENAMETOOLONG ; if ( outarg . namelen > FUSE_NAME_MAX ) goto err ; name . name = buf ; name . len = outarg . namelen ; err = fuse_copy_one ( cs , buf , outarg . namelen + 1 ) ; if ( err ) goto err ; fuse_copy_finish ( cs ) ; buf [ outarg . namelen ] = 0 ; name . hash = full_name_hash ( name . name , name . len ) ; down_read ( & fc -> killsb ) ; err = - ENOENT ; if ( fc -> sb ) err = fuse_reverse_inval_entry ( fc -> sb , outarg . parent , & name ) ; up_read ( & fc -> killsb ) ; kfree ( buf ) ; return err ; err : kfree ( buf ) ; fuse_copy_finish ( cs ) ; return err ; }","static int fuse_notify_inval_entry ( struct fuse_conn * fc , unsigned int size , struct fuse_copy_state * cs ) { struct fuse_notify_inval_entry_out outarg ; int err = - ENOMEM ; char * buf ; struct qstr name ; buf = kzalloc ( FUSE_NAME_MAX + 1 , GFP_KERNEL ) ; if ( ! buf ) goto err ; err = - EINVAL ; if ( size < sizeof ( outarg ) ) goto err ; err = fuse_copy_one ( cs , & outarg , sizeof ( outarg ) ) ; if ( err ) goto err ; err = - ENAMETOOLONG ; if ( outarg . namelen > FUSE_NAME_MAX ) goto err ; err = - EINVAL ; if ( size != sizeof ( outarg ) + outarg . namelen + 1 ) goto err ; name . name = buf ; name . len = outarg . namelen ; err = fuse_copy_one ( cs , buf , outarg . namelen + 1 ) ; if ( err ) goto err ; fuse_copy_finish ( cs ) ; buf [ outarg . namelen ] = 0 ; name . hash = full_name_hash ( name . name , name . len ) ; down_read ( & fc -> killsb ) ; err = - ENOENT ; if ( fc -> sb ) err = fuse_reverse_inval_entry ( fc -> sb , outarg . parent , & name ) ; up_read ( & fc -> killsb ) ; kfree ( buf ) ; return err ; err : kfree ( buf ) ; fuse_copy_finish ( cs ) ; return err ; }" 443,"CWE-601 static apr_byte_t oidc_validate_post_logout_url ( request_rec * r , const char * url , char * * err_str , char * * err_desc ) { apr_uri_t uri ; const char * c_host = NULL ; if ( apr_uri_parse ( r -> pool , url , & uri ) != APR_SUCCESS ) { * err_str = apr_pstrdup ( r -> pool , ""Malformed URL"" ) ; * err_desc = apr_psprintf ( r -> pool , ""Logout URL malformed: %s"" , url ) ; oidc_error ( r , ""%s: %s"" , * err_str , * err_desc ) ; return FALSE ; } c_host = oidc_get_current_url_host ( r ) ; if ( ( uri . hostname != NULL ) && ( ( strstr ( c_host , uri . hostname ) == NULL ) || ( strstr ( uri . hostname , c_host ) == NULL ) ) ) { * err_str = apr_pstrdup ( r -> pool , ""Invalid Request"" ) ; * err_desc = apr_psprintf ( r -> pool , ""logout value \\""%s\\"" does not match the hostname of the current request \\""%s\\"""" , apr_uri_unparse ( r -> pool , & uri , 0 ) , c_host ) ; oidc_error ( r , ""%s: %s"" , * err_str , * err_desc ) ; return FALSE ; } else if ( strstr ( url , ""/"" ) != url ) { * err_str = apr_pstrdup ( r -> pool , ""Malformed URL"" ) ; * err_desc = apr_psprintf ( r -> pool , ""No hostname was parsed and it does not seem to be relative, i.e starting with \'/\': %s"" , url ) ; oidc_error ( r , ""%s: %s"" , * err_str , * err_desc ) ; return FALSE ; } if ( ( ( strstr ( url , ""\\n"" ) != NULL ) || strstr ( url , ""\\r"" ) != NULL ) ) { * err_str = apr_pstrdup ( r -> pool , ""Invalid Request"" ) ; * err_desc = apr_psprintf ( r -> pool , ""logout value \\""%s\\"" contains illegal \\""\\n\\"" or \\""\\r\\"" character(s)"" , url ) ; oidc_error ( r , ""%s: %s"" , * err_str , * err_desc ) ; return FALSE ; } return TRUE ; }","static apr_byte_t oidc_validate_post_logout_url ( request_rec * r , const char * url , char * * err_str , char * * err_desc ) { apr_uri_t uri ; const char * c_host = NULL ; if ( apr_uri_parse ( r -> pool , url , & uri ) != APR_SUCCESS ) { * err_str = apr_pstrdup ( r -> pool , ""Malformed URL"" ) ; * err_desc = apr_psprintf ( r -> pool , ""Logout URL malformed: %s"" , url ) ; oidc_error ( r , ""%s: %s"" , * err_str , * err_desc ) ; return FALSE ; } c_host = oidc_get_current_url_host ( r ) ; if ( ( uri . hostname != NULL ) && ( ( strstr ( c_host , uri . hostname ) == NULL ) || ( strstr ( uri . hostname , c_host ) == NULL ) ) ) { * err_str = apr_pstrdup ( r -> pool , ""Invalid Request"" ) ; * err_desc = apr_psprintf ( r -> pool , ""logout value \\""%s\\"" does not match the hostname of the current request \\""%s\\"""" , apr_uri_unparse ( r -> pool , & uri , 0 ) , c_host ) ; oidc_error ( r , ""%s: %s"" , * err_str , * err_desc ) ; return FALSE ; } else if ( ( uri . hostname == NULL ) && ( strstr ( url , ""/"" ) != url ) ) { * err_str = apr_pstrdup ( r -> pool , ""Malformed URL"" ) ; * err_desc = apr_psprintf ( r -> pool , ""No hostname was parsed and it does not seem to be relative, i.e starting with \'/\': %s"" , url ) ; oidc_error ( r , ""%s: %s"" , * err_str , * err_desc ) ; return FALSE ; } if ( ( ( strstr ( url , ""\\n"" ) != NULL ) || strstr ( url , ""\\r"" ) != NULL ) ) { * err_str = apr_pstrdup ( r -> pool , ""Invalid Request"" ) ; * err_desc = apr_psprintf ( r -> pool , ""logout value \\""%s\\"" contains illegal \\""\\n\\"" or \\""\\r\\"" character(s)"" , url ) ; oidc_error ( r , ""%s: %s"" , * err_str , * err_desc ) ; return FALSE ; } return TRUE ; }" 444,"CWE-125 static struct sk_buff * udp6_ufo_fragment ( struct sk_buff * skb , netdev_features_t features ) { struct sk_buff * segs = ERR_PTR ( - EINVAL ) ; unsigned int mss ; unsigned int unfrag_ip6hlen , unfrag_len ; struct frag_hdr * fptr ; u8 * packet_start , * prevhdr ; u8 nexthdr ; u8 frag_hdr_sz = sizeof ( struct frag_hdr ) ; __wsum csum ; int tnl_hlen ; mss = skb_shinfo ( skb ) -> gso_size ; if ( unlikely ( skb -> len <= mss ) ) goto out ; if ( skb_gso_ok ( skb , features | NETIF_F_GSO_ROBUST ) ) { skb_shinfo ( skb ) -> gso_segs = DIV_ROUND_UP ( skb -> len , mss ) ; if ( ! skb_shinfo ( skb ) -> ip6_frag_id ) ipv6_proxy_select_ident ( dev_net ( skb -> dev ) , skb ) ; segs = NULL ; goto out ; } if ( skb -> encapsulation && skb_shinfo ( skb ) -> gso_type & ( SKB_GSO_UDP_TUNNEL | SKB_GSO_UDP_TUNNEL_CSUM ) ) segs = skb_udp_tunnel_segment ( skb , features , true ) ; else { const struct ipv6hdr * ipv6h ; struct udphdr * uh ; if ( ! pskb_may_pull ( skb , sizeof ( struct udphdr ) ) ) goto out ; uh = udp_hdr ( skb ) ; ipv6h = ipv6_hdr ( skb ) ; uh -> check = 0 ; csum = skb_checksum ( skb , 0 , skb -> len , 0 ) ; uh -> check = udp_v6_check ( skb -> len , & ipv6h -> saddr , & ipv6h -> daddr , csum ) ; if ( uh -> check == 0 ) uh -> check = CSUM_MANGLED_0 ; skb -> ip_summed = CHECKSUM_NONE ; if ( ! skb -> encap_hdr_csum ) features |= NETIF_F_HW_CSUM ; tnl_hlen = skb_tnl_header_len ( skb ) ; if ( skb -> mac_header < ( tnl_hlen + frag_hdr_sz ) ) { if ( gso_pskb_expand_head ( skb , tnl_hlen + frag_hdr_sz ) ) goto out ; } unfrag_ip6hlen = ip6_find_1stfragopt ( skb , & prevhdr ) ; nexthdr = * prevhdr ; * prevhdr = NEXTHDR_FRAGMENT ; unfrag_len = ( skb_network_header ( skb ) - skb_mac_header ( skb ) ) + unfrag_ip6hlen + tnl_hlen ; packet_start = ( u8 * ) skb -> head + SKB_GSO_CB ( skb ) -> mac_offset ; memmove ( packet_start - frag_hdr_sz , packet_start , unfrag_len ) ; SKB_GSO_CB ( skb ) -> mac_offset -= frag_hdr_sz ; skb -> mac_header -= frag_hdr_sz ; skb -> network_header -= frag_hdr_sz ; fptr = ( struct frag_hdr * ) ( skb_network_header ( skb ) + unfrag_ip6hlen ) ; fptr -> nexthdr = nexthdr ; fptr -> reserved = 0 ; if ( ! skb_shinfo ( skb ) -> ip6_frag_id ) ipv6_proxy_select_ident ( dev_net ( skb -> dev ) , skb ) ; fptr -> identification = skb_shinfo ( skb ) -> ip6_frag_id ; segs = skb_segment ( skb , features ) ; } out : return segs ; }","static struct sk_buff * udp6_ufo_fragment ( struct sk_buff * skb , netdev_features_t features ) { struct sk_buff * segs = ERR_PTR ( - EINVAL ) ; unsigned int mss ; unsigned int unfrag_ip6hlen , unfrag_len ; struct frag_hdr * fptr ; u8 * packet_start , * prevhdr ; u8 nexthdr ; u8 frag_hdr_sz = sizeof ( struct frag_hdr ) ; __wsum csum ; int tnl_hlen ; mss = skb_shinfo ( skb ) -> gso_size ; if ( unlikely ( skb -> len <= mss ) ) goto out ; if ( skb_gso_ok ( skb , features | NETIF_F_GSO_ROBUST ) ) { skb_shinfo ( skb ) -> gso_segs = DIV_ROUND_UP ( skb -> len , mss ) ; if ( ! skb_shinfo ( skb ) -> ip6_frag_id ) ipv6_proxy_select_ident ( dev_net ( skb -> dev ) , skb ) ; segs = NULL ; goto out ; } if ( skb -> encapsulation && skb_shinfo ( skb ) -> gso_type & ( SKB_GSO_UDP_TUNNEL | SKB_GSO_UDP_TUNNEL_CSUM ) ) segs = skb_udp_tunnel_segment ( skb , features , true ) ; else { const struct ipv6hdr * ipv6h ; struct udphdr * uh ; if ( ! pskb_may_pull ( skb , sizeof ( struct udphdr ) ) ) goto out ; uh = udp_hdr ( skb ) ; ipv6h = ipv6_hdr ( skb ) ; uh -> check = 0 ; csum = skb_checksum ( skb , 0 , skb -> len , 0 ) ; uh -> check = udp_v6_check ( skb -> len , & ipv6h -> saddr , & ipv6h -> daddr , csum ) ; if ( uh -> check == 0 ) uh -> check = CSUM_MANGLED_0 ; skb -> ip_summed = CHECKSUM_NONE ; if ( ! skb -> encap_hdr_csum ) features |= NETIF_F_HW_CSUM ; tnl_hlen = skb_tnl_header_len ( skb ) ; if ( skb -> mac_header < ( tnl_hlen + frag_hdr_sz ) ) { if ( gso_pskb_expand_head ( skb , tnl_hlen + frag_hdr_sz ) ) goto out ; } unfrag_ip6hlen = ip6_find_1stfragopt ( skb , & prevhdr ) ; if ( unfrag_ip6hlen < 0 ) return ERR_PTR ( unfrag_ip6hlen ) ; nexthdr = * prevhdr ; * prevhdr = NEXTHDR_FRAGMENT ; unfrag_len = ( skb_network_header ( skb ) - skb_mac_header ( skb ) ) + unfrag_ip6hlen + tnl_hlen ; packet_start = ( u8 * ) skb -> head + SKB_GSO_CB ( skb ) -> mac_offset ; memmove ( packet_start - frag_hdr_sz , packet_start , unfrag_len ) ; SKB_GSO_CB ( skb ) -> mac_offset -= frag_hdr_sz ; skb -> mac_header -= frag_hdr_sz ; skb -> network_header -= frag_hdr_sz ; fptr = ( struct frag_hdr * ) ( skb_network_header ( skb ) + unfrag_ip6hlen ) ; fptr -> nexthdr = nexthdr ; fptr -> reserved = 0 ; if ( ! skb_shinfo ( skb ) -> ip6_frag_id ) ipv6_proxy_select_ident ( dev_net ( skb -> dev ) , skb ) ; fptr -> identification = skb_shinfo ( skb ) -> ip6_frag_id ; segs = skb_segment ( skb , features ) ; } out : return segs ; }" 445,"CWE-362 static struct desc_struct * get_desc ( unsigned short sel ) { struct desc_ptr gdt_desc = { 0 , 0 } ; unsigned long desc_base ; # ifdef CONFIG_MODIFY_LDT_SYSCALL if ( ( sel & SEGMENT_TI_MASK ) == SEGMENT_LDT ) { struct desc_struct * desc = NULL ; struct ldt_struct * ldt ; sel >>= 3 ; mutex_lock ( & current -> active_mm -> context . lock ) ; ldt = current -> active_mm -> context . ldt ; if ( ldt && sel < ldt -> nr_entries ) desc = & ldt -> entries [ sel ] ; mutex_unlock ( & current -> active_mm -> context . lock ) ; return desc ; } # endif native_store_gdt ( & gdt_desc ) ; desc_base = sel & ~ ( SEGMENT_RPL_MASK | SEGMENT_TI_MASK ) ; if ( desc_base > gdt_desc . size ) return NULL ; return ( struct desc_struct * ) ( gdt_desc . address + desc_base ) ; }","static bool get_desc ( struct desc_struct * out , unsigned short sel ) { struct desc_ptr gdt_desc = { 0 , 0 } ; unsigned long desc_base ; # ifdef CONFIG_MODIFY_LDT_SYSCALL if ( ( sel & SEGMENT_TI_MASK ) == SEGMENT_LDT ) { bool success = false ; struct ldt_struct * ldt ; sel >>= 3 ; mutex_lock ( & current -> active_mm -> context . lock ) ; ldt = current -> active_mm -> context . ldt ; if ( ldt && sel < ldt -> nr_entries ) { * out = ldt -> entries [ sel ] ; success = true ; } mutex_unlock ( & current -> active_mm -> context . lock ) ; return success ; } # endif native_store_gdt ( & gdt_desc ) ; desc_base = sel & ~ ( SEGMENT_RPL_MASK | SEGMENT_TI_MASK ) ; if ( desc_base > gdt_desc . size ) return false ; * out = * ( struct desc_struct * ) ( gdt_desc . address + desc_base ) ; return true ; }" 446,"CWE-200 static bool_t svcauth_gss_accept_sec_context ( struct svc_req * rqst , struct rpc_gss_init_res * gr ) { struct svc_rpc_gss_data * gd ; struct rpc_gss_cred * gc ; gss_buffer_desc recv_tok , seqbuf ; gss_OID mech ; OM_uint32 maj_stat = 0 , min_stat = 0 , ret_flags , seq ; log_debug ( ""in svcauth_gss_accept_context()"" ) ; gd = SVCAUTH_PRIVATE ( rqst -> rq_xprt -> xp_auth ) ; gc = ( struct rpc_gss_cred * ) rqst -> rq_clntcred ; memset ( gr , 0 , sizeof ( * gr ) ) ; memset ( & recv_tok , 0 , sizeof ( recv_tok ) ) ; if ( ! svc_getargs ( rqst -> rq_xprt , xdr_rpc_gss_init_args , ( caddr_t ) & recv_tok ) ) return ( FALSE ) ; gr -> gr_major = gss_accept_sec_context ( & gr -> gr_minor , & gd -> ctx , svcauth_gss_creds , & recv_tok , GSS_C_NO_CHANNEL_BINDINGS , & gd -> client_name , & mech , & gr -> gr_token , & ret_flags , NULL , NULL ) ; svc_freeargs ( rqst -> rq_xprt , xdr_rpc_gss_init_args , ( caddr_t ) & recv_tok ) ; log_status ( ""accept_sec_context"" , gr -> gr_major , gr -> gr_minor ) ; if ( gr -> gr_major != GSS_S_COMPLETE && gr -> gr_major != GSS_S_CONTINUE_NEEDED ) { badauth ( gr -> gr_major , gr -> gr_minor , rqst -> rq_xprt ) ; gd -> ctx = GSS_C_NO_CONTEXT ; goto errout ; } if ( ( gr -> gr_ctx . value = mem_alloc ( sizeof ( gss_union_ctx_id_desc ) ) ) == NULL ) { fprintf ( stderr , ""svcauth_gss_accept_context: out of memory\\n"" ) ; goto errout ; } memcpy ( gr -> gr_ctx . value , gd -> ctx , sizeof ( gss_union_ctx_id_desc ) ) ; gr -> gr_ctx . length = sizeof ( gss_union_ctx_id_desc ) ; gr -> gr_win = sizeof ( gd -> seqmask ) * 8 ; gd -> sec . mech = mech ; gd -> sec . qop = GSS_C_QOP_DEFAULT ; gd -> sec . svc = gc -> gc_svc ; gd -> seq = gc -> gc_seq ; gd -> win = gr -> gr_win ; if ( gr -> gr_major == GSS_S_COMPLETE ) { # ifdef SPKM if ( ! g_OID_equal ( gss_mech_spkm3 , mech ) ) { # endif maj_stat = gss_display_name ( & min_stat , gd -> client_name , & gd -> cname , & gd -> sec . mech ) ; # ifdef SPKM } # endif if ( maj_stat != GSS_S_COMPLETE ) { log_status ( ""display_name"" , maj_stat , min_stat ) ; goto errout ; } # ifdef DEBUG # ifdef HAVE_HEIMDAL log_debug ( ""accepted context for %.*s with "" """" , gd -> cname . length , ( char * ) gd -> cname . value , gd -> sec . qop , gd -> sec . svc ) ; # else { gss_buffer_desc mechname ; gss_oid_to_str ( & min_stat , mech , & mechname ) ; log_debug ( ""accepted context for %.*s with "" """" , gd -> cname . length , ( char * ) gd -> cname . value , mechname . length , ( char * ) mechname . value , gd -> sec . qop , gd -> sec . svc ) ; gss_release_buffer ( & min_stat , & mechname ) ; } # endif # endif seq = htonl ( gr -> gr_win ) ; seqbuf . value = & seq ; seqbuf . length = sizeof ( seq ) ; gss_release_buffer ( & min_stat , & gd -> checksum ) ; maj_stat = gss_sign ( & min_stat , gd -> ctx , GSS_C_QOP_DEFAULT , & seqbuf , & gd -> checksum ) ; if ( maj_stat != GSS_S_COMPLETE ) { goto errout ; } rqst -> rq_xprt -> xp_verf . oa_flavor = RPCSEC_GSS ; rqst -> rq_xprt -> xp_verf . oa_base = gd -> checksum . value ; rqst -> rq_xprt -> xp_verf . oa_length = gd -> checksum . length ;","static bool_t svcauth_gss_accept_sec_context ( struct svc_req * rqst , struct rpc_gss_init_res * gr ) { struct svc_rpc_gss_data * gd ; struct rpc_gss_cred * gc ; gss_buffer_desc recv_tok , seqbuf ; gss_OID mech ; OM_uint32 maj_stat = 0 , min_stat = 0 , ret_flags , seq ; log_debug ( ""in svcauth_gss_accept_context()"" ) ; gd = SVCAUTH_PRIVATE ( rqst -> rq_xprt -> xp_auth ) ; gc = ( struct rpc_gss_cred * ) rqst -> rq_clntcred ; memset ( gr , 0 , sizeof ( * gr ) ) ; memset ( & recv_tok , 0 , sizeof ( recv_tok ) ) ; if ( ! svc_getargs ( rqst -> rq_xprt , xdr_rpc_gss_init_args , ( caddr_t ) & recv_tok ) ) return ( FALSE ) ; gr -> gr_major = gss_accept_sec_context ( & gr -> gr_minor , & gd -> ctx , svcauth_gss_creds , & recv_tok , GSS_C_NO_CHANNEL_BINDINGS , & gd -> client_name , & mech , & gr -> gr_token , & ret_flags , NULL , NULL ) ; svc_freeargs ( rqst -> rq_xprt , xdr_rpc_gss_init_args , ( caddr_t ) & recv_tok ) ; log_status ( ""accept_sec_context"" , gr -> gr_major , gr -> gr_minor ) ; if ( gr -> gr_major != GSS_S_COMPLETE && gr -> gr_major != GSS_S_CONTINUE_NEEDED ) { badauth ( gr -> gr_major , gr -> gr_minor , rqst -> rq_xprt ) ; gd -> ctx = GSS_C_NO_CONTEXT ; goto errout ; } gr -> gr_ctx . value = ""xxxx"" ; gr -> gr_ctx . length = 4 ; gr -> gr_win = sizeof ( gd -> seqmask ) * 8 ; gd -> sec . mech = mech ; gd -> sec . qop = GSS_C_QOP_DEFAULT ; gd -> sec . svc = gc -> gc_svc ; gd -> seq = gc -> gc_seq ; gd -> win = gr -> gr_win ; if ( gr -> gr_major == GSS_S_COMPLETE ) { # ifdef SPKM if ( ! g_OID_equal ( gss_mech_spkm3 , mech ) ) { # endif maj_stat = gss_display_name ( & min_stat , gd -> client_name , & gd -> cname , & gd -> sec . mech ) ; # ifdef SPKM } # endif if ( maj_stat != GSS_S_COMPLETE ) { log_status ( ""display_name"" , maj_stat , min_stat ) ; goto errout ; } # ifdef DEBUG # ifdef HAVE_HEIMDAL log_debug ( ""accepted context for %.*s with "" """" , gd -> cname . length , ( char * ) gd -> cname . value , gd -> sec . qop , gd -> sec . svc ) ; # else { gss_buffer_desc mechname ; gss_oid_to_str ( & min_stat , mech , & mechname ) ; log_debug ( ""accepted context for %.*s with "" """" , gd -> cname . length , ( char * ) gd -> cname . value , mechname . length , ( char * ) mechname . value , gd -> sec . qop , gd -> sec . svc ) ; gss_release_buffer ( & min_stat , & mechname ) ; } # endif # endif seq = htonl ( gr -> gr_win ) ; seqbuf . value = & seq ; seqbuf . length = sizeof ( seq ) ; gss_release_buffer ( & min_stat , & gd -> checksum ) ; maj_stat = gss_sign ( & min_stat , gd -> ctx , GSS_C_QOP_DEFAULT , & seqbuf , & gd -> checksum ) ; if ( maj_stat != GSS_S_COMPLETE ) { goto errout ; } rqst -> rq_xprt -> xp_verf . oa_flavor = RPCSEC_GSS ; rqst -> rq_xprt -> xp_verf . oa_base = gd -> checksum . value ; rqst -> rq_xprt -> xp_verf . oa_length = gd -> checksum . length ;" 447,"CWE-476 smb_sdrc_t smb2_flush ( smb_request_t * sr ) { smb_ofile_t * of = NULL ; uint16_t StructSize ; uint16_t reserved1 ; uint32_t reserved2 ; smb2fid_t smb2fid ; uint32_t status ; int rc = 0 ; rc = smb_mbc_decodef ( & sr -> smb_data , ""wwlqq"" , & StructSize , & reserved1 , & reserved2 , & smb2fid . persistent , & smb2fid . temporal ) ; if ( rc ) return ( SDRC_ERROR ) ; if ( StructSize != 24 ) return ( SDRC_ERROR ) ; status = smb2sr_lookup_fid ( sr , & smb2fid ) ; if ( status ) { smb2sr_put_error ( sr , status ) ; return ( SDRC_SUCCESS ) ; } of = sr -> fid_ofile ; if ( ( of -> f_node -> flags & NODE_FLAGS_WRITE_THROUGH ) == 0 ) ( void ) smb_fsop_commit ( sr , of -> f_cr , of -> f_node ) ; ( void ) smb_mbc_encodef ( & sr -> reply , ""wwl"" , 4 , 0 ) ; return ( SDRC_SUCCESS ) ; }","smb_sdrc_t smb2_flush ( smb_request_t * sr ) { uint16_t StructSize ; uint16_t reserved1 ; uint32_t reserved2 ; smb2fid_t smb2fid ; uint32_t status ; int rc = 0 ; rc = smb_mbc_decodef ( & sr -> smb_data , ""wwlqq"" , & StructSize , & reserved1 , & reserved2 , & smb2fid . persistent , & smb2fid . temporal ) ; if ( rc ) return ( SDRC_ERROR ) ; if ( StructSize != 24 ) return ( SDRC_ERROR ) ; status = smb2sr_lookup_fid ( sr , & smb2fid ) ; if ( status ) { smb2sr_put_error ( sr , status ) ; return ( SDRC_SUCCESS ) ; } smb_ofile_flush ( sr , sr -> fid_ofile ) ; ( void ) smb_mbc_encodef ( & sr -> reply , ""wwl"" , 4 , 0 ) ; return ( SDRC_SUCCESS ) ; }" 448,"CWE-20 void SetTransferMatrix ( double x11 , double x12 , double x21 , double x22 , double x , double y ) { if ( ( fabs ( x11 - 1. ) > 0.001 ) || ( fabs ( x22 - 1. ) > 0.001 ) || ( fabs ( x12 ) > 0.001 ) || ( fabs ( x21 ) > 0.001 ) || ( fabs ( x ) > 0.001 ) || ( fabs ( y ) > 0.001 ) ) { outpos += sprintf ( outpos , ""%12.3f %12.3f %12.3f %12.3f %12.3f %12.3f cm\\n"" , x11 , x12 , x21 , x22 , x , y ) ; } }","void SetTransferMatrix ( double x11 , double x12 , double x21 , double x22 , double x , double y ) { if ( ( fabs ( x11 - 1. ) > 0.001 ) || ( fabs ( x22 - 1. ) > 0.001 ) || ( fabs ( x12 ) > 0.001 ) || ( fabs ( x21 ) > 0.001 ) || ( fabs ( x ) > 0.001 ) || ( fabs ( y ) > 0.001 ) ) { sprintf ( outputbuffer , ""%12.3f %12.3f %12.3f %12.3f %12.3f %12.3f cm\\n"" , x11 , x12 , x21 , x22 , x , y ) ; sendClean ( outputbuffer ) ; } }" 449,"CWE-190 int jas_matrix_resize ( jas_matrix_t * matrix , int numrows , int numcols ) { int size ; int i ; size = numrows * numcols ; if ( size > matrix -> datasize_ || numrows > matrix -> maxrows_ ) { return - 1 ; } matrix -> numrows_ = numrows ; matrix -> numcols_ = numcols ; for ( i = 0 ; i < numrows ; ++ i ) { matrix -> rows_ [ i ] = & matrix -> data_ [ numcols * i ] ; } return 0 ; }","int jas_matrix_resize ( jas_matrix_t * matrix , jas_matind_t numrows , jas_matind_t numcols ) { jas_matind_t size ; jas_matind_t i ; size = numrows * numcols ; if ( size > matrix -> datasize_ || numrows > matrix -> maxrows_ ) { return - 1 ; } matrix -> numrows_ = numrows ; matrix -> numcols_ = numcols ; for ( i = 0 ; i < numrows ; ++ i ) { matrix -> rows_ [ i ] = & matrix -> data_ [ numcols * i ] ; } return 0 ; }" 450,"NVD-CWE-noinfo if ( chmod ( prefixsubst ( tag [ 2 ] ) , atoi ( tag [ 3 ] ) ) ) cmd_error = strerror ( errno ) ; } break ; case A_SETIME : { struct utimbuf utb ; utb . actime = atoll ( tag [ 3 ] ) ; utb . modtime = atoll ( tag [ 3 ] ) ; if ( utime ( prefixsubst ( tag [ 2 ] ) , & utb ) ) cmd_error = strerror ( errno ) ; } break ; case A_LIST : SQL_BEGIN ( ""DB Dump - Files for sync pair"" , ""SELECT checktxt, filename FROM file %s%s%s ORDER BY filename"" , strcmp ( tag [ 2 ] , ""-"" ) ? ""WHERE filename = \'"" : """" , strcmp ( tag [ 2 ] , ""-"" ) ? url_encode ( tag [ 2 ] ) : """" , strcmp ( tag [ 2 ] , ""-"" ) ? ""\'"" : """" ) { if ( csync_match_file_host ( url_decode ( SQL_V ( 1 ) ) , tag [ 1 ] , peer , ( const char * * ) & tag [ 3 ] ) ) conn_printf ( ""%s\\t%s\\n"" , SQL_V ( 0 ) , SQL_V ( 1 ) ) ; } SQL_END ; break ; case A_DEBUG : csync_debug_out = stdout ; if ( tag [ 1 ] [ 0 ] ) csync_debug_level = atoi ( tag [ 1 ] ) ; break ; case A_HELLO : if ( peer ) { free ( peer ) ; peer = NULL ; } if ( verify_peername ( tag [ 1 ] , & peername ) ) { peer = strdup ( tag [ 1 ] ) ; } else { peer = NULL ; cmd_error = conn_response ( CR_ERR_IDENTIFICATION_FAILED ) ; break ; } # ifdef HAVE_LIBGNUTLS if ( ! csync_conn_usessl ) { struct csync_nossl * t ; for ( t = csync_nossl ; t ; t = t -> next ) { if ( ! fnmatch ( t -> pattern_from , myhostname , 0 ) && ! fnmatch ( t -> pattern_to , peer , 0 ) ) goto conn_without_ssl_ok ; } cmd_error = conn_response ( CR_ERR_SSL_EXPECTED ) ; } conn_without_ssl_ok : ; # endif break ; case A_GROUP : if ( active_grouplist ) { cmd_error = conn_response ( CR_ERR_GROUP_LIST_ALREADY_SET ) ; } else { const struct csync_group * g ; int i , gnamelen ; active_grouplist = strdup ( tag [ 1 ] ) ; for ( g = csync_group ; g ; g = g -> next ) { if ( ! g -> myname ) continue ; i = 0 ; gnamelen = strlen ( csync_group -> gname ) ; while ( active_grouplist [ i ] ) { if ( ! strncmp ( active_grouplist + i , csync_group -> gname , gnamelen ) && ( active_grouplist [ i + gnamelen ] == ',' || ! active_grouplist [ i + gnamelen ] ) ) goto found_asactive ; while ( active_grouplist [ i ] ) if ( active_grouplist [ i ++ ] == ',' ) break ; } csync_group -> myname = 0 ; found_asactive : ; } } break ; case A_BYE : for ( i = 0 ; i < 32 ; i ++ ) free ( tag [ i ] ) ; conn_resp ( CR_OK_CU_LATER ) ; return ; } if ( cmdtab [ cmdnr ] . update ) csync_file_update ( tag [ 2 ] , peer ) ; if ( cmdtab [ cmdnr ] . update == 1 ) { csync_debug ( 1 , ""Updated %s from %s.\\n"" , tag [ 2 ] , peer ? peer : ""???"" ) ; csync_schedule_commands ( tag [ 2 ] , 0 ) ; } abort_cmd : if ( cmd_error ) conn_printf ( ""%s\\n"" , cmd_error ) ; else conn_resp ( CR_OK_CMD_FINISHED ) ; next_cmd : destroy_tag ( tag ) ; }","if ( chmod ( prefixsubst ( tag [ 2 ] ) , atoi ( tag [ 3 ] ) ) ) cmd_error = strerror ( errno ) ; } break ; case A_SETIME : { struct utimbuf utb ; utb . actime = atoll ( tag [ 3 ] ) ; utb . modtime = atoll ( tag [ 3 ] ) ; if ( utime ( prefixsubst ( tag [ 2 ] ) , & utb ) ) cmd_error = strerror ( errno ) ; } break ; case A_LIST : SQL_BEGIN ( ""DB Dump - Files for sync pair"" , ""SELECT checktxt, filename FROM file %s%s%s ORDER BY filename"" , strcmp ( tag [ 2 ] , ""-"" ) ? ""WHERE filename = \'"" : """" , strcmp ( tag [ 2 ] , ""-"" ) ? url_encode ( tag [ 2 ] ) : """" , strcmp ( tag [ 2 ] , ""-"" ) ? ""\'"" : """" ) { if ( csync_match_file_host ( url_decode ( SQL_V ( 1 ) ) , tag [ 1 ] , peer , ( const char * * ) & tag [ 3 ] ) ) conn_printf ( ""%s\\t%s\\n"" , SQL_V ( 0 ) , SQL_V ( 1 ) ) ; } SQL_END ; break ; case A_DEBUG : csync_debug_out = stdout ; if ( tag [ 1 ] [ 0 ] ) csync_debug_level = atoi ( tag [ 1 ] ) ; break ; case A_HELLO : if ( peer ) { free ( peer ) ; peer = NULL ; } if ( verify_peername ( tag [ 1 ] , & peername ) ) { peer = strdup ( tag [ 1 ] ) ; } else { peer = NULL ; cmd_error = conn_response ( CR_ERR_IDENTIFICATION_FAILED ) ; break ; } # ifdef HAVE_LIBGNUTLS if ( ! csync_conn_usessl ) { struct csync_nossl * t ; for ( t = csync_nossl ; t ; t = t -> next ) { if ( ! fnmatch ( t -> pattern_from , myhostname , 0 ) && ! fnmatch ( t -> pattern_to , peer , 0 ) ) goto conn_without_ssl_ok ; } cmd_error = conn_response ( CR_ERR_SSL_EXPECTED ) ; peer = NULL ; } conn_without_ssl_ok : ; # endif break ; case A_GROUP : if ( active_grouplist ) { cmd_error = conn_response ( CR_ERR_GROUP_LIST_ALREADY_SET ) ; } else { const struct csync_group * g ; int i , gnamelen ; active_grouplist = strdup ( tag [ 1 ] ) ; for ( g = csync_group ; g ; g = g -> next ) { if ( ! g -> myname ) continue ; i = 0 ; gnamelen = strlen ( csync_group -> gname ) ; while ( active_grouplist [ i ] ) { if ( ! strncmp ( active_grouplist + i , csync_group -> gname , gnamelen ) && ( active_grouplist [ i + gnamelen ] == ',' || ! active_grouplist [ i + gnamelen ] ) ) goto found_asactive ; while ( active_grouplist [ i ] ) if ( active_grouplist [ i ++ ] == ',' ) break ; } csync_group -> myname = 0 ; found_asactive : ; } } break ; case A_BYE : for ( i = 0 ; i < 32 ; i ++ ) free ( tag [ i ] ) ; conn_resp ( CR_OK_CU_LATER ) ; return ; } if ( cmdtab [ cmdnr ] . update ) csync_file_update ( tag [ 2 ] , peer ) ; if ( cmdtab [ cmdnr ] . update == 1 ) { csync_debug ( 1 , ""Updated %s from %s.\\n"" , tag [ 2 ] , peer ? peer : ""???"" ) ; csync_schedule_commands ( tag [ 2 ] , 0 ) ; } abort_cmd : if ( cmd_error ) conn_printf ( ""%s\\n"" , cmd_error ) ; else conn_resp ( CR_OK_CMD_FINISHED ) ; next_cmd : destroy_tag ( tag ) ; }" 451,"CWE-77 int run_cmd ( int fd , ... ) { pid_t pid ; sigset_t sigm , sigm_old ; sigemptyset ( & sigm ) ; sigaddset ( & sigm , SIGTERM ) ; sigprocmask ( SIG_BLOCK , & sigm , & sigm_old ) ; pid = fork ( ) ; if ( pid < 0 ) { sigprocmask ( SIG_SETMASK , & sigm_old , NULL ) ; fd_printf ( STO , ""*** cannot fork: %s ***\\r\\n"" , strerror ( errno ) ) ; return - 1 ; } else if ( pid ) { int status , r ; sigprocmask ( SIG_SETMASK , & sigm_old , NULL ) ; do { r = waitpid ( pid , & status , 0 ) ; } while ( r < 0 && errno == EINTR ) ; term_apply ( STI ) ; if ( WIFEXITED ( status ) ) { fd_printf ( STO , ""\\r\\n*** exit status: %d ***\\r\\n"" , WEXITSTATUS ( status ) ) ; return WEXITSTATUS ( status ) ; } else if ( WIFSIGNALED ( status ) ) { fd_printf ( STO , ""\\r\\n*** killed by signal: %d ***\\r\\n"" , WTERMSIG ( status ) ) ; return - 1 ; } else { fd_printf ( STO , ""\\r\\n*** abnormal termination: 0x%x ***\\r\\n"" , r ) ; return - 1 ; } } else { long fl ; char cmd [ 512 ] ; term_remove ( STI ) ; term_erase ( fd ) ; fl = fcntl ( fd , F_GETFL ) ; fl &= ~ O_NONBLOCK ; fcntl ( fd , F_SETFL , fl ) ; close ( STI ) ; close ( STO ) ; dup2 ( fd , STI ) ; dup2 ( fd , STO ) ; { char * c , * ce ; const char * s ; int n ; va_list vls ; strcpy ( cmd , EXEC ) ; c = & cmd [ sizeof ( EXEC ) - 1 ] ; ce = cmd + sizeof ( cmd ) - 1 ; va_start ( vls , fd ) ; while ( ( s = va_arg ( vls , const char * ) ) ) { n = strlen ( s ) ; if ( c + n + 1 >= ce ) break ; memcpy ( c , s , n ) ; c += n ; * c ++ = ' ' ; } va_end ( vls ) ; * c = '\\0' ; } fd_printf ( STDERR_FILENO , ""%s\\n"" , & cmd [ sizeof ( EXEC ) - 1 ] ) ; establish_child_signal_handlers ( ) ; sigprocmask ( SIG_SETMASK , & sigm_old , NULL ) ; execl ( ""/bin/sh"" , ""sh"" , ""-c"" , cmd , NULL ) ; exit ( 42 ) ; } }","int run_cmd ( int fd , const char * cmd , const char * args_extra ) { pid_t pid ; sigset_t sigm , sigm_old ; sigemptyset ( & sigm ) ; sigaddset ( & sigm , SIGTERM ) ; sigprocmask ( SIG_BLOCK , & sigm , & sigm_old ) ; pid = fork ( ) ; if ( pid < 0 ) { sigprocmask ( SIG_SETMASK , & sigm_old , NULL ) ; fd_printf ( STO , ""*** cannot fork: %s ***\\r\\n"" , strerror ( errno ) ) ; return - 1 ; } else if ( pid ) { int status , r ; sigprocmask ( SIG_SETMASK , & sigm_old , NULL ) ; do { r = waitpid ( pid , & status , 0 ) ; } while ( r < 0 && errno == EINTR ) ; term_apply ( STI ) ; if ( WIFEXITED ( status ) ) { fd_printf ( STO , ""\\r\\n*** exit status: %d ***\\r\\n"" , WEXITSTATUS ( status ) ) ; return WEXITSTATUS ( status ) ; } else if ( WIFSIGNALED ( status ) ) { fd_printf ( STO , ""\\r\\n*** killed by signal: %d ***\\r\\n"" , WTERMSIG ( status ) ) ; return - 1 ; } else { fd_printf ( STO , ""\\r\\n*** abnormal termination: 0x%x ***\\r\\n"" , r ) ; return - 1 ; } } else { long fl ; int argc ; char * argv [ RUNCMD_ARGS_MAX + 1 ] ; int r ; term_remove ( STI ) ; term_erase ( fd ) ; fl = fcntl ( fd , F_GETFL ) ; fl &= ~ O_NONBLOCK ; fcntl ( fd , F_SETFL , fl ) ; close ( STI ) ; close ( STO ) ; dup2 ( fd , STI ) ; dup2 ( fd , STO ) ; argc = 0 ; r = split_quoted ( cmd , & argc , argv , RUNCMD_ARGS_MAX ) ; if ( r < 0 ) { fd_printf ( STDERR_FILENO , ""Cannot parse command\\n"" ) ; exit ( RUNCMD_EXEC_FAIL ) ; } r = split_quoted ( args_extra , & argc , argv , RUNCMD_ARGS_MAX ) ; if ( r < 0 ) { fd_printf ( STDERR_FILENO , ""Cannot parse extra args\\n"" ) ; exit ( RUNCMD_EXEC_FAIL ) ; } if ( argc < 1 ) { fd_printf ( STDERR_FILENO , ""No command given\\n"" ) ; exit ( RUNCMD_EXEC_FAIL ) ; } argv [ argc ] = NULL ; fd_printf ( STDERR_FILENO , ""$ %s %s\\n"" , cmd , args_extra ) ; establish_child_signal_handlers ( ) ; sigprocmask ( SIG_SETMASK , & sigm_old , NULL ) ; execvp ( argv [ 0 ] , argv ) ; fd_printf ( STDERR_FILENO , ""exec: %s\\n"" , strerror ( errno ) ) ; exit ( RUNCMD_EXEC_FAIL ) ; } }" 452,"CWE-119 if ( ps_dec -> u1_init_dec_flag && ps_dec -> s_prev_seq_params . u1_eoseq_pending ) { WORD32 j ; for ( j = 0 ; j < MAX_DISP_BUFS_NEW ; j ++ ) { ih264_buf_mgr_release ( ( buf_mgr_t * ) ps_dec -> pv_pic_buf_mgr , j , BUF_MGR_REF ) ; ih264_buf_mgr_release ( ( buf_mgr_t * ) ps_dec -> pv_mv_buf_mgr , ps_dec -> au1_pic_buf_id_mv_buf_id_map [ j ] , BUF_MGR_REF ) ; ih264_buf_mgr_release ( ( buf_mgr_t * ) ps_dec -> pv_pic_buf_mgr , j , BUF_MGR_IO ) ; } ps_dec -> u1_second_field = 0 ; ps_dec -> i4_cur_display_seq = 0 ; ps_dec -> s_prev_seq_params . u1_eoseq_pending = 0 ; } ret = ih264d_init_pic ( ps_dec , u2_frame_num , i4_poc , ps_pps ) ; if ( ret != OK ) return ret ; ps_dec -> pv_parse_tu_coeff_data = ps_dec -> pv_pic_tu_coeff_data ; ps_dec -> pv_proc_tu_coeff_data = ps_dec -> pv_pic_tu_coeff_data ; ps_dec -> ps_nmb_info = ps_dec -> ps_frm_mb_info ; if ( ps_dec -> u1_separate_parse ) { UWORD16 pic_wd ; UWORD16 pic_ht ; UWORD32 num_mbs ; pic_wd = ps_dec -> u2_pic_wd ; pic_ht = ps_dec -> u2_pic_ht ; num_mbs = ( pic_wd * pic_ht ) >> 8 ; if ( ps_dec -> pu1_dec_mb_map ) { memset ( ( void * ) ps_dec -> pu1_dec_mb_map , 0 , num_mbs ) ; } if ( ps_dec -> pu1_recon_mb_map ) { memset ( ( void * ) ps_dec -> pu1_recon_mb_map , 0 , num_mbs ) ; } if ( ps_dec -> pu2_slice_num_map ) { memset ( ( void * ) ps_dec -> pu2_slice_num_map , 0 , ( num_mbs * sizeof ( UWORD16 ) ) ) ; } } ps_dec -> ps_parse_cur_slice = & ( ps_dec -> ps_dec_slice_buf [ 0 ] ) ; ps_dec -> ps_decode_cur_slice = & ( ps_dec -> ps_dec_slice_buf [ 0 ] ) ; ps_dec -> ps_computebs_cur_slice = & ( ps_dec -> ps_dec_slice_buf [ 0 ] ) ; ps_dec -> s_high_profile . u1_scaling_present = 0 ; ps_dec -> s_high_profile . u1_transform8x8_present = 0 ; if ( 1 == ps_dec -> u4_share_disp_buf ) { UWORD32 i ; for ( i = 0 ; i < MAX_DISP_BUFS_NEW ; i ++ ) { if ( 0 == ps_dec -> u4_disp_buf_to_be_freed [ i ] ) continue ; ih264_buf_mgr_release ( ( buf_mgr_t * ) ps_dec -> pv_pic_buf_mgr , i , BUF_MGR_IO ) ; ps_dec -> u4_disp_buf_to_be_freed [ i ] = 0 ; ps_dec -> u4_disp_buf_mapping [ i ] = 0 ; } } if ( ! ( u1_field_pic_flag && 0 != ps_dec -> u1_top_bottom_decoded ) ) { pic_buffer_t * ps_cur_pic ; WORD32 cur_pic_buf_id , cur_mv_buf_id ; col_mv_buf_t * ps_col_mv ; while ( 1 ) { ps_cur_pic = ( pic_buffer_t * ) ih264_buf_mgr_get_next_free ( ( buf_mgr_t * ) ps_dec -> pv_pic_buf_mgr , & cur_pic_buf_id ) ; if ( ps_cur_pic == NULL ) { ps_dec -> i4_error_code = ERROR_UNAVAIL_PICBUF_T ; return ERROR_UNAVAIL_PICBUF_T ; } if ( 0 == ps_dec -> u4_disp_buf_mapping [ cur_pic_buf_id ] ) { break ; } } ps_col_mv = ( col_mv_buf_t * ) ih264_buf_mgr_get_next_free ( ( buf_mgr_t * ) ps_dec -> pv_mv_buf_mgr , & cur_mv_buf_id ) ; if ( ps_col_mv == NULL ) { ps_dec -> i4_error_code = ERROR_UNAVAIL_MVBUF_T ; return ERROR_UNAVAIL_MVBUF_T ; } ps_dec -> ps_cur_pic = ps_cur_pic ; ps_dec -> u1_pic_buf_id = cur_pic_buf_id ; ps_cur_pic -> u4_ts = ps_dec -> u4_ts ; ps_cur_pic -> u1_mv_buf_id = cur_mv_buf_id ; ps_dec -> au1_pic_buf_id_mv_buf_id_map [ cur_pic_buf_id ] = cur_mv_buf_id ; ps_cur_pic -> pu1_col_zero_flag = ( UWORD8 * ) ps_col_mv -> pv_col_zero_flag ; ps_cur_pic -> ps_mv = ( mv_pred_t * ) ps_col_mv -> pv_mv ; ps_dec -> au1_pic_buf_ref_flag [ cur_pic_buf_id ] = 0 ;","if ( ps_dec -> u1_init_dec_flag && ps_dec -> s_prev_seq_params . u1_eoseq_pending ) { WORD32 j ; for ( j = 0 ; j < MAX_DISP_BUFS_NEW ; j ++ ) { ih264_buf_mgr_release ( ( buf_mgr_t * ) ps_dec -> pv_pic_buf_mgr , j , BUF_MGR_REF ) ; ih264_buf_mgr_release ( ( buf_mgr_t * ) ps_dec -> pv_mv_buf_mgr , ps_dec -> au1_pic_buf_id_mv_buf_id_map [ j ] , BUF_MGR_REF ) ; ih264_buf_mgr_release ( ( buf_mgr_t * ) ps_dec -> pv_pic_buf_mgr , j , BUF_MGR_IO ) ; } ps_dec -> u1_second_field = 0 ; ps_dec -> i4_cur_display_seq = 0 ; ps_dec -> s_prev_seq_params . u1_eoseq_pending = 0 ; } ret = ih264d_init_pic ( ps_dec , u2_frame_num , i4_poc , ps_pps ) ; if ( ret != OK ) return ret ; ps_dec -> pv_parse_tu_coeff_data = ps_dec -> pv_pic_tu_coeff_data ; ps_dec -> pv_proc_tu_coeff_data = ps_dec -> pv_pic_tu_coeff_data ; ps_dec -> ps_nmb_info = ps_dec -> ps_frm_mb_info ; if ( ps_dec -> u1_separate_parse ) { UWORD16 pic_wd ; UWORD16 pic_ht ; UWORD32 num_mbs ; pic_wd = ps_dec -> u2_pic_wd ; pic_ht = ps_dec -> u2_pic_ht ; num_mbs = ( pic_wd * pic_ht ) >> 8 ; if ( ps_dec -> pu1_dec_mb_map ) { memset ( ( void * ) ps_dec -> pu1_dec_mb_map , 0 , num_mbs ) ; } if ( ps_dec -> pu1_recon_mb_map ) { memset ( ( void * ) ps_dec -> pu1_recon_mb_map , 0 , num_mbs ) ; } if ( ps_dec -> pu2_slice_num_map ) { memset ( ( void * ) ps_dec -> pu2_slice_num_map , 0 , ( num_mbs * sizeof ( UWORD16 ) ) ) ; } } ps_dec -> ps_parse_cur_slice = & ( ps_dec -> ps_dec_slice_buf [ 0 ] ) ; ps_dec -> ps_decode_cur_slice = & ( ps_dec -> ps_dec_slice_buf [ 0 ] ) ; ps_dec -> ps_computebs_cur_slice = & ( ps_dec -> ps_dec_slice_buf [ 0 ] ) ; ps_dec -> u2_cur_slice_num = 0 ; ps_dec -> s_high_profile . u1_scaling_present = 0 ; ps_dec -> s_high_profile . u1_transform8x8_present = 0 ; if ( 1 == ps_dec -> u4_share_disp_buf ) { UWORD32 i ; for ( i = 0 ; i < MAX_DISP_BUFS_NEW ; i ++ ) { if ( 0 == ps_dec -> u4_disp_buf_to_be_freed [ i ] ) continue ; ih264_buf_mgr_release ( ( buf_mgr_t * ) ps_dec -> pv_pic_buf_mgr , i , BUF_MGR_IO ) ; ps_dec -> u4_disp_buf_to_be_freed [ i ] = 0 ; ps_dec -> u4_disp_buf_mapping [ i ] = 0 ; } } if ( ! ( u1_field_pic_flag && 0 != ps_dec -> u1_top_bottom_decoded ) ) { pic_buffer_t * ps_cur_pic ; WORD32 cur_pic_buf_id , cur_mv_buf_id ; col_mv_buf_t * ps_col_mv ; while ( 1 ) { ps_cur_pic = ( pic_buffer_t * ) ih264_buf_mgr_get_next_free ( ( buf_mgr_t * ) ps_dec -> pv_pic_buf_mgr , & cur_pic_buf_id ) ; if ( ps_cur_pic == NULL ) { ps_dec -> i4_error_code = ERROR_UNAVAIL_PICBUF_T ; return ERROR_UNAVAIL_PICBUF_T ; } if ( 0 == ps_dec -> u4_disp_buf_mapping [ cur_pic_buf_id ] ) { break ; } } ps_col_mv = ( col_mv_buf_t * ) ih264_buf_mgr_get_next_free ( ( buf_mgr_t * ) ps_dec -> pv_mv_buf_mgr , & cur_mv_buf_id ) ; if ( ps_col_mv == NULL ) { ps_dec -> i4_error_code = ERROR_UNAVAIL_MVBUF_T ; return ERROR_UNAVAIL_MVBUF_T ; } ps_dec -> ps_cur_pic = ps_cur_pic ; ps_dec -> u1_pic_buf_id = cur_pic_buf_id ; ps_cur_pic -> u4_ts = ps_dec -> u4_ts ; ps_cur_pic -> u1_mv_buf_id = cur_mv_buf_id ; ps_dec -> au1_pic_buf_id_mv_buf_id_map [ cur_pic_buf_id ] = cur_mv_buf_id ; ps_cur_pic -> pu1_col_zero_flag = ( UWORD8 * ) ps_col_mv -> pv_col_zero_flag ; ps_cur_pic -> ps_mv = ( mv_pred_t * ) ps_col_mv -> pv_mv ; ps_dec -> au1_pic_buf_ref_flag [ cur_pic_buf_id ] = 0 ;" 453,"CWE-119 int vp8_refining_search_sadx4 ( MACROBLOCK * x , BLOCK * b , BLOCKD * d , int_mv * ref_mv , int error_per_bit , int search_range , vp8_variance_fn_ptr_t * fn_ptr , int * mvcost [ 2 ] , int_mv * center_mv ) { MV neighbors [ 4 ] = { { - 1 , 0 } , { 0 , - 1 } , { 0 , 1 } , { 1 , 0 } } ; int i , j ; short this_row_offset , this_col_offset ; int what_stride = b -> src_stride ; int pre_stride = x -> e_mbd . pre . y_stride ; unsigned char * base_pre = x -> e_mbd . pre . y_buffer ; int in_what_stride = pre_stride ; unsigned char * what = ( * ( b -> base_src ) + b -> src ) ; unsigned char * best_address = ( unsigned char * ) ( base_pre + d -> offset + ( ref_mv -> as_mv . row * pre_stride ) + ref_mv -> as_mv . col ) ; unsigned char * check_here ; int_mv this_mv ; unsigned int bestsad ; unsigned int thissad ; int * mvsadcost [ 2 ] ; int_mv fcenter_mv ; mvsadcost [ 0 ] = x -> mvsadcost [ 0 ] ; mvsadcost [ 1 ] = x -> mvsadcost [ 1 ] ; fcenter_mv . as_mv . row = center_mv -> as_mv . row >> 3 ; fcenter_mv . as_mv . col = center_mv -> as_mv . col >> 3 ; bestsad = fn_ptr -> sdf ( what , what_stride , best_address , in_what_stride , UINT_MAX ) for ( i = 0 ; i < search_range ; i ++ ) { int best_site = - 1 ; int all_in = 1 ; all_in &= ( ( ref_mv -> as_mv . row - 1 ) > x -> mv_row_min ) ; all_in &= ( ( ref_mv -> as_mv . row + 1 ) < x -> mv_row_max ) ; all_in &= ( ( ref_mv -> as_mv . col - 1 ) > x -> mv_col_min ) ; all_in &= ( ( ref_mv -> as_mv . col + 1 ) < x -> mv_col_max ) ; if ( all_in ) { unsigned int sad_array [ 4 ] ; const unsigned char * block_offset [ 4 ] ; block_offset [ 0 ] = best_address - in_what_stride ; block_offset [ 1 ] = best_address - 1 ; block_offset [ 2 ] = best_address + 1 ; block_offset [ 3 ] = best_address + in_what_stride ; fn_ptr -> sdx4df ( what , what_stride , block_offset , in_what_stride , sad_array ) ; for ( j = 0 ; j < 4 ; j ++ ) { if ( sad_array [ j ] < bestsad ) { this_mv . as_mv . row = ref_mv -> as_mv . row + neighbors [ j ] . row ; this_mv . as_mv . col = ref_mv -> as_mv . col + neighbors [ j ] . col ; sad_array [ j ] += mvsad_err_cost ( & this_mv , & fcenter_mv , mvsadcost , error_per_bit ) ; if ( sad_array [ j ] < bestsad ) { bestsad = sad_array [ j ] ; best_site = j ; } } } } else { for ( j = 0 ; j < 4 ; j ++ ) { this_row_offset = ref_mv -> as_mv . row + neighbors [ j ] . row ; this_col_offset = ref_mv -> as_mv . col + neighbors [ j ] . col ; if ( ( this_col_offset > x -> mv_col_min ) && ( this_col_offset < x -> mv_col_max ) && ( this_row_offset > x -> mv_row_min ) && ( this_row_offset < x -> mv_row_max ) ) { check_here = ( neighbors [ j ] . row ) * in_what_stride + neighbors [ j ] . col + best_address ; thissad = fn_ptr -> sdf ( what , what_stride , check_here , in_what_stride , bestsad ) ; if ( thissad < bestsad ) { this_mv . as_mv . row = this_row_offset ; this_mv . as_mv . col = this_col_offset ; thissad += mvsad_err_cost ( & this_mv , & fcenter_mv , mvsadcost , error_per_bit ) ; if ( thissad < bestsad ) { bestsad = thissad ; best_site = j ; } } } } } if ( best_site == - 1 ) break ; else { ref_mv -> as_mv . row += neighbors [ best_site ] . row ; ref_mv -> as_mv . col += neighbors [ best_site ] . col ; best_address += ( neighbors [ best_site ] . row ) * in_what_stride + neighbors [ best_site ] . col ; } } this_mv . as_mv . row = ref_mv -> as_mv . row * 8 ; this_mv . as_mv . col = ref_mv -> as_mv . col * 8 ; return fn_ptr -> vf ( what , what_stride , best_address , in_what_stride , & thissad ) }","int vp8_refining_search_sadx4 ( MACROBLOCK * x , BLOCK * b , BLOCKD * d , int_mv * ref_mv , int error_per_bit , int search_range , vp8_variance_fn_ptr_t * fn_ptr , int * mvcost [ 2 ] , int_mv * center_mv ) { MV neighbors [ 4 ] = { { - 1 , 0 } , { 0 , - 1 } , { 0 , 1 } , { 1 , 0 } } ; int i , j ; short this_row_offset , this_col_offset ; int what_stride = b -> src_stride ; int pre_stride = x -> e_mbd . pre . y_stride ; unsigned char * base_pre = x -> e_mbd . pre . y_buffer ; int in_what_stride = pre_stride ; unsigned char * what = ( * ( b -> base_src ) + b -> src ) ; unsigned char * best_address = ( unsigned char * ) ( base_pre + d -> offset + ( ref_mv -> as_mv . row * pre_stride ) + ref_mv -> as_mv . col ) ; unsigned char * check_here ; int_mv this_mv ; unsigned int bestsad ; unsigned int thissad ; int * mvsadcost [ 2 ] ; int_mv fcenter_mv ; mvsadcost [ 0 ] = x -> mvsadcost [ 0 ] ; mvsadcost [ 1 ] = x -> mvsadcost [ 1 ] ; fcenter_mv . as_mv . row = center_mv -> as_mv . row >> 3 ; fcenter_mv . as_mv . col = center_mv -> as_mv . col >> 3 ; bestsad = fn_ptr -> sdf ( what , what_stride , best_address , in_what_stride ) mvsad_err_cost ( ref_mv , & fcenter_mv , mvsadcost , error_per_bit ) ; for ( i = 0 ; i < search_range ; i ++ ) { int best_site = - 1 ; int all_in = 1 ; all_in &= ( ( ref_mv -> as_mv . row - 1 ) > x -> mv_row_min ) ; all_in &= ( ( ref_mv -> as_mv . row + 1 ) < x -> mv_row_max ) ; all_in &= ( ( ref_mv -> as_mv . col - 1 ) > x -> mv_col_min ) ; all_in &= ( ( ref_mv -> as_mv . col + 1 ) < x -> mv_col_max ) ; if ( all_in ) { unsigned int sad_array [ 4 ] ; const unsigned char * block_offset [ 4 ] ; block_offset [ 0 ] = best_address - in_what_stride ; block_offset [ 1 ] = best_address - 1 ; block_offset [ 2 ] = best_address + 1 ; block_offset [ 3 ] = best_address + in_what_stride ; fn_ptr -> sdx4df ( what , what_stride , block_offset , in_what_stride , sad_array ) ; for ( j = 0 ; j < 4 ; j ++ ) { if ( sad_array [ j ] < bestsad ) { this_mv . as_mv . row = ref_mv -> as_mv . row + neighbors [ j ] . row ; this_mv . as_mv . col = ref_mv -> as_mv . col + neighbors [ j ] . col ; sad_array [ j ] += mvsad_err_cost ( & this_mv , & fcenter_mv , mvsadcost , error_per_bit ) ; if ( sad_array [ j ] < bestsad ) { bestsad = sad_array [ j ] ; best_site = j ; } } } } else { for ( j = 0 ; j < 4 ; j ++ ) { this_row_offset = ref_mv -> as_mv . row + neighbors [ j ] . row ; this_col_offset = ref_mv -> as_mv . col + neighbors [ j ] . col ; if ( ( this_col_offset > x -> mv_col_min ) && ( this_col_offset < x -> mv_col_max ) && ( this_row_offset > x -> mv_row_min ) && ( this_row_offset < x -> mv_row_max ) ) { check_here = ( neighbors [ j ] . row ) * in_what_stride + neighbors [ j ] . col + best_address ; thissad = fn_ptr -> sdf ( what , what_stride , check_here , in_what_stride ) ; if ( thissad < bestsad ) { this_mv . as_mv . row = this_row_offset ; this_mv . as_mv . col = this_col_offset ; thissad += mvsad_err_cost ( & this_mv , & fcenter_mv , mvsadcost , error_per_bit ) ; if ( thissad < bestsad ) { bestsad = thissad ; best_site = j ; } } } } } if ( best_site == - 1 ) break ; else { ref_mv -> as_mv . row += neighbors [ best_site ] . row ; ref_mv -> as_mv . col += neighbors [ best_site ] . col ; best_address += ( neighbors [ best_site ] . row ) * in_what_stride + neighbors [ best_site ] . col ; } } this_mv . as_mv . row = ref_mv -> as_mv . row * 8 ; this_mv . as_mv . col = ref_mv -> as_mv . col * 8 ; return fn_ptr -> vf ( what , what_stride , best_address , in_what_stride , & thissad ) mv_err_cost ( & this_mv , center_mv , mvcost , x -> errorperbit ) ; }" 454,"CWE-532 port ++ ; } _pam_log ( LOG_DEBUG , ""sending server address to getaddrinfo as: %s "" , server_name ) ; if ( ( rv = getaddrinfo ( server_name , ( port == NULL ) ? ""49"" : port , & hints , & servers ) ) == 0 ) { for ( server = servers ; server != NULL && tac_srv_no < TAC_PLUS_MAXSERVERS ; server = server -> ai_next ) { set_tac_srv_addr ( tac_srv_no , server ) ; set_tac_srv_key ( tac_srv_no , current_secret ) ; tac_srv_no ++ ; } _pam_log ( LOG_DEBUG , ""%s: server index %d "" , __FUNCTION__ , tac_srv_no ) ; freeaddrinfo ( servers ) ; } else { _pam_log ( LOG_ERR , ""skip invalid server: %s (getaddrinfo: %s)"" , server_name , gai_strerror ( rv ) ) ; } } else { _pam_log ( LOG_ERR , ""maximum number of servers (%d) exceeded, skipping"" , TAC_PLUS_MAXSERVERS ) ; } } else if ( ! strncmp ( * argv , ""secret="" , 7 ) ) { current_secret = * argv + 7 ; if ( tac_srv_no == 0 ) { _pam_log ( LOG_ERR , ""secret set but no servers configured yet"" ) ; } else { set_tac_srv_key ( tac_srv_no - 1 , current_secret ) ; } } else if ( ! strncmp ( * argv , ""timeout="" , 8 ) ) { # ifdef HAVE_STRTOL tac_timeout = strtol ( * argv + 8 , NULL , 10 ) ; # else tac_timeout = atoi ( * argv + 8 ) ; # endif if ( tac_timeout == LONG_MAX ) { _pam_log ( LOG_ERR , ""timeout parameter cannot be parsed as integer: %s"" , * argv ) ; tac_timeout = 0 ; } else { tac_readtimeout_enable = 1 ; } } else { _pam_log ( LOG_WARNING , ""unrecognized option: %s"" , * argv ) ; } } if ( ctrl & PAM_TAC_DEBUG ) { unsigned long n ; _pam_log ( LOG_DEBUG , ""%d servers defined"" , tac_srv_no ) ; for ( n = 0 ; n < tac_srv_no ; n ++ ) { _pam_log ( LOG_DEBUG , ""server[%lu] { addr=%s, key=\'%s\' }"" , n , tac_ntop ( tac_srv [ n ] . addr -> ai_addr ) , tac_srv [ n ] . key ) ; } _pam_log ( LOG_DEBUG , ""tac_service=\'%s\'"" , tac_service ) ; _pam_log ( LOG_DEBUG , ""tac_protocol=\'%s\'"" , tac_protocol ) ; _pam_log ( LOG_DEBUG , ""tac_prompt=\'%s\'"" , tac_prompt ) ; _pam_log ( LOG_DEBUG , ""tac_login=\'%s\'"" , tac_login ) ; } return ctrl ; }","port ++ ; } _pam_log ( LOG_DEBUG , ""sending server address to getaddrinfo as: %s "" , server_name ) ; if ( ( rv = getaddrinfo ( server_name , ( port == NULL ) ? ""49"" : port , & hints , & servers ) ) == 0 ) { for ( server = servers ; server != NULL && tac_srv_no < TAC_PLUS_MAXSERVERS ; server = server -> ai_next ) { set_tac_srv_addr ( tac_srv_no , server ) ; set_tac_srv_key ( tac_srv_no , current_secret ) ; tac_srv_no ++ ; } _pam_log ( LOG_DEBUG , ""%s: server index %d "" , __FUNCTION__ , tac_srv_no ) ; freeaddrinfo ( servers ) ; } else { _pam_log ( LOG_ERR , ""skip invalid server: %s (getaddrinfo: %s)"" , server_name , gai_strerror ( rv ) ) ; } } else { _pam_log ( LOG_ERR , ""maximum number of servers (%d) exceeded, skipping"" , TAC_PLUS_MAXSERVERS ) ; } } else if ( ! strncmp ( * argv , ""secret="" , 7 ) ) { current_secret = * argv + 7 ; if ( tac_srv_no == 0 ) { _pam_log ( LOG_ERR , ""secret set but no servers configured yet"" ) ; } else { set_tac_srv_key ( tac_srv_no - 1 , current_secret ) ; } } else if ( ! strncmp ( * argv , ""timeout="" , 8 ) ) { # ifdef HAVE_STRTOL tac_timeout = strtol ( * argv + 8 , NULL , 10 ) ; # else tac_timeout = atoi ( * argv + 8 ) ; # endif if ( tac_timeout == LONG_MAX ) { _pam_log ( LOG_ERR , ""timeout parameter cannot be parsed as integer: %s"" , * argv ) ; tac_timeout = 0 ; } else { tac_readtimeout_enable = 1 ; } } else { _pam_log ( LOG_WARNING , ""unrecognized option: %s"" , * argv ) ; } } if ( ctrl & PAM_TAC_DEBUG ) { unsigned long n ; _pam_log ( LOG_DEBUG , ""%d servers defined"" , tac_srv_no ) ; for ( n = 0 ; n < tac_srv_no ; n ++ ) { _pam_log ( LOG_DEBUG , ""server[%lu] { addr=%s, key=\'********\' }"" , n , tac_ntop ( tac_srv [ n ] . addr -> ai_addr ) ) ; } _pam_log ( LOG_DEBUG , ""tac_service=\'%s\'"" , tac_service ) ; _pam_log ( LOG_DEBUG , ""tac_protocol=\'%s\'"" , tac_protocol ) ; _pam_log ( LOG_DEBUG , ""tac_prompt=\'%s\'"" , tac_prompt ) ; _pam_log ( LOG_DEBUG , ""tac_login=\'%s\'"" , tac_login ) ; } return ctrl ; }" 455,"CWE-119 int vp8_denoiser_filter_sse2 ( YV12_BUFFER_CONFIG * mc_running_avg , YV12_BUFFER_CONFIG * running_avg , MACROBLOCK * signal , unsigned int motion_magnitude , int y_offset , int uv_offset ) { unsigned char * sig = signal -> thismb ; int sig_stride = 16 ; unsigned char * mc_running_avg_y = mc_running_avg -> y_buffer + y_offset ; int mc_avg_y_stride = mc_running_avg -> y_stride ; unsigned char * running_avg_y = running_avg -> y_buffer + y_offset ; int avg_y_stride = running_avg -> y_stride ; int r ; __m128i acc_diff = _mm_setzero_si128 ( ) ; const __m128i k_0 = _mm_setzero_si128 ( ) ; const __m128i k_4 = _mm_set1_epi8 ( 4 ) ; const __m128i k_8 = _mm_set1_epi8 ( 8 ) ; const __m128i k_16 = _mm_set1_epi8 ( 16 ) ; const __m128i l3 = _mm_set1_epi8 ( ( motion_magnitude <= MOTION_MAGNITUDE_THRESHOLD ) ? 7 : 6 ) ; const __m128i l32 = _mm_set1_epi8 ( 2 ) ; const __m128i l21 = _mm_set1_epi8 ( 1 ) ; for ( r = 0 ; r < 16 ; ++ r ) { const __m128i v_sig = _mm_loadu_si128 ( ( __m128i * ) ( & sig [ 0 ] ) ) ; const __m128i v_mc_running_avg_y = _mm_loadu_si128 ( ( __m128i * ) ( & mc_running_avg_y [ 0 ] ) ) ; __m128i v_running_avg_y ; const __m128i pdiff = _mm_subs_epu8 ( v_mc_running_avg_y , v_sig ) ; const __m128i ndiff = _mm_subs_epu8 ( v_sig , v_mc_running_avg_y ) ; const __m128i diff_sign = _mm_cmpeq_epi8 ( pdiff , k_0 ) ; const __m128i clamped_absdiff = _mm_min_epu8 ( _mm_or_si128 ( pdiff , ndiff ) , k_16 ) ; const __m128i mask2 = _mm_cmpgt_epi8 ( k_16 , clamped_absdiff ) ; const __m128i mask1 = _mm_cmpgt_epi8 ( k_8 , clamped_absdiff ) ; const __m128i mask0 = _mm_cmpgt_epi8 ( k_4 , clamped_absdiff ) ; __m128i adj2 = _mm_and_si128 ( mask2 , l32 ) ; const __m128i adj1 = _mm_and_si128 ( mask1 , l21 ) ; const __m128i adj0 = _mm_and_si128 ( mask0 , clamped_absdiff ) ; __m128i adj , padj , nadj ; adj2 = _mm_add_epi8 ( adj2 , adj1 ) ; adj = _mm_sub_epi8 ( l3 , adj2 ) ; adj = _mm_andnot_si128 ( mask0 , adj ) ; adj = _mm_or_si128 ( adj , adj0 ) ; padj = _mm_andnot_si128 ( diff_sign , adj ) ; nadj = _mm_and_si128 ( diff_sign , adj ) ; v_running_avg_y = _mm_adds_epu8 ( v_sig , padj ) ; v_running_avg_y = _mm_subs_epu8 ( v_running_avg_y , nadj ) ; _mm_storeu_si128 ( ( __m128i * ) running_avg_y , v_running_avg_y ) ; acc_diff = _mm_adds_epi8 ( acc_diff , padj ) ; acc_diff = _mm_subs_epi8 ( acc_diff , nadj ) ; sig += sig_stride ; mc_running_avg_y += mc_avg_y_stride ; running_avg_y += avg_y_stride ; } { union sum_union s ; int sum_diff = 0 ; s . v = acc_diff ; sum_diff = s . e [ 0 ] + s . e [ 1 ] + s . e [ 2 ] + s . e [ 3 ] + s . e [ 4 ] + s . e [ 5 ] + s . e [ 6 ] + s . e [ 7 ] + s . e [ 8 ] + s . e [ 9 ] + s . e [ 10 ] + s . e [ 11 ] + s . e [ 12 ] + s . e [ 13 ] + s . e [ 14 ] + s . e [ 15 ] ; if ( abs ( sum_diff ) > SUM_DIFF_THRESHOLD ) { return COPY_BLOCK ; } } vp8_copy_mem16x16 ( running_avg -> y_buffer + y_offset , avg_y_stride , signal -> thismb , sig_stride ) ; return FILTER_BLOCK ; }","int vp8_denoiser_filter_sse2 ( unsigned char * mc_running_avg_y , int mc_avg_y_stride , unsigned char * running_avg_y , int avg_y_stride , unsigned char * sig , int sig_stride , unsigned int motion_magnitude , int increase_denoising ) { unsigned char * running_avg_y_start = running_avg_y ; unsigned char * sig_start = sig ; unsigned int sum_diff_thresh ; int r ; int shift_inc = ( increase_denoising && motion_magnitude <= MOTION_MAGNITUDE_THRESHOLD ) ? 1 : 0 ; __m128i acc_diff = _mm_setzero_si128 ( ) ; const __m128i k_0 = _mm_setzero_si128 ( ) ; const __m128i k_4 = _mm_set1_epi8 ( 4 + shift_inc ) ; const __m128i k_8 = _mm_set1_epi8 ( 8 ) ; const __m128i k_16 = _mm_set1_epi8 ( 16 ) ; const __m128i l3 = _mm_set1_epi8 ( ( motion_magnitude <= MOTION_MAGNITUDE_THRESHOLD ) ? 7 + shift_inc : 6 ) ; const __m128i l32 = _mm_set1_epi8 ( 2 ) ; const __m128i l21 = _mm_set1_epi8 ( 1 ) ; for ( r = 0 ; r < 16 ; ++ r ) { const __m128i v_sig = _mm_loadu_si128 ( ( __m128i * ) ( & sig [ 0 ] ) ) ; const __m128i v_mc_running_avg_y = _mm_loadu_si128 ( ( __m128i * ) ( & mc_running_avg_y [ 0 ] ) ) ; __m128i v_running_avg_y ; const __m128i pdiff = _mm_subs_epu8 ( v_mc_running_avg_y , v_sig ) ; const __m128i ndiff = _mm_subs_epu8 ( v_sig , v_mc_running_avg_y ) ; const __m128i diff_sign = _mm_cmpeq_epi8 ( pdiff , k_0 ) ; const __m128i clamped_absdiff = _mm_min_epu8 ( _mm_or_si128 ( pdiff , ndiff ) , k_16 ) ; const __m128i mask2 = _mm_cmpgt_epi8 ( k_16 , clamped_absdiff ) ; const __m128i mask1 = _mm_cmpgt_epi8 ( k_8 , clamped_absdiff ) ; const __m128i mask0 = _mm_cmpgt_epi8 ( k_4 , clamped_absdiff ) ; __m128i adj2 = _mm_and_si128 ( mask2 , l32 ) ; const __m128i adj1 = _mm_and_si128 ( mask1 , l21 ) ; const __m128i adj0 = _mm_and_si128 ( mask0 , clamped_absdiff ) ; __m128i adj , padj , nadj ; adj2 = _mm_add_epi8 ( adj2 , adj1 ) ; adj = _mm_sub_epi8 ( l3 , adj2 ) ; adj = _mm_andnot_si128 ( mask0 , adj ) ; adj = _mm_or_si128 ( adj , adj0 ) ; padj = _mm_andnot_si128 ( diff_sign , adj ) ; nadj = _mm_and_si128 ( diff_sign , adj ) ; v_running_avg_y = _mm_adds_epu8 ( v_sig , padj ) ; v_running_avg_y = _mm_subs_epu8 ( v_running_avg_y , nadj ) ; _mm_storeu_si128 ( ( __m128i * ) running_avg_y , v_running_avg_y ) ; acc_diff = _mm_adds_epi8 ( acc_diff , padj ) ; acc_diff = _mm_subs_epi8 ( acc_diff , nadj ) ; sig += sig_stride ; mc_running_avg_y += mc_avg_y_stride ; running_avg_y += avg_y_stride ; } { unsigned int abs_sum_diff = abs_sum_diff_16x1 ( acc_diff ) ; sum_diff_thresh = SUM_DIFF_THRESHOLD ; if ( increase_denoising ) sum_diff_thresh = SUM_DIFF_THRESHOLD_HIGH ; if ( abs_sum_diff > sum_diff_thresh ) { int delta = ( ( abs_sum_diff - sum_diff_thresh ) >> 8 ) + 1 ; if ( delta < 4 ) { const __m128i k_delta = _mm_set1_epi8 ( delta ) ; sig -= sig_stride * 16 ; mc_running_avg_y -= mc_avg_y_stride * 16 ; running_avg_y -= avg_y_stride * 16 ; for ( r = 0 ; r < 16 ; ++ r ) { __m128i v_running_avg_y = _mm_loadu_si128 ( ( __m128i * ) ( & running_avg_y [ 0 ] ) ) ; const __m128i v_sig = _mm_loadu_si128 ( ( __m128i * ) ( & sig [ 0 ] ) ) ; const __m128i v_mc_running_avg_y = _mm_loadu_si128 ( ( __m128i * ) ( & mc_running_avg_y [ 0 ] ) ) ; const __m128i pdiff = _mm_subs_epu8 ( v_mc_running_avg_y , v_sig ) ; const __m128i ndiff = _mm_subs_epu8 ( v_sig , v_mc_running_avg_y ) ; const __m128i diff_sign = _mm_cmpeq_epi8 ( pdiff , k_0 ) ; const __m128i adj = _mm_min_epu8 ( _mm_or_si128 ( pdiff , ndiff ) , k_delta ) ; __m128i padj , nadj ; padj = _mm_andnot_si128 ( diff_sign , adj ) ; nadj = _mm_and_si128 ( diff_sign , adj ) ; v_running_avg_y = _mm_subs_epu8 ( v_running_avg_y , padj ) ; v_running_avg_y = _mm_adds_epu8 ( v_running_avg_y , nadj ) ; _mm_storeu_si128 ( ( __m128i * ) running_avg_y , v_running_avg_y ) ; acc_diff = _mm_subs_epi8 ( acc_diff , padj ) ; acc_diff = _mm_adds_epi8 ( acc_diff , nadj ) ; sig += sig_stride ; mc_running_avg_y += mc_avg_y_stride ; running_avg_y += avg_y_stride ; } abs_sum_diff = abs_sum_diff_16x1 ( acc_diff ) ; if ( abs_sum_diff > sum_diff_thresh ) { return COPY_BLOCK ; } } else { return COPY_BLOCK ; } } } vp8_copy_mem16x16 ( running_avg_y_start , avg_y_stride , sig_start , sig_stride ) ; return FILTER_BLOCK ; }" 456,"CWE-190 static size_t optsize ( lua_State * L , char opt , const char * * fmt ) { switch ( opt ) { case 'B' : case 'b' : return sizeof ( char ) ; case 'H' : case 'h' : return sizeof ( short ) ; case 'L' : case 'l' : return sizeof ( long ) ; case 'T' : return sizeof ( size_t ) ; case 'f' : return sizeof ( float ) ; case 'd' : return sizeof ( double ) ; case 'x' : return 1 ; case 'c' : return getnum ( L , fmt , 1 ) ; case 'i' : case 'I' : { int sz = getnum ( L , fmt , sizeof ( int ) ) ; if ( sz > MAXINTSIZE ) luaL_error ( L , ""integral size %d is larger than limit of %d"" , sz , MAXINTSIZE ) ; return sz ; } default : return 0 ; } }","static size_t optsize ( lua_State * L , char opt , const char * * fmt ) { switch ( opt ) { case 'B' : case 'b' : return sizeof ( char ) ; case 'H' : case 'h' : return sizeof ( short ) ; case 'L' : case 'l' : return sizeof ( long ) ; case 'T' : return sizeof ( size_t ) ; case 'f' : return sizeof ( float ) ; case 'd' : return sizeof ( double ) ; case 'x' : return 1 ; case 'c' : return getnum ( fmt , 1 ) ; case 'i' : case 'I' : { int sz = getnum ( fmt , sizeof ( int ) ) ; if ( sz > MAXINTSIZE ) luaL_error ( L , ""integral size %d is larger than limit of %d"" , sz , MAXINTSIZE ) ; return sz ; } default : return 0 ; } }" 457,"CWE-362 static void userfaultfd_event_wait_completion ( struct userfaultfd_ctx * ctx , struct userfaultfd_wait_queue * ewq ) { struct userfaultfd_ctx * release_new_ctx ; if ( WARN_ON_ONCE ( current -> flags & PF_EXITING ) ) goto out ; ewq -> ctx = ctx ; init_waitqueue_entry ( & ewq -> wq , current ) ; release_new_ctx = NULL ; spin_lock ( & ctx -> event_wqh . lock ) ; __add_wait_queue ( & ctx -> event_wqh , & ewq -> wq ) ; for ( ; ; ) { set_current_state ( TASK_KILLABLE ) ; if ( ewq -> msg . event == 0 ) break ; if ( READ_ONCE ( ctx -> released ) || fatal_signal_pending ( current ) ) { __remove_wait_queue ( & ctx -> event_wqh , & ewq -> wq ) ; if ( ewq -> msg . event == UFFD_EVENT_FORK ) { struct userfaultfd_ctx * new ; new = ( struct userfaultfd_ctx * ) ( unsigned long ) ewq -> msg . arg . reserved . reserved1 ; release_new_ctx = new ; } break ; } spin_unlock ( & ctx -> event_wqh . lock ) ; wake_up_poll ( & ctx -> fd_wqh , EPOLLIN ) ; schedule ( ) ; spin_lock ( & ctx -> event_wqh . lock ) ; } __set_current_state ( TASK_RUNNING ) ; spin_unlock ( & ctx -> event_wqh . lock ) ; if ( release_new_ctx ) { struct vm_area_struct * vma ; struct mm_struct * mm = release_new_ctx -> mm ; down_write ( & mm -> mmap_sem ) ; for ( vma = mm -> mmap ; vma ; vma = vma -> vm_next ) if ( vma -> vm_userfaultfd_ctx . ctx == release_new_ctx ) { vma -> vm_userfaultfd_ctx = NULL_VM_UFFD_CTX ; vma -> vm_flags &= ~ ( VM_UFFD_WP | VM_UFFD_MISSING ) ; } up_write ( & mm -> mmap_sem ) ; userfaultfd_ctx_put ( release_new_ctx ) ; } out : WRITE_ONCE ( ctx -> mmap_changing , false ) ; userfaultfd_ctx_put ( ctx ) ; }","static void userfaultfd_event_wait_completion ( struct userfaultfd_ctx * ctx , struct userfaultfd_wait_queue * ewq ) { struct userfaultfd_ctx * release_new_ctx ; if ( WARN_ON_ONCE ( current -> flags & PF_EXITING ) ) goto out ; ewq -> ctx = ctx ; init_waitqueue_entry ( & ewq -> wq , current ) ; release_new_ctx = NULL ; spin_lock ( & ctx -> event_wqh . lock ) ; __add_wait_queue ( & ctx -> event_wqh , & ewq -> wq ) ; for ( ; ; ) { set_current_state ( TASK_KILLABLE ) ; if ( ewq -> msg . event == 0 ) break ; if ( READ_ONCE ( ctx -> released ) || fatal_signal_pending ( current ) ) { __remove_wait_queue ( & ctx -> event_wqh , & ewq -> wq ) ; if ( ewq -> msg . event == UFFD_EVENT_FORK ) { struct userfaultfd_ctx * new ; new = ( struct userfaultfd_ctx * ) ( unsigned long ) ewq -> msg . arg . reserved . reserved1 ; release_new_ctx = new ; } break ; } spin_unlock ( & ctx -> event_wqh . lock ) ; wake_up_poll ( & ctx -> fd_wqh , EPOLLIN ) ; schedule ( ) ; spin_lock ( & ctx -> event_wqh . lock ) ; } __set_current_state ( TASK_RUNNING ) ; spin_unlock ( & ctx -> event_wqh . lock ) ; if ( release_new_ctx ) { struct vm_area_struct * vma ; struct mm_struct * mm = release_new_ctx -> mm ; down_write ( & mm -> mmap_sem ) ; VM_WARN_ON ( ! mmget_still_valid ( mm ) ) ; for ( vma = mm -> mmap ; vma ; vma = vma -> vm_next ) if ( vma -> vm_userfaultfd_ctx . ctx == release_new_ctx ) { vma -> vm_userfaultfd_ctx = NULL_VM_UFFD_CTX ; vma -> vm_flags &= ~ ( VM_UFFD_WP | VM_UFFD_MISSING ) ; } up_write ( & mm -> mmap_sem ) ; userfaultfd_ctx_put ( release_new_ctx ) ; } out : WRITE_ONCE ( ctx -> mmap_changing , false ) ; userfaultfd_ctx_put ( ctx ) ; }" 458,"CWE-399 static int dissect_spoolss_uint16uni ( tvbuff_t * tvb , int offset , packet_info * pinfo _U_ , proto_tree * tree , guint8 * drep _U_ , char * * data , int hf_name ) { gint len , remaining ; char * text ; if ( offset % 2 ) offset += 2 - ( offset % 2 ) ; remaining = tvb_captured_length_remaining ( tvb , offset ) ; if ( remaining <= 0 ) { if ( data ) * data = g_strdup ( """" ) ; return offset ; } text = tvb_get_string_enc ( NULL , tvb , offset , remaining , ENC_UTF_16 | ENC_LITTLE_ENDIAN ) ; len = ( int ) strlen ( text ) ; proto_tree_add_string ( tree , hf_name , tvb , offset , len * 2 , text ) ; if ( data ) * data = text ; else g_free ( text ) ; return offset + ( len + 1 ) * 2 ; }","static int dissect_spoolss_uint16uni ( tvbuff_t * tvb , int offset , packet_info * pinfo _U_ , proto_tree * tree , guint8 * drep _U_ , char * * data , int hf_name ) { gint len , remaining ; char * text ; if ( offset % 2 ) offset += 2 - ( offset % 2 ) ; remaining = tvb_reported_length_remaining ( tvb , offset ) ; if ( remaining <= 0 ) { if ( data ) * data = g_strdup ( """" ) ; return offset ; } text = tvb_get_string_enc ( NULL , tvb , offset , remaining , ENC_UTF_16 | ENC_LITTLE_ENDIAN ) ; len = ( int ) strlen ( text ) ; proto_tree_add_string ( tree , hf_name , tvb , offset , len * 2 , text ) ; if ( data ) * data = text ; else g_free ( text ) ; return offset + ( len + 1 ) * 2 ; }" 459,"CWE-119 int iscsi_decode_text_input ( u8 phase , u8 sender , char * textbuf , u32 length , struct iscsi_conn * conn ) { struct iscsi_param_list * param_list = conn -> param_list ; char * tmpbuf , * start = NULL , * end = NULL ; tmpbuf = kzalloc ( length + 1 , GFP_KERNEL ) ; if ( ! tmpbuf ) { pr_err ( ""Unable to allocate memory for tmpbuf.\\n"" ) ; return - 1 ; } memcpy ( tmpbuf , textbuf , length ) ; tmpbuf [ length ] = '\\0' ; start = tmpbuf ; end = ( start + length ) ; while ( start < end ) { char * key , * value ; struct iscsi_param * param ; if ( iscsi_extract_key_value ( start , & key , & value ) < 0 ) { kfree ( tmpbuf ) ; return - 1 ; } pr_debug ( ""Got key: %s=%s\\n"" , key , value ) ; if ( phase & PHASE_SECURITY ) { if ( iscsi_check_for_auth_key ( key ) > 0 ) { char * tmpptr = key + strlen ( key ) ; * tmpptr = '=' ; kfree ( tmpbuf ) ; return 1 ; } } param = iscsi_check_key ( key , phase , sender , param_list ) ; if ( ! param ) { if ( iscsi_add_notunderstood_response ( key , value , param_list ) < 0 ) { kfree ( tmpbuf ) ; return - 1 ; } start += strlen ( key ) + strlen ( value ) + 2 ; continue ; } if ( iscsi_check_value ( param , value ) < 0 ) { kfree ( tmpbuf ) ; return - 1 ; } start += strlen ( key ) + strlen ( value ) + 2 ; if ( IS_PSTATE_PROPOSER ( param ) ) { if ( iscsi_check_proposer_state ( param , value ) < 0 ) { kfree ( tmpbuf ) ; return - 1 ; } SET_PSTATE_RESPONSE_GOT ( param ) ; } else { if ( iscsi_check_acceptor_state ( param , value , conn ) < 0 ) { kfree ( tmpbuf ) ; return - 1 ; } SET_PSTATE_ACCEPTOR ( param ) ; } } kfree ( tmpbuf ) ; return 0 ; }","int iscsi_decode_text_input ( u8 phase , u8 sender , char * textbuf , u32 length , struct iscsi_conn * conn ) { struct iscsi_param_list * param_list = conn -> param_list ; char * tmpbuf , * start = NULL , * end = NULL ; tmpbuf = kzalloc ( length + 1 , GFP_KERNEL ) ; if ( ! tmpbuf ) { pr_err ( ""Unable to allocate memory for tmpbuf.\\n"" ) ; return - 1 ; } memcpy ( tmpbuf , textbuf , length ) ; tmpbuf [ length ] = '\\0' ; start = tmpbuf ; end = ( start + length ) ; while ( start < end ) { char * key , * value ; struct iscsi_param * param ; if ( iscsi_extract_key_value ( start , & key , & value ) < 0 ) { kfree ( tmpbuf ) ; return - 1 ; } pr_debug ( ""Got key: %s=%s\\n"" , key , value ) ; if ( phase & PHASE_SECURITY ) { if ( iscsi_check_for_auth_key ( key ) > 0 ) { kfree ( tmpbuf ) ; return 1 ; } } param = iscsi_check_key ( key , phase , sender , param_list ) ; if ( ! param ) { if ( iscsi_add_notunderstood_response ( key , value , param_list ) < 0 ) { kfree ( tmpbuf ) ; return - 1 ; } start += strlen ( key ) + strlen ( value ) + 2 ; continue ; } if ( iscsi_check_value ( param , value ) < 0 ) { kfree ( tmpbuf ) ; return - 1 ; } start += strlen ( key ) + strlen ( value ) + 2 ; if ( IS_PSTATE_PROPOSER ( param ) ) { if ( iscsi_check_proposer_state ( param , value ) < 0 ) { kfree ( tmpbuf ) ; return - 1 ; } SET_PSTATE_RESPONSE_GOT ( param ) ; } else { if ( iscsi_check_acceptor_state ( param , value , conn ) < 0 ) { kfree ( tmpbuf ) ; return - 1 ; } SET_PSTATE_ACCEPTOR ( param ) ; } } kfree ( tmpbuf ) ; return 0 ; }" 460,CWE-190 TfLiteIntArray * TfLiteIntArrayCreate ( int size ) { TfLiteIntArray * ret = ( TfLiteIntArray * ) malloc ( TfLiteIntArrayGetSizeInBytes ( size ) ) ; ret -> size = size ; return ret ; },TfLiteIntArray * TfLiteIntArrayCreate ( int size ) { int alloc_size = TfLiteIntArrayGetSizeInBytes ( size ) ; if ( alloc_size <= 0 ) return NULL ; TfLiteIntArray * ret = ( TfLiteIntArray * ) malloc ( alloc_size ) ; if ( ! ret ) return ret ; ret -> size = size ; return ret ; } 461,"CWE-264 static const char * lua_authz_parse ( cmd_parms * cmd , const char * require_line , const void * * parsed_require_line ) { const char * provider_name ; lua_authz_provider_spec * spec ; apr_pool_userdata_get ( ( void * * ) & provider_name , AUTHZ_PROVIDER_NAME_NOTE , cmd -> temp_pool ) ; ap_assert ( provider_name != NULL ) ; spec = apr_hash_get ( lua_authz_providers , provider_name , APR_HASH_KEY_STRING ) ; ap_assert ( spec != NULL ) ; if ( require_line && * require_line ) { const char * arg ; spec -> args = apr_array_make ( cmd -> pool , 2 , sizeof ( const char * ) ) ; while ( ( arg = ap_getword_conf ( cmd -> pool , & require_line ) ) && * arg ) { APR_ARRAY_PUSH ( spec -> args , const char * ) = arg ; } } * parsed_require_line = spec ; return NULL ; }","static const char * lua_authz_parse ( cmd_parms * cmd , const char * require_line , const void * * parsed_require_line ) { const char * provider_name ; lua_authz_provider_spec * spec ; lua_authz_provider_func * func = apr_pcalloc ( cmd -> pool , sizeof ( lua_authz_provider_func ) ) ; apr_pool_userdata_get ( ( void * * ) & provider_name , AUTHZ_PROVIDER_NAME_NOTE , cmd -> temp_pool ) ; ap_assert ( provider_name != NULL ) ; spec = apr_hash_get ( lua_authz_providers , provider_name , APR_HASH_KEY_STRING ) ; ap_assert ( spec != NULL ) ; func -> spec = spec ; if ( require_line && * require_line ) { const char * arg ; func -> args = apr_array_make ( cmd -> pool , 2 , sizeof ( const char * ) ) ; while ( ( arg = ap_getword_conf ( cmd -> pool , & require_line ) ) && * arg ) { APR_ARRAY_PUSH ( func -> args , const char * ) = arg ; } } * parsed_require_line = func ; return NULL ; }" 462,"CWE-404 int nfsd_mountpoint ( struct dentry * dentry , struct svc_export * exp ) { if ( d_mountpoint ( dentry ) ) return 1 ; if ( nfsd4_is_junction ( dentry ) ) return 1 ; if ( ! ( exp -> ex_flags & NFSEXP_V4ROOT ) ) return 0 ; return d_inode ( dentry ) != NULL ; }","int nfsd_mountpoint ( struct dentry * dentry , struct svc_export * exp ) { if ( ! d_inode ( dentry ) ) return 0 ; if ( exp -> ex_flags & NFSEXP_V4ROOT ) return 1 ; if ( nfsd4_is_junction ( dentry ) ) return 1 ; if ( d_mountpoint ( dentry ) ) return 2 ; return 0 ; }" 463,"CWE-20 bool_t ksz8851IrqHandler ( NetInterface * interface ) { bool_t flag ; size_t n ; uint16_t ier ; uint16_t isr ; flag = FALSE ; ier = ksz8851ReadReg ( interface , KSZ8851_REG_IER ) ; ksz8851WriteReg ( interface , KSZ8851_REG_IER , 0 ) ; isr = ksz8851ReadReg ( interface , KSZ8851_REG_ISR ) ; if ( ( isr & ISR_LCIS ) != 0 ) { ier &= ~ IER_LCIE ; interface -> nicEvent = TRUE ; flag |= osSetEventFromIsr ( & netEvent ) ; } if ( ( isr & ISR_TXIS ) != 0 ) { ksz8851WriteReg ( interface , KSZ8851_REG_ISR , ISR_TXIS ) ; n = ksz8851ReadReg ( interface , KSZ8851_REG_TXMIR ) & TXMIR_TXMA_MASK ; if ( n >= ( ETH_MAX_FRAME_SIZE + 8 ) ) { flag |= osSetEventFromIsr ( & interface -> nicTxEvent ) ; } } if ( ( isr & ISR_RXIS ) != 0 ) { ier &= ~ IER_RXIE ; interface -> nicEvent = TRUE ; flag |= osSetEventFromIsr ( & netEvent ) ; } ksz8851WriteReg ( interface , KSZ8851_REG_IER , ier ) ; return flag ; }","bool_t ksz8851IrqHandler ( NetInterface * interface ) { bool_t flag ; size_t n ; uint16_t ier ; uint16_t isr ; flag = FALSE ; ier = ksz8851ReadReg ( interface , KSZ8851_IER ) ; ksz8851WriteReg ( interface , KSZ8851_IER , 0 ) ; isr = ksz8851ReadReg ( interface , KSZ8851_ISR ) ; if ( ( isr & KSZ8851_ISR_LCIS ) != 0 ) { ier &= ~ KSZ8851_IER_LCIE ; interface -> nicEvent = TRUE ; flag |= osSetEventFromIsr ( & netEvent ) ; } if ( ( isr & KSZ8851_ISR_TXIS ) != 0 ) { ksz8851WriteReg ( interface , KSZ8851_ISR , KSZ8851_ISR_TXIS ) ; n = ksz8851ReadReg ( interface , KSZ8851_TXMIR ) & KSZ8851_TXMIR_TXMA ; if ( n >= ( ETH_MAX_FRAME_SIZE + 8 ) ) { flag |= osSetEventFromIsr ( & interface -> nicTxEvent ) ; } } if ( ( isr & KSZ8851_ISR_RXIS ) != 0 ) { ier &= ~ KSZ8851_IER_RXIE ; interface -> nicEvent = TRUE ; flag |= osSetEventFromIsr ( & netEvent ) ; } ksz8851WriteReg ( interface , KSZ8851_IER , ier ) ; return flag ; }" 464,"CWE-20 static int caif_stream_recvmsg ( struct kiocb * iocb , struct socket * sock , struct msghdr * msg , size_t size , int flags ) { struct sock * sk = sock -> sk ; int copied = 0 ; int target ; int err = 0 ; long timeo ; err = - EOPNOTSUPP ; if ( flags & MSG_OOB ) goto out ; msg -> msg_namelen = 0 ; err = - EAGAIN ; if ( sk -> sk_state == CAIF_CONNECTING ) goto out ; caif_read_lock ( sk ) ; target = sock_rcvlowat ( sk , flags & MSG_WAITALL , size ) ; timeo = sock_rcvtimeo ( sk , flags & MSG_DONTWAIT ) ; do { int chunk ; struct sk_buff * skb ; lock_sock ( sk ) ; skb = skb_dequeue ( & sk -> sk_receive_queue ) ; caif_check_flow_release ( sk ) ; if ( skb == NULL ) { if ( copied >= target ) goto unlock ; err = sock_error ( sk ) ; if ( err ) goto unlock ; err = - ECONNRESET ; if ( sk -> sk_shutdown & RCV_SHUTDOWN ) goto unlock ; err = - EPIPE ; if ( sk -> sk_state != CAIF_CONNECTED ) goto unlock ; if ( sock_flag ( sk , SOCK_DEAD ) ) goto unlock ; release_sock ( sk ) ; err = - EAGAIN ; if ( ! timeo ) break ; caif_read_unlock ( sk ) ; timeo = caif_stream_data_wait ( sk , timeo ) ; if ( signal_pending ( current ) ) { err = sock_intr_errno ( timeo ) ; goto out ; } caif_read_lock ( sk ) ; continue ; unlock : release_sock ( sk ) ; break ; } release_sock ( sk ) ; chunk = min_t ( unsigned int , skb -> len , size ) ; if ( memcpy_toiovec ( msg -> msg_iov , skb -> data , chunk ) ) { skb_queue_head ( & sk -> sk_receive_queue , skb ) ; if ( copied == 0 ) copied = - EFAULT ; break ; }","static int caif_stream_recvmsg ( struct kiocb * iocb , struct socket * sock , struct msghdr * msg , size_t size , int flags ) { struct sock * sk = sock -> sk ; int copied = 0 ; int target ; int err = 0 ; long timeo ; err = - EOPNOTSUPP ; if ( flags & MSG_OOB ) goto out ; err = - EAGAIN ; if ( sk -> sk_state == CAIF_CONNECTING ) goto out ; caif_read_lock ( sk ) ; target = sock_rcvlowat ( sk , flags & MSG_WAITALL , size ) ; timeo = sock_rcvtimeo ( sk , flags & MSG_DONTWAIT ) ; do { int chunk ; struct sk_buff * skb ; lock_sock ( sk ) ; skb = skb_dequeue ( & sk -> sk_receive_queue ) ; caif_check_flow_release ( sk ) ; if ( skb == NULL ) { if ( copied >= target ) goto unlock ; err = sock_error ( sk ) ; if ( err ) goto unlock ; err = - ECONNRESET ; if ( sk -> sk_shutdown & RCV_SHUTDOWN ) goto unlock ; err = - EPIPE ; if ( sk -> sk_state != CAIF_CONNECTED ) goto unlock ; if ( sock_flag ( sk , SOCK_DEAD ) ) goto unlock ; release_sock ( sk ) ; err = - EAGAIN ; if ( ! timeo ) break ; caif_read_unlock ( sk ) ; timeo = caif_stream_data_wait ( sk , timeo ) ; if ( signal_pending ( current ) ) { err = sock_intr_errno ( timeo ) ; goto out ; } caif_read_lock ( sk ) ; continue ; unlock : release_sock ( sk ) ; break ; } release_sock ( sk ) ; chunk = min_t ( unsigned int , skb -> len , size ) ; if ( memcpy_toiovec ( msg -> msg_iov , skb -> data , chunk ) ) { skb_queue_head ( & sk -> sk_receive_queue , skb ) ; if ( copied == 0 ) copied = - EFAULT ; break ; }" 465,"CWE-20 up_read ( & ctx . cred -> request_key_auth -> sem ) ; if ( ! key ) goto error ; key_ref = make_key_ref ( key , 1 ) ; break ; default : key_ref = ERR_PTR ( - EINVAL ) ; if ( id < 1 ) goto error ; key = key_lookup ( id ) ; if ( IS_ERR ( key ) ) { key_ref = ERR_CAST ( key ) ; goto error ; } key_ref = make_key_ref ( key , 0 ) ; ctx . index_key . type = key -> type ; ctx . index_key . description = key -> description ; ctx . index_key . desc_len = strlen ( key -> description ) ; ctx . match_data . raw_data = key ; kdebug ( ""check possessed"" ) ; skey_ref = search_process_keyrings ( & ctx ) ; kdebug ( ""possessed=%p"" , skey_ref ) ; if ( ! IS_ERR ( skey_ref ) ) { key_put ( key ) ; key_ref = skey_ref ; } break ; } if ( lflags & KEY_LOOKUP_FOR_UNLINK ) { ret = 0 ; goto error ; } if ( ! ( lflags & KEY_LOOKUP_PARTIAL ) ) { ret = wait_for_key_construction ( key , true ) ; switch ( ret ) { case - ERESTARTSYS : goto invalid_key ; default : if ( perm ) goto invalid_key ; case 0 : break ; } } else if ( perm ) { ret = key_validate ( key ) ; if ( ret < 0 ) goto invalid_key ; } ret = - EIO ; if ( ! ( lflags & KEY_LOOKUP_PARTIAL ) && ! test_bit ( KEY_FLAG_INSTANTIATED , & key -> flags ) ) goto invalid_key ; ret = key_task_permission ( key_ref , ctx . cred , perm ) ; if ( ret < 0 ) goto invalid_key ; key -> last_used_at = current_kernel_time ( ) . tv_sec ; error : put_cred ( ctx . cred ) ; return key_ref ; invalid_key : key_ref_put ( key_ref ) ; key_ref = ERR_PTR ( ret ) ; goto error ; reget_creds : put_cred ( ctx . cred ) ; goto try_again ; }","up_read ( & ctx . cred -> request_key_auth -> sem ) ; if ( ! key ) goto error ; key_ref = make_key_ref ( key , 1 ) ; break ; default : key_ref = ERR_PTR ( - EINVAL ) ; if ( id < 1 ) goto error ; key = key_lookup ( id ) ; if ( IS_ERR ( key ) ) { key_ref = ERR_CAST ( key ) ; goto error ; } key_ref = make_key_ref ( key , 0 ) ; ctx . index_key . type = key -> type ; ctx . index_key . description = key -> description ; ctx . index_key . desc_len = strlen ( key -> description ) ; ctx . match_data . raw_data = key ; kdebug ( ""check possessed"" ) ; skey_ref = search_process_keyrings ( & ctx ) ; kdebug ( ""possessed=%p"" , skey_ref ) ; if ( ! IS_ERR ( skey_ref ) ) { key_put ( key ) ; key_ref = skey_ref ; } break ; } if ( lflags & KEY_LOOKUP_FOR_UNLINK ) { ret = 0 ; goto error ; } if ( ! ( lflags & KEY_LOOKUP_PARTIAL ) ) { ret = wait_for_key_construction ( key , true ) ; switch ( ret ) { case - ERESTARTSYS : goto invalid_key ; default : if ( perm ) goto invalid_key ; case 0 : break ; } } else if ( perm ) { ret = key_validate ( key ) ; if ( ret < 0 ) goto invalid_key ; } ret = - EIO ; if ( ! ( lflags & KEY_LOOKUP_PARTIAL ) && key_read_state ( key ) == KEY_IS_UNINSTANTIATED ) goto invalid_key ; ret = key_task_permission ( key_ref , ctx . cred , perm ) ; if ( ret < 0 ) goto invalid_key ; key -> last_used_at = current_kernel_time ( ) . tv_sec ; error : put_cred ( ctx . cred ) ; return key_ref ; invalid_key : key_ref_put ( key_ref ) ; key_ref = ERR_PTR ( ret ) ; goto error ; reget_creds : put_cred ( ctx . cred ) ; goto try_again ; }" 466,"CWE-264 int xt_check_entry_offsets ( const void * base , unsigned int target_offset , unsigned int next_offset ) { const struct xt_entry_target * t ; const char * e = base ; if ( target_offset + sizeof ( * t ) > next_offset ) return - EINVAL ; t = ( void * ) ( e + target_offset ) ; if ( t -> u . target_size < sizeof ( * t ) ) return - EINVAL ; if ( target_offset + t -> u . target_size > next_offset ) return - EINVAL ; if ( strcmp ( t -> u . user . name , XT_STANDARD_TARGET ) == 0 && target_offset + sizeof ( struct xt_standard_target ) != next_offset ) return - EINVAL ; return 0 ; }","int xt_check_entry_offsets ( const void * base , const char * elems , unsigned int target_offset , unsigned int next_offset ) { long size_of_base_struct = elems - ( const char * ) base ; const struct xt_entry_target * t ; const char * e = base ; if ( target_offset < size_of_base_struct ) return - EINVAL ; if ( target_offset + sizeof ( * t ) > next_offset ) return - EINVAL ; t = ( void * ) ( e + target_offset ) ; if ( t -> u . target_size < sizeof ( * t ) ) return - EINVAL ; if ( target_offset + t -> u . target_size > next_offset ) return - EINVAL ; if ( strcmp ( t -> u . user . name , XT_STANDARD_TARGET ) == 0 && target_offset + sizeof ( struct xt_standard_target ) != next_offset ) return - EINVAL ; return 0 ; }" 467,"NVD-CWE-Other static ssize_t aio_setup_vectored_rw ( struct kiocb * kiocb , int rw , char __user * buf , unsigned long * nr_segs , size_t * len , struct iovec * * iovec , bool compat ) { ssize_t ret ; * nr_segs = * len ; # ifdef CONFIG_COMPAT if ( compat ) ret = compat_rw_copy_check_uvector ( rw , ( struct compat_iovec __user * ) buf , * nr_segs , UIO_FASTIOV , * iovec , iovec ) ; else # endif ret = rw_copy_check_uvector ( rw , ( struct iovec __user * ) buf , * nr_segs , UIO_FASTIOV , * iovec , iovec ) ; if ( ret < 0 ) return ret ; * len = ret ; return 0 ; }","static ssize_t aio_setup_vectored_rw ( struct kiocb * kiocb , int rw , char __user * buf , unsigned long * nr_segs , size_t * len , struct iovec * * iovec , bool compat , struct iov_iter * iter ) { ssize_t ret ; * nr_segs = * len ; # ifdef CONFIG_COMPAT if ( compat ) ret = compat_rw_copy_check_uvector ( rw , ( struct compat_iovec __user * ) buf , * nr_segs , UIO_FASTIOV , * iovec , iovec ) ; else # endif ret = rw_copy_check_uvector ( rw , ( struct iovec __user * ) buf , * nr_segs , UIO_FASTIOV , * iovec , iovec ) ; if ( ret < 0 ) return ret ; * len = ret ; iov_iter_init ( iter , rw , * iovec , * nr_segs , * len ) ; return 0 ; }" 468,"CWE-190 void * checked_xcalloc ( size_t num , size_t size ) { alloc_limit_assert ( ""checked_xcalloc"" , ( num * size ) ) ; return xcalloc ( num , size ) ; }","void * checked_xcalloc ( size_t num , size_t size ) { size_t res ; if ( check_mul_overflow ( num , size , & res ) ) abort ( ) ; alloc_limit_assert ( ""checked_xcalloc"" , ( res ) ) ; return xcalloc ( num , size ) ; }" 469,"CWE-119 static void output_stats ( FIRSTPASS_STATS * stats , struct vpx_codec_pkt_list * pktlist ) { struct vpx_codec_cx_pkt pkt ; pkt . kind = VPX_CODEC_STATS_PKT ; pkt . data . twopass_stats . buf = stats ; pkt . data . twopass_stats . sz = sizeof ( FIRSTPASS_STATS ) ; vpx_codec_pkt_list_add ( pktlist , & pkt ) ; # if OUTPUT_FPF { FILE * fpfile ; fpfile = fopen ( ""firstpass.stt"" , ""a"" ) ; fprintf ( fpfile , ""%12.0f %12.0f %12.0f %12.0f %12.0f %12.4f %12.4f"" ""%12.4f %12.4f %12.4f %12.4f %12.4f %12.4f %12.4f"" ""%12.0f %12.0f %12.4f %12.0f %12.0f %12.4f\\n"" , stats -> frame , stats -> intra_error , stats -> coded_error , stats -> sr_coded_error , stats -> ssim_weighted_pred_err , stats -> pcnt_inter , stats -> pcnt_motion , stats -> pcnt_second_ref , stats -> pcnt_neutral , stats -> MVr , stats -> mvr_abs , stats -> MVc , stats -> mvc_abs , stats -> MVrv , stats -> MVcv , stats -> mv_in_out_count , stats -> new_mv_count , stats -> count , stats -> duration ) ; fclose ( fpfile ) ; } # endif }","static void output_stats ( FIRSTPASS_STATS * stats , struct vpx_codec_pkt_list * pktlist ) { struct vpx_codec_cx_pkt pkt ; pkt . kind = VPX_CODEC_STATS_PKT ; pkt . data . twopass_stats . buf = stats ; pkt . data . twopass_stats . sz = sizeof ( FIRSTPASS_STATS ) ; vpx_codec_pkt_list_add ( pktlist , & pkt ) ; # if OUTPUT_FPF { FILE * fpfile ; fpfile = fopen ( ""firstpass.stt"" , ""a"" ) ; fprintf ( fpfile , ""%12.0lf %12.4lf %12.0lf %12.0lf %12.0lf %12.4lf %12.4lf"" ""%12.4lf %12.4lf %12.4lf %12.4lf %12.4lf %12.4lf %12.4lf %12.4lf"" ""%12.4lf %12.4lf %12.0lf %12.0lf %12.0lf %12.4lf\\n"" , stats -> frame , stats -> weight , stats -> intra_error , stats -> coded_error , stats -> sr_coded_error , stats -> pcnt_inter , stats -> pcnt_motion , stats -> pcnt_second_ref , stats -> pcnt_neutral , stats -> intra_skip_pct , stats -> inactive_zone_rows , stats -> inactive_zone_cols , stats -> MVr , stats -> mvr_abs , stats -> MVc , stats -> mvc_abs , stats -> MVrv , stats -> MVcv , stats -> mv_in_out_count , stats -> new_mv_count , stats -> count , stats -> duration ) ; fclose ( fpfile ) ; } # endif }" 470,"CWE-284 static void update_logging ( ) { bool should_log = module_started && ( logging_enabled_via_api || stack_config -> get_btsnoop_turned_on ( ) ) ; if ( should_log == is_logging ) return ; is_logging = should_log ; if ( should_log ) { btsnoop_net_open ( ) ; const char * log_path = stack_config -> get_btsnoop_log_path ( ) ; if ( stack_config -> get_btsnoop_should_save_last ( ) ) { char last_log_path [ PATH_MAX ] ; snprintf ( last_log_path , PATH_MAX , ""%s.%llu"" , log_path , btsnoop_timestamp ( ) ) ; if ( ! rename ( log_path , last_log_path ) && errno != ENOENT ) LOG_ERROR ( ""%s unable to rename \'%s\' to \'%s\': %s"" , __func__ , log_path , last_log_path , strerror ( errno ) ) ; } logfile_fd = open ( log_path , O_WRONLY | O_CREAT | O_TRUNC , S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP | S_IROTH ) ; if ( logfile_fd == INVALID_FD ) { LOG_ERROR ( ""%s unable to open \'%s\': %s"" , __func__ , log_path , strerror ( errno ) ) ; is_logging = false ; return ; } write ( logfile_fd , ""btsnoop\\0\\0\\0\\0\\1\\0\\0\\x3\\xea"" , 16 ) ; } else { if ( logfile_fd != INVALID_FD ) close ( logfile_fd ) ; logfile_fd = INVALID_FD ; btsnoop_net_close ( ) ; } }","static void update_logging ( ) { bool should_log = module_started && ( logging_enabled_via_api || stack_config -> get_btsnoop_turned_on ( ) ) ; if ( should_log == is_logging ) return ; is_logging = should_log ; if ( should_log ) { btsnoop_net_open ( ) ; const char * log_path = stack_config -> get_btsnoop_log_path ( ) ; if ( stack_config -> get_btsnoop_should_save_last ( ) ) { char last_log_path [ PATH_MAX ] ; snprintf ( last_log_path , PATH_MAX , ""%s.%llu"" , log_path , btsnoop_timestamp ( ) ) ; if ( ! rename ( log_path , last_log_path ) && errno != ENOENT ) LOG_ERROR ( ""%s unable to rename \'%s\' to \'%s\': %s"" , __func__ , log_path , last_log_path , strerror ( errno ) ) ; } logfile_fd = TEMP_FAILURE_RETRY ( open ( log_path , O_WRONLY | O_CREAT | O_TRUNC , S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP | S_IROTH ) ) ; if ( logfile_fd == INVALID_FD ) { LOG_ERROR ( ""%s unable to open \'%s\': %s"" , __func__ , log_path , strerror ( errno ) ) ; is_logging = false ; return ; } TEMP_FAILURE_RETRY ( write ( logfile_fd , ""btsnoop\\0\\0\\0\\0\\1\\0\\0\\x3\\xea"" , 16 ) ) ; } else { if ( logfile_fd != INVALID_FD ) close ( logfile_fd ) ; logfile_fd = INVALID_FD ; btsnoop_net_close ( ) ; } }" 471,"CWE-552 static ssize_t _hostsock_send ( oe_fd_t * sock_ , const void * buf , size_t count , int flags ) { ssize_t ret = - 1 ; sock_t * sock = _cast_sock ( sock_ ) ; oe_errno = 0 ; if ( ! sock || ( count && ! buf ) ) OE_RAISE_ERRNO ( OE_EINVAL ) ; if ( oe_syscall_send_ocall ( & ret , sock -> host_fd , buf , count , flags ) != OE_OK ) OE_RAISE_ERRNO ( OE_EINVAL ) ; done : return ret ; }","static ssize_t _hostsock_send ( oe_fd_t * sock_ , const void * buf , size_t count , int flags ) { ssize_t ret = - 1 ; sock_t * sock = _cast_sock ( sock_ ) ; oe_errno = 0 ; if ( ! sock || ( count && ! buf ) || count > OE_SSIZE_MAX ) OE_RAISE_ERRNO ( OE_EINVAL ) ; if ( oe_syscall_send_ocall ( & ret , sock -> host_fd , buf , count , flags ) != OE_OK ) OE_RAISE_ERRNO ( OE_EINVAL ) ; if ( ret > ( ssize_t ) count ) { ret = - 1 ; OE_RAISE_ERRNO ( OE_EINVAL ) ; } done : return ret ; }" 472,"CWE-399 default : return EMULATION_FAILED ; } ctxt -> d &= ~ ( u64 ) GroupMask ; ctxt -> d |= opcode . flags ; } if ( ctxt -> d == 0 ) return EMULATION_FAILED ; ctxt -> execute = opcode . u . execute ; if ( unlikely ( ctxt -> ud ) && likely ( ! ( ctxt -> d & EmulateOnUD ) ) ) return EMULATION_FAILED ; if ( unlikely ( ctxt -> d & ( NotImpl | Stack | Op3264 | Sse | Mmx | Intercept | CheckPerm ) ) ) { ctxt -> check_perm = opcode . check_perm ; ctxt -> intercept = opcode . intercept ; if ( ctxt -> d & NotImpl ) return EMULATION_FAILED ; if ( mode == X86EMUL_MODE_PROT64 && ( ctxt -> d & Stack ) ) ctxt -> op_bytes = 8 ; if ( ctxt -> d & Op3264 ) { if ( mode == X86EMUL_MODE_PROT64 ) ctxt -> op_bytes = 8 ; else ctxt -> op_bytes = 4 ; } if ( ctxt -> d & Sse ) ctxt -> op_bytes = 16 ; else if ( ctxt -> d & Mmx ) ctxt -> op_bytes = 8 ; } if ( ctxt -> d & ModRM ) { rc = decode_modrm ( ctxt , & ctxt -> memop ) ; if ( ! has_seg_override ) { has_seg_override = true ; ctxt -> seg_override = ctxt -> modrm_seg ; } } else if ( ctxt -> d & MemAbs ) rc = decode_abs ( ctxt , & ctxt -> memop ) ; if ( rc != X86EMUL_CONTINUE ) goto done ; if ( ! has_seg_override ) ctxt -> seg_override = VCPU_SREG_DS ; ctxt -> memop . addr . mem . seg = ctxt -> seg_override ; rc = decode_operand ( ctxt , & ctxt -> src , ( ctxt -> d >> SrcShift ) & OpMask ) ; if ( rc != X86EMUL_CONTINUE ) goto done ; rc = decode_operand ( ctxt , & ctxt -> src2 , ( ctxt -> d >> Src2Shift ) & OpMask ) ; if ( rc != X86EMUL_CONTINUE ) goto done ; rc = decode_operand ( ctxt , & ctxt -> dst , ( ctxt -> d >> DstShift ) & OpMask ) ; done : if ( ctxt -> rip_relative ) ctxt -> memopp -> addr . mem . ea += ctxt -> _eip ; return ( rc != X86EMUL_CONTINUE ) ? EMULATION_FAILED : EMULATION_OK ; }","default : return EMULATION_FAILED ; } ctxt -> d &= ~ ( u64 ) GroupMask ; ctxt -> d |= opcode . flags ; } if ( ctxt -> d == 0 ) return EMULATION_FAILED ; ctxt -> execute = opcode . u . execute ; if ( unlikely ( ctxt -> ud ) && likely ( ! ( ctxt -> d & EmulateOnUD ) ) ) return EMULATION_FAILED ; if ( unlikely ( ctxt -> d & ( NotImpl | Stack | Op3264 | Sse | Mmx | Intercept | CheckPerm ) ) ) { ctxt -> check_perm = opcode . check_perm ; ctxt -> intercept = opcode . intercept ; if ( ctxt -> d & NotImpl ) return EMULATION_FAILED ; if ( mode == X86EMUL_MODE_PROT64 && ( ctxt -> d & Stack ) ) ctxt -> op_bytes = 8 ; if ( ctxt -> d & Op3264 ) { if ( mode == X86EMUL_MODE_PROT64 ) ctxt -> op_bytes = 8 ; else ctxt -> op_bytes = 4 ; } if ( ctxt -> d & Sse ) ctxt -> op_bytes = 16 ; else if ( ctxt -> d & Mmx ) ctxt -> op_bytes = 8 ; } if ( ctxt -> d & ModRM ) { rc = decode_modrm ( ctxt , & ctxt -> memop ) ; if ( ! has_seg_override ) { has_seg_override = true ; ctxt -> seg_override = ctxt -> modrm_seg ; } } else if ( ctxt -> d & MemAbs ) rc = decode_abs ( ctxt , & ctxt -> memop ) ; if ( rc != X86EMUL_CONTINUE ) goto done ; if ( ! has_seg_override ) ctxt -> seg_override = VCPU_SREG_DS ; ctxt -> memop . addr . mem . seg = ctxt -> seg_override ; rc = decode_operand ( ctxt , & ctxt -> src , ( ctxt -> d >> SrcShift ) & OpMask ) ; if ( rc != X86EMUL_CONTINUE ) goto done ; rc = decode_operand ( ctxt , & ctxt -> src2 , ( ctxt -> d >> Src2Shift ) & OpMask ) ; if ( rc != X86EMUL_CONTINUE ) goto done ; rc = decode_operand ( ctxt , & ctxt -> dst , ( ctxt -> d >> DstShift ) & OpMask ) ; if ( ctxt -> rip_relative ) ctxt -> memopp -> addr . mem . ea += ctxt -> _eip ; done : return ( rc != X86EMUL_CONTINUE ) ? EMULATION_FAILED : EMULATION_OK ; }" 473,"CWE-264 static void chase_port ( struct edgeport_port * port , unsigned long timeout , int flush ) { int baud_rate ; struct tty_struct * tty = tty_port_tty_get ( & port -> port -> port ) ; struct usb_serial * serial = port -> port -> serial ; wait_queue_t wait ; unsigned long flags ; if ( ! timeout ) timeout = ( HZ * EDGE_CLOSING_WAIT ) / 100 ; spin_lock_irqsave ( & port -> ep_lock , flags ) ; init_waitqueue_entry ( & wait , current ) ; add_wait_queue ( & tty -> write_wait , & wait ) ; for ( ; ; ) { set_current_state ( TASK_INTERRUPTIBLE ) ; if ( kfifo_len ( & port -> write_fifo ) == 0 || timeout == 0 || signal_pending ( current ) || serial -> disconnected ) break ; spin_unlock_irqrestore ( & port -> ep_lock , flags ) ; timeout = schedule_timeout ( timeout ) ; spin_lock_irqsave ( & port -> ep_lock , flags ) ; } set_current_state ( TASK_RUNNING ) ; remove_wait_queue ( & tty -> write_wait , & wait ) ; if ( flush ) kfifo_reset_out ( & port -> write_fifo ) ; spin_unlock_irqrestore ( & port -> ep_lock , flags ) ; tty_kref_put ( tty ) ; timeout += jiffies ; while ( ( long ) ( jiffies - timeout ) < 0 && ! signal_pending ( current ) && ! serial -> disconnected ) { if ( ! tx_active ( port ) ) break ; msleep ( 10 ) ; } if ( serial -> disconnected ) return ; baud_rate = port -> baud_rate ; if ( baud_rate == 0 ) baud_rate = 50 ; msleep ( max ( 1 , DIV_ROUND_UP ( 10000 , baud_rate ) ) ) ; }","static void chase_port ( struct edgeport_port * port , unsigned long timeout , int flush ) { int baud_rate ; struct tty_struct * tty = tty_port_tty_get ( & port -> port -> port ) ; struct usb_serial * serial = port -> port -> serial ; wait_queue_t wait ; unsigned long flags ; if ( ! tty ) return ; if ( ! timeout ) timeout = ( HZ * EDGE_CLOSING_WAIT ) / 100 ; spin_lock_irqsave ( & port -> ep_lock , flags ) ; init_waitqueue_entry ( & wait , current ) ; add_wait_queue ( & tty -> write_wait , & wait ) ; for ( ; ; ) { set_current_state ( TASK_INTERRUPTIBLE ) ; if ( kfifo_len ( & port -> write_fifo ) == 0 || timeout == 0 || signal_pending ( current ) || serial -> disconnected ) break ; spin_unlock_irqrestore ( & port -> ep_lock , flags ) ; timeout = schedule_timeout ( timeout ) ; spin_lock_irqsave ( & port -> ep_lock , flags ) ; } set_current_state ( TASK_RUNNING ) ; remove_wait_queue ( & tty -> write_wait , & wait ) ; if ( flush ) kfifo_reset_out ( & port -> write_fifo ) ; spin_unlock_irqrestore ( & port -> ep_lock , flags ) ; tty_kref_put ( tty ) ; timeout += jiffies ; while ( ( long ) ( jiffies - timeout ) < 0 && ! signal_pending ( current ) && ! serial -> disconnected ) { if ( ! tx_active ( port ) ) break ; msleep ( 10 ) ; } if ( serial -> disconnected ) return ; baud_rate = port -> baud_rate ; if ( baud_rate == 0 ) baud_rate = 50 ; msleep ( max ( 1 , DIV_ROUND_UP ( 10000 , baud_rate ) ) ) ; }" 474,"CWE-119 WORD32 impeg2d_get_slice_pos ( dec_state_multi_core_t * ps_dec_state_multi_core ) { WORD32 u4_bits ; WORD32 i4_row ; dec_state_t * ps_dec = ps_dec_state_multi_core -> ps_dec_state [ 0 ] ; WORD32 i4_prev_row ; stream_t s_bitstrm ; WORD32 i4_start_row ; WORD32 i4_slice_bistream_ofst ; WORD32 i ; s_bitstrm = ps_dec -> s_bit_stream ; i4_prev_row = - 1 ; ps_dec_state_multi_core -> ps_dec_state [ 0 ] -> i4_start_mb_y = 0 ; ps_dec_state_multi_core -> ps_dec_state [ 1 ] -> i4_start_mb_y = - 1 ; ps_dec_state_multi_core -> ps_dec_state [ 2 ] -> i4_start_mb_y = - 1 ; ps_dec_state_multi_core -> ps_dec_state [ 3 ] -> i4_start_mb_y = - 1 ; ps_dec_state_multi_core -> ps_dec_state [ 0 ] -> i4_end_mb_y = ps_dec -> u2_num_vert_mb ; ps_dec_state_multi_core -> ps_dec_state [ 1 ] -> i4_end_mb_y = - 1 ; ps_dec_state_multi_core -> ps_dec_state [ 2 ] -> i4_end_mb_y = - 1 ; ps_dec_state_multi_core -> ps_dec_state [ 3 ] -> i4_end_mb_y = - 1 ; if ( ps_dec -> i4_num_cores == 1 ) return 0 ; impeg2_jobq_reset ( ( jobq_t * ) ps_dec -> pv_jobq ) ; i4_start_row = - 1 ; i4_slice_bistream_ofst = 0 ; while ( 1 ) { WORD32 i4_is_slice ; if ( s_bitstrm . u4_offset + START_CODE_LEN >= s_bitstrm . u4_max_offset ) { break ; } u4_bits = impeg2d_bit_stream_nxt ( & s_bitstrm , START_CODE_LEN ) ; i4_row = u4_bits & 0xFF ; i4_is_slice = ( ( ( u4_bits >> 8 ) == 0x01 ) && ( i4_row ) && ( i4_row <= ps_dec -> u2_num_vert_mb ) ) ; if ( ! i4_is_slice ) break ; i4_row -= 1 ; if ( i4_prev_row != i4_row ) { if ( i4_start_row != - 1 ) { job_t s_job ; IV_API_CALL_STATUS_T ret ; s_job . i2_start_mb_y = i4_start_row ; s_job . i2_end_mb_y = i4_row ; s_job . i4_cmd = CMD_PROCESS ; s_job . i4_bistream_ofst = i4_slice_bistream_ofst ; ret = impeg2_jobq_queue ( ps_dec -> pv_jobq , & s_job , sizeof ( s_job ) , 1 , 0 ) ; if ( ret != IV_SUCCESS ) return ret ; } i4_slice_bistream_ofst = s_bitstrm . u4_offset >> 3 ; i4_slice_bistream_ofst -= ( size_t ) s_bitstrm . pv_bs_buf & 3 ; i4_prev_row = i4_row ; i4_start_row = i4_row ; } impeg2d_bit_stream_flush ( & s_bitstrm , START_CODE_LEN ) ; while ( impeg2d_bit_stream_nxt ( & s_bitstrm , 24 ) != START_CODE_PREFIX ) { impeg2d_bit_stream_get ( & s_bitstrm , 8 ) ; if ( s_bitstrm . u4_offset >= s_bitstrm . u4_max_offset ) { break ; } } } { job_t s_job ; IV_API_CALL_STATUS_T e_ret ; s_job . i2_start_mb_y = i4_start_row ; s_job . i2_end_mb_y = ps_dec -> u2_num_vert_mb ; s_job . i4_cmd = CMD_PROCESS ; s_job . i4_bistream_ofst = i4_slice_bistream_ofst ; e_ret = impeg2_jobq_queue ( ps_dec -> pv_jobq , & s_job , sizeof ( s_job ) , 1 , 0 ) ; if ( e_ret != IV_SUCCESS ) return e_ret ; } if ( ( NULL != ps_dec -> ps_disp_pic ) && ( ( 0 == ps_dec -> u4_share_disp_buf ) || ( IV_YUV_420P != ps_dec -> i4_chromaFormat ) ) ) { for ( i = 0 ; i < ps_dec -> u2_vertical_size ; i += 64 ) { job_t s_job ; IV_API_CALL_STATUS_T ret ; s_job . i2_start_mb_y = i ; s_job . i2_start_mb_y >>= 4 ; s_job . i2_end_mb_y = ( i + 64 ) ; s_job . i2_end_mb_y >>= 4 ; s_job . i4_cmd = CMD_FMTCONV ; s_job . i4_bistream_ofst = 0 ; ret = impeg2_jobq_queue ( ps_dec -> pv_jobq , & s_job , sizeof ( s_job ) , 1 , 0 ) ; if ( ret != IV_SUCCESS ) return ret ; } } impeg2_jobq_terminate ( ps_dec -> pv_jobq ) ; ps_dec -> i4_bytes_consumed = s_bitstrm . u4_offset >> 3 ; ps_dec -> i4_bytes_consumed -= ( ( size_t ) s_bitstrm . pv_bs_buf & 3 ) ; return 0 ; }","WORD32 impeg2d_get_slice_pos ( dec_state_multi_core_t * ps_dec_state_multi_core ) { WORD32 u4_bits ; WORD32 i4_row ; dec_state_t * ps_dec = ps_dec_state_multi_core -> ps_dec_state [ 0 ] ; WORD32 i4_prev_row ; stream_t s_bitstrm ; WORD32 i4_start_row ; WORD32 i4_slice_bistream_ofst ; WORD32 i ; s_bitstrm = ps_dec -> s_bit_stream ; i4_prev_row = - 1 ; ps_dec_state_multi_core -> ps_dec_state [ 0 ] -> i4_start_mb_y = 0 ; ps_dec_state_multi_core -> ps_dec_state [ 1 ] -> i4_start_mb_y = - 1 ; ps_dec_state_multi_core -> ps_dec_state [ 2 ] -> i4_start_mb_y = - 1 ; ps_dec_state_multi_core -> ps_dec_state [ 3 ] -> i4_start_mb_y = - 1 ; ps_dec_state_multi_core -> ps_dec_state [ 0 ] -> i4_end_mb_y = ps_dec -> u2_num_vert_mb ; ps_dec_state_multi_core -> ps_dec_state [ 1 ] -> i4_end_mb_y = - 1 ; ps_dec_state_multi_core -> ps_dec_state [ 2 ] -> i4_end_mb_y = - 1 ; ps_dec_state_multi_core -> ps_dec_state [ 3 ] -> i4_end_mb_y = - 1 ; if ( ps_dec -> i4_num_cores == 1 ) return 0 ; impeg2_jobq_reset ( ( jobq_t * ) ps_dec -> pv_jobq ) ; i4_start_row = - 1 ; i4_slice_bistream_ofst = 0 ; while ( 1 ) { WORD32 i4_is_slice ; if ( s_bitstrm . u4_offset + START_CODE_LEN >= s_bitstrm . u4_max_offset ) { break ; } u4_bits = impeg2d_bit_stream_nxt ( & s_bitstrm , START_CODE_LEN ) ; i4_row = u4_bits & 0xFF ; i4_is_slice = ( ( ( u4_bits >> 8 ) == 0x01 ) && ( i4_row ) && ( i4_row <= ps_dec -> u2_num_vert_mb ) ) ; if ( ! i4_is_slice ) break ; i4_row -= 1 ; if ( i4_prev_row < i4_row ) { if ( i4_start_row != - 1 ) { job_t s_job ; IV_API_CALL_STATUS_T ret ; s_job . i2_start_mb_y = i4_start_row ; s_job . i2_end_mb_y = i4_row ; s_job . i4_cmd = CMD_PROCESS ; s_job . i4_bistream_ofst = i4_slice_bistream_ofst ; ret = impeg2_jobq_queue ( ps_dec -> pv_jobq , & s_job , sizeof ( s_job ) , 1 , 0 ) ; if ( ret != IV_SUCCESS ) return ret ; } i4_slice_bistream_ofst = s_bitstrm . u4_offset >> 3 ; i4_slice_bistream_ofst -= ( size_t ) s_bitstrm . pv_bs_buf & 3 ; i4_prev_row = i4_row ; i4_start_row = i4_row ; } else if ( i4_prev_row > i4_row ) { android_errorWriteLog ( 0x534e4554 , ""26070014"" ) ; } impeg2d_bit_stream_flush ( & s_bitstrm , START_CODE_LEN ) ; while ( impeg2d_bit_stream_nxt ( & s_bitstrm , 24 ) != START_CODE_PREFIX ) { impeg2d_bit_stream_get ( & s_bitstrm , 8 ) ; if ( s_bitstrm . u4_offset >= s_bitstrm . u4_max_offset ) { break ; } } } { job_t s_job ; IV_API_CALL_STATUS_T e_ret ; s_job . i2_start_mb_y = i4_start_row ; s_job . i2_end_mb_y = ps_dec -> u2_num_vert_mb ; s_job . i4_cmd = CMD_PROCESS ; s_job . i4_bistream_ofst = i4_slice_bistream_ofst ; e_ret = impeg2_jobq_queue ( ps_dec -> pv_jobq , & s_job , sizeof ( s_job ) , 1 , 0 ) ; if ( e_ret != IV_SUCCESS ) return e_ret ; } if ( ( NULL != ps_dec -> ps_disp_pic ) && ( ( 0 == ps_dec -> u4_share_disp_buf ) || ( IV_YUV_420P != ps_dec -> i4_chromaFormat ) ) ) { for ( i = 0 ; i < ps_dec -> u2_vertical_size ; i += 64 ) { job_t s_job ; IV_API_CALL_STATUS_T ret ; s_job . i2_start_mb_y = i ; s_job . i2_start_mb_y >>= 4 ; s_job . i2_end_mb_y = ( i + 64 ) ; s_job . i2_end_mb_y >>= 4 ; s_job . i4_cmd = CMD_FMTCONV ; s_job . i4_bistream_ofst = 0 ; ret = impeg2_jobq_queue ( ps_dec -> pv_jobq , & s_job , sizeof ( s_job ) , 1 , 0 ) ; if ( ret != IV_SUCCESS ) return ret ; } } impeg2_jobq_terminate ( ps_dec -> pv_jobq ) ; ps_dec -> i4_bytes_consumed = s_bitstrm . u4_offset >> 3 ; ps_dec -> i4_bytes_consumed -= ( ( size_t ) s_bitstrm . pv_bs_buf & 3 ) ; return 0 ; }" 475,"CWE-200 slice_qp , cabac_init_idc , ( const UWORD8 * ) & ps_codec -> s_parse . s_cabac . au1_ctxt_models_sync ) ; if ( ret != ( IHEVCD_ERROR_T ) IHEVCD_SUCCESS ) { ps_codec -> i4_slice_error = 1 ; end_of_slice_flag = 1 ; ret = ( IHEVCD_ERROR_T ) IHEVCD_SUCCESS ; } } } } if ( 0 == ps_codec -> i4_slice_error ) { if ( ps_slice_hdr -> i1_slice_sao_luma_flag || ps_slice_hdr -> i1_slice_sao_chroma_flag ) ihevcd_parse_sao ( ps_codec ) ; } else { sao_t * ps_sao = ps_codec -> s_parse . ps_pic_sao + ps_codec -> s_parse . i4_ctb_x + ps_codec -> s_parse . i4_ctb_y * ps_sps -> i2_pic_wd_in_ctb ; ps_sao -> b3_y_type_idx = 0 ; ps_sao -> b3_cb_type_idx = 0 ; ps_sao -> b3_cr_type_idx = 0 ; } { WORD32 ctb_indx ; ctb_indx = ps_codec -> s_parse . i4_ctb_x + ps_sps -> i2_pic_wd_in_ctb * ps_codec -> s_parse . i4_ctb_y ; ps_codec -> s_parse . s_bs_ctxt . pu1_pic_qp_const_in_ctb [ ctb_indx >> 3 ] |= ( 1 << ( ctb_indx & 7 ) ) ; { UWORD16 * pu1_slice_idx = ps_codec -> s_parse . pu1_slice_idx ; pu1_slice_idx [ ctb_indx ] = ps_codec -> s_parse . i4_cur_independent_slice_idx ; } } if ( 0 == ps_codec -> i4_slice_error ) { tu_t * ps_tu = ps_codec -> s_parse . ps_tu ; WORD32 i4_tu_cnt = ps_codec -> s_parse . s_cu . i4_tu_cnt ; WORD32 i4_pic_tu_idx = ps_codec -> s_parse . i4_pic_tu_idx ; pu_t * ps_pu = ps_codec -> s_parse . ps_pu ; WORD32 i4_pic_pu_idx = ps_codec -> s_parse . i4_pic_pu_idx ; UWORD8 * pu1_tu_coeff_data = ( UWORD8 * ) ps_codec -> s_parse . pv_tu_coeff_data ; ret = ihevcd_parse_coding_quadtree ( ps_codec , ( ps_codec -> s_parse . i4_ctb_x << ps_sps -> i1_log2_ctb_size ) , ( ps_codec -> s_parse . i4_ctb_y << ps_sps -> i1_log2_ctb_size ) , ps_sps -> i1_log2_ctb_size , 0 ) ; if ( ret != ( IHEVCD_ERROR_T ) IHEVCD_SUCCESS ) { WORD32 pu_skip_wd , pu_skip_ht ; WORD32 rows_remaining , cols_remaining ; WORD32 tu_coeff_data_reset_size ; rows_remaining = ps_sps -> i2_pic_height_in_luma_samples - ( ps_codec -> s_parse . i4_ctb_y << ps_sps -> i1_log2_ctb_size ) ; pu_skip_ht = MIN ( ctb_size , rows_remaining ) ; cols_remaining = ps_sps -> i2_pic_width_in_luma_samples - ( ps_codec -> s_parse . i4_ctb_x << ps_sps -> i1_log2_ctb_size ) ; pu_skip_wd = MIN ( ctb_size , cols_remaining ) ; ps_codec -> s_parse . ps_tu = ps_tu ; ps_codec -> s_parse . s_cu . i4_tu_cnt = i4_tu_cnt ; ps_codec -> s_parse . i4_pic_tu_idx = i4_pic_tu_idx ; ps_codec -> s_parse . ps_pu = ps_pu ; ps_codec -> s_parse . i4_pic_pu_idx = i4_pic_pu_idx ; ps_tu -> b1_cb_cbf = 0 ; ps_tu -> b1_cr_cbf = 0 ; ps_tu -> b1_y_cbf = 0 ; ps_tu -> b4_pos_x = 0 ; ps_tu -> b4_pos_y = 0 ; ps_tu -> b1_transquant_bypass = 0 ; ps_tu -> b3_size = ( ps_sps -> i1_log2_ctb_size - 2 ) ; ps_tu -> b7_qp = ps_codec -> s_parse . u4_qp ; ps_tu -> b3_chroma_intra_mode_idx = INTRA_PRED_CHROMA_IDX_NONE ; ps_tu -> b6_luma_intra_mode = INTRA_PRED_NONE ; ps_tu -> b1_first_tu_in_cu = 1 ; tu_coeff_data_reset_size = ( UWORD8 * ) ps_codec -> s_parse . pv_tu_coeff_data - pu1_tu_coeff_data ; memset ( pu1_tu_coeff_data , 0 , tu_coeff_data_reset_size ) ; ps_codec -> s_parse . pv_tu_coeff_data = ( void * ) pu1_tu_coeff_data ; ps_codec -> s_parse . ps_tu ++ ; ps_codec -> s_parse . s_cu . i4_tu_cnt ++ ; ps_codec -> s_parse . i4_pic_tu_idx ++ ; ps_codec -> s_parse . s_cu . i4_pred_mode = PRED_MODE_SKIP ; ps_codec -> s_parse . s_cu . i4_part_mode = PART_2Nx2N ; ps_pu -> b2_part_idx = 0 ; ps_pu -> b4_pos_x = 0 ; ps_pu -> b4_pos_y = 0 ; ps_pu -> b4_wd = ( pu_skip_wd >> 2 ) - 1 ; ps_pu -> b4_ht = ( pu_skip_ht >> 2 ) - 1 ; ps_pu -> b1_intra_flag = 0 ; ps_pu -> b3_part_mode = ps_codec -> s_parse . s_cu . i4_part_mode ; ps_pu -> b1_merge_flag = 1 ; ps_pu -> b3_merge_idx = 0 ; ps_codec -> s_parse . ps_pu ++ ; ps_codec -> s_parse . i4_pic_pu_idx ++ ; ps_codec -> i4_slice_error = 1 ; end_of_slice_flag = 1 ; ret = ( IHEVCD_ERROR_T ) IHEVCD_SUCCESS ; } } else { tu_t * ps_tu = ps_codec -> s_parse . ps_tu ; pu_t * ps_pu = ps_codec -> s_parse . ps_pu ; WORD32 pu_skip_wd , pu_skip_ht ; WORD32 rows_remaining , cols_remaining ; rows_remaining = ps_sps -> i2_pic_height_in_luma_samples - ( ps_codec -> s_parse . i4_ctb_y << ps_sps -> i1_log2_ctb_size ) ; pu_skip_ht = MIN ( ctb_size , rows_remaining ) ; cols_remaining = ps_sps -> i2_pic_width_in_luma_samples - ( ps_codec -> s_parse . i4_ctb_x << ps_sps -> i1_log2_ctb_size ) ; pu_skip_wd = MIN ( ctb_size , cols_remaining ) ; ps_tu -> b1_cb_cbf = 0 ; ps_tu -> b1_cr_cbf = 0 ; ps_tu -> b1_y_cbf = 0 ; ps_tu -> b4_pos_x = 0 ; ps_tu -> b4_pos_y = 0 ; ps_tu -> b1_transquant_bypass = 0 ; ps_tu -> b3_size = ( ps_sps -> i1_log2_ctb_size - 2 ) ; ps_tu -> b7_qp = ps_codec -> s_parse . u4_qp ; ps_tu -> b3_chroma_intra_mode_idx = INTRA_PRED_CHROMA_IDX_NONE ; ps_tu -> b6_luma_intra_mode = INTRA_PRED_NONE ; ps_tu -> b1_first_tu_in_cu = 1 ; ps_codec -> s_parse . ps_tu ++ ; ps_codec -> s_parse . s_cu . i4_tu_cnt ++ ; ps_codec -> s_parse . i4_pic_tu_idx ++ ; ps_codec -> s_parse . s_cu . i4_pred_mode = PRED_MODE_SKIP ; ps_codec -> s_parse . s_cu . i4_part_mode = PART_2Nx2N ; ps_pu -> b2_part_idx = 0 ; ps_pu -> b4_pos_x = 0 ; ps_pu -> b4_pos_y = 0 ; ps_pu -> b4_wd = ( pu_skip_wd >> 2 ) - 1 ; ps_pu -> b4_ht = ( pu_skip_ht >> 2 ) - 1 ; ps_pu -> b1_intra_flag = 0 ; ps_pu -> b3_part_mode = ps_codec -> s_parse . s_cu . i4_part_mode ; ps_pu -> b1_merge_flag = 1 ; ps_pu -> b3_merge_idx = 0 ; ps_codec -> s_parse . ps_pu ++ ; ps_codec -> s_parse . i4_pic_pu_idx ++ ; } if ( 0 == ps_codec -> i4_slice_error ) end_of_slice_flag = ihevcd_cabac_decode_terminate ( & ps_codec -> s_parse . s_cabac , & ps_codec -> s_parse . s_bitstrm ) ; AEV_TRACE ( ""end_of_slice_flag"" , end_of_slice_flag , ps_codec -> s_parse . s_cabac . u4_range ) ; if ( ps_pps -> i1_tiles_enabled_flag || ps_pps -> i1_entropy_coding_sync_enabled_flag ) { WORD32 end_of_tile = 0 ; WORD32 end_of_tile_row = 0 ; if ( ps_pps -> i1_entropy_coding_sync_enabled_flag || ps_pps -> i1_tiles_enabled_flag ) { if ( 1 == ps_codec -> s_parse . i4_ctb_x ) { WORD32 size = sizeof ( ps_codec -> s_parse . s_cabac . au1_ctxt_models ) ; memcpy ( & ps_codec -> s_parse . s_cabac . au1_ctxt_models_sync , & ps_codec -> s_parse . s_cabac . au1_ctxt_models , size ) ; } } if ( ( ps_codec -> s_parse . i4_ctb_tile_x + 1 ) == ( ps_tile -> u2_wd ) ) { end_of_tile_row = 1 ; if ( ( ps_codec -> s_parse . i4_ctb_tile_y + 1 ) == ps_tile -> u2_ht ) end_of_tile = 1 ; } if ( ( 0 == end_of_slice_flag ) && ( ( ps_pps -> i1_tiles_enabled_flag && end_of_tile ) || ( ps_pps -> i1_entropy_coding_sync_enabled_flag && end_of_tile_row ) ) ) { WORD32 end_of_sub_stream_one_bit ; end_of_sub_stream_one_bit = ihevcd_cabac_decode_terminate ( & ps_codec -> s_parse . s_cabac , & ps_codec -> s_parse . s_bitstrm ) ; AEV_TRACE ( ""end_of_sub_stream_one_bit"" , end_of_sub_stream_one_bit , ps_codec -> s_parse . s_cabac . u4_range ) ; if ( ps_codec -> s_parse . s_bitstrm . u4_bit_ofst % 8 ) ihevcd_bits_flush_to_byte_boundary ( & ps_codec -> s_parse . s_bitstrm ) ; UNUSED ( end_of_sub_stream_one_bit ) ; } } { WORD32 ctb_indx ; ctb_addr = ps_codec -> s_parse . i4_ctb_y * num_ctb_in_row + ps_codec -> s_parse . i4_ctb_x ; ctb_indx = ++ ctb_addr ; if ( ( ps_tile -> u2_wd == ( ps_codec -> s_parse . i4_ctb_tile_x + 1 ) ) && ( ps_tile -> u2_wd != ps_sps -> i2_pic_wd_in_ctb ) ) { ctb_indx = ( ps_sps -> i2_pic_wd_in_ctb * ( ps_codec -> s_parse . i4_ctb_tile_y + 1 + ps_tile -> u1_pos_y ) ) + ps_tile -> u1_pos_x ; if ( ps_tile -> u2_ht == ( ps_codec -> s_parse . i4_ctb_tile_y + 1 ) ) { if ( ( ps_tile -> u2_wd + ps_tile -> u1_pos_x == ps_sps -> i2_pic_wd_in_ctb ) && ( ( ps_tile -> u2_ht + ps_tile -> u1_pos_y == ps_sps -> i2_pic_ht_in_ctb ) ) ) { ctb_indx = ctb_addr ; } else { tile_t * ps_next_tile = ps_codec -> s_parse . ps_tile + 1 ;","slice_qp , cabac_init_idc , ( const UWORD8 * ) & ps_codec -> s_parse . s_cabac . au1_ctxt_models_sync ) ; if ( ret != ( IHEVCD_ERROR_T ) IHEVCD_SUCCESS ) { ps_codec -> i4_slice_error = 1 ; end_of_slice_flag = 1 ; ret = ( IHEVCD_ERROR_T ) IHEVCD_SUCCESS ; } } } } if ( 0 == ps_codec -> i4_slice_error ) { if ( ps_slice_hdr -> i1_slice_sao_luma_flag || ps_slice_hdr -> i1_slice_sao_chroma_flag ) ihevcd_parse_sao ( ps_codec ) ; } else { sao_t * ps_sao = ps_codec -> s_parse . ps_pic_sao + ps_codec -> s_parse . i4_ctb_x + ps_codec -> s_parse . i4_ctb_y * ps_sps -> i2_pic_wd_in_ctb ; ps_sao -> b3_y_type_idx = 0 ; ps_sao -> b3_cb_type_idx = 0 ; ps_sao -> b3_cr_type_idx = 0 ; } { WORD32 ctb_indx ; ctb_indx = ps_codec -> s_parse . i4_ctb_x + ps_sps -> i2_pic_wd_in_ctb * ps_codec -> s_parse . i4_ctb_y ; ps_codec -> s_parse . s_bs_ctxt . pu1_pic_qp_const_in_ctb [ ctb_indx >> 3 ] |= ( 1 << ( ctb_indx & 7 ) ) ; { UWORD16 * pu1_slice_idx = ps_codec -> s_parse . pu1_slice_idx ; pu1_slice_idx [ ctb_indx ] = ps_codec -> s_parse . i4_cur_independent_slice_idx ; } } if ( 0 == ps_codec -> i4_slice_error ) { tu_t * ps_tu = ps_codec -> s_parse . ps_tu ; WORD32 i4_tu_cnt = ps_codec -> s_parse . s_cu . i4_tu_cnt ; WORD32 i4_pic_tu_idx = ps_codec -> s_parse . i4_pic_tu_idx ; pu_t * ps_pu = ps_codec -> s_parse . ps_pu ; WORD32 i4_pic_pu_idx = ps_codec -> s_parse . i4_pic_pu_idx ; UWORD8 * pu1_tu_coeff_data = ( UWORD8 * ) ps_codec -> s_parse . pv_tu_coeff_data ; ret = ihevcd_parse_coding_quadtree ( ps_codec , ( ps_codec -> s_parse . i4_ctb_x << ps_sps -> i1_log2_ctb_size ) , ( ps_codec -> s_parse . i4_ctb_y << ps_sps -> i1_log2_ctb_size ) , ps_sps -> i1_log2_ctb_size , 0 ) ; if ( ret != ( IHEVCD_ERROR_T ) IHEVCD_SUCCESS ) { WORD32 tu_coeff_data_reset_size ; ps_codec -> s_parse . ps_tu = ps_tu ; ps_codec -> s_parse . s_cu . i4_tu_cnt = i4_tu_cnt ; ps_codec -> s_parse . i4_pic_tu_idx = i4_pic_tu_idx ; ps_codec -> s_parse . ps_pu = ps_pu ; ps_codec -> s_parse . i4_pic_pu_idx = i4_pic_pu_idx ; tu_coeff_data_reset_size = ( UWORD8 * ) ps_codec -> s_parse . pv_tu_coeff_data - pu1_tu_coeff_data ; memset ( pu1_tu_coeff_data , 0 , tu_coeff_data_reset_size ) ; ps_codec -> s_parse . pv_tu_coeff_data = ( void * ) pu1_tu_coeff_data ; ihevcd_set_ctb_skip ( ps_codec ) ; ps_codec -> i4_slice_error = 1 ; end_of_slice_flag = 1 ; ret = ( IHEVCD_ERROR_T ) IHEVCD_SUCCESS ; } } else { ihevcd_set_ctb_skip ( ps_codec ) ; } if ( 0 == ps_codec -> i4_slice_error ) end_of_slice_flag = ihevcd_cabac_decode_terminate ( & ps_codec -> s_parse . s_cabac , & ps_codec -> s_parse . s_bitstrm ) ; AEV_TRACE ( ""end_of_slice_flag"" , end_of_slice_flag , ps_codec -> s_parse . s_cabac . u4_range ) ; if ( ps_pps -> i1_tiles_enabled_flag || ps_pps -> i1_entropy_coding_sync_enabled_flag ) { WORD32 end_of_tile = 0 ; WORD32 end_of_tile_row = 0 ; if ( ps_pps -> i1_entropy_coding_sync_enabled_flag || ps_pps -> i1_tiles_enabled_flag ) { if ( 1 == ps_codec -> s_parse . i4_ctb_x ) { WORD32 size = sizeof ( ps_codec -> s_parse . s_cabac . au1_ctxt_models ) ; memcpy ( & ps_codec -> s_parse . s_cabac . au1_ctxt_models_sync , & ps_codec -> s_parse . s_cabac . au1_ctxt_models , size ) ; } } if ( ( ps_codec -> s_parse . i4_ctb_tile_x + 1 ) == ( ps_tile -> u2_wd ) ) { end_of_tile_row = 1 ; if ( ( ps_codec -> s_parse . i4_ctb_tile_y + 1 ) == ps_tile -> u2_ht ) end_of_tile = 1 ; } if ( ( 0 == end_of_slice_flag ) && ( ( ps_pps -> i1_tiles_enabled_flag && end_of_tile ) || ( ps_pps -> i1_entropy_coding_sync_enabled_flag && end_of_tile_row ) ) ) { WORD32 end_of_sub_stream_one_bit ; end_of_sub_stream_one_bit = ihevcd_cabac_decode_terminate ( & ps_codec -> s_parse . s_cabac , & ps_codec -> s_parse . s_bitstrm ) ; AEV_TRACE ( ""end_of_sub_stream_one_bit"" , end_of_sub_stream_one_bit , ps_codec -> s_parse . s_cabac . u4_range ) ; if ( ps_codec -> s_parse . s_bitstrm . u4_bit_ofst % 8 ) ihevcd_bits_flush_to_byte_boundary ( & ps_codec -> s_parse . s_bitstrm ) ; UNUSED ( end_of_sub_stream_one_bit ) ; } } { WORD32 ctb_indx ; ctb_addr = ps_codec -> s_parse . i4_ctb_y * num_ctb_in_row + ps_codec -> s_parse . i4_ctb_x ; ctb_indx = ++ ctb_addr ; if ( ( ps_tile -> u2_wd == ( ps_codec -> s_parse . i4_ctb_tile_x + 1 ) ) && ( ps_tile -> u2_wd != ps_sps -> i2_pic_wd_in_ctb ) ) { ctb_indx = ( ps_sps -> i2_pic_wd_in_ctb * ( ps_codec -> s_parse . i4_ctb_tile_y + 1 + ps_tile -> u1_pos_y ) ) + ps_tile -> u1_pos_x ; if ( ps_tile -> u2_ht == ( ps_codec -> s_parse . i4_ctb_tile_y + 1 ) ) { if ( ( ps_tile -> u2_wd + ps_tile -> u1_pos_x == ps_sps -> i2_pic_wd_in_ctb ) && ( ( ps_tile -> u2_ht + ps_tile -> u1_pos_y == ps_sps -> i2_pic_ht_in_ctb ) ) ) { ctb_indx = ctb_addr ; } else { tile_t * ps_next_tile = ps_codec -> s_parse . ps_tile + 1 ;" 476,"NVD-CWE-noinfo static struct nfs4_state * nfs4_do_open ( struct inode * dir , struct path * path , int flags , struct iattr * sattr , struct rpc_cred * cred ) { struct nfs4_exception exception = { } ; struct nfs4_state * res ; int status ; do { status = _nfs4_do_open ( dir , path , flags , sattr , cred , & res ) ; if ( status == 0 ) break ; if ( status == - NFS4ERR_BAD_SEQID ) { printk ( KERN_WARNING ""NFS: v4 server %s "" "" returned a bad sequence-id error!\\n"" , NFS_SERVER ( dir ) -> nfs_client -> cl_hostname ) ; exception . retry = 1 ; continue ; } if ( status == - NFS4ERR_BAD_STATEID ) { exception . retry = 1 ; continue ; } if ( status == - EAGAIN ) { exception . retry = 1 ; continue ; } res = ERR_PTR ( nfs4_handle_exception ( NFS_SERVER ( dir ) , status , & exception ) ) ; } while ( exception . retry ) ; return res ; }","static struct nfs4_state * nfs4_do_open ( struct inode * dir , struct path * path , fmode_t fmode , int flags , struct iattr * sattr , struct rpc_cred * cred ) { struct nfs4_exception exception = { } ; struct nfs4_state * res ; int status ; do { status = _nfs4_do_open ( dir , path , fmode , flags , sattr , cred , & res ) ; if ( status == 0 ) break ; if ( status == - NFS4ERR_BAD_SEQID ) { printk ( KERN_WARNING ""NFS: v4 server %s "" "" returned a bad sequence-id error!\\n"" , NFS_SERVER ( dir ) -> nfs_client -> cl_hostname ) ; exception . retry = 1 ; continue ; } if ( status == - NFS4ERR_BAD_STATEID ) { exception . retry = 1 ; continue ; } if ( status == - EAGAIN ) { exception . retry = 1 ; continue ; } res = ERR_PTR ( nfs4_handle_exception ( NFS_SERVER ( dir ) , status , & exception ) ) ; } while ( exception . retry ) ; return res ; }" 477,"CWE-119 static INLINE void write_buffer_8x8 ( int16_t * output , __m128i * res , int stride ) { _mm_store_si128 ( ( __m128i * ) ( output + 0 * stride ) , res [ 0 ] ) ; _mm_store_si128 ( ( __m128i * ) ( output + 1 * stride ) , res [ 1 ] ) ; _mm_store_si128 ( ( __m128i * ) ( output + 2 * stride ) , res [ 2 ] ) ; _mm_store_si128 ( ( __m128i * ) ( output + 3 * stride ) , res [ 3 ] ) ; _mm_store_si128 ( ( __m128i * ) ( output + 4 * stride ) , res [ 4 ] ) ; _mm_store_si128 ( ( __m128i * ) ( output + 5 * stride ) , res [ 5 ] ) ; _mm_store_si128 ( ( __m128i * ) ( output + 6 * stride ) , res [ 6 ] ) ; _mm_store_si128 ( ( __m128i * ) ( output + 7 * stride ) , res [ 7 ] ) ; }","static INLINE void write_buffer_8x8 ( tran_low_t * output , __m128i * res , int stride ) { store_output ( & res [ 0 ] , ( output + 0 * stride ) ) ; store_output ( & res [ 1 ] , ( output + 1 * stride ) ) ; store_output ( & res [ 2 ] , ( output + 2 * stride ) ) ; store_output ( & res [ 3 ] , ( output + 3 * stride ) ) ; store_output ( & res [ 4 ] , ( output + 4 * stride ) ) ; store_output ( & res [ 5 ] , ( output + 5 * stride ) ) ; store_output ( & res [ 6 ] , ( output + 6 * stride ) ) ; store_output ( & res [ 7 ] , ( output + 7 * stride ) ) ; }" 478,"CWE-326 void device_init ( ) { hw_init ( LOW_FREQUENCY ) ; if ( ! tsc_sensor_exists ( ) ) { _NFC_status = nfc_init ( ) ; } if ( _NFC_status == NFC_IS_ACTIVE ) { printf1 ( TAG_NFC , ""Have NFC\\r\\n"" ) ; isLowFreq = 1 ; IS_BUTTON_PRESSED = is_physical_button_pressed ; } else { printf1 ( TAG_NFC , ""Have NO NFC\\r\\n"" ) ; hw_init ( HIGH_FREQUENCY ) ; isLowFreq = 0 ; device_init_button ( ) ; } usbhid_init ( ) ; ctaphid_init ( ) ; ctap_init ( ) ; device_migrate ( ) ; # if BOOT_TO_DFU flash_option_bytes_init ( 1 ) ; # else flash_option_bytes_init ( 0 ) ; # endif }","void device_init ( ) { hw_init ( LOW_FREQUENCY ) ; # if BOOT_TO_DFU flash_option_bytes_init ( 1 ) ; # else flash_option_bytes_init ( 0 ) ; # endif if ( ! tsc_sensor_exists ( ) ) { _NFC_status = nfc_init ( ) ; } if ( _NFC_status == NFC_IS_ACTIVE ) { printf1 ( TAG_NFC , ""Have NFC\\r\\n"" ) ; isLowFreq = 1 ; IS_BUTTON_PRESSED = is_physical_button_pressed ; } else { printf1 ( TAG_NFC , ""Have NO NFC\\r\\n"" ) ; hw_init ( HIGH_FREQUENCY ) ; isLowFreq = 0 ; device_init_button ( ) ; } usbhid_init ( ) ; ctaphid_init ( ) ; ctap_init ( ) ; device_migrate ( ) ; }" 479,"CWE-119 int Downmix_Reset ( downmix_object_t * pDownmixer , bool init ) { return 0 ; }","int Downmix_Reset ( downmix_object_t * pDownmixer __unused , bool init __unused ) { return 0 ; }" 480,"CWE-119 IMPEG2D_ERROR_CODES_T impeg2d_dec_seq_hdr ( dec_state_t * ps_dec ) { stream_t * ps_stream ; ps_stream = & ps_dec -> s_bit_stream ; UWORD16 u2_height ; UWORD16 u2_width ; if ( impeg2d_bit_stream_nxt ( ps_stream , START_CODE_LEN ) != SEQUENCE_HEADER_CODE ) { impeg2d_bit_stream_flush ( ps_stream , START_CODE_LEN ) ; return IMPEG2D_FRM_HDR_START_CODE_NOT_FOUND ; } impeg2d_bit_stream_flush ( ps_stream , START_CODE_LEN ) ; u2_width = impeg2d_bit_stream_get ( ps_stream , 12 ) ; u2_height = impeg2d_bit_stream_get ( ps_stream , 12 ) ; if ( ( u2_width != ps_dec -> u2_horizontal_size ) || ( u2_height != ps_dec -> u2_vertical_size ) ) { if ( 0 == ps_dec -> u2_header_done ) { ps_dec -> u2_horizontal_size = u2_width ; ps_dec -> u2_vertical_size = u2_height ; if ( 0 == ps_dec -> u4_frm_buf_stride ) { ps_dec -> u4_frm_buf_stride = ( UWORD32 ) ( u2_width ) ; } } else { if ( ( u2_width > ps_dec -> u2_create_max_width ) || ( u2_height > ps_dec -> u2_create_max_height ) ) { IMPEG2D_ERROR_CODES_T e_error = IMPEG2D_UNSUPPORTED_DIMENSIONS ; ps_dec -> u2_reinit_max_height = u2_height ; ps_dec -> u2_reinit_max_width = u2_width ; return e_error ; } else { return ( IMPEG2D_ERROR_CODES_T ) IVD_RES_CHANGED ; } } } if ( ( ps_dec -> u2_horizontal_size > ps_dec -> u2_create_max_width ) || ( ps_dec -> u2_vertical_size > ps_dec -> u2_create_max_height ) ) { IMPEG2D_ERROR_CODES_T e_error = IMPEG2D_UNSUPPORTED_DIMENSIONS ; return SET_IVD_FATAL_ERROR ( e_error ) ; } ps_dec -> u2_aspect_ratio_info = impeg2d_bit_stream_get ( ps_stream , 4 ) ; ps_dec -> u2_frame_rate_code = impeg2d_bit_stream_get ( ps_stream , 4 ) ; if ( ps_dec -> u2_frame_rate_code > MPEG2_MAX_FRAME_RATE_CODE ) { return IMPEG2D_FRM_HDR_DECODE_ERR ; } impeg2d_bit_stream_flush ( ps_stream , 18 ) ; GET_MARKER_BIT ( ps_dec , ps_stream ) ; impeg2d_bit_stream_flush ( ps_stream , 11 ) ; if ( impeg2d_bit_stream_get_bit ( ps_stream ) == 1 ) { UWORD16 i ; for ( i = 0 ; i < NUM_PELS_IN_BLOCK ; i ++ ) { ps_dec -> au1_intra_quant_matrix [ gau1_impeg2_inv_scan_zig_zag [ i ] ] = ( UWORD8 ) impeg2d_bit_stream_get ( ps_stream , 8 ) ; } } else { memcpy ( ps_dec -> au1_intra_quant_matrix , gau1_impeg2_intra_quant_matrix_default , NUM_PELS_IN_BLOCK ) ; } if ( impeg2d_bit_stream_get_bit ( ps_stream ) == 1 ) { UWORD16 i ; for ( i = 0 ; i < NUM_PELS_IN_BLOCK ; i ++ ) { ps_dec -> au1_inter_quant_matrix [ gau1_impeg2_inv_scan_zig_zag [ i ] ] = ( UWORD8 ) impeg2d_bit_stream_get ( ps_stream , 8 ) ; } } else { memcpy ( ps_dec -> au1_inter_quant_matrix , gau1_impeg2_inter_quant_matrix_default , NUM_PELS_IN_BLOCK ) ; } impeg2d_next_start_code ( ps_dec ) ; return ( IMPEG2D_ERROR_CODES_T ) IVD_ERROR_NONE ; }","IMPEG2D_ERROR_CODES_T impeg2d_dec_seq_hdr ( dec_state_t * ps_dec ) { stream_t * ps_stream ; ps_stream = & ps_dec -> s_bit_stream ; UWORD16 u2_height ; UWORD16 u2_width ; if ( impeg2d_bit_stream_nxt ( ps_stream , START_CODE_LEN ) != SEQUENCE_HEADER_CODE ) { impeg2d_bit_stream_flush ( ps_stream , START_CODE_LEN ) ; return IMPEG2D_FRM_HDR_START_CODE_NOT_FOUND ; } impeg2d_bit_stream_flush ( ps_stream , START_CODE_LEN ) ; u2_width = impeg2d_bit_stream_get ( ps_stream , 12 ) ; u2_height = impeg2d_bit_stream_get ( ps_stream , 12 ) ; if ( ( u2_width != ps_dec -> u2_horizontal_size ) || ( u2_height != ps_dec -> u2_vertical_size ) ) { if ( 0 == ps_dec -> u2_header_done ) { ps_dec -> u2_horizontal_size = u2_width ; ps_dec -> u2_vertical_size = u2_height ; if ( 0 == ps_dec -> u4_frm_buf_stride ) { ps_dec -> u4_frm_buf_stride = ( UWORD32 ) ( u2_width ) ; } } else { if ( ( u2_width > ps_dec -> u2_create_max_width ) || ( u2_height > ps_dec -> u2_create_max_height ) ) { IMPEG2D_ERROR_CODES_T e_error = IMPEG2D_UNSUPPORTED_DIMENSIONS ; ps_dec -> u2_reinit_max_height = u2_height ; ps_dec -> u2_reinit_max_width = u2_width ; return e_error ; } else { return ( IMPEG2D_ERROR_CODES_T ) IVD_RES_CHANGED ; } } } if ( ( ps_dec -> u2_horizontal_size > ps_dec -> u2_create_max_width ) || ( ps_dec -> u2_vertical_size > ps_dec -> u2_create_max_height ) ) { IMPEG2D_ERROR_CODES_T e_error = IMPEG2D_UNSUPPORTED_DIMENSIONS ; ps_dec -> u2_reinit_max_height = ps_dec -> u2_vertical_size ; ps_dec -> u2_reinit_max_width = ps_dec -> u2_horizontal_size ; return e_error ; } ps_dec -> u2_aspect_ratio_info = impeg2d_bit_stream_get ( ps_stream , 4 ) ; ps_dec -> u2_frame_rate_code = impeg2d_bit_stream_get ( ps_stream , 4 ) ; if ( ps_dec -> u2_frame_rate_code > MPEG2_MAX_FRAME_RATE_CODE ) { return IMPEG2D_FRM_HDR_DECODE_ERR ; } impeg2d_bit_stream_flush ( ps_stream , 18 ) ; GET_MARKER_BIT ( ps_dec , ps_stream ) ; impeg2d_bit_stream_flush ( ps_stream , 11 ) ; if ( impeg2d_bit_stream_get_bit ( ps_stream ) == 1 ) { UWORD16 i ; for ( i = 0 ; i < NUM_PELS_IN_BLOCK ; i ++ ) { ps_dec -> au1_intra_quant_matrix [ gau1_impeg2_inv_scan_zig_zag [ i ] ] = ( UWORD8 ) impeg2d_bit_stream_get ( ps_stream , 8 ) ; } } else { memcpy ( ps_dec -> au1_intra_quant_matrix , gau1_impeg2_intra_quant_matrix_default , NUM_PELS_IN_BLOCK ) ; } if ( impeg2d_bit_stream_get_bit ( ps_stream ) == 1 ) { UWORD16 i ; for ( i = 0 ; i < NUM_PELS_IN_BLOCK ; i ++ ) { ps_dec -> au1_inter_quant_matrix [ gau1_impeg2_inv_scan_zig_zag [ i ] ] = ( UWORD8 ) impeg2d_bit_stream_get ( ps_stream , 8 ) ; } } else { memcpy ( ps_dec -> au1_inter_quant_matrix , gau1_impeg2_inter_quant_matrix_default , NUM_PELS_IN_BLOCK ) ; } impeg2d_next_start_code ( ps_dec ) ; return ( IMPEG2D_ERROR_CODES_T ) IVD_ERROR_NONE ; }" 481,"CWE-476 u32 size ; u8 * output ; const GF_PropertyValue * p ; ctx -> szRootName = ""NHNTStream"" ; if ( ctx -> dims ) { ctx -> szRootName = ""DIMSStream"" ; } if ( ! ctx -> filep ) { sprintf ( nhml , ""\\n"" ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; } sprintf ( nhml , ""<%s version=\\""1.0\\"" "" , ctx -> szRootName ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; NHML_PRINT_UINT ( GF_PROP_PID_ID , NULL , ""trackID"" ) NHML_PRINT_UINT ( GF_PROP_PID_TIMESCALE , NULL , ""timeScale"" ) p = gf_filter_pid_get_property ( ctx -> ipid , GF_PROP_PID_IN_IOD ) ; if ( p && p -> value . boolean ) { sprintf ( nhml , ""inRootOD=\\""yes\\"" "" ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; } if ( ctx -> oti && ( ctx -> oti < GF_CODECID_LAST_MPEG4_MAPPING ) ) { sprintf ( nhml , ""streamType=\\""%d\\"" objectTypeIndication=\\""%d\\"" "" , ctx -> streamtype , ctx -> oti ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; } else { p = gf_filter_pid_get_property ( ctx -> ipid , GF_PROP_PID_SUBTYPE ) ; if ( p ) { sprintf ( nhml , ""%s=\\""%s\\"" "" , ""mediaType"" , gf_4cc_to_str ( p -> value . uint ) ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; NHML_PRINT_4CC ( GF_PROP_PID_ISOM_SUBTYPE , ""mediaSubType"" , ""mediaSubType"" ) } else { NHML_PRINT_4CC ( GF_PROP_PID_CODECID , NULL , ""codecID"" ) } } if ( ctx -> w && ctx -> h ) { switch ( ctx -> streamtype ) { case GF_STREAM_VISUAL : case GF_STREAM_SCENE : sprintf ( nhml , ""width=\\""%d\\"" height=\\""%d\\"" "" , ctx -> w , ctx -> h ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; break ; default : break ; } } else if ( ctx -> sr && ctx -> chan ) { sprintf ( nhml , ""sampleRate=\\""%d\\"" numChannels=\\""%d\\"" "" , ctx -> sr , ctx -> chan ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; sprintf ( nhml , ""sampleRate=\\""%d\\"" numChannels=\\""%d\\"" "" , ctx -> sr , ctx -> chan ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; p = gf_filter_pid_get_property ( ctx -> ipid , GF_PROP_PID_AUDIO_FORMAT ) ; sprintf ( nhml , ""bitsPerSample=\\""%d\\"" "" , gf_audio_fmt_bit_depth ( p -> value . uint ) ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; } NHML_PRINT_4CC ( 0 , ""codec_vendor"" , ""codecVendor"" ) NHML_PRINT_UINT ( 0 , ""codec_version"" , ""codecVersion"" ) NHML_PRINT_UINT ( 0 , ""codec_revision"" , ""codecRevision"" ) NHML_PRINT_STRING ( 0 , ""compressor_name"" , ""compressorName"" ) NHML_PRINT_UINT ( 0 , ""temporal_quality"" , ""temporalQuality"" ) NHML_PRINT_UINT ( 0 , ""spatial_quality"" , ""spatialQuality"" ) NHML_PRINT_UINT ( 0 , ""hres"" , ""horizontalResolution"" ) NHML_PRINT_UINT ( 0 , ""vres"" , ""verticalResolution"" ) NHML_PRINT_UINT ( GF_PROP_PID_BIT_DEPTH_Y , NULL , ""bitDepth"" ) NHML_PRINT_STRING ( 0 , ""meta:xmlns"" , ""xml_namespace"" ) NHML_PRINT_STRING ( 0 , ""meta:schemaloc"" , ""xml_schema_location"" ) NHML_PRINT_STRING ( 0 , ""meta:mime"" , ""mime_type"" ) NHML_PRINT_STRING ( 0 , ""meta:config"" , ""config"" ) NHML_PRINT_STRING ( 0 , ""meta:aux_mimes"" , ""aux_mime_type"" ) if ( ctx -> codecid == GF_CODECID_DIMS ) { if ( gf_filter_pid_get_property_str ( ctx -> ipid , ""meta:xmlns"" ) == NULL ) { sprintf ( nhml , ""xmlns=\\""http://www.3gpp.org/richmedia\\"" "" ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; } NHML_PRINT_UINT ( 0 , ""dims:profile"" , ""profile"" ) NHML_PRINT_UINT ( 0 , ""dims:level"" , ""level"" ) NHML_PRINT_UINT ( 0 , ""dims:pathComponents"" , ""pathComponents"" ) p = gf_filter_pid_get_property_str ( ctx -> ipid , ""dims:fullRequestHost"" ) ; if ( p ) { sprintf ( nhml , ""useFullRequestHost=\\""%s\\"" "" , p -> value . boolean ? ""yes"" : ""no"" ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; } p = gf_filter_pid_get_property_str ( ctx -> ipid , ""dims:streamType"" ) ; if ( p ) { sprintf ( nhml , ""stream_type=\\""%s\\"" "" , p -> value . boolean ? ""primary"" : ""secondary"" ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; } p = gf_filter_pid_get_property_str ( ctx -> ipid , ""dims:redundant"" ) ; if ( p ) { sprintf ( nhml , ""contains_redundant=\\""%s\\"" "" , ( p -> value . uint == 1 ) ? ""main"" : ( ( p -> value . uint == 1 ) ? ""redundant"" : ""main+redundant"" ) ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; } NHML_PRINT_UINT ( 0 , ""dims:scriptTypes"" , ""scriptTypes"" ) } if ( ctx -> opid_info ) { sprintf ( nhml , ""specificInfoFile=\\""%s\\"" "" , gf_file_basename ( ctx -> info_file ) ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; dst_pck = gf_filter_pck_new_shared ( ctx -> opid_info , ctx -> dcfg , ctx -> dcfg_size , NULL ) ; gf_filter_pck_set_framing ( dst_pck , GF_TRUE , GF_TRUE ) ; gf_filter_pck_set_readonly ( dst_pck ) ; gf_filter_pck_send ( dst_pck ) ; }","u32 size ; u8 * output ; const GF_PropertyValue * p ; ctx -> szRootName = ""NHNTStream"" ; if ( ctx -> dims ) { ctx -> szRootName = ""DIMSStream"" ; } if ( ! ctx -> filep ) { sprintf ( nhml , ""\\n"" ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; } sprintf ( nhml , ""<%s version=\\""1.0\\"" "" , ctx -> szRootName ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; NHML_PRINT_UINT ( GF_PROP_PID_ID , NULL , ""trackID"" ) NHML_PRINT_UINT ( GF_PROP_PID_TIMESCALE , NULL , ""timeScale"" ) p = gf_filter_pid_get_property ( ctx -> ipid , GF_PROP_PID_IN_IOD ) ; if ( p && p -> value . boolean ) { sprintf ( nhml , ""inRootOD=\\""yes\\"" "" ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; } if ( ctx -> oti && ( ctx -> oti < GF_CODECID_LAST_MPEG4_MAPPING ) ) { sprintf ( nhml , ""streamType=\\""%d\\"" objectTypeIndication=\\""%d\\"" "" , ctx -> streamtype , ctx -> oti ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; } else { p = gf_filter_pid_get_property ( ctx -> ipid , GF_PROP_PID_SUBTYPE ) ; if ( p ) { sprintf ( nhml , ""%s=\\""%s\\"" "" , ""mediaType"" , gf_4cc_to_str ( p -> value . uint ) ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; NHML_PRINT_4CC ( GF_PROP_PID_ISOM_SUBTYPE , ""mediaSubType"" , ""mediaSubType"" ) } else { NHML_PRINT_4CC ( GF_PROP_PID_CODECID , NULL , ""codecID"" ) } } if ( ctx -> w && ctx -> h ) { switch ( ctx -> streamtype ) { case GF_STREAM_VISUAL : case GF_STREAM_SCENE : sprintf ( nhml , ""width=\\""%d\\"" height=\\""%d\\"" "" , ctx -> w , ctx -> h ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; break ; default : break ; } } else if ( ctx -> sr && ctx -> chan ) { sprintf ( nhml , ""sampleRate=\\""%d\\"" numChannels=\\""%d\\"" "" , ctx -> sr , ctx -> chan ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; sprintf ( nhml , ""sampleRate=\\""%d\\"" numChannels=\\""%d\\"" "" , ctx -> sr , ctx -> chan ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; p = gf_filter_pid_get_property ( ctx -> ipid , GF_PROP_PID_AUDIO_FORMAT ) ; if ( p ) sprintf ( nhml , ""bitsPerSample=\\""%d\\"" "" , gf_audio_fmt_bit_depth ( p -> value . uint ) ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; } NHML_PRINT_4CC ( 0 , ""codec_vendor"" , ""codecVendor"" ) NHML_PRINT_UINT ( 0 , ""codec_version"" , ""codecVersion"" ) NHML_PRINT_UINT ( 0 , ""codec_revision"" , ""codecRevision"" ) NHML_PRINT_STRING ( 0 , ""compressor_name"" , ""compressorName"" ) NHML_PRINT_UINT ( 0 , ""temporal_quality"" , ""temporalQuality"" ) NHML_PRINT_UINT ( 0 , ""spatial_quality"" , ""spatialQuality"" ) NHML_PRINT_UINT ( 0 , ""hres"" , ""horizontalResolution"" ) NHML_PRINT_UINT ( 0 , ""vres"" , ""verticalResolution"" ) NHML_PRINT_UINT ( GF_PROP_PID_BIT_DEPTH_Y , NULL , ""bitDepth"" ) NHML_PRINT_STRING ( 0 , ""meta:xmlns"" , ""xml_namespace"" ) NHML_PRINT_STRING ( 0 , ""meta:schemaloc"" , ""xml_schema_location"" ) NHML_PRINT_STRING ( 0 , ""meta:mime"" , ""mime_type"" ) NHML_PRINT_STRING ( 0 , ""meta:config"" , ""config"" ) NHML_PRINT_STRING ( 0 , ""meta:aux_mimes"" , ""aux_mime_type"" ) if ( ctx -> codecid == GF_CODECID_DIMS ) { if ( gf_filter_pid_get_property_str ( ctx -> ipid , ""meta:xmlns"" ) == NULL ) { sprintf ( nhml , ""xmlns=\\""http://www.3gpp.org/richmedia\\"" "" ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; } NHML_PRINT_UINT ( 0 , ""dims:profile"" , ""profile"" ) NHML_PRINT_UINT ( 0 , ""dims:level"" , ""level"" ) NHML_PRINT_UINT ( 0 , ""dims:pathComponents"" , ""pathComponents"" ) p = gf_filter_pid_get_property_str ( ctx -> ipid , ""dims:fullRequestHost"" ) ; if ( p ) { sprintf ( nhml , ""useFullRequestHost=\\""%s\\"" "" , p -> value . boolean ? ""yes"" : ""no"" ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; } p = gf_filter_pid_get_property_str ( ctx -> ipid , ""dims:streamType"" ) ; if ( p ) { sprintf ( nhml , ""stream_type=\\""%s\\"" "" , p -> value . boolean ? ""primary"" : ""secondary"" ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; } p = gf_filter_pid_get_property_str ( ctx -> ipid , ""dims:redundant"" ) ; if ( p ) { sprintf ( nhml , ""contains_redundant=\\""%s\\"" "" , ( p -> value . uint == 1 ) ? ""main"" : ( ( p -> value . uint == 1 ) ? ""redundant"" : ""main+redundant"" ) ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; } NHML_PRINT_UINT ( 0 , ""dims:scriptTypes"" , ""scriptTypes"" ) } if ( ctx -> opid_info ) { sprintf ( nhml , ""specificInfoFile=\\""%s\\"" "" , gf_file_basename ( ctx -> info_file ) ) ; gf_bs_write_data ( ctx -> bs_w , nhml , ( u32 ) strlen ( nhml ) ) ; dst_pck = gf_filter_pck_new_shared ( ctx -> opid_info , ctx -> dcfg , ctx -> dcfg_size , NULL ) ; gf_filter_pck_set_framing ( dst_pck , GF_TRUE , GF_TRUE ) ; gf_filter_pck_set_readonly ( dst_pck ) ; gf_filter_pck_send ( dst_pck ) ; }" 482,"CWE-119 static void rd_pick_sb_modes ( VP9_COMP * cpi , const TileInfo * const tile , int mi_row , int mi_col , int * totalrate , int64_t * totaldist , BLOCK_SIZE bsize , PICK_MODE_CONTEXT * ctx , int64_t best_rd ) { VP9_COMMON * const cm = & cpi -> common ; MACROBLOCK * const x = & cpi -> mb ; MACROBLOCKD * const xd = & x -> e_mbd ; MB_MODE_INFO * mbmi ; struct macroblock_plane * const p = x -> plane ; struct macroblockd_plane * const pd = xd -> plane ; const AQ_MODE aq_mode = cpi -> oxcf . aq_mode ; int i , orig_rdmult ; double rdmult_ratio ; vp9_clear_system_state ( ) ; rdmult_ratio = 1.0 ; x -> use_lp32x32fdct = 1 ; if ( bsize < BLOCK_8X8 ) { if ( x -> ab_index != 0 ) { * totalrate = 0 ; * totaldist = 0 ; return ; } } set_offsets ( cpi , tile , mi_row , mi_col , bsize ) ; mbmi = & xd -> mi [ 0 ] -> mbmi ; mbmi -> sb_type = bsize ; for ( i = 0 ; i < MAX_MB_PLANE ; ++ i ) { p [ i ] . coeff = ctx -> coeff_pbuf [ i ] [ 0 ] ; p [ i ] . qcoeff = ctx -> qcoeff_pbuf [ i ] [ 0 ] ; pd [ i ] . dqcoeff = ctx -> dqcoeff_pbuf [ i ] [ 0 ] ; p [ i ] . eobs = ctx -> eobs_pbuf [ i ] [ 0 ] ; } ctx -> is_coded = 0 ; x -> skip_recode = 0 ; mbmi -> skip = 0 ; x -> source_variance = get_sby_perpixel_variance ( cpi , x , bsize ) ; if ( aq_mode == VARIANCE_AQ ) { const int energy = bsize <= BLOCK_16X16 ? x -> mb_energy : vp9_block_energy ( cpi , x , bsize ) ; if ( cm -> frame_type == KEY_FRAME || cpi -> refresh_alt_ref_frame || ( cpi -> refresh_golden_frame && ! cpi -> rc . is_src_frame_alt_ref ) ) { mbmi -> segment_id = vp9_vaq_segment_id ( energy ) ; } else { const uint8_t * const map = cm -> seg . update_map ? cpi -> segmentation_map : cm -> last_frame_seg_map ; mbmi -> segment_id = vp9_get_segment_id ( cm , map , bsize , mi_row , mi_col ) ; } rdmult_ratio = vp9_vaq_rdmult_ratio ( energy ) ; vp9_init_plane_quantizers ( cpi , x ) ; } orig_rdmult = x -> rdmult ; if ( cpi -> oxcf . tuning == VP8_TUNE_SSIM ) activity_masking ( cpi , x ) ; if ( aq_mode == VARIANCE_AQ ) { vp9_clear_system_state ( ) ; x -> rdmult = ( int ) round ( x -> rdmult * rdmult_ratio ) ; } else if ( aq_mode == COMPLEXITY_AQ ) { const int mi_offset = mi_row * cm -> mi_cols + mi_col ; unsigned char complexity = cpi -> complexity_map [ mi_offset ] ; const int is_edge = ( mi_row <= 1 ) || ( mi_row >= ( cm -> mi_rows - 2 ) ) || ( mi_col <= 1 ) || ( mi_col >= ( cm -> mi_cols - 2 ) ) ; if ( ! is_edge && ( complexity > 128 ) ) x -> rdmult += ( ( x -> rdmult * ( complexity - 128 ) ) / 256 ) ; } else if ( aq_mode == CYCLIC_REFRESH_AQ ) { const uint8_t * const map = cm -> seg . update_map ? cpi -> segmentation_map : cm -> last_frame_seg_map ; if ( vp9_get_segment_id ( cm , map , bsize , mi_row , mi_col ) ) x -> rdmult = vp9_cyclic_refresh_get_rdmult ( cpi -> cyclic_refresh ) ; } if ( frame_is_intra_only ( cm ) ) { vp9_rd_pick_intra_mode_sb ( cpi , x , totalrate , totaldist , bsize , ctx , best_rd ) ; } else { if ( bsize >= BLOCK_8X8 ) vp9_rd_pick_inter_mode_sb ( cpi , x , tile , mi_row , mi_col , totalrate , totaldist , bsize , ctx , best_rd ) ; else vp9_rd_pick_inter_mode_sub8x8 ( cpi , x , tile , mi_row , mi_col , totalrate , totaldist , bsize , ctx , best_rd ) ; } if ( aq_mode == VARIANCE_AQ ) { x -> rdmult = orig_rdmult ; if ( * totalrate != INT_MAX ) { vp9_clear_system_state ( ) ; * totalrate = ( int ) round ( * totalrate * rdmult_ratio ) ; } } else if ( aq_mode == COMPLEXITY_AQ || aq_mode == CYCLIC_REFRESH_AQ ) { x -> rdmult = orig_rdmult ; } } ","static void rd_pick_sb_modes ( VP9_COMP * cpi , TileDataEnc * tile_data , MACROBLOCK * const x , int mi_row , int mi_col , RD_COST * rd_cost , BLOCK_SIZE bsize , PICK_MODE_CONTEXT * ctx , int64_t best_rd ) { VP9_COMMON * const cm = & cpi -> common ; TileInfo * const tile_info = & tile_data -> tile_info ; MACROBLOCKD * const xd = & x -> e_mbd ; MB_MODE_INFO * mbmi ; struct macroblock_plane * const p = x -> plane ; struct macroblockd_plane * const pd = xd -> plane ; const AQ_MODE aq_mode = cpi -> oxcf . aq_mode ; int i , orig_rdmult ; vpx_clear_system_state ( ) ; x -> use_lp32x32fdct = 1 ; set_offsets ( cpi , tile_info , x , mi_row , mi_col , bsize ) ; mbmi = & xd -> mi [ 0 ] -> mbmi ; mbmi -> sb_type = bsize ; for ( i = 0 ; i < MAX_MB_PLANE ; ++ i ) { p [ i ] . coeff = ctx -> coeff_pbuf [ i ] [ 0 ] ; p [ i ] . qcoeff = ctx -> qcoeff_pbuf [ i ] [ 0 ] ; pd [ i ] . dqcoeff = ctx -> dqcoeff_pbuf [ i ] [ 0 ] ; p [ i ] . eobs = ctx -> eobs_pbuf [ i ] [ 0 ] ; } ctx -> is_coded = 0 ; ctx -> skippable = 0 ; ctx -> pred_pixel_ready = 0 ; x -> skip_recode = 0 ; mbmi -> skip = 0 ; # if CONFIG_VP9_HIGHBITDEPTH if ( xd -> cur_buf -> flags & YV12_FLAG_HIGHBITDEPTH ) { x -> source_variance = vp9_high_get_sby_perpixel_variance ( cpi , & x -> plane [ 0 ] . src , bsize , xd -> bd ) ; } else { x -> source_variance = vp9_get_sby_perpixel_variance ( cpi , & x -> plane [ 0 ] . src , bsize ) ; } # else x -> source_variance = vp9_get_sby_perpixel_variance ( cpi , & x -> plane [ 0 ] . src , bsize ) ; # endif orig_rdmult = x -> rdmult ; if ( aq_mode == VARIANCE_AQ ) { const int energy = bsize <= BLOCK_16X16 ? x -> mb_energy : vp9_block_energy ( cpi , x , bsize ) ; if ( cm -> frame_type == KEY_FRAME || cpi -> refresh_alt_ref_frame || ( cpi -> refresh_golden_frame && ! cpi -> rc . is_src_frame_alt_ref ) ) { mbmi -> segment_id = vp9_vaq_segment_id ( energy ) ; } else { const uint8_t * const map = cm -> seg . update_map ? cpi -> segmentation_map : cm -> last_frame_seg_map ; mbmi -> segment_id = get_segment_id ( cm , map , bsize , mi_row , mi_col ) ; } x -> rdmult = set_segment_rdmult ( cpi , x , mbmi -> segment_id ) ; } else if ( aq_mode == COMPLEXITY_AQ ) { x -> rdmult = set_segment_rdmult ( cpi , x , mbmi -> segment_id ) ; } else if ( aq_mode == CYCLIC_REFRESH_AQ ) { const uint8_t * const map = cm -> seg . update_map ? cpi -> segmentation_map : cm -> last_frame_seg_map ; if ( cyclic_refresh_segment_id_boosted ( get_segment_id ( cm , map , bsize , mi_row , mi_col ) ) ) x -> rdmult = vp9_cyclic_refresh_get_rdmult ( cpi -> cyclic_refresh ) ; } if ( frame_is_intra_only ( cm ) ) { vp9_rd_pick_intra_mode_sb ( cpi , x , rd_cost , bsize , ctx , best_rd ) ; } else { if ( bsize >= BLOCK_8X8 ) { if ( segfeature_active ( & cm -> seg , mbmi -> segment_id , SEG_LVL_SKIP ) ) vp9_rd_pick_inter_mode_sb_seg_skip ( cpi , tile_data , x , rd_cost , bsize , ctx , best_rd ) ; else vp9_rd_pick_inter_mode_sb ( cpi , tile_data , x , mi_row , mi_col , rd_cost , bsize , ctx , best_rd ) ; } else { vp9_rd_pick_inter_mode_sub8x8 ( cpi , tile_data , x , mi_row , mi_col , rd_cost , bsize , ctx , best_rd ) ; } } if ( ( rd_cost -> rate != INT_MAX ) && ( aq_mode == COMPLEXITY_AQ ) && ( bsize >= BLOCK_16X16 ) && ( cm -> frame_type == KEY_FRAME || cpi -> refresh_alt_ref_frame || ( cpi -> refresh_golden_frame && ! cpi -> rc . is_src_frame_alt_ref ) ) ) { vp9_caq_select_segment ( cpi , x , bsize , mi_row , mi_col , rd_cost -> rate ) ; } x -> rdmult = orig_rdmult ; if ( rd_cost -> rate == INT_MAX ) rd_cost -> rdcost = INT64_MAX ; ctx -> rate = rd_cost -> rate ; ctx -> dist = rd_cost -> dist ; }" 483,"CWE-362 static ssize_t environ_read ( struct file * file , char __user * buf , size_t count , loff_t * ppos ) { char * page ; unsigned long src = * ppos ; int ret = 0 ; struct mm_struct * mm = file -> private_data ; unsigned long env_start , env_end ; if ( ! mm ) return 0 ; page = ( char * ) __get_free_page ( GFP_TEMPORARY ) ; if ( ! page ) return - ENOMEM ; ret = 0 ; if ( ! atomic_inc_not_zero ( & mm -> mm_users ) ) goto free ; down_read ( & mm -> mmap_sem ) ; env_start = mm -> env_start ; env_end = mm -> env_end ; up_read ( & mm -> mmap_sem ) ; while ( count > 0 ) { size_t this_len , max_len ; int retval ; if ( src >= ( env_end - env_start ) ) break ; this_len = env_end - ( env_start + src ) ; max_len = min_t ( size_t , PAGE_SIZE , count ) ; this_len = min ( max_len , this_len ) ; retval = access_remote_vm ( mm , ( env_start + src ) , page , this_len , 0 ) ; if ( retval <= 0 ) { ret = retval ; break ; } if ( copy_to_user ( buf , page , retval ) ) { ret = - EFAULT ; break ; } ret += retval ; src += retval ; buf += retval ; count -= retval ; } * ppos = src ; mmput ( mm ) ; free : free_page ( ( unsigned long ) page ) ; return ret ; }","static ssize_t environ_read ( struct file * file , char __user * buf , size_t count , loff_t * ppos ) { char * page ; unsigned long src = * ppos ; int ret = 0 ; struct mm_struct * mm = file -> private_data ; unsigned long env_start , env_end ; if ( ! mm || ! mm -> env_end ) return 0 ; page = ( char * ) __get_free_page ( GFP_TEMPORARY ) ; if ( ! page ) return - ENOMEM ; ret = 0 ; if ( ! atomic_inc_not_zero ( & mm -> mm_users ) ) goto free ; down_read ( & mm -> mmap_sem ) ; env_start = mm -> env_start ; env_end = mm -> env_end ; up_read ( & mm -> mmap_sem ) ; while ( count > 0 ) { size_t this_len , max_len ; int retval ; if ( src >= ( env_end - env_start ) ) break ; this_len = env_end - ( env_start + src ) ; max_len = min_t ( size_t , PAGE_SIZE , count ) ; this_len = min ( max_len , this_len ) ; retval = access_remote_vm ( mm , ( env_start + src ) , page , this_len , 0 ) ; if ( retval <= 0 ) { ret = retval ; break ; } if ( copy_to_user ( buf , page , retval ) ) { ret = - EFAULT ; break ; } ret += retval ; src += retval ; buf += retval ; count -= retval ; } * ppos = src ; mmput ( mm ) ; free : free_page ( ( unsigned long ) page ) ; return ret ; }" 484,"CWE-189 PHP_FUNCTION ( imageconvolution ) { zval * SIM , * hash_matrix ; zval * * var = NULL , * * var2 = NULL ; gdImagePtr im_src = NULL ; double div , offset ; int nelem , i , j , res ; float matrix [ 3 ] [ 3 ] = { { 0 , 0 , 0 } , { 0 , 0 , 0 } , { 0 , 0 , 0 } } ; if ( zend_parse_parameters ( ZEND_NUM_ARGS ( ) TSRMLS_CC , ""radd"" , & SIM , & hash_matrix , & div , & offset ) == FAILURE ) { RETURN_FALSE ; } ZEND_FETCH_RESOURCE ( im_src , gdImagePtr , & SIM , - 1 , ""Image"" , le_gd ) ; nelem = zend_hash_num_elements ( Z_ARRVAL_P ( hash_matrix ) ) ; if ( nelem != 3 ) { php_error_docref ( NULL TSRMLS_CC , E_WARNING , ""You must have 3x3 array"" ) ; RETURN_FALSE ; } for ( i = 0 ; i < 3 ; i ++ ) { if ( zend_hash_index_find ( Z_ARRVAL_P ( hash_matrix ) , ( i ) , ( void * * ) & var ) == SUCCESS && Z_TYPE_PP ( var ) == IS_ARRAY ) { if ( Z_TYPE_PP ( var ) != IS_ARRAY || zend_hash_num_elements ( Z_ARRVAL_PP ( var ) ) != 3 ) { php_error_docref ( NULL TSRMLS_CC , E_WARNING , ""You must have 3x3 array"" ) ; RETURN_FALSE ; } for ( j = 0 ; j < 3 ; j ++ ) { if ( zend_hash_index_find ( Z_ARRVAL_PP ( var ) , ( j ) , ( void * * ) & var2 ) == SUCCESS ) { SEPARATE_ZVAL ( var2 ) ; convert_to_double ( * var2 ) ; matrix [ i ] [ j ] = ( float ) Z_DVAL_PP ( var2 ) ; } else { php_error_docref ( NULL TSRMLS_CC , E_WARNING , ""You must have a 3x3 matrix"" ) ; RETURN_FALSE ; } } } } res = gdImageConvolution ( im_src , matrix , ( float ) div , ( float ) offset ) ; if ( res ) { RETURN_TRUE ; } else { RETURN_FALSE ; } }","PHP_FUNCTION ( imageconvolution ) { zval * SIM , * hash_matrix ; zval * * var = NULL , * * var2 = NULL ; gdImagePtr im_src = NULL ; double div , offset ; int nelem , i , j , res ; float matrix [ 3 ] [ 3 ] = { { 0 , 0 , 0 } , { 0 , 0 , 0 } , { 0 , 0 , 0 } } ; if ( zend_parse_parameters ( ZEND_NUM_ARGS ( ) TSRMLS_CC , ""radd"" , & SIM , & hash_matrix , & div , & offset ) == FAILURE ) { RETURN_FALSE ; } ZEND_FETCH_RESOURCE ( im_src , gdImagePtr , & SIM , - 1 , ""Image"" , le_gd ) ; nelem = zend_hash_num_elements ( Z_ARRVAL_P ( hash_matrix ) ) ; if ( nelem != 3 ) { php_error_docref ( NULL TSRMLS_CC , E_WARNING , ""You must have 3x3 array"" ) ; RETURN_FALSE ; } for ( i = 0 ; i < 3 ; i ++ ) { if ( zend_hash_index_find ( Z_ARRVAL_P ( hash_matrix ) , ( i ) , ( void * * ) & var ) == SUCCESS && Z_TYPE_PP ( var ) == IS_ARRAY ) { if ( Z_TYPE_PP ( var ) != IS_ARRAY || zend_hash_num_elements ( Z_ARRVAL_PP ( var ) ) != 3 ) { php_error_docref ( NULL TSRMLS_CC , E_WARNING , ""You must have 3x3 array"" ) ; RETURN_FALSE ; } for ( j = 0 ; j < 3 ; j ++ ) { if ( zend_hash_index_find ( Z_ARRVAL_PP ( var ) , ( j ) , ( void * * ) & var2 ) == SUCCESS ) { if ( Z_TYPE_PP ( var2 ) != IS_DOUBLE ) { zval dval ; dval = * * var ; zval_copy_ctor ( & dval ) ; convert_to_double ( & dval ) ; matrix [ i ] [ j ] = ( float ) Z_DVAL ( dval ) ; } else { matrix [ i ] [ j ] = ( float ) Z_DVAL_PP ( var2 ) ; } } else { php_error_docref ( NULL TSRMLS_CC , E_WARNING , ""You must have a 3x3 matrix"" ) ; RETURN_FALSE ; } } } } res = gdImageConvolution ( im_src , matrix , ( float ) div , ( float ) offset ) ; if ( res ) { RETURN_TRUE ; } else { RETURN_FALSE ; } }" 485,"CWE-120 void M_LoadDefaults ( void ) { int i ; int len ; FILE * f ; char def [ 80 ] ; char strparm [ 100 ] ; char * newstring ; int parm ; boolean isstring ; numdefaults = sizeof ( defaults ) / sizeof ( defaults [ 0 ] ) ; for ( i = 0 ; i < numdefaults ; i ++ ) * defaults [ i ] . location = defaults [ i ] . defaultvalue ; i = M_CheckParm ( ""-config"" ) ; if ( i && i < myargc - 1 ) { defaultfile = myargv [ i + 1 ] ; printf ( ""\tdefault file: %s\\n"" , defaultfile ) ; } else defaultfile = basedefault ; f = fopen ( defaultfile , ""r"" ) ; if ( f ) { while ( ! feof ( f ) ) { isstring = false ; if ( fscanf ( f , ""%79s %[^\\n]\\n"" , def , strparm ) == 2 ) { if ( strparm [ 0 ] == \'""\' ) { isstring = true ; len = strlen ( strparm ) ; newstring = ( char * ) malloc ( len ) ; strparm [ len - 1 ] = 0 ; strcpy ( newstring , strparm + 1 ) ; } else if ( strparm [ 0 ] == '0' && strparm [ 1 ] == 'x' ) sscanf ( strparm + 2 , ""%x"" , & parm ) ; else sscanf ( strparm , ""%i"" , & parm ) ; for ( i = 0 ; i < numdefaults ; i ++ ) if ( ! strcmp ( def , defaults [ i ] . name ) ) { if ( ! isstring ) * defaults [ i ] . location = parm ; else * defaults [ i ] . location = ( int ) newstring ; break ; } } } fclose ( f ) ; } for ( i = 0 ; i < numdefaults ; i ++ ) { if ( defaults [ i ] . scantranslate ) { parm = * defaults [ i ] . location ; defaults [ i ] . untranslated = parm ; * defaults [ i ] . location = scantokey [ parm ] ; } } }","void M_LoadDefaults ( void ) { int i ; int len ; FILE * f ; char def [ 80 ] ; char strparm [ 100 ] ; char * newstring ; int parm ; boolean isstring ; numdefaults = sizeof ( defaults ) / sizeof ( defaults [ 0 ] ) ; for ( i = 0 ; i < numdefaults ; i ++ ) * defaults [ i ] . location = defaults [ i ] . defaultvalue ; i = M_CheckParm ( ""-config"" ) ; if ( i && i < myargc - 1 ) { defaultfile = myargv [ i + 1 ] ; printf ( ""\tdefault file: %s\\n"" , defaultfile ) ; } else defaultfile = basedefault ; f = fopen ( defaultfile , ""r"" ) ; if ( f ) { while ( ! feof ( f ) ) { isstring = false ; if ( fscanf ( f , ""%79s %99[^\\n]\\n"" , def , strparm ) == 2 ) { if ( strparm [ 0 ] == \'""\' ) { isstring = true ; len = strlen ( strparm ) ; newstring = ( char * ) malloc ( len ) ; strparm [ len - 1 ] = 0 ; strcpy ( newstring , strparm + 1 ) ; } else if ( strparm [ 0 ] == '0' && strparm [ 1 ] == 'x' ) sscanf ( strparm + 2 , ""%x"" , & parm ) ; else sscanf ( strparm , ""%i"" , & parm ) ; for ( i = 0 ; i < numdefaults ; i ++ ) if ( ! strcmp ( def , defaults [ i ] . name ) ) { if ( ! isstring ) * defaults [ i ] . location = parm ; else * defaults [ i ] . location = ( int ) newstring ; break ; } } } fclose ( f ) ; } for ( i = 0 ; i < numdefaults ; i ++ ) { if ( defaults [ i ] . scantranslate ) { parm = * defaults [ i ] . location ; defaults [ i ] . untranslated = parm ; * defaults [ i ] . location = scantokey [ parm ] ; } } }" 486,"CWE-399 static int filter_frame ( AVFilterLink * inlink , AVFrame * buf ) { AVFilterContext * ctx = inlink -> dst ; FPSContext * s = ctx -> priv ; AVFilterLink * outlink = ctx -> outputs [ 0 ] ; int64_t delta ; int i , ret ; s -> frames_in ++ ; if ( s -> pts == AV_NOPTS_VALUE ) { if ( buf -> pts != AV_NOPTS_VALUE ) { ret = write_to_fifo ( s -> fifo , buf ) ; if ( ret < 0 ) return ret ; if ( s -> start_time != DBL_MAX && s -> start_time != AV_NOPTS_VALUE ) { double first_pts = s -> start_time * AV_TIME_BASE ; first_pts = FFMIN ( FFMAX ( first_pts , INT64_MIN ) , INT64_MAX ) ; s -> first_pts = s -> pts = av_rescale_q ( first_pts , AV_TIME_BASE_Q , inlink -> time_base ) ; av_log ( ctx , AV_LOG_VERBOSE , ""Set first pts to (in:%"" PRId64 "" out:%"" PRId64 "")\\n"" , s -> first_pts , av_rescale_q ( first_pts , AV_TIME_BASE_Q , outlink -> time_base ) ) ; } else { s -> first_pts = s -> pts = buf -> pts ; } } else { av_log ( ctx , AV_LOG_WARNING , ""Discarding initial frame(s) with no "" ""timestamp.\\n"" ) ; av_frame_free ( & buf ) ; s -> drop ++ ; } return 0 ; } if ( buf -> pts == AV_NOPTS_VALUE ) { return write_to_fifo ( s -> fifo , buf ) ; } delta = av_rescale_q_rnd ( buf -> pts - s -> pts , inlink -> time_base , outlink -> time_base , s -> rounding ) ; if ( delta < 1 ) { AVFrame * tmp ; int drop = av_fifo_size ( s -> fifo ) / sizeof ( AVFrame * ) ; av_log ( ctx , AV_LOG_DEBUG , ""Dropping %d frame(s).\\n"" , drop ) ; s -> drop += drop ; av_fifo_generic_read ( s -> fifo , & tmp , sizeof ( tmp ) , NULL ) ; flush_fifo ( s -> fifo ) ; ret = write_to_fifo ( s -> fifo , tmp ) ; av_frame_free ( & buf ) ; return ret ; } for ( i = 0 ; i < delta ; i ++ ) { AVFrame * buf_out ; av_fifo_generic_read ( s -> fifo , & buf_out , sizeof ( buf_out ) , NULL ) ; if ( ! av_fifo_size ( s -> fifo ) && i < delta - 1 ) { AVFrame * dup = av_frame_clone ( buf_out ) ; av_log ( ctx , AV_LOG_DEBUG , ""Duplicating frame.\\n"" ) ; if ( dup ) ret = write_to_fifo ( s -> fifo , dup ) ; else ret = AVERROR ( ENOMEM ) ; if ( ret < 0 ) { av_frame_free ( & buf_out ) ; av_frame_free ( & buf ) ; return ret ; } s -> dup ++ ; } buf_out -> pts = av_rescale_q ( s -> first_pts , inlink -> time_base , outlink -> time_base ) + s -> frames_out ; if ( ( ret = ff_filter_frame ( outlink , buf_out ) ) < 0 ) { av_frame_free ( & buf ) ; return ret ; } s -> frames_out ++ ; } flush_fifo ( s -> fifo ) ; ret = write_to_fifo ( s -> fifo , buf ) ; s -> pts = s -> first_pts + av_rescale_q ( s -> frames_out , outlink -> time_base , inlink -> time_base ) ; return ret ; }","static int filter_frame ( AVFilterLink * inlink , AVFrame * buf ) { AVFilterContext * ctx = inlink -> dst ; FPSContext * s = ctx -> priv ; AVFilterLink * outlink = ctx -> outputs [ 0 ] ; int64_t delta ; int i , ret ; s -> frames_in ++ ; if ( s -> pts == AV_NOPTS_VALUE ) { if ( buf -> pts != AV_NOPTS_VALUE ) { ret = write_to_fifo ( s -> fifo , buf ) ; if ( ret < 0 ) return ret ; if ( s -> start_time != DBL_MAX && s -> start_time != AV_NOPTS_VALUE ) { double first_pts = s -> start_time * AV_TIME_BASE ; first_pts = FFMIN ( FFMAX ( first_pts , INT64_MIN ) , INT64_MAX ) ; s -> first_pts = s -> pts = av_rescale_q ( first_pts , AV_TIME_BASE_Q , inlink -> time_base ) ; av_log ( ctx , AV_LOG_VERBOSE , ""Set first pts to (in:%"" PRId64 "" out:%"" PRId64 "")\\n"" , s -> first_pts , av_rescale_q ( first_pts , AV_TIME_BASE_Q , outlink -> time_base ) ) ; } else { s -> first_pts = s -> pts = buf -> pts ; } } else { av_log ( ctx , AV_LOG_WARNING , ""Discarding initial frame(s) with no "" ""timestamp.\\n"" ) ; av_frame_free ( & buf ) ; s -> drop ++ ; } return 0 ; } if ( buf -> pts == AV_NOPTS_VALUE || av_fifo_size ( s -> fifo ) <= 0 ) { return write_to_fifo ( s -> fifo , buf ) ; } delta = av_rescale_q_rnd ( buf -> pts - s -> pts , inlink -> time_base , outlink -> time_base , s -> rounding ) ; if ( delta < 1 ) { AVFrame * tmp ; int drop = av_fifo_size ( s -> fifo ) / sizeof ( AVFrame * ) ; av_log ( ctx , AV_LOG_DEBUG , ""Dropping %d frame(s).\\n"" , drop ) ; s -> drop += drop ; av_fifo_generic_read ( s -> fifo , & tmp , sizeof ( tmp ) , NULL ) ; flush_fifo ( s -> fifo ) ; ret = write_to_fifo ( s -> fifo , tmp ) ; av_frame_free ( & buf ) ; return ret ; } for ( i = 0 ; i < delta ; i ++ ) { AVFrame * buf_out ; av_fifo_generic_read ( s -> fifo , & buf_out , sizeof ( buf_out ) , NULL ) ; if ( ! av_fifo_size ( s -> fifo ) && i < delta - 1 ) { AVFrame * dup = av_frame_clone ( buf_out ) ; av_log ( ctx , AV_LOG_DEBUG , ""Duplicating frame.\\n"" ) ; if ( dup ) ret = write_to_fifo ( s -> fifo , dup ) ; else ret = AVERROR ( ENOMEM ) ; if ( ret < 0 ) { av_frame_free ( & buf_out ) ; av_frame_free ( & buf ) ; return ret ; } s -> dup ++ ; } buf_out -> pts = av_rescale_q ( s -> first_pts , inlink -> time_base , outlink -> time_base ) + s -> frames_out ; if ( ( ret = ff_filter_frame ( outlink , buf_out ) ) < 0 ) { av_frame_free ( & buf ) ; return ret ; } s -> frames_out ++ ; } flush_fifo ( s -> fifo ) ; ret = write_to_fifo ( s -> fifo , buf ) ; s -> pts = s -> first_pts + av_rescale_q ( s -> frames_out , outlink -> time_base , inlink -> time_base ) ; return ret ; }" 487,"CWE-285 crm_client_t * crm_client_new ( qb_ipcs_connection_t * c , uid_t uid_client , gid_t gid_client ) { static uid_t uid_server = 0 ; static gid_t gid_cluster = 0 ; crm_client_t * client = NULL ; CRM_LOG_ASSERT ( c ) ; if ( c == NULL ) { return NULL ; } if ( gid_cluster == 0 ) { uid_server = getuid ( ) ; if ( crm_user_lookup ( CRM_DAEMON_USER , NULL , & gid_cluster ) < 0 ) { static bool have_error = FALSE ; if ( have_error == FALSE ) { crm_warn ( ""Could not find group for user %s"" , CRM_DAEMON_USER ) ; have_error = TRUE ; } } } if ( gid_cluster != 0 && gid_client != 0 ) { uid_t best_uid = - 1 ; if ( uid_client == 0 || uid_server == 0 ) { best_uid = QB_MAX ( uid_client , uid_server ) ; crm_trace ( ""Allowing user %u to clean up after disconnect"" , best_uid ) ; } crm_trace ( ""Giving access to group %u"" , gid_cluster ) ; qb_ipcs_connection_auth_set ( c , best_uid , gid_cluster , S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP ) ; } crm_client_init ( ) ; client = calloc ( 1 , sizeof ( crm_client_t ) ) ; client -> ipcs = c ; client -> kind = CRM_CLIENT_IPC ; client -> pid = crm_ipcs_client_pid ( c ) ; client -> id = crm_generate_uuid ( ) ; crm_debug ( ""Connecting %p for uid=%d gid=%d pid=%u id=%s"" , c , uid_client , gid_client , client -> pid , client -> id ) ; # if ENABLE_ACL client -> user = uid2username ( uid_client ) ; # endif g_hash_table_insert ( client_connections , c , client ) ; return client ; }","crm_client_t * crm_client_new ( qb_ipcs_connection_t * c , uid_t uid_client , gid_t gid_client ) { static gid_t gid_cluster = 0 ; crm_client_t * client = NULL ; CRM_LOG_ASSERT ( c ) ; if ( c == NULL ) { return NULL ; } if ( gid_cluster == 0 ) { if ( crm_user_lookup ( CRM_DAEMON_USER , NULL , & gid_cluster ) < 0 ) { static bool have_error = FALSE ; if ( have_error == FALSE ) { crm_warn ( ""Could not find group for user %s"" , CRM_DAEMON_USER ) ; have_error = TRUE ; } } } if ( uid_client != 0 ) { crm_trace ( ""Giving access to group %u"" , gid_cluster ) ; qb_ipcs_connection_auth_set ( c , - 1 , gid_cluster , S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP ) ; } crm_client_init ( ) ; client = calloc ( 1 , sizeof ( crm_client_t ) ) ; client -> ipcs = c ; client -> kind = CRM_CLIENT_IPC ; client -> pid = crm_ipcs_client_pid ( c ) ; client -> id = crm_generate_uuid ( ) ; crm_debug ( ""Connecting %p for uid=%d gid=%d pid=%u id=%s"" , c , uid_client , gid_client , client -> pid , client -> id ) ; # if ENABLE_ACL client -> user = uid2username ( uid_client ) ; # endif g_hash_table_insert ( client_connections , c , client ) ; return client ; }" 488,"CWE-119 int mutt_b64_decode ( char * out , const char * in ) { int len = 0 ; unsigned char digit4 ; do { const unsigned char digit1 = in [ 0 ] ; if ( ( digit1 > 127 ) || ( base64val ( digit1 ) == BAD ) ) return - 1 ; const unsigned char digit2 = in [ 1 ] ; if ( ( digit2 > 127 ) || ( base64val ( digit2 ) == BAD ) ) return - 1 ; const unsigned char digit3 = in [ 2 ] ; if ( ( digit3 > 127 ) || ( ( digit3 != '=' ) && ( base64val ( digit3 ) == BAD ) ) ) return - 1 ; digit4 = in [ 3 ] ; if ( ( digit4 > 127 ) || ( ( digit4 != '=' ) && ( base64val ( digit4 ) == BAD ) ) ) return - 1 ; in += 4 ; * out ++ = ( base64val ( digit1 ) << 2 ) | ( base64val ( digit2 ) >> 4 ) ; len ++ ; if ( digit3 != '=' ) { * out ++ = ( ( base64val ( digit2 ) << 4 ) & 0xf0 ) | ( base64val ( digit3 ) >> 2 ) ; len ++ ; if ( digit4 != '=' ) { * out ++ = ( ( base64val ( digit3 ) << 6 ) & 0xc0 ) | base64val ( digit4 ) ; len ++ ; } } } while ( * in && digit4 != '=' ) ; return len ; }","int mutt_b64_decode ( char * out , const char * in , size_t olen ) { int len = 0 ; unsigned char digit4 ; do { const unsigned char digit1 = in [ 0 ] ; if ( ( digit1 > 127 ) || ( base64val ( digit1 ) == BAD ) ) return - 1 ; const unsigned char digit2 = in [ 1 ] ; if ( ( digit2 > 127 ) || ( base64val ( digit2 ) == BAD ) ) return - 1 ; const unsigned char digit3 = in [ 2 ] ; if ( ( digit3 > 127 ) || ( ( digit3 != '=' ) && ( base64val ( digit3 ) == BAD ) ) ) return - 1 ; digit4 = in [ 3 ] ; if ( ( digit4 > 127 ) || ( ( digit4 != '=' ) && ( base64val ( digit4 ) == BAD ) ) ) return - 1 ; in += 4 ; if ( len == olen ) return len ; * out ++ = ( base64val ( digit1 ) << 2 ) | ( base64val ( digit2 ) >> 4 ) ; len ++ ; if ( digit3 != '=' ) { if ( len == olen ) return len ; * out ++ = ( ( base64val ( digit2 ) << 4 ) & 0xf0 ) | ( base64val ( digit3 ) >> 2 ) ; len ++ ; if ( digit4 != '=' ) { if ( len == olen ) return len ; * out ++ = ( ( base64val ( digit3 ) << 6 ) & 0xc0 ) | base64val ( digit4 ) ; len ++ ; } } } while ( * in && digit4 != '=' ) ; return len ; }" 489,CWE-476 void rfbReleaseClientIterator ( rfbClientIteratorPtr iterator ) { if ( iterator -> next ) rfbDecrClientRef ( iterator -> next ) ; free ( iterator ) ; },void rfbReleaseClientIterator ( rfbClientIteratorPtr iterator ) { if ( iterator && iterator -> next ) rfbDecrClientRef ( iterator -> next ) ; free ( iterator ) ; } 490,"CWE-119 vpx_codec_err_t vpx_svc_encode ( SvcContext * svc_ctx , vpx_codec_ctx_t * codec_ctx , struct vpx_image * rawimg , vpx_codec_pts_t pts , int64_t duration , int deadline ) { vpx_codec_err_t res ; vpx_codec_iter_t iter ; const vpx_codec_cx_pkt_t * cx_pkt ; struct LayerData * cx_layer_list = NULL ; struct LayerData * layer_data ; struct Superframe superframe ; SvcInternal * const si = get_svc_internal ( svc_ctx ) ; if ( svc_ctx == NULL || codec_ctx == NULL || si == NULL ) { return VPX_CODEC_INVALID_PARAM ; } memset ( & superframe , 0 , sizeof ( superframe ) ) ; svc_log_reset ( svc_ctx ) ; si -> rc_stats_buf_used = 0 ; si -> layers = svc_ctx -> spatial_layers ; if ( si -> frame_within_gop >= si -> kf_dist || si -> encode_frame_count == 0 ) { si -> frame_within_gop = 0 ; } si -> is_keyframe = ( si -> frame_within_gop == 0 ) ; si -> frame_size = 0 ; if ( rawimg != NULL ) { svc_log ( svc_ctx , SVC_LOG_DEBUG , ""vpx_svc_encode layers: %d, frame_count: %d, "" ""frame_within_gop: %d\\n"" , si -> layers , si -> encode_frame_count , si -> frame_within_gop ) ; } for ( si -> layer = 0 ; si -> layer < si -> layers ; ++ si -> layer ) { if ( svc_ctx -> encoding_mode == ALT_INTER_LAYER_PREDICTION_IP && si -> is_keyframe && ( si -> layer == 1 || si -> layer == 3 ) ) { svc_log ( svc_ctx , SVC_LOG_DEBUG , ""Skip encoding layer %d\\n"" , si -> layer ) ; continue ; } if ( rawimg != NULL ) { calculate_enc_frame_flags ( svc_ctx ) ; set_svc_parameters ( svc_ctx , codec_ctx ) ; } res = vpx_codec_encode ( codec_ctx , rawimg , pts , ( uint32_t ) duration , si -> enc_frame_flags , deadline ) ; if ( res != VPX_CODEC_OK ) { return res ; } iter = NULL ; while ( ( cx_pkt = vpx_codec_get_cx_data ( codec_ctx , & iter ) ) ) { switch ( cx_pkt -> kind ) { case VPX_CODEC_CX_FRAME_PKT : { const uint32_t frame_pkt_size = ( uint32_t ) ( cx_pkt -> data . frame . sz ) ; si -> bytes_sum [ si -> layer ] += frame_pkt_size ; svc_log ( svc_ctx , SVC_LOG_DEBUG , ""SVC frame: %d, layer: %d, size: %u\\n"" , si -> encode_frame_count , si -> layer , frame_pkt_size ) ; layer_data = ld_create ( cx_pkt -> data . frame . buf , ( size_t ) frame_pkt_size ) ; if ( layer_data == NULL ) { svc_log ( svc_ctx , SVC_LOG_ERROR , ""Error allocating LayerData\\n"" ) ; return VPX_CODEC_OK ; } ld_list_add ( & cx_layer_list , layer_data ) ; superframe . sizes [ superframe . count ++ ] = frame_pkt_size ; superframe . magnitude |= frame_pkt_size ; break ; } case VPX_CODEC_PSNR_PKT : { int i ; svc_log ( svc_ctx , SVC_LOG_DEBUG , ""SVC frame: %d, layer: %d, PSNR(Total/Y/U/V): "" ""%2.3f %2.3f %2.3f %2.3f \\n"" , si -> encode_frame_count , si -> layer , cx_pkt -> data . psnr . psnr [ 0 ] , cx_pkt -> data . psnr . psnr [ 1 ] , cx_pkt -> data . psnr . psnr [ 2 ] , cx_pkt -> data . psnr . psnr [ 3 ] ) ; svc_log ( svc_ctx , SVC_LOG_DEBUG , ""SVC frame: %d, layer: %d, SSE(Total/Y/U/V): "" ""%2.3f %2.3f %2.3f %2.3f \\n"" , si -> encode_frame_count , si -> layer , cx_pkt -> data . psnr . sse [ 0 ] , cx_pkt -> data . psnr . sse [ 1 ] , cx_pkt -> data . psnr . sse [ 2 ] , cx_pkt -> data . psnr . sse [ 3 ] ) ; for ( i = 0 ; i < COMPONENTS ; i ++ ) { si -> psnr_sum [ si -> layer ] [ i ] += cx_pkt -> data . psnr . psnr [ i ] ; si -> sse_sum [ si -> layer ] [ i ] += cx_pkt -> data . psnr . sse [ i ] ; } break ; } case VPX_CODEC_STATS_PKT : { size_t new_size = si -> rc_stats_buf_used + cx_pkt -> data . twopass_stats . sz ; if ( new_size > si -> rc_stats_buf_size ) { char * p = ( char * ) realloc ( si -> rc_stats_buf , new_size ) ; if ( p == NULL ) { svc_log ( svc_ctx , SVC_LOG_ERROR , ""Error allocating stats buf\\n"" ) ; break ; } si -> rc_stats_buf = p ; si -> rc_stats_buf_size = new_size ; } memcpy ( si -> rc_stats_buf + si -> rc_stats_buf_used , cx_pkt -> data . twopass_stats . buf , cx_pkt -> data . twopass_stats . sz ) ; si -> rc_stats_buf_used += cx_pkt -> data . twopass_stats . sz ; break ; } default : { break ; } } } if ( rawimg == NULL ) { break ; } } if ( codec_ctx -> config . enc -> g_pass != VPX_RC_FIRST_PASS ) { sf_create_index ( & superframe ) ; layer_data = ld_create ( superframe . buffer , superframe . index_size ) ; ld_list_add ( & cx_layer_list , layer_data ) ; si -> frame_size = ld_list_get_buffer_size ( cx_layer_list ) ; if ( si -> frame_size > 0 ) { if ( si -> frame_size > si -> buffer_size ) { free ( si -> buffer ) ; si -> buffer = malloc ( si -> frame_size ) ; if ( si -> buffer == NULL ) { ld_list_free ( cx_layer_list ) ; return VPX_CODEC_MEM_ERROR ; } si -> buffer_size = si -> frame_size ; } ld_list_copy_to_buffer ( cx_layer_list , ( uint8_t * ) si -> buffer ) ; ld_list_free ( cx_layer_list ) ; svc_log ( svc_ctx , SVC_LOG_DEBUG , ""SVC frame: %d, kf: %d, size: %d, "" ""pts: %d\\n"" , si -> encode_frame_count , si -> is_keyframe , ( int ) si -> frame_size , ( int ) pts ) ; } } ++ si -> frame_within_gop ; ++ si -> encode_frame_count ; return VPX_CODEC_OK ; }","vpx_codec_err_t vpx_svc_encode ( SvcContext * svc_ctx , vpx_codec_ctx_t * codec_ctx , struct vpx_image * rawimg , vpx_codec_pts_t pts , int64_t duration , int deadline ) { vpx_codec_err_t res ; vpx_codec_iter_t iter ; const vpx_codec_cx_pkt_t * cx_pkt ; SvcInternal_t * const si = get_svc_internal ( svc_ctx ) ; if ( svc_ctx == NULL || codec_ctx == NULL || si == NULL ) { return VPX_CODEC_INVALID_PARAM ; } svc_log_reset ( svc_ctx ) ; res = vpx_codec_encode ( codec_ctx , rawimg , pts , ( uint32_t ) duration , 0 , deadline ) ; if ( res != VPX_CODEC_OK ) { return res ; } iter = NULL ; while ( ( cx_pkt = vpx_codec_get_cx_data ( codec_ctx , & iter ) ) ) { switch ( cx_pkt -> kind ) { # if VPX_ENCODER_ABI_VERSION > ( 5 + VPX_CODEC_ABI_VERSION ) # if CONFIG_SPATIAL_SVC case VPX_CODEC_SPATIAL_SVC_LAYER_PSNR : { int i ; for ( i = 0 ; i < svc_ctx -> spatial_layers ; ++ i ) { int j ; svc_log ( svc_ctx , SVC_LOG_DEBUG , ""SVC frame: %d, layer: %d, PSNR(Total/Y/U/V): "" ""%2.3f %2.3f %2.3f %2.3f \\n"" , si -> psnr_pkt_received , i , cx_pkt -> data . layer_psnr [ i ] . psnr [ 0 ] , cx_pkt -> data . layer_psnr [ i ] . psnr [ 1 ] , cx_pkt -> data . layer_psnr [ i ] . psnr [ 2 ] , cx_pkt -> data . layer_psnr [ i ] . psnr [ 3 ] ) ; svc_log ( svc_ctx , SVC_LOG_DEBUG , ""SVC frame: %d, layer: %d, SSE(Total/Y/U/V): "" ""%2.3f %2.3f %2.3f %2.3f \\n"" , si -> psnr_pkt_received , i , cx_pkt -> data . layer_psnr [ i ] . sse [ 0 ] , cx_pkt -> data . layer_psnr [ i ] . sse [ 1 ] , cx_pkt -> data . layer_psnr [ i ] . sse [ 2 ] , cx_pkt -> data . layer_psnr [ i ] . sse [ 3 ] ) ; for ( j = 0 ; j < COMPONENTS ; ++ j ) { si -> psnr_sum [ i ] [ j ] += cx_pkt -> data . layer_psnr [ i ] . psnr [ j ] ; si -> sse_sum [ i ] [ j ] += cx_pkt -> data . layer_psnr [ i ] . sse [ j ] ; } } ++ si -> psnr_pkt_received ; break ; } case VPX_CODEC_SPATIAL_SVC_LAYER_SIZES : { int i ; for ( i = 0 ; i < svc_ctx -> spatial_layers ; ++ i ) si -> bytes_sum [ i ] += cx_pkt -> data . layer_sizes [ i ] ; break ; } # endif # endif default : { break ; } } } return VPX_CODEC_OK ; }" 491,"CWE-416 int snd_timer_open ( struct snd_timer_instance * * ti , char * owner , struct snd_timer_id * tid , unsigned int slave_id ) { struct snd_timer * timer ; struct snd_timer_instance * timeri = NULL ; struct device * card_dev_to_put = NULL ; int err ; mutex_lock ( & register_mutex ) ; if ( tid -> dev_class == SNDRV_TIMER_CLASS_SLAVE ) { if ( tid -> dev_sclass <= SNDRV_TIMER_SCLASS_NONE || tid -> dev_sclass > SNDRV_TIMER_SCLASS_OSS_SEQUENCER ) { pr_debug ( ""ALSA: timer: invalid slave class %i\\n"" , tid -> dev_sclass ) ; err = - EINVAL ; goto unlock ; } timeri = snd_timer_instance_new ( owner , NULL ) ; if ( ! timeri ) { err = - ENOMEM ; goto unlock ; } timeri -> slave_class = tid -> dev_sclass ; timeri -> slave_id = tid -> device ; timeri -> flags |= SNDRV_TIMER_IFLG_SLAVE ; list_add_tail ( & timeri -> open_list , & snd_timer_slave_list ) ; err = snd_timer_check_slave ( timeri ) ; if ( err < 0 ) { snd_timer_close_locked ( timeri , & card_dev_to_put ) ; timeri = NULL ; } goto unlock ; } timer = snd_timer_find ( tid ) ; # ifdef CONFIG_MODULES if ( ! timer ) { mutex_unlock ( & register_mutex ) ; snd_timer_request ( tid ) ; mutex_lock ( & register_mutex ) ; timer = snd_timer_find ( tid ) ; } # endif if ( ! timer ) { err = - ENODEV ; goto unlock ; } if ( ! list_empty ( & timer -> open_list_head ) ) { timeri = list_entry ( timer -> open_list_head . next , struct snd_timer_instance , open_list ) ; if ( timeri -> flags & SNDRV_TIMER_IFLG_EXCLUSIVE ) { err = - EBUSY ; timeri = NULL ; goto unlock ; } } if ( timer -> num_instances >= timer -> max_instances ) { err = - EBUSY ; goto unlock ; } timeri = snd_timer_instance_new ( owner , timer ) ; if ( ! timeri ) { err = - ENOMEM ; goto unlock ; } if ( timer -> card ) get_device ( & timer -> card -> card_dev ) ; timeri -> slave_class = tid -> dev_sclass ; timeri -> slave_id = slave_id ; if ( list_empty ( & timer -> open_list_head ) && timer -> hw . open ) { err = timer -> hw . open ( timer ) ; if ( err ) { kfree ( timeri -> owner ) ; kfree ( timeri ) ; timeri = NULL ; if ( timer -> card ) card_dev_to_put = & timer -> card -> card_dev ; module_put ( timer -> module ) ; goto unlock ; } } list_add_tail ( & timeri -> open_list , & timer -> open_list_head ) ; timer -> num_instances ++ ; err = snd_timer_check_master ( timeri ) ; if ( err < 0 ) { snd_timer_close_locked ( timeri , & card_dev_to_put ) ; timeri = NULL ; } unlock : mutex_unlock ( & register_mutex ) ; if ( card_dev_to_put ) put_device ( card_dev_to_put ) ; * ti = timeri ; return err ; }","int snd_timer_open ( struct snd_timer_instance * * ti , char * owner , struct snd_timer_id * tid , unsigned int slave_id ) { struct snd_timer * timer ; struct snd_timer_instance * timeri = NULL ; struct device * card_dev_to_put = NULL ; int err ; mutex_lock ( & register_mutex ) ; if ( tid -> dev_class == SNDRV_TIMER_CLASS_SLAVE ) { if ( tid -> dev_sclass <= SNDRV_TIMER_SCLASS_NONE || tid -> dev_sclass > SNDRV_TIMER_SCLASS_OSS_SEQUENCER ) { pr_debug ( ""ALSA: timer: invalid slave class %i\\n"" , tid -> dev_sclass ) ; err = - EINVAL ; goto unlock ; } timeri = snd_timer_instance_new ( owner , NULL ) ; if ( ! timeri ) { err = - ENOMEM ; goto unlock ; } timeri -> slave_class = tid -> dev_sclass ; timeri -> slave_id = tid -> device ; timeri -> flags |= SNDRV_TIMER_IFLG_SLAVE ; list_add_tail ( & timeri -> open_list , & snd_timer_slave_list ) ; err = snd_timer_check_slave ( timeri ) ; if ( err < 0 ) { snd_timer_close_locked ( timeri , & card_dev_to_put ) ; timeri = NULL ; } goto unlock ; } timer = snd_timer_find ( tid ) ; # ifdef CONFIG_MODULES if ( ! timer ) { mutex_unlock ( & register_mutex ) ; snd_timer_request ( tid ) ; mutex_lock ( & register_mutex ) ; timer = snd_timer_find ( tid ) ; } # endif if ( ! timer ) { err = - ENODEV ; goto unlock ; } if ( ! list_empty ( & timer -> open_list_head ) ) { struct snd_timer_instance * t = list_entry ( timer -> open_list_head . next , struct snd_timer_instance , open_list ) ; if ( t -> flags & SNDRV_TIMER_IFLG_EXCLUSIVE ) { err = - EBUSY ; goto unlock ; } } if ( timer -> num_instances >= timer -> max_instances ) { err = - EBUSY ; goto unlock ; } timeri = snd_timer_instance_new ( owner , timer ) ; if ( ! timeri ) { err = - ENOMEM ; goto unlock ; } if ( timer -> card ) get_device ( & timer -> card -> card_dev ) ; timeri -> slave_class = tid -> dev_sclass ; timeri -> slave_id = slave_id ; if ( list_empty ( & timer -> open_list_head ) && timer -> hw . open ) { err = timer -> hw . open ( timer ) ; if ( err ) { kfree ( timeri -> owner ) ; kfree ( timeri ) ; timeri = NULL ; if ( timer -> card ) card_dev_to_put = & timer -> card -> card_dev ; module_put ( timer -> module ) ; goto unlock ; } } list_add_tail ( & timeri -> open_list , & timer -> open_list_head ) ; timer -> num_instances ++ ; err = snd_timer_check_master ( timeri ) ; if ( err < 0 ) { snd_timer_close_locked ( timeri , & card_dev_to_put ) ; timeri = NULL ; } unlock : mutex_unlock ( & register_mutex ) ; if ( card_dev_to_put ) put_device ( card_dev_to_put ) ; * ti = timeri ; return err ; }" 492,"CWE-284 void _modinit ( module_t * m ) { service_named_bind_command ( ""chanserv"" , & cs_flags ) ; }","void _modinit ( module_t * m ) { service_named_bind_command ( ""chanserv"" , & cs_flags ) ; add_bool_conf_item ( ""ANOPE_FLAGS_COMPAT"" , & chansvs . me -> conf_table , 0 , & anope_flags_compat , true ) ; hook_add_event ( ""nick_can_register"" ) ; hook_add_nick_can_register ( check_registration_keywords ) ; hook_add_event ( ""user_can_register"" ) ; hook_add_user_can_register ( check_registration_keywords ) ; }" 493,"nan void vp8_decoder_remove_threads ( VP8D_COMP * pbi ) { if ( pbi -> b_multithreaded_rd ) { int i ; pbi -> b_multithreaded_rd = 0 ; for ( i = 0 ; i < pbi -> allocated_decoding_thread_count ; i ++ ) { sem_post ( & pbi -> h_event_start_decoding [ i ] ) ; pthread_join ( pbi -> h_decoding_thread [ i ] , NULL ) ; } for ( i = 0 ; i < pbi -> allocated_decoding_thread_count ; i ++ ) { sem_destroy ( & pbi -> h_event_start_decoding [ i ] ) ; } sem_destroy ( & pbi -> h_event_end_decoding ) ; vpx_free ( pbi -> h_decoding_thread ) ; pbi -> h_decoding_thread = NULL ; vpx_free ( pbi -> h_event_start_decoding ) ; pbi -> h_event_start_decoding = NULL ; vpx_free ( pbi -> mb_row_di ) ; pbi -> mb_row_di = NULL ; vpx_free ( pbi -> de_thread_data ) ; pbi -> de_thread_data = NULL ; } }","void vp8_decoder_remove_threads ( VP8D_COMP * pbi ) { if ( pbi -> b_multithreaded_rd ) { int i ; pbi -> b_multithreaded_rd = 0 ; for ( i = 0 ; i < pbi -> allocated_decoding_thread_count ; ++ i ) { sem_post ( & pbi -> h_event_start_decoding [ i ] ) ; pthread_join ( pbi -> h_decoding_thread [ i ] , NULL ) ; } for ( i = 0 ; i < pbi -> allocated_decoding_thread_count ; ++ i ) { sem_destroy ( & pbi -> h_event_start_decoding [ i ] ) ; } sem_destroy ( & pbi -> h_event_end_decoding ) ; vpx_free ( pbi -> h_decoding_thread ) ; pbi -> h_decoding_thread = NULL ; vpx_free ( pbi -> h_event_start_decoding ) ; pbi -> h_event_start_decoding = NULL ; vpx_free ( pbi -> mb_row_di ) ; pbi -> mb_row_di = NULL ; vpx_free ( pbi -> de_thread_data ) ; pbi -> de_thread_data = NULL ; vp8mt_de_alloc_temp_buffers ( pbi , pbi -> common . mb_rows ) ; } }" 494,"CWE-252 char * _dl_dst_substitute ( struct link_map * l , const char * name , char * result , int is_path ) { char * last_elem , * wp ; last_elem = wp = result ; do { if ( * name == '$' ) { const char * repl ; size_t len ; if ( ( ( ( strncmp ( & name [ 1 ] , ""ORIGIN"" , 6 ) == 0 && ( len = 7 ) != 0 ) || ( strncmp ( & name [ 1 ] , ""PLATFORM"" , 8 ) == 0 && ( len = 9 ) != 0 ) ) && ( name [ len ] == '\\0' || name [ len ] == '/' || ( is_path && name [ len ] == ':' ) ) ) || ( name [ 1 ] == '{' && ( ( strncmp ( & name [ 2 ] , ""ORIGIN}"" , 7 ) == 0 && ( len = 9 ) != 0 ) || ( strncmp ( & name [ 2 ] , ""PLATFORM}"" , 9 ) == 0 && ( len = 11 ) != 0 ) ) ) ) { repl = ( ( len == 7 || name [ 2 ] == 'O' ) ? ( __libc_enable_secure ? NULL : l -> l_origin ) : _dl_platform ) ; if ( repl != NULL && repl != ( const char * ) - 1 ) { wp = __stpcpy ( wp , repl ) ; name += len ; } else { wp = last_elem ; name += len ; while ( * name != '\\0' && ( ! is_path || * name != ':' ) ) } } else * wp ++ = * name ++ ; } else if ( is_path && * name == ':' ) { * wp ++ = * name ++ ; last_elem = wp ; } else * wp ++ = * name ++ ; } while ( * name != '\\0' ) ; * wp = '\\0' ; return result ; }","char * _dl_dst_substitute ( struct link_map * l , const char * name , char * result , int is_path ) { const char * const start = name ; char * last_elem , * wp ; last_elem = wp = result ; do { if ( * name == '$' ) { const char * repl ; size_t len ; if ( ( ( ( strncmp ( & name [ 1 ] , ""ORIGIN}"" , 6 ) == 0 && ( len = 7 ) != 0 ) || ( strncmp ( & name [ 1 ] , ""PLATFORM}"" , 8 ) == 0 && ( len = 9 ) != 0 ) ) && ( name [ len ] == '\\0' || name [ len ] == '/' || ( is_path && name [ len ] == ':' ) ) ) || ( name [ 1 ] == '{' && ( ( strncmp ( & name [ 2 ] , ""ORIGIN}"" , 7 ) == 0 && ( len = 9 ) != 0 ) || ( strncmp ( & name [ 2 ] , ""PLATFORM}"" , 9 ) == 0 && ( len = 11 ) != 0 ) ) ) ) { repl = ( ( len == 7 || name [ 2 ] == 'O' ) ? ( __libc_enable_secure && ( ( name [ len ] != '\\0' && ( ! is_path || name [ len ] != ':' ) ) || ( name != start && ( ! is_path || name [ - 1 ] != ':' ) ) ) ? NULL : l -> l_origin ) : _dl_platform ) ; if ( repl != NULL && repl != ( const char * ) - 1 ) { wp = __stpcpy ( wp , repl ) ; name += len ; } else { wp = last_elem ; name += len ; while ( * name != '\\0' && ( ! is_path || * name != ':' ) ) + name ; } } else * wp ++ = * name ++ ; } else if ( is_path && * name == ':' ) { * wp ++ = * name ++ ; last_elem = wp ; } else * wp ++ = * name ++ ; } while ( * name != '\\0' ) ; * wp = '\\0' ; return result ; }" 495,"CWE-404 int nfs3svc_decode_readlinkargs ( struct svc_rqst * rqstp , __be32 * p , struct nfsd3_readlinkargs * args ) { p = decode_fh ( p , & args -> fh ) ; if ( ! p ) return 0 ; args -> buffer = page_address ( * ( rqstp -> rq_next_page ++ ) ) ; return xdr_argsize_check ( rqstp , p ) ; }","int nfs3svc_decode_readlinkargs ( struct svc_rqst * rqstp , __be32 * p , struct nfsd3_readlinkargs * args ) { p = decode_fh ( p , & args -> fh ) ; if ( ! p ) return 0 ; if ( ! xdr_argsize_check ( rqstp , p ) ) return 0 ; args -> buffer = page_address ( * ( rqstp -> rq_next_page ++ ) ) ; return 1 ; }" 496,"CWE-119 void vp9_rd_pick_intra_mode_sb ( VP9_COMP * cpi , MACROBLOCK * x , int * returnrate , int64_t * returndist , BLOCK_SIZE bsize , PICK_MODE_CONTEXT * ctx , int64_t best_rd ) { VP9_COMMON * const cm = & cpi -> common ; MACROBLOCKD * const xd = & x -> e_mbd ; int rate_y = 0 , rate_uv = 0 , rate_y_tokenonly = 0 , rate_uv_tokenonly = 0 ; int y_skip = 0 , uv_skip = 0 ; int64_t dist_y = 0 , dist_uv = 0 , tx_cache [ TX_MODES ] = { 0 } ; TX_SIZE max_uv_tx_size ; x -> skip_encode = 0 ; ctx -> skip = 0 ; xd -> mi [ 0 ] -> mbmi . ref_frame [ 0 ] = INTRA_FRAME ; if ( bsize >= BLOCK_8X8 ) { if ( rd_pick_intra_sby_mode ( cpi , x , & rate_y , & rate_y_tokenonly , & dist_y , & y_skip , bsize , tx_cache , best_rd ) >= best_rd ) { * returnrate = INT_MAX ; return ; } max_uv_tx_size = get_uv_tx_size_impl ( xd -> mi [ 0 ] -> mbmi . tx_size , bsize ) ; rd_pick_intra_sbuv_mode ( cpi , x , ctx , & rate_uv , & rate_uv_tokenonly , & dist_uv , & uv_skip , bsize , max_uv_tx_size ) ; } else { y_skip = 0 ; if ( rd_pick_intra_sub_8x8_y_mode ( cpi , x , & rate_y , & rate_y_tokenonly , & dist_y , best_rd ) >= best_rd ) { * returnrate = INT_MAX ; return ; } max_uv_tx_size = get_uv_tx_size_impl ( xd -> mi [ 0 ] -> mbmi . tx_size , bsize ) ; rd_pick_intra_sbuv_mode ( cpi , x , ctx , & rate_uv , & rate_uv_tokenonly , & dist_uv , & uv_skip , BLOCK_8X8 , max_uv_tx_size ) ; } if ( y_skip && uv_skip ) { * returnrate = rate_y + rate_uv - rate_y_tokenonly - rate_uv_tokenonly + vp9_cost_bit ( vp9_get_skip_prob ( cm , xd ) , 1 ) ; * returndist = dist_y + dist_uv ; vp9_zero ( ctx -> tx_rd_diff ) ; } else { int i ; * returnrate = rate_y + rate_uv + vp9_cost_bit ( vp9_get_skip_prob ( cm , xd ) , 0 ) ; * returndist = dist_y + dist_uv ; if ( cpi -> sf . tx_size_search_method == USE_FULL_RD ) for ( i = 0 ; i < TX_MODES ; i ++ ) { if ( tx_cache [ i ] < INT64_MAX && tx_cache [ cm -> tx_mode ] < INT64_MAX ) ctx -> tx_rd_diff [ i ] = tx_cache [ i ] - tx_cache [ cm -> tx_mode ] ; else ctx -> tx_rd_diff [ i ] = 0 ; } } ctx -> mic = * xd -> mi [ 0 ] ; }","void vp9_rd_pick_intra_mode_sb ( VP9_COMP * cpi , MACROBLOCK * x , RD_COST * rd_cost , BLOCK_SIZE bsize , PICK_MODE_CONTEXT * ctx , int64_t best_rd ) { VP9_COMMON * const cm = & cpi -> common ; MACROBLOCKD * const xd = & x -> e_mbd ; struct macroblockd_plane * const pd = xd -> plane ; int rate_y = 0 , rate_uv = 0 , rate_y_tokenonly = 0 , rate_uv_tokenonly = 0 ; int y_skip = 0 , uv_skip = 0 ; int64_t dist_y = 0 , dist_uv = 0 ; TX_SIZE max_uv_tx_size ; x -> skip_encode = 0 ; ctx -> skip = 0 ; xd -> mi [ 0 ] -> mbmi . ref_frame [ 0 ] = INTRA_FRAME ; xd -> mi [ 0 ] -> mbmi . ref_frame [ 1 ] = NONE ; if ( bsize >= BLOCK_8X8 ) { if ( rd_pick_intra_sby_mode ( cpi , x , & rate_y , & rate_y_tokenonly , & dist_y , & y_skip , bsize , best_rd ) >= best_rd ) { rd_cost -> rate = INT_MAX ; return ; } } else { y_skip = 0 ; if ( rd_pick_intra_sub_8x8_y_mode ( cpi , x , & rate_y , & rate_y_tokenonly , & dist_y , best_rd ) >= best_rd ) { rd_cost -> rate = INT_MAX ; return ; } } max_uv_tx_size = get_uv_tx_size_impl ( xd -> mi [ 0 ] -> mbmi . tx_size , bsize , pd [ 1 ] . subsampling_x , pd [ 1 ] . subsampling_y ) ; rd_pick_intra_sbuv_mode ( cpi , x , ctx , & rate_uv , & rate_uv_tokenonly , & dist_uv , & uv_skip , MAX ( BLOCK_8X8 , bsize ) , max_uv_tx_size ) ; if ( y_skip && uv_skip ) { rd_cost -> rate = rate_y + rate_uv - rate_y_tokenonly - rate_uv_tokenonly + vp9_cost_bit ( vp9_get_skip_prob ( cm , xd ) , 1 ) ; rd_cost -> dist = dist_y + dist_uv ; } else { rd_cost -> rate = rate_y + rate_uv + vp9_cost_bit ( vp9_get_skip_prob ( cm , xd ) , 0 ) ; rd_cost -> dist = dist_y + dist_uv ; } ctx -> mic = * xd -> mi [ 0 ] ; ctx -> mbmi_ext = * x -> mbmi_ext ; rd_cost -> rdcost = RDCOST ( x -> rdmult , x -> rddiv , rd_cost -> rate , rd_cost -> dist ) ; }" 497,"CWE-444 int optval = 1 ; struct pollfd pa [ 100 ] ; struct pollfd * p ; struct _agooErr err = AGOO_ERR_INIT ; struct sockaddr_in client_addr ; int client_sock ; int pcnt = 0 ; socklen_t alen = 0 ; agooCon con ; int i ; uint64_t cnt = 0 ; agooBind b ; for ( b = agoo_server . binds , p = pa ; NULL != b ; b = b -> next , p ++ , pcnt ++ ) { p -> fd = b -> fd ; p -> events = POLLIN ; p -> revents = 0 ; } memset ( & client_addr , 0 , sizeof ( client_addr ) ) ; atomic_fetch_add ( & agoo_server . running , 1 ) ; while ( agoo_server . active ) { if ( 0 > ( i = poll ( pa , pcnt , 200 ) ) ) { if ( EAGAIN == errno ) { continue ; } agoo_log_cat ( & agoo_error_cat , ""Server polling error. %s."" , strerror ( errno ) ) ; break ; } if ( 0 == i ) { continue ; } for ( b = agoo_server . binds , p = pa ; NULL != b ; b = b -> next , p ++ ) { if ( 0 != ( p -> revents & POLLIN ) ) { if ( 0 > ( client_sock = accept ( p -> fd , ( struct sockaddr * ) & client_addr , & alen ) ) ) { agoo_log_cat ( & agoo_error_cat , ""Server with pid %d accept connection failed. %s."" , getpid ( ) , strerror ( errno ) ) ; } else if ( NULL == ( con = agoo_con_create ( & err , client_sock , ++ cnt , b ) ) ) { agoo_log_cat ( & agoo_error_cat , ""Server with pid %d accept connection failed. %s."" , getpid ( ) , err . msg ) ; close ( client_sock ) ; cnt -- ; agoo_err_clear ( & err ) ; } else { int con_cnt ; # ifdef OSX_OS setsockopt ( client_sock , SOL_SOCKET , SO_NOSIGPIPE , & optval , sizeof ( optval ) ) ; # endif # ifdef PLATFORM_LINUX setsockopt ( client_sock , IPPROTO_TCP , TCP_QUICKACK , & optval , sizeof ( optval ) ) ; # endif fcntl ( client_sock , F_SETFL , O_NONBLOCK ) ; setsockopt ( client_sock , SOL_SOCKET , SO_KEEPALIVE , & optval , sizeof ( optval ) ) ; setsockopt ( client_sock , IPPROTO_TCP , TCP_NODELAY , & optval , sizeof ( optval ) ) ; agoo_log_cat ( & agoo_con_cat , ""Server with pid %d accepted connection %llu on %s [%d]"" , getpid ( ) , ( unsigned long long ) cnt , b -> id , con -> sock ) ; con_cnt = atomic_fetch_add ( & agoo_server . con_cnt , 1 ) ; if ( agoo_server . loop_max > agoo_server . loop_cnt && agoo_server . loop_cnt * LOOP_UP < con_cnt ) { add_con_loop ( ) ; } agoo_queue_push ( & agoo_server . con_queue , ( void * ) con ) ; } } if ( 0 != ( p -> revents & ( POLLERR | POLLHUP | POLLNVAL ) ) ) { if ( 0 != ( p -> revents & ( POLLHUP | POLLNVAL ) ) ) { agoo_log_cat ( & agoo_error_cat , ""Agoo server with pid %d socket on %s closed."" , getpid ( ) , b -> id ) ; } else { agoo_log_cat ( & agoo_error_cat , ""Agoo server with pid %d socket on %s error."" , getpid ( ) , b -> id ) ; } agoo_server . active = false ; } p -> revents = 0 ; } } for ( b = agoo_server . binds ; NULL != b ; b = b -> next ) { agoo_bind_close ( b ) ; } atomic_fetch_sub ( & agoo_server . running , 1 ) ; return NULL ; }","int optval = 1 ; struct pollfd pa [ 100 ] ; struct pollfd * p ; struct _agooErr err = AGOO_ERR_INIT ; struct sockaddr_in client_addr ; int client_sock ; int pcnt = 0 ; socklen_t alen = 0 ; agooCon con ; int i ; uint64_t cnt = 0 ; agooBind b ; for ( b = agoo_server . binds , p = pa ; NULL != b ; b = b -> next , p ++ , pcnt ++ ) { p -> fd = b -> fd ; p -> events = POLLIN ; p -> revents = 0 ; } memset ( & client_addr , 0 , sizeof ( client_addr ) ) ; atomic_fetch_add ( & agoo_server . running , 1 ) ; while ( agoo_server . active ) { if ( 0 > ( i = poll ( pa , pcnt , 200 ) ) ) { if ( EAGAIN == errno ) { continue ; } agoo_log_cat ( & agoo_error_cat , ""Server polling error. %s."" , strerror ( errno ) ) ; break ; } if ( 0 == i ) { continue ; } for ( b = agoo_server . binds , p = pa ; NULL != b ; b = b -> next , p ++ ) { if ( 0 != ( p -> revents & POLLIN ) ) { if ( 0 > ( client_sock = accept ( p -> fd , ( struct sockaddr * ) & client_addr , & alen ) ) ) { agoo_log_cat ( & agoo_error_cat , ""Server with pid %d accept connection failed. %s."" , getpid ( ) , strerror ( errno ) ) ; } else if ( NULL == ( con = agoo_con_create ( & err , client_sock , ++ cnt , b ) ) ) { agoo_log_cat ( & agoo_error_cat , ""Server with pid %d accept connection failed. %s."" , getpid ( ) , err . msg ) ; close ( client_sock ) ; cnt -- ; agoo_err_clear ( & err ) ; } else { int con_cnt ; # ifdef OSX_OS setsockopt ( client_sock , SOL_SOCKET , SO_NOSIGPIPE , & optval , sizeof ( optval ) ) ; # endif # ifdef PLATFORM_LINUX setsockopt ( client_sock , IPPROTO_TCP , TCP_QUICKACK , & optval , sizeof ( optval ) ) ; # endif fcntl ( client_sock , F_SETFL , O_NONBLOCK ) ; setsockopt ( client_sock , SOL_SOCKET , SO_KEEPALIVE , & optval , sizeof ( optval ) ) ; setsockopt ( client_sock , IPPROTO_TCP , TCP_NODELAY , & optval , sizeof ( optval ) ) ; agoo_log_cat ( & agoo_con_cat , ""Server with pid %d accepted connection %llu on %s [%d] from %s"" , getpid ( ) , ( unsigned long long ) cnt , b -> id , con -> sock , con -> remote ) ; con_cnt = atomic_fetch_add ( & agoo_server . con_cnt , 1 ) ; if ( agoo_server . loop_max > agoo_server . loop_cnt && agoo_server . loop_cnt * LOOP_UP < con_cnt ) { add_con_loop ( ) ; } agoo_queue_push ( & agoo_server . con_queue , ( void * ) con ) ; } } if ( 0 != ( p -> revents & ( POLLERR | POLLHUP | POLLNVAL ) ) ) { if ( 0 != ( p -> revents & ( POLLHUP | POLLNVAL ) ) ) { agoo_log_cat ( & agoo_error_cat , ""Agoo server with pid %d socket on %s closed."" , getpid ( ) , b -> id ) ; } else { agoo_log_cat ( & agoo_error_cat , ""Agoo server with pid %d socket on %s error."" , getpid ( ) , b -> id ) ; } agoo_server . active = false ; } p -> revents = 0 ; } } for ( b = agoo_server . binds ; NULL != b ; b = b -> next ) { agoo_bind_close ( b ) ; } atomic_fetch_sub ( & agoo_server . running , 1 ) ; return NULL ; }" 498,"CWE-310 void bn_sqr_comba8 ( BN_ULONG * r , const BN_ULONG * a ) { BN_ULONG t1 , t2 ; BN_ULONG c1 , c2 , c3 ; c1 = 0 ; c2 = 0 ; c3 = 0 ; sqr_add_c ( a , 0 , c1 , c2 , c3 ) ; r [ 0 ] = c1 ; c1 = 0 ; sqr_add_c2 ( a , 1 , 0 , c2 , c3 , c1 ) ; r [ 1 ] = c2 ; c2 = 0 ; sqr_add_c ( a , 1 , c3 , c1 , c2 ) ; sqr_add_c2 ( a , 2 , 0 , c3 , c1 , c2 ) ; r [ 2 ] = c3 ; c3 = 0 ; sqr_add_c2 ( a , 3 , 0 , c1 , c2 , c3 ) ; sqr_add_c2 ( a , 2 , 1 , c1 , c2 , c3 ) ; r [ 3 ] = c1 ; c1 = 0 ; sqr_add_c ( a , 2 , c2 , c3 , c1 ) ; sqr_add_c2 ( a , 3 , 1 , c2 , c3 , c1 ) ; sqr_add_c2 ( a , 4 , 0 , c2 , c3 , c1 ) ; r [ 4 ] = c2 ; c2 = 0 ; sqr_add_c2 ( a , 5 , 0 , c3 , c1 , c2 ) ; sqr_add_c2 ( a , 4 , 1 , c3 , c1 , c2 ) ; sqr_add_c2 ( a , 3 , 2 , c3 , c1 , c2 ) ; r [ 5 ] = c3 ; c3 = 0 ; sqr_add_c ( a , 3 , c1 , c2 , c3 ) ; sqr_add_c2 ( a , 4 , 2 , c1 , c2 , c3 ) ; sqr_add_c2 ( a , 5 , 1 , c1 , c2 , c3 ) ; sqr_add_c2 ( a , 6 , 0 , c1 , c2 , c3 ) ; r [ 6 ] = c1 ; c1 = 0 ; sqr_add_c2 ( a , 7 , 0 , c2 , c3 , c1 ) ; sqr_add_c2 ( a , 6 , 1 , c2 , c3 , c1 ) ; sqr_add_c2 ( a , 5 , 2 , c2 , c3 , c1 ) ; sqr_add_c2 ( a , 4 , 3 , c2 , c3 , c1 ) ; r [ 7 ] = c2 ; c2 = 0 ; sqr_add_c ( a , 4 , c3 , c1 , c2 ) ; sqr_add_c2 ( a , 5 , 3 , c3 , c1 , c2 ) ; sqr_add_c2 ( a , 6 , 2 , c3 , c1 , c2 ) ; sqr_add_c2 ( a , 7 , 1 , c3 , c1 , c2 ) ; r [ 8 ] = c3 ; c3 = 0 ; sqr_add_c2 ( a , 7 , 2 , c1 , c2 , c3 ) ; sqr_add_c2 ( a , 6 , 3 , c1 , c2 , c3 ) ; sqr_add_c2 ( a , 5 , 4 , c1 , c2 , c3 ) ; r [ 9 ] = c1 ;","void bn_sqr_comba8 ( BN_ULONG * r , const BN_ULONG * a ) { BN_ULONG c1 , c2 , c3 ; c1 = 0 ; c2 = 0 ; c3 = 0 ; sqr_add_c ( a , 0 , c1 , c2 , c3 ) ; r [ 0 ] = c1 ; c1 = 0 ; sqr_add_c2 ( a , 1 , 0 , c2 , c3 , c1 ) ; r [ 1 ] = c2 ; c2 = 0 ; sqr_add_c ( a , 1 , c3 , c1 , c2 ) ; sqr_add_c2 ( a , 2 , 0 , c3 , c1 , c2 ) ; r [ 2 ] = c3 ; c3 = 0 ; sqr_add_c2 ( a , 3 , 0 , c1 , c2 , c3 ) ; sqr_add_c2 ( a , 2 , 1 , c1 , c2 , c3 ) ; r [ 3 ] = c1 ; c1 = 0 ; sqr_add_c ( a , 2 , c2 , c3 , c1 ) ; sqr_add_c2 ( a , 3 , 1 , c2 , c3 , c1 ) ; sqr_add_c2 ( a , 4 , 0 , c2 , c3 , c1 ) ; r [ 4 ] = c2 ; c2 = 0 ; sqr_add_c2 ( a , 5 , 0 , c3 , c1 , c2 ) ; sqr_add_c2 ( a , 4 , 1 , c3 , c1 , c2 ) ; sqr_add_c2 ( a , 3 , 2 , c3 , c1 , c2 ) ; r [ 5 ] = c3 ; c3 = 0 ; sqr_add_c ( a , 3 , c1 , c2 , c3 ) ; sqr_add_c2 ( a , 4 , 2 , c1 , c2 , c3 ) ; sqr_add_c2 ( a , 5 , 1 , c1 , c2 , c3 ) ; sqr_add_c2 ( a , 6 , 0 , c1 , c2 , c3 ) ; r [ 6 ] = c1 ; c1 = 0 ; sqr_add_c2 ( a , 7 , 0 , c2 , c3 , c1 ) ; sqr_add_c2 ( a , 6 , 1 , c2 , c3 , c1 ) ; sqr_add_c2 ( a , 5 , 2 , c2 , c3 , c1 ) ; sqr_add_c2 ( a , 4 , 3 , c2 , c3 , c1 ) ; r [ 7 ] = c2 ; c2 = 0 ; sqr_add_c ( a , 4 , c3 , c1 , c2 ) ; sqr_add_c2 ( a , 5 , 3 , c3 , c1 , c2 ) ; sqr_add_c2 ( a , 6 , 2 , c3 , c1 , c2 ) ; sqr_add_c2 ( a , 7 , 1 , c3 , c1 , c2 ) ; r [ 8 ] = c3 ; c3 = 0 ; sqr_add_c2 ( a , 7 , 2 , c1 , c2 , c3 ) ; sqr_add_c2 ( a , 6 , 3 , c1 , c2 , c3 ) ; sqr_add_c2 ( a , 5 , 4 , c1 , c2 , c3 ) ; r [ 9 ] = c1 ;" 499,"CWE-476 static int mcryptd_create_hash ( struct crypto_template * tmpl , struct rtattr * * tb , struct mcryptd_queue * queue ) { struct hashd_instance_ctx * ctx ; struct ahash_instance * inst ; struct hash_alg_common * halg ; struct crypto_alg * alg ; u32 type = 0 ; u32 mask = 0 ; int err ; mcryptd_check_internal ( tb , & type , & mask ) ; halg = ahash_attr_alg ( tb [ 1 ] , type , mask ) ; if ( IS_ERR ( halg ) ) return PTR_ERR ( halg ) ; alg = & halg -> base ; pr_debug ( ""crypto: mcryptd hash alg: %s\\n"" , alg -> cra_name ) ; inst = mcryptd_alloc_instance ( alg , ahash_instance_headroom ( ) , sizeof ( * ctx ) ) ; err = PTR_ERR ( inst ) ; if ( IS_ERR ( inst ) ) goto out_put_alg ; ctx = ahash_instance_ctx ( inst ) ; ctx -> queue = queue ; err = crypto_init_ahash_spawn ( & ctx -> spawn , halg , ahash_crypto_instance ( inst ) ) ; if ( err ) goto out_free_inst ; type = CRYPTO_ALG_ASYNC ; if ( alg -> cra_flags & CRYPTO_ALG_INTERNAL ) type |= CRYPTO_ALG_INTERNAL ; inst -> alg . halg . base . cra_flags = type ; inst -> alg . halg . digestsize = halg -> digestsize ; inst -> alg . halg . statesize = halg -> statesize ; inst -> alg . halg . base . cra_ctxsize = sizeof ( struct mcryptd_hash_ctx ) ; inst -> alg . halg . base . cra_init = mcryptd_hash_init_tfm ; inst -> alg . halg . base . cra_exit = mcryptd_hash_exit_tfm ; inst -> alg . init = mcryptd_hash_init_enqueue ; inst -> alg . update = mcryptd_hash_update_enqueue ; inst -> alg . final = mcryptd_hash_final_enqueue ; inst -> alg . finup = mcryptd_hash_finup_enqueue ; inst -> alg . export = mcryptd_hash_export ; inst -> alg . import = mcryptd_hash_import ; inst -> alg . setkey = mcryptd_hash_setkey ; inst -> alg . digest = mcryptd_hash_digest_enqueue ; err = ahash_register_instance ( tmpl , inst ) ; if ( err ) { crypto_drop_ahash ( & ctx -> spawn ) ; out_free_inst : kfree ( inst ) ; } out_put_alg : crypto_mod_put ( alg ) ; return err ; }","static int mcryptd_create_hash ( struct crypto_template * tmpl , struct rtattr * * tb , struct mcryptd_queue * queue ) { struct hashd_instance_ctx * ctx ; struct ahash_instance * inst ; struct hash_alg_common * halg ; struct crypto_alg * alg ; u32 type = 0 ; u32 mask = 0 ; int err ; if ( ! mcryptd_check_internal ( tb , & type , & mask ) ) return - EINVAL ; halg = ahash_attr_alg ( tb [ 1 ] , type , mask ) ; if ( IS_ERR ( halg ) ) return PTR_ERR ( halg ) ; alg = & halg -> base ; pr_debug ( ""crypto: mcryptd hash alg: %s\\n"" , alg -> cra_name ) ; inst = mcryptd_alloc_instance ( alg , ahash_instance_headroom ( ) , sizeof ( * ctx ) ) ; err = PTR_ERR ( inst ) ; if ( IS_ERR ( inst ) ) goto out_put_alg ; ctx = ahash_instance_ctx ( inst ) ; ctx -> queue = queue ; err = crypto_init_ahash_spawn ( & ctx -> spawn , halg , ahash_crypto_instance ( inst ) ) ; if ( err ) goto out_free_inst ; type = CRYPTO_ALG_ASYNC ; if ( alg -> cra_flags & CRYPTO_ALG_INTERNAL ) type |= CRYPTO_ALG_INTERNAL ; inst -> alg . halg . base . cra_flags = type ; inst -> alg . halg . digestsize = halg -> digestsize ; inst -> alg . halg . statesize = halg -> statesize ; inst -> alg . halg . base . cra_ctxsize = sizeof ( struct mcryptd_hash_ctx ) ; inst -> alg . halg . base . cra_init = mcryptd_hash_init_tfm ; inst -> alg . halg . base . cra_exit = mcryptd_hash_exit_tfm ; inst -> alg . init = mcryptd_hash_init_enqueue ; inst -> alg . update = mcryptd_hash_update_enqueue ; inst -> alg . final = mcryptd_hash_final_enqueue ; inst -> alg . finup = mcryptd_hash_finup_enqueue ; inst -> alg . export = mcryptd_hash_export ; inst -> alg . import = mcryptd_hash_import ; inst -> alg . setkey = mcryptd_hash_setkey ; inst -> alg . digest = mcryptd_hash_digest_enqueue ; err = ahash_register_instance ( tmpl , inst ) ; if ( err ) { crypto_drop_ahash ( & ctx -> spawn ) ; out_free_inst : kfree ( inst ) ; } out_put_alg : crypto_mod_put ( alg ) ; return err ; }" 500,"CWE-119 void cJSON_AddItemToObject ( cJSON * object , const char * string , cJSON * item ) { if ( ! item ) return ; if ( item -> string ) cJSON_free ( item -> string ) ; item -> string = cJSON_strdup ( string ) ; cJSON_AddItemToArray ( object , item ) ; } ","void cJSON_AddItemToObject ( cJSON * object , const char * string , cJSON * item ) { if ( ! item ) return ; if ( item -> string ) cJSON_free ( item -> string ) ; item -> string = cJSON_strdup ( string ) ; cJSON_AddItemToArray ( object , item ) ; }" 501,"CWE-22 static int target_xcopy_locate_se_dev_e4_iter ( struct se_device * se_dev , void * data ) { struct xcopy_dev_search_info * info = data ; unsigned char tmp_dev_wwn [ XCOPY_NAA_IEEE_REGEX_LEN ] ; int rc ; if ( ! se_dev -> dev_attrib . emulate_3pc ) return 0 ; memset ( & tmp_dev_wwn [ 0 ] , 0 , XCOPY_NAA_IEEE_REGEX_LEN ) ; target_xcopy_gen_naa_ieee ( se_dev , & tmp_dev_wwn [ 0 ] ) ; rc = memcmp ( & tmp_dev_wwn [ 0 ] , info -> dev_wwn , XCOPY_NAA_IEEE_REGEX_LEN ) ; if ( rc != 0 ) return 0 ; info -> found_dev = se_dev ; pr_debug ( ""XCOPY 0xe4: located se_dev: %p\\n"" , se_dev ) ; rc = target_depend_item ( & se_dev -> dev_group . cg_item ) ; if ( rc != 0 ) { pr_err ( ""configfs_depend_item attempt failed: %d for se_dev: %p\\n"" , rc , se_dev ) ; return rc ; } pr_debug ( ""Called configfs_depend_item for se_dev: %p se_dev->se_dev_group: %p\\n"" , se_dev , & se_dev -> dev_group ) ; return 1 ; }","static int target_xcopy_locate_se_dev_e4_iter ( struct se_device * se_dev , const unsigned char * dev_wwn ) { unsigned char tmp_dev_wwn [ XCOPY_NAA_IEEE_REGEX_LEN ] ; int rc ; if ( ! se_dev -> dev_attrib . emulate_3pc ) { pr_debug ( ""XCOPY: emulate_3pc disabled on se_dev %p\\n"" , se_dev ) ; return 0 ; } memset ( & tmp_dev_wwn [ 0 ] , 0 , XCOPY_NAA_IEEE_REGEX_LEN ) ; target_xcopy_gen_naa_ieee ( se_dev , & tmp_dev_wwn [ 0 ] ) ; rc = memcmp ( & tmp_dev_wwn [ 0 ] , dev_wwn , XCOPY_NAA_IEEE_REGEX_LEN ) ; if ( rc != 0 ) { pr_debug ( ""XCOPY: skip non-matching: %*ph\\n"" , XCOPY_NAA_IEEE_REGEX_LEN , tmp_dev_wwn ) ; return 0 ; } pr_debug ( ""XCOPY 0xe4: located se_dev: %p\\n"" , se_dev ) ; return 1 ; }" 502,"CWE-617 int pci_emul_add_capability ( struct pci_vdev * dev , u_char * capdata , int caplen ) { int i , capoff , reallen ; uint16_t sts ; assert ( caplen > 0 ) ; reallen = roundup2 ( caplen , 4 ) ; sts = pci_get_cfgdata16 ( dev , PCIR_STATUS ) ; if ( ( sts & PCIM_STATUS_CAPPRESENT ) == 0 ) capoff = CAP_START_OFFSET ; else capoff = dev -> capend + 1 ; if ( capoff + reallen > PCI_REGMAX + 1 ) return - 1 ; if ( ( sts & PCIM_STATUS_CAPPRESENT ) == 0 ) { pci_set_cfgdata8 ( dev , PCIR_CAP_PTR , capoff ) ; pci_set_cfgdata16 ( dev , PCIR_STATUS , sts | PCIM_STATUS_CAPPRESENT ) ; } else pci_set_cfgdata8 ( dev , dev -> prevcap + 1 , capoff ) ; for ( i = 0 ; i < caplen ; i ++ ) pci_set_cfgdata8 ( dev , capoff + i , capdata [ i ] ) ; pci_set_cfgdata8 ( dev , capoff + 1 , 0 ) ; dev -> prevcap = capoff ; dev -> capend = capoff + reallen - 1 ; return 0 ; }","int pci_emul_add_capability ( struct pci_vdev * dev , u_char * capdata , int caplen ) { int i , capoff , reallen ; uint16_t sts ; reallen = roundup2 ( caplen , 4 ) ; sts = pci_get_cfgdata16 ( dev , PCIR_STATUS ) ; if ( ( sts & PCIM_STATUS_CAPPRESENT ) == 0 ) capoff = CAP_START_OFFSET ; else capoff = dev -> capend + 1 ; if ( capoff + reallen > PCI_REGMAX + 1 ) return - 1 ; if ( ( sts & PCIM_STATUS_CAPPRESENT ) == 0 ) { pci_set_cfgdata8 ( dev , PCIR_CAP_PTR , capoff ) ; pci_set_cfgdata16 ( dev , PCIR_STATUS , sts | PCIM_STATUS_CAPPRESENT ) ; } else pci_set_cfgdata8 ( dev , dev -> prevcap + 1 , capoff ) ; for ( i = 0 ; i < caplen ; i ++ ) pci_set_cfgdata8 ( dev , capoff + i , capdata [ i ] ) ; pci_set_cfgdata8 ( dev , capoff + 1 , 0 ) ; dev -> prevcap = capoff ; dev -> capend = capoff + reallen - 1 ; return 0 ; }" 503,"CWE-416 void luaD_shrinkstack ( lua_State * L ) { int inuse = stackinuse ( L ) ; int goodsize = inuse + ( inuse / 8 ) + 2 * EXTRA_STACK ; if ( goodsize > LUAI_MAXSTACK ) goodsize = LUAI_MAXSTACK ; if ( inuse <= ( LUAI_MAXSTACK - EXTRA_STACK ) && goodsize < L -> stacksize ) luaD_reallocstack ( L , goodsize , 0 ) ; else condmovestack ( L , { } , { } ) ; luaE_shrinkCI ( L ) ; }","void luaD_shrinkstack ( lua_State * L ) { int inuse = stackinuse ( L ) ; int goodsize = inuse + BASIC_STACK_SIZE ; if ( goodsize > LUAI_MAXSTACK ) goodsize = LUAI_MAXSTACK ; if ( inuse <= ( LUAI_MAXSTACK - EXTRA_STACK ) && goodsize < L -> stacksize ) luaD_reallocstack ( L , goodsize , 0 ) ; else condmovestack ( L , { } , { } ) ; luaE_shrinkCI ( L ) ; }" 504,"CWE-284 { ps_dec_op -> u4_num_bytes_consumed -= bytes_consumed ; api_ret_value = IV_FAIL ; break ; } if ( ret == ERROR_IN_LAST_SLICE_OF_PIC ) { api_ret_value = IV_FAIL ; break ; } } if ( ps_dec -> u4_return_to_app ) { ps_dec_op -> u4_num_bytes_consumed -= bytes_consumed ; ps_dec_op -> u4_error_code = IVD_DEC_FRM_SKIPPED ; ps_dec_op -> u4_error_code |= ( 1 << IVD_UNSUPPORTEDPARAM ) ; ps_dec_op -> u4_frame_decoded_flag = 0 ; ps_dec_op -> u4_size = sizeof ( ivd_video_decode_op_t ) ; ih264d_signal_decode_thread ( ps_dec ) ; if ( ps_dec -> u4_num_cores == 3 ) { ih264d_signal_bs_deblk_thread ( ps_dec ) ; } return ( IV_FAIL ) ; } header_data_left = ( ( ps_dec -> i4_decode_header == 1 ) && ( ps_dec -> i4_header_decoded != 3 ) && ( ps_dec_op -> u4_num_bytes_consumed < ps_dec_ip -> u4_num_Bytes ) ) ; frame_data_left = ( ( ( ps_dec -> i4_decode_header == 0 ) && ( ( ps_dec -> u1_pic_decode_done == 0 ) || ( u4_next_is_aud == 1 ) ) ) && ( ps_dec_op -> u4_num_bytes_consumed < ps_dec_ip -> u4_num_Bytes ) ) ; } while ( ( header_data_left == 1 ) || ( frame_data_left == 1 ) ) ; if ( ( ps_dec -> u4_slice_start_code_found == 1 ) && ( ret != IVD_MEM_ALLOC_FAILED ) && ps_dec -> u2_total_mbs_coded < ps_dec -> u2_frm_ht_in_mbs * ps_dec -> u2_frm_wd_in_mbs ) { WORD32 num_mb_skipped ; WORD32 prev_slice_err ; pocstruct_t temp_poc ; WORD32 ret1 ; num_mb_skipped = ( ps_dec -> u2_frm_ht_in_mbs * ps_dec -> u2_frm_wd_in_mbs ) ps_dec -> u2_total_mbs_coded ; if ( ps_dec -> u4_first_slice_in_pic && ( ps_dec -> u4_pic_buf_got == 0 ) ) prev_slice_err = 1 ; else prev_slice_err = 2 ; ret1 = ih264d_mark_err_slice_skip ( ps_dec , num_mb_skipped , ps_dec -> u1_nal_unit_type == IDR_SLICE_NAL , ps_dec -> ps_cur_slice -> u2_frame_num , & temp_poc , prev_slice_err ) ; if ( ( ret1 == ERROR_UNAVAIL_PICBUF_T ) || ( ret1 == ERROR_UNAVAIL_MVBUF_T ) ) { return IV_FAIL ; } } if ( ( ret == IVD_RES_CHANGED ) || ( ret == IVD_MEM_ALLOC_FAILED ) || ( ret == ERROR_UNAVAIL_PICBUF_T ) || ( ret == ERROR_UNAVAIL_MVBUF_T ) || ( ret == ERROR_INV_SPS_PPS_T ) ) { ih264d_signal_decode_thread ( ps_dec ) ; if ( ps_dec -> u4_num_cores == 3 ) { ih264d_signal_bs_deblk_thread ( ps_dec ) ; } if ( ret == IVD_RES_CHANGED ) { ps_dec_op -> u4_num_bytes_consumed -= bytes_consumed ; } return IV_FAIL ; } if ( ps_dec -> u1_separate_parse ) { if ( ps_dec -> u4_num_cores == 2 ) { if ( ( ps_dec -> u4_nmb_deblk == 0 ) && ( ps_dec -> u4_start_recon_deblk == 1 ) && ( ps_dec -> ps_cur_sps -> u1_mb_aff_flag == 0 ) ) { UWORD32 u4_num_mbs , u4_max_addr ; tfr_ctxt_t s_tfr_ctxt ; tfr_ctxt_t * ps_tfr_cxt = & s_tfr_ctxt ; pad_mgr_t * ps_pad_mgr = & ps_dec -> s_pad_mgr ; u4_max_addr = ( ps_dec -> u2_frm_wd_in_mbs * ps_dec -> u2_frm_ht_in_mbs ) - 1 ; ps_dec -> u4_cur_bs_mb_num = u4_max_addr + 1 ; ih264d_init_deblk_tfr_ctxt ( ps_dec , ps_pad_mgr , ps_tfr_cxt , ps_dec -> u2_frm_wd_in_mbs , 0 ) ; u4_num_mbs = u4_max_addr ps_dec -> u4_cur_deblk_mb_num + 1 ; DEBUG_PERF_PRINTF ( ""mbs left for deblocking= %d \\n"" , u4_num_mbs ) ; if ( u4_num_mbs != 0 ) ih264d_check_mb_map_deblk ( ps_dec , u4_num_mbs , ps_tfr_cxt , 1 ) ; ps_dec -> u4_start_recon_deblk = 0 ; } } ih264d_signal_decode_thread ( ps_dec ) ; if ( ps_dec -> u4_num_cores == 3 ) {","{ ps_dec_op -> u4_num_bytes_consumed -= bytes_consumed ; api_ret_value = IV_FAIL ; break ; } if ( ret == ERROR_IN_LAST_SLICE_OF_PIC ) { api_ret_value = IV_FAIL ; break ; } } if ( ps_dec -> u4_return_to_app ) { ps_dec_op -> u4_num_bytes_consumed -= bytes_consumed ; ps_dec_op -> u4_error_code = IVD_DEC_FRM_SKIPPED ; ps_dec_op -> u4_error_code |= ( 1 << IVD_UNSUPPORTEDPARAM ) ; ps_dec_op -> u4_frame_decoded_flag = 0 ; ps_dec_op -> u4_size = sizeof ( ivd_video_decode_op_t ) ; ih264d_signal_decode_thread ( ps_dec ) ; if ( ps_dec -> u4_num_cores == 3 ) { ih264d_signal_bs_deblk_thread ( ps_dec ) ; } return ( IV_FAIL ) ; } header_data_left = ( ( ps_dec -> i4_decode_header == 1 ) && ( ps_dec -> i4_header_decoded != 3 ) && ( ps_dec_op -> u4_num_bytes_consumed < ps_dec_ip -> u4_num_Bytes ) ) ; frame_data_left = ( ( ( ps_dec -> i4_decode_header == 0 ) && ( ( ps_dec -> u1_pic_decode_done == 0 ) || ( u4_next_is_aud == 1 ) ) ) && ( ps_dec_op -> u4_num_bytes_consumed < ps_dec_ip -> u4_num_Bytes ) ) ; } while ( ( header_data_left == 1 ) || ( frame_data_left == 1 ) ) ; if ( ( ps_dec -> u4_slice_start_code_found == 1 ) && ( ret != IVD_MEM_ALLOC_FAILED ) && ps_dec -> u2_total_mbs_coded < ps_dec -> u2_frm_ht_in_mbs * ps_dec -> u2_frm_wd_in_mbs ) { WORD32 num_mb_skipped ; WORD32 prev_slice_err ; pocstruct_t temp_poc ; WORD32 ret1 ; num_mb_skipped = ( ps_dec -> u2_frm_ht_in_mbs * ps_dec -> u2_frm_wd_in_mbs ) if ( ps_dec -> u4_first_slice_in_pic && ( ps_dec -> u4_pic_buf_got == 0 ) ) prev_slice_err = 1 ; else prev_slice_err = 2 ; if ( ps_dec -> u4_first_slice_in_pic && ( ps_dec -> u2_total_mbs_coded == 0 ) ) prev_slice_err = 1 ; ret1 = ih264d_mark_err_slice_skip ( ps_dec , num_mb_skipped , ps_dec -> u1_nal_unit_type == IDR_SLICE_NAL , ps_dec -> ps_cur_slice -> u2_frame_num , & temp_poc , prev_slice_err ) ; if ( ( ret1 == ERROR_UNAVAIL_PICBUF_T ) || ( ret1 == ERROR_UNAVAIL_MVBUF_T ) ) { return IV_FAIL ; } } if ( ( ret == IVD_RES_CHANGED ) || ( ret == IVD_MEM_ALLOC_FAILED ) || ( ret == ERROR_UNAVAIL_PICBUF_T ) || ( ret == ERROR_UNAVAIL_MVBUF_T ) || ( ret == ERROR_INV_SPS_PPS_T ) ) { ih264d_signal_decode_thread ( ps_dec ) ; if ( ps_dec -> u4_num_cores == 3 ) { ih264d_signal_bs_deblk_thread ( ps_dec ) ; } if ( ret == IVD_RES_CHANGED ) { ps_dec_op -> u4_num_bytes_consumed -= bytes_consumed ; } return IV_FAIL ; } if ( ps_dec -> u1_separate_parse ) { if ( ps_dec -> u4_num_cores == 2 ) { if ( ( ps_dec -> u4_nmb_deblk == 0 ) && ( ps_dec -> u4_start_recon_deblk == 1 ) && ( ps_dec -> ps_cur_sps -> u1_mb_aff_flag == 0 ) ) { UWORD32 u4_num_mbs , u4_max_addr ; tfr_ctxt_t s_tfr_ctxt ; tfr_ctxt_t * ps_tfr_cxt = & s_tfr_ctxt ; pad_mgr_t * ps_pad_mgr = & ps_dec -> s_pad_mgr ; u4_max_addr = ( ps_dec -> u2_frm_wd_in_mbs * ps_dec -> u2_frm_ht_in_mbs ) - 1 ; ps_dec -> u4_cur_bs_mb_num = u4_max_addr + 1 ; ih264d_init_deblk_tfr_ctxt ( ps_dec , ps_pad_mgr , ps_tfr_cxt , ps_dec -> u2_frm_wd_in_mbs , 0 ) ; u4_num_mbs = u4_max_addr DEBUG_PERF_PRINTF ( ""mbs left for deblocking= %d \\n"" , u4_num_mbs ) ; if ( u4_num_mbs != 0 ) ih264d_check_mb_map_deblk ( ps_dec , u4_num_mbs , ps_tfr_cxt , 1 ) ; ps_dec -> u4_start_recon_deblk = 0 ; } } ih264d_signal_decode_thread ( ps_dec ) ; if ( ps_dec -> u4_num_cores == 3 ) {" 505,"CWE-399 void mono_runtime_shutdown ( void ) { mono_domain_foreach ( fire_process_exit_event , NULL ) ; }","void mono_runtime_shutdown ( void ) { mono_domain_foreach ( fire_process_exit_event , NULL ) ; mono_reflection_shutdown ( ) ; }" 506,"CWE-416 buf [ o2 + 0 ] , buf [ o2 + 1 ] , buf [ o2 + 2 ] , buf [ o2 + 3 ] , buf [ o2 + 4 ] , buf [ o2 + 5 ] , buf [ o2 + 6 ] , buf [ o2 + 7 ] ) ; o2 += 1 ; o2 += 1 ; o2 += 2 ; datao = o2 ; if ( ! strncmp ( ( char * ) & buf [ o2 ] , ""II"" , 2 ) ) n -> order = EXIF_BYTE_ORDER_INTEL ; else if ( ! strncmp ( ( char * ) & buf [ o2 ] , ""MM"" , 2 ) ) n -> order = EXIF_BYTE_ORDER_MOTOROLA ; else { exif_log ( en -> log , EXIF_LOG_CODE_DEBUG , ""ExifMnoteDataOlympus"" , ""Unknown "" ""byte order \'%c%c\'"" , buf [ o2 ] , buf [ o2 + 1 ] ) ; return ; } o2 += 2 ; o2 += 2 ; o2 = datao + exif_get_long ( buf + o2 , n -> order ) ; break ; case nikonV0 : exif_log ( en -> log , EXIF_LOG_CODE_DEBUG , ""ExifMnoteDataOlympus"" , ""Parsing Nikon maker note v0 (0x%02x, %02x, %02x, "" ""%02x, %02x, %02x, %02x, %02x)..."" , buf [ o2 + 0 ] , buf [ o2 + 1 ] , buf [ o2 + 2 ] , buf [ o2 + 3 ] , buf [ o2 + 4 ] , buf [ o2 + 5 ] , buf [ o2 + 6 ] , buf [ o2 + 7 ] ) ; n -> order = EXIF_BYTE_ORDER_MOTOROLA ; break ; default : exif_log ( en -> log , EXIF_LOG_CODE_DEBUG , ""ExifMnoteDataOlympus"" , ""Unknown Olympus variant %i."" , n -> version ) ; return ; } if ( CHECKOVERFLOW ( o2 , buf_size , 2 ) ) { exif_log ( en -> log , EXIF_LOG_CODE_CORRUPT_DATA , ""ExifMnoteOlympus"" , ""Short MakerNote"" ) ; return ; } c = exif_get_short ( buf + o2 , n -> order ) ; o2 += 2 ; exif_mnote_data_olympus_clear ( n ) ; n -> entries = exif_mem_alloc ( en -> mem , sizeof ( MnoteOlympusEntry ) * c ) ; if ( ! n -> entries ) { EXIF_LOG_NO_MEMORY ( en -> log , ""ExifMnoteOlympus"" , sizeof ( MnoteOlympusEntry ) * c ) ; return ; } tcount = 0 ; for ( i = c , o = o2 ; i ; -- i , o += 12 ) { size_t s ; if ( CHECKOVERFLOW ( o , buf_size , 12 ) ) { exif_log ( en -> log , EXIF_LOG_CODE_CORRUPT_DATA , ""ExifMnoteOlympus"" , ""Short MakerNote"" ) ; break ; } n -> entries [ tcount ] . tag = exif_get_short ( buf + o , n -> order ) + base ; n -> entries [ tcount ] . format = exif_get_short ( buf + o + 2 , n -> order ) ; n -> entries [ tcount ] . components = exif_get_long ( buf + o + 4 , n -> order ) ; n -> entries [ tcount ] . order = n -> order ; exif_log ( en -> log , EXIF_LOG_CODE_DEBUG , ""ExifMnoteOlympus"" , ""Loading entry 0x%x (\'%s\')..."" , n -> entries [ tcount ] . tag , mnote_olympus_tag_get_name ( n -> entries [ tcount ] . tag ) ) ; if ( exif_format_get_size ( n -> entries [ tcount ] . format ) && buf_size / exif_format_get_size ( n -> entries [ tcount ] . format ) < n -> entries [ tcount ] . components ) { exif_log ( en -> log , EXIF_LOG_CODE_CORRUPT_DATA , ""ExifMnoteOlympus"" , ""Tag size overflow detected (%u * %lu)"" , exif_format_get_size ( n -> entries [ tcount ] . format ) , n -> entries [ tcount ] . components ) ; continue ; } s = exif_format_get_size ( n -> entries [ tcount ] . format ) * n -> entries [ tcount ] . components ; n -> entries [ tcount ] . size = s ; if ( s ) { size_t dataofs = o + 8 ; if ( s > 4 ) { dataofs = exif_get_long ( buf + dataofs , n -> order ) + datao ; # ifdef EXIF_OVERCOME_SANYO_OFFSET_BUG if ( dataofs > ( buf_size - s ) && n -> version == sanyoV1 ) { dataofs -= datao + 6 ; exif_log ( en -> log , EXIF_LOG_CODE_DEBUG , ""ExifMnoteOlympus"" , ""Inconsistent thumbnail tag offset; attempting to recover"" ) ; } # endif } if ( CHECKOVERFLOW ( dataofs , buf_size , s ) ) { exif_log ( en -> log , EXIF_LOG_CODE_DEBUG , ""ExifMnoteOlympus"" , ""Tag data past end of buffer (%u > %u)"" , ( unsigned ) ( dataofs + s ) , buf_size ) ; continue ; } n -> entries [ tcount ] . data = exif_mem_alloc ( en -> mem , s ) ; if ( ! n -> entries [ tcount ] . data ) { EXIF_LOG_NO_MEMORY ( en -> log , ""ExifMnoteOlympus"" , s ) ; continue ; } memcpy ( n -> entries [ tcount ] . data , buf + dataofs , s ) ; } }","buf [ o2 + 0 ] , buf [ o2 + 1 ] , buf [ o2 + 2 ] , buf [ o2 + 3 ] , buf [ o2 + 4 ] , buf [ o2 + 5 ] , buf [ o2 + 6 ] , buf [ o2 + 7 ] ) ; o2 += 1 ; o2 += 1 ; o2 += 2 ; datao = o2 ; if ( ! strncmp ( ( char * ) & buf [ o2 ] , ""II"" , 2 ) ) n -> order = EXIF_BYTE_ORDER_INTEL ; else if ( ! strncmp ( ( char * ) & buf [ o2 ] , ""MM"" , 2 ) ) n -> order = EXIF_BYTE_ORDER_MOTOROLA ; else { exif_log ( en -> log , EXIF_LOG_CODE_DEBUG , ""ExifMnoteDataOlympus"" , ""Unknown "" ""byte order \'%c%c\'"" , buf [ o2 ] , buf [ o2 + 1 ] ) ; return ; } o2 += 2 ; o2 += 2 ; o2 = datao + exif_get_long ( buf + o2 , n -> order ) ; break ; case nikonV0 : exif_log ( en -> log , EXIF_LOG_CODE_DEBUG , ""ExifMnoteDataOlympus"" , ""Parsing Nikon maker note v0 (0x%02x, %02x, %02x, "" ""%02x, %02x, %02x, %02x, %02x)..."" , buf [ o2 + 0 ] , buf [ o2 + 1 ] , buf [ o2 + 2 ] , buf [ o2 + 3 ] , buf [ o2 + 4 ] , buf [ o2 + 5 ] , buf [ o2 + 6 ] , buf [ o2 + 7 ] ) ; n -> order = EXIF_BYTE_ORDER_MOTOROLA ; break ; default : exif_log ( en -> log , EXIF_LOG_CODE_DEBUG , ""ExifMnoteDataOlympus"" , ""Unknown Olympus variant %i."" , n -> version ) ; return ; } if ( CHECKOVERFLOW ( o2 , buf_size , 2 ) ) { exif_log ( en -> log , EXIF_LOG_CODE_CORRUPT_DATA , ""ExifMnoteOlympus"" , ""Short MakerNote"" ) ; return ; } c = exif_get_short ( buf + o2 , n -> order ) ; o2 += 2 ; exif_mnote_data_olympus_clear ( n ) ; n -> entries = exif_mem_alloc ( en -> mem , sizeof ( MnoteOlympusEntry ) * c ) ; if ( ! n -> entries ) { EXIF_LOG_NO_MEMORY ( en -> log , ""ExifMnoteOlympus"" , sizeof ( MnoteOlympusEntry ) * c ) ; return ; } tcount = 0 ; for ( i = c , o = o2 ; i ; -- i , o += 12 ) { size_t s ; memset ( & n -> entries [ tcount ] , 0 , sizeof ( MnoteOlympusEntry ) ) ; if ( CHECKOVERFLOW ( o , buf_size , 12 ) ) { exif_log ( en -> log , EXIF_LOG_CODE_CORRUPT_DATA , ""ExifMnoteOlympus"" , ""Short MakerNote"" ) ; break ; } n -> entries [ tcount ] . tag = exif_get_short ( buf + o , n -> order ) + base ; n -> entries [ tcount ] . format = exif_get_short ( buf + o + 2 , n -> order ) ; n -> entries [ tcount ] . components = exif_get_long ( buf + o + 4 , n -> order ) ; n -> entries [ tcount ] . order = n -> order ; exif_log ( en -> log , EXIF_LOG_CODE_DEBUG , ""ExifMnoteOlympus"" , ""Loading entry 0x%x (\'%s\')..."" , n -> entries [ tcount ] . tag , mnote_olympus_tag_get_name ( n -> entries [ tcount ] . tag ) ) ; if ( exif_format_get_size ( n -> entries [ tcount ] . format ) && buf_size / exif_format_get_size ( n -> entries [ tcount ] . format ) < n -> entries [ tcount ] . components ) { exif_log ( en -> log , EXIF_LOG_CODE_CORRUPT_DATA , ""ExifMnoteOlympus"" , ""Tag size overflow detected (%u * %lu)"" , exif_format_get_size ( n -> entries [ tcount ] . format ) , n -> entries [ tcount ] . components ) ; continue ; } s = exif_format_get_size ( n -> entries [ tcount ] . format ) * n -> entries [ tcount ] . components ; n -> entries [ tcount ] . size = s ; if ( s ) { size_t dataofs = o + 8 ; if ( s > 4 ) { dataofs = exif_get_long ( buf + dataofs , n -> order ) + datao ; # ifdef EXIF_OVERCOME_SANYO_OFFSET_BUG if ( dataofs > ( buf_size - s ) && n -> version == sanyoV1 ) { dataofs -= datao + 6 ; exif_log ( en -> log , EXIF_LOG_CODE_DEBUG , ""ExifMnoteOlympus"" , ""Inconsistent thumbnail tag offset; attempting to recover"" ) ; } # endif } if ( CHECKOVERFLOW ( dataofs , buf_size , s ) ) { exif_log ( en -> log , EXIF_LOG_CODE_DEBUG , ""ExifMnoteOlympus"" , ""Tag data past end of buffer (%u > %u)"" , ( unsigned ) ( dataofs + s ) , buf_size ) ; continue ; } n -> entries [ tcount ] . data = exif_mem_alloc ( en -> mem , s ) ; if ( ! n -> entries [ tcount ] . data ) { EXIF_LOG_NO_MEMORY ( en -> log , ""ExifMnoteOlympus"" , s ) ; continue ; } memcpy ( n -> entries [ tcount ] . data , buf + dataofs , s ) ; } + tcount ; }" 507,"CWE-284 int socket_accept ( int fd , uint16_t port ) { # ifdef WIN32 int addr_len ; # else socklen_t addr_len ; # endif int result ; struct sockaddr_in addr ; memset ( & addr , 0 , sizeof ( addr ) ) ; addr . sin_family = AF_INET ; addr . sin_addr . s_addr = htonl ( INADDR_ANY ) ; addr . sin_port = htons ( port ) ; addr_len = sizeof ( addr ) ; result = accept ( fd , ( struct sockaddr * ) & addr , & addr_len ) ; return result ; }","int socket_accept ( int fd , uint16_t port ) { # ifdef WIN32 int addr_len ; # else socklen_t addr_len ; # endif int result ; struct sockaddr_in addr ; memset ( & addr , 0 , sizeof ( addr ) ) ; addr . sin_family = AF_INET ; addr . sin_addr . s_addr = htonl ( INADDR_LOOPBACK ) ; addr . sin_port = htons ( port ) ; addr_len = sizeof ( addr ) ; result = accept ( fd , ( struct sockaddr * ) & addr , & addr_len ) ; return result ; }" 508,CWE-119 static int get_max_filter_level ( VP9_COMP * cpi ) { return cpi -> twopass . section_intra_rating > 8 ? MAX_LOOP_FILTER * 3 / 4 : MAX_LOOP_FILTER ; },static int get_max_filter_level ( const VP9_COMP * cpi ) { if ( cpi -> oxcf . pass == 2 ) { return cpi -> twopass . section_intra_rating > 8 ? MAX_LOOP_FILTER * 3 / 4 : MAX_LOOP_FILTER ; } else { return MAX_LOOP_FILTER ; } } 509,"CWE-74 PS_SERIALIZER_DECODE_FUNC ( php_binary ) { const char * p ; char * name ; const char * endptr = val + vallen ; zval * current ; int namelen ; int has_value ; php_unserialize_data_t var_hash ; PHP_VAR_UNSERIALIZE_INIT ( var_hash ) ; for ( p = val ; p < endptr ; ) { zval * * tmp ; namelen = ( ( unsigned char ) ( * p ) ) & ( ~ PS_BIN_UNDEF ) ; if ( namelen < 0 || namelen > PS_BIN_MAX || ( p + namelen ) >= endptr ) { PHP_VAR_UNSERIALIZE_DESTROY ( var_hash ) ; return FAILURE ; } has_value = * p & PS_BIN_UNDEF ? 0 : 1 ; name = estrndup ( p + 1 , namelen ) ; p += namelen + 1 ; if ( zend_hash_find ( & EG ( symbol_table ) , name , namelen + 1 , ( void * * ) & tmp ) == SUCCESS ) { if ( ( Z_TYPE_PP ( tmp ) == IS_ARRAY && Z_ARRVAL_PP ( tmp ) == & EG ( symbol_table ) ) || * tmp == PS ( http_session_vars ) ) { efree ( name ) ; continue ; } } if ( has_value ) { ALLOC_INIT_ZVAL ( current ) ; if ( php_var_unserialize ( & current , ( const unsigned char * * ) & p , ( const unsigned char * ) endptr , & var_hash TSRMLS_CC ) ) { php_set_session_var ( name , namelen , current , & var_hash TSRMLS_CC ) ; } else { PHP_VAR_UNSERIALIZE_DESTROY ( var_hash ) ; return FAILURE ; } var_push_dtor_no_addref ( & var_hash , & current ) ; } PS_ADD_VARL ( name , namelen ) ; efree ( name ) ; } PHP_VAR_UNSERIALIZE_DESTROY ( var_hash ) ; return SUCCESS ; }","PS_SERIALIZER_DECODE_FUNC ( php_binary ) { const char * p ; char * name ; const char * endptr = val + vallen ; zval * current ; int namelen ; int has_value ; php_unserialize_data_t var_hash ; int skip = 0 ; PHP_VAR_UNSERIALIZE_INIT ( var_hash ) ; for ( p = val ; p < endptr ; ) { zval * * tmp ; skip = 0 ; namelen = ( ( unsigned char ) ( * p ) ) & ( ~ PS_BIN_UNDEF ) ; if ( namelen < 0 || namelen > PS_BIN_MAX || ( p + namelen ) >= endptr ) { PHP_VAR_UNSERIALIZE_DESTROY ( var_hash ) ; return FAILURE ; } has_value = * p & PS_BIN_UNDEF ? 0 : 1 ; name = estrndup ( p + 1 , namelen ) ; p += namelen + 1 ; if ( zend_hash_find ( & EG ( symbol_table ) , name , namelen + 1 , ( void * * ) & tmp ) == SUCCESS ) { if ( ( Z_TYPE_PP ( tmp ) == IS_ARRAY && Z_ARRVAL_PP ( tmp ) == & EG ( symbol_table ) ) || * tmp == PS ( http_session_vars ) ) { skip = 1 ; } } if ( has_value ) { ALLOC_INIT_ZVAL ( current ) ; if ( php_var_unserialize ( & current , ( const unsigned char * * ) & p , ( const unsigned char * ) endptr , & var_hash TSRMLS_CC ) ) { if ( ! skip ) { php_set_session_var ( name , namelen , current , & var_hash TSRMLS_CC ) ; } } else { PHP_VAR_UNSERIALIZE_DESTROY ( var_hash ) ; return FAILURE ; } var_push_dtor_no_addref ( & var_hash , & current ) ; } if ( ! skip ) { PS_ADD_VARL ( name , namelen ) ; } efree ( name ) ; } PHP_VAR_UNSERIALIZE_DESTROY ( var_hash ) ; return SUCCESS ; }" 510,"CWE-787 void handle_usb_rx ( const void * msg , size_t len ) { if ( msg_tiny_flag ) { uint8_t buf [ 64 ] ; memcpy ( buf , msg , sizeof ( buf ) ) ; uint16_t msgId = buf [ 4 ] | ( ( uint16_t ) buf [ 3 ] ) << 8 ; uint32_t msgSize = buf [ 8 ] | ( ( uint32_t ) buf [ 7 ] ) << 8 | ( ( uint32_t ) buf [ 6 ] ) << 16 | ( ( uint32_t ) buf [ 5 ] ) << 24 ; if ( msgSize > 64 - 9 ) { ( * msg_failure ) ( FailureType_Failure_UnexpectedMessage , ""Malformed tiny packet"" ) ; return ; } const MessagesMap_t * entry = message_map_entry ( NORMAL_MSG , msgId , IN_MSG ) ; if ( ! entry ) { ( * msg_failure ) ( FailureType_Failure_UnexpectedMessage , ""Unknown message"" ) ; return ; } tiny_dispatch ( entry , buf + 9 , msgSize ) ; } else { usb_rx_helper ( msg , len , NORMAL_MSG ) ; } }","void handle_usb_rx ( const void * msg , size_t len ) { if ( msg_tiny_flag ) { msg_read_tiny ( msg , len ) ; } else { usb_rx_helper ( msg , len , NORMAL_MSG ) ; } }" 511,"CWE-125 case 0x49 : case 0x4a : case 0x4b : case 0x4c : case 0x4d : case 0x4e : case 0x4f : pt = PT_IPV4 ; break ; case 0x60 : case 0x61 : case 0x62 : case 0x63 : case 0x64 : case 0x65 : case 0x66 : case 0x67 : case 0x68 : case 0x69 : case 0x6a : case 0x6b : case 0x6c : case 0x6d : case 0x6e : case 0x6f : pt = PT_IPV6 ; break ; case 0x81 : case 0x82 : case 0x83 : pt = PT_OSI ; break ; default : break ; } } if ( pt == PT_UNKNOWN ) { if ( ! ndo -> ndo_suppress_default_print ) ND_DEFAULTPRINT ( p , length ) ; return ; } ND_PRINT ( ( ndo , ndo -> ndo_vflag ? ""\\n\\t"" : "" "" ) ) ; switch ( pt ) { case PT_IPV4 : ip_print ( ndo , p , length ) ; break ; case PT_IPV6 : ip6_print ( ndo , p , length ) ; break ; case PT_OSI : isoclns_print ( ndo , p , length , length ) ; break ; default : break ; } return ; trunc : ND_PRINT ( ( ndo , ""[|MPLS]"" ) ) ; }","case 0x49 : case 0x4a : case 0x4b : case 0x4c : case 0x4d : case 0x4e : case 0x4f : pt = PT_IPV4 ; break ; case 0x60 : case 0x61 : case 0x62 : case 0x63 : case 0x64 : case 0x65 : case 0x66 : case 0x67 : case 0x68 : case 0x69 : case 0x6a : case 0x6b : case 0x6c : case 0x6d : case 0x6e : case 0x6f : pt = PT_IPV6 ; break ; case 0x81 : case 0x82 : case 0x83 : pt = PT_OSI ; break ; default : break ; } } if ( pt == PT_UNKNOWN ) { if ( ! ndo -> ndo_suppress_default_print ) ND_DEFAULTPRINT ( p , length ) ; return ; } ND_PRINT ( ( ndo , ndo -> ndo_vflag ? ""\\n\\t"" : "" "" ) ) ; switch ( pt ) { case PT_IPV4 : ip_print ( ndo , p , length ) ; break ; case PT_IPV6 : ip6_print ( ndo , p , length ) ; break ; case PT_OSI : isoclns_print ( ndo , p , length ) ; break ; default : break ; } return ; trunc : ND_PRINT ( ( ndo , ""[|MPLS]"" ) ) ; }" 512,"CWE-125 caplen -= 3 ; ND_PRINT ( ( ndo , ""IEEE 802.15.4 %s packet "" , ftypes [ FC_FRAME_TYPE ( fc ) ] ) ) ; if ( ndo -> ndo_vflag ) ND_PRINT ( ( ndo , ""seq %02x "" , seq ) ) ; switch ( FC_DEST_ADDRESSING_MODE ( fc ) ) { case FC_ADDRESSING_MODE_NONE : if ( fc & FC_PAN_ID_COMPRESSION ) { ND_PRINT ( ( ndo , ""[|802.15.4]"" ) ) ; return hdrlen ; } if ( ndo -> ndo_vflag ) ND_PRINT ( ( ndo , ""none "" ) ) ; break ; case FC_ADDRESSING_MODE_RESERVED : if ( ndo -> ndo_vflag ) ND_PRINT ( ( ndo , ""reserved destination addressing mode"" ) ) ; return hdrlen ; case FC_ADDRESSING_MODE_SHORT : if ( caplen < 2 ) { ND_PRINT ( ( ndo , ""[|802.15.4]"" ) ) ; return hdrlen ; } panid = EXTRACT_LE_16BITS ( p ) ; p += 2 ; caplen -= 2 ; hdrlen += 2 ; if ( caplen < 2 ) { ND_PRINT ( ( ndo , ""[|802.15.4]"" ) ) ; return hdrlen ; } if ( ndo -> ndo_vflag ) ND_PRINT ( ( ndo , ""%04x:%04x "" , panid , EXTRACT_LE_16BITS ( p + 2 ) ) ) ; p += 2 ; caplen -= 2 ; hdrlen += 2 ; break ; case FC_ADDRESSING_MODE_LONG : if ( caplen < 2 ) { ND_PRINT ( ( ndo , ""[|802.15.4]"" ) ) ; return hdrlen ; } panid = EXTRACT_LE_16BITS ( p ) ; p += 2 ; caplen -= 2 ; hdrlen += 2 ; if ( caplen < 8 ) { ND_PRINT ( ( ndo , ""[|802.15.4]"" ) ) ; return hdrlen ; } if ( ndo -> ndo_vflag ) ND_PRINT ( ( ndo , ""%04x:%s "" , panid , le64addr_string ( ndo , p + 2 ) ) ) ; p += 8 ; caplen -= 8 ; hdrlen += 8 ; break ; } if ( ndo -> ndo_vflag ) ND_PRINT ( ( ndo , ""< "" ) ) ; switch ( FC_SRC_ADDRESSING_MODE ( fc ) ) { case FC_ADDRESSING_MODE_NONE : if ( ndo -> ndo_vflag ) ND_PRINT ( ( ndo , ""none "" ) ) ; break ; case FC_ADDRESSING_MODE_RESERVED : if ( ndo -> ndo_vflag ) ND_PRINT ( ( ndo , ""reserved source addressing mode"" ) ) ; return 0 ; case FC_ADDRESSING_MODE_SHORT : if ( ! ( fc & FC_PAN_ID_COMPRESSION ) ) { if ( caplen < 2 ) { ND_PRINT ( ( ndo , ""[|802.15.4]"" ) ) ; return hdrlen ; } panid = EXTRACT_LE_16BITS ( p ) ; p += 2 ; caplen -= 2 ; hdrlen += 2 ; } if ( caplen < 2 ) { ND_PRINT ( ( ndo , ""[|802.15.4]"" ) ) ; return hdrlen ; } if ( ndo -> ndo_vflag ) ND_PRINT ( ( ndo , ""%04x:%04x "" , panid , EXTRACT_LE_16BITS ( p ) ) ) ; p += 2 ; caplen -= 2 ; hdrlen += 2 ; break ; case FC_ADDRESSING_MODE_LONG : if ( ! ( fc & FC_PAN_ID_COMPRESSION ) ) { if ( caplen < 2 ) { ND_PRINT ( ( ndo , ""[|802.15.4]"" ) ) ; return hdrlen ; } panid = EXTRACT_LE_16BITS ( p ) ; p += 2 ; caplen -= 2 ; hdrlen += 2 ; } if ( caplen < 8 ) { ND_PRINT ( ( ndo , ""[|802.15.4]"" ) ) ;","caplen -= 3 ; ND_PRINT ( ( ndo , ""IEEE 802.15.4 %s packet "" , ftypes [ FC_FRAME_TYPE ( fc ) ] ) ) ; if ( ndo -> ndo_vflag ) ND_PRINT ( ( ndo , ""seq %02x "" , seq ) ) ; switch ( FC_DEST_ADDRESSING_MODE ( fc ) ) { case FC_ADDRESSING_MODE_NONE : if ( fc & FC_PAN_ID_COMPRESSION ) { ND_PRINT ( ( ndo , ""[|802.15.4]"" ) ) ; return hdrlen ; } if ( ndo -> ndo_vflag ) ND_PRINT ( ( ndo , ""none "" ) ) ; break ; case FC_ADDRESSING_MODE_RESERVED : if ( ndo -> ndo_vflag ) ND_PRINT ( ( ndo , ""reserved destination addressing mode"" ) ) ; return hdrlen ; case FC_ADDRESSING_MODE_SHORT : if ( caplen < 2 ) { ND_PRINT ( ( ndo , ""[|802.15.4]"" ) ) ; return hdrlen ; } panid = EXTRACT_LE_16BITS ( p ) ; p += 2 ; caplen -= 2 ; hdrlen += 2 ; if ( caplen < 2 ) { ND_PRINT ( ( ndo , ""[|802.15.4]"" ) ) ; return hdrlen ; } if ( ndo -> ndo_vflag ) ND_PRINT ( ( ndo , ""%04x:%04x "" , panid , EXTRACT_LE_16BITS ( p + 2 ) ) ) ; p += 2 ; caplen -= 2 ; hdrlen += 2 ; break ; case FC_ADDRESSING_MODE_LONG : if ( caplen < 2 ) { ND_PRINT ( ( ndo , ""[|802.15.4]"" ) ) ; return hdrlen ; } panid = EXTRACT_LE_16BITS ( p ) ; p += 2 ; caplen -= 2 ; hdrlen += 2 ; if ( caplen < 8 ) { ND_PRINT ( ( ndo , ""[|802.15.4]"" ) ) ; return hdrlen ; } if ( ndo -> ndo_vflag ) ND_PRINT ( ( ndo , ""%04x:%s "" , panid , le64addr_string ( ndo , p ) ) ) ; p += 8 ; caplen -= 8 ; hdrlen += 8 ; break ; } if ( ndo -> ndo_vflag ) ND_PRINT ( ( ndo , ""< "" ) ) ; switch ( FC_SRC_ADDRESSING_MODE ( fc ) ) { case FC_ADDRESSING_MODE_NONE : if ( ndo -> ndo_vflag ) ND_PRINT ( ( ndo , ""none "" ) ) ; break ; case FC_ADDRESSING_MODE_RESERVED : if ( ndo -> ndo_vflag ) ND_PRINT ( ( ndo , ""reserved source addressing mode"" ) ) ; return 0 ; case FC_ADDRESSING_MODE_SHORT : if ( ! ( fc & FC_PAN_ID_COMPRESSION ) ) { if ( caplen < 2 ) { ND_PRINT ( ( ndo , ""[|802.15.4]"" ) ) ; return hdrlen ; } panid = EXTRACT_LE_16BITS ( p ) ; p += 2 ; caplen -= 2 ; hdrlen += 2 ; } if ( caplen < 2 ) { ND_PRINT ( ( ndo , ""[|802.15.4]"" ) ) ; return hdrlen ; } if ( ndo -> ndo_vflag ) ND_PRINT ( ( ndo , ""%04x:%04x "" , panid , EXTRACT_LE_16BITS ( p ) ) ) ; p += 2 ; caplen -= 2 ; hdrlen += 2 ; break ; case FC_ADDRESSING_MODE_LONG : if ( ! ( fc & FC_PAN_ID_COMPRESSION ) ) { if ( caplen < 2 ) { ND_PRINT ( ( ndo , ""[|802.15.4]"" ) ) ; return hdrlen ; } panid = EXTRACT_LE_16BITS ( p ) ; p += 2 ; caplen -= 2 ; hdrlen += 2 ; } if ( caplen < 8 ) { ND_PRINT ( ( ndo , ""[|802.15.4]"" ) ) ;" 513,"CWE-476 int git_pkt_parse_line ( git_pkt * * head , const char * line , const char * * out , size_t bufflen ) { int ret ; int32_t len ; if ( bufflen > 0 && bufflen < PKT_LEN_SIZE ) return GIT_EBUFS ; len = parse_len ( line ) ; if ( len < 0 ) { if ( bufflen >= 4 && ! git__prefixcmp ( line , ""PACK"" ) ) { giterr_clear ( ) ; * out = line ; return pack_pkt ( head ) ; } return ( int ) len ; } if ( bufflen > 0 && bufflen < ( size_t ) len ) return GIT_EBUFS ; if ( len != 0 && len < PKT_LEN_SIZE ) return GIT_ERROR ; line += PKT_LEN_SIZE ; if ( len == PKT_LEN_SIZE ) { * head = NULL ; * out = line ; return 0 ; } if ( len == 0 ) { * out = line ; return flush_pkt ( head ) ; } len -= PKT_LEN_SIZE ; if ( * line == GIT_SIDE_BAND_DATA ) ret = data_pkt ( head , line , len ) ; else if ( * line == GIT_SIDE_BAND_PROGRESS ) ret = sideband_progress_pkt ( head , line , len ) ; else if ( * line == GIT_SIDE_BAND_ERROR ) ret = sideband_error_pkt ( head , line , len ) ; else if ( ! git__prefixcmp ( line , ""ACK"" ) ) ret = ack_pkt ( head , line , len ) ; else if ( ! git__prefixcmp ( line , ""NAK"" ) ) ret = nak_pkt ( head ) ; else if ( ! git__prefixcmp ( line , ""ERR "" ) ) ret = err_pkt ( head , line , len ) ; else if ( * line == '#' ) ret = comment_pkt ( head , line , len ) ; else if ( ! git__prefixcmp ( line , ""ok"" ) ) ret = ok_pkt ( head , line , len ) ; else if ( ! git__prefixcmp ( line , ""ng"" ) ) ret = ng_pkt ( head , line , len ) ; else if ( ! git__prefixcmp ( line , ""unpack"" ) ) ret = unpack_pkt ( head , line , len ) ; else ret = ref_pkt ( head , line , len ) ; * out = line + len ; return ret ; }","int git_pkt_parse_line ( git_pkt * * head , const char * line , const char * * out , size_t bufflen ) { int ret ; int32_t len ; if ( bufflen > 0 && bufflen < PKT_LEN_SIZE ) return GIT_EBUFS ; len = parse_len ( line ) ; if ( len < 0 ) { if ( bufflen >= 4 && ! git__prefixcmp ( line , ""PACK"" ) ) { giterr_clear ( ) ; * out = line ; return pack_pkt ( head ) ; } return ( int ) len ; } if ( bufflen > 0 && bufflen < ( size_t ) len ) return GIT_EBUFS ; if ( len != 0 && len < PKT_LEN_SIZE ) return GIT_ERROR ; line += PKT_LEN_SIZE ; if ( len == PKT_LEN_SIZE ) { giterr_set_str ( GITERR_NET , ""Invalid empty packet"" ) ; return GIT_ERROR ; } if ( len == 0 ) { * out = line ; return flush_pkt ( head ) ; } len -= PKT_LEN_SIZE ; if ( * line == GIT_SIDE_BAND_DATA ) ret = data_pkt ( head , line , len ) ; else if ( * line == GIT_SIDE_BAND_PROGRESS ) ret = sideband_progress_pkt ( head , line , len ) ; else if ( * line == GIT_SIDE_BAND_ERROR ) ret = sideband_error_pkt ( head , line , len ) ; else if ( ! git__prefixcmp ( line , ""ACK"" ) ) ret = ack_pkt ( head , line , len ) ; else if ( ! git__prefixcmp ( line , ""NAK"" ) ) ret = nak_pkt ( head ) ; else if ( ! git__prefixcmp ( line , ""ERR "" ) ) ret = err_pkt ( head , line , len ) ; else if ( * line == '#' ) ret = comment_pkt ( head , line , len ) ; else if ( ! git__prefixcmp ( line , ""ok"" ) ) ret = ok_pkt ( head , line , len ) ; else if ( ! git__prefixcmp ( line , ""ng"" ) ) ret = ng_pkt ( head , line , len ) ; else if ( ! git__prefixcmp ( line , ""unpack"" ) ) ret = unpack_pkt ( head , line , len ) ; else ret = ref_pkt ( head , line , len ) ; * out = line + len ; return ret ; }" 514,"CWE-362 unsigned long insn_get_seg_base ( struct pt_regs * regs , int seg_reg_idx ) { struct desc_struct * desc ; short sel ; sel = get_segment_selector ( regs , seg_reg_idx ) ; if ( sel < 0 ) return - 1L ; if ( v8086_mode ( regs ) ) return ( unsigned long ) ( sel << 4 ) ; if ( user_64bit_mode ( regs ) ) { unsigned long base ; if ( seg_reg_idx == INAT_SEG_REG_FS ) rdmsrl ( MSR_FS_BASE , base ) ; else if ( seg_reg_idx == INAT_SEG_REG_GS ) rdmsrl ( MSR_KERNEL_GS_BASE , base ) ; else base = 0 ; return base ; } if ( ! sel ) return - 1L ; desc = get_desc ( sel ) ; if ( ! desc ) return - 1L ; return get_desc_base ( desc ) ; }","unsigned long insn_get_seg_base ( struct pt_regs * regs , int seg_reg_idx ) { struct desc_struct desc ; short sel ; sel = get_segment_selector ( regs , seg_reg_idx ) ; if ( sel < 0 ) return - 1L ; if ( v8086_mode ( regs ) ) return ( unsigned long ) ( sel << 4 ) ; if ( user_64bit_mode ( regs ) ) { unsigned long base ; if ( seg_reg_idx == INAT_SEG_REG_FS ) rdmsrl ( MSR_FS_BASE , base ) ; else if ( seg_reg_idx == INAT_SEG_REG_GS ) rdmsrl ( MSR_KERNEL_GS_BASE , base ) ; else base = 0 ; return base ; } if ( ! sel ) return - 1L ; if ( ! get_desc ( & desc , sel ) ) return - 1L ; return get_desc_base ( & desc ) ; }" 515,"CWE-119 static void zz_motion_search ( VP8_COMP * cpi , MACROBLOCK * x , YV12_BUFFER_CONFIG * raw_buffer , int * raw_motion_err , YV12_BUFFER_CONFIG * recon_buffer , int * best_motion_err , int recon_yoffset ) { MACROBLOCKD * const xd = & x -> e_mbd ; BLOCK * b = & x -> block [ 0 ] ; BLOCKD * d = & x -> e_mbd . block [ 0 ] ; unsigned char * src_ptr = ( * ( b -> base_src ) + b -> src ) ; int src_stride = b -> src_stride ; unsigned char * raw_ptr ; int raw_stride = raw_buffer -> y_stride ; unsigned char * ref_ptr ; int ref_stride = x -> e_mbd . pre . y_stride ; raw_ptr = ( unsigned char * ) ( raw_buffer -> y_buffer + recon_yoffset vp8_mse16x16 ( src_ptr , src_stride , raw_ptr , raw_stride , ( unsigned int * ) ( raw_motion_err ) ) ; xd -> pre . y_buffer = recon_buffer -> y_buffer + recon_yoffset ; ref_ptr = ( unsigned char * ) ( xd -> pre . y_buffer + d -> offset ) ; vp8_mse16x16 ( src_ptr , src_stride , ref_ptr , ref_stride , ( unsigned int * ) ( best_motion_err ) ) ; }","static void zz_motion_search ( VP8_COMP * cpi , MACROBLOCK * x , YV12_BUFFER_CONFIG * raw_buffer , int * raw_motion_err , YV12_BUFFER_CONFIG * recon_buffer , int * best_motion_err , int recon_yoffset ) { MACROBLOCKD * const xd = & x -> e_mbd ; BLOCK * b = & x -> block [ 0 ] ; BLOCKD * d = & x -> e_mbd . block [ 0 ] ; unsigned char * src_ptr = ( * ( b -> base_src ) + b -> src ) ; int src_stride = b -> src_stride ; unsigned char * raw_ptr ; int raw_stride = raw_buffer -> y_stride ; unsigned char * ref_ptr ; int ref_stride = x -> e_mbd . pre . y_stride ; ( void ) cpi ; raw_ptr = ( unsigned char * ) ( raw_buffer -> y_buffer + recon_yoffset d -> offset ) ; vpx_mse16x16 ( src_ptr , src_stride , raw_ptr , raw_stride , ( unsigned int * ) ( raw_motion_err ) ) ; xd -> pre . y_buffer = recon_buffer -> y_buffer + recon_yoffset ; ref_ptr = ( unsigned char * ) ( xd -> pre . y_buffer + d -> offset ) ; vpx_mse16x16 ( src_ptr , src_stride , ref_ptr , ref_stride , ( unsigned int * ) ( best_motion_err ) ) ; }" 516,"CWE-476 static void parserule ( struct scanner * s , struct environment * env ) { struct rule * r ; char * var ; struct evalstring * val ; bool hascommand = false , hasrspfile = false , hasrspcontent = false ; r = mkrule ( scanname ( s ) ) ; scannewline ( s ) ; while ( scanindent ( s ) ) { var = scanname ( s ) ; parselet ( s , & val ) ; ruleaddvar ( r , var , val ) ; if ( strcmp ( var , ""command"" ) == 0 ) hascommand = true ; else if ( strcmp ( var , ""rspfile"" ) == 0 ) hasrspfile = true ; else if ( strcmp ( var , ""rspfile_content"" ) == 0 ) hasrspcontent = true ; } if ( ! hascommand ) fatal ( ""rule \'%s\' has no command"" , r -> name ) ; if ( hasrspfile != hasrspcontent ) fatal ( ""rule \'%s\' has rspfile and no rspfile_content or vice versa"" , r -> name ) ; envaddrule ( env , r ) ; }","static void parserule ( struct scanner * s , struct environment * env ) { struct rule * r ; char * var ; struct evalstring * val ; bool hascommand = false , hasrspfile = false , hasrspcontent = false ; r = mkrule ( scanname ( s ) ) ; scannewline ( s ) ; while ( scanindent ( s ) ) { var = scanname ( s ) ; parselet ( s , & val ) ; ruleaddvar ( r , var , val ) ; if ( ! val ) continue ; if ( strcmp ( var , ""command"" ) == 0 ) hascommand = true ; else if ( strcmp ( var , ""rspfile"" ) == 0 ) hasrspfile = true ; else if ( strcmp ( var , ""rspfile_content"" ) == 0 ) hasrspcontent = true ; } if ( ! hascommand ) fatal ( ""rule \'%s\' has no command"" , r -> name ) ; if ( hasrspfile != hasrspcontent ) fatal ( ""rule \'%s\' has rspfile and no rspfile_content or vice versa"" , r -> name ) ; envaddrule ( env , r ) ; }" 517,"CWE-200 static int vsock_stream_recvmsg ( struct kiocb * kiocb , struct socket * sock , struct msghdr * msg , size_t len , int flags ) { struct sock * sk ; struct vsock_sock * vsk ; int err ; size_t target ; ssize_t copied ; long timeout ; struct vsock_transport_recv_notify_data recv_data ; DEFINE_WAIT ( wait ) ; sk = sock -> sk ; vsk = vsock_sk ( sk ) ; err = 0 ; lock_sock ( sk ) ; if ( sk -> sk_state != SS_CONNECTED ) { if ( sock_flag ( sk , SOCK_DONE ) ) err = 0 ; else err = - ENOTCONN ; goto out ; } if ( flags & MSG_OOB ) { err = - EOPNOTSUPP ; goto out ; } if ( sk -> sk_shutdown & RCV_SHUTDOWN ) { err = 0 ; goto out ; } if ( ! len ) { err = 0 ; goto out ; } target = sock_rcvlowat ( sk , flags & MSG_WAITALL , len ) ; if ( target >= transport -> stream_rcvhiwat ( vsk ) ) { err = - ENOMEM ; goto out ; } timeout = sock_rcvtimeo ( sk , flags & MSG_DONTWAIT ) ; copied = 0 ; err = transport -> notify_recv_init ( vsk , target , & recv_data ) ; if ( err < 0 ) goto out ; prepare_to_wait ( sk_sleep ( sk ) , & wait , TASK_INTERRUPTIBLE ) ; while ( 1 ) { s64 ready = vsock_stream_has_data ( vsk ) ; if ( ready < 0 ) { err = - ENOMEM ; goto out_wait ; } else if ( ready > 0 ) { ssize_t read ; err = transport -> notify_recv_pre_dequeue ( vsk , target , & recv_data ) ; if ( err < 0 ) break ; read = transport -> stream_dequeue ( vsk , msg -> msg_iov , len - copied , flags ) ; if ( read < 0 ) { err = - ENOMEM ; break ; } copied += read ;","static int vsock_stream_recvmsg ( struct kiocb * kiocb , struct socket * sock , struct msghdr * msg , size_t len , int flags ) { struct sock * sk ; struct vsock_sock * vsk ; int err ; size_t target ; ssize_t copied ; long timeout ; struct vsock_transport_recv_notify_data recv_data ; DEFINE_WAIT ( wait ) ; sk = sock -> sk ; vsk = vsock_sk ( sk ) ; err = 0 ; msg -> msg_namelen = 0 ; lock_sock ( sk ) ; if ( sk -> sk_state != SS_CONNECTED ) { if ( sock_flag ( sk , SOCK_DONE ) ) err = 0 ; else err = - ENOTCONN ; goto out ; } if ( flags & MSG_OOB ) { err = - EOPNOTSUPP ; goto out ; } if ( sk -> sk_shutdown & RCV_SHUTDOWN ) { err = 0 ; goto out ; } if ( ! len ) { err = 0 ; goto out ; } target = sock_rcvlowat ( sk , flags & MSG_WAITALL , len ) ; if ( target >= transport -> stream_rcvhiwat ( vsk ) ) { err = - ENOMEM ; goto out ; } timeout = sock_rcvtimeo ( sk , flags & MSG_DONTWAIT ) ; copied = 0 ; err = transport -> notify_recv_init ( vsk , target , & recv_data ) ; if ( err < 0 ) goto out ; prepare_to_wait ( sk_sleep ( sk ) , & wait , TASK_INTERRUPTIBLE ) ; while ( 1 ) { s64 ready = vsock_stream_has_data ( vsk ) ; if ( ready < 0 ) { err = - ENOMEM ; goto out_wait ; } else if ( ready > 0 ) { ssize_t read ; err = transport -> notify_recv_pre_dequeue ( vsk , target , & recv_data ) ; if ( err < 0 ) break ; read = transport -> stream_dequeue ( vsk , msg -> msg_iov , len - copied , flags ) ; if ( read < 0 ) { err = - ENOMEM ; break ; } copied += read ;" 518,"CWE-125 int TS_OBJ_print_bio ( BIO * bio , const ASN1_OBJECT * obj ) { char obj_txt [ 128 ] ; int len = OBJ_obj2txt ( obj_txt , sizeof ( obj_txt ) , obj , 0 ) ; BIO_write ( bio , obj_txt , len ) ; BIO_write ( bio , ""\\n"" , 1 ) ; return 1 ; }","int TS_OBJ_print_bio ( BIO * bio , const ASN1_OBJECT * obj ) { char obj_txt [ 128 ] ; OBJ_obj2txt ( obj_txt , sizeof ( obj_txt ) , obj , 0 ) ; BIO_printf ( bio , ""%s\\n"" , obj_txt ) ; return 1 ; }" 519,"CWE-125 static int cfm_network_addr_print ( netdissect_options * ndo , register const u_char * tptr ) { u_int network_addr_type ; u_int hexdump = FALSE ; network_addr_type = * tptr ; ND_PRINT ( ( ndo , ""\\n\\t Network Address Type %s (%u)"" , tok2str ( af_values , ""Unknown"" , network_addr_type ) , network_addr_type ) ) ; switch ( network_addr_type ) { case AFNUM_INET : ND_PRINT ( ( ndo , "", %s"" , ipaddr_string ( ndo , tptr + 1 ) ) ) ; break ; case AFNUM_INET6 : ND_PRINT ( ( ndo , "", %s"" , ip6addr_string ( ndo , tptr + 1 ) ) ) ; break ; default : hexdump = TRUE ; break ; } return hexdump ; }","static int cfm_network_addr_print ( netdissect_options * ndo , register const u_char * tptr , const u_int length ) { u_int network_addr_type ; u_int hexdump = FALSE ; if ( length < 1 ) { ND_PRINT ( ( ndo , ""\\n\\t Network Address Type (invalid, no data"" ) ) ; return hexdump ; } network_addr_type = * tptr ; ND_PRINT ( ( ndo , ""\\n\\t Network Address Type %s (%u)"" , tok2str ( af_values , ""Unknown"" , network_addr_type ) , network_addr_type ) ) ; switch ( network_addr_type ) { case AFNUM_INET : if ( length != 1 + 4 ) { ND_PRINT ( ( ndo , ""(invalid IPv4 address length %u)"" , length - 1 ) ) ; hexdump = TRUE ; break ; } ND_PRINT ( ( ndo , "", %s"" , ipaddr_string ( ndo , tptr + 1 ) ) ) ; break ; case AFNUM_INET6 : if ( length != 1 + 16 ) { ND_PRINT ( ( ndo , ""(invalid IPv6 address length %u)"" , length - 1 ) ) ; hexdump = TRUE ; break ; } ND_PRINT ( ( ndo , "", %s"" , ip6addr_string ( ndo , tptr + 1 ) ) ) ; break ; default : hexdump = TRUE ; break ; } return hexdump ; }" 520,"CWE-476 static bool LookupModMask ( struct xkb_context * ctx , const void * priv , xkb_atom_t field , enum expr_value_type type , xkb_mod_mask_t * val_rtrn ) { const char * str ; xkb_mod_index_t ndx ; const LookupModMaskPriv * arg = priv ; const struct xkb_mod_set * mods = arg -> mods ; enum mod_type mod_type = arg -> mod_type ; if ( type != EXPR_TYPE_INT ) return false ; str = xkb_atom_text ( ctx , field ) ; if ( istreq ( str , ""all"" ) ) { * val_rtrn = MOD_REAL_MASK_ALL ; return true ; } if ( istreq ( str , ""none"" ) ) { * val_rtrn = 0 ; return true ; } ndx = XkbModNameToIndex ( mods , field , mod_type ) ; if ( ndx == XKB_MOD_INVALID ) return false ; * val_rtrn = ( 1u << ndx ) ; return true ; }","static bool LookupModMask ( struct xkb_context * ctx , const void * priv , xkb_atom_t field , enum expr_value_type type , xkb_mod_mask_t * val_rtrn ) { const char * str ; xkb_mod_index_t ndx ; const LookupModMaskPriv * arg = priv ; const struct xkb_mod_set * mods = arg -> mods ; enum mod_type mod_type = arg -> mod_type ; if ( type != EXPR_TYPE_INT ) return false ; str = xkb_atom_text ( ctx , field ) ; if ( ! str ) return false ; if ( istreq ( str , ""all"" ) ) { * val_rtrn = MOD_REAL_MASK_ALL ; return true ; } if ( istreq ( str , ""none"" ) ) { * val_rtrn = 0 ; return true ; } ndx = XkbModNameToIndex ( mods , field , mod_type ) ; if ( ndx == XKB_MOD_INVALID ) return false ; * val_rtrn = ( 1u << ndx ) ; return true ; }" 521,"CWE-189 Datum hstore_from_arrays ( PG_FUNCTION_ARGS ) { int32 buflen ; HStore * out ; Pairs * pairs ; Datum * key_datums ; bool * key_nulls ; int key_count ; Datum * value_datums ; bool * value_nulls ; int value_count ; ArrayType * key_array ; ArrayType * value_array ; int i ; if ( PG_ARGISNULL ( 0 ) ) PG_RETURN_NULL ( ) ; key_array = PG_GETARG_ARRAYTYPE_P ( 0 ) ; Assert ( ARR_ELEMTYPE ( key_array ) == TEXTOID ) ; if ( ARR_NDIM ( key_array ) > 1 ) ereport ( ERROR , ( errcode ( ERRCODE_ARRAY_SUBSCRIPT_ERROR ) , errmsg ( ""wrong number of array subscripts"" ) ) ) ; deconstruct_array ( key_array , TEXTOID , - 1 , false , 'i' , & key_datums , & key_nulls , & key_count ) ; if ( PG_ARGISNULL ( 1 ) ) { value_array = NULL ; value_count = key_count ; value_datums = NULL ; value_nulls = NULL ; } else { value_array = PG_GETARG_ARRAYTYPE_P ( 1 ) ; Assert ( ARR_ELEMTYPE ( value_array ) == TEXTOID ) ; if ( ARR_NDIM ( value_array ) > 1 ) ereport ( ERROR , ( errcode ( ERRCODE_ARRAY_SUBSCRIPT_ERROR ) , errmsg ( ""wrong number of array subscripts"" ) ) ) ; if ( ( ARR_NDIM ( key_array ) > 0 || ARR_NDIM ( value_array ) > 0 ) && ( ARR_NDIM ( key_array ) != ARR_NDIM ( value_array ) || ARR_DIMS ( key_array ) [ 0 ] != ARR_DIMS ( value_array ) [ 0 ] || ARR_LBOUND ( key_array ) [ 0 ] != ARR_LBOUND ( value_array ) [ 0 ] ) ) ereport ( ERROR , ( errcode ( ERRCODE_ARRAY_SUBSCRIPT_ERROR ) , errmsg ( ""arrays must have same bounds"" ) ) ) ; deconstruct_array ( value_array , TEXTOID , - 1 , false , 'i' , & value_datums , & value_nulls , & value_count ) ; Assert ( key_count == value_count ) ; } pairs = palloc ( key_count * sizeof ( Pairs ) ) ; for ( i = 0 ; i < key_count ; ++ i ) { if ( key_nulls [ i ] ) ereport ( ERROR , ( errcode ( ERRCODE_NULL_VALUE_NOT_ALLOWED ) , errmsg ( ""null value not allowed for hstore key"" ) ) ) ; if ( ! value_nulls || value_nulls [ i ] ) { pairs [ i ] . key = VARDATA_ANY ( key_datums [ i ] ) ; pairs [ i ] . val = NULL ; pairs [ i ] . keylen = hstoreCheckKeyLen ( VARSIZE_ANY_EXHDR ( key_datums [ i ] ) ) ; pairs [ i ] . vallen = 4 ; pairs [ i ] . isnull = true ; pairs [ i ] . needfree = false ; } else { pairs [ i ] . key = VARDATA_ANY ( key_datums [ i ] ) ; pairs [ i ] . val = VARDATA_ANY ( value_datums [ i ] ) ; pairs [ i ] . keylen = hstoreCheckKeyLen ( VARSIZE_ANY_EXHDR ( key_datums [ i ] ) ) ; pairs [ i ] . vallen = hstoreCheckValLen ( VARSIZE_ANY_EXHDR ( value_datums [ i ] ) ) ; pairs [ i ] . isnull = false ;","Datum hstore_from_arrays ( PG_FUNCTION_ARGS ) { int32 buflen ; HStore * out ; Pairs * pairs ; Datum * key_datums ; bool * key_nulls ; int key_count ; Datum * value_datums ; bool * value_nulls ; int value_count ; ArrayType * key_array ; ArrayType * value_array ; int i ; if ( PG_ARGISNULL ( 0 ) ) PG_RETURN_NULL ( ) ; key_array = PG_GETARG_ARRAYTYPE_P ( 0 ) ; Assert ( ARR_ELEMTYPE ( key_array ) == TEXTOID ) ; if ( ARR_NDIM ( key_array ) > 1 ) ereport ( ERROR , ( errcode ( ERRCODE_ARRAY_SUBSCRIPT_ERROR ) , errmsg ( ""wrong number of array subscripts"" ) ) ) ; deconstruct_array ( key_array , TEXTOID , - 1 , false , 'i' , & key_datums , & key_nulls , & key_count ) ; if ( key_count > MaxAllocSize / sizeof ( Pairs ) ) ereport ( ERROR , ( errcode ( ERRCODE_PROGRAM_LIMIT_EXCEEDED ) , errmsg ( ""number of pairs (%d) exceeds the maximum allowed (%d)"" , key_count , ( int ) ( MaxAllocSize / sizeof ( Pairs ) ) ) ) ) ; if ( PG_ARGISNULL ( 1 ) ) { value_array = NULL ; value_count = key_count ; value_datums = NULL ; value_nulls = NULL ; } else { value_array = PG_GETARG_ARRAYTYPE_P ( 1 ) ; Assert ( ARR_ELEMTYPE ( value_array ) == TEXTOID ) ; if ( ARR_NDIM ( value_array ) > 1 ) ereport ( ERROR , ( errcode ( ERRCODE_ARRAY_SUBSCRIPT_ERROR ) , errmsg ( ""wrong number of array subscripts"" ) ) ) ; if ( ( ARR_NDIM ( key_array ) > 0 || ARR_NDIM ( value_array ) > 0 ) && ( ARR_NDIM ( key_array ) != ARR_NDIM ( value_array ) || ARR_DIMS ( key_array ) [ 0 ] != ARR_DIMS ( value_array ) [ 0 ] || ARR_LBOUND ( key_array ) [ 0 ] != ARR_LBOUND ( value_array ) [ 0 ] ) ) ereport ( ERROR , ( errcode ( ERRCODE_ARRAY_SUBSCRIPT_ERROR ) , errmsg ( ""arrays must have same bounds"" ) ) ) ; deconstruct_array ( value_array , TEXTOID , - 1 , false , 'i' , & value_datums , & value_nulls , & value_count ) ; Assert ( key_count == value_count ) ; } pairs = palloc ( key_count * sizeof ( Pairs ) ) ; for ( i = 0 ; i < key_count ; ++ i ) { if ( key_nulls [ i ] ) ereport ( ERROR , ( errcode ( ERRCODE_NULL_VALUE_NOT_ALLOWED ) , errmsg ( ""null value not allowed for hstore key"" ) ) ) ; if ( ! value_nulls || value_nulls [ i ] ) { pairs [ i ] . key = VARDATA_ANY ( key_datums [ i ] ) ; pairs [ i ] . val = NULL ; pairs [ i ] . keylen = hstoreCheckKeyLen ( VARSIZE_ANY_EXHDR ( key_datums [ i ] ) ) ; pairs [ i ] . vallen = 4 ; pairs [ i ] . isnull = true ; pairs [ i ] . needfree = false ; } else { pairs [ i ] . key = VARDATA_ANY ( key_datums [ i ] ) ; pairs [ i ] . val = VARDATA_ANY ( value_datums [ i ] ) ; pairs [ i ] . keylen = hstoreCheckKeyLen ( VARSIZE_ANY_EXHDR ( key_datums [ i ] ) ) ; pairs [ i ] . vallen = hstoreCheckValLen ( VARSIZE_ANY_EXHDR ( value_datums [ i ] ) ) ; pairs [ i ] . isnull = false ;" 522,"CWE-416 static struct mm_struct * mm_init ( struct mm_struct * mm , struct task_struct * p , struct user_namespace * user_ns ) { mm -> mmap = NULL ; mm -> mm_rb = RB_ROOT ; mm -> vmacache_seqnum = 0 ; atomic_set ( & mm -> mm_users , 1 ) ; atomic_set ( & mm -> mm_count , 1 ) ; init_rwsem ( & mm -> mmap_sem ) ; INIT_LIST_HEAD ( & mm -> mmlist ) ; mm -> core_state = NULL ; atomic_long_set ( & mm -> nr_ptes , 0 ) ; mm_nr_pmds_init ( mm ) ; mm -> map_count = 0 ; mm -> locked_vm = 0 ; mm -> pinned_vm = 0 ; memset ( & mm -> rss_stat , 0 , sizeof ( mm -> rss_stat ) ) ; spin_lock_init ( & mm -> page_table_lock ) ; mm_init_cpumask ( mm ) ; mm_init_aio ( mm ) ; mm_init_owner ( mm , p ) ; mmu_notifier_mm_init ( mm ) ; init_tlb_flush_pending ( mm ) ; # if defined ( CONFIG_TRANSPARENT_HUGEPAGE ) && ! USE_SPLIT_PMD_PTLOCKS mm -> pmd_huge_pte = NULL ; # endif if ( current -> mm ) { mm -> flags = current -> mm -> flags & MMF_INIT_MASK ; mm -> def_flags = current -> mm -> def_flags & VM_INIT_DEF_MASK ; } else { mm -> flags = default_dump_filter ; mm -> def_flags = 0 ; } if ( mm_alloc_pgd ( mm ) ) goto fail_nopgd ; if ( init_new_context ( p , mm ) ) goto fail_nocontext ; mm -> user_ns = get_user_ns ( user_ns ) ; return mm ; fail_nocontext : mm_free_pgd ( mm ) ; fail_nopgd : free_mm ( mm ) ; return NULL ; }","static struct mm_struct * mm_init ( struct mm_struct * mm , struct task_struct * p , struct user_namespace * user_ns ) { mm -> mmap = NULL ; mm -> mm_rb = RB_ROOT ; mm -> vmacache_seqnum = 0 ; atomic_set ( & mm -> mm_users , 1 ) ; atomic_set ( & mm -> mm_count , 1 ) ; init_rwsem ( & mm -> mmap_sem ) ; INIT_LIST_HEAD ( & mm -> mmlist ) ; mm -> core_state = NULL ; atomic_long_set ( & mm -> nr_ptes , 0 ) ; mm_nr_pmds_init ( mm ) ; mm -> map_count = 0 ; mm -> locked_vm = 0 ; mm -> pinned_vm = 0 ; memset ( & mm -> rss_stat , 0 , sizeof ( mm -> rss_stat ) ) ; spin_lock_init ( & mm -> page_table_lock ) ; mm_init_cpumask ( mm ) ; mm_init_aio ( mm ) ; mm_init_owner ( mm , p ) ; RCU_INIT_POINTER ( mm -> exe_file , NULL ) ; mmu_notifier_mm_init ( mm ) ; init_tlb_flush_pending ( mm ) ; # if defined ( CONFIG_TRANSPARENT_HUGEPAGE ) && ! USE_SPLIT_PMD_PTLOCKS mm -> pmd_huge_pte = NULL ; # endif if ( current -> mm ) { mm -> flags = current -> mm -> flags & MMF_INIT_MASK ; mm -> def_flags = current -> mm -> def_flags & VM_INIT_DEF_MASK ; } else { mm -> flags = default_dump_filter ; mm -> def_flags = 0 ; } if ( mm_alloc_pgd ( mm ) ) goto fail_nopgd ; if ( init_new_context ( p , mm ) ) goto fail_nocontext ; mm -> user_ns = get_user_ns ( user_ns ) ; return mm ; fail_nocontext : mm_free_pgd ( mm ) ; fail_nopgd : free_mm ( mm ) ; return NULL ; }" 523,"CWE-20 static gboolean parse_netscreen_packet ( FILE_T fh , struct wtap_pkthdr * phdr , Buffer * buf , char * line , int * err , gchar * * err_info ) { int sec ; int dsec ; char cap_int [ NETSCREEN_MAX_INT_NAME_LENGTH ] ; char direction [ 2 ] ; guint pkt_len ; char cap_src [ 13 ] ; char cap_dst [ 13 ] ; guint8 * pd ; gchar * p ; int n , i = 0 ; guint offset = 0 ; gchar dststr [ 13 ] ; phdr -> rec_type = REC_TYPE_PACKET ; phdr -> presence_flags = WTAP_HAS_TS | WTAP_HAS_CAP_LEN ; if ( sscanf ( line , ""%9d.%9d: %15[a-z0-9/:.-](%1[io]) len=%9u:%12s->%12s/"" , & sec , & dsec , cap_int , direction , & pkt_len , cap_src , cap_dst ) < 5 ) { * err = WTAP_ERR_BAD_FILE ; * err_info = g_strdup ( ""netscreen: Can\'t parse packet-header"" ) ; return - 1 ; } if ( pkt_len > WTAP_MAX_PACKET_SIZE ) { * err = WTAP_ERR_BAD_FILE ; * err_info = g_strdup_printf ( ""netscreen: File has %u-byte packet, bigger than maximum of %u"" , pkt_len , WTAP_MAX_PACKET_SIZE ) ; return FALSE ; } phdr -> ts . secs = sec ; phdr -> ts . nsecs = dsec * 100000000 ; phdr -> len = pkt_len ; ws_buffer_assure_space ( buf , pkt_len ) ; pd = ws_buffer_start_ptr ( buf ) ; while ( 1 ) { if ( file_gets ( line , NETSCREEN_LINE_LENGTH , fh ) == NULL ) { break ; } for ( p = & line [ 0 ] ; g_ascii_isspace ( * p ) ; p ++ ) ; if ( * p == '\\0' ) { break ; } n = parse_single_hex_dump_line ( p , pd , offset ) ; if ( offset == 0 && n < 6 ) { if ( info_line ( line ) ) { if ( ++ i <= NETSCREEN_MAX_INFOLINES ) { continue ; } } else { * err = WTAP_ERR_BAD_FILE ; * err_info = g_strdup ( ""netscreen: cannot parse hex-data"" ) ; return FALSE ; } } if ( n == - 1 ) { * err = WTAP_ERR_BAD_FILE ; * err_info = g_strdup ( ""netscreen: cannot parse hex-data"" ) ; return FALSE ; } offset += n ; if ( offset > pkt_len ) { * err = WTAP_ERR_BAD_FILE ; * err_info = g_strdup ( ""netscreen: too much hex-data"" ) ; return FALSE ; } } if ( strncmp ( cap_int , ""adsl"" , 4 ) == 0 ) { g_snprintf ( dststr , 13 , ""%02x%02x%02x%02x%02x%02x"" , pd [ 0 ] , pd [ 1 ] , pd [ 2 ] , pd [ 3 ] , pd [ 4 ] , pd [ 5 ] ) ; if ( strncmp ( dststr , cap_dst , 12 ) == 0 ) phdr -> pkt_encap = WTAP_ENCAP_ETHERNET ;","static gboolean parse_netscreen_packet ( FILE_T fh , struct wtap_pkthdr * phdr , Buffer * buf , char * line , int * err , gchar * * err_info ) { int pkt_len ; int sec ; int dsec ; char cap_int [ NETSCREEN_MAX_INT_NAME_LENGTH ] ; char direction [ 2 ] ; char cap_src [ 13 ] ; char cap_dst [ 13 ] ; guint8 * pd ; gchar * p ; int n , i = 0 ; int offset = 0 ; gchar dststr [ 13 ] ; phdr -> rec_type = REC_TYPE_PACKET ; phdr -> presence_flags = WTAP_HAS_TS | WTAP_HAS_CAP_LEN ; if ( sscanf ( line , ""%9d.%9d: %15[a-z0-9/:.-](%1[io]) len=%9d:%12s->%12s/"" , & sec , & dsec , cap_int , direction , & pkt_len , cap_src , cap_dst ) < 5 ) { * err = WTAP_ERR_BAD_FILE ; * err_info = g_strdup ( ""netscreen: Can\'t parse packet-header"" ) ; return - 1 ; } if ( pkt_len < 0 ) { * err = WTAP_ERR_BAD_FILE ; * err_info = g_strdup ( ""netscreen: packet header has a negative packet length"" ) ; return FALSE ; } if ( pkt_len > WTAP_MAX_PACKET_SIZE ) { * err = WTAP_ERR_BAD_FILE ; * err_info = g_strdup_printf ( ""netscreen: File has %u-byte packet, bigger than maximum of %u"" , pkt_len , WTAP_MAX_PACKET_SIZE ) ; return FALSE ; } phdr -> ts . secs = sec ; phdr -> ts . nsecs = dsec * 100000000 ; phdr -> len = pkt_len ; ws_buffer_assure_space ( buf , pkt_len ) ; pd = ws_buffer_start_ptr ( buf ) ; while ( 1 ) { if ( file_gets ( line , NETSCREEN_LINE_LENGTH , fh ) == NULL ) { break ; } for ( p = & line [ 0 ] ; g_ascii_isspace ( * p ) ; p ++ ) ; if ( * p == '\\0' ) { break ; } n = parse_single_hex_dump_line ( p , pd , offset ) ; if ( offset == 0 && n < 6 ) { if ( info_line ( line ) ) { if ( ++ i <= NETSCREEN_MAX_INFOLINES ) { continue ; } } else { * err = WTAP_ERR_BAD_FILE ; * err_info = g_strdup ( ""netscreen: cannot parse hex-data"" ) ; return FALSE ; } } if ( n == - 1 ) { * err = WTAP_ERR_BAD_FILE ; * err_info = g_strdup ( ""netscreen: cannot parse hex-data"" ) ; return FALSE ; } offset += n ; if ( offset > pkt_len ) { * err = WTAP_ERR_BAD_FILE ; * err_info = g_strdup ( ""netscreen: too much hex-data"" ) ; return FALSE ; } } if ( strncmp ( cap_int , ""adsl"" , 4 ) == 0 ) { g_snprintf ( dststr , 13 , ""%02x%02x%02x%02x%02x%02x"" , pd [ 0 ] , pd [ 1 ] , pd [ 2 ] , pd [ 3 ] , pd [ 4 ] , pd [ 5 ] ) ; if ( strncmp ( dststr , cap_dst , 12 ) == 0 ) phdr -> pkt_encap = WTAP_ENCAP_ETHERNET ;" 524,"CWE-119 static void save_context ( VP9_COMP * cpi , int mi_row , int mi_col , ENTROPY_CONTEXT a [ 16 * MAX_MB_PLANE ] , ENTROPY_CONTEXT l [ 16 * MAX_MB_PLANE ] , PARTITION_CONTEXT sa [ 8 ] , PARTITION_CONTEXT sl [ 8 ] , BLOCK_SIZE bsize ) { const MACROBLOCK * const x = & cpi -> mb ; const MACROBLOCKD * const xd = & x -> e_mbd ; int p ; const int num_4x4_blocks_wide = num_4x4_blocks_wide_lookup [ bsize ] ; const int num_4x4_blocks_high = num_4x4_blocks_high_lookup [ bsize ] ; int mi_width = num_8x8_blocks_wide_lookup [ bsize ] ; int mi_height = num_8x8_blocks_high_lookup [ bsize ] ; for ( p = 0 ; p < MAX_MB_PLANE ; ++ p ) { vpx_memcpy ( a + num_4x4_blocks_wide * p , xd -> above_context [ p ] + ( mi_col * 2 >> xd -> plane [ p ] . subsampling_x ) , ( sizeof ( ENTROPY_CONTEXT ) * num_4x4_blocks_wide ) >> xd -> plane [ p ] . subsampling_x ) ; vpx_memcpy ( l + num_4x4_blocks_high * p , xd -> left_context [ p ] ( sizeof ( ENTROPY_CONTEXT ) * num_4x4_blocks_high ) >> xd -> plane [ p ] . subsampling_y ) ; } vpx_memcpy ( sa , xd -> above_seg_context + mi_col , sizeof ( * xd -> above_seg_context ) * mi_width ) ; vpx_memcpy ( sl , xd -> left_seg_context + ( mi_row & MI_MASK ) , sizeof ( xd -> left_seg_context [ 0 ] ) * mi_height ) ; }","static void save_context ( MACROBLOCK * const x , int mi_row , int mi_col , ENTROPY_CONTEXT a [ 16 * MAX_MB_PLANE ] , ENTROPY_CONTEXT l [ 16 * MAX_MB_PLANE ] , PARTITION_CONTEXT sa [ 8 ] , PARTITION_CONTEXT sl [ 8 ] , BLOCK_SIZE bsize ) { const MACROBLOCKD * const xd = & x -> e_mbd ; int p ; const int num_4x4_blocks_wide = num_4x4_blocks_wide_lookup [ bsize ] ; const int num_4x4_blocks_high = num_4x4_blocks_high_lookup [ bsize ] ; int mi_width = num_8x8_blocks_wide_lookup [ bsize ] ; int mi_height = num_8x8_blocks_high_lookup [ bsize ] ; for ( p = 0 ; p < MAX_MB_PLANE ; ++ p ) { memcpy ( a + num_4x4_blocks_wide * p , xd -> above_context [ p ] + ( mi_col * 2 >> xd -> plane [ p ] . subsampling_x ) , ( sizeof ( ENTROPY_CONTEXT ) * num_4x4_blocks_wide ) >> xd -> plane [ p ] . subsampling_x ) ; memcpy ( l + num_4x4_blocks_high * p , xd -> left_context [ p ] ( ( mi_row & MI_MASK ) * 2 >> xd -> plane [ p ] . subsampling_y ) , ( sizeof ( ENTROPY_CONTEXT ) * num_4x4_blocks_high ) >> xd -> plane [ p ] . subsampling_y ) ; } memcpy ( sa , xd -> above_seg_context + mi_col , sizeof ( * xd -> above_seg_context ) * mi_width ) ; memcpy ( sl , xd -> left_seg_context + ( mi_row & MI_MASK ) , sizeof ( xd -> left_seg_context [ 0 ] ) * mi_height ) ; }" 525,"CWE-119 static int update_mv ( vp9_writer * w , const unsigned int ct [ 2 ] , vp9_prob * cur_p , vp9_prob upd_p ) { const vp9_prob new_p = get_binary_prob ( ct [ 0 ] , ct [ 1 ] ) | 1 ; const int update = cost_branch256 ( ct , * cur_p ) + vp9_cost_zero ( upd_p ) > cost_branch256 ( ct , new_p ) + vp9_cost_one ( upd_p ) + 7 * 256 ; vp9_write ( w , update , upd_p ) ; if ( update ) { * cur_p = new_p ; vp9_write_literal ( w , new_p >> 1 , 7 ) ; } return update ; }","static int update_mv ( vpx_writer * w , const unsigned int ct [ 2 ] , vpx_prob * cur_p , vpx_prob upd_p ) { const vpx_prob new_p = get_binary_prob ( ct [ 0 ] , ct [ 1 ] ) | 1 ; const int update = cost_branch256 ( ct , * cur_p ) + vp9_cost_zero ( upd_p ) > cost_branch256 ( ct , new_p ) + vp9_cost_one ( upd_p ) + 7 * 256 ; vpx_write ( w , update , upd_p ) ; if ( update ) { * cur_p = new_p ; vpx_write_literal ( w , new_p >> 1 , 7 ) ; } return update ; }" 526,"CWE-326 int secure_check ( void * data ) { const at91_secure_header_t * header ; void * file ; if ( secure_decrypt ( data , sizeof ( * header ) , 0 ) ) return - 1 ; header = ( const at91_secure_header_t * ) data ; if ( header -> magic != AT91_SECURE_MAGIC ) return - 1 ; file = ( unsigned char * ) data + sizeof ( * header ) ; return secure_decrypt ( file , header -> file_size , 1 ) ; }","int secure_check ( void * data ) { const at91_secure_header_t * header ; void * file ; int ret = - 1 ; if ( secure_decrypt ( data , sizeof ( * header ) , 0 ) ) goto secure_wipe_keys ; header = ( const at91_secure_header_t * ) data ; if ( header -> magic != AT91_SECURE_MAGIC ) goto secure_wipe_keys ; file = ( unsigned char * ) data + sizeof ( * header ) ; ret = secure_decrypt ( file , header -> file_size , 1 ) ; secure_wipe_keys : wipe_keys ( ) ; return ret ; }" 527,"CWE-264 static int check_entry_size_and_hooks ( struct ip6t_entry * e , struct xt_table_info * newinfo , const unsigned char * base , const unsigned char * limit , const unsigned int * hook_entries , const unsigned int * underflows , unsigned int valid_hooks ) { unsigned int h ; int err ; if ( ( unsigned long ) e % __alignof__ ( struct ip6t_entry ) != 0 || ( unsigned char * ) e + sizeof ( struct ip6t_entry ) >= limit || ( unsigned char * ) e + e -> next_offset > limit ) { duprintf ( ""Bad offset %p\\n"" , e ) ; return - EINVAL ; } if ( e -> next_offset < sizeof ( struct ip6t_entry ) + sizeof ( struct xt_entry_target ) ) { duprintf ( ""checking: element %p size %u\\n"" , e , e -> next_offset ) ; return - EINVAL ; } if ( ! ip6_checkentry ( & e -> ipv6 ) ) return - EINVAL ; err = xt_check_entry_offsets ( e , e -> target_offset , e -> next_offset ) ; if ( err ) return err ; for ( h = 0 ; h < NF_INET_NUMHOOKS ; h ++ ) { if ( ! ( valid_hooks & ( 1 << h ) ) ) continue ; if ( ( unsigned char * ) e - base == hook_entries [ h ] ) newinfo -> hook_entry [ h ] = hook_entries [ h ] ; if ( ( unsigned char * ) e - base == underflows [ h ] ) { if ( ! check_underflow ( e ) ) { pr_debug ( ""Underflows must be unconditional and "" ""use the STANDARD target with "" ""ACCEPT/DROP\\n"" ) ; return - EINVAL ; } newinfo -> underflow [ h ] = underflows [ h ] ; } } e -> counters = ( ( struct xt_counters ) { 0 , 0 } ) ; e -> comefrom = 0 ; return 0 ; }","static int check_entry_size_and_hooks ( struct ip6t_entry * e , struct xt_table_info * newinfo , const unsigned char * base , const unsigned char * limit , const unsigned int * hook_entries , const unsigned int * underflows , unsigned int valid_hooks ) { unsigned int h ; int err ; if ( ( unsigned long ) e % __alignof__ ( struct ip6t_entry ) != 0 || ( unsigned char * ) e + sizeof ( struct ip6t_entry ) >= limit || ( unsigned char * ) e + e -> next_offset > limit ) { duprintf ( ""Bad offset %p\\n"" , e ) ; return - EINVAL ; } if ( e -> next_offset < sizeof ( struct ip6t_entry ) + sizeof ( struct xt_entry_target ) ) { duprintf ( ""checking: element %p size %u\\n"" , e , e -> next_offset ) ; return - EINVAL ; } if ( ! ip6_checkentry ( & e -> ipv6 ) ) return - EINVAL ; err = xt_check_entry_offsets ( e , e -> elems , e -> target_offset , e -> next_offset ) ; if ( err ) return err ; for ( h = 0 ; h < NF_INET_NUMHOOKS ; h ++ ) { if ( ! ( valid_hooks & ( 1 << h ) ) ) continue ; if ( ( unsigned char * ) e - base == hook_entries [ h ] ) newinfo -> hook_entry [ h ] = hook_entries [ h ] ; if ( ( unsigned char * ) e - base == underflows [ h ] ) { if ( ! check_underflow ( e ) ) { pr_debug ( ""Underflows must be unconditional and "" ""use the STANDARD target with "" ""ACCEPT/DROP\\n"" ) ; return - EINVAL ; } newinfo -> underflow [ h ] = underflows [ h ] ; } } e -> counters = ( ( struct xt_counters ) { 0 , 0 } ) ; e -> comefrom = 0 ; return 0 ; }" 528,"CWE-125 else if ( quote == 'r' || quote == 'R' ) { quote = * ++ s ; * rawmode = 1 ; } else if ( quote == 'f' || quote == 'F' ) { quote = * ++ s ; fmode = 1 ; } else { break ; } } } if ( fmode && * bytesmode ) { PyErr_BadInternalCall ( ) ; return - 1 ; } if ( quote != '\\'' && quote != \'\\""\' ) { PyErr_BadInternalCall ( ) ; return - 1 ; } s ++ ; len = strlen ( s ) ; if ( len > INT_MAX ) { PyErr_SetString ( PyExc_OverflowError , ""string to parse is too long"" ) ; return - 1 ; } if ( s [ -- len ] != quote ) { PyErr_BadInternalCall ( ) ; return - 1 ; } if ( len >= 4 && s [ 0 ] == quote && s [ 1 ] == quote ) { s += 2 ; len -= 2 ; if ( s [ -- len ] != quote || s [ -- len ] != quote ) { PyErr_BadInternalCall ( ) ; return - 1 ; } } if ( fmode ) { * fstr = s ; * fstrlen = len ; return 0 ; } * rawmode = * rawmode || strchr ( s , '\\\\' ) == NULL ; if ( * bytesmode ) { const char * ch ; for ( ch = s ; * ch ; ch ++ ) { if ( Py_CHARMASK ( * ch ) >= 0x80 ) { ast_error ( c , n , ""bytes can only contain ASCII "" ""literal characters."" ) ; return - 1 ; } } if ( * rawmode ) * result = PyBytes_FromStringAndSize ( s , len ) ; else * result = decode_bytes_with_escapes ( c , n , s , len ) ; } else { if ( * rawmode ) * result = PyUnicode_DecodeUTF8Stateful ( s , len , NULL , NULL ) ; else * result = decode_unicode_with_escapes ( c , n , s , len ) ; } return * result == NULL ? - 1 : 0 ; }","else if ( quote == 'r' || quote == 'R' ) { quote = * ++ s ; * rawmode = 1 ; } else if ( quote == 'f' || quote == 'F' ) { quote = * ++ s ; fmode = 1 ; } else { break ; } } } if ( fmode && * bytesmode ) { PyErr_BadInternalCall ( ) ; return - 1 ; } if ( quote != '\\'' && quote != \'\\""\' ) { PyErr_BadInternalCall ( ) ; return - 1 ; } s ++ ; len = strlen ( s ) ; if ( len > INT_MAX ) { PyErr_SetString ( PyExc_OverflowError , ""string to parse is too long"" ) ; return - 1 ; } if ( s [ -- len ] != quote ) { PyErr_BadInternalCall ( ) ; return - 1 ; } if ( len >= 4 && s [ 0 ] == quote && s [ 1 ] == quote ) { s += 2 ; len -= 2 ; if ( s [ -- len ] != quote || s [ -- len ] != quote ) { PyErr_BadInternalCall ( ) ; return - 1 ; } } if ( fmode ) { * fstr = s ; * fstrlen = len ; return 0 ; } * rawmode = * rawmode || strchr ( s , '\\\\' ) == NULL ; if ( * bytesmode ) { const char * ch ; for ( ch = s ; * ch ; ch ++ ) { if ( Py_CHARMASK ( * ch ) >= 0x80 ) { ast_error ( c , n , ""bytes can only contain ASCII "" ""literal characters."" ) ; return - 1 ; } } if ( * rawmode ) * result = PyBytes_FromStringAndSize ( s , len ) ; else * result = decode_bytes_with_escapes ( c , n , s , len ) ; } else { if ( * rawmode ) * result = PyUnicode_DecodeUTF8Stateful ( s , len , NULL , NULL ) ; else * result = decode_unicode_with_escapes ( c , n , s , len ) ; } return * result == NULL ? - 1 : 0 ; }" 529,"CWE-552 static ssize_t _hostsock_recv ( oe_fd_t * sock_ , void * buf , size_t count , int flags ) { ssize_t ret = - 1 ; sock_t * sock = _cast_sock ( sock_ ) ; oe_errno = 0 ; if ( ! sock || ( count && ! buf ) ) OE_RAISE_ERRNO ( OE_EINVAL ) ; if ( buf ) { if ( oe_memset_s ( buf , count , 0 , count ) != OE_OK ) OE_RAISE_ERRNO ( OE_EINVAL ) ; } if ( oe_syscall_recv_ocall ( & ret , sock -> host_fd , buf , count , flags ) != OE_OK ) OE_RAISE_ERRNO ( OE_EINVAL ) ; done : return ret ; }","static ssize_t _hostsock_recv ( oe_fd_t * sock_ , void * buf , size_t count , int flags ) { ssize_t ret = - 1 ; sock_t * sock = _cast_sock ( sock_ ) ; oe_errno = 0 ; if ( ! sock || ( count && ! buf ) || count > OE_SSIZE_MAX ) OE_RAISE_ERRNO ( OE_EINVAL ) ; if ( buf ) { if ( oe_memset_s ( buf , count , 0 , count ) != OE_OK ) OE_RAISE_ERRNO ( OE_EINVAL ) ; } if ( oe_syscall_recv_ocall ( & ret , sock -> host_fd , buf , count , flags ) != OE_OK ) OE_RAISE_ERRNO ( OE_EINVAL ) ; if ( ret > ( ssize_t ) count ) { ret = - 1 ; OE_RAISE_ERRNO ( OE_EINVAL ) ; } done : return ret ; }" 530,"NVD-CWE-noinfo static int ext4_ext_convert_to_initialized ( handle_t * handle , struct inode * inode , struct ext4_map_blocks * map , struct ext4_ext_path * path ) { struct ext4_extent * ex , newex , orig_ex ; struct ext4_extent * ex1 = NULL ; struct ext4_extent * ex2 = NULL ; struct ext4_extent * ex3 = NULL ; struct ext4_extent_header * eh ; ext4_lblk_t ee_block , eof_block ; unsigned int allocated , ee_len , depth ; ext4_fsblk_t newblock ; int err = 0 ; int ret = 0 ; int may_zeroout ; ext_debug ( ""ext4_ext_convert_to_initialized: inode %lu, logical"" ""block %llu, max_blocks %u\\n"" , inode -> i_ino , ( unsigned long long ) map -> m_lblk , map -> m_len ) ; eof_block = ( inode -> i_size + inode -> i_sb -> s_blocksize - 1 ) >> inode -> i_sb -> s_blocksize_bits ; if ( eof_block < map -> m_lblk + map -> m_len ) eof_block = map -> m_lblk + map -> m_len ; depth = ext_depth ( inode ) ; eh = path [ depth ] . p_hdr ; ex = path [ depth ] . p_ext ; ee_block = le32_to_cpu ( ex -> ee_block ) ; ee_len = ext4_ext_get_actual_len ( ex ) ; allocated = ee_len - ( map -> m_lblk - ee_block ) ; newblock = map -> m_lblk - ee_block + ext4_ext_pblock ( ex ) ; ex2 = ex ; orig_ex . ee_block = ex -> ee_block ; orig_ex . ee_len = cpu_to_le16 ( ee_len ) ; ext4_ext_store_pblock ( & orig_ex , ext4_ext_pblock ( ex ) ) ; may_zeroout = ee_block + ee_len <= eof_block ; err = ext4_ext_get_access ( handle , inode , path + depth ) ; if ( err ) goto out ; if ( ee_len <= 2 * EXT4_EXT_ZERO_LEN && may_zeroout ) { err = ext4_ext_zeroout ( inode , & orig_ex ) ; if ( err ) goto fix_extent_len ; ex -> ee_block = orig_ex . ee_block ; ex -> ee_len = orig_ex . ee_len ; ext4_ext_store_pblock ( ex , ext4_ext_pblock ( & orig_ex ) ) ; ext4_ext_dirty ( handle , inode , path + depth ) ; return allocated ; } if ( map -> m_lblk > ee_block ) { ex1 = ex ; ex1 -> ee_len = cpu_to_le16 ( map -> m_lblk - ee_block ) ; ext4_ext_mark_uninitialized ( ex1 ) ; ex2 = & newex ; } if ( ! ex1 && allocated > map -> m_len ) ex2 -> ee_len = cpu_to_le16 ( map -> m_len ) ; if ( allocated > map -> m_len ) { unsigned int newdepth ; if ( allocated <= EXT4_EXT_ZERO_LEN && may_zeroout ) { ex -> ee_block = orig_ex . ee_block ; ex -> ee_len = cpu_to_le16 ( ee_len - allocated ) ; ext4_ext_mark_uninitialized ( ex ) ; ext4_ext_store_pblock ( ex , ext4_ext_pblock ( & orig_ex ) ) ; ext4_ext_dirty ( handle , inode , path + depth ) ; ex3 = & newex ; ex3 -> ee_block = cpu_to_le32 ( map -> m_lblk ) ; ext4_ext_store_pblock ( ex3 , newblock ) ; ex3 -> ee_len = cpu_to_le16 ( allocated ) ; err = ext4_ext_insert_extent ( handle , inode , path , ex3 , 0 ) ; if ( err == - ENOSPC ) { err = ext4_ext_zeroout ( inode , & orig_ex ) ; if ( err ) goto fix_extent_len ; ex -> ee_block = orig_ex . ee_block ; ex -> ee_len = orig_ex . ee_len ; ext4_ext_store_pblock ( ex , ext4_ext_pblock ( & orig_ex ) ) ; ext4_ext_dirty ( handle , inode , path + depth ) ; return allocated ; } else if ( err ) goto fix_extent_len ; err = ext4_ext_zeroout ( inode , ex3 ) ; if ( err ) { depth = ext_depth ( inode ) ; ext4_ext_drop_refs ( path ) ; path = ext4_ext_find_extent ( inode , map -> m_lblk , path ) ; if ( IS_ERR ( path ) ) { err = PTR_ERR ( path ) ; return err ; } ex = path [ depth ] . p_ext ; err = ext4_ext_get_access ( handle , inode , path + depth ) ; if ( err ) return err ; ext4_ext_mark_uninitialized ( ex ) ; ext4_ext_dirty ( handle , inode , path + depth ) ; return err ; } return allocated ; } ex3 = & newex ; ex3 -> ee_block = cpu_to_le32 ( map -> m_lblk + map -> m_len ) ; ext4_ext_store_pblock ( ex3 , newblock + map -> m_len ) ; ex3 -> ee_len = cpu_to_le16 ( allocated - map -> m_len ) ; ext4_ext_mark_uninitialized ( ex3 ) ; err = ext4_ext_insert_extent ( handle , inode , path , ex3 , 0 ) ; if ( err == - ENOSPC && may_zeroout ) { err = ext4_ext_zeroout ( inode , & orig_ex ) ; if ( err ) goto fix_extent_len ; ex -> ee_block = orig_ex . ee_block ; ex -> ee_len = orig_ex . ee_len ; ext4_ext_store_pblock ( ex , ext4_ext_pblock ( & orig_ex ) ) ; ext4_ext_dirty ( handle , inode , path + depth ) ; return allocated ; } else if ( err ) goto fix_extent_len ; newdepth = ext_depth ( inode ) ; ee_len -= ext4_ext_get_actual_len ( ex3 ) ; orig_ex . ee_len = cpu_to_le16 ( ee_len ) ; may_zeroout = ee_block + ee_len <= eof_block ; depth = newdepth ; ext4_ext_drop_refs ( path ) ; path = ext4_ext_find_extent ( inode , map -> m_lblk , path ) ; if ( IS_ERR ( path ) ) { err = PTR_ERR ( path ) ; goto out ; } eh = path [ depth ] . p_hdr ; ex = path [ depth ] . p_ext ; if ( ex2 != & newex ) ex2 = ex ; err = ext4_ext_get_access ( handle , inode , path + depth ) ; if ( err ) goto out ; allocated = map -> m_len ; if ( le16_to_cpu ( orig_ex . ee_len ) <= EXT4_EXT_ZERO_LEN && map -> m_lblk != ee_block && may_zeroout ) { err = ext4_ext_zeroout ( inode , & orig_ex ) ; if ( err ) goto fix_extent_len ; ex -> ee_block = orig_ex . ee_block ; ex -> ee_len = orig_ex . ee_len ; ext4_ext_store_pblock ( ex , ext4_ext_pblock ( & orig_ex ) ) ; ext4_ext_dirty ( handle , inode , path + depth ) ; return allocated ; } } if ( ex1 && ex1 != ex ) { ex1 = ex ; ex1 -> ee_len = cpu_to_le16 ( map -> m_lblk - ee_block ) ; ext4_ext_mark_uninitialized ( ex1 ) ; ex2 = & newex ; } ex2 -> ee_block = cpu_to_le32 ( map -> m_lblk ) ; ext4_ext_store_pblock ( ex2 , newblock ) ; ex2 -> ee_len = cpu_to_le16 ( allocated ) ; if ( ex2 != ex ) goto insert ; if ( ex2 > EXT_FIRST_EXTENT ( eh ) ) { ret = ext4_ext_try_to_merge ( inode , path , ex2 - 1 ) ; if ( ret ) { err = ext4_ext_correct_indexes ( handle , inode , path ) ; if ( err ) goto out ; depth = ext_depth ( inode ) ; ex2 -- ; } } if ( ! ex3 ) { ret = ext4_ext_try_to_merge ( inode , path , ex2 ) ; if ( ret ) { err = ext4_ext_correct_indexes ( handle , inode , path ) ; if ( err ) goto out ; } } err = ext4_ext_dirty ( handle , inode , path + depth ) ; goto out ; insert : err = ext4_ext_insert_extent ( handle , inode , path , & newex , 0 ) ; if ( err == - ENOSPC && may_zeroout ) { err = ext4_ext_zeroout ( inode , & orig_ex ) ; if ( err ) goto fix_extent_len ; ex -> ee_block = orig_ex . ee_block ; ex -> ee_len = orig_ex . ee_len ; ext4_ext_store_pblock ( ex , ext4_ext_pblock ( & orig_ex ) ) ; ext4_ext_dirty ( handle , inode , path + depth ) ; return allocated ; } else if ( err ) goto fix_extent_len ; out : ext4_ext_show_leaf ( inode , path ) ; return err ? err : allocated ; fix_extent_len : ex -> ee_block = orig_ex . ee_block ; ex -> ee_len = orig_ex . ee_len ; ext4_ext_store_pblock ( ex , ext4_ext_pblock ( & orig_ex ) ) ; ext4_ext_mark_uninitialized ( ex ) ; ext4_ext_dirty ( handle , inode , path + depth ) ; return err ; }","static int ext4_ext_convert_to_initialized ( handle_t * handle , struct inode * inode , struct ext4_map_blocks * map , struct ext4_ext_path * path ) { struct ext4_map_blocks split_map ; struct ext4_extent zero_ex ; struct ext4_extent * ex ; ext4_lblk_t ee_block , eof_block ; unsigned int allocated , ee_len , depth ; int err = 0 ; int split_flag = 0 ; ext_debug ( ""ext4_ext_convert_to_initialized: inode %lu, logical"" ""block %llu, max_blocks %u\\n"" , inode -> i_ino , ( unsigned long long ) map -> m_lblk , map -> m_len ) ; eof_block = ( inode -> i_size + inode -> i_sb -> s_blocksize - 1 ) >> inode -> i_sb -> s_blocksize_bits ; if ( eof_block < map -> m_lblk + map -> m_len ) eof_block = map -> m_lblk + map -> m_len ; depth = ext_depth ( inode ) ; ex = path [ depth ] . p_ext ; ee_block = le32_to_cpu ( ex -> ee_block ) ; ee_len = ext4_ext_get_actual_len ( ex ) ; allocated = ee_len - ( map -> m_lblk - ee_block ) ; WARN_ON ( map -> m_lblk < ee_block ) ; split_flag |= ee_block + ee_len <= eof_block ? EXT4_EXT_MAY_ZEROOUT : 0 ; if ( ee_len <= 2 * EXT4_EXT_ZERO_LEN && ( EXT4_EXT_MAY_ZEROOUT & split_flag ) ) { err = ext4_ext_zeroout ( inode , ex ) ; if ( err ) goto out ; err = ext4_ext_get_access ( handle , inode , path + depth ) ; if ( err ) goto out ; ext4_ext_mark_initialized ( ex ) ; ext4_ext_try_to_merge ( inode , path , ex ) ; err = ext4_ext_dirty ( handle , inode , path + depth ) ; goto out ; } split_map . m_lblk = map -> m_lblk ; split_map . m_len = map -> m_len ; if ( allocated > map -> m_len ) { if ( allocated <= EXT4_EXT_ZERO_LEN && ( EXT4_EXT_MAY_ZEROOUT & split_flag ) ) { zero_ex . ee_block = cpu_to_le32 ( map -> m_lblk + map -> m_len ) ; zero_ex . ee_len = cpu_to_le16 ( allocated - map -> m_len ) ; ext4_ext_store_pblock ( & zero_ex , ext4_ext_pblock ( ex ) + map -> m_lblk - ee_block ) ; err = ext4_ext_zeroout ( inode , & zero_ex ) ; if ( err ) goto out ; split_map . m_lblk = map -> m_lblk ; split_map . m_len = allocated ; } else if ( ( map -> m_lblk - ee_block + map -> m_len < EXT4_EXT_ZERO_LEN ) && ( EXT4_EXT_MAY_ZEROOUT & split_flag ) ) { if ( map -> m_lblk != ee_block ) { zero_ex . ee_block = ex -> ee_block ; zero_ex . ee_len = cpu_to_le16 ( map -> m_lblk - ee_block ) ; ext4_ext_store_pblock ( & zero_ex , ext4_ext_pblock ( ex ) ) ; err = ext4_ext_zeroout ( inode , & zero_ex ) ; if ( err ) goto out ; } allocated = map -> m_lblk - ee_block + map -> m_len ; split_map . m_lblk = ee_block ; split_map . m_len = allocated ; } } allocated = ext4_split_extent ( handle , inode , path , & split_map , split_flag , 0 ) ; if ( allocated < 0 ) err = allocated ; out : return err ? err : allocated ; }" 531,"CWE-617 int init_pci ( struct vmctx * ctx ) { struct mem_range mr ; struct pci_vdev_ops * ops ; struct businfo * bi ; struct slotinfo * si ; struct funcinfo * fi ; size_t lowmem ; int bus , slot , func ; int success_cnt = 0 ; int error ; pci_emul_iobase = PCI_EMUL_IOBASE ; pci_emul_membase32 = vm_get_lowmem_limit ( ctx ) ; pci_emul_membase64 = PCI_EMUL_MEMBASE64 ; create_gsi_sharing_groups ( ) ; for ( bus = 0 ; bus < MAXBUSES ; bus ++ ) { bi = pci_businfo [ bus ] ; if ( bi == NULL ) continue ; bi -> iobase = pci_emul_iobase ; bi -> membase32 = pci_emul_membase32 ; bi -> membase64 = pci_emul_membase64 ; for ( slot = 0 ; slot < MAXSLOTS ; slot ++ ) { si = & bi -> slotinfo [ slot ] ; for ( func = 0 ; func < MAXFUNCS ; func ++ ) { fi = & si -> si_funcs [ func ] ; if ( fi -> fi_name == NULL ) continue ; ops = pci_emul_finddev ( fi -> fi_name ) ; assert ( ops != NULL ) ; pr_notice ( ""pci init %s\\r\\n"" , fi -> fi_name ) ; error = pci_emul_init ( ctx , ops , bus , slot , func , fi ) ; if ( error ) { pr_err ( ""pci %s init failed\\n"" , fi -> fi_name ) ; goto pci_emul_init_fail ; } success_cnt ++ ; } } pci_emul_iobase += BUSIO_ROUNDUP ; pci_emul_iobase = roundup2 ( pci_emul_iobase , BUSIO_ROUNDUP ) ; bi -> iolimit = pci_emul_iobase ; pci_emul_membase32 += BUSMEM_ROUNDUP ; pci_emul_membase32 = roundup2 ( pci_emul_membase32 , BUSMEM_ROUNDUP ) ; bi -> memlimit32 = pci_emul_membase32 ; pci_emul_membase64 += BUSMEM_ROUNDUP ; pci_emul_membase64 = roundup2 ( pci_emul_membase64 , BUSMEM_ROUNDUP ) ; bi -> memlimit64 = pci_emul_membase64 ; } error = check_gsi_sharing_violation ( ) ; if ( error < 0 ) goto pci_emul_init_fail ; for ( bus = 0 ; bus < MAXBUSES ; bus ++ ) { bi = pci_businfo [ bus ] ; if ( bi == NULL ) continue ; for ( slot = 0 ; slot < MAXSLOTS ; slot ++ ) { si = & bi -> slotinfo [ slot ] ; for ( func = 0 ; func < MAXFUNCS ; func ++ ) { fi = & si -> si_funcs [ func ] ; if ( fi -> fi_devi == NULL ) continue ; pci_lintr_route ( fi -> fi_devi ) ; ops = fi -> fi_devi -> dev_ops ; if ( ops && ops -> vdev_phys_access ) ops -> vdev_phys_access ( ctx , fi -> fi_devi ) ; } } } lpc_pirq_routed ( ) ; lowmem = vm_get_lowmem_size ( ctx ) ; bzero ( & mr , sizeof ( struct mem_range ) ) ; mr . name = ""PCI hole (32-bit)"" ; mr . flags = MEM_F_RW ; mr . base = lowmem ; mr . size = ( 4ULL * 1024 * 1024 * 1024 ) - lowmem ; mr . handler = pci_emul_fallback_handler ; error = register_mem_fallback ( & mr ) ; assert ( error == 0 ) ; bzero ( & mr , sizeof ( struct mem_range ) ) ; mr . name = ""PCI hole (64-bit)"" ; mr . flags = MEM_F_RW ; mr . base = PCI_EMUL_MEMBASE64 ; mr . size = PCI_EMUL_MEMLIMIT64 - PCI_EMUL_MEMBASE64 ; mr . handler = pci_emul_fallback_handler ; error = register_mem_fallback ( & mr ) ; assert ( error == 0 ) ; bzero ( & mr , sizeof ( struct mem_range ) ) ; mr . name = ""PCI ECFG"" ; mr . flags = MEM_F_RW ; mr . base = PCI_EMUL_ECFG_BASE ; mr . size = PCI_EMUL_ECFG_SIZE ; mr . handler = pci_emul_ecfg_handler ; error = register_mem ( & mr ) ; assert ( error == 0 ) ; return 0 ; pci_emul_init_fail : for ( bus = 0 ; bus < MAXBUSES && success_cnt > 0 ; bus ++ ) { bi = pci_businfo [ bus ] ; if ( bi == NULL ) continue ; for ( slot = 0 ; slot < MAXSLOTS && success_cnt > 0 ; slot ++ ) { si = & bi -> slotinfo [ slot ] ; for ( func = 0 ; func < MAXFUNCS ; func ++ ) { fi = & si -> si_funcs [ func ] ; if ( fi -> fi_name == NULL ) continue ; if ( success_cnt -- <= 0 ) break ; ops = pci_emul_finddev ( fi -> fi_name ) ; assert ( ops != NULL ) ; pci_emul_deinit ( ctx , ops , bus , slot , func , fi ) ; } } } return error ; }","int init_pci ( struct vmctx * ctx ) { struct mem_range mr ; struct pci_vdev_ops * ops ; struct businfo * bi ; struct slotinfo * si ; struct funcinfo * fi ; size_t lowmem ; int bus , slot , func ; int success_cnt = 0 ; int error ; pci_emul_iobase = PCI_EMUL_IOBASE ; pci_emul_membase32 = vm_get_lowmem_limit ( ctx ) ; pci_emul_membase64 = PCI_EMUL_MEMBASE64 ; create_gsi_sharing_groups ( ) ; for ( bus = 0 ; bus < MAXBUSES ; bus ++ ) { bi = pci_businfo [ bus ] ; if ( bi == NULL ) continue ; bi -> iobase = pci_emul_iobase ; bi -> membase32 = pci_emul_membase32 ; bi -> membase64 = pci_emul_membase64 ; for ( slot = 0 ; slot < MAXSLOTS ; slot ++ ) { si = & bi -> slotinfo [ slot ] ; for ( func = 0 ; func < MAXFUNCS ; func ++ ) { fi = & si -> si_funcs [ func ] ; if ( fi -> fi_name == NULL ) continue ; ops = pci_emul_finddev ( fi -> fi_name ) ; if ( ! ops ) { pr_warn ( ""No driver for device [%s]\\n"" , fi -> fi_name ) ; continue ; } pr_notice ( ""pci init %s\\r\\n"" , fi -> fi_name ) ; error = pci_emul_init ( ctx , ops , bus , slot , func , fi ) ; if ( error ) { pr_err ( ""pci %s init failed\\n"" , fi -> fi_name ) ; goto pci_emul_init_fail ; } success_cnt ++ ; } } pci_emul_iobase += BUSIO_ROUNDUP ; pci_emul_iobase = roundup2 ( pci_emul_iobase , BUSIO_ROUNDUP ) ; bi -> iolimit = pci_emul_iobase ; pci_emul_membase32 += BUSMEM_ROUNDUP ; pci_emul_membase32 = roundup2 ( pci_emul_membase32 , BUSMEM_ROUNDUP ) ; bi -> memlimit32 = pci_emul_membase32 ; pci_emul_membase64 += BUSMEM_ROUNDUP ; pci_emul_membase64 = roundup2 ( pci_emul_membase64 , BUSMEM_ROUNDUP ) ; bi -> memlimit64 = pci_emul_membase64 ; } error = check_gsi_sharing_violation ( ) ; if ( error < 0 ) goto pci_emul_init_fail ; for ( bus = 0 ; bus < MAXBUSES ; bus ++ ) { bi = pci_businfo [ bus ] ; if ( bi == NULL ) continue ; for ( slot = 0 ; slot < MAXSLOTS ; slot ++ ) { si = & bi -> slotinfo [ slot ] ; for ( func = 0 ; func < MAXFUNCS ; func ++ ) { fi = & si -> si_funcs [ func ] ; if ( fi -> fi_devi == NULL ) continue ; pci_lintr_route ( fi -> fi_devi ) ; ops = fi -> fi_devi -> dev_ops ; if ( ops && ops -> vdev_phys_access ) ops -> vdev_phys_access ( ctx , fi -> fi_devi ) ; } } } lpc_pirq_routed ( ) ; lowmem = vm_get_lowmem_size ( ctx ) ; bzero ( & mr , sizeof ( struct mem_range ) ) ; mr . name = ""PCI hole (32-bit)"" ; mr . flags = MEM_F_RW ; mr . base = lowmem ; mr . size = ( 4ULL * 1024 * 1024 * 1024 ) - lowmem ; mr . handler = pci_emul_fallback_handler ; error = register_mem_fallback ( & mr ) ; if ( error != 0 ) goto pci_emul_init_fail ; bzero ( & mr , sizeof ( struct mem_range ) ) ; mr . name = ""PCI hole (64-bit)"" ; mr . flags = MEM_F_RW ; mr . base = PCI_EMUL_MEMBASE64 ; mr . size = PCI_EMUL_MEMLIMIT64 - PCI_EMUL_MEMBASE64 ; mr . handler = pci_emul_fallback_handler ; error = register_mem_fallback ( & mr ) ; if ( error != 0 ) goto pci_emul_init_fail ; bzero ( & mr , sizeof ( struct mem_range ) ) ; mr . name = ""PCI ECFG"" ; mr . flags = MEM_F_RW ; mr . base = PCI_EMUL_ECFG_BASE ; mr . size = PCI_EMUL_ECFG_SIZE ; mr . handler = pci_emul_ecfg_handler ; error = register_mem ( & mr ) ; if ( error != 0 ) goto pci_emul_init_fail ; return 0 ; pci_emul_init_fail : for ( bus = 0 ; bus < MAXBUSES && success_cnt > 0 ; bus ++ ) { bi = pci_businfo [ bus ] ; if ( bi == NULL ) continue ; for ( slot = 0 ; slot < MAXSLOTS && success_cnt > 0 ; slot ++ ) { si = & bi -> slotinfo [ slot ] ; for ( func = 0 ; func < MAXFUNCS ; func ++ ) { fi = & si -> si_funcs [ func ] ; if ( fi -> fi_name == NULL ) continue ; if ( success_cnt -- <= 0 ) break ; ops = pci_emul_finddev ( fi -> fi_name ) ; if ( ! ops ) { pr_warn ( ""No driver for device [%s]\\n"" , fi -> fi_name ) ; continue ; } pci_emul_deinit ( ctx , ops , bus , slot , func , fi ) ; } } } return error ; }" 532,"CWE-295 DH * get_dh2048 ( void ) { static unsigned char dhp_2048 [ ] = { 0xD5 , 0x75 , 0xF1 , 0x23 , 0xC1 , 0x81 , 0x4B , 0x44 , 0x23 , 0xBE , 0x97 , 0x81 , 0x7A , 0xDA , 0x97 , 0x1F , 0x1F , 0x0D , 0xD5 , 0xEC , 0xC5 , 0x5F , 0x86 , 0x42 , 0x7F , 0x38 , 0xA3 , 0x95 , 0xEE , 0xA0 , 0x52 , 0x2C , 0xB7 , 0x20 , 0x29 , 0xC1 , 0xC7 , 0xE6 , 0x8E , 0x6F , 0xE5 , 0xC1 , 0x0D , 0xDD , 0x8A , 0xEF , 0x8D , 0xE7 , 0xA8 , 0x63 , 0xB4 , 0xF7 , 0x58 , 0x32 , 0x0E , 0x24 , 0xAC , 0x30 , 0x94 , 0xF5 , 0xC7 , 0x02 , 0x81 , 0x1B , 0xC7 , 0x68 , 0xE5 , 0x71 , 0xD7 , 0x1E , 0x3D , 0xE4 , 0x2E , 0x2F , 0xC0 , 0x0A , 0xED , 0x34 , 0xAC , 0xC0 , 0x1F , 0x0A , 0x56 , 0xA4 , 0x12 , 0x02 , 0xFD , 0x68 , 0xD2 , 0x4D , 0x5E , 0x0A , 0x5D , 0x78 , 0xE3 , 0xA0 , 0x85 , 0x75 , 0xD2 , 0xA9 , 0xC1 , 0xF2 , 0xAD , 0x65 , 0x11 , 0xDE , 0xE8 , 0x05 , 0x68 , 0x36 , 0x4C , 0x92 , 0x99 , 0x21 , 0xB9 , 0x69 , 0xD0 , 0x6F , 0xD8 , 0xA3 , 0xEA , 0x35 , 0x13 , 0x93 , 0xDC , 0x1B , 0x13 , 0x16 , 0xB2 , 0x15 , 0x8E , 0x10 , 0x22 , 0xCE , 0x01 , 0x1F , 0x1C , 0x09 , 0x86 , 0xD5 , 0xE7 , 0xCB , 0xCF , 0xFA , 0xED , 0x2F , 0xE2 , 0x3A , 0x65 , 0x14 , 0xC9 , 0xFA , 0x70 , 0x99 , 0xF7 , 0xE0 , 0x30 , 0xBF , 0x7F , 0xEA , 0x84 , 0x14 , 0x8A , 0x51 , 0xC9 , 0xE9 , 0x85 , 0x73 , 0x7F , 0xA1 , 0xB0 , 0xC3 , 0x33 , 0x9A , 0xAB , 0x69 , 0x4E , 0x75 , 0xFB , 0x12 , 0xB0 , 0x9E , 0xB1 , 0xD9 , 0xD1 , 0xB9 , 0x32 , 0x1D , 0xC6 , 0xD9 , 0x2C , 0xAA , 0xB0 , 0xC5 , 0x3E , 0x69 , 0x56 , 0xA2 , 0xB3 , 0xA2 , 0x81 , 0xCA , 0x9D , 0x77 , 0xBB , 0x52 , 0x44 , 0xA2 , 0xED , 0xE0 , 0xF0 , 0x2A , 0x81 , 0x85 , 0x90 , 0xB6 , 0x04 , 0x60 , 0xEB , 0x09 , 0x72 , 0x08 , 0x44 , 0xAF , 0x28 , 0xF5 , 0x15 , 0x34 , 0x87 , 0x5C , 0x8A , 0xB4 , 0x5B , 0x15 , 0x6A , 0xAD , 0x27 , 0x4E , 0xA0 , 0xDE , 0x99 , 0x22 , 0xCF , 0xAB , 0x4C , 0xFD , 0x75 , 0x10 , 0x5D , 0xFF , 0xE8 , 0x81 , 0x50 , 0xC4 , 0xC0 , 0x4B } ; static unsigned char dhg_2048 [ ] = { 0x02 } ; DH * dh = DH_new ( ) ; BIGNUM * p , * g ; if ( dh == NULL ) return NULL ; p = BN_bin2bn ( dhp_2048 , sizeof ( dhp_2048 ) , NULL ) ; g = BN_bin2bn ( dhg_2048 , sizeof ( dhg_2048 ) , NULL ) ; if ( p == NULL || g == NULL || ! DH_set0_pqg ( dh , p , NULL , g ) ) { DH_free ( dh ) ; BN_free ( p ) ; BN_free ( g ) ; return NULL ; } return dh ; }","DH * get_dh2048 ( void ) { static unsigned char dhp_2048 [ ] = { 0xCF , 0x9F , 0x3A , 0x9C , 0xC5 , 0xA5 , 0x89 , 0x27 , 0x6D , 0x2C , 0x2C , 0xF3 , 0xA6 , 0x00 , 0xD2 , 0x7C , 0xEA , 0xFA , 0xF2 , 0x43 , 0x4F , 0x49 , 0x0A , 0xFC , 0xA6 , 0xE7 , 0x75 , 0xCA , 0x07 , 0xDC , 0xA5 , 0xF2 , 0x83 , 0x4E , 0x5A , 0xA0 , 0xA0 , 0xF5 , 0x9C , 0xFD , 0x02 , 0xE6 , 0x9E , 0xFC , 0x01 , 0x59 , 0xD7 , 0xB6 , 0xC1 , 0x4E , 0xC0 , 0xB6 , 0x71 , 0x49 , 0xF0 , 0xC7 , 0xD5 , 0x2F , 0x8D , 0xDF , 0xD3 , 0xF1 , 0x82 , 0x82 , 0x23 , 0x33 , 0x13 , 0x93 , 0xEB , 0x50 , 0x29 , 0xFD , 0x1B , 0x5A , 0x2F , 0xD5 , 0x08 , 0x99 , 0x64 , 0xE9 , 0x7B , 0x1A , 0xDD , 0x68 , 0x16 , 0x08 , 0xD0 , 0x13 , 0x82 , 0xB6 , 0x86 , 0x62 , 0x76 , 0xAA , 0x16 , 0x14 , 0xCC , 0x86 , 0x72 , 0x26 , 0x45 , 0x8E , 0x2A , 0x82 , 0x5B , 0x6F , 0xC1 , 0xDF , 0xAA , 0x18 , 0x43 , 0xB8 , 0xAD , 0x84 , 0x52 , 0xF2 , 0xD9 , 0x9C , 0xC0 , 0x47 , 0x52 , 0x1B , 0x8E , 0x42 , 0xC4 , 0xD3 , 0x61 , 0x7B , 0x65 , 0xA7 , 0x69 , 0x03 , 0xB5 , 0xD4 , 0x6C , 0x83 , 0x6A , 0x46 , 0x73 , 0xAF , 0x76 , 0x77 , 0x70 , 0xC2 , 0xD0 , 0x74 , 0xFE , 0x78 , 0xF5 , 0x75 , 0x3B , 0xCE , 0xE2 , 0xB6 , 0xA0 , 0x25 , 0xE9 , 0xE8 , 0x4B , 0xA2 , 0xF1 , 0x20 , 0x88 , 0x13 , 0x07 , 0xED , 0x66 , 0xBC , 0x46 , 0xA1 , 0xB3 , 0x44 , 0xAF , 0x2C , 0xED , 0x73 , 0x75 , 0x3D , 0x14 , 0x6E , 0x43 , 0x92 , 0x40 , 0x99 , 0xB0 , 0xD1 , 0xBF , 0x2C , 0x4D , 0x0F , 0x2A , 0x63 , 0xF4 , 0x85 , 0x7B , 0x1B , 0x0E , 0x48 , 0x5A , 0x06 , 0x02 , 0xA6 , 0x3D , 0x9E , 0x78 , 0x05 , 0xA8 , 0x7C , 0xAD , 0x54 , 0x49 , 0xDE , 0x7A , 0xE6 , 0x36 , 0x5C , 0x50 , 0xFC , 0x09 , 0x81 , 0x9E , 0x83 , 0x53 , 0x8C , 0x42 , 0xEF , 0x12 , 0x36 , 0x4F , 0x22 , 0x16 , 0x2A , 0x15 , 0x88 , 0x83 , 0xA9 , 0x00 , 0x66 , 0x9E , 0xD1 , 0xDC , 0x0F , 0x54 , 0xC0 , 0x32 , 0x5C , 0x4C , 0x5E , 0xE2 , 0x3D , 0xBC , 0x56 , 0x89 , 0x75 , 0x28 , 0xA3 } ; static unsigned char dhg_2048 [ ] = { 0x02 } ; DH * dh = DH_new ( ) ; BIGNUM * p , * g ; if ( dh == NULL ) return NULL ; p = BN_bin2bn ( dhp_2048 , sizeof ( dhp_2048 ) , NULL ) ; g = BN_bin2bn ( dhg_2048 , sizeof ( dhg_2048 ) , NULL ) ; if ( p == NULL || g == NULL || ! DH_set0_pqg ( dh , p , NULL , g ) ) { DH_free ( dh ) ; BN_free ( p ) ; BN_free ( g ) ; return NULL ; } return dh ; }" 533,"CWE-119 int git_pkt_parse_line ( git_pkt * * head , const char * line , const char * * out , size_t bufflen ) { int ret ; int32_t len ; if ( bufflen > 0 && bufflen < PKT_LEN_SIZE ) return GIT_EBUFS ; len = parse_len ( line ) ; if ( len < 0 ) { if ( bufflen >= 4 && ! git__prefixcmp ( line , ""PACK"" ) ) { giterr_clear ( ) ; * out = line ; return pack_pkt ( head ) ; } return ( int ) len ; } if ( bufflen > 0 && bufflen < ( size_t ) len ) return GIT_EBUFS ; line += PKT_LEN_SIZE ; if ( len == PKT_LEN_SIZE ) { * head = NULL ; * out = line ; return 0 ; } if ( len == 0 ) { * out = line ; return flush_pkt ( head ) ; } len -= PKT_LEN_SIZE ; if ( * line == GIT_SIDE_BAND_DATA ) ret = data_pkt ( head , line , len ) ; else if ( * line == GIT_SIDE_BAND_PROGRESS ) ret = sideband_progress_pkt ( head , line , len ) ; else if ( * line == GIT_SIDE_BAND_ERROR ) ret = sideband_error_pkt ( head , line , len ) ; else if ( ! git__prefixcmp ( line , ""ACK"" ) ) ret = ack_pkt ( head , line , len ) ; else if ( ! git__prefixcmp ( line , ""NAK"" ) ) ret = nak_pkt ( head ) ; else if ( ! git__prefixcmp ( line , ""ERR "" ) ) ret = err_pkt ( head , line , len ) ; else if ( * line == '#' ) ret = comment_pkt ( head , line , len ) ; else if ( ! git__prefixcmp ( line , ""ok"" ) ) ret = ok_pkt ( head , line , len ) ; else if ( ! git__prefixcmp ( line , ""ng"" ) ) ret = ng_pkt ( head , line , len ) ; else if ( ! git__prefixcmp ( line , ""unpack"" ) ) ret = unpack_pkt ( head , line , len ) ; else ret = ref_pkt ( head , line , len ) ; * out = line + len ; return ret ; }","int git_pkt_parse_line ( git_pkt * * head , const char * line , const char * * out , size_t bufflen ) { int ret ; int32_t len ; if ( bufflen > 0 && bufflen < PKT_LEN_SIZE ) return GIT_EBUFS ; len = parse_len ( line ) ; if ( len < 0 ) { if ( bufflen >= 4 && ! git__prefixcmp ( line , ""PACK"" ) ) { giterr_clear ( ) ; * out = line ; return pack_pkt ( head ) ; } return ( int ) len ; } if ( bufflen > 0 && bufflen < ( size_t ) len ) return GIT_EBUFS ; if ( len != 0 && len < PKT_LEN_SIZE ) return GIT_ERROR ; line += PKT_LEN_SIZE ; if ( len == PKT_LEN_SIZE ) { * head = NULL ; * out = line ; return 0 ; } if ( len == 0 ) { * out = line ; return flush_pkt ( head ) ; } len -= PKT_LEN_SIZE ; if ( * line == GIT_SIDE_BAND_DATA ) ret = data_pkt ( head , line , len ) ; else if ( * line == GIT_SIDE_BAND_PROGRESS ) ret = sideband_progress_pkt ( head , line , len ) ; else if ( * line == GIT_SIDE_BAND_ERROR ) ret = sideband_error_pkt ( head , line , len ) ; else if ( ! git__prefixcmp ( line , ""ACK"" ) ) ret = ack_pkt ( head , line , len ) ; else if ( ! git__prefixcmp ( line , ""NAK"" ) ) ret = nak_pkt ( head ) ; else if ( ! git__prefixcmp ( line , ""ERR "" ) ) ret = err_pkt ( head , line , len ) ; else if ( * line == '#' ) ret = comment_pkt ( head , line , len ) ; else if ( ! git__prefixcmp ( line , ""ok"" ) ) ret = ok_pkt ( head , line , len ) ; else if ( ! git__prefixcmp ( line , ""ng"" ) ) ret = ng_pkt ( head , line , len ) ; else if ( ! git__prefixcmp ( line , ""unpack"" ) ) ret = unpack_pkt ( head , line , len ) ; else ret = ref_pkt ( head , line , len ) ; * out = line + len ; return ret ; }" 534,"CWE-78 static void build_config ( char * prefix , struct server * server ) { char * path = NULL ; int path_size = strlen ( prefix ) + strlen ( server -> port ) + 20 ; path = ss_malloc ( path_size ) ; snprintf ( path , path_size , ""%s/.shadowsocks_%s.conf"" , prefix , server -> port ) ; FILE * f = fopen ( path , ""w+"" ) ; if ( f == NULL ) { if ( verbose ) { LOGE ( ""unable to open config file"" ) ; } ss_free ( path ) ; return ; } fprintf ( f , ""{\\n"" ) ; fprintf ( f , ""\\""server_port\\"":%d,\\n"" , atoi ( server -> port ) ) ; fprintf ( f , ""\\""password\\"":\\""%s\\"""" , server -> password ) ; if ( server -> fast_open [ 0 ] ) fprintf ( f , "",\\n\\""fast_open\\"": %s"" , server -> fast_open ) ; if ( server -> mode ) fprintf ( f , "",\\n\\""mode\\"":\\""%s\\"""" , server -> mode ) ; if ( server -> method ) fprintf ( f , "",\\n\\""method\\"":\\""%s\\"""" , server -> method ) ; if ( server -> plugin ) fprintf ( f , "",\\n\\""plugin\\"":\\""%s\\"""" , server -> plugin ) ; if ( server -> plugin_opts ) fprintf ( f , "",\\n\\""plugin_opts\\"":\\""%s\\"""" , server -> plugin_opts ) ; fprintf ( f , ""\\n}\\n"" ) ; fclose ( f ) ; ss_free ( path ) ; }","static void build_config ( char * prefix , struct manager_ctx * manager , struct server * server ) { char * path = NULL ; int path_size = strlen ( prefix ) + strlen ( server -> port ) + 20 ; path = ss_malloc ( path_size ) ; snprintf ( path , path_size , ""%s/.shadowsocks_%s.conf"" , prefix , server -> port ) ; FILE * f = fopen ( path , ""w+"" ) ; if ( f == NULL ) { if ( verbose ) { LOGE ( ""unable to open config file"" ) ; } ss_free ( path ) ; return ; } fprintf ( f , ""{\\n"" ) ; fprintf ( f , ""\\""server_port\\"":%d,\\n"" , atoi ( server -> port ) ) ; fprintf ( f , ""\\""password\\"":\\""%s\\"""" , server -> password ) ; if ( server -> method ) fprintf ( f , "",\\n\\""method\\"":\\""%s\\"""" , server -> method ) ; else if ( manager -> method ) fprintf ( f , "",\\n\\""method\\"":\\""%s\\"""" , manager -> method ) ; if ( server -> fast_open [ 0 ] ) fprintf ( f , "",\\n\\""fast_open\\"": %s"" , server -> fast_open ) ; if ( server -> mode ) fprintf ( f , "",\\n\\""mode\\"":\\""%s\\"""" , server -> mode ) ; if ( server -> plugin ) fprintf ( f , "",\\n\\""plugin\\"":\\""%s\\"""" , server -> plugin ) ; if ( server -> plugin_opts ) fprintf ( f , "",\\n\\""plugin_opts\\"":\\""%s\\"""" , server -> plugin_opts ) ; fprintf ( f , ""\\n}\\n"" ) ; fclose ( f ) ; ss_free ( path ) ; }" 535,"CWE-476 static int resize ( int new_rows , int new_cols , VTermPos * delta , void * user ) { VTermScreen * screen = user ; int is_altscreen = ( screen -> buffers [ 1 ] && screen -> buffer == screen -> buffers [ 1 ] ) ; int old_rows = screen -> rows ; int old_cols = screen -> cols ; int first_blank_row ; if ( ! is_altscreen && new_rows < old_rows ) { VTermPos pos = { 0 , 0 } ; VTermPos cursor = screen -> state -> pos ; for ( pos . row = old_rows - 1 ; pos . row >= new_rows ; pos . row -- ) if ( ! vterm_screen_is_eol ( screen , pos ) || cursor . row == pos . row ) break ; first_blank_row = pos . row + 1 ; if ( first_blank_row > new_rows ) { VTermRect rect = { 0 , 0 , 0 , 0 } ; rect . end_row = old_rows ; rect . end_col = old_cols ; scrollrect ( rect , first_blank_row - new_rows , 0 , user ) ; vterm_screen_flush_damage ( screen ) ; delta -> row -= first_blank_row - new_rows ; } } screen -> buffers [ 0 ] = realloc_buffer ( screen , screen -> buffers [ 0 ] , new_rows , new_cols ) ; if ( screen -> buffers [ 1 ] ) screen -> buffers [ 1 ] = realloc_buffer ( screen , screen -> buffers [ 1 ] , new_rows , new_cols ) ; screen -> buffer = is_altscreen ? screen -> buffers [ 1 ] : screen -> buffers [ 0 ] ; screen -> rows = new_rows ; screen -> cols = new_cols ; if ( screen -> sb_buffer ) vterm_allocator_free ( screen -> vt , screen -> sb_buffer ) ; screen -> sb_buffer = vterm_allocator_malloc ( screen -> vt , sizeof ( VTermScreenCell ) * new_cols ) ; if ( new_cols > old_cols ) { VTermRect rect ; rect . start_row = 0 ; rect . end_row = old_rows ; rect . start_col = old_cols ; rect . end_col = new_cols ; damagerect ( screen , rect ) ; } if ( new_rows > old_rows ) { if ( ! is_altscreen && screen -> callbacks && screen -> callbacks -> sb_popline ) { int rows = new_rows - old_rows ; while ( rows ) { VTermRect rect = { 0 , 0 , 0 , 0 } ; VTermPos pos = { 0 , 0 } ; if ( ! ( screen -> callbacks -> sb_popline ( screen -> cols , screen -> sb_buffer , screen -> cbdata ) ) ) break ; rect . end_row = screen -> rows ; rect . end_col = screen -> cols ; scrollrect ( rect , - 1 , 0 , user ) ; for ( pos . col = 0 ; pos . col < screen -> cols ; pos . col += screen -> sb_buffer [ pos . col ] . width ) vterm_screen_set_cell ( screen , pos , screen -> sb_buffer + pos . col ) ; rect . end_row = 1 ; damagerect ( screen , rect ) ; vterm_screen_flush_damage ( screen ) ; rows -- ; delta -> row ++ ; } } { VTermRect rect ; rect . start_row = old_rows ; rect . end_row = new_rows ; rect . start_col = 0 ; rect . end_col = new_cols ; damagerect ( screen , rect ) ; } } if ( screen -> callbacks && screen -> callbacks -> resize ) return ( * screen -> callbacks -> resize ) ( new_rows , new_cols , screen -> cbdata ) ; return 1 ; }","static int resize ( int new_rows , int new_cols , VTermPos * delta , void * user ) { VTermScreen * screen = user ; int is_altscreen = ( screen -> buffers [ 1 ] && screen -> buffer == screen -> buffers [ 1 ] ) ; int old_rows = screen -> rows ; int old_cols = screen -> cols ; int first_blank_row ; if ( ! is_altscreen && new_rows < old_rows ) { VTermPos pos = { 0 , 0 } ; VTermPos cursor = screen -> state -> pos ; for ( pos . row = old_rows - 1 ; pos . row >= new_rows ; pos . row -- ) if ( ! vterm_screen_is_eol ( screen , pos ) || cursor . row == pos . row ) break ; first_blank_row = pos . row + 1 ; if ( first_blank_row > new_rows ) { VTermRect rect = { 0 , 0 , 0 , 0 } ; rect . end_row = old_rows ; rect . end_col = old_cols ; scrollrect ( rect , first_blank_row - new_rows , 0 , user ) ; vterm_screen_flush_damage ( screen ) ; delta -> row -= first_blank_row - new_rows ; } } screen -> buffers [ 0 ] = realloc_buffer ( screen , screen -> buffers [ 0 ] , new_rows , new_cols ) ; if ( screen -> buffers [ 1 ] ) screen -> buffers [ 1 ] = realloc_buffer ( screen , screen -> buffers [ 1 ] , new_rows , new_cols ) ; screen -> buffer = is_altscreen ? screen -> buffers [ 1 ] : screen -> buffers [ 0 ] ; screen -> rows = new_rows ; screen -> cols = new_cols ; vterm_allocator_free ( screen -> vt , screen -> sb_buffer ) ; screen -> sb_buffer = vterm_allocator_malloc ( screen -> vt , sizeof ( VTermScreenCell ) * new_cols ) ; if ( new_cols > old_cols ) { VTermRect rect ; rect . start_row = 0 ; rect . end_row = old_rows ; rect . start_col = old_cols ; rect . end_col = new_cols ; damagerect ( screen , rect ) ; } if ( new_rows > old_rows ) { if ( ! is_altscreen && screen -> callbacks && screen -> callbacks -> sb_popline ) { int rows = new_rows - old_rows ; while ( rows ) { VTermRect rect = { 0 , 0 , 0 , 0 } ; VTermPos pos = { 0 , 0 } ; if ( ! ( screen -> callbacks -> sb_popline ( screen -> cols , screen -> sb_buffer , screen -> cbdata ) ) ) break ; rect . end_row = screen -> rows ; rect . end_col = screen -> cols ; scrollrect ( rect , - 1 , 0 , user ) ; for ( pos . col = 0 ; pos . col < screen -> cols ; pos . col += screen -> sb_buffer [ pos . col ] . width ) vterm_screen_set_cell ( screen , pos , screen -> sb_buffer + pos . col ) ; rect . end_row = 1 ; damagerect ( screen , rect ) ; vterm_screen_flush_damage ( screen ) ; rows -- ; delta -> row ++ ; } } { VTermRect rect ; rect . start_row = old_rows ; rect . end_row = new_rows ; rect . start_col = 0 ; rect . end_col = new_cols ; damagerect ( screen , rect ) ; } } if ( screen -> callbacks && screen -> callbacks -> resize ) return ( * screen -> callbacks -> resize ) ( new_rows , new_cols , screen -> cbdata ) ; return 1 ; }" 536,"CWE-119 u4_word = 0 ; if ( u4_ldz ) GETBITS ( u4_word , u4_bitstream_offset , pu4_bitstrm_buf , u4_ldz ) ; * pu4_bitstrm_ofst = u4_bitstream_offset ; u4_temp = ( ( 1 << u4_ldz ) + u4_word - 1 ) ; if ( u4_temp > 25 ) return ERROR_MB_TYPE ; u1_mb_type = u4_temp ; } ps_cur_mb_info -> u1_mb_type = u1_mb_type ; COPYTHECONTEXT ( ""u1_mb_type"" , u1_mb_type ) ; if ( 25 == u1_mb_type ) { ps_cur_mb_info -> ps_curmb -> u1_mb_type = I_PCM_MB ; ret = ih264d_parse_ipcm_mb ( ps_dec , ps_cur_mb_info , u1_num_mbs ) ; if ( ret != OK ) return ret ; ps_cur_deblk_mb -> u1_mb_qp = 0 ; } else { ret = ih264d_parse_imb_cavlc ( ps_dec , ps_cur_mb_info , u1_num_mbs , u1_mb_type ) ; if ( ret != OK ) return ret ; ps_cur_deblk_mb -> u1_mb_qp = ps_dec -> u1_qp ; } if ( u1_mbaff ) { ih264d_update_mbaff_left_nnz ( ps_dec , ps_cur_mb_info ) ; } i2_cur_mb_addr ++ ; uc_more_data_flag = MORE_RBSP_DATA ( ps_bitstrm ) ; { mv_pred_t * ps_mv_nmb_start = ps_dec -> ps_mv_cur + ( u1_num_mbs << 4 ) ; mv_pred_t s_mvPred = { { 0 , 0 , 0 , 0 } , { - 1 , - 1 } , 0 , 0 } ; ih264d_rep_mv_colz ( ps_dec , & s_mvPred , ps_mv_nmb_start , 0 , ( UWORD8 ) ( ps_dec -> u1_cur_mb_fld_dec_flag << 1 ) , 4 , 4 ) ; } if ( ps_dec -> u4_num_cores < 3 ) { if ( ps_dec -> u4_app_disable_deblk_frm == 0 ) ps_dec -> pf_compute_bs ( ps_dec , ps_cur_mb_info , ( UWORD16 ) ( u1_num_mbs >> u1_mbaff ) ) ; } u1_num_mbs ++ ; ps_dec -> u2_total_mbs_coded ++ ; u1_num_mbs_next = i2_pic_wdin_mbs - ps_dec -> u2_mbx - 1 ; u1_end_of_row = ( ! u1_num_mbs_next ) && ( ! ( u1_mbaff && ( u1_num_mbs & 0x01 ) ) ) ; u1_tfr_n_mb = ( u1_num_mbs == ps_dec -> u1_recon_mb_grp ) || u1_end_of_row || ( ! uc_more_data_flag ) ; ps_cur_mb_info -> u1_end_of_slice = ( ! uc_more_data_flag ) ; if ( u1_tfr_n_mb || ( ! uc_more_data_flag ) ) { if ( ps_dec -> u1_separate_parse ) { ih264d_parse_tfr_nmb ( ps_dec , u1_mb_idx , u1_num_mbs , u1_num_mbs_next , u1_tfr_n_mb , u1_end_of_row ) ; ps_dec -> ps_nmb_info += u1_num_mbs ; } else { ih264d_decode_recon_tfr_nmb ( ps_dec , u1_mb_idx , u1_num_mbs , u1_num_mbs_next , u1_tfr_n_mb , u1_end_of_row ) ; } if ( u1_tfr_n_mb ) u1_num_mbs = 0 ; u1_mb_idx = u1_num_mbs ; ps_dec -> u1_mb_idx = u1_num_mbs ; } } while ( uc_more_data_flag ) ; ps_dec -> u4_num_mbs_cur_nmb = 0 ; ps_dec -> ps_cur_slice -> u4_mbs_in_slice = i2_cur_mb_addr ( u2_first_mb_in_slice << u1_mbaff ) ; return ret ; }","u4_word = 0 ; if ( u4_ldz ) GETBITS ( u4_word , u4_bitstream_offset , pu4_bitstrm_buf , u4_ldz ) ; * pu4_bitstrm_ofst = u4_bitstream_offset ; u4_temp = ( ( 1 << u4_ldz ) + u4_word - 1 ) ; if ( u4_temp > 25 ) return ERROR_MB_TYPE ; u1_mb_type = u4_temp ; } ps_cur_mb_info -> u1_mb_type = u1_mb_type ; COPYTHECONTEXT ( ""u1_mb_type"" , u1_mb_type ) ; if ( 25 == u1_mb_type ) { ps_cur_mb_info -> ps_curmb -> u1_mb_type = I_PCM_MB ; ret = ih264d_parse_ipcm_mb ( ps_dec , ps_cur_mb_info , u1_num_mbs ) ; if ( ret != OK ) return ret ; ps_cur_deblk_mb -> u1_mb_qp = 0 ; } else { ret = ih264d_parse_imb_cavlc ( ps_dec , ps_cur_mb_info , u1_num_mbs , u1_mb_type ) ; if ( ret != OK ) return ret ; ps_cur_deblk_mb -> u1_mb_qp = ps_dec -> u1_qp ; } if ( u1_mbaff ) { ih264d_update_mbaff_left_nnz ( ps_dec , ps_cur_mb_info ) ; } i2_cur_mb_addr ++ ; uc_more_data_flag = MORE_RBSP_DATA ( ps_bitstrm ) ; { mv_pred_t * ps_mv_nmb_start = ps_dec -> ps_mv_cur + ( u1_num_mbs << 4 ) ; mv_pred_t s_mvPred = { { 0 , 0 , 0 , 0 } , { - 1 , - 1 } , 0 , 0 } ; ih264d_rep_mv_colz ( ps_dec , & s_mvPred , ps_mv_nmb_start , 0 , ( UWORD8 ) ( ps_dec -> u1_cur_mb_fld_dec_flag << 1 ) , 4 , 4 ) ; } if ( ps_dec -> u4_num_cores < 3 ) { if ( ps_dec -> u4_app_disable_deblk_frm == 0 ) ps_dec -> pf_compute_bs ( ps_dec , ps_cur_mb_info , ( UWORD16 ) ( u1_num_mbs >> u1_mbaff ) ) ; } u1_num_mbs ++ ; u1_num_mbs_next = i2_pic_wdin_mbs - ps_dec -> u2_mbx - 1 ; u1_end_of_row = ( ! u1_num_mbs_next ) && ( ! ( u1_mbaff && ( u1_num_mbs & 0x01 ) ) ) ; u1_tfr_n_mb = ( u1_num_mbs == ps_dec -> u1_recon_mb_grp ) || u1_end_of_row || ( ! uc_more_data_flag ) ; ps_cur_mb_info -> u1_end_of_slice = ( ! uc_more_data_flag ) ; if ( u1_tfr_n_mb || ( ! uc_more_data_flag ) ) { if ( ps_dec -> u1_separate_parse ) { ih264d_parse_tfr_nmb ( ps_dec , u1_mb_idx , u1_num_mbs , u1_num_mbs_next , u1_tfr_n_mb , u1_end_of_row ) ; ps_dec -> ps_nmb_info += u1_num_mbs ; } else { ih264d_decode_recon_tfr_nmb ( ps_dec , u1_mb_idx , u1_num_mbs , u1_num_mbs_next , u1_tfr_n_mb , u1_end_of_row ) ; } ps_dec -> u2_total_mbs_coded += u1_num_mbs ; if ( u1_tfr_n_mb ) u1_num_mbs = 0 ; u1_mb_idx = u1_num_mbs ; ps_dec -> u1_mb_idx = u1_num_mbs ; } } while ( uc_more_data_flag ) ; ps_dec -> u4_num_mbs_cur_nmb = 0 ; ps_dec -> ps_cur_slice -> u4_mbs_in_slice = i2_cur_mb_addr return ret ; }" 537,"CWE-20 { if ( COAP_GET_BLOCK_SZX ( value ) >= COAP_BLOCK_SIZE_RESERVED ) { error = ERROR_FAILURE ; break ; } if ( COAP_GET_BLOCK_POS ( value ) != blockPos ) { error = ERROR_FAILURE ; break ; } if ( ! COAP_GET_BLOCK_M ( value ) ) { error = ERROR_END_OF_STREAM ; break ; } error = coapClientGetPayload ( responseMsg , & payload , & payloadLen ) ; if ( error ) break ; if ( payloadLen != COAP_GET_BLOCK_SIZE ( value ) ) { error = ERROR_FAILURE ; break ; } if ( blockSzx > COAP_GET_BLOCK_SZX ( value ) ) blockSzx = COAP_GET_BLOCK_SZX ( value ) ; blockPos += COAP_GET_BLOCK_SIZE ( value ) ; COAP_SET_BLOCK_NUM ( value , blockPos >> ( blockSzx + 4 ) ) ; COAP_SET_BLOCK_M ( value , 0 ) ; COAP_SET_BLOCK_SZX ( value , blockSzx ) ; error = coapClientSetUintOption ( requestMsg , COAP_OPT_BLOCK2 , 0 , value ) ; if ( error ) break ; error = coapClientSendRequest ( request , NULL , NULL ) ; if ( error ) break ; responseMsg = coapClientGetResponseMessage ( request ) ; error = coapClientGetResponseCode ( responseMsg , & responseCode ) ; if ( error ) break ; if ( COAP_GET_CODE_CLASS ( responseCode ) != COAP_CODE_CLASS_SUCCESS ) { error = ERROR_INVALID_STATUS ; break ; } } else { if ( blockPos == 0 ) error = ERROR_END_OF_STREAM ; else error = ERROR_FAILURE ; break ; } } else { break ; } } if ( * received > 0 ) { if ( error == ERROR_END_OF_STREAM ) error = NO_ERROR ; } return error ; }","{ if ( COAP_GET_BLOCK_SZX ( value ) >= COAP_BLOCK_SIZE_RESERVED ) { error = ERROR_FAILURE ; break ; } if ( COAP_GET_BLOCK_POS ( value ) != blockPos ) { error = ERROR_FAILURE ; break ; } if ( ! COAP_GET_BLOCK_M ( value ) ) { error = ERROR_END_OF_STREAM ; break ; } error = coapClientGetPayload ( responseMsg , & payload , & payloadLen ) ; if ( error ) break ; if ( payloadLen != COAP_GET_BLOCK_SIZE ( value ) ) { error = ERROR_FAILURE ; break ; } if ( blockSzx > COAP_GET_BLOCK_SZX ( value ) ) blockSzx = COAP_GET_BLOCK_SZX ( value ) ; blockPos += COAP_GET_BLOCK_SIZE ( value ) ; COAP_SET_BLOCK_NUM ( value , blockPos >> ( blockSzx + 4 ) ) ; COAP_SET_BLOCK_M ( value , 0 ) ; COAP_SET_BLOCK_SZX ( value , blockSzx ) ; error = coapClientSetUintOption ( requestMsg , COAP_OPT_BLOCK2 , 0 , value ) ; if ( error ) break ; error = coapClientSendRequest ( request , NULL , NULL ) ; if ( error ) break ; responseMsg = coapClientGetResponseMessage ( request ) ; error = coapClientGetResponseCode ( responseMsg , & responseCode ) ; if ( error ) break ; if ( COAP_GET_CODE_CLASS ( responseCode ) != COAP_CODE_CLASS_SUCCESS ) { error = ERROR_INVALID_STATUS ; break ; } } else { if ( blockPos == 0 ) { error = ERROR_END_OF_STREAM ; } else { error = ERROR_FAILURE ; } break ; } } else { break ; } } if ( * received > 0 ) { if ( error == ERROR_END_OF_STREAM ) error = NO_ERROR ; } return error ; }" 538,"CWE-119 case EFFECT_CMD_GET_CONFIG : if ( pReplyData == NULL || * replySize != sizeof ( effect_config_t ) ) { status = - EINVAL ; goto exit ; } if ( ! context -> offload_enabled ) { status = - EINVAL ; goto exit ; } get_config ( context , ( effect_config_t * ) pReplyData ) ; break ; case EFFECT_CMD_RESET : if ( context -> ops . reset ) context -> ops . reset ( context ) ; break ; case EFFECT_CMD_ENABLE : if ( pReplyData == NULL || * replySize != sizeof ( int ) ) { status = - EINVAL ; goto exit ; } if ( context -> state != EFFECT_STATE_INITIALIZED ) { status = - ENOSYS ; goto exit ; } context -> state = EFFECT_STATE_ACTIVE ; if ( context -> ops . enable ) context -> ops . enable ( context ) ; ALOGV ( ""%s EFFECT_CMD_ENABLE"" , __func__ ) ; * ( int * ) pReplyData = 0 ; break ; case EFFECT_CMD_DISABLE : if ( pReplyData == NULL || * replySize != sizeof ( int ) ) { status = - EINVAL ; goto exit ; } if ( context -> state != EFFECT_STATE_ACTIVE ) { status = - ENOSYS ; goto exit ; } context -> state = EFFECT_STATE_INITIALIZED ; if ( context -> ops . disable ) context -> ops . disable ( context ) ; ALOGV ( ""%s EFFECT_CMD_DISABLE"" , __func__ ) ; * ( int * ) pReplyData = 0 ; break ; case EFFECT_CMD_GET_PARAM : { if ( pCmdData == NULL || cmdSize < ( int ) ( sizeof ( effect_param_t ) + sizeof ( uint32_t ) ) || pReplyData == NULL || * replySize < ( int ) ( sizeof ( effect_param_t ) + sizeof ( uint32_t ) + sizeof ( uint16_t ) ) ) { status = - EINVAL ; ALOGV ( ""EFFECT_CMD_GET_PARAM invalid command cmdSize %d *replySize %d"" , cmdSize , * replySize ) ; goto exit ; } if ( ! context -> offload_enabled ) { status = - EINVAL ; goto exit ; } effect_param_t * q = ( effect_param_t * ) pCmdData ; memcpy ( pReplyData , pCmdData , sizeof ( effect_param_t ) + q -> psize ) ; effect_param_t * p = ( effect_param_t * ) pReplyData ; if ( context -> ops . get_parameter ) context -> ops . get_parameter ( context , p , replySize ) ; } break ; case EFFECT_CMD_SET_PARAM : { if ( pCmdData == NULL || cmdSize < ( int ) ( sizeof ( effect_param_t ) + sizeof ( uint32_t ) + sizeof ( uint16_t ) ) || pReplyData == NULL || * replySize != sizeof ( int32_t ) ) { status = - EINVAL ; ALOGV ( ""EFFECT_CMD_SET_PARAM invalid command cmdSize %d *replySize %d"" , cmdSize , * replySize ) ; goto exit ; } * ( int32_t * ) pReplyData = 0 ; effect_param_t * p = ( effect_param_t * ) pCmdData ; if ( context -> ops . set_parameter ) * ( int32_t * ) pReplyData = context -> ops . set_parameter ( context , p , * replySize ) ; } break ; case EFFECT_CMD_SET_DEVICE : { uint32_t device ; ALOGV ( ""\\t EFFECT_CMD_SET_DEVICE start"" ) ; if ( pCmdData == NULL || cmdSize < sizeof ( uint32_t ) ) { status = - EINVAL ; ALOGV ( ""EFFECT_CMD_SET_DEVICE invalid command cmdSize %d"" , cmdSize ) ; goto exit ; } device = * ( uint32_t * ) pCmdData ; if ( context -> ops . set_device ) context -> ops . set_device ( context , device ) ; } break ; case EFFECT_CMD_SET_VOLUME : case EFFECT_CMD_SET_AUDIO_MODE : break ; case EFFECT_CMD_OFFLOAD : { output_context_t * out_ctxt ; if ( cmdSize != sizeof ( effect_offload_param_t ) || pCmdData == NULL || pReplyData == NULL || * replySize != sizeof ( int ) ) {","case EFFECT_CMD_GET_CONFIG : if ( pReplyData == NULL || * replySize != sizeof ( effect_config_t ) ) { status = - EINVAL ; goto exit ; } if ( ! context -> offload_enabled ) { status = - EINVAL ; goto exit ; } get_config ( context , ( effect_config_t * ) pReplyData ) ; break ; case EFFECT_CMD_RESET : if ( context -> ops . reset ) context -> ops . reset ( context ) ; break ; case EFFECT_CMD_ENABLE : if ( pReplyData == NULL || * replySize != sizeof ( int ) ) { status = - EINVAL ; goto exit ; } if ( context -> state != EFFECT_STATE_INITIALIZED ) { status = - ENOSYS ; goto exit ; } context -> state = EFFECT_STATE_ACTIVE ; if ( context -> ops . enable ) context -> ops . enable ( context ) ; ALOGV ( ""%s EFFECT_CMD_ENABLE"" , __func__ ) ; * ( int * ) pReplyData = 0 ; break ; case EFFECT_CMD_DISABLE : if ( pReplyData == NULL || * replySize != sizeof ( int ) ) { status = - EINVAL ; goto exit ; } if ( context -> state != EFFECT_STATE_ACTIVE ) { status = - ENOSYS ; goto exit ; } context -> state = EFFECT_STATE_INITIALIZED ; if ( context -> ops . disable ) context -> ops . disable ( context ) ; ALOGV ( ""%s EFFECT_CMD_DISABLE"" , __func__ ) ; * ( int * ) pReplyData = 0 ; break ; case EFFECT_CMD_GET_PARAM : { if ( pCmdData == NULL || cmdSize < ( int ) ( sizeof ( effect_param_t ) + sizeof ( uint32_t ) ) || pReplyData == NULL || * replySize < ( int ) ( sizeof ( effect_param_t ) + sizeof ( uint32_t ) + sizeof ( uint16_t ) ) || ( ( effect_param_t * ) pCmdData ) -> psize > * replySize - sizeof ( effect_param_t ) ) { status = - EINVAL ; ALOGV ( ""EFFECT_CMD_GET_PARAM invalid command cmdSize %d *replySize %d"" , cmdSize , * replySize ) ; goto exit ; } if ( ! context -> offload_enabled ) { status = - EINVAL ; goto exit ; } effect_param_t * q = ( effect_param_t * ) pCmdData ; memcpy ( pReplyData , pCmdData , sizeof ( effect_param_t ) + q -> psize ) ; effect_param_t * p = ( effect_param_t * ) pReplyData ; if ( context -> ops . get_parameter ) context -> ops . get_parameter ( context , p , replySize ) ; } break ; case EFFECT_CMD_SET_PARAM : { if ( pCmdData == NULL || cmdSize < ( int ) ( sizeof ( effect_param_t ) + sizeof ( uint32_t ) + sizeof ( uint16_t ) ) || pReplyData == NULL || * replySize != sizeof ( int32_t ) ) { status = - EINVAL ; ALOGV ( ""EFFECT_CMD_SET_PARAM invalid command cmdSize %d *replySize %d"" , cmdSize , * replySize ) ; goto exit ; } * ( int32_t * ) pReplyData = 0 ; effect_param_t * p = ( effect_param_t * ) pCmdData ; if ( context -> ops . set_parameter ) * ( int32_t * ) pReplyData = context -> ops . set_parameter ( context , p , * replySize ) ; } break ; case EFFECT_CMD_SET_DEVICE : { uint32_t device ; ALOGV ( ""\\t EFFECT_CMD_SET_DEVICE start"" ) ; if ( pCmdData == NULL || cmdSize < sizeof ( uint32_t ) ) { status = - EINVAL ; ALOGV ( ""EFFECT_CMD_SET_DEVICE invalid command cmdSize %d"" , cmdSize ) ; goto exit ; } device = * ( uint32_t * ) pCmdData ; if ( context -> ops . set_device ) context -> ops . set_device ( context , device ) ; } break ; case EFFECT_CMD_SET_VOLUME : case EFFECT_CMD_SET_AUDIO_MODE : break ; case EFFECT_CMD_OFFLOAD : { output_context_t * out_ctxt ; if ( cmdSize != sizeof ( effect_offload_param_t ) || pCmdData == NULL || pReplyData == NULL || * replySize != sizeof ( int ) ) {" 539,"CWE-119 static REFERENCE_MODE read_block_reference_mode ( VP9_COMMON * cm , const MACROBLOCKD * xd , vp9_reader * r ) { if ( cm -> reference_mode == REFERENCE_MODE_SELECT ) { const int ctx = vp9_get_reference_mode_context ( cm , xd ) ; const REFERENCE_MODE mode = ( REFERENCE_MODE ) vp9_read ( r , cm -> fc . comp_inter_prob [ ctx ] ) ; if ( ! cm -> frame_parallel_decoding_mode ) ++ cm -> counts . comp_inter [ ctx ] [ mode ] ; return mode ; } else { return cm -> reference_mode ; } }","static REFERENCE_MODE read_block_reference_mode ( VP9_COMMON * cm , const MACROBLOCKD * xd , vpx_reader * r ) { if ( cm -> reference_mode == REFERENCE_MODE_SELECT ) { const int ctx = vp9_get_reference_mode_context ( cm , xd ) ; const REFERENCE_MODE mode = ( REFERENCE_MODE ) vpx_read ( r , cm -> fc -> comp_inter_prob [ ctx ] ) ; FRAME_COUNTS * counts = xd -> counts ; if ( counts ) ++ counts -> comp_inter [ ctx ] [ mode ] ; return mode ; } else { return cm -> reference_mode ; } }" 540,"CWE-119 static int input_stats ( struct twopass_rc * p , FIRSTPASS_STATS * fps ) { if ( p -> stats_in >= p -> stats_in_end ) return EOF ; * fps = * p -> stats_in ; return 1 ; }","static int input_stats ( TWO_PASS * p , FIRSTPASS_STATS * fps ) { if ( p -> stats_in >= p -> stats_in_end ) return EOF ; * fps = * p -> stats_in ; + p -> stats_in ; return 1 ; }" 541,"NVD-CWE-Other static void ip_expire ( unsigned long arg ) { struct ipq * qp ; struct net * net ; qp = container_of ( ( struct inet_frag_queue * ) arg , struct ipq , q ) ; net = container_of ( qp -> q . net , struct net , ipv4 . frags ) ; spin_lock ( & qp -> q . lock ) ; if ( qp -> q . last_in & INET_FRAG_COMPLETE ) goto out ; ipq_kill ( qp ) ; IP_INC_STATS_BH ( net , IPSTATS_MIB_REASMTIMEOUT ) ; IP_INC_STATS_BH ( net , IPSTATS_MIB_REASMFAILS ) ; if ( ( qp -> q . last_in & INET_FRAG_FIRST_IN ) && qp -> q . fragments != NULL ) { struct sk_buff * head = qp -> q . fragments ; rcu_read_lock ( ) ; head -> dev = dev_get_by_index_rcu ( net , qp -> iif ) ; if ( ! head -> dev ) goto out_rcu_unlock ; if ( qp -> user == IP_DEFRAG_CONNTRACK_IN && ! skb_dst ( head ) ) { const struct iphdr * iph = ip_hdr ( head ) ; int err = ip_route_input ( head , iph -> daddr , iph -> saddr , iph -> tos , head -> dev ) ; if ( unlikely ( err ) ) goto out_rcu_unlock ; if ( skb_rtable ( head ) -> rt_type != RTN_LOCAL ) goto out_rcu_unlock ; } icmp_send ( head , ICMP_TIME_EXCEEDED , ICMP_EXC_FRAGTIME , 0 ) ; out_rcu_unlock : rcu_read_unlock ( ) ; } out : spin_unlock ( & qp -> q . lock ) ; ipq_put ( qp ) ; }","static void ip_expire ( unsigned long arg ) { struct ipq * qp ; struct net * net ; qp = container_of ( ( struct inet_frag_queue * ) arg , struct ipq , q ) ; net = container_of ( qp -> q . net , struct net , ipv4 . frags ) ; spin_lock ( & qp -> q . lock ) ; if ( qp -> q . last_in & INET_FRAG_COMPLETE ) goto out ; ipq_kill ( qp ) ; IP_INC_STATS_BH ( net , IPSTATS_MIB_REASMTIMEOUT ) ; IP_INC_STATS_BH ( net , IPSTATS_MIB_REASMFAILS ) ; if ( ( qp -> q . last_in & INET_FRAG_FIRST_IN ) && qp -> q . fragments != NULL ) { struct sk_buff * head = qp -> q . fragments ; const struct iphdr * iph ; int err ; rcu_read_lock ( ) ; head -> dev = dev_get_by_index_rcu ( net , qp -> iif ) ; if ( ! head -> dev ) goto out_rcu_unlock ; skb_dst_drop ( head ) ; iph = ip_hdr ( head ) ; err = ip_route_input_noref ( head , iph -> daddr , iph -> saddr , iph -> tos , head -> dev ) ; if ( err ) goto out_rcu_unlock ; if ( qp -> user == IP_DEFRAG_CONNTRACK_IN && skb_rtable ( head ) -> rt_type != RTN_LOCAL ) goto out_rcu_unlock ; icmp_send ( head , ICMP_TIME_EXCEEDED , ICMP_EXC_FRAGTIME , 0 ) ; out_rcu_unlock : rcu_read_unlock ( ) ; } out : spin_unlock ( & qp -> q . lock ) ; ipq_put ( qp ) ; }" 542,"CWE-190 int bson_check_string ( bson * b , const char * string , const int length ) { return bson_validate_string ( b , ( const unsigned char * ) string , length , 1 , 0 , 0 ) ; }","int bson_check_string ( bson * b , const char * string , const size_t length ) { return bson_validate_string ( b , ( const unsigned char * ) string , length , 1 , 0 , 0 ) ; }" 543,"CWE-362 ft_init_stopwords ( ) ; if ( ! ( param -> testflag & T_READONLY ) ) lock_type = F_WRLCK ; else lock_type = F_RDLCK ; if ( info -> lock_type == F_RDLCK ) info -> lock_type = F_UNLCK ; if ( _mi_readinfo ( info , lock_type , 0 ) ) { mi_check_print_error ( param , ""Can\'t lock indexfile of \'%s\', error: %d"" , filename , my_errno ) ; param -> error_printed = 0 ; goto end2 ; } mi_lock_database ( info , F_EXTRA_LCK ) ; datafile = info -> dfile ; if ( param -> testflag & ( T_REP_ANY | T_SORT_RECORDS | T_SORT_INDEX ) ) { if ( param -> testflag & T_REP_ANY ) { ulonglong tmp = share -> state . key_map ; mi_copy_keys_active ( share -> state . key_map , share -> base . keys , param -> keys_in_use ) ; if ( tmp != share -> state . key_map ) info -> update |= HA_STATE_CHANGED ; } if ( rep_quick && chk_del ( param , info , param -> testflag & ~ T_VERBOSE ) ) { if ( param -> testflag & T_FORCE_CREATE ) { rep_quick = 0 ; mi_check_print_info ( param , ""Creating new data file\\n"" ) ; } else { error = 1 ; mi_check_print_error ( param , ""Quick-recover aborted; Run recovery without switch \'q\'"" ) ; } } if ( ! error ) { if ( ( param -> testflag & ( T_REP_BY_SORT | T_REP_PARALLEL ) ) && ( mi_is_any_key_active ( share -> state . key_map ) || ( rep_quick && ! param -> keys_in_use && ! recreate ) ) && mi_test_if_sort_rep ( info , info -> state -> records , info -> s -> state . key_map , param -> force_sort ) ) { if ( param -> testflag & T_REP_BY_SORT ) error = mi_repair_by_sort ( param , info , filename , rep_quick ) ; else error = mi_repair_parallel ( param , info , filename , rep_quick ) ; state_updated = 1 ; } else if ( param -> testflag & T_REP_ANY ) error = mi_repair ( param , info , filename , rep_quick ) ; } if ( ! error && param -> testflag & T_SORT_RECORDS ) { # ifndef TO_BE_REMOVED if ( param -> out_flag & O_NEW_DATA ) { ( void ) my_close ( info -> dfile , MYF ( MY_WME ) ) ; error |= change_to_newfile ( filename , MI_NAME_DEXT , DATA_TMP_EXT , MYF ( 0 ) ) ; if ( mi_open_datafile ( info , info -> s , NULL , - 1 ) ) error = 1 ; param -> out_flag &= ~ O_NEW_DATA ; param -> read_cache . file = info -> dfile ; } # endif if ( ! error ) { uint key ; my_bool update_index = 1 ; for ( key = 0 ; key < share -> base . keys ; key ++ ) if ( share -> keyinfo [ key ] . flag & ( HA_BINARY_PACK_KEY | HA_FULLTEXT ) ) update_index = 0 ; error = mi_sort_records ( param , info , filename , param -> opt_sort_key , ( my_bool ) ! ( param -> testflag & T_REP ) , update_index ) ; datafile = info -> dfile ; if ( ! error && ! update_index ) { if ( param -> verbose ) puts ( ""Table had a compressed index; We must now recreate the index"" ) ; error = mi_repair_by_sort ( param , info , filename , 1 ) ; } } } if ( ! error && param -> testflag & T_SORT_INDEX ) error = mi_sort_index ( param , info , filename ) ; if ( ! error ) share -> state . changed &= ~ ( STATE_CHANGED | STATE_CRASHED | STATE_CRASHED_ON_REPAIR ) ; else mi_mark_crashed ( info ) ; } else if ( ( param -> testflag & T_CHECK ) || ! ( param -> testflag & T_AUTO_INC ) ) { if ( ! ( param -> testflag & T_SILENT ) || param -> testflag & T_INFO ) printf ( ""Checking MyISAM file: %s\\n"" , filename ) ; if ( ! ( param -> testflag & T_SILENT ) ) printf ( ""Data records: %7s Deleted blocks: %7s\\n"" , llstr ( info -> state -> records , llbuff ) , llstr ( info -> state -> del , llbuff2 ) ) ; error = chk_status ( param , info ) ; mi_intersect_keys_active ( share -> state . key_map , param -> keys_in_use ) ; error = chk_size ( param , info ) ; if ( ! error || ! ( param -> testflag & ( T_FAST | T_FORCE_CREATE ) ) ) error |= chk_del ( param , info , param -> testflag ) ; if ( ( ! error || ( ! ( param -> testflag & ( T_FAST | T_FORCE_CREATE ) ) && ! param -> start_check_pos ) ) ) { error |= chk_key ( param , info ) ; if ( ! error && ( param -> testflag & ( T_STATISTICS | T_AUTO_INC ) ) ) error = update_state_info ( param , info , ( ( param -> testflag & T_STATISTICS ) ? UPDATE_STAT : 0 ) | ( ( param -> testflag & T_AUTO_INC ) ? UPDATE_AUTO_INC : 0 ) ) ; } if ( ( ! rep_quick && ! error ) || ! ( param -> testflag & ( T_FAST | T_FORCE_CREATE ) ) ) { if ( param -> testflag & ( T_EXTEND | T_MEDIUM ) ) ( void ) init_key_cache ( dflt_key_cache , opt_key_cache_block_size , param -> use_buffers , 0 , 0 ) ; ( void ) init_io_cache ( & param -> read_cache , datafile , ( uint ) param -> read_buffer_length , READ_CACHE , ( param -> start_check_pos ? param -> start_check_pos : share -> pack . header_length ) , 1 , MYF ( MY_WME ) ) ; lock_memory ( param ) ; if ( ( info -> s -> options & ( HA_OPTION_PACK_RECORD | HA_OPTION_COMPRESS_RECORD ) ) || ( param -> testflag & ( T_EXTEND | T_MEDIUM ) ) ) error |= chk_data_link ( param , info , param -> testflag & T_EXTEND ) ; error |= flush_blocks ( param , share -> key_cache , share -> kfile ) ;","ft_init_stopwords ( ) ; if ( ! ( param -> testflag & T_READONLY ) ) lock_type = F_WRLCK ; else lock_type = F_RDLCK ; if ( info -> lock_type == F_RDLCK ) info -> lock_type = F_UNLCK ; if ( _mi_readinfo ( info , lock_type , 0 ) ) { mi_check_print_error ( param , ""Can\'t lock indexfile of \'%s\', error: %d"" , filename , my_errno ) ; param -> error_printed = 0 ; goto end2 ; } mi_lock_database ( info , F_EXTRA_LCK ) ; datafile = info -> dfile ; if ( param -> testflag & ( T_REP_ANY | T_SORT_RECORDS | T_SORT_INDEX ) ) { if ( param -> testflag & T_REP_ANY ) { ulonglong tmp = share -> state . key_map ; mi_copy_keys_active ( share -> state . key_map , share -> base . keys , param -> keys_in_use ) ; if ( tmp != share -> state . key_map ) info -> update |= HA_STATE_CHANGED ; } if ( rep_quick && chk_del ( param , info , param -> testflag & ~ T_VERBOSE ) ) { if ( param -> testflag & T_FORCE_CREATE ) { rep_quick = 0 ; mi_check_print_info ( param , ""Creating new data file\\n"" ) ; } else { error = 1 ; mi_check_print_error ( param , ""Quick-recover aborted; Run recovery without switch \'q\'"" ) ; } } if ( ! error ) { if ( ( param -> testflag & ( T_REP_BY_SORT | T_REP_PARALLEL ) ) && ( mi_is_any_key_active ( share -> state . key_map ) || ( rep_quick && ! param -> keys_in_use && ! recreate ) ) && mi_test_if_sort_rep ( info , info -> state -> records , info -> s -> state . key_map , param -> force_sort ) ) { if ( param -> testflag & T_REP_BY_SORT ) error = mi_repair_by_sort ( param , info , filename , rep_quick , FALSE ) ; else error = mi_repair_parallel ( param , info , filename , rep_quick , FALSE ) ; state_updated = 1 ; } else if ( param -> testflag & T_REP_ANY ) error = mi_repair ( param , info , filename , rep_quick , FALSE ) ; } if ( ! error && param -> testflag & T_SORT_RECORDS ) { # ifndef TO_BE_REMOVED if ( param -> out_flag & O_NEW_DATA ) { ( void ) my_close ( info -> dfile , MYF ( MY_WME ) ) ; error |= change_to_newfile ( filename , MI_NAME_DEXT , DATA_TMP_EXT , MYF ( 0 ) ) ; if ( mi_open_datafile ( info , info -> s , NULL , - 1 ) ) error = 1 ; param -> out_flag &= ~ O_NEW_DATA ; param -> read_cache . file = info -> dfile ; } # endif if ( ! error ) { uint key ; my_bool update_index = 1 ; for ( key = 0 ; key < share -> base . keys ; key ++ ) if ( share -> keyinfo [ key ] . flag & ( HA_BINARY_PACK_KEY | HA_FULLTEXT ) ) update_index = 0 ; error = mi_sort_records ( param , info , filename , param -> opt_sort_key , ( my_bool ) ! ( param -> testflag & T_REP ) , update_index ) ; datafile = info -> dfile ; if ( ! error && ! update_index ) { if ( param -> verbose ) puts ( ""Table had a compressed index; We must now recreate the index"" ) ; error = mi_repair_by_sort ( param , info , filename , 1 , FALSE ) ; } } } if ( ! error && param -> testflag & T_SORT_INDEX ) error = mi_sort_index ( param , info , filename , FALSE ) ; if ( ! error ) share -> state . changed &= ~ ( STATE_CHANGED | STATE_CRASHED | STATE_CRASHED_ON_REPAIR ) ; else mi_mark_crashed ( info ) ; } else if ( ( param -> testflag & T_CHECK ) || ! ( param -> testflag & T_AUTO_INC ) ) { if ( ! ( param -> testflag & T_SILENT ) || param -> testflag & T_INFO ) printf ( ""Checking MyISAM file: %s\\n"" , filename ) ; if ( ! ( param -> testflag & T_SILENT ) ) printf ( ""Data records: %7s Deleted blocks: %7s\\n"" , llstr ( info -> state -> records , llbuff ) , llstr ( info -> state -> del , llbuff2 ) ) ; error = chk_status ( param , info ) ; mi_intersect_keys_active ( share -> state . key_map , param -> keys_in_use ) ; error = chk_size ( param , info ) ; if ( ! error || ! ( param -> testflag & ( T_FAST | T_FORCE_CREATE ) ) ) error |= chk_del ( param , info , param -> testflag ) ; if ( ( ! error || ( ! ( param -> testflag & ( T_FAST | T_FORCE_CREATE ) ) && ! param -> start_check_pos ) ) ) { error |= chk_key ( param , info ) ; if ( ! error && ( param -> testflag & ( T_STATISTICS | T_AUTO_INC ) ) ) error = update_state_info ( param , info , ( ( param -> testflag & T_STATISTICS ) ? UPDATE_STAT : 0 ) | ( ( param -> testflag & T_AUTO_INC ) ? UPDATE_AUTO_INC : 0 ) ) ; } if ( ( ! rep_quick && ! error ) || ! ( param -> testflag & ( T_FAST | T_FORCE_CREATE ) ) ) { if ( param -> testflag & ( T_EXTEND | T_MEDIUM ) ) ( void ) init_key_cache ( dflt_key_cache , opt_key_cache_block_size , param -> use_buffers , 0 , 0 ) ; ( void ) init_io_cache ( & param -> read_cache , datafile , ( uint ) param -> read_buffer_length , READ_CACHE , ( param -> start_check_pos ? param -> start_check_pos : share -> pack . header_length ) , 1 , MYF ( MY_WME ) ) ; lock_memory ( param ) ; if ( ( info -> s -> options & ( HA_OPTION_PACK_RECORD | HA_OPTION_COMPRESS_RECORD ) ) || ( param -> testflag & ( T_EXTEND | T_MEDIUM ) ) ) error |= chk_data_link ( param , info , param -> testflag & T_EXTEND ) ; error |= flush_blocks ( param , share -> key_cache , share -> kfile ) ;" 544,"CWE-189 int kvm_iommu_map_pages ( struct kvm * kvm , struct kvm_memory_slot * slot ) { gfn_t gfn , end_gfn ; pfn_t pfn ; int r = 0 ; struct iommu_domain * domain = kvm -> arch . iommu_domain ; int flags ; if ( ! domain ) return 0 ; gfn = slot -> base_gfn ; end_gfn = gfn + slot -> npages ; flags = IOMMU_READ ; if ( ! ( slot -> flags & KVM_MEM_READONLY ) ) flags |= IOMMU_WRITE ; if ( ! kvm -> arch . iommu_noncoherent ) flags |= IOMMU_CACHE ; while ( gfn < end_gfn ) { unsigned long page_size ; if ( iommu_iova_to_phys ( domain , gfn_to_gpa ( gfn ) ) ) { gfn += 1 ; continue ; } page_size = kvm_host_page_size ( kvm , gfn ) ; while ( ( gfn + ( page_size >> PAGE_SHIFT ) ) > end_gfn ) page_size >>= 1 ; while ( ( gfn << PAGE_SHIFT ) & ( page_size - 1 ) ) page_size >>= 1 ; while ( __gfn_to_hva_memslot ( slot , gfn ) & ( page_size - 1 ) ) page_size >>= 1 ; pfn = kvm_pin_pages ( slot , gfn , page_size ) ; if ( is_error_noslot_pfn ( pfn ) ) { gfn += 1 ; continue ; } r = iommu_map ( domain , gfn_to_gpa ( gfn ) , pfn_to_hpa ( pfn ) , page_size , flags ) ; if ( r ) { printk ( KERN_ERR ""kvm_iommu_map_address:"" ""iommu failed to map pfn=%llx\\n"" , pfn ) ; kvm_unpin_pages ( kvm , pfn , page_size ) ; goto unmap_pages ; } gfn += page_size >> PAGE_SHIFT ; } return 0 ; unmap_pages : kvm_iommu_put_pages ( kvm , slot -> base_gfn , gfn - slot -> base_gfn ) ; return r ; }","int kvm_iommu_map_pages ( struct kvm * kvm , struct kvm_memory_slot * slot ) { gfn_t gfn , end_gfn ; pfn_t pfn ; int r = 0 ; struct iommu_domain * domain = kvm -> arch . iommu_domain ; int flags ; if ( ! domain ) return 0 ; gfn = slot -> base_gfn ; end_gfn = gfn + slot -> npages ; flags = IOMMU_READ ; if ( ! ( slot -> flags & KVM_MEM_READONLY ) ) flags |= IOMMU_WRITE ; if ( ! kvm -> arch . iommu_noncoherent ) flags |= IOMMU_CACHE ; while ( gfn < end_gfn ) { unsigned long page_size ; if ( iommu_iova_to_phys ( domain , gfn_to_gpa ( gfn ) ) ) { gfn += 1 ; continue ; } page_size = kvm_host_page_size ( kvm , gfn ) ; while ( ( gfn + ( page_size >> PAGE_SHIFT ) ) > end_gfn ) page_size >>= 1 ; while ( ( gfn << PAGE_SHIFT ) & ( page_size - 1 ) ) page_size >>= 1 ; while ( __gfn_to_hva_memslot ( slot , gfn ) & ( page_size - 1 ) ) page_size >>= 1 ; pfn = kvm_pin_pages ( slot , gfn , page_size >> PAGE_SHIFT ) ; if ( is_error_noslot_pfn ( pfn ) ) { gfn += 1 ; continue ; } r = iommu_map ( domain , gfn_to_gpa ( gfn ) , pfn_to_hpa ( pfn ) , page_size , flags ) ; if ( r ) { printk ( KERN_ERR ""kvm_iommu_map_address:"" ""iommu failed to map pfn=%llx\\n"" , pfn ) ; kvm_unpin_pages ( kvm , pfn , page_size >> PAGE_SHIFT ) ; goto unmap_pages ; } gfn += page_size >> PAGE_SHIFT ; } return 0 ; unmap_pages : kvm_iommu_put_pages ( kvm , slot -> base_gfn , gfn - slot -> base_gfn ) ; return r ; }" 545,"CWE-416 static struct file * path_openat ( int dfd , struct filename * pathname , struct nameidata * nd , const struct open_flags * op , int flags ) { struct file * file ; struct path path ; int opened = 0 ; int error ; file = get_empty_filp ( ) ; if ( IS_ERR ( file ) ) return file ; file -> f_flags = op -> open_flag ; if ( unlikely ( file -> f_flags & __O_TMPFILE ) ) { error = do_tmpfile ( dfd , pathname , nd , flags , op , file , & opened ) ; goto out ; } error = path_init ( dfd , pathname , flags , nd ) ; if ( unlikely ( error ) ) goto out ; error = do_last ( nd , & path , file , op , & opened , pathname ) ; while ( unlikely ( error > 0 ) ) { struct path link = path ; void * cookie ; if ( ! ( nd -> flags & LOOKUP_FOLLOW ) ) { path_put_conditional ( & path , nd ) ; path_put ( & nd -> path ) ; error = - ELOOP ; break ; } error = may_follow_link ( & link , nd ) ; if ( unlikely ( error ) ) break ; nd -> flags |= LOOKUP_PARENT ; nd -> flags &= ~ ( LOOKUP_OPEN | LOOKUP_CREATE | LOOKUP_EXCL ) ; error = follow_link ( & link , nd , & cookie ) ; if ( unlikely ( error ) ) break ; error = do_last ( nd , & path , file , op , & opened , pathname ) ; put_link ( nd , & link , cookie ) ; } out : path_cleanup ( nd ) ; if ( ! ( opened & FILE_OPENED ) ) { BUG_ON ( ! error ) ; put_filp ( file ) ; } if ( unlikely ( error ) ) { if ( error == - EOPENSTALE ) { if ( flags & LOOKUP_RCU ) error = - ECHILD ; else error = - ESTALE ; } file = ERR_PTR ( error ) ; } return file ; }","static struct file * path_openat ( int dfd , struct filename * pathname , struct nameidata * nd , const struct open_flags * op , int flags ) { struct file * file ; struct path path ; int opened = 0 ; int error ; file = get_empty_filp ( ) ; if ( IS_ERR ( file ) ) return file ; file -> f_flags = op -> open_flag ; if ( unlikely ( file -> f_flags & __O_TMPFILE ) ) { error = do_tmpfile ( dfd , pathname , nd , flags , op , file , & opened ) ; goto out2 ; } error = path_init ( dfd , pathname , flags , nd ) ; if ( unlikely ( error ) ) goto out ; error = do_last ( nd , & path , file , op , & opened , pathname ) ; while ( unlikely ( error > 0 ) ) { struct path link = path ; void * cookie ; if ( ! ( nd -> flags & LOOKUP_FOLLOW ) ) { path_put_conditional ( & path , nd ) ; path_put ( & nd -> path ) ; error = - ELOOP ; break ; } error = may_follow_link ( & link , nd ) ; if ( unlikely ( error ) ) break ; nd -> flags |= LOOKUP_PARENT ; nd -> flags &= ~ ( LOOKUP_OPEN | LOOKUP_CREATE | LOOKUP_EXCL ) ; error = follow_link ( & link , nd , & cookie ) ; if ( unlikely ( error ) ) break ; error = do_last ( nd , & path , file , op , & opened , pathname ) ; put_link ( nd , & link , cookie ) ; } out : path_cleanup ( nd ) ; out2 : if ( ! ( opened & FILE_OPENED ) ) { BUG_ON ( ! error ) ; put_filp ( file ) ; } if ( unlikely ( error ) ) { if ( error == - EOPENSTALE ) { if ( flags & LOOKUP_RCU ) error = - ECHILD ; else error = - ESTALE ; } file = ERR_PTR ( error ) ; } return file ; }" 546,"CWE-20 error_t enc28j60ReceivePacket ( NetInterface * interface ) { error_t error ; uint16_t n ; uint16_t status ; Enc28j60Context * context ; context = ( Enc28j60Context * ) interface -> nicContext ; if ( enc28j60ReadReg ( interface , ENC28J60_REG_EPKTCNT ) ) { enc28j60WriteReg ( interface , ENC28J60_REG_ERDPTL , LSB ( context -> nextPacket ) ) ; enc28j60WriteReg ( interface , ENC28J60_REG_ERDPTH , MSB ( context -> nextPacket ) ) ; enc28j60ReadBuffer ( interface , ( uint8_t * ) & context -> nextPacket , sizeof ( uint16_t ) ) ; enc28j60ReadBuffer ( interface , ( uint8_t * ) & n , sizeof ( uint16_t ) ) ; enc28j60ReadBuffer ( interface , ( uint8_t * ) & status , sizeof ( uint16_t ) ) ; if ( ( status & RSV_RECEIVED_OK ) != 0 ) { n = MIN ( n , ETH_MAX_FRAME_SIZE ) ; enc28j60ReadBuffer ( interface , context -> rxBuffer , n ) ; error = NO_ERROR ; } else { error = ERROR_INVALID_PACKET ; } if ( context -> nextPacket == ENC28J60_RX_BUFFER_START ) { enc28j60WriteReg ( interface , ENC28J60_REG_ERXRDPTL , LSB ( ENC28J60_RX_BUFFER_STOP ) ) ; enc28j60WriteReg ( interface , ENC28J60_REG_ERXRDPTH , MSB ( ENC28J60_RX_BUFFER_STOP ) ) ; } else { enc28j60WriteReg ( interface , ENC28J60_REG_ERXRDPTL , LSB ( context -> nextPacket - 1 ) ) ; enc28j60WriteReg ( interface , ENC28J60_REG_ERXRDPTH , MSB ( context -> nextPacket - 1 ) ) ; } enc28j60SetBit ( interface , ENC28J60_REG_ECON2 , ECON2_PKTDEC ) ; } else { error = ERROR_BUFFER_EMPTY ; } if ( ! error ) { NetRxAncillary ancillary ; ancillary = NET_DEFAULT_RX_ANCILLARY ; nicProcessPacket ( interface , context -> rxBuffer , n , & ancillary ) ; } return error ; }","error_t enc28j60ReceivePacket ( NetInterface * interface ) { error_t error ; uint16_t length ; uint16_t status ; uint8_t header [ 6 ] ; Enc28j60Context * context ; context = ( Enc28j60Context * ) interface -> nicContext ; if ( enc28j60ReadReg ( interface , ENC28J60_EPKTCNT ) != 0 ) { enc28j60WriteReg ( interface , ENC28J60_ERDPTL , LSB ( context -> nextPacket ) ) ; enc28j60WriteReg ( interface , ENC28J60_ERDPTH , MSB ( context -> nextPacket ) ) ; enc28j60ReadBuffer ( interface , header , sizeof ( header ) ) ; context -> nextPacket = LOAD16LE ( header ) ; length = LOAD16LE ( header + 2 ) ; status = LOAD16LE ( header + 4 ) ; if ( ( status & ENC28J60_RSV_RECEIVED_OK ) != 0 ) { length = MIN ( length , ETH_MAX_FRAME_SIZE ) ; enc28j60ReadBuffer ( interface , context -> rxBuffer , length ) ; error = NO_ERROR ; } else { error = ERROR_INVALID_PACKET ; } if ( context -> nextPacket == ENC28J60_RX_BUFFER_START ) { enc28j60WriteReg ( interface , ENC28J60_ERXRDPTL , LSB ( ENC28J60_RX_BUFFER_STOP ) ) ; enc28j60WriteReg ( interface , ENC28J60_ERXRDPTH , MSB ( ENC28J60_RX_BUFFER_STOP ) ) ; } else { enc28j60WriteReg ( interface , ENC28J60_ERXRDPTL , LSB ( context -> nextPacket - 1 ) ) ; enc28j60WriteReg ( interface , ENC28J60_ERXRDPTH , MSB ( context -> nextPacket - 1 ) ) ; } enc28j60SetBit ( interface , ENC28J60_ECON2 , ENC28J60_ECON2_PKTDEC ) ; } else { error = ERROR_BUFFER_EMPTY ; } if ( ! error ) { NetRxAncillary ancillary ; ancillary = NET_DEFAULT_RX_ANCILLARY ; nicProcessPacket ( interface , context -> rxBuffer , length , & ancillary ) ; } return error ; }" 547,"CWE-119 IHEVCD_ERROR_T ihevcd_cabac_init ( cab_ctxt_t * ps_cabac , bitstrm_t * ps_bitstrm , WORD32 qp , WORD32 cabac_init_idc , const UWORD8 * pu1_init_ctxt ) { ASSERT ( ps_cabac != NULL ) ; ASSERT ( ps_bitstrm != NULL ) ; ASSERT ( ( qp >= 0 ) && ( qp < 52 ) ) ; ASSERT ( ( cabac_init_idc >= 0 ) && ( cabac_init_idc < 3 ) ) ; UNUSED ( qp ) ; UNUSED ( cabac_init_idc ) ; # if FULLRANGE ps_cabac -> u4_range = ( UWORD32 ) 510 << RANGE_SHIFT ; BITS_GET ( ps_cabac -> u4_ofst , ps_bitstrm -> pu4_buf , ps_bitstrm -> u4_bit_ofst , ps_bitstrm -> u4_cur_word , ps_bitstrm -> u4_nxt_word , ( 9 + RANGE_SHIFT ) ) ; # else ps_cabac -> u4_range = ( UWORD32 ) 510 ; BITS_GET ( ps_cabac -> u4_ofst , ps_bitstrm -> pu4_buf , ps_bitstrm -> u4_bit_ofst , ps_bitstrm -> u4_cur_word , ps_bitstrm -> u4_nxt_word , 9 ) ; # endif memcpy ( ps_cabac -> au1_ctxt_models , pu1_init_ctxt , IHEVC_CAB_CTXT_END ) ; DEBUG_RANGE_OFST ( ""init"" , ps_cabac -> u4_range , ps_cabac -> u4_ofst ) ; return ( ( IHEVCD_ERROR_T ) IHEVCD_SUCCESS ) ; }","IHEVCD_ERROR_T ihevcd_cabac_init ( cab_ctxt_t * ps_cabac , bitstrm_t * ps_bitstrm , WORD32 qp , WORD32 cabac_init_idc , const UWORD8 * pu1_init_ctxt ) { ASSERT ( ps_cabac != NULL ) ; ASSERT ( ps_bitstrm != NULL ) ; ASSERT ( ( qp >= 0 ) && ( qp < 52 ) ) ; ASSERT ( ( cabac_init_idc >= 0 ) && ( cabac_init_idc < 3 ) ) ; UNUSED ( qp ) ; UNUSED ( cabac_init_idc ) ; # if FULLRANGE ps_cabac -> u4_range = ( UWORD32 ) 510 << RANGE_SHIFT ; BITS_GET ( ps_cabac -> u4_ofst , ps_bitstrm -> pu4_buf , ps_bitstrm -> u4_bit_ofst , ps_bitstrm -> u4_cur_word , ps_bitstrm -> u4_nxt_word , ( 9 + RANGE_SHIFT ) ) ; # else ps_cabac -> u4_range = ( UWORD32 ) 510 ; BITS_GET ( ps_cabac -> u4_ofst , ps_bitstrm -> pu4_buf , ps_bitstrm -> u4_bit_ofst , ps_bitstrm -> u4_cur_word , ps_bitstrm -> u4_nxt_word , 9 ) ; # endif memcpy ( ps_cabac -> au1_ctxt_models , pu1_init_ctxt , IHEVC_CAB_CTXT_END ) ; DEBUG_RANGE_OFST ( ""init"" , ps_cabac -> u4_range , ps_cabac -> u4_ofst ) ; if ( ps_cabac -> u4_ofst >= ps_cabac -> u4_range ) { return ( ( IHEVCD_ERROR_T ) IHEVCD_FAIL ) ; } return ( ( IHEVCD_ERROR_T ) IHEVCD_SUCCESS ) ; }" 548,"CWE-125 static void __skb_complete_tx_timestamp ( struct sk_buff * skb , struct sock * sk , int tstype ) { struct sock_exterr_skb * serr ; int err ; serr = SKB_EXT_ERR ( skb ) ; memset ( serr , 0 , sizeof ( * serr ) ) ; serr -> ee . ee_errno = ENOMSG ; serr -> ee . ee_origin = SO_EE_ORIGIN_TIMESTAMPING ; serr -> ee . ee_info = tstype ; if ( sk -> sk_tsflags & SOF_TIMESTAMPING_OPT_ID ) { serr -> ee . ee_data = skb_shinfo ( skb ) -> tskey ; if ( sk -> sk_protocol == IPPROTO_TCP && sk -> sk_type == SOCK_STREAM ) serr -> ee . ee_data -= sk -> sk_tskey ; } err = sock_queue_err_skb ( sk , skb ) ; if ( err ) kfree_skb ( skb ) ; }","static void __skb_complete_tx_timestamp ( struct sk_buff * skb , struct sock * sk , int tstype , bool opt_stats ) { struct sock_exterr_skb * serr ; int err ; BUILD_BUG_ON ( sizeof ( struct sock_exterr_skb ) > sizeof ( skb -> cb ) ) ; serr = SKB_EXT_ERR ( skb ) ; memset ( serr , 0 , sizeof ( * serr ) ) ; serr -> ee . ee_errno = ENOMSG ; serr -> ee . ee_origin = SO_EE_ORIGIN_TIMESTAMPING ; serr -> ee . ee_info = tstype ; serr -> opt_stats = opt_stats ; if ( sk -> sk_tsflags & SOF_TIMESTAMPING_OPT_ID ) { serr -> ee . ee_data = skb_shinfo ( skb ) -> tskey ; if ( sk -> sk_protocol == IPPROTO_TCP && sk -> sk_type == SOCK_STREAM ) serr -> ee . ee_data -= sk -> sk_tskey ; } err = sock_queue_err_skb ( sk , skb ) ; if ( err ) kfree_skb ( skb ) ; }" 549,"CWE-200 static int read_gab2_sub ( AVFormatContext * s , AVStream * st , AVPacket * pkt ) { if ( pkt -> size >= 7 && pkt -> size < INT_MAX - AVPROBE_PADDING_SIZE && ! strcmp ( pkt -> data , ""GAB2"" ) && AV_RL16 ( pkt -> data + 5 ) == 2 ) { uint8_t desc [ 256 ] ; int score = AVPROBE_SCORE_EXTENSION , ret ; AVIStream * ast = st -> priv_data ; AVInputFormat * sub_demuxer ; AVRational time_base ; int size ; AVIOContext * pb = avio_alloc_context ( pkt -> data + 7 , pkt -> size - 7 , 0 , NULL , NULL , NULL , NULL ) ; AVProbeData pd ; unsigned int desc_len = avio_rl32 ( pb ) ; if ( desc_len > pb -> buf_end - pb -> buf_ptr ) goto error ; ret = avio_get_str16le ( pb , desc_len , desc , sizeof ( desc ) ) ; avio_skip ( pb , desc_len - ret ) ; if ( * desc ) av_dict_set ( & st -> metadata , ""title"" , desc , 0 ) ; avio_rl16 ( pb ) ; avio_rl32 ( pb ) ; size = pb -> buf_end - pb -> buf_ptr ; pd = ( AVProbeData ) { . buf = av_mallocz ( size + AVPROBE_PADDING_SIZE ) , . buf_size = size } ; if ( ! pd . buf ) goto error ; memcpy ( pd . buf , pb -> buf_ptr , size ) ; sub_demuxer = av_probe_input_format2 ( & pd , 1 , & score ) ; av_freep ( & pd . buf ) ; if ( ! sub_demuxer ) goto error ; if ( ! ( ast -> sub_ctx = avformat_alloc_context ( ) ) ) goto error ; ast -> sub_ctx -> pb = pb ; if ( ff_copy_whiteblacklists ( ast -> sub_ctx , s ) < 0 ) goto error ; if ( ! avformat_open_input ( & ast -> sub_ctx , """" , sub_demuxer , NULL ) ) { if ( ast -> sub_ctx -> nb_streams != 1 ) goto error ; ff_read_packet ( ast -> sub_ctx , & ast -> sub_pkt ) ; avcodec_parameters_copy ( st -> codecpar , ast -> sub_ctx -> streams [ 0 ] -> codecpar ) ; time_base = ast -> sub_ctx -> streams [ 0 ] -> time_base ; avpriv_set_pts_info ( st , 64 , time_base . num , time_base . den ) ; } ast -> sub_buffer = pkt -> data ; memset ( pkt , 0 , sizeof ( * pkt ) ) ; return 1 ; error : av_freep ( & ast -> sub_ctx ) ; av_freep ( & pb ) ; } return 0 ; }","static int read_gab2_sub ( AVFormatContext * s , AVStream * st , AVPacket * pkt ) { if ( pkt -> size >= 7 && pkt -> size < INT_MAX - AVPROBE_PADDING_SIZE && ! strcmp ( pkt -> data , ""GAB2"" ) && AV_RL16 ( pkt -> data + 5 ) == 2 ) { uint8_t desc [ 256 ] ; int score = AVPROBE_SCORE_EXTENSION , ret ; AVIStream * ast = st -> priv_data ; AVInputFormat * sub_demuxer ; AVRational time_base ; int size ; AVIOContext * pb = avio_alloc_context ( pkt -> data + 7 , pkt -> size - 7 , 0 , NULL , NULL , NULL , NULL ) ; AVProbeData pd ; unsigned int desc_len = avio_rl32 ( pb ) ; if ( desc_len > pb -> buf_end - pb -> buf_ptr ) goto error ; ret = avio_get_str16le ( pb , desc_len , desc , sizeof ( desc ) ) ; avio_skip ( pb , desc_len - ret ) ; if ( * desc ) av_dict_set ( & st -> metadata , ""title"" , desc , 0 ) ; avio_rl16 ( pb ) ; avio_rl32 ( pb ) ; size = pb -> buf_end - pb -> buf_ptr ; pd = ( AVProbeData ) { . buf = av_mallocz ( size + AVPROBE_PADDING_SIZE ) , . buf_size = size } ; if ( ! pd . buf ) goto error ; memcpy ( pd . buf , pb -> buf_ptr , size ) ; sub_demuxer = av_probe_input_format2 ( & pd , 1 , & score ) ; av_freep ( & pd . buf ) ; if ( ! sub_demuxer ) goto error ; if ( strcmp ( sub_demuxer -> name , ""srt"" ) && strcmp ( sub_demuxer -> name , ""ass"" ) ) goto error ; if ( ! ( ast -> sub_ctx = avformat_alloc_context ( ) ) ) goto error ; ast -> sub_ctx -> pb = pb ; if ( ff_copy_whiteblacklists ( ast -> sub_ctx , s ) < 0 ) goto error ; if ( ! avformat_open_input ( & ast -> sub_ctx , """" , sub_demuxer , NULL ) ) { if ( ast -> sub_ctx -> nb_streams != 1 ) goto error ; ff_read_packet ( ast -> sub_ctx , & ast -> sub_pkt ) ; avcodec_parameters_copy ( st -> codecpar , ast -> sub_ctx -> streams [ 0 ] -> codecpar ) ; time_base = ast -> sub_ctx -> streams [ 0 ] -> time_base ; avpriv_set_pts_info ( st , 64 , time_base . num , time_base . den ) ; } ast -> sub_buffer = pkt -> data ; memset ( pkt , 0 , sizeof ( * pkt ) ) ; return 1 ; error : av_freep ( & ast -> sub_ctx ) ; av_freep ( & pb ) ; } return 0 ; }" 550,"CWE-327 int wc_SignatureGenerateHash ( enum wc_HashType hash_type , enum wc_SignatureType sig_type , const byte * hash_data , word32 hash_len , byte * sig , word32 * sig_len , const void * key , word32 key_len , WC_RNG * rng ) { int ret ; ( void ) rng ; if ( hash_data == NULL || hash_len <= 0 || sig == NULL || sig_len == NULL || * sig_len <= 0 || key == NULL || key_len <= 0 ) { return BAD_FUNC_ARG ; } if ( ( int ) * sig_len < wc_SignatureGetSize ( sig_type , key , key_len ) ) { WOLFSSL_MSG ( ""wc_SignatureGenerate: Invalid sig type/len"" ) ; return BAD_FUNC_ARG ; } ret = wc_HashGetDigestSize ( hash_type ) ; if ( ret < 0 ) { WOLFSSL_MSG ( ""wc_SignatureGenerate: Invalid hash type/len"" ) ; return ret ; } ret = 0 ; switch ( sig_type ) { case WC_SIGNATURE_TYPE_ECC : # if defined ( HAVE_ECC ) && defined ( HAVE_ECC_SIGN ) do { # ifdef WOLFSSL_ASYNC_CRYPT ret = wc_AsyncWait ( ret , & ( ( ecc_key * ) key ) -> asyncDev , WC_ASYNC_FLAG_CALL_AGAIN ) ; # endif if ( ret >= 0 ) ret = wc_ecc_sign_hash ( hash_data , hash_len , sig , sig_len , rng , ( ecc_key * ) key ) ; } while ( ret == WC_PENDING_E ) ; # else ret = SIG_TYPE_E ; # endif break ; case WC_SIGNATURE_TYPE_RSA_W_ENC : case WC_SIGNATURE_TYPE_RSA : # if ! defined ( NO_RSA ) && ! defined ( WOLFSSL_RSA_PUBLIC_ONLY ) do { # ifdef WOLFSSL_ASYNC_CRYPT ret = wc_AsyncWait ( ret , & ( ( RsaKey * ) key ) -> asyncDev , WC_ASYNC_FLAG_CALL_AGAIN ) ; # endif if ( ret >= 0 ) ret = wc_RsaSSL_Sign ( hash_data , hash_len , sig , * sig_len , ( RsaKey * ) key , rng ) ; } while ( ret == WC_PENDING_E ) ; if ( ret >= 0 ) { * sig_len = ret ; ret = 0 ; } # else ret = SIG_TYPE_E ; # endif break ; case WC_SIGNATURE_TYPE_NONE : default : ret = BAD_FUNC_ARG ; break ; } return ret ; }","int wc_SignatureGenerateHash ( enum wc_HashType hash_type , enum wc_SignatureType sig_type , const byte * hash_data , word32 hash_len , byte * sig , word32 * sig_len , const void * key , word32 key_len , WC_RNG * rng ) { return wc_SignatureGenerateHash_ex ( hash_type , sig_type , hash_data , hash_len , sig , sig_len , key , key_len , rng , 1 ) ; }" 551,"CWE-20 void httpParseAuthorizationField ( HttpConnection * connection , char_t * value ) { char_t * p ; char_t * token ; token = osStrtok_r ( value , "" \\t"" , & p ) ; if ( token == NULL ) { return ; } # if ( HTTP_SERVER_BASIC_AUTH_SUPPORT == ENABLED ) else if ( ! osStrcasecmp ( token , ""Basic"" ) ) { error_t error ; size_t n ; char_t * separator ; connection -> request . auth . mode = HTTP_AUTH_MODE_BASIC ; token = osStrtok_r ( NULL , "" \\t"" , & p ) ; if ( token != NULL ) { error = base64Decode ( token , osStrlen ( token ) , token , & n ) ; if ( ! error ) { token [ n ] = '\\0' ; separator = strchr ( token , ':' ) ; if ( separator != NULL ) { * separator = '\\0' ; strSafeCopy ( connection -> request . auth . user , token , HTTP_SERVER_USERNAME_MAX_LEN ) ; token = separator + 1 ; connection -> request . auth . password = token ; } } } TRACE_DEBUG ( ""Authorization header:\\r\\n"" ) ; TRACE_DEBUG ( "" username: %s\\r\\n"" , connection -> request . auth . user ) ; TRACE_DEBUG ( "" password: %s\\r\\n"" , connection -> request . auth . password ) ; } # endif # if ( HTTP_SERVER_DIGEST_AUTH_SUPPORT == ENABLED ) else if ( ! osStrcasecmp ( token , ""Digest"" ) ) { size_t n ; char_t * separator ; char_t * name ; connection -> request . auth . mode = HTTP_AUTH_MODE_DIGEST ; token = osStrtok_r ( NULL , "","" , & p ) ; while ( token != NULL ) { separator = strchr ( token , '=' ) ; if ( separator != NULL ) { * separator = '\\0' ; name = strTrimWhitespace ( token ) ; value = strTrimWhitespace ( separator + 1 ) ; n = osStrlen ( value ) ; if ( n > 0 && value [ n - 1 ] == \'\\""\' ) value [ n - 1 ] = '\\0' ; if ( value [ 0 ] == \'\\""\' ) value ++ ; if ( ! osStrcasecmp ( name , ""username"" ) ) { strSafeCopy ( connection -> request . auth . user , value , HTTP_SERVER_USERNAME_MAX_LEN ) ; } else if ( ! osStrcasecmp ( name , ""realm"" ) ) { connection -> request . auth . realm = value ; } else if ( ! osStrcasecmp ( name , ""nonce"" ) ) { connection -> request . auth . nonce = value ; } else if ( ! osStrcasecmp ( name , ""uri"" ) ) { connection -> request . auth . uri = value ; } else if ( ! osStrcasecmp ( name , ""qop"" ) ) { connection -> request . auth . qop = value ; } else if ( ! osStrcasecmp ( name , ""nc"" ) ) { connection -> request . auth . nc = value ; } else if ( ! osStrcasecmp ( name , ""cnonce"" ) ) { connection -> request . auth . cnonce = value ; } else if ( ! osStrcasecmp ( name , ""response"" ) ) { connection -> request . auth . response = value ; } else if ( ! osStrcasecmp ( name , ""opaque"" ) ) { connection -> request . auth . opaque = value ; } token = osStrtok_r ( NULL , "","" , & p ) ; } }","void httpParseAuthorizationField ( HttpConnection * connection , char_t * value ) { char_t * p ; char_t * token ; token = osStrtok_r ( value , "" \\t"" , & p ) ; if ( token == NULL ) { return ; } # if ( HTTP_SERVER_BASIC_AUTH_SUPPORT == ENABLED ) else if ( ! osStrcasecmp ( token , ""Basic"" ) ) { error_t error ; size_t n ; char_t * separator ; connection -> request . auth . mode = HTTP_AUTH_MODE_BASIC ; token = osStrtok_r ( NULL , "" \\t"" , & p ) ; if ( token != NULL ) { error = base64Decode ( token , osStrlen ( token ) , token , & n ) ; if ( ! error ) { token [ n ] = '\\0' ; separator = osStrchr ( token , ':' ) ; if ( separator != NULL ) { * separator = '\\0' ; strSafeCopy ( connection -> request . auth . user , token , HTTP_SERVER_USERNAME_MAX_LEN ) ; token = separator + 1 ; connection -> request . auth . password = token ; } } } TRACE_DEBUG ( ""Authorization header:\\r\\n"" ) ; TRACE_DEBUG ( "" username: %s\\r\\n"" , connection -> request . auth . user ) ; TRACE_DEBUG ( "" password: %s\\r\\n"" , connection -> request . auth . password ) ; } # endif # if ( HTTP_SERVER_DIGEST_AUTH_SUPPORT == ENABLED ) else if ( ! osStrcasecmp ( token , ""Digest"" ) ) { size_t n ; char_t * separator ; char_t * name ; connection -> request . auth . mode = HTTP_AUTH_MODE_DIGEST ; token = osStrtok_r ( NULL , "","" , & p ) ; while ( token != NULL ) { separator = osStrchr ( token , '=' ) ; if ( separator != NULL ) { * separator = '\\0' ; name = strTrimWhitespace ( token ) ; value = strTrimWhitespace ( separator + 1 ) ; n = osStrlen ( value ) ; if ( n > 0 && value [ n - 1 ] == \'\\""\' ) value [ n - 1 ] = '\\0' ; if ( value [ 0 ] == \'\\""\' ) value ++ ; if ( ! osStrcasecmp ( name , ""username"" ) ) { strSafeCopy ( connection -> request . auth . user , value , HTTP_SERVER_USERNAME_MAX_LEN ) ; } else if ( ! osStrcasecmp ( name , ""realm"" ) ) { connection -> request . auth . realm = value ; } else if ( ! osStrcasecmp ( name , ""nonce"" ) ) { connection -> request . auth . nonce = value ; } else if ( ! osStrcasecmp ( name , ""uri"" ) ) { connection -> request . auth . uri = value ; } else if ( ! osStrcasecmp ( name , ""qop"" ) ) { connection -> request . auth . qop = value ; } else if ( ! osStrcasecmp ( name , ""nc"" ) ) { connection -> request . auth . nc = value ; } else if ( ! osStrcasecmp ( name , ""cnonce"" ) ) { connection -> request . auth . cnonce = value ; } else if ( ! osStrcasecmp ( name , ""response"" ) ) { connection -> request . auth . response = value ; } else if ( ! osStrcasecmp ( name , ""opaque"" ) ) { connection -> request . auth . opaque = value ; } token = osStrtok_r ( NULL , "","" , & p ) ; } }" 552,"CWE-119 static char * fstrndup ( const char * ptr , unsigned long len ) { char * result ; if ( len <= 0 ) return NULL ; result = ALLOC_N ( char , len ) ; memccpy ( result , ptr , 0 , len ) ; return result ; }","static char * fstrndup ( const char * ptr , unsigned long len ) { char * result ; if ( len <= 0 ) return NULL ; result = ALLOC_N ( char , len ) ; memcpy ( result , ptr , len ) ; return result ; }" 553,"CWE-787 GF_Err flac_dmx_process ( GF_Filter * filter ) { GF_FLACDmxCtx * ctx = gf_filter_get_udta ( filter ) ; GF_FilterPacket * pck , * dst_pck ; u8 * output ; u8 * start ; Bool final_flush = GF_FALSE ; u32 pck_size , remain , prev_pck_size ; u64 cts = GF_FILTER_NO_TS ; FLACHeader hdr ; if ( ! ctx -> duration . num ) flac_dmx_check_dur ( filter , ctx ) ; if ( ctx -> opid && ! ctx -> is_playing ) return GF_OK ; pck = gf_filter_pid_get_packet ( ctx -> ipid ) ; if ( ! pck ) { if ( gf_filter_pid_is_eos ( ctx -> ipid ) ) { if ( ! ctx -> flac_buffer_size ) { if ( ctx -> opid ) gf_filter_pid_set_eos ( ctx -> opid ) ; if ( ctx -> src_pck ) gf_filter_pck_unref ( ctx -> src_pck ) ; ctx -> src_pck = NULL ; return GF_EOS ; } final_flush = GF_TRUE ; } else { return GF_OK ; } } prev_pck_size = ctx -> flac_buffer_size ; if ( pck && ! ctx -> resume_from ) { u8 * data = ( u8 * ) gf_filter_pck_get_data ( pck , & pck_size ) ; if ( ctx -> byte_offset != GF_FILTER_NO_BO ) { u64 byte_offset = gf_filter_pck_get_byte_offset ( pck ) ; if ( ! ctx -> flac_buffer_size ) { ctx -> byte_offset = byte_offset ; } else if ( ctx -> byte_offset + ctx -> flac_buffer_size != byte_offset ) { ctx -> byte_offset = GF_FILTER_NO_BO ; if ( ( byte_offset != GF_FILTER_NO_BO ) && ( byte_offset > ctx -> flac_buffer_size ) ) { ctx -> byte_offset = byte_offset - ctx -> flac_buffer_size ; } } } if ( ctx -> flac_buffer_size + pck_size > ctx -> flac_buffer_alloc ) { ctx -> flac_buffer_alloc = ctx -> flac_buffer_size + pck_size ; ctx -> flac_buffer = gf_realloc ( ctx -> flac_buffer , ctx -> flac_buffer_alloc ) ; } memcpy ( ctx -> flac_buffer + ctx -> flac_buffer_size , data , pck_size ) ; ctx -> flac_buffer_size += pck_size ; } if ( ctx -> timescale && pck ) { cts = gf_filter_pck_get_cts ( pck ) ; } if ( cts == GF_FILTER_NO_TS ) { prev_pck_size = 0 ; } remain = ctx -> flac_buffer_size ; start = ctx -> flac_buffer ; if ( ctx -> resume_from ) { start += ctx -> resume_from - 1 ; remain -= ctx -> resume_from - 1 ; ctx -> resume_from = 0 ; } while ( remain > 2 ) { u32 next_frame = 0 , nb_samp ; u32 cur_size = remain - 2 ; u8 * cur_buf = start + 2 ; u8 * hdr_start = NULL ; if ( final_flush ) { next_frame = remain ; } else { while ( cur_size ) { hdr_start = memchr ( cur_buf , 0xFF , cur_size ) ; if ( ! hdr_start ) break ; next_frame = ( u32 ) ( hdr_start - start ) ; if ( next_frame == remain ) break ; if ( ( hdr_start [ 1 ] & 0xFC ) == 0xF8 ) { if ( flac_parse_header ( ctx , hdr_start , ( u32 ) remain - next_frame , & hdr ) ) break ; } cur_buf = hdr_start + 1 ; cur_size = ( u32 ) ( cur_buf - start ) ; assert ( cur_size <= remain ) ; cur_size = remain - cur_size ; hdr_start = NULL ; } if ( ! hdr_start ) break ; if ( next_frame == remain ) break ; } if ( ! ctx -> initialized ) { u32 size = next_frame ; u32 dsi_end = 0 ; gf_bs_reassign_buffer ( ctx -> bs , ctx -> flac_buffer , size ) ; u32 magic = gf_bs_read_u32 ( ctx -> bs ) ; if ( magic != GF_4CC ( 'f' , 'L' , 'a' , 'C' ) ) { } while ( gf_bs_available ( ctx -> bs ) ) { Bool last = gf_bs_read_int ( ctx -> bs , 1 ) ; u32 type = gf_bs_read_int ( ctx -> bs , 7 ) ; u32 len = gf_bs_read_int ( ctx -> bs , 24 ) ; if ( type == 0 ) { u16 min_block_size = gf_bs_read_u16 ( ctx -> bs ) ; u16 max_block_size = gf_bs_read_u16 ( ctx -> bs ) ; gf_bs_read_u24 ( ctx -> bs ) ; gf_bs_read_u24 ( ctx -> bs ) ; ctx -> sample_rate = gf_bs_read_int ( ctx -> bs , 20 ) ; ctx -> nb_channels = 1 + gf_bs_read_int ( ctx -> bs , 3 ) ; ctx -> bits_per_sample = 1 + gf_bs_read_int ( ctx -> bs , 5 ) ; if ( min_block_size == max_block_size ) ctx -> block_size = min_block_size ; else ctx -> block_size = 0 ; ctx -> duration . num = gf_bs_read_long_int ( ctx -> bs , 36 ) ; ctx -> duration . den = ctx -> sample_rate ; gf_bs_skip_bytes ( ctx -> bs , 16 ) ; dsi_end = ( u32 ) gf_bs_get_position ( ctx -> bs ) ; } else { gf_bs_skip_bytes ( ctx -> bs , len ) ; } if ( last ) break ; } flac_dmx_check_pid ( filter , ctx , ctx -> flac_buffer + 4 , dsi_end - 4 ) ; remain -= size ; start += size ; ctx -> initialized = GF_TRUE ; if ( ! ctx -> is_playing ) break ; continue ; } if ( ( start [ 0 ] != 0xFF ) && ( ( start [ 1 ] & 0xFC ) != 0xF8 ) ) { GF_LOG ( GF_LOG_WARNING , GF_LOG_PARSER , ( ""[FLACDmx] invalid frame, droping %d bytes and resyncing\\n"" , next_frame ) ) ; start += next_frame ; remain -= next_frame ; continue ; } flac_parse_header ( ctx , start , next_frame , & hdr ) ; if ( hdr . sample_rate != ctx -> sample_rate ) { ctx -> sample_rate = hdr . sample_rate ; gf_filter_pid_set_property ( ctx -> opid , GF_PROP_PID_SAMPLE_RATE , & PROP_UINT ( ctx -> sample_rate ) ) ; } nb_samp = hdr . block_size ; if ( ctx -> in_seek ) { u64 nb_samples_at_seek = ( u64 ) ( ctx -> start_range * ctx -> sample_rate ) ; if ( ctx -> cts + nb_samp >= nb_samples_at_seek ) { ctx -> in_seek = GF_FALSE ; } } if ( ctx -> timescale && ! prev_pck_size && ( cts != GF_FILTER_NO_TS ) ) { ctx -> cts = cts ; cts = GF_FILTER_NO_TS ; } if ( ! ctx -> in_seek ) { dst_pck = gf_filter_pck_new_alloc ( ctx -> opid , next_frame , & output ) ; memcpy ( output , start , next_frame ) ; gf_filter_pck_set_cts ( dst_pck , ctx -> cts ) ; if ( ! ctx -> timescale || ( ctx -> timescale == ctx -> sample_rate ) ) gf_filter_pck_set_duration ( dst_pck , nb_samp ) ; else { gf_filter_pck_set_duration ( dst_pck , ( nb_samp * ctx -> timescale ) / ctx -> sample_rate ) ; } gf_filter_pck_set_sap ( dst_pck , GF_FILTER_SAP_1 ) ; gf_filter_pck_set_framing ( dst_pck , GF_TRUE , GF_TRUE ) ; if ( ctx -> byte_offset != GF_FILTER_NO_BO ) { gf_filter_pck_set_byte_offset ( dst_pck , ctx -> byte_offset ) ; } gf_filter_pck_send ( dst_pck ) ; } flac_dmx_update_cts ( ctx , nb_samp ) ; assert ( start [ 0 ] == 0xFF ) ; assert ( ( start [ 1 ] & 0xFC ) == 0xF8 ) ; start += next_frame ; assert ( remain >= next_frame ) ;","GF_Err flac_dmx_process ( GF_Filter * filter ) { GF_FLACDmxCtx * ctx = gf_filter_get_udta ( filter ) ; GF_FilterPacket * pck , * dst_pck ; u8 * output ; u8 * start ; Bool final_flush = GF_FALSE ; u32 pck_size , remain , prev_pck_size ; u64 cts = GF_FILTER_NO_TS ; FLACHeader hdr ; if ( ctx -> in_error ) return GF_NON_COMPLIANT_BITSTREAM ; if ( ! ctx -> duration . num ) flac_dmx_check_dur ( filter , ctx ) ; if ( ctx -> opid && ! ctx -> is_playing ) return GF_OK ; pck = gf_filter_pid_get_packet ( ctx -> ipid ) ; if ( ! pck ) { if ( gf_filter_pid_is_eos ( ctx -> ipid ) ) { if ( ! ctx -> flac_buffer_size ) { if ( ctx -> opid ) gf_filter_pid_set_eos ( ctx -> opid ) ; if ( ctx -> src_pck ) gf_filter_pck_unref ( ctx -> src_pck ) ; ctx -> src_pck = NULL ; return GF_EOS ; } final_flush = GF_TRUE ; } else { return GF_OK ; } } prev_pck_size = ctx -> flac_buffer_size ; if ( pck && ! ctx -> resume_from ) { u8 * data = ( u8 * ) gf_filter_pck_get_data ( pck , & pck_size ) ; if ( ctx -> byte_offset != GF_FILTER_NO_BO ) { u64 byte_offset = gf_filter_pck_get_byte_offset ( pck ) ; if ( ! ctx -> flac_buffer_size ) { ctx -> byte_offset = byte_offset ; } else if ( ctx -> byte_offset + ctx -> flac_buffer_size != byte_offset ) { ctx -> byte_offset = GF_FILTER_NO_BO ; if ( ( byte_offset != GF_FILTER_NO_BO ) && ( byte_offset > ctx -> flac_buffer_size ) ) { ctx -> byte_offset = byte_offset - ctx -> flac_buffer_size ; } } } if ( ctx -> flac_buffer_size + pck_size > ctx -> flac_buffer_alloc ) { ctx -> flac_buffer_alloc = ctx -> flac_buffer_size + pck_size ; ctx -> flac_buffer = gf_realloc ( ctx -> flac_buffer , ctx -> flac_buffer_alloc ) ; } memcpy ( ctx -> flac_buffer + ctx -> flac_buffer_size , data , pck_size ) ; ctx -> flac_buffer_size += pck_size ; } if ( ctx -> timescale && pck ) { cts = gf_filter_pck_get_cts ( pck ) ; } if ( cts == GF_FILTER_NO_TS ) { prev_pck_size = 0 ; } remain = ctx -> flac_buffer_size ; start = ctx -> flac_buffer ; if ( ctx -> resume_from ) { start += ctx -> resume_from - 1 ; remain -= ctx -> resume_from - 1 ; ctx -> resume_from = 0 ; } while ( remain > 2 ) { u32 next_frame = 0 , nb_samp ; u32 cur_size = remain - 2 ; u8 * cur_buf = start + 2 ; u8 * hdr_start = NULL ; if ( final_flush ) { next_frame = remain ; } else { while ( cur_size ) { hdr_start = memchr ( cur_buf , 0xFF , cur_size ) ; if ( ! hdr_start ) break ; next_frame = ( u32 ) ( hdr_start - start ) ; if ( next_frame == remain ) break ; if ( ( hdr_start [ 1 ] & 0xFC ) == 0xF8 ) { if ( flac_parse_header ( ctx , hdr_start , ( u32 ) remain - next_frame , & hdr ) ) break ; } cur_buf = hdr_start + 1 ; cur_size = ( u32 ) ( cur_buf - start ) ; assert ( cur_size <= remain ) ; cur_size = remain - cur_size ; hdr_start = NULL ; } if ( ! hdr_start ) break ; if ( next_frame == remain ) break ; } if ( ! ctx -> initialized ) { u32 size = next_frame ; u32 dsi_end = 0 ; gf_bs_reassign_buffer ( ctx -> bs , ctx -> flac_buffer , size ) ; u32 magic = gf_bs_read_u32 ( ctx -> bs ) ; if ( magic != GF_4CC ( 'f' , 'L' , 'a' , 'C' ) ) { GF_LOG ( GF_LOG_ERROR , GF_LOG_PARSER , ( ""[FLACDmx] invalid FLAC magic\\n"" ) ) ; ctx -> in_error = GF_TRUE ; ctx -> flac_buffer_size = 0 ; if ( pck ) gf_filter_pid_drop_packet ( ctx -> ipid ) ; return GF_NON_COMPLIANT_BITSTREAM ; } while ( gf_bs_available ( ctx -> bs ) ) { Bool last = gf_bs_read_int ( ctx -> bs , 1 ) ; u32 type = gf_bs_read_int ( ctx -> bs , 7 ) ; u32 len = gf_bs_read_int ( ctx -> bs , 24 ) ; if ( type == 0 ) { u16 min_block_size = gf_bs_read_u16 ( ctx -> bs ) ; u16 max_block_size = gf_bs_read_u16 ( ctx -> bs ) ; gf_bs_read_u24 ( ctx -> bs ) ; gf_bs_read_u24 ( ctx -> bs ) ; ctx -> sample_rate = gf_bs_read_int ( ctx -> bs , 20 ) ; ctx -> nb_channels = 1 + gf_bs_read_int ( ctx -> bs , 3 ) ; ctx -> bits_per_sample = 1 + gf_bs_read_int ( ctx -> bs , 5 ) ; if ( min_block_size == max_block_size ) ctx -> block_size = min_block_size ; else ctx -> block_size = 0 ; ctx -> duration . num = gf_bs_read_long_int ( ctx -> bs , 36 ) ; ctx -> duration . den = ctx -> sample_rate ; gf_bs_skip_bytes ( ctx -> bs , 16 ) ; dsi_end = ( u32 ) gf_bs_get_position ( ctx -> bs ) ; } else { gf_bs_skip_bytes ( ctx -> bs , len ) ; } if ( last ) break ; } if ( ! dsi_end ) { GF_LOG ( GF_LOG_ERROR , GF_LOG_PARSER , ( ""[FLACDmx] invalid FLAC header\\n"" ) ) ; ctx -> in_error = GF_TRUE ; ctx -> flac_buffer_size = 0 ; if ( pck ) gf_filter_pid_drop_packet ( ctx -> ipid ) ; return GF_NON_COMPLIANT_BITSTREAM ; } flac_dmx_check_pid ( filter , ctx , ctx -> flac_buffer + 4 , dsi_end - 4 ) ; remain -= size ; start += size ; ctx -> initialized = GF_TRUE ; if ( ! ctx -> is_playing ) break ; continue ; } if ( ( start [ 0 ] != 0xFF ) && ( ( start [ 1 ] & 0xFC ) != 0xF8 ) ) { GF_LOG ( GF_LOG_WARNING , GF_LOG_PARSER , ( ""[FLACDmx] invalid frame, droping %d bytes and resyncing\\n"" , next_frame ) ) ; start += next_frame ; remain -= next_frame ; continue ; } flac_parse_header ( ctx , start , next_frame , & hdr ) ; if ( hdr . sample_rate != ctx -> sample_rate ) { ctx -> sample_rate = hdr . sample_rate ; gf_filter_pid_set_property ( ctx -> opid , GF_PROP_PID_SAMPLE_RATE , & PROP_UINT ( ctx -> sample_rate ) ) ; } nb_samp = hdr . block_size ; if ( ctx -> in_seek ) { u64 nb_samples_at_seek = ( u64 ) ( ctx -> start_range * ctx -> sample_rate ) ; if ( ctx -> cts + nb_samp >= nb_samples_at_seek ) { ctx -> in_seek = GF_FALSE ; } } if ( ctx -> timescale && ! prev_pck_size && ( cts != GF_FILTER_NO_TS ) ) { ctx -> cts = cts ; cts = GF_FILTER_NO_TS ; } if ( ! ctx -> in_seek ) { dst_pck = gf_filter_pck_new_alloc ( ctx -> opid , next_frame , & output ) ; memcpy ( output , start , next_frame ) ; gf_filter_pck_set_cts ( dst_pck , ctx -> cts ) ; if ( ! ctx -> timescale || ( ctx -> timescale == ctx -> sample_rate ) ) gf_filter_pck_set_duration ( dst_pck , nb_samp ) ; else { gf_filter_pck_set_duration ( dst_pck , ( nb_samp * ctx -> timescale ) / ctx -> sample_rate ) ; } gf_filter_pck_set_sap ( dst_pck , GF_FILTER_SAP_1 ) ; gf_filter_pck_set_framing ( dst_pck , GF_TRUE , GF_TRUE ) ; if ( ctx -> byte_offset != GF_FILTER_NO_BO ) { gf_filter_pck_set_byte_offset ( dst_pck , ctx -> byte_offset ) ; } gf_filter_pck_send ( dst_pck ) ; } flac_dmx_update_cts ( ctx , nb_samp ) ; assert ( start [ 0 ] == 0xFF ) ; assert ( ( start [ 1 ] & 0xFC ) == 0xF8 ) ; start += next_frame ; assert ( remain >= next_frame ) ;" 554,"CWE-120 void choose_windows ( s ) const char * s ; { register int i ; for ( i = 0 ; winchoices [ i ] . procs ; i ++ ) { if ( '+' == winchoices [ i ] . procs -> name [ 0 ] ) continue ; if ( '-' == winchoices [ i ] . procs -> name [ 0 ] ) continue ; if ( ! strcmpi ( s , winchoices [ i ] . procs -> name ) ) { windowprocs = * winchoices [ i ] . procs ; if ( last_winchoice && last_winchoice -> ini_routine ) ( * last_winchoice -> ini_routine ) ( WININIT_UNDO ) ; if ( winchoices [ i ] . ini_routine ) ( * winchoices [ i ] . ini_routine ) ( WININIT ) ; last_winchoice = & winchoices [ i ] ; return ; } } if ( ! windowprocs . win_raw_print ) windowprocs . win_raw_print = def_raw_print ; if ( ! windowprocs . win_wait_synch ) windowprocs . win_wait_synch = def_wait_synch ; if ( ! winchoices [ 0 ] . procs ) { raw_printf ( ""No window types?"" ) ; nh_terminate ( EXIT_FAILURE ) ; } if ( ! winchoices [ 1 ] . procs ) { config_error_add ( ""Window type %s not recognized. The only choice is: %s"" , s , winchoices [ 0 ] . procs -> name ) ; } else { char buf [ BUFSZ ] ; boolean first = TRUE ; buf [ 0 ] = '\\0' ; for ( i = 0 ; winchoices [ i ] . procs ; i ++ ) { if ( '+' == winchoices [ i ] . procs -> name [ 0 ] ) continue ; if ( '-' == winchoices [ i ] . procs -> name [ 0 ] ) continue ; Sprintf ( eos ( buf ) , ""%s%s"" , first ? """" : "", "" , winchoices [ i ] . procs -> name ) ; first = FALSE ; } config_error_add ( ""Window type %s not recognized. Choices are: %s"" , s , buf ) ; } if ( windowprocs . win_raw_print == def_raw_print || WINDOWPORT ( ""safe-startup"" ) ) nh_terminate ( EXIT_SUCCESS ) ; }","void choose_windows ( s ) const char * s ; { int i ; char * tmps = 0 ; for ( i = 0 ; winchoices [ i ] . procs ; i ++ ) { if ( '+' == winchoices [ i ] . procs -> name [ 0 ] ) continue ; if ( '-' == winchoices [ i ] . procs -> name [ 0 ] ) continue ; if ( ! strcmpi ( s , winchoices [ i ] . procs -> name ) ) { windowprocs = * winchoices [ i ] . procs ; if ( last_winchoice && last_winchoice -> ini_routine ) ( * last_winchoice -> ini_routine ) ( WININIT_UNDO ) ; if ( winchoices [ i ] . ini_routine ) ( * winchoices [ i ] . ini_routine ) ( WININIT ) ; last_winchoice = & winchoices [ i ] ; return ; } } if ( ! windowprocs . win_raw_print ) windowprocs . win_raw_print = def_raw_print ; if ( ! windowprocs . win_wait_synch ) windowprocs . win_wait_synch = def_wait_synch ; if ( ! winchoices [ 0 ] . procs ) { raw_printf ( ""No window types supported?"" ) ; nh_terminate ( EXIT_FAILURE ) ; } # define WINDOW_TYPE_MAXLEN 50 if ( strlen ( s ) >= WINDOW_TYPE_MAXLEN ) { tmps = ( char * ) alloc ( WINDOW_TYPE_MAXLEN ) ; ( void ) strncpy ( tmps , s , WINDOW_TYPE_MAXLEN - 1 ) ; tmps [ WINDOW_TYPE_MAXLEN - 1 ] = '\\0' ; s = tmps ; } # undef WINDOW_TYPE_MAXLEN if ( ! winchoices [ 1 ] . procs ) { config_error_add ( ""Window type %s not recognized. The only choice is: %s"" , s , winchoices [ 0 ] . procs -> name ) ; } else { char buf [ BUFSZ ] ; boolean first = TRUE ; buf [ 0 ] = '\\0' ; for ( i = 0 ; winchoices [ i ] . procs ; i ++ ) { if ( '+' == winchoices [ i ] . procs -> name [ 0 ] ) continue ; if ( '-' == winchoices [ i ] . procs -> name [ 0 ] ) continue ; Sprintf ( eos ( buf ) , ""%s%s"" , first ? """" : "", "" , winchoices [ i ] . procs -> name ) ; first = FALSE ; } config_error_add ( ""Window type %s not recognized. Choices are: %s"" , s , buf ) ; } if ( tmps ) free ( ( genericptr_t ) tmps ) ; if ( windowprocs . win_raw_print == def_raw_print || WINDOWPORT ( ""safe-startup"" ) ) nh_terminate ( EXIT_SUCCESS ) ; }" 555,"CWE-119 for ( idx = 0 ; idx < ps_dec -> ps_cur_slice -> u1_num_ref_idx_lx_active [ 1 ] ; idx ++ ) { UWORD8 u1_tmp_idx = idx << 1 ; ps_pic = ps_dec -> ps_ref_pic_buf_lx [ 1 ] [ idx ] ; ppv_map_ref_idx_to_poc_lx_t [ u1_tmp_idx ] = ( ps_pic -> pu1_buf1 ) ; ppv_map_ref_idx_to_poc_lx_b [ u1_tmp_idx + 1 ] = ( ps_pic -> pu1_buf1 ) ; ppv_map_ref_idx_to_poc_lx_b [ u1_tmp_idx ] = ( ps_pic -> pu1_buf1 ) + 1 ; ppv_map_ref_idx_to_poc_lx_t [ u1_tmp_idx + 1 ] = ( ps_pic -> pu1_buf1 ) + 1 ; } } if ( ps_dec -> u4_num_cores >= 3 ) { WORD32 num_entries ; WORD32 size ; num_entries = MIN ( MAX_FRAMES , ps_dec -> u4_num_ref_frames_at_init ) ; num_entries = 2 * ( ( 2 * num_entries ) + 1 ) ; size = num_entries * sizeof ( void * ) ; size += PAD_MAP_IDX_POC * sizeof ( void * ) ; memcpy ( ( void * ) ps_dec -> ps_parse_cur_slice -> ppv_map_ref_idx_to_poc , ps_dec -> ppv_map_ref_idx_to_poc , size ) ; } } if ( ps_dec -> ps_cur_slice -> u1_mbaff_frame_flag && ( ps_dec -> ps_cur_slice -> u1_field_pic_flag == 0 ) ) { ih264d_convert_frm_mbaff_list ( ps_dec ) ; } if ( ps_pps -> u1_wted_bipred_idc == 1 ) { ret = ih264d_parse_pred_weight_table ( ps_slice , ps_bitstrm ) ; if ( ret != OK ) return ret ; ih264d_form_pred_weight_matrix ( ps_dec ) ; ps_dec -> pu4_wt_ofsts = ps_dec -> pu4_wts_ofsts_mat ; } else if ( ps_pps -> u1_wted_bipred_idc == 2 ) { ps_slice -> u2_log2Y_crwd = 0x0505 ; ps_dec -> pu4_wt_ofsts = ps_dec -> pu4_wts_ofsts_mat ; ih264d_get_implicit_weights ( ps_dec ) ; } else ps_dec -> ps_cur_slice -> u2_log2Y_crwd = 0 ; ps_dec -> ps_parse_cur_slice -> u2_log2Y_crwd = ps_dec -> ps_cur_slice -> u2_log2Y_crwd ; if ( ps_slice -> u1_nal_ref_idc != 0 ) { if ( ! ps_dec -> ps_dpb_cmds -> u1_dpb_commands_read ) ps_dec -> u4_bitoffset = ih264d_read_mmco_commands ( ps_dec ) ; else ps_bitstrm -> u4_ofst += ps_dec -> u4_bitoffset ; } if ( ps_pps -> u1_entropy_coding_mode == CABAC ) { u4_temp = ih264d_uev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) ; if ( u4_temp > MAX_CABAC_INIT_IDC ) { return ERROR_INV_SLICE_HDR_T ; } ps_slice -> u1_cabac_init_idc = u4_temp ; COPYTHECONTEXT ( ""SH: cabac_init_idc"" , ps_slice -> u1_cabac_init_idc ) ; } i_temp = ps_pps -> u1_pic_init_qp if ( ( i_temp < 0 ) || ( i_temp > 51 ) ) { return ERROR_INV_RANGE_QP_T ; } ps_slice -> u1_slice_qp = i_temp ; COPYTHECONTEXT ( ""SH: slice_qp_delta"" , ( WORD8 ) ( ps_slice -> u1_slice_qp - ps_pps -> u1_pic_init_qp ) ) ; if ( ps_pps -> u1_deblocking_filter_parameters_present_flag == 1 ) { u4_temp = ih264d_uev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) ; if ( u4_temp > SLICE_BOUNDARY_DBLK_DISABLED ) { return ERROR_INV_SLICE_HDR_T ; } COPYTHECONTEXT ( ""SH: disable_deblocking_filter_idc"" , u4_temp ) ; ps_slice -> u1_disable_dblk_filter_idc = u4_temp ; if ( u4_temp != 1 ) { i_temp = ih264d_sev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) << 1 ; if ( ( MIN_DBLK_FIL_OFF > i_temp ) || ( i_temp > MAX_DBLK_FIL_OFF ) ) { return ERROR_INV_SLICE_HDR_T ; } ps_slice -> i1_slice_alpha_c0_offset = i_temp ; COPYTHECONTEXT ( ""SH: slice_alpha_c0_offset_div2"" , ps_slice -> i1_slice_alpha_c0_offset >> 1 ) ; i_temp = ih264d_sev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) << 1 ; if ( ( MIN_DBLK_FIL_OFF > i_temp ) || ( i_temp > MAX_DBLK_FIL_OFF ) ) { return ERROR_INV_SLICE_HDR_T ; } ps_slice -> i1_slice_beta_offset = i_temp ; COPYTHECONTEXT ( ""SH: slice_beta_offset_div2"" , ps_slice -> i1_slice_beta_offset >> 1 ) ;","for ( idx = 0 ; idx < ps_dec -> ps_cur_slice -> u1_num_ref_idx_lx_active [ 1 ] ; idx ++ ) { UWORD8 u1_tmp_idx = idx << 1 ; ps_pic = ps_dec -> ps_ref_pic_buf_lx [ 1 ] [ idx ] ; ppv_map_ref_idx_to_poc_lx_t [ u1_tmp_idx ] = ( ps_pic -> pu1_buf1 ) ; ppv_map_ref_idx_to_poc_lx_b [ u1_tmp_idx + 1 ] = ( ps_pic -> pu1_buf1 ) ; ppv_map_ref_idx_to_poc_lx_b [ u1_tmp_idx ] = ( ps_pic -> pu1_buf1 ) + 1 ; ppv_map_ref_idx_to_poc_lx_t [ u1_tmp_idx + 1 ] = ( ps_pic -> pu1_buf1 ) + 1 ; } } if ( ps_dec -> u4_num_cores >= 3 ) { WORD32 num_entries ; WORD32 size ; num_entries = MIN ( MAX_FRAMES , ps_dec -> u4_num_ref_frames_at_init ) ; num_entries = 2 * ( ( 2 * num_entries ) + 1 ) ; size = num_entries * sizeof ( void * ) ; size += PAD_MAP_IDX_POC * sizeof ( void * ) ; memcpy ( ( void * ) ps_dec -> ps_parse_cur_slice -> ppv_map_ref_idx_to_poc , ps_dec -> ppv_map_ref_idx_to_poc , size ) ; } } if ( ps_dec -> ps_cur_slice -> u1_mbaff_frame_flag && ( ps_dec -> ps_cur_slice -> u1_field_pic_flag == 0 ) ) { ih264d_convert_frm_mbaff_list ( ps_dec ) ; } if ( ps_pps -> u1_wted_bipred_idc == 1 ) { ret = ih264d_parse_pred_weight_table ( ps_slice , ps_bitstrm ) ; if ( ret != OK ) return ret ; ih264d_form_pred_weight_matrix ( ps_dec ) ; ps_dec -> pu4_wt_ofsts = ps_dec -> pu4_wts_ofsts_mat ; } else if ( ps_pps -> u1_wted_bipred_idc == 2 ) { ps_slice -> u2_log2Y_crwd = 0x0505 ; ps_dec -> pu4_wt_ofsts = ps_dec -> pu4_wts_ofsts_mat ; ih264d_get_implicit_weights ( ps_dec ) ; } else ps_dec -> ps_cur_slice -> u2_log2Y_crwd = 0 ; ps_dec -> ps_parse_cur_slice -> u2_log2Y_crwd = ps_dec -> ps_cur_slice -> u2_log2Y_crwd ; if ( ps_slice -> u1_nal_ref_idc != 0 ) { if ( ! ps_dec -> ps_dpb_cmds -> u1_dpb_commands_read ) { i_temp = ih264d_read_mmco_commands ( ps_dec ) ; if ( i_temp < 0 ) { return ERROR_DBP_MANAGER_T ; } ps_dec -> u4_bitoffset = i_temp ; } else ps_bitstrm -> u4_ofst += ps_dec -> u4_bitoffset ; } if ( ps_pps -> u1_entropy_coding_mode == CABAC ) { u4_temp = ih264d_uev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) ; if ( u4_temp > MAX_CABAC_INIT_IDC ) { return ERROR_INV_SLICE_HDR_T ; } ps_slice -> u1_cabac_init_idc = u4_temp ; COPYTHECONTEXT ( ""SH: cabac_init_idc"" , ps_slice -> u1_cabac_init_idc ) ; } i_temp = ps_pps -> u1_pic_init_qp ih264d_sev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) ; if ( ( i_temp < 0 ) || ( i_temp > 51 ) ) { return ERROR_INV_RANGE_QP_T ; } ps_slice -> u1_slice_qp = i_temp ; COPYTHECONTEXT ( ""SH: slice_qp_delta"" , ( WORD8 ) ( ps_slice -> u1_slice_qp - ps_pps -> u1_pic_init_qp ) ) ; if ( ps_pps -> u1_deblocking_filter_parameters_present_flag == 1 ) { u4_temp = ih264d_uev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) ; if ( u4_temp > SLICE_BOUNDARY_DBLK_DISABLED ) { return ERROR_INV_SLICE_HDR_T ; } COPYTHECONTEXT ( ""SH: disable_deblocking_filter_idc"" , u4_temp ) ; ps_slice -> u1_disable_dblk_filter_idc = u4_temp ; if ( u4_temp != 1 ) { i_temp = ih264d_sev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) << 1 ; if ( ( MIN_DBLK_FIL_OFF > i_temp ) || ( i_temp > MAX_DBLK_FIL_OFF ) ) { return ERROR_INV_SLICE_HDR_T ; } ps_slice -> i1_slice_alpha_c0_offset = i_temp ; COPYTHECONTEXT ( ""SH: slice_alpha_c0_offset_div2"" , ps_slice -> i1_slice_alpha_c0_offset >> 1 ) ; i_temp = ih264d_sev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) << 1 ; if ( ( MIN_DBLK_FIL_OFF > i_temp ) || ( i_temp > MAX_DBLK_FIL_OFF ) ) { return ERROR_INV_SLICE_HDR_T ; } ps_slice -> i1_slice_beta_offset = i_temp ; COPYTHECONTEXT ( ""SH: slice_beta_offset_div2"" , ps_slice -> i1_slice_beta_offset >> 1 ) ;" 556,"CWE-20 static int encrypt ( struct blkcipher_desc * desc , struct scatterlist * dst , struct scatterlist * src , unsigned int nbytes ) { struct blkcipher_walk walk ; struct crypto_blkcipher * tfm = desc -> tfm ; struct salsa20_ctx * ctx = crypto_blkcipher_ctx ( tfm ) ; int err ; blkcipher_walk_init ( & walk , dst , src , nbytes ) ; err = blkcipher_walk_virt_block ( desc , & walk , 64 ) ; salsa20_ivsetup ( ctx , walk . iv ) ; if ( likely ( walk . nbytes == nbytes ) ) { salsa20_encrypt_bytes ( ctx , walk . dst . virt . addr , walk . src . virt . addr , nbytes ) ; return blkcipher_walk_done ( desc , & walk , 0 ) ; } while ( walk . nbytes >= 64 ) { salsa20_encrypt_bytes ( ctx , walk . dst . virt . addr , walk . src . virt . addr , walk . nbytes - ( walk . nbytes % 64 ) ) ; err = blkcipher_walk_done ( desc , & walk , walk . nbytes % 64 ) ; } if ( walk . nbytes ) { salsa20_encrypt_bytes ( ctx , walk . dst . virt . addr , walk . src . virt . addr , walk . nbytes ) ; err = blkcipher_walk_done ( desc , & walk , 0 ) ; } return err ; }","static int encrypt ( struct blkcipher_desc * desc , struct scatterlist * dst , struct scatterlist * src , unsigned int nbytes ) { struct blkcipher_walk walk ; struct crypto_blkcipher * tfm = desc -> tfm ; struct salsa20_ctx * ctx = crypto_blkcipher_ctx ( tfm ) ; int err ; blkcipher_walk_init ( & walk , dst , src , nbytes ) ; err = blkcipher_walk_virt_block ( desc , & walk , 64 ) ; salsa20_ivsetup ( ctx , walk . iv ) ; while ( walk . nbytes >= 64 ) { salsa20_encrypt_bytes ( ctx , walk . dst . virt . addr , walk . src . virt . addr , walk . nbytes - ( walk . nbytes % 64 ) ) ; err = blkcipher_walk_done ( desc , & walk , walk . nbytes % 64 ) ; } if ( walk . nbytes ) { salsa20_encrypt_bytes ( ctx , walk . dst . virt . addr , walk . src . virt . addr , walk . nbytes ) ; err = blkcipher_walk_done ( desc , & walk , 0 ) ; } return err ; }" 557,"NVD-CWE-Other static int requireDirective ( MaState * state , cchar * key , cchar * value ) { char * age , * type , * rest , * option , * ovalue , * tok ; int domains ; if ( ! maTokenize ( state , value , ""%S ?*"" , & type , & rest ) ) { return MPR_ERR_BAD_SYNTAX ; } if ( scaselesscmp ( type , ""ability"" ) == 0 ) { httpSetAuthRequiredAbilities ( state -> auth , rest ) ; } else if ( scaselesscmp ( type , ""group"" ) == 0 || scaselesscmp ( type , ""role"" ) == 0 ) { httpSetAuthRequiredAbilities ( state -> auth , rest ) ; } else if ( scaselesscmp ( type , ""secure"" ) == 0 ) { domains = 0 ; age = 0 ; for ( option = stok ( sclone ( rest ) , "" \\t"" , & tok ) ; option ; option = stok ( 0 , "" \\t"" , & tok ) ) { option = stok ( option , "" =\\t,"" , & ovalue ) ; ovalue = strim ( ovalue , ""\\""\'"" , MPR_TRIM_BOTH ) ; if ( smatch ( option , ""age"" ) ) { age = sfmt ( ""%lld"" , ( int64 ) httpGetTicks ( ovalue ) ) ; } else if ( smatch ( option , ""domains"" ) ) { domains = 1 ; } } if ( age ) { if ( domains ) { age = sjoin ( ""-1"" , age , NULL ) ; } } addCondition ( state , ""secure"" , age , HTTP_ROUTE_STRICT_TLS ) ; } else if ( scaselesscmp ( type , ""user"" ) == 0 ) { httpSetAuthPermittedUsers ( state -> auth , rest ) ; } else if ( scaselesscmp ( type , ""valid-user"" ) == 0 ) { httpSetAuthAnyValidUser ( state -> auth ) ; } else { return configError ( state , key ) ; } return 0 ; }","static int requireDirective ( MaState * state , cchar * key , cchar * value ) { char * age , * type , * rest , * option , * ovalue , * tok ; int domains ; if ( ! maTokenize ( state , value , ""%S ?*"" , & type , & rest ) ) { return MPR_ERR_BAD_SYNTAX ; } if ( scaselesscmp ( type , ""ability"" ) == 0 ) { httpSetAuthRequiredAbilities ( state -> auth , rest ) ; } else if ( scaselesscmp ( type , ""group"" ) == 0 || scaselesscmp ( type , ""role"" ) == 0 ) { httpSetAuthRequiredAbilities ( state -> auth , rest ) ; } else if ( scaselesscmp ( type , ""secure"" ) == 0 ) { domains = 0 ; age = 0 ; for ( option = stok ( sclone ( rest ) , "" \\t"" , & tok ) ; option ; option = stok ( 0 , "" \\t"" , & tok ) ) { option = ssplit ( option , "" =\\t,"" , & ovalue ) ; ovalue = strim ( ovalue , ""\\""\'"" , MPR_TRIM_BOTH ) ; if ( smatch ( option , ""age"" ) ) { age = sfmt ( ""%lld"" , ( int64 ) httpGetTicks ( ovalue ) ) ; } else if ( smatch ( option , ""domains"" ) ) { domains = 1 ; } } if ( age ) { if ( domains ) { age = sjoin ( ""-1"" , age , NULL ) ; } } addCondition ( state , ""secure"" , age , HTTP_ROUTE_STRICT_TLS ) ; } else if ( scaselesscmp ( type , ""user"" ) == 0 ) { httpSetAuthPermittedUsers ( state -> auth , rest ) ; } else if ( scaselesscmp ( type , ""valid-user"" ) == 0 ) { httpSetAuthAnyValidUser ( state -> auth ) ; } else { return configError ( state , key ) ; } return 0 ; }" 558,"CWE-125 static arg_ty ast_for_arg ( struct compiling * c , const node * n ) { identifier name ; expr_ty annotation = NULL ; node * ch ; arg_ty ret ; assert ( TYPE ( n ) == tfpdef || TYPE ( n ) == vfpdef ) ; ch = CHILD ( n , 0 ) ; name = NEW_IDENTIFIER ( ch ) ; if ( ! name ) return NULL ; if ( forbidden_name ( c , name , ch , 0 ) ) return NULL ; if ( NCH ( n ) == 3 && TYPE ( CHILD ( n , 1 ) ) == COLON ) { annotation = ast_for_expr ( c , CHILD ( n , 2 ) ) ; if ( ! annotation ) return NULL ; } ret = arg ( name , annotation , LINENO ( n ) , n -> n_col_offset , n -> n_end_lineno , n -> n_end_col_offset , c -> c_arena ) ; if ( ! ret ) return NULL ; return ret ; }","static arg_ty ast_for_arg ( struct compiling * c , const node * n ) { identifier name ; expr_ty annotation = NULL ; node * ch ; arg_ty ret ; assert ( TYPE ( n ) == tfpdef || TYPE ( n ) == vfpdef ) ; ch = CHILD ( n , 0 ) ; name = NEW_IDENTIFIER ( ch ) ; if ( ! name ) return NULL ; if ( forbidden_name ( c , name , ch , 0 ) ) return NULL ; if ( NCH ( n ) == 3 && TYPE ( CHILD ( n , 1 ) ) == COLON ) { annotation = ast_for_expr ( c , CHILD ( n , 2 ) ) ; if ( ! annotation ) return NULL ; } ret = arg ( name , annotation , NULL , LINENO ( n ) , n -> n_col_offset , n -> n_end_lineno , n -> n_end_col_offset , c -> c_arena ) ; if ( ! ret ) return NULL ; return ret ; }" 559,"CWE-20 WORD32 i2_cur_mb_addr ; UWORD32 u1_num_mbs , u1_num_mbsNby2 ; UWORD32 u1_mb_idx = ps_dec -> u1_mb_idx ; UWORD32 i2_mb_skip_run ; UWORD32 u1_num_mbs_next , u1_end_of_row ; const UWORD32 i2_pic_wdin_mbs = ps_dec -> u2_frm_wd_in_mbs ; UWORD32 u1_slice_end ; UWORD32 u1_tfr_n_mb ; UWORD32 u1_decode_nmb ; dec_bit_stream_t * const ps_bitstrm = ps_dec -> ps_bitstrm ; dec_slice_params_t * ps_slice = ps_dec -> ps_cur_slice ; UWORD32 * pu4_bitstrm_buf = ps_bitstrm -> pu4_buffer ; UWORD32 * pu4_bitstrm_ofst = & ps_bitstrm -> u4_ofst ; deblk_mb_t * ps_cur_deblk_mb ; dec_mb_info_t * ps_cur_mb_info ; parse_pmbarams_t * ps_parse_mb_data ; UWORD32 u1_inter_mb_type ; UWORD32 u1_deblk_mb_type ; UWORD16 u2_total_mbs_coded ; UWORD32 u1_mbaff = ps_slice -> u1_mbaff_frame_flag ; parse_part_params_t * ps_part_info ; WORD32 ret ; if ( ps_dec -> ps_dec_err_status -> u1_err_flag & REJECT_CUR_PIC ) { ih264d_err_pic_dispbuf_mgr ( ps_dec ) ; return 0 ; } if ( prev_slice_err == 1 ) { ps_dec -> ps_cur_slice -> u2_frame_num = u2_frame_num ; if ( ! ps_dec -> u1_first_slice_in_stream ) { ih264d_end_of_pic ( ps_dec , u1_is_idr_slice , ps_dec -> ps_cur_slice -> u2_frame_num ) ; ps_dec -> s_cur_pic_poc . u2_frame_num = ps_dec -> ps_cur_slice -> u2_frame_num ; } { WORD32 i , j , poc = 0 ; ps_dec -> ps_cur_slice -> u2_first_mb_in_slice = 0 ; ps_dec -> pf_mvpred = ih264d_mvpred_nonmbaff ; ps_dec -> p_form_mb_part_info = ih264d_form_mb_part_info_bp ; ps_dec -> p_motion_compensate = ih264d_motion_compensate_bp ; if ( ps_dec -> ps_cur_pic != NULL ) poc = ps_dec -> ps_cur_pic -> i4_poc + 2 ; j = 0 ; for ( i = 0 ; i < MAX_NUM_PIC_PARAMS ; i ++ ) if ( ps_dec -> ps_pps [ i ] . u1_is_valid == TRUE ) j = i ; { ret = ih264d_start_of_pic ( ps_dec , poc , ps_cur_poc , ps_dec -> ps_cur_slice -> u2_frame_num , & ps_dec -> ps_pps [ j ] ) ; if ( ret != OK ) { return ret ; } } ps_dec -> ps_ref_pic_buf_lx [ 0 ] [ 0 ] -> u1_pic_buf_id = 0 ; ps_dec -> u4_output_present = 0 ; { ih264d_get_next_display_field ( ps_dec , ps_dec -> ps_out_buffer , & ( ps_dec -> s_disp_op ) ) ; if ( 0 != ps_dec -> s_disp_op . u4_error_code ) { ps_dec -> u4_fmt_conv_cur_row = ps_dec -> s_disp_frame_info . u4_y_ht ; } else ps_dec -> u4_output_present = 1 ; } if ( ps_dec -> u1_separate_parse == 1 ) { if ( ps_dec -> u4_dec_thread_created == 0 ) { ithread_create ( ps_dec -> pv_dec_thread_handle , NULL , ( void * ) ih264d_decode_picture_thread , ( void * ) ps_dec ) ; ps_dec -> u4_dec_thread_created = 1 ; } if ( ( ps_dec -> u4_num_cores == 3 ) && ( ( ps_dec -> u4_app_disable_deblk_frm == 0 ) || ps_dec -> i1_recon_in_thread3_flag ) && ( ps_dec -> u4_bs_deblk_thread_created == 0 ) ) { ps_dec -> u4_start_recon_deblk = 0 ; ithread_create ( ps_dec -> pv_bs_deblk_thread_handle , NULL , ( void * ) ih264d_recon_deblk_thread , ( void * ) ps_dec ) ; ps_dec -> u4_bs_deblk_thread_created = 1 ; } } } } else { dec_slice_struct_t * ps_parse_cur_slice ; ps_parse_cur_slice = ps_dec -> ps_dec_slice_buf + ps_dec -> u2_cur_slice_num ; if ( ps_dec -> u1_slice_header_done && ps_parse_cur_slice == ps_dec -> ps_parse_cur_slice ) {","WORD32 i2_cur_mb_addr ; UWORD32 u1_num_mbs , u1_num_mbsNby2 ; UWORD32 u1_mb_idx = ps_dec -> u1_mb_idx ; UWORD32 i2_mb_skip_run ; UWORD32 u1_num_mbs_next , u1_end_of_row ; const UWORD32 i2_pic_wdin_mbs = ps_dec -> u2_frm_wd_in_mbs ; UWORD32 u1_slice_end ; UWORD32 u1_tfr_n_mb ; UWORD32 u1_decode_nmb ; dec_bit_stream_t * const ps_bitstrm = ps_dec -> ps_bitstrm ; dec_slice_params_t * ps_slice = ps_dec -> ps_cur_slice ; UWORD32 * pu4_bitstrm_buf = ps_bitstrm -> pu4_buffer ; UWORD32 * pu4_bitstrm_ofst = & ps_bitstrm -> u4_ofst ; deblk_mb_t * ps_cur_deblk_mb ; dec_mb_info_t * ps_cur_mb_info ; parse_pmbarams_t * ps_parse_mb_data ; UWORD32 u1_inter_mb_type ; UWORD32 u1_deblk_mb_type ; UWORD16 u2_total_mbs_coded ; UWORD32 u1_mbaff = ps_slice -> u1_mbaff_frame_flag ; parse_part_params_t * ps_part_info ; WORD32 ret ; if ( ps_dec -> ps_dec_err_status -> u1_err_flag & REJECT_CUR_PIC ) { ih264d_err_pic_dispbuf_mgr ( ps_dec ) ; return 0 ; } if ( prev_slice_err == 1 ) { ps_dec -> ps_cur_slice -> u2_frame_num = u2_frame_num ; if ( ! ps_dec -> u1_first_slice_in_stream ) { ih264d_end_of_pic ( ps_dec , u1_is_idr_slice , ps_dec -> ps_cur_slice -> u2_frame_num ) ; ps_dec -> s_cur_pic_poc . u2_frame_num = ps_dec -> ps_cur_slice -> u2_frame_num ; } { WORD32 i , j , poc = 0 ; ps_dec -> ps_cur_slice -> u2_first_mb_in_slice = 0 ; ps_dec -> pf_mvpred = ih264d_mvpred_nonmbaff ; ps_dec -> p_form_mb_part_info = ih264d_form_mb_part_info_bp ; ps_dec -> p_motion_compensate = ih264d_motion_compensate_bp ; if ( ps_dec -> ps_cur_pic != NULL ) poc = ps_dec -> ps_cur_pic -> i4_poc + 2 ; j = 0 ; for ( i = 0 ; i < MAX_NUM_PIC_PARAMS ; i ++ ) if ( ps_dec -> ps_pps [ i ] . u1_is_valid == TRUE ) j = i ; { ps_dec -> ps_cur_slice -> u1_bottom_field_flag = 0 ; ps_dec -> ps_cur_slice -> u1_field_pic_flag = 0 ; ps_dec -> ps_cur_slice -> u1_slice_type = P_SLICE ; ps_dec -> ps_cur_slice -> u1_nal_ref_idc = 1 ; ps_dec -> ps_cur_slice -> u1_nal_unit_type = 1 ; ret = ih264d_start_of_pic ( ps_dec , poc , ps_cur_poc , ps_dec -> ps_cur_slice -> u2_frame_num , & ps_dec -> ps_pps [ j ] ) ; if ( ret != OK ) { return ret ; } } ps_dec -> ps_ref_pic_buf_lx [ 0 ] [ 0 ] -> u1_pic_buf_id = 0 ; ps_dec -> u4_output_present = 0 ; { ih264d_get_next_display_field ( ps_dec , ps_dec -> ps_out_buffer , & ( ps_dec -> s_disp_op ) ) ; if ( 0 != ps_dec -> s_disp_op . u4_error_code ) { ps_dec -> u4_fmt_conv_cur_row = ps_dec -> s_disp_frame_info . u4_y_ht ; } else ps_dec -> u4_output_present = 1 ; } if ( ps_dec -> u1_separate_parse == 1 ) { if ( ps_dec -> u4_dec_thread_created == 0 ) { ithread_create ( ps_dec -> pv_dec_thread_handle , NULL , ( void * ) ih264d_decode_picture_thread , ( void * ) ps_dec ) ; ps_dec -> u4_dec_thread_created = 1 ; } if ( ( ps_dec -> u4_num_cores == 3 ) && ( ( ps_dec -> u4_app_disable_deblk_frm == 0 ) || ps_dec -> i1_recon_in_thread3_flag ) && ( ps_dec -> u4_bs_deblk_thread_created == 0 ) ) { ps_dec -> u4_start_recon_deblk = 0 ; ithread_create ( ps_dec -> pv_bs_deblk_thread_handle , NULL , ( void * ) ih264d_recon_deblk_thread , ( void * ) ps_dec ) ; ps_dec -> u4_bs_deblk_thread_created = 1 ; } } } } else { dec_slice_struct_t * ps_parse_cur_slice ; ps_parse_cur_slice = ps_dec -> ps_dec_slice_buf + ps_dec -> u2_cur_slice_num ; if ( ps_dec -> u1_slice_header_done && ps_parse_cur_slice == ps_dec -> ps_parse_cur_slice ) {" 560,"CWE-617 static void modify_bar_registration ( struct pci_vdev * dev , int idx , int registration ) { int error ; struct inout_port iop ; struct mem_range mr ; if ( is_pci_gvt ( dev ) ) { printf ( ""modify_bar_registration: bypass for pci-gvt\\n"" ) ; return ; } switch ( dev -> bar [ idx ] . type ) { case PCIBAR_IO : bzero ( & iop , sizeof ( struct inout_port ) ) ; iop . name = dev -> name ; iop . port = dev -> bar [ idx ] . addr ; iop . size = dev -> bar [ idx ] . size ; if ( registration ) { iop . flags = IOPORT_F_INOUT ; iop . handler = pci_emul_io_handler ; iop . arg = dev ; error = register_inout ( & iop ) ; } else error = unregister_inout ( & iop ) ; break ; case PCIBAR_MEM32 : case PCIBAR_MEM64 : bzero ( & mr , sizeof ( struct mem_range ) ) ; mr . name = dev -> name ; mr . base = dev -> bar [ idx ] . addr ; mr . size = dev -> bar [ idx ] . size ; if ( registration ) { mr . flags = MEM_F_RW ; mr . handler = pci_emul_mem_handler ; mr . arg1 = dev ; mr . arg2 = idx ; error = register_mem ( & mr ) ; } else error = unregister_mem ( & mr ) ; break ; default : error = EINVAL ; break ; } assert ( error == 0 ) ; }","static int modify_bar_registration ( struct pci_vdev * dev , int idx , int registration ) { int error ; struct inout_port iop ; struct mem_range mr ; if ( is_pci_gvt ( dev ) ) { printf ( ""modify_bar_registration: bypass for pci-gvt\\n"" ) ; return 0 ; } switch ( dev -> bar [ idx ] . type ) { case PCIBAR_IO : bzero ( & iop , sizeof ( struct inout_port ) ) ; iop . name = dev -> name ; iop . port = dev -> bar [ idx ] . addr ; iop . size = dev -> bar [ idx ] . size ; if ( registration ) { iop . flags = IOPORT_F_INOUT ; iop . handler = pci_emul_io_handler ; iop . arg = dev ; error = register_inout ( & iop ) ; } else error = unregister_inout ( & iop ) ; break ; case PCIBAR_MEM32 : case PCIBAR_MEM64 : bzero ( & mr , sizeof ( struct mem_range ) ) ; mr . name = dev -> name ; mr . base = dev -> bar [ idx ] . addr ; mr . size = dev -> bar [ idx ] . size ; if ( registration ) { mr . flags = MEM_F_RW ; mr . handler = pci_emul_mem_handler ; mr . arg1 = dev ; mr . arg2 = idx ; error = register_mem ( & mr ) ; } else error = unregister_mem ( & mr ) ; break ; default : error = EINVAL ; break ; } return error ; }" 561,"CWE-119 static ssize_t oz_cdev_write ( struct file * filp , const char __user * buf , size_t count , loff_t * fpos ) { struct oz_pd * pd ; struct oz_elt_buf * eb ; struct oz_elt_info * ei ; struct oz_elt * elt ; struct oz_app_hdr * app_hdr ; struct oz_serial_ctx * ctx ; spin_lock_bh ( & g_cdev . lock ) ; pd = g_cdev . active_pd ; if ( pd ) oz_pd_get ( pd ) ; spin_unlock_bh ( & g_cdev . lock ) ; if ( pd == NULL ) return - ENXIO ; if ( ! ( pd -> state & OZ_PD_S_CONNECTED ) ) return - EAGAIN ; eb = & pd -> elt_buff ; ei = oz_elt_info_alloc ( eb ) ; if ( ei == NULL ) { count = 0 ; goto out ; } elt = ( struct oz_elt * ) ei -> data ; app_hdr = ( struct oz_app_hdr * ) ( elt + 1 ) ; elt -> length = sizeof ( struct oz_app_hdr ) + count ; elt -> type = OZ_ELT_APP_DATA ; ei -> app_id = OZ_APPID_SERIAL ; ei -> length = elt -> length + sizeof ( struct oz_elt ) ; app_hdr -> app_id = OZ_APPID_SERIAL ; if ( copy_from_user ( app_hdr + 1 , buf , count ) ) goto out ; spin_lock_bh ( & pd -> app_lock [ OZ_APPID_USB - 1 ] ) ; ctx = ( struct oz_serial_ctx * ) pd -> app_ctx [ OZ_APPID_SERIAL - 1 ] ; if ( ctx ) { app_hdr -> elt_seq_num = ctx -> tx_seq_num ++ ; if ( ctx -> tx_seq_num == 0 ) ctx -> tx_seq_num = 1 ; spin_lock ( & eb -> lock ) ; if ( oz_queue_elt_info ( eb , 0 , 0 , ei ) == 0 ) ei = NULL ; spin_unlock ( & eb -> lock ) ; } spin_unlock_bh ( & pd -> app_lock [ OZ_APPID_USB - 1 ] ) ; out : if ( ei ) { count = 0 ; spin_lock_bh ( & eb -> lock ) ; oz_elt_info_free ( eb , ei ) ; spin_unlock_bh ( & eb -> lock ) ; } oz_pd_put ( pd ) ; return count ; }","static ssize_t oz_cdev_write ( struct file * filp , const char __user * buf , size_t count , loff_t * fpos ) { struct oz_pd * pd ; struct oz_elt_buf * eb ; struct oz_elt_info * ei ; struct oz_elt * elt ; struct oz_app_hdr * app_hdr ; struct oz_serial_ctx * ctx ; if ( count > sizeof ( ei -> data ) - sizeof ( * elt ) - sizeof ( * app_hdr ) ) return - EINVAL ; spin_lock_bh ( & g_cdev . lock ) ; pd = g_cdev . active_pd ; if ( pd ) oz_pd_get ( pd ) ; spin_unlock_bh ( & g_cdev . lock ) ; if ( pd == NULL ) return - ENXIO ; if ( ! ( pd -> state & OZ_PD_S_CONNECTED ) ) return - EAGAIN ; eb = & pd -> elt_buff ; ei = oz_elt_info_alloc ( eb ) ; if ( ei == NULL ) { count = 0 ; goto out ; } elt = ( struct oz_elt * ) ei -> data ; app_hdr = ( struct oz_app_hdr * ) ( elt + 1 ) ; elt -> length = sizeof ( struct oz_app_hdr ) + count ; elt -> type = OZ_ELT_APP_DATA ; ei -> app_id = OZ_APPID_SERIAL ; ei -> length = elt -> length + sizeof ( struct oz_elt ) ; app_hdr -> app_id = OZ_APPID_SERIAL ; if ( copy_from_user ( app_hdr + 1 , buf , count ) ) goto out ; spin_lock_bh ( & pd -> app_lock [ OZ_APPID_USB - 1 ] ) ; ctx = ( struct oz_serial_ctx * ) pd -> app_ctx [ OZ_APPID_SERIAL - 1 ] ; if ( ctx ) { app_hdr -> elt_seq_num = ctx -> tx_seq_num ++ ; if ( ctx -> tx_seq_num == 0 ) ctx -> tx_seq_num = 1 ; spin_lock ( & eb -> lock ) ; if ( oz_queue_elt_info ( eb , 0 , 0 , ei ) == 0 ) ei = NULL ; spin_unlock ( & eb -> lock ) ; } spin_unlock_bh ( & pd -> app_lock [ OZ_APPID_USB - 1 ] ) ; out : if ( ei ) { count = 0 ; spin_lock_bh ( & eb -> lock ) ; oz_elt_info_free ( eb , ei ) ; spin_unlock_bh ( & eb -> lock ) ; } oz_pd_put ( pd ) ; return count ; }" 562,"CWE-200 __visible __notrace_funcgraph struct task_struct * __switch_to ( struct task_struct * prev_p , struct task_struct * next_p ) { struct thread_struct * prev = & prev_p -> thread ; struct thread_struct * next = & next_p -> thread ; int cpu = smp_processor_id ( ) ; struct tss_struct * tss = & per_cpu ( init_tss , cpu ) ; unsigned fsindex , gsindex ; fpu_switch_t fpu ; fpu = switch_fpu_prepare ( prev_p , next_p , cpu ) ; load_sp0 ( tss , next ) ; savesegment ( es , prev -> es ) ; if ( unlikely ( next -> es | prev -> es ) ) loadsegment ( es , next -> es ) ; savesegment ( ds , prev -> ds ) ; if ( unlikely ( next -> ds | prev -> ds ) ) loadsegment ( ds , next -> ds ) ; savesegment ( fs , fsindex ) ; savesegment ( gs , gsindex ) ; load_TLS ( next , cpu ) ; arch_end_context_switch ( next_p ) ; if ( unlikely ( fsindex | next -> fsindex | prev -> fs ) ) { loadsegment ( fs , next -> fsindex ) ; if ( fsindex ) prev -> fs = 0 ; } if ( next -> fs ) wrmsrl ( MSR_FS_BASE , next -> fs ) ; prev -> fsindex = fsindex ; if ( unlikely ( gsindex | next -> gsindex | prev -> gs ) ) { load_gs_index ( next -> gsindex ) ; if ( gsindex ) prev -> gs = 0 ; } if ( next -> gs ) wrmsrl ( MSR_KERNEL_GS_BASE , next -> gs ) ; prev -> gsindex = gsindex ; switch_fpu_finish ( next_p , fpu ) ; prev -> usersp = this_cpu_read ( old_rsp ) ; this_cpu_write ( old_rsp , next -> usersp ) ; this_cpu_write ( current_task , next_p ) ; task_thread_info ( prev_p ) -> saved_preempt_count = this_cpu_read ( __preempt_count ) ; this_cpu_write ( __preempt_count , task_thread_info ( next_p ) -> saved_preempt_count ) ; this_cpu_write ( kernel_stack , ( unsigned long ) task_stack_page ( next_p ) + THREAD_SIZE - KERNEL_STACK_OFFSET ) ; if ( unlikely ( task_thread_info ( next_p ) -> flags & _TIF_WORK_CTXSW_NEXT || task_thread_info ( prev_p ) -> flags & _TIF_WORK_CTXSW_PREV ) ) __switch_to_xtra ( prev_p , next_p , tss ) ; return prev_p ; }","__visible __notrace_funcgraph struct task_struct * __switch_to ( struct task_struct * prev_p , struct task_struct * next_p ) { struct thread_struct * prev = & prev_p -> thread ; struct thread_struct * next = & next_p -> thread ; int cpu = smp_processor_id ( ) ; struct tss_struct * tss = & per_cpu ( init_tss , cpu ) ; unsigned fsindex , gsindex ; fpu_switch_t fpu ; fpu = switch_fpu_prepare ( prev_p , next_p , cpu ) ; load_sp0 ( tss , next ) ; savesegment ( fs , fsindex ) ; savesegment ( gs , gsindex ) ; load_TLS ( next , cpu ) ; arch_end_context_switch ( next_p ) ; savesegment ( es , prev -> es ) ; if ( unlikely ( next -> es | prev -> es ) ) loadsegment ( es , next -> es ) ; savesegment ( ds , prev -> ds ) ; if ( unlikely ( next -> ds | prev -> ds ) ) loadsegment ( ds , next -> ds ) ; if ( unlikely ( fsindex | next -> fsindex | prev -> fs ) ) { loadsegment ( fs , next -> fsindex ) ; if ( fsindex ) prev -> fs = 0 ; } if ( next -> fs ) wrmsrl ( MSR_FS_BASE , next -> fs ) ; prev -> fsindex = fsindex ; if ( unlikely ( gsindex | next -> gsindex | prev -> gs ) ) { load_gs_index ( next -> gsindex ) ; if ( gsindex ) prev -> gs = 0 ; } if ( next -> gs ) wrmsrl ( MSR_KERNEL_GS_BASE , next -> gs ) ; prev -> gsindex = gsindex ; switch_fpu_finish ( next_p , fpu ) ; prev -> usersp = this_cpu_read ( old_rsp ) ; this_cpu_write ( old_rsp , next -> usersp ) ; this_cpu_write ( current_task , next_p ) ; task_thread_info ( prev_p ) -> saved_preempt_count = this_cpu_read ( __preempt_count ) ; this_cpu_write ( __preempt_count , task_thread_info ( next_p ) -> saved_preempt_count ) ; this_cpu_write ( kernel_stack , ( unsigned long ) task_stack_page ( next_p ) + THREAD_SIZE - KERNEL_STACK_OFFSET ) ; if ( unlikely ( task_thread_info ( next_p ) -> flags & _TIF_WORK_CTXSW_NEXT || task_thread_info ( prev_p ) -> flags & _TIF_WORK_CTXSW_PREV ) ) __switch_to_xtra ( prev_p , next_p , tss ) ; return prev_p ; }" 563,"CWE-119 static int su3000_i2c_transfer ( struct i2c_adapter * adap , struct i2c_msg msg [ ] , int num ) { struct dvb_usb_device * d = i2c_get_adapdata ( adap ) ; u8 obuf [ 0x40 ] , ibuf [ 0x40 ] ; if ( ! d ) return - ENODEV ; if ( mutex_lock_interruptible ( & d -> i2c_mutex ) < 0 ) return - EAGAIN ; switch ( num ) { case 1 : switch ( msg [ 0 ] . addr ) { case SU3000_STREAM_CTRL : obuf [ 0 ] = msg [ 0 ] . buf [ 0 ] + 0x36 ; obuf [ 1 ] = 3 ; obuf [ 2 ] = 0 ; if ( dvb_usb_generic_rw ( d , obuf , 3 , ibuf , 0 , 0 ) < 0 ) err ( ""i2c transfer failed."" ) ; break ; case DW2102_RC_QUERY : obuf [ 0 ] = 0x10 ; if ( dvb_usb_generic_rw ( d , obuf , 1 , ibuf , 2 , 0 ) < 0 ) err ( ""i2c transfer failed."" ) ; msg [ 0 ] . buf [ 1 ] = ibuf [ 0 ] ; msg [ 0 ] . buf [ 0 ] = ibuf [ 1 ] ; break ; default : obuf [ 0 ] = 0x08 ; obuf [ 1 ] = msg [ 0 ] . addr ; obuf [ 2 ] = msg [ 0 ] . len ; memcpy ( & obuf [ 3 ] , msg [ 0 ] . buf , msg [ 0 ] . len ) ; if ( dvb_usb_generic_rw ( d , obuf , msg [ 0 ] . len + 3 , ibuf , 1 , 0 ) < 0 ) err ( ""i2c transfer failed."" ) ; } break ; case 2 : obuf [ 0 ] = 0x09 ; obuf [ 1 ] = msg [ 0 ] . len ; obuf [ 2 ] = msg [ 1 ] . len ; obuf [ 3 ] = msg [ 0 ] . addr ; memcpy ( & obuf [ 4 ] , msg [ 0 ] . buf , msg [ 0 ] . len ) ; if ( dvb_usb_generic_rw ( d , obuf , msg [ 0 ] . len + 4 , ibuf , msg [ 1 ] . len + 1 , 0 ) < 0 ) err ( ""i2c transfer failed."" ) ; memcpy ( msg [ 1 ] . buf , & ibuf [ 1 ] , msg [ 1 ] . len ) ; break ; default : warn ( ""more than 2 i2c messages at a time is not handled yet."" ) ; break ; } mutex_unlock ( & d -> i2c_mutex ) ; return num ; }","static int su3000_i2c_transfer ( struct i2c_adapter * adap , struct i2c_msg msg [ ] , int num ) { struct dvb_usb_device * d = i2c_get_adapdata ( adap ) ; struct dw2102_state * state ; if ( ! d ) return - ENODEV ; state = d -> priv ; if ( mutex_lock_interruptible ( & d -> i2c_mutex ) < 0 ) return - EAGAIN ; if ( mutex_lock_interruptible ( & d -> data_mutex ) < 0 ) { mutex_unlock ( & d -> i2c_mutex ) ; return - EAGAIN ; } switch ( num ) { case 1 : switch ( msg [ 0 ] . addr ) { case SU3000_STREAM_CTRL : state -> data [ 0 ] = msg [ 0 ] . buf [ 0 ] + 0x36 ; state -> data [ 1 ] = 3 ; state -> data [ 2 ] = 0 ; if ( dvb_usb_generic_rw ( d , state -> data , 3 , state -> data , 0 , 0 ) < 0 ) err ( ""i2c transfer failed."" ) ; break ; case DW2102_RC_QUERY : state -> data [ 0 ] = 0x10 ; if ( dvb_usb_generic_rw ( d , state -> data , 1 , state -> data , 2 , 0 ) < 0 ) err ( ""i2c transfer failed."" ) ; msg [ 0 ] . buf [ 1 ] = state -> data [ 0 ] ; msg [ 0 ] . buf [ 0 ] = state -> data [ 1 ] ; break ; default : state -> data [ 0 ] = 0x08 ; state -> data [ 1 ] = msg [ 0 ] . addr ; state -> data [ 2 ] = msg [ 0 ] . len ; memcpy ( & state -> data [ 3 ] , msg [ 0 ] . buf , msg [ 0 ] . len ) ; if ( dvb_usb_generic_rw ( d , state -> data , msg [ 0 ] . len + 3 , state -> data , 1 , 0 ) < 0 ) err ( ""i2c transfer failed."" ) ; } break ; case 2 : state -> data [ 0 ] = 0x09 ; state -> data [ 1 ] = msg [ 0 ] . len ; state -> data [ 2 ] = msg [ 1 ] . len ; state -> data [ 3 ] = msg [ 0 ] . addr ; memcpy ( & state -> data [ 4 ] , msg [ 0 ] . buf , msg [ 0 ] . len ) ; if ( dvb_usb_generic_rw ( d , state -> data , msg [ 0 ] . len + 4 , state -> data , msg [ 1 ] . len + 1 , 0 ) < 0 ) err ( ""i2c transfer failed."" ) ; memcpy ( msg [ 1 ] . buf , & state -> data [ 1 ] , msg [ 1 ] . len ) ; break ; default : warn ( ""more than 2 i2c messages at a time is not handled yet."" ) ; break ; } mutex_unlock ( & d -> data_mutex ) ; mutex_unlock ( & d -> i2c_mutex ) ; return num ; }" 564,"CWE-20 void LineTo ( double x1 , double y1 ) { outpos += sprintf ( outpos , ""\\n %12.3f %12.3f l"" , x1 , y1 ) ; }","void LineTo ( double x1 , double y1 ) { sprintf ( outputbuffer , ""\\n %12.3f %12.3f l"" , x1 , y1 ) ; sendClean ( outputbuffer ) ; }" 565,"CWE-476 static int peer_recv_callback ( rdpTransport * transport , wStream * s , void * extra ) { freerdp_peer * client = ( freerdp_peer * ) extra ; rdpRdp * rdp = client -> context -> rdp ; switch ( rdp -> state ) { case CONNECTION_STATE_INITIAL : if ( ! rdp_server_accept_nego ( rdp , s ) ) return - 1 ; if ( rdp -> nego -> selected_protocol & PROTOCOL_NLA ) { sspi_CopyAuthIdentity ( & client -> identity , & ( rdp -> nego -> transport -> credssp -> identity ) ) ; IFCALLRET ( client -> Logon , client -> authenticated , client , & client -> identity , TRUE ) ; credssp_free ( rdp -> nego -> transport -> credssp ) ; } else { IFCALLRET ( client -> Logon , client -> authenticated , client , & client -> identity , FALSE ) ; } break ; case CONNECTION_STATE_NEGO : if ( ! rdp_server_accept_mcs_connect_initial ( rdp , s ) ) return - 1 ; break ; case CONNECTION_STATE_MCS_CONNECT : if ( ! rdp_server_accept_mcs_erect_domain_request ( rdp , s ) ) return - 1 ; break ; case CONNECTION_STATE_MCS_ERECT_DOMAIN : if ( ! rdp_server_accept_mcs_attach_user_request ( rdp , s ) ) return - 1 ; break ; case CONNECTION_STATE_MCS_ATTACH_USER : if ( ! rdp_server_accept_mcs_channel_join_request ( rdp , s ) ) return - 1 ; break ; case CONNECTION_STATE_MCS_CHANNEL_JOIN : if ( rdp -> settings -> DisableEncryption ) { if ( ! rdp_server_accept_client_keys ( rdp , s ) ) return - 1 ; break ; } rdp -> state = CONNECTION_STATE_ESTABLISH_KEYS ; case CONNECTION_STATE_ESTABLISH_KEYS : if ( ! rdp_server_accept_client_info ( rdp , s ) ) return - 1 ; IFCALL ( client -> Capabilities , client ) ; if ( ! rdp_send_demand_active ( rdp ) ) return - 1 ; break ; case CONNECTION_STATE_LICENSE : if ( ! rdp_server_accept_confirm_active ( rdp , s ) ) { Stream_SetPosition ( s , 0 ) ; return peer_recv_pdu ( client , s ) ; } break ; case CONNECTION_STATE_ACTIVE : if ( peer_recv_pdu ( client , s ) < 0 ) return - 1 ; break ; default : fprintf ( stderr , ""Invalid state %d\\n"" , rdp -> state ) ;","static int peer_recv_callback ( rdpTransport * transport , wStream * s , void * extra ) { freerdp_peer * client = ( freerdp_peer * ) extra ; rdpRdp * rdp = client -> context -> rdp ; switch ( rdp -> state ) { case CONNECTION_STATE_INITIAL : if ( ! rdp_server_accept_nego ( rdp , s ) ) return - 1 ; if ( rdp -> nego -> selected_protocol & PROTOCOL_NLA ) { sspi_CopyAuthIdentity ( & client -> identity , & ( rdp -> nego -> transport -> credssp -> identity ) ) ; IFCALLRET ( client -> Logon , client -> authenticated , client , & client -> identity , TRUE ) ; credssp_free ( rdp -> nego -> transport -> credssp ) ; rdp -> nego -> transport -> credssp = NULL ; } else { IFCALLRET ( client -> Logon , client -> authenticated , client , & client -> identity , FALSE ) ; } break ; case CONNECTION_STATE_NEGO : if ( ! rdp_server_accept_mcs_connect_initial ( rdp , s ) ) return - 1 ; break ; case CONNECTION_STATE_MCS_CONNECT : if ( ! rdp_server_accept_mcs_erect_domain_request ( rdp , s ) ) return - 1 ; break ; case CONNECTION_STATE_MCS_ERECT_DOMAIN : if ( ! rdp_server_accept_mcs_attach_user_request ( rdp , s ) ) return - 1 ; break ; case CONNECTION_STATE_MCS_ATTACH_USER : if ( ! rdp_server_accept_mcs_channel_join_request ( rdp , s ) ) return - 1 ; break ; case CONNECTION_STATE_MCS_CHANNEL_JOIN : if ( rdp -> settings -> DisableEncryption ) { if ( ! rdp_server_accept_client_keys ( rdp , s ) ) return - 1 ; break ; } rdp -> state = CONNECTION_STATE_ESTABLISH_KEYS ; case CONNECTION_STATE_ESTABLISH_KEYS : if ( ! rdp_server_accept_client_info ( rdp , s ) ) return - 1 ; IFCALL ( client -> Capabilities , client ) ; if ( ! rdp_send_demand_active ( rdp ) ) return - 1 ; break ; case CONNECTION_STATE_LICENSE : if ( ! rdp_server_accept_confirm_active ( rdp , s ) ) { Stream_SetPosition ( s , 0 ) ; return peer_recv_pdu ( client , s ) ; } break ; case CONNECTION_STATE_ACTIVE : if ( peer_recv_pdu ( client , s ) < 0 ) return - 1 ; break ; default : fprintf ( stderr , ""Invalid state %d\\n"" , rdp -> state ) ;" 566,"CWE-354 static void recovery_abort ( void ) { if ( ! dry_run ) { storage_reset ( ) ; } awaiting_character = false ; memzero ( mnemonic , sizeof ( mnemonic ) ) ; memzero ( cipher , sizeof ( cipher ) ) ; }","static void recovery_abort ( void ) { if ( ! dry_run ) { storage_reset ( ) ; } recovery_started = false ; awaiting_character = false ; memzero ( mnemonic , sizeof ( mnemonic ) ) ; memzero ( cipher , sizeof ( cipher ) ) ; }" 567,"CWE-264 void mm_release ( struct task_struct * tsk , struct mm_struct * mm ) { struct completion * vfork_done = tsk -> vfork_done ; deactivate_mm ( tsk , mm ) ; if ( vfork_done ) { tsk -> vfork_done = NULL ; complete ( vfork_done ) ; } if ( tsk -> clear_child_tid && ! ( tsk -> flags & PF_SIGNALED ) && atomic_read ( & mm -> mm_users ) > 1 ) { u32 __user * tidptr = tsk -> clear_child_tid ; tsk -> clear_child_tid = NULL ; put_user ( 0 , tidptr ) ; sys_futex ( tidptr , FUTEX_WAKE , 1 , NULL , NULL , 0 ) ; } }","void mm_release ( struct task_struct * tsk , struct mm_struct * mm ) { struct completion * vfork_done = tsk -> vfork_done ; # ifdef CONFIG_FUTEX if ( unlikely ( tsk -> robust_list ) ) exit_robust_list ( tsk ) ; # ifdef CONFIG_COMPAT if ( unlikely ( tsk -> compat_robust_list ) ) compat_exit_robust_list ( tsk ) ; # endif # endif deactivate_mm ( tsk , mm ) ; if ( vfork_done ) { tsk -> vfork_done = NULL ; complete ( vfork_done ) ; } if ( tsk -> clear_child_tid && ! ( tsk -> flags & PF_SIGNALED ) && atomic_read ( & mm -> mm_users ) > 1 ) { u32 __user * tidptr = tsk -> clear_child_tid ; tsk -> clear_child_tid = NULL ; put_user ( 0 , tidptr ) ; sys_futex ( tidptr , FUTEX_WAKE , 1 , NULL , NULL , 0 ) ; } }" 568,"CWE-119 static int readContigStripsIntoBuffer ( TIFF * in , uint8 * buf ) { uint8 * bufp = buf ; int32 bytes_read = 0 ; uint32 strip , nstrips = TIFFNumberOfStrips ( in ) ; uint32 stripsize = TIFFStripSize ( in ) ; uint32 rows = 0 ; uint32 rps = TIFFGetFieldDefaulted ( in , TIFFTAG_ROWSPERSTRIP , & rps ) ; tsize_t scanline_size = TIFFScanlineSize ( in ) ; if ( scanline_size == 0 ) { TIFFError ( """" , ""TIFF scanline size is zero!"" ) ; return 0 ; } for ( strip = 0 ; strip < nstrips ; strip ++ ) { bytes_read = TIFFReadEncodedStrip ( in , strip , bufp , - 1 ) ; rows = bytes_read / scanline_size ; if ( ( strip < ( nstrips - 1 ) ) && ( bytes_read != ( int32 ) stripsize ) ) TIFFError ( """" , ""Strip %d: read %lu bytes, strip size %lu"" , ( int ) strip + 1 , ( unsigned long ) bytes_read , ( unsigned long ) stripsize ) ; if ( bytes_read < 0 && ! ignore ) { TIFFError ( """" , ""Error reading strip %lu after %lu rows"" , ( unsigned long ) strip , ( unsigned long ) rows ) ; return 0 ; } bufp += bytes_read ; } return 1 ; }","static int readContigStripsIntoBuffer ( TIFF * in , uint8 * buf ) { uint8 * bufp = buf ; int32 bytes_read = 0 ; uint32 strip , nstrips = TIFFNumberOfStrips ( in ) ; uint32 stripsize = TIFFStripSize ( in ) ; uint32 rows = 0 ; uint32 rps = TIFFGetFieldDefaulted ( in , TIFFTAG_ROWSPERSTRIP , & rps ) ; tsize_t scanline_size = TIFFScanlineSize ( in ) ; if ( scanline_size == 0 ) { TIFFError ( """" , ""TIFF scanline size is zero!"" ) ; return 0 ; } for ( strip = 0 ; strip < nstrips ; strip ++ ) { bytes_read = TIFFReadEncodedStrip ( in , strip , bufp , - 1 ) ; rows = bytes_read / scanline_size ; if ( ( strip < ( nstrips - 1 ) ) && ( bytes_read != ( int32 ) stripsize ) ) TIFFError ( """" , ""Strip %d: read %lu bytes, strip size %lu"" , ( int ) strip + 1 , ( unsigned long ) bytes_read , ( unsigned long ) stripsize ) ; if ( bytes_read < 0 && ! ignore ) { TIFFError ( """" , ""Error reading strip %lu after %lu rows"" , ( unsigned long ) strip , ( unsigned long ) rows ) ; return 0 ; } bufp += stripsize ; } return 1 ; }" 569,"CWE-522 static int check_submodule_url ( const char * url ) { const char * curl_url ; if ( looks_like_command_line_option ( url ) ) return - 1 ; if ( submodule_url_is_relative ( url ) ) { char * decoded = url_decode ( url ) ; int has_nl = ! ! strchr ( decoded , '\\n' ) ; free ( decoded ) ; if ( has_nl ) return - 1 ; } else if ( url_to_curl_url ( url , & curl_url ) ) { struct credential c = CREDENTIAL_INIT ; int ret = credential_from_url_gently ( & c , curl_url , 1 ) ; credential_clear ( & c ) ; return ret ; } return 0 ; }","static int check_submodule_url ( const char * url ) { const char * curl_url ; if ( looks_like_command_line_option ( url ) ) return - 1 ; if ( submodule_url_is_relative ( url ) ) { char * decoded ; const char * next ; int has_nl ; decoded = url_decode ( url ) ; has_nl = ! ! strchr ( decoded , '\\n' ) ; free ( decoded ) ; if ( has_nl ) return - 1 ; if ( count_leading_dotdots ( url , & next ) > 0 && * next == ':' ) return - 1 ; } else if ( url_to_curl_url ( url , & curl_url ) ) { struct credential c = CREDENTIAL_INIT ; int ret = credential_from_url_gently ( & c , curl_url , 1 ) ; credential_clear ( & c ) ; return ret ; } return 0 ; }" 570,"CWE-119 static int newkeys_to_blob ( struct sshbuf * m , struct ssh * ssh , int mode ) { struct sshbuf * b ; struct sshcipher_ctx * cc ; struct sshcomp * comp ; struct sshenc * enc ; struct sshmac * mac ; struct newkeys * newkey ; int r ; if ( ( newkey = ssh -> state -> newkeys [ mode ] ) == NULL ) return SSH_ERR_INTERNAL_ERROR ; enc = & newkey -> enc ; mac = & newkey -> mac ; comp = & newkey -> comp ; cc = ( mode == MODE_OUT ) ? ssh -> state -> send_context : ssh -> state -> receive_context ; if ( ( r = cipher_get_keyiv ( cc , enc -> iv , enc -> iv_len ) ) != 0 ) return r ; if ( ( b = sshbuf_new ( ) ) == NULL ) return SSH_ERR_ALLOC_FAIL ; if ( ( r = sshbuf_put_cstring ( b , enc -> name ) ) != 0 || ( r = sshbuf_put ( b , & enc -> cipher , sizeof ( enc -> cipher ) ) ) != 0 || ( r = sshbuf_put_u32 ( b , enc -> enabled ) ) != 0 || ( r = sshbuf_put_u32 ( b , enc -> block_size ) ) != 0 || ( r = sshbuf_put_string ( b , enc -> key , enc -> key_len ) ) != 0 || ( r = sshbuf_put_string ( b , enc -> iv , enc -> iv_len ) ) != 0 ) goto out ; if ( cipher_authlen ( enc -> cipher ) == 0 ) { if ( ( r = sshbuf_put_cstring ( b , mac -> name ) ) != 0 || ( r = sshbuf_put_u32 ( b , mac -> enabled ) ) != 0 || ( r = sshbuf_put_string ( b , mac -> key , mac -> key_len ) ) != 0 ) goto out ; } if ( ( r = sshbuf_put_u32 ( b , comp -> type ) ) != 0 || ( r = sshbuf_put_u32 ( b , comp -> enabled ) ) != 0 || ( r = sshbuf_put_cstring ( b , comp -> name ) ) != 0 ) goto out ; r = sshbuf_put_stringb ( m , b ) ; out : sshbuf_free ( b ) ; return r ; }","static int newkeys_to_blob ( struct sshbuf * m , struct ssh * ssh , int mode ) { struct sshbuf * b ; struct sshcipher_ctx * cc ; struct sshcomp * comp ; struct sshenc * enc ; struct sshmac * mac ; struct newkeys * newkey ; int r ; if ( ( newkey = ssh -> state -> newkeys [ mode ] ) == NULL ) return SSH_ERR_INTERNAL_ERROR ; enc = & newkey -> enc ; mac = & newkey -> mac ; comp = & newkey -> comp ; cc = ( mode == MODE_OUT ) ? ssh -> state -> send_context : ssh -> state -> receive_context ; if ( ( r = cipher_get_keyiv ( cc , enc -> iv , enc -> iv_len ) ) != 0 ) return r ; if ( ( b = sshbuf_new ( ) ) == NULL ) return SSH_ERR_ALLOC_FAIL ; if ( ( r = sshbuf_put_cstring ( b , enc -> name ) ) != 0 || ( r = sshbuf_put ( b , & enc -> cipher , sizeof ( enc -> cipher ) ) ) != 0 || ( r = sshbuf_put_u32 ( b , enc -> enabled ) ) != 0 || ( r = sshbuf_put_u32 ( b , enc -> block_size ) ) != 0 || ( r = sshbuf_put_string ( b , enc -> key , enc -> key_len ) ) != 0 || ( r = sshbuf_put_string ( b , enc -> iv , enc -> iv_len ) ) != 0 ) goto out ; if ( cipher_authlen ( enc -> cipher ) == 0 ) { if ( ( r = sshbuf_put_cstring ( b , mac -> name ) ) != 0 || ( r = sshbuf_put_u32 ( b , mac -> enabled ) ) != 0 || ( r = sshbuf_put_string ( b , mac -> key , mac -> key_len ) ) != 0 ) goto out ; } if ( ( r = sshbuf_put_u32 ( b , comp -> type ) ) != 0 || ( r = sshbuf_put_cstring ( b , comp -> name ) ) != 0 ) goto out ; r = sshbuf_put_stringb ( m , b ) ; out : sshbuf_free ( b ) ; return r ; }" 571,"NVD-CWE-noinfo static struct nfs4_opendata * nfs4_opendata_alloc ( struct path * path , struct nfs4_state_owner * sp , int flags , const struct iattr * attrs ) { struct dentry * parent = dget_parent ( path -> dentry ) ; struct inode * dir = parent -> d_inode ; struct nfs_server * server = NFS_SERVER ( dir ) ; struct nfs4_opendata * p ; p = kzalloc ( sizeof ( * p ) , GFP_KERNEL ) ; if ( p == NULL ) goto err ; p -> o_arg . seqid = nfs_alloc_seqid ( & sp -> so_seqid ) ; if ( p -> o_arg . seqid == NULL ) goto err_free ; p -> path . mnt = mntget ( path -> mnt ) ; p -> path . dentry = dget ( path -> dentry ) ; p -> dir = parent ; p -> owner = sp ; atomic_inc ( & sp -> so_count ) ; p -> o_arg . fh = NFS_FH ( dir ) ; p -> o_arg . open_flags = flags , p -> o_arg . clientid = server -> nfs_client -> cl_clientid ; p -> o_arg . id = sp -> so_owner_id . id ; p -> o_arg . name = & p -> path . dentry -> d_name ; p -> o_arg . server = server ; p -> o_arg . bitmask = server -> attr_bitmask ; p -> o_arg . claim = NFS4_OPEN_CLAIM_NULL ; if ( flags & O_EXCL ) { u32 * s = ( u32 * ) p -> o_arg . u . verifier . data ; s [ 0 ] = jiffies ; s [ 1 ] = current -> pid ; } else if ( flags & O_CREAT ) { p -> o_arg . u . attrs = & p -> attrs ; memcpy ( & p -> attrs , attrs , sizeof ( p -> attrs ) ) ; } p -> c_arg . fh = & p -> o_res . fh ; p -> c_arg . stateid = & p -> o_res . stateid ; p -> c_arg . seqid = p -> o_arg . seqid ; nfs4_init_opendata_res ( p ) ; kref_init ( & p -> kref ) ; return p ; err_free : kfree ( p ) ; err : dput ( parent ) ; return NULL ; }","static struct nfs4_opendata * nfs4_opendata_alloc ( struct path * path , struct nfs4_state_owner * sp , fmode_t fmode , int flags , const struct iattr * attrs ) { struct dentry * parent = dget_parent ( path -> dentry ) ; struct inode * dir = parent -> d_inode ; struct nfs_server * server = NFS_SERVER ( dir ) ; struct nfs4_opendata * p ; p = kzalloc ( sizeof ( * p ) , GFP_KERNEL ) ; if ( p == NULL ) goto err ; p -> o_arg . seqid = nfs_alloc_seqid ( & sp -> so_seqid ) ; if ( p -> o_arg . seqid == NULL ) goto err_free ; p -> path . mnt = mntget ( path -> mnt ) ; p -> path . dentry = dget ( path -> dentry ) ; p -> dir = parent ; p -> owner = sp ; atomic_inc ( & sp -> so_count ) ; p -> o_arg . fh = NFS_FH ( dir ) ; p -> o_arg . open_flags = flags ; p -> o_arg . fmode = fmode & ( FMODE_READ | FMODE_WRITE ) ; p -> o_arg . clientid = server -> nfs_client -> cl_clientid ; p -> o_arg . id = sp -> so_owner_id . id ; p -> o_arg . name = & p -> path . dentry -> d_name ; p -> o_arg . server = server ; p -> o_arg . bitmask = server -> attr_bitmask ; p -> o_arg . claim = NFS4_OPEN_CLAIM_NULL ; if ( flags & O_EXCL ) { u32 * s = ( u32 * ) p -> o_arg . u . verifier . data ; s [ 0 ] = jiffies ; s [ 1 ] = current -> pid ; } else if ( flags & O_CREAT ) { p -> o_arg . u . attrs = & p -> attrs ; memcpy ( & p -> attrs , attrs , sizeof ( p -> attrs ) ) ; } p -> c_arg . fh = & p -> o_res . fh ; p -> c_arg . stateid = & p -> o_res . stateid ; p -> c_arg . seqid = p -> o_arg . seqid ; nfs4_init_opendata_res ( p ) ; kref_init ( & p -> kref ) ; return p ; err_free : kfree ( p ) ; err : dput ( parent ) ; return NULL ; }" 572,"CWE-119 int main ( int argc , char * argv [ ] ) { opj_dinfo_t * dinfo ; opj_event_mgr_t event_mgr ; int tnum ; unsigned int snum ; opj_mj2_t * movie ; mj2_tk_t * track ; mj2_sample_t * sample ; unsigned char * frame_codestream ; FILE * file , * outfile ; char outfilename [ 50 ] ; mj2_dparameters_t parameters ; if ( argc != 3 ) { printf ( ""Usage: %s mj2filename output_location\\n"" , argv [ 0 ] ) ; printf ( ""Example: %s foreman.mj2 output/foreman\\n"" , argv [ 0 ] ) ; return 1 ; } file = fopen ( argv [ 1 ] , ""rb"" ) ; if ( ! file ) { fprintf ( stderr , ""failed to open %s for reading\\n"" , argv [ 1 ] ) ; return 1 ; } memset ( & event_mgr , 0 , sizeof ( opj_event_mgr_t ) ) ; event_mgr . error_handler = error_callback ; event_mgr . warning_handler = warning_callback ; event_mgr . info_handler = info_callback ; dinfo = mj2_create_decompress ( ) ; opj_set_event_mgr ( ( opj_common_ptr ) dinfo , & event_mgr , stderr ) ; memset ( & parameters , 0 , sizeof ( mj2_dparameters_t ) ) ; movie = ( opj_mj2_t * ) dinfo -> mj2_handle ; mj2_setup_decoder ( movie , & parameters ) ; if ( mj2_read_struct ( file , movie ) ) { return 1 ; } tnum = 0 ; while ( movie -> tk [ tnum ] . track_type != 0 ) { tnum ++ ; } track = & movie -> tk [ tnum ] ; fprintf ( stdout , ""Extracting %d frames from file...\\n"" , track -> num_samples ) ; for ( snum = 0 ; snum < track -> num_samples ; snum ++ ) { sample = & track -> sample [ snum ] ; frame_codestream = ( unsigned char * ) malloc ( sample -> sample_size - 8 ) ; fseek ( file , sample -> offset + 8 , SEEK_SET ) ; fread ( frame_codestream , sample -> sample_size - 8 , 1 , file ) ; sprintf ( outfilename , ""%s_%05d.j2k"" , argv [ 2 ] , snum ) ; outfile = fopen ( outfilename , ""wb"" ) ; if ( ! outfile ) { fprintf ( stderr , ""failed to open %s for writing\\n"" , outfilename ) ; return 1 ; } fwrite ( frame_codestream , sample -> sample_size - 8 , 1 , outfile ) ; fclose ( outfile ) ; free ( frame_codestream ) ; } fclose ( file ) ; fprintf ( stdout , ""%d frames correctly extracted\\n"" , snum ) ; if ( dinfo ) { mj2_destroy_decompress ( ( opj_mj2_t * ) dinfo -> mj2_handle ) ; } return 0 ; }","int main ( int argc , char * argv [ ] ) { opj_dinfo_t * dinfo ; opj_event_mgr_t event_mgr ; int tnum ; unsigned int snum ; opj_mj2_t * movie ; mj2_tk_t * track ; mj2_sample_t * sample ; unsigned char * frame_codestream ; FILE * file , * outfile ; char outfilename [ 50 ] ; mj2_dparameters_t parameters ; if ( argc != 3 ) { printf ( ""Usage: %s mj2filename output_location\\n"" , argv [ 0 ] ) ; printf ( ""Example: %s foreman.mj2 output/foreman\\n"" , argv [ 0 ] ) ; return 1 ; } file = fopen ( argv [ 1 ] , ""rb"" ) ; if ( ! file ) { fprintf ( stderr , ""failed to open %s for reading\\n"" , argv [ 1 ] ) ; return 1 ; } memset ( & event_mgr , 0 , sizeof ( opj_event_mgr_t ) ) ; event_mgr . error_handler = error_callback ; event_mgr . warning_handler = warning_callback ; event_mgr . info_handler = info_callback ; dinfo = mj2_create_decompress ( ) ; opj_set_event_mgr ( ( opj_common_ptr ) dinfo , & event_mgr , stderr ) ; memset ( & parameters , 0 , sizeof ( mj2_dparameters_t ) ) ; movie = ( opj_mj2_t * ) dinfo -> mj2_handle ; mj2_setup_decoder ( movie , & parameters ) ; if ( mj2_read_struct ( file , movie ) ) { return 1 ; } tnum = 0 ; while ( movie -> tk [ tnum ] . track_type != 0 ) { tnum ++ ; } track = & movie -> tk [ tnum ] ; fprintf ( stdout , ""Extracting %d frames from file...\\n"" , track -> num_samples ) ; for ( snum = 0 ; snum < track -> num_samples ; snum ++ ) { sample = & track -> sample [ snum ] ; frame_codestream = ( unsigned char * ) malloc ( sample -> sample_size - 8 ) ; fseek ( file , sample -> offset + 8 , SEEK_SET ) ; fread ( frame_codestream , sample -> sample_size - 8 , 1 , file ) ; int num = snprintf ( outfilename , sizeof ( outfilename ) , ""%s_%05d.j2k"" , argv [ 2 ] , snum ) ; if ( num >= sizeof ( outfilename ) ) { fprintf ( stderr , ""maximum length of output prefix exceeded\\n"" ) ; return 1 ; } outfile = fopen ( outfilename , ""wb"" ) ; if ( ! outfile ) { fprintf ( stderr , ""failed to open %s for writing\\n"" , outfilename ) ; return 1 ; } fwrite ( frame_codestream , sample -> sample_size - 8 , 1 , outfile ) ; fclose ( outfile ) ; free ( frame_codestream ) ; } fclose ( file ) ; fprintf ( stdout , ""%d frames correctly extracted\\n"" , snum ) ; if ( dinfo ) { mj2_destroy_decompress ( ( opj_mj2_t * ) dinfo -> mj2_handle ) ; } return 0 ; }" 573,"CWE-20 void test_checkout_nasty__git_tilde1 ( void ) { # ifdef GIT_WIN32 test_checkout_fails ( ""refs/heads/git_tilde1"" , "".git/foobar"" ) ; # endif }","void test_checkout_nasty__git_tilde1 ( void ) { test_checkout_fails ( ""refs/heads/git_tilde1"" , "".git/foobar"" ) ; test_checkout_fails ( ""refs/heads/git_tilde1"" , ""git~1/foobar"" ) ; }" 574,"CWE-119 void vp9_xform_quant ( MACROBLOCK * x , int plane , int block , BLOCK_SIZE plane_bsize , TX_SIZE tx_size ) { MACROBLOCKD * const xd = & x -> e_mbd ; const struct macroblock_plane * const p = & x -> plane [ plane ] ; const struct macroblockd_plane * const pd = & xd -> plane [ plane ] ; const scan_order * const scan_order = & vp9_default_scan_orders [ tx_size ] ; int16_t * const coeff = BLOCK_OFFSET ( p -> coeff , block ) ; int16_t * const qcoeff = BLOCK_OFFSET ( p -> qcoeff , block ) ; int16_t * const dqcoeff = BLOCK_OFFSET ( pd -> dqcoeff , block ) ; uint16_t * const eob = & p -> eobs [ block ] ; const int diff_stride = 4 * num_4x4_blocks_wide_lookup [ plane_bsize ] ; int i , j ; const int16_t * src_diff ; txfrm_block_to_raster_xy ( plane_bsize , tx_size , block , & i , & j ) ; src_diff = & p -> src_diff [ 4 * ( j * diff_stride + i ) ] ; switch ( tx_size ) { case TX_32X32 : fdct32x32 ( x -> use_lp32x32fdct , src_diff , coeff , diff_stride ) ; vp9_quantize_b_32x32 ( coeff , 1024 , x -> skip_block , p -> zbin , p -> round , p -> quant , p -> quant_shift , qcoeff , dqcoeff , pd -> dequant , p -> zbin_extra , eob , scan_order -> scan , scan_order -> iscan ) ; break ; case TX_16X16 : vp9_fdct16x16 ( src_diff , coeff , diff_stride ) ; vp9_quantize_b ( coeff , 256 , x -> skip_block , p -> zbin , p -> round , p -> quant , p -> quant_shift , qcoeff , dqcoeff , pd -> dequant , p -> zbin_extra , eob , scan_order -> scan , scan_order -> iscan ) ; break ; case TX_8X8 : vp9_fdct8x8 ( src_diff , coeff , diff_stride ) ; vp9_quantize_b ( coeff , 64 , x -> skip_block , p -> zbin , p -> round , p -> quant , p -> quant_shift , qcoeff , dqcoeff , pd -> dequant , p -> zbin_extra , eob , scan_order -> scan , scan_order -> iscan ) ; break ; case TX_4X4 : x -> fwd_txm4x4 ( src_diff , coeff , diff_stride ) ; vp9_quantize_b ( coeff , 16 , x -> skip_block , p -> zbin , p -> round , p -> quant , p -> quant_shift , qcoeff , dqcoeff , pd -> dequant , p -> zbin_extra , eob , scan_order -> scan , scan_order -> iscan ) ; break ; default : assert ( 0 ) ; } }","void vp9_xform_quant ( MACROBLOCK * x , int plane , int block , BLOCK_SIZE plane_bsize , TX_SIZE tx_size ) { MACROBLOCKD * const xd = & x -> e_mbd ; const struct macroblock_plane * const p = & x -> plane [ plane ] ; const struct macroblockd_plane * const pd = & xd -> plane [ plane ] ; const scan_order * const scan_order = & vp9_default_scan_orders [ tx_size ] ; tran_low_t * const coeff = BLOCK_OFFSET ( p -> coeff , block ) ; tran_low_t * const qcoeff = BLOCK_OFFSET ( p -> qcoeff , block ) ; tran_low_t * const dqcoeff = BLOCK_OFFSET ( pd -> dqcoeff , block ) ; uint16_t * const eob = & p -> eobs [ block ] ; const int diff_stride = 4 * num_4x4_blocks_wide_lookup [ plane_bsize ] ; int i , j ; const int16_t * src_diff ; txfrm_block_to_raster_xy ( plane_bsize , tx_size , block , & i , & j ) ; src_diff = & p -> src_diff [ 4 * ( j * diff_stride + i ) ] ; # if CONFIG_VP9_HIGHBITDEPTH if ( xd -> cur_buf -> flags & YV12_FLAG_HIGHBITDEPTH ) { switch ( tx_size ) { case TX_32X32 : highbd_fdct32x32 ( x -> use_lp32x32fdct , src_diff , coeff , diff_stride ) ; vpx_highbd_quantize_b_32x32 ( coeff , 1024 , x -> skip_block , p -> zbin , p -> round , p -> quant , p -> quant_shift , qcoeff , dqcoeff , pd -> dequant , eob , scan_order -> scan , scan_order -> iscan ) ; break ; case TX_16X16 : vpx_highbd_fdct16x16 ( src_diff , coeff , diff_stride ) ; vpx_highbd_quantize_b ( coeff , 256 , x -> skip_block , p -> zbin , p -> round , p -> quant , p -> quant_shift , qcoeff , dqcoeff , pd -> dequant , eob , scan_order -> scan , scan_order -> iscan ) ; break ; case TX_8X8 : vpx_highbd_fdct8x8 ( src_diff , coeff , diff_stride ) ; vpx_highbd_quantize_b ( coeff , 64 , x -> skip_block , p -> zbin , p -> round , p -> quant , p -> quant_shift , qcoeff , dqcoeff , pd -> dequant , eob , scan_order -> scan , scan_order -> iscan ) ; break ; case TX_4X4 : x -> fwd_txm4x4 ( src_diff , coeff , diff_stride ) ; vpx_highbd_quantize_b ( coeff , 16 , x -> skip_block , p -> zbin , p -> round , p -> quant , p -> quant_shift , qcoeff , dqcoeff , pd -> dequant , eob , scan_order -> scan , scan_order -> iscan ) ; break ; default : assert ( 0 ) ; } return ; } # endif switch ( tx_size ) { case TX_32X32 : fdct32x32 ( x -> use_lp32x32fdct , src_diff , coeff , diff_stride ) ; vpx_quantize_b_32x32 ( coeff , 1024 , x -> skip_block , p -> zbin , p -> round , p -> quant , p -> quant_shift , qcoeff , dqcoeff , pd -> dequant , eob , scan_order -> scan , scan_order -> iscan ) ; break ; case TX_16X16 : vpx_fdct16x16 ( src_diff , coeff , diff_stride ) ; vpx_quantize_b ( coeff , 256 , x -> skip_block , p -> zbin , p -> round , p -> quant , p -> quant_shift , qcoeff , dqcoeff , pd -> dequant , eob , scan_order -> scan , scan_order -> iscan ) ; break ; case TX_8X8 : vpx_fdct8x8 ( src_diff , coeff , diff_stride ) ; vpx_quantize_b ( coeff , 64 , x -> skip_block , p -> zbin , p -> round , p -> quant , p -> quant_shift , qcoeff , dqcoeff , pd -> dequant , eob , scan_order -> scan , scan_order -> iscan ) ; break ; case TX_4X4 : x -> fwd_txm4x4 ( src_diff , coeff , diff_stride ) ; vpx_quantize_b ( coeff , 16 , x -> skip_block , p -> zbin , p -> round , p -> quant , p -> quant_shift , qcoeff , dqcoeff , pd -> dequant , eob , scan_order -> scan , scan_order -> iscan ) ; break ; default : assert ( 0 ) ; break ; } }" 575,"CWE-119 static void fdct8 ( const int16_t * input , int16_t * output ) { int s0 , s1 , s2 , s3 , s4 , s5 , s6 , s7 ; int t0 , t1 , t2 , t3 ; int x0 , x1 , x2 , x3 ; s0 = input [ 0 ] + input [ 7 ] ; s1 = input [ 1 ] + input [ 6 ] ; s2 = input [ 2 ] + input [ 5 ] ; s3 = input [ 3 ] + input [ 4 ] ; s4 = input [ 3 ] - input [ 4 ] ; s5 = input [ 2 ] - input [ 5 ] ; s6 = input [ 1 ] - input [ 6 ] ; s7 = input [ 0 ] - input [ 7 ] ; x0 = s0 + s3 ; x1 = s1 + s2 ; x2 = s1 - s2 ; x3 = s0 - s3 ; t0 = ( x0 + x1 ) * cospi_16_64 ; t1 = ( x0 - x1 ) * cospi_16_64 ; t2 = x2 * cospi_24_64 + x3 * cospi_8_64 ; t3 = - x2 * cospi_8_64 + x3 * cospi_24_64 ; output [ 0 ] = fdct_round_shift ( t0 ) ; output [ 2 ] = fdct_round_shift ( t2 ) ; output [ 4 ] = fdct_round_shift ( t1 ) ; output [ 6 ] = fdct_round_shift ( t3 ) ; t0 = ( s6 - s5 ) * cospi_16_64 ; t1 = ( s6 + s5 ) * cospi_16_64 ; t2 = fdct_round_shift ( t0 ) ; t3 = fdct_round_shift ( t1 ) ; x0 = s4 + t2 ; x1 = s4 - t2 ; x2 = s7 - t3 ; x3 = s7 + t3 ; t0 = x0 * cospi_28_64 + x3 * cospi_4_64 ; t1 = x1 * cospi_12_64 + x2 * cospi_20_64 ; t2 = x2 * cospi_12_64 + x1 * - cospi_20_64 ; t3 = x3 * cospi_28_64 + x0 * - cospi_4_64 ; output [ 1 ] = fdct_round_shift ( t0 ) ; output [ 3 ] = fdct_round_shift ( t2 ) ; output [ 5 ] = fdct_round_shift ( t1 ) ; output [ 7 ] = fdct_round_shift ( t3 ) ; }","static void fdct8 ( const tran_low_t * input , tran_low_t * output ) { tran_high_t s0 , s1 , s2 , s3 , s4 , s5 , s6 , s7 ; tran_high_t t0 , t1 , t2 , t3 ; tran_high_t x0 , x1 , x2 , x3 ; s0 = input [ 0 ] + input [ 7 ] ; s1 = input [ 1 ] + input [ 6 ] ; s2 = input [ 2 ] + input [ 5 ] ; s3 = input [ 3 ] + input [ 4 ] ; s4 = input [ 3 ] - input [ 4 ] ; s5 = input [ 2 ] - input [ 5 ] ; s6 = input [ 1 ] - input [ 6 ] ; s7 = input [ 0 ] - input [ 7 ] ; x0 = s0 + s3 ; x1 = s1 + s2 ; x2 = s1 - s2 ; x3 = s0 - s3 ; t0 = ( x0 + x1 ) * cospi_16_64 ; t1 = ( x0 - x1 ) * cospi_16_64 ; t2 = x2 * cospi_24_64 + x3 * cospi_8_64 ; t3 = - x2 * cospi_8_64 + x3 * cospi_24_64 ; output [ 0 ] = ( tran_low_t ) fdct_round_shift ( t0 ) ; output [ 2 ] = ( tran_low_t ) fdct_round_shift ( t2 ) ; output [ 4 ] = ( tran_low_t ) fdct_round_shift ( t1 ) ; output [ 6 ] = ( tran_low_t ) fdct_round_shift ( t3 ) ; t0 = ( s6 - s5 ) * cospi_16_64 ; t1 = ( s6 + s5 ) * cospi_16_64 ; t2 = ( tran_low_t ) fdct_round_shift ( t0 ) ; t3 = ( tran_low_t ) fdct_round_shift ( t1 ) ; x0 = s4 + t2 ; x1 = s4 - t2 ; x2 = s7 - t3 ; x3 = s7 + t3 ; t0 = x0 * cospi_28_64 + x3 * cospi_4_64 ; t1 = x1 * cospi_12_64 + x2 * cospi_20_64 ; t2 = x2 * cospi_12_64 + x1 * - cospi_20_64 ; t3 = x3 * cospi_28_64 + x0 * - cospi_4_64 ; output [ 1 ] = ( tran_low_t ) fdct_round_shift ( t0 ) ; output [ 3 ] = ( tran_low_t ) fdct_round_shift ( t2 ) ; output [ 5 ] = ( tran_low_t ) fdct_round_shift ( t1 ) ; output [ 7 ] = ( tran_low_t ) fdct_round_shift ( t3 ) ; }" 576,"CWE-119 void * pvPortMalloc ( size_t xWantedSize ) { BlockLink_t * pxBlock , * pxPreviousBlock , * pxNewBlockLink ; void * pvReturn = NULL ; vTaskSuspendAll ( ) ; { if ( pxEnd == NULL ) { prvHeapInit ( ) ; } else { mtCOVERAGE_TEST_MARKER ( ) ; } if ( ( xWantedSize & xBlockAllocatedBit ) == 0 ) { if ( xWantedSize > 0 ) { xWantedSize += xHeapStructSize ; if ( ( xWantedSize & portBYTE_ALIGNMENT_MASK ) != 0x00 ) { xWantedSize += ( portBYTE_ALIGNMENT - ( xWantedSize & portBYTE_ALIGNMENT_MASK ) ) ; configASSERT ( ( xWantedSize & portBYTE_ALIGNMENT_MASK ) == 0 ) ; } else { mtCOVERAGE_TEST_MARKER ( ) ; } } else { mtCOVERAGE_TEST_MARKER ( ) ; } if ( ( xWantedSize > 0 ) && ( xWantedSize <= xFreeBytesRemaining ) ) { pxPreviousBlock = & xStart ; pxBlock = xStart . pxNextFreeBlock ; while ( ( pxBlock -> xBlockSize < xWantedSize ) && ( pxBlock -> pxNextFreeBlock != NULL ) ) { pxPreviousBlock = pxBlock ; pxBlock = pxBlock -> pxNextFreeBlock ; } if ( pxBlock != pxEnd ) { pvReturn = ( void * ) ( ( ( uint8_t * ) pxPreviousBlock -> pxNextFreeBlock ) + xHeapStructSize ) ; pxPreviousBlock -> pxNextFreeBlock = pxBlock -> pxNextFreeBlock ; if ( ( pxBlock -> xBlockSize - xWantedSize ) > heapMINIMUM_BLOCK_SIZE ) { pxNewBlockLink = ( void * ) ( ( ( uint8_t * ) pxBlock ) + xWantedSize ) ; configASSERT ( ( ( ( size_t ) pxNewBlockLink ) & portBYTE_ALIGNMENT_MASK ) == 0 ) ; pxNewBlockLink -> xBlockSize = pxBlock -> xBlockSize - xWantedSize ; pxBlock -> xBlockSize = xWantedSize ; prvInsertBlockIntoFreeList ( pxNewBlockLink ) ; } else { mtCOVERAGE_TEST_MARKER ( ) ; } xFreeBytesRemaining -= pxBlock -> xBlockSize ; if ( xFreeBytesRemaining < xMinimumEverFreeBytesRemaining ) { xMinimumEverFreeBytesRemaining = xFreeBytesRemaining ; } else { mtCOVERAGE_TEST_MARKER ( ) ; } pxBlock -> xBlockSize |= xBlockAllocatedBit ; pxBlock -> pxNextFreeBlock = NULL ; xNumberOfSuccessfulAllocations ++ ; } else { mtCOVERAGE_TEST_MARKER ( ) ; } } else { mtCOVERAGE_TEST_MARKER ( ) ; } } else","void * pvPortMalloc ( size_t xWantedSize ) { BlockLink_t * pxBlock , * pxPreviousBlock , * pxNewBlockLink ; void * pvReturn = NULL ; vTaskSuspendAll ( ) ; { if ( pxEnd == NULL ) { prvHeapInit ( ) ; } else { mtCOVERAGE_TEST_MARKER ( ) ; } if ( ( xWantedSize & xBlockAllocatedBit ) == 0 ) { if ( ( xWantedSize > 0 ) && ( ( xWantedSize + xHeapStructSize ) > xWantedSize ) ) { xWantedSize += xHeapStructSize ; if ( ( xWantedSize & portBYTE_ALIGNMENT_MASK ) != 0x00 ) { if ( ( xWantedSize + ( portBYTE_ALIGNMENT - ( xWantedSize & portBYTE_ALIGNMENT_MASK ) ) ) > xWantedSize ) { xWantedSize += ( portBYTE_ALIGNMENT - ( xWantedSize & portBYTE_ALIGNMENT_MASK ) ) ; configASSERT ( ( xWantedSize & portBYTE_ALIGNMENT_MASK ) == 0 ) ; } else { xWantedSize = 0 ; } } else { mtCOVERAGE_TEST_MARKER ( ) ; } } else { xWantedSize = 0 ; } if ( ( xWantedSize > 0 ) && ( xWantedSize <= xFreeBytesRemaining ) ) { pxPreviousBlock = & xStart ; pxBlock = xStart . pxNextFreeBlock ; while ( ( pxBlock -> xBlockSize < xWantedSize ) && ( pxBlock -> pxNextFreeBlock != NULL ) ) { pxPreviousBlock = pxBlock ; pxBlock = pxBlock -> pxNextFreeBlock ; } if ( pxBlock != pxEnd ) { pvReturn = ( void * ) ( ( ( uint8_t * ) pxPreviousBlock -> pxNextFreeBlock ) + xHeapStructSize ) ; pxPreviousBlock -> pxNextFreeBlock = pxBlock -> pxNextFreeBlock ; if ( ( pxBlock -> xBlockSize - xWantedSize ) > heapMINIMUM_BLOCK_SIZE ) { pxNewBlockLink = ( void * ) ( ( ( uint8_t * ) pxBlock ) + xWantedSize ) ; configASSERT ( ( ( ( size_t ) pxNewBlockLink ) & portBYTE_ALIGNMENT_MASK ) == 0 ) ; pxNewBlockLink -> xBlockSize = pxBlock -> xBlockSize - xWantedSize ; pxBlock -> xBlockSize = xWantedSize ; prvInsertBlockIntoFreeList ( pxNewBlockLink ) ; } else { mtCOVERAGE_TEST_MARKER ( ) ; } xFreeBytesRemaining -= pxBlock -> xBlockSize ; if ( xFreeBytesRemaining < xMinimumEverFreeBytesRemaining ) { xMinimumEverFreeBytesRemaining = xFreeBytesRemaining ; } else { mtCOVERAGE_TEST_MARKER ( ) ; } pxBlock -> xBlockSize |= xBlockAllocatedBit ; pxBlock -> pxNextFreeBlock = NULL ; xNumberOfSuccessfulAllocations ++ ; } else { mtCOVERAGE_TEST_MARKER ( ) ; } } else { mtCOVERAGE_TEST_MARKER ( ) ; } } else" 577,"CWE-120 p_sys -> i_input_picnum ++ ; p_block = block_Alloc ( 1 ) ; if ( ! p_block ) return NULL ; p_block -> i_dts = p_pic -> date - p_sys -> i_pts_offset ; block_FifoPut ( p_sys -> p_dts_fifo , p_block ) ; p_block = NULL ; if ( schro_encoder_setting_get_double ( p_sys -> p_schro , ""interlaced_coding"" ) > 0.0 ) { StorePicturePTS ( p_enc , p_sys -> i_input_picnum , p_pic -> date + p_sys -> i_field_time ) ; p_sys -> i_input_picnum ++ ; p_block = block_Alloc ( 1 ) ; if ( ! p_block ) return NULL ; p_block -> i_dts = p_pic -> date - p_sys -> i_pts_offset + p_sys -> i_field_time ; block_FifoPut ( p_sys -> p_dts_fifo , p_block ) ; p_block = NULL ; } } do { SchroStateEnum state ; state = schro_encoder_wait ( p_sys -> p_schro ) ; switch ( state ) { case SCHRO_STATE_NEED_FRAME : b_go = false ; break ; case SCHRO_STATE_AGAIN : break ; case SCHRO_STATE_END_OF_STREAM : p_sys -> b_eos_pulled = 1 ; b_go = false ; break ; case SCHRO_STATE_HAVE_BUFFER : { SchroBuffer * p_enc_buf ; uint32_t u_pic_num ; int i_presentation_frame ; p_enc_buf = schro_encoder_pull ( p_sys -> p_schro , & i_presentation_frame ) ; p_block = block_Alloc ( p_enc_buf -> length ) ; if ( ! p_block ) return NULL ; memcpy ( p_block -> p_buffer , p_enc_buf -> data , p_enc_buf -> length ) ; schro_buffer_unref ( p_enc_buf ) ; if ( 0 == p_block -> p_buffer [ 4 ] ) { p_block -> i_flags |= BLOCK_FLAG_TYPE_I ; if ( ! p_enc -> fmt_out . p_extra ) { const uint8_t eos [ ] = { 'B' , 'B' , 'C' , 'D' , 0x10 , 0 , 0 , 0 , 13 , 0 , 0 , 0 , 0 } ; uint32_t len = GetDWBE ( p_block -> p_buffer + 5 ) ; p_enc -> fmt_out . p_extra = malloc ( len + sizeof ( eos ) ) ; if ( ! p_enc -> fmt_out . p_extra ) return NULL ; memcpy ( p_enc -> fmt_out . p_extra , p_block -> p_buffer , len ) ; memcpy ( ( uint8_t * ) p_enc -> fmt_out . p_extra + len , eos , sizeof ( eos ) ) ; SetDWBE ( ( uint8_t * ) p_enc -> fmt_out . p_extra + len + sizeof ( eos ) - 4 , len ) ; p_enc -> fmt_out . i_extra = len + sizeof ( eos ) ; } } if ( ReadDiracPictureNumber ( & u_pic_num , p_block ) ) { block_t * p_dts_block = block_FifoGet ( p_sys -> p_dts_fifo ) ; p_block -> i_dts = p_dts_block -> i_dts ; p_block -> i_pts = GetPicturePTS ( p_enc , u_pic_num ) ; block_Release ( p_dts_block ) ; block_ChainAppend ( & p_output_chain , p_block ) ; } else { block_ChainAppend ( & p_output_chain , p_block ) ; } break ; } default : break ; } } while ( b_go ) ; return p_output_chain ; }","p_sys -> i_input_picnum ++ ; p_block = block_Alloc ( 1 ) ; if ( ! p_block ) return NULL ; p_block -> i_dts = p_pic -> date - p_sys -> i_pts_offset ; block_FifoPut ( p_sys -> p_dts_fifo , p_block ) ; p_block = NULL ; if ( schro_encoder_setting_get_double ( p_sys -> p_schro , ""interlaced_coding"" ) > 0.0 ) { StorePicturePTS ( p_enc , p_sys -> i_input_picnum , p_pic -> date + p_sys -> i_field_time ) ; p_sys -> i_input_picnum ++ ; p_block = block_Alloc ( 1 ) ; if ( ! p_block ) return NULL ; p_block -> i_dts = p_pic -> date - p_sys -> i_pts_offset + p_sys -> i_field_time ; block_FifoPut ( p_sys -> p_dts_fifo , p_block ) ; p_block = NULL ; } } do { SchroStateEnum state ; state = schro_encoder_wait ( p_sys -> p_schro ) ; switch ( state ) { case SCHRO_STATE_NEED_FRAME : b_go = false ; break ; case SCHRO_STATE_AGAIN : break ; case SCHRO_STATE_END_OF_STREAM : p_sys -> b_eos_pulled = 1 ; b_go = false ; break ; case SCHRO_STATE_HAVE_BUFFER : { SchroBuffer * p_enc_buf ; uint32_t u_pic_num ; int i_presentation_frame ; p_enc_buf = schro_encoder_pull ( p_sys -> p_schro , & i_presentation_frame ) ; p_block = block_Alloc ( p_enc_buf -> length ) ; if ( ! p_block ) return NULL ; memcpy ( p_block -> p_buffer , p_enc_buf -> data , p_enc_buf -> length ) ; schro_buffer_unref ( p_enc_buf ) ; if ( 0 == p_block -> p_buffer [ 4 ] ) { p_block -> i_flags |= BLOCK_FLAG_TYPE_I ; if ( ! p_enc -> fmt_out . p_extra ) { const uint8_t eos [ ] = { 'B' , 'B' , 'C' , 'D' , 0x10 , 0 , 0 , 0 , 13 , 0 , 0 , 0 , 0 } ; uint32_t len = GetDWBE ( p_block -> p_buffer + 5 ) ; if ( len > UINT32_MAX - sizeof ( eos ) ) return NULL ; p_enc -> fmt_out . p_extra = malloc ( len + sizeof ( eos ) ) ; if ( ! p_enc -> fmt_out . p_extra ) return NULL ; memcpy ( p_enc -> fmt_out . p_extra , p_block -> p_buffer , len ) ; memcpy ( ( uint8_t * ) p_enc -> fmt_out . p_extra + len , eos , sizeof ( eos ) ) ; SetDWBE ( ( uint8_t * ) p_enc -> fmt_out . p_extra + len + sizeof ( eos ) - 4 , len ) ; p_enc -> fmt_out . i_extra = len + sizeof ( eos ) ; } } if ( ReadDiracPictureNumber ( & u_pic_num , p_block ) ) { block_t * p_dts_block = block_FifoGet ( p_sys -> p_dts_fifo ) ; p_block -> i_dts = p_dts_block -> i_dts ; p_block -> i_pts = GetPicturePTS ( p_enc , u_pic_num ) ; block_Release ( p_dts_block ) ; block_ChainAppend ( & p_output_chain , p_block ) ; } else { block_ChainAppend ( & p_output_chain , p_block ) ; } break ; } default : break ; } } while ( b_go ) ; return p_output_chain ; }" 578,"CWE-362 struct mapped_device * dm_get_from_kobject ( struct kobject * kobj ) { struct mapped_device * md ; md = container_of ( kobj , struct mapped_device , kobj_holder . kobj ) ; if ( test_bit ( DMF_FREEING , & md -> flags ) || dm_deleting_md ( md ) ) return NULL ; dm_get ( md ) ; return md ; }","struct mapped_device * dm_get_from_kobject ( struct kobject * kobj ) { struct mapped_device * md ; md = container_of ( kobj , struct mapped_device , kobj_holder . kobj ) ; spin_lock ( & _minor_lock ) ; if ( test_bit ( DMF_FREEING , & md -> flags ) || dm_deleting_md ( md ) ) { md = NULL ; goto out ; } dm_get ( md ) ; out : spin_unlock ( & _minor_lock ) ; return md ; }" 579,"CWE-273 int unquoted_glob_pattern_p ( string ) register char * string ; { register int c ; char * send ; int open , bsquote ; DECLARE_MBSTATE ; open = bsquote = 0 ; send = string + strlen ( string ) ; while ( c = * string ++ ) { switch ( c ) { case '?' : case '*' : return ( 1 ) ; case '[' : open ++ ; continue ; case ']' : if ( open ) return ( 1 ) ; continue ; case '+' : case '@' : case '!' : if ( * string == '(' ) return ( 1 ) ; continue ; case '\\\\' : if ( * string != '\\0' && * string != '/' ) { bsquote = 1 ; string ++ ; continue ; } else if ( * string == 0 ) return ( 0 ) ; case CTLESC : if ( * string ++ == '\\0' ) return ( 0 ) ; } # ifdef HANDLE_MULTIBYTE string -- ; ADVANCE_CHAR_P ( string , send - string ) ; string ++ ; # else ADVANCE_CHAR_P ( string , send - string ) ; # endif } return ( ( bsquote && posix_glob_backslash ) ? 2 : 0 ) ; }","int unquoted_glob_pattern_p ( string ) register char * string ; { register int c ; char * send ; int open , bsquote ; DECLARE_MBSTATE ; open = bsquote = 0 ; send = string + strlen ( string ) ; while ( c = * string ++ ) { switch ( c ) { case '?' : case '*' : return ( 1 ) ; case '[' : open ++ ; continue ; case ']' : if ( open ) return ( 1 ) ; continue ; case '/' : if ( open ) open = 0 ; case '+' : case '@' : case '!' : if ( * string == '(' ) return ( 1 ) ; continue ; case '\\\\' : if ( * string != '\\0' && * string != '/' ) { bsquote = 1 ; string ++ ; continue ; } else if ( open && * string == '/' ) { string ++ ; continue ; } else if ( * string == 0 ) return ( 0 ) ; case CTLESC : if ( * string ++ == '\\0' ) return ( 0 ) ; } # ifdef HANDLE_MULTIBYTE string -- ; ADVANCE_CHAR_P ( string , send - string ) ; string ++ ; # else ADVANCE_CHAR_P ( string , send - string ) ; # endif } return ( ( bsquote && posix_glob_backslash ) ? 2 : 0 ) ; }" 580,"CWE-119 int read_frame ( struct VpxInputContext * input_ctx , vpx_image_t * img ) { FILE * f = input_ctx -> file ; y4m_input * y4m = & input_ctx -> y4m ; int shortread = 0 ; if ( input_ctx -> file_type == FILE_TYPE_Y4M ) { if ( y4m_input_fetch_frame ( y4m , f , img ) < 1 ) return 0 ; } else { shortread = read_yuv_frame ( input_ctx , img ) ; } return ! shortread ; }","static int read_frame ( struct VpxInputContext * input_ctx , vpx_image_t * img ) { FILE * f = input_ctx -> file ; y4m_input * y4m = & input_ctx -> y4m ; int shortread = 0 ; if ( input_ctx -> file_type == FILE_TYPE_Y4M ) { if ( y4m_input_fetch_frame ( y4m , f , img ) < 1 ) return 0 ; } else { shortread = read_yuv_frame ( input_ctx , img ) ; } return ! shortread ; }" 581,"CWE-532 static int klsi_105_get_line_state ( struct usb_serial_port * port , unsigned long * line_state_p ) { int rc ; u8 * status_buf ; __u16 status ; dev_info ( & port -> serial -> dev -> dev , ""sending SIO Poll request\\n"" ) ; status_buf = kmalloc ( KLSI_STATUSBUF_LEN , GFP_KERNEL ) ; if ( ! status_buf ) return - ENOMEM ; status_buf [ 0 ] = 0xff ; status_buf [ 1 ] = 0xff ; rc = usb_control_msg ( port -> serial -> dev , usb_rcvctrlpipe ( port -> serial -> dev , 0 ) , KL5KUSB105A_SIO_POLL , USB_TYPE_VENDOR | USB_DIR_IN , 0 , 0 , status_buf , KLSI_STATUSBUF_LEN , 10000 ) ; if ( rc < 0 ) dev_err ( & port -> dev , ""Reading line status failed (error = %d)\\n"" , rc ) ; else { status = get_unaligned_le16 ( status_buf ) ; dev_info ( & port -> serial -> dev -> dev , ""read status %x %x\\n"" , status_buf [ 0 ] , status_buf [ 1 ] ) ; * line_state_p = klsi_105_status2linestate ( status ) ; } kfree ( status_buf ) ; return rc ; }","static int klsi_105_get_line_state ( struct usb_serial_port * port , unsigned long * line_state_p ) { int rc ; u8 * status_buf ; __u16 status ; dev_info ( & port -> serial -> dev -> dev , ""sending SIO Poll request\\n"" ) ; status_buf = kmalloc ( KLSI_STATUSBUF_LEN , GFP_KERNEL ) ; if ( ! status_buf ) return - ENOMEM ; status_buf [ 0 ] = 0xff ; status_buf [ 1 ] = 0xff ; rc = usb_control_msg ( port -> serial -> dev , usb_rcvctrlpipe ( port -> serial -> dev , 0 ) , KL5KUSB105A_SIO_POLL , USB_TYPE_VENDOR | USB_DIR_IN , 0 , 0 , status_buf , KLSI_STATUSBUF_LEN , 10000 ) ; if ( rc != KLSI_STATUSBUF_LEN ) { dev_err ( & port -> dev , ""reading line status failed: %d\\n"" , rc ) ; if ( rc >= 0 ) rc = - EIO ; } else { status = get_unaligned_le16 ( status_buf ) ; dev_info ( & port -> serial -> dev -> dev , ""read status %x %x\\n"" , status_buf [ 0 ] , status_buf [ 1 ] ) ; * line_state_p = klsi_105_status2linestate ( status ) ; } kfree ( status_buf ) ; return rc ; }" 582,"CWE-20 static int ovl_remove_upper ( struct dentry * dentry , bool is_dir ) { struct dentry * upperdir = ovl_dentry_upper ( dentry -> d_parent ) ; struct inode * dir = upperdir -> d_inode ; struct dentry * upper = ovl_dentry_upper ( dentry ) ; int err ; inode_lock_nested ( dir , I_MUTEX_PARENT ) ; err = - ESTALE ; if ( upper -> d_parent == upperdir ) { dget ( upper ) ; if ( is_dir ) err = vfs_rmdir ( dir , upper ) ; else err = vfs_unlink ( dir , upper , NULL ) ; dput ( upper ) ; ovl_dentry_version_inc ( dentry -> d_parent ) ; } if ( ! err ) d_drop ( dentry ) ; inode_unlock ( dir ) ; return err ; }","static int ovl_remove_upper ( struct dentry * dentry , bool is_dir ) { struct dentry * upperdir = ovl_dentry_upper ( dentry -> d_parent ) ; struct inode * dir = upperdir -> d_inode ; struct dentry * upper ; int err ; inode_lock_nested ( dir , I_MUTEX_PARENT ) ; upper = lookup_one_len ( dentry -> d_name . name , upperdir , dentry -> d_name . len ) ; err = PTR_ERR ( upper ) ; if ( IS_ERR ( upper ) ) goto out_unlock ; err = - ESTALE ; if ( upper == ovl_dentry_upper ( dentry ) ) { if ( is_dir ) err = vfs_rmdir ( dir , upper ) ; else err = vfs_unlink ( dir , upper , NULL ) ; ovl_dentry_version_inc ( dentry -> d_parent ) ; } dput ( upper ) ; if ( ! err ) d_drop ( dentry ) ; out_unlock : inode_unlock ( dir ) ; return err ; }" 583,"CWE-264 static ssize_t ib_ucm_write ( struct file * filp , const char __user * buf , size_t len , loff_t * pos ) { struct ib_ucm_file * file = filp -> private_data ; struct ib_ucm_cmd_hdr hdr ; ssize_t result ; if ( len < sizeof ( hdr ) ) return - EINVAL ; if ( copy_from_user ( & hdr , buf , sizeof ( hdr ) ) ) return - EFAULT ; if ( hdr . cmd >= ARRAY_SIZE ( ucm_cmd_table ) ) return - EINVAL ; if ( hdr . in + sizeof ( hdr ) > len ) return - EINVAL ; result = ucm_cmd_table [ hdr . cmd ] ( file , buf + sizeof ( hdr ) , hdr . in , hdr . out ) ; if ( ! result ) result = len ; return result ; }","static ssize_t ib_ucm_write ( struct file * filp , const char __user * buf , size_t len , loff_t * pos ) { struct ib_ucm_file * file = filp -> private_data ; struct ib_ucm_cmd_hdr hdr ; ssize_t result ; if ( WARN_ON_ONCE ( ! ib_safe_file_access ( filp ) ) ) return - EACCES ; if ( len < sizeof ( hdr ) ) return - EINVAL ; if ( copy_from_user ( & hdr , buf , sizeof ( hdr ) ) ) return - EFAULT ; if ( hdr . cmd >= ARRAY_SIZE ( ucm_cmd_table ) ) return - EINVAL ; if ( hdr . in + sizeof ( hdr ) > len ) return - EINVAL ; result = ucm_cmd_table [ hdr . cmd ] ( file , buf + sizeof ( hdr ) , hdr . in , hdr . out ) ; if ( ! result ) result = len ; return result ; }" 584,"CWE-401 struct clock_source * dce112_clock_source_create ( struct dc_context * ctx , struct dc_bios * bios , enum clock_source_id id , const struct dce110_clk_src_regs * regs , bool dp_clk_src ) { struct dce110_clk_src * clk_src = kzalloc ( sizeof ( struct dce110_clk_src ) , GFP_KERNEL ) ; if ( ! clk_src ) return NULL ; if ( dce112_clk_src_construct ( clk_src , ctx , bios , id , regs , & cs_shift , & cs_mask ) ) { clk_src -> base . dp_clk_src = dp_clk_src ; return & clk_src -> base ; } BREAK_TO_DEBUGGER ( ) ; return NULL ; }","struct clock_source * dce112_clock_source_create ( struct dc_context * ctx , struct dc_bios * bios , enum clock_source_id id , const struct dce110_clk_src_regs * regs , bool dp_clk_src ) { struct dce110_clk_src * clk_src = kzalloc ( sizeof ( struct dce110_clk_src ) , GFP_KERNEL ) ; if ( ! clk_src ) return NULL ; if ( dce112_clk_src_construct ( clk_src , ctx , bios , id , regs , & cs_shift , & cs_mask ) ) { clk_src -> base . dp_clk_src = dp_clk_src ; return & clk_src -> base ; } kfree ( clk_src ) ; BREAK_TO_DEBUGGER ( ) ; return NULL ; }" 585,"CWE-787 static int next_state_class ( CClassNode * cc , OnigCodePoint * vs , enum CCVALTYPE * type , enum CCSTATE * state , ScanEnv * env ) { int r ; if ( * state == CCS_RANGE ) return ONIGERR_CHAR_CLASS_VALUE_AT_END_OF_RANGE ; if ( * state == CCS_VALUE && * type != CCV_CLASS ) { if ( * type == CCV_SB ) BITSET_SET_BIT ( cc -> bs , ( int ) ( * vs ) ) ; else if ( * type == CCV_CODE_POINT ) { r = add_code_range ( & ( cc -> mbuf ) , env , * vs , * vs ) ; if ( r < 0 ) return r ; } } * state = CCS_VALUE ; * type = CCV_CLASS ; return 0 ; }","static int next_state_class ( CClassNode * cc , OnigCodePoint * vs , enum CCVALTYPE * type , enum CCSTATE * state , ScanEnv * env ) { int r ; if ( * state == CCS_RANGE ) return ONIGERR_CHAR_CLASS_VALUE_AT_END_OF_RANGE ; if ( * state == CCS_VALUE && * type != CCV_CLASS ) { if ( * type == CCV_SB ) BITSET_SET_BIT ( cc -> bs , ( int ) ( * vs ) ) ; else if ( * type == CCV_CODE_POINT ) { r = add_code_range ( & ( cc -> mbuf ) , env , * vs , * vs ) ; if ( r < 0 ) return r ; } } if ( * state != CCS_START ) * state = CCS_VALUE ; * type = CCV_CLASS ; return 0 ; }" 586,"CWE-264 int perf_pmu_register ( struct pmu * pmu , const char * name , int type ) { int cpu , ret ; mutex_lock ( & pmus_lock ) ; ret = - ENOMEM ; pmu -> pmu_disable_count = alloc_percpu ( int ) ; if ( ! pmu -> pmu_disable_count ) goto unlock ; pmu -> type = - 1 ; if ( ! name ) goto skip_type ; pmu -> name = name ; if ( type < 0 ) { type = idr_alloc ( & pmu_idr , pmu , PERF_TYPE_MAX , 0 , GFP_KERNEL ) ; if ( type < 0 ) { ret = type ; goto free_pdc ; } } pmu -> type = type ; if ( pmu_bus_running ) { ret = pmu_dev_alloc ( pmu ) ; if ( ret ) goto free_idr ; } skip_type : pmu -> pmu_cpu_context = find_pmu_context ( pmu -> task_ctx_nr ) ; if ( pmu -> pmu_cpu_context ) goto got_cpu_context ; ret = - ENOMEM ; pmu -> pmu_cpu_context = alloc_percpu ( struct perf_cpu_context ) ; if ( ! pmu -> pmu_cpu_context ) goto free_dev ; for_each_possible_cpu ( cpu ) { struct perf_cpu_context * cpuctx ; cpuctx = per_cpu_ptr ( pmu -> pmu_cpu_context , cpu ) ; __perf_event_init_context ( & cpuctx -> ctx ) ; lockdep_set_class ( & cpuctx -> ctx . mutex , & cpuctx_mutex ) ; lockdep_set_class ( & cpuctx -> ctx . lock , & cpuctx_lock ) ; cpuctx -> ctx . type = cpu_context ; cpuctx -> ctx . pmu = pmu ; __perf_cpu_hrtimer_init ( cpuctx , cpu ) ; INIT_LIST_HEAD ( & cpuctx -> rotation_list ) ; cpuctx -> unique_pmu = pmu ; } got_cpu_context : if ( ! pmu -> start_txn ) { if ( pmu -> pmu_enable ) { pmu -> start_txn = perf_pmu_start_txn ; pmu -> commit_txn = perf_pmu_commit_txn ; pmu -> cancel_txn = perf_pmu_cancel_txn ; } else { pmu -> start_txn = perf_pmu_nop_void ; pmu -> commit_txn = perf_pmu_nop_int ; pmu -> cancel_txn = perf_pmu_nop_void ; } } if ( ! pmu -> pmu_enable ) { pmu -> pmu_enable = perf_pmu_nop_void ; pmu -> pmu_disable = perf_pmu_nop_void ; } if ( ! pmu -> event_idx ) pmu -> event_idx = perf_event_idx_default ; list_add_rcu ( & pmu -> entry , & pmus ) ; ret = 0 ; unlock : mutex_unlock ( & pmus_lock ) ; return ret ; free_dev : device_del ( pmu -> dev ) ; put_device ( pmu -> dev ) ; free_idr : if ( pmu -> type >= PERF_TYPE_MAX ) idr_remove ( & pmu_idr , pmu -> type ) ; free_pdc : free_percpu ( pmu -> pmu_disable_count ) ; goto unlock ; }","int perf_pmu_register ( struct pmu * pmu , const char * name , int type ) { int cpu , ret ; mutex_lock ( & pmus_lock ) ; ret = - ENOMEM ; pmu -> pmu_disable_count = alloc_percpu ( int ) ; if ( ! pmu -> pmu_disable_count ) goto unlock ; pmu -> type = - 1 ; if ( ! name ) goto skip_type ; pmu -> name = name ; if ( type < 0 ) { type = idr_alloc ( & pmu_idr , pmu , PERF_TYPE_MAX , 0 , GFP_KERNEL ) ; if ( type < 0 ) { ret = type ; goto free_pdc ; } } pmu -> type = type ; if ( pmu_bus_running ) { ret = pmu_dev_alloc ( pmu ) ; if ( ret ) goto free_idr ; } skip_type : pmu -> pmu_cpu_context = find_pmu_context ( pmu -> task_ctx_nr ) ; if ( pmu -> pmu_cpu_context ) goto got_cpu_context ; ret = - ENOMEM ; pmu -> pmu_cpu_context = alloc_percpu ( struct perf_cpu_context ) ; if ( ! pmu -> pmu_cpu_context ) goto free_dev ; for_each_possible_cpu ( cpu ) { struct perf_cpu_context * cpuctx ; cpuctx = per_cpu_ptr ( pmu -> pmu_cpu_context , cpu ) ; __perf_event_init_context ( & cpuctx -> ctx ) ; lockdep_set_class ( & cpuctx -> ctx . mutex , & cpuctx_mutex ) ; lockdep_set_class ( & cpuctx -> ctx . lock , & cpuctx_lock ) ; cpuctx -> ctx . pmu = pmu ; __perf_cpu_hrtimer_init ( cpuctx , cpu ) ; INIT_LIST_HEAD ( & cpuctx -> rotation_list ) ; cpuctx -> unique_pmu = pmu ; } got_cpu_context : if ( ! pmu -> start_txn ) { if ( pmu -> pmu_enable ) { pmu -> start_txn = perf_pmu_start_txn ; pmu -> commit_txn = perf_pmu_commit_txn ; pmu -> cancel_txn = perf_pmu_cancel_txn ; } else { pmu -> start_txn = perf_pmu_nop_void ; pmu -> commit_txn = perf_pmu_nop_int ; pmu -> cancel_txn = perf_pmu_nop_void ; } } if ( ! pmu -> pmu_enable ) { pmu -> pmu_enable = perf_pmu_nop_void ; pmu -> pmu_disable = perf_pmu_nop_void ; } if ( ! pmu -> event_idx ) pmu -> event_idx = perf_event_idx_default ; list_add_rcu ( & pmu -> entry , & pmus ) ; ret = 0 ; unlock : mutex_unlock ( & pmus_lock ) ; return ret ; free_dev : device_del ( pmu -> dev ) ; put_device ( pmu -> dev ) ; free_idr : if ( pmu -> type >= PERF_TYPE_MAX ) idr_remove ( & pmu_idr , pmu -> type ) ; free_pdc : free_percpu ( pmu -> pmu_disable_count ) ; goto unlock ; }" 587,"CWE-119 void cJSON_AddItemReferenceToArray ( cJSON * array , cJSON * item ) { cJSON_AddItemToArray ( array , create_reference ( item ) ) ; } ","void cJSON_AddItemReferenceToArray ( cJSON * array , cJSON * item ) { cJSON_AddItemToArray ( array , create_reference ( item ) ) ; }" 588,"CWE-190 static int bson_string_is_db_ref ( const unsigned char * string , const int length ) { int result = 0 ; if ( length >= 4 ) { if ( string [ 1 ] == 'r' && string [ 2 ] == 'e' && string [ 3 ] == 'f' ) result = 1 ; } else if ( length >= 3 ) { if ( string [ 1 ] == 'i' && string [ 2 ] == 'd' ) result = 1 ; else if ( string [ 1 ] == 'd' && string [ 2 ] == 'b' ) result = 1 ; } return result ; }","static int bson_string_is_db_ref ( const unsigned char * string , const size_t length ) { int result = 0 ; if ( length >= 4 ) { if ( string [ 1 ] == 'r' && string [ 2 ] == 'e' && string [ 3 ] == 'f' ) result = 1 ; } else if ( length >= 3 ) { if ( string [ 1 ] == 'i' && string [ 2 ] == 'd' ) result = 1 ; else if ( string [ 1 ] == 'd' && string [ 2 ] == 'b' ) result = 1 ; } return result ; }" 589,"CWE-189 Pairs * hstoreArrayToPairs ( ArrayType * a , int * npairs ) { Datum * key_datums ; bool * key_nulls ; int key_count ; Pairs * key_pairs ; int bufsiz ; int i , j ; deconstruct_array ( a , TEXTOID , - 1 , false , 'i' , & key_datums , & key_nulls , & key_count ) ; if ( key_count == 0 ) { * npairs = 0 ; return NULL ; } key_pairs = palloc ( sizeof ( Pairs ) * key_count ) ; for ( i = 0 , j = 0 ; i < key_count ; i ++ ) { if ( ! key_nulls [ i ] ) { key_pairs [ j ] . key = VARDATA ( key_datums [ i ] ) ; key_pairs [ j ] . keylen = VARSIZE ( key_datums [ i ] ) - VARHDRSZ ; key_pairs [ j ] . val = NULL ; key_pairs [ j ] . vallen = 0 ; key_pairs [ j ] . needfree = 0 ; key_pairs [ j ] . isnull = 1 ; j ++ ; } } * npairs = hstoreUniquePairs ( key_pairs , j , & bufsiz ) ; return key_pairs ; }","Pairs * hstoreArrayToPairs ( ArrayType * a , int * npairs ) { Datum * key_datums ; bool * key_nulls ; int key_count ; Pairs * key_pairs ; int bufsiz ; int i , j ; deconstruct_array ( a , TEXTOID , - 1 , false , 'i' , & key_datums , & key_nulls , & key_count ) ; if ( key_count == 0 ) { * npairs = 0 ; return NULL ; } if ( key_count > MaxAllocSize / sizeof ( Pairs ) ) ereport ( ERROR , ( errcode ( ERRCODE_PROGRAM_LIMIT_EXCEEDED ) , errmsg ( ""number of pairs (%d) exceeds the maximum allowed (%d)"" , key_count , ( int ) ( MaxAllocSize / sizeof ( Pairs ) ) ) ) ) ; key_pairs = palloc ( sizeof ( Pairs ) * key_count ) ; for ( i = 0 , j = 0 ; i < key_count ; i ++ ) { if ( ! key_nulls [ i ] ) { key_pairs [ j ] . key = VARDATA ( key_datums [ i ] ) ; key_pairs [ j ] . keylen = VARSIZE ( key_datums [ i ] ) - VARHDRSZ ; key_pairs [ j ] . val = NULL ; key_pairs [ j ] . vallen = 0 ; key_pairs [ j ] . needfree = 0 ; key_pairs [ j ] . isnull = 1 ; j ++ ; } } * npairs = hstoreUniquePairs ( key_pairs , j , & bufsiz ) ; return key_pairs ; }" 590,"CWE-125 static void sycc444_to_rgb ( opj_image_t * img ) { int * d0 , * d1 , * d2 , * r , * g , * b ; const int * y , * cb , * cr ; unsigned int maxw , maxh , max , i ; int offset , upb ; upb = ( int ) img -> comps [ 0 ] . prec ; offset = 1 << ( upb - 1 ) ; upb = ( 1 << upb ) - 1 ; maxw = ( unsigned int ) img -> comps [ 0 ] . w ; maxh = ( unsigned int ) img -> comps [ 0 ] . h ; max = maxw * maxh ; y = img -> comps [ 0 ] . data ; cb = img -> comps [ 1 ] . data ; cr = img -> comps [ 2 ] . data ; d0 = r = ( int * ) malloc ( sizeof ( int ) * ( size_t ) max ) ; d1 = g = ( int * ) malloc ( sizeof ( int ) * ( size_t ) max ) ; d2 = b = ( int * ) malloc ( sizeof ( int ) * ( size_t ) max ) ; if ( r == NULL || g == NULL || b == NULL ) goto fails ; for ( i = 0U ; i < max ; ++ i ) { sycc_to_rgb ( offset , upb , * y , * cb , * cr , r , g , b ) ; } free ( img -> comps [ 0 ] . data ) ; img -> comps [ 0 ] . data = d0 ; free ( img -> comps [ 1 ] . data ) ; img -> comps [ 1 ] . data = d1 ; free ( img -> comps [ 2 ] . data ) ; img -> comps [ 2 ] . data = d2 ; return ; fails : if ( r ) free ( r ) ; if ( g ) free ( g ) ; if ( b ) free ( b ) ; }","static void sycc444_to_rgb ( opj_image_t * img ) { int * d0 , * d1 , * d2 , * r , * g , * b ; const int * y , * cb , * cr ; size_t maxw , maxh , max , i ; int offset , upb ; upb = ( int ) img -> comps [ 0 ] . prec ; offset = 1 << ( upb - 1 ) ; upb = ( 1 << upb ) - 1 ; maxw = ( size_t ) img -> comps [ 0 ] . w ; maxh = ( size_t ) img -> comps [ 0 ] . h ; max = maxw * maxh ; y = img -> comps [ 0 ] . data ; cb = img -> comps [ 1 ] . data ; cr = img -> comps [ 2 ] . data ; d0 = r = ( int * ) malloc ( sizeof ( int ) * max ) ; d1 = g = ( int * ) malloc ( sizeof ( int ) * max ) ; d2 = b = ( int * ) malloc ( sizeof ( int ) * max ) ; if ( r == NULL || g == NULL || b == NULL ) goto fails ; for ( i = 0U ; i < max ; ++ i ) { sycc_to_rgb ( offset , upb , * y , * cb , * cr , r , g , b ) ; + y ; ++ cb ; ++ cr ; ++ r ; ++ g ; ++ b ; } free ( img -> comps [ 0 ] . data ) ; img -> comps [ 0 ] . data = d0 ; free ( img -> comps [ 1 ] . data ) ; img -> comps [ 1 ] . data = d1 ; free ( img -> comps [ 2 ] . data ) ; img -> comps [ 2 ] . data = d2 ; img -> color_space = OPJ_CLRSPC_SRGB ; return ; fails : free ( r ) ; free ( g ) ; free ( b ) ; }" 591,"CWE-119 STREAM sec_recv ( RD_BOOL * is_fastpath ) { uint8 fastpath_hdr , fastpath_flags ; uint16 sec_flags ; uint16 channel ; STREAM s ; while ( ( s = mcs_recv ( & channel , is_fastpath , & fastpath_hdr ) ) != NULL ) { if ( * is_fastpath == True ) { fastpath_flags = ( fastpath_hdr & 0xC0 ) >> 6 ; if ( fastpath_flags & FASTPATH_OUTPUT_ENCRYPTED ) { in_uint8s ( s , 8 ) ; sec_decrypt ( s -> p , s -> end - s -> p ) ; } return s ; } if ( g_encryption || ( ! g_licence_issued && ! g_licence_error_result ) ) { in_uint16_le ( s , sec_flags ) ; in_uint8s ( s , 2 ) ; if ( g_encryption ) { if ( sec_flags & SEC_ENCRYPT ) { in_uint8s ( s , 8 ) ; sec_decrypt ( s -> p , s -> end - s -> p ) ; } if ( sec_flags & SEC_LICENSE_PKT ) { licence_process ( s ) ; continue ; } if ( sec_flags & SEC_REDIRECTION_PKT ) { uint8 swapbyte ; in_uint8s ( s , 8 ) ; sec_decrypt ( s -> p , s -> end - s -> p ) ; if ( s -> p [ 0 ] == 0 && s -> p [ 1 ] == 4 ) { swapbyte = s -> p [ 0 ] ; s -> p [ 0 ] = s -> p [ 2 ] ; s -> p [ 2 ] = swapbyte ; swapbyte = s -> p [ 1 ] ; s -> p [ 1 ] = s -> p [ 3 ] ; s -> p [ 3 ] = swapbyte ; swapbyte = s -> p [ 2 ] ; s -> p [ 2 ] = s -> p [ 3 ] ; s -> p [ 3 ] = swapbyte ; } } } else { if ( sec_flags & SEC_LICENSE_PKT ) { licence_process ( s ) ; continue ; } s -> p -= 4 ; } } if ( channel != MCS_GLOBAL_CHANNEL ) { channel_process ( s , channel ) ; continue ; } return s ; } return NULL ; }","STREAM sec_recv ( RD_BOOL * is_fastpath ) { uint8 fastpath_hdr , fastpath_flags ; uint16 sec_flags ; uint16 channel ; STREAM s ; struct stream packet ; while ( ( s = mcs_recv ( & channel , is_fastpath , & fastpath_hdr ) ) != NULL ) { packet = * s ; if ( * is_fastpath == True ) { fastpath_flags = ( fastpath_hdr & 0xC0 ) >> 6 ; if ( fastpath_flags & FASTPATH_OUTPUT_ENCRYPTED ) { if ( ! s_check_rem ( s , 8 ) ) { rdp_protocol_error ( ""sec_recv(), consume fastpath signature from stream would overrun"" , & packet ) ; } in_uint8s ( s , 8 ) ; sec_decrypt ( s -> p , s -> end - s -> p ) ; } return s ; } if ( g_encryption || ( ! g_licence_issued && ! g_licence_error_result ) ) { in_uint16_le ( s , sec_flags ) ; in_uint8s ( s , 2 ) ; if ( g_encryption ) { if ( sec_flags & SEC_ENCRYPT ) { if ( ! s_check_rem ( s , 8 ) ) { rdp_protocol_error ( ""sec_recv(), consume encrypt signature from stream would overrun"" , & packet ) ; } in_uint8s ( s , 8 ) ; sec_decrypt ( s -> p , s -> end - s -> p ) ; } if ( sec_flags & SEC_LICENSE_PKT ) { licence_process ( s ) ; continue ; } if ( sec_flags & SEC_REDIRECTION_PKT ) { uint8 swapbyte ; if ( ! s_check_rem ( s , 8 ) ) { rdp_protocol_error ( ""sec_recv(), consume redirect signature from stream would overrun"" , & packet ) ; } in_uint8s ( s , 8 ) ; sec_decrypt ( s -> p , s -> end - s -> p ) ; if ( s -> p [ 0 ] == 0 && s -> p [ 1 ] == 4 ) { swapbyte = s -> p [ 0 ] ; s -> p [ 0 ] = s -> p [ 2 ] ; s -> p [ 2 ] = swapbyte ; swapbyte = s -> p [ 1 ] ; s -> p [ 1 ] = s -> p [ 3 ] ; s -> p [ 3 ] = swapbyte ; swapbyte = s -> p [ 2 ] ; s -> p [ 2 ] = s -> p [ 3 ] ; s -> p [ 3 ] = swapbyte ; } } } else { if ( sec_flags & SEC_LICENSE_PKT ) { licence_process ( s ) ; continue ; } s -> p -= 4 ; } } if ( channel != MCS_GLOBAL_CHANNEL ) { channel_process ( s , channel ) ; continue ; } return s ; } return NULL ; }" 592,"CWE-20 SPL_METHOD ( Array , unserialize ) { spl_array_object * intern = ( spl_array_object * ) zend_object_store_get_object ( getThis ( ) TSRMLS_CC ) ; char * buf ; int buf_len ; const unsigned char * p , * s ; php_unserialize_data_t var_hash ; zval * pmembers , * pflags = NULL ; HashTable * aht ; long flags ; if ( zend_parse_parameters ( ZEND_NUM_ARGS ( ) TSRMLS_CC , ""s"" , & buf , & buf_len ) == FAILURE ) { return ; } if ( buf_len == 0 ) { return ; } aht = spl_array_get_hash_table ( intern , 0 TSRMLS_CC ) ; if ( aht -> nApplyCount > 0 ) { zend_error ( E_WARNING , ""Modification of ArrayObject during sorting is prohibited"" ) ; return ; } s = p = ( const unsigned char * ) buf ; PHP_VAR_UNSERIALIZE_INIT ( var_hash ) ; if ( * p != 'x' || * ++ p != ':' ) { goto outexcept ; } ALLOC_INIT_ZVAL ( pflags ) ; if ( ! php_var_unserialize ( & pflags , & p , s + buf_len , & var_hash TSRMLS_CC ) || Z_TYPE_P ( pflags ) != IS_LONG ) { goto outexcept ; } var_push_dtor ( & var_hash , & pflags ) ; - p ; flags = Z_LVAL_P ( pflags ) ; if ( * p != ';' ) { goto outexcept ; } if ( * p != 'm' ) { if ( * p != 'a' && * p != 'O' && * p != 'C' && * p != 'r' ) { goto outexcept ; } intern -> ar_flags &= ~ SPL_ARRAY_CLONE_MASK ; intern -> ar_flags |= flags & SPL_ARRAY_CLONE_MASK ; zval_ptr_dtor ( & intern -> array ) ; ALLOC_INIT_ZVAL ( intern -> array ) ; if ( ! php_var_unserialize ( & intern -> array , & p , s + buf_len , & var_hash TSRMLS_CC ) ) { goto outexcept ; } var_push_dtor ( & var_hash , & intern -> array ) ; } if ( * p != ';' ) { goto outexcept ; } if ( * p != 'm' || * ++ p != ':' ) { goto outexcept ; } ALLOC_INIT_ZVAL ( pmembers ) ; if ( ! php_var_unserialize ( & pmembers , & p , s + buf_len , & var_hash TSRMLS_CC ) || Z_TYPE_P ( pmembers ) != IS_ARRAY ) { zval_ptr_dtor ( & pmembers ) ; goto outexcept ; } var_push_dtor ( & var_hash , & pmembers ) ; if ( ! intern -> std . properties ) { rebuild_object_properties ( & intern -> std ) ; } zend_hash_copy ( intern -> std . properties , Z_ARRVAL_P ( pmembers ) , ( copy_ctor_func_t ) zval_add_ref , ( void * ) NULL , sizeof ( zval * ) ) ; zval_ptr_dtor ( & pmembers ) ; PHP_VAR_UNSERIALIZE_DESTROY ( var_hash ) ; if ( pflags ) { zval_ptr_dtor ( & pflags ) ; } return ; outexcept : PHP_VAR_UNSERIALIZE_DESTROY ( var_hash ) ; if ( pflags ) { zval_ptr_dtor ( & pflags ) ; } zend_throw_exception_ex ( spl_ce_UnexpectedValueException , 0 TSRMLS_CC , ""Error at offset %ld of %d bytes"" , ( long ) ( ( char * ) p - buf ) , buf_len ) ; return ; }","SPL_METHOD ( Array , unserialize ) { spl_array_object * intern = ( spl_array_object * ) zend_object_store_get_object ( getThis ( ) TSRMLS_CC ) ; char * buf ; int buf_len ; const unsigned char * p , * s ; php_unserialize_data_t var_hash ; zval * pmembers , * pflags = NULL ; HashTable * aht ; long flags ; if ( zend_parse_parameters ( ZEND_NUM_ARGS ( ) TSRMLS_CC , ""s"" , & buf , & buf_len ) == FAILURE ) { return ; } if ( buf_len == 0 ) { return ; } aht = spl_array_get_hash_table ( intern , 0 TSRMLS_CC ) ; if ( aht -> nApplyCount > 0 ) { zend_error ( E_WARNING , ""Modification of ArrayObject during sorting is prohibited"" ) ; return ; } s = p = ( const unsigned char * ) buf ; PHP_VAR_UNSERIALIZE_INIT ( var_hash ) ; if ( * p != 'x' || * ++ p != ':' ) { goto outexcept ; } + p ; ALLOC_INIT_ZVAL ( pflags ) ; if ( ! php_var_unserialize ( & pflags , & p , s + buf_len , & var_hash TSRMLS_CC ) || Z_TYPE_P ( pflags ) != IS_LONG ) { goto outexcept ; } var_push_dtor ( & var_hash , & pflags ) ; flags = Z_LVAL_P ( pflags ) ; if ( * p != ';' ) { goto outexcept ; } + p ; if ( * p != 'm' ) { if ( * p != 'a' && * p != 'O' && * p != 'C' && * p != 'r' ) { goto outexcept ; } intern -> ar_flags &= ~ SPL_ARRAY_CLONE_MASK ; intern -> ar_flags |= flags & SPL_ARRAY_CLONE_MASK ; zval_ptr_dtor ( & intern -> array ) ; ALLOC_INIT_ZVAL ( intern -> array ) ; if ( ! php_var_unserialize ( & intern -> array , & p , s + buf_len , & var_hash TSRMLS_CC ) || ( Z_TYPE_P ( intern -> array ) != IS_ARRAY && Z_TYPE_P ( intern -> array ) != IS_OBJECT ) ) { zval_ptr_dtor ( & intern -> array ) ; goto outexcept ; } var_push_dtor ( & var_hash , & intern -> array ) ; } if ( * p != ';' ) { goto outexcept ; } + p ; if ( * p != 'm' || * ++ p != ':' ) { goto outexcept ; } + p ; ALLOC_INIT_ZVAL ( pmembers ) ; if ( ! php_var_unserialize ( & pmembers , & p , s + buf_len , & var_hash TSRMLS_CC ) || Z_TYPE_P ( pmembers ) != IS_ARRAY ) { zval_ptr_dtor ( & pmembers ) ; goto outexcept ; } var_push_dtor ( & var_hash , & pmembers ) ; if ( ! intern -> std . properties ) { rebuild_object_properties ( & intern -> std ) ; } zend_hash_copy ( intern -> std . properties , Z_ARRVAL_P ( pmembers ) , ( copy_ctor_func_t ) zval_add_ref , ( void * ) NULL , sizeof ( zval * ) ) ; zval_ptr_dtor ( & pmembers ) ; PHP_VAR_UNSERIALIZE_DESTROY ( var_hash ) ; if ( pflags ) { zval_ptr_dtor ( & pflags ) ; } return ; outexcept : PHP_VAR_UNSERIALIZE_DESTROY ( var_hash ) ; if ( pflags ) { zval_ptr_dtor ( & pflags ) ; } zend_throw_exception_ex ( spl_ce_UnexpectedValueException , 0 TSRMLS_CC , ""Error at offset %ld of %d bytes"" , ( long ) ( ( char * ) p - buf ) , buf_len ) ; return ; }" 593,"CWE-20 error_t nicSendPacket ( NetInterface * interface , const NetBuffer * buffer , size_t offset , NetTxAncillary * ancillary ) { error_t error ; bool_t status ; netContext . entropy += netGetSystemTickCount ( ) ; # if ( TRACE_LEVEL >= TRACE_LEVEL_DEBUG ) size_t length = netBufferGetLength ( buffer ) - offset ; TRACE_DEBUG ( ""Sending packet (%"" PRIuSIZE "" bytes)...\\r\\n"" , length ) ; TRACE_DEBUG_NET_BUFFER ( "" "" , buffer , offset , length ) ; # endif if ( interface -> configured && interface -> nicDriver != NULL ) { if ( interface -> nicDriver -> type == NIC_TYPE_LOOPBACK ) { status = TRUE ; } else { status = osWaitForEvent ( & interface -> nicTxEvent , NIC_MAX_BLOCKING_TIME ) ; } if ( status ) { interface -> nicDriver -> disableIrq ( interface ) ; error = interface -> nicDriver -> sendPacket ( interface , buffer , offset , ancillary ) ; if ( interface -> configured ) { interface -> nicDriver -> enableIrq ( interface ) ; } } else { error = NO_ERROR ; } } else { error = ERROR_INVALID_INTERFACE ; } return error ; }","error_t nicSendPacket ( NetInterface * interface , const NetBuffer * buffer , size_t offset , NetTxAncillary * ancillary ) { error_t error ; bool_t status ; # if ( TRACE_LEVEL >= TRACE_LEVEL_DEBUG ) size_t length = netBufferGetLength ( buffer ) - offset ; TRACE_DEBUG ( ""Sending packet (%"" PRIuSIZE "" bytes)...\\r\\n"" , length ) ; TRACE_DEBUG_NET_BUFFER ( "" "" , buffer , offset , length ) ; # endif netContext . entropy += netGetSystemTickCount ( ) ; if ( interface -> configured && interface -> nicDriver != NULL ) { if ( interface -> nicDriver -> type == NIC_TYPE_LOOPBACK ) { status = TRUE ; } else { status = osWaitForEvent ( & interface -> nicTxEvent , NIC_MAX_BLOCKING_TIME ) ; } if ( status ) { interface -> nicDriver -> disableIrq ( interface ) ; error = interface -> nicDriver -> sendPacket ( interface , buffer , offset , ancillary ) ; if ( interface -> configured ) { interface -> nicDriver -> enableIrq ( interface ) ; } } else { error = NO_ERROR ; } } else { error = ERROR_INVALID_INTERFACE ; } return error ; }" 594,"CWE-617 static void update_bar_address ( struct vmctx * ctx , struct pci_vdev * dev , uint64_t addr , int idx , int type , bool ignore_reg_unreg ) { bool decode = false ; uint64_t orig_addr = dev -> bar [ idx ] . addr ; if ( ! ignore_reg_unreg ) { if ( dev -> bar [ idx ] . type == PCIBAR_IO ) decode = porten ( dev ) ; else decode = memen ( dev ) ; } if ( decode ) unregister_bar ( dev , idx ) ; switch ( type ) { case PCIBAR_IO : case PCIBAR_MEM32 : dev -> bar [ idx ] . addr = addr ; break ; case PCIBAR_MEM64 : dev -> bar [ idx ] . addr &= ~ 0xffffffffUL ; dev -> bar [ idx ] . addr |= addr ; break ; case PCIBAR_MEMHI64 : dev -> bar [ idx ] . addr &= 0xffffffff ; dev -> bar [ idx ] . addr |= addr ; break ; default : assert ( 0 ) ; } if ( decode ) register_bar ( dev , idx ) ; if ( dev -> dev_ops -> vdev_update_bar_map && decode ) dev -> dev_ops -> vdev_update_bar_map ( ctx , dev , idx , orig_addr ) ; }","static void update_bar_address ( struct vmctx * ctx , struct pci_vdev * dev , uint64_t addr , int idx , int type , bool ignore_reg_unreg ) { bool decode = false ; uint64_t orig_addr = dev -> bar [ idx ] . addr ; if ( ! ignore_reg_unreg ) { if ( dev -> bar [ idx ] . type == PCIBAR_IO ) decode = porten ( dev ) ; else decode = memen ( dev ) ; } if ( decode ) unregister_bar ( dev , idx ) ; switch ( type ) { case PCIBAR_IO : case PCIBAR_MEM32 : dev -> bar [ idx ] . addr = addr ; break ; case PCIBAR_MEM64 : dev -> bar [ idx ] . addr &= ~ 0xffffffffUL ; dev -> bar [ idx ] . addr |= addr ; break ; case PCIBAR_MEMHI64 : dev -> bar [ idx ] . addr &= 0xffffffff ; dev -> bar [ idx ] . addr |= addr ; break ; default : pr_err ( ""%s: invalid bar type %d\\n"" , __func__ , type ) ; return ; } if ( decode ) register_bar ( dev , idx ) ; if ( dev -> dev_ops -> vdev_update_bar_map && decode ) dev -> dev_ops -> vdev_update_bar_map ( ctx , dev , idx , orig_addr ) ; }" 595,"CWE-264 int xmkstemp ( char * * tmpname , char * dir ) { char * localtmp ; char * tmpenv ; mode_t old_mode ; int fd , rc ; if ( dir != NULL ) tmpenv = dir ; else tmpenv = getenv ( ""TMPDIR"" ) ; if ( tmpenv ) rc = asprintf ( & localtmp , ""%s/%s.XXXXXX"" , tmpenv , program_invocation_short_name ) ; else rc = asprintf ( & localtmp , ""%s/%s.XXXXXX"" , _PATH_TMP , program_invocation_short_name ) ; if ( rc < 0 ) return - 1 ; old_mode = umask ( 077 ) ; fd = mkostemp ( localtmp , O_RDWR | O_CREAT | O_EXCL | O_CLOEXEC ) ; umask ( old_mode ) ; if ( fd == - 1 ) { free ( localtmp ) ; localtmp = NULL ; } * tmpname = localtmp ; return fd ; }","int xmkstemp ( char * * tmpname , const char * dir , const char * prefix ) { char * localtmp ; const char * tmpenv ; mode_t old_mode ; int fd , rc ; tmpenv = dir ? dir : getenv ( ""TMPDIR"" ) ; if ( ! tmpenv ) tmpenv = _PATH_TMP ; rc = asprintf ( & localtmp , ""%s/%s.XXXXXX"" , tmpenv , prefix ) ; if ( rc < 0 ) return - 1 ; old_mode = umask ( 077 ) ; fd = mkostemp ( localtmp , O_RDWR | O_CREAT | O_EXCL | O_CLOEXEC ) ; umask ( old_mode ) ; if ( fd == - 1 ) { free ( localtmp ) ; localtmp = NULL ; } * tmpname = localtmp ; return fd ; }" 596,"CWE-772 int button_open ( Button * b ) { char * p , name [ 256 ] ; int r ; assert ( b ) ; b -> fd = safe_close ( b -> fd ) ; p = strjoina ( ""/dev/input/"" , b -> name ) ; b -> fd = open ( p , O_RDWR | O_CLOEXEC | O_NOCTTY | O_NONBLOCK ) ; if ( b -> fd < 0 ) return log_warning_errno ( errno , ""Failed to open %s: %m"" , p ) ; r = button_suitable ( b ) ; if ( r < 0 ) return log_warning_errno ( r , ""Failed to determine whether input device is relevant to us: %m"" ) ; if ( r == 0 ) return log_debug_errno ( SYNTHETIC_ERRNO ( EADDRNOTAVAIL ) , ""Device %s does not expose keys or switches relevant to us, ignoring."" , p ) ; if ( ioctl ( b -> fd , EVIOCGNAME ( sizeof ( name ) ) , name ) < 0 ) { r = log_error_errno ( errno , ""Failed to get input name: %m"" ) ; goto fail ; } ( void ) button_set_mask ( b ) ; r = sd_event_add_io ( b -> manager -> event , & b -> io_event_source , b -> fd , EPOLLIN , button_dispatch , b ) ; if ( r < 0 ) { log_error_errno ( r , ""Failed to add button event: %m"" ) ; goto fail ; } log_info ( ""Watching system buttons on /dev/input/%s (%s)"" , b -> name , name ) ; return 0 ; fail : b -> fd = safe_close ( b -> fd ) ; return r ; }","int button_open ( Button * b ) { char * p , name [ 256 ] ; int r ; assert ( b ) ; b -> fd = safe_close ( b -> fd ) ; p = strjoina ( ""/dev/input/"" , b -> name ) ; b -> fd = open ( p , O_RDWR | O_CLOEXEC | O_NOCTTY | O_NONBLOCK ) ; if ( b -> fd < 0 ) return log_warning_errno ( errno , ""Failed to open %s: %m"" , p ) ; r = button_suitable ( b ) ; if ( r < 0 ) return log_warning_errno ( r , ""Failed to determine whether input device is relevant to us: %m"" ) ; if ( r == 0 ) return log_debug_errno ( SYNTHETIC_ERRNO ( EADDRNOTAVAIL ) , ""Device %s does not expose keys or switches relevant to us, ignoring."" , p ) ; if ( ioctl ( b -> fd , EVIOCGNAME ( sizeof ( name ) ) , name ) < 0 ) { r = log_error_errno ( errno , ""Failed to get input name: %m"" ) ; goto fail ; } ( void ) button_set_mask ( b ) ; b -> io_event_source = sd_event_source_unref ( b -> io_event_source ) ; r = sd_event_add_io ( b -> manager -> event , & b -> io_event_source , b -> fd , EPOLLIN , button_dispatch , b ) ; if ( r < 0 ) { log_error_errno ( r , ""Failed to add button event: %m"" ) ; goto fail ; } log_info ( ""Watching system buttons on /dev/input/%s (%s)"" , b -> name , name ) ; return 0 ; fail : b -> fd = safe_close ( b -> fd ) ; return r ; }" 597,"CWE-22 void wiki_handle_http_request ( HttpRequest * req ) { HttpResponse * res = http_response_new ( req ) ; char * page = http_request_get_path_info ( req ) ; char * command = http_request_get_query_string ( req ) ; char * wikitext = """" ; util_dehttpize ( page ) ; if ( ! strcmp ( page , ""/"" ) ) { if ( access ( ""WikiHome"" , R_OK ) != 0 ) wiki_redirect ( res , ""/WikiHome?create"" ) ; page = ""/WikiHome"" ; } if ( ! strcmp ( page , ""/styles.css"" ) ) { http_response_set_content_type ( res , ""text/css"" ) ; http_response_printf ( res , ""%s"" , CssData ) ; http_response_send ( res ) ; exit ( 0 ) ; } if ( ! strcmp ( page , ""/favicon.ico"" ) ) { http_response_set_content_type ( res , ""image/ico"" ) ; http_response_set_data ( res , FaviconData , FaviconDataLen ) ; http_response_send ( res ) ; exit ( 0 ) ; } page = page + 1 ; if ( ! strncmp ( page , ""api/"" , 4 ) ) { char * p ; page += 4 ; for ( p = page ; * p != '\\0' ; p ++ ) if ( * p == '?' ) { * p = '\\0' ; break ; } wiki_handle_rest_call ( req , res , page ) ; exit ( 0 ) ; } if ( strchr ( page , '/' ) ) { http_response_set_status ( res , 404 , ""Not Found"" ) ; http_response_printf ( res , ""404 Not Found\\n"" ) ; http_response_send ( res ) ; exit ( 0 ) ; } if ( ! strcmp ( page , ""Changes"" ) ) { wiki_show_changes_page ( res ) ; } else if ( ! strcmp ( page , ""ChangesRss"" ) ) { wiki_show_changes_page_rss ( res ) ; } else if ( ! strcmp ( page , ""Search"" ) ) { wiki_show_search_results_page ( res , http_request_param_get ( req , ""expr"" ) ) ; } else if ( ! strcmp ( page , ""Create"" ) ) { if ( ( wikitext = http_request_param_get ( req , ""title"" ) ) != NULL ) { wiki_redirect ( res , http_request_param_get ( req , ""title"" ) ) ; } else { wiki_show_create_page ( res ) ; } } else { if ( ( wikitext = http_request_param_get ( req , ""wikitext"" ) ) != NULL ) { file_write ( page , wikitext ) ; } if ( access ( page , R_OK ) == 0 ) { wikitext = file_read ( page ) ; if ( ! strcmp ( command , ""edit"" ) ) { wiki_show_edit_page ( res , wikitext , page ) ; } else { wiki_show_page ( res , wikitext , page ) ; } } else { if ( ! strcmp ( command , ""create"" ) )","void wiki_handle_http_request ( HttpRequest * req ) { HttpResponse * res = http_response_new ( req ) ; char * page = http_request_get_path_info ( req ) ; char * command = http_request_get_query_string ( req ) ; char * wikitext = """" ; util_dehttpize ( page ) ; if ( ! strcmp ( page , ""/"" ) ) { if ( access ( ""WikiHome"" , R_OK ) != 0 ) wiki_redirect ( res , ""/WikiHome?create"" ) ; page = ""/WikiHome"" ; } if ( ! strcmp ( page , ""/styles.css"" ) ) { http_response_set_content_type ( res , ""text/css"" ) ; http_response_printf ( res , ""%s"" , CssData ) ; http_response_send ( res ) ; exit ( 0 ) ; } if ( ! strcmp ( page , ""/favicon.ico"" ) ) { http_response_set_content_type ( res , ""image/ico"" ) ; http_response_set_data ( res , FaviconData , FaviconDataLen ) ; http_response_send ( res ) ; exit ( 0 ) ; } page = page + 1 ; if ( ! strncmp ( page , ""api/"" , 4 ) ) { char * p ; page += 4 ; for ( p = page ; * p != '\\0' ; p ++ ) if ( * p == '?' ) { * p = '\\0' ; break ; } wiki_handle_rest_call ( req , res , page ) ; exit ( 0 ) ; } if ( ! page_name_is_good ( page ) ) { http_response_set_status ( res , 404 , ""Not Found"" ) ; http_response_printf ( res , ""404 Not Found\\n"" ) ; http_response_send ( res ) ; exit ( 0 ) ; } if ( ! strcmp ( page , ""Changes"" ) ) { wiki_show_changes_page ( res ) ; } else if ( ! strcmp ( page , ""ChangesRss"" ) ) { wiki_show_changes_page_rss ( res ) ; } else if ( ! strcmp ( page , ""Search"" ) ) { wiki_show_search_results_page ( res , http_request_param_get ( req , ""expr"" ) ) ; } else if ( ! strcmp ( page , ""Create"" ) ) { if ( ( wikitext = http_request_param_get ( req , ""title"" ) ) != NULL ) { wiki_redirect ( res , http_request_param_get ( req , ""title"" ) ) ; } else { wiki_show_create_page ( res ) ; } } else { if ( ( wikitext = http_request_param_get ( req , ""wikitext"" ) ) != NULL ) { file_write ( page , wikitext ) ; } if ( access ( page , R_OK ) == 0 ) { wikitext = file_read ( page ) ; if ( ! strcmp ( command , ""edit"" ) ) { wiki_show_edit_page ( res , wikitext , page ) ; } else { wiki_show_page ( res , wikitext , page ) ; } } else { if ( ! strcmp ( command , ""create"" ) )" 598,"CWE-787 for ( unit = 0 ; ; unit ++ ) { if ( marker == JPEG_MARKER_EOI ) { break ; } else if ( marker == JPEG_MARKER_SOS ) { for ( i = start ; i + 1 < frag -> data_size ; i ++ ) { if ( frag -> data [ i ] != 0xff ) continue ; end = i ; for ( ++ i ; i + 1 < frag -> data_size && frag -> data [ i ] == 0xff ; i ++ ) ; if ( i + 1 >= frag -> data_size ) { next_marker = - 1 ; } else { if ( frag -> data [ i ] == 0x00 ) continue ; next_marker = frag -> data [ i ] ; next_start = i + 1 ; } break ; } } else { i = start ; if ( i + 2 > frag -> data_size ) { av_log ( ctx -> log_ctx , AV_LOG_ERROR , ""Invalid JPEG image: "" ""truncated at %02x marker.\\n"" , marker ) ; return AVERROR_INVALIDDATA ; } length = AV_RB16 ( frag -> data + i ) ; if ( i + length > frag -> data_size ) { av_log ( ctx -> log_ctx , AV_LOG_ERROR , ""Invalid JPEG image: "" ""truncated at %02x marker segment.\\n"" , marker ) ; return AVERROR_INVALIDDATA ; } end = start + length ; i = end ; if ( frag -> data [ i ] != 0xff ) { next_marker = - 1 ; } else { for ( ++ i ; i + 1 < frag -> data_size && frag -> data [ i ] == 0xff ; i ++ ) ; if ( i + 1 >= frag -> data_size ) { next_marker = - 1 ; } else { next_marker = frag -> data [ i ] ; next_start = i + 1 ; } } } if ( marker == JPEG_MARKER_SOS ) { length = AV_RB16 ( frag -> data + start ) ; data_ref = NULL ; data = av_malloc ( end - start + AV_INPUT_BUFFER_PADDING_SIZE ) ; if ( ! data ) return AVERROR ( ENOMEM ) ; memcpy ( data , frag -> data + start , length ) ; for ( i = start + length , j = length ; i < end ; i ++ , j ++ ) { if ( frag -> data [ i ] == 0xff ) { while ( frag -> data [ i ] == 0xff ) data [ j ] = 0xff ; } else { data [ j ] = frag -> data [ i ] ; } } data_size = j ; memset ( data + data_size , 0 , AV_INPUT_BUFFER_PADDING_SIZE ) ; } else { data = frag -> data + start ; data_size = end - start ; data_ref = frag -> data_ref ; } err = ff_cbs_insert_unit_data ( ctx , frag , unit , marker , data , data_size , data_ref ) ; if ( err < 0 ) return err ; if ( next_marker == - 1 ) break ; marker = next_marker ; start = next_start ; } return 0 ; }","for ( unit = 0 ; ; unit ++ ) { if ( marker == JPEG_MARKER_EOI ) { break ; } else if ( marker == JPEG_MARKER_SOS ) { for ( i = start ; i + 1 < frag -> data_size ; i ++ ) { if ( frag -> data [ i ] != 0xff ) continue ; end = i ; for ( ++ i ; i + 1 < frag -> data_size && frag -> data [ i ] == 0xff ; i ++ ) ; if ( i + 1 >= frag -> data_size ) { next_marker = - 1 ; } else { if ( frag -> data [ i ] == 0x00 ) continue ; next_marker = frag -> data [ i ] ; next_start = i + 1 ; } break ; } } else { i = start ; if ( i + 2 > frag -> data_size ) { av_log ( ctx -> log_ctx , AV_LOG_ERROR , ""Invalid JPEG image: "" ""truncated at %02x marker.\\n"" , marker ) ; return AVERROR_INVALIDDATA ; } length = AV_RB16 ( frag -> data + i ) ; if ( i + length > frag -> data_size ) { av_log ( ctx -> log_ctx , AV_LOG_ERROR , ""Invalid JPEG image: "" ""truncated at %02x marker segment.\\n"" , marker ) ; return AVERROR_INVALIDDATA ; } end = start + length ; i = end ; if ( frag -> data [ i ] != 0xff ) { next_marker = - 1 ; } else { for ( ++ i ; i + 1 < frag -> data_size && frag -> data [ i ] == 0xff ; i ++ ) ; if ( i + 1 >= frag -> data_size ) { next_marker = - 1 ; } else { next_marker = frag -> data [ i ] ; next_start = i + 1 ; } } } if ( marker == JPEG_MARKER_SOS ) { length = AV_RB16 ( frag -> data + start ) ; if ( length > end - start ) return AVERROR_INVALIDDATA ; data_ref = NULL ; data = av_malloc ( end - start + AV_INPUT_BUFFER_PADDING_SIZE ) ; if ( ! data ) return AVERROR ( ENOMEM ) ; memcpy ( data , frag -> data + start , length ) ; for ( i = start + length , j = length ; i < end ; i ++ , j ++ ) { if ( frag -> data [ i ] == 0xff ) { while ( frag -> data [ i ] == 0xff ) + i ; data [ j ] = 0xff ; } else { data [ j ] = frag -> data [ i ] ; } } data_size = j ; memset ( data + data_size , 0 , AV_INPUT_BUFFER_PADDING_SIZE ) ; } else { data = frag -> data + start ; data_size = end - start ; data_ref = frag -> data_ref ; } err = ff_cbs_insert_unit_data ( ctx , frag , unit , marker , data , data_size , data_ref ) ; if ( err < 0 ) return err ; if ( next_marker == - 1 ) break ; marker = next_marker ; start = next_start ; } return 0 ; }" 599,"CWE-20 static int recv_stream ( struct kiocb * iocb , struct socket * sock , struct msghdr * m , size_t buf_len , int flags ) { struct sock * sk = sock -> sk ; struct tipc_port * tport = tipc_sk_port ( sk ) ; struct sk_buff * buf ; struct tipc_msg * msg ; long timeout ; unsigned int sz ; int sz_to_copy , target , needed ; int sz_copied = 0 ; u32 err ; int res = 0 ; if ( unlikely ( ! buf_len ) ) return - EINVAL ; lock_sock ( sk ) ; if ( unlikely ( ( sock -> state == SS_UNCONNECTED ) ) ) { res = - ENOTCONN ; goto exit ; } m -> msg_namelen = 0 ; target = sock_rcvlowat ( sk , flags & MSG_WAITALL , buf_len ) ; timeout = sock_rcvtimeo ( sk , flags & MSG_DONTWAIT ) ; restart : while ( skb_queue_empty ( & sk -> sk_receive_queue ) ) { if ( sock -> state == SS_DISCONNECTING ) { res = - ENOTCONN ; goto exit ; } if ( timeout <= 0L ) { res = timeout ? timeout : - EWOULDBLOCK ; goto exit ; } release_sock ( sk ) ; timeout = wait_event_interruptible_timeout ( * sk_sleep ( sk ) , tipc_rx_ready ( sock ) , timeout ) ; lock_sock ( sk ) ; } buf = skb_peek ( & sk -> sk_receive_queue ) ; msg = buf_msg ( buf ) ; sz = msg_data_sz ( msg ) ; err = msg_errcode ( msg ) ; if ( ( ! sz ) && ( ! err ) ) { advance_rx_queue ( sk ) ; goto restart ; } if ( sz_copied == 0 ) { set_orig_addr ( m , msg ) ; res = anc_data_recv ( m , msg , tport ) ; if ( res ) goto exit ; } if ( ! err ) { u32 offset = ( u32 ) ( unsigned long ) ( TIPC_SKB_CB ( buf ) -> handle ) ; sz -= offset ; needed = ( buf_len - sz_copied ) ; sz_to_copy = ( sz <= needed ) ? sz : needed ; res = skb_copy_datagram_iovec ( buf , msg_hdr_sz ( msg ) + offset , m -> msg_iov , sz_to_copy ) ; if ( res ) goto exit ; sz_copied += sz_to_copy ; if ( sz_to_copy < sz ) { if ( ! ( flags & MSG_PEEK ) ) TIPC_SKB_CB ( buf ) -> handle = ( void * ) ( unsigned long ) ( offset + sz_to_copy ) ; goto exit ; } } else { if ( sz_copied != 0 )","static int recv_stream ( struct kiocb * iocb , struct socket * sock , struct msghdr * m , size_t buf_len , int flags ) { struct sock * sk = sock -> sk ; struct tipc_port * tport = tipc_sk_port ( sk ) ; struct sk_buff * buf ; struct tipc_msg * msg ; long timeout ; unsigned int sz ; int sz_to_copy , target , needed ; int sz_copied = 0 ; u32 err ; int res = 0 ; if ( unlikely ( ! buf_len ) ) return - EINVAL ; lock_sock ( sk ) ; if ( unlikely ( ( sock -> state == SS_UNCONNECTED ) ) ) { res = - ENOTCONN ; goto exit ; } target = sock_rcvlowat ( sk , flags & MSG_WAITALL , buf_len ) ; timeout = sock_rcvtimeo ( sk , flags & MSG_DONTWAIT ) ; restart : while ( skb_queue_empty ( & sk -> sk_receive_queue ) ) { if ( sock -> state == SS_DISCONNECTING ) { res = - ENOTCONN ; goto exit ; } if ( timeout <= 0L ) { res = timeout ? timeout : - EWOULDBLOCK ; goto exit ; } release_sock ( sk ) ; timeout = wait_event_interruptible_timeout ( * sk_sleep ( sk ) , tipc_rx_ready ( sock ) , timeout ) ; lock_sock ( sk ) ; } buf = skb_peek ( & sk -> sk_receive_queue ) ; msg = buf_msg ( buf ) ; sz = msg_data_sz ( msg ) ; err = msg_errcode ( msg ) ; if ( ( ! sz ) && ( ! err ) ) { advance_rx_queue ( sk ) ; goto restart ; } if ( sz_copied == 0 ) { set_orig_addr ( m , msg ) ; res = anc_data_recv ( m , msg , tport ) ; if ( res ) goto exit ; } if ( ! err ) { u32 offset = ( u32 ) ( unsigned long ) ( TIPC_SKB_CB ( buf ) -> handle ) ; sz -= offset ; needed = ( buf_len - sz_copied ) ; sz_to_copy = ( sz <= needed ) ? sz : needed ; res = skb_copy_datagram_iovec ( buf , msg_hdr_sz ( msg ) + offset , m -> msg_iov , sz_to_copy ) ; if ( res ) goto exit ; sz_copied += sz_to_copy ; if ( sz_to_copy < sz ) { if ( ! ( flags & MSG_PEEK ) ) TIPC_SKB_CB ( buf ) -> handle = ( void * ) ( unsigned long ) ( offset + sz_to_copy ) ; goto exit ; } } else { if ( sz_copied != 0 )" 600,"CWE-125 static int xid_map_enter ( netdissect_options * ndo , const struct sunrpc_msg * rp , const u_char * bp ) { const struct ip * ip = NULL ; const struct ip6_hdr * ip6 = NULL ; struct xid_map_entry * xmep ; if ( ! ND_TTEST ( rp -> rm_call . cb_vers ) ) return ( 0 ) ; switch ( IP_V ( ( const struct ip * ) bp ) ) { case 4 : ip = ( const struct ip * ) bp ; break ; case 6 : ip6 = ( const struct ip6_hdr * ) bp ; break ; default : return ( 1 ) ; } xmep = & xid_map [ xid_map_next ] ; if ( ++ xid_map_next >= XIDMAPSIZE ) xid_map_next = 0 ; UNALIGNED_MEMCPY ( & xmep -> xid , & rp -> rm_xid , sizeof ( xmep -> xid ) ) ; if ( ip ) { xmep -> ipver = 4 ; UNALIGNED_MEMCPY ( & xmep -> client , & ip -> ip_src , sizeof ( ip -> ip_src ) ) ; UNALIGNED_MEMCPY ( & xmep -> server , & ip -> ip_dst , sizeof ( ip -> ip_dst ) ) ; } else if ( ip6 ) { xmep -> ipver = 6 ; UNALIGNED_MEMCPY ( & xmep -> client , & ip6 -> ip6_src , sizeof ( ip6 -> ip6_src ) ) ; UNALIGNED_MEMCPY ( & xmep -> server , & ip6 -> ip6_dst , sizeof ( ip6 -> ip6_dst ) ) ; } xmep -> proc = EXTRACT_32BITS ( & rp -> rm_call . cb_proc ) ; xmep -> vers = EXTRACT_32BITS ( & rp -> rm_call . cb_vers ) ; return ( 1 ) ; }","static int xid_map_enter ( netdissect_options * ndo , const struct sunrpc_msg * rp , const u_char * bp ) { const struct ip * ip = NULL ; const struct ip6_hdr * ip6 = NULL ; struct xid_map_entry * xmep ; if ( ! ND_TTEST ( rp -> rm_call . cb_vers ) ) return ( 0 ) ; switch ( IP_V ( ( const struct ip * ) bp ) ) { case 4 : ip = ( const struct ip * ) bp ; break ; case 6 : ip6 = ( const struct ip6_hdr * ) bp ; break ; default : return ( 1 ) ; } xmep = & xid_map [ xid_map_next ] ; if ( ++ xid_map_next >= XIDMAPSIZE ) xid_map_next = 0 ; UNALIGNED_MEMCPY ( & xmep -> xid , & rp -> rm_xid , sizeof ( xmep -> xid ) ) ; if ( ip ) { xmep -> ipver = 4 ; UNALIGNED_MEMCPY ( & xmep -> client , & ip -> ip_src , sizeof ( ip -> ip_src ) ) ; UNALIGNED_MEMCPY ( & xmep -> server , & ip -> ip_dst , sizeof ( ip -> ip_dst ) ) ; } else if ( ip6 ) { xmep -> ipver = 6 ; UNALIGNED_MEMCPY ( & xmep -> client , & ip6 -> ip6_src , sizeof ( ip6 -> ip6_src ) ) ; UNALIGNED_MEMCPY ( & xmep -> server , & ip6 -> ip6_dst , sizeof ( ip6 -> ip6_dst ) ) ; } if ( ! ND_TTEST ( rp -> rm_call . cb_proc ) ) return ( 0 ) ; xmep -> proc = EXTRACT_32BITS ( & rp -> rm_call . cb_proc ) ; if ( ! ND_TTEST ( rp -> rm_call . cb_vers ) ) return ( 0 ) ; xmep -> vers = EXTRACT_32BITS ( & rp -> rm_call . cb_vers ) ; return ( 1 ) ; }" 601,"CWE-17 static long ext4_zero_range ( struct file * file , loff_t offset , loff_t len , int mode ) { struct inode * inode = file_inode ( file ) ; handle_t * handle = NULL ; unsigned int max_blocks ; loff_t new_size = 0 ; int ret = 0 ; int flags ; int credits ; int partial_begin , partial_end ; loff_t start , end ; ext4_lblk_t lblk ; struct address_space * mapping = inode -> i_mapping ; unsigned int blkbits = inode -> i_blkbits ; trace_ext4_zero_range ( inode , offset , len , mode ) ; if ( ! S_ISREG ( inode -> i_mode ) ) return - EINVAL ; if ( ext4_should_journal_data ( inode ) ) { ret = ext4_force_commit ( inode -> i_sb ) ; if ( ret ) return ret ; } if ( mapping -> nrpages && mapping_tagged ( mapping , PAGECACHE_TAG_DIRTY ) ) { ret = filemap_write_and_wait_range ( mapping , offset , offset + len - 1 ) ; if ( ret ) return ret ; } start = round_up ( offset , 1 << blkbits ) ; end = round_down ( ( offset + len ) , 1 << blkbits ) ; if ( start < offset || end > offset + len ) return - EINVAL ; partial_begin = offset & ( ( 1 << blkbits ) - 1 ) ; partial_end = ( offset + len ) & ( ( 1 << blkbits ) - 1 ) ; lblk = start >> blkbits ; max_blocks = ( end >> blkbits ) ; if ( max_blocks < lblk ) max_blocks = 0 ; else max_blocks -= lblk ; flags = EXT4_GET_BLOCKS_CREATE_UNWRIT_EXT | EXT4_GET_BLOCKS_CONVERT_UNWRITTEN | EXT4_EX_NOCACHE ; if ( mode & FALLOC_FL_KEEP_SIZE ) flags |= EXT4_GET_BLOCKS_KEEP_SIZE ; mutex_lock ( & inode -> i_mutex ) ; if ( ! ( ext4_test_inode_flag ( inode , EXT4_INODE_EXTENTS ) ) ) { ret = - EOPNOTSUPP ; goto out_mutex ; } if ( ! ( mode & FALLOC_FL_KEEP_SIZE ) && offset + len > i_size_read ( inode ) ) { new_size = offset + len ; ret = inode_newsize_ok ( inode , new_size ) ; if ( ret ) goto out_mutex ; if ( partial_end ) max_blocks += 1 ; } if ( max_blocks > 0 ) { truncate_pagecache_range ( inode , start , end - 1 ) ; inode -> i_mtime = inode -> i_ctime = ext4_current_time ( inode ) ; ext4_inode_block_unlocked_dio ( inode ) ; inode_dio_wait ( inode ) ; ret = ext4_alloc_file_blocks ( file , lblk , max_blocks , new_size , flags , mode ) ; if ( ret ) goto out_dio ; ret = ext4_es_remove_extent ( inode , 0 , EXT_MAX_BLOCKS ) ; if ( ret ) goto out_dio ; } if ( ! partial_begin && ! partial_end ) goto out_dio ; credits = ( 2 * ext4_ext_index_trans_blocks ( inode , 2 ) ) + 1 ; if ( ext4_should_journal_data ( inode ) ) credits += 2 ; handle = ext4_journal_start ( inode , EXT4_HT_MISC , credits ) ; if ( IS_ERR ( handle ) ) { ret = PTR_ERR ( handle ) ; ext4_std_error ( inode -> i_sb , ret ) ; goto out_dio ; } inode -> i_mtime = inode -> i_ctime = ext4_current_time ( inode ) ; if ( new_size ) { ext4_update_inode_size ( inode , new_size ) ; } else { if ( ( offset + len ) > i_size_read ( inode ) ) ext4_set_inode_flag ( inode , EXT4_INODE_EOFBLOCKS ) ; } ext4_mark_inode_dirty ( handle , inode ) ; ret = ext4_zero_partial_blocks ( handle , inode , offset , len ) ; if ( file -> f_flags & O_SYNC ) ext4_handle_sync ( handle ) ; ext4_journal_stop ( handle ) ; out_dio : ext4_inode_resume_unlocked_dio ( inode ) ; out_mutex : mutex_unlock ( & inode -> i_mutex ) ; return ret ; }","static long ext4_zero_range ( struct file * file , loff_t offset , loff_t len , int mode ) { struct inode * inode = file_inode ( file ) ; handle_t * handle = NULL ; unsigned int max_blocks ; loff_t new_size = 0 ; int ret = 0 ; int flags ; int credits ; int partial_begin , partial_end ; loff_t start , end ; ext4_lblk_t lblk ; struct address_space * mapping = inode -> i_mapping ; unsigned int blkbits = inode -> i_blkbits ; trace_ext4_zero_range ( inode , offset , len , mode ) ; if ( ! S_ISREG ( inode -> i_mode ) ) return - EINVAL ; if ( ext4_should_journal_data ( inode ) ) { ret = ext4_force_commit ( inode -> i_sb ) ; if ( ret ) return ret ; } if ( mapping -> nrpages && mapping_tagged ( mapping , PAGECACHE_TAG_DIRTY ) ) { ret = filemap_write_and_wait_range ( mapping , offset , offset + len - 1 ) ; if ( ret ) return ret ; } start = round_up ( offset , 1 << blkbits ) ; end = round_down ( ( offset + len ) , 1 << blkbits ) ; if ( start < offset || end > offset + len ) return - EINVAL ; partial_begin = offset & ( ( 1 << blkbits ) - 1 ) ; partial_end = ( offset + len ) & ( ( 1 << blkbits ) - 1 ) ; lblk = start >> blkbits ; max_blocks = ( end >> blkbits ) ; if ( max_blocks < lblk ) max_blocks = 0 ; else max_blocks -= lblk ; mutex_lock ( & inode -> i_mutex ) ; if ( ! ( ext4_test_inode_flag ( inode , EXT4_INODE_EXTENTS ) ) ) { ret = - EOPNOTSUPP ; goto out_mutex ; } if ( ! ( mode & FALLOC_FL_KEEP_SIZE ) && offset + len > i_size_read ( inode ) ) { new_size = offset + len ; ret = inode_newsize_ok ( inode , new_size ) ; if ( ret ) goto out_mutex ; } flags = EXT4_GET_BLOCKS_CREATE_UNWRIT_EXT ; if ( mode & FALLOC_FL_KEEP_SIZE ) flags |= EXT4_GET_BLOCKS_KEEP_SIZE ; if ( partial_begin || partial_end ) { ret = ext4_alloc_file_blocks ( file , round_down ( offset , 1 << blkbits ) >> blkbits , ( round_up ( ( offset + len ) , 1 << blkbits ) - round_down ( offset , 1 << blkbits ) ) >> blkbits , new_size , flags , mode ) ; if ( ret ) goto out_mutex ; } if ( max_blocks > 0 ) { flags |= ( EXT4_GET_BLOCKS_CONVERT_UNWRITTEN | EXT4_EX_NOCACHE ) ; truncate_pagecache_range ( inode , start , end - 1 ) ; inode -> i_mtime = inode -> i_ctime = ext4_current_time ( inode ) ; ext4_inode_block_unlocked_dio ( inode ) ; inode_dio_wait ( inode ) ; ret = ext4_alloc_file_blocks ( file , lblk , max_blocks , new_size , flags , mode ) ; if ( ret ) goto out_dio ; ret = ext4_es_remove_extent ( inode , 0 , EXT_MAX_BLOCKS ) ; if ( ret ) goto out_dio ; } if ( ! partial_begin && ! partial_end ) goto out_dio ; credits = ( 2 * ext4_ext_index_trans_blocks ( inode , 2 ) ) + 1 ; if ( ext4_should_journal_data ( inode ) ) credits += 2 ; handle = ext4_journal_start ( inode , EXT4_HT_MISC , credits ) ; if ( IS_ERR ( handle ) ) { ret = PTR_ERR ( handle ) ; ext4_std_error ( inode -> i_sb , ret ) ; goto out_dio ; } inode -> i_mtime = inode -> i_ctime = ext4_current_time ( inode ) ; if ( new_size ) { ext4_update_inode_size ( inode , new_size ) ; } else { if ( ( offset + len ) > i_size_read ( inode ) ) ext4_set_inode_flag ( inode , EXT4_INODE_EOFBLOCKS ) ; } ext4_mark_inode_dirty ( handle , inode ) ; ret = ext4_zero_partial_blocks ( handle , inode , offset , len ) ; if ( file -> f_flags & O_SYNC ) ext4_handle_sync ( handle ) ; ext4_journal_stop ( handle ) ; out_dio : ext4_inode_resume_unlocked_dio ( inode ) ; out_mutex : mutex_unlock ( & inode -> i_mutex ) ; return ret ; }" 602,"CWE-119 static future_t * init ( void ) { pthread_mutex_init ( & lock , NULL ) ; config = config_new ( CONFIG_FILE_PATH ) ; if ( ! config ) { LOG_WARN ( LOG_TAG , ""%s unable to load config file; attempting to transcode legacy file."" , __func__ ) ; config = btif_config_transcode ( LEGACY_CONFIG_FILE_PATH ) ; if ( ! config ) { LOG_WARN ( LOG_TAG , ""%s unable to transcode legacy file, starting unconfigured."" , __func__ ) ; config = config_new_empty ( ) ; if ( ! config ) { LOG_ERROR ( LOG_TAG , ""%s unable to allocate a config object."" , __func__ ) ; goto error ; } } if ( config_save ( config , CONFIG_FILE_PATH ) ) unlink ( LEGACY_CONFIG_FILE_PATH ) ; } alarm_timer = alarm_new ( ) ; if ( ! alarm_timer ) { LOG_ERROR ( LOG_TAG , ""%s unable to create alarm."" , __func__ ) ; goto error ; } return future_new_immediate ( FUTURE_SUCCESS ) ; error : ; alarm_free ( alarm_timer ) ; config_free ( config ) ; pthread_mutex_destroy ( & lock ) ; alarm_timer = NULL ; config = NULL ; return future_new_immediate ( FUTURE_FAIL ) ; }","static future_t * init ( void ) { pthread_mutex_init ( & lock , NULL ) ; config = config_new ( CONFIG_FILE_PATH ) ; if ( ! config ) { LOG_WARN ( LOG_TAG , ""%s unable to load config file; attempting to transcode legacy file."" , __func__ ) ; config = btif_config_transcode ( LEGACY_CONFIG_FILE_PATH ) ; if ( ! config ) { LOG_WARN ( LOG_TAG , ""%s unable to transcode legacy file, starting unconfigured."" , __func__ ) ; config = config_new_empty ( ) ; if ( ! config ) { LOG_ERROR ( LOG_TAG , ""%s unable to allocate a config object."" , __func__ ) ; goto error ; } } if ( config_save ( config , CONFIG_FILE_PATH ) ) unlink ( LEGACY_CONFIG_FILE_PATH ) ; } btif_config_devcache_cleanup ( ) ; alarm_timer = alarm_new ( ) ; if ( ! alarm_timer ) { LOG_ERROR ( LOG_TAG , ""%s unable to create alarm."" , __func__ ) ; goto error ; } return future_new_immediate ( FUTURE_SUCCESS ) ; error : ; alarm_free ( alarm_timer ) ; config_free ( config ) ; pthread_mutex_destroy ( & lock ) ; alarm_timer = NULL ; config = NULL ; return future_new_immediate ( FUTURE_FAIL ) ; }" 603,"CWE-119 static const char * parse_string ( cJSON * item , const char * str ) { const char * ptr = str + 1 ; char * ptr2 ; char * out ; int len = 0 ; unsigned uc , uc2 ; if ( * str != \'\\""\' ) { ep = str ; return 0 ; } while ( * ptr != \'\\""\' && * ptr && ++ len ) if ( * ptr ++ == '\\\\' ) ptr ++ ; if ( ! ( out = ( char * ) cJSON_malloc ( len + 1 ) ) ) return 0 ; ptr = str + 1 ; ptr2 = out ; while ( * ptr != \'\\""\' && * ptr ) { if ( * ptr != '\\\\' ) * ptr2 ++ = * ptr ++ ; else { ptr ++ ; switch ( * ptr ) { case 'b' : * ptr2 ++ = '\\b' ; break ; case 'f' : * ptr2 ++ = '\\f' ; break ; case 'n' : * ptr2 ++ = '\\n' ; break ; case 'r' : * ptr2 ++ = '\\r' ; break ; case 't' : * ptr2 ++ = '\\t' ; break ; case 'u' : sscanf ( ptr + 1 , ""%4x"" , & uc ) ; ptr += 4 ; if ( ( uc >= 0xDC00 && uc <= 0xDFFF ) || uc == 0 ) break ; if ( uc >= 0xD800 && uc <= 0xDBFF ) { if ( ptr [ 1 ] != '\\\\' || ptr [ 2 ] != 'u' ) break ; sscanf ( ptr + 3 , ""%4x"" , & uc2 ) ; ptr += 6 ; if ( uc2 < 0xDC00 || uc2 > 0xDFFF ) break ; uc = 0x10000 | ( ( uc & 0x3FF ) << 10 ) | ( uc2 & 0x3FF ) ; } len = 4 ; if ( uc < 0x80 ) len = 1 ; else if ( uc < 0x800 ) len = 2 ; else if ( uc < 0x10000 ) len = 3 ; ptr2 += len ; switch ( len ) { case 4 : * -- ptr2 = ( ( uc | 0x80 ) & 0xBF ) ; uc >>= 6 ; case 3 : * -- ptr2 = ( ( uc | 0x80 ) & 0xBF ) ; uc >>= 6 ; case 2 : * -- ptr2 = ( ( uc | 0x80 ) & 0xBF ) ; uc >>= 6 ; case 1 : * -- ptr2 = ( uc | firstByteMark [ len ] ) ; } ptr2 += len ; break ; default : * ptr2 ++ = * ptr ; break ; } ++ ptr ; } } * ptr2 = 0 ; if ( * ptr == \'\\""\' ) ++ ptr ; item -> valuestring = out ; item -> type = cJSON_String ; return ptr ; }","static const char * parse_string ( cJSON * item , const char * str , const char * * ep ) { const char * ptr = str + 1 , * end_ptr = str + 1 ; char * ptr2 ; char * out ; int len = 0 ; unsigned uc , uc2 ; if ( * str != \'\\""\' ) { * ep = str ; return 0 ; } while ( * end_ptr != \'\\""\' && * end_ptr && ++ len ) if ( * end_ptr ++ == '\\\\' ) end_ptr ++ ; out = ( char * ) cJSON_malloc ( len + 1 ) ; if ( ! out ) return 0 ; item -> valuestring = out ; item -> type = cJSON_String ; ptr = str + 1 ; ptr2 = out ; while ( ptr < end_ptr ) { if ( * ptr != '\\\\' ) * ptr2 ++ = * ptr ++ ; else { ptr ++ ; switch ( * ptr ) { case 'b' : * ptr2 ++ = '\\b' ; break ; case 'f' : * ptr2 ++ = '\\f' ; break ; case 'n' : * ptr2 ++ = '\\n' ; break ; case 'r' : * ptr2 ++ = '\\r' ; break ; case 't' : * ptr2 ++ = '\\t' ; break ; case 'u' : uc = parse_hex4 ( ptr + 1 ) ; ptr += 4 ; if ( ptr >= end_ptr ) { * ep = str ; return 0 ; } if ( ( uc >= 0xDC00 && uc <= 0xDFFF ) || uc == 0 ) { * ep = str ; return 0 ; } if ( uc >= 0xD800 && uc <= 0xDBFF ) { if ( ptr + 6 > end_ptr ) { * ep = str ; return 0 ; } if ( ptr [ 1 ] != '\\\\' || ptr [ 2 ] != 'u' ) { * ep = str ; return 0 ; } uc2 = parse_hex4 ( ptr + 3 ) ; ptr += 6 ; if ( uc2 < 0xDC00 || uc2 > 0xDFFF ) { * ep = str ; return 0 ; } uc = 0x10000 + ( ( ( uc & 0x3FF ) << 10 ) | ( uc2 & 0x3FF ) ) ; } len = 4 ; if ( uc < 0x80 ) len = 1 ; else if ( uc < 0x800 ) len = 2 ; else if ( uc < 0x10000 ) len = 3 ; ptr2 += len ; switch ( len ) { case 4 : * -- ptr2 = ( ( uc | 0x80 ) & 0xBF ) ; uc >>= 6 ; case 3 : * -- ptr2 = ( ( uc | 0x80 ) & 0xBF ) ; uc >>= 6 ; case 2 : * -- ptr2 = ( ( uc | 0x80 ) & 0xBF ) ; uc >>= 6 ; case 1 : * -- ptr2 = ( uc | firstByteMark [ len ] ) ; } ptr2 += len ; break ; default : * ptr2 ++ = * ptr ; break ; } ptr ++ ; } } * ptr2 = 0 ; if ( * ptr == \'\\""\' ) ptr ++ ; return ptr ; }" 604,"CWE-125 case dotted_name : if ( NCH ( n ) == 1 ) { node * name_node = CHILD ( n , 0 ) ; name = NEW_IDENTIFIER ( name_node ) ; if ( ! name ) return NULL ; if ( store && forbidden_name ( c , name , name_node , 0 ) ) return NULL ; return alias ( name , NULL , c -> c_arena ) ; } else { int i ; size_t len ; char * s ; PyObject * uni ; len = 0 ; for ( i = 0 ; i < NCH ( n ) ; i += 2 ) len += strlen ( STR ( CHILD ( n , i ) ) ) + 1 ; len -- ; str = PyBytes_FromStringAndSize ( NULL , len ) ; if ( ! str ) return NULL ; s = PyBytes_AS_STRING ( str ) ; if ( ! s ) return NULL ; for ( i = 0 ; i < NCH ( n ) ; i += 2 ) { char * sch = STR ( CHILD ( n , i ) ) ; strcpy ( s , STR ( CHILD ( n , i ) ) ) ; s += strlen ( sch ) ; * s ++ = '.' ; } - s ; * s = '\\0' ; uni = PyUnicode_DecodeUTF8 ( PyBytes_AS_STRING ( str ) , PyBytes_GET_SIZE ( str ) , NULL ) ; Py_DECREF ( str ) ; if ( ! uni ) return NULL ; str = uni ; PyUnicode_InternInPlace ( & str ) ; if ( PyArena_AddPyObject ( c -> c_arena , str ) < 0 ) { Py_DECREF ( str ) ; return NULL ; } return alias ( str , NULL , c -> c_arena ) ; } break ; case STAR : str = PyUnicode_InternFromString ( ""*"" ) ; if ( PyArena_AddPyObject ( c -> c_arena , str ) < 0 ) { Py_DECREF ( str ) ; return NULL ; } return alias ( str , NULL , c -> c_arena ) ; default : PyErr_Format ( PyExc_SystemError , ""unexpected import name: %d"" , TYPE ( n ) ) ; return NULL ; } PyErr_SetString ( PyExc_SystemError , ""unhandled import name condition"" ) ; return NULL ; }","case dotted_name : if ( NCH ( n ) == 1 ) { node * name_node = CHILD ( n , 0 ) ; name = NEW_IDENTIFIER ( name_node ) ; if ( ! name ) return NULL ; if ( store && forbidden_name ( c , name , name_node , 0 ) ) return NULL ; return alias ( name , NULL , c -> c_arena ) ; } else { int i ; size_t len ; char * s ; PyObject * uni ; len = 0 ; for ( i = 0 ; i < NCH ( n ) ; i += 2 ) len += strlen ( STR ( CHILD ( n , i ) ) ) + 1 ; len -- ; str = PyBytes_FromStringAndSize ( NULL , len ) ; if ( ! str ) return NULL ; s = PyBytes_AS_STRING ( str ) ; if ( ! s ) return NULL ; for ( i = 0 ; i < NCH ( n ) ; i += 2 ) { char * sch = STR ( CHILD ( n , i ) ) ; strcpy ( s , STR ( CHILD ( n , i ) ) ) ; s += strlen ( sch ) ; * s ++ = '.' ; } * s = '\\0' ; uni = PyUnicode_DecodeUTF8 ( PyBytes_AS_STRING ( str ) , PyBytes_GET_SIZE ( str ) , NULL ) ; Py_DECREF ( str ) ; if ( ! uni ) return NULL ; str = uni ; PyUnicode_InternInPlace ( & str ) ; if ( PyArena_AddPyObject ( c -> c_arena , str ) < 0 ) { Py_DECREF ( str ) ; return NULL ; } return alias ( str , NULL , c -> c_arena ) ; } break ; case STAR : str = PyUnicode_InternFromString ( ""*"" ) ; if ( ! str ) return NULL ; if ( PyArena_AddPyObject ( c -> c_arena , str ) < 0 ) { Py_DECREF ( str ) ; return NULL ; } return alias ( str , NULL , c -> c_arena ) ; default : PyErr_Format ( PyExc_SystemError , ""unexpected import name: %d"" , TYPE ( n ) ) ; return NULL ; } PyErr_SetString ( PyExc_SystemError , ""unhandled import name condition"" ) ; return NULL ; }" 605,"CWE-119 static int unix_attach_fds ( struct scm_cookie * scm , struct sk_buff * skb ) { int i ; unsigned char max_level = 0 ; int unix_sock_count = 0 ; for ( i = scm -> fp -> count - 1 ; i >= 0 ; i -- ) { struct sock * sk = unix_get_socket ( scm -> fp -> fp [ i ] ) ; if ( sk ) { unix_sock_count ++ ; max_level = max ( max_level , unix_sk ( sk ) -> recursion_level ) ; } } if ( unlikely ( max_level > MAX_RECURSION_LEVEL ) ) return - ETOOMANYREFS ; UNIXCB ( skb ) . fp = scm_fp_dup ( scm -> fp ) ; if ( ! UNIXCB ( skb ) . fp ) return - ENOMEM ; if ( unix_sock_count ) { for ( i = scm -> fp -> count - 1 ; i >= 0 ; i -- ) unix_inflight ( scm -> fp -> fp [ i ] ) ; } return max_level ; }","static int unix_attach_fds ( struct scm_cookie * scm , struct sk_buff * skb ) { int i ; unsigned char max_level = 0 ; int unix_sock_count = 0 ; if ( too_many_unix_fds ( current ) ) return - ETOOMANYREFS ; for ( i = scm -> fp -> count - 1 ; i >= 0 ; i -- ) { struct sock * sk = unix_get_socket ( scm -> fp -> fp [ i ] ) ; if ( sk ) { unix_sock_count ++ ; max_level = max ( max_level , unix_sk ( sk ) -> recursion_level ) ; } } if ( unlikely ( max_level > MAX_RECURSION_LEVEL ) ) return - ETOOMANYREFS ; UNIXCB ( skb ) . fp = scm_fp_dup ( scm -> fp ) ; if ( ! UNIXCB ( skb ) . fp ) return - ENOMEM ; for ( i = scm -> fp -> count - 1 ; i >= 0 ; i -- ) unix_inflight ( scm -> fp -> fp [ i ] ) ; return max_level ; }" 606,"CWE-362 struct sock * dccp_v4_request_recv_sock ( struct sock * sk , struct sk_buff * skb , struct request_sock * req , struct dst_entry * dst ) { struct inet_request_sock * ireq ; struct inet_sock * newinet ; struct sock * newsk ; if ( sk_acceptq_is_full ( sk ) ) goto exit_overflow ; if ( dst == NULL && ( dst = inet_csk_route_req ( sk , req ) ) == NULL ) goto exit ; newsk = dccp_create_openreq_child ( sk , req , skb ) ; if ( newsk == NULL ) goto exit_nonewsk ; sk_setup_caps ( newsk , dst ) ; newinet = inet_sk ( newsk ) ; ireq = inet_rsk ( req ) ; newinet -> inet_daddr = ireq -> rmt_addr ; newinet -> inet_rcv_saddr = ireq -> loc_addr ; newinet -> inet_saddr = ireq -> loc_addr ; newinet -> opt = ireq -> opt ; ireq -> opt = NULL ; newinet -> mc_index = inet_iif ( skb ) ; newinet -> mc_ttl = ip_hdr ( skb ) -> ttl ; newinet -> inet_id = jiffies ; dccp_sync_mss ( newsk , dst_mtu ( dst ) ) ; if ( __inet_inherit_port ( sk , newsk ) < 0 ) { sock_put ( newsk ) ; goto exit ; } __inet_hash_nolisten ( newsk , NULL ) ; return newsk ; exit_overflow : NET_INC_STATS_BH ( sock_net ( sk ) , LINUX_MIB_LISTENOVERFLOWS ) ; exit_nonewsk : dst_release ( dst ) ; exit : NET_INC_STATS_BH ( sock_net ( sk ) , LINUX_MIB_LISTENDROPS ) ; return NULL ; }","struct sock * dccp_v4_request_recv_sock ( struct sock * sk , struct sk_buff * skb , struct request_sock * req , struct dst_entry * dst ) { struct inet_request_sock * ireq ; struct inet_sock * newinet ; struct sock * newsk ; if ( sk_acceptq_is_full ( sk ) ) goto exit_overflow ; if ( dst == NULL && ( dst = inet_csk_route_req ( sk , req ) ) == NULL ) goto exit ; newsk = dccp_create_openreq_child ( sk , req , skb ) ; if ( newsk == NULL ) goto exit_nonewsk ; sk_setup_caps ( newsk , dst ) ; newinet = inet_sk ( newsk ) ; ireq = inet_rsk ( req ) ; newinet -> inet_daddr = ireq -> rmt_addr ; newinet -> inet_rcv_saddr = ireq -> loc_addr ; newinet -> inet_saddr = ireq -> loc_addr ; newinet -> inet_opt = ireq -> opt ; ireq -> opt = NULL ; newinet -> mc_index = inet_iif ( skb ) ; newinet -> mc_ttl = ip_hdr ( skb ) -> ttl ; newinet -> inet_id = jiffies ; dccp_sync_mss ( newsk , dst_mtu ( dst ) ) ; if ( __inet_inherit_port ( sk , newsk ) < 0 ) { sock_put ( newsk ) ; goto exit ; } __inet_hash_nolisten ( newsk , NULL ) ; return newsk ; exit_overflow : NET_INC_STATS_BH ( sock_net ( sk ) , LINUX_MIB_LISTENOVERFLOWS ) ; exit_nonewsk : dst_release ( dst ) ; exit : NET_INC_STATS_BH ( sock_net ( sk ) , LINUX_MIB_LISTENDROPS ) ; return NULL ; }" 607,"CWE-22 int set_interface_var ( const char * iface , const char * var , const char * name , uint32_t val ) { FILE * fp ; char spath [ 64 + IFNAMSIZ ] ; if ( snprintf ( spath , sizeof ( spath ) , var , iface ) >= sizeof ( spath ) ) return - 1 ; if ( access ( spath , F_OK ) != 0 ) return - 1 ; fp = fopen ( spath , ""w"" ) ; if ( ! fp ) { if ( name ) flog ( LOG_ERR , ""failed to set %s (%u) for %s: %s"" , name , val , iface , strerror ( errno ) ) ; return - 1 ; } fprintf ( fp , ""%u"" , val ) ; fclose ( fp ) ; return 0 ; }","int set_interface_var ( const char * iface , const char * var , const char * name , uint32_t val ) { FILE * fp ; char spath [ 64 + IFNAMSIZ ] ; if ( snprintf ( spath , sizeof ( spath ) , var , iface ) >= sizeof ( spath ) ) return - 1 ; if ( strstr ( name , "".."" ) || strchr ( name , '/' ) ) return - 1 ; if ( access ( spath , F_OK ) != 0 ) return - 1 ; fp = fopen ( spath , ""w"" ) ; if ( ! fp ) { if ( name ) flog ( LOG_ERR , ""failed to set %s (%u) for %s: %s"" , name , val , iface , strerror ( errno ) ) ; return - 1 ; } fprintf ( fp , ""%u"" , val ) ; fclose ( fp ) ; return 0 ; }" 608,"CWE-284 static void * btif_hh_poll_event_thread ( void * arg ) { btif_hh_device_t * p_dev = arg ; APPL_TRACE_DEBUG ( ""%s: Thread created fd = %d"" , __FUNCTION__ , p_dev -> fd ) ; struct pollfd pfds [ 1 ] ; int ret ; pfds [ 0 ] . fd = p_dev -> fd ; pfds [ 0 ] . events = POLLIN ; uhid_set_non_blocking ( p_dev -> fd ) ; while ( p_dev -> hh_keep_polling ) { ret = poll ( pfds , 1 , 50 ) ; if ( ret < 0 ) { APPL_TRACE_ERROR ( ""%s: Cannot poll for fds: %s\\n"" , __FUNCTION__ , strerror ( errno ) ) ; break ; } if ( pfds [ 0 ] . revents & POLLIN ) { APPL_TRACE_DEBUG ( ""btif_hh_poll_event_thread: POLLIN"" ) ; ret = uhid_event ( p_dev ) ; if ( ret ) { break ; } } } p_dev -> hh_poll_thread_id = - 1 ; return 0 ; }","static void * btif_hh_poll_event_thread ( void * arg ) { btif_hh_device_t * p_dev = arg ; APPL_TRACE_DEBUG ( ""%s: Thread created fd = %d"" , __FUNCTION__ , p_dev -> fd ) ; struct pollfd pfds [ 1 ] ; int ret ; pfds [ 0 ] . fd = p_dev -> fd ; pfds [ 0 ] . events = POLLIN ; uhid_set_non_blocking ( p_dev -> fd ) ; while ( p_dev -> hh_keep_polling ) { ret = TEMP_FAILURE_RETRY ( poll ( pfds , 1 , 50 ) ) ; if ( ret < 0 ) { APPL_TRACE_ERROR ( ""%s: Cannot poll for fds: %s\\n"" , __FUNCTION__ , strerror ( errno ) ) ; break ; } if ( pfds [ 0 ] . revents & POLLIN ) { APPL_TRACE_DEBUG ( ""btif_hh_poll_event_thread: POLLIN"" ) ; ret = uhid_event ( p_dev ) ; if ( ret ) { break ; } } } p_dev -> hh_poll_thread_id = - 1 ; return 0 ; }" 609,"CWE-388 static bool nested_vmx_exit_handled ( struct kvm_vcpu * vcpu ) { u32 intr_info = vmcs_read32 ( VM_EXIT_INTR_INFO ) ; struct vcpu_vmx * vmx = to_vmx ( vcpu ) ; struct vmcs12 * vmcs12 = get_vmcs12 ( vcpu ) ; u32 exit_reason = vmx -> exit_reason ; trace_kvm_nested_vmexit ( kvm_rip_read ( vcpu ) , exit_reason , vmcs_readl ( EXIT_QUALIFICATION ) , vmx -> idt_vectoring_info , intr_info , vmcs_read32 ( VM_EXIT_INTR_ERROR_CODE ) , KVM_ISA_VMX ) ; if ( vmx -> nested . nested_run_pending ) return false ; if ( unlikely ( vmx -> fail ) ) { pr_info_ratelimited ( ""%s failed vm entry %x\\n"" , __func__ , vmcs_read32 ( VM_INSTRUCTION_ERROR ) ) ; return true ; } switch ( exit_reason ) { case EXIT_REASON_EXCEPTION_NMI : if ( ! is_exception ( intr_info ) ) return false ; else if ( is_page_fault ( intr_info ) ) return enable_ept ; else if ( is_no_device ( intr_info ) && ! ( vmcs12 -> guest_cr0 & X86_CR0_TS ) ) return false ; else if ( is_debug ( intr_info ) && vcpu -> guest_debug & ( KVM_GUESTDBG_SINGLESTEP | KVM_GUESTDBG_USE_HW_BP ) ) return false ; else if ( is_breakpoint ( intr_info ) && vcpu -> guest_debug & KVM_GUESTDBG_USE_SW_BP ) return false ; return vmcs12 -> exception_bitmap & ( 1u << ( intr_info & INTR_INFO_VECTOR_MASK ) ) ; case EXIT_REASON_EXTERNAL_INTERRUPT : return false ; case EXIT_REASON_TRIPLE_FAULT : return true ; case EXIT_REASON_PENDING_INTERRUPT : return nested_cpu_has ( vmcs12 , CPU_BASED_VIRTUAL_INTR_PENDING ) ; case EXIT_REASON_NMI_WINDOW : return nested_cpu_has ( vmcs12 , CPU_BASED_VIRTUAL_NMI_PENDING ) ; case EXIT_REASON_TASK_SWITCH : return true ; case EXIT_REASON_CPUID : if ( kvm_register_read ( vcpu , VCPU_REGS_RAX ) == 0xa ) return false ; return true ; case EXIT_REASON_HLT : return nested_cpu_has ( vmcs12 , CPU_BASED_HLT_EXITING ) ; case EXIT_REASON_INVD : return true ; case EXIT_REASON_INVLPG : return nested_cpu_has ( vmcs12 , CPU_BASED_INVLPG_EXITING ) ; case EXIT_REASON_RDPMC : return nested_cpu_has ( vmcs12 , CPU_BASED_RDPMC_EXITING ) ; case EXIT_REASON_RDTSC : case EXIT_REASON_RDTSCP : return nested_cpu_has ( vmcs12 , CPU_BASED_RDTSC_EXITING ) ; case EXIT_REASON_VMCALL : case EXIT_REASON_VMCLEAR : case EXIT_REASON_VMLAUNCH : case EXIT_REASON_VMPTRLD : case EXIT_REASON_VMPTRST : case EXIT_REASON_VMREAD : case EXIT_REASON_VMRESUME : case EXIT_REASON_VMWRITE : case EXIT_REASON_VMOFF : case EXIT_REASON_VMON : case EXIT_REASON_INVEPT : case EXIT_REASON_INVVPID : return true ; case EXIT_REASON_CR_ACCESS : return nested_vmx_exit_handled_cr ( vcpu , vmcs12 ) ; case EXIT_REASON_DR_ACCESS : return nested_cpu_has ( vmcs12 , CPU_BASED_MOV_DR_EXITING ) ;","static bool nested_vmx_exit_handled ( struct kvm_vcpu * vcpu ) { u32 intr_info = vmcs_read32 ( VM_EXIT_INTR_INFO ) ; struct vcpu_vmx * vmx = to_vmx ( vcpu ) ; struct vmcs12 * vmcs12 = get_vmcs12 ( vcpu ) ; u32 exit_reason = vmx -> exit_reason ; trace_kvm_nested_vmexit ( kvm_rip_read ( vcpu ) , exit_reason , vmcs_readl ( EXIT_QUALIFICATION ) , vmx -> idt_vectoring_info , intr_info , vmcs_read32 ( VM_EXIT_INTR_ERROR_CODE ) , KVM_ISA_VMX ) ; if ( vmx -> nested . nested_run_pending ) return false ; if ( unlikely ( vmx -> fail ) ) { pr_info_ratelimited ( ""%s failed vm entry %x\\n"" , __func__ , vmcs_read32 ( VM_INSTRUCTION_ERROR ) ) ; return true ; } switch ( exit_reason ) { case EXIT_REASON_EXCEPTION_NMI : if ( is_nmi ( intr_info ) ) return false ; else if ( is_page_fault ( intr_info ) ) return enable_ept ; else if ( is_no_device ( intr_info ) && ! ( vmcs12 -> guest_cr0 & X86_CR0_TS ) ) return false ; else if ( is_debug ( intr_info ) && vcpu -> guest_debug & ( KVM_GUESTDBG_SINGLESTEP | KVM_GUESTDBG_USE_HW_BP ) ) return false ; else if ( is_breakpoint ( intr_info ) && vcpu -> guest_debug & KVM_GUESTDBG_USE_SW_BP ) return false ; return vmcs12 -> exception_bitmap & ( 1u << ( intr_info & INTR_INFO_VECTOR_MASK ) ) ; case EXIT_REASON_EXTERNAL_INTERRUPT : return false ; case EXIT_REASON_TRIPLE_FAULT : return true ; case EXIT_REASON_PENDING_INTERRUPT : return nested_cpu_has ( vmcs12 , CPU_BASED_VIRTUAL_INTR_PENDING ) ; case EXIT_REASON_NMI_WINDOW : return nested_cpu_has ( vmcs12 , CPU_BASED_VIRTUAL_NMI_PENDING ) ; case EXIT_REASON_TASK_SWITCH : return true ; case EXIT_REASON_CPUID : if ( kvm_register_read ( vcpu , VCPU_REGS_RAX ) == 0xa ) return false ; return true ; case EXIT_REASON_HLT : return nested_cpu_has ( vmcs12 , CPU_BASED_HLT_EXITING ) ; case EXIT_REASON_INVD : return true ; case EXIT_REASON_INVLPG : return nested_cpu_has ( vmcs12 , CPU_BASED_INVLPG_EXITING ) ; case EXIT_REASON_RDPMC : return nested_cpu_has ( vmcs12 , CPU_BASED_RDPMC_EXITING ) ; case EXIT_REASON_RDTSC : case EXIT_REASON_RDTSCP : return nested_cpu_has ( vmcs12 , CPU_BASED_RDTSC_EXITING ) ; case EXIT_REASON_VMCALL : case EXIT_REASON_VMCLEAR : case EXIT_REASON_VMLAUNCH : case EXIT_REASON_VMPTRLD : case EXIT_REASON_VMPTRST : case EXIT_REASON_VMREAD : case EXIT_REASON_VMRESUME : case EXIT_REASON_VMWRITE : case EXIT_REASON_VMOFF : case EXIT_REASON_VMON : case EXIT_REASON_INVEPT : case EXIT_REASON_INVVPID : return true ; case EXIT_REASON_CR_ACCESS : return nested_vmx_exit_handled_cr ( vcpu , vmcs12 ) ; case EXIT_REASON_DR_ACCESS : return nested_cpu_has ( vmcs12 , CPU_BASED_MOV_DR_EXITING ) ;" 610,"CWE-125 static int print_ccp_config_options ( netdissect_options * ndo , const u_char * p , int length ) { int len , opt ; if ( length < 2 ) return 0 ; ND_TCHECK2 ( * p , 2 ) ; len = p [ 1 ] ; opt = p [ 0 ] ; if ( length < len ) return 0 ; if ( len < 2 ) { ND_PRINT ( ( ndo , ""\\n\\t %s Option (0x%02x), length %u (length bogus, should be >= 2)"" , tok2str ( ccpconfopts_values , ""Unknown"" , opt ) , opt , len ) ) ; return 0 ; } ND_PRINT ( ( ndo , ""\\n\\t %s Option (0x%02x), length %u"" , tok2str ( ccpconfopts_values , ""Unknown"" , opt ) , opt , len ) ) ; switch ( opt ) { case CCPOPT_BSDCOMP : if ( len < 3 ) { ND_PRINT ( ( ndo , "" (length bogus, should be >= 3)"" ) ) ; return len ; } ND_TCHECK2 ( * ( p + 2 ) , 1 ) ; ND_PRINT ( ( ndo , "": Version: %u, Dictionary Bits: %u"" , p [ 2 ] >> 5 , p [ 2 ] & 0x1f ) ) ; break ; case CCPOPT_MVRCA : if ( len < 4 ) { ND_PRINT ( ( ndo , "" (length bogus, should be >= 4)"" ) ) ; return len ; } ND_TCHECK2 ( * ( p + 2 ) , 1 ) ; ND_PRINT ( ( ndo , "": Features: %u, PxP: %s, History: %u, #CTX-ID: %u"" , ( p [ 2 ] & 0xc0 ) >> 6 , ( p [ 2 ] & 0x20 ) ? ""Enabled"" : ""Disabled"" , p [ 2 ] & 0x1f , p [ 3 ] ) ) ; break ; case CCPOPT_DEFLATE : if ( len < 4 ) { ND_PRINT ( ( ndo , "" (length bogus, should be >= 4)"" ) ) ; return len ; } ND_TCHECK2 ( * ( p + 2 ) , 1 ) ; ND_PRINT ( ( ndo , "": Window: %uK, Method: %s (0x%x), MBZ: %u, CHK: %u"" , ( p [ 2 ] & 0xf0 ) >> 4 , ( ( p [ 2 ] & 0x0f ) == 8 ) ? ""zlib"" : ""unknown"" , p [ 2 ] & 0x0f , ( p [ 3 ] & 0xfc ) >> 2 , p [ 3 ] & 0x03 ) ) ; break ; # if 0 case CCPOPT_OUI : case CCPOPT_PRED1 : case CCPOPT_PRED2 : case CCPOPT_PJUMP : case CCPOPT_HPPPC : case CCPOPT_STACLZS : case CCPOPT_MPPC : case CCPOPT_GFZA : case CCPOPT_V42BIS : case CCPOPT_LZSDCP : case CCPOPT_DEC : case CCPOPT_RESV : break ; # endif default : if ( ndo -> ndo_vflag < 2 ) print_unknown_data ( ndo , & p [ 2 ] , ""\\n\\t "" , len - 2 ) ; break ; } if ( ndo -> ndo_vflag > 1 ) print_unknown_data ( ndo , & p [ 2 ] , ""\\n\\t "" , len - 2 ) ; return len ; trunc : ND_PRINT ( ( ndo , ""[|ccp]"" ) ) ; return 0 ; }","static int print_ccp_config_options ( netdissect_options * ndo , const u_char * p , int length ) { int len , opt ; if ( length < 2 ) return 0 ; ND_TCHECK2 ( * p , 2 ) ; len = p [ 1 ] ; opt = p [ 0 ] ; if ( length < len ) return 0 ; if ( len < 2 ) { ND_PRINT ( ( ndo , ""\\n\\t %s Option (0x%02x), length %u (length bogus, should be >= 2)"" , tok2str ( ccpconfopts_values , ""Unknown"" , opt ) , opt , len ) ) ; return 0 ; } ND_PRINT ( ( ndo , ""\\n\\t %s Option (0x%02x), length %u"" , tok2str ( ccpconfopts_values , ""Unknown"" , opt ) , opt , len ) ) ; switch ( opt ) { case CCPOPT_BSDCOMP : if ( len < 3 ) { ND_PRINT ( ( ndo , "" (length bogus, should be >= 3)"" ) ) ; return len ; } ND_TCHECK ( p [ 2 ] ) ; ND_PRINT ( ( ndo , "": Version: %u, Dictionary Bits: %u"" , p [ 2 ] >> 5 , p [ 2 ] & 0x1f ) ) ; break ; case CCPOPT_MVRCA : if ( len < 4 ) { ND_PRINT ( ( ndo , "" (length bogus, should be >= 4)"" ) ) ; return len ; } ND_TCHECK ( p [ 3 ] ) ; ND_PRINT ( ( ndo , "": Features: %u, PxP: %s, History: %u, #CTX-ID: %u"" , ( p [ 2 ] & 0xc0 ) >> 6 , ( p [ 2 ] & 0x20 ) ? ""Enabled"" : ""Disabled"" , p [ 2 ] & 0x1f , p [ 3 ] ) ) ; break ; case CCPOPT_DEFLATE : if ( len < 4 ) { ND_PRINT ( ( ndo , "" (length bogus, should be >= 4)"" ) ) ; return len ; } ND_TCHECK ( p [ 3 ] ) ; ND_PRINT ( ( ndo , "": Window: %uK, Method: %s (0x%x), MBZ: %u, CHK: %u"" , ( p [ 2 ] & 0xf0 ) >> 4 , ( ( p [ 2 ] & 0x0f ) == 8 ) ? ""zlib"" : ""unknown"" , p [ 2 ] & 0x0f , ( p [ 3 ] & 0xfc ) >> 2 , p [ 3 ] & 0x03 ) ) ; break ; # if 0 case CCPOPT_OUI : case CCPOPT_PRED1 : case CCPOPT_PRED2 : case CCPOPT_PJUMP : case CCPOPT_HPPPC : case CCPOPT_STACLZS : case CCPOPT_MPPC : case CCPOPT_GFZA : case CCPOPT_V42BIS : case CCPOPT_LZSDCP : case CCPOPT_DEC : case CCPOPT_RESV : break ; # endif default : if ( ndo -> ndo_vflag < 2 ) print_unknown_data ( ndo , & p [ 2 ] , ""\\n\\t "" , len - 2 ) ; break ; } if ( ndo -> ndo_vflag > 1 ) print_unknown_data ( ndo , & p [ 2 ] , ""\\n\\t "" , len - 2 ) ; return len ; trunc : ND_PRINT ( ( ndo , ""[|ccp]"" ) ) ; return 0 ; }" 611,"nan static xsltCompMatchPtr xsltCompilePatternInternal ( const xmlChar * pattern , xmlDocPtr doc , xmlNodePtr node , xsltStylesheetPtr style , xsltTransformContextPtr runtime , int novar ) { xsltParserContextPtr ctxt = NULL ; xsltCompMatchPtr element , first = NULL , previous = NULL ; int current , start , end , level , j ; if ( pattern == NULL ) { xsltTransformError ( NULL , NULL , node , ""xsltCompilePattern : NULL pattern\\n"" ) ; return ( NULL ) ; } ctxt = xsltNewParserContext ( style , runtime ) ; if ( ctxt == NULL ) return ( NULL ) ; ctxt -> doc = doc ; ctxt -> elem = node ; current = end = 0 ; while ( pattern [ current ] != 0 ) { start = current ; while ( IS_BLANK_CH ( pattern [ current ] ) ) current ++ ; end = current ; level = 0 ; while ( ( pattern [ end ] != 0 ) && ( ( pattern [ end ] != '|' ) || ( level != 0 ) ) ) { if ( pattern [ end ] == '[' ) level ++ ; else if ( pattern [ end ] == ']' ) level -- ; else if ( pattern [ end ] == '\\'' ) { end ++ ; while ( ( pattern [ end ] != 0 ) && ( pattern [ end ] != '\\'' ) ) end ++ ; } else if ( pattern [ end ] == \'""\' ) { end ++ ; while ( ( pattern [ end ] != 0 ) && ( pattern [ end ] != \'""\' ) ) end ++ ; } end ++ ; } if ( current == end ) { xsltTransformError ( NULL , NULL , node , ""xsltCompilePattern : NULL pattern\\n"" ) ; goto error ; } element = xsltNewCompMatch ( ) ; if ( element == NULL ) { goto error ; } if ( first == NULL ) first = element ; else if ( previous != NULL ) previous -> next = element ; previous = element ; ctxt -> comp = element ; ctxt -> base = xmlStrndup ( & pattern [ start ] , end - start ) ; if ( ctxt -> base == NULL ) goto error ; ctxt -> cur = & ( ctxt -> base ) [ current - start ] ; element -> pattern = ctxt -> base ; element -> nsList = xmlGetNsList ( doc , node ) ; j = 0 ; if ( element -> nsList != NULL ) { while ( element -> nsList [ j ] != NULL ) j ++ ; } element -> nsNr = j ; # ifdef WITH_XSLT_DEBUG_PATTERN xsltGenericDebug ( xsltGenericDebugContext , ""xsltCompilePattern : parsing \'%s\'\\n"" , element -> pattern ) ; # endif element -> priority = 0 ; xsltCompileLocationPathPattern ( ctxt , novar ) ; if ( ctxt -> error ) { xsltTransformError ( NULL , style , node , ""xsltCompilePattern : failed to compile \'%s\'\\n"" , element -> pattern ) ; if ( style != NULL ) style -> errors ++ ; goto error ; } xsltReverseCompMatch ( ctxt , element ) ; if ( element -> priority == 0 ) { if ( ( ( element -> steps [ 0 ] . op == XSLT_OP_ELEM ) || ( element -> steps [ 0 ] . op == XSLT_OP_ATTR ) || ( element -> steps [ 0 ] . op == XSLT_OP_PI ) ) && ( element -> steps [ 0 ] . value != NULL ) && ( element -> steps [ 1 ] . op == XSLT_OP_END ) ) {","static xsltCompMatchPtr xsltCompilePatternInternal ( const xmlChar * pattern , xmlDocPtr doc , xmlNodePtr node , xsltStylesheetPtr style , xsltTransformContextPtr runtime , int novar ) { xsltParserContextPtr ctxt = NULL ; xsltCompMatchPtr element , first = NULL , previous = NULL ; int current , start , end , level , j ; if ( pattern == NULL ) { xsltTransformError ( NULL , NULL , node , ""xsltCompilePattern : NULL pattern\\n"" ) ; return ( NULL ) ; } ctxt = xsltNewParserContext ( style , runtime ) ; if ( ctxt == NULL ) return ( NULL ) ; ctxt -> doc = doc ; ctxt -> elem = node ; current = end = 0 ; while ( pattern [ current ] != 0 ) { start = current ; while ( IS_BLANK_CH ( pattern [ current ] ) ) current ++ ; end = current ; level = 0 ; while ( ( pattern [ end ] != 0 ) && ( ( pattern [ end ] != '|' ) || ( level != 0 ) ) ) { if ( pattern [ end ] == '[' ) level ++ ; else if ( pattern [ end ] == ']' ) level -- ; else if ( pattern [ end ] == '\\'' ) { end ++ ; while ( ( pattern [ end ] != 0 ) && ( pattern [ end ] != '\\'' ) ) end ++ ; } else if ( pattern [ end ] == \'""\' ) { end ++ ; while ( ( pattern [ end ] != 0 ) && ( pattern [ end ] != \'""\' ) ) end ++ ; } if ( pattern [ end ] == 0 ) break ; end ++ ; } if ( current == end ) { xsltTransformError ( NULL , NULL , node , ""xsltCompilePattern : NULL pattern\\n"" ) ; goto error ; } element = xsltNewCompMatch ( ) ; if ( element == NULL ) { goto error ; } if ( first == NULL ) first = element ; else if ( previous != NULL ) previous -> next = element ; previous = element ; ctxt -> comp = element ; ctxt -> base = xmlStrndup ( & pattern [ start ] , end - start ) ; if ( ctxt -> base == NULL ) goto error ; ctxt -> cur = & ( ctxt -> base ) [ current - start ] ; element -> pattern = ctxt -> base ; element -> nsList = xmlGetNsList ( doc , node ) ; j = 0 ; if ( element -> nsList != NULL ) { while ( element -> nsList [ j ] != NULL ) j ++ ; } element -> nsNr = j ; # ifdef WITH_XSLT_DEBUG_PATTERN xsltGenericDebug ( xsltGenericDebugContext , ""xsltCompilePattern : parsing \'%s\'\\n"" , element -> pattern ) ; # endif element -> priority = 0 ; xsltCompileLocationPathPattern ( ctxt , novar ) ; if ( ctxt -> error ) { xsltTransformError ( NULL , style , node , ""xsltCompilePattern : failed to compile \'%s\'\\n"" , element -> pattern ) ; if ( style != NULL ) style -> errors ++ ; goto error ; } xsltReverseCompMatch ( ctxt , element ) ; if ( element -> priority == 0 ) { if ( ( ( element -> steps [ 0 ] . op == XSLT_OP_ELEM ) || ( element -> steps [ 0 ] . op == XSLT_OP_ATTR ) || ( element -> steps [ 0 ] . op == XSLT_OP_PI ) ) && ( element -> steps [ 0 ] . value != NULL ) && ( element -> steps [ 1 ] . op == XSLT_OP_END ) ) {" 612,"CWE-401 int cx23888_ir_probe ( struct cx23885_dev * dev ) { struct cx23888_ir_state * state ; struct v4l2_subdev * sd ; struct v4l2_subdev_ir_parameters default_params ; int ret ; state = kzalloc ( sizeof ( struct cx23888_ir_state ) , GFP_KERNEL ) ; if ( state == NULL ) return - ENOMEM ; spin_lock_init ( & state -> rx_kfifo_lock ) ; if ( kfifo_alloc ( & state -> rx_kfifo , CX23888_IR_RX_KFIFO_SIZE , GFP_KERNEL ) ) return - ENOMEM ; state -> dev = dev ; sd = & state -> sd ; v4l2_subdev_init ( sd , & cx23888_ir_controller_ops ) ; v4l2_set_subdevdata ( sd , state ) ; snprintf ( sd -> name , sizeof ( sd -> name ) , ""%s/888-ir"" , dev -> name ) ; sd -> grp_id = CX23885_HW_888_IR ; ret = v4l2_device_register_subdev ( & dev -> v4l2_dev , sd ) ; if ( ret == 0 ) { cx23888_ir_write4 ( dev , CX23888_IR_IRQEN_REG , 0 ) ; mutex_init ( & state -> rx_params_lock ) ; default_params = default_rx_params ; v4l2_subdev_call ( sd , ir , rx_s_parameters , & default_params ) ; mutex_init ( & state -> tx_params_lock ) ; default_params = default_tx_params ; v4l2_subdev_call ( sd , ir , tx_s_parameters , & default_params ) ; } else { kfifo_free ( & state -> rx_kfifo ) ; } return ret ; }","int cx23888_ir_probe ( struct cx23885_dev * dev ) { struct cx23888_ir_state * state ; struct v4l2_subdev * sd ; struct v4l2_subdev_ir_parameters default_params ; int ret ; state = kzalloc ( sizeof ( struct cx23888_ir_state ) , GFP_KERNEL ) ; if ( state == NULL ) return - ENOMEM ; spin_lock_init ( & state -> rx_kfifo_lock ) ; if ( kfifo_alloc ( & state -> rx_kfifo , CX23888_IR_RX_KFIFO_SIZE , GFP_KERNEL ) ) { kfree ( state ) ; return - ENOMEM ; } state -> dev = dev ; sd = & state -> sd ; v4l2_subdev_init ( sd , & cx23888_ir_controller_ops ) ; v4l2_set_subdevdata ( sd , state ) ; snprintf ( sd -> name , sizeof ( sd -> name ) , ""%s/888-ir"" , dev -> name ) ; sd -> grp_id = CX23885_HW_888_IR ; ret = v4l2_device_register_subdev ( & dev -> v4l2_dev , sd ) ; if ( ret == 0 ) { cx23888_ir_write4 ( dev , CX23888_IR_IRQEN_REG , 0 ) ; mutex_init ( & state -> rx_params_lock ) ; default_params = default_rx_params ; v4l2_subdev_call ( sd , ir , rx_s_parameters , & default_params ) ; mutex_init ( & state -> tx_params_lock ) ; default_params = default_tx_params ; v4l2_subdev_call ( sd , ir , tx_s_parameters , & default_params ) ; } else { kfifo_free ( & state -> rx_kfifo ) ; } return ret ; }" 613,"CWE-119 int vp8_yv12_realloc_frame_buffer ( YV12_BUFFER_CONFIG * ybf , int width , int height , int border ) { if ( ybf ) { int aligned_width = ( width + 15 ) & ~ 15 ; int aligned_height = ( height + 15 ) & ~ 15 ; int y_stride = ( ( aligned_width + 2 * border ) + 31 ) & ~ 31 ; int yplane_size = ( aligned_height + 2 * border ) * y_stride ; int uv_width = aligned_width >> 1 ; int uv_height = aligned_height >> 1 ; int uv_stride = y_stride >> 1 ; int uvplane_size = ( uv_height + border ) * uv_stride ; const int frame_size = yplane_size + 2 * uvplane_size ; if ( ! ybf -> buffer_alloc ) { ybf -> buffer_alloc = ( uint8_t * ) vpx_memalign ( 32 , frame_size ) ; ybf -> buffer_alloc_sz = frame_size ; } if ( ! ybf -> buffer_alloc || ybf -> buffer_alloc_sz < frame_size ) return - 1 ; if ( border & 0x1f ) return - 3 ; ybf -> y_crop_width = width ; ybf -> y_crop_height = height ; ybf -> y_width = aligned_width ; ybf -> y_height = aligned_height ; ybf -> y_stride = y_stride ; ybf -> uv_width = uv_width ; ybf -> uv_height = uv_height ; ybf -> uv_stride = uv_stride ; ybf -> alpha_width = 0 ; ybf -> alpha_height = 0 ; ybf -> alpha_stride = 0 ; ybf -> border = border ; ybf -> frame_size = frame_size ; ybf -> y_buffer = ybf -> buffer_alloc + ( border * y_stride ) + border ; ybf -> u_buffer = ybf -> buffer_alloc + yplane_size + ( border / 2 * uv_stride ) + border / 2 ; ybf -> v_buffer = ybf -> buffer_alloc + yplane_size + uvplane_size + ( border / 2 * uv_stride ) + border / 2 ; ybf -> alpha_buffer = NULL ; ybf -> corrupted = 0 ; return 0 ; } return - 2 ; }","int vp8_yv12_realloc_frame_buffer ( YV12_BUFFER_CONFIG * ybf , int width , int height , int border ) { if ( ybf ) { int aligned_width = ( width + 15 ) & ~ 15 ; int aligned_height = ( height + 15 ) & ~ 15 ; int y_stride = ( ( aligned_width + 2 * border ) + 31 ) & ~ 31 ; int yplane_size = ( aligned_height + 2 * border ) * y_stride ; int uv_width = aligned_width >> 1 ; int uv_height = aligned_height >> 1 ; int uv_stride = y_stride >> 1 ; int uvplane_size = ( uv_height + border ) * uv_stride ; const int frame_size = yplane_size + 2 * uvplane_size ; if ( ! ybf -> buffer_alloc ) { ybf -> buffer_alloc = ( uint8_t * ) vpx_memalign ( 32 , frame_size ) ; ybf -> buffer_alloc_sz = frame_size ; } if ( ! ybf -> buffer_alloc || ybf -> buffer_alloc_sz < frame_size ) return - 1 ; if ( border & 0x1f ) return - 3 ; ybf -> y_crop_width = width ; ybf -> y_crop_height = height ; ybf -> y_width = aligned_width ; ybf -> y_height = aligned_height ; ybf -> y_stride = y_stride ; ybf -> uv_crop_width = ( width + 1 ) / 2 ; ybf -> uv_crop_height = ( height + 1 ) / 2 ; ybf -> uv_width = uv_width ; ybf -> uv_height = uv_height ; ybf -> uv_stride = uv_stride ; ybf -> alpha_width = 0 ; ybf -> alpha_height = 0 ; ybf -> alpha_stride = 0 ; ybf -> border = border ; ybf -> frame_size = frame_size ; ybf -> y_buffer = ybf -> buffer_alloc + ( border * y_stride ) + border ; ybf -> u_buffer = ybf -> buffer_alloc + yplane_size + ( border / 2 * uv_stride ) + border / 2 ; ybf -> v_buffer = ybf -> buffer_alloc + yplane_size + uvplane_size + ( border / 2 * uv_stride ) + border / 2 ; ybf -> alpha_buffer = NULL ; ybf -> corrupted = 0 ; return 0 ; } return - 2 ; }" 614,"CWE-119 static void fwnet_receive_broadcast ( struct fw_iso_context * context , u32 cycle , size_t header_length , void * header , void * data ) { struct fwnet_device * dev ; struct fw_iso_packet packet ; __be16 * hdr_ptr ; __be32 * buf_ptr ; int retval ; u32 length ; u16 source_node_id ; u32 specifier_id ; u32 ver ; unsigned long offset ; unsigned long flags ; dev = data ; hdr_ptr = header ; length = be16_to_cpup ( hdr_ptr ) ; spin_lock_irqsave ( & dev -> lock , flags ) ; offset = dev -> rcv_buffer_size * dev -> broadcast_rcv_next_ptr ; buf_ptr = dev -> broadcast_rcv_buffer_ptrs [ dev -> broadcast_rcv_next_ptr ++ ] ; if ( dev -> broadcast_rcv_next_ptr == dev -> num_broadcast_rcv_ptrs ) dev -> broadcast_rcv_next_ptr = 0 ; spin_unlock_irqrestore ( & dev -> lock , flags ) ; specifier_id = ( be32_to_cpu ( buf_ptr [ 0 ] ) & 0xffff ) << 8 | ( be32_to_cpu ( buf_ptr [ 1 ] ) & 0xff000000 ) >> 24 ; ver = be32_to_cpu ( buf_ptr [ 1 ] ) & 0xffffff ; source_node_id = be32_to_cpu ( buf_ptr [ 0 ] ) >> 16 ; if ( specifier_id == IANA_SPECIFIER_ID && ( ver == RFC2734_SW_VERSION # if IS_ENABLED ( CONFIG_IPV6 ) || ver == RFC3146_SW_VERSION # endif ) ) { buf_ptr += 2 ; length -= IEEE1394_GASP_HDR_SIZE ; fwnet_incoming_packet ( dev , buf_ptr , length , source_node_id , context -> card -> generation , true ) ; } packet . payload_length = dev -> rcv_buffer_size ; packet . interrupt = 1 ; packet . skip = 0 ; packet . tag = 3 ; packet . sy = 0 ; packet . header_length = IEEE1394_GASP_HDR_SIZE ; spin_lock_irqsave ( & dev -> lock , flags ) ; retval = fw_iso_context_queue ( dev -> broadcast_rcv_context , & packet , & dev -> broadcast_rcv_buffer , offset ) ; spin_unlock_irqrestore ( & dev -> lock , flags ) ; if ( retval >= 0 ) fw_iso_context_queue_flush ( dev -> broadcast_rcv_context ) ; else dev_err ( & dev -> netdev -> dev , ""requeue failed\\n"" ) ; }","static void fwnet_receive_broadcast ( struct fw_iso_context * context , u32 cycle , size_t header_length , void * header , void * data ) { struct fwnet_device * dev ; struct fw_iso_packet packet ; __be16 * hdr_ptr ; __be32 * buf_ptr ; int retval ; u32 length ; unsigned long offset ; unsigned long flags ; dev = data ; hdr_ptr = header ; length = be16_to_cpup ( hdr_ptr ) ; spin_lock_irqsave ( & dev -> lock , flags ) ; offset = dev -> rcv_buffer_size * dev -> broadcast_rcv_next_ptr ; buf_ptr = dev -> broadcast_rcv_buffer_ptrs [ dev -> broadcast_rcv_next_ptr ++ ] ; if ( dev -> broadcast_rcv_next_ptr == dev -> num_broadcast_rcv_ptrs ) dev -> broadcast_rcv_next_ptr = 0 ; spin_unlock_irqrestore ( & dev -> lock , flags ) ; if ( length > IEEE1394_GASP_HDR_SIZE && gasp_specifier_id ( buf_ptr ) == IANA_SPECIFIER_ID && ( gasp_version ( buf_ptr ) == RFC2734_SW_VERSION # if IS_ENABLED ( CONFIG_IPV6 ) || gasp_version ( buf_ptr ) == RFC3146_SW_VERSION # endif ) ) fwnet_incoming_packet ( dev , buf_ptr + 2 , length - IEEE1394_GASP_HDR_SIZE , gasp_source_id ( buf_ptr ) , context -> card -> generation , true ) ; packet . payload_length = dev -> rcv_buffer_size ; packet . interrupt = 1 ; packet . skip = 0 ; packet . tag = 3 ; packet . sy = 0 ; packet . header_length = IEEE1394_GASP_HDR_SIZE ; spin_lock_irqsave ( & dev -> lock , flags ) ; retval = fw_iso_context_queue ( dev -> broadcast_rcv_context , & packet , & dev -> broadcast_rcv_buffer , offset ) ; spin_unlock_irqrestore ( & dev -> lock , flags ) ; if ( retval >= 0 ) fw_iso_context_queue_flush ( dev -> broadcast_rcv_context ) ; else dev_err ( & dev -> netdev -> dev , ""requeue failed\\n"" ) ; }" 615,"CWE-119 static SCSIRequest * scsi_new_request ( SCSIDevice * d , uint32_t tag , uint32_t lun , void * hba_private ) { SCSIDiskState * s = DO_UPCAST ( SCSIDiskState , qdev , d ) ; SCSIRequest * req ; SCSIDiskReq * r ; req = scsi_req_alloc ( & scsi_disk_reqops , & s -> qdev , tag , lun , hba_private ) ; r = DO_UPCAST ( SCSIDiskReq , req , req ) ; r -> iov . iov_base = qemu_blockalign ( s -> bs , SCSI_DMA_BUF_SIZE ) ; return req ; }","static SCSIRequest * scsi_new_request ( SCSIDevice * d , uint32_t tag , uint32_t lun , void * hba_private ) { SCSIDiskState * s = DO_UPCAST ( SCSIDiskState , qdev , d ) ; SCSIRequest * req ; req = scsi_req_alloc ( & scsi_disk_reqops , & s -> qdev , tag , lun , hba_private ) ; return req ; }" 616,"CWE-119 static INLINE void store_pred_mv ( MACROBLOCK * x , PICK_MODE_CONTEXT * ctx ) { vpx_memcpy ( ctx -> pred_mv , x -> pred_mv , sizeof ( x -> pred_mv ) ) ; }","static INLINE void store_pred_mv ( MACROBLOCK * x , PICK_MODE_CONTEXT * ctx ) { memcpy ( ctx -> pred_mv , x -> pred_mv , sizeof ( x -> pred_mv ) ) ; }" 617,"CWE-617 assert ( image_info != ( const ImageInfo * ) NULL ) ; assert ( image_info -> signature == MagickSignature ) ; assert ( exception != ( ExceptionInfo * ) NULL ) ; assert ( exception -> signature == MagickSignature ) ; logging = LogMagickEvent ( CoderEvent , GetMagickModule ( ) , ""enter"" ) ; quantum_info = ( QuantumInfo * ) NULL ; image = AcquireImage ( image_info ) ; status = OpenBlob ( image_info , image , ReadBinaryBlobMode , exception ) ; if ( status == MagickFalse ) { image = DestroyImageList ( image ) ; return ( ( Image * ) NULL ) ; } clone_info = ( ImageInfo * ) NULL ; if ( ReadBlob ( image , 124 , ( unsigned char * ) & MATLAB_HDR . identific ) != 124 ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; if ( strncmp ( MATLAB_HDR . identific , ""MATLAB"" , 6 ) != 0 ) { image2 = ReadMATImageV4 ( image_info , image , exception ) ; if ( image2 == NULL ) goto MATLAB_KO ; image = image2 ; goto END_OF_READING ; } MATLAB_HDR . Version = ReadBlobLSBShort ( image ) ; if ( ReadBlob ( image , 2 , ( unsigned char * ) & MATLAB_HDR . EndianIndicator ) != 2 ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; if ( logging ) ( void ) LogMagickEvent ( CoderEvent , GetMagickModule ( ) , "" Endian %c%c"" , MATLAB_HDR . EndianIndicator [ 0 ] , MATLAB_HDR . EndianIndicator [ 1 ] ) ; if ( ! strncmp ( MATLAB_HDR . EndianIndicator , ""IM"" , 2 ) ) { ReadBlobXXXLong = ReadBlobLSBLong ; ReadBlobXXXShort = ReadBlobLSBShort ; ReadBlobDoublesXXX = ReadBlobDoublesLSB ; ReadBlobFloatsXXX = ReadBlobFloatsLSB ; image -> endian = LSBEndian ; } else if ( ! strncmp ( MATLAB_HDR . EndianIndicator , ""MI"" , 2 ) ) { ReadBlobXXXLong = ReadBlobMSBLong ; ReadBlobXXXShort = ReadBlobMSBShort ; ReadBlobDoublesXXX = ReadBlobDoublesMSB ; ReadBlobFloatsXXX = ReadBlobFloatsMSB ; image -> endian = MSBEndian ; } else goto MATLAB_KO ; if ( strncmp ( MATLAB_HDR . identific , ""MATLAB"" , 6 ) ) { MATLAB_KO : clone_info = DestroyImageInfo ( clone_info ) ; ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; } filepos = TellBlob ( image ) ; while ( ! EOFBlob ( image ) ) { Frames = 1 ; ( void ) SeekBlob ( image , filepos , SEEK_SET ) ; MATLAB_HDR . DataType = ReadBlobXXXLong ( image ) ; if ( EOFBlob ( image ) ) break ; MATLAB_HDR . ObjectSize = ReadBlobXXXLong ( image ) ; if ( EOFBlob ( image ) ) break ; if ( ( MagickSizeType ) ( MATLAB_HDR . ObjectSize + filepos ) > GetBlobSize ( image ) ) goto MATLAB_KO ; filepos += MATLAB_HDR . ObjectSize + 4 + 4 ; clone_info = CloneImageInfo ( image_info ) ; image2 = image ; # if defined ( MAGICKCORE_ZLIB_DELEGATE ) if ( MATLAB_HDR . DataType == miCOMPRESSED ) { image2 = decompress_block ( image , & MATLAB_HDR . ObjectSize , clone_info , exception ) ; if ( image2 == NULL ) continue ; MATLAB_HDR . DataType = ReadBlobXXXLong ( image2 ) ; } # endif if ( MATLAB_HDR . DataType != miMATRIX ) continue ; MATLAB_HDR . unknown1 = ReadBlobXXXLong ( image2 ) ; MATLAB_HDR . unknown2 = ReadBlobXXXLong ( image2 ) ; MATLAB_HDR . unknown5 = ReadBlobXXXLong ( image2 ) ; MATLAB_HDR . StructureClass = MATLAB_HDR . unknown5 & 0xFF ; MATLAB_HDR . StructureFlag = ( MATLAB_HDR . unknown5 >> 8 ) & 0xFF ; MATLAB_HDR . unknown3 = ReadBlobXXXLong ( image2 ) ; if ( image != image2 ) MATLAB_HDR . unknown4 = ReadBlobXXXLong ( image2 ) ; MATLAB_HDR . unknown4 = ReadBlobXXXLong ( image2 ) ; MATLAB_HDR . DimFlag = ReadBlobXXXLong ( image2 ) ; MATLAB_HDR . SizeX = ReadBlobXXXLong ( image2 ) ; MATLAB_HDR . SizeY = ReadBlobXXXLong ( image2 ) ; switch ( MATLAB_HDR . DimFlag ) { case 8 : z2 = z = 1 ; break ; case 12 : z2 = z = ReadBlobXXXLong ( image2 ) ; Unknown6 = ReadBlobXXXLong ( image2 ) ; ( void ) Unknown6 ; if ( z != 3 ) ThrowReaderException ( CoderError , ""MultidimensionalMatricesAreNotSupported"" ) ; break ; case 16 : z2 = z = ReadBlobXXXLong ( image2 ) ; if ( z != 3 && z != 1 ) ThrowReaderException ( CoderError , ""MultidimensionalMatricesAreNotSupported"" ) ; Frames = ReadBlobXXXLong ( image2 ) ;","assert ( image_info != ( const ImageInfo * ) NULL ) ; assert ( image_info -> signature == MagickSignature ) ; assert ( exception != ( ExceptionInfo * ) NULL ) ; assert ( exception -> signature == MagickSignature ) ; logging = LogMagickEvent ( CoderEvent , GetMagickModule ( ) , ""enter"" ) ; quantum_info = ( QuantumInfo * ) NULL ; image = AcquireImage ( image_info ) ; status = OpenBlob ( image_info , image , ReadBinaryBlobMode , exception ) ; if ( status == MagickFalse ) { image = DestroyImageList ( image ) ; return ( ( Image * ) NULL ) ; } clone_info = ( ImageInfo * ) NULL ; if ( ReadBlob ( image , 124 , ( unsigned char * ) & MATLAB_HDR . identific ) != 124 ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; if ( strncmp ( MATLAB_HDR . identific , ""MATLAB"" , 6 ) != 0 ) { image2 = ReadMATImageV4 ( image_info , image , exception ) ; if ( image2 == NULL ) goto MATLAB_KO ; image = image2 ; goto END_OF_READING ; } MATLAB_HDR . Version = ReadBlobLSBShort ( image ) ; if ( ReadBlob ( image , 2 , ( unsigned char * ) & MATLAB_HDR . EndianIndicator ) != 2 ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; if ( logging ) ( void ) LogMagickEvent ( CoderEvent , GetMagickModule ( ) , "" Endian %c%c"" , MATLAB_HDR . EndianIndicator [ 0 ] , MATLAB_HDR . EndianIndicator [ 1 ] ) ; if ( ! strncmp ( MATLAB_HDR . EndianIndicator , ""IM"" , 2 ) ) { ReadBlobXXXLong = ReadBlobLSBLong ; ReadBlobXXXShort = ReadBlobLSBShort ; ReadBlobDoublesXXX = ReadBlobDoublesLSB ; ReadBlobFloatsXXX = ReadBlobFloatsLSB ; image -> endian = LSBEndian ; } else if ( ! strncmp ( MATLAB_HDR . EndianIndicator , ""MI"" , 2 ) ) { ReadBlobXXXLong = ReadBlobMSBLong ; ReadBlobXXXShort = ReadBlobMSBShort ; ReadBlobDoublesXXX = ReadBlobDoublesMSB ; ReadBlobFloatsXXX = ReadBlobFloatsMSB ; image -> endian = MSBEndian ; } else goto MATLAB_KO ; if ( strncmp ( MATLAB_HDR . identific , ""MATLAB"" , 6 ) ) { MATLAB_KO : if ( clone_info != ( ImageInfo * ) NULL ) clone_info = DestroyImageInfo ( clone_info ) ; ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; } filepos = TellBlob ( image ) ; while ( ! EOFBlob ( image ) ) { Frames = 1 ; ( void ) SeekBlob ( image , filepos , SEEK_SET ) ; MATLAB_HDR . DataType = ReadBlobXXXLong ( image ) ; if ( EOFBlob ( image ) ) break ; MATLAB_HDR . ObjectSize = ReadBlobXXXLong ( image ) ; if ( EOFBlob ( image ) ) break ; if ( ( MagickSizeType ) ( MATLAB_HDR . ObjectSize + filepos ) > GetBlobSize ( image ) ) goto MATLAB_KO ; filepos += MATLAB_HDR . ObjectSize + 4 + 4 ; clone_info = CloneImageInfo ( image_info ) ; image2 = image ; # if defined ( MAGICKCORE_ZLIB_DELEGATE ) if ( MATLAB_HDR . DataType == miCOMPRESSED ) { image2 = decompress_block ( image , & MATLAB_HDR . ObjectSize , clone_info , exception ) ; if ( image2 == NULL ) continue ; MATLAB_HDR . DataType = ReadBlobXXXLong ( image2 ) ; } # endif if ( MATLAB_HDR . DataType != miMATRIX ) continue ; MATLAB_HDR . unknown1 = ReadBlobXXXLong ( image2 ) ; MATLAB_HDR . unknown2 = ReadBlobXXXLong ( image2 ) ; MATLAB_HDR . unknown5 = ReadBlobXXXLong ( image2 ) ; MATLAB_HDR . StructureClass = MATLAB_HDR . unknown5 & 0xFF ; MATLAB_HDR . StructureFlag = ( MATLAB_HDR . unknown5 >> 8 ) & 0xFF ; MATLAB_HDR . unknown3 = ReadBlobXXXLong ( image2 ) ; if ( image != image2 ) MATLAB_HDR . unknown4 = ReadBlobXXXLong ( image2 ) ; MATLAB_HDR . unknown4 = ReadBlobXXXLong ( image2 ) ; MATLAB_HDR . DimFlag = ReadBlobXXXLong ( image2 ) ; MATLAB_HDR . SizeX = ReadBlobXXXLong ( image2 ) ; MATLAB_HDR . SizeY = ReadBlobXXXLong ( image2 ) ; switch ( MATLAB_HDR . DimFlag ) { case 8 : z2 = z = 1 ; break ; case 12 : z2 = z = ReadBlobXXXLong ( image2 ) ; Unknown6 = ReadBlobXXXLong ( image2 ) ; ( void ) Unknown6 ; if ( z != 3 ) ThrowReaderException ( CoderError , ""MultidimensionalMatricesAreNotSupported"" ) ; break ; case 16 : z2 = z = ReadBlobXXXLong ( image2 ) ; if ( z != 3 && z != 1 ) ThrowReaderException ( CoderError , ""MultidimensionalMatricesAreNotSupported"" ) ; Frames = ReadBlobXXXLong ( image2 ) ;" 618,"CWE-119 vpx_codec_err_t vpx_codec_enc_config_default ( vpx_codec_iface_t * iface , vpx_codec_enc_cfg_t * cfg , unsigned int usage ) { vpx_codec_err_t res ; vpx_codec_enc_cfg_map_t * map ; if ( ! iface || ! cfg || usage > INT_MAX ) res = VPX_CODEC_INVALID_PARAM ; else if ( ! ( iface -> caps & VPX_CODEC_CAP_ENCODER ) ) res = VPX_CODEC_INCAPABLE ; else { res = VPX_CODEC_INVALID_PARAM ; for ( map = iface -> enc . cfg_maps ; map -> usage >= 0 ; map ++ ) { if ( map -> usage == ( int ) usage ) { * cfg = map -> cfg ; cfg -> g_usage = usage ; res = VPX_CODEC_OK ; break ; } } } return res ; }","vpx_codec_err_t vpx_codec_enc_config_default ( vpx_codec_iface_t * iface , vpx_codec_enc_cfg_t * cfg , unsigned int usage ) { vpx_codec_err_t res ; vpx_codec_enc_cfg_map_t * map ; int i ; if ( ! iface || ! cfg || usage > INT_MAX ) res = VPX_CODEC_INVALID_PARAM ; else if ( ! ( iface -> caps & VPX_CODEC_CAP_ENCODER ) ) res = VPX_CODEC_INCAPABLE ; else { res = VPX_CODEC_INVALID_PARAM ; for ( i = 0 ; i < iface -> enc . cfg_map_count ; ++ i ) { map = iface -> enc . cfg_maps + i ; if ( map -> usage == ( int ) usage ) { * cfg = map -> cfg ; cfg -> g_usage = usage ; res = VPX_CODEC_OK ; break ; } } } return res ; }" 619,"CWE-125 static void ip_printts ( netdissect_options * ndo , register const u_char * cp , u_int length ) { register u_int ptr ; register u_int len ; int hoplen ; const char * type ; if ( length < 4 ) { ND_PRINT ( ( ndo , ""[bad length %u]"" , length ) ) ; return ; } ND_PRINT ( ( ndo , "" TS{"" ) ) ; hoplen = ( ( cp [ 3 ] & 0xF ) != IPOPT_TS_TSONLY ) ? 8 : 4 ; if ( ( length - 4 ) & ( hoplen - 1 ) ) ND_PRINT ( ( ndo , ""[bad length %u]"" , length ) ) ; ptr = cp [ 2 ] - 1 ; len = 0 ; if ( ptr < 4 || ( ( ptr - 4 ) & ( hoplen - 1 ) ) || ptr > length + 1 ) ND_PRINT ( ( ndo , ""[bad ptr %u]"" , cp [ 2 ] ) ) ; switch ( cp [ 3 ] & 0xF ) { case IPOPT_TS_TSONLY : ND_PRINT ( ( ndo , ""TSONLY"" ) ) ; break ; case IPOPT_TS_TSANDADDR : ND_PRINT ( ( ndo , ""TS+ADDR"" ) ) ; break ; case 2 : ND_PRINT ( ( ndo , ""PRESPEC2.0"" ) ) ; break ; case 3 : ND_PRINT ( ( ndo , ""PRESPEC"" ) ) ; break ; default : ND_PRINT ( ( ndo , ""[bad ts type %d]"" , cp [ 3 ] & 0xF ) ) ; goto done ; } type = "" "" ; for ( len = 4 ; len < length ; len += hoplen ) { if ( ptr == len ) type = "" ^ "" ; ND_PRINT ( ( ndo , ""%s%d@%s"" , type , EXTRACT_32BITS ( & cp [ len + hoplen - 4 ] ) , hoplen != 8 ? """" : ipaddr_string ( ndo , & cp [ len ] ) ) ) ; type = "" "" ; } done : ND_PRINT ( ( ndo , ""%s"" , ptr == len ? "" ^ "" : """" ) ) ; if ( cp [ 3 ] >> 4 ) ND_PRINT ( ( ndo , "" [%d hops not recorded]} "" , cp [ 3 ] >> 4 ) ) ; else ND_PRINT ( ( ndo , ""}"" ) ) ; }","static int ip_printts ( netdissect_options * ndo , register const u_char * cp , u_int length ) { register u_int ptr ; register u_int len ; int hoplen ; const char * type ; if ( length < 4 ) { ND_PRINT ( ( ndo , ""[bad length %u]"" , length ) ) ; return ( 0 ) ; } ND_PRINT ( ( ndo , "" TS{"" ) ) ; hoplen = ( ( cp [ 3 ] & 0xF ) != IPOPT_TS_TSONLY ) ? 8 : 4 ; if ( ( length - 4 ) & ( hoplen - 1 ) ) ND_PRINT ( ( ndo , ""[bad length %u]"" , length ) ) ; ND_TCHECK ( cp [ 2 ] ) ; ptr = cp [ 2 ] - 1 ; len = 0 ; if ( ptr < 4 || ( ( ptr - 4 ) & ( hoplen - 1 ) ) || ptr > length + 1 ) ND_PRINT ( ( ndo , ""[bad ptr %u]"" , cp [ 2 ] ) ) ; ND_TCHECK ( cp [ 3 ] ) ; switch ( cp [ 3 ] & 0xF ) { case IPOPT_TS_TSONLY : ND_PRINT ( ( ndo , ""TSONLY"" ) ) ; break ; case IPOPT_TS_TSANDADDR : ND_PRINT ( ( ndo , ""TS+ADDR"" ) ) ; break ; case 2 : ND_PRINT ( ( ndo , ""PRESPEC2.0"" ) ) ; break ; case 3 : ND_PRINT ( ( ndo , ""PRESPEC"" ) ) ; break ; default : ND_PRINT ( ( ndo , ""[bad ts type %d]"" , cp [ 3 ] & 0xF ) ) ; goto done ; } type = "" "" ; for ( len = 4 ; len < length ; len += hoplen ) { if ( ptr == len ) type = "" ^ "" ; ND_TCHECK2 ( cp [ len ] , hoplen ) ; ND_PRINT ( ( ndo , ""%s%d@%s"" , type , EXTRACT_32BITS ( & cp [ len + hoplen - 4 ] ) , hoplen != 8 ? """" : ipaddr_string ( ndo , & cp [ len ] ) ) ) ; type = "" "" ; } done : ND_PRINT ( ( ndo , ""%s"" , ptr == len ? "" ^ "" : """" ) ) ; if ( cp [ 3 ] >> 4 ) ND_PRINT ( ( ndo , "" [%d hops not recorded]} "" , cp [ 3 ] >> 4 ) ) ; else ND_PRINT ( ( ndo , ""}"" ) ) ; return ( 0 ) ; trunc : return ( - 1 ) ; }" 620,"CWE-264 static void on_response ( void * data , krb5_error_code retval , otp_response response ) { struct request_state rs = * ( struct request_state * ) data ; free ( data ) ; if ( retval == 0 && response != otp_response_success ) retval = KRB5_PREAUTH_FAILED ; rs . respond ( rs . arg , retval , NULL , NULL , NULL ) ; }","static void on_response ( void * data , krb5_error_code retval , otp_response response ) { struct request_state rs = * ( struct request_state * ) data ; free ( data ) ; if ( retval == 0 && response != otp_response_success ) retval = KRB5_PREAUTH_FAILED ; if ( retval == 0 ) rs . enc_tkt_reply -> flags |= TKT_FLG_PRE_AUTH ; rs . respond ( rs . arg , retval , NULL , NULL , NULL ) ; }" 621,"CWE-125 static void hid_input_field ( struct hid_device * hid , struct hid_field * field , __u8 * data , int interrupt ) { unsigned n ; unsigned count = field -> report_count ; unsigned offset = field -> report_offset ; unsigned size = field -> report_size ; __s32 min = field -> logical_minimum ; __s32 max = field -> logical_maximum ; __s32 * value ; value = kmalloc ( sizeof ( __s32 ) * count , GFP_ATOMIC ) ; if ( ! value ) return ; for ( n = 0 ; n < count ; n ++ ) { value [ n ] = min < 0 ? snto32 ( hid_field_extract ( hid , data , offset + n * size , size ) , size ) : hid_field_extract ( hid , data , offset + n * size , size ) ; if ( ! ( field -> flags & HID_MAIN_ITEM_VARIABLE ) && value [ n ] >= min && value [ n ] <= max && field -> usage [ value [ n ] - min ] . hid == HID_UP_KEYBOARD + 1 ) goto exit ; } for ( n = 0 ; n < count ; n ++ ) { if ( HID_MAIN_ITEM_VARIABLE & field -> flags ) { hid_process_event ( hid , field , & field -> usage [ n ] , value [ n ] , interrupt ) ; continue ; } if ( field -> value [ n ] >= min && field -> value [ n ] <= max && field -> usage [ field -> value [ n ] - min ] . hid && search ( value , field -> value [ n ] , count ) ) hid_process_event ( hid , field , & field -> usage [ field -> value [ n ] - min ] , 0 , interrupt ) ; if ( value [ n ] >= min && value [ n ] <= max && field -> usage [ value [ n ] - min ] . hid && search ( field -> value , value [ n ] , count ) ) hid_process_event ( hid , field , & field -> usage [ value [ n ] - min ] , 1 , interrupt ) ; } memcpy ( field -> value , value , count * sizeof ( __s32 ) ) ; exit : kfree ( value ) ; }","static void hid_input_field ( struct hid_device * hid , struct hid_field * field , __u8 * data , int interrupt ) { unsigned n ; unsigned count = field -> report_count ; unsigned offset = field -> report_offset ; unsigned size = field -> report_size ; __s32 min = field -> logical_minimum ; __s32 max = field -> logical_maximum ; __s32 * value ; value = kmalloc ( sizeof ( __s32 ) * count , GFP_ATOMIC ) ; if ( ! value ) return ; for ( n = 0 ; n < count ; n ++ ) { value [ n ] = min < 0 ? snto32 ( hid_field_extract ( hid , data , offset + n * size , size ) , size ) : hid_field_extract ( hid , data , offset + n * size , size ) ; if ( ! ( field -> flags & HID_MAIN_ITEM_VARIABLE ) && value [ n ] >= min && value [ n ] <= max && value [ n ] - min < field -> maxusage && field -> usage [ value [ n ] - min ] . hid == HID_UP_KEYBOARD + 1 ) goto exit ; } for ( n = 0 ; n < count ; n ++ ) { if ( HID_MAIN_ITEM_VARIABLE & field -> flags ) { hid_process_event ( hid , field , & field -> usage [ n ] , value [ n ] , interrupt ) ; continue ; } if ( field -> value [ n ] >= min && field -> value [ n ] <= max && field -> value [ n ] - min < field -> maxusage && field -> usage [ field -> value [ n ] - min ] . hid && search ( value , field -> value [ n ] , count ) ) hid_process_event ( hid , field , & field -> usage [ field -> value [ n ] - min ] , 0 , interrupt ) ; if ( value [ n ] >= min && value [ n ] <= max && value [ n ] - min < field -> maxusage && field -> usage [ value [ n ] - min ] . hid && search ( field -> value , value [ n ] , count ) ) hid_process_event ( hid , field , & field -> usage [ value [ n ] - min ] , 1 , interrupt ) ; } memcpy ( field -> value , value , count * sizeof ( __s32 ) ) ; exit : kfree ( value ) ; }" 622,"CWE-264 static int fr_add_pvc ( struct net_device * frad , unsigned int dlci , int type ) { hdlc_device * hdlc = dev_to_hdlc ( frad ) ; pvc_device * pvc ; struct net_device * dev ; int used ; if ( ( pvc = add_pvc ( frad , dlci ) ) == NULL ) { netdev_warn ( frad , ""Memory squeeze on fr_add_pvc()\\n"" ) ; return - ENOBUFS ; } if ( * get_dev_p ( pvc , type ) ) return - EEXIST ; used = pvc_is_used ( pvc ) ; if ( type == ARPHRD_ETHER ) dev = alloc_netdev ( 0 , ""pvceth%d"" , ether_setup ) ; else dev = alloc_netdev ( 0 , ""pvc%d"" , pvc_setup ) ; if ( ! dev ) { netdev_warn ( frad , ""Memory squeeze on fr_pvc()\\n"" ) ; delete_unused_pvcs ( hdlc ) ; return - ENOBUFS ; } if ( type == ARPHRD_ETHER ) random_ether_addr ( dev -> dev_addr ) ; else { * ( __be16 * ) dev -> dev_addr = htons ( dlci ) ; dlci_to_q922 ( dev -> broadcast , dlci ) ; } dev -> netdev_ops = & pvc_ops ; dev -> mtu = HDLC_MAX_MTU ; dev -> tx_queue_len = 0 ; dev -> ml_priv = pvc ; if ( register_netdevice ( dev ) != 0 ) { free_netdev ( dev ) ; delete_unused_pvcs ( hdlc ) ; return - EIO ; } dev -> destructor = free_netdev ; * get_dev_p ( pvc , type ) = dev ; if ( ! used ) { state ( hdlc ) -> dce_changed = 1 ; state ( hdlc ) -> dce_pvc_count ++ ; } return 0 ; }","static int fr_add_pvc ( struct net_device * frad , unsigned int dlci , int type ) { hdlc_device * hdlc = dev_to_hdlc ( frad ) ; pvc_device * pvc ; struct net_device * dev ; int used ; if ( ( pvc = add_pvc ( frad , dlci ) ) == NULL ) { netdev_warn ( frad , ""Memory squeeze on fr_add_pvc()\\n"" ) ; return - ENOBUFS ; } if ( * get_dev_p ( pvc , type ) ) return - EEXIST ; used = pvc_is_used ( pvc ) ; if ( type == ARPHRD_ETHER ) { dev = alloc_netdev ( 0 , ""pvceth%d"" , ether_setup ) ; dev -> priv_flags &= ~ IFF_TX_SKB_SHARING ; } else dev = alloc_netdev ( 0 , ""pvc%d"" , pvc_setup ) ; if ( ! dev ) { netdev_warn ( frad , ""Memory squeeze on fr_pvc()\\n"" ) ; delete_unused_pvcs ( hdlc ) ; return - ENOBUFS ; } if ( type == ARPHRD_ETHER ) random_ether_addr ( dev -> dev_addr ) ; else { * ( __be16 * ) dev -> dev_addr = htons ( dlci ) ; dlci_to_q922 ( dev -> broadcast , dlci ) ; } dev -> netdev_ops = & pvc_ops ; dev -> mtu = HDLC_MAX_MTU ; dev -> tx_queue_len = 0 ; dev -> ml_priv = pvc ; if ( register_netdevice ( dev ) != 0 ) { free_netdev ( dev ) ; delete_unused_pvcs ( hdlc ) ; return - EIO ; } dev -> destructor = free_netdev ; * get_dev_p ( pvc , type ) = dev ; if ( ! used ) { state ( hdlc ) -> dce_changed = 1 ; state ( hdlc ) -> dce_pvc_count ++ ; } return 0 ; }" 623,"CWE-59 static inline int mount_entry_on_systemfs ( struct mntent * mntent ) { return mount_entry_on_generic ( mntent , mntent -> mnt_dir ) ; }","static inline int mount_entry_on_systemfs ( struct mntent * mntent ) { return mount_entry_on_generic ( mntent , mntent -> mnt_dir , NULL ) ; }" 624,"CWE-476 int xfs_attr_shortform_to_leaf ( struct xfs_da_args * args , struct xfs_buf * * leaf_bp ) { xfs_inode_t * dp ; xfs_attr_shortform_t * sf ; xfs_attr_sf_entry_t * sfe ; xfs_da_args_t nargs ; char * tmpbuffer ; int error , i , size ; xfs_dablk_t blkno ; struct xfs_buf * bp ; xfs_ifork_t * ifp ; trace_xfs_attr_sf_to_leaf ( args ) ; dp = args -> dp ; ifp = dp -> i_afp ; sf = ( xfs_attr_shortform_t * ) ifp -> if_u1 . if_data ; size = be16_to_cpu ( sf -> hdr . totsize ) ; tmpbuffer = kmem_alloc ( size , KM_SLEEP ) ; ASSERT ( tmpbuffer != NULL ) ; memcpy ( tmpbuffer , ifp -> if_u1 . if_data , size ) ; sf = ( xfs_attr_shortform_t * ) tmpbuffer ; xfs_idata_realloc ( dp , - size , XFS_ATTR_FORK ) ; xfs_bmap_local_to_extents_empty ( dp , XFS_ATTR_FORK ) ; bp = NULL ; error = xfs_da_grow_inode ( args , & blkno ) ; if ( error ) { if ( error == - EIO ) goto out ; xfs_idata_realloc ( dp , size , XFS_ATTR_FORK ) ; memcpy ( ifp -> if_u1 . if_data , tmpbuffer , size ) ; goto out ; } ASSERT ( blkno == 0 ) ; error = xfs_attr3_leaf_create ( args , blkno , & bp ) ; if ( error ) { error = xfs_da_shrink_inode ( args , 0 , bp ) ; bp = NULL ; if ( error ) goto out ; xfs_idata_realloc ( dp , size , XFS_ATTR_FORK ) ; memcpy ( ifp -> if_u1 . if_data , tmpbuffer , size ) ; goto out ; } memset ( ( char * ) & nargs , 0 , sizeof ( nargs ) ) ; nargs . dp = dp ; nargs . geo = args -> geo ; nargs . firstblock = args -> firstblock ; nargs . dfops = args -> dfops ; nargs . total = args -> total ; nargs . whichfork = XFS_ATTR_FORK ; nargs . trans = args -> trans ; nargs . op_flags = XFS_DA_OP_OKNOENT ; sfe = & sf -> list [ 0 ] ; for ( i = 0 ; i < sf -> hdr . count ; i ++ ) { nargs . name = sfe -> nameval ; nargs . namelen = sfe -> namelen ; nargs . value = & sfe -> nameval [ nargs . namelen ] ; nargs . valuelen = sfe -> valuelen ; nargs . hashval = xfs_da_hashname ( sfe -> nameval , sfe -> namelen ) ; nargs . flags = XFS_ATTR_NSP_ONDISK_TO_ARGS ( sfe -> flags ) ; error = xfs_attr3_leaf_lookup_int ( bp , & nargs ) ; ASSERT ( error == - ENOATTR ) ; error = xfs_attr3_leaf_add ( bp , & nargs ) ; ASSERT ( error != - ENOSPC ) ; if ( error ) goto out ; sfe = XFS_ATTR_SF_NEXTENTRY ( sfe ) ; } error = 0 ; * leaf_bp = bp ; out : kmem_free ( tmpbuffer ) ; return error ; }","int xfs_attr_shortform_to_leaf ( struct xfs_da_args * args , struct xfs_buf * * leaf_bp ) { xfs_inode_t * dp ; xfs_attr_shortform_t * sf ; xfs_attr_sf_entry_t * sfe ; xfs_da_args_t nargs ; char * tmpbuffer ; int error , i , size ; xfs_dablk_t blkno ; struct xfs_buf * bp ; xfs_ifork_t * ifp ; trace_xfs_attr_sf_to_leaf ( args ) ; dp = args -> dp ; ifp = dp -> i_afp ; sf = ( xfs_attr_shortform_t * ) ifp -> if_u1 . if_data ; size = be16_to_cpu ( sf -> hdr . totsize ) ; tmpbuffer = kmem_alloc ( size , KM_SLEEP ) ; ASSERT ( tmpbuffer != NULL ) ; memcpy ( tmpbuffer , ifp -> if_u1 . if_data , size ) ; sf = ( xfs_attr_shortform_t * ) tmpbuffer ; xfs_idata_realloc ( dp , - size , XFS_ATTR_FORK ) ; xfs_bmap_local_to_extents_empty ( dp , XFS_ATTR_FORK ) ; bp = NULL ; error = xfs_da_grow_inode ( args , & blkno ) ; if ( error ) { if ( error == - EIO ) goto out ; xfs_idata_realloc ( dp , size , XFS_ATTR_FORK ) ; memcpy ( ifp -> if_u1 . if_data , tmpbuffer , size ) ; goto out ; } ASSERT ( blkno == 0 ) ; error = xfs_attr3_leaf_create ( args , blkno , & bp ) ; if ( error ) { if ( bp && ( xfs_da_shrink_inode ( args , 0 , bp ) != 0 ) ) goto out ; xfs_idata_realloc ( dp , size , XFS_ATTR_FORK ) ; memcpy ( ifp -> if_u1 . if_data , tmpbuffer , size ) ; goto out ; } memset ( ( char * ) & nargs , 0 , sizeof ( nargs ) ) ; nargs . dp = dp ; nargs . geo = args -> geo ; nargs . firstblock = args -> firstblock ; nargs . dfops = args -> dfops ; nargs . total = args -> total ; nargs . whichfork = XFS_ATTR_FORK ; nargs . trans = args -> trans ; nargs . op_flags = XFS_DA_OP_OKNOENT ; sfe = & sf -> list [ 0 ] ; for ( i = 0 ; i < sf -> hdr . count ; i ++ ) { nargs . name = sfe -> nameval ; nargs . namelen = sfe -> namelen ; nargs . value = & sfe -> nameval [ nargs . namelen ] ; nargs . valuelen = sfe -> valuelen ; nargs . hashval = xfs_da_hashname ( sfe -> nameval , sfe -> namelen ) ; nargs . flags = XFS_ATTR_NSP_ONDISK_TO_ARGS ( sfe -> flags ) ; error = xfs_attr3_leaf_lookup_int ( bp , & nargs ) ; ASSERT ( error == - ENOATTR ) ; error = xfs_attr3_leaf_add ( bp , & nargs ) ; ASSERT ( error != - ENOSPC ) ; if ( error ) goto out ; sfe = XFS_ATTR_SF_NEXTENTRY ( sfe ) ; } error = 0 ; * leaf_bp = bp ; out : kmem_free ( tmpbuffer ) ; return error ; }" 625,"NVD-CWE-Other int key_reject_and_link ( struct key * key , unsigned timeout , unsigned error , struct key * keyring , struct key * authkey ) { struct assoc_array_edit * edit ; struct timespec now ; int ret , awaken , link_ret = 0 ; key_check ( key ) ; key_check ( keyring ) ; awaken = 0 ; ret = - EBUSY ; if ( keyring ) { if ( keyring -> restrict_link ) return - EPERM ; link_ret = __key_link_begin ( keyring , & key -> index_key , & edit ) ; } mutex_lock ( & key_construction_mutex ) ; if ( ! test_bit ( KEY_FLAG_INSTANTIATED , & key -> flags ) ) { atomic_inc ( & key -> user -> nikeys ) ; key -> reject_error = - error ; smp_wmb ( ) ; set_bit ( KEY_FLAG_NEGATIVE , & key -> flags ) ; set_bit ( KEY_FLAG_INSTANTIATED , & key -> flags ) ; now = current_kernel_time ( ) ; key -> expiry = now . tv_sec + timeout ; key_schedule_gc ( key -> expiry + key_gc_delay ) ; if ( test_and_clear_bit ( KEY_FLAG_USER_CONSTRUCT , & key -> flags ) ) awaken = 1 ; ret = 0 ; if ( keyring && link_ret == 0 ) __key_link ( key , & edit ) ; if ( authkey ) key_revoke ( authkey ) ; } mutex_unlock ( & key_construction_mutex ) ; if ( keyring ) __key_link_end ( keyring , & key -> index_key , edit ) ; if ( awaken ) wake_up_bit ( & key -> flags , KEY_FLAG_USER_CONSTRUCT ) ; return ret == 0 ? link_ret : ret ; }","int key_reject_and_link ( struct key * key , unsigned timeout , unsigned error , struct key * keyring , struct key * authkey ) { struct assoc_array_edit * edit ; struct timespec now ; int ret , awaken , link_ret = 0 ; key_check ( key ) ; key_check ( keyring ) ; awaken = 0 ; ret = - EBUSY ; if ( keyring ) { if ( keyring -> restrict_link ) return - EPERM ; link_ret = __key_link_begin ( keyring , & key -> index_key , & edit ) ; } mutex_lock ( & key_construction_mutex ) ; if ( ! test_bit ( KEY_FLAG_INSTANTIATED , & key -> flags ) ) { atomic_inc ( & key -> user -> nikeys ) ; key -> reject_error = - error ; smp_wmb ( ) ; set_bit ( KEY_FLAG_NEGATIVE , & key -> flags ) ; set_bit ( KEY_FLAG_INSTANTIATED , & key -> flags ) ; now = current_kernel_time ( ) ; key -> expiry = now . tv_sec + timeout ; key_schedule_gc ( key -> expiry + key_gc_delay ) ; if ( test_and_clear_bit ( KEY_FLAG_USER_CONSTRUCT , & key -> flags ) ) awaken = 1 ; ret = 0 ; if ( keyring && link_ret == 0 ) __key_link ( key , & edit ) ; if ( authkey ) key_revoke ( authkey ) ; } mutex_unlock ( & key_construction_mutex ) ; if ( keyring && link_ret == 0 ) __key_link_end ( keyring , & key -> index_key , edit ) ; if ( awaken ) wake_up_bit ( & key -> flags , KEY_FLAG_USER_CONSTRUCT ) ; return ret == 0 ? link_ret : ret ; }" 626,"CWE-125 int main ( int argc , char * argv [ ] ) { libettercap_init ( ) ; ef_globals_alloc ( ) ; select_text_interface ( ) ; libettercap_ui_init ( ) ; fprintf ( stdout , ""\\n"" EC_COLOR_BOLD ""%s %s"" EC_COLOR_END "" copyright %s %s\\n\\n"" , PROGRAM , EC_VERSION , EC_COPYRIGHT , EC_AUTHORS ) ; EF_GBL -> lineno = 1 ; parse_options ( argc , argv ) ; if ( EF_GBL_OPTIONS -> source_file ) { yyin = fopen ( EF_GBL_OPTIONS -> source_file , ""r"" ) ; if ( yyin == NULL ) FATAL_ERROR ( ""Input file not found !"" ) ; } else { FATAL_ERROR ( ""No source file."" ) ; } setbuf ( yyin , NULL ) ; setbuf ( stdout , NULL ) ; setbuf ( stderr , NULL ) ; load_tables ( ) ; load_constants ( ) ; fprintf ( stdout , ""\\n Parsing source file \\\'%s\\\' "" , EF_GBL_OPTIONS -> source_file ) ; fflush ( stdout ) ; ef_debug ( 1 , ""\\n"" ) ; if ( yyparse ( ) == 0 ) fprintf ( stdout , "" done.\\n\\n"" ) ; else fprintf ( stdout , ""\\n\\nThe script contains errors...\\n\\n"" ) ; if ( write_output ( ) != E_SUCCESS ) FATAL_ERROR ( ""Cannot write output file (%s)"" , EF_GBL_OPTIONS -> output_file ) ; ef_globals_free ( ) ; return 0 ; }","int main ( int argc , char * argv [ ] ) { int ret_value = 0 ; libettercap_init ( ) ; ef_globals_alloc ( ) ; select_text_interface ( ) ; libettercap_ui_init ( ) ; fprintf ( stdout , ""\\n"" EC_COLOR_BOLD ""%s %s"" EC_COLOR_END "" copyright %s %s\\n\\n"" , PROGRAM , EC_VERSION , EC_COPYRIGHT , EC_AUTHORS ) ; EF_GBL -> lineno = 1 ; parse_options ( argc , argv ) ; if ( EF_GBL_OPTIONS -> source_file ) { yyin = fopen ( EF_GBL_OPTIONS -> source_file , ""r"" ) ; if ( yyin == NULL ) FATAL_ERROR ( ""Input file not found !"" ) ; } else { FATAL_ERROR ( ""No source file."" ) ; } setbuf ( yyin , NULL ) ; setbuf ( stdout , NULL ) ; setbuf ( stderr , NULL ) ; load_tables ( ) ; load_constants ( ) ; fprintf ( stdout , ""\\n Parsing source file \\\'%s\\\' "" , EF_GBL_OPTIONS -> source_file ) ; fflush ( stdout ) ; ef_debug ( 1 , ""\\n"" ) ; if ( yyparse ( ) == 0 ) fprintf ( stdout , "" done.\\n\\n"" ) ; else fprintf ( stdout , ""\\n\\nThe script contains errors...\\n\\n"" ) ; ret_value = write_output ( ) ; if ( ret_value == - E_NOTHANDLED ) FATAL_ERROR ( ""Cannot write output file (%s): the filter is not correctly handled."" , EF_GBL_OPTIONS -> output_file ) ; else if ( ret_value == - E_INVALID ) FATAL_ERROR ( ""Cannot write output file (%s): the filter format is not correct. "" , EF_GBL_OPTIONS -> output_file ) ; ef_globals_free ( ) ; return 0 ; }" 627,"CWE-611 static const char * cmd_hash_engine ( cmd_parms * cmd , void * _dcfg , const char * p1 ) { directory_config * dcfg = ( directory_config * ) _dcfg ; if ( dcfg == NULL ) return NULL ; if ( strcasecmp ( p1 , ""on"" ) == 0 ) { dcfg -> hash_is_enabled = HASH_ENABLED ; dcfg -> hash_enforcement = HASH_ENABLED ; } else if ( strcasecmp ( p1 , ""off"" ) == 0 ) { dcfg -> hash_is_enabled = HASH_DISABLED ; dcfg -> hash_enforcement = HASH_DISABLED ; } else return apr_psprintf ( cmd -> pool , ""ModSecurity: Invalid value for SecRuleEngine: %s"" , p1 ) ; return NULL ; }","static const char * cmd_hash_engine ( cmd_parms * cmd , void * _dcfg , const char * p1 ) { directory_config * dcfg = ( directory_config * ) _dcfg ; if ( dcfg == NULL ) return NULL ; if ( strcasecmp ( p1 , ""on"" ) == 0 ) { dcfg -> hash_is_enabled = HASH_ENABLED ; dcfg -> hash_enforcement = HASH_ENABLED ; } else if ( strcasecmp ( p1 , ""off"" ) == 0 ) { dcfg -> hash_is_enabled = HASH_DISABLED ; dcfg -> hash_enforcement = HASH_DISABLED ; } else return apr_psprintf ( cmd -> pool , ""ModSecurity: Invalid value for SexHashEngine: %s"" , p1 ) ; return NULL ; }" 628,"CWE-269 qboolean S_AL_Init ( soundInterface_t * si ) { # ifdef USE_OPENAL const char * device = NULL ; const char * inputdevice = NULL ; int i ; if ( ! si ) { return qfalse ; } for ( i = 0 ; i < MAX_RAW_STREAMS ; i ++ ) { streamSourceHandles [ i ] = - 1 ; streamPlaying [ i ] = qfalse ; streamSources [ i ] = 0 ; streamNumBuffers [ i ] = 0 ; streamBufIndex [ i ] = 0 ; } s_alPrecache = Cvar_Get ( ""s_alPrecache"" , ""1"" , CVAR_ARCHIVE ) ; s_alGain = Cvar_Get ( ""s_alGain"" , ""1.0"" , CVAR_ARCHIVE ) ; s_alSources = Cvar_Get ( ""s_alSources"" , ""128"" , CVAR_ARCHIVE ) ; s_alDopplerFactor = Cvar_Get ( ""s_alDopplerFactor"" , ""1.0"" , CVAR_ARCHIVE ) ; s_alDopplerSpeed = Cvar_Get ( ""s_alDopplerSpeed"" , ""9000"" , CVAR_ARCHIVE ) ; s_alMinDistance = Cvar_Get ( ""s_alMinDistance"" , ""120"" , CVAR_CHEAT ) ; s_alMaxDistance = Cvar_Get ( ""s_alMaxDistance"" , ""1024"" , CVAR_CHEAT ) ; s_alRolloff = Cvar_Get ( ""s_alRolloff"" , ""2"" , CVAR_CHEAT ) ; s_alGraceDistance = Cvar_Get ( ""s_alGraceDistance"" , ""512"" , CVAR_CHEAT ) ; s_alDriver = Cvar_Get ( ""s_alDriver"" , ALDRIVER_DEFAULT , CVAR_ARCHIVE | CVAR_LATCH ) ; s_alInputDevice = Cvar_Get ( ""s_alInputDevice"" , """" , CVAR_ARCHIVE | CVAR_LATCH ) ; s_alDevice = Cvar_Get ( ""s_alDevice"" , """" , CVAR_ARCHIVE | CVAR_LATCH ) ; if ( ! QAL_Init ( s_alDriver -> string ) ) { # if defined ( _WIN32 ) if ( ! Q_stricmp ( s_alDriver -> string , ALDRIVER_DEFAULT ) && ! QAL_Init ( ""OpenAL64.dll"" ) ) { # elif defined ( __APPLE__ ) if ( ! Q_stricmp ( s_alDriver -> string , ALDRIVER_DEFAULT ) && ! QAL_Init ( ""/System/Library/Frameworks/OpenAL.framework/OpenAL"" ) ) { # else if ( ! Q_stricmp ( s_alDriver -> string , ALDRIVER_DEFAULT ) || ! QAL_Init ( ALDRIVER_DEFAULT ) ) { # endif return qfalse ; } } device = s_alDevice -> string ; if ( device && ! * device ) device = NULL ; inputdevice = s_alInputDevice -> string ; if ( inputdevice && ! * inputdevice ) inputdevice = NULL ; enumeration_all_ext = qalcIsExtensionPresent ( NULL , ""ALC_ENUMERATE_ALL_EXT"" ) ; enumeration_ext = qalcIsExtensionPresent ( NULL , ""ALC_ENUMERATION_EXT"" ) ; if ( enumeration_ext || enumeration_all_ext ) { char devicenames [ 16384 ] = """" ; const char * devicelist ; # ifdef _WIN32 const char * defaultdevice ; # endif int curlen ; if ( enumeration_all_ext ) { devicelist = qalcGetString ( NULL , ALC_ALL_DEVICES_SPECIFIER ) ; # ifdef _WIN32 defaultdevice = qalcGetString ( NULL , ALC_DEFAULT_ALL_DEVICES_SPECIFIER ) ; # endif } else { devicelist = qalcGetString ( NULL , ALC_DEVICE_SPECIFIER ) ; # ifdef _WIN32 defaultdevice = qalcGetString ( NULL , ALC_DEFAULT_DEVICE_SPECIFIER ) ; # endif enumeration_ext = qtrue ; } # ifdef _WIN32 if ( ! device && defaultdevice && ! strcmp ( defaultdevice , ""Generic Hardware"" ) ) device = ""Generic Software"" ; # endif if ( devicelist ) { while ( ( curlen = strlen ( devicelist ) ) )","qboolean S_AL_Init ( soundInterface_t * si ) { # ifdef USE_OPENAL const char * device = NULL ; const char * inputdevice = NULL ; int i ; if ( ! si ) { return qfalse ; } for ( i = 0 ; i < MAX_RAW_STREAMS ; i ++ ) { streamSourceHandles [ i ] = - 1 ; streamPlaying [ i ] = qfalse ; streamSources [ i ] = 0 ; streamNumBuffers [ i ] = 0 ; streamBufIndex [ i ] = 0 ; } s_alPrecache = Cvar_Get ( ""s_alPrecache"" , ""1"" , CVAR_ARCHIVE ) ; s_alGain = Cvar_Get ( ""s_alGain"" , ""1.0"" , CVAR_ARCHIVE ) ; s_alSources = Cvar_Get ( ""s_alSources"" , ""128"" , CVAR_ARCHIVE ) ; s_alDopplerFactor = Cvar_Get ( ""s_alDopplerFactor"" , ""1.0"" , CVAR_ARCHIVE ) ; s_alDopplerSpeed = Cvar_Get ( ""s_alDopplerSpeed"" , ""9000"" , CVAR_ARCHIVE ) ; s_alMinDistance = Cvar_Get ( ""s_alMinDistance"" , ""120"" , CVAR_CHEAT ) ; s_alMaxDistance = Cvar_Get ( ""s_alMaxDistance"" , ""1024"" , CVAR_CHEAT ) ; s_alRolloff = Cvar_Get ( ""s_alRolloff"" , ""2"" , CVAR_CHEAT ) ; s_alGraceDistance = Cvar_Get ( ""s_alGraceDistance"" , ""512"" , CVAR_CHEAT ) ; s_alDriver = Cvar_Get ( ""s_alDriver"" , ALDRIVER_DEFAULT , CVAR_ARCHIVE | CVAR_LATCH | CVAR_PROTECTED ) ; s_alInputDevice = Cvar_Get ( ""s_alInputDevice"" , """" , CVAR_ARCHIVE | CVAR_LATCH ) ; s_alDevice = Cvar_Get ( ""s_alDevice"" , """" , CVAR_ARCHIVE | CVAR_LATCH ) ; if ( COM_CompareExtension ( s_alDriver -> string , "".pk3"" ) ) { Com_Printf ( ""Rejecting DLL named \\""%s\\"""" , s_alDriver -> string ) ; return qfalse ; } if ( ! QAL_Init ( s_alDriver -> string ) ) { # if defined ( _WIN32 ) if ( ! Q_stricmp ( s_alDriver -> string , ALDRIVER_DEFAULT ) && ! QAL_Init ( ""OpenAL64.dll"" ) ) { # elif defined ( __APPLE__ ) if ( ! Q_stricmp ( s_alDriver -> string , ALDRIVER_DEFAULT ) && ! QAL_Init ( ""/System/Library/Frameworks/OpenAL.framework/OpenAL"" ) ) { # else if ( ! Q_stricmp ( s_alDriver -> string , ALDRIVER_DEFAULT ) || ! QAL_Init ( ALDRIVER_DEFAULT ) ) { # endif return qfalse ; } } device = s_alDevice -> string ; if ( device && ! * device ) device = NULL ; inputdevice = s_alInputDevice -> string ; if ( inputdevice && ! * inputdevice ) inputdevice = NULL ; enumeration_all_ext = qalcIsExtensionPresent ( NULL , ""ALC_ENUMERATE_ALL_EXT"" ) ; enumeration_ext = qalcIsExtensionPresent ( NULL , ""ALC_ENUMERATION_EXT"" ) ; if ( enumeration_ext || enumeration_all_ext ) { char devicenames [ 16384 ] = """" ; const char * devicelist ; # ifdef _WIN32 const char * defaultdevice ; # endif int curlen ; if ( enumeration_all_ext ) { devicelist = qalcGetString ( NULL , ALC_ALL_DEVICES_SPECIFIER ) ; # ifdef _WIN32 defaultdevice = qalcGetString ( NULL , ALC_DEFAULT_ALL_DEVICES_SPECIFIER ) ; # endif } else { devicelist = qalcGetString ( NULL , ALC_DEVICE_SPECIFIER ) ; # ifdef _WIN32 defaultdevice = qalcGetString ( NULL , ALC_DEFAULT_DEVICE_SPECIFIER ) ; # endif enumeration_ext = qtrue ; } # ifdef _WIN32 if ( ! device && defaultdevice && ! strcmp ( defaultdevice , ""Generic Hardware"" ) ) device = ""Generic Software"" ; # endif if ( devicelist ) { while ( ( curlen = strlen ( devicelist ) ) )" 629,"NVD-CWE-noinfo static void nfs4_open_confirm_release ( void * calldata ) { struct nfs4_opendata * data = calldata ; struct nfs4_state * state = NULL ; if ( data -> cancelled == 0 ) goto out_free ; if ( ! data -> rpc_done ) goto out_free ; state = nfs4_opendata_to_nfs4_state ( data ) ; if ( ! IS_ERR ( state ) ) nfs4_close_state ( & data -> path , state , data -> o_arg . open_flags ) ; out_free : nfs4_opendata_put ( data ) ; }","static void nfs4_open_confirm_release ( void * calldata ) { struct nfs4_opendata * data = calldata ; struct nfs4_state * state = NULL ; if ( data -> cancelled == 0 ) goto out_free ; if ( ! data -> rpc_done ) goto out_free ; state = nfs4_opendata_to_nfs4_state ( data ) ; if ( ! IS_ERR ( state ) ) nfs4_close_state ( & data -> path , state , data -> o_arg . fmode ) ; out_free : nfs4_opendata_put ( data ) ; }" 630,"CWE-20 if ( storage_file ) { if ( settings . item_size_max > ext_cf . wbuf_size ) { fprintf ( stderr , ""-I (item_size_max: %d) cannot be larger than ext_wbuf_size: %d\\n"" , settings . item_size_max , ext_cf . wbuf_size ) ; exit ( EX_USAGE ) ; } if ( settings . inline_ascii_response ) { fprintf ( stderr , ""Cannot use inline_ascii_response with extstore enabled\\n"" ) ; exit ( EX_USAGE ) ; } if ( settings . udpport ) { fprintf ( stderr , ""Cannot use UDP with extstore enabled (-U 0 to disable)\\n"" ) ; exit ( EX_USAGE ) ; } } # endif if ( slab_sizes_unparsed != NULL ) { if ( _parse_slab_sizes ( slab_sizes_unparsed , slab_sizes ) ) { use_slab_sizes = true ; } else { exit ( EX_USAGE ) ; } } if ( settings . hot_lru_pct + settings . warm_lru_pct > 80 ) { fprintf ( stderr , ""hot_lru_pct + warm_lru_pct cannot be more than 80%% combined\\n"" ) ; exit ( EX_USAGE ) ; } if ( settings . temp_lru && ! start_lru_maintainer ) { fprintf ( stderr , ""temporary_ttl requires lru_maintainer to be enabled\\n"" ) ; exit ( EX_USAGE ) ; } if ( hash_init ( hash_type ) != 0 ) { fprintf ( stderr , ""Failed to initialize hash_algorithm!\\n"" ) ; exit ( EX_USAGE ) ; } if ( settings . inter != NULL && strchr ( settings . inter , ',' ) ) { settings . num_threads_per_udp = 1 ; } else { settings . num_threads_per_udp = settings . num_threads ; } if ( settings . sasl ) { if ( ! protocol_specified ) { settings . binding_protocol = binary_prot ; } else { if ( settings . binding_protocol != binary_prot ) { fprintf ( stderr , ""ERROR: You cannot allow the ASCII protocol while using SASL.\\n"" ) ; exit ( EX_USAGE ) ; } } } if ( tcp_specified && settings . port != 0 && ! udp_specified ) { settings . udpport = settings . port ; } else if ( udp_specified && settings . udpport != 0 && ! tcp_specified ) { settings . port = settings . udpport ; } if ( maxcore != 0 ) { struct rlimit rlim_new ; if ( getrlimit ( RLIMIT_CORE , & rlim ) == 0 ) { rlim_new . rlim_cur = rlim_new . rlim_max = RLIM_INFINITY ; if ( setrlimit ( RLIMIT_CORE , & rlim_new ) != 0 ) { rlim_new . rlim_cur = rlim_new . rlim_max = rlim . rlim_max ; ( void ) setrlimit ( RLIMIT_CORE , & rlim_new ) ; } } if ( ( getrlimit ( RLIMIT_CORE , & rlim ) != 0 ) || rlim . rlim_cur == 0 ) { fprintf ( stderr , ""failed to ensure corefile creation\\n"" ) ; exit ( EX_OSERR ) ; } } if ( getrlimit ( RLIMIT_NOFILE , & rlim ) != 0 ) { fprintf ( stderr , ""failed to getrlimit number of files\\n"" ) ; exit ( EX_OSERR ) ; } else { rlim . rlim_cur = settings . maxconns ; rlim . rlim_max = settings . maxconns ; if ( setrlimit ( RLIMIT_NOFILE , & rlim ) != 0 ) { fprintf ( stderr , ""failed to set rlimit for open files. Try starting as root or requesting smaller maxconns value.\\n"" ) ; exit ( EX_OSERR ) ; } } if ( getuid ( ) == 0 || geteuid ( ) == 0 ) { if ( username == 0 || * username == '\\0' ) { fprintf ( stderr , ""can\'t run as root without the -u switch\\n"" ) ; exit ( EX_USAGE ) ; } if ( ( pw = getpwnam ( username ) ) == 0 ) { fprintf ( stderr , ""can\'t find the user %s to switch to\\n"" , username ) ; exit ( EX_NOUSER ) ; } if ( setgid ( pw -> pw_gid ) < 0 || setuid ( pw -> pw_uid ) < 0 ) { fprintf ( stderr , ""failed to assume identity of user %s\\n"" , username ) ; exit ( EX_OSERR ) ; } } if ( settings . sasl ) { init_sasl ( ) ; } if ( do_daemonize ) { if ( sigignore ( SIGHUP ) == - 1 ) { perror ( ""Failed to ignore SIGHUP"" ) ; } if ( daemonize ( maxcore , settings . verbose ) == - 1 ) { fprintf ( stderr , ""failed to daemon() in order to daemonize\\n"" ) ;","if ( storage_file ) { if ( settings . item_size_max > ext_cf . wbuf_size ) { fprintf ( stderr , ""-I (item_size_max: %d) cannot be larger than ext_wbuf_size: %d\\n"" , settings . item_size_max , ext_cf . wbuf_size ) ; exit ( EX_USAGE ) ; } if ( settings . inline_ascii_response ) { fprintf ( stderr , ""Cannot use inline_ascii_response with extstore enabled\\n"" ) ; exit ( EX_USAGE ) ; } if ( settings . udpport ) { fprintf ( stderr , ""Cannot use UDP with extstore enabled (-U 0 to disable)\\n"" ) ; exit ( EX_USAGE ) ; } } # endif if ( slab_sizes_unparsed != NULL ) { if ( _parse_slab_sizes ( slab_sizes_unparsed , slab_sizes ) ) { use_slab_sizes = true ; } else { exit ( EX_USAGE ) ; } } if ( settings . hot_lru_pct + settings . warm_lru_pct > 80 ) { fprintf ( stderr , ""hot_lru_pct + warm_lru_pct cannot be more than 80%% combined\\n"" ) ; exit ( EX_USAGE ) ; } if ( settings . temp_lru && ! start_lru_maintainer ) { fprintf ( stderr , ""temporary_ttl requires lru_maintainer to be enabled\\n"" ) ; exit ( EX_USAGE ) ; } if ( hash_init ( hash_type ) != 0 ) { fprintf ( stderr , ""Failed to initialize hash_algorithm!\\n"" ) ; exit ( EX_USAGE ) ; } if ( settings . inter != NULL && strchr ( settings . inter , ',' ) ) { settings . num_threads_per_udp = 1 ; } else { settings . num_threads_per_udp = settings . num_threads ; } if ( settings . sasl ) { if ( ! protocol_specified ) { settings . binding_protocol = binary_prot ; } else { if ( settings . binding_protocol != binary_prot ) { fprintf ( stderr , ""ERROR: You cannot allow the ASCII protocol while using SASL.\\n"" ) ; exit ( EX_USAGE ) ; } } } if ( udp_specified && settings . udpport != 0 && ! tcp_specified ) { settings . port = settings . udpport ; } if ( maxcore != 0 ) { struct rlimit rlim_new ; if ( getrlimit ( RLIMIT_CORE , & rlim ) == 0 ) { rlim_new . rlim_cur = rlim_new . rlim_max = RLIM_INFINITY ; if ( setrlimit ( RLIMIT_CORE , & rlim_new ) != 0 ) { rlim_new . rlim_cur = rlim_new . rlim_max = rlim . rlim_max ; ( void ) setrlimit ( RLIMIT_CORE , & rlim_new ) ; } } if ( ( getrlimit ( RLIMIT_CORE , & rlim ) != 0 ) || rlim . rlim_cur == 0 ) { fprintf ( stderr , ""failed to ensure corefile creation\\n"" ) ; exit ( EX_OSERR ) ; } } if ( getrlimit ( RLIMIT_NOFILE , & rlim ) != 0 ) { fprintf ( stderr , ""failed to getrlimit number of files\\n"" ) ; exit ( EX_OSERR ) ; } else { rlim . rlim_cur = settings . maxconns ; rlim . rlim_max = settings . maxconns ; if ( setrlimit ( RLIMIT_NOFILE , & rlim ) != 0 ) { fprintf ( stderr , ""failed to set rlimit for open files. Try starting as root or requesting smaller maxconns value.\\n"" ) ; exit ( EX_OSERR ) ; } } if ( getuid ( ) == 0 || geteuid ( ) == 0 ) { if ( username == 0 || * username == '\\0' ) { fprintf ( stderr , ""can\'t run as root without the -u switch\\n"" ) ; exit ( EX_USAGE ) ; } if ( ( pw = getpwnam ( username ) ) == 0 ) { fprintf ( stderr , ""can\'t find the user %s to switch to\\n"" , username ) ; exit ( EX_NOUSER ) ; } if ( setgid ( pw -> pw_gid ) < 0 || setuid ( pw -> pw_uid ) < 0 ) { fprintf ( stderr , ""failed to assume identity of user %s\\n"" , username ) ; exit ( EX_OSERR ) ; } } if ( settings . sasl ) { init_sasl ( ) ; } if ( do_daemonize ) { if ( sigignore ( SIGHUP ) == - 1 ) { perror ( ""Failed to ignore SIGHUP"" ) ; } if ( daemonize ( maxcore , settings . verbose ) == - 1 ) { fprintf ( stderr , ""failed to daemon() in order to daemonize\\n"" ) ;" 631,"CWE-119 void Huff_Compress ( msg_t * mbuf , int offset ) { int i , ch , size ; byte seq [ 65536 ] ; byte * buffer ; huff_t huff ; size = mbuf -> cursize - offset ; buffer = mbuf -> data + + offset ; if ( size <= 0 ) { return ; } Com_Memset ( & huff , 0 , sizeof ( huff_t ) ) ; huff . tree = huff . lhead = huff . loc [ NYT ] = & ( huff . nodeList [ huff . blocNode ++ ] ) ; huff . tree -> symbol = NYT ; huff . tree -> weight = 0 ; huff . lhead -> next = huff . lhead -> prev = NULL ; huff . tree -> parent = huff . tree -> left = huff . tree -> right = NULL ; seq [ 0 ] = ( size >> 8 ) ; seq [ 1 ] = size & 0xff ; bloc = 16 ; for ( i = 0 ; i < size ; i ++ ) { ch = buffer [ i ] ; Huff_transmit ( & huff , ch , seq ) ; Huff_addRef ( & huff , ( byte ) ch ) ; } bloc += 8 ; mbuf -> cursize = ( bloc >> 3 ) + offset ; Com_Memcpy ( mbuf -> data + offset , seq , ( bloc >> 3 ) ) ; }","void Huff_Compress ( msg_t * mbuf , int offset ) { int i , ch , size ; byte seq [ 65536 ] ; byte * buffer ; huff_t huff ; size = mbuf -> cursize - offset ; buffer = mbuf -> data + + offset ; if ( size <= 0 ) { return ; } Com_Memset ( & huff , 0 , sizeof ( huff_t ) ) ; huff . tree = huff . lhead = huff . loc [ NYT ] = & ( huff . nodeList [ huff . blocNode ++ ] ) ; huff . tree -> symbol = NYT ; huff . tree -> weight = 0 ; huff . lhead -> next = huff . lhead -> prev = NULL ; huff . tree -> parent = huff . tree -> left = huff . tree -> right = NULL ; seq [ 0 ] = ( size >> 8 ) ; seq [ 1 ] = size & 0xff ; bloc = 16 ; for ( i = 0 ; i < size ; i ++ ) { ch = buffer [ i ] ; Huff_transmit ( & huff , ch , seq , size << 3 ) ; Huff_addRef ( & huff , ( byte ) ch ) ; } bloc += 8 ; mbuf -> cursize = ( bloc >> 3 ) + offset ; Com_Memcpy ( mbuf -> data + offset , seq , ( bloc >> 3 ) ) ; }" 632,"CWE-125 dp -> icmp_code ) ; break ; } break ; case ICMP_PARAMPROB : if ( dp -> icmp_code ) ( void ) snprintf ( buf , sizeof ( buf ) , ""parameter problem - code %u"" , dp -> icmp_code ) ; else { ND_TCHECK ( dp -> icmp_pptr ) ; ( void ) snprintf ( buf , sizeof ( buf ) , ""parameter problem - octet %u"" , dp -> icmp_pptr ) ; } break ; case ICMP_MASKREPLY : ND_TCHECK ( dp -> icmp_mask ) ; ( void ) snprintf ( buf , sizeof ( buf ) , ""address mask is 0x%08x"" , EXTRACT_32BITS ( & dp -> icmp_mask ) ) ; break ; case ICMP_TSTAMP : ND_TCHECK ( dp -> icmp_seq ) ; ( void ) snprintf ( buf , sizeof ( buf ) , ""time stamp query id %u seq %u"" , EXTRACT_16BITS ( & dp -> icmp_id ) , EXTRACT_16BITS ( & dp -> icmp_seq ) ) ; break ; case ICMP_TSTAMPREPLY : ND_TCHECK ( dp -> icmp_ttime ) ; ( void ) snprintf ( buf , sizeof ( buf ) , ""time stamp reply id %u seq %u: org %s"" , EXTRACT_16BITS ( & dp -> icmp_id ) , EXTRACT_16BITS ( & dp -> icmp_seq ) , icmp_tstamp_print ( EXTRACT_32BITS ( & dp -> icmp_otime ) ) ) ; ( void ) snprintf ( buf + strlen ( buf ) , sizeof ( buf ) - strlen ( buf ) , "", recv %s"" , icmp_tstamp_print ( EXTRACT_32BITS ( & dp -> icmp_rtime ) ) ) ; ( void ) snprintf ( buf + strlen ( buf ) , sizeof ( buf ) - strlen ( buf ) , "", xmit %s"" , icmp_tstamp_print ( EXTRACT_32BITS ( & dp -> icmp_ttime ) ) ) ; break ; default : str = tok2str ( icmp2str , ""type-#%d"" , dp -> icmp_type ) ; break ; } ND_PRINT ( ( ndo , ""ICMP %s, length %u"" , str , plen ) ) ; if ( ndo -> ndo_vflag && ! fragmented ) { if ( ND_TTEST2 ( * bp , plen ) ) { uint16_t sum ; vec [ 0 ] . ptr = ( const uint8_t * ) ( const void * ) dp ; vec [ 0 ] . len = plen ; sum = in_cksum ( vec , 1 ) ; if ( sum != 0 ) { uint16_t icmp_sum = EXTRACT_16BITS ( & dp -> icmp_cksum ) ; ND_PRINT ( ( ndo , "" (wrong icmp cksum %x (->%x)!)"" , icmp_sum , in_cksum_shouldbe ( icmp_sum , sum ) ) ) ; } } } if ( ndo -> ndo_vflag >= 1 && ICMP_ERRTYPE ( dp -> icmp_type ) ) { bp += 8 ; ND_PRINT ( ( ndo , ""\\n\\t"" ) ) ; ip = ( const struct ip * ) bp ; ndo -> ndo_snaplen = ndo -> ndo_snapend - bp ; snapend_save = ndo -> ndo_snapend ; ND_TCHECK_16BITS ( & ip -> ip_len ) ; ip_print ( ndo , bp , EXTRACT_16BITS ( & ip -> ip_len ) ) ; ndo -> ndo_snapend = snapend_save ; } if ( ndo -> ndo_vflag >= 1 && plen > ICMP_EXTD_MINLEN && ICMP_MPLS_EXT_TYPE ( dp -> icmp_type ) ) { ND_TCHECK ( * ext_dp ) ; if ( ! ext_dp -> icmp_length && ND_TTEST2 ( ext_dp -> icmp_ext_version_res , plen - ICMP_EXTD_MINLEN ) ) { vec [ 0 ] . ptr = ( const uint8_t * ) ( const void * ) & ext_dp -> icmp_ext_version_res ; vec [ 0 ] . len = plen - ICMP_EXTD_MINLEN ; if ( in_cksum ( vec , 1 ) ) { return ; } } ND_PRINT ( ( ndo , ""\\n\\tMPLS extension v%u"" , ICMP_MPLS_EXT_EXTRACT_VERSION ( * ( ext_dp -> icmp_ext_version_res ) ) ) ) ; if ( ICMP_MPLS_EXT_EXTRACT_VERSION ( * ( ext_dp -> icmp_ext_version_res ) ) != ICMP_MPLS_EXT_VERSION ) { ND_PRINT ( ( ndo , "" packet not supported"" ) ) ; return ; } hlen = plen - ICMP_EXTD_MINLEN ; if ( ND_TTEST2 ( ext_dp -> icmp_ext_version_res , hlen ) ) { vec [ 0 ] . ptr = ( const uint8_t * ) ( const void * ) & ext_dp -> icmp_ext_version_res ; vec [ 0 ] . len = hlen ; ND_PRINT ( ( ndo , "", checksum 0x%04x (%scorrect), length %u"" , EXTRACT_16BITS ( ext_dp -> icmp_ext_checksum ) , in_cksum ( vec , 1 ) ? ""in"" : """" , hlen ) ) ; } hlen -= 4 ; obj_tptr = ( const uint8_t * ) ext_dp -> icmp_ext_data ; while ( hlen > sizeof ( struct icmp_mpls_ext_object_header_t ) ) { icmp_mpls_ext_object_header = ( const struct icmp_mpls_ext_object_header_t * ) obj_tptr ; ND_TCHECK ( * icmp_mpls_ext_object_header ) ; obj_tlen = EXTRACT_16BITS ( icmp_mpls_ext_object_header -> length ) ; obj_class_num = icmp_mpls_ext_object_header -> class_num ;","dp -> icmp_code ) ; break ; } break ; case ICMP_PARAMPROB : if ( dp -> icmp_code ) ( void ) snprintf ( buf , sizeof ( buf ) , ""parameter problem - code %u"" , dp -> icmp_code ) ; else { ND_TCHECK ( dp -> icmp_pptr ) ; ( void ) snprintf ( buf , sizeof ( buf ) , ""parameter problem - octet %u"" , dp -> icmp_pptr ) ; } break ; case ICMP_MASKREPLY : ND_TCHECK ( dp -> icmp_mask ) ; ( void ) snprintf ( buf , sizeof ( buf ) , ""address mask is 0x%08x"" , EXTRACT_32BITS ( & dp -> icmp_mask ) ) ; break ; case ICMP_TSTAMP : ND_TCHECK ( dp -> icmp_seq ) ; ( void ) snprintf ( buf , sizeof ( buf ) , ""time stamp query id %u seq %u"" , EXTRACT_16BITS ( & dp -> icmp_id ) , EXTRACT_16BITS ( & dp -> icmp_seq ) ) ; break ; case ICMP_TSTAMPREPLY : ND_TCHECK ( dp -> icmp_ttime ) ; ( void ) snprintf ( buf , sizeof ( buf ) , ""time stamp reply id %u seq %u: org %s"" , EXTRACT_16BITS ( & dp -> icmp_id ) , EXTRACT_16BITS ( & dp -> icmp_seq ) , icmp_tstamp_print ( EXTRACT_32BITS ( & dp -> icmp_otime ) ) ) ; ( void ) snprintf ( buf + strlen ( buf ) , sizeof ( buf ) - strlen ( buf ) , "", recv %s"" , icmp_tstamp_print ( EXTRACT_32BITS ( & dp -> icmp_rtime ) ) ) ; ( void ) snprintf ( buf + strlen ( buf ) , sizeof ( buf ) - strlen ( buf ) , "", xmit %s"" , icmp_tstamp_print ( EXTRACT_32BITS ( & dp -> icmp_ttime ) ) ) ; break ; default : str = tok2str ( icmp2str , ""type-#%d"" , dp -> icmp_type ) ; break ; } ND_PRINT ( ( ndo , ""ICMP %s, length %u"" , str , plen ) ) ; if ( ndo -> ndo_vflag && ! fragmented ) { if ( ND_TTEST2 ( * bp , plen ) ) { uint16_t sum ; vec [ 0 ] . ptr = ( const uint8_t * ) ( const void * ) dp ; vec [ 0 ] . len = plen ; sum = in_cksum ( vec , 1 ) ; if ( sum != 0 ) { ND_TCHECK_16BITS ( & dp -> icmp_cksum ) ; uint16_t icmp_sum = EXTRACT_16BITS ( & dp -> icmp_cksum ) ; ND_PRINT ( ( ndo , "" (wrong icmp cksum %x (->%x)!)"" , icmp_sum , in_cksum_shouldbe ( icmp_sum , sum ) ) ) ; } } } if ( ndo -> ndo_vflag >= 1 && ICMP_ERRTYPE ( dp -> icmp_type ) ) { bp += 8 ; ND_PRINT ( ( ndo , ""\\n\\t"" ) ) ; ip = ( const struct ip * ) bp ; ndo -> ndo_snaplen = ndo -> ndo_snapend - bp ; snapend_save = ndo -> ndo_snapend ; ND_TCHECK_16BITS ( & ip -> ip_len ) ; ip_print ( ndo , bp , EXTRACT_16BITS ( & ip -> ip_len ) ) ; ndo -> ndo_snapend = snapend_save ; } if ( ndo -> ndo_vflag >= 1 && plen > ICMP_EXTD_MINLEN && ICMP_MPLS_EXT_TYPE ( dp -> icmp_type ) ) { ND_TCHECK ( * ext_dp ) ; if ( ! ext_dp -> icmp_length && ND_TTEST2 ( ext_dp -> icmp_ext_version_res , plen - ICMP_EXTD_MINLEN ) ) { vec [ 0 ] . ptr = ( const uint8_t * ) ( const void * ) & ext_dp -> icmp_ext_version_res ; vec [ 0 ] . len = plen - ICMP_EXTD_MINLEN ; if ( in_cksum ( vec , 1 ) ) { return ; } } ND_PRINT ( ( ndo , ""\\n\\tMPLS extension v%u"" , ICMP_MPLS_EXT_EXTRACT_VERSION ( * ( ext_dp -> icmp_ext_version_res ) ) ) ) ; if ( ICMP_MPLS_EXT_EXTRACT_VERSION ( * ( ext_dp -> icmp_ext_version_res ) ) != ICMP_MPLS_EXT_VERSION ) { ND_PRINT ( ( ndo , "" packet not supported"" ) ) ; return ; } hlen = plen - ICMP_EXTD_MINLEN ; if ( ND_TTEST2 ( ext_dp -> icmp_ext_version_res , hlen ) ) { vec [ 0 ] . ptr = ( const uint8_t * ) ( const void * ) & ext_dp -> icmp_ext_version_res ; vec [ 0 ] . len = hlen ; ND_PRINT ( ( ndo , "", checksum 0x%04x (%scorrect), length %u"" , EXTRACT_16BITS ( ext_dp -> icmp_ext_checksum ) , in_cksum ( vec , 1 ) ? ""in"" : """" , hlen ) ) ; } hlen -= 4 ; obj_tptr = ( const uint8_t * ) ext_dp -> icmp_ext_data ; while ( hlen > sizeof ( struct icmp_mpls_ext_object_header_t ) ) { icmp_mpls_ext_object_header = ( const struct icmp_mpls_ext_object_header_t * ) obj_tptr ; ND_TCHECK ( * icmp_mpls_ext_object_header ) ; obj_tlen = EXTRACT_16BITS ( icmp_mpls_ext_object_header -> length ) ; obj_class_num = icmp_mpls_ext_object_header -> class_num ;" 633,"nan dec_mb_info_t * ps_cur_mb_info ; parse_pmbarams_t * ps_parse_mb_data ; UWORD32 u1_inter_mb_type ; UWORD32 u1_deblk_mb_type ; UWORD16 u2_total_mbs_coded ; UWORD32 u1_mbaff = ps_slice -> u1_mbaff_frame_flag ; parse_part_params_t * ps_part_info ; WORD32 ret ; if ( ps_dec -> ps_dec_err_status -> u1_err_flag & REJECT_CUR_PIC ) { ih264d_err_pic_dispbuf_mgr ( ps_dec ) ; return 0 ; } if ( ps_dec -> ps_cur_slice -> u1_mbaff_frame_flag && ( num_mb_skip & 1 ) ) { num_mb_skip ++ ; } ps_dec -> ps_dpb_cmds -> u1_long_term_reference_flag = 0 ; if ( prev_slice_err == 1 ) { ps_dec -> ps_cur_slice -> u2_frame_num = u2_frame_num ; if ( ! ps_dec -> u1_first_slice_in_stream ) { ih264d_end_of_pic ( ps_dec , u1_is_idr_slice , ps_dec -> ps_cur_slice -> u2_frame_num ) ; ps_dec -> s_cur_pic_poc . u2_frame_num = ps_dec -> ps_cur_slice -> u2_frame_num ; } { WORD32 i , j , poc = 0 ; ps_dec -> ps_cur_slice -> u2_first_mb_in_slice = 0 ; ps_dec -> pf_mvpred = ih264d_mvpred_nonmbaff ; ps_dec -> p_form_mb_part_info = ih264d_form_mb_part_info_bp ; ps_dec -> p_motion_compensate = ih264d_motion_compensate_bp ; if ( ps_dec -> ps_cur_pic != NULL ) poc = ps_dec -> ps_cur_pic -> i4_poc + 2 ; j = - 1 ; for ( i = 0 ; i < MAX_NUM_PIC_PARAMS ; i ++ ) { if ( ps_dec -> ps_pps [ i ] . u1_is_valid == TRUE ) { if ( ps_dec -> ps_pps [ i ] . ps_sps -> u1_is_valid == TRUE ) { j = i ; break ; } } } if ( j == - 1 ) { return ERROR_INV_SPS_PPS_T ; } if ( ps_dec -> u4_pic_buf_got == 0 ) { ps_dec -> ps_cur_slice -> u1_slice_type = P_SLICE ; ps_dec -> ps_cur_slice -> u1_nal_ref_idc = 1 ; ps_dec -> ps_cur_slice -> u1_nal_unit_type = 1 ; ret = ih264d_start_of_pic ( ps_dec , poc , ps_cur_poc , ps_dec -> ps_cur_slice -> u2_frame_num , & ps_dec -> ps_pps [ j ] ) ; if ( ret != OK ) { return ret ; } } ps_dec -> ps_ref_pic_buf_lx [ 0 ] [ 0 ] -> u1_pic_buf_id = 0 ; ps_dec -> u4_output_present = 0 ; { ih264d_get_next_display_field ( ps_dec , ps_dec -> ps_out_buffer , & ( ps_dec -> s_disp_op ) ) ; if ( 0 != ps_dec -> s_disp_op . u4_error_code ) { ps_dec -> u4_fmt_conv_cur_row = ps_dec -> s_disp_frame_info . u4_y_ht ; } else ps_dec -> u4_output_present = 1 ; } if ( ps_dec -> u1_separate_parse == 1 ) { if ( ps_dec -> u4_dec_thread_created == 0 ) { ithread_create ( ps_dec -> pv_dec_thread_handle , NULL , ( void * ) ih264d_decode_picture_thread , ( void * ) ps_dec ) ; ps_dec -> u4_dec_thread_created = 1 ; } if ( ( ps_dec -> u4_num_cores == 3 ) && ( ( ps_dec -> u4_app_disable_deblk_frm == 0 ) || ps_dec -> i1_recon_in_thread3_flag ) && ( ps_dec -> u4_bs_deblk_thread_created == 0 ) ) { ps_dec -> u4_start_recon_deblk = 0 ; ithread_create ( ps_dec -> pv_bs_deblk_thread_handle , NULL , ( void * ) ih264d_recon_deblk_thread , ( void * ) ps_dec ) ; ps_dec -> u4_bs_deblk_thread_created = 1 ; } } } ps_dec -> u4_first_slice_in_pic = 0 ; }","dec_mb_info_t * ps_cur_mb_info ; parse_pmbarams_t * ps_parse_mb_data ; UWORD32 u1_inter_mb_type ; UWORD32 u1_deblk_mb_type ; UWORD16 u2_total_mbs_coded ; UWORD32 u1_mbaff = ps_slice -> u1_mbaff_frame_flag ; parse_part_params_t * ps_part_info ; WORD32 ret ; if ( ps_dec -> ps_dec_err_status -> u1_err_flag & REJECT_CUR_PIC ) { ih264d_err_pic_dispbuf_mgr ( ps_dec ) ; return 0 ; } if ( ps_dec -> ps_cur_slice -> u1_mbaff_frame_flag && ( num_mb_skip & 1 ) ) { num_mb_skip ++ ; } ps_dec -> ps_dpb_cmds -> u1_long_term_reference_flag = 0 ; if ( prev_slice_err == 1 ) { ps_dec -> ps_cur_slice -> u2_frame_num = u2_frame_num ; if ( ! ps_dec -> u1_first_slice_in_stream ) { ih264d_end_of_pic ( ps_dec , u1_is_idr_slice , ps_dec -> ps_cur_slice -> u2_frame_num ) ; ps_dec -> s_cur_pic_poc . u2_frame_num = ps_dec -> ps_cur_slice -> u2_frame_num ; } { WORD32 i , j , poc = 0 ; ps_dec -> ps_cur_slice -> u2_first_mb_in_slice = 0 ; ps_dec -> pf_mvpred = ih264d_mvpred_nonmbaff ; ps_dec -> p_form_mb_part_info = ih264d_form_mb_part_info_bp ; ps_dec -> p_motion_compensate = ih264d_motion_compensate_bp ; if ( ps_dec -> ps_cur_pic != NULL ) poc = ps_dec -> ps_cur_pic -> i4_poc + 2 ; j = - 1 ; for ( i = 0 ; i < MAX_NUM_PIC_PARAMS ; i ++ ) { if ( ps_dec -> ps_pps [ i ] . u1_is_valid == TRUE ) { if ( ps_dec -> ps_pps [ i ] . ps_sps -> u1_is_valid == TRUE ) { j = i ; break ; } } } if ( j == - 1 ) { return ERROR_INV_SLICE_HDR_T ; } if ( ps_dec -> u4_pic_buf_got == 0 ) { ps_dec -> ps_cur_slice -> u1_slice_type = P_SLICE ; ps_dec -> ps_cur_slice -> u1_nal_ref_idc = 1 ; ps_dec -> ps_cur_slice -> u1_nal_unit_type = 1 ; ret = ih264d_start_of_pic ( ps_dec , poc , ps_cur_poc , ps_dec -> ps_cur_slice -> u2_frame_num , & ps_dec -> ps_pps [ j ] ) ; if ( ret != OK ) { return ret ; } } ps_dec -> ps_ref_pic_buf_lx [ 0 ] [ 0 ] -> u1_pic_buf_id = 0 ; ps_dec -> u4_output_present = 0 ; { ih264d_get_next_display_field ( ps_dec , ps_dec -> ps_out_buffer , & ( ps_dec -> s_disp_op ) ) ; if ( 0 != ps_dec -> s_disp_op . u4_error_code ) { ps_dec -> u4_fmt_conv_cur_row = ps_dec -> s_disp_frame_info . u4_y_ht ; } else ps_dec -> u4_output_present = 1 ; } if ( ps_dec -> u1_separate_parse == 1 ) { if ( ps_dec -> u4_dec_thread_created == 0 ) { ithread_create ( ps_dec -> pv_dec_thread_handle , NULL , ( void * ) ih264d_decode_picture_thread , ( void * ) ps_dec ) ; ps_dec -> u4_dec_thread_created = 1 ; } if ( ( ps_dec -> u4_num_cores == 3 ) && ( ( ps_dec -> u4_app_disable_deblk_frm == 0 ) || ps_dec -> i1_recon_in_thread3_flag ) && ( ps_dec -> u4_bs_deblk_thread_created == 0 ) ) { ps_dec -> u4_start_recon_deblk = 0 ; ithread_create ( ps_dec -> pv_bs_deblk_thread_handle , NULL , ( void * ) ih264d_recon_deblk_thread , ( void * ) ps_dec ) ; ps_dec -> u4_bs_deblk_thread_created = 1 ; } } } ps_dec -> u4_first_slice_in_pic = 0 ; }" 634,"NVD-CWE-noinfo static int ext4_split_unwritten_extents ( handle_t * handle , struct inode * inode , struct ext4_map_blocks * map , struct ext4_ext_path * path , int flags ) { struct ext4_extent * ex , newex , orig_ex ; struct ext4_extent * ex1 = NULL ; struct ext4_extent * ex2 = NULL ; struct ext4_extent * ex3 = NULL ; ext4_lblk_t ee_block , eof_block ; unsigned int allocated , ee_len , depth ; ext4_fsblk_t newblock ; int err = 0 ; int may_zeroout ; ext_debug ( ""ext4_split_unwritten_extents: inode %lu, logical"" ""block %llu, max_blocks %u\\n"" , inode -> i_ino , ( unsigned long long ) map -> m_lblk , map -> m_len ) ; eof_block = ( inode -> i_size + inode -> i_sb -> s_blocksize - 1 ) >> inode -> i_sb -> s_blocksize_bits ; if ( eof_block < map -> m_lblk + map -> m_len ) eof_block = map -> m_lblk + map -> m_len ; depth = ext_depth ( inode ) ; ex = path [ depth ] . p_ext ; ee_block = le32_to_cpu ( ex -> ee_block ) ; ee_len = ext4_ext_get_actual_len ( ex ) ; allocated = ee_len - ( map -> m_lblk - ee_block ) ; newblock = map -> m_lblk - ee_block + ext4_ext_pblock ( ex ) ; ex2 = ex ; orig_ex . ee_block = ex -> ee_block ; orig_ex . ee_len = cpu_to_le16 ( ee_len ) ; ext4_ext_store_pblock ( & orig_ex , ext4_ext_pblock ( ex ) ) ; may_zeroout = ee_block + ee_len <= eof_block ; if ( ( map -> m_lblk == ee_block ) && ( allocated <= map -> m_len ) ) return allocated ; err = ext4_ext_get_access ( handle , inode , path + depth ) ; if ( err ) goto out ; if ( map -> m_lblk > ee_block ) { ex1 = ex ; ex1 -> ee_len = cpu_to_le16 ( map -> m_lblk - ee_block ) ; ext4_ext_mark_uninitialized ( ex1 ) ; ex2 = & newex ; } if ( ! ex1 && allocated > map -> m_len ) ex2 -> ee_len = cpu_to_le16 ( map -> m_len ) ; if ( allocated > map -> m_len ) { unsigned int newdepth ; ex3 = & newex ; ex3 -> ee_block = cpu_to_le32 ( map -> m_lblk + map -> m_len ) ; ext4_ext_store_pblock ( ex3 , newblock + map -> m_len ) ; ex3 -> ee_len = cpu_to_le16 ( allocated - map -> m_len ) ; ext4_ext_mark_uninitialized ( ex3 ) ; err = ext4_ext_insert_extent ( handle , inode , path , ex3 , flags ) ; if ( err == - ENOSPC && may_zeroout ) { err = ext4_ext_zeroout ( inode , & orig_ex ) ; if ( err ) goto fix_extent_len ; ex -> ee_block = orig_ex . ee_block ; ex -> ee_len = orig_ex . ee_len ; ext4_ext_store_pblock ( ex , ext4_ext_pblock ( & orig_ex ) ) ; ext4_ext_dirty ( handle , inode , path + depth ) ; return allocated ; } else if ( err ) goto fix_extent_len ; newdepth = ext_depth ( inode ) ; ee_len -= ext4_ext_get_actual_len ( ex3 ) ; orig_ex . ee_len = cpu_to_le16 ( ee_len ) ; may_zeroout = ee_block + ee_len <= eof_block ; depth = newdepth ; ext4_ext_drop_refs ( path ) ; path = ext4_ext_find_extent ( inode , map -> m_lblk , path ) ; if ( IS_ERR ( path ) ) { err = PTR_ERR ( path ) ; goto out ; } ex = path [ depth ] . p_ext ; if ( ex2 != & newex ) ex2 = ex ; err = ext4_ext_get_access ( handle , inode , path + depth ) ; if ( err ) goto out ; allocated = map -> m_len ; } if ( ex1 && ex1 != ex ) { ex1 = ex ; ex1 -> ee_len = cpu_to_le16 ( map -> m_lblk - ee_block ) ; ext4_ext_mark_uninitialized ( ex1 ) ; ex2 = & newex ; } ex2 -> ee_block = cpu_to_le32 ( map -> m_lblk ) ; ext4_ext_store_pblock ( ex2 , newblock ) ; ex2 -> ee_len = cpu_to_le16 ( allocated ) ; ext4_ext_mark_uninitialized ( ex2 ) ; if ( ex2 != ex ) goto insert ; err = ext4_ext_dirty ( handle , inode , path + depth ) ; ext_debug ( ""out here\\n"" ) ; goto out ; insert : err = ext4_ext_insert_extent ( handle , inode , path , & newex , flags ) ; if ( err == - ENOSPC && may_zeroout ) { err = ext4_ext_zeroout ( inode , & orig_ex ) ; if ( err ) goto fix_extent_len ; ex -> ee_block = orig_ex . ee_block ; ex -> ee_len = orig_ex . ee_len ; ext4_ext_store_pblock ( ex , ext4_ext_pblock ( & orig_ex ) ) ; ext4_ext_dirty ( handle , inode , path + depth ) ; return allocated ; } else if ( err ) goto fix_extent_len ; out : ext4_ext_show_leaf ( inode , path ) ; return err ? err : allocated ; fix_extent_len : ex -> ee_block = orig_ex . ee_block ; ex -> ee_len = orig_ex . ee_len ; ext4_ext_store_pblock ( ex , ext4_ext_pblock ( & orig_ex ) ) ; ext4_ext_mark_uninitialized ( ex ) ; ext4_ext_dirty ( handle , inode , path + depth ) ; return err ; }","static int ext4_split_unwritten_extents ( handle_t * handle , struct inode * inode , struct ext4_map_blocks * map , struct ext4_ext_path * path , int flags ) { ext4_lblk_t eof_block ; ext4_lblk_t ee_block ; struct ext4_extent * ex ; unsigned int ee_len ; int split_flag = 0 , depth ; ext_debug ( ""ext4_split_unwritten_extents: inode %lu, logical"" ""block %llu, max_blocks %u\\n"" , inode -> i_ino , ( unsigned long long ) map -> m_lblk , map -> m_len ) ; eof_block = ( inode -> i_size + inode -> i_sb -> s_blocksize - 1 ) >> inode -> i_sb -> s_blocksize_bits ; if ( eof_block < map -> m_lblk + map -> m_len ) eof_block = map -> m_lblk + map -> m_len ; depth = ext_depth ( inode ) ; ex = path [ depth ] . p_ext ; ee_block = le32_to_cpu ( ex -> ee_block ) ; ee_len = ext4_ext_get_actual_len ( ex ) ; split_flag |= ee_block + ee_len <= eof_block ? EXT4_EXT_MAY_ZEROOUT : 0 ; split_flag |= EXT4_EXT_MARK_UNINIT2 ; flags |= EXT4_GET_BLOCKS_PRE_IO ; return ext4_split_extent ( handle , inode , path , map , split_flag , flags ) ; }" 635,"CWE-22 assert ( ( ae = archive_entry_new ( ) ) != NULL ) ; archive_entry_copy_pathname ( ae , ""link_to_dir3"" ) ; archive_entry_set_mode ( ae , S_IFLNK | 0777 ) ; archive_entry_set_symlink ( ae , ""dir"" ) ; archive_write_disk_set_options ( a , 0 ) ; assert ( 0 == archive_write_header ( a , ae ) ) ; assert ( 0 == archive_write_finish_entry ( a ) ) ; assert ( archive_entry_clear ( ae ) != NULL ) ; archive_entry_copy_pathname ( ae , ""link_to_dir3"" ) ; archive_entry_set_mode ( ae , S_IFDIR | 0777 ) ; assert ( 0 == archive_write_header ( a , ae ) ) ; assert ( 0 == archive_write_finish_entry ( a ) ) ; assertEqualInt ( 0 , lstat ( ""link_to_dir3"" , & st ) ) ; assert ( S_ISLNK ( st . st_mode ) ) ; archive_entry_free ( ae ) ; assert ( ( ae = archive_entry_new ( ) ) != NULL ) ; archive_entry_copy_pathname ( ae , ""link_to_dir4"" ) ; archive_entry_set_mode ( ae , S_IFLNK | 0777 ) ; archive_entry_set_symlink ( ae , ""nonexistent_dir"" ) ; archive_write_disk_set_options ( a , 0 ) ; assert ( 0 == archive_write_header ( a , ae ) ) ; assert ( 0 == archive_write_finish_entry ( a ) ) ; assert ( archive_entry_clear ( ae ) != NULL ) ; archive_entry_copy_pathname ( ae , ""link_to_dir4"" ) ; archive_entry_set_mode ( ae , S_IFDIR | 0777 ) ; assert ( 0 == archive_write_header ( a , ae ) ) ; assert ( 0 == archive_write_finish_entry ( a ) ) ; assertEqualInt ( 0 , lstat ( ""link_to_dir4"" , & st ) ) ; assert ( S_ISDIR ( st . st_mode ) ) ; archive_entry_free ( ae ) ; assert ( ( ae = archive_entry_new ( ) ) != NULL ) ; archive_entry_copy_pathname ( ae , ""non_dir"" ) ; archive_entry_set_mode ( ae , S_IFREG | 0777 ) ; archive_write_disk_set_options ( a , 0 ) ; assert ( 0 == archive_write_header ( a , ae ) ) ; assert ( 0 == archive_write_finish_entry ( a ) ) ; archive_entry_copy_pathname ( ae , ""link_to_dir5"" ) ; archive_entry_set_mode ( ae , S_IFLNK | 0777 ) ; archive_entry_set_symlink ( ae , ""non_dir"" ) ; archive_write_disk_set_options ( a , 0 ) ; assert ( 0 == archive_write_header ( a , ae ) ) ; assert ( 0 == archive_write_finish_entry ( a ) ) ; assert ( archive_entry_clear ( ae ) != NULL ) ; archive_entry_copy_pathname ( ae , ""link_to_dir5"" ) ; archive_entry_set_mode ( ae , S_IFDIR | 0777 ) ; assert ( 0 == archive_write_header ( a , ae ) ) ; assert ( 0 == archive_write_finish_entry ( a ) ) ; assertEqualInt ( 0 , lstat ( ""link_to_dir5"" , & st ) ) ; assert ( S_ISDIR ( st . st_mode ) ) ; archive_entry_free ( ae ) ; assertEqualInt ( ARCHIVE_OK , archive_write_free ( a ) ) ; assert ( 0 == lstat ( ""dir"" , & st ) ) ; failure ( ""dir: st.st_mode=%o"" , st . st_mode ) ; assert ( ( st . st_mode & 0777 ) == 0755 ) ; assert ( 0 == lstat ( ""link_to_dir"" , & st ) ) ; failure ( ""link_to_dir: st.st_mode=%o"" , st . st_mode ) ; assert ( S_ISLNK ( st . st_mode ) ) ; # if HAVE_LCHMOD failure ( ""link_to_dir: st.st_mode=%o"" , st . st_mode ) ; assert ( ( st . st_mode & 07777 ) == 0755 ) ; # endif assert ( 0 == lstat ( ""dir/filea"" , & st ) ) ; failure ( ""dir/filea: st.st_mode=%o"" , st . st_mode ) ; assert ( ( st . st_mode & 07777 ) == 0755 ) ; failure ( ""dir/fileb: This file should not have been created"" ) ; assert ( 0 != lstat ( ""dir/fileb"" , & st ) ) ; assert ( 0 == lstat ( ""link_to_dir2"" , & st ) ) ; failure ( ""link_to_dir2 should have been re-created as a true dir"" ) ; assert ( S_ISDIR ( st . st_mode ) ) ; failure ( ""link_to_dir2: Implicit dir creation should obey umask, but st.st_mode=%o"" , st . st_mode ) ; assert ( ( st . st_mode & 0777 ) == 0755 ) ; assert ( 0 == lstat ( ""link_to_dir2/filec"" , & st ) ) ; assert ( S_ISREG ( st . st_mode ) ) ; failure ( ""link_to_dir2/filec: st.st_mode=%o"" , st . st_mode ) ; assert ( ( st . st_mode & 07777 ) == 0755 ) ; # endif }","assert ( ( ae = archive_entry_new ( ) ) != NULL ) ; archive_entry_copy_pathname ( ae , ""link_to_dir3"" ) ; archive_entry_set_mode ( ae , S_IFLNK | 0777 ) ; archive_entry_set_symlink ( ae , ""dir"" ) ; archive_write_disk_set_options ( a , 0 ) ; assert ( 0 == archive_write_header ( a , ae ) ) ; assert ( 0 == archive_write_finish_entry ( a ) ) ; assert ( archive_entry_clear ( ae ) != NULL ) ; archive_entry_copy_pathname ( ae , ""link_to_dir3"" ) ; archive_entry_set_mode ( ae , S_IFDIR | 0777 ) ; assert ( 0 == archive_write_header ( a , ae ) ) ; assert ( 0 == archive_write_finish_entry ( a ) ) ; assertEqualInt ( 0 , lstat ( ""link_to_dir3"" , & st ) ) ; assert ( S_ISLNK ( st . st_mode ) ) ; archive_entry_free ( ae ) ; assert ( ( ae = archive_entry_new ( ) ) != NULL ) ; archive_entry_copy_pathname ( ae , ""link_to_dir4"" ) ; archive_entry_set_mode ( ae , S_IFLNK | 0777 ) ; archive_entry_set_symlink ( ae , ""nonexistent_dir"" ) ; archive_write_disk_set_options ( a , 0 ) ; assert ( 0 == archive_write_header ( a , ae ) ) ; assert ( 0 == archive_write_finish_entry ( a ) ) ; assert ( archive_entry_clear ( ae ) != NULL ) ; archive_entry_copy_pathname ( ae , ""link_to_dir4"" ) ; archive_entry_set_mode ( ae , S_IFDIR | 0777 ) ; assert ( 0 == archive_write_header ( a , ae ) ) ; assert ( 0 == archive_write_finish_entry ( a ) ) ; assertEqualInt ( 0 , lstat ( ""link_to_dir4"" , & st ) ) ; assert ( S_ISDIR ( st . st_mode ) ) ; archive_entry_free ( ae ) ; assert ( ( ae = archive_entry_new ( ) ) != NULL ) ; archive_entry_copy_pathname ( ae , ""non_dir"" ) ; archive_entry_set_mode ( ae , S_IFREG | 0777 ) ; archive_write_disk_set_options ( a , 0 ) ; assert ( 0 == archive_write_header ( a , ae ) ) ; assert ( 0 == archive_write_finish_entry ( a ) ) ; archive_entry_copy_pathname ( ae , ""link_to_dir5"" ) ; archive_entry_set_mode ( ae , S_IFLNK | 0777 ) ; archive_entry_set_symlink ( ae , ""non_dir"" ) ; archive_write_disk_set_options ( a , 0 ) ; assert ( 0 == archive_write_header ( a , ae ) ) ; assert ( 0 == archive_write_finish_entry ( a ) ) ; assert ( archive_entry_clear ( ae ) != NULL ) ; archive_entry_copy_pathname ( ae , ""link_to_dir5"" ) ; archive_entry_set_mode ( ae , S_IFDIR | 0777 ) ; assert ( 0 == archive_write_header ( a , ae ) ) ; assert ( 0 == archive_write_finish_entry ( a ) ) ; assertEqualInt ( 0 , lstat ( ""link_to_dir5"" , & st ) ) ; assert ( S_ISDIR ( st . st_mode ) ) ; archive_entry_free ( ae ) ; assert ( ( ae = archive_entry_new ( ) ) != NULL ) ; archive_entry_copy_pathname ( ae , ""/tmp/libarchive_test-test_write_disk_secure-absolute_path.tmp"" ) ; archive_entry_set_mode ( ae , S_IFREG | 0777 ) ; assert ( 0 == archive_write_header ( a , ae ) ) ; assert ( 0 == archive_write_finish_entry ( a ) ) ; assertFileExists ( ""/tmp/libarchive_test-test_write_disk_secure-absolute_path.tmp"" ) ; assert ( 0 == unlink ( ""/tmp/libarchive_test-test_write_disk_secure-absolute_path.tmp"" ) ) ; assert ( archive_entry_clear ( ae ) != NULL ) ; archive_entry_copy_pathname ( ae , ""/tmp/libarchive_test-test_write_disk_secure-absolute_path.tmp"" ) ; archive_entry_set_mode ( ae , S_IFREG | 0777 ) ; archive_write_disk_set_options ( a , ARCHIVE_EXTRACT_SECURE_NOABSOLUTEPATHS ) ; failure ( ""Extracting an absolute path should fail here."" ) ; assertEqualInt ( ARCHIVE_FAILED , archive_write_header ( a , ae ) ) ; archive_entry_free ( ae ) ; assert ( 0 == archive_write_finish_entry ( a ) ) ; assertFileNotExists ( ""/tmp/libarchive_test-test_write_disk_secure-absolute_path.tmp"" ) ; assertEqualInt ( ARCHIVE_OK , archive_write_free ( a ) ) ; assert ( 0 == lstat ( ""dir"" , & st ) ) ; failure ( ""dir: st.st_mode=%o"" , st . st_mode ) ; assert ( ( st . st_mode & 0777 ) == 0755 ) ; assert ( 0 == lstat ( ""link_to_dir"" , & st ) ) ; failure ( ""link_to_dir: st.st_mode=%o"" , st . st_mode ) ; assert ( S_ISLNK ( st . st_mode ) ) ; # if HAVE_LCHMOD failure ( ""link_to_dir: st.st_mode=%o"" , st . st_mode ) ; assert ( ( st . st_mode & 07777 ) == 0755 ) ; # endif assert ( 0 == lstat ( ""dir/filea"" , & st ) ) ; failure ( ""dir/filea: st.st_mode=%o"" , st . st_mode ) ; assert ( ( st . st_mode & 07777 ) == 0755 ) ; failure ( ""dir/fileb: This file should not have been created"" ) ; assert ( 0 != lstat ( ""dir/fileb"" , & st ) ) ; assert ( 0 == lstat ( ""link_to_dir2"" , & st ) ) ; failure ( ""link_to_dir2 should have been re-created as a true dir"" ) ; assert ( S_ISDIR ( st . st_mode ) ) ; failure ( ""link_to_dir2: Implicit dir creation should obey umask, but st.st_mode=%o"" , st . st_mode ) ; assert ( ( st . st_mode & 0777 ) == 0755 ) ; assert ( 0 == lstat ( ""link_to_dir2/filec"" , & st ) ) ; assert ( S_ISREG ( st . st_mode ) ) ; failure ( ""link_to_dir2/filec: st.st_mode=%o"" , st . st_mode ) ; assert ( ( st . st_mode & 07777 ) == 0755 ) ; # endif }" 636,"CWE-119 static void write_delta_q ( struct vp9_write_bit_buffer * wb , int delta_q ) { if ( delta_q != 0 ) { vp9_wb_write_bit ( wb , 1 ) ; vp9_wb_write_literal ( wb , abs ( delta_q ) , 4 ) ; vp9_wb_write_bit ( wb , delta_q < 0 ) ; } else { vp9_wb_write_bit ( wb , 0 ) ; } }","static void write_delta_q ( struct vpx_write_bit_buffer * wb , int delta_q ) { if ( delta_q != 0 ) { vpx_wb_write_bit ( wb , 1 ) ; vpx_wb_write_literal ( wb , abs ( delta_q ) , 4 ) ; vpx_wb_write_bit ( wb , delta_q < 0 ) ; } else { vpx_wb_write_bit ( wb , 0 ) ; } }" 637,"CWE-59 void vrrp_print_json ( void ) { FILE * file ; element e ; struct json_object * array ; if ( LIST_ISEMPTY ( vrrp_data -> vrrp ) ) return ; file = fopen ( ""/tmp/keepalived.json"" , ""w"" ) ; if ( ! file ) { log_message ( LOG_INFO , ""Can\'t open /tmp/keepalived.json (%d: %s)"" , errno , strerror ( errno ) ) ; return ; } array = json_object_new_array ( ) ; for ( e = LIST_HEAD ( vrrp_data -> vrrp ) ; e ; ELEMENT_NEXT ( e ) ) { struct json_object * instance_json , * json_stats , * json_data , * vips , * evips , * track_ifp , * track_script ; # ifdef _HAVE_FIB_ROUTING_ struct json_object * vroutes , * vrules ; # endif element f ; vrrp_t * vrrp = ELEMENT_DATA ( e ) ; instance_json = json_object_new_object ( ) ; json_stats = json_object_new_object ( ) ; json_data = json_object_new_object ( ) ; vips = json_object_new_array ( ) ; evips = json_object_new_array ( ) ; track_ifp = json_object_new_array ( ) ; track_script = json_object_new_array ( ) ; # ifdef _HAVE_FIB_ROUTING_ vroutes = json_object_new_array ( ) ; vrules = json_object_new_array ( ) ; # endif json_object_object_add ( json_data , ""iname"" , json_object_new_string ( vrrp -> iname ) ) ; json_object_object_add ( json_data , ""dont_track_primary"" , json_object_new_int ( vrrp -> dont_track_primary ) ) ; json_object_object_add ( json_data , ""skip_check_adv_addr"" , json_object_new_int ( vrrp -> skip_check_adv_addr ) ) ; json_object_object_add ( json_data , ""strict_mode"" , json_object_new_int ( ( int ) vrrp -> strict_mode ) ) ; # ifdef _HAVE_VRRP_VMAC_ json_object_object_add ( json_data , ""vmac_ifname"" , json_object_new_string ( vrrp -> vmac_ifname ) ) ; # endif if ( ! LIST_ISEMPTY ( vrrp -> track_ifp ) ) { for ( f = LIST_HEAD ( vrrp -> track_ifp ) ; f ; ELEMENT_NEXT ( f ) ) { interface_t * ifp = ELEMENT_DATA ( f ) ; json_object_array_add ( track_ifp , json_object_new_string ( ifp -> ifname ) ) ; } } json_object_object_add ( json_data , ""track_ifp"" , track_ifp ) ; if ( ! LIST_ISEMPTY ( vrrp -> track_script ) ) { for ( f = LIST_HEAD ( vrrp -> track_script ) ; f ; ELEMENT_NEXT ( f ) ) { tracked_sc_t * tsc = ELEMENT_DATA ( f ) ; vrrp_script_t * vscript = tsc -> scr ; json_object_array_add ( track_script ,","void vrrp_print_json ( void ) { FILE * file ; element e ; struct json_object * array ; if ( LIST_ISEMPTY ( vrrp_data -> vrrp ) ) return ; file = fopen_safe ( ""/tmp/keepalived.json"" , ""w"" ) ; if ( ! file ) { log_message ( LOG_INFO , ""Can\'t open /tmp/keepalived.json (%d: %s)"" , errno , strerror ( errno ) ) ; return ; } array = json_object_new_array ( ) ; for ( e = LIST_HEAD ( vrrp_data -> vrrp ) ; e ; ELEMENT_NEXT ( e ) ) { struct json_object * instance_json , * json_stats , * json_data , * vips , * evips , * track_ifp , * track_script ; # ifdef _HAVE_FIB_ROUTING_ struct json_object * vroutes , * vrules ; # endif element f ; vrrp_t * vrrp = ELEMENT_DATA ( e ) ; instance_json = json_object_new_object ( ) ; json_stats = json_object_new_object ( ) ; json_data = json_object_new_object ( ) ; vips = json_object_new_array ( ) ; evips = json_object_new_array ( ) ; track_ifp = json_object_new_array ( ) ; track_script = json_object_new_array ( ) ; # ifdef _HAVE_FIB_ROUTING_ vroutes = json_object_new_array ( ) ; vrules = json_object_new_array ( ) ; # endif json_object_object_add ( json_data , ""iname"" , json_object_new_string ( vrrp -> iname ) ) ; json_object_object_add ( json_data , ""dont_track_primary"" , json_object_new_int ( vrrp -> dont_track_primary ) ) ; json_object_object_add ( json_data , ""skip_check_adv_addr"" , json_object_new_int ( vrrp -> skip_check_adv_addr ) ) ; json_object_object_add ( json_data , ""strict_mode"" , json_object_new_int ( ( int ) vrrp -> strict_mode ) ) ; # ifdef _HAVE_VRRP_VMAC_ json_object_object_add ( json_data , ""vmac_ifname"" , json_object_new_string ( vrrp -> vmac_ifname ) ) ; # endif if ( ! LIST_ISEMPTY ( vrrp -> track_ifp ) ) { for ( f = LIST_HEAD ( vrrp -> track_ifp ) ; f ; ELEMENT_NEXT ( f ) ) { interface_t * ifp = ELEMENT_DATA ( f ) ; json_object_array_add ( track_ifp , json_object_new_string ( ifp -> ifname ) ) ; } } json_object_object_add ( json_data , ""track_ifp"" , track_ifp ) ; if ( ! LIST_ISEMPTY ( vrrp -> track_script ) ) { for ( f = LIST_HEAD ( vrrp -> track_script ) ; f ; ELEMENT_NEXT ( f ) ) { tracked_sc_t * tsc = ELEMENT_DATA ( f ) ; vrrp_script_t * vscript = tsc -> scr ; json_object_array_add ( track_script ," 638,"CWE-190 DECLAREreadFunc ( readContigTilesIntoBuffer ) { int status = 1 ; tsize_t tilesize = TIFFTileSize ( in ) ; tdata_t tilebuf ; uint32 imagew = TIFFScanlineSize ( in ) ; uint32 tilew = TIFFTileRowSize ( in ) ; int iskew = imagew - tilew ; uint8 * bufp = ( uint8 * ) buf ; uint32 tw , tl ; uint32 row ; ( void ) spp ; tilebuf = _TIFFmalloc ( tilesize ) ; if ( tilebuf == 0 ) return 0 ; _TIFFmemset ( tilebuf , 0 , tilesize ) ; ( void ) TIFFGetField ( in , TIFFTAG_TILEWIDTH , & tw ) ; ( void ) TIFFGetField ( in , TIFFTAG_TILELENGTH , & tl ) ; for ( row = 0 ; row < imagelength ; row += tl ) { uint32 nrow = ( row + tl > imagelength ) ? imagelength - row : tl ; uint32 colb = 0 ; uint32 col ; for ( col = 0 ; col < imagewidth && colb < imagew ; col += tw ) { if ( TIFFReadTile ( in , tilebuf , col , row , 0 , 0 ) < 0 && ! ignore ) { TIFFError ( TIFFFileName ( in ) , ""Error, can\'t read tile at %lu %lu"" , ( unsigned long ) col , ( unsigned long ) row ) ; status = 0 ; goto done ; } if ( colb + tilew > imagew ) { uint32 width = imagew - colb ; uint32 oskew = tilew - width ; cpStripToTile ( bufp + colb , tilebuf , nrow , width , oskew + iskew , oskew ) ; } else cpStripToTile ( bufp + colb , tilebuf , nrow , tilew , iskew , 0 ) ; colb += tilew ; } bufp += imagew * nrow ; } done : _TIFFfree ( tilebuf ) ; return status ; }","DECLAREreadFunc ( readContigTilesIntoBuffer ) { int status = 1 ; tsize_t tilesize = TIFFTileSize ( in ) ; tdata_t tilebuf ; uint32 imagew = TIFFScanlineSize ( in ) ; uint32 tilew = TIFFTileRowSize ( in ) ; int64 iskew = ( int64 ) imagew - ( int64 ) tilew ; uint8 * bufp = ( uint8 * ) buf ; uint32 tw , tl ; uint32 row ; ( void ) spp ; tilebuf = _TIFFmalloc ( tilesize ) ; if ( tilebuf == 0 ) return 0 ; _TIFFmemset ( tilebuf , 0 , tilesize ) ; ( void ) TIFFGetField ( in , TIFFTAG_TILEWIDTH , & tw ) ; ( void ) TIFFGetField ( in , TIFFTAG_TILELENGTH , & tl ) ; for ( row = 0 ; row < imagelength ; row += tl ) { uint32 nrow = ( row + tl > imagelength ) ? imagelength - row : tl ; uint32 colb = 0 ; uint32 col ; for ( col = 0 ; col < imagewidth && colb < imagew ; col += tw ) { if ( TIFFReadTile ( in , tilebuf , col , row , 0 , 0 ) < 0 && ! ignore ) { TIFFError ( TIFFFileName ( in ) , ""Error, can\'t read tile at %lu %lu"" , ( unsigned long ) col , ( unsigned long ) row ) ; status = 0 ; goto done ; } if ( colb > iskew ) { uint32 width = imagew - colb ; uint32 oskew = tilew - width ; cpStripToTile ( bufp + colb , tilebuf , nrow , width , oskew + iskew , oskew ) ; } else cpStripToTile ( bufp + colb , tilebuf , nrow , tilew , iskew , 0 ) ; colb += tilew ; } bufp += imagew * nrow ; } done : _TIFFfree ( tilebuf ) ; return status ; }" 639,"CWE-189 void set_fat ( DOS_FS * fs , uint32_t cluster , int32_t new ) { unsigned char * data = NULL ; int size ; loff_t offs ; if ( new == - 1 ) new = FAT_EOF ( fs ) ; else if ( ( long ) new == - 2 ) new = FAT_BAD ( fs ) ; switch ( fs -> fat_bits ) { case 12 : data = fs -> fat + cluster * 3 / 2 ; offs = fs -> fat_start + cluster * 3 / 2 ; if ( cluster & 1 ) { FAT_ENTRY prevEntry ; get_fat ( & prevEntry , fs -> fat , cluster - 1 , fs ) ; data [ 0 ] = ( ( new & 0xf ) << 4 ) | ( prevEntry . value >> 8 ) ; data [ 1 ] = new >> 4 ; } else { FAT_ENTRY subseqEntry ; if ( cluster != fs -> clusters - 1 ) get_fat ( & subseqEntry , fs -> fat , cluster + 1 , fs ) ; else subseqEntry . value = 0 ; data [ 0 ] = new & 0xff ; data [ 1 ] = ( new >> 8 ) | ( ( 0xff & subseqEntry . value ) << 4 ) ; } size = 2 ; break ; case 16 : data = fs -> fat + cluster * 2 ; offs = fs -> fat_start + cluster * 2 ; * ( unsigned short * ) data = htole16 ( new ) ; size = 2 ; break ; case 32 : { FAT_ENTRY curEntry ; get_fat ( & curEntry , fs -> fat , cluster , fs ) ; data = fs -> fat + cluster * 4 ; offs = fs -> fat_start + cluster * 4 ; * ( uint32_t * ) data = htole32 ( ( new & 0xfffffff ) | ( curEntry . reserved << 28 ) ) ; size = 4 ; } break ; default : die ( ""Bad FAT entry size: %d bits."" , fs -> fat_bits ) ; } fs_write ( offs , size , data ) ; if ( fs -> nfats > 1 ) { fs_write ( offs + fs -> fat_size , size , data ) ; } }","void set_fat ( DOS_FS * fs , uint32_t cluster , int32_t new ) { unsigned char * data = NULL ; int size ; loff_t offs ; if ( new == - 1 ) new = FAT_EOF ( fs ) ; else if ( ( long ) new == - 2 ) new = FAT_BAD ( fs ) ; switch ( fs -> fat_bits ) { case 12 : data = fs -> fat + cluster * 3 / 2 ; offs = fs -> fat_start + cluster * 3 / 2 ; if ( cluster & 1 ) { FAT_ENTRY prevEntry ; get_fat ( & prevEntry , fs -> fat , cluster - 1 , fs ) ; data [ 0 ] = ( ( new & 0xf ) << 4 ) | ( prevEntry . value >> 8 ) ; data [ 1 ] = new >> 4 ; } else { FAT_ENTRY subseqEntry ; if ( cluster != fs -> clusters + 1 ) get_fat ( & subseqEntry , fs -> fat , cluster + 1 , fs ) ; else subseqEntry . value = 0 ; data [ 0 ] = new & 0xff ; data [ 1 ] = ( new >> 8 ) | ( ( 0xff & subseqEntry . value ) << 4 ) ; } size = 2 ; break ; case 16 : data = fs -> fat + cluster * 2 ; offs = fs -> fat_start + cluster * 2 ; * ( unsigned short * ) data = htole16 ( new ) ; size = 2 ; break ; case 32 : { FAT_ENTRY curEntry ; get_fat ( & curEntry , fs -> fat , cluster , fs ) ; data = fs -> fat + cluster * 4 ; offs = fs -> fat_start + cluster * 4 ; * ( uint32_t * ) data = htole32 ( ( new & 0xfffffff ) | ( curEntry . reserved << 28 ) ) ; size = 4 ; } break ; default : die ( ""Bad FAT entry size: %d bits."" , fs -> fat_bits ) ; } fs_write ( offs , size , data ) ; if ( fs -> nfats > 1 ) { fs_write ( offs + fs -> fat_size , size , data ) ; } }" 640,"CWE-20 static int iucv_sock_recvmsg ( struct kiocb * iocb , struct socket * sock , struct msghdr * msg , size_t len , int flags ) { int noblock = flags & MSG_DONTWAIT ; struct sock * sk = sock -> sk ; struct iucv_sock * iucv = iucv_sk ( sk ) ; unsigned int copied , rlen ; struct sk_buff * skb , * rskb , * cskb ; int err = 0 ; u32 offset ; msg -> msg_namelen = 0 ; if ( ( sk -> sk_state == IUCV_DISCONN ) && skb_queue_empty ( & iucv -> backlog_skb_q ) && skb_queue_empty ( & sk -> sk_receive_queue ) && list_empty ( & iucv -> message_q . list ) ) return 0 ; if ( flags & ( MSG_OOB ) ) return - EOPNOTSUPP ; skb = skb_recv_datagram ( sk , flags , noblock , & err ) ; if ( ! skb ) { if ( sk -> sk_shutdown & RCV_SHUTDOWN ) return 0 ; return err ; } offset = IUCV_SKB_CB ( skb ) -> offset ; rlen = skb -> len - offset ; copied = min_t ( unsigned int , rlen , len ) ; if ( ! rlen ) sk -> sk_shutdown = sk -> sk_shutdown | RCV_SHUTDOWN ; cskb = skb ; if ( skb_copy_datagram_iovec ( cskb , offset , msg -> msg_iov , copied ) ) { if ( ! ( flags & MSG_PEEK ) ) skb_queue_head ( & sk -> sk_receive_queue , skb ) ; return - EFAULT ; } if ( sk -> sk_type == SOCK_SEQPACKET ) { if ( copied < rlen ) msg -> msg_flags |= MSG_TRUNC ; msg -> msg_flags |= MSG_EOR ; } err = put_cmsg ( msg , SOL_IUCV , SCM_IUCV_TRGCLS , sizeof ( IUCV_SKB_CB ( skb ) -> class ) , ( void * ) & IUCV_SKB_CB ( skb ) -> class ) ; if ( err ) { if ( ! ( flags & MSG_PEEK ) ) skb_queue_head ( & sk -> sk_receive_queue , skb ) ; return err ; } if ( ! ( flags & MSG_PEEK ) ) { if ( sk -> sk_type == SOCK_STREAM ) { if ( copied < rlen ) { IUCV_SKB_CB ( skb ) -> offset = offset + copied ; goto done ; } } kfree_skb ( skb ) ; if ( iucv -> transport == AF_IUCV_TRANS_HIPER ) { atomic_inc ( & iucv -> msg_recv ) ; if ( atomic_read ( & iucv -> msg_recv ) > iucv -> msglimit ) { WARN_ON ( 1 ) ; iucv_sock_close ( sk ) ;","static int iucv_sock_recvmsg ( struct kiocb * iocb , struct socket * sock , struct msghdr * msg , size_t len , int flags ) { int noblock = flags & MSG_DONTWAIT ; struct sock * sk = sock -> sk ; struct iucv_sock * iucv = iucv_sk ( sk ) ; unsigned int copied , rlen ; struct sk_buff * skb , * rskb , * cskb ; int err = 0 ; u32 offset ; if ( ( sk -> sk_state == IUCV_DISCONN ) && skb_queue_empty ( & iucv -> backlog_skb_q ) && skb_queue_empty ( & sk -> sk_receive_queue ) && list_empty ( & iucv -> message_q . list ) ) return 0 ; if ( flags & ( MSG_OOB ) ) return - EOPNOTSUPP ; skb = skb_recv_datagram ( sk , flags , noblock , & err ) ; if ( ! skb ) { if ( sk -> sk_shutdown & RCV_SHUTDOWN ) return 0 ; return err ; } offset = IUCV_SKB_CB ( skb ) -> offset ; rlen = skb -> len - offset ; copied = min_t ( unsigned int , rlen , len ) ; if ( ! rlen ) sk -> sk_shutdown = sk -> sk_shutdown | RCV_SHUTDOWN ; cskb = skb ; if ( skb_copy_datagram_iovec ( cskb , offset , msg -> msg_iov , copied ) ) { if ( ! ( flags & MSG_PEEK ) ) skb_queue_head ( & sk -> sk_receive_queue , skb ) ; return - EFAULT ; } if ( sk -> sk_type == SOCK_SEQPACKET ) { if ( copied < rlen ) msg -> msg_flags |= MSG_TRUNC ; msg -> msg_flags |= MSG_EOR ; } err = put_cmsg ( msg , SOL_IUCV , SCM_IUCV_TRGCLS , sizeof ( IUCV_SKB_CB ( skb ) -> class ) , ( void * ) & IUCV_SKB_CB ( skb ) -> class ) ; if ( err ) { if ( ! ( flags & MSG_PEEK ) ) skb_queue_head ( & sk -> sk_receive_queue , skb ) ; return err ; } if ( ! ( flags & MSG_PEEK ) ) { if ( sk -> sk_type == SOCK_STREAM ) { if ( copied < rlen ) { IUCV_SKB_CB ( skb ) -> offset = offset + copied ; goto done ; } } kfree_skb ( skb ) ; if ( iucv -> transport == AF_IUCV_TRANS_HIPER ) { atomic_inc ( & iucv -> msg_recv ) ; if ( atomic_read ( & iucv -> msg_recv ) > iucv -> msglimit ) { WARN_ON ( 1 ) ; iucv_sock_close ( sk ) ;" 641,"CWE-119 ( c == '-' ) || ( c == '.' ) || ( c == 0xB7 ) || ( ( c >= 0xC0 ) && ( c <= 0xD6 ) ) || ( ( c >= 0xD8 ) && ( c <= 0xF6 ) ) || ( ( c >= 0xF8 ) && ( c <= 0x2FF ) ) || ( ( c >= 0x300 ) && ( c <= 0x36F ) ) || ( ( c >= 0x370 ) && ( c <= 0x37D ) ) || ( ( c >= 0x37F ) && ( c <= 0x1FFF ) ) || ( ( c >= 0x200C ) && ( c <= 0x200D ) ) || ( ( c >= 0x203F ) && ( c <= 0x2040 ) ) || ( ( c >= 0x2070 ) && ( c <= 0x218F ) ) || ( ( c >= 0x2C00 ) && ( c <= 0x2FEF ) ) || ( ( c >= 0x3001 ) && ( c <= 0xD7FF ) ) || ( ( c >= 0xF900 ) && ( c <= 0xFDCF ) ) || ( ( c >= 0xFDF0 ) && ( c <= 0xFFFD ) ) || ( ( c >= 0x10000 ) && ( c <= 0xEFFFF ) ) ) ) { if ( count ++ > XML_PARSER_CHUNK_SIZE ) { count = 0 ; GROW ; if ( ctxt -> instate == XML_PARSER_EOF ) return ( NULL ) ; } len += l ; NEXTL ( l ) ; c = CUR_CHAR ( l ) ; } } else { if ( ( c == ' ' ) || ( c == '>' ) || ( c == '/' ) || ( ! IS_LETTER ( c ) && ( c != '_' ) && ( c != ':' ) ) ) { return ( NULL ) ; } len += l ; NEXTL ( l ) ; c = CUR_CHAR ( l ) ; while ( ( c != ' ' ) && ( c != '>' ) && ( c != '/' ) && ( ( IS_LETTER ( c ) ) || ( IS_DIGIT ( c ) ) || ( c == '.' ) || ( c == '-' ) || ( c == '_' ) || ( c == ':' ) || ( IS_COMBINING ( c ) ) || ( IS_EXTENDER ( c ) ) ) ) { if ( count ++ > XML_PARSER_CHUNK_SIZE ) { count = 0 ; GROW ; if ( ctxt -> instate == XML_PARSER_EOF ) return ( NULL ) ; } len += l ; NEXTL ( l ) ; c = CUR_CHAR ( l ) ; if ( c == 0 ) { count = 0 ; GROW ; if ( ctxt -> instate == XML_PARSER_EOF ) return ( NULL ) ; c = CUR_CHAR ( l ) ; } } } if ( ( len > XML_MAX_NAME_LENGTH ) && ( ( ctxt -> options & XML_PARSE_HUGE ) == 0 ) ) { xmlFatalErr ( ctxt , XML_ERR_NAME_TOO_LONG , ""Name"" ) ; return ( NULL ) ; } if ( ( * ctxt -> input -> cur == '\\n' ) && ( ctxt -> input -> cur [ - 1 ] == '\\r' ) ) return ( xmlDictLookup ( ctxt -> dict , ctxt -> input -> cur - ( len + 1 ) , len ) ) ; return ( xmlDictLookup ( ctxt -> dict , ctxt -> input -> cur - len , len ) ) ; }","( c == '-' ) || ( c == '.' ) || ( c == 0xB7 ) || ( ( c >= 0xC0 ) && ( c <= 0xD6 ) ) || ( ( c >= 0xD8 ) && ( c <= 0xF6 ) ) || ( ( c >= 0xF8 ) && ( c <= 0x2FF ) ) || ( ( c >= 0x300 ) && ( c <= 0x36F ) ) || ( ( c >= 0x370 ) && ( c <= 0x37D ) ) || ( ( c >= 0x37F ) && ( c <= 0x1FFF ) ) || ( ( c >= 0x200C ) && ( c <= 0x200D ) ) || ( ( c >= 0x203F ) && ( c <= 0x2040 ) ) || ( ( c >= 0x2070 ) && ( c <= 0x218F ) ) || ( ( c >= 0x2C00 ) && ( c <= 0x2FEF ) ) || ( ( c >= 0x3001 ) && ( c <= 0xD7FF ) ) || ( ( c >= 0xF900 ) && ( c <= 0xFDCF ) ) || ( ( c >= 0xFDF0 ) && ( c <= 0xFFFD ) ) || ( ( c >= 0x10000 ) && ( c <= 0xEFFFF ) ) ) ) { if ( count ++ > XML_PARSER_CHUNK_SIZE ) { count = 0 ; GROW ; if ( ctxt -> instate == XML_PARSER_EOF ) return ( NULL ) ; } len += l ; NEXTL ( l ) ; c = CUR_CHAR ( l ) ; } } else { if ( ( c == ' ' ) || ( c == '>' ) || ( c == '/' ) || ( ! IS_LETTER ( c ) && ( c != '_' ) && ( c != ':' ) ) ) { return ( NULL ) ; } len += l ; NEXTL ( l ) ; c = CUR_CHAR ( l ) ; while ( ( c != ' ' ) && ( c != '>' ) && ( c != '/' ) && ( ( IS_LETTER ( c ) ) || ( IS_DIGIT ( c ) ) || ( c == '.' ) || ( c == '-' ) || ( c == '_' ) || ( c == ':' ) || ( IS_COMBINING ( c ) ) || ( IS_EXTENDER ( c ) ) ) ) { if ( count ++ > XML_PARSER_CHUNK_SIZE ) { count = 0 ; GROW ; if ( ctxt -> instate == XML_PARSER_EOF ) return ( NULL ) ; } len += l ; NEXTL ( l ) ; c = CUR_CHAR ( l ) ; } } if ( ( len > XML_MAX_NAME_LENGTH ) && ( ( ctxt -> options & XML_PARSE_HUGE ) == 0 ) ) { xmlFatalErr ( ctxt , XML_ERR_NAME_TOO_LONG , ""Name"" ) ; return ( NULL ) ; } if ( ctxt -> input -> cur - ctxt -> input -> base < len ) { xmlFatalErr ( ctxt , XML_ERR_INTERNAL_ERROR , ""unexpected change of input buffer"" ) ; return ( NULL ) ; } if ( ( * ctxt -> input -> cur == '\\n' ) && ( ctxt -> input -> cur [ - 1 ] == '\\r' ) ) return ( xmlDictLookup ( ctxt -> dict , ctxt -> input -> cur - ( len + 1 ) , len ) ) ; return ( xmlDictLookup ( ctxt -> dict , ctxt -> input -> cur - len , len ) ) ; }" 642,"CWE-399 static void rpc_init_task ( struct rpc_task * task , const struct rpc_task_setup * task_setup_data ) { memset ( task , 0 , sizeof ( * task ) ) ; atomic_set ( & task -> tk_count , 1 ) ; task -> tk_flags = task_setup_data -> flags ; task -> tk_ops = task_setup_data -> callback_ops ; task -> tk_calldata = task_setup_data -> callback_data ; INIT_LIST_HEAD ( & task -> tk_task ) ; task -> tk_garb_retry = 2 ; task -> tk_cred_retry = 2 ; task -> tk_priority = task_setup_data -> priority - RPC_PRIORITY_LOW ; task -> tk_owner = current -> tgid ; task -> tk_workqueue = task_setup_data -> workqueue ; if ( task -> tk_ops -> rpc_call_prepare != NULL ) task -> tk_action = rpc_prepare_task ; task -> tk_start = ktime_get ( ) ; dprintk ( ""RPC: new task initialized, procpid %u\\n"" , task_pid_nr ( current ) ) ; }","static void rpc_init_task ( struct rpc_task * task , const struct rpc_task_setup * task_setup_data ) { memset ( task , 0 , sizeof ( * task ) ) ; atomic_set ( & task -> tk_count , 1 ) ; task -> tk_flags = task_setup_data -> flags ; task -> tk_ops = task_setup_data -> callback_ops ; task -> tk_calldata = task_setup_data -> callback_data ; INIT_LIST_HEAD ( & task -> tk_task ) ; task -> tk_garb_retry = 2 ; task -> tk_cred_retry = 2 ; task -> tk_rebind_retry = 2 ; task -> tk_priority = task_setup_data -> priority - RPC_PRIORITY_LOW ; task -> tk_owner = current -> tgid ; task -> tk_workqueue = task_setup_data -> workqueue ; if ( task -> tk_ops -> rpc_call_prepare != NULL ) task -> tk_action = rpc_prepare_task ; task -> tk_start = ktime_get ( ) ; dprintk ( ""RPC: new task initialized, procpid %u\\n"" , task_pid_nr ( current ) ) ; }" 643,"NVD-CWE-Other static int gtco_probe ( struct usb_interface * usbinterface , const struct usb_device_id * id ) { struct gtco * gtco ; struct input_dev * input_dev ; struct hid_descriptor * hid_desc ; char * report ; int result = 0 , retry ; int error ; struct usb_endpoint_descriptor * endpoint ; gtco = kzalloc ( sizeof ( struct gtco ) , GFP_KERNEL ) ; input_dev = input_allocate_device ( ) ; if ( ! gtco || ! input_dev ) { dev_err ( & usbinterface -> dev , ""No more memory\\n"" ) ; error = - ENOMEM ; goto err_free_devs ; } gtco -> inputdevice = input_dev ; gtco -> usbdev = interface_to_usbdev ( usbinterface ) ; gtco -> intf = usbinterface ; gtco -> buffer = usb_alloc_coherent ( gtco -> usbdev , REPORT_MAX_SIZE , GFP_KERNEL , & gtco -> buf_dma ) ; if ( ! gtco -> buffer ) { dev_err ( & usbinterface -> dev , ""No more memory for us buffers\\n"" ) ; error = - ENOMEM ; goto err_free_devs ; } gtco -> urbinfo = usb_alloc_urb ( 0 , GFP_KERNEL ) ; if ( ! gtco -> urbinfo ) { dev_err ( & usbinterface -> dev , ""Failed to allocate URB\\n"" ) ; error = - ENOMEM ; goto err_free_buf ; } endpoint = & usbinterface -> altsetting [ 0 ] . endpoint [ 0 ] . desc ; dev_dbg ( & usbinterface -> dev , ""gtco # interfaces: %d\\n"" , usbinterface -> num_altsetting ) ; dev_dbg ( & usbinterface -> dev , ""num endpoints: %d\\n"" , usbinterface -> cur_altsetting -> desc . bNumEndpoints ) ; dev_dbg ( & usbinterface -> dev , ""interface class: %d\\n"" , usbinterface -> cur_altsetting -> desc . bInterfaceClass ) ; dev_dbg ( & usbinterface -> dev , ""endpoint: attribute:0x%x type:0x%x\\n"" , endpoint -> bmAttributes , endpoint -> bDescriptorType ) ; if ( usb_endpoint_xfer_int ( endpoint ) ) dev_dbg ( & usbinterface -> dev , ""endpoint: we have interrupt endpoint\\n"" ) ; dev_dbg ( & usbinterface -> dev , ""endpoint extra len:%d\\n"" , usbinterface -> altsetting [ 0 ] . extralen ) ; if ( usb_get_extra_descriptor ( usbinterface -> cur_altsetting , HID_DEVICE_TYPE , & hid_desc ) != 0 ) { dev_err ( & usbinterface -> dev , ""Can\'t retrieve exta USB descriptor to get hid report descriptor length\\n"" ) ; error = - EIO ; goto err_free_urb ; } dev_dbg ( & usbinterface -> dev , ""Extra descriptor success: type:%d len:%d\\n"" , hid_desc -> bDescriptorType , hid_desc -> wDescriptorLength ) ; report = kzalloc ( le16_to_cpu ( hid_desc -> wDescriptorLength ) , GFP_KERNEL ) ; if ( ! report ) { dev_err ( & usbinterface -> dev , ""No more memory for report\\n"" ) ; error = - ENOMEM ; goto err_free_urb ; } for ( retry = 0 ; retry < 3 ; retry ++ ) { result = usb_control_msg ( gtco -> usbdev , usb_rcvctrlpipe ( gtco -> usbdev , 0 ) , USB_REQ_GET_DESCRIPTOR , USB_RECIP_INTERFACE | USB_DIR_IN , REPORT_DEVICE_TYPE << 8 , 0 , report , le16_to_cpu ( hid_desc -> wDescriptorLength ) , 5000 ) ; dev_dbg ( & usbinterface -> dev , ""usb_control_msg result: %d\\n"" , result ) ; if ( result == le16_to_cpu ( hid_desc -> wDescriptorLength ) ) { parse_hid_report_descriptor ( gtco , report , result ) ; break ; } } kfree ( report ) ; if ( result != le16_to_cpu ( hid_desc -> wDescriptorLength ) ) { dev_err ( & usbinterface -> dev , ""Failed to get HID Report Descriptor of size: %d\\n"" , hid_desc -> wDescriptorLength ) ; error = - EIO ; goto err_free_urb ; } usb_make_path ( gtco -> usbdev , gtco -> usbpath , sizeof ( gtco -> usbpath ) ) ;","static int gtco_probe ( struct usb_interface * usbinterface , const struct usb_device_id * id ) { struct gtco * gtco ; struct input_dev * input_dev ; struct hid_descriptor * hid_desc ; char * report ; int result = 0 , retry ; int error ; struct usb_endpoint_descriptor * endpoint ; gtco = kzalloc ( sizeof ( struct gtco ) , GFP_KERNEL ) ; input_dev = input_allocate_device ( ) ; if ( ! gtco || ! input_dev ) { dev_err ( & usbinterface -> dev , ""No more memory\\n"" ) ; error = - ENOMEM ; goto err_free_devs ; } gtco -> inputdevice = input_dev ; gtco -> usbdev = interface_to_usbdev ( usbinterface ) ; gtco -> intf = usbinterface ; gtco -> buffer = usb_alloc_coherent ( gtco -> usbdev , REPORT_MAX_SIZE , GFP_KERNEL , & gtco -> buf_dma ) ; if ( ! gtco -> buffer ) { dev_err ( & usbinterface -> dev , ""No more memory for us buffers\\n"" ) ; error = - ENOMEM ; goto err_free_devs ; } gtco -> urbinfo = usb_alloc_urb ( 0 , GFP_KERNEL ) ; if ( ! gtco -> urbinfo ) { dev_err ( & usbinterface -> dev , ""Failed to allocate URB\\n"" ) ; error = - ENOMEM ; goto err_free_buf ; } if ( usbinterface -> altsetting [ 0 ] . desc . bNumEndpoints < 1 ) { dev_err ( & usbinterface -> dev , ""Invalid number of endpoints\\n"" ) ; error = - EINVAL ; goto err_free_urb ; } endpoint = & usbinterface -> altsetting [ 0 ] . endpoint [ 0 ] . desc ; dev_dbg ( & usbinterface -> dev , ""gtco # interfaces: %d\\n"" , usbinterface -> num_altsetting ) ; dev_dbg ( & usbinterface -> dev , ""num endpoints: %d\\n"" , usbinterface -> cur_altsetting -> desc . bNumEndpoints ) ; dev_dbg ( & usbinterface -> dev , ""interface class: %d\\n"" , usbinterface -> cur_altsetting -> desc . bInterfaceClass ) ; dev_dbg ( & usbinterface -> dev , ""endpoint: attribute:0x%x type:0x%x\\n"" , endpoint -> bmAttributes , endpoint -> bDescriptorType ) ; if ( usb_endpoint_xfer_int ( endpoint ) ) dev_dbg ( & usbinterface -> dev , ""endpoint: we have interrupt endpoint\\n"" ) ; dev_dbg ( & usbinterface -> dev , ""endpoint extra len:%d\\n"" , usbinterface -> altsetting [ 0 ] . extralen ) ; if ( usb_get_extra_descriptor ( usbinterface -> cur_altsetting , HID_DEVICE_TYPE , & hid_desc ) != 0 ) { dev_err ( & usbinterface -> dev , ""Can\'t retrieve exta USB descriptor to get hid report descriptor length\\n"" ) ; error = - EIO ; goto err_free_urb ; } dev_dbg ( & usbinterface -> dev , ""Extra descriptor success: type:%d len:%d\\n"" , hid_desc -> bDescriptorType , hid_desc -> wDescriptorLength ) ; report = kzalloc ( le16_to_cpu ( hid_desc -> wDescriptorLength ) , GFP_KERNEL ) ; if ( ! report ) { dev_err ( & usbinterface -> dev , ""No more memory for report\\n"" ) ; error = - ENOMEM ; goto err_free_urb ; } for ( retry = 0 ; retry < 3 ; retry ++ ) { result = usb_control_msg ( gtco -> usbdev , usb_rcvctrlpipe ( gtco -> usbdev , 0 ) , USB_REQ_GET_DESCRIPTOR , USB_RECIP_INTERFACE | USB_DIR_IN , REPORT_DEVICE_TYPE << 8 , 0 , report , le16_to_cpu ( hid_desc -> wDescriptorLength ) , 5000 ) ; dev_dbg ( & usbinterface -> dev , ""usb_control_msg result: %d\\n"" , result ) ; if ( result == le16_to_cpu ( hid_desc -> wDescriptorLength ) ) { parse_hid_report_descriptor ( gtco , report , result ) ; break ; } } kfree ( report ) ; if ( result != le16_to_cpu ( hid_desc -> wDescriptorLength ) ) { dev_err ( & usbinterface -> dev , ""Failed to get HID Report Descriptor of size: %d\\n"" , hid_desc -> wDescriptorLength ) ; error = - EIO ; goto err_free_urb ; } usb_make_path ( gtco -> usbdev , gtco -> usbpath , sizeof ( gtco -> usbpath ) ) ;" 644,"CWE-787 return FALSE ; } else if ( ! client -> format . bigEndian && ( maxColor & 0xff ) == 0 ) { if ( ! HandleZRLE24Up ( client , rect . r . x , rect . r . y , rect . r . w , rect . r . h ) ) return FALSE ; } else if ( client -> format . bigEndian && ( maxColor & 0xff000000 ) == 0 ) { if ( ! HandleZRLE24Down ( client , rect . r . x , rect . r . y , rect . r . w , rect . r . h ) ) return FALSE ; } else if ( ! HandleZRLE32 ( client , rect . r . x , rect . r . y , rect . r . w , rect . r . h ) ) return FALSE ; break ; } } break ; } # endif default : { rfbBool handled = FALSE ; rfbClientProtocolExtension * e ; for ( e = rfbClientExtensions ; ! handled && e ; e = e -> next ) if ( e -> handleEncoding && e -> handleEncoding ( client , & rect ) ) handled = TRUE ; if ( ! handled ) { rfbClientLog ( ""Unknown rect encoding %d\\n"" , ( int ) rect . encoding ) ; return FALSE ; } } } client -> SoftCursorUnlockScreen ( client ) ; client -> GotFrameBufferUpdate ( client , rect . r . x , rect . r . y , rect . r . w , rect . r . h ) ; } if ( ! SendIncrementalFramebufferUpdateRequest ( client ) ) return FALSE ; if ( client -> FinishedFrameBufferUpdate ) client -> FinishedFrameBufferUpdate ( client ) ; break ; } case rfbBell : { client -> Bell ( client ) ; break ; } case rfbServerCutText : { char * buffer ; if ( ! ReadFromRFBServer ( client , ( ( char * ) & msg ) + 1 , sz_rfbServerCutTextMsg - 1 ) ) return FALSE ; msg . sct . length = rfbClientSwap32IfLE ( msg . sct . length ) ; buffer = malloc ( ( uint64_t ) msg . sct . length + 1 ) ; if ( ! ReadFromRFBServer ( client , buffer , msg . sct . length ) ) { free ( buffer ) ; return FALSE ; } buffer [ msg . sct . length ] = 0 ; if ( client -> GotXCutText ) client -> GotXCutText ( client , buffer , msg . sct . length ) ; free ( buffer ) ; break ; } case rfbTextChat : { char * buffer = NULL ; if ( ! ReadFromRFBServer ( client , ( ( char * ) & msg ) + 1 , sz_rfbTextChatMsg - 1 ) ) return FALSE ; msg . tc . length = rfbClientSwap32IfLE ( msg . sct . length ) ; switch ( msg . tc . length ) { case rfbTextChatOpen : rfbClientLog ( ""Received TextChat Open\\n"" ) ; if ( client -> HandleTextChat != NULL ) client -> HandleTextChat ( client , ( int ) rfbTextChatOpen , NULL ) ; break ; case rfbTextChatClose : rfbClientLog ( ""Received TextChat Close\\n"" ) ; if ( client -> HandleTextChat != NULL ) client -> HandleTextChat ( client , ( int ) rfbTextChatClose , NULL ) ; break ; case rfbTextChatFinished : rfbClientLog ( ""Received TextChat Finished\\n"" ) ; if ( client -> HandleTextChat != NULL ) client -> HandleTextChat ( client , ( int ) rfbTextChatFinished , NULL ) ; break ; default : buffer = malloc ( msg . tc . length + 1 ) ; if ( ! ReadFromRFBServer ( client , buffer , msg . tc . length ) ) { free ( buffer ) ; return FALSE ; } buffer [ msg . tc . length ] = 0 ; rfbClientLog ( ""Received TextChat \\""%s\\""\\n"" , buffer ) ; if ( client -> HandleTextChat != NULL ) client -> HandleTextChat ( client , ( int ) msg . tc . length , buffer ) ; free ( buffer ) ; break ; } break ; }","return FALSE ; } else if ( ! client -> format . bigEndian && ( maxColor & 0xff ) == 0 ) { if ( ! HandleZRLE24Up ( client , rect . r . x , rect . r . y , rect . r . w , rect . r . h ) ) return FALSE ; } else if ( client -> format . bigEndian && ( maxColor & 0xff000000 ) == 0 ) { if ( ! HandleZRLE24Down ( client , rect . r . x , rect . r . y , rect . r . w , rect . r . h ) ) return FALSE ; } else if ( ! HandleZRLE32 ( client , rect . r . x , rect . r . y , rect . r . w , rect . r . h ) ) return FALSE ; break ; } } break ; } # endif default : { rfbBool handled = FALSE ; rfbClientProtocolExtension * e ; for ( e = rfbClientExtensions ; ! handled && e ; e = e -> next ) if ( e -> handleEncoding && e -> handleEncoding ( client , & rect ) ) handled = TRUE ; if ( ! handled ) { rfbClientLog ( ""Unknown rect encoding %d\\n"" , ( int ) rect . encoding ) ; return FALSE ; } } } client -> SoftCursorUnlockScreen ( client ) ; client -> GotFrameBufferUpdate ( client , rect . r . x , rect . r . y , rect . r . w , rect . r . h ) ; } if ( ! SendIncrementalFramebufferUpdateRequest ( client ) ) return FALSE ; if ( client -> FinishedFrameBufferUpdate ) client -> FinishedFrameBufferUpdate ( client ) ; break ; } case rfbBell : { client -> Bell ( client ) ; break ; } case rfbServerCutText : { char * buffer ; if ( ! ReadFromRFBServer ( client , ( ( char * ) & msg ) + 1 , sz_rfbServerCutTextMsg - 1 ) ) return FALSE ; msg . sct . length = rfbClientSwap32IfLE ( msg . sct . length ) ; if ( msg . sct . length > 1 << 20 ) { rfbClientErr ( ""Ignoring too big cut text length sent by server: %u B > 1 MB\\n"" , ( unsigned int ) msg . sct . length ) ; return FALSE ; } buffer = malloc ( ( uint64_t ) msg . sct . length + 1 ) ; if ( ! ReadFromRFBServer ( client , buffer , msg . sct . length ) ) { free ( buffer ) ; return FALSE ; } buffer [ msg . sct . length ] = 0 ; if ( client -> GotXCutText ) client -> GotXCutText ( client , buffer , msg . sct . length ) ; free ( buffer ) ; break ; } case rfbTextChat : { char * buffer = NULL ; if ( ! ReadFromRFBServer ( client , ( ( char * ) & msg ) + 1 , sz_rfbTextChatMsg - 1 ) ) return FALSE ; msg . tc . length = rfbClientSwap32IfLE ( msg . sct . length ) ; switch ( msg . tc . length ) { case rfbTextChatOpen : rfbClientLog ( ""Received TextChat Open\\n"" ) ; if ( client -> HandleTextChat != NULL ) client -> HandleTextChat ( client , ( int ) rfbTextChatOpen , NULL ) ; break ; case rfbTextChatClose : rfbClientLog ( ""Received TextChat Close\\n"" ) ; if ( client -> HandleTextChat != NULL ) client -> HandleTextChat ( client , ( int ) rfbTextChatClose , NULL ) ; break ; case rfbTextChatFinished : rfbClientLog ( ""Received TextChat Finished\\n"" ) ; if ( client -> HandleTextChat != NULL ) client -> HandleTextChat ( client , ( int ) rfbTextChatFinished , NULL ) ; break ; default : buffer = malloc ( msg . tc . length + 1 ) ; if ( ! ReadFromRFBServer ( client , buffer , msg . tc . length ) ) { free ( buffer ) ; return FALSE ; } buffer [ msg . tc . length ] = 0 ; rfbClientLog ( ""Received TextChat \\""%s\\""\\n"" , buffer ) ; if ( client -> HandleTextChat != NULL ) client -> HandleTextChat ( client , ( int ) msg . tc . length , buffer ) ; free ( buffer ) ; break ; } break ; }" 645,"CWE-200 static int irda_recvmsg_dgram ( struct kiocb * iocb , struct socket * sock , struct msghdr * msg , size_t size , int flags ) { struct sock * sk = sock -> sk ; struct irda_sock * self = irda_sk ( sk ) ; struct sk_buff * skb ; size_t copied ; int err ; IRDA_DEBUG ( 4 , ""%s()\\n"" , __func__ ) ; skb = skb_recv_datagram ( sk , flags & ~ MSG_DONTWAIT , flags & MSG_DONTWAIT , & err ) ; if ( ! skb ) return err ; skb_reset_transport_header ( skb ) ; copied = skb -> len ; if ( copied > size ) { IRDA_DEBUG ( 2 , ""%s(), Received truncated frame (%zd < %zd)!\\n"" , __func__ , copied , size ) ; copied = size ; msg -> msg_flags |= MSG_TRUNC ; } skb_copy_datagram_iovec ( skb , 0 , msg -> msg_iov , copied ) ; skb_free_datagram ( sk , skb ) ; if ( self -> rx_flow == FLOW_STOP ) { if ( ( atomic_read ( & sk -> sk_rmem_alloc ) << 2 ) <= sk -> sk_rcvbuf ) { IRDA_DEBUG ( 2 , ""%s(), Starting IrTTP\\n"" , __func__ ) ; self -> rx_flow = FLOW_START ; irttp_flow_request ( self -> tsap , FLOW_START ) ; } } return copied ; }","static int irda_recvmsg_dgram ( struct kiocb * iocb , struct socket * sock , struct msghdr * msg , size_t size , int flags ) { struct sock * sk = sock -> sk ; struct irda_sock * self = irda_sk ( sk ) ; struct sk_buff * skb ; size_t copied ; int err ; IRDA_DEBUG ( 4 , ""%s()\\n"" , __func__ ) ; msg -> msg_namelen = 0 ; skb = skb_recv_datagram ( sk , flags & ~ MSG_DONTWAIT , flags & MSG_DONTWAIT , & err ) ; if ( ! skb ) return err ; skb_reset_transport_header ( skb ) ; copied = skb -> len ; if ( copied > size ) { IRDA_DEBUG ( 2 , ""%s(), Received truncated frame (%zd < %zd)!\\n"" , __func__ , copied , size ) ; copied = size ; msg -> msg_flags |= MSG_TRUNC ; } skb_copy_datagram_iovec ( skb , 0 , msg -> msg_iov , copied ) ; skb_free_datagram ( sk , skb ) ; if ( self -> rx_flow == FLOW_STOP ) { if ( ( atomic_read ( & sk -> sk_rmem_alloc ) << 2 ) <= sk -> sk_rcvbuf ) { IRDA_DEBUG ( 2 , ""%s(), Starting IrTTP\\n"" , __func__ ) ; self -> rx_flow = FLOW_START ; irttp_flow_request ( self -> tsap , FLOW_START ) ; } } return copied ; }" 646,"CWE-20 int rose_parse_facilities ( unsigned char * p , struct rose_facilities_struct * facilities ) { int facilities_len , len ; facilities_len = * p ++ ; if ( facilities_len == 0 ) return 0 ; while ( facilities_len > 0 ) { if ( * p == 0x00 ) { facilities_len -- ; p ++ ; switch ( * p ) { case FAC_NATIONAL : len = rose_parse_national ( p + 1 , facilities , facilities_len - 1 ) ; facilities_len -= len + 1 ; p += len + 1 ; break ; case FAC_CCITT : len = rose_parse_ccitt ( p + 1 , facilities , facilities_len - 1 ) ; facilities_len -= len + 1 ; p += len + 1 ; break ; default : printk ( KERN_DEBUG ""ROSE: rose_parse_facilities - unknown facilities family %02X\\n"" , * p ) ; facilities_len -- ; p ++ ; break ; } } else break ; } return 1 ; }","int rose_parse_facilities ( unsigned char * p , struct rose_facilities_struct * facilities ) { int facilities_len , len ; facilities_len = * p ++ ; if ( facilities_len == 0 ) return 0 ; while ( facilities_len > 0 ) { if ( * p == 0x00 ) { facilities_len -- ; p ++ ; switch ( * p ) { case FAC_NATIONAL : len = rose_parse_national ( p + 1 , facilities , facilities_len - 1 ) ; if ( len < 0 ) return 0 ; facilities_len -= len + 1 ; p += len + 1 ; break ; case FAC_CCITT : len = rose_parse_ccitt ( p + 1 , facilities , facilities_len - 1 ) ; if ( len < 0 ) return 0 ; facilities_len -= len + 1 ; p += len + 1 ; break ; default : printk ( KERN_DEBUG ""ROSE: rose_parse_facilities - unknown facilities family %02X\\n"" , * p ) ; facilities_len -- ; p ++ ; break ; } } else break ; } return 1 ; }" 647,"CWE-119 int commonio_sort ( struct commonio_db * db , int ( * cmp ) ( const void * , const void * ) ) { struct commonio_entry * * entries , * ptr ; size_t n = 0 , i ; # if KEEP_NIS_AT_END struct commonio_entry * nis = NULL ; # endif for ( ptr = db -> head ; ( NULL != ptr ) # if KEEP_NIS_AT_END && ( NULL != ptr -> line ) && ( ( '+' != ptr -> line [ 0 ] ) && ( '-' != ptr -> line [ 0 ] ) ) # endif ; ptr = ptr -> next ) { n ++ ; } # if KEEP_NIS_AT_END if ( ( NULL != ptr ) && ( NULL != ptr -> line ) ) { nis = ptr ; } # endif if ( n <= 1 ) { return 0 ; } entries = malloc ( n * sizeof ( struct commonio_entry * ) ) ; if ( entries == NULL ) { return - 1 ; } n = 0 ; for ( ptr = db -> head ; # if KEEP_NIS_AT_END nis != ptr ; # else NULL != ptr ; # endif ptr = ptr -> next ) { entries [ n ] = ptr ; n ++ ; } qsort ( entries , n , sizeof ( struct commonio_entry * ) , cmp ) ; db -> head = entries [ 0 ] ; n -- ; # if KEEP_NIS_AT_END if ( NULL == nis ) # endif { db -> tail = entries [ n ] ; } db -> head -> prev = NULL ; db -> head -> next = entries [ 1 ] ; entries [ n ] -> prev = entries [ n - 1 ] ; # if KEEP_NIS_AT_END entries [ n ] -> next = nis ; # else entries [ n ] -> next = NULL ; # endif for ( i = 1 ; i < n ; i ++ ) { entries [ i ] -> prev = entries [ i - 1 ] ; entries [ i ] -> next = entries [ i + 1 ] ; } free ( entries ) ; db -> changed = true ; return 0 ; }","int commonio_sort ( struct commonio_db * db , int ( * cmp ) ( const void * , const void * ) ) { struct commonio_entry * * entries , * ptr ; size_t n = 0 , i ; # if KEEP_NIS_AT_END struct commonio_entry * nis = NULL ; # endif for ( ptr = db -> head ; ( NULL != ptr ) # if KEEP_NIS_AT_END && ( ( NULL == ptr -> line ) || ( ( '+' != ptr -> line [ 0 ] ) && ( '-' != ptr -> line [ 0 ] ) ) ) # endif ; ptr = ptr -> next ) { n ++ ; } # if KEEP_NIS_AT_END if ( NULL != ptr ) { nis = ptr ; } # endif if ( n <= 1 ) { return 0 ; } entries = malloc ( n * sizeof ( struct commonio_entry * ) ) ; if ( entries == NULL ) { return - 1 ; } n = 0 ; for ( ptr = db -> head ; # if KEEP_NIS_AT_END nis != ptr ; # else NULL != ptr ; # endif ptr = ptr -> next ) { entries [ n ] = ptr ; n ++ ; } qsort ( entries , n , sizeof ( struct commonio_entry * ) , cmp ) ; db -> head = entries [ 0 ] ; n -- ; # if KEEP_NIS_AT_END if ( NULL == nis ) # endif { db -> tail = entries [ n ] ; } db -> head -> prev = NULL ; db -> head -> next = entries [ 1 ] ; entries [ n ] -> prev = entries [ n - 1 ] ; # if KEEP_NIS_AT_END entries [ n ] -> next = nis ; # else entries [ n ] -> next = NULL ; # endif for ( i = 1 ; i < n ; i ++ ) { entries [ i ] -> prev = entries [ i - 1 ] ; entries [ i ] -> next = entries [ i + 1 ] ; } free ( entries ) ; db -> changed = true ; return 0 ; }" 648,"CWE-119 static char * bittok2str_internal ( register const struct tok * lp , register const char * fmt , register u_int v , const char * sep ) { static char buf [ 256 ] ; int buflen = 0 ; register u_int rotbit ; register u_int tokval ; const char * sepstr = """" ; while ( lp != NULL && lp -> s != NULL ) { tokval = lp -> v ; rotbit = 1 ; while ( rotbit != 0 ) { if ( tokval == ( v & rotbit ) ) { buflen += snprintf ( buf + buflen , sizeof ( buf ) - buflen , ""%s%s"" , sepstr , lp -> s ) ; sepstr = sep ; break ; } rotbit = rotbit << 1 ; } lp ++ ; } if ( buflen == 0 ) ( void ) snprintf ( buf , sizeof ( buf ) , fmt == NULL ? ""#%08x"" : fmt , v ) ; return ( buf ) ; }","static char * bittok2str_internal ( register const struct tok * lp , register const char * fmt , register u_int v , const char * sep ) { static char buf [ 1024 + 1 ] ; char * bufp = buf ; size_t space_left = sizeof ( buf ) , string_size ; register u_int rotbit ; register u_int tokval ; const char * sepstr = """" ; while ( lp != NULL && lp -> s != NULL ) { tokval = lp -> v ; rotbit = 1 ; while ( rotbit != 0 ) { if ( tokval == ( v & rotbit ) ) { if ( space_left <= 1 ) return ( buf ) ; string_size = strlcpy ( bufp , sepstr , space_left ) ; if ( string_size >= space_left ) return ( buf ) ; bufp += string_size ; space_left -= string_size ; if ( space_left <= 1 ) return ( buf ) ; string_size = strlcpy ( bufp , lp -> s , space_left ) ; if ( string_size >= space_left ) return ( buf ) ; bufp += string_size ; space_left -= string_size ; sepstr = sep ; break ; } rotbit = rotbit << 1 ; } lp ++ ; } if ( bufp == buf ) ( void ) snprintf ( buf , sizeof ( buf ) , fmt == NULL ? ""#%08x"" : fmt , v ) ; return ( buf ) ; }" 649,"CWE-190 int main ( int argc , char * * argv ) { int fmtid ; int id ; char * infile ; jas_stream_t * instream ; jas_image_t * image ; int width ; int height ; int depth ; int numcmpts ; int verbose ; char * fmtname ; int debug ; size_t max_mem ; if ( jas_init ( ) ) { abort ( ) ; } cmdname = argv [ 0 ] ; infile = 0 ; verbose = 0 ; debug = 0 ; # if defined ( JAS_DEFAULT_MAX_MEM_USAGE ) max_mem = JAS_DEFAULT_MAX_MEM_USAGE ; # endif while ( ( id = jas_getopt ( argc , argv , opts ) ) >= 0 ) { switch ( id ) { case OPT_VERBOSE : verbose = 1 ; break ; case OPT_VERSION : printf ( ""%s\\n"" , JAS_VERSION ) ; exit ( EXIT_SUCCESS ) ; break ; case OPT_DEBUG : debug = atoi ( jas_optarg ) ; break ; case OPT_INFILE : infile = jas_optarg ; break ; case OPT_MAXMEM : max_mem = strtoull ( jas_optarg , 0 , 10 ) ; break ; case OPT_HELP : default : usage ( ) ; break ; } } jas_setdbglevel ( debug ) ; # if defined ( JAS_DEFAULT_MAX_MEM_USAGE ) jas_set_max_mem_usage ( max_mem ) ; # endif if ( infile ) { if ( ! ( instream = jas_stream_fopen ( infile , ""rb"" ) ) ) { fprintf ( stderr , ""cannot open input image file %s\\n"" , infile ) ; exit ( EXIT_FAILURE ) ; } } else { if ( ! ( instream = jas_stream_fdopen ( 0 , ""rb"" ) ) ) { fprintf ( stderr , ""cannot open standard input\\n"" ) ; exit ( EXIT_FAILURE ) ; } } if ( ( fmtid = jas_image_getfmt ( instream ) ) < 0 ) { fprintf ( stderr , ""unknown image format\\n"" ) ; } if ( ! ( image = jas_image_decode ( instream , fmtid , 0 ) ) ) { jas_stream_close ( instream ) ; fprintf ( stderr , ""cannot load image\\n"" ) ; return EXIT_FAILURE ; } jas_stream_close ( instream ) ; if ( ! ( numcmpts = jas_image_numcmpts ( image ) ) ) { fprintf ( stderr , ""warning: image has no components\\n"" ) ; } if ( numcmpts ) { width = jas_image_cmptwidth ( image , 0 ) ; height = jas_image_cmptheight ( image , 0 ) ; depth = jas_image_cmptprec ( image , 0 ) ; } else { width = 0 ; height = 0 ; depth = 0 ; } if ( ! ( fmtname = jas_image_fmttostr ( fmtid ) ) ) { abort ( ) ; } printf ( ""%s %d %d %d %d %ld\\n"" , fmtname , numcmpts , width , height , depth , ( long ) jas_image_rawsize ( image ) ) ; jas_image_destroy ( image ) ; jas_image_clearfmts ( ) ; return EXIT_SUCCESS ; }","int main ( int argc , char * * argv ) { int fmtid ; int id ; char * infile ; jas_stream_t * instream ; jas_image_t * image ; int width ; int height ; int depth ; int numcmpts ; int verbose ; char * fmtname ; int debug ; size_t max_mem ; size_t max_samples ; char optstr [ 32 ] ; if ( jas_init ( ) ) { abort ( ) ; } cmdname = argv [ 0 ] ; max_samples = 64 * JAS_MEBI ; infile = 0 ; verbose = 0 ; debug = 0 ; # if defined ( JAS_DEFAULT_MAX_MEM_USAGE ) max_mem = JAS_DEFAULT_MAX_MEM_USAGE ; # endif while ( ( id = jas_getopt ( argc , argv , opts ) ) >= 0 ) { switch ( id ) { case OPT_VERBOSE : verbose = 1 ; break ; case OPT_VERSION : printf ( ""%s\\n"" , JAS_VERSION ) ; exit ( EXIT_SUCCESS ) ; break ; case OPT_DEBUG : debug = atoi ( jas_optarg ) ; break ; case OPT_INFILE : infile = jas_optarg ; break ; case OPT_MAXSAMPLES : max_samples = strtoull ( jas_optarg , 0 , 10 ) ; break ; case OPT_MAXMEM : max_mem = strtoull ( jas_optarg , 0 , 10 ) ; break ; case OPT_HELP : default : usage ( ) ; break ; } } jas_setdbglevel ( debug ) ; # if defined ( JAS_DEFAULT_MAX_MEM_USAGE ) jas_set_max_mem_usage ( max_mem ) ; # endif if ( infile ) { if ( ! ( instream = jas_stream_fopen ( infile , ""rb"" ) ) ) { fprintf ( stderr , ""cannot open input image file %s\\n"" , infile ) ; exit ( EXIT_FAILURE ) ; } } else { if ( ! ( instream = jas_stream_fdopen ( 0 , ""rb"" ) ) ) { fprintf ( stderr , ""cannot open standard input\\n"" ) ; exit ( EXIT_FAILURE ) ; } } if ( ( fmtid = jas_image_getfmt ( instream ) ) < 0 ) { fprintf ( stderr , ""unknown image format\\n"" ) ; } snprintf ( optstr , sizeof ( optstr ) , ""max_samples=%-zu"" , max_samples ) ; if ( ! ( image = jas_image_decode ( instream , fmtid , optstr ) ) ) { jas_stream_close ( instream ) ; fprintf ( stderr , ""cannot load image\\n"" ) ; return EXIT_FAILURE ; } jas_stream_close ( instream ) ; if ( ! ( fmtname = jas_image_fmttostr ( fmtid ) ) ) { jas_eprintf ( ""format name lookup failed\\n"" ) ; return EXIT_FAILURE ; } if ( ! ( numcmpts = jas_image_numcmpts ( image ) ) ) { fprintf ( stderr , ""warning: image has no components\\n"" ) ; } if ( numcmpts ) { width = jas_image_cmptwidth ( image , 0 ) ; height = jas_image_cmptheight ( image , 0 ) ; depth = jas_image_cmptprec ( image , 0 ) ; } else { width = 0 ; height = 0 ; depth = 0 ; } printf ( ""%s %d %d %d %d %ld\\n"" , fmtname , numcmpts , width , height , depth , JAS_CAST ( long , jas_image_rawsize ( image ) ) ) ; jas_image_destroy ( image ) ; jas_image_clearfmts ( ) ; return EXIT_SUCCESS ; }" 650,"CWE-189 MagickExport const char * GetMagickFeatures ( void ) { return ""DPC"" # if defined ( MAGICKCORE_BUILD_MODULES ) || defined ( _DLL ) "" Modules"" # endif # if defined ( MAGICKCORE_HDRI_SUPPORT ) "" HDRI"" # endif # if defined ( MAGICKCORE_OPENCL_SUPPORT ) "" OpenCL"" # endif # if defined ( MAGICKCORE_OPENMP_SUPPORT ) "" OpenMP"" # endif ; }","MagickExport const char * GetMagickFeatures ( void ) { return ""DPC"" # if defined ( MAGICKCORE_WINDOWS_SUPPORT ) && defined ( _DEBUG ) "" Debug"" # endif # if defined ( MAGICKCORE_CIPHER_SUPPORT ) "" Cipher"" # endif # if defined ( MAGICKCORE_HDRI_SUPPORT ) "" HDRI"" # endif # if defined ( MAGICKCORE_BUILD_MODULES ) || defined ( _DLL ) "" Modules"" # endif # if defined ( MAGICKCORE_OPENCL_SUPPORT ) "" OpenCL"" # endif # if defined ( MAGICKCORE_OPENMP_SUPPORT ) "" OpenMP"" # endif # if defined ( ZERO_CONFIGURATION_SUPPORT ) "" Zero-configuration"" # endif ; }" 651,"CWE-119 static void t1mac_output_ascii ( char * s , int len ) { if ( blocktyp == POST_BINARY ) { output_current_post ( ) ; blocktyp = POST_ASCII ; } if ( len > 0 && s [ len - 1 ] == '\\n' ) s [ len - 1 ] = '\\r' ; t1mac_output_data ( ( byte * ) s , len ) ; if ( strncmp ( s , ""/FontName"" , 9 ) == 0 ) { for ( s += 9 ; isspace ( * s ) ; s ++ ) ; if ( * s == '/' ) { const char * t = ++ s ; while ( * t && ! isspace ( * t ) ) t ++ ; free ( font_name ) ; font_name = ( char * ) malloc ( t - s + 1 ) ; memcpy ( font_name , s , t - s ) ; font_name [ t - s ] = 0 ; } } }","static void t1mac_output_ascii ( char * s , int len ) { if ( blocktyp == POST_BINARY ) { output_current_post ( ) ; blocktyp = POST_ASCII ; } if ( len > 0 && s [ len - 1 ] == '\\n' ) s [ len - 1 ] = '\\r' ; t1mac_output_data ( ( byte * ) s , len ) ; if ( strncmp ( s , ""/FontName"" , 9 ) == 0 ) { for ( s += 9 ; isspace ( ( unsigned char ) * s ) ; s ++ ) ; if ( * s == '/' ) { const char * t = ++ s ; while ( * t && ! isspace ( ( unsigned char ) * t ) ) t ++ ; free ( font_name ) ; font_name = ( char * ) malloc ( t - s + 1 ) ; memcpy ( font_name , s , t - s ) ; font_name [ t - s ] = 0 ; } } }" 652,"CWE-264 r = - EIO ; goto out8 ; } if ( boot_cpu_has ( X86_FEATURE_NX ) ) kvm_enable_efer_bits ( EFER_NX ) ; if ( ! cpu_has_vmx_vpid ( ) ) enable_vpid = 0 ; if ( ! cpu_has_vmx_shadow_vmcs ( ) ) enable_shadow_vmcs = 0 ; if ( enable_shadow_vmcs ) init_vmcs_shadow_fields ( ) ; if ( ! cpu_has_vmx_ept ( ) || ! cpu_has_vmx_ept_4levels ( ) ) { enable_ept = 0 ; enable_unrestricted_guest = 0 ; enable_ept_ad_bits = 0 ; } if ( ! cpu_has_vmx_ept_ad_bits ( ) ) enable_ept_ad_bits = 0 ; if ( ! cpu_has_vmx_unrestricted_guest ( ) ) enable_unrestricted_guest = 0 ; if ( ! cpu_has_vmx_flexpriority ( ) ) flexpriority_enabled = 0 ; if ( ! flexpriority_enabled ) kvm_x86_ops -> set_apic_access_page_addr = NULL ; if ( ! cpu_has_vmx_tpr_shadow ( ) ) kvm_x86_ops -> update_cr8_intercept = NULL ; if ( enable_ept && ! cpu_has_vmx_ept_2m_page ( ) ) kvm_disable_largepages ( ) ; if ( ! cpu_has_vmx_ple ( ) ) ple_gap = 0 ; if ( ! cpu_has_vmx_apicv ( ) ) enable_apicv = 0 ; if ( cpu_has_vmx_tsc_scaling ( ) ) { kvm_has_tsc_control = true ; kvm_max_tsc_scaling_ratio = KVM_VMX_TSC_MULTIPLIER_MAX ; kvm_tsc_scaling_ratio_frac_bits = 48 ; } vmx_disable_intercept_for_msr ( MSR_FS_BASE , false ) ; vmx_disable_intercept_for_msr ( MSR_GS_BASE , false ) ; vmx_disable_intercept_for_msr ( MSR_KERNEL_GS_BASE , true ) ; vmx_disable_intercept_for_msr ( MSR_IA32_SYSENTER_CS , false ) ; vmx_disable_intercept_for_msr ( MSR_IA32_SYSENTER_ESP , false ) ; vmx_disable_intercept_for_msr ( MSR_IA32_SYSENTER_EIP , false ) ; vmx_disable_intercept_for_msr ( MSR_IA32_BNDCFGS , true ) ; memcpy ( vmx_msr_bitmap_legacy_x2apic , vmx_msr_bitmap_legacy , PAGE_SIZE ) ; memcpy ( vmx_msr_bitmap_longmode_x2apic , vmx_msr_bitmap_longmode , PAGE_SIZE ) ; set_bit ( 0 , vmx_vpid_bitmap ) ; if ( enable_apicv ) { for ( msr = 0x800 ; msr <= 0x8ff ; msr ++ ) vmx_disable_intercept_msr_read_x2apic ( msr ) ; vmx_enable_intercept_msr_read_x2apic ( 0x802 ) ; vmx_enable_intercept_msr_read_x2apic ( 0x839 ) ; vmx_disable_intercept_msr_write_x2apic ( 0x808 ) ; vmx_disable_intercept_msr_write_x2apic ( 0x80b ) ; vmx_disable_intercept_msr_write_x2apic ( 0x83f ) ; } if ( enable_ept ) { kvm_mmu_set_mask_ptes ( 0ull , ( enable_ept_ad_bits ) ? VMX_EPT_ACCESS_BIT : 0ull , ( enable_ept_ad_bits ) ? VMX_EPT_DIRTY_BIT : 0ull , 0ull , VMX_EPT_EXECUTABLE_MASK ) ; ept_set_mmio_spte_mask ( ) ; kvm_enable_tdp ( ) ; } else kvm_disable_tdp ( ) ; update_ple_window_actual_max ( ) ; if ( ! enable_ept || ! enable_ept_ad_bits || ! cpu_has_vmx_pml ( ) ) enable_pml = 0 ; if ( ! enable_pml ) { kvm_x86_ops -> slot_enable_log_dirty = NULL ; kvm_x86_ops -> slot_disable_log_dirty = NULL ; kvm_x86_ops -> flush_log_dirty = NULL ; kvm_x86_ops -> enable_log_dirty_pt_masked = NULL ; } kvm_set_posted_intr_wakeup_handler ( wakeup_handler ) ; return alloc_kvm_area ( ) ; out8 : free_page ( ( unsigned long ) vmx_vmwrite_bitmap ) ; out7 : free_page ( ( unsigned long ) vmx_vmread_bitmap ) ; out6 : if ( nested ) free_page ( ( unsigned long ) vmx_msr_bitmap_nested ) ; out5 : free_page ( ( unsigned long ) vmx_msr_bitmap_longmode_x2apic ) ; out4 : free_page ( ( unsigned long ) vmx_msr_bitmap_longmode ) ; out3 : free_page ( ( unsigned long ) vmx_msr_bitmap_legacy_x2apic ) ; out2 : free_page ( ( unsigned long ) vmx_msr_bitmap_legacy ) ; out1 : free_page ( ( unsigned long ) vmx_io_bitmap_b ) ; out : free_page ( ( unsigned long ) vmx_io_bitmap_a ) ; return r ; }","r = - EIO ; goto out8 ; } if ( boot_cpu_has ( X86_FEATURE_NX ) ) kvm_enable_efer_bits ( EFER_NX ) ; if ( ! cpu_has_vmx_vpid ( ) ) enable_vpid = 0 ; if ( ! cpu_has_vmx_shadow_vmcs ( ) ) enable_shadow_vmcs = 0 ; if ( enable_shadow_vmcs ) init_vmcs_shadow_fields ( ) ; if ( ! cpu_has_vmx_ept ( ) || ! cpu_has_vmx_ept_4levels ( ) ) { enable_ept = 0 ; enable_unrestricted_guest = 0 ; enable_ept_ad_bits = 0 ; } if ( ! cpu_has_vmx_ept_ad_bits ( ) ) enable_ept_ad_bits = 0 ; if ( ! cpu_has_vmx_unrestricted_guest ( ) ) enable_unrestricted_guest = 0 ; if ( ! cpu_has_vmx_flexpriority ( ) ) flexpriority_enabled = 0 ; if ( ! flexpriority_enabled ) kvm_x86_ops -> set_apic_access_page_addr = NULL ; if ( ! cpu_has_vmx_tpr_shadow ( ) ) kvm_x86_ops -> update_cr8_intercept = NULL ; if ( enable_ept && ! cpu_has_vmx_ept_2m_page ( ) ) kvm_disable_largepages ( ) ; if ( ! cpu_has_vmx_ple ( ) ) ple_gap = 0 ; if ( ! cpu_has_vmx_apicv ( ) ) enable_apicv = 0 ; if ( cpu_has_vmx_tsc_scaling ( ) ) { kvm_has_tsc_control = true ; kvm_max_tsc_scaling_ratio = KVM_VMX_TSC_MULTIPLIER_MAX ; kvm_tsc_scaling_ratio_frac_bits = 48 ; } vmx_disable_intercept_for_msr ( MSR_FS_BASE , false ) ; vmx_disable_intercept_for_msr ( MSR_GS_BASE , false ) ; vmx_disable_intercept_for_msr ( MSR_KERNEL_GS_BASE , true ) ; vmx_disable_intercept_for_msr ( MSR_IA32_SYSENTER_CS , false ) ; vmx_disable_intercept_for_msr ( MSR_IA32_SYSENTER_ESP , false ) ; vmx_disable_intercept_for_msr ( MSR_IA32_SYSENTER_EIP , false ) ; vmx_disable_intercept_for_msr ( MSR_IA32_BNDCFGS , true ) ; memcpy ( vmx_msr_bitmap_legacy_x2apic , vmx_msr_bitmap_legacy , PAGE_SIZE ) ; memcpy ( vmx_msr_bitmap_longmode_x2apic , vmx_msr_bitmap_longmode , PAGE_SIZE ) ; set_bit ( 0 , vmx_vpid_bitmap ) ; for ( msr = 0x800 ; msr <= 0x8ff ; msr ++ ) vmx_disable_intercept_msr_read_x2apic ( msr ) ; vmx_enable_intercept_msr_read_x2apic ( 0x802 ) ; vmx_enable_intercept_msr_read_x2apic ( 0x839 ) ; vmx_disable_intercept_msr_write_x2apic ( 0x808 ) ; vmx_disable_intercept_msr_write_x2apic ( 0x80b ) ; vmx_disable_intercept_msr_write_x2apic ( 0x83f ) ; if ( enable_ept ) { kvm_mmu_set_mask_ptes ( 0ull , ( enable_ept_ad_bits ) ? VMX_EPT_ACCESS_BIT : 0ull , ( enable_ept_ad_bits ) ? VMX_EPT_DIRTY_BIT : 0ull , 0ull , VMX_EPT_EXECUTABLE_MASK ) ; ept_set_mmio_spte_mask ( ) ; kvm_enable_tdp ( ) ; } else kvm_disable_tdp ( ) ; update_ple_window_actual_max ( ) ; if ( ! enable_ept || ! enable_ept_ad_bits || ! cpu_has_vmx_pml ( ) ) enable_pml = 0 ; if ( ! enable_pml ) { kvm_x86_ops -> slot_enable_log_dirty = NULL ; kvm_x86_ops -> slot_disable_log_dirty = NULL ; kvm_x86_ops -> flush_log_dirty = NULL ; kvm_x86_ops -> enable_log_dirty_pt_masked = NULL ; } kvm_set_posted_intr_wakeup_handler ( wakeup_handler ) ; return alloc_kvm_area ( ) ; out8 : free_page ( ( unsigned long ) vmx_vmwrite_bitmap ) ; out7 : free_page ( ( unsigned long ) vmx_vmread_bitmap ) ; out6 : if ( nested ) free_page ( ( unsigned long ) vmx_msr_bitmap_nested ) ; out5 : free_page ( ( unsigned long ) vmx_msr_bitmap_longmode_x2apic ) ; out4 : free_page ( ( unsigned long ) vmx_msr_bitmap_longmode ) ; out3 : free_page ( ( unsigned long ) vmx_msr_bitmap_legacy_x2apic ) ; out2 : free_page ( ( unsigned long ) vmx_msr_bitmap_legacy ) ; out1 : free_page ( ( unsigned long ) vmx_io_bitmap_b ) ; out : free_page ( ( unsigned long ) vmx_io_bitmap_a ) ; return r ; }" 653,"CWE-436 case BGP_ATTR_ORIGIN : ret = bgp_attr_origin ( & attr_args ) ; break ; case BGP_ATTR_AS_PATH : ret = bgp_attr_aspath ( & attr_args ) ; break ; case BGP_ATTR_AS4_PATH : ret = bgp_attr_as4_path ( & attr_args , & as4_path ) ; break ; case BGP_ATTR_NEXT_HOP : ret = bgp_attr_nexthop ( & attr_args ) ; break ; case BGP_ATTR_MULTI_EXIT_DISC : ret = bgp_attr_med ( & attr_args ) ; break ; case BGP_ATTR_LOCAL_PREF : ret = bgp_attr_local_pref ( & attr_args ) ; break ; case BGP_ATTR_ATOMIC_AGGREGATE : ret = bgp_attr_atomic ( & attr_args ) ; break ; case BGP_ATTR_AGGREGATOR : ret = bgp_attr_aggregator ( & attr_args ) ; break ; case BGP_ATTR_AS4_AGGREGATOR : ret = bgp_attr_as4_aggregator ( & attr_args , & as4_aggregator , & as4_aggregator_addr ) ; break ; case BGP_ATTR_COMMUNITIES : ret = bgp_attr_community ( & attr_args ) ; break ; case BGP_ATTR_LARGE_COMMUNITIES : ret = bgp_attr_large_community ( & attr_args ) ; break ; case BGP_ATTR_ORIGINATOR_ID : ret = bgp_attr_originator_id ( & attr_args ) ; break ; case BGP_ATTR_CLUSTER_LIST : ret = bgp_attr_cluster_list ( & attr_args ) ; break ; case BGP_ATTR_MP_REACH_NLRI : ret = bgp_mp_reach_parse ( & attr_args , mp_update ) ; break ; case BGP_ATTR_MP_UNREACH_NLRI : ret = bgp_mp_unreach_parse ( & attr_args , mp_withdraw ) ; break ; case BGP_ATTR_EXT_COMMUNITIES : ret = bgp_attr_ext_communities ( & attr_args ) ; break ; # if ENABLE_BGP_VNC case BGP_ATTR_VNC : # endif case BGP_ATTR_ENCAP : ret = bgp_attr_encap ( type , peer , length , attr , flag , startp ) ; break ; case BGP_ATTR_PREFIX_SID : ret = bgp_attr_prefix_sid ( length , & attr_args , mp_update ) ; break ; case BGP_ATTR_PMSI_TUNNEL : ret = bgp_attr_pmsi_tunnel ( & attr_args ) ; break ; default : ret = bgp_attr_unknown ( & attr_args ) ; break ; } if ( ret == BGP_ATTR_PARSE_ERROR_NOTIFYPLS ) { bgp_notify_send ( peer , BGP_NOTIFY_UPDATE_ERR , BGP_NOTIFY_UPDATE_MAL_ATTR ) ; ret = BGP_ATTR_PARSE_ERROR ; } if ( ret == BGP_ATTR_PARSE_EOR ) { if ( as4_path ) aspath_unintern ( & as4_path ) ; return ret ; } if ( ret == BGP_ATTR_PARSE_ERROR ) { flog_warn ( EC_BGP_ATTRIBUTE_PARSE_ERROR , ""%s: Attribute %s, parse error"" , peer -> host , lookup_msg ( attr_str , type , NULL ) ) ; if ( as4_path ) aspath_unintern ( & as4_path ) ; return ret ; } if ( ret == BGP_ATTR_PARSE_WITHDRAW ) { flog_warn ( EC_BGP_ATTRIBUTE_PARSE_WITHDRAW , ""%s: Attribute %s, parse error - treating as withdrawal"" , peer -> host , lookup_msg ( attr_str , type , NULL ) ) ; if ( as4_path ) aspath_unintern ( & as4_path ) ; return ret ; } if ( BGP_INPUT_PNT ( peer ) != attr_endp ) { flog_warn ( EC_BGP_ATTRIBUTE_FETCH_ERROR , ""%s: BGP attribute %s, fetch error"" , peer -> host , lookup_msg ( attr_str , type , NULL ) ) ; bgp_notify_send ( peer , BGP_NOTIFY_UPDATE_ERR , BGP_NOTIFY_UPDATE_ATTR_LENG_ERR ) ;","case BGP_ATTR_ORIGIN : ret = bgp_attr_origin ( & attr_args ) ; break ; case BGP_ATTR_AS_PATH : ret = bgp_attr_aspath ( & attr_args ) ; break ; case BGP_ATTR_AS4_PATH : ret = bgp_attr_as4_path ( & attr_args , & as4_path ) ; break ; case BGP_ATTR_NEXT_HOP : ret = bgp_attr_nexthop ( & attr_args ) ; break ; case BGP_ATTR_MULTI_EXIT_DISC : ret = bgp_attr_med ( & attr_args ) ; break ; case BGP_ATTR_LOCAL_PREF : ret = bgp_attr_local_pref ( & attr_args ) ; break ; case BGP_ATTR_ATOMIC_AGGREGATE : ret = bgp_attr_atomic ( & attr_args ) ; break ; case BGP_ATTR_AGGREGATOR : ret = bgp_attr_aggregator ( & attr_args ) ; break ; case BGP_ATTR_AS4_AGGREGATOR : ret = bgp_attr_as4_aggregator ( & attr_args , & as4_aggregator , & as4_aggregator_addr ) ; break ; case BGP_ATTR_COMMUNITIES : ret = bgp_attr_community ( & attr_args ) ; break ; case BGP_ATTR_LARGE_COMMUNITIES : ret = bgp_attr_large_community ( & attr_args ) ; break ; case BGP_ATTR_ORIGINATOR_ID : ret = bgp_attr_originator_id ( & attr_args ) ; break ; case BGP_ATTR_CLUSTER_LIST : ret = bgp_attr_cluster_list ( & attr_args ) ; break ; case BGP_ATTR_MP_REACH_NLRI : ret = bgp_mp_reach_parse ( & attr_args , mp_update ) ; break ; case BGP_ATTR_MP_UNREACH_NLRI : ret = bgp_mp_unreach_parse ( & attr_args , mp_withdraw ) ; break ; case BGP_ATTR_EXT_COMMUNITIES : ret = bgp_attr_ext_communities ( & attr_args ) ; break ; # if ENABLE_BGP_VNC_ATTR case BGP_ATTR_VNC : # endif case BGP_ATTR_ENCAP : ret = bgp_attr_encap ( type , peer , length , attr , flag , startp ) ; break ; case BGP_ATTR_PREFIX_SID : ret = bgp_attr_prefix_sid ( length , & attr_args , mp_update ) ; break ; case BGP_ATTR_PMSI_TUNNEL : ret = bgp_attr_pmsi_tunnel ( & attr_args ) ; break ; default : ret = bgp_attr_unknown ( & attr_args ) ; break ; } if ( ret == BGP_ATTR_PARSE_ERROR_NOTIFYPLS ) { bgp_notify_send ( peer , BGP_NOTIFY_UPDATE_ERR , BGP_NOTIFY_UPDATE_MAL_ATTR ) ; ret = BGP_ATTR_PARSE_ERROR ; } if ( ret == BGP_ATTR_PARSE_EOR ) { if ( as4_path ) aspath_unintern ( & as4_path ) ; return ret ; } if ( ret == BGP_ATTR_PARSE_ERROR ) { flog_warn ( EC_BGP_ATTRIBUTE_PARSE_ERROR , ""%s: Attribute %s, parse error"" , peer -> host , lookup_msg ( attr_str , type , NULL ) ) ; if ( as4_path ) aspath_unintern ( & as4_path ) ; return ret ; } if ( ret == BGP_ATTR_PARSE_WITHDRAW ) { flog_warn ( EC_BGP_ATTRIBUTE_PARSE_WITHDRAW , ""%s: Attribute %s, parse error - treating as withdrawal"" , peer -> host , lookup_msg ( attr_str , type , NULL ) ) ; if ( as4_path ) aspath_unintern ( & as4_path ) ; return ret ; } if ( BGP_INPUT_PNT ( peer ) != attr_endp ) { flog_warn ( EC_BGP_ATTRIBUTE_FETCH_ERROR , ""%s: BGP attribute %s, fetch error"" , peer -> host , lookup_msg ( attr_str , type , NULL ) ) ; bgp_notify_send ( peer , BGP_NOTIFY_UPDATE_ERR , BGP_NOTIFY_UPDATE_ATTR_LENG_ERR ) ;" 654,"CWE-119 ""invalid ASN.1 object length: %"" SC_FORMAT_LEN_SIZE_T ""u\\n"" , objlen ) ; r = SC_ERROR_INVALID_ASN1_OBJECT ; } else * ( ( int * ) parm ) = obj [ 0 ] ? 1 : 0 ; } break ; case SC_ASN1_INTEGER : case SC_ASN1_ENUMERATED : if ( parm != NULL ) { r = sc_asn1_decode_integer ( obj , objlen , ( int * ) entry -> parm ) ; sc_debug ( ctx , SC_LOG_DEBUG_ASN1 , ""%*.*sdecoding \'%s\' returned %d\\n"" , depth , depth , """" , entry -> name , * ( ( int * ) entry -> parm ) ) ; } break ; case SC_ASN1_BIT_STRING_NI : case SC_ASN1_BIT_STRING : if ( parm != NULL ) { int invert = entry -> type == SC_ASN1_BIT_STRING ? 1 : 0 ; assert ( len != NULL ) ; if ( objlen < 1 ) { r = SC_ERROR_INVALID_ASN1_OBJECT ; break ; } if ( entry -> flags & SC_ASN1_ALLOC ) { u8 * * buf = ( u8 * * ) parm ; * buf = malloc ( objlen - 1 ) ; if ( * buf == NULL ) { r = SC_ERROR_OUT_OF_MEMORY ; break ; } * len = objlen - 1 ; parm = * buf ; } r = decode_bit_string ( obj , objlen , ( u8 * ) parm , * len , invert ) ; if ( r >= 0 ) { * len = r ; r = 0 ; } } break ; case SC_ASN1_BIT_FIELD : if ( parm != NULL ) r = decode_bit_field ( obj , objlen , ( u8 * ) parm , * len ) ; break ; case SC_ASN1_OCTET_STRING : if ( parm != NULL ) { size_t c ; assert ( len != NULL ) ; if ( ( entry -> flags & SC_ASN1_UNSIGNED ) && obj [ 0 ] == 0x00 && objlen > 1 ) { objlen -- ; obj ++ ; } if ( entry -> flags & SC_ASN1_ALLOC ) { u8 * * buf = ( u8 * * ) parm ; * buf = malloc ( objlen ) ; if ( * buf == NULL ) { r = SC_ERROR_OUT_OF_MEMORY ; break ; } c = * len = objlen ; parm = * buf ; } else c = objlen > * len ? * len : objlen ; memcpy ( parm , obj , c ) ; * len = c ; } break ; case SC_ASN1_GENERALIZEDTIME : if ( parm != NULL ) { size_t c ; assert ( len != NULL ) ; if ( entry -> flags & SC_ASN1_ALLOC ) { u8 * * buf = ( u8 * * ) parm ; * buf = malloc ( objlen ) ; if ( * buf == NULL ) { r = SC_ERROR_OUT_OF_MEMORY ; break ; } c = * len = objlen ; parm = * buf ; } else c = objlen > * len ? * len : objlen ; memcpy ( parm , obj , c ) ; * len = c ; } break ; case SC_ASN1_OBJECT : if ( parm != NULL ) r = sc_asn1_decode_object_id ( obj , objlen , ( struct sc_object_id * ) parm ) ; break ; case SC_ASN1_PRINTABLESTRING : case SC_ASN1_UTF8STRING : if ( parm != NULL ) { assert ( len != NULL ) ; if ( entry -> flags & SC_ASN1_ALLOC ) { u8 * * buf = ( u8 * * ) parm ; * buf = malloc ( objlen + 1 ) ; if ( * buf == NULL ) { r = SC_ERROR_OUT_OF_MEMORY ;","""invalid ASN.1 object length: %"" SC_FORMAT_LEN_SIZE_T ""u\\n"" , objlen ) ; r = SC_ERROR_INVALID_ASN1_OBJECT ; } else * ( ( int * ) parm ) = obj [ 0 ] ? 1 : 0 ; } break ; case SC_ASN1_INTEGER : case SC_ASN1_ENUMERATED : if ( parm != NULL ) { r = sc_asn1_decode_integer ( obj , objlen , ( int * ) entry -> parm ) ; sc_debug ( ctx , SC_LOG_DEBUG_ASN1 , ""%*.*sdecoding \'%s\' returned %d\\n"" , depth , depth , """" , entry -> name , * ( ( int * ) entry -> parm ) ) ; } break ; case SC_ASN1_BIT_STRING_NI : case SC_ASN1_BIT_STRING : if ( parm != NULL ) { int invert = entry -> type == SC_ASN1_BIT_STRING ? 1 : 0 ; assert ( len != NULL ) ; if ( objlen < 1 ) { r = SC_ERROR_INVALID_ASN1_OBJECT ; break ; } if ( entry -> flags & SC_ASN1_ALLOC ) { u8 * * buf = ( u8 * * ) parm ; * buf = malloc ( objlen - 1 ) ; if ( * buf == NULL ) { r = SC_ERROR_OUT_OF_MEMORY ; break ; } * len = objlen - 1 ; parm = * buf ; } r = decode_bit_string ( obj , objlen , ( u8 * ) parm , * len , invert ) ; if ( r >= 0 ) { * len = r ; r = 0 ; } } break ; case SC_ASN1_BIT_FIELD : if ( parm != NULL ) r = decode_bit_field ( obj , objlen , ( u8 * ) parm , * len ) ; break ; case SC_ASN1_OCTET_STRING : if ( parm != NULL ) { size_t c ; assert ( len != NULL ) ; if ( ( entry -> flags & SC_ASN1_UNSIGNED ) && objlen > 1 && obj [ 0 ] == 0x00 ) { objlen -- ; obj ++ ; } if ( entry -> flags & SC_ASN1_ALLOC ) { u8 * * buf = ( u8 * * ) parm ; * buf = malloc ( objlen ) ; if ( * buf == NULL ) { r = SC_ERROR_OUT_OF_MEMORY ; break ; } c = * len = objlen ; parm = * buf ; } else c = objlen > * len ? * len : objlen ; memcpy ( parm , obj , c ) ; * len = c ; } break ; case SC_ASN1_GENERALIZEDTIME : if ( parm != NULL ) { size_t c ; assert ( len != NULL ) ; if ( entry -> flags & SC_ASN1_ALLOC ) { u8 * * buf = ( u8 * * ) parm ; * buf = malloc ( objlen ) ; if ( * buf == NULL ) { r = SC_ERROR_OUT_OF_MEMORY ; break ; } c = * len = objlen ; parm = * buf ; } else c = objlen > * len ? * len : objlen ; memcpy ( parm , obj , c ) ; * len = c ; } break ; case SC_ASN1_OBJECT : if ( parm != NULL ) r = sc_asn1_decode_object_id ( obj , objlen , ( struct sc_object_id * ) parm ) ; break ; case SC_ASN1_PRINTABLESTRING : case SC_ASN1_UTF8STRING : if ( parm != NULL ) { assert ( len != NULL ) ; if ( entry -> flags & SC_ASN1_ALLOC ) { u8 * * buf = ( u8 * * ) parm ; * buf = malloc ( objlen + 1 ) ; if ( * buf == NULL ) { r = SC_ERROR_OUT_OF_MEMORY ;" 655,"CWE-119 struct lookahead_ctx * vp9_lookahead_init ( unsigned int width , unsigned int height , unsigned int subsampling_x , unsigned int subsampling_y , unsigned int depth ) { struct lookahead_ctx * ctx = NULL ; depth = clamp ( depth , 1 , MAX_LAG_BUFFERS ) ; depth += MAX_PRE_FRAMES ; ctx = calloc ( 1 , sizeof ( * ctx ) ) ; if ( ctx ) { unsigned int i ; ctx -> max_sz = depth ; ctx -> buf = calloc ( depth , sizeof ( * ctx -> buf ) ) ; if ( ! ctx -> buf ) goto bail ; for ( i = 0 ; i < depth ; i ++ ) if ( vp9_alloc_frame_buffer ( & ctx -> buf [ i ] . img , width , height , subsampling_x , subsampling_y , VP9_ENC_BORDER_IN_PIXELS ) ) goto bail ; } return ctx ; bail : vp9_lookahead_destroy ( ctx ) ; return NULL ; }","struct lookahead_ctx * vp9_lookahead_init ( unsigned int width , unsigned int height , unsigned int subsampling_x , unsigned int subsampling_y , # if CONFIG_VP9_HIGHBITDEPTH int use_highbitdepth , # endif unsigned int depth ) { struct lookahead_ctx * ctx = NULL ; depth = clamp ( depth , 1 , MAX_LAG_BUFFERS ) ; depth += MAX_PRE_FRAMES ; ctx = calloc ( 1 , sizeof ( * ctx ) ) ; if ( ctx ) { const int legacy_byte_alignment = 0 ; unsigned int i ; ctx -> max_sz = depth ; ctx -> buf = calloc ( depth , sizeof ( * ctx -> buf ) ) ; if ( ! ctx -> buf ) goto bail ; for ( i = 0 ; i < depth ; i ++ ) if ( vpx_alloc_frame_buffer ( & ctx -> buf [ i ] . img , width , height , subsampling_x , subsampling_y , # if CONFIG_VP9_HIGHBITDEPTH use_highbitdepth , # endif VP9_ENC_BORDER_IN_PIXELS , legacy_byte_alignment ) ) goto bail ; } return ctx ; bail : vp9_lookahead_destroy ( ctx ) ; return NULL ; }" 656,"CWE-120 void irc_server_set_prefix_modes_chars ( struct t_irc_server * server , const char * prefix ) { char * pos ; int i , length_modes , length_chars ; if ( ! server || ! prefix ) return ; if ( server -> prefix_modes ) { free ( server -> prefix_modes ) ; server -> prefix_modes = NULL ; } if ( server -> prefix_chars ) { free ( server -> prefix_chars ) ; server -> prefix_chars = NULL ; } pos = strchr ( prefix , ')' ) ; if ( pos ) { server -> prefix_modes = weechat_strndup ( prefix + 1 , pos - prefix - 1 ) ; if ( server -> prefix_modes ) { pos ++ ; length_modes = strlen ( server -> prefix_modes ) ; length_chars = strlen ( pos ) ; server -> prefix_chars = malloc ( length_modes + 1 ) ; if ( server -> prefix_chars ) { for ( i = 0 ; i < length_modes ; i ++ ) { server -> prefix_chars [ i ] = ( i < length_chars ) ? pos [ i ] : ' ' ; } server -> prefix_chars [ length_modes ] = '\\0' ; } else { free ( server -> prefix_modes ) ; server -> prefix_modes = NULL ; } } } }","void irc_server_set_prefix_modes_chars ( struct t_irc_server * server , const char * prefix ) { char * pos ; int i , old_length_chars , length_modes , length_chars ; if ( ! server || ! prefix ) return ; old_length_chars = ( server -> prefix_chars ) ? strlen ( server -> prefix_chars ) : 0 ; if ( server -> prefix_modes ) { free ( server -> prefix_modes ) ; server -> prefix_modes = NULL ; } if ( server -> prefix_chars ) { free ( server -> prefix_chars ) ; server -> prefix_chars = NULL ; } pos = strchr ( prefix , ')' ) ; if ( pos ) { server -> prefix_modes = weechat_strndup ( prefix + 1 , pos - prefix - 1 ) ; if ( server -> prefix_modes ) { pos ++ ; length_modes = strlen ( server -> prefix_modes ) ; length_chars = strlen ( pos ) ; server -> prefix_chars = malloc ( length_modes + 1 ) ; if ( server -> prefix_chars ) { for ( i = 0 ; i < length_modes ; i ++ ) { server -> prefix_chars [ i ] = ( i < length_chars ) ? pos [ i ] : ' ' ; } server -> prefix_chars [ length_modes ] = '\\0' ; } else { free ( server -> prefix_modes ) ; server -> prefix_modes = NULL ; } } } length_chars = ( server -> prefix_chars ) ? strlen ( server -> prefix_chars ) : 0 ; if ( server -> prefix_chars && ( length_chars != old_length_chars ) ) irc_nick_realloc_prefixes ( server , old_length_chars , length_chars ) ; }" 657,"CWE-119 bool_t xdr_nullstring ( XDR * xdrs , char * * objp ) { u_int size ; if ( xdrs -> x_op == XDR_ENCODE ) { if ( * objp == NULL ) size = 0 ; else size = strlen ( * objp ) + 1 ; } if ( ! xdr_u_int ( xdrs , & size ) ) { return FALSE ; } switch ( xdrs -> x_op ) { case XDR_DECODE : if ( size == 0 ) { * objp = NULL ; return TRUE ; } else if ( * objp == NULL ) { * objp = ( char * ) mem_alloc ( size ) ; if ( * objp == NULL ) { errno = ENOMEM ; return FALSE ; } } return ( xdr_opaque ( xdrs , * objp , size ) ) ; case XDR_ENCODE : if ( size != 0 ) return ( xdr_opaque ( xdrs , * objp , size ) ) ; return TRUE ; case XDR_FREE : if ( * objp != NULL ) mem_free ( * objp , size ) ; * objp = NULL ; return TRUE ; } return FALSE ; }","bool_t xdr_nullstring ( XDR * xdrs , char * * objp ) { u_int size ; if ( xdrs -> x_op == XDR_ENCODE ) { if ( * objp == NULL ) size = 0 ; else size = strlen ( * objp ) + 1 ; } if ( ! xdr_u_int ( xdrs , & size ) ) { return FALSE ; } switch ( xdrs -> x_op ) { case XDR_DECODE : if ( size == 0 ) { * objp = NULL ; return TRUE ; } else if ( * objp == NULL ) { * objp = ( char * ) mem_alloc ( size ) ; if ( * objp == NULL ) { errno = ENOMEM ; return FALSE ; } } if ( ! xdr_opaque ( xdrs , * objp , size ) ) return FALSE ; if ( ( * objp ) [ size - 1 ] != '\\0' ) return FALSE ; if ( memchr ( * objp , '\\0' , size - 1 ) != NULL ) return FALSE ; return TRUE ; case XDR_ENCODE : if ( size != 0 ) return ( xdr_opaque ( xdrs , * objp , size ) ) ; return TRUE ; case XDR_FREE : if ( * objp != NULL ) mem_free ( * objp , size ) ; * objp = NULL ; return TRUE ; } return FALSE ; }" 658,"CWE-119 l_int32 gplotMakeOutput ( GPLOT * gplot ) { char buf [ L_BUF_SIZE ] ; char * cmdname ; l_int32 ignore ; PROCNAME ( ""gplotMakeOutput"" ) ; if ( ! gplot ) return ERROR_INT ( ""gplot not defined"" , procName , 1 ) ; gplotGenCommandFile ( gplot ) ; gplotGenDataFiles ( gplot ) ; cmdname = genPathname ( gplot -> cmdname , NULL ) ; # ifndef _WIN32 snprintf ( buf , L_BUF_SIZE , ""gnuplot %s"" , cmdname ) ; # else snprintf ( buf , L_BUF_SIZE , ""wgnuplot %s"" , cmdname ) ; # endif # ifndef OS_IOS ignore = system ( buf ) ; # endif LEPT_FREE ( cmdname ) ; return 0 ; }","l_int32 gplotMakeOutput ( GPLOT * gplot ) { char buf [ L_BUFSIZE ] ; char * cmdname ; l_int32 ignore ; PROCNAME ( ""gplotMakeOutput"" ) ; if ( ! gplot ) return ERROR_INT ( ""gplot not defined"" , procName , 1 ) ; gplotGenCommandFile ( gplot ) ; gplotGenDataFiles ( gplot ) ; cmdname = genPathname ( gplot -> cmdname , NULL ) ; # ifndef _WIN32 snprintf ( buf , L_BUFSIZE , ""gnuplot %s"" , cmdname ) ; # else snprintf ( buf , L_BUFSIZE , ""wgnuplot %s"" , cmdname ) ; # endif # ifndef OS_IOS ignore = system ( buf ) ; # endif LEPT_FREE ( cmdname ) ; return 0 ; }" 659,"nan static uint16_t http_splitline ( struct worker * w , int fd , struct http * hp , const struct http_conn * htc , int h1 , int h2 , int h3 ) { char * p , * q ; CHECK_OBJ_NOTNULL ( htc , HTTP_CONN_MAGIC ) ; CHECK_OBJ_NOTNULL ( hp , HTTP_MAGIC ) ; Tcheck ( htc -> rxbuf ) ; for ( p = htc -> rxbuf . b ; vct_islws ( * p ) ; p ++ ) continue ; q = p ; for ( ; ! vct_issp ( * p ) ; p ++ ) { if ( vct_isctl ( * p ) ) return ( 400 ) ; } hp -> hd [ h1 ] . b = q ; hp -> hd [ h1 ] . e = p ; for ( ; vct_issp ( * p ) ; p ++ ) { if ( vct_isctl ( * p ) ) return ( 400 ) ; } q = p ; for ( ; ! vct_islws ( * p ) ; p ++ ) { if ( vct_isctl ( * p ) ) return ( 400 ) ; } hp -> hd [ h2 ] . b = q ; hp -> hd [ h2 ] . e = p ; if ( ! Tlen ( hp -> hd [ h2 ] ) ) return ( 400 ) ; for ( ; vct_issp ( * p ) ; p ++ ) { if ( vct_isctl ( * p ) ) return ( 400 ) ; } q = p ; if ( ! vct_iscrlf ( * p ) ) { for ( ; ! vct_iscrlf ( * p ) ; p ++ ) if ( ! vct_issep ( * p ) && vct_isctl ( * p ) ) return ( 400 ) ; } hp -> hd [ h3 ] . b = q ; hp -> hd [ h3 ] . e = p ; p += vct_skipcrlf ( p ) ; * hp -> hd [ h1 ] . e = '\\0' ; WSLH ( w , fd , hp , h1 ) ; * hp -> hd [ h2 ] . e = '\\0' ; WSLH ( w , fd , hp , h2 ) ; if ( hp -> hd [ h3 ] . e != NULL ) { * hp -> hd [ h3 ] . e = '\\0' ; WSLH ( w , fd , hp , h3 ) ; } return ( http_dissect_hdrs ( w , hp , fd , p , htc ) ) ; }","static uint16_t http_splitline ( struct worker * w , int fd , struct http * hp , const struct http_conn * htc , int h1 , int h2 , int h3 ) { char * p , * q ; CHECK_OBJ_NOTNULL ( htc , HTTP_CONN_MAGIC ) ; CHECK_OBJ_NOTNULL ( hp , HTTP_MAGIC ) ; Tcheck ( htc -> rxbuf ) ; for ( p = htc -> rxbuf . b ; vct_islws ( * p ) ; p ++ ) continue ; q = p ; for ( ; ! vct_issp ( * p ) ; p ++ ) { if ( vct_isctl ( * p ) ) return ( 400 ) ; } hp -> hd [ h1 ] . b = q ; hp -> hd [ h1 ] . e = p ; for ( ; vct_issp ( * p ) ; p ++ ) { if ( vct_isctl ( * p ) ) return ( 400 ) ; } q = p ; for ( ; ! vct_islws ( * p ) ; p ++ ) { if ( vct_isctl ( * p ) ) return ( 400 ) ; } hp -> hd [ h2 ] . b = q ; hp -> hd [ h2 ] . e = p ; if ( ! Tlen ( hp -> hd [ h2 ] ) ) return ( 400 ) ; for ( ; vct_issp ( * p ) ; p ++ ) { if ( vct_isctl ( * p ) ) return ( 400 ) ; } q = p ; if ( ! vct_iscrlf ( p ) ) { for ( ; ! vct_iscrlf ( p ) ; p ++ ) if ( ! vct_issep ( * p ) && vct_isctl ( * p ) ) return ( 400 ) ; } hp -> hd [ h3 ] . b = q ; hp -> hd [ h3 ] . e = p ; p += vct_skipcrlf ( p ) ; * hp -> hd [ h1 ] . e = '\\0' ; WSLH ( w , fd , hp , h1 ) ; * hp -> hd [ h2 ] . e = '\\0' ; WSLH ( w , fd , hp , h2 ) ; if ( hp -> hd [ h3 ] . e != NULL ) { * hp -> hd [ h3 ] . e = '\\0' ; WSLH ( w , fd , hp , h3 ) ; } return ( http_dissect_hdrs ( w , hp , fd , p , htc ) ) ; }" 660,"CWE-119 static void temporal_filter_iterate_c ( VP9_COMP * cpi , int frame_count , int alt_ref_index , int strength , struct scale_factors * scale ) { int byte ; int frame ; int mb_col , mb_row ; unsigned int filter_weight ; int mb_cols = cpi -> common . mb_cols ; int mb_rows = cpi -> common . mb_rows ; int mb_y_offset = 0 ; int mb_uv_offset = 0 ; DECLARE_ALIGNED_ARRAY ( 16 , unsigned int , accumulator , 16 * 16 * 3 ) ; DECLARE_ALIGNED_ARRAY ( 16 , uint16_t , count , 16 * 16 * 3 ) ; MACROBLOCKD * mbd = & cpi -> mb . e_mbd ; YV12_BUFFER_CONFIG * f = cpi -> frames [ alt_ref_index ] ; uint8_t * dst1 , * dst2 ; DECLARE_ALIGNED_ARRAY ( 16 , uint8_t , predictor , 16 * 16 * 3 ) ; const int mb_uv_height = 16 >> mbd -> plane [ 1 ] . subsampling_y ; uint8_t * input_buffer [ MAX_MB_PLANE ] ; int i ; assert ( mbd -> plane [ 1 ] . subsampling_x == mbd -> plane [ 1 ] . subsampling_y ) ; for ( i = 0 ; i < MAX_MB_PLANE ; i ++ ) input_buffer [ i ] = mbd -> plane [ i ] . pre [ 0 ] . buf ; for ( mb_row = 0 ; mb_row < mb_rows ; mb_row ++ ) { # if ALT_REF_MC_ENABLED cpi -> mb . mv_row_min = - ( ( mb_row * 16 ) + ( 17 - 2 * VP9_INTERP_EXTEND ) ) ; cpi -> mb . mv_row_max = ( ( cpi -> common . mb_rows - 1 - mb_row ) * 16 ) # endif for ( mb_col = 0 ; mb_col < mb_cols ; mb_col ++ ) { int i , j , k ; int stride ; vpx_memset ( accumulator , 0 , 16 * 16 * 3 * sizeof ( accumulator [ 0 ] ) ) ; vpx_memset ( count , 0 , 16 * 16 * 3 * sizeof ( count [ 0 ] ) ) ; # if ALT_REF_MC_ENABLED cpi -> mb . mv_col_min = - ( ( mb_col * 16 ) + ( 17 - 2 * VP9_INTERP_EXTEND ) ) ; cpi -> mb . mv_col_max = ( ( cpi -> common . mb_cols - 1 - mb_col ) * 16 ) # endif for ( frame = 0 ; frame < frame_count ; frame ++ ) { if ( cpi -> frames [ frame ] == NULL ) continue ; mbd -> mi [ 0 ] -> bmi [ 0 ] . as_mv [ 0 ] . as_mv . row = 0 ; mbd -> mi [ 0 ] -> bmi [ 0 ] . as_mv [ 0 ] . as_mv . col = 0 ; if ( frame == alt_ref_index ) { filter_weight = 2 ; } else { int err = 0 ; # if ALT_REF_MC_ENABLED # define THRESH_LOW 10000 # define THRESH_HIGH 20000 err = temporal_filter_find_matching_mb_c ( cpi , cpi -> frames [ alt_ref_index ] -> y_buffer + mb_y_offset , cpi -> frames [ frame ] -> y_buffer + mb_y_offset , cpi -> frames [ frame ] -> y_stride ) ; # endif filter_weight = err < THRESH_LOW ? 2 : err < THRESH_HIGH ? 1 : 0 ; } if ( filter_weight != 0 ) { temporal_filter_predictors_mb_c ( mbd , cpi -> frames [ frame ] -> y_buffer + mb_y_offset , cpi -> frames [ frame ] -> u_buffer + mb_uv_offset , cpi -> frames [ frame ] -> v_buffer + mb_uv_offset , cpi -> frames [ frame ] -> y_stride , mb_uv_height , mbd -> mi [ 0 ] -> bmi [ 0 ] . as_mv [ 0 ] . as_mv . row , mbd -> mi [ 0 ] -> bmi [ 0 ] . as_mv [ 0 ] . as_mv . col , predictor , scale , mb_col * 16 , mb_row * 16 ) ; vp9_temporal_filter_apply ( f -> y_buffer + mb_y_offset , f -> y_stride , predictor , 16 , strength , filter_weight , accumulator , count ) ; vp9_temporal_filter_apply ( f -> u_buffer + mb_uv_offset , f -> uv_stride , predictor + 256 , mb_uv_height , strength , filter_weight , accumulator + 256 , count + 256 ) ; vp9_temporal_filter_apply ( f -> v_buffer + mb_uv_offset , f -> uv_stride , predictor + 512 , mb_uv_height , strength , filter_weight , accumulator + 512 , count + 512 ) ; } } dst1 = cpi -> alt_ref_buffer . y_buffer ; stride = cpi -> alt_ref_buffer . y_stride ; byte = mb_y_offset ; for ( i = 0 , k = 0 ; i < 16 ; i ++ ) { for ( j = 0 ; j < 16 ; j ++ , k ++ ) { unsigned int pval = accumulator [ k ] + ( count [ k ] >> 1 ) ; pval *= cpi -> fixed_divide [ count [ k ] ] ; pval >>= 19 ; dst1 [ byte ] = ( uint8_t ) pval ; byte ++ ; } byte += stride - 16 ; } dst1 = cpi -> alt_ref_buffer . u_buffer ; dst2 = cpi -> alt_ref_buffer . v_buffer ; stride = cpi -> alt_ref_buffer . uv_stride ; byte = mb_uv_offset ; for ( i = 0 , k = 256 ; i < mb_uv_height ; i ++ ) { for ( j = 0 ; j < mb_uv_height ; j ++ , k ++ ) { int m = k + 256 ; unsigned int pval = accumulator [ k ] + ( count [ k ] >> 1 ) ; pval *= cpi -> fixed_divide [ count [ k ] ] ; pval >>= 19 ; dst1 [ byte ] = ( uint8_t ) pval ; pval = accumulator [ m ] + ( count [ m ] >> 1 ) ; pval *= cpi -> fixed_divide [ count [ m ] ] ; pval >>= 19 ; dst2 [ byte ] = ( uint8_t ) pval ; byte ++ ; } byte += stride - mb_uv_height ; } mb_y_offset += 16 ; mb_uv_offset += mb_uv_height ; } mb_y_offset += 16 * ( f -> y_stride - mb_cols ) ; mb_uv_offset += mb_uv_height * ( f -> uv_stride - mb_cols ) ; } for ( i = 0 ; i < MAX_MB_PLANE ; i ++ ) mbd -> plane [ i ] . pre [ 0 ] . buf = input_buffer [ i ] ; }","static void temporal_filter_iterate_c ( VP9_COMP * cpi , YV12_BUFFER_CONFIG * * frames , int frame_count , int alt_ref_index , int strength , struct scale_factors * scale ) { int byte ; int frame ; int mb_col , mb_row ; unsigned int filter_weight ; int mb_cols = ( frames [ alt_ref_index ] -> y_crop_width + 15 ) >> 4 ; int mb_rows = ( frames [ alt_ref_index ] -> y_crop_height + 15 ) >> 4 ; int mb_y_offset = 0 ; int mb_uv_offset = 0 ; DECLARE_ALIGNED ( 16 , unsigned int , accumulator [ 16 * 16 * 3 ] ) ; DECLARE_ALIGNED ( 16 , uint16_t , count [ 16 * 16 * 3 ] ) ; MACROBLOCKD * mbd = & cpi -> td . mb . e_mbd ; YV12_BUFFER_CONFIG * f = frames [ alt_ref_index ] ; uint8_t * dst1 , * dst2 ; # if CONFIG_VP9_HIGHBITDEPTH DECLARE_ALIGNED ( 16 , uint16_t , predictor16 [ 16 * 16 * 3 ] ) ; DECLARE_ALIGNED ( 16 , uint8_t , predictor8 [ 16 * 16 * 3 ] ) ; uint8_t * predictor ; # else DECLARE_ALIGNED ( 16 , uint8_t , predictor [ 16 * 16 * 3 ] ) ; # endif const int mb_uv_height = 16 >> mbd -> plane [ 1 ] . subsampling_y ; const int mb_uv_width = 16 >> mbd -> plane [ 1 ] . subsampling_x ; uint8_t * input_buffer [ MAX_MB_PLANE ] ; int i ; # if CONFIG_VP9_HIGHBITDEPTH if ( mbd -> cur_buf -> flags & YV12_FLAG_HIGHBITDEPTH ) { predictor = CONVERT_TO_BYTEPTR ( predictor16 ) ; } else { predictor = predictor8 ; } # endif for ( i = 0 ; i < MAX_MB_PLANE ; i ++ ) input_buffer [ i ] = mbd -> plane [ i ] . pre [ 0 ] . buf ; for ( mb_row = 0 ; mb_row < mb_rows ; mb_row ++ ) { cpi -> td . mb . mv_row_min = - ( ( mb_row * 16 ) + ( 17 - 2 * VP9_INTERP_EXTEND ) ) ; cpi -> td . mb . mv_row_max = ( ( mb_rows - 1 - mb_row ) * 16 ) ( 17 - 2 * VP9_INTERP_EXTEND ) ; for ( mb_col = 0 ; mb_col < mb_cols ; mb_col ++ ) { int i , j , k ; int stride ; memset ( accumulator , 0 , 16 * 16 * 3 * sizeof ( accumulator [ 0 ] ) ) ; memset ( count , 0 , 16 * 16 * 3 * sizeof ( count [ 0 ] ) ) ; cpi -> td . mb . mv_col_min = - ( ( mb_col * 16 ) + ( 17 - 2 * VP9_INTERP_EXTEND ) ) ; cpi -> td . mb . mv_col_max = ( ( mb_cols - 1 - mb_col ) * 16 ) ( 17 - 2 * VP9_INTERP_EXTEND ) ; for ( frame = 0 ; frame < frame_count ; frame ++ ) { const int thresh_low = 10000 ; const int thresh_high = 20000 ; if ( frames [ frame ] == NULL ) continue ; mbd -> mi [ 0 ] -> bmi [ 0 ] . as_mv [ 0 ] . as_mv . row = 0 ; mbd -> mi [ 0 ] -> bmi [ 0 ] . as_mv [ 0 ] . as_mv . col = 0 ; if ( frame == alt_ref_index ) { filter_weight = 2 ; } else { int err = temporal_filter_find_matching_mb_c ( cpi , frames [ alt_ref_index ] -> y_buffer + mb_y_offset , frames [ frame ] -> y_buffer + mb_y_offset , frames [ frame ] -> y_stride ) ; filter_weight = err < thresh_low ? 2 : err < thresh_high ? 1 : 0 ; } if ( filter_weight != 0 ) { temporal_filter_predictors_mb_c ( mbd , frames [ frame ] -> y_buffer + mb_y_offset , frames [ frame ] -> u_buffer + mb_uv_offset , frames [ frame ] -> v_buffer + mb_uv_offset , frames [ frame ] -> y_stride , mb_uv_width , mb_uv_height , mbd -> mi [ 0 ] -> bmi [ 0 ] . as_mv [ 0 ] . as_mv . row , mbd -> mi [ 0 ] -> bmi [ 0 ] . as_mv [ 0 ] . as_mv . col , predictor , scale , mb_col * 16 , mb_row * 16 ) ; # if CONFIG_VP9_HIGHBITDEPTH if ( mbd -> cur_buf -> flags & YV12_FLAG_HIGHBITDEPTH ) { int adj_strength = strength + 2 * ( mbd -> bd - 8 ) ; vp9_highbd_temporal_filter_apply ( f -> y_buffer + mb_y_offset , f -> y_stride , predictor , 16 , 16 , adj_strength , filter_weight , accumulator , count ) ; vp9_highbd_temporal_filter_apply ( f -> u_buffer + mb_uv_offset , f -> uv_stride , predictor + 256 , mb_uv_width , mb_uv_height , adj_strength , filter_weight , accumulator + 256 , count + 256 ) ; vp9_highbd_temporal_filter_apply ( f -> v_buffer + mb_uv_offset , f -> uv_stride , predictor + 512 , mb_uv_width , mb_uv_height , adj_strength , filter_weight , accumulator + 512 , count + 512 ) ; } else { vp9_temporal_filter_apply ( f -> y_buffer + mb_y_offset , f -> y_stride , predictor , 16 , 16 , strength , filter_weight , accumulator , count ) ; vp9_temporal_filter_apply ( f -> u_buffer + mb_uv_offset , f -> uv_stride , predictor + 256 , mb_uv_width , mb_uv_height , strength , filter_weight , accumulator + 256 , count + 256 ) ; vp9_temporal_filter_apply ( f -> v_buffer + mb_uv_offset , f -> uv_stride , predictor + 512 , mb_uv_width , mb_uv_height , strength , filter_weight , accumulator + 512 , count + 512 ) ; } # else vp9_temporal_filter_apply ( f -> y_buffer + mb_y_offset , f -> y_stride , predictor , 16 , 16 , strength , filter_weight , accumulator , count ) ; vp9_temporal_filter_apply ( f -> u_buffer + mb_uv_offset , f -> uv_stride , predictor + 256 , mb_uv_width , mb_uv_height , strength , filter_weight , accumulator + 256 , count + 256 ) ; vp9_temporal_filter_apply ( f -> v_buffer + mb_uv_offset , f -> uv_stride , predictor + 512 , mb_uv_width , mb_uv_height , strength , filter_weight , accumulator + 512 , count + 512 ) ; # endif } } # if CONFIG_VP9_HIGHBITDEPTH if ( mbd -> cur_buf -> flags & YV12_FLAG_HIGHBITDEPTH ) { uint16_t * dst1_16 ; uint16_t * dst2_16 ; dst1 = cpi -> alt_ref_buffer . y_buffer ; dst1_16 = CONVERT_TO_SHORTPTR ( dst1 ) ; stride = cpi -> alt_ref_buffer . y_stride ; byte = mb_y_offset ; for ( i = 0 , k = 0 ; i < 16 ; i ++ ) { for ( j = 0 ; j < 16 ; j ++ , k ++ ) { unsigned int pval = accumulator [ k ] + ( count [ k ] >> 1 ) ; pval *= fixed_divide [ count [ k ] ] ; pval >>= 19 ; dst1_16 [ byte ] = ( uint16_t ) pval ; byte ++ ; } byte += stride - 16 ; } dst1 = cpi -> alt_ref_buffer . u_buffer ; dst2 = cpi -> alt_ref_buffer . v_buffer ; dst1_16 = CONVERT_TO_SHORTPTR ( dst1 ) ; dst2_16 = CONVERT_TO_SHORTPTR ( dst2 ) ; stride = cpi -> alt_ref_buffer . uv_stride ; byte = mb_uv_offset ; for ( i = 0 , k = 256 ; i < mb_uv_height ; i ++ ) { for ( j = 0 ; j < mb_uv_width ; j ++ , k ++ ) { int m = k + 256 ; unsigned int pval = accumulator [ k ] + ( count [ k ] >> 1 ) ; pval *= fixed_divide [ count [ k ] ] ; pval >>= 19 ; dst1_16 [ byte ] = ( uint16_t ) pval ; pval = accumulator [ m ] + ( count [ m ] >> 1 ) ; pval *= fixed_divide [ count [ m ] ] ; pval >>= 19 ; dst2_16 [ byte ] = ( uint16_t ) pval ; byte ++ ; } byte += stride - mb_uv_width ; } } else { dst1 = cpi -> alt_ref_buffer . y_buffer ; stride = cpi -> alt_ref_buffer . y_stride ; byte = mb_y_offset ; for ( i = 0 , k = 0 ; i < 16 ; i ++ ) { for ( j = 0 ; j < 16 ; j ++ , k ++ ) { unsigned int pval = accumulator [ k ] + ( count [ k ] >> 1 ) ; pval *= fixed_divide [ count [ k ] ] ; pval >>= 19 ; dst1 [ byte ] = ( uint8_t ) pval ; byte ++ ; } byte += stride - 16 ; } dst1 = cpi -> alt_ref_buffer . u_buffer ; dst2 = cpi -> alt_ref_buffer . v_buffer ; stride = cpi -> alt_ref_buffer . uv_stride ; byte = mb_uv_offset ; for ( i = 0 , k = 256 ; i < mb_uv_height ; i ++ ) { for ( j = 0 ; j < mb_uv_width ; j ++ , k ++ ) { int m = k + 256 ; unsigned int pval = accumulator [ k ] + ( count [ k ] >> 1 ) ; pval *= fixed_divide [ count [ k ] ] ; pval >>= 19 ; dst1 [ byte ] = ( uint8_t ) pval ; pval = accumulator [ m ] + ( count [ m ] >> 1 ) ; pval *= fixed_divide [ count [ m ] ] ; pval >>= 19 ; dst2 [ byte ] = ( uint8_t ) pval ; byte ++ ; } byte += stride - mb_uv_width ; } } # else dst1 = cpi -> alt_ref_buffer . y_buffer ; stride = cpi -> alt_ref_buffer . y_stride ; byte = mb_y_offset ; for ( i = 0 , k = 0 ; i < 16 ; i ++ ) { for ( j = 0 ; j < 16 ; j ++ , k ++ ) { unsigned int pval = accumulator [ k ] + ( count [ k ] >> 1 ) ; pval *= fixed_divide [ count [ k ] ] ; pval >>= 19 ; dst1 [ byte ] = ( uint8_t ) pval ; byte ++ ; } byte += stride - 16 ; } dst1 = cpi -> alt_ref_buffer . u_buffer ; dst2 = cpi -> alt_ref_buffer . v_buffer ; stride = cpi -> alt_ref_buffer . uv_stride ; byte = mb_uv_offset ; for ( i = 0 , k = 256 ; i < mb_uv_height ; i ++ ) { for ( j = 0 ; j < mb_uv_width ; j ++ , k ++ ) { int m = k + 256 ; unsigned int pval = accumulator [ k ] + ( count [ k ] >> 1 ) ; pval *= fixed_divide [ count [ k ] ] ; pval >>= 19 ; dst1 [ byte ] = ( uint8_t ) pval ; pval = accumulator [ m ] + ( count [ m ] >> 1 ) ; pval *= fixed_divide [ count [ m ] ] ; pval >>= 19 ; dst2 [ byte ] = ( uint8_t ) pval ; byte ++ ; } byte += stride - mb_uv_width ; } # endif mb_y_offset += 16 ; mb_uv_offset += mb_uv_width ; } mb_y_offset += 16 * ( f -> y_stride - mb_cols ) ; mb_uv_offset += mb_uv_height * f -> uv_stride - mb_uv_width * mb_cols ; } for ( i = 0 ; i < MAX_MB_PLANE ; i ++ ) mbd -> plane [ i ] . pre [ 0 ] . buf = input_buffer [ i ] ; }" 661,"CWE-362 int mi_repair ( MI_CHECK * param , register MI_INFO * info , char * name , int rep_quick ) { int error , got_error ; ha_rows start_records , new_header_length ; my_off_t del ; File new_file ; MYISAM_SHARE * share = info -> s ; char llbuff [ 22 ] , llbuff2 [ 22 ] ; SORT_INFO sort_info ; MI_SORT_PARAM sort_param ; DBUG_ENTER ( ""mi_repair"" ) ; bzero ( ( char * ) & sort_info , sizeof ( sort_info ) ) ; bzero ( ( char * ) & sort_param , sizeof ( sort_param ) ) ; start_records = info -> state -> records ; new_header_length = ( param -> testflag & T_UNPACK ) ? 0L : share -> pack . header_length ; got_error = 1 ; new_file = - 1 ; sort_param . sort_info = & sort_info ; if ( ! ( param -> testflag & T_SILENT ) ) { printf ( ""- recovering (with keycache) MyISAM-table \'%s\'\\n"" , name ) ; printf ( ""Data records: %s\\n"" , llstr ( info -> state -> records , llbuff ) ) ; } param -> testflag |= T_REP ; if ( info -> s -> options & ( HA_OPTION_CHECKSUM | HA_OPTION_COMPRESS_RECORD ) ) param -> testflag |= T_CALC_CHECKSUM ; DBUG_ASSERT ( param -> use_buffers < SIZE_T_MAX ) ; if ( ! param -> using_global_keycache ) ( void ) init_key_cache ( dflt_key_cache , param -> key_cache_block_size , param -> use_buffers , 0 , 0 ) ; if ( init_io_cache ( & param -> read_cache , info -> dfile , ( uint ) param -> read_buffer_length , READ_CACHE , share -> pack . header_length , 1 , MYF ( MY_WME ) ) ) { bzero ( & info -> rec_cache , sizeof ( info -> rec_cache ) ) ; goto err ; } if ( ! rep_quick ) if ( init_io_cache ( & info -> rec_cache , - 1 , ( uint ) param -> write_buffer_length , WRITE_CACHE , new_header_length , 1 , MYF ( MY_WME | MY_WAIT_IF_FULL ) ) ) goto err ; info -> opt_flag |= WRITE_CACHE_USED ; if ( ! mi_alloc_rec_buff ( info , - 1 , & sort_param . record ) || ! mi_alloc_rec_buff ( info , - 1 , & sort_param . rec_buff ) ) { mi_check_print_error ( param , ""Not enough memory for extra record"" ) ; goto err ; } if ( ! rep_quick )","int mi_repair ( MI_CHECK * param , register MI_INFO * info , char * name , int rep_quick , my_bool no_copy_stat ) { int error , got_error ; ha_rows start_records , new_header_length ; my_off_t del ; File new_file ; MYISAM_SHARE * share = info -> s ; char llbuff [ 22 ] , llbuff2 [ 22 ] ; SORT_INFO sort_info ; MI_SORT_PARAM sort_param ; DBUG_ENTER ( ""mi_repair"" ) ; bzero ( ( char * ) & sort_info , sizeof ( sort_info ) ) ; bzero ( ( char * ) & sort_param , sizeof ( sort_param ) ) ; start_records = info -> state -> records ; new_header_length = ( param -> testflag & T_UNPACK ) ? 0L : share -> pack . header_length ; got_error = 1 ; new_file = - 1 ; sort_param . sort_info = & sort_info ; if ( ! ( param -> testflag & T_SILENT ) ) { printf ( ""- recovering (with keycache) MyISAM-table \'%s\'\\n"" , name ) ; printf ( ""Data records: %s\\n"" , llstr ( info -> state -> records , llbuff ) ) ; } param -> testflag |= T_REP ; if ( info -> s -> options & ( HA_OPTION_CHECKSUM | HA_OPTION_COMPRESS_RECORD ) ) param -> testflag |= T_CALC_CHECKSUM ; DBUG_ASSERT ( param -> use_buffers < SIZE_T_MAX ) ; if ( ! param -> using_global_keycache ) ( void ) init_key_cache ( dflt_key_cache , param -> key_cache_block_size , param -> use_buffers , 0 , 0 ) ; if ( init_io_cache ( & param -> read_cache , info -> dfile , ( uint ) param -> read_buffer_length , READ_CACHE , share -> pack . header_length , 1 , MYF ( MY_WME ) ) ) { bzero ( & info -> rec_cache , sizeof ( info -> rec_cache ) ) ; goto err ; } if ( ! rep_quick ) if ( init_io_cache ( & info -> rec_cache , - 1 , ( uint ) param -> write_buffer_length , WRITE_CACHE , new_header_length , 1 , MYF ( MY_WME | MY_WAIT_IF_FULL ) ) ) goto err ; info -> opt_flag |= WRITE_CACHE_USED ; if ( ! mi_alloc_rec_buff ( info , - 1 , & sort_param . record ) || ! mi_alloc_rec_buff ( info , - 1 , & sort_param . rec_buff ) ) { mi_check_print_error ( param , ""Not enough memory for extra record"" ) ; goto err ; } if ( ! rep_quick )" 662,CWE-254 void arch_pick_mmap_layout ( struct mm_struct * mm ) { unsigned long random_factor = 0UL ; if ( current -> flags & PF_RANDOMIZE ) random_factor = arch_mmap_rnd ( ) ; mm -> mmap_legacy_base = mmap_legacy_base ( random_factor ) ; if ( mmap_is_legacy ( ) ) { mm -> mmap_base = mm -> mmap_legacy_base ; mm -> get_unmapped_area = arch_get_unmapped_area ; } else { mm -> mmap_base = mmap_base ( random_factor ) ; mm -> get_unmapped_area = arch_get_unmapped_area_topdown ; } },void arch_pick_mmap_layout ( struct mm_struct * mm ) { unsigned long random_factor = 0UL ; if ( current -> flags & PF_RANDOMIZE ) random_factor = arch_mmap_rnd ( ) ; mm -> mmap_legacy_base = TASK_UNMAPPED_BASE + random_factor ; if ( mmap_is_legacy ( ) ) { mm -> mmap_base = mm -> mmap_legacy_base ; mm -> get_unmapped_area = arch_get_unmapped_area ; } else { mm -> mmap_base = mmap_base ( random_factor ) ; mm -> get_unmapped_area = arch_get_unmapped_area_topdown ; } } 663,"CWE-400 static void evtchn_2l_handle_events ( unsigned cpu ) { int irq ; xen_ulong_t pending_words ; xen_ulong_t pending_bits ; int start_word_idx , start_bit_idx ; int word_idx , bit_idx ; int i ; struct shared_info * s = HYPERVISOR_shared_info ; struct vcpu_info * vcpu_info = __this_cpu_read ( xen_vcpu ) ; irq = irq_from_virq ( cpu , VIRQ_TIMER ) ; if ( irq != - 1 ) { evtchn_port_t evtchn = evtchn_from_irq ( irq ) ; word_idx = evtchn / BITS_PER_LONG ; bit_idx = evtchn % BITS_PER_LONG ; if ( active_evtchns ( cpu , s , word_idx ) & ( 1ULL << bit_idx ) ) generic_handle_irq ( irq ) ; } pending_words = xchg_xen_ulong ( & vcpu_info -> evtchn_pending_sel , 0 ) ; start_word_idx = __this_cpu_read ( current_word_idx ) ; start_bit_idx = __this_cpu_read ( current_bit_idx ) ; word_idx = start_word_idx ; for ( i = 0 ; pending_words != 0 ; i ++ ) { xen_ulong_t words ; words = MASK_LSBS ( pending_words , word_idx ) ; if ( words == 0 ) { word_idx = 0 ; bit_idx = 0 ; continue ; } word_idx = EVTCHN_FIRST_BIT ( words ) ; pending_bits = active_evtchns ( cpu , s , word_idx ) ; bit_idx = 0 ; if ( word_idx == start_word_idx ) { if ( i == 0 ) bit_idx = start_bit_idx ; } do { xen_ulong_t bits ; evtchn_port_t port ; bits = MASK_LSBS ( pending_bits , bit_idx ) ; if ( bits == 0 ) break ; bit_idx = EVTCHN_FIRST_BIT ( bits ) ; port = ( word_idx * BITS_PER_EVTCHN_WORD ) + bit_idx ; irq = get_evtchn_to_irq ( port ) ; if ( irq != - 1 ) generic_handle_irq ( irq ) ; bit_idx = ( bit_idx + 1 ) % BITS_PER_EVTCHN_WORD ; __this_cpu_write ( current_word_idx , bit_idx ? word_idx : ( word_idx + 1 ) % BITS_PER_EVTCHN_WORD ) ; __this_cpu_write ( current_bit_idx , bit_idx ) ; } while ( bit_idx != 0 ) ; if ( ( word_idx != start_word_idx ) || ( i != 0 ) ) pending_words &= ~ ( 1UL << word_idx ) ; word_idx = ( word_idx + 1 ) % BITS_PER_EVTCHN_WORD ; } }","static void evtchn_2l_handle_events ( unsigned cpu , struct evtchn_loop_ctrl * ctrl ) { int irq ; xen_ulong_t pending_words ; xen_ulong_t pending_bits ; int start_word_idx , start_bit_idx ; int word_idx , bit_idx ; int i ; struct shared_info * s = HYPERVISOR_shared_info ; struct vcpu_info * vcpu_info = __this_cpu_read ( xen_vcpu ) ; irq = irq_from_virq ( cpu , VIRQ_TIMER ) ; if ( irq != - 1 ) { evtchn_port_t evtchn = evtchn_from_irq ( irq ) ; word_idx = evtchn / BITS_PER_LONG ; bit_idx = evtchn % BITS_PER_LONG ; if ( active_evtchns ( cpu , s , word_idx ) & ( 1ULL << bit_idx ) ) generic_handle_irq ( irq ) ; } pending_words = xchg_xen_ulong ( & vcpu_info -> evtchn_pending_sel , 0 ) ; start_word_idx = __this_cpu_read ( current_word_idx ) ; start_bit_idx = __this_cpu_read ( current_bit_idx ) ; word_idx = start_word_idx ; for ( i = 0 ; pending_words != 0 ; i ++ ) { xen_ulong_t words ; words = MASK_LSBS ( pending_words , word_idx ) ; if ( words == 0 ) { word_idx = 0 ; bit_idx = 0 ; continue ; } word_idx = EVTCHN_FIRST_BIT ( words ) ; pending_bits = active_evtchns ( cpu , s , word_idx ) ; bit_idx = 0 ; if ( word_idx == start_word_idx ) { if ( i == 0 ) bit_idx = start_bit_idx ; } do { xen_ulong_t bits ; evtchn_port_t port ; bits = MASK_LSBS ( pending_bits , bit_idx ) ; if ( bits == 0 ) break ; bit_idx = EVTCHN_FIRST_BIT ( bits ) ; port = ( word_idx * BITS_PER_EVTCHN_WORD ) + bit_idx ; handle_irq_for_port ( port , ctrl ) ; bit_idx = ( bit_idx + 1 ) % BITS_PER_EVTCHN_WORD ; __this_cpu_write ( current_word_idx , bit_idx ? word_idx : ( word_idx + 1 ) % BITS_PER_EVTCHN_WORD ) ; __this_cpu_write ( current_bit_idx , bit_idx ) ; } while ( bit_idx != 0 ) ; if ( ( word_idx != start_word_idx ) || ( i != 0 ) ) pending_words &= ~ ( 1UL << word_idx ) ; word_idx = ( word_idx + 1 ) % BITS_PER_EVTCHN_WORD ; } }" 664,"CWE-20 # endif if ( errmsg == NULL ) { # ifdef FEAT_KEYMAP if ( varp == & p_enc && * curbuf -> b_p_keymap != NUL ) ( void ) keymap_init ( ) ; # endif if ( ( ( varp == & p_enc && * p_tenc != NUL ) || varp == & p_tenc ) ) { convert_setup ( & input_conv , p_tenc , p_enc ) ; convert_setup ( & output_conv , p_enc , p_tenc ) ; } # if defined ( WIN3264 ) && defined ( FEAT_MBYTE ) if ( varp == & p_enc ) init_homedir ( ) ; # endif } } # endif # if defined ( FEAT_POSTSCRIPT ) else if ( varp == & p_penc ) { p = enc_canonize ( p_penc ) ; if ( p != NULL ) { vim_free ( p_penc ) ; p_penc = p ; } else { for ( s = p_penc ; * s != NUL ; s ++ ) { if ( * s == '_' ) * s = '-' ; else * s = TOLOWER_ASC ( * s ) ; } } } # endif # if defined ( FEAT_XIM ) && defined ( FEAT_GUI_GTK ) else if ( varp == & p_imak ) { if ( gui . in_use && ! im_xim_isvalid_imactivate ( ) ) errmsg = e_invarg ; } # endif # ifdef FEAT_KEYMAP else if ( varp == & curbuf -> b_p_keymap ) { errmsg = keymap_init ( ) ; if ( errmsg == NULL ) { if ( * curbuf -> b_p_keymap != NUL ) { curbuf -> b_p_iminsert = B_IMODE_LMAP ; if ( curbuf -> b_p_imsearch != B_IMODE_USE_INSERT ) curbuf -> b_p_imsearch = B_IMODE_LMAP ; } else { if ( curbuf -> b_p_iminsert == B_IMODE_LMAP ) curbuf -> b_p_iminsert = B_IMODE_NONE ; if ( curbuf -> b_p_imsearch == B_IMODE_LMAP ) curbuf -> b_p_imsearch = B_IMODE_USE_INSERT ; } if ( ( opt_flags & OPT_LOCAL ) == 0 ) { set_iminsert_global ( ) ; set_imsearch_global ( ) ; } # ifdef FEAT_WINDOWS status_redraw_curbuf ( ) ; # endif } } # endif else if ( gvarp == & p_ff ) { if ( ! curbuf -> b_p_ma && ! ( opt_flags & OPT_GLOBAL ) ) errmsg = e_modifiable ; else if ( check_opt_strings ( * varp , p_ff_values , FALSE ) != OK ) errmsg = e_invarg ; else { if ( get_fileformat ( curbuf ) == EOL_DOS ) curbuf -> b_p_tx = TRUE ; else curbuf -> b_p_tx = FALSE ; # ifdef FEAT_TITLE redraw_titles ( ) ; # endif ml_setflags ( curbuf ) ; if ( get_fileformat ( curbuf ) == EOL_MAC || * oldval == 'm' ) redraw_curbuf_later ( NOT_VALID ) ; } } else if ( varp == & p_ffs ) { if ( check_opt_strings ( p_ffs , p_ff_values , TRUE ) != OK )","# endif if ( errmsg == NULL ) { # ifdef FEAT_KEYMAP if ( varp == & p_enc && * curbuf -> b_p_keymap != NUL ) ( void ) keymap_init ( ) ; # endif if ( ( ( varp == & p_enc && * p_tenc != NUL ) || varp == & p_tenc ) ) { convert_setup ( & input_conv , p_tenc , p_enc ) ; convert_setup ( & output_conv , p_enc , p_tenc ) ; } # if defined ( WIN3264 ) && defined ( FEAT_MBYTE ) if ( varp == & p_enc ) init_homedir ( ) ; # endif } } # endif # if defined ( FEAT_POSTSCRIPT ) else if ( varp == & p_penc ) { p = enc_canonize ( p_penc ) ; if ( p != NULL ) { vim_free ( p_penc ) ; p_penc = p ; } else { for ( s = p_penc ; * s != NUL ; s ++ ) { if ( * s == '_' ) * s = '-' ; else * s = TOLOWER_ASC ( * s ) ; } } } # endif # if defined ( FEAT_XIM ) && defined ( FEAT_GUI_GTK ) else if ( varp == & p_imak ) { if ( gui . in_use && ! im_xim_isvalid_imactivate ( ) ) errmsg = e_invarg ; } # endif # ifdef FEAT_KEYMAP else if ( varp == & curbuf -> b_p_keymap ) { if ( ! valid_filetype ( * varp ) ) errmsg = e_invarg ; else errmsg = keymap_init ( ) ; if ( errmsg == NULL ) { if ( * curbuf -> b_p_keymap != NUL ) { curbuf -> b_p_iminsert = B_IMODE_LMAP ; if ( curbuf -> b_p_imsearch != B_IMODE_USE_INSERT ) curbuf -> b_p_imsearch = B_IMODE_LMAP ; } else { if ( curbuf -> b_p_iminsert == B_IMODE_LMAP ) curbuf -> b_p_iminsert = B_IMODE_NONE ; if ( curbuf -> b_p_imsearch == B_IMODE_LMAP ) curbuf -> b_p_imsearch = B_IMODE_USE_INSERT ; } if ( ( opt_flags & OPT_LOCAL ) == 0 ) { set_iminsert_global ( ) ; set_imsearch_global ( ) ; } # ifdef FEAT_WINDOWS status_redraw_curbuf ( ) ; # endif } } # endif else if ( gvarp == & p_ff ) { if ( ! curbuf -> b_p_ma && ! ( opt_flags & OPT_GLOBAL ) ) errmsg = e_modifiable ; else if ( check_opt_strings ( * varp , p_ff_values , FALSE ) != OK ) errmsg = e_invarg ; else { if ( get_fileformat ( curbuf ) == EOL_DOS ) curbuf -> b_p_tx = TRUE ; else curbuf -> b_p_tx = FALSE ; # ifdef FEAT_TITLE redraw_titles ( ) ; # endif ml_setflags ( curbuf ) ; if ( get_fileformat ( curbuf ) == EOL_MAC || * oldval == 'm' ) redraw_curbuf_later ( NOT_VALID ) ; } } else if ( varp == & p_ffs ) { if ( check_opt_strings ( p_ffs , p_ff_values , TRUE ) != OK )" 665,"CWE-362 if ( skb -> len < sizeof ( struct sctp_chunkhdr ) ) goto discard_it ; family = ipver2af ( ip_hdr ( skb ) -> version ) ; af = sctp_get_af_specific ( family ) ; if ( unlikely ( ! af ) ) goto discard_it ; af -> from_skb ( & src , skb , 1 ) ; af -> from_skb ( & dest , skb , 0 ) ; if ( ! af -> addr_valid ( & src , NULL , skb ) || ! af -> addr_valid ( & dest , NULL , skb ) ) goto discard_it ; asoc = __sctp_rcv_lookup ( skb , & src , & dest , & transport ) ; if ( ! asoc ) ep = __sctp_rcv_lookup_endpoint ( & dest ) ; rcvr = asoc ? & asoc -> base : & ep -> base ; sk = rcvr -> sk ; if ( sk -> sk_bound_dev_if && ( sk -> sk_bound_dev_if != af -> skb_iif ( skb ) ) ) { if ( asoc ) { sctp_association_put ( asoc ) ; asoc = NULL ; } else { sctp_endpoint_put ( ep ) ; ep = NULL ; } sk = sctp_get_ctl_sock ( ) ; ep = sctp_sk ( sk ) -> ep ; sctp_endpoint_hold ( ep ) ; rcvr = & ep -> base ; } if ( ! asoc ) { if ( sctp_rcv_ootb ( skb ) ) { SCTP_INC_STATS_BH ( SCTP_MIB_OUTOFBLUES ) ; goto discard_release ; } } if ( ! xfrm_policy_check ( sk , XFRM_POLICY_IN , skb , family ) ) goto discard_release ; nf_reset ( skb ) ; if ( sk_filter ( sk , skb ) ) goto discard_release ; chunk = sctp_chunkify ( skb , asoc , sk ) ; if ( ! chunk ) goto discard_release ; SCTP_INPUT_CB ( skb ) -> chunk = chunk ; chunk -> rcvr = rcvr ; chunk -> sctp_hdr = sh ; sctp_init_addrs ( chunk , & src , & dest ) ; chunk -> transport = transport ; sctp_bh_lock_sock ( sk ) ; if ( sock_owned_by_user ( sk ) ) { SCTP_INC_STATS_BH ( SCTP_MIB_IN_PKT_BACKLOG ) ; sctp_add_backlog ( sk , skb ) ; } else { SCTP_INC_STATS_BH ( SCTP_MIB_IN_PKT_SOFTIRQ ) ; sctp_inq_push ( & chunk -> rcvr -> inqueue , chunk ) ; } sctp_bh_unlock_sock ( sk ) ; if ( asoc ) sctp_association_put ( asoc ) ; else sctp_endpoint_put ( ep ) ; return 0 ; discard_it : SCTP_INC_STATS_BH ( SCTP_MIB_IN_PKT_DISCARDS ) ; kfree_skb ( skb ) ; return 0 ; discard_release : if ( asoc ) sctp_association_put ( asoc ) ; else sctp_endpoint_put ( ep ) ; goto discard_it ; }","if ( skb -> len < sizeof ( struct sctp_chunkhdr ) ) goto discard_it ; family = ipver2af ( ip_hdr ( skb ) -> version ) ; af = sctp_get_af_specific ( family ) ; if ( unlikely ( ! af ) ) goto discard_it ; af -> from_skb ( & src , skb , 1 ) ; af -> from_skb ( & dest , skb , 0 ) ; if ( ! af -> addr_valid ( & src , NULL , skb ) || ! af -> addr_valid ( & dest , NULL , skb ) ) goto discard_it ; asoc = __sctp_rcv_lookup ( skb , & src , & dest , & transport ) ; if ( ! asoc ) ep = __sctp_rcv_lookup_endpoint ( & dest ) ; rcvr = asoc ? & asoc -> base : & ep -> base ; sk = rcvr -> sk ; if ( sk -> sk_bound_dev_if && ( sk -> sk_bound_dev_if != af -> skb_iif ( skb ) ) ) { if ( asoc ) { sctp_association_put ( asoc ) ; asoc = NULL ; } else { sctp_endpoint_put ( ep ) ; ep = NULL ; } sk = sctp_get_ctl_sock ( ) ; ep = sctp_sk ( sk ) -> ep ; sctp_endpoint_hold ( ep ) ; rcvr = & ep -> base ; } if ( ! asoc ) { if ( sctp_rcv_ootb ( skb ) ) { SCTP_INC_STATS_BH ( SCTP_MIB_OUTOFBLUES ) ; goto discard_release ; } } if ( ! xfrm_policy_check ( sk , XFRM_POLICY_IN , skb , family ) ) goto discard_release ; nf_reset ( skb ) ; if ( sk_filter ( sk , skb ) ) goto discard_release ; chunk = sctp_chunkify ( skb , asoc , sk ) ; if ( ! chunk ) goto discard_release ; SCTP_INPUT_CB ( skb ) -> chunk = chunk ; chunk -> rcvr = rcvr ; chunk -> sctp_hdr = sh ; sctp_init_addrs ( chunk , & src , & dest ) ; chunk -> transport = transport ; sctp_bh_lock_sock ( sk ) ; if ( sk != rcvr -> sk ) { sctp_bh_unlock_sock ( sk ) ; sk = rcvr -> sk ; sctp_bh_lock_sock ( sk ) ; } if ( sock_owned_by_user ( sk ) ) { SCTP_INC_STATS_BH ( SCTP_MIB_IN_PKT_BACKLOG ) ; sctp_add_backlog ( sk , skb ) ; } else { SCTP_INC_STATS_BH ( SCTP_MIB_IN_PKT_SOFTIRQ ) ; sctp_inq_push ( & chunk -> rcvr -> inqueue , chunk ) ; } sctp_bh_unlock_sock ( sk ) ; if ( asoc ) sctp_association_put ( asoc ) ; else sctp_endpoint_put ( ep ) ; return 0 ; discard_it : SCTP_INC_STATS_BH ( SCTP_MIB_IN_PKT_DISCARDS ) ; kfree_skb ( skb ) ; return 0 ; discard_release : if ( asoc ) sctp_association_put ( asoc ) ; else sctp_endpoint_put ( ep ) ; goto discard_it ; }" 666,"CWE-119 void vp8_bilinear_predict4x4_neon ( unsigned char * src_ptr , int src_pixels_per_line , int xoffset , int yoffset , unsigned char * dst_ptr , int dst_pitch ) { uint8x8_t d0u8 , d1u8 , d2u8 , d3u8 , d4u8 , d5u8 , d6u8 ; uint8x8_t d26u8 , d27u8 , d28u8 , d29u8 , d30u8 ; uint32x2_t d28u32 , d29u32 , d30u32 ; uint8x16_t q1u8 , q2u8 ; uint16x8_t q1u16 , q2u16 ; uint16x8_t q7u16 , q8u16 , q9u16 ; uint64x2_t q4u64 , q5u64 ; uint64x1_t d12u64 ; uint32x2x2_t d0u32x2 , d1u32x2 , d2u32x2 , d3u32x2 ; if ( xoffset == 0 ) { d28u32 = vld1_lane_u32 ( ( const uint32_t * ) src_ptr , d28u32 , 0 ) ; src_ptr += src_pixels_per_line ; d28u32 = vld1_lane_u32 ( ( const uint32_t * ) src_ptr , d28u32 , 1 ) ; src_ptr += src_pixels_per_line ; d29u32 = vld1_lane_u32 ( ( const uint32_t * ) src_ptr , d29u32 , 0 ) ; src_ptr += src_pixels_per_line ; d29u32 = vld1_lane_u32 ( ( const uint32_t * ) src_ptr , d29u32 , 1 ) ; src_ptr += src_pixels_per_line ; d30u32 = vld1_lane_u32 ( ( const uint32_t * ) src_ptr , d30u32 , 0 ) ; d28u8 = vreinterpret_u8_u32 ( d28u32 ) ; d29u8 = vreinterpret_u8_u32 ( d29u32 ) ; d30u8 = vreinterpret_u8_u32 ( d30u32 ) ; } else { d2u8 = vld1_u8 ( src_ptr ) ; src_ptr += src_pixels_per_line ; d3u8 = vld1_u8 ( src_ptr ) ; src_ptr += src_pixels_per_line ; d4u8 = vld1_u8 ( src_ptr ) ; src_ptr += src_pixels_per_line ; d5u8 = vld1_u8 ( src_ptr ) ; src_ptr += src_pixels_per_line ; d6u8 = vld1_u8 ( src_ptr ) ; q1u8 = vcombine_u8 ( d2u8 , d3u8 ) ; q2u8 = vcombine_u8 ( d4u8 , d5u8 ) ; d0u8 = vdup_n_u8 ( ( uint8_t ) bifilter4_coeff [ xoffset ] [ 0 ] ) ; d1u8 = vdup_n_u8 ( ( uint8_t ) bifilter4_coeff [ xoffset ] [ 1 ] ) ; q4u64 = vshrq_n_u64 ( vreinterpretq_u64_u8 ( q1u8 ) , 8 ) ; q5u64 = vshrq_n_u64 ( vreinterpretq_u64_u8 ( q2u8 ) , 8 ) ; d12u64 = vshr_n_u64 ( vreinterpret_u64_u8 ( d6u8 ) , 8 ) ; d0u32x2 = vzip_u32 ( vreinterpret_u32_u8 ( vget_low_u8 ( q1u8 ) ) , vreinterpret_u32_u8 ( vget_high_u8 ( q1u8 ) ) ) ; d1u32x2 = vzip_u32 ( vreinterpret_u32_u8 ( vget_low_u8 ( q2u8 ) ) , vreinterpret_u32_u8 ( vget_high_u8 ( q2u8 ) ) ) ; d2u32x2 = vzip_u32 ( vreinterpret_u32_u64 ( vget_low_u64 ( q4u64 ) ) , vreinterpret_u32_u64 ( vget_high_u64 ( q4u64 ) ) ) ; d3u32x2 = vzip_u32 ( vreinterpret_u32_u64 ( vget_low_u64 ( q5u64 ) ) , vreinterpret_u32_u64 ( vget_high_u64 ( q5u64 ) ) ) ; q7u16 = vmull_u8 ( vreinterpret_u8_u32 ( d0u32x2 . val [ 0 ] ) , d0u8 ) ; q8u16 = vmull_u8 ( vreinterpret_u8_u32 ( d1u32x2 . val [ 0 ] ) , d0u8 ) ; q9u16 = vmull_u8 ( d6u8 , d0u8 ) ; q7u16 = vmlal_u8 ( q7u16 , vreinterpret_u8_u32 ( d2u32x2 . val [ 0 ] ) , d1u8 ) ; q8u16 = vmlal_u8 ( q8u16 , vreinterpret_u8_u32 ( d3u32x2 . val [ 0 ] ) , d1u8 ) ; q9u16 = vmlal_u8 ( q9u16 , vreinterpret_u8_u64 ( d12u64 ) , d1u8 ) ; d28u8 = vqrshrn_n_u16 ( q7u16 , 7 ) ; d29u8 = vqrshrn_n_u16 ( q8u16 , 7 ) ; d30u8 = vqrshrn_n_u16 ( q9u16 , 7 ) ; } if ( yoffset == 0 ) { vst1_lane_u32 ( ( uint32_t * ) dst_ptr , vreinterpret_u32_u8 ( d28u8 ) , 0 ) ; dst_ptr += dst_pitch ; vst1_lane_u32 ( ( uint32_t * ) dst_ptr , vreinterpret_u32_u8 ( d28u8 ) , 1 ) ; dst_ptr += dst_pitch ; vst1_lane_u32 ( ( uint32_t * ) dst_ptr , vreinterpret_u32_u8 ( d29u8 ) , 0 ) ; dst_ptr += dst_pitch ; vst1_lane_u32 ( ( uint32_t * ) dst_ptr , vreinterpret_u32_u8 ( d29u8 ) , 1 ) ; } else { d0u8 = vdup_n_u8 ( bifilter4_coeff [ yoffset ] [ 0 ] ) ; d1u8 = vdup_n_u8 ( bifilter4_coeff [ yoffset ] [ 1 ] ) ; q1u16 = vmull_u8 ( d28u8 , d0u8 ) ; q2u16 = vmull_u8 ( d29u8 , d0u8 ) ; d26u8 = vext_u8 ( d28u8 , d29u8 , 4 ) ; d27u8 = vext_u8 ( d29u8 , d30u8 , 4 ) ; q1u16 = vmlal_u8 ( q1u16 , d26u8 , d1u8 ) ; q2u16 = vmlal_u8 ( q2u16 , d27u8 , d1u8 ) ; d2u8 = vqrshrn_n_u16 ( q1u16 , 7 ) ; d3u8 = vqrshrn_n_u16 ( q2u16 , 7 ) ; vst1_lane_u32 ( ( uint32_t * ) dst_ptr , vreinterpret_u32_u8 ( d2u8 ) , 0 ) ; dst_ptr += dst_pitch ; vst1_lane_u32 ( ( uint32_t * ) dst_ptr , vreinterpret_u32_u8 ( d2u8 ) , 1 ) ; dst_ptr += dst_pitch ; vst1_lane_u32 ( ( uint32_t * ) dst_ptr , vreinterpret_u32_u8 ( d3u8 ) , 0 ) ; dst_ptr += dst_pitch ; vst1_lane_u32 ( ( uint32_t * ) dst_ptr , vreinterpret_u32_u8 ( d3u8 ) , 1 ) ; } return ; }","void vp8_bilinear_predict4x4_neon ( unsigned char * src_ptr , int src_pixels_per_line , int xoffset , int yoffset , unsigned char * dst_ptr , int dst_pitch ) { uint8x8_t d0u8 , d1u8 , d2u8 , d3u8 , d4u8 , d5u8 , d6u8 ; uint8x8_t d26u8 , d27u8 , d28u8 , d29u8 , d30u8 ; uint8x16_t q1u8 , q2u8 ; uint16x8_t q1u16 , q2u16 ; uint16x8_t q7u16 , q8u16 , q9u16 ; uint64x2_t q4u64 , q5u64 ; uint64x1_t d12u64 ; uint32x2x2_t d0u32x2 , d1u32x2 , d2u32x2 , d3u32x2 ; if ( xoffset == 0 ) { uint32x2_t d28u32 = vdup_n_u32 ( 0 ) ; uint32x2_t d29u32 = vdup_n_u32 ( 0 ) ; uint32x2_t d30u32 = vdup_n_u32 ( 0 ) ; d28u32 = vld1_lane_u32 ( ( const uint32_t * ) src_ptr , d28u32 , 0 ) ; src_ptr += src_pixels_per_line ; d28u32 = vld1_lane_u32 ( ( const uint32_t * ) src_ptr , d28u32 , 1 ) ; src_ptr += src_pixels_per_line ; d29u32 = vld1_lane_u32 ( ( const uint32_t * ) src_ptr , d29u32 , 0 ) ; src_ptr += src_pixels_per_line ; d29u32 = vld1_lane_u32 ( ( const uint32_t * ) src_ptr , d29u32 , 1 ) ; src_ptr += src_pixels_per_line ; d30u32 = vld1_lane_u32 ( ( const uint32_t * ) src_ptr , d30u32 , 0 ) ; d28u8 = vreinterpret_u8_u32 ( d28u32 ) ; d29u8 = vreinterpret_u8_u32 ( d29u32 ) ; d30u8 = vreinterpret_u8_u32 ( d30u32 ) ; } else { d2u8 = vld1_u8 ( src_ptr ) ; src_ptr += src_pixels_per_line ; d3u8 = vld1_u8 ( src_ptr ) ; src_ptr += src_pixels_per_line ; d4u8 = vld1_u8 ( src_ptr ) ; src_ptr += src_pixels_per_line ; d5u8 = vld1_u8 ( src_ptr ) ; src_ptr += src_pixels_per_line ; d6u8 = vld1_u8 ( src_ptr ) ; q1u8 = vcombine_u8 ( d2u8 , d3u8 ) ; q2u8 = vcombine_u8 ( d4u8 , d5u8 ) ; d0u8 = vdup_n_u8 ( bifilter4_coeff [ xoffset ] [ 0 ] ) ; d1u8 = vdup_n_u8 ( bifilter4_coeff [ xoffset ] [ 1 ] ) ; q4u64 = vshrq_n_u64 ( vreinterpretq_u64_u8 ( q1u8 ) , 8 ) ; q5u64 = vshrq_n_u64 ( vreinterpretq_u64_u8 ( q2u8 ) , 8 ) ; d12u64 = vshr_n_u64 ( vreinterpret_u64_u8 ( d6u8 ) , 8 ) ; d0u32x2 = vzip_u32 ( vreinterpret_u32_u8 ( vget_low_u8 ( q1u8 ) ) , vreinterpret_u32_u8 ( vget_high_u8 ( q1u8 ) ) ) ; d1u32x2 = vzip_u32 ( vreinterpret_u32_u8 ( vget_low_u8 ( q2u8 ) ) , vreinterpret_u32_u8 ( vget_high_u8 ( q2u8 ) ) ) ; d2u32x2 = vzip_u32 ( vreinterpret_u32_u64 ( vget_low_u64 ( q4u64 ) ) , vreinterpret_u32_u64 ( vget_high_u64 ( q4u64 ) ) ) ; d3u32x2 = vzip_u32 ( vreinterpret_u32_u64 ( vget_low_u64 ( q5u64 ) ) , vreinterpret_u32_u64 ( vget_high_u64 ( q5u64 ) ) ) ; q7u16 = vmull_u8 ( vreinterpret_u8_u32 ( d0u32x2 . val [ 0 ] ) , d0u8 ) ; q8u16 = vmull_u8 ( vreinterpret_u8_u32 ( d1u32x2 . val [ 0 ] ) , d0u8 ) ; q9u16 = vmull_u8 ( d6u8 , d0u8 ) ; q7u16 = vmlal_u8 ( q7u16 , vreinterpret_u8_u32 ( d2u32x2 . val [ 0 ] ) , d1u8 ) ; q8u16 = vmlal_u8 ( q8u16 , vreinterpret_u8_u32 ( d3u32x2 . val [ 0 ] ) , d1u8 ) ; q9u16 = vmlal_u8 ( q9u16 , vreinterpret_u8_u64 ( d12u64 ) , d1u8 ) ; d28u8 = vqrshrn_n_u16 ( q7u16 , 7 ) ; d29u8 = vqrshrn_n_u16 ( q8u16 , 7 ) ; d30u8 = vqrshrn_n_u16 ( q9u16 , 7 ) ; } if ( yoffset == 0 ) { vst1_lane_u32 ( ( uint32_t * ) dst_ptr , vreinterpret_u32_u8 ( d28u8 ) , 0 ) ; dst_ptr += dst_pitch ; vst1_lane_u32 ( ( uint32_t * ) dst_ptr , vreinterpret_u32_u8 ( d28u8 ) , 1 ) ; dst_ptr += dst_pitch ; vst1_lane_u32 ( ( uint32_t * ) dst_ptr , vreinterpret_u32_u8 ( d29u8 ) , 0 ) ; dst_ptr += dst_pitch ; vst1_lane_u32 ( ( uint32_t * ) dst_ptr , vreinterpret_u32_u8 ( d29u8 ) , 1 ) ; } else { d0u8 = vdup_n_u8 ( bifilter4_coeff [ yoffset ] [ 0 ] ) ; d1u8 = vdup_n_u8 ( bifilter4_coeff [ yoffset ] [ 1 ] ) ; q1u16 = vmull_u8 ( d28u8 , d0u8 ) ; q2u16 = vmull_u8 ( d29u8 , d0u8 ) ; d26u8 = vext_u8 ( d28u8 , d29u8 , 4 ) ; d27u8 = vext_u8 ( d29u8 , d30u8 , 4 ) ; q1u16 = vmlal_u8 ( q1u16 , d26u8 , d1u8 ) ; q2u16 = vmlal_u8 ( q2u16 , d27u8 , d1u8 ) ; d2u8 = vqrshrn_n_u16 ( q1u16 , 7 ) ; d3u8 = vqrshrn_n_u16 ( q2u16 , 7 ) ; vst1_lane_u32 ( ( uint32_t * ) dst_ptr , vreinterpret_u32_u8 ( d2u8 ) , 0 ) ; dst_ptr += dst_pitch ; vst1_lane_u32 ( ( uint32_t * ) dst_ptr , vreinterpret_u32_u8 ( d2u8 ) , 1 ) ; dst_ptr += dst_pitch ; vst1_lane_u32 ( ( uint32_t * ) dst_ptr , vreinterpret_u32_u8 ( d3u8 ) , 0 ) ; dst_ptr += dst_pitch ; vst1_lane_u32 ( ( uint32_t * ) dst_ptr , vreinterpret_u32_u8 ( d3u8 ) , 1 ) ; } return ; }" 667,"CWE-125 static int rx_cache_find ( const struct rx_header * rxh , const struct ip * ip , int sport , int32_t * opcode ) { int i ; struct rx_cache_entry * rxent ; uint32_t clip ; uint32_t sip ; UNALIGNED_MEMCPY ( & clip , & ip -> ip_dst , sizeof ( uint32_t ) ) ; UNALIGNED_MEMCPY ( & sip , & ip -> ip_src , sizeof ( uint32_t ) ) ; i = rx_cache_hint ; do { rxent = & rx_cache [ i ] ; if ( rxent -> callnum == EXTRACT_32BITS ( & rxh -> callNumber ) && rxent -> client . s_addr == clip && rxent -> server . s_addr == sip && rxent -> serviceId == EXTRACT_32BITS ( & rxh -> serviceId ) && rxent -> dport == sport ) { rx_cache_hint = i ; * opcode = rxent -> opcode ; return ( 1 ) ; } if ( ++ i >= RX_CACHE_SIZE ) i = 0 ; } while ( i != rx_cache_hint ) ; return ( 0 ) ; }","static int rx_cache_find ( const struct rx_header * rxh , const struct ip * ip , int sport , int32_t * opcode ) { int i ; struct rx_cache_entry * rxent ; uint32_t clip ; uint32_t sip ; UNALIGNED_MEMCPY ( & clip , & ip -> ip_dst , sizeof ( uint32_t ) ) ; UNALIGNED_MEMCPY ( & sip , & ip -> ip_src , sizeof ( uint32_t ) ) ; i = rx_cache_hint ; do { rxent = & rx_cache [ i ] ; if ( rxent -> callnum == EXTRACT_32BITS ( & rxh -> callNumber ) && rxent -> client . s_addr == clip && rxent -> server . s_addr == sip && rxent -> serviceId == EXTRACT_16BITS ( & rxh -> serviceId ) && rxent -> dport == sport ) { rx_cache_hint = i ; * opcode = rxent -> opcode ; return ( 1 ) ; } if ( ++ i >= RX_CACHE_SIZE ) i = 0 ; } while ( i != rx_cache_hint ) ; return ( 0 ) ; }" 668,"CWE-399 static int cib_tls_close ( cib_t * cib ) { cib_remote_opaque_t * private = cib -> variant_opaque ; shutdown ( private -> command . socket , SHUT_RDWR ) ; shutdown ( private -> callback . socket , SHUT_RDWR ) ; close ( private -> command . socket ) ; close ( private -> callback . socket ) ; # ifdef HAVE_GNUTLS_GNUTLS_H if ( private -> command . encrypted ) { gnutls_bye ( * ( private -> command . session ) , GNUTLS_SHUT_RDWR ) ; gnutls_deinit ( * ( private -> command . session ) ) ; gnutls_free ( private -> command . session ) ; gnutls_bye ( * ( private -> callback . session ) , GNUTLS_SHUT_RDWR ) ; gnutls_deinit ( * ( private -> callback . session ) ) ; gnutls_free ( private -> callback . session ) ; gnutls_anon_free_client_credentials ( anon_cred_c ) ; gnutls_global_deinit ( ) ; } # endif return 0 ; }","static int cib_tls_close ( cib_t * cib ) { cib_remote_opaque_t * private = cib -> variant_opaque ; # ifdef HAVE_GNUTLS_GNUTLS_H if ( private -> command . encrypted ) { if ( private -> command . session ) { gnutls_bye ( * ( private -> command . session ) , GNUTLS_SHUT_RDWR ) ; gnutls_deinit ( * ( private -> command . session ) ) ; gnutls_free ( private -> command . session ) ; } if ( private -> callback . session ) { gnutls_bye ( * ( private -> callback . session ) , GNUTLS_SHUT_RDWR ) ; gnutls_deinit ( * ( private -> callback . session ) ) ; gnutls_free ( private -> callback . session ) ; } private -> command . session = NULL ; private -> callback . session = NULL ; if ( remote_gnutls_credentials_init ) { gnutls_anon_free_client_credentials ( anon_cred_c ) ; gnutls_global_deinit ( ) ; remote_gnutls_credentials_init = FALSE ; } } # endif if ( private -> command . socket ) { shutdown ( private -> command . socket , SHUT_RDWR ) ; close ( private -> command . socket ) ; } if ( private -> callback . socket ) { shutdown ( private -> callback . socket , SHUT_RDWR ) ; close ( private -> callback . socket ) ; } private -> command . socket = 0 ; private -> callback . socket = 0 ; free ( private -> command . recv_buf ) ; free ( private -> callback . recv_buf ) ; private -> command . recv_buf = NULL ; private -> callback . recv_buf = NULL ; return 0 ; }" 669,"CWE-20 return MagickFalse ; for ( x = 0 ; x < ( ssize_t ) dds_info -> width ; x ++ ) { if ( dds_info -> pixelformat . rgb_bitcount == 16 ) { color = ReadBlobShort ( image ) ; if ( alphaBits == 1 ) { SetPixelAlpha ( q , ( color & ( 1 << 15 ) ) ? QuantumRange : 0 ) ; SetPixelRed ( q , ScaleCharToQuantum ( ( unsigned char ) ( ( ( ( unsigned short ) ( color << 1 ) >> 11 ) / 31.0 ) * 255 ) ) ) ; SetPixelGreen ( q , ScaleCharToQuantum ( ( unsigned char ) ( ( ( ( unsigned short ) ( color << 6 ) >> 11 ) / 31.0 ) * 255 ) ) ) ; SetPixelBlue ( q , ScaleCharToQuantum ( ( unsigned char ) ( ( ( ( unsigned short ) ( color << 11 ) >> 11 ) / 31.0 ) * 255 ) ) ) ; } else if ( alphaBits == 2 ) { SetPixelAlpha ( q , ScaleCharToQuantum ( ( unsigned char ) ( color >> 8 ) ) ) ; SetPixelGray ( q , ScaleCharToQuantum ( ( unsigned char ) color ) ) ; } else { SetPixelAlpha ( q , ScaleCharToQuantum ( ( unsigned char ) ( ( ( color >> 12 ) / 15.0 ) * 255 ) ) ) ; SetPixelRed ( q , ScaleCharToQuantum ( ( unsigned char ) ( ( ( ( unsigned short ) ( color << 4 ) >> 12 ) / 15.0 ) * 255 ) ) ) ; SetPixelGreen ( q , ScaleCharToQuantum ( ( unsigned char ) ( ( ( ( unsigned short ) ( color << 8 ) >> 12 ) / 15.0 ) * 255 ) ) ) ; SetPixelBlue ( q , ScaleCharToQuantum ( ( unsigned char ) ( ( ( ( unsigned short ) ( color << 12 ) >> 12 ) / 15.0 ) * 255 ) ) ) ; } } else { SetPixelBlue ( q , ScaleCharToQuantum ( ( unsigned char ) ReadBlobByte ( image ) ) ) ; SetPixelGreen ( q , ScaleCharToQuantum ( ( unsigned char ) ReadBlobByte ( image ) ) ) ; SetPixelRed ( q , ScaleCharToQuantum ( ( unsigned char ) ReadBlobByte ( image ) ) ) ; SetPixelAlpha ( q , ScaleCharToQuantum ( ( unsigned char ) ReadBlobByte ( image ) ) ) ; } q ++ ; } if ( SyncAuthenticPixels ( image , exception ) == MagickFalse ) return MagickFalse ; } SkipRGBMipmaps ( image , dds_info , 4 ) ; return MagickTrue ; }","return MagickFalse ; for ( x = 0 ; x < ( ssize_t ) dds_info -> width ; x ++ ) { if ( dds_info -> pixelformat . rgb_bitcount == 16 ) { color = ReadBlobShort ( image ) ; if ( alphaBits == 1 ) { SetPixelAlpha ( q , ( color & ( 1 << 15 ) ) ? QuantumRange : 0 ) ; SetPixelRed ( q , ScaleCharToQuantum ( ( unsigned char ) ( ( ( ( unsigned short ) ( color << 1 ) >> 11 ) / 31.0 ) * 255 ) ) ) ; SetPixelGreen ( q , ScaleCharToQuantum ( ( unsigned char ) ( ( ( ( unsigned short ) ( color << 6 ) >> 11 ) / 31.0 ) * 255 ) ) ) ; SetPixelBlue ( q , ScaleCharToQuantum ( ( unsigned char ) ( ( ( ( unsigned short ) ( color << 11 ) >> 11 ) / 31.0 ) * 255 ) ) ) ; } else if ( alphaBits == 2 ) { SetPixelAlpha ( q , ScaleCharToQuantum ( ( unsigned char ) ( color >> 8 ) ) ) ; SetPixelGray ( q , ScaleCharToQuantum ( ( unsigned char ) color ) ) ; } else { SetPixelAlpha ( q , ScaleCharToQuantum ( ( unsigned char ) ( ( ( color >> 12 ) / 15.0 ) * 255 ) ) ) ; SetPixelRed ( q , ScaleCharToQuantum ( ( unsigned char ) ( ( ( ( unsigned short ) ( color << 4 ) >> 12 ) / 15.0 ) * 255 ) ) ) ; SetPixelGreen ( q , ScaleCharToQuantum ( ( unsigned char ) ( ( ( ( unsigned short ) ( color << 8 ) >> 12 ) / 15.0 ) * 255 ) ) ) ; SetPixelBlue ( q , ScaleCharToQuantum ( ( unsigned char ) ( ( ( ( unsigned short ) ( color << 12 ) >> 12 ) / 15.0 ) * 255 ) ) ) ; } } else { SetPixelBlue ( q , ScaleCharToQuantum ( ( unsigned char ) ReadBlobByte ( image ) ) ) ; SetPixelGreen ( q , ScaleCharToQuantum ( ( unsigned char ) ReadBlobByte ( image ) ) ) ; SetPixelRed ( q , ScaleCharToQuantum ( ( unsigned char ) ReadBlobByte ( image ) ) ) ; SetPixelAlpha ( q , ScaleCharToQuantum ( ( unsigned char ) ReadBlobByte ( image ) ) ) ; } q ++ ; } if ( SyncAuthenticPixels ( image , exception ) == MagickFalse ) return MagickFalse ; } return ( SkipRGBMipmaps ( image , dds_info , 4 , exception ) ) ; }" 670,"CWE-401 static ssize_t qrtr_tun_write_iter ( struct kiocb * iocb , struct iov_iter * from ) { struct file * filp = iocb -> ki_filp ; struct qrtr_tun * tun = filp -> private_data ; size_t len = iov_iter_count ( from ) ; ssize_t ret ; void * kbuf ; kbuf = kzalloc ( len , GFP_KERNEL ) ; if ( ! kbuf ) return - ENOMEM ; if ( ! copy_from_iter_full ( kbuf , len , from ) ) return - EFAULT ; ret = qrtr_endpoint_post ( & tun -> ep , kbuf , len ) ; return ret < 0 ? ret : len ; }","static ssize_t qrtr_tun_write_iter ( struct kiocb * iocb , struct iov_iter * from ) { struct file * filp = iocb -> ki_filp ; struct qrtr_tun * tun = filp -> private_data ; size_t len = iov_iter_count ( from ) ; ssize_t ret ; void * kbuf ; kbuf = kzalloc ( len , GFP_KERNEL ) ; if ( ! kbuf ) return - ENOMEM ; if ( ! copy_from_iter_full ( kbuf , len , from ) ) { kfree ( kbuf ) ; return - EFAULT ; } ret = qrtr_endpoint_post ( & tun -> ep , kbuf , len ) ; kfree ( kbuf ) ; return ret < 0 ? ret : len ; }" 671,CWE-264 static void l2tp_eth_dev_setup ( struct net_device * dev ) { ether_setup ( dev ) ; dev -> netdev_ops = & l2tp_eth_netdev_ops ; dev -> destructor = free_netdev ; },static void l2tp_eth_dev_setup ( struct net_device * dev ) { ether_setup ( dev ) ; dev -> priv_flags &= ~ IFF_TX_SKB_SHARING ; dev -> netdev_ops = & l2tp_eth_netdev_ops ; dev -> destructor = free_netdev ; } 672,"CWE-119 static int detect_flash ( const struct twopass_rc * twopass , int offset ) { FIRSTPASS_STATS next_frame ; int flash_detected = 0 ; if ( read_frame_stats ( twopass , & next_frame , offset ) != EOF ) { if ( next_frame . pcnt_second_ref > next_frame . pcnt_inter && next_frame . pcnt_second_ref >= 0.5 ) flash_detected = 1 ; } return flash_detected ; }","static int detect_flash ( const TWO_PASS * twopass , int offset ) { const FIRSTPASS_STATS * const next_frame = read_frame_stats ( twopass , offset ) ; return next_frame != NULL && next_frame -> pcnt_second_ref > next_frame -> pcnt_inter && next_frame -> pcnt_second_ref >= 0.5 ; }" 673,"CWE-119 cJSON * cJSON_GetArrayItem ( cJSON * array , int item ) { cJSON * c = array -> child ; while ( c && item > 0 ) { -- item ; c = c -> next ; } return c ; } ","cJSON * cJSON_GetArrayItem ( cJSON * array , int item ) { cJSON * c = array ? array -> child : 0 ; while ( c && item > 0 ) item -- , c = c -> next ; return c ; }" 674,"CWE-362 static int set_evtchn_to_irq ( evtchn_port_t evtchn , unsigned int irq ) { unsigned row ; unsigned col ; if ( evtchn >= xen_evtchn_max_channels ( ) ) return - EINVAL ; row = EVTCHN_ROW ( evtchn ) ; col = EVTCHN_COL ( evtchn ) ; if ( evtchn_to_irq [ row ] == NULL ) { if ( irq == - 1 ) return 0 ; evtchn_to_irq [ row ] = ( int * ) get_zeroed_page ( GFP_KERNEL ) ; if ( evtchn_to_irq [ row ] == NULL ) return - ENOMEM ; clear_evtchn_to_irq_row ( row ) ; } evtchn_to_irq [ row ] [ col ] = irq ; return 0 ; }","static int set_evtchn_to_irq ( evtchn_port_t evtchn , unsigned int irq ) { unsigned row ; unsigned col ; if ( evtchn >= xen_evtchn_max_channels ( ) ) return - EINVAL ; row = EVTCHN_ROW ( evtchn ) ; col = EVTCHN_COL ( evtchn ) ; if ( evtchn_to_irq [ row ] == NULL ) { if ( irq == - 1 ) return 0 ; evtchn_to_irq [ row ] = ( int * ) get_zeroed_page ( GFP_KERNEL ) ; if ( evtchn_to_irq [ row ] == NULL ) return - ENOMEM ; clear_evtchn_to_irq_row ( row ) ; } WRITE_ONCE ( evtchn_to_irq [ row ] [ col ] , irq ) ; return 0 ; }" 675,"CWE-119 static int rd_pick_intra4x4mby_modes ( MACROBLOCK * mb , int * Rate , int * rate_y , int * Distortion , int best_rd ) { MACROBLOCKD * const xd = & mb -> e_mbd ; int i ; int cost = mb -> mbmode_cost [ xd -> frame_type ] [ B_PRED ] ; int distortion = 0 ; int tot_rate_y = 0 ; int64_t total_rd = 0 ; ENTROPY_CONTEXT_PLANES t_above , t_left ; ENTROPY_CONTEXT * ta ; ENTROPY_CONTEXT * tl ; const int * bmode_costs ; vpx_memcpy ( & t_above , mb -> e_mbd . above_context , sizeof ( ENTROPY_CONTEXT_PLANES ) ) ; vpx_memcpy ( & t_left , mb -> e_mbd . left_context , sizeof ( ENTROPY_CONTEXT_PLANES ) ) ; ta = ( ENTROPY_CONTEXT * ) & t_above ; tl = ( ENTROPY_CONTEXT * ) & t_left ; intra_prediction_down_copy ( xd , xd -> dst . y_buffer - xd -> dst . y_stride + 16 ) ; bmode_costs = mb -> inter_bmode_costs ; for ( i = 0 ; i < 16 ; i ++ ) { MODE_INFO * const mic = xd -> mode_info_context ; const int mis = xd -> mode_info_stride ; B_PREDICTION_MODE UNINITIALIZED_IS_SAFE ( best_mode ) ; int UNINITIALIZED_IS_SAFE ( r ) , UNINITIALIZED_IS_SAFE ( ry ) , UNINITIALIZED_IS_SAFE ( d ) ; if ( mb -> e_mbd . frame_type == KEY_FRAME ) { const B_PREDICTION_MODE A = above_block_mode ( mic , i , mis ) ; const B_PREDICTION_MODE L = left_block_mode ( mic , i ) ; bmode_costs = mb -> bmode_costs [ A ] [ L ] ; } total_rd += rd_pick_intra4x4block ( mb , mb -> block + i , xd -> block + i , & best_mode , bmode_costs , ta + vp8_block2above [ i ] , tl + vp8_block2left [ i ] , & r , & ry , & d ) ; cost += r ; distortion += d ; tot_rate_y += ry ; mic -> bmi [ i ] . as_mode = best_mode ; if ( total_rd >= ( int64_t ) best_rd ) break ; } if ( total_rd >= ( int64_t ) best_rd ) return INT_MAX ; * Rate = cost ; * rate_y = tot_rate_y ; * Distortion = distortion ; return RDCOST ( mb -> rdmult , mb -> rddiv , cost , distortion ) ; }","static int rd_pick_intra4x4mby_modes ( MACROBLOCK * mb , int * Rate , int * rate_y , int * Distortion , int best_rd ) { MACROBLOCKD * const xd = & mb -> e_mbd ; int i ; int cost = mb -> mbmode_cost [ xd -> frame_type ] [ B_PRED ] ; int distortion = 0 ; int tot_rate_y = 0 ; int64_t total_rd = 0 ; ENTROPY_CONTEXT_PLANES t_above , t_left ; ENTROPY_CONTEXT * ta ; ENTROPY_CONTEXT * tl ; const int * bmode_costs ; memcpy ( & t_above , mb -> e_mbd . above_context , sizeof ( ENTROPY_CONTEXT_PLANES ) ) ; memcpy ( & t_left , mb -> e_mbd . left_context , sizeof ( ENTROPY_CONTEXT_PLANES ) ) ; ta = ( ENTROPY_CONTEXT * ) & t_above ; tl = ( ENTROPY_CONTEXT * ) & t_left ; intra_prediction_down_copy ( xd , xd -> dst . y_buffer - xd -> dst . y_stride + 16 ) ; bmode_costs = mb -> inter_bmode_costs ; for ( i = 0 ; i < 16 ; i ++ ) { MODE_INFO * const mic = xd -> mode_info_context ; const int mis = xd -> mode_info_stride ; B_PREDICTION_MODE UNINITIALIZED_IS_SAFE ( best_mode ) ; int UNINITIALIZED_IS_SAFE ( r ) , UNINITIALIZED_IS_SAFE ( ry ) , UNINITIALIZED_IS_SAFE ( d ) ; if ( mb -> e_mbd . frame_type == KEY_FRAME ) { const B_PREDICTION_MODE A = above_block_mode ( mic , i , mis ) ; const B_PREDICTION_MODE L = left_block_mode ( mic , i ) ; bmode_costs = mb -> bmode_costs [ A ] [ L ] ; } total_rd += rd_pick_intra4x4block ( mb , mb -> block + i , xd -> block + i , & best_mode , bmode_costs , ta + vp8_block2above [ i ] , tl + vp8_block2left [ i ] , & r , & ry , & d ) ; cost += r ; distortion += d ; tot_rate_y += ry ; mic -> bmi [ i ] . as_mode = best_mode ; if ( total_rd >= ( int64_t ) best_rd ) break ; } if ( total_rd >= ( int64_t ) best_rd ) return INT_MAX ; * Rate = cost ; * rate_y = tot_rate_y ; * Distortion = distortion ; return RDCOST ( mb -> rdmult , mb -> rddiv , cost , distortion ) ; }" 676,"CWE-835 inline void update_rq_clock ( struct rq * rq ) { if ( ! rq -> skip_clock_update ) { int cpu = cpu_of ( rq ) ; u64 irq_time ; rq -> clock = sched_clock_cpu ( cpu ) ; irq_time = irq_time_cpu ( cpu ) ; if ( rq -> clock - irq_time > rq -> clock_task ) rq -> clock_task = rq -> clock - irq_time ; sched_irq_time_avg_update ( rq , irq_time ) ; } } ","inline void update_rq_clock ( struct rq * rq ) { int cpu = cpu_of ( rq ) ; u64 irq_time ; if ( rq -> skip_clock_update ) return ; rq -> clock = sched_clock_cpu ( cpu ) ; irq_time = irq_time_cpu ( cpu ) ; if ( rq -> clock - irq_time > rq -> clock_task ) rq -> clock_task = rq -> clock - irq_time ; sched_irq_time_avg_update ( rq , irq_time ) ; }" 677,"CWE-119 static guint32 parse_wbxml_attribute_list ( proto_tree * tree , tvbuff_t * tvb , guint32 offset , guint32 str_tbl , guint8 level , guint8 * codepage_attr ) { guint32 tvb_len = tvb_reported_length ( tvb ) ; guint32 off = offset ; guint32 len ; guint str_len ; guint32 ent ; guint32 idx ; guint8 peek ; DebugLog ( ( ""parse_wbxml_attr (level = %u, offset = %u)\\n"" , level , offset ) ) ; while ( off < tvb_len ) { peek = tvb_get_guint8 ( tvb , off ) ; DebugLog ( ( ""ATTR: (top of while) level = %3u, peek = 0x%02X, "" ""off = %u, tvb_len = %u\\n"" , level , peek , off , tvb_len ) ) ; if ( ( peek & 0x3F ) < 5 ) switch ( peek ) { case 0x00 : * codepage_attr = tvb_get_guint8 ( tvb , off + 1 ) ; proto_tree_add_text ( tree , tvb , off , 2 , "" | Attr | A -->%3d "" ""| SWITCH_PAGE (Attr code page) |"" , * codepage_attr ) ; off += 2 ; break ; case 0x01 : off ++ ; DebugLog ( ( ""ATTR: level = %u, Return: len = %u\\n"" , level , off - offset ) ) ; return ( off - offset ) ; case 0x02 : ent = tvb_get_guintvar ( tvb , off + 1 , & len ) ; proto_tree_add_text ( tree , tvb , off , 1 + len , "" %3d | Attr | A %3d "" ""| ENTITY "" ""| %s\'&#%u;\'"" , level , * codepage_attr , Indent ( level ) , ent ) ; off += 1 + len ; break ; case 0x03 : len = tvb_strsize ( tvb , off + 1 ) ; proto_tree_add_text ( tree , tvb , off , 1 + len , "" %3d | Attr | A %3d "" ""| STR_I (Inline string) "" ""| %s\\\'%s\\\'"" , level , * codepage_attr , Indent ( level ) , tvb_format_text ( tvb , off + 1 , len - 1 ) ) ; off += 1 + len ; break ; case 0x04 : idx = tvb_get_guintvar ( tvb , off + 1 , & len ) ; str_len = tvb_strsize ( tvb , str_tbl + idx ) ; proto_tree_add_text ( tree , tvb , off , 1 + len , "" %3d | Attr | A %3d "" ""| LITERAL (Literal Attribute) "" ""| %s<%s />"" , level , * codepage_attr , Indent ( level ) , tvb_format_text ( tvb , str_tbl + idx , str_len - 1 ) ) ; off += 1 + len ; break ; case 0x40 : case 0x41 :","static guint32 parse_wbxml_attribute_list ( proto_tree * tree , tvbuff_t * tvb , guint32 offset , guint32 str_tbl , guint8 level , guint8 * codepage_attr ) { guint32 tvb_len = tvb_reported_length ( tvb ) ; guint32 off = offset , last_off ; guint32 len ; guint str_len ; guint32 ent ; guint32 idx ; guint8 peek ; DebugLog ( ( ""parse_wbxml_attr (level = %u, offset = %u)\\n"" , level , offset ) ) ; last_off = off ; while ( off < tvb_len ) { peek = tvb_get_guint8 ( tvb , off ) ; DebugLog ( ( ""ATTR: (top of while) level = %3u, peek = 0x%02X, "" ""off = %u, tvb_len = %u\\n"" , level , peek , off , tvb_len ) ) ; if ( ( peek & 0x3F ) < 5 ) switch ( peek ) { case 0x00 : * codepage_attr = tvb_get_guint8 ( tvb , off + 1 ) ; proto_tree_add_text ( tree , tvb , off , 2 , "" | Attr | A -->%3d "" ""| SWITCH_PAGE (Attr code page) |"" , * codepage_attr ) ; off += 2 ; break ; case 0x01 : off ++ ; DebugLog ( ( ""ATTR: level = %u, Return: len = %u\\n"" , level , off - offset ) ) ; return ( off - offset ) ; case 0x02 : ent = tvb_get_guintvar ( tvb , off + 1 , & len ) ; proto_tree_add_text ( tree , tvb , off , 1 + len , "" %3d | Attr | A %3d "" ""| ENTITY "" ""| %s\'&#%u;\'"" , level , * codepage_attr , Indent ( level ) , ent ) ; off += 1 + len ; break ; case 0x03 : len = tvb_strsize ( tvb , off + 1 ) ; proto_tree_add_text ( tree , tvb , off , 1 + len , "" %3d | Attr | A %3d "" ""| STR_I (Inline string) "" ""| %s\\\'%s\\\'"" , level , * codepage_attr , Indent ( level ) , tvb_format_text ( tvb , off + 1 , len - 1 ) ) ; off += 1 + len ; break ; case 0x04 : idx = tvb_get_guintvar ( tvb , off + 1 , & len ) ; str_len = tvb_strsize ( tvb , str_tbl + idx ) ; proto_tree_add_text ( tree , tvb , off , 1 + len , "" %3d | Attr | A %3d "" ""| LITERAL (Literal Attribute) "" ""| %s<%s />"" , level , * codepage_attr , Indent ( level ) , tvb_format_text ( tvb , str_tbl + idx , str_len - 1 ) ) ; off += 1 + len ; break ; case 0x40 : case 0x41 :" 678,"NVD-CWE-noinfo static void SaltTextAway ( XtermWidget xw , int which , CELL * cellc , CELL * cell ) { TScreen * screen = TScreenOf ( xw ) ; SelectedCells * scp ; int i ; int eol ; int need = 0 ; Char * line ; Char * lp ; CELL first = * cellc ; CELL last = * cell ; if ( which < 0 || which >= MAX_SELECTIONS ) { TRACE ( ( ""SaltTextAway - which selection?\\n"" ) ) ; return ; } scp = & ( screen -> selected_cells [ which ] ) ; TRACE ( ( ""SaltTextAway which=%d, first=%d,%d, last=%d,%d\\n"" , which , first . row , first . col , last . row , last . col ) ) ; if ( isSameRow ( & first , & last ) && first . col > last . col ) { int tmp ; EXCHANGE ( first . col , last . col , tmp ) ; } - last . col ; if ( isSameRow ( & last , & first ) ) { need = Length ( screen , first . row , first . col , last . col ) ; } else { need += Length ( screen , first . row , first . col , screen -> max_col ) + 1 ; for ( i = first . row + 1 ; i < last . row ; i ++ ) need += Length ( screen , i , 0 , screen -> max_col ) + 1 ; if ( last . col >= 0 ) need += Length ( screen , last . row , 0 , last . col ) ; } if_OPT_WIDE_CHARS ( screen , { need *= 4 ; } ) ; if ( need < 0 ) return ; if ( scp -> data_limit <= ( unsigned ) need ) { if ( ( line = ( Char * ) malloc ( ( size_t ) need + 1 ) ) == 0 ) SysError ( ERROR_BMALLOC2 ) ; free ( scp -> data_buffer ) ; scp -> data_buffer = line ; scp -> data_limit = ( size_t ) ( need + 1 ) ; } else { line = scp -> data_buffer ; } if ( line == 0 ) return ; line [ need ] = '\\0' ; lp = line ; if ( isSameRow ( & last , & first ) ) { lp = SaveText ( screen , last . row , first . col , last . col , lp , & eol ) ; } else { lp = SaveText ( screen , first . row , first . col , screen -> max_col , lp , & eol ) ; if ( eol ) * lp ++ = '\\n' ; for ( i = first . row + 1 ; i < last . row ; i ++ ) { lp = SaveText ( screen , i , 0 , screen -> max_col , lp , & eol ) ; if ( eol ) * lp ++ = '\\n' ; } if ( last . col >= 0 ) lp = SaveText ( screen , last . row , 0 , last . col , lp , & eol ) ; } * lp = '\\0' ; TRACE ( ( ""Salted TEXT:%u:%s\\n"" , ( unsigned ) ( lp - line ) , visibleChars ( line , ( unsigned ) ( lp - line ) ) ) ) ; scp -> data_length = ( size_t ) ( lp - line ) ; }","static void SaltTextAway ( XtermWidget xw , int which , CELL * cellc , CELL * cell ) { TScreen * screen = TScreenOf ( xw ) ; SelectedCells * scp ; int i ; int eol ; int need = 0 ; size_t have = 0 ; Char * line ; Char * lp ; CELL first = * cellc ; CELL last = * cell ; if ( which < 0 || which >= MAX_SELECTIONS ) { TRACE ( ( ""SaltTextAway - which selection?\\n"" ) ) ; return ; } scp = & ( screen -> selected_cells [ which ] ) ; TRACE ( ( ""SaltTextAway which=%d, first=%d,%d, last=%d,%d\\n"" , which , first . row , first . col , last . row , last . col ) ) ; if ( isSameRow ( & first , & last ) && first . col > last . col ) { int tmp ; EXCHANGE ( first . col , last . col , tmp ) ; } if ( isSameRow ( & last , & first ) ) { need = Length ( screen , first . row , first . col , last . col ) ; } else { need += Length ( screen , first . row , first . col , screen -> max_col ) + 1 ; for ( i = first . row + 1 ; i < last . row ; i ++ ) need += Length ( screen , i , 0 , screen -> max_col ) + 1 ; if ( last . col >= 0 ) need += Length ( screen , last . row , 0 , last . col ) ; } if_OPT_WIDE_CHARS ( screen , { if ( need > 0 ) { if ( screen -> max_combining > 0 ) need += screen -> max_combining ; need *= 6 ; } } ) ; if ( need < 0 ) return ; if ( scp -> data_limit <= ( unsigned ) need ) { if ( ( line = ( Char * ) malloc ( ( size_t ) need + 1 ) ) == 0 ) SysError ( ERROR_BMALLOC2 ) ; free ( scp -> data_buffer ) ; scp -> data_buffer = line ; scp -> data_limit = ( size_t ) ( need + 1 ) ; } else { line = scp -> data_buffer ; } if ( line == 0 ) return ; line [ need ] = '\\0' ; lp = line ; if ( isSameRow ( & last , & first ) ) { lp = SaveText ( screen , last . row , first . col , last . col , lp , & eol ) ; } else { lp = SaveText ( screen , first . row , first . col , screen -> max_col , lp , & eol ) ; if ( eol ) * lp ++ = '\\n' ; for ( i = first . row + 1 ; i < last . row ; i ++ ) { lp = SaveText ( screen , i , 0 , screen -> max_col , lp , & eol ) ; if ( eol ) * lp ++ = '\\n' ; } if ( last . col >= 0 ) lp = SaveText ( screen , last . row , 0 , last . col , lp , & eol ) ; } * lp = '\\0' ; have = ( size_t ) ( lp - line ) ; if ( ( have * 2 ) < ( size_t ) need ) { scp -> data_limit = have + 1 ; line = realloc ( line , scp -> data_limit ) ; } TRACE ( ( ""Salted TEXT:%u:%s\\n"" , ( unsigned ) have , visibleChars ( line , ( unsigned ) have ) ) ) ; scp -> data_length = have ; }" 679,"CWE-119 int vp9_prob_diff_update_savings_search_model ( const unsigned int * ct , const vp9_prob * oldp , vp9_prob * bestp , vp9_prob upd ) { int i , old_b , new_b , update_b , savings , bestsavings , step ; int newp ; vp9_prob bestnewp , newplist [ ENTROPY_NODES ] , oldplist [ ENTROPY_NODES ] ; vp9_model_to_full_probs ( oldp , oldplist ) ; vpx_memcpy ( newplist , oldp , sizeof ( vp9_prob ) * UNCONSTRAINED_NODES ) ; for ( i = UNCONSTRAINED_NODES , old_b = 0 ; i < ENTROPY_NODES ; ++ i ) old_b += cost_branch256 ( ct + 2 * i , oldplist [ i ] ) ; old_b += cost_branch256 ( ct + 2 * PIVOT_NODE , oldplist [ PIVOT_NODE ] ) ; bestsavings = 0 ; bestnewp = oldp [ PIVOT_NODE ] ; step = ( * bestp > oldp [ PIVOT_NODE ] ? - 1 : 1 ) ; for ( newp = * bestp ; newp != oldp [ PIVOT_NODE ] ; newp += step ) { if ( newp < 1 || newp > 255 ) continue ; newplist [ PIVOT_NODE ] = newp ; vp9_model_to_full_probs ( newplist , newplist ) ; for ( i = UNCONSTRAINED_NODES , new_b = 0 ; i < ENTROPY_NODES ; ++ i ) new_b += cost_branch256 ( ct + 2 * i , newplist [ i ] ) ; new_b += cost_branch256 ( ct + 2 * PIVOT_NODE , newplist [ PIVOT_NODE ] ) ; update_b = prob_diff_update_cost ( newp , oldp [ PIVOT_NODE ] ) + vp9_cost_upd256 ; savings = old_b - new_b - update_b ; if ( savings > bestsavings ) { bestsavings = savings ; bestnewp = newp ; } } * bestp = bestnewp ; return bestsavings ; }","int vp9_prob_diff_update_savings_search_model ( const unsigned int * ct , const vpx_prob * oldp , vpx_prob * bestp , vpx_prob upd , int stepsize ) { int i , old_b , new_b , update_b , savings , bestsavings , step ; int newp ; vpx_prob bestnewp , newplist [ ENTROPY_NODES ] , oldplist [ ENTROPY_NODES ] ; vp9_model_to_full_probs ( oldp , oldplist ) ; memcpy ( newplist , oldp , sizeof ( vpx_prob ) * UNCONSTRAINED_NODES ) ; for ( i = UNCONSTRAINED_NODES , old_b = 0 ; i < ENTROPY_NODES ; ++ i ) old_b += cost_branch256 ( ct + 2 * i , oldplist [ i ] ) ; old_b += cost_branch256 ( ct + 2 * PIVOT_NODE , oldplist [ PIVOT_NODE ] ) ; bestsavings = 0 ; bestnewp = oldp [ PIVOT_NODE ] ; if ( * bestp > oldp [ PIVOT_NODE ] ) { step = - stepsize ; for ( newp = * bestp ; newp > oldp [ PIVOT_NODE ] ; newp += step ) { if ( newp < 1 || newp > 255 ) continue ; newplist [ PIVOT_NODE ] = newp ; vp9_model_to_full_probs ( newplist , newplist ) ; for ( i = UNCONSTRAINED_NODES , new_b = 0 ; i < ENTROPY_NODES ; ++ i ) new_b += cost_branch256 ( ct + 2 * i , newplist [ i ] ) ; new_b += cost_branch256 ( ct + 2 * PIVOT_NODE , newplist [ PIVOT_NODE ] ) ; update_b = prob_diff_update_cost ( newp , oldp [ PIVOT_NODE ] ) + vp9_cost_upd256 ; savings = old_b - new_b - update_b ; if ( savings > bestsavings ) { bestsavings = savings ; bestnewp = newp ; } } } else { step = stepsize ; for ( newp = * bestp ; newp < oldp [ PIVOT_NODE ] ; newp += step ) { if ( newp < 1 || newp > 255 ) continue ; newplist [ PIVOT_NODE ] = newp ; vp9_model_to_full_probs ( newplist , newplist ) ; for ( i = UNCONSTRAINED_NODES , new_b = 0 ; i < ENTROPY_NODES ; ++ i ) new_b += cost_branch256 ( ct + 2 * i , newplist [ i ] ) ; new_b += cost_branch256 ( ct + 2 * PIVOT_NODE , newplist [ PIVOT_NODE ] ) ; update_b = prob_diff_update_cost ( newp , oldp [ PIVOT_NODE ] ) + vp9_cost_upd256 ; savings = old_b - new_b - update_b ; if ( savings > bestsavings ) { bestsavings = savings ; bestnewp = newp ; } } } * bestp = bestnewp ; return bestsavings ; }" 680,"CWE-119 void vp9_update_spatial_layer_framerate ( VP9_COMP * const cpi , double framerate ) { const VP9_CONFIG * const oxcf = & cpi -> oxcf ; LAYER_CONTEXT * const lc = get_layer_context ( & cpi -> svc ) ; RATE_CONTROL * const lrc = & lc -> rc ; lc -> framerate = framerate ; lrc -> av_per_frame_bandwidth = ( int ) ( lc -> target_bandwidth / lc -> framerate ) ; lrc -> min_frame_bandwidth = ( int ) ( lrc -> av_per_frame_bandwidth * oxcf -> two_pass_vbrmin_section / 100 ) ; lrc -> max_frame_bandwidth = ( int ) ( ( ( int64_t ) lrc -> av_per_frame_bandwidth * oxcf -> two_pass_vbrmax_section ) / 100 ) ; lrc -> max_gf_interval = 16 ; lrc -> static_scene_max_gf_interval = cpi -> key_frame_frequency >> 1 ; if ( oxcf -> play_alternate && oxcf -> lag_in_frames ) { if ( lrc -> max_gf_interval > oxcf -> lag_in_frames - 1 ) lrc -> max_gf_interval = oxcf -> lag_in_frames - 1 ; if ( lrc -> static_scene_max_gf_interval > oxcf -> lag_in_frames - 1 ) lrc -> static_scene_max_gf_interval = oxcf -> lag_in_frames - 1 ; } if ( lrc -> max_gf_interval > lrc -> static_scene_max_gf_interval ) lrc -> max_gf_interval = lrc -> static_scene_max_gf_interval ; }","void vp9_update_spatial_layer_framerate ( VP9_COMP * const cpi , double framerate ) { const VP9EncoderConfig * const oxcf = & cpi -> oxcf ; LAYER_CONTEXT * const lc = get_layer_context ( cpi ) ; RATE_CONTROL * const lrc = & lc -> rc ; lc -> framerate = framerate ; lrc -> avg_frame_bandwidth = ( int ) ( lc -> target_bandwidth / lc -> framerate ) ; lrc -> min_frame_bandwidth = ( int ) ( lrc -> avg_frame_bandwidth * oxcf -> two_pass_vbrmin_section / 100 ) ; lrc -> max_frame_bandwidth = ( int ) ( ( ( int64_t ) lrc -> avg_frame_bandwidth * oxcf -> two_pass_vbrmax_section ) / 100 ) ; vp9_rc_set_gf_interval_range ( cpi , lrc ) ; }" 681,"CWE-399 void handle_lddfmna ( struct pt_regs * regs , unsigned long sfar , unsigned long sfsr ) { unsigned long pc = regs -> tpc ; unsigned long tstate = regs -> tstate ; u32 insn ; u64 value ; u8 freg ; int flag ; struct fpustate * f = FPUSTATE ; if ( tstate & TSTATE_PRIV ) die_if_kernel ( ""lddfmna from kernel"" , regs ) ; perf_sw_event ( PERF_COUNT_SW_ALIGNMENT_FAULTS , 1 , 0 , regs , sfar ) ; if ( test_thread_flag ( TIF_32BIT ) ) pc = ( u32 ) pc ; if ( get_user ( insn , ( u32 __user * ) pc ) != - EFAULT ) { int asi = decode_asi ( insn , regs ) ; u32 first , second ; int err ; if ( ( asi > ASI_SNFL ) || ( asi < ASI_P ) ) goto daex ; first = second = 0 ; err = get_user ( first , ( u32 __user * ) sfar ) ; if ( ! err ) err = get_user ( second , ( u32 __user * ) ( sfar + 4 ) ) ; if ( err ) { if ( ! ( asi & 0x2 ) ) goto daex ; first = second = 0 ; } save_and_clear_fpu ( ) ; freg = ( ( insn >> 25 ) & 0x1e ) | ( ( insn >> 20 ) & 0x20 ) ; value = ( ( ( u64 ) first ) << 32 ) | second ; if ( asi & 0x8 ) value = __swab64p ( & value ) ; flag = ( freg < 32 ) ? FPRS_DL : FPRS_DU ; if ( ! ( current_thread_info ( ) -> fpsaved [ 0 ] & FPRS_FEF ) ) { current_thread_info ( ) -> fpsaved [ 0 ] = FPRS_FEF ; current_thread_info ( ) -> gsr [ 0 ] = 0 ; } if ( ! ( current_thread_info ( ) -> fpsaved [ 0 ] & flag ) ) { if ( freg < 32 ) memset ( f -> regs , 0 , 32 * sizeof ( u32 ) ) ; else memset ( f -> regs + 32 , 0 , 32 * sizeof ( u32 ) ) ; } * ( u64 * ) ( f -> regs + freg ) = value ; current_thread_info ( ) -> fpsaved [ 0 ] |= flag ; } else { daex : if ( tlb_type == hypervisor ) sun4v_data_access_exception ( regs , sfar , sfsr ) ; else spitfire_data_access_exception ( regs , sfsr , sfar ) ; return ; } advance ( regs ) ; }","void handle_lddfmna ( struct pt_regs * regs , unsigned long sfar , unsigned long sfsr ) { unsigned long pc = regs -> tpc ; unsigned long tstate = regs -> tstate ; u32 insn ; u64 value ; u8 freg ; int flag ; struct fpustate * f = FPUSTATE ; if ( tstate & TSTATE_PRIV ) die_if_kernel ( ""lddfmna from kernel"" , regs ) ; perf_sw_event ( PERF_COUNT_SW_ALIGNMENT_FAULTS , 1 , regs , sfar ) ; if ( test_thread_flag ( TIF_32BIT ) ) pc = ( u32 ) pc ; if ( get_user ( insn , ( u32 __user * ) pc ) != - EFAULT ) { int asi = decode_asi ( insn , regs ) ; u32 first , second ; int err ; if ( ( asi > ASI_SNFL ) || ( asi < ASI_P ) ) goto daex ; first = second = 0 ; err = get_user ( first , ( u32 __user * ) sfar ) ; if ( ! err ) err = get_user ( second , ( u32 __user * ) ( sfar + 4 ) ) ; if ( err ) { if ( ! ( asi & 0x2 ) ) goto daex ; first = second = 0 ; } save_and_clear_fpu ( ) ; freg = ( ( insn >> 25 ) & 0x1e ) | ( ( insn >> 20 ) & 0x20 ) ; value = ( ( ( u64 ) first ) << 32 ) | second ; if ( asi & 0x8 ) value = __swab64p ( & value ) ; flag = ( freg < 32 ) ? FPRS_DL : FPRS_DU ; if ( ! ( current_thread_info ( ) -> fpsaved [ 0 ] & FPRS_FEF ) ) { current_thread_info ( ) -> fpsaved [ 0 ] = FPRS_FEF ; current_thread_info ( ) -> gsr [ 0 ] = 0 ; } if ( ! ( current_thread_info ( ) -> fpsaved [ 0 ] & flag ) ) { if ( freg < 32 ) memset ( f -> regs , 0 , 32 * sizeof ( u32 ) ) ; else memset ( f -> regs + 32 , 0 , 32 * sizeof ( u32 ) ) ; } * ( u64 * ) ( f -> regs + freg ) = value ; current_thread_info ( ) -> fpsaved [ 0 ] |= flag ; } else { daex : if ( tlb_type == hypervisor ) sun4v_data_access_exception ( regs , sfar , sfsr ) ; else spitfire_data_access_exception ( regs , sfsr , sfar ) ; return ; } advance ( regs ) ; }" 682,"CWE-416 static int xfrm_user_rcv_msg ( struct sk_buff * skb , struct nlmsghdr * nlh , struct netlink_ext_ack * extack ) { struct net * net = sock_net ( skb -> sk ) ; struct nlattr * attrs [ XFRMA_MAX + 1 ] ; const struct xfrm_link * link ; int type , err ; # ifdef CONFIG_COMPAT if ( in_compat_syscall ( ) ) return - EOPNOTSUPP ; # endif type = nlh -> nlmsg_type ; if ( type > XFRM_MSG_MAX ) return - EINVAL ; type -= XFRM_MSG_BASE ; link = & xfrm_dispatch [ type ] ; if ( ! netlink_net_capable ( skb , CAP_NET_ADMIN ) ) return - EPERM ; if ( ( type == ( XFRM_MSG_GETSA - XFRM_MSG_BASE ) || type == ( XFRM_MSG_GETPOLICY - XFRM_MSG_BASE ) ) && ( nlh -> nlmsg_flags & NLM_F_DUMP ) ) { if ( link -> dump == NULL ) return - EINVAL ; { struct netlink_dump_control c = { . dump = link -> dump , . done = link -> done , } ; return netlink_dump_start ( net -> xfrm . nlsk , skb , nlh , & c ) ; } } err = nlmsg_parse ( nlh , xfrm_msg_min [ type ] , attrs , link -> nla_max ? : XFRMA_MAX , link -> nla_pol ? : xfrma_policy , extack ) ; if ( err < 0 ) return err ; if ( link -> doit == NULL ) return - EINVAL ; return link -> doit ( skb , nlh , attrs ) ; }","static int xfrm_user_rcv_msg ( struct sk_buff * skb , struct nlmsghdr * nlh , struct netlink_ext_ack * extack ) { struct net * net = sock_net ( skb -> sk ) ; struct nlattr * attrs [ XFRMA_MAX + 1 ] ; const struct xfrm_link * link ; int type , err ; # ifdef CONFIG_COMPAT if ( in_compat_syscall ( ) ) return - EOPNOTSUPP ; # endif type = nlh -> nlmsg_type ; if ( type > XFRM_MSG_MAX ) return - EINVAL ; type -= XFRM_MSG_BASE ; link = & xfrm_dispatch [ type ] ; if ( ! netlink_net_capable ( skb , CAP_NET_ADMIN ) ) return - EPERM ; if ( ( type == ( XFRM_MSG_GETSA - XFRM_MSG_BASE ) || type == ( XFRM_MSG_GETPOLICY - XFRM_MSG_BASE ) ) && ( nlh -> nlmsg_flags & NLM_F_DUMP ) ) { if ( link -> dump == NULL ) return - EINVAL ; { struct netlink_dump_control c = { . start = link -> start , . dump = link -> dump , . done = link -> done , } ; return netlink_dump_start ( net -> xfrm . nlsk , skb , nlh , & c ) ; } } err = nlmsg_parse ( nlh , xfrm_msg_min [ type ] , attrs , link -> nla_max ? : XFRMA_MAX , link -> nla_pol ? : xfrma_policy , extack ) ; if ( err < 0 ) return err ; if ( link -> doit == NULL ) return - EINVAL ; return link -> doit ( skb , nlh , attrs ) ; }" 683,"CWE-287 static ngx_int_t ngx_http_auth_spnego_handler ( ngx_http_request_t * r ) { ngx_int_t ret = NGX_DECLINED ; ngx_http_auth_spnego_ctx_t * ctx ; ngx_http_auth_spnego_loc_conf_t * alcf ; alcf = ngx_http_get_module_loc_conf ( r , ngx_http_auth_spnego_module ) ; if ( alcf -> protect == 0 ) { return NGX_DECLINED ; } ctx = ngx_http_get_module_ctx ( r , ngx_http_auth_spnego_module ) ; if ( NULL == ctx ) { ctx = ngx_palloc ( r -> pool , sizeof ( ngx_http_auth_spnego_ctx_t ) ) ; if ( NULL == ctx ) { return NGX_HTTP_INTERNAL_SERVER_ERROR ; } ctx -> token . len = 0 ; ctx -> token . data = NULL ; ctx -> head = 0 ; ctx -> ret = NGX_HTTP_UNAUTHORIZED ; ngx_http_set_ctx ( r , ctx , ngx_http_auth_spnego_module ) ; } spnego_debug3 ( ""SSO auth handling IN: token.len=%d, head=%d, ret=%d"" , ctx -> token . len , ctx -> head , ctx -> ret ) ; if ( ctx -> token . len && ctx -> head ) { spnego_debug1 ( ""Found token and head, returning %d"" , ctx -> ret ) ; return ctx -> ret ; } if ( NULL != r -> headers_in . user . data ) { spnego_debug0 ( ""User header set"" ) ; return NGX_OK ; } spnego_debug0 ( ""Begin auth"" ) ; if ( alcf -> allow_basic ) { spnego_debug0 ( ""Detect basic auth"" ) ; ret = ngx_http_auth_basic_user ( r ) ; if ( NGX_OK == ret ) { spnego_debug0 ( ""Basic auth credentials supplied by client"" ) ; if ( NGX_DECLINED == ngx_http_auth_spnego_basic ( r , ctx , alcf ) ) { spnego_debug0 ( ""Basic auth failed"" ) ; if ( NGX_ERROR == ngx_http_auth_spnego_headers_basic_only ( r , ctx , alcf ) ) { spnego_debug0 ( ""Error setting headers"" ) ; return ( ctx -> ret = NGX_HTTP_INTERNAL_SERVER_ERROR ) ; } return ( ctx -> ret = NGX_HTTP_UNAUTHORIZED ) ; } if ( ! ngx_spnego_authorized_principal ( r , & r -> headers_in . user , alcf ) ) { spnego_debug0 ( ""User not authorized"" ) ; return ( ctx -> ret = NGX_HTTP_FORBIDDEN ) ; } spnego_debug0 ( ""Basic auth succeeded"" ) ; return ( ctx -> ret = NGX_OK ) ; } } spnego_debug0 ( ""Detect SPNEGO token"" ) ; ret = ngx_http_auth_spnego_token ( r , ctx ) ; if ( NGX_OK == ret ) { spnego_debug0 ( ""Client sent a reasonable Negotiate header"" ) ; ret = ngx_http_auth_spnego_auth_user_gss ( r , ctx , alcf ) ; if ( NGX_ERROR == ret ) { spnego_debug0 ( ""GSSAPI failed"" ) ; return ( ctx -> ret = NGX_HTTP_INTERNAL_SERVER_ERROR ) ; } if ( NGX_DECLINED == ret ) { spnego_debug0 ( ""GSSAPI failed"" ) ; if ( ! alcf -> allow_basic ) { return ( ctx -> ret = NGX_HTTP_FORBIDDEN ) ; } if ( NGX_ERROR == ngx_http_auth_spnego_headers_basic_only ( r , ctx , alcf ) ) { spnego_debug0 ( ""Error setting headers"" ) ; return ( ctx -> ret = NGX_HTTP_INTERNAL_SERVER_ERROR ) ; } return ( ctx -> ret = NGX_HTTP_UNAUTHORIZED ) ; } if ( ! ngx_spnego_authorized_principal ( r , & r -> headers_in . user , alcf ) ) { spnego_debug0 ( ""User not authorized"" ) ; return ( ctx -> ret = NGX_HTTP_FORBIDDEN ) ; } spnego_debug0 ( ""GSSAPI auth succeeded"" ) ; } ngx_str_t * token_out_b64 = NULL ; switch ( ret ) { case NGX_DECLINED : ctx -> ret = NGX_HTTP_UNAUTHORIZED ; break ; case NGX_OK : ctx -> ret = NGX_OK ; token_out_b64 = & ctx -> token_out_b64 ; break ;","static ngx_int_t ngx_http_auth_spnego_handler ( ngx_http_request_t * r ) { ngx_int_t ret = NGX_DECLINED ; ngx_http_auth_spnego_ctx_t * ctx ; ngx_http_auth_spnego_loc_conf_t * alcf ; alcf = ngx_http_get_module_loc_conf ( r , ngx_http_auth_spnego_module ) ; if ( alcf -> protect == 0 ) { return NGX_DECLINED ; } ctx = ngx_http_get_module_ctx ( r , ngx_http_auth_spnego_module ) ; if ( NULL == ctx ) { ctx = ngx_palloc ( r -> pool , sizeof ( ngx_http_auth_spnego_ctx_t ) ) ; if ( NULL == ctx ) { return NGX_HTTP_INTERNAL_SERVER_ERROR ; } ctx -> token . len = 0 ; ctx -> token . data = NULL ; ctx -> head = 0 ; ctx -> ret = NGX_HTTP_UNAUTHORIZED ; ngx_http_set_ctx ( r , ctx , ngx_http_auth_spnego_module ) ; } spnego_debug3 ( ""SSO auth handling IN: token.len=%d, head=%d, ret=%d"" , ctx -> token . len , ctx -> head , ctx -> ret ) ; if ( ctx -> token . len && ctx -> head ) { spnego_debug1 ( ""Found token and head, returning %d"" , ctx -> ret ) ; return ctx -> ret ; } if ( NULL != r -> headers_in . user . data ) { spnego_debug0 ( ""User header set"" ) ; return NGX_OK ; } spnego_debug0 ( ""Begin auth"" ) ; if ( alcf -> allow_basic ) { spnego_debug0 ( ""Detect basic auth"" ) ; ret = ngx_http_auth_basic_user ( r ) ; if ( NGX_OK == ret ) { spnego_debug0 ( ""Basic auth credentials supplied by client"" ) ; if ( NGX_OK != ngx_http_auth_spnego_basic ( r , ctx , alcf ) ) { spnego_debug0 ( ""Basic auth failed"" ) ; if ( NGX_ERROR == ngx_http_auth_spnego_headers_basic_only ( r , ctx , alcf ) ) { spnego_debug0 ( ""Error setting headers"" ) ; return ( ctx -> ret = NGX_HTTP_INTERNAL_SERVER_ERROR ) ; } return ( ctx -> ret = NGX_HTTP_UNAUTHORIZED ) ; } if ( ! ngx_spnego_authorized_principal ( r , & r -> headers_in . user , alcf ) ) { spnego_debug0 ( ""User not authorized"" ) ; return ( ctx -> ret = NGX_HTTP_FORBIDDEN ) ; } spnego_debug0 ( ""Basic auth succeeded"" ) ; return ( ctx -> ret = NGX_OK ) ; } } spnego_debug0 ( ""Detect SPNEGO token"" ) ; ret = ngx_http_auth_spnego_token ( r , ctx ) ; if ( NGX_OK == ret ) { spnego_debug0 ( ""Client sent a reasonable Negotiate header"" ) ; ret = ngx_http_auth_spnego_auth_user_gss ( r , ctx , alcf ) ; if ( NGX_ERROR == ret ) { spnego_debug0 ( ""GSSAPI failed"" ) ; return ( ctx -> ret = NGX_HTTP_INTERNAL_SERVER_ERROR ) ; } if ( NGX_DECLINED == ret ) { spnego_debug0 ( ""GSSAPI failed"" ) ; if ( ! alcf -> allow_basic ) { return ( ctx -> ret = NGX_HTTP_FORBIDDEN ) ; } if ( NGX_ERROR == ngx_http_auth_spnego_headers_basic_only ( r , ctx , alcf ) ) { spnego_debug0 ( ""Error setting headers"" ) ; return ( ctx -> ret = NGX_HTTP_INTERNAL_SERVER_ERROR ) ; } return ( ctx -> ret = NGX_HTTP_UNAUTHORIZED ) ; } if ( ! ngx_spnego_authorized_principal ( r , & r -> headers_in . user , alcf ) ) { spnego_debug0 ( ""User not authorized"" ) ; return ( ctx -> ret = NGX_HTTP_FORBIDDEN ) ; } spnego_debug0 ( ""GSSAPI auth succeeded"" ) ; } ngx_str_t * token_out_b64 = NULL ; switch ( ret ) { case NGX_DECLINED : ctx -> ret = NGX_HTTP_UNAUTHORIZED ; break ; case NGX_OK : ctx -> ret = NGX_OK ; token_out_b64 = & ctx -> token_out_b64 ; break ;" 684,"CWE-119 WORD32 ih264d_parse_islice ( dec_struct_t * ps_dec , UWORD16 u2_first_mb_in_slice ) { dec_pic_params_t * ps_pps = ps_dec -> ps_cur_pps ; dec_slice_params_t * ps_slice = ps_dec -> ps_cur_slice ; UWORD32 * pu4_bitstrm_buf = ps_dec -> ps_bitstrm -> pu4_buffer ; UWORD32 * pu4_bitstrm_ofst = & ps_dec -> ps_bitstrm -> u4_ofst ; UWORD32 u4_temp ; WORD32 i_temp ; WORD32 ret ; if ( ps_slice -> u1_nal_ref_idc != 0 ) { if ( ! ps_dec -> ps_dpb_cmds -> u1_dpb_commands_read ) ps_dec -> u4_bitoffset = ih264d_read_mmco_commands ( ps_dec ) ; else ps_dec -> ps_bitstrm -> u4_ofst += ps_dec -> u4_bitoffset ; } i_temp = ps_pps -> u1_pic_init_qp if ( ( i_temp < 0 ) || ( i_temp > 51 ) ) return ERROR_INV_RANGE_QP_T ; ps_slice -> u1_slice_qp = i_temp ; COPYTHECONTEXT ( ""SH: slice_qp_delta"" , ps_slice -> u1_slice_qp - ps_pps -> u1_pic_init_qp ) ; if ( ps_pps -> u1_deblocking_filter_parameters_present_flag == 1 ) { u4_temp = ih264d_uev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) ; COPYTHECONTEXT ( ""SH: disable_deblocking_filter_idc"" , u4_temp ) ; if ( u4_temp > SLICE_BOUNDARY_DBLK_DISABLED ) { return ERROR_INV_SLICE_HDR_T ; } ps_slice -> u1_disable_dblk_filter_idc = u4_temp ; if ( u4_temp != 1 ) { i_temp = ih264d_sev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) << 1 ; if ( ( MIN_DBLK_FIL_OFF > i_temp ) || ( i_temp > MAX_DBLK_FIL_OFF ) ) { return ERROR_INV_SLICE_HDR_T ; } ps_slice -> i1_slice_alpha_c0_offset = i_temp ; COPYTHECONTEXT ( ""SH: slice_alpha_c0_offset_div2"" , ps_slice -> i1_slice_alpha_c0_offset >> 1 ) ; i_temp = ih264d_sev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) << 1 ; if ( ( MIN_DBLK_FIL_OFF > i_temp ) || ( i_temp > MAX_DBLK_FIL_OFF ) ) { return ERROR_INV_SLICE_HDR_T ; } ps_slice -> i1_slice_beta_offset = i_temp ; COPYTHECONTEXT ( ""SH: slice_beta_offset_div2"" , ps_slice -> i1_slice_beta_offset >> 1 ) ; } else { ps_slice -> i1_slice_alpha_c0_offset = 0 ; ps_slice -> i1_slice_beta_offset = 0 ; } } else { ps_slice -> u1_disable_dblk_filter_idc = 0 ; ps_slice -> i1_slice_alpha_c0_offset = 0 ;","WORD32 ih264d_parse_islice ( dec_struct_t * ps_dec , UWORD16 u2_first_mb_in_slice ) { dec_pic_params_t * ps_pps = ps_dec -> ps_cur_pps ; dec_slice_params_t * ps_slice = ps_dec -> ps_cur_slice ; UWORD32 * pu4_bitstrm_buf = ps_dec -> ps_bitstrm -> pu4_buffer ; UWORD32 * pu4_bitstrm_ofst = & ps_dec -> ps_bitstrm -> u4_ofst ; UWORD32 u4_temp ; WORD32 i_temp ; WORD32 ret ; if ( ps_slice -> u1_nal_ref_idc != 0 ) { if ( ! ps_dec -> ps_dpb_cmds -> u1_dpb_commands_read ) { i_temp = ih264d_read_mmco_commands ( ps_dec ) ; if ( i_temp < 0 ) { return ERROR_DBP_MANAGER_T ; } ps_dec -> u4_bitoffset = i_temp ; } else ps_dec -> ps_bitstrm -> u4_ofst += ps_dec -> u4_bitoffset ; } i_temp = ps_pps -> u1_pic_init_qp ih264d_sev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) ; if ( ( i_temp < 0 ) || ( i_temp > 51 ) ) return ERROR_INV_RANGE_QP_T ; ps_slice -> u1_slice_qp = i_temp ; COPYTHECONTEXT ( ""SH: slice_qp_delta"" , ps_slice -> u1_slice_qp - ps_pps -> u1_pic_init_qp ) ; if ( ps_pps -> u1_deblocking_filter_parameters_present_flag == 1 ) { u4_temp = ih264d_uev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) ; COPYTHECONTEXT ( ""SH: disable_deblocking_filter_idc"" , u4_temp ) ; if ( u4_temp > SLICE_BOUNDARY_DBLK_DISABLED ) { return ERROR_INV_SLICE_HDR_T ; } ps_slice -> u1_disable_dblk_filter_idc = u4_temp ; if ( u4_temp != 1 ) { i_temp = ih264d_sev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) << 1 ; if ( ( MIN_DBLK_FIL_OFF > i_temp ) || ( i_temp > MAX_DBLK_FIL_OFF ) ) { return ERROR_INV_SLICE_HDR_T ; } ps_slice -> i1_slice_alpha_c0_offset = i_temp ; COPYTHECONTEXT ( ""SH: slice_alpha_c0_offset_div2"" , ps_slice -> i1_slice_alpha_c0_offset >> 1 ) ; i_temp = ih264d_sev ( pu4_bitstrm_ofst , pu4_bitstrm_buf ) << 1 ; if ( ( MIN_DBLK_FIL_OFF > i_temp ) || ( i_temp > MAX_DBLK_FIL_OFF ) ) { return ERROR_INV_SLICE_HDR_T ; } ps_slice -> i1_slice_beta_offset = i_temp ; COPYTHECONTEXT ( ""SH: slice_beta_offset_div2"" , ps_slice -> i1_slice_beta_offset >> 1 ) ; } else { ps_slice -> i1_slice_alpha_c0_offset = 0 ; ps_slice -> i1_slice_beta_offset = 0 ; } } else { ps_slice -> u1_disable_dblk_filter_idc = 0 ; ps_slice -> i1_slice_alpha_c0_offset = 0 ;" 685,CWE-125 static int PARSER_FLAGS ( PyCompilerFlags * flags ) { int parser_flags = 0 ; if ( ! flags ) return 0 ; if ( flags -> cf_flags & PyCF_DONT_IMPLY_DEDENT ) parser_flags |= PyPARSE_DONT_IMPLY_DEDENT ; if ( flags -> cf_flags & PyCF_IGNORE_COOKIE ) parser_flags |= PyPARSE_IGNORE_COOKIE ; if ( flags -> cf_flags & CO_FUTURE_BARRY_AS_BDFL ) parser_flags |= PyPARSE_BARRY_AS_BDFL ; return parser_flags ; },static int PARSER_FLAGS ( PyCompilerFlags * flags ) { int parser_flags = 0 ; if ( ! flags ) return 0 ; if ( flags -> cf_flags & PyCF_DONT_IMPLY_DEDENT ) parser_flags |= PyPARSE_DONT_IMPLY_DEDENT ; if ( flags -> cf_flags & PyCF_IGNORE_COOKIE ) parser_flags |= PyPARSE_IGNORE_COOKIE ; if ( flags -> cf_flags & CO_FUTURE_BARRY_AS_BDFL ) parser_flags |= PyPARSE_BARRY_AS_BDFL ; if ( flags -> cf_flags & PyCF_TYPE_COMMENTS ) parser_flags |= PyPARSE_TYPE_COMMENTS ; return parser_flags ; } 686,"CWE-119 static int mark_source_chains ( const struct xt_table_info * newinfo , unsigned int valid_hooks , void * entry0 ) { unsigned int hook ; for ( hook = 0 ; hook < NF_ARP_NUMHOOKS ; hook ++ ) { unsigned int pos = newinfo -> hook_entry [ hook ] ; struct arpt_entry * e = ( struct arpt_entry * ) ( entry0 + pos ) ; if ( ! ( valid_hooks & ( 1 << hook ) ) ) continue ; e -> counters . pcnt = pos ; for ( ; ; ) { const struct xt_standard_target * t = ( void * ) arpt_get_target_c ( e ) ; int visited = e -> comefrom & ( 1 << hook ) ; if ( e -> comefrom & ( 1 << NF_ARP_NUMHOOKS ) ) { pr_notice ( ""arptables: loop hook %u pos %u %08X.\\n"" , hook , pos , e -> comefrom ) ; return 0 ; } e -> comefrom |= ( ( 1 << hook ) | ( 1 << NF_ARP_NUMHOOKS ) ) ; if ( ( e -> target_offset == sizeof ( struct arpt_entry ) && ( strcmp ( t -> target . u . user . name , XT_STANDARD_TARGET ) == 0 ) && t -> verdict < 0 && unconditional ( & e -> arp ) ) || visited ) { unsigned int oldpos , size ; if ( ( strcmp ( t -> target . u . user . name , XT_STANDARD_TARGET ) == 0 ) && t -> verdict < - NF_MAX_VERDICT - 1 ) { duprintf ( ""mark_source_chains: bad "" ""negative verdict (%i)\\n"" , t -> verdict ) ; return 0 ; } do { e -> comefrom ^= ( 1 << NF_ARP_NUMHOOKS ) ; oldpos = pos ; pos = e -> counters . pcnt ; e -> counters . pcnt = 0 ; if ( pos == oldpos ) goto next ; e = ( struct arpt_entry * ) ( entry0 + pos ) ; } while ( oldpos == pos + e -> next_offset ) ; size = e -> next_offset ; e = ( struct arpt_entry * ) ( entry0 + pos + size ) ; e -> counters . pcnt = pos ; pos += size ; } else { int newpos = t -> verdict ; if ( strcmp ( t -> target . u . user . name , XT_STANDARD_TARGET ) == 0 && newpos >= 0 ) { if ( newpos > newinfo -> size - sizeof ( struct arpt_entry ) ) { duprintf ( ""mark_source_chains: "" ""bad verdict (%i)\\n"" , newpos ) ; return 0 ; } duprintf ( ""Jump rule %u -> %u\\n"" , pos , newpos ) ; } else { newpos = pos + e -> next_offset ; } e = ( struct arpt_entry * ) ( entry0 + newpos ) ; e -> counters . pcnt = pos ; pos = newpos ; } } next : duprintf ( ""Finished chain %u\\n"" , hook ) ; }","static int mark_source_chains ( const struct xt_table_info * newinfo , unsigned int valid_hooks , void * entry0 ) { unsigned int hook ; for ( hook = 0 ; hook < NF_ARP_NUMHOOKS ; hook ++ ) { unsigned int pos = newinfo -> hook_entry [ hook ] ; struct arpt_entry * e = ( struct arpt_entry * ) ( entry0 + pos ) ; if ( ! ( valid_hooks & ( 1 << hook ) ) ) continue ; e -> counters . pcnt = pos ; for ( ; ; ) { const struct xt_standard_target * t = ( void * ) arpt_get_target_c ( e ) ; int visited = e -> comefrom & ( 1 << hook ) ; if ( e -> comefrom & ( 1 << NF_ARP_NUMHOOKS ) ) { pr_notice ( ""arptables: loop hook %u pos %u %08X.\\n"" , hook , pos , e -> comefrom ) ; return 0 ; } e -> comefrom |= ( ( 1 << hook ) | ( 1 << NF_ARP_NUMHOOKS ) ) ; if ( ( unconditional ( e ) && ( strcmp ( t -> target . u . user . name , XT_STANDARD_TARGET ) == 0 ) && t -> verdict < 0 ) || visited ) { unsigned int oldpos , size ; if ( ( strcmp ( t -> target . u . user . name , XT_STANDARD_TARGET ) == 0 ) && t -> verdict < - NF_MAX_VERDICT - 1 ) { duprintf ( ""mark_source_chains: bad "" ""negative verdict (%i)\\n"" , t -> verdict ) ; return 0 ; } do { e -> comefrom ^= ( 1 << NF_ARP_NUMHOOKS ) ; oldpos = pos ; pos = e -> counters . pcnt ; e -> counters . pcnt = 0 ; if ( pos == oldpos ) goto next ; e = ( struct arpt_entry * ) ( entry0 + pos ) ; } while ( oldpos == pos + e -> next_offset ) ; size = e -> next_offset ; e = ( struct arpt_entry * ) ( entry0 + pos + size ) ; e -> counters . pcnt = pos ; pos += size ; } else { int newpos = t -> verdict ; if ( strcmp ( t -> target . u . user . name , XT_STANDARD_TARGET ) == 0 && newpos >= 0 ) { if ( newpos > newinfo -> size - sizeof ( struct arpt_entry ) ) { duprintf ( ""mark_source_chains: "" ""bad verdict (%i)\\n"" , newpos ) ; return 0 ; } duprintf ( ""Jump rule %u -> %u\\n"" , pos , newpos ) ; } else { newpos = pos + e -> next_offset ; } e = ( struct arpt_entry * ) ( entry0 + newpos ) ; e -> counters . pcnt = pos ; pos = newpos ; } } next : duprintf ( ""Finished chain %u\\n"" , hook ) ; }" 687,"CWE-119 l_int32 gplotAddPlot ( GPLOT * gplot , NUMA * nax , NUMA * nay , l_int32 plotstyle , const char * plottitle ) { char buf [ L_BUF_SIZE ] ; char emptystring [ ] = """" ; char * datastr , * title ; l_int32 n , i ; l_float32 valx , valy , startx , delx ; SARRAY * sa ; PROCNAME ( ""gplotAddPlot"" ) ; if ( ! gplot ) return ERROR_INT ( ""gplot not defined"" , procName , 1 ) ; if ( ! nay ) return ERROR_INT ( ""nay not defined"" , procName , 1 ) ; if ( plotstyle < 0 || plotstyle >= NUM_GPLOT_STYLES ) return ERROR_INT ( ""invalid plotstyle"" , procName , 1 ) ; if ( ( n = numaGetCount ( nay ) ) == 0 ) return ERROR_INT ( ""no points to plot"" , procName , 1 ) ; if ( nax && ( n != numaGetCount ( nax ) ) ) return ERROR_INT ( ""nax and nay sizes differ"" , procName , 1 ) ; if ( n == 1 && plotstyle == GPLOT_LINES ) { L_INFO ( ""only 1 pt; changing style to points\\n"" , procName ) ; plotstyle = GPLOT_POINTS ; } numaGetParameters ( nay , & startx , & delx ) ; numaAddNumber ( gplot -> plotstyles , plotstyle ) ; if ( plottitle ) { title = stringNew ( plottitle ) ; sarrayAddString ( gplot -> plottitles , title , L_INSERT ) ; } else { sarrayAddString ( gplot -> plottitles , emptystring , L_COPY ) ; } gplot -> nplots ++ ; snprintf ( buf , L_BUF_SIZE , ""%s.data.%d"" , gplot -> rootname , gplot -> nplots ) ; sarrayAddString ( gplot -> datanames , buf , L_COPY ) ; sa = sarrayCreate ( n ) ; for ( i = 0 ; i < n ; i ++ ) { if ( nax ) numaGetFValue ( nax , i , & valx ) ; else valx = startx + i * delx ; numaGetFValue ( nay , i , & valy ) ; snprintf ( buf , L_BUF_SIZE , ""%f %f\\n"" , valx , valy ) ; sarrayAddString ( sa , buf , L_COPY ) ; } datastr = sarrayToString ( sa , 0 ) ; sarrayAddString ( gplot -> plotdata , datastr , L_INSERT ) ; sarrayDestroy ( & sa ) ; return 0 ; }","l_int32 gplotAddPlot ( GPLOT * gplot , NUMA * nax , NUMA * nay , l_int32 plotstyle , const char * plottitle ) { char buf [ L_BUFSIZE ] ; char emptystring [ ] = """" ; char * datastr , * title ; l_int32 n , i ; l_float32 valx , valy , startx , delx ; SARRAY * sa ; PROCNAME ( ""gplotAddPlot"" ) ; if ( ! gplot ) return ERROR_INT ( ""gplot not defined"" , procName , 1 ) ; if ( ! nay ) return ERROR_INT ( ""nay not defined"" , procName , 1 ) ; if ( plotstyle < 0 || plotstyle >= NUM_GPLOT_STYLES ) return ERROR_INT ( ""invalid plotstyle"" , procName , 1 ) ; if ( ( n = numaGetCount ( nay ) ) == 0 ) return ERROR_INT ( ""no points to plot"" , procName , 1 ) ; if ( nax && ( n != numaGetCount ( nax ) ) ) return ERROR_INT ( ""nax and nay sizes differ"" , procName , 1 ) ; if ( n == 1 && plotstyle == GPLOT_LINES ) { L_INFO ( ""only 1 pt; changing style to points\\n"" , procName ) ; plotstyle = GPLOT_POINTS ; } numaGetParameters ( nay , & startx , & delx ) ; numaAddNumber ( gplot -> plotstyles , plotstyle ) ; if ( plottitle ) { title = stringNew ( plottitle ) ; sarrayAddString ( gplot -> plottitles , title , L_INSERT ) ; } else { sarrayAddString ( gplot -> plottitles , emptystring , L_COPY ) ; } gplot -> nplots ++ ; snprintf ( buf , L_BUFSIZE , ""%s.data.%d"" , gplot -> rootname , gplot -> nplots ) ; sarrayAddString ( gplot -> datanames , buf , L_COPY ) ; sa = sarrayCreate ( n ) ; for ( i = 0 ; i < n ; i ++ ) { if ( nax ) numaGetFValue ( nax , i , & valx ) ; else valx = startx + i * delx ; numaGetFValue ( nay , i , & valy ) ; snprintf ( buf , L_BUFSIZE , ""%f %f\\n"" , valx , valy ) ; sarrayAddString ( sa , buf , L_COPY ) ; } datastr = sarrayToString ( sa , 0 ) ; sarrayAddString ( gplot -> plotdata , datastr , L_INSERT ) ; sarrayDestroy ( & sa ) ; return 0 ; }" 688,"CWE-20 int kvm_read_guest_page ( struct kvm * kvm , gfn_t gfn , void * data , int offset , int len ) { int r ; unsigned long addr ; addr = gfn_to_hva ( kvm , gfn ) ; if ( kvm_is_error_hva ( addr ) ) return - EFAULT ; r = copy_from_user ( data , ( void __user * ) addr + offset , len ) ; if ( r ) return - EFAULT ; return 0 ; }","int kvm_read_guest_page ( struct kvm * kvm , gfn_t gfn , void * data , int offset , int len ) { int r ; unsigned long addr ; addr = gfn_to_hva ( kvm , gfn ) ; if ( kvm_is_error_hva ( addr ) ) return - EFAULT ; r = __copy_from_user ( data , ( void __user * ) addr + offset , len ) ; if ( r ) return - EFAULT ; return 0 ; }" 689,"CWE-125 static int mp_dss_print ( netdissect_options * ndo , const u_char * opt , u_int opt_len , u_char flags ) { const struct mp_dss * mdss = ( const struct mp_dss * ) opt ; if ( ( opt_len != mp_dss_len ( mdss , 1 ) && opt_len != mp_dss_len ( mdss , 0 ) ) || flags & TH_SYN ) return 0 ; if ( mdss -> flags & MP_DSS_F ) ND_PRINT ( ( ndo , "" fin"" ) ) ; opt += 4 ; if ( mdss -> flags & MP_DSS_A ) { ND_PRINT ( ( ndo , "" ack "" ) ) ; if ( mdss -> flags & MP_DSS_a ) { ND_PRINT ( ( ndo , ""%"" PRIu64 , EXTRACT_64BITS ( opt ) ) ) ; opt += 8 ; } else { ND_PRINT ( ( ndo , ""%u"" , EXTRACT_32BITS ( opt ) ) ) ; opt += 4 ; } } if ( mdss -> flags & MP_DSS_M ) { ND_PRINT ( ( ndo , "" seq "" ) ) ; if ( mdss -> flags & MP_DSS_m ) { ND_PRINT ( ( ndo , ""%"" PRIu64 , EXTRACT_64BITS ( opt ) ) ) ; opt += 8 ; } else { ND_PRINT ( ( ndo , ""%u"" , EXTRACT_32BITS ( opt ) ) ) ; opt += 4 ; } ND_PRINT ( ( ndo , "" subseq %u"" , EXTRACT_32BITS ( opt ) ) ) ; opt += 4 ; ND_PRINT ( ( ndo , "" len %u"" , EXTRACT_16BITS ( opt ) ) ) ; opt += 2 ; if ( opt_len == mp_dss_len ( mdss , 1 ) ) ND_PRINT ( ( ndo , "" csum 0x%x"" , EXTRACT_16BITS ( opt ) ) ) ; } return 1 ; }","static int mp_dss_print ( netdissect_options * ndo , const u_char * opt , u_int opt_len , u_char flags ) { const struct mp_dss * mdss = ( const struct mp_dss * ) opt ; if ( opt_len < 4 ) return 0 ; if ( flags & TH_SYN ) return 0 ; if ( mdss -> flags & MP_DSS_F ) ND_PRINT ( ( ndo , "" fin"" ) ) ; opt += 4 ; opt_len -= 4 ; if ( mdss -> flags & MP_DSS_A ) { ND_PRINT ( ( ndo , "" ack "" ) ) ; if ( mdss -> flags & MP_DSS_a ) { if ( opt_len < 8 ) return 0 ; ND_PRINT ( ( ndo , ""%"" PRIu64 , EXTRACT_64BITS ( opt ) ) ) ; opt += 8 ; opt_len -= 8 ; } else { if ( opt_len < 4 ) return 0 ; ND_PRINT ( ( ndo , ""%u"" , EXTRACT_32BITS ( opt ) ) ) ; opt += 4 ; opt_len -= 4 ; } } if ( mdss -> flags & MP_DSS_M ) { ND_PRINT ( ( ndo , "" seq "" ) ) ; if ( mdss -> flags & MP_DSS_m ) { if ( opt_len < 8 ) return 0 ; ND_PRINT ( ( ndo , ""%"" PRIu64 , EXTRACT_64BITS ( opt ) ) ) ; opt += 8 ; opt_len -= 8 ; } else { if ( opt_len < 4 ) return 0 ; ND_PRINT ( ( ndo , ""%u"" , EXTRACT_32BITS ( opt ) ) ) ; opt += 4 ; opt_len -= 4 ; } if ( opt_len < 4 ) return 0 ; ND_PRINT ( ( ndo , "" subseq %u"" , EXTRACT_32BITS ( opt ) ) ) ; opt += 4 ; opt_len -= 4 ; if ( opt_len < 2 ) return 0 ; ND_PRINT ( ( ndo , "" len %u"" , EXTRACT_16BITS ( opt ) ) ) ; opt += 2 ; opt_len -= 2 ; if ( opt_len >= 2 ) { ND_PRINT ( ( ndo , "" csum 0x%x"" , EXTRACT_16BITS ( opt ) ) ) ; opt_len -= 2 ; } } if ( opt_len != 0 ) return 0 ; return 1 ; }" 690,"CWE-388 static void vmx_complete_atomic_exit ( struct vcpu_vmx * vmx ) { u32 exit_intr_info ; if ( ! ( vmx -> exit_reason == EXIT_REASON_MCE_DURING_VMENTRY || vmx -> exit_reason == EXIT_REASON_EXCEPTION_NMI ) ) return ; vmx -> exit_intr_info = vmcs_read32 ( VM_EXIT_INTR_INFO ) ; exit_intr_info = vmx -> exit_intr_info ; if ( is_machine_check ( exit_intr_info ) ) kvm_machine_check ( ) ; if ( ( exit_intr_info & INTR_INFO_INTR_TYPE_MASK ) == INTR_TYPE_NMI_INTR && ( exit_intr_info & INTR_INFO_VALID_MASK ) ) { kvm_before_handle_nmi ( & vmx -> vcpu ) ; asm ( ""int $2"" ) ; kvm_after_handle_nmi ( & vmx -> vcpu ) ; } }","static void vmx_complete_atomic_exit ( struct vcpu_vmx * vmx ) { u32 exit_intr_info ; if ( ! ( vmx -> exit_reason == EXIT_REASON_MCE_DURING_VMENTRY || vmx -> exit_reason == EXIT_REASON_EXCEPTION_NMI ) ) return ; vmx -> exit_intr_info = vmcs_read32 ( VM_EXIT_INTR_INFO ) ; exit_intr_info = vmx -> exit_intr_info ; if ( is_machine_check ( exit_intr_info ) ) kvm_machine_check ( ) ; if ( is_nmi ( exit_intr_info ) ) { kvm_before_handle_nmi ( & vmx -> vcpu ) ; asm ( ""int $2"" ) ; kvm_after_handle_nmi ( & vmx -> vcpu ) ; } }" 691,"CWE-399 SYSCALL_DEFINE1 ( inotify_init1 , int , flags ) { struct fsnotify_group * group ; struct user_struct * user ; int ret ; BUILD_BUG_ON ( IN_CLOEXEC != O_CLOEXEC ) ; BUILD_BUG_ON ( IN_NONBLOCK != O_NONBLOCK ) ; if ( flags & ~ ( IN_CLOEXEC | IN_NONBLOCK ) ) return - EINVAL ; user = get_current_user ( ) ; if ( unlikely ( atomic_read ( & user -> inotify_devs ) >= inotify_max_user_instances ) ) { ret = - EMFILE ; goto out_free_uid ; } group = inotify_new_group ( user , inotify_max_queued_events ) ; if ( IS_ERR ( group ) ) { ret = PTR_ERR ( group ) ; goto out_free_uid ; } atomic_inc ( & user -> inotify_devs ) ; ret = anon_inode_getfd ( ""inotify"" , & inotify_fops , group , O_RDONLY | flags ) ; if ( ret >= 0 ) return ret ; atomic_dec ( & user -> inotify_devs ) ; out_free_uid : free_uid ( user ) ; return ret ; }","SYSCALL_DEFINE1 ( inotify_init1 , int , flags ) { struct fsnotify_group * group ; struct user_struct * user ; int ret ; BUILD_BUG_ON ( IN_CLOEXEC != O_CLOEXEC ) ; BUILD_BUG_ON ( IN_NONBLOCK != O_NONBLOCK ) ; if ( flags & ~ ( IN_CLOEXEC | IN_NONBLOCK ) ) return - EINVAL ; user = get_current_user ( ) ; if ( unlikely ( atomic_read ( & user -> inotify_devs ) >= inotify_max_user_instances ) ) { ret = - EMFILE ; goto out_free_uid ; } group = inotify_new_group ( user , inotify_max_queued_events ) ; if ( IS_ERR ( group ) ) { ret = PTR_ERR ( group ) ; goto out_free_uid ; } atomic_inc ( & user -> inotify_devs ) ; ret = anon_inode_getfd ( ""inotify"" , & inotify_fops , group , O_RDONLY | flags ) ; if ( ret >= 0 ) return ret ; fsnotify_put_group ( group ) ; atomic_dec ( & user -> inotify_devs ) ; out_free_uid : free_uid ( user ) ; return ret ; }" 692,"NVD-CWE-Other static int propagate_one ( struct mount * m ) { struct mount * child ; int type ; if ( IS_MNT_NEW ( m ) ) return 0 ; if ( ! is_subdir ( mp -> m_dentry , m -> mnt . mnt_root ) ) return 0 ; if ( peers ( m , last_dest ) ) { type = CL_MAKE_SHARED ; } else { struct mount * n , * p ; for ( n = m ; ; n = p ) { p = n -> mnt_master ; if ( p == dest_master || IS_MNT_MARKED ( p ) ) { while ( last_dest -> mnt_master != p ) { last_source = last_source -> mnt_master ; last_dest = last_source -> mnt_parent ; } if ( ! peers ( n , last_dest ) ) { last_source = last_source -> mnt_master ; last_dest = last_source -> mnt_parent ; } break ; } } type = CL_SLAVE ; if ( IS_MNT_SHARED ( m ) ) type |= CL_MAKE_SHARED ; } if ( m -> mnt_ns -> user_ns != user_ns ) type |= CL_UNPRIVILEGED ; child = copy_tree ( last_source , last_source -> mnt . mnt_root , type ) ; if ( IS_ERR ( child ) ) return PTR_ERR ( child ) ; child -> mnt . mnt_flags &= ~ MNT_LOCKED ; mnt_set_mountpoint ( m , mp , child ) ; last_dest = m ; last_source = child ; if ( m -> mnt_master != dest_master ) { read_seqlock_excl ( & mount_lock ) ; SET_MNT_MARK ( m -> mnt_master ) ; read_sequnlock_excl ( & mount_lock ) ; } hlist_add_head ( & child -> mnt_hash , list ) ; return 0 ; }","static int propagate_one ( struct mount * m ) { struct mount * child ; int type ; if ( IS_MNT_NEW ( m ) ) return 0 ; if ( ! is_subdir ( mp -> m_dentry , m -> mnt . mnt_root ) ) return 0 ; if ( peers ( m , last_dest ) ) { type = CL_MAKE_SHARED ; } else { struct mount * n , * p ; bool done ; for ( n = m ; ; n = p ) { p = n -> mnt_master ; if ( p == dest_master || IS_MNT_MARKED ( p ) ) break ; } do { struct mount * parent = last_source -> mnt_parent ; if ( last_source == first_source ) break ; done = parent -> mnt_master == p ; if ( done && peers ( n , parent ) ) break ; last_source = last_source -> mnt_master ; } while ( ! done ) ; type = CL_SLAVE ; if ( IS_MNT_SHARED ( m ) ) type |= CL_MAKE_SHARED ; } if ( m -> mnt_ns -> user_ns != user_ns ) type |= CL_UNPRIVILEGED ; child = copy_tree ( last_source , last_source -> mnt . mnt_root , type ) ; if ( IS_ERR ( child ) ) return PTR_ERR ( child ) ; child -> mnt . mnt_flags &= ~ MNT_LOCKED ; mnt_set_mountpoint ( m , mp , child ) ; last_dest = m ; last_source = child ; if ( m -> mnt_master != dest_master ) { read_seqlock_excl ( & mount_lock ) ; SET_MNT_MARK ( m -> mnt_master ) ; read_sequnlock_excl ( & mount_lock ) ; } hlist_add_head ( & child -> mnt_hash , list ) ; return 0 ; }" 693,"CWE-787 static void write_version ( FILE * fp , const char * fname , const char * dirname , xref_t * xref ) { long start ; char * c , * new_fname , data ; FILE * new_fp ; start = ftell ( fp ) ; if ( ( c = strstr ( fname , "".pdf"" ) ) ) * c = '\\0' ; new_fname = malloc ( strlen ( fname ) + strlen ( dirname ) + 16 ) ; snprintf ( new_fname , strlen ( fname ) + strlen ( dirname ) + 16 , ""%s/%s-version-%d.pdf"" , dirname , fname , xref -> version ) ; if ( ! ( new_fp = fopen ( new_fname , ""w"" ) ) ) { ERR ( ""Could not create file \'%s\'\\n"" , new_fname ) ; fseek ( fp , start , SEEK_SET ) ; free ( new_fname ) ; return ; } fseek ( fp , 0 , SEEK_SET ) ; while ( fread ( & data , 1 , 1 , fp ) ) fwrite ( & data , 1 , 1 , new_fp ) ; fprintf ( new_fp , ""\\r\\nstartxref\\r\\n%ld\\r\\n%%%%EOF"" , xref -> start ) ; fclose ( new_fp ) ; free ( new_fname ) ; fseek ( fp , start , SEEK_SET ) ; }","static void write_version ( FILE * fp , const char * fname , const char * dirname , xref_t * xref ) { long start ; char * c , * new_fname , data ; FILE * new_fp ; start = ftell ( fp ) ; if ( ( c = strstr ( fname , "".pdf"" ) ) ) * c = '\\0' ; new_fname = safe_calloc ( strlen ( fname ) + strlen ( dirname ) + 16 ) ; snprintf ( new_fname , strlen ( fname ) + strlen ( dirname ) + 16 , ""%s/%s-version-%d.pdf"" , dirname , fname , xref -> version ) ; if ( ! ( new_fp = fopen ( new_fname , ""w"" ) ) ) { ERR ( ""Could not create file \'%s\'\\n"" , new_fname ) ; fseek ( fp , start , SEEK_SET ) ; free ( new_fname ) ; return ; } fseek ( fp , 0 , SEEK_SET ) ; while ( fread ( & data , 1 , 1 , fp ) ) fwrite ( & data , 1 , 1 , new_fp ) ; fprintf ( new_fp , ""\\r\\nstartxref\\r\\n%ld\\r\\n%%%%EOF"" , xref -> start ) ; fclose ( new_fp ) ; free ( new_fname ) ; fseek ( fp , start , SEEK_SET ) ; }" 694,CWE-399 gboolean mainloop_destroy_trigger ( crm_trigger_t * source ) { source -> trigger = FALSE ; if ( source -> id > 0 ) { g_source_remove ( source -> id ) ; } return TRUE ; },gboolean mainloop_destroy_trigger ( crm_trigger_t * source ) { source -> trigger = FALSE ; if ( source -> id > 0 ) { g_source_remove ( source -> id ) ; source -> id = 0 ; } return TRUE ; } 695,"CWE-125 return ; } if ( tlen < sizeof ( struct cfm_tlv_header_t ) ) goto tooshort ; ND_TCHECK2 ( * tptr , sizeof ( struct cfm_tlv_header_t ) ) ; cfm_tlv_len = EXTRACT_16BITS ( & cfm_tlv_header -> length ) ; ND_PRINT ( ( ndo , "", length %u"" , cfm_tlv_len ) ) ; tptr += sizeof ( struct cfm_tlv_header_t ) ; tlen -= sizeof ( struct cfm_tlv_header_t ) ; tlv_ptr = tptr ; if ( tlen < cfm_tlv_len ) goto tooshort ; ND_TCHECK2 ( * tptr , cfm_tlv_len ) ; hexdump = FALSE ; switch ( cfm_tlv_type ) { case CFM_TLV_PORT_STATUS : if ( cfm_tlv_len < 1 ) { ND_PRINT ( ( ndo , "" (too short, must be >= 1)"" ) ) ; return ; } ND_PRINT ( ( ndo , "", Status: %s (%u)"" , tok2str ( cfm_tlv_port_status_values , ""Unknown"" , * tptr ) , * tptr ) ) ; break ; case CFM_TLV_INTERFACE_STATUS : if ( cfm_tlv_len < 1 ) { ND_PRINT ( ( ndo , "" (too short, must be >= 1)"" ) ) ; return ; } ND_PRINT ( ( ndo , "", Status: %s (%u)"" , tok2str ( cfm_tlv_interface_status_values , ""Unknown"" , * tptr ) , * tptr ) ) ; break ; case CFM_TLV_PRIVATE : if ( cfm_tlv_len < 4 ) { ND_PRINT ( ( ndo , "" (too short, must be >= 4)"" ) ) ; return ; } ND_PRINT ( ( ndo , "", Vendor: %s (%u), Sub-Type %u"" , tok2str ( oui_values , ""Unknown"" , EXTRACT_24BITS ( tptr ) ) , EXTRACT_24BITS ( tptr ) , * ( tptr + 3 ) ) ) ; hexdump = TRUE ; break ; case CFM_TLV_SENDER_ID : { u_int chassis_id_type , chassis_id_length ; u_int mgmt_addr_length ; if ( cfm_tlv_len < 1 ) { ND_PRINT ( ( ndo , "" (too short, must be >= 1)"" ) ) ; return ; } chassis_id_length = * tptr ; tptr ++ ; tlen -- ; cfm_tlv_len -- ; if ( chassis_id_length ) { if ( cfm_tlv_len < 1 ) { ND_PRINT ( ( ndo , ""\\n\\t (TLV too short)"" ) ) ; return ; } chassis_id_type = * tptr ; cfm_tlv_len -- ; ND_PRINT ( ( ndo , ""\\n\\t Chassis-ID Type %s (%u), Chassis-ID length %u"" , tok2str ( cfm_tlv_senderid_chassisid_values , ""Unknown"" , chassis_id_type ) , chassis_id_type , chassis_id_length ) ) ; if ( cfm_tlv_len < chassis_id_length ) { ND_PRINT ( ( ndo , ""\\n\\t (TLV too short)"" ) ) ; return ; } switch ( chassis_id_type ) { case CFM_CHASSIS_ID_MAC_ADDRESS : ND_PRINT ( ( ndo , ""\\n\\t MAC %s"" , etheraddr_string ( ndo , tptr + 1 ) ) ) ; break ; case CFM_CHASSIS_ID_NETWORK_ADDRESS : hexdump |= cfm_network_addr_print ( ndo , tptr ) ; break ; case CFM_CHASSIS_ID_INTERFACE_NAME : case CFM_CHASSIS_ID_INTERFACE_ALIAS : case CFM_CHASSIS_ID_LOCAL : case CFM_CHASSIS_ID_CHASSIS_COMPONENT : case CFM_CHASSIS_ID_PORT_COMPONENT : safeputs ( ndo , tptr + 1 , chassis_id_length ) ; break ; default : hexdump = TRUE ; break ; } cfm_tlv_len -= chassis_id_length ; tptr += 1 + chassis_id_length ; tlen -= 1 + chassis_id_length ; } if ( cfm_tlv_len == 0 ) { return ; } mgmt_addr_length = * tptr ; tptr ++ ; tlen -- ; cfm_tlv_len -- ; if ( mgmt_addr_length ) { if ( cfm_tlv_len < mgmt_addr_length ) { ND_PRINT ( ( ndo , ""\\n\\t (TLV too short)"" ) ) ; return ; } cfm_tlv_len -= mgmt_addr_length ; tptr += mgmt_addr_length ; tlen -= mgmt_addr_length ; if ( cfm_tlv_len < 1 ) { ND_PRINT ( ( ndo , ""\\n\\t (TLV too short)"" ) ) ; return ; } mgmt_addr_length = * tptr ; tptr ++ ; tlen -- ; cfm_tlv_len -- ; if ( mgmt_addr_length ) { if ( cfm_tlv_len < mgmt_addr_length ) { ND_PRINT ( ( ndo , ""\\n\\t (TLV too short)"" ) ) ; return ; } cfm_tlv_len -= mgmt_addr_length ; tptr += mgmt_addr_length ; tlen -= mgmt_addr_length ; } } break ; } case CFM_TLV_DATA : case CFM_TLV_REPLY_INGRESS : case CFM_TLV_REPLY_EGRESS : default : hexdump = TRUE ; break ; } if ( hexdump || ndo -> ndo_vflag > 1 ) print_unknown_data ( ndo , tlv_ptr , ""\\n\\t "" , cfm_tlv_len ) ; tptr += cfm_tlv_len ; tlen -= cfm_tlv_len ; } return ; tooshort : ND_PRINT ( ( ndo , ""\\n\\t\\t packet is too short"" ) ) ; return ; trunc : ND_PRINT ( ( ndo , ""\\n\\t\\t packet exceeded snapshot"" ) ) ; }","return ; } if ( tlen < sizeof ( struct cfm_tlv_header_t ) ) goto tooshort ; ND_TCHECK2 ( * tptr , sizeof ( struct cfm_tlv_header_t ) ) ; cfm_tlv_len = EXTRACT_16BITS ( & cfm_tlv_header -> length ) ; ND_PRINT ( ( ndo , "", length %u"" , cfm_tlv_len ) ) ; tptr += sizeof ( struct cfm_tlv_header_t ) ; tlen -= sizeof ( struct cfm_tlv_header_t ) ; tlv_ptr = tptr ; if ( tlen < cfm_tlv_len ) goto tooshort ; ND_TCHECK2 ( * tptr , cfm_tlv_len ) ; hexdump = FALSE ; switch ( cfm_tlv_type ) { case CFM_TLV_PORT_STATUS : if ( cfm_tlv_len < 1 ) { ND_PRINT ( ( ndo , "" (too short, must be >= 1)"" ) ) ; return ; } ND_PRINT ( ( ndo , "", Status: %s (%u)"" , tok2str ( cfm_tlv_port_status_values , ""Unknown"" , * tptr ) , * tptr ) ) ; break ; case CFM_TLV_INTERFACE_STATUS : if ( cfm_tlv_len < 1 ) { ND_PRINT ( ( ndo , "" (too short, must be >= 1)"" ) ) ; return ; } ND_PRINT ( ( ndo , "", Status: %s (%u)"" , tok2str ( cfm_tlv_interface_status_values , ""Unknown"" , * tptr ) , * tptr ) ) ; break ; case CFM_TLV_PRIVATE : if ( cfm_tlv_len < 4 ) { ND_PRINT ( ( ndo , "" (too short, must be >= 4)"" ) ) ; return ; } ND_PRINT ( ( ndo , "", Vendor: %s (%u), Sub-Type %u"" , tok2str ( oui_values , ""Unknown"" , EXTRACT_24BITS ( tptr ) ) , EXTRACT_24BITS ( tptr ) , * ( tptr + 3 ) ) ) ; hexdump = TRUE ; break ; case CFM_TLV_SENDER_ID : { u_int chassis_id_type , chassis_id_length ; u_int mgmt_addr_length ; if ( cfm_tlv_len < 1 ) { ND_PRINT ( ( ndo , "" (too short, must be >= 1)"" ) ) ; goto next_tlv ; } chassis_id_length = * tptr ; tptr ++ ; tlen -- ; cfm_tlv_len -- ; if ( chassis_id_length ) { if ( cfm_tlv_len < 1 ) { ND_PRINT ( ( ndo , ""\\n\\t (TLV too short)"" ) ) ; goto next_tlv ; } chassis_id_type = * tptr ; cfm_tlv_len -- ; ND_PRINT ( ( ndo , ""\\n\\t Chassis-ID Type %s (%u), Chassis-ID length %u"" , tok2str ( cfm_tlv_senderid_chassisid_values , ""Unknown"" , chassis_id_type ) , chassis_id_type , chassis_id_length ) ) ; if ( cfm_tlv_len < chassis_id_length ) { ND_PRINT ( ( ndo , ""\\n\\t (TLV too short)"" ) ) ; goto next_tlv ; } switch ( chassis_id_type ) { case CFM_CHASSIS_ID_MAC_ADDRESS : if ( chassis_id_length != ETHER_ADDR_LEN ) { ND_PRINT ( ( ndo , "" (invalid MAC address length)"" ) ) ; hexdump = TRUE ; break ; } ND_PRINT ( ( ndo , ""\\n\\t MAC %s"" , etheraddr_string ( ndo , tptr + 1 ) ) ) ; break ; case CFM_CHASSIS_ID_NETWORK_ADDRESS : hexdump |= cfm_network_addr_print ( ndo , tptr + 1 , chassis_id_length ) ; break ; case CFM_CHASSIS_ID_INTERFACE_NAME : case CFM_CHASSIS_ID_INTERFACE_ALIAS : case CFM_CHASSIS_ID_LOCAL : case CFM_CHASSIS_ID_CHASSIS_COMPONENT : case CFM_CHASSIS_ID_PORT_COMPONENT : safeputs ( ndo , tptr + 1 , chassis_id_length ) ; break ; default : hexdump = TRUE ; break ; } cfm_tlv_len -= chassis_id_length ; tptr += 1 + chassis_id_length ; tlen -= 1 + chassis_id_length ; } if ( cfm_tlv_len == 0 ) { break ; } mgmt_addr_length = * tptr ; tptr ++ ; tlen -- ; cfm_tlv_len -- ; ND_PRINT ( ( ndo , ""\\n\\t Management Address Domain Length %u"" , mgmt_addr_length ) ) ; if ( mgmt_addr_length ) { if ( cfm_tlv_len < mgmt_addr_length ) { ND_PRINT ( ( ndo , ""\\n\\t (TLV too short)"" ) ) ; goto next_tlv ; } cfm_tlv_len -= mgmt_addr_length ; hex_print ( ndo , ""\\n\\t Management Address Domain: "" , tptr , mgmt_addr_length ) ; tptr += mgmt_addr_length ; tlen -= mgmt_addr_length ; if ( cfm_tlv_len < 1 ) { ND_PRINT ( ( ndo , "" (Management Address Length is missing)"" ) ) ; hexdump = TRUE ; break ; } mgmt_addr_length = * tptr ; tptr ++ ; tlen -- ; cfm_tlv_len -- ; ND_PRINT ( ( ndo , ""\\n\\t Management Address Length %u"" , mgmt_addr_length ) ) ; if ( mgmt_addr_length ) { if ( cfm_tlv_len < mgmt_addr_length ) { ND_PRINT ( ( ndo , ""\\n\\t (TLV too short)"" ) ) ; return ; } cfm_tlv_len -= mgmt_addr_length ; hex_print ( ndo , ""\\n\\t Management Address: "" , tptr , mgmt_addr_length ) ; tptr += mgmt_addr_length ; tlen -= mgmt_addr_length ; } } break ; } case CFM_TLV_DATA : case CFM_TLV_REPLY_INGRESS : case CFM_TLV_REPLY_EGRESS : default : hexdump = TRUE ; break ; } if ( hexdump || ndo -> ndo_vflag > 1 ) print_unknown_data ( ndo , tlv_ptr , ""\\n\\t "" , cfm_tlv_len ) ; next_tlv : tptr += cfm_tlv_len ; tlen -= cfm_tlv_len ; } return ; tooshort : ND_PRINT ( ( ndo , ""\\n\\t\\t packet is too short"" ) ) ; return ; trunc : ND_PRINT ( ( ndo , ""\\n\\t\\t packet exceeded snapshot"" ) ) ; }" 696,"CWE-416 static int perf_swevent_add ( struct perf_event * event , int flags ) { struct swevent_htable * swhash = this_cpu_ptr ( & swevent_htable ) ; struct hw_perf_event * hwc = & event -> hw ; struct hlist_head * head ; if ( is_sampling_event ( event ) ) { hwc -> last_period = hwc -> sample_period ; perf_swevent_set_period ( event ) ; } hwc -> state = ! ( flags & PERF_EF_START ) ; head = find_swevent_head ( swhash , event ) ; if ( ! head ) { WARN_ON_ONCE ( swhash -> online ) ; return - EINVAL ; } hlist_add_head_rcu ( & event -> hlist_entry , head ) ; perf_event_update_userpage ( event ) ; return 0 ; }","static int perf_swevent_add ( struct perf_event * event , int flags ) { struct swevent_htable * swhash = this_cpu_ptr ( & swevent_htable ) ; struct hw_perf_event * hwc = & event -> hw ; struct hlist_head * head ; if ( is_sampling_event ( event ) ) { hwc -> last_period = hwc -> sample_period ; perf_swevent_set_period ( event ) ; } hwc -> state = ! ( flags & PERF_EF_START ) ; head = find_swevent_head ( swhash , event ) ; if ( WARN_ON_ONCE ( ! head ) ) return - EINVAL ; hlist_add_head_rcu ( & event -> hlist_entry , head ) ; perf_event_update_userpage ( event ) ; return 0 ; }" 697,"CWE-125 static int snd_usb_create_streams ( struct snd_usb_audio * chip , int ctrlif ) { struct usb_device * dev = chip -> dev ; struct usb_host_interface * host_iface ; struct usb_interface_descriptor * altsd ; void * control_header ; int i , protocol ; host_iface = & usb_ifnum_to_if ( dev , ctrlif ) -> altsetting [ 0 ] ; control_header = snd_usb_find_csint_desc ( host_iface -> extra , host_iface -> extralen , NULL , UAC_HEADER ) ; altsd = get_iface_desc ( host_iface ) ; protocol = altsd -> bInterfaceProtocol ; if ( ! control_header ) { dev_err ( & dev -> dev , ""cannot find UAC_HEADER\\n"" ) ; return - EINVAL ; } switch ( protocol ) { default : dev_warn ( & dev -> dev , ""unknown interface protocol %#02x, assuming v1\\n"" , protocol ) ; case UAC_VERSION_1 : { struct uac1_ac_header_descriptor * h1 = control_header ; if ( ! h1 -> bInCollection ) { dev_info ( & dev -> dev , ""skipping empty audio interface (v1)\\n"" ) ; return - EINVAL ; } if ( h1 -> bLength < sizeof ( * h1 ) + h1 -> bInCollection ) { dev_err ( & dev -> dev , ""invalid UAC_HEADER (v1)\\n"" ) ; return - EINVAL ; } for ( i = 0 ; i < h1 -> bInCollection ; i ++ ) snd_usb_create_stream ( chip , ctrlif , h1 -> baInterfaceNr [ i ] ) ; break ; } case UAC_VERSION_2 : { struct usb_interface_assoc_descriptor * assoc = usb_ifnum_to_if ( dev , ctrlif ) -> intf_assoc ; if ( ! assoc ) { struct usb_interface * iface = usb_ifnum_to_if ( dev , ctrlif + 1 ) ; if ( iface && iface -> intf_assoc && iface -> intf_assoc -> bFunctionClass == USB_CLASS_AUDIO && iface -> intf_assoc -> bFunctionProtocol == UAC_VERSION_2 ) assoc = iface -> intf_assoc ; } if ( ! assoc ) { dev_err ( & dev -> dev , ""Audio class v2 interfaces need an interface association\\n"" ) ; return - EINVAL ; } for ( i = 0 ; i < assoc -> bInterfaceCount ; i ++ ) { int intf = assoc -> bFirstInterface + i ; if ( intf != ctrlif ) snd_usb_create_stream ( chip , ctrlif , intf ) ; } break ; } } return 0 ; }","static int snd_usb_create_streams ( struct snd_usb_audio * chip , int ctrlif ) { struct usb_device * dev = chip -> dev ; struct usb_host_interface * host_iface ; struct usb_interface_descriptor * altsd ; void * control_header ; int i , protocol ; int rest_bytes ; host_iface = & usb_ifnum_to_if ( dev , ctrlif ) -> altsetting [ 0 ] ; control_header = snd_usb_find_csint_desc ( host_iface -> extra , host_iface -> extralen , NULL , UAC_HEADER ) ; altsd = get_iface_desc ( host_iface ) ; protocol = altsd -> bInterfaceProtocol ; if ( ! control_header ) { dev_err ( & dev -> dev , ""cannot find UAC_HEADER\\n"" ) ; return - EINVAL ; } rest_bytes = ( void * ) ( host_iface -> extra + host_iface -> extralen ) - control_header ; if ( rest_bytes <= 0 ) { dev_err ( & dev -> dev , ""invalid control header\\n"" ) ; return - EINVAL ; } switch ( protocol ) { default : dev_warn ( & dev -> dev , ""unknown interface protocol %#02x, assuming v1\\n"" , protocol ) ; case UAC_VERSION_1 : { struct uac1_ac_header_descriptor * h1 = control_header ; if ( rest_bytes < sizeof ( * h1 ) ) { dev_err ( & dev -> dev , ""too short v1 buffer descriptor\\n"" ) ; return - EINVAL ; } if ( ! h1 -> bInCollection ) { dev_info ( & dev -> dev , ""skipping empty audio interface (v1)\\n"" ) ; return - EINVAL ; } if ( rest_bytes < h1 -> bLength ) { dev_err ( & dev -> dev , ""invalid buffer length (v1)\\n"" ) ; return - EINVAL ; } if ( h1 -> bLength < sizeof ( * h1 ) + h1 -> bInCollection ) { dev_err ( & dev -> dev , ""invalid UAC_HEADER (v1)\\n"" ) ; return - EINVAL ; } for ( i = 0 ; i < h1 -> bInCollection ; i ++ ) snd_usb_create_stream ( chip , ctrlif , h1 -> baInterfaceNr [ i ] ) ; break ; } case UAC_VERSION_2 : { struct usb_interface_assoc_descriptor * assoc = usb_ifnum_to_if ( dev , ctrlif ) -> intf_assoc ; if ( ! assoc ) { struct usb_interface * iface = usb_ifnum_to_if ( dev , ctrlif + 1 ) ; if ( iface && iface -> intf_assoc && iface -> intf_assoc -> bFunctionClass == USB_CLASS_AUDIO && iface -> intf_assoc -> bFunctionProtocol == UAC_VERSION_2 ) assoc = iface -> intf_assoc ; } if ( ! assoc ) { dev_err ( & dev -> dev , ""Audio class v2 interfaces need an interface association\\n"" ) ; return - EINVAL ; } for ( i = 0 ; i < assoc -> bInterfaceCount ; i ++ ) { int intf = assoc -> bFirstInterface + i ; if ( intf != ctrlif ) snd_usb_create_stream ( chip , ctrlif , intf ) ; } break ; } } return 0 ; }" 698,"CWE-189 int kvm_iommu_map_pages ( struct kvm * kvm , struct kvm_memory_slot * slot ) { gfn_t gfn , end_gfn ; pfn_t pfn ; int r = 0 ; struct iommu_domain * domain = kvm -> arch . iommu_domain ; int flags ; if ( ! domain ) return 0 ; gfn = slot -> base_gfn ; end_gfn = gfn + slot -> npages ; flags = IOMMU_READ ; if ( ! ( slot -> flags & KVM_MEM_READONLY ) ) flags |= IOMMU_WRITE ; if ( ! kvm -> arch . iommu_noncoherent ) flags |= IOMMU_CACHE ; while ( gfn < end_gfn ) { unsigned long page_size ; if ( iommu_iova_to_phys ( domain , gfn_to_gpa ( gfn ) ) ) { gfn += 1 ; continue ; } page_size = kvm_host_page_size ( kvm , gfn ) ; while ( ( gfn + ( page_size >> PAGE_SHIFT ) ) > end_gfn ) page_size >>= 1 ; while ( ( gfn << PAGE_SHIFT ) & ( page_size - 1 ) ) page_size >>= 1 ; while ( __gfn_to_hva_memslot ( slot , gfn ) & ( page_size - 1 ) ) page_size >>= 1 ; pfn = kvm_pin_pages ( slot , gfn , page_size ) ; if ( is_error_noslot_pfn ( pfn ) ) { gfn += 1 ; continue ; } r = iommu_map ( domain , gfn_to_gpa ( gfn ) , pfn_to_hpa ( pfn ) , page_size , flags ) ; if ( r ) { printk ( KERN_ERR ""kvm_iommu_map_address:"" ""iommu failed to map pfn=%llx\\n"" , pfn ) ; goto unmap_pages ; } gfn += page_size >> PAGE_SHIFT ; } return 0 ; unmap_pages : kvm_iommu_put_pages ( kvm , slot -> base_gfn , gfn ) ; return r ; }","int kvm_iommu_map_pages ( struct kvm * kvm , struct kvm_memory_slot * slot ) { gfn_t gfn , end_gfn ; pfn_t pfn ; int r = 0 ; struct iommu_domain * domain = kvm -> arch . iommu_domain ; int flags ; if ( ! domain ) return 0 ; gfn = slot -> base_gfn ; end_gfn = gfn + slot -> npages ; flags = IOMMU_READ ; if ( ! ( slot -> flags & KVM_MEM_READONLY ) ) flags |= IOMMU_WRITE ; if ( ! kvm -> arch . iommu_noncoherent ) flags |= IOMMU_CACHE ; while ( gfn < end_gfn ) { unsigned long page_size ; if ( iommu_iova_to_phys ( domain , gfn_to_gpa ( gfn ) ) ) { gfn += 1 ; continue ; } page_size = kvm_host_page_size ( kvm , gfn ) ; while ( ( gfn + ( page_size >> PAGE_SHIFT ) ) > end_gfn ) page_size >>= 1 ; while ( ( gfn << PAGE_SHIFT ) & ( page_size - 1 ) ) page_size >>= 1 ; while ( __gfn_to_hva_memslot ( slot , gfn ) & ( page_size - 1 ) ) page_size >>= 1 ; pfn = kvm_pin_pages ( slot , gfn , page_size ) ; if ( is_error_noslot_pfn ( pfn ) ) { gfn += 1 ; continue ; } r = iommu_map ( domain , gfn_to_gpa ( gfn ) , pfn_to_hpa ( pfn ) , page_size , flags ) ; if ( r ) { printk ( KERN_ERR ""kvm_iommu_map_address:"" ""iommu failed to map pfn=%llx\\n"" , pfn ) ; kvm_unpin_pages ( kvm , pfn , page_size ) ; goto unmap_pages ; } gfn += page_size >> PAGE_SHIFT ; } return 0 ; unmap_pages : kvm_iommu_put_pages ( kvm , slot -> base_gfn , gfn - slot -> base_gfn ) ; return r ; }" 699,"CWE-200 static void save_bt_to_dump_dir ( const char * bt , const char * exe , const char * reason ) { time_t t = time ( NULL ) ; const char * iso_date = iso_date_string ( & t ) ; uid_t my_euid = ( uid_t ) - 1L ; mode_t mode = DEFAULT_DUMP_DIR_MODE | S_IROTH ; if ( ! ( g_opts & OPT_x ) ) { mode = DEFAULT_DUMP_DIR_MODE ; my_euid = geteuid ( ) ; } pid_t my_pid = getpid ( ) ; char base [ sizeof ( ""xorg-YYYY-MM-DD-hh:mm:ss-%lu-%lu"" ) + 2 * sizeof ( long ) * 3 ] ; sprintf ( base , ""xorg-%s-%lu-%u"" , iso_date , ( long ) my_pid , g_bt_count ) ; char * path = concat_path_file ( debug_dumps_dir , base ) ; struct dump_dir * dd = dd_create ( path , my_euid , mode ) ; if ( dd ) { dd_create_basic_files ( dd , my_euid , NULL ) ; dd_save_text ( dd , FILENAME_ABRT_VERSION , VERSION ) ; dd_save_text ( dd , FILENAME_ANALYZER , ""xorg"" ) ; dd_save_text ( dd , FILENAME_TYPE , ""xorg"" ) ; dd_save_text ( dd , FILENAME_REASON , reason ) ; dd_save_text ( dd , FILENAME_BACKTRACE , bt ) ; if ( ! exe ) { exe = ""/usr/bin/X"" ; if ( access ( ""/usr/bin/Xorg"" , X_OK ) == 0 ) exe = ""/usr/bin/Xorg"" ; } dd_save_text ( dd , FILENAME_EXECUTABLE , exe ) ; dd_close ( dd ) ; notify_new_path ( path ) ; } free ( path ) ; }","static void save_bt_to_dump_dir ( const char * bt , const char * exe , const char * reason ) { time_t t = time ( NULL ) ; const char * iso_date = iso_date_string ( & t ) ; uid_t my_euid = ( uid_t ) - 1L ; mode_t mode = DEFAULT_DUMP_DIR_MODE | S_IROTH ; if ( ! ( g_opts & OPT_x ) ) { mode = DEFAULT_DUMP_DIR_MODE ; my_euid = geteuid ( ) ; } if ( g_settings_privatereports ) { if ( ( g_opts & OPT_x ) ) log ( ""Not going to make dump directories world readable because PrivateReports is on"" ) ; mode = DEFAULT_DUMP_DIR_MODE ; my_euid = 0 ; } pid_t my_pid = getpid ( ) ; char base [ sizeof ( ""xorg-YYYY-MM-DD-hh:mm:ss-%lu-%lu"" ) + 2 * sizeof ( long ) * 3 ] ; sprintf ( base , ""xorg-%s-%lu-%u"" , iso_date , ( long ) my_pid , g_bt_count ) ; char * path = concat_path_file ( debug_dumps_dir , base ) ; struct dump_dir * dd = dd_create ( path , my_euid , mode ) ; if ( dd ) { dd_create_basic_files ( dd , my_euid , NULL ) ; dd_save_text ( dd , FILENAME_ABRT_VERSION , VERSION ) ; dd_save_text ( dd , FILENAME_ANALYZER , ""xorg"" ) ; dd_save_text ( dd , FILENAME_TYPE , ""xorg"" ) ; dd_save_text ( dd , FILENAME_REASON , reason ) ; dd_save_text ( dd , FILENAME_BACKTRACE , bt ) ; if ( ! exe ) { exe = ""/usr/bin/X"" ; if ( access ( ""/usr/bin/Xorg"" , X_OK ) == 0 ) exe = ""/usr/bin/Xorg"" ; } dd_save_text ( dd , FILENAME_EXECUTABLE , exe ) ; dd_close ( dd ) ; notify_new_path ( path ) ; } free ( path ) ; }" 700,"CWE-20 static int pad_basic ( bn_t m , int * p_len , int m_len , int k_len , int operation ) { uint8_t pad = 0 ; int result = RLC_OK ; bn_t t ; RLC_TRY { bn_null ( t ) ; bn_new ( t ) ; switch ( operation ) { case RSA_ENC : case RSA_SIG : case RSA_SIG_HASH : bn_zero ( m ) ; bn_lsh ( m , m , 8 ) ; bn_add_dig ( m , m , RSA_PAD ) ; bn_lsh ( m , m , m_len * 8 ) ; break ; case RSA_DEC : case RSA_VER : case RSA_VER_HASH : m_len = k_len - 1 ; bn_rsh ( t , m , 8 * m_len ) ; if ( ! bn_is_zero ( t ) ) { result = RLC_ERR ; } * p_len = 1 ; do { ( * p_len ) ++ ; m_len -- ; bn_rsh ( t , m , 8 * m_len ) ; pad = ( uint8_t ) t -> dp [ 0 ] ; } while ( pad == 0 && m_len > 0 ) ; if ( pad != RSA_PAD ) { result = RLC_ERR ; } bn_mod_2b ( m , m , ( k_len - * p_len ) * 8 ) ; break ; } } RLC_CATCH_ANY { result = RLC_ERR ; } RLC_FINALLY { bn_free ( t ) ; } return result ; }","static int pad_basic ( bn_t m , int * p_len , int m_len , int k_len , int operation ) { uint8_t pad = 0 ; int result = RLC_ERR ; bn_t t ; RLC_TRY { bn_null ( t ) ; bn_new ( t ) ; switch ( operation ) { case RSA_ENC : case RSA_SIG : case RSA_SIG_HASH : bn_zero ( m ) ; bn_lsh ( m , m , 8 ) ; bn_add_dig ( m , m , RSA_PAD ) ; bn_lsh ( m , m , m_len * 8 ) ; result = RLC_OK ; break ; case RSA_DEC : case RSA_VER : case RSA_VER_HASH : m_len = k_len - 1 ; bn_rsh ( t , m , 8 * m_len ) ; if ( bn_is_zero ( t ) ) { * p_len = 1 ; do { ( * p_len ) ++ ; m_len -- ; bn_rsh ( t , m , 8 * m_len ) ; pad = ( uint8_t ) t -> dp [ 0 ] ; } while ( pad == 0 && m_len > 0 ) ; if ( pad == RSA_PAD ) { result = RLC_OK ; } bn_mod_2b ( m , m , ( k_len - * p_len ) * 8 ) ; } break ; } } RLC_CATCH_ANY { result = RLC_ERR ; } RLC_FINALLY { bn_free ( t ) ; } return result ; }" 701,"CWE-674 static void renameTableFunc ( sqlite3_context * context , int NotUsed , sqlite3_value * * argv ) { sqlite3 * db = sqlite3_context_db_handle ( context ) ; const char * zDb = ( const char * ) sqlite3_value_text ( argv [ 0 ] ) ; const char * zInput = ( const char * ) sqlite3_value_text ( argv [ 3 ] ) ; const char * zOld = ( const char * ) sqlite3_value_text ( argv [ 4 ] ) ; const char * zNew = ( const char * ) sqlite3_value_text ( argv [ 5 ] ) ; int bTemp = sqlite3_value_int ( argv [ 6 ] ) ; UNUSED_PARAMETER ( NotUsed ) ; if ( zInput && zOld && zNew ) { Parse sParse ; int rc ; int bQuote = 1 ; RenameCtx sCtx ; Walker sWalker ; # ifndef SQLITE_OMIT_AUTHORIZATION sqlite3_xauth xAuth = db -> xAuth ; db -> xAuth = 0 ; # endif sqlite3BtreeEnterAll ( db ) ; memset ( & sCtx , 0 , sizeof ( RenameCtx ) ) ; sCtx . pTab = sqlite3FindTable ( db , zOld , zDb ) ; memset ( & sWalker , 0 , sizeof ( Walker ) ) ; sWalker . pParse = & sParse ; sWalker . xExprCallback = renameTableExprCb ; sWalker . xSelectCallback = renameTableSelectCb ; sWalker . u . pRename = & sCtx ; rc = renameParseSql ( & sParse , zDb , 1 , db , zInput , bTemp ) ; if ( rc == SQLITE_OK ) { int isLegacy = ( db -> flags & SQLITE_LegacyAlter ) ; if ( sParse . pNewTable ) { Table * pTab = sParse . pNewTable ; if ( pTab -> pSelect ) { if ( isLegacy == 0 ) { NameContext sNC ; memset ( & sNC , 0 , sizeof ( sNC ) ) ; sNC . pParse = & sParse ; sqlite3SelectPrep ( & sParse , pTab -> pSelect , & sNC ) ; if ( sParse . nErr ) rc = sParse . rc ; sqlite3WalkSelect ( & sWalker , pTab -> pSelect ) ; } } else { # ifndef SQLITE_OMIT_FOREIGN_KEY if ( isLegacy == 0 || ( db -> flags & SQLITE_ForeignKeys ) ) { FKey * pFKey ; for ( pFKey = pTab -> pFKey ; pFKey ; pFKey = pFKey -> pNextFrom ) { if ( sqlite3_stricmp ( pFKey -> zTo , zOld ) == 0 ) { renameTokenFind ( & sParse , & sCtx , ( void * ) pFKey -> zTo ) ; } } } # endif if ( sqlite3_stricmp ( zOld , pTab -> zName ) == 0 ) { sCtx . pTab = pTab ; if ( isLegacy == 0 ) { sqlite3WalkExprList ( & sWalker , pTab -> pCheck ) ; } renameTokenFind ( & sParse , & sCtx , pTab -> zName ) ; } } } else if ( sParse . pNewIndex ) { renameTokenFind ( & sParse , & sCtx , sParse . pNewIndex -> zName ) ; if ( isLegacy == 0 ) { sqlite3WalkExpr ( & sWalker , sParse . pNewIndex -> pPartIdxWhere ) ; } } # ifndef SQLITE_OMIT_TRIGGER else { Trigger * pTrigger = sParse . pNewTrigger ; TriggerStep * pStep ; if ( 0 == sqlite3_stricmp ( sParse . pNewTrigger -> table , zOld ) && sCtx . pTab -> pSchema == pTrigger -> pTabSchema ) { renameTokenFind ( & sParse , & sCtx , sParse . pNewTrigger -> table ) ; } if ( isLegacy == 0 ) { rc = renameResolveTrigger ( & sParse , bTemp ? 0 : zDb ) ; if ( rc == SQLITE_OK ) { renameWalkTrigger ( & sWalker , pTrigger ) ; for ( pStep = pTrigger -> step_list ; pStep ; pStep = pStep -> pNext ) { if ( pStep -> zTarget && 0 == sqlite3_stricmp ( pStep -> zTarget , zOld ) ) { renameTokenFind ( & sParse , & sCtx , pStep -> zTarget ) ; } } } }","static void renameTableFunc ( sqlite3_context * context , int NotUsed , sqlite3_value * * argv ) { sqlite3 * db = sqlite3_context_db_handle ( context ) ; const char * zDb = ( const char * ) sqlite3_value_text ( argv [ 0 ] ) ; const char * zInput = ( const char * ) sqlite3_value_text ( argv [ 3 ] ) ; const char * zOld = ( const char * ) sqlite3_value_text ( argv [ 4 ] ) ; const char * zNew = ( const char * ) sqlite3_value_text ( argv [ 5 ] ) ; int bTemp = sqlite3_value_int ( argv [ 6 ] ) ; UNUSED_PARAMETER ( NotUsed ) ; if ( zInput && zOld && zNew ) { Parse sParse ; int rc ; int bQuote = 1 ; RenameCtx sCtx ; Walker sWalker ; # ifndef SQLITE_OMIT_AUTHORIZATION sqlite3_xauth xAuth = db -> xAuth ; db -> xAuth = 0 ; # endif sqlite3BtreeEnterAll ( db ) ; memset ( & sCtx , 0 , sizeof ( RenameCtx ) ) ; sCtx . pTab = sqlite3FindTable ( db , zOld , zDb ) ; memset ( & sWalker , 0 , sizeof ( Walker ) ) ; sWalker . pParse = & sParse ; sWalker . xExprCallback = renameTableExprCb ; sWalker . xSelectCallback = renameTableSelectCb ; sWalker . u . pRename = & sCtx ; rc = renameParseSql ( & sParse , zDb , 1 , db , zInput , bTemp ) ; if ( rc == SQLITE_OK ) { int isLegacy = ( db -> flags & SQLITE_LegacyAlter ) ; if ( sParse . pNewTable ) { Table * pTab = sParse . pNewTable ; if ( pTab -> pSelect ) { if ( isLegacy == 0 ) { Select * pSelect = pTab -> pSelect ; NameContext sNC ; memset ( & sNC , 0 , sizeof ( sNC ) ) ; sNC . pParse = & sParse ; assert ( pSelect -> selFlags & SF_View ) ; pSelect -> selFlags &= ~ SF_View ; sqlite3SelectPrep ( & sParse , pTab -> pSelect , & sNC ) ; if ( sParse . nErr ) rc = sParse . rc ; sqlite3WalkSelect ( & sWalker , pTab -> pSelect ) ; } } else { # ifndef SQLITE_OMIT_FOREIGN_KEY if ( isLegacy == 0 || ( db -> flags & SQLITE_ForeignKeys ) ) { FKey * pFKey ; for ( pFKey = pTab -> pFKey ; pFKey ; pFKey = pFKey -> pNextFrom ) { if ( sqlite3_stricmp ( pFKey -> zTo , zOld ) == 0 ) { renameTokenFind ( & sParse , & sCtx , ( void * ) pFKey -> zTo ) ; } } } # endif if ( sqlite3_stricmp ( zOld , pTab -> zName ) == 0 ) { sCtx . pTab = pTab ; if ( isLegacy == 0 ) { sqlite3WalkExprList ( & sWalker , pTab -> pCheck ) ; } renameTokenFind ( & sParse , & sCtx , pTab -> zName ) ; } } } else if ( sParse . pNewIndex ) { renameTokenFind ( & sParse , & sCtx , sParse . pNewIndex -> zName ) ; if ( isLegacy == 0 ) { sqlite3WalkExpr ( & sWalker , sParse . pNewIndex -> pPartIdxWhere ) ; } } # ifndef SQLITE_OMIT_TRIGGER else { Trigger * pTrigger = sParse . pNewTrigger ; TriggerStep * pStep ; if ( 0 == sqlite3_stricmp ( sParse . pNewTrigger -> table , zOld ) && sCtx . pTab -> pSchema == pTrigger -> pTabSchema ) { renameTokenFind ( & sParse , & sCtx , sParse . pNewTrigger -> table ) ; } if ( isLegacy == 0 ) { rc = renameResolveTrigger ( & sParse , bTemp ? 0 : zDb ) ; if ( rc == SQLITE_OK ) { renameWalkTrigger ( & sWalker , pTrigger ) ; for ( pStep = pTrigger -> step_list ; pStep ; pStep = pStep -> pNext ) { if ( pStep -> zTarget && 0 == sqlite3_stricmp ( pStep -> zTarget , zOld ) ) { renameTokenFind ( & sParse , & sCtx , pStep -> zTarget ) ; } } } }" 702,"CWE-264 static void bond_setup ( struct net_device * bond_dev ) { struct bonding * bond = netdev_priv ( bond_dev ) ; rwlock_init ( & bond -> lock ) ; rwlock_init ( & bond -> curr_slave_lock ) ; bond -> params = bonding_defaults ; bond -> dev = bond_dev ; INIT_LIST_HEAD ( & bond -> vlan_list ) ; ether_setup ( bond_dev ) ; bond_dev -> netdev_ops = & bond_netdev_ops ; bond_dev -> ethtool_ops = & bond_ethtool_ops ; bond_set_mode_ops ( bond , bond -> params . mode ) ; bond_dev -> destructor = bond_destructor ; bond_dev -> tx_queue_len = 0 ; bond_dev -> flags |= IFF_MASTER | IFF_MULTICAST ; bond_dev -> priv_flags |= IFF_BONDING ; bond_dev -> priv_flags &= ~ IFF_XMIT_DST_RELEASE ; bond_dev -> features |= NETIF_F_VLAN_CHALLENGED ; bond_dev -> features |= NETIF_F_LLTX ; bond_dev -> hw_features = BOND_VLAN_FEATURES | NETIF_F_HW_VLAN_TX | NETIF_F_HW_VLAN_RX | NETIF_F_HW_VLAN_FILTER ; bond_dev -> hw_features &= ~ ( NETIF_F_ALL_CSUM & ~ NETIF_F_NO_CSUM ) ; bond_dev -> features |= bond_dev -> hw_features ; }","static void bond_setup ( struct net_device * bond_dev ) { struct bonding * bond = netdev_priv ( bond_dev ) ; rwlock_init ( & bond -> lock ) ; rwlock_init ( & bond -> curr_slave_lock ) ; bond -> params = bonding_defaults ; bond -> dev = bond_dev ; INIT_LIST_HEAD ( & bond -> vlan_list ) ; ether_setup ( bond_dev ) ; bond_dev -> netdev_ops = & bond_netdev_ops ; bond_dev -> ethtool_ops = & bond_ethtool_ops ; bond_set_mode_ops ( bond , bond -> params . mode ) ; bond_dev -> destructor = bond_destructor ; bond_dev -> tx_queue_len = 0 ; bond_dev -> flags |= IFF_MASTER | IFF_MULTICAST ; bond_dev -> priv_flags |= IFF_BONDING ; bond_dev -> priv_flags &= ~ ( IFF_XMIT_DST_RELEASE | IFF_TX_SKB_SHARING ) ; bond_dev -> features |= NETIF_F_VLAN_CHALLENGED ; bond_dev -> features |= NETIF_F_LLTX ; bond_dev -> hw_features = BOND_VLAN_FEATURES | NETIF_F_HW_VLAN_TX | NETIF_F_HW_VLAN_RX | NETIF_F_HW_VLAN_FILTER ; bond_dev -> hw_features &= ~ ( NETIF_F_ALL_CSUM & ~ NETIF_F_NO_CSUM ) ; bond_dev -> features |= bond_dev -> hw_features ; }" 703,"CWE-200 char * problem_data_save ( problem_data_t * pd ) { load_abrt_conf ( ) ; struct dump_dir * dd = create_dump_dir_from_problem_data ( pd , g_settings_dump_location ) ; char * problem_id = NULL ; if ( dd ) { problem_id = xstrdup ( dd -> dd_dirname ) ; dd_close ( dd ) ; } log_info ( ""problem id: \'%s\'"" , problem_id ) ; return problem_id ; }","char * problem_data_save ( problem_data_t * pd ) { load_abrt_conf ( ) ; struct dump_dir * dd = NULL ; if ( g_settings_privatereports ) dd = create_dump_dir_from_problem_data_ext ( pd , g_settings_dump_location , 0 ) ; else dd = create_dump_dir_from_problem_data ( pd , g_settings_dump_location ) ; char * problem_id = NULL ; if ( dd ) { problem_id = xstrdup ( dd -> dd_dirname ) ; dd_close ( dd ) ; } log_info ( ""problem id: \'%s\'"" , problem_id ) ; return problem_id ; }" 704,"CWE-20 int bt_sock_stream_recvmsg ( struct kiocb * iocb , struct socket * sock , struct msghdr * msg , size_t size , int flags ) { struct sock * sk = sock -> sk ; int err = 0 ; size_t target , copied = 0 ; long timeo ; if ( flags & MSG_OOB ) return - EOPNOTSUPP ; msg -> msg_namelen = 0 ; BT_DBG ( ""sk %p size %zu"" , sk , size ) ; lock_sock ( sk ) ; target = sock_rcvlowat ( sk , flags & MSG_WAITALL , size ) ; timeo = sock_rcvtimeo ( sk , flags & MSG_DONTWAIT ) ; do { struct sk_buff * skb ; int chunk ; skb = skb_dequeue ( & sk -> sk_receive_queue ) ; if ( ! skb ) { if ( copied >= target ) break ; err = sock_error ( sk ) ; if ( err ) break ; if ( sk -> sk_shutdown & RCV_SHUTDOWN ) break ; err = - EAGAIN ; if ( ! timeo ) break ; timeo = bt_sock_data_wait ( sk , timeo ) ; if ( signal_pending ( current ) ) { err = sock_intr_errno ( timeo ) ; goto out ; } continue ; } chunk = min_t ( unsigned int , skb -> len , size ) ; if ( skb_copy_datagram_iovec ( skb , 0 , msg -> msg_iov , chunk ) ) { skb_queue_head ( & sk -> sk_receive_queue , skb ) ; if ( ! copied ) copied = - EFAULT ; break ; } copied += chunk ; size -= chunk ; sock_recv_ts_and_drops ( msg , sk , skb ) ; if ( ! ( flags & MSG_PEEK ) ) { int skb_len = skb_headlen ( skb ) ; if ( chunk <= skb_len ) { __skb_pull ( skb , chunk ) ; } else { struct sk_buff * frag ; __skb_pull ( skb , skb_len ) ; chunk -= skb_len ; skb_walk_frags ( skb , frag ) { if ( chunk <= frag -> len ) { skb -> len -= chunk ; skb -> data_len -= chunk ; __skb_pull ( frag , chunk ) ; break ;","int bt_sock_stream_recvmsg ( struct kiocb * iocb , struct socket * sock , struct msghdr * msg , size_t size , int flags ) { struct sock * sk = sock -> sk ; int err = 0 ; size_t target , copied = 0 ; long timeo ; if ( flags & MSG_OOB ) return - EOPNOTSUPP ; BT_DBG ( ""sk %p size %zu"" , sk , size ) ; lock_sock ( sk ) ; target = sock_rcvlowat ( sk , flags & MSG_WAITALL , size ) ; timeo = sock_rcvtimeo ( sk , flags & MSG_DONTWAIT ) ; do { struct sk_buff * skb ; int chunk ; skb = skb_dequeue ( & sk -> sk_receive_queue ) ; if ( ! skb ) { if ( copied >= target ) break ; err = sock_error ( sk ) ; if ( err ) break ; if ( sk -> sk_shutdown & RCV_SHUTDOWN ) break ; err = - EAGAIN ; if ( ! timeo ) break ; timeo = bt_sock_data_wait ( sk , timeo ) ; if ( signal_pending ( current ) ) { err = sock_intr_errno ( timeo ) ; goto out ; } continue ; } chunk = min_t ( unsigned int , skb -> len , size ) ; if ( skb_copy_datagram_iovec ( skb , 0 , msg -> msg_iov , chunk ) ) { skb_queue_head ( & sk -> sk_receive_queue , skb ) ; if ( ! copied ) copied = - EFAULT ; break ; } copied += chunk ; size -= chunk ; sock_recv_ts_and_drops ( msg , sk , skb ) ; if ( ! ( flags & MSG_PEEK ) ) { int skb_len = skb_headlen ( skb ) ; if ( chunk <= skb_len ) { __skb_pull ( skb , chunk ) ; } else { struct sk_buff * frag ; __skb_pull ( skb , skb_len ) ; chunk -= skb_len ; skb_walk_frags ( skb , frag ) { if ( chunk <= frag -> len ) { skb -> len -= chunk ; skb -> data_len -= chunk ; __skb_pull ( frag , chunk ) ; break ;" 705,"CWE-834 static unsigned int XBMInteger ( Image * image , short int * hex_digits ) { int c ; unsigned int value ; do { c = ReadBlobByte ( image ) ; if ( c == EOF ) return ( 0 ) ; } while ( ( c == ' ' ) || ( c == '\\t' ) || ( c == '\\n' ) || ( c == '\\r' ) ) ; value = 0 ; do { if ( value > ( unsigned int ) ( INT_MAX / 10 ) ) break ; value *= 16 ; c &= 0xff ; if ( value > ( unsigned int ) ( INT_MAX - hex_digits [ c ] ) ) break ; value += hex_digits [ c ] ; c = ReadBlobByte ( image ) ; if ( c == EOF ) return ( 0 ) ; } while ( hex_digits [ c ] >= 0 ) ; return ( value ) ; }","static int XBMInteger ( Image * image , short int * hex_digits ) { int c ; unsigned int value ; do { c = ReadBlobByte ( image ) ; if ( c == EOF ) return ( - 1 ) ; } while ( ( c == ' ' ) || ( c == '\\t' ) || ( c == '\\n' ) || ( c == '\\r' ) ) ; value = 0 ; do { if ( value > ( unsigned int ) ( INT_MAX / 10 ) ) break ; value *= 16 ; c &= 0xff ; if ( value > ( unsigned int ) ( INT_MAX - hex_digits [ c ] ) ) break ; value += hex_digits [ c ] ; c = ReadBlobByte ( image ) ; if ( c == EOF ) return ( - 1 ) ; } while ( hex_digits [ c ] >= 0 ) ; return ( ( int ) value ) ; }" 706,"CWE-119 int main ( int argc , char * * argv ) { int frame_cnt = 0 ; FILE * outfile = NULL ; vpx_codec_ctx_t codec ; vpx_codec_err_t res ; VpxVideoReader * reader = NULL ; const VpxInterface * decoder = NULL ; const VpxVideoInfo * info = NULL ; exec_name = argv [ 0 ] ; if ( argc != 3 ) die ( ""Invalid number of arguments."" ) ; reader = vpx_video_reader_open ( argv [ 1 ] ) ; if ( ! reader ) die ( ""Failed to open %s for reading."" , argv [ 1 ] ) ; if ( ! ( outfile = fopen ( argv [ 2 ] , ""wb"" ) ) ) die ( ""Failed to open %s for writing"" , argv [ 2 ] ) ; info = vpx_video_reader_get_info ( reader ) ; decoder = get_vpx_decoder_by_fourcc ( info -> codec_fourcc ) ; if ( ! decoder ) die ( ""Unknown input codec."" ) ; printf ( ""Using %s\\n"" , vpx_codec_iface_name ( decoder -> interface ( ) ) ) ; res = vpx_codec_dec_init ( & codec , decoder -> interface ( ) , NULL , VPX_CODEC_USE_POSTPROC ) ; if ( res == VPX_CODEC_INCAPABLE ) die_codec ( & codec , ""Postproc not supported by this decoder."" ) ; if ( res ) die_codec ( & codec , ""Failed to initialize decoder."" ) ; while ( vpx_video_reader_read_frame ( reader ) ) { vpx_codec_iter_t iter = NULL ; vpx_image_t * img = NULL ; size_t frame_size = 0 ; const unsigned char * frame = vpx_video_reader_get_frame ( reader , & frame_size ) ; if ( frame_cnt % 30 == 1 ) { vp8_postproc_cfg_t pp = { 0 , 0 , 0 } ; if ( vpx_codec_control ( & codec , VP8_SET_POSTPROC , & pp ) ) die_codec ( & codec , ""Failed to turn off postproc."" ) ; } else if ( frame_cnt % 30 == 16 ) { vp8_postproc_cfg_t pp = { VP8_DEBLOCK | VP8_DEMACROBLOCK | VP8_MFQE , 4 , 0 } ; if ( vpx_codec_control ( & codec , VP8_SET_POSTPROC , & pp ) ) die_codec ( & codec , ""Failed to turn on postproc."" ) ; } ; if ( vpx_codec_decode ( & codec , frame , ( unsigned int ) frame_size , NULL , 15000 ) ) die_codec ( & codec , ""Failed to decode frame"" ) ; while ( ( img = vpx_codec_get_frame ( & codec , & iter ) ) != NULL ) { vpx_img_write ( img , outfile ) ; } } printf ( ""Processed %d frames.\\n"" , frame_cnt ) ; if ( vpx_codec_destroy ( & codec ) ) die_codec ( & codec , ""Failed to destroy codec"" ) ; printf ( ""Play: ffplay -f rawvideo -pix_fmt yuv420p -s %dx%d %s\\n"" , info -> frame_width , info -> frame_height , argv [ 2 ] ) ; vpx_video_reader_close ( reader ) ; fclose ( outfile ) ; return EXIT_SUCCESS ; }","int main ( int argc , char * * argv ) { int frame_cnt = 0 ; FILE * outfile = NULL ; vpx_codec_ctx_t codec ; vpx_codec_err_t res ; VpxVideoReader * reader = NULL ; const VpxInterface * decoder = NULL ; const VpxVideoInfo * info = NULL ; exec_name = argv [ 0 ] ; if ( argc != 3 ) die ( ""Invalid number of arguments."" ) ; reader = vpx_video_reader_open ( argv [ 1 ] ) ; if ( ! reader ) die ( ""Failed to open %s for reading."" , argv [ 1 ] ) ; if ( ! ( outfile = fopen ( argv [ 2 ] , ""wb"" ) ) ) die ( ""Failed to open %s for writing"" , argv [ 2 ] ) ; info = vpx_video_reader_get_info ( reader ) ; decoder = get_vpx_decoder_by_fourcc ( info -> codec_fourcc ) ; if ( ! decoder ) die ( ""Unknown input codec."" ) ; printf ( ""Using %s\\n"" , vpx_codec_iface_name ( decoder -> codec_interface ( ) ) ) ; res = vpx_codec_dec_init ( & codec , decoder -> codec_interface ( ) , NULL , VPX_CODEC_USE_POSTPROC ) ; if ( res == VPX_CODEC_INCAPABLE ) die_codec ( & codec , ""Postproc not supported by this decoder."" ) ; if ( res ) die_codec ( & codec , ""Failed to initialize decoder."" ) ; while ( vpx_video_reader_read_frame ( reader ) ) { vpx_codec_iter_t iter = NULL ; vpx_image_t * img = NULL ; size_t frame_size = 0 ; const unsigned char * frame = vpx_video_reader_get_frame ( reader , & frame_size ) ; + frame_cnt ; if ( frame_cnt % 30 == 1 ) { vp8_postproc_cfg_t pp = { 0 , 0 , 0 } ; if ( vpx_codec_control ( & codec , VP8_SET_POSTPROC , & pp ) ) die_codec ( & codec , ""Failed to turn off postproc."" ) ; } else if ( frame_cnt % 30 == 16 ) { vp8_postproc_cfg_t pp = { VP8_DEBLOCK | VP8_DEMACROBLOCK | VP8_MFQE , 4 , 0 } ; if ( vpx_codec_control ( & codec , VP8_SET_POSTPROC , & pp ) ) die_codec ( & codec , ""Failed to turn on postproc."" ) ; } ; if ( vpx_codec_decode ( & codec , frame , ( unsigned int ) frame_size , NULL , 15000 ) ) die_codec ( & codec , ""Failed to decode frame"" ) ; while ( ( img = vpx_codec_get_frame ( & codec , & iter ) ) != NULL ) { vpx_img_write ( img , outfile ) ; } } printf ( ""Processed %d frames.\\n"" , frame_cnt ) ; if ( vpx_codec_destroy ( & codec ) ) die_codec ( & codec , ""Failed to destroy codec"" ) ; printf ( ""Play: ffplay -f rawvideo -pix_fmt yuv420p -s %dx%d %s\\n"" , info -> frame_width , info -> frame_height , argv [ 2 ] ) ; vpx_video_reader_close ( reader ) ; fclose ( outfile ) ; return EXIT_SUCCESS ; }" 707,"CWE-400 GF_Err dinf_Read ( GF_Box * s , GF_BitStream * bs ) { GF_Err e = gf_isom_box_array_read ( s , bs , dinf_AddBox ) ; if ( e ) { return e ; } if ( ! ( ( GF_DataInformationBox * ) s ) -> dref ) { GF_LOG ( GF_LOG_ERROR , GF_LOG_CONTAINER , ( ""[iso file] Missing dref box in dinf\\n"" ) ) ; ( ( GF_DataInformationBox * ) s ) -> dref = ( GF_DataReferenceBox * ) gf_isom_box_new ( GF_ISOM_BOX_TYPE_DREF ) ; } return GF_OK ; }","GF_Err dinf_Read ( GF_Box * s , GF_BitStream * bs ) { GF_Err e = gf_isom_box_array_read ( s , bs , dinf_AddBox ) ; if ( e ) { return e ; } if ( ! ( ( GF_DataInformationBox * ) s ) -> dref ) { GF_Box * dref ; GF_LOG ( GF_LOG_ERROR , GF_LOG_CONTAINER , ( ""[iso file] Missing dref box in dinf\\n"" ) ) ; dref = gf_isom_box_new ( GF_ISOM_BOX_TYPE_DREF ) ; ( ( GF_DataInformationBox * ) s ) -> dref = ( GF_DataReferenceBox * ) dref ; gf_isom_box_add_for_dump_mode ( s , dref ) ; } return GF_OK ; }" 708,"CWE-125 void pgm_print ( netdissect_options * ndo , register const u_char * bp , register u_int length , register const u_char * bp2 ) { register const struct pgm_header * pgm ; register const struct ip * ip ; register char ch ; uint16_t sport , dport ; u_int nla_afnum ; char nla_buf [ INET6_ADDRSTRLEN ] ; register const struct ip6_hdr * ip6 ; uint8_t opt_type , opt_len ; uint32_t seq , opts_len , len , offset ; pgm = ( const struct pgm_header * ) bp ; ip = ( const struct ip * ) bp2 ; if ( IP_V ( ip ) == 6 ) ip6 = ( const struct ip6_hdr * ) bp2 ; else ip6 = NULL ; ch = '\\0' ; if ( ! ND_TTEST ( pgm -> pgm_dport ) ) { if ( ip6 ) { ND_PRINT ( ( ndo , ""%s > %s: [|pgm]"" , ip6addr_string ( ndo , & ip6 -> ip6_src ) , ip6addr_string ( ndo , & ip6 -> ip6_dst ) ) ) ; return ; } else { ND_PRINT ( ( ndo , ""%s > %s: [|pgm]"" , ipaddr_string ( ndo , & ip -> ip_src ) , ipaddr_string ( ndo , & ip -> ip_dst ) ) ) ; return ; } } sport = EXTRACT_16BITS ( & pgm -> pgm_sport ) ; dport = EXTRACT_16BITS ( & pgm -> pgm_dport ) ; if ( ip6 ) { if ( ip6 -> ip6_nxt == IPPROTO_PGM ) { ND_PRINT ( ( ndo , ""%s.%s > %s.%s: "" , ip6addr_string ( ndo , & ip6 -> ip6_src ) , tcpport_string ( ndo , sport ) , ip6addr_string ( ndo , & ip6 -> ip6_dst ) , tcpport_string ( ndo , dport ) ) ) ; } else { ND_PRINT ( ( ndo , ""%s > %s: "" , tcpport_string ( ndo , sport ) , tcpport_string ( ndo , dport ) ) ) ; } } else { if ( ip -> ip_p == IPPROTO_PGM ) { ND_PRINT ( ( ndo , ""%s.%s > %s.%s: "" , ipaddr_string ( ndo , & ip -> ip_src ) , tcpport_string ( ndo , sport ) , ipaddr_string ( ndo , & ip -> ip_dst ) , tcpport_string ( ndo , dport ) ) ) ; } else { ND_PRINT ( ( ndo , ""%s > %s: "" , tcpport_string ( ndo , sport ) , tcpport_string ( ndo , dport ) ) ) ; } } ND_TCHECK ( * pgm ) ; ND_PRINT ( ( ndo , ""PGM, length %u"" , EXTRACT_16BITS ( & pgm -> pgm_length ) ) ) ; if ( ! ndo -> ndo_vflag ) return ; ND_PRINT ( ( ndo , "" 0x%02x%02x%02x%02x%02x%02x "" , pgm -> pgm_gsid [ 0 ] , pgm -> pgm_gsid [ 1 ] , pgm -> pgm_gsid [ 2 ] , pgm -> pgm_gsid [ 3 ] , pgm -> pgm_gsid [ 4 ] , pgm -> pgm_gsid [ 5 ] ) ) ; switch ( pgm -> pgm_type ) { case PGM_SPM : { const struct pgm_spm * spm ; spm = ( const struct pgm_spm * ) ( pgm + 1 ) ; ND_TCHECK ( * spm ) ; bp = ( const u_char * ) ( spm + 1 ) ; switch ( EXTRACT_16BITS ( & spm -> pgms_nla_afi ) ) { case AFNUM_INET : ND_TCHECK2 ( * bp , sizeof ( struct in_addr ) ) ; addrtostr ( bp , nla_buf , sizeof ( nla_buf ) ) ; bp += sizeof ( struct in_addr ) ; break ; case AFNUM_INET6 :","void pgm_print ( netdissect_options * ndo , register const u_char * bp , register u_int length , register const u_char * bp2 ) { register const struct pgm_header * pgm ; register const struct ip * ip ; register char ch ; uint16_t sport , dport ; u_int nla_afnum ; char nla_buf [ INET6_ADDRSTRLEN ] ; register const struct ip6_hdr * ip6 ; uint8_t opt_type , opt_len ; uint32_t seq , opts_len , len , offset ; pgm = ( const struct pgm_header * ) bp ; ip = ( const struct ip * ) bp2 ; if ( IP_V ( ip ) == 6 ) ip6 = ( const struct ip6_hdr * ) bp2 ; else ip6 = NULL ; ch = '\\0' ; if ( ! ND_TTEST ( pgm -> pgm_dport ) ) { if ( ip6 ) { ND_PRINT ( ( ndo , ""%s > %s: [|pgm]"" , ip6addr_string ( ndo , & ip6 -> ip6_src ) , ip6addr_string ( ndo , & ip6 -> ip6_dst ) ) ) ; } else { ND_PRINT ( ( ndo , ""%s > %s: [|pgm]"" , ipaddr_string ( ndo , & ip -> ip_src ) , ipaddr_string ( ndo , & ip -> ip_dst ) ) ) ; } return ; } sport = EXTRACT_16BITS ( & pgm -> pgm_sport ) ; dport = EXTRACT_16BITS ( & pgm -> pgm_dport ) ; if ( ip6 ) { if ( ip6 -> ip6_nxt == IPPROTO_PGM ) { ND_PRINT ( ( ndo , ""%s.%s > %s.%s: "" , ip6addr_string ( ndo , & ip6 -> ip6_src ) , tcpport_string ( ndo , sport ) , ip6addr_string ( ndo , & ip6 -> ip6_dst ) , tcpport_string ( ndo , dport ) ) ) ; } else { ND_PRINT ( ( ndo , ""%s > %s: "" , tcpport_string ( ndo , sport ) , tcpport_string ( ndo , dport ) ) ) ; } } else { if ( ip -> ip_p == IPPROTO_PGM ) { ND_PRINT ( ( ndo , ""%s.%s > %s.%s: "" , ipaddr_string ( ndo , & ip -> ip_src ) , tcpport_string ( ndo , sport ) , ipaddr_string ( ndo , & ip -> ip_dst ) , tcpport_string ( ndo , dport ) ) ) ; } else { ND_PRINT ( ( ndo , ""%s > %s: "" , tcpport_string ( ndo , sport ) , tcpport_string ( ndo , dport ) ) ) ; } } ND_TCHECK ( * pgm ) ; ND_PRINT ( ( ndo , ""PGM, length %u"" , EXTRACT_16BITS ( & pgm -> pgm_length ) ) ) ; if ( ! ndo -> ndo_vflag ) return ; ND_PRINT ( ( ndo , "" 0x%02x%02x%02x%02x%02x%02x "" , pgm -> pgm_gsid [ 0 ] , pgm -> pgm_gsid [ 1 ] , pgm -> pgm_gsid [ 2 ] , pgm -> pgm_gsid [ 3 ] , pgm -> pgm_gsid [ 4 ] , pgm -> pgm_gsid [ 5 ] ) ) ; switch ( pgm -> pgm_type ) { case PGM_SPM : { const struct pgm_spm * spm ; spm = ( const struct pgm_spm * ) ( pgm + 1 ) ; ND_TCHECK ( * spm ) ; bp = ( const u_char * ) ( spm + 1 ) ; switch ( EXTRACT_16BITS ( & spm -> pgms_nla_afi ) ) { case AFNUM_INET : ND_TCHECK2 ( * bp , sizeof ( struct in_addr ) ) ; addrtostr ( bp , nla_buf , sizeof ( nla_buf ) ) ; bp += sizeof ( struct in_addr ) ; break ; case AFNUM_INET6 :" 709,"CWE-400 ssize_t ldblk ; size_t one ; unsigned char * BImgBuff ; tCTM CTM ; assert ( image_info != ( const ImageInfo * ) NULL ) ; assert ( image_info -> signature == MagickSignature ) ; assert ( exception != ( ExceptionInfo * ) NULL ) ; assert ( exception -> signature == MagickSignature ) ; one = 1 ; image = AcquireImage ( image_info ) ; image -> depth = 8 ; status = OpenBlob ( image_info , image , ReadBinaryBlobMode , exception ) ; if ( status == MagickFalse ) { image = DestroyImageList ( image ) ; return ( ( Image * ) NULL ) ; } Header . FileId = ReadBlobLSBLong ( image ) ; Header . DataOffset = ( MagickOffsetType ) ReadBlobLSBLong ( image ) ; Header . ProductType = ReadBlobLSBShort ( image ) ; Header . FileType = ReadBlobLSBShort ( image ) ; Header . MajorVersion = ReadBlobByte ( image ) ; Header . MinorVersion = ReadBlobByte ( image ) ; Header . EncryptKey = ReadBlobLSBShort ( image ) ; Header . Reserved = ReadBlobLSBShort ( image ) ; if ( Header . FileId != 0x435057FF || ( Header . ProductType >> 8 ) != 0x16 ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; if ( Header . EncryptKey != 0 ) ThrowReaderException ( CoderError , ""EncryptedWPGImageFileNotSupported"" ) ; image -> columns = 1 ; image -> rows = 1 ; image -> colors = 0 ; bpp = 0 ; BitmapHeader2 . RotAngle = 0 ; Rec2 . RecordLength = 0 ; switch ( Header . FileType ) { case 1 : while ( ! EOFBlob ( image ) ) { ( void ) SeekBlob ( image , Header . DataOffset , SEEK_SET ) ; if ( EOFBlob ( image ) ) break ; Rec . RecType = ( i = ReadBlobByte ( image ) ) ; if ( i == EOF ) break ; Rd_WP_DWORD ( image , & Rec . RecordLength ) ; if ( EOFBlob ( image ) ) break ; Header . DataOffset = TellBlob ( image ) + Rec . RecordLength ; switch ( Rec . RecType ) { case 0x0B : BitmapHeader1 . Width = ReadBlobLSBShort ( image ) ; BitmapHeader1 . Height = ReadBlobLSBShort ( image ) ; if ( ( BitmapHeader1 . Width == 0 ) || ( BitmapHeader1 . Height == 0 ) ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; BitmapHeader1 . Depth = ReadBlobLSBShort ( image ) ; BitmapHeader1 . HorzRes = ReadBlobLSBShort ( image ) ; BitmapHeader1 . VertRes = ReadBlobLSBShort ( image ) ; if ( BitmapHeader1 . HorzRes && BitmapHeader1 . VertRes ) { image -> units = PixelsPerCentimeterResolution ; image -> x_resolution = BitmapHeader1 . HorzRes / 470.0 ; image -> y_resolution = BitmapHeader1 . VertRes / 470.0 ; } image -> columns = BitmapHeader1 . Width ; image -> rows = BitmapHeader1 . Height ; bpp = BitmapHeader1 . Depth ; goto UnpackRaster ; case 0x0E : WPG_Palette . StartIndex = ReadBlobLSBShort ( image ) ; WPG_Palette . NumOfEntries = ReadBlobLSBShort ( image ) ; if ( ( WPG_Palette . NumOfEntries - WPG_Palette . StartIndex ) > ( Rec2 . RecordLength - 2 - 2 ) / 3 ) ThrowReaderException ( CorruptImageError , ""InvalidColormapIndex"" ) ; image -> colors = WPG_Palette . NumOfEntries ; if ( ! AcquireImageColormap ( image , image -> colors ) ) goto NoMemory ; for ( i = WPG_Palette . StartIndex ; i < ( int ) WPG_Palette . NumOfEntries ; i ++ ) { image -> colormap [ i ] . red = ScaleCharToQuantum ( ( unsigned char ) ReadBlobByte ( image ) ) ; image -> colormap [ i ] . green = ScaleCharToQuantum ( ( unsigned char ) ReadBlobByte ( image ) ) ; image -> colormap [ i ] . blue = ScaleCharToQuantum ( ( unsigned char ) ReadBlobByte ( image ) ) ; } break ; case 0x11 : if ( Rec . RecordLength > 8 ) image = ExtractPostscript ( image , image_info , TellBlob ( image ) + 8 , ( ssize_t ) Rec . RecordLength - 8 , exception ) ; break ; case 0x14 :","ssize_t ldblk ; size_t one ; unsigned char * BImgBuff ; tCTM CTM ; assert ( image_info != ( const ImageInfo * ) NULL ) ; assert ( image_info -> signature == MagickSignature ) ; assert ( exception != ( ExceptionInfo * ) NULL ) ; assert ( exception -> signature == MagickSignature ) ; one = 1 ; image = AcquireImage ( image_info ) ; image -> depth = 8 ; status = OpenBlob ( image_info , image , ReadBinaryBlobMode , exception ) ; if ( status == MagickFalse ) { image = DestroyImageList ( image ) ; return ( ( Image * ) NULL ) ; } Header . FileId = ReadBlobLSBLong ( image ) ; Header . DataOffset = ( MagickOffsetType ) ReadBlobLSBLong ( image ) ; Header . ProductType = ReadBlobLSBShort ( image ) ; Header . FileType = ReadBlobLSBShort ( image ) ; Header . MajorVersion = ReadBlobByte ( image ) ; Header . MinorVersion = ReadBlobByte ( image ) ; Header . EncryptKey = ReadBlobLSBShort ( image ) ; Header . Reserved = ReadBlobLSBShort ( image ) ; if ( Header . FileId != 0x435057FF || ( Header . ProductType >> 8 ) != 0x16 ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; if ( Header . EncryptKey != 0 ) ThrowReaderException ( CoderError , ""EncryptedWPGImageFileNotSupported"" ) ; image -> columns = 1 ; image -> rows = 1 ; image -> colors = 0 ; bpp = 0 ; BitmapHeader2 . RotAngle = 0 ; Rec2 . RecordLength = 0 ; switch ( Header . FileType ) { case 1 : while ( ! EOFBlob ( image ) ) { ( void ) SeekBlob ( image , Header . DataOffset , SEEK_SET ) ; if ( EOFBlob ( image ) ) break ; Rec . RecType = ( i = ReadBlobByte ( image ) ) ; if ( i == EOF ) break ; Rd_WP_DWORD ( image , & Rec . RecordLength ) ; if ( Rec . RecordLength > GetBlobSize ( image ) ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; if ( EOFBlob ( image ) ) break ; Header . DataOffset = TellBlob ( image ) + Rec . RecordLength ; switch ( Rec . RecType ) { case 0x0B : BitmapHeader1 . Width = ReadBlobLSBShort ( image ) ; BitmapHeader1 . Height = ReadBlobLSBShort ( image ) ; if ( ( BitmapHeader1 . Width == 0 ) || ( BitmapHeader1 . Height == 0 ) ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; BitmapHeader1 . Depth = ReadBlobLSBShort ( image ) ; BitmapHeader1 . HorzRes = ReadBlobLSBShort ( image ) ; BitmapHeader1 . VertRes = ReadBlobLSBShort ( image ) ; if ( BitmapHeader1 . HorzRes && BitmapHeader1 . VertRes ) { image -> units = PixelsPerCentimeterResolution ; image -> x_resolution = BitmapHeader1 . HorzRes / 470.0 ; image -> y_resolution = BitmapHeader1 . VertRes / 470.0 ; } image -> columns = BitmapHeader1 . Width ; image -> rows = BitmapHeader1 . Height ; bpp = BitmapHeader1 . Depth ; goto UnpackRaster ; case 0x0E : WPG_Palette . StartIndex = ReadBlobLSBShort ( image ) ; WPG_Palette . NumOfEntries = ReadBlobLSBShort ( image ) ; if ( ( WPG_Palette . NumOfEntries - WPG_Palette . StartIndex ) > ( Rec2 . RecordLength - 2 - 2 ) / 3 ) ThrowReaderException ( CorruptImageError , ""InvalidColormapIndex"" ) ; image -> colors = WPG_Palette . NumOfEntries ; if ( ! AcquireImageColormap ( image , image -> colors ) ) goto NoMemory ; for ( i = WPG_Palette . StartIndex ; i < ( int ) WPG_Palette . NumOfEntries ; i ++ ) { image -> colormap [ i ] . red = ScaleCharToQuantum ( ( unsigned char ) ReadBlobByte ( image ) ) ; image -> colormap [ i ] . green = ScaleCharToQuantum ( ( unsigned char ) ReadBlobByte ( image ) ) ; image -> colormap [ i ] . blue = ScaleCharToQuantum ( ( unsigned char ) ReadBlobByte ( image ) ) ; } break ; case 0x11 : if ( Rec . RecordLength > 8 ) image = ExtractPostscript ( image , image_info , TellBlob ( image ) + 8 , ( ssize_t ) Rec . RecordLength - 8 , exception ) ; break ; case 0x14 :" 710,"CWE-125 static node * parsetok ( struct tok_state * tok , grammar * g , int start , perrdetail * err_ret , int * flags ) { parser_state * ps ; node * n ; int started = 0 ; int col_offset , end_col_offset ; if ( ( ps = PyParser_New ( g , start ) ) == NULL ) { err_ret -> error = E_NOMEM ; PyTokenizer_Free ( tok ) ; return NULL ; } # ifdef PY_PARSER_REQUIRES_FUTURE_KEYWORD if ( * flags & PyPARSE_BARRY_AS_BDFL ) ps -> p_flags |= CO_FUTURE_BARRY_AS_BDFL ; # endif for ( ; ; ) { char * a , * b ; int type ; size_t len ; char * str ; col_offset = - 1 ; int lineno ; const char * line_start ; type = PyTokenizer_Get ( tok , & a , & b ) ; if ( type == ERRORTOKEN ) { err_ret -> error = tok -> done ; break ; } if ( type == ENDMARKER && started ) { type = NEWLINE ; started = 0 ; if ( tok -> indent && ! ( * flags & PyPARSE_DONT_IMPLY_DEDENT ) ) { tok -> pendin = - tok -> indent ; tok -> indent = 0 ; } } else started = 1 ; len = ( a != NULL && b != NULL ) ? b - a : 0 ; str = ( char * ) PyObject_MALLOC ( len + 1 ) ; if ( str == NULL ) { err_ret -> error = E_NOMEM ; break ; } if ( len > 0 ) strncpy ( str , a , len ) ; str [ len ] = '\\0' ; # ifdef PY_PARSER_REQUIRES_FUTURE_KEYWORD if ( type == NOTEQUAL ) { if ( ! ( ps -> p_flags & CO_FUTURE_BARRY_AS_BDFL ) && strcmp ( str , ""!="" ) ) { PyObject_FREE ( str ) ; err_ret -> error = E_SYNTAX ; break ; } else if ( ( ps -> p_flags & CO_FUTURE_BARRY_AS_BDFL ) && strcmp ( str , ""<>"" ) ) { PyObject_FREE ( str ) ; err_ret -> expected = NOTEQUAL ; err_ret -> error = E_SYNTAX ; break ; } } # endif lineno = type == STRING ? tok -> first_lineno : tok -> lineno ; line_start = type == STRING ? tok -> multi_line_start : tok -> line_start ; if ( a != NULL && a >= line_start ) { col_offset = Py_SAFE_DOWNCAST ( a - line_start , intptr_t , int ) ; } else { col_offset = - 1 ; } if ( b != NULL && b >= tok -> line_start ) { end_col_offset = Py_SAFE_DOWNCAST ( b - tok -> line_start , intptr_t , int ) ; } else { end_col_offset = - 1 ; } if ( ( err_ret -> error = PyParser_AddToken ( ps , ( int ) type , str , lineno , col_offset , tok -> lineno , end_col_offset , & ( err_ret -> expected ) ) ) != E_OK ) { if ( err_ret -> error != E_DONE ) { PyObject_FREE ( str ) ; err_ret -> token = type ; } break ; } } if ( err_ret -> error == E_DONE ) { n = ps -> p_tree ; ps -> p_tree = NULL ; # ifndef PGEN if ( start == single_input ) { char * cur = tok -> cur ; char c = * tok -> cur ; for ( ; ; ) { while ( c == ' ' || c == '\\t' || c == '\\n' || c == '\\014' ) c = * ++ cur ; if ( ! c ) break ; if ( c != '#' ) { err_ret -> error = E_BADSINGLE ; PyNode_Free ( n ) ; n = NULL ; break ; } while ( c && c != '\\n' ) c = * ++ cur ; } } # endif } else n = NULL ; # ifdef PY_PARSER_REQUIRES_FUTURE_KEYWORD * flags = ps -> p_flags ; # endif PyParser_Delete ( ps ) ; if ( n == NULL ) { if ( tok -> done == E_EOF ) err_ret -> error = E_EOF ; err_ret -> lineno = tok -> lineno ; if ( tok -> buf != NULL ) { size_t len ; assert ( tok -> cur - tok -> buf < INT_MAX ) ; err_ret -> offset = col_offset != - 1 ? col_offset + 1 : ( ( int ) ( tok -> cur - tok -> buf ) ) ; len = tok -> inp - tok -> buf ; err_ret -> text = ( char * ) PyObject_MALLOC ( len + 1 ) ; if ( err_ret -> text != NULL ) { if ( len > 0 ) strncpy ( err_ret -> text , tok -> buf , len ) ; err_ret -> text [ len ] = '\\0' ; } } } else if ( tok -> encoding != NULL ) { node * r = PyNode_New ( encoding_decl ) ; if ( r ) r -> n_str = PyObject_MALLOC ( strlen ( tok -> encoding ) + 1 ) ; if ( ! r || ! r -> n_str ) { err_ret -> error = E_NOMEM ; if ( r )","static node * parsetok ( struct tok_state * tok , grammar * g , int start , perrdetail * err_ret , int * flags ) { parser_state * ps ; node * n ; int started = 0 ; int col_offset , end_col_offset ; growable_int_array type_ignores ; if ( ! growable_int_array_init ( & type_ignores , 10 ) ) { err_ret -> error = E_NOMEM ; PyTokenizer_Free ( tok ) ; return NULL ; } if ( ( ps = PyParser_New ( g , start ) ) == NULL ) { err_ret -> error = E_NOMEM ; PyTokenizer_Free ( tok ) ; return NULL ; } # ifdef PY_PARSER_REQUIRES_FUTURE_KEYWORD if ( * flags & PyPARSE_BARRY_AS_BDFL ) ps -> p_flags |= CO_FUTURE_BARRY_AS_BDFL ; if ( * flags & PyPARSE_TYPE_COMMENTS ) ps -> p_flags |= PyCF_TYPE_COMMENTS ; # endif for ( ; ; ) { char * a , * b ; int type ; size_t len ; char * str ; col_offset = - 1 ; int lineno ; const char * line_start ; type = PyTokenizer_Get ( tok , & a , & b ) ; if ( type == ERRORTOKEN ) { err_ret -> error = tok -> done ; break ; } if ( type == ENDMARKER && started ) { type = NEWLINE ; started = 0 ; if ( tok -> indent && ! ( * flags & PyPARSE_DONT_IMPLY_DEDENT ) ) { tok -> pendin = - tok -> indent ; tok -> indent = 0 ; } } else started = 1 ; len = ( a != NULL && b != NULL ) ? b - a : 0 ; str = ( char * ) PyObject_MALLOC ( len + 1 ) ; if ( str == NULL ) { err_ret -> error = E_NOMEM ; break ; } if ( len > 0 ) strncpy ( str , a , len ) ; str [ len ] = '\\0' ; # ifdef PY_PARSER_REQUIRES_FUTURE_KEYWORD if ( type == NOTEQUAL ) { if ( ! ( ps -> p_flags & CO_FUTURE_BARRY_AS_BDFL ) && strcmp ( str , ""!="" ) ) { PyObject_FREE ( str ) ; err_ret -> error = E_SYNTAX ; break ; } else if ( ( ps -> p_flags & CO_FUTURE_BARRY_AS_BDFL ) && strcmp ( str , ""<>"" ) ) { PyObject_FREE ( str ) ; err_ret -> expected = NOTEQUAL ; err_ret -> error = E_SYNTAX ; break ; } } # endif lineno = type == STRING ? tok -> first_lineno : tok -> lineno ; line_start = type == STRING ? tok -> multi_line_start : tok -> line_start ; if ( a != NULL && a >= line_start ) { col_offset = Py_SAFE_DOWNCAST ( a - line_start , intptr_t , int ) ; } else { col_offset = - 1 ; } if ( b != NULL && b >= tok -> line_start ) { end_col_offset = Py_SAFE_DOWNCAST ( b - tok -> line_start , intptr_t , int ) ; } else { end_col_offset = - 1 ; } if ( type == TYPE_IGNORE ) { if ( ! growable_int_array_add ( & type_ignores , tok -> lineno ) ) { err_ret -> error = E_NOMEM ; break ; } continue ; } if ( ( err_ret -> error = PyParser_AddToken ( ps , ( int ) type , str , lineno , col_offset , tok -> lineno , end_col_offset , & ( err_ret -> expected ) ) ) != E_OK ) { if ( err_ret -> error != E_DONE ) { PyObject_FREE ( str ) ; err_ret -> token = type ; } break ; } } if ( err_ret -> error == E_DONE ) { n = ps -> p_tree ; ps -> p_tree = NULL ; if ( n -> n_type == file_input ) { int num ; node * ch ; size_t i ; num = NCH ( n ) ; ch = CHILD ( n , num - 1 ) ; REQ ( ch , ENDMARKER ) ; for ( i = 0 ; i < type_ignores . num_items ; i ++ ) { PyNode_AddChild ( ch , TYPE_IGNORE , NULL , type_ignores . items [ i ] , 0 , type_ignores . items [ i ] , 0 ) ; } } growable_int_array_deallocate ( & type_ignores ) ; # ifndef PGEN if ( start == single_input ) { char * cur = tok -> cur ; char c = * tok -> cur ; for ( ; ; ) { while ( c == ' ' || c == '\\t' || c == '\\n' || c == '\\014' ) c = * ++ cur ; if ( ! c ) break ; if ( c != '#' ) { err_ret -> error = E_BADSINGLE ; PyNode_Free ( n ) ; n = NULL ; break ; } while ( c && c != '\\n' ) c = * ++ cur ; } } # endif } else n = NULL ; # ifdef PY_PARSER_REQUIRES_FUTURE_KEYWORD * flags = ps -> p_flags ; # endif PyParser_Delete ( ps ) ; if ( n == NULL ) { if ( tok -> done == E_EOF ) err_ret -> error = E_EOF ; err_ret -> lineno = tok -> lineno ; if ( tok -> buf != NULL ) { size_t len ; assert ( tok -> cur - tok -> buf < INT_MAX ) ; err_ret -> offset = col_offset != - 1 ? col_offset + 1 : ( ( int ) ( tok -> cur - tok -> buf ) ) ; len = tok -> inp - tok -> buf ; err_ret -> text = ( char * ) PyObject_MALLOC ( len + 1 ) ; if ( err_ret -> text != NULL ) { if ( len > 0 ) strncpy ( err_ret -> text , tok -> buf , len ) ; err_ret -> text [ len ] = '\\0' ; } } } else if ( tok -> encoding != NULL ) { node * r = PyNode_New ( encoding_decl ) ; if ( r ) r -> n_str = PyObject_MALLOC ( strlen ( tok -> encoding ) + 1 ) ; if ( ! r || ! r -> n_str ) { err_ret -> error = E_NOMEM ; if ( r )" 711,"CWE-125 static void youngcollection ( lua_State * L , global_State * g ) { GCObject * * psurvival ; lua_assert ( g -> gcstate == GCSpropagate ) ; markold ( g , g -> survival , g -> reallyold ) ; markold ( g , g -> finobj , g -> finobjrold ) ; atomic ( L ) ; psurvival = sweepgen ( L , g , & g -> allgc , g -> survival ) ; sweepgen ( L , g , psurvival , g -> reallyold ) ; g -> reallyold = g -> old ; g -> old = * psurvival ; g -> survival = g -> allgc ; psurvival = sweepgen ( L , g , & g -> finobj , g -> finobjsur ) ; sweepgen ( L , g , psurvival , g -> finobjrold ) ; g -> finobjrold = g -> finobjold ; g -> finobjold = * psurvival ; g -> finobjsur = g -> finobj ; sweepgen ( L , g , & g -> tobefnz , NULL ) ; finishgencycle ( L , g ) ; }","static void youngcollection ( lua_State * L , global_State * g ) { GCObject * * psurvival ; lua_assert ( g -> gcstate == GCSpropagate ) ; markold ( g , g -> allgc , g -> reallyold ) ; markold ( g , g -> finobj , g -> finobjrold ) ; atomic ( L ) ; psurvival = sweepgen ( L , g , & g -> allgc , g -> survival ) ; sweepgen ( L , g , psurvival , g -> reallyold ) ; g -> reallyold = g -> old ; g -> old = * psurvival ; g -> survival = g -> allgc ; psurvival = sweepgen ( L , g , & g -> finobj , g -> finobjsur ) ; sweepgen ( L , g , psurvival , g -> finobjrold ) ; g -> finobjrold = g -> finobjold ; g -> finobjold = * psurvival ; g -> finobjsur = g -> finobj ; sweepgen ( L , g , & g -> tobefnz , NULL ) ; finishgencycle ( L , g ) ; }" 712,"CWE-119 static void accumulate_stats ( FIRSTPASS_STATS * section , const FIRSTPASS_STATS * frame ) { section -> frame += frame -> frame ; section -> spatial_layer_id = frame -> spatial_layer_id ; section -> intra_error += frame -> intra_error ; section -> coded_error += frame -> coded_error ; section -> sr_coded_error += frame -> sr_coded_error ; section -> ssim_weighted_pred_err += frame -> ssim_weighted_pred_err ; section -> pcnt_inter += frame -> pcnt_inter ; section -> pcnt_motion += frame -> pcnt_motion ; section -> pcnt_second_ref += frame -> pcnt_second_ref ; section -> pcnt_neutral += frame -> pcnt_neutral ; section -> MVr += frame -> MVr ; section -> mvr_abs += frame -> mvr_abs ; section -> MVc += frame -> MVc ; section -> mvc_abs += frame -> mvc_abs ; section -> MVrv += frame -> MVrv ; section -> MVcv += frame -> MVcv ; section -> mv_in_out_count += frame -> mv_in_out_count ; section -> new_mv_count += frame -> new_mv_count ; section -> count += frame -> count ; section -> duration += frame -> duration ; }","static void accumulate_stats ( FIRSTPASS_STATS * section , const FIRSTPASS_STATS * frame ) { section -> frame += frame -> frame ; section -> weight += frame -> weight ; section -> spatial_layer_id = frame -> spatial_layer_id ; section -> intra_error += frame -> intra_error ; section -> coded_error += frame -> coded_error ; section -> sr_coded_error += frame -> sr_coded_error ; section -> pcnt_inter += frame -> pcnt_inter ; section -> pcnt_motion += frame -> pcnt_motion ; section -> pcnt_second_ref += frame -> pcnt_second_ref ; section -> pcnt_neutral += frame -> pcnt_neutral ; section -> intra_skip_pct += frame -> intra_skip_pct ; section -> inactive_zone_rows += frame -> inactive_zone_rows ; section -> inactive_zone_cols += frame -> inactive_zone_cols ; section -> MVr += frame -> MVr ; section -> mvr_abs += frame -> mvr_abs ; section -> MVc += frame -> MVc ; section -> mvc_abs += frame -> mvc_abs ; section -> MVrv += frame -> MVrv ; section -> MVcv += frame -> MVcv ; section -> mv_in_out_count += frame -> mv_in_out_count ; section -> new_mv_count += frame -> new_mv_count ; section -> count += frame -> count ; section -> duration += frame -> duration ; }" 713,"CWE-119 static vpx_image_t * img_alloc_helper ( vpx_image_t * img , vpx_img_fmt_t fmt , unsigned int d_w , unsigned int d_h , unsigned int buf_align , unsigned int stride_align , unsigned char * img_data ) { unsigned int h , w , s , xcs , ycs , bps ; int align ; if ( ! buf_align ) buf_align = 1 ; if ( buf_align & ( buf_align - 1 ) ) goto fail ; if ( ! stride_align ) stride_align = 1 ; if ( stride_align & ( stride_align - 1 ) ) goto fail ; switch ( fmt ) { case VPX_IMG_FMT_RGB32 : case VPX_IMG_FMT_RGB32_LE : case VPX_IMG_FMT_ARGB : case VPX_IMG_FMT_ARGB_LE : bps = 32 ; break ; case VPX_IMG_FMT_RGB24 : case VPX_IMG_FMT_BGR24 : bps = 24 ; break ; case VPX_IMG_FMT_RGB565 : case VPX_IMG_FMT_RGB565_LE : case VPX_IMG_FMT_RGB555 : case VPX_IMG_FMT_RGB555_LE : case VPX_IMG_FMT_UYVY : case VPX_IMG_FMT_YUY2 : case VPX_IMG_FMT_YVYU : bps = 16 ; break ; case VPX_IMG_FMT_I420 : case VPX_IMG_FMT_YV12 : case VPX_IMG_FMT_VPXI420 : case VPX_IMG_FMT_VPXYV12 : bps = 12 ; break ; default : bps = 16 ; break ; } switch ( fmt ) { case VPX_IMG_FMT_I420 : case VPX_IMG_FMT_YV12 : case VPX_IMG_FMT_VPXI420 : case VPX_IMG_FMT_VPXYV12 : xcs = 1 ; break ; default : xcs = 0 ; break ; } switch ( fmt ) { case VPX_IMG_FMT_I420 : case VPX_IMG_FMT_YV12 : case VPX_IMG_FMT_VPXI420 : case VPX_IMG_FMT_VPXYV12 : ycs = 1 ; break ; default : ycs = 0 ; break ; } align = ( 1 << xcs ) - 1 ; w = ( d_w + align ) & ~ align ; align = ( 1 << ycs ) - 1 ; h = ( d_h + align ) & ~ align ; s = ( fmt & VPX_IMG_FMT_PLANAR ) ? w : bps * w / 8 ; s = ( s + stride_align - 1 ) & ~ ( stride_align - 1 ) ; if ( ! img ) { img = ( vpx_image_t * ) calloc ( 1 , sizeof ( vpx_image_t ) ) ; if ( ! img ) goto fail ; img -> self_allocd = 1 ; } else { memset ( img , 0 , sizeof ( vpx_image_t ) ) ; } img -> img_data = img_data ; if ( ! img_data ) { img -> img_data = img_buf_memalign ( buf_align , ( ( fmt & VPX_IMG_FMT_PLANAR ) ? h * s * bps / 8 : h * s ) ) ; img -> img_data_owner = 1 ; } if ( ! img -> img_data ) goto fail ; img -> fmt = fmt ; img -> w = w ; img -> h = h ; img -> x_chroma_shift = xcs ; img -> y_chroma_shift = ycs ; img -> bps = bps ; img -> stride [ VPX_PLANE_Y ] = img -> stride [ VPX_PLANE_ALPHA ] = s ; img -> stride [ VPX_PLANE_U ] = img -> stride [ VPX_PLANE_V ] = s >> xcs ; if ( ! vpx_img_set_rect ( img , 0 , 0 , d_w , d_h ) ) return img ; fail : vpx_img_free ( img ) ; return NULL ; }","static vpx_image_t * img_alloc_helper ( vpx_image_t * img , vpx_img_fmt_t fmt , unsigned int d_w , unsigned int d_h , unsigned int buf_align , unsigned int stride_align , unsigned char * img_data ) { unsigned int h , w , s , xcs , ycs , bps ; unsigned int stride_in_bytes ; int align ; if ( ! buf_align ) buf_align = 1 ; if ( buf_align & ( buf_align - 1 ) ) goto fail ; if ( ! stride_align ) stride_align = 1 ; if ( stride_align & ( stride_align - 1 ) ) goto fail ; switch ( fmt ) { case VPX_IMG_FMT_RGB32 : case VPX_IMG_FMT_RGB32_LE : case VPX_IMG_FMT_ARGB : case VPX_IMG_FMT_ARGB_LE : bps = 32 ; break ; case VPX_IMG_FMT_RGB24 : case VPX_IMG_FMT_BGR24 : bps = 24 ; break ; case VPX_IMG_FMT_RGB565 : case VPX_IMG_FMT_RGB565_LE : case VPX_IMG_FMT_RGB555 : case VPX_IMG_FMT_RGB555_LE : case VPX_IMG_FMT_UYVY : case VPX_IMG_FMT_YUY2 : case VPX_IMG_FMT_YVYU : bps = 16 ; break ; case VPX_IMG_FMT_I420 : case VPX_IMG_FMT_YV12 : case VPX_IMG_FMT_VPXI420 : case VPX_IMG_FMT_VPXYV12 : bps = 12 ; break ; case VPX_IMG_FMT_I422 : case VPX_IMG_FMT_I440 : bps = 16 ; break ; case VPX_IMG_FMT_I444 : bps = 24 ; break ; case VPX_IMG_FMT_I42016 : bps = 24 ; break ; case VPX_IMG_FMT_I42216 : case VPX_IMG_FMT_I44016 : bps = 32 ; break ; case VPX_IMG_FMT_I44416 : bps = 48 ; break ; default : bps = 16 ; break ; } switch ( fmt ) { case VPX_IMG_FMT_I420 : case VPX_IMG_FMT_YV12 : case VPX_IMG_FMT_VPXI420 : case VPX_IMG_FMT_VPXYV12 : case VPX_IMG_FMT_I422 : case VPX_IMG_FMT_I42016 : case VPX_IMG_FMT_I42216 : xcs = 1 ; break ; default : xcs = 0 ; break ; } switch ( fmt ) { case VPX_IMG_FMT_I420 : case VPX_IMG_FMT_I440 : case VPX_IMG_FMT_YV12 : case VPX_IMG_FMT_VPXI420 : case VPX_IMG_FMT_VPXYV12 : case VPX_IMG_FMT_I42016 : case VPX_IMG_FMT_I44016 : ycs = 1 ; break ; default : ycs = 0 ; break ; } align = ( 1 << xcs ) - 1 ; w = ( d_w + align ) & ~ align ; align = ( 1 << ycs ) - 1 ; h = ( d_h + align ) & ~ align ; s = ( fmt & VPX_IMG_FMT_PLANAR ) ? w : bps * w / 8 ; s = ( s + stride_align - 1 ) & ~ ( stride_align - 1 ) ; stride_in_bytes = ( fmt & VPX_IMG_FMT_HIGHBITDEPTH ) ? s * 2 : s ; if ( ! img ) { img = ( vpx_image_t * ) calloc ( 1 , sizeof ( vpx_image_t ) ) ; if ( ! img ) goto fail ; img -> self_allocd = 1 ; } else { memset ( img , 0 , sizeof ( vpx_image_t ) ) ; } img -> img_data = img_data ; if ( ! img_data ) { const uint64_t alloc_size = ( fmt & VPX_IMG_FMT_PLANAR ) ? ( uint64_t ) h * s * bps / 8 : ( uint64_t ) h * s ; if ( alloc_size != ( size_t ) alloc_size ) goto fail ; img -> img_data = ( uint8_t * ) vpx_memalign ( buf_align , ( size_t ) alloc_size ) ; img -> img_data_owner = 1 ; } if ( ! img -> img_data ) goto fail ; img -> fmt = fmt ; img -> bit_depth = ( fmt & VPX_IMG_FMT_HIGHBITDEPTH ) ? 16 : 8 ; img -> w = w ; img -> h = h ; img -> x_chroma_shift = xcs ; img -> y_chroma_shift = ycs ; img -> bps = bps ; img -> stride [ VPX_PLANE_Y ] = img -> stride [ VPX_PLANE_ALPHA ] = stride_in_bytes ; img -> stride [ VPX_PLANE_U ] = img -> stride [ VPX_PLANE_V ] = stride_in_bytes >> xcs ; if ( ! vpx_img_set_rect ( img , 0 , 0 , d_w , d_h ) ) return img ; fail : vpx_img_free ( img ) ; return NULL ; }" 714,"CWE-119 static int read_header ( FFV1Context * f ) { uint8_t state [ CONTEXT_SIZE ] ; int i , j , context_count = - 1 ; RangeCoder * const c = & f -> slice_context [ 0 ] -> c ; memset ( state , 128 , sizeof ( state ) ) ; if ( f -> version < 2 ) { unsigned v = get_symbol ( c , state , 0 ) ; if ( v >= 2 ) { av_log ( f -> avctx , AV_LOG_ERROR , ""invalid version %d in ver01 header\\n"" , v ) ; return AVERROR_INVALIDDATA ; } f -> version = v ; f -> ac = f -> avctx -> coder_type = get_symbol ( c , state , 0 ) ; if ( f -> ac > 1 ) { for ( i = 1 ; i < 256 ; i ++ ) f -> state_transition [ i ] = get_symbol ( c , state , 1 ) + c -> one_state [ i ] ; } f -> colorspace = get_symbol ( c , state , 0 ) ; if ( f -> version > 0 ) f -> avctx -> bits_per_raw_sample = get_symbol ( c , state , 0 ) ; f -> chroma_planes = get_rac ( c , state ) ; f -> chroma_h_shift = get_symbol ( c , state , 0 ) ; f -> chroma_v_shift = get_symbol ( c , state , 0 ) ; f -> transparency = get_rac ( c , state ) ; f -> plane_count = 2 + f -> transparency ; } if ( f -> colorspace == 0 ) { if ( ! f -> transparency && ! f -> chroma_planes ) { if ( f -> avctx -> bits_per_raw_sample <= 8 ) f -> avctx -> pix_fmt = AV_PIX_FMT_GRAY8 ; else f -> avctx -> pix_fmt = AV_PIX_FMT_GRAY16 ; } else if ( f -> avctx -> bits_per_raw_sample <= 8 && ! f -> transparency ) { switch ( 16 * f -> chroma_h_shift + f -> chroma_v_shift ) { case 0x00 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV444P ; break ; case 0x01 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV440P ; break ; case 0x10 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV422P ; break ; case 0x11 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV420P ; break ; case 0x20 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV411P ; break ; case 0x22 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV410P ; break ; default : av_log ( f -> avctx , AV_LOG_ERROR , ""format not supported\\n"" ) ; return AVERROR ( ENOSYS ) ; } } else if ( f -> avctx -> bits_per_raw_sample <= 8 && f -> transparency ) { switch ( 16 * f -> chroma_h_shift + f -> chroma_v_shift ) { case 0x00 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUVA444P ; break ; case 0x10 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUVA422P ; break ; case 0x11 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUVA420P ; break ; default : av_log ( f -> avctx , AV_LOG_ERROR , ""format not supported\\n"" ) ; return AVERROR ( ENOSYS ) ; } } else if ( f -> avctx -> bits_per_raw_sample == 9 ) { f -> packed_at_lsb = 1 ; switch ( 16 * f -> chroma_h_shift + f -> chroma_v_shift ) { case 0x00 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV444P9 ; break ; case 0x10 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV422P9 ; break ; case 0x11 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV420P9 ; break ; default : av_log ( f -> avctx , AV_LOG_ERROR , ""format not supported\\n"" ) ; return AVERROR ( ENOSYS ) ; } } else if ( f -> avctx -> bits_per_raw_sample == 10 ) { f -> packed_at_lsb = 1 ; switch ( 16 * f -> chroma_h_shift + f -> chroma_v_shift ) { case 0x00 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV444P10 ; break ; case 0x10 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV422P10 ; break ; case 0x11 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV420P10 ; break ; default : av_log ( f -> avctx , AV_LOG_ERROR , ""format not supported\\n"" ) ; return AVERROR ( ENOSYS ) ; } } else {","static int read_header ( FFV1Context * f ) { uint8_t state [ CONTEXT_SIZE ] ; int i , j , context_count = - 1 ; RangeCoder * const c = & f -> slice_context [ 0 ] -> c ; memset ( state , 128 , sizeof ( state ) ) ; if ( f -> version < 2 ) { int chroma_planes , chroma_h_shift , chroma_v_shift , transparency ; unsigned v = get_symbol ( c , state , 0 ) ; if ( v >= 2 ) { av_log ( f -> avctx , AV_LOG_ERROR , ""invalid version %d in ver01 header\\n"" , v ) ; return AVERROR_INVALIDDATA ; } f -> version = v ; f -> ac = f -> avctx -> coder_type = get_symbol ( c , state , 0 ) ; if ( f -> ac > 1 ) { for ( i = 1 ; i < 256 ; i ++ ) f -> state_transition [ i ] = get_symbol ( c , state , 1 ) + c -> one_state [ i ] ; } f -> colorspace = get_symbol ( c , state , 0 ) ; if ( f -> version > 0 ) f -> avctx -> bits_per_raw_sample = get_symbol ( c , state , 0 ) ; chroma_planes = get_rac ( c , state ) ; chroma_h_shift = get_symbol ( c , state , 0 ) ; chroma_v_shift = get_symbol ( c , state , 0 ) ; transparency = get_rac ( c , state ) ; if ( f -> plane_count ) { if ( chroma_planes != f -> chroma_planes || chroma_h_shift != f -> chroma_h_shift || chroma_v_shift != f -> chroma_v_shift || transparency != f -> transparency ) { av_log ( f -> avctx , AV_LOG_ERROR , ""Invalid change of global parameters\\n"" ) ; return AVERROR_INVALIDDATA ; } } f -> chroma_planes = chroma_planes ; f -> chroma_h_shift = chroma_h_shift ; f -> chroma_v_shift = chroma_v_shift ; f -> transparency = transparency ; f -> plane_count = 2 + f -> transparency ; } if ( f -> colorspace == 0 ) { if ( ! f -> transparency && ! f -> chroma_planes ) { if ( f -> avctx -> bits_per_raw_sample <= 8 ) f -> avctx -> pix_fmt = AV_PIX_FMT_GRAY8 ; else f -> avctx -> pix_fmt = AV_PIX_FMT_GRAY16 ; } else if ( f -> avctx -> bits_per_raw_sample <= 8 && ! f -> transparency ) { switch ( 16 * f -> chroma_h_shift + f -> chroma_v_shift ) { case 0x00 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV444P ; break ; case 0x01 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV440P ; break ; case 0x10 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV422P ; break ; case 0x11 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV420P ; break ; case 0x20 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV411P ; break ; case 0x22 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV410P ; break ; default : av_log ( f -> avctx , AV_LOG_ERROR , ""format not supported\\n"" ) ; return AVERROR ( ENOSYS ) ; } } else if ( f -> avctx -> bits_per_raw_sample <= 8 && f -> transparency ) { switch ( 16 * f -> chroma_h_shift + f -> chroma_v_shift ) { case 0x00 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUVA444P ; break ; case 0x10 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUVA422P ; break ; case 0x11 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUVA420P ; break ; default : av_log ( f -> avctx , AV_LOG_ERROR , ""format not supported\\n"" ) ; return AVERROR ( ENOSYS ) ; } } else if ( f -> avctx -> bits_per_raw_sample == 9 ) { f -> packed_at_lsb = 1 ; switch ( 16 * f -> chroma_h_shift + f -> chroma_v_shift ) { case 0x00 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV444P9 ; break ; case 0x10 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV422P9 ; break ; case 0x11 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV420P9 ; break ; default : av_log ( f -> avctx , AV_LOG_ERROR , ""format not supported\\n"" ) ; return AVERROR ( ENOSYS ) ; } } else if ( f -> avctx -> bits_per_raw_sample == 10 ) { f -> packed_at_lsb = 1 ; switch ( 16 * f -> chroma_h_shift + f -> chroma_v_shift ) { case 0x00 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV444P10 ; break ; case 0x10 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV422P10 ; break ; case 0x11 : f -> avctx -> pix_fmt = AV_PIX_FMT_YUV420P10 ; break ; default : av_log ( f -> avctx , AV_LOG_ERROR , ""format not supported\\n"" ) ; return AVERROR ( ENOSYS ) ; } } else {" 715,"CWE-444 void request_init ( VALUE mod ) { req_class = rb_define_class_under ( mod , ""Request"" , rb_cObject ) ; rb_define_method ( req_class , ""to_s"" , to_s , 0 ) ; rb_define_method ( req_class , ""to_h"" , to_h , 0 ) ; rb_define_method ( req_class , ""environment"" , to_h , 0 ) ; rb_define_method ( req_class , ""env"" , to_h , 0 ) ; rb_define_method ( req_class , ""request_method"" , method , 0 ) ; rb_define_method ( req_class , ""script_name"" , script_name , 0 ) ; rb_define_method ( req_class , ""path_info"" , path_info , 0 ) ; rb_define_method ( req_class , ""query_string"" , query_string , 0 ) ; rb_define_method ( req_class , ""server_name"" , server_name , 0 ) ; rb_define_method ( req_class , ""server_port"" , server_port , 0 ) ; rb_define_method ( req_class , ""rack_version"" , rack_version , 0 ) ; rb_define_method ( req_class , ""rack_url_scheme"" , rack_url_scheme , 0 ) ; rb_define_method ( req_class , ""rack_input"" , rack_input , 0 ) ; rb_define_method ( req_class , ""rack_errors"" , rack_errors , 0 ) ; rb_define_method ( req_class , ""rack_multithread"" , rack_multithread , 0 ) ; rb_define_method ( req_class , ""rack_multiprocess"" , rack_multiprocess , 0 ) ; rb_define_method ( req_class , ""rack_run_once"" , rack_run_once , 0 ) ; rb_define_method ( req_class , ""rack_upgrade?"" , rack_upgrade , 0 ) ; rb_define_method ( req_class , ""headers"" , headers , 0 ) ; rb_define_method ( req_class , ""body"" , body , 0 ) ; rb_define_method ( req_class , ""rack_logger"" , rack_logger , 0 ) ; rb_define_method ( req_class , ""call"" , call , 0 ) ; new_id = rb_intern ( ""new"" ) ; rack_version_val_val = rb_ary_new ( ) ; rb_ary_push ( rack_version_val_val , INT2NUM ( 1 ) ) ; rb_ary_push ( rack_version_val_val , INT2NUM ( 3 ) ) ; rb_gc_register_address ( & rack_version_val_val ) ; stringio_class = rb_const_get ( rb_cObject , rb_intern ( ""StringIO"" ) ) ; connect_val = rb_str_new_cstr ( ""CONNECT"" ) ; rb_gc_register_address ( & connect_val ) ; content_length_val = rb_str_new_cstr ( ""CONTENT_LENGTH"" ) ; rb_gc_register_address ( & content_length_val ) ; content_type_val = rb_str_new_cstr ( ""CONTENT_TYPE"" ) ; rb_gc_register_address ( & content_type_val ) ; delete_val = rb_str_new_cstr ( ""DELETE"" ) ; rb_gc_register_address ( & delete_val ) ; early_hints_val = rb_str_new_cstr ( ""early_hints"" ) ; rb_gc_register_address ( & early_hints_val ) ; empty_val = rb_str_new_cstr ( """" ) ; rb_gc_register_address ( & empty_val ) ; get_val = rb_str_new_cstr ( ""GET"" ) ; rb_gc_register_address ( & get_val ) ; head_val = rb_str_new_cstr ( ""HEAD"" ) ; rb_gc_register_address ( & head_val ) ; http_val = rb_str_new_cstr ( ""http"" ) ; rb_gc_register_address ( & http_val ) ; https_val = rb_str_new_cstr ( ""https"" ) ; rb_gc_register_address ( & https_val ) ; options_val = rb_str_new_cstr ( ""OPTIONS"" ) ; rb_gc_register_address ( & options_val ) ; patch_val = rb_str_new_cstr ( ""PATCH"" ) ; rb_gc_register_address ( & patch_val ) ; path_info_val = rb_str_new_cstr ( ""PATH_INFO"" ) ; rb_gc_register_address ( & path_info_val ) ; post_val = rb_str_new_cstr ( ""POST"" ) ; rb_gc_register_address ( & post_val ) ; put_val = rb_str_new_cstr ( ""PUT"" ) ; rb_gc_register_address ( & put_val ) ; query_string_val = rb_str_new_cstr ( ""QUERY_STRING"" ) ; rb_gc_register_address ( & query_string_val ) ; rack_errors_val = rb_str_new_cstr ( ""rack.errors"" ) ; rb_gc_register_address ( & rack_errors_val ) ; rack_hijack_io_val = rb_str_new_cstr ( ""rack.hijack_io"" ) ; rb_gc_register_address ( & rack_hijack_io_val ) ; rack_hijack_val = rb_str_new_cstr ( ""rack.hijack"" ) ; rb_gc_register_address ( & rack_hijack_val ) ; rack_hijackq_val = rb_str_new_cstr ( ""rack.hijack?"" ) ; rb_gc_register_address ( & rack_hijackq_val ) ; rack_input_val = rb_str_new_cstr ( ""rack.input"" ) ; rb_gc_register_address ( & rack_input_val ) ; rack_logger_val = rb_str_new_cstr ( ""rack.logger"" ) ; rb_gc_register_address ( & rack_logger_val ) ; rack_multiprocess_val = rb_str_new_cstr ( ""rack.multiprocess"" ) ; rb_gc_register_address ( & rack_multiprocess_val ) ; rack_multithread_val = rb_str_new_cstr ( ""rack.multithread"" ) ; rb_gc_register_address ( & rack_multithread_val ) ; rack_run_once_val = rb_str_new_cstr ( ""rack.run_once"" ) ; rb_gc_register_address ( & rack_run_once_val ) ; rack_upgrade_val = rb_str_new_cstr ( ""rack.upgrade?"" ) ; rb_gc_register_address ( & rack_upgrade_val ) ; rack_url_scheme_val = rb_str_new_cstr ( ""rack.url_scheme"" ) ; rb_gc_register_address ( & rack_url_scheme_val ) ; rack_version_val = rb_str_new_cstr ( ""rack.version"" ) ; rb_gc_register_address ( & rack_version_val ) ; request_method_val = rb_str_new_cstr ( ""REQUEST_METHOD"" ) ; rb_gc_register_address ( & request_method_val ) ; script_name_val = rb_str_new_cstr ( ""SCRIPT_NAME"" ) ; rb_gc_register_address ( & script_name_val ) ; server_name_val = rb_str_new_cstr ( ""SERVER_NAME"" ) ; rb_gc_register_address ( & server_name_val ) ; server_port_val = rb_str_new_cstr ( ""SERVER_PORT"" ) ; rb_gc_register_address ( & server_port_val ) ; slash_val = rb_str_new_cstr ( ""/"" ) ; rb_gc_register_address ( & slash_val ) ; sse_sym = ID2SYM ( rb_intern ( ""sse"" ) ) ; rb_gc_register_address ( & sse_sym ) ; websocket_sym = ID2SYM ( rb_intern ( ""websocket"" ) ) ; rb_gc_register_address ( & websocket_sym ) ; }","void request_init ( VALUE mod ) { req_class = rb_define_class_under ( mod , ""Request"" , rb_cObject ) ; rb_define_method ( req_class , ""to_s"" , to_s , 0 ) ; rb_define_method ( req_class , ""to_h"" , to_h , 0 ) ; rb_define_method ( req_class , ""environment"" , to_h , 0 ) ; rb_define_method ( req_class , ""env"" , to_h , 0 ) ; rb_define_method ( req_class , ""request_method"" , method , 0 ) ; rb_define_method ( req_class , ""script_name"" , script_name , 0 ) ; rb_define_method ( req_class , ""path_info"" , path_info , 0 ) ; rb_define_method ( req_class , ""query_string"" , query_string , 0 ) ; rb_define_method ( req_class , ""server_name"" , server_name , 0 ) ; rb_define_method ( req_class , ""server_port"" , server_port , 0 ) ; rb_define_method ( req_class , ""remote_addr"" , remote_addr , 0 ) ; rb_define_method ( req_class , ""rack_version"" , rack_version , 0 ) ; rb_define_method ( req_class , ""rack_url_scheme"" , rack_url_scheme , 0 ) ; rb_define_method ( req_class , ""rack_input"" , rack_input , 0 ) ; rb_define_method ( req_class , ""rack_errors"" , rack_errors , 0 ) ; rb_define_method ( req_class , ""rack_multithread"" , rack_multithread , 0 ) ; rb_define_method ( req_class , ""rack_multiprocess"" , rack_multiprocess , 0 ) ; rb_define_method ( req_class , ""rack_run_once"" , rack_run_once , 0 ) ; rb_define_method ( req_class , ""rack_upgrade?"" , rack_upgrade , 0 ) ; rb_define_method ( req_class , ""headers"" , headers , 0 ) ; rb_define_method ( req_class , ""body"" , body , 0 ) ; rb_define_method ( req_class , ""rack_logger"" , rack_logger , 0 ) ; rb_define_method ( req_class , ""call"" , call , 0 ) ; new_id = rb_intern ( ""new"" ) ; rack_version_val_val = rb_ary_new ( ) ; rb_ary_push ( rack_version_val_val , INT2NUM ( 1 ) ) ; rb_ary_push ( rack_version_val_val , INT2NUM ( 3 ) ) ; rb_gc_register_address ( & rack_version_val_val ) ; stringio_class = rb_const_get ( rb_cObject , rb_intern ( ""StringIO"" ) ) ; connect_val = rb_str_new_cstr ( ""CONNECT"" ) ; rb_gc_register_address ( & connect_val ) ; content_length_val = rb_str_new_cstr ( ""CONTENT_LENGTH"" ) ; rb_gc_register_address ( & content_length_val ) ; content_type_val = rb_str_new_cstr ( ""CONTENT_TYPE"" ) ; rb_gc_register_address ( & content_type_val ) ; delete_val = rb_str_new_cstr ( ""DELETE"" ) ; rb_gc_register_address ( & delete_val ) ; early_hints_val = rb_str_new_cstr ( ""early_hints"" ) ; rb_gc_register_address ( & early_hints_val ) ; empty_val = rb_str_new_cstr ( """" ) ; rb_gc_register_address ( & empty_val ) ; get_val = rb_str_new_cstr ( ""GET"" ) ; rb_gc_register_address ( & get_val ) ; head_val = rb_str_new_cstr ( ""HEAD"" ) ; rb_gc_register_address ( & head_val ) ; http_val = rb_str_new_cstr ( ""http"" ) ; rb_gc_register_address ( & http_val ) ; https_val = rb_str_new_cstr ( ""https"" ) ; rb_gc_register_address ( & https_val ) ; options_val = rb_str_new_cstr ( ""OPTIONS"" ) ; rb_gc_register_address ( & options_val ) ; patch_val = rb_str_new_cstr ( ""PATCH"" ) ; rb_gc_register_address ( & patch_val ) ; path_info_val = rb_str_new_cstr ( ""PATH_INFO"" ) ; rb_gc_register_address ( & path_info_val ) ; post_val = rb_str_new_cstr ( ""POST"" ) ; rb_gc_register_address ( & post_val ) ; put_val = rb_str_new_cstr ( ""PUT"" ) ; rb_gc_register_address ( & put_val ) ; query_string_val = rb_str_new_cstr ( ""QUERY_STRING"" ) ; rb_gc_register_address ( & query_string_val ) ; rack_errors_val = rb_str_new_cstr ( ""rack.errors"" ) ; rb_gc_register_address ( & rack_errors_val ) ; rack_hijack_io_val = rb_str_new_cstr ( ""rack.hijack_io"" ) ; rb_gc_register_address ( & rack_hijack_io_val ) ; rack_hijack_val = rb_str_new_cstr ( ""rack.hijack"" ) ; rb_gc_register_address ( & rack_hijack_val ) ; rack_hijackq_val = rb_str_new_cstr ( ""rack.hijack?"" ) ; rb_gc_register_address ( & rack_hijackq_val ) ; rack_input_val = rb_str_new_cstr ( ""rack.input"" ) ; rb_gc_register_address ( & rack_input_val ) ; rack_logger_val = rb_str_new_cstr ( ""rack.logger"" ) ; rb_gc_register_address ( & rack_logger_val ) ; rack_multiprocess_val = rb_str_new_cstr ( ""rack.multiprocess"" ) ; rb_gc_register_address ( & rack_multiprocess_val ) ; rack_multithread_val = rb_str_new_cstr ( ""rack.multithread"" ) ; rb_gc_register_address ( & rack_multithread_val ) ; rack_run_once_val = rb_str_new_cstr ( ""rack.run_once"" ) ; rb_gc_register_address ( & rack_run_once_val ) ; rack_upgrade_val = rb_str_new_cstr ( ""rack.upgrade?"" ) ; rb_gc_register_address ( & rack_upgrade_val ) ; rack_url_scheme_val = rb_str_new_cstr ( ""rack.url_scheme"" ) ; rb_gc_register_address ( & rack_url_scheme_val ) ; rack_version_val = rb_str_new_cstr ( ""rack.version"" ) ; rb_gc_register_address ( & rack_version_val ) ; remote_addr_val = rb_str_new_cstr ( ""REMOTE_ADDR"" ) ; rb_gc_register_address ( & remote_addr_val ) ; request_method_val = rb_str_new_cstr ( ""REQUEST_METHOD"" ) ; rb_gc_register_address ( & request_method_val ) ; script_name_val = rb_str_new_cstr ( ""SCRIPT_NAME"" ) ; rb_gc_register_address ( & script_name_val ) ; server_name_val = rb_str_new_cstr ( ""SERVER_NAME"" ) ; rb_gc_register_address ( & server_name_val ) ; server_port_val = rb_str_new_cstr ( ""SERVER_PORT"" ) ; rb_gc_register_address ( & server_port_val ) ; slash_val = rb_str_new_cstr ( ""/"" ) ; rb_gc_register_address ( & slash_val ) ; sse_sym = ID2SYM ( rb_intern ( ""sse"" ) ) ; rb_gc_register_address ( & sse_sym ) ; websocket_sym = ID2SYM ( rb_intern ( ""websocket"" ) ) ; rb_gc_register_address ( & websocket_sym ) ; }" 716,"CWE-20 struct parsed_tag * parse_tag ( char * * s , int internal ) { struct parsed_tag * tag = NULL ; int tag_id ; char tagname [ MAX_TAG_LEN ] , attrname [ MAX_TAG_LEN ] ; char * p , * q ; int i , attr_id = 0 , nattr ; q = ( * s ) + 1 ; p = tagname ; if ( * q == '/' ) { * ( p ++ ) = * ( q ++ ) ; SKIP_BLANKS ( q ) ; } while ( * q && ! IS_SPACE ( * q ) && ! ( tagname [ 0 ] != '/' && * q == '/' ) && * q != '>' && p - tagname < MAX_TAG_LEN - 1 ) { * ( p ++ ) = TOLOWER ( * q ) ; q ++ ; } * p = '\\0' ; while ( * q && ! IS_SPACE ( * q ) && ! ( tagname [ 0 ] != '/' && * q == '/' ) && * q != '>' ) q ++ ; tag_id = getHash_si ( & tagtable , tagname , HTML_UNKNOWN ) ; if ( tag_id == HTML_UNKNOWN || ( ! internal && TagMAP [ tag_id ] . flag & TFLG_INT ) ) goto skip_parse_tagarg ; tag = New ( struct parsed_tag ) ; bzero ( tag , sizeof ( struct parsed_tag ) ) ; tag -> tagid = tag_id ; if ( ( nattr = TagMAP [ tag_id ] . max_attribute ) > 0 ) { tag -> attrid = NewAtom_N ( unsigned char , nattr ) ; tag -> value = New_N ( char * , nattr ) ; tag -> map = NewAtom_N ( unsigned char , MAX_TAGATTR ) ; memset ( tag -> map , MAX_TAGATTR , MAX_TAGATTR ) ; memset ( tag -> attrid , ATTR_UNKNOWN , nattr ) ; for ( i = 0 ; i < nattr ; i ++ ) tag -> map [ TagMAP [ tag_id ] . accept_attribute [ i ] ] = i ; } SKIP_BLANKS ( q ) ; while ( 1 ) { Str value = NULL , value_tmp = NULL ; if ( * q == '>' || * q == '\\0' ) goto done_parse_tag ; p = attrname ; while ( * q && * q != '=' && ! IS_SPACE ( * q ) && * q != '>' && p - attrname < MAX_TAG_LEN - 1 ) { * ( p ++ ) = TOLOWER ( * q ) ; q ++ ; } * p = '\\0' ; while ( * q && * q != '=' && ! IS_SPACE ( * q ) && * q != '>' ) q ++ ; SKIP_BLANKS ( q ) ; if ( * q == '=' ) { value_tmp = Strnew ( ) ; q ++ ; SKIP_BLANKS ( q ) ;","struct parsed_tag * parse_tag ( char * * s , int internal ) { struct parsed_tag * tag = NULL ; int tag_id ; char tagname [ MAX_TAG_LEN ] , attrname [ MAX_TAG_LEN ] ; char * p , * q ; int i , attr_id = 0 , nattr ; tagname [ 0 ] = '\\0' ; q = ( * s ) + 1 ; p = tagname ; if ( * q == '/' ) { * ( p ++ ) = * ( q ++ ) ; SKIP_BLANKS ( q ) ; } while ( * q && ! IS_SPACE ( * q ) && ! ( tagname [ 0 ] != '/' && * q == '/' ) && * q != '>' && p - tagname < MAX_TAG_LEN - 1 ) { * ( p ++ ) = TOLOWER ( * q ) ; q ++ ; } * p = '\\0' ; while ( * q && ! IS_SPACE ( * q ) && ! ( tagname [ 0 ] != '/' && * q == '/' ) && * q != '>' ) q ++ ; tag_id = getHash_si ( & tagtable , tagname , HTML_UNKNOWN ) ; if ( tag_id == HTML_UNKNOWN || ( ! internal && TagMAP [ tag_id ] . flag & TFLG_INT ) ) goto skip_parse_tagarg ; tag = New ( struct parsed_tag ) ; bzero ( tag , sizeof ( struct parsed_tag ) ) ; tag -> tagid = tag_id ; if ( ( nattr = TagMAP [ tag_id ] . max_attribute ) > 0 ) { tag -> attrid = NewAtom_N ( unsigned char , nattr ) ; tag -> value = New_N ( char * , nattr ) ; tag -> map = NewAtom_N ( unsigned char , MAX_TAGATTR ) ; memset ( tag -> map , MAX_TAGATTR , MAX_TAGATTR ) ; memset ( tag -> attrid , ATTR_UNKNOWN , nattr ) ; for ( i = 0 ; i < nattr ; i ++ ) tag -> map [ TagMAP [ tag_id ] . accept_attribute [ i ] ] = i ; } SKIP_BLANKS ( q ) ; while ( 1 ) { Str value = NULL , value_tmp = NULL ; if ( * q == '>' || * q == '\\0' ) goto done_parse_tag ; p = attrname ; while ( * q && * q != '=' && ! IS_SPACE ( * q ) && * q != '>' && p - attrname < MAX_TAG_LEN - 1 ) { * ( p ++ ) = TOLOWER ( * q ) ; q ++ ; } * p = '\\0' ; while ( * q && * q != '=' && ! IS_SPACE ( * q ) && * q != '>' ) q ++ ; SKIP_BLANKS ( q ) ; if ( * q == '=' ) { value_tmp = Strnew ( ) ; q ++ ; SKIP_BLANKS ( q ) ;" 717,"CWE-119 static void set_segment_data ( VP8_COMP * cpi , signed char * feature_data , unsigned char abs_delta ) { cpi -> mb . e_mbd . mb_segement_abs_delta = abs_delta ; vpx_memcpy ( cpi -> segment_feature_data , feature_data , sizeof ( cpi -> segment_feature_data ) ) ; }","static void set_segment_data ( VP8_COMP * cpi , signed char * feature_data , unsigned char abs_delta ) { cpi -> mb . e_mbd . mb_segement_abs_delta = abs_delta ; memcpy ( cpi -> segment_feature_data , feature_data , sizeof ( cpi -> segment_feature_data ) ) ; }" 718,"CWE-401 static int __ipmi_bmc_register ( struct ipmi_smi * intf , struct ipmi_device_id * id , bool guid_set , guid_t * guid , int intf_num ) { int rv ; struct bmc_device * bmc ; struct bmc_device * old_bmc ; intf -> in_bmc_register = true ; mutex_unlock ( & intf -> bmc_reg_mutex ) ; mutex_lock ( & ipmidriver_mutex ) ; if ( guid_set ) old_bmc = ipmi_find_bmc_guid ( & ipmidriver . driver , guid ) ; else old_bmc = ipmi_find_bmc_prod_dev_id ( & ipmidriver . driver , id -> product_id , id -> device_id ) ; if ( old_bmc ) { bmc = old_bmc ; intf -> bmc = old_bmc ; mutex_lock ( & bmc -> dyn_mutex ) ; list_add_tail ( & intf -> bmc_link , & bmc -> intfs ) ; mutex_unlock ( & bmc -> dyn_mutex ) ; dev_info ( intf -> si_dev , ""interfacing existing BMC (man_id: 0x%6.6x, prod_id: 0x%4.4x, dev_id: 0x%2.2x)\\n"" , bmc -> id . manufacturer_id , bmc -> id . product_id , bmc -> id . device_id ) ; } else { bmc = kzalloc ( sizeof ( * bmc ) , GFP_KERNEL ) ; if ( ! bmc ) { rv = - ENOMEM ; goto out ; } INIT_LIST_HEAD ( & bmc -> intfs ) ; mutex_init ( & bmc -> dyn_mutex ) ; INIT_WORK ( & bmc -> remove_work , cleanup_bmc_work ) ; bmc -> id = * id ; bmc -> dyn_id_set = 1 ; bmc -> dyn_guid_set = guid_set ; bmc -> guid = * guid ; bmc -> dyn_id_expiry = jiffies + IPMI_DYN_DEV_ID_EXPIRY ; bmc -> pdev . name = ""ipmi_bmc"" ; rv = ida_simple_get ( & ipmi_bmc_ida , 0 , 0 , GFP_KERNEL ) ; if ( rv < 0 ) goto out ; bmc -> pdev . dev . driver = & ipmidriver . driver ; bmc -> pdev . id = rv ; bmc -> pdev . dev . release = release_bmc_device ; bmc -> pdev . dev . type = & bmc_device_type ; kref_init ( & bmc -> usecount ) ; intf -> bmc = bmc ; mutex_lock ( & bmc -> dyn_mutex ) ; list_add_tail ( & intf -> bmc_link , & bmc -> intfs ) ; mutex_unlock ( & bmc -> dyn_mutex ) ; rv = platform_device_register ( & bmc -> pdev ) ; if ( rv ) { dev_err ( intf -> si_dev , ""Unable to register bmc device: %d\\n"" , rv ) ; goto out_list_del ; } dev_info ( intf -> si_dev , ""Found new BMC (man_id: 0x%6.6x, prod_id: 0x%4.4x, dev_id: 0x%2.2x)\\n"" , bmc -> id . manufacturer_id , bmc -> id . product_id , bmc -> id . device_id ) ; } rv = sysfs_create_link ( & intf -> si_dev -> kobj , & bmc -> pdev . dev . kobj , ""bmc"" ) ; if ( rv ) { dev_err ( intf -> si_dev , ""Unable to create bmc symlink: %d\\n"" , rv ) ; goto out_put_bmc ; } if ( intf_num == - 1 ) intf_num = intf -> intf_num ; intf -> my_dev_name = kasprintf ( GFP_KERNEL , ""ipmi%d"" , intf_num ) ; if ( ! intf -> my_dev_name ) { rv = - ENOMEM ; dev_err ( intf -> si_dev , ""Unable to allocate link from BMC: %d\\n"" , rv ) ; goto out_unlink1 ; } rv = sysfs_create_link ( & bmc -> pdev . dev . kobj , & intf -> si_dev -> kobj , intf -> my_dev_name ) ; if ( rv ) { kfree ( intf -> my_dev_name ) ; intf -> my_dev_name = NULL ; dev_err ( intf -> si_dev , ""Unable to create symlink to bmc: %d\\n"" , rv ) ; goto out_free_my_dev_name ; } intf -> bmc_registered = true ; out : mutex_unlock ( & ipmidriver_mutex ) ; mutex_lock ( & intf -> bmc_reg_mutex ) ; intf -> in_bmc_register = false ;","static int __ipmi_bmc_register ( struct ipmi_smi * intf , struct ipmi_device_id * id , bool guid_set , guid_t * guid , int intf_num ) { int rv ; struct bmc_device * bmc ; struct bmc_device * old_bmc ; intf -> in_bmc_register = true ; mutex_unlock ( & intf -> bmc_reg_mutex ) ; mutex_lock ( & ipmidriver_mutex ) ; if ( guid_set ) old_bmc = ipmi_find_bmc_guid ( & ipmidriver . driver , guid ) ; else old_bmc = ipmi_find_bmc_prod_dev_id ( & ipmidriver . driver , id -> product_id , id -> device_id ) ; if ( old_bmc ) { bmc = old_bmc ; intf -> bmc = old_bmc ; mutex_lock ( & bmc -> dyn_mutex ) ; list_add_tail ( & intf -> bmc_link , & bmc -> intfs ) ; mutex_unlock ( & bmc -> dyn_mutex ) ; dev_info ( intf -> si_dev , ""interfacing existing BMC (man_id: 0x%6.6x, prod_id: 0x%4.4x, dev_id: 0x%2.2x)\\n"" , bmc -> id . manufacturer_id , bmc -> id . product_id , bmc -> id . device_id ) ; } else { bmc = kzalloc ( sizeof ( * bmc ) , GFP_KERNEL ) ; if ( ! bmc ) { rv = - ENOMEM ; goto out ; } INIT_LIST_HEAD ( & bmc -> intfs ) ; mutex_init ( & bmc -> dyn_mutex ) ; INIT_WORK ( & bmc -> remove_work , cleanup_bmc_work ) ; bmc -> id = * id ; bmc -> dyn_id_set = 1 ; bmc -> dyn_guid_set = guid_set ; bmc -> guid = * guid ; bmc -> dyn_id_expiry = jiffies + IPMI_DYN_DEV_ID_EXPIRY ; bmc -> pdev . name = ""ipmi_bmc"" ; rv = ida_simple_get ( & ipmi_bmc_ida , 0 , 0 , GFP_KERNEL ) ; if ( rv < 0 ) { kfree ( bmc ) ; goto out ; } bmc -> pdev . dev . driver = & ipmidriver . driver ; bmc -> pdev . id = rv ; bmc -> pdev . dev . release = release_bmc_device ; bmc -> pdev . dev . type = & bmc_device_type ; kref_init ( & bmc -> usecount ) ; intf -> bmc = bmc ; mutex_lock ( & bmc -> dyn_mutex ) ; list_add_tail ( & intf -> bmc_link , & bmc -> intfs ) ; mutex_unlock ( & bmc -> dyn_mutex ) ; rv = platform_device_register ( & bmc -> pdev ) ; if ( rv ) { dev_err ( intf -> si_dev , ""Unable to register bmc device: %d\\n"" , rv ) ; goto out_list_del ; } dev_info ( intf -> si_dev , ""Found new BMC (man_id: 0x%6.6x, prod_id: 0x%4.4x, dev_id: 0x%2.2x)\\n"" , bmc -> id . manufacturer_id , bmc -> id . product_id , bmc -> id . device_id ) ; } rv = sysfs_create_link ( & intf -> si_dev -> kobj , & bmc -> pdev . dev . kobj , ""bmc"" ) ; if ( rv ) { dev_err ( intf -> si_dev , ""Unable to create bmc symlink: %d\\n"" , rv ) ; goto out_put_bmc ; } if ( intf_num == - 1 ) intf_num = intf -> intf_num ; intf -> my_dev_name = kasprintf ( GFP_KERNEL , ""ipmi%d"" , intf_num ) ; if ( ! intf -> my_dev_name ) { rv = - ENOMEM ; dev_err ( intf -> si_dev , ""Unable to allocate link from BMC: %d\\n"" , rv ) ; goto out_unlink1 ; } rv = sysfs_create_link ( & bmc -> pdev . dev . kobj , & intf -> si_dev -> kobj , intf -> my_dev_name ) ; if ( rv ) { kfree ( intf -> my_dev_name ) ; intf -> my_dev_name = NULL ; dev_err ( intf -> si_dev , ""Unable to create symlink to bmc: %d\\n"" , rv ) ; goto out_free_my_dev_name ; } intf -> bmc_registered = true ; out : mutex_unlock ( & ipmidriver_mutex ) ; mutex_lock ( & intf -> bmc_reg_mutex ) ; intf -> in_bmc_register = false ;" 719,"CWE-120 static int parse_user_name ( char * user_input , char * * ret_username ) { register char * ptr ; register int index = 0 ; char username [ PAM_MAX_RESP_SIZE ] ; * ret_username = NULL ; bzero ( ( void * ) username , PAM_MAX_RESP_SIZE ) ; ptr = user_input ; while ( ( * ptr == ' ' ) || ( * ptr == '\\t' ) ) ptr ++ ; if ( * ptr == '\\0' ) { return ( PAM_BUF_ERR ) ; } while ( * ptr != '\\0' ) { if ( ( * ptr == ' ' ) || ( * ptr == '\\t' ) ) break ; else { username [ index ] = * ptr ; index ++ ; ptr ++ ; } } if ( ( * ret_username = malloc ( index + 1 ) ) == NULL ) return ( PAM_BUF_ERR ) ; ( void ) strcpy ( * ret_username , username ) ; return ( PAM_SUCCESS ) ; }","static int parse_user_name ( char * user_input , char * * ret_username ) { register char * ptr ; register int index = 0 ; char username [ PAM_MAX_RESP_SIZE ] ; * ret_username = NULL ; bzero ( ( void * ) username , PAM_MAX_RESP_SIZE ) ; ptr = user_input ; while ( ( * ptr == ' ' ) || ( * ptr == '\\t' ) ) ptr ++ ; if ( * ptr == '\\0' ) { return ( PAM_BUF_ERR ) ; } while ( * ptr != '\\0' ) { if ( ( * ptr == ' ' ) || ( * ptr == '\\t' ) || ( index >= PAM_MAX_RESP_SIZE ) ) { break ; } else { username [ index ] = * ptr ; index ++ ; ptr ++ ; } } if ( index >= PAM_MAX_RESP_SIZE || ( * ret_username = strdup ( username ) ) == NULL ) return ( PAM_BUF_ERR ) ; return ( PAM_SUCCESS ) ; }" 720,"CWE-119 MB_PREDICTION_MODE vp9_left_block_mode ( const MODE_INFO * cur_mi , const MODE_INFO * left_mi , int b ) { if ( b == 0 || b == 2 ) { if ( ! left_mi || is_inter_block ( & left_mi -> mbmi ) ) return DC_PRED ; return get_y_mode ( left_mi , b + 1 ) ; } else { assert ( b == 1 || b == 3 ) ; return cur_mi -> bmi [ b - 1 ] . as_mode ; } }","PREDICTION_MODE vp9_left_block_mode ( const MODE_INFO * cur_mi , const MODE_INFO * left_mi , int b ) { if ( b == 0 || b == 2 ) { if ( ! left_mi || is_inter_block ( & left_mi -> mbmi ) ) return DC_PRED ; return get_y_mode ( left_mi , b + 1 ) ; } else { assert ( b == 1 || b == 3 ) ; return cur_mi -> bmi [ b - 1 ] . as_mode ; } }" 721,"CWE-190 SYSCALL_DEFINE1 ( timer_getoverrun , timer_t , timer_id ) { struct k_itimer * timr ; int overrun ; unsigned long flags ; timr = lock_timer ( timer_id , & flags ) ; if ( ! timr ) return - EINVAL ; overrun = timr -> it_overrun_last ; unlock_timer ( timr , flags ) ; return overrun ; }","SYSCALL_DEFINE1 ( timer_getoverrun , timer_t , timer_id ) { struct k_itimer * timr ; int overrun ; unsigned long flags ; timr = lock_timer ( timer_id , & flags ) ; if ( ! timr ) return - EINVAL ; overrun = timer_overrun_to_int ( timr , 0 ) ; unlock_timer ( timr , flags ) ; return overrun ; }" 722,"CWE-119 static int calc_partial_ssl_err ( YV12_BUFFER_CONFIG * source , YV12_BUFFER_CONFIG * dest ) { int i , j ; int Total = 0 ; int srcoffset , dstoffset ; unsigned char * src = source -> y_buffer ; unsigned char * dst = dest -> y_buffer ; int linestocopy ; linestocopy = ( source -> y_height >> 4 ) / PARTIAL_FRAME_FRACTION ; linestocopy = linestocopy ? linestocopy << 4 : 16 ; srcoffset = source -> y_stride * ( ( dest -> y_height >> 5 ) * 16 ) ; dstoffset = dest -> y_stride * ( ( dest -> y_height >> 5 ) * 16 ) ; src += srcoffset ; dst += dstoffset ; for ( i = 0 ; i < linestocopy ; i += 16 ) { for ( j = 0 ; j < source -> y_width ; j += 16 ) { unsigned int sse ; Total += vp8_mse16x16 ( src + j , source -> y_stride , dst + j , dest -> y_stride , & sse ) ; } src += 16 * source -> y_stride ; dst += 16 * dest -> y_stride ; } return Total ; }","static int calc_partial_ssl_err ( YV12_BUFFER_CONFIG * source , YV12_BUFFER_CONFIG * dest ) { int i , j ; int Total = 0 ; int srcoffset , dstoffset ; unsigned char * src = source -> y_buffer ; unsigned char * dst = dest -> y_buffer ; int linestocopy ; linestocopy = ( source -> y_height >> 4 ) / PARTIAL_FRAME_FRACTION ; linestocopy = linestocopy ? linestocopy << 4 : 16 ; srcoffset = source -> y_stride * ( ( dest -> y_height >> 5 ) * 16 ) ; dstoffset = dest -> y_stride * ( ( dest -> y_height >> 5 ) * 16 ) ; src += srcoffset ; dst += dstoffset ; for ( i = 0 ; i < linestocopy ; i += 16 ) { for ( j = 0 ; j < source -> y_width ; j += 16 ) { unsigned int sse ; Total += vpx_mse16x16 ( src + j , source -> y_stride , dst + j , dest -> y_stride , & sse ) ; } src += 16 * source -> y_stride ; dst += 16 * dest -> y_stride ; } return Total ; }" 723,"CWE-362 static ssize_t driver_override_show ( struct device * dev , struct device_attribute * attr , char * buf ) { struct platform_device * pdev = to_platform_device ( dev ) ; return sprintf ( buf , ""%s\\n"" , pdev -> driver_override ) ; }","static ssize_t driver_override_show ( struct device * dev , struct device_attribute * attr , char * buf ) { struct platform_device * pdev = to_platform_device ( dev ) ; ssize_t len ; device_lock ( dev ) ; len = sprintf ( buf , ""%s\\n"" , pdev -> driver_override ) ; device_unlock ( dev ) ; return len ; }" 724,NVD-CWE-Other void pin_remove ( struct fs_pin * pin ) { spin_lock ( & pin_lock ) ; hlist_del ( & pin -> m_list ) ; hlist_del ( & pin -> s_list ) ; spin_unlock ( & pin_lock ) ; spin_lock_irq ( & pin -> wait . lock ) ; pin -> done = 1 ; wake_up_locked ( & pin -> wait ) ; spin_unlock_irq ( & pin -> wait . lock ) ; },void pin_remove ( struct fs_pin * pin ) { spin_lock ( & pin_lock ) ; hlist_del_init ( & pin -> m_list ) ; hlist_del_init ( & pin -> s_list ) ; spin_unlock ( & pin_lock ) ; spin_lock_irq ( & pin -> wait . lock ) ; pin -> done = 1 ; wake_up_locked ( & pin -> wait ) ; spin_unlock_irq ( & pin -> wait . lock ) ; } 725,"CWE-119 void vpx_scale_frame ( YV12_BUFFER_CONFIG * src , YV12_BUFFER_CONFIG * dst , unsigned char * temp_area , unsigned char temp_height , unsigned int hscale , unsigned int hratio , unsigned int vscale , unsigned int vratio , unsigned int interlaced ) { int i ; int dw = ( hscale - 1 + src -> y_width * hratio ) / hscale ; int dh = ( vscale - 1 + src -> y_height * vratio ) / vscale ; Scale2D ( ( unsigned char * ) src -> y_buffer , src -> y_stride , src -> y_width , src -> y_height , ( unsigned char * ) dst -> y_buffer , dst -> y_stride , dw , dh , temp_area , temp_height , hscale , hratio , vscale , vratio , interlaced ) ; if ( dw < ( int ) dst -> y_width ) for ( i = 0 ; i < dh ; i ++ ) vpx_memset ( dst -> y_buffer + i * dst -> y_stride + dw - 1 , dst -> y_buffer [ i * dst -> y_stride + dw - 2 ] , dst -> y_width - dw + 1 ) ; if ( dh < ( int ) dst -> y_height ) for ( i = dh - 1 ; i < ( int ) dst -> y_height ; i ++ ) vpx_memcpy ( dst -> y_buffer + i * dst -> y_stride , dst -> y_buffer + ( dh - 2 ) * dst -> y_stride , dst -> y_width + 1 ) ; Scale2D ( ( unsigned char * ) src -> u_buffer , src -> uv_stride , src -> uv_width , src -> uv_height , ( unsigned char * ) dst -> u_buffer , dst -> uv_stride , dw / 2 , dh / 2 , temp_area , temp_height , hscale , hratio , vscale , vratio , interlaced ) ; if ( dw / 2 < ( int ) dst -> uv_width ) for ( i = 0 ; i < dst -> uv_height ; i ++ ) vpx_memset ( dst -> u_buffer + i * dst -> uv_stride + dw / 2 - 1 , dst -> u_buffer [ i * dst -> uv_stride + dw / 2 - 2 ] , dst -> uv_width - dw / 2 + 1 ) ; if ( dh / 2 < ( int ) dst -> uv_height ) for ( i = dh / 2 - 1 ; i < ( int ) dst -> y_height / 2 ; i ++ ) vpx_memcpy ( dst -> u_buffer + i * dst -> uv_stride , dst -> u_buffer + ( dh / 2 - 2 ) * dst -> uv_stride , dst -> uv_width ) ; Scale2D ( ( unsigned char * ) src -> v_buffer , src -> uv_stride , src -> uv_width , src -> uv_height , ( unsigned char * ) dst -> v_buffer , dst -> uv_stride , dw / 2 , dh / 2 , temp_area , temp_height , hscale , hratio , vscale , vratio , interlaced ) ; if ( dw / 2 < ( int ) dst -> uv_width ) for ( i = 0 ; i < dst -> uv_height ; i ++ ) vpx_memset ( dst -> v_buffer + i * dst -> uv_stride + dw / 2 - 1 , dst -> v_buffer [ i * dst -> uv_stride + dw / 2 - 2 ] , dst -> uv_width - dw / 2 + 1 ) ; if ( dh / 2 < ( int ) dst -> uv_height ) for ( i = dh / 2 - 1 ; i < ( int ) dst -> y_height / 2 ; i ++ ) vpx_memcpy ( dst -> v_buffer + i * dst -> uv_stride , dst -> v_buffer + ( dh / 2 - 2 ) * dst -> uv_stride , dst -> uv_width ) ; }","void vpx_scale_frame ( YV12_BUFFER_CONFIG * src , YV12_BUFFER_CONFIG * dst , unsigned char * temp_area , unsigned char temp_height , unsigned int hscale , unsigned int hratio , unsigned int vscale , unsigned int vratio , unsigned int interlaced ) { int i ; int dw = ( hscale - 1 + src -> y_width * hratio ) / hscale ; int dh = ( vscale - 1 + src -> y_height * vratio ) / vscale ; Scale2D ( ( unsigned char * ) src -> y_buffer , src -> y_stride , src -> y_width , src -> y_height , ( unsigned char * ) dst -> y_buffer , dst -> y_stride , dw , dh , temp_area , temp_height , hscale , hratio , vscale , vratio , interlaced ) ; if ( dw < ( int ) dst -> y_width ) for ( i = 0 ; i < dh ; i ++ ) memset ( dst -> y_buffer + i * dst -> y_stride + dw - 1 , dst -> y_buffer [ i * dst -> y_stride + dw - 2 ] , dst -> y_width - dw + 1 ) ; if ( dh < ( int ) dst -> y_height ) for ( i = dh - 1 ; i < ( int ) dst -> y_height ; i ++ ) memcpy ( dst -> y_buffer + i * dst -> y_stride , dst -> y_buffer + ( dh - 2 ) * dst -> y_stride , dst -> y_width + 1 ) ; Scale2D ( ( unsigned char * ) src -> u_buffer , src -> uv_stride , src -> uv_width , src -> uv_height , ( unsigned char * ) dst -> u_buffer , dst -> uv_stride , dw / 2 , dh / 2 , temp_area , temp_height , hscale , hratio , vscale , vratio , interlaced ) ; if ( dw / 2 < ( int ) dst -> uv_width ) for ( i = 0 ; i < dst -> uv_height ; i ++ ) memset ( dst -> u_buffer + i * dst -> uv_stride + dw / 2 - 1 , dst -> u_buffer [ i * dst -> uv_stride + dw / 2 - 2 ] , dst -> uv_width - dw / 2 + 1 ) ; if ( dh / 2 < ( int ) dst -> uv_height ) for ( i = dh / 2 - 1 ; i < ( int ) dst -> y_height / 2 ; i ++ ) memcpy ( dst -> u_buffer + i * dst -> uv_stride , dst -> u_buffer + ( dh / 2 - 2 ) * dst -> uv_stride , dst -> uv_width ) ; Scale2D ( ( unsigned char * ) src -> v_buffer , src -> uv_stride , src -> uv_width , src -> uv_height , ( unsigned char * ) dst -> v_buffer , dst -> uv_stride , dw / 2 , dh / 2 , temp_area , temp_height , hscale , hratio , vscale , vratio , interlaced ) ; if ( dw / 2 < ( int ) dst -> uv_width ) for ( i = 0 ; i < dst -> uv_height ; i ++ ) memset ( dst -> v_buffer + i * dst -> uv_stride + dw / 2 - 1 , dst -> v_buffer [ i * dst -> uv_stride + dw / 2 - 2 ] , dst -> uv_width - dw / 2 + 1 ) ; if ( dh / 2 < ( int ) dst -> uv_height ) for ( i = dh / 2 - 1 ; i < ( int ) dst -> y_height / 2 ; i ++ ) memcpy ( dst -> v_buffer + i * dst -> uv_stride , dst -> v_buffer + ( dh / 2 - 2 ) * dst -> uv_stride , dst -> uv_width ) ; }" 726,"CWE-388 CODELENGTH ( m , rp ) ; memcpy ( rp , d -> headers [ HEADER_NT ] . p , d -> headers [ HEADER_NT ] . l ) ; rp += d -> headers [ HEADER_NT ] . l ; m = d -> headers [ HEADER_USN ] . l ; CODELENGTH ( m , rp ) ; memcpy ( rp , d -> headers [ HEADER_USN ] . p , d -> headers [ HEADER_USN ] . l ) ; rp += d -> headers [ HEADER_USN ] . l ; nrep ++ ; } } d = d -> next ; } for ( serv = servicelisthead . lh_first ; serv && ( nrep < 255 ) ; serv = serv -> entries . le_next ) { if ( strlen ( serv -> location ) + strlen ( serv -> st ) break ; if ( ( type == 1 && 0 == strncmp ( serv -> st , ( const char * ) p , l ) ) || ( type == 2 && 0 == strncmp ( serv -> usn , ( const char * ) p , l ) ) || ( type == 3 ) ) { m = strlen ( serv -> location ) ; CODELENGTH ( m , rp ) ; memcpy ( rp , serv -> location , m ) ; rp += m ; m = strlen ( serv -> st ) ; CODELENGTH ( m , rp ) ; memcpy ( rp , serv -> st , m ) ; rp += m ; m = strlen ( serv -> usn ) ; CODELENGTH ( m , rp ) ; memcpy ( rp , serv -> usn , m ) ; rp += m ; nrep ++ ; } } rbuf [ 0 ] = nrep ; syslog ( LOG_DEBUG , ""(s=%d) response : %d device%s"" , req -> socket , nrep , ( nrep > 1 ) ? ""s"" : """" ) ; if ( write ( req -> socket , rbuf , rp - rbuf ) < 0 ) { syslog ( LOG_ERR , ""(s=%d) write: %m"" , req -> socket ) ; goto error ; } break ; case 4 : newserv = malloc ( sizeof ( struct service ) ) ; if ( ! newserv ) { syslog ( LOG_ERR , ""cannot allocate memory"" ) ; goto error ; } if ( containsForbiddenChars ( p , l ) ) { syslog ( LOG_ERR , ""bad request (st contains forbidden chars)"" ) ; goto error ; } newserv -> st = malloc ( l + 1 ) ; if ( ! newserv -> st ) { syslog ( LOG_ERR , ""cannot allocate memory"" ) ; goto error ; } memcpy ( newserv -> st , p , l ) ; newserv -> st [ l ] = '\\0' ; p += l ; if ( p >= buf + n ) { syslog ( LOG_WARNING , ""bad request (missing usn)"" ) ; goto error ; } DECODELENGTH_CHECKLIMIT ( l , p , buf + n ) ; if ( p + l > buf + n ) { syslog ( LOG_WARNING , ""bad request (length encoding)"" ) ; goto error ; } if ( containsForbiddenChars ( p , l ) ) { syslog ( LOG_ERR , ""bad request (usn contains forbidden chars)"" ) ; goto error ; } syslog ( LOG_INFO , ""usn=\'%.*s\'"" , l , p ) ; newserv -> usn = malloc ( l + 1 ) ; if ( ! newserv -> usn ) { syslog ( LOG_ERR , ""cannot allocate memory"" ) ; goto error ; } memcpy ( newserv -> usn , p , l ) ; newserv -> usn [ l ] = '\\0' ; p += l ; DECODELENGTH_CHECKLIMIT ( l , p , buf + n ) ; if ( p + l > buf + n ) { syslog ( LOG_WARNING , ""bad request (length encoding)"" ) ; goto error ; } if ( containsForbiddenChars ( p , l ) ) { syslog ( LOG_ERR , ""bad request (server contains forbidden chars)"" ) ; goto error ; } syslog ( LOG_INFO , ""server=\'%.*s\'"" , l , p ) ; newserv -> server = malloc ( l + 1 ) ; if ( ! newserv -> server ) { syslog ( LOG_ERR , ""cannot allocate memory"" ) ; goto error ; } memcpy ( newserv -> server , p , l ) ;","CODELENGTH ( m , rp ) ; memcpy ( rp , d -> headers [ HEADER_NT ] . p , d -> headers [ HEADER_NT ] . l ) ; rp += d -> headers [ HEADER_NT ] . l ; m = d -> headers [ HEADER_USN ] . l ; CODELENGTH ( m , rp ) ; memcpy ( rp , d -> headers [ HEADER_USN ] . p , d -> headers [ HEADER_USN ] . l ) ; rp += d -> headers [ HEADER_USN ] . l ; nrep ++ ; } } d = d -> next ; } for ( serv = servicelisthead . lh_first ; serv && ( nrep < 255 ) ; serv = serv -> entries . le_next ) { if ( strlen ( serv -> location ) + strlen ( serv -> st ) strlen ( serv -> usn ) + 6 + ( rp - rbuf ) >= sizeof ( rbuf ) ) break ; if ( ( type == 1 && 0 == strncmp ( serv -> st , ( const char * ) p , l ) ) || ( type == 2 && 0 == strncmp ( serv -> usn , ( const char * ) p , l ) ) || ( type == 3 ) ) { m = strlen ( serv -> location ) ; CODELENGTH ( m , rp ) ; memcpy ( rp , serv -> location , m ) ; rp += m ; m = strlen ( serv -> st ) ; CODELENGTH ( m , rp ) ; memcpy ( rp , serv -> st , m ) ; rp += m ; m = strlen ( serv -> usn ) ; CODELENGTH ( m , rp ) ; memcpy ( rp , serv -> usn , m ) ; rp += m ; nrep ++ ; } } rbuf [ 0 ] = nrep ; syslog ( LOG_DEBUG , ""(s=%d) response : %d device%s"" , req -> socket , nrep , ( nrep > 1 ) ? ""s"" : """" ) ; if ( write ( req -> socket , rbuf , rp - rbuf ) < 0 ) { syslog ( LOG_ERR , ""(s=%d) write: %m"" , req -> socket ) ; goto error ; } break ; case 4 : newserv = malloc ( sizeof ( struct service ) ) ; if ( ! newserv ) { syslog ( LOG_ERR , ""cannot allocate memory"" ) ; goto error ; } memset ( newserv , 0 , sizeof ( struct service ) ) ; if ( containsForbiddenChars ( p , l ) ) { syslog ( LOG_ERR , ""bad request (st contains forbidden chars)"" ) ; goto error ; } newserv -> st = malloc ( l + 1 ) ; if ( ! newserv -> st ) { syslog ( LOG_ERR , ""cannot allocate memory"" ) ; goto error ; } memcpy ( newserv -> st , p , l ) ; newserv -> st [ l ] = '\\0' ; p += l ; if ( p >= buf + n ) { syslog ( LOG_WARNING , ""bad request (missing usn)"" ) ; goto error ; } DECODELENGTH_CHECKLIMIT ( l , p , buf + n ) ; if ( p + l > buf + n ) { syslog ( LOG_WARNING , ""bad request (length encoding)"" ) ; goto error ; } if ( containsForbiddenChars ( p , l ) ) { syslog ( LOG_ERR , ""bad request (usn contains forbidden chars)"" ) ; goto error ; } syslog ( LOG_INFO , ""usn=\'%.*s\'"" , l , p ) ; newserv -> usn = malloc ( l + 1 ) ; if ( ! newserv -> usn ) { syslog ( LOG_ERR , ""cannot allocate memory"" ) ; goto error ; } memcpy ( newserv -> usn , p , l ) ; newserv -> usn [ l ] = '\\0' ; p += l ; DECODELENGTH_CHECKLIMIT ( l , p , buf + n ) ; if ( p + l > buf + n ) { syslog ( LOG_WARNING , ""bad request (length encoding)"" ) ; goto error ; } if ( containsForbiddenChars ( p , l ) ) { syslog ( LOG_ERR , ""bad request (server contains forbidden chars)"" ) ; goto error ; } syslog ( LOG_INFO , ""server=\'%.*s\'"" , l , p ) ; newserv -> server = malloc ( l + 1 ) ; if ( ! newserv -> server ) { syslog ( LOG_ERR , ""cannot allocate memory"" ) ; goto error ; } memcpy ( newserv -> server , p , l ) ;" 727,"CWE-125 SECURITY_STATUS ntlm_read_AuthenticateMessage ( NTLM_CONTEXT * context , PSecBuffer buffer ) { wStream * s ; size_t length ; UINT32 flags ; NTLM_AV_PAIR * AvFlags ; UINT32 PayloadBufferOffset ; NTLM_AUTHENTICATE_MESSAGE * message ; SSPI_CREDENTIALS * credentials = context -> credentials ; flags = 0 ; AvFlags = NULL ; message = & context -> AUTHENTICATE_MESSAGE ; ZeroMemory ( message , sizeof ( NTLM_AUTHENTICATE_MESSAGE ) ) ; s = Stream_New ( ( BYTE * ) buffer -> pvBuffer , buffer -> cbBuffer ) ; if ( ! s ) return SEC_E_INTERNAL_ERROR ; if ( ntlm_read_message_header ( s , ( NTLM_MESSAGE_HEADER * ) message ) < 0 ) { Stream_Free ( s , FALSE ) ; return SEC_E_INVALID_TOKEN ; } if ( message -> MessageType != MESSAGE_TYPE_AUTHENTICATE ) { Stream_Free ( s , FALSE ) ; return SEC_E_INVALID_TOKEN ; } if ( ntlm_read_message_fields ( s , & ( message -> LmChallengeResponse ) ) < 0 ) { Stream_Free ( s , FALSE ) ; return SEC_E_INVALID_TOKEN ; } if ( ntlm_read_message_fields ( s , & ( message -> NtChallengeResponse ) ) < 0 ) { Stream_Free ( s , FALSE ) ; return SEC_E_INVALID_TOKEN ; } if ( ntlm_read_message_fields ( s , & ( message -> DomainName ) ) < 0 ) { Stream_Free ( s , FALSE ) ; return SEC_E_INVALID_TOKEN ; } if ( ntlm_read_message_fields ( s , & ( message -> UserName ) ) < 0 ) { Stream_Free ( s , FALSE ) ; return SEC_E_INVALID_TOKEN ; } if ( ntlm_read_message_fields ( s , & ( message -> Workstation ) ) < 0 ) { Stream_Free ( s , FALSE ) ; return SEC_E_INVALID_TOKEN ; } if ( ntlm_read_message_fields ( s , & ( message -> EncryptedRandomSessionKey ) ) < 0 ) { Stream_Free ( s , FALSE ) ; return SEC_E_INVALID_TOKEN ; } Stream_Read_UINT32 ( s , message -> NegotiateFlags ) ; context -> NegotiateKeyExchange = ( message -> NegotiateFlags & NTLMSSP_NEGOTIATE_KEY_EXCH ) ? TRUE : FALSE ; if ( ( context -> NegotiateKeyExchange && ! message -> EncryptedRandomSessionKey . Len ) || ( ! context -> NegotiateKeyExchange && message -> EncryptedRandomSessionKey . Len ) ) { Stream_Free ( s , FALSE ) ; return SEC_E_INVALID_TOKEN ; } if ( message -> NegotiateFlags & NTLMSSP_NEGOTIATE_VERSION ) { if ( ntlm_read_version_info ( s , & ( message -> Version ) ) < 0 ) { Stream_Free ( s , FALSE ) ; return SEC_E_INVALID_TOKEN ; } } PayloadBufferOffset = Stream_GetPosition ( s ) ; if ( ntlm_read_message_fields_buffer ( s , & ( message -> DomainName ) ) < 0 ) { Stream_Free ( s , FALSE ) ; return SEC_E_INTERNAL_ERROR ; } if ( ntlm_read_message_fields_buffer ( s , & ( message -> UserName ) ) < 0 ) { Stream_Free ( s , FALSE ) ; return SEC_E_INTERNAL_ERROR ; } if ( ntlm_read_message_fields_buffer ( s , & ( message -> Workstation ) ) < 0 ) { Stream_Free ( s , FALSE ) ; return SEC_E_INTERNAL_ERROR ; } if ( ntlm_read_message_fields_buffer ( s , & ( message -> LmChallengeResponse ) ) < 0 ) { Stream_Free ( s , FALSE ) ; return SEC_E_INTERNAL_ERROR ; } if ( ntlm_read_message_fields_buffer ( s , & ( message -> NtChallengeResponse ) ) < 0 ) { Stream_Free ( s , FALSE ) ; return SEC_E_INTERNAL_ERROR ; } if ( message -> NtChallengeResponse . Len > 0 ) { size_t cbAvFlags ; wStream * snt = Stream_New ( message -> NtChallengeResponse . Buffer , message -> NtChallengeResponse . Len ) ; if ( ! snt ) { Stream_Free ( s , FALSE ) ; return SEC_E_INTERNAL_ERROR ; } if ( ntlm_read_ntlm_v2_response ( snt , & ( context -> NTLMv2Response ) ) < 0 ) { Stream_Free ( s , FALSE ) ; Stream_Free ( snt , FALSE ) ; return SEC_E_INVALID_TOKEN ; } Stream_Free ( snt , FALSE ) ; context -> NtChallengeResponse . pvBuffer = message -> NtChallengeResponse . Buffer ; context -> NtChallengeResponse . cbBuffer = message -> NtChallengeResponse . Len ; sspi_SecBufferFree ( & ( context -> ChallengeTargetInfo ) ) ; context -> ChallengeTargetInfo . pvBuffer = ( void * ) context -> NTLMv2Response . Challenge . AvPairs ; context -> ChallengeTargetInfo . cbBuffer = message -> NtChallengeResponse . Len - ( 28 + 16 ) ; CopyMemory ( context -> ClientChallenge , context -> NTLMv2Response . Challenge . ClientChallenge , 8 ) ; AvFlags = ntlm_av_pair_get ( context -> NTLMv2Response . Challenge . AvPairs , context -> NTLMv2Response . Challenge . cbAvPairs , MsvAvFlags , & cbAvFlags ) ; if ( AvFlags ) Data_Read_UINT32 ( ntlm_av_pair_get_value_pointer ( AvFlags ) , flags ) ; } if ( ntlm_read_message_fields_buffer ( s , & ( message -> EncryptedRandomSessionKey ) ) < 0 ) { Stream_Free ( s , FALSE ) ; return SEC_E_INTERNAL_ERROR ; } if ( message -> EncryptedRandomSessionKey . Len > 0 ) { if ( message -> EncryptedRandomSessionKey . Len != 16 ) { Stream_Free ( s , FALSE ) ; return SEC_E_INVALID_TOKEN ; } CopyMemory ( context -> EncryptedRandomSessionKey , message -> EncryptedRandomSessionKey . Buffer , 16 ) ; } length = Stream_GetPosition ( s ) ; if ( ! sspi_SecBufferAlloc ( & context -> AuthenticateMessage , length ) ) { Stream_Free ( s , FALSE ) ; return SEC_E_INTERNAL_ERROR ; } CopyMemory ( context -> AuthenticateMessage . pvBuffer , Stream_Buffer ( s ) , length ) ; buffer -> cbBuffer = length ; Stream_SetPosition ( s , PayloadBufferOffset ) ; if ( flags & MSV_AV_FLAGS_MESSAGE_INTEGRITY_CHECK ) { context -> MessageIntegrityCheckOffset = ( UINT32 ) Stream_GetPosition ( s ) ; if ( Stream_GetRemainingLength ( s ) < 16 ) { Stream_Free ( s , FALSE ) ; return SEC_E_INVALID_TOKEN ; } Stream_Read ( s , message -> MessageIntegrityCheck , 16 ) ; } # ifdef WITH_DEBUG_NTLM WLog_DBG ( TAG , ""AUTHENTICATE_MESSAGE (length = %"" PRIu32 "")"" , context -> AuthenticateMessage . cbBuffer ) ; winpr_HexDump ( TAG , WLOG_DEBUG , context -> AuthenticateMessage . pvBuffer , context -> AuthenticateMessage . cbBuffer ) ; if ( message -> NegotiateFlags & NTLMSSP_NEGOTIATE_VERSION ) ntlm_print_version_info ( & ( message -> Version ) ) ; ntlm_print_message_fields ( & ( message -> DomainName ) , ""DomainName"" ) ; ntlm_print_message_fields ( & ( message -> UserName ) , ""UserName"" ) ; ntlm_print_message_fields ( & ( message -> Workstation ) , ""Workstation"" ) ; ntlm_print_message_fields ( & ( message -> LmChallengeResponse ) , ""LmChallengeResponse"" ) ; ntlm_print_message_fields ( & ( message -> NtChallengeResponse ) , ""NtChallengeResponse"" ) ; ntlm_print_message_fields ( & ( message -> EncryptedRandomSessionKey ) , ""EncryptedRandomSessionKey"" ) ; ntlm_print_av_pair_list ( context -> NTLMv2Response . Challenge . AvPairs , context -> NTLMv2Response . Challenge . cbAvPairs ) ; if ( flags & MSV_AV_FLAGS_MESSAGE_INTEGRITY_CHECK ) { WLog_DBG ( TAG , ""MessageIntegrityCheck:"" ) ; winpr_HexDump ( TAG , WLOG_DEBUG , message -> MessageIntegrityCheck , 16 ) ; } # endif if ( message -> UserName . Len > 0 ) { credentials -> identity . User = ( UINT16 * ) malloc ( message -> UserName . Len ) ; if ( ! credentials -> identity . User ) { Stream_Free ( s , FALSE ) ; return SEC_E_INTERNAL_ERROR ; } CopyMemory ( credentials -> identity . User , message -> UserName . Buffer , message -> UserName . Len ) ; credentials -> identity . UserLength = message -> UserName . Len / 2 ; } if ( message -> DomainName . Len > 0 ) { credentials -> identity . Domain = ( UINT16 * ) malloc ( message -> DomainName . Len ) ; if ( ! credentials -> identity . Domain ) { Stream_Free ( s , FALSE ) ; return SEC_E_INTERNAL_ERROR ; } CopyMemory ( credentials -> identity . Domain , message -> DomainName . Buffer , message -> DomainName . Len ) ; credentials -> identity . DomainLength = message -> DomainName . Len / 2 ; } Stream_Free ( s , FALSE ) ; context -> state = NTLM_STATE_COMPLETION ; return SEC_I_COMPLETE_NEEDED ; }","SECURITY_STATUS ntlm_read_AuthenticateMessage ( NTLM_CONTEXT * context , PSecBuffer buffer ) { SECURITY_STATUS status = SEC_E_INVALID_TOKEN ; wStream * s ; size_t length ; UINT32 flags = 0 ; NTLM_AV_PAIR * AvFlags = NULL ; UINT32 PayloadBufferOffset ; NTLM_AUTHENTICATE_MESSAGE * message ; SSPI_CREDENTIALS * credentials = context -> credentials ; message = & context -> AUTHENTICATE_MESSAGE ; ZeroMemory ( message , sizeof ( NTLM_AUTHENTICATE_MESSAGE ) ) ; s = Stream_New ( ( BYTE * ) buffer -> pvBuffer , buffer -> cbBuffer ) ; if ( ! s ) return SEC_E_INTERNAL_ERROR ; if ( ntlm_read_message_header ( s , ( NTLM_MESSAGE_HEADER * ) message ) < 0 ) goto fail ; if ( message -> MessageType != MESSAGE_TYPE_AUTHENTICATE ) goto fail ; if ( ntlm_read_message_fields ( s , & ( message -> LmChallengeResponse ) ) < 0 ) goto fail ; if ( ntlm_read_message_fields ( s , & ( message -> NtChallengeResponse ) ) < 0 ) goto fail ; if ( ntlm_read_message_fields ( s , & ( message -> DomainName ) ) < 0 ) goto fail ; if ( ntlm_read_message_fields ( s , & ( message -> UserName ) ) < 0 ) goto fail ; if ( ntlm_read_message_fields ( s , & ( message -> Workstation ) ) < 0 ) goto fail ; if ( ntlm_read_message_fields ( s , & ( message -> EncryptedRandomSessionKey ) ) < 0 ) goto fail ; if ( Stream_GetRemainingLength ( s ) < 4 ) goto fail ; Stream_Read_UINT32 ( s , message -> NegotiateFlags ) ; context -> NegotiateKeyExchange = ( message -> NegotiateFlags & NTLMSSP_NEGOTIATE_KEY_EXCH ) ? TRUE : FALSE ; if ( ( context -> NegotiateKeyExchange && ! message -> EncryptedRandomSessionKey . Len ) || ( ! context -> NegotiateKeyExchange && message -> EncryptedRandomSessionKey . Len ) ) goto fail ; if ( message -> NegotiateFlags & NTLMSSP_NEGOTIATE_VERSION ) { if ( ntlm_read_version_info ( s , & ( message -> Version ) ) < 0 ) goto fail ; } PayloadBufferOffset = Stream_GetPosition ( s ) ; status = SEC_E_INTERNAL_ERROR ; if ( ntlm_read_message_fields_buffer ( s , & ( message -> DomainName ) ) < 0 ) goto fail ; if ( ntlm_read_message_fields_buffer ( s , & ( message -> UserName ) ) < 0 ) goto fail ; if ( ntlm_read_message_fields_buffer ( s , & ( message -> Workstation ) ) < 0 ) goto fail ; if ( ntlm_read_message_fields_buffer ( s , & ( message -> LmChallengeResponse ) ) < 0 ) goto fail ; if ( ntlm_read_message_fields_buffer ( s , & ( message -> NtChallengeResponse ) ) < 0 ) goto fail ; if ( message -> NtChallengeResponse . Len > 0 ) { int rc ; size_t cbAvFlags ; wStream * snt = Stream_New ( message -> NtChallengeResponse . Buffer , message -> NtChallengeResponse . Len ) ; if ( ! snt ) goto fail ; status = SEC_E_INVALID_TOKEN ; rc = ntlm_read_ntlm_v2_response ( snt , & ( context -> NTLMv2Response ) ) ; Stream_Free ( snt , FALSE ) ; if ( rc < 0 ) goto fail ; status = SEC_E_INTERNAL_ERROR ; context -> NtChallengeResponse . pvBuffer = message -> NtChallengeResponse . Buffer ; context -> NtChallengeResponse . cbBuffer = message -> NtChallengeResponse . Len ; sspi_SecBufferFree ( & ( context -> ChallengeTargetInfo ) ) ; context -> ChallengeTargetInfo . pvBuffer = ( void * ) context -> NTLMv2Response . Challenge . AvPairs ; context -> ChallengeTargetInfo . cbBuffer = message -> NtChallengeResponse . Len - ( 28 + 16 ) ; CopyMemory ( context -> ClientChallenge , context -> NTLMv2Response . Challenge . ClientChallenge , 8 ) ; AvFlags = ntlm_av_pair_get ( context -> NTLMv2Response . Challenge . AvPairs , context -> NTLMv2Response . Challenge . cbAvPairs , MsvAvFlags , & cbAvFlags ) ; if ( AvFlags ) Data_Read_UINT32 ( ntlm_av_pair_get_value_pointer ( AvFlags ) , flags ) ; } if ( ntlm_read_message_fields_buffer ( s , & ( message -> EncryptedRandomSessionKey ) ) < 0 ) goto fail ; if ( message -> EncryptedRandomSessionKey . Len > 0 ) { if ( message -> EncryptedRandomSessionKey . Len != 16 ) goto fail ; CopyMemory ( context -> EncryptedRandomSessionKey , message -> EncryptedRandomSessionKey . Buffer , 16 ) ; } length = Stream_GetPosition ( s ) ; if ( ! sspi_SecBufferAlloc ( & context -> AuthenticateMessage , length ) ) goto fail ; CopyMemory ( context -> AuthenticateMessage . pvBuffer , Stream_Buffer ( s ) , length ) ; buffer -> cbBuffer = length ; Stream_SetPosition ( s , PayloadBufferOffset ) ; if ( flags & MSV_AV_FLAGS_MESSAGE_INTEGRITY_CHECK ) { context -> MessageIntegrityCheckOffset = ( UINT32 ) Stream_GetPosition ( s ) ; status = SEC_E_INVALID_TOKEN ; if ( Stream_GetRemainingLength ( s ) < 16 ) goto fail ; Stream_Read ( s , message -> MessageIntegrityCheck , 16 ) ; } status = SEC_E_INTERNAL_ERROR ; # ifdef WITH_DEBUG_NTLM WLog_DBG ( TAG , ""AUTHENTICATE_MESSAGE (length = %"" PRIu32 "")"" , context -> AuthenticateMessage . cbBuffer ) ; winpr_HexDump ( TAG , WLOG_DEBUG , context -> AuthenticateMessage . pvBuffer , context -> AuthenticateMessage . cbBuffer ) ; if ( message -> NegotiateFlags & NTLMSSP_NEGOTIATE_VERSION ) ntlm_print_version_info ( & ( message -> Version ) ) ; ntlm_print_message_fields ( & ( message -> DomainName ) , ""DomainName"" ) ; ntlm_print_message_fields ( & ( message -> UserName ) , ""UserName"" ) ; ntlm_print_message_fields ( & ( message -> Workstation ) , ""Workstation"" ) ; ntlm_print_message_fields ( & ( message -> LmChallengeResponse ) , ""LmChallengeResponse"" ) ; ntlm_print_message_fields ( & ( message -> NtChallengeResponse ) , ""NtChallengeResponse"" ) ; ntlm_print_message_fields ( & ( message -> EncryptedRandomSessionKey ) , ""EncryptedRandomSessionKey"" ) ; ntlm_print_av_pair_list ( context -> NTLMv2Response . Challenge . AvPairs , context -> NTLMv2Response . Challenge . cbAvPairs ) ; if ( flags & MSV_AV_FLAGS_MESSAGE_INTEGRITY_CHECK ) { WLog_DBG ( TAG , ""MessageIntegrityCheck:"" ) ; winpr_HexDump ( TAG , WLOG_DEBUG , message -> MessageIntegrityCheck , 16 ) ; } # endif if ( message -> UserName . Len > 0 ) { credentials -> identity . User = ( UINT16 * ) malloc ( message -> UserName . Len ) ; if ( ! credentials -> identity . User ) goto fail ; CopyMemory ( credentials -> identity . User , message -> UserName . Buffer , message -> UserName . Len ) ; credentials -> identity . UserLength = message -> UserName . Len / 2 ; } if ( message -> DomainName . Len > 0 ) { credentials -> identity . Domain = ( UINT16 * ) malloc ( message -> DomainName . Len ) ; if ( ! credentials -> identity . Domain ) goto fail ; CopyMemory ( credentials -> identity . Domain , message -> DomainName . Buffer , message -> DomainName . Len ) ; credentials -> identity . DomainLength = message -> DomainName . Len / 2 ; } Stream_Free ( s , FALSE ) ; context -> state = NTLM_STATE_COMPLETION ; return SEC_I_COMPLETE_NEEDED ; fail : Stream_Free ( s , FALSE ) ; return status ; }" 728,"CWE-20 static int snd_timer_start_slave ( struct snd_timer_instance * timeri ) { unsigned long flags ; spin_lock_irqsave ( & slave_active_lock , flags ) ; timeri -> flags |= SNDRV_TIMER_IFLG_RUNNING ; if ( timeri -> master ) list_add_tail ( & timeri -> active_list , & timeri -> master -> slave_active_head ) ; spin_unlock_irqrestore ( & slave_active_lock , flags ) ; return 1 ; }","static int snd_timer_start_slave ( struct snd_timer_instance * timeri ) { unsigned long flags ; spin_lock_irqsave ( & slave_active_lock , flags ) ; timeri -> flags |= SNDRV_TIMER_IFLG_RUNNING ; if ( timeri -> master && timeri -> timer ) { spin_lock ( & timeri -> timer -> lock ) ; list_add_tail ( & timeri -> active_list , & timeri -> master -> slave_active_head ) ; spin_unlock ( & timeri -> timer -> lock ) ; } spin_unlock_irqrestore ( & slave_active_lock , flags ) ; return 1 ; }" 729,"CWE-345 static void headerMergeLegacySigs ( Header h , Header sigh ) { HeaderIterator hi ; struct rpmtd_s td ; hi = headerInitIterator ( sigh ) ; for ( ; headerNext ( hi , & td ) ; rpmtdFreeData ( & td ) ) { switch ( td . tag ) { case RPMSIGTAG_SIZE : td . tag = RPMTAG_SIGSIZE ; break ; case RPMSIGTAG_PGP : td . tag = RPMTAG_SIGPGP ; break ; case RPMSIGTAG_MD5 : td . tag = RPMTAG_SIGMD5 ; break ; case RPMSIGTAG_GPG : td . tag = RPMTAG_SIGGPG ; break ; case RPMSIGTAG_PGP5 : td . tag = RPMTAG_SIGPGP5 ; break ; case RPMSIGTAG_PAYLOADSIZE : td . tag = RPMTAG_ARCHIVESIZE ; break ; case RPMSIGTAG_FILESIGNATURES : td . tag = RPMTAG_FILESIGNATURES ; break ; case RPMSIGTAG_FILESIGNATURELENGTH : td . tag = RPMTAG_FILESIGNATURELENGTH ; break ; case RPMSIGTAG_VERITYSIGNATURES : case RPMSIGTAG_VERITYSIGNATUREALGO : case RPMSIGTAG_SHA1 : case RPMSIGTAG_SHA256 : case RPMSIGTAG_DSA : case RPMSIGTAG_RSA : default : if ( ! ( td . tag >= HEADER_SIGBASE && td . tag < HEADER_TAGBASE ) ) continue ; break ; } if ( ! headerIsEntry ( h , td . tag ) ) { switch ( td . type ) { case RPM_NULL_TYPE : continue ; break ; case RPM_CHAR_TYPE : case RPM_INT8_TYPE : case RPM_INT16_TYPE : case RPM_INT32_TYPE : case RPM_INT64_TYPE : if ( td . count != 1 ) continue ; break ; case RPM_STRING_TYPE : case RPM_STRING_ARRAY_TYPE : case RPM_BIN_TYPE : if ( td . count >= 16 * 1024 ) continue ; break ; case RPM_I18NSTRING_TYPE : continue ; break ; } ( void ) headerPut ( h , & td , HEADERPUT_DEFAULT ) ; } } headerFreeIterator ( hi ) ; }","static rpmTagVal headerMergeLegacySigs ( Header h , Header sigh , char * * msg ) { const struct taglate_s * xl ; struct rpmtd_s td ; rpmtdReset ( & td ) ; for ( xl = xlateTags ; xl -> stag ; xl ++ ) { if ( headerIsEntry ( h , xl -> xtag ) ) break ; if ( headerGet ( sigh , xl -> stag , & td , HEADERGET_RAW | HEADERGET_MINMEM ) ) { if ( xl -> stag != xl -> xtag ) td . tag = xl -> xtag ; if ( td . type != rpmTagGetTagType ( td . tag ) ) break ; if ( td . count < 1 || td . count > 16 * 1024 * 1024 ) break ; if ( xl -> count && td . count != xl -> count ) break ; if ( ! headerPut ( h , & td , HEADERPUT_DEFAULT ) ) break ; rpmtdFreeData ( & td ) ; } } rpmtdFreeData ( & td ) ; if ( xl -> stag ) { rasprintf ( msg , ""invalid signature tag %s (%d)"" , rpmTagGetName ( xl -> xtag ) , xl -> xtag ) ; } return xl -> stag ; }" 730,"CWE-20 static void br_multicast_del_pg ( struct net_bridge * br , struct net_bridge_port_group * pg ) { struct net_bridge_mdb_htable * mdb ; struct net_bridge_mdb_entry * mp ; struct net_bridge_port_group * p ; struct net_bridge_port_group __rcu * * pp ; mdb = mlock_dereference ( br -> mdb , br ) ; mp = br_mdb_ip_get ( mdb , & pg -> addr ) ; if ( WARN_ON ( ! mp ) ) return ; for ( pp = & mp -> ports ; ( p = mlock_dereference ( * pp , br ) ) != NULL ; pp = & p -> next ) { if ( p != pg ) continue ; rcu_assign_pointer ( * pp , p -> next ) ; hlist_del_init ( & p -> mglist ) ; del_timer ( & p -> timer ) ; call_rcu_bh ( & p -> rcu , br_multicast_free_pg ) ; if ( ! mp -> ports && ! mp -> mglist && netif_running ( br -> dev ) ) mod_timer ( & mp -> timer , jiffies ) ; return ; } WARN_ON ( 1 ) ; }","static void br_multicast_del_pg ( struct net_bridge * br , struct net_bridge_port_group * pg ) { struct net_bridge_mdb_htable * mdb ; struct net_bridge_mdb_entry * mp ; struct net_bridge_port_group * p ; struct net_bridge_port_group __rcu * * pp ; mdb = mlock_dereference ( br -> mdb , br ) ; mp = br_mdb_ip_get ( mdb , & pg -> addr ) ; if ( WARN_ON ( ! mp ) ) return ; for ( pp = & mp -> ports ; ( p = mlock_dereference ( * pp , br ) ) != NULL ; pp = & p -> next ) { if ( p != pg ) continue ; rcu_assign_pointer ( * pp , p -> next ) ; hlist_del_init ( & p -> mglist ) ; del_timer ( & p -> timer ) ; call_rcu_bh ( & p -> rcu , br_multicast_free_pg ) ; if ( ! mp -> ports && ! mp -> mglist && mp -> timer_armed && netif_running ( br -> dev ) ) mod_timer ( & mp -> timer , jiffies ) ; return ; } WARN_ON ( 1 ) ; }" 731,"CWE-200 void update_process_times ( int user_tick ) { struct task_struct * p = current ; account_process_tick ( p , user_tick ) ; run_local_timers ( ) ; rcu_sched_clock_irq ( user_tick ) ; # ifdef CONFIG_IRQ_WORK if ( in_irq ( ) ) irq_work_tick ( ) ; # endif scheduler_tick ( ) ; if ( IS_ENABLED ( CONFIG_POSIX_TIMERS ) ) run_posix_cpu_timers ( ) ; }","void update_process_times ( int user_tick ) { struct task_struct * p = current ; account_process_tick ( p , user_tick ) ; run_local_timers ( ) ; rcu_sched_clock_irq ( user_tick ) ; # ifdef CONFIG_IRQ_WORK if ( in_irq ( ) ) irq_work_tick ( ) ; # endif scheduler_tick ( ) ; if ( IS_ENABLED ( CONFIG_POSIX_TIMERS ) ) run_posix_cpu_timers ( ) ; this_cpu_add ( net_rand_state . s1 , rol32 ( jiffies , 24 ) + user_tick ) ; }" 732,"CWE-189 static int decode_getacl ( struct xdr_stream * xdr , struct rpc_rqst * req , size_t * acl_len ) { __be32 * savep ; uint32_t attrlen , bitmap [ 3 ] = { 0 } ; struct kvec * iov = req -> rq_rcv_buf . head ; int status ; * acl_len = 0 ; if ( ( status = decode_op_hdr ( xdr , OP_GETATTR ) ) != 0 ) goto out ; if ( ( status = decode_attr_bitmap ( xdr , bitmap ) ) != 0 ) goto out ; if ( ( status = decode_attr_length ( xdr , & attrlen , & savep ) ) != 0 ) goto out ; if ( unlikely ( bitmap [ 0 ] & ( FATTR4_WORD0_ACL - 1U ) ) ) return - EIO ; if ( likely ( bitmap [ 0 ] & FATTR4_WORD0_ACL ) ) { size_t hdrlen ; u32 recvd ; hdrlen = ( u8 * ) xdr -> p - ( u8 * ) iov -> iov_base ; recvd = req -> rq_rcv_buf . len - hdrlen ; if ( attrlen > recvd ) { dprintk ( ""NFS: server cheating in getattr"" "" acl reply: attrlen %u > recvd %u\\n"" , attrlen , recvd ) ; return - EINVAL ; } xdr_read_pages ( xdr , attrlen ) ; * acl_len = attrlen ; } else status = - EOPNOTSUPP ; out : return status ; }","static int decode_getacl ( struct xdr_stream * xdr , struct rpc_rqst * req , struct nfs_getaclres * res ) { __be32 * savep , * bm_p ; uint32_t attrlen , bitmap [ 3 ] = { 0 } ; struct kvec * iov = req -> rq_rcv_buf . head ; int status ; res -> acl_len = 0 ; if ( ( status = decode_op_hdr ( xdr , OP_GETATTR ) ) != 0 ) goto out ; bm_p = xdr -> p ; if ( ( status = decode_attr_bitmap ( xdr , bitmap ) ) != 0 ) goto out ; if ( ( status = decode_attr_length ( xdr , & attrlen , & savep ) ) != 0 ) goto out ; if ( unlikely ( bitmap [ 0 ] & ( FATTR4_WORD0_ACL - 1U ) ) ) return - EIO ; if ( likely ( bitmap [ 0 ] & FATTR4_WORD0_ACL ) ) { size_t hdrlen ; u32 recvd ; xdr -> p = bm_p ; res -> acl_data_offset = be32_to_cpup ( bm_p ) + 2 ; res -> acl_data_offset <<= 2 ; hdrlen = ( u8 * ) xdr -> p - ( u8 * ) iov -> iov_base ; attrlen += res -> acl_data_offset ; recvd = req -> rq_rcv_buf . len - hdrlen ; if ( attrlen > recvd ) { if ( res -> acl_flags & NFS4_ACL_LEN_REQUEST ) { res -> acl_len = attrlen ; goto out ; } dprintk ( ""NFS: acl reply: attrlen %u > recvd %u\\n"" , attrlen , recvd ) ; return - EINVAL ; } xdr_read_pages ( xdr , attrlen ) ; res -> acl_len = attrlen ; } else status = - EOPNOTSUPP ; out : return status ; }" 733,"CWE-119 static vpx_codec_err_t vp8e_set_activemap ( vpx_codec_alg_priv_t * ctx , int ctr_id , va_list args ) { vpx_active_map_t * data = va_arg ( args , vpx_active_map_t * ) ; if ( data ) { vpx_active_map_t * map = ( vpx_active_map_t * ) data ; if ( ! vp8_set_active_map ( ctx -> cpi , map -> active_map , map -> rows , map -> cols ) ) return VPX_CODEC_OK ; else return VPX_CODEC_INVALID_PARAM ; } else return VPX_CODEC_INVALID_PARAM ; }","static vpx_codec_err_t vp8e_set_activemap ( vpx_codec_alg_priv_t * ctx , va_list args ) { vpx_active_map_t * data = va_arg ( args , vpx_active_map_t * ) ; if ( data ) { vpx_active_map_t * map = ( vpx_active_map_t * ) data ; if ( ! vp8_set_active_map ( ctx -> cpi , map -> active_map , map -> rows , map -> cols ) ) return VPX_CODEC_OK ; else return VPX_CODEC_INVALID_PARAM ; } else return VPX_CODEC_INVALID_PARAM ; }" 734,"CWE-476 jas_matrix_t * jas_matrix_create ( int numrows , int numcols ) { jas_matrix_t * matrix ; int i ; if ( ! ( matrix = jas_malloc ( sizeof ( jas_matrix_t ) ) ) ) { return 0 ; } matrix -> flags_ = 0 ; matrix -> numrows_ = numrows ; matrix -> numcols_ = numcols ; matrix -> rows_ = 0 ; matrix -> maxrows_ = numrows ; matrix -> data_ = 0 ; matrix -> datasize_ = numrows * numcols ; if ( matrix -> maxrows_ > 0 ) { if ( ! ( matrix -> rows_ = jas_alloc2 ( matrix -> maxrows_ , sizeof ( jas_seqent_t * ) ) ) ) { jas_matrix_destroy ( matrix ) ; return 0 ; } } if ( matrix -> datasize_ > 0 ) { if ( ! ( matrix -> data_ = jas_alloc2 ( matrix -> datasize_ , sizeof ( jas_seqent_t ) ) ) ) { jas_matrix_destroy ( matrix ) ; return 0 ; } } for ( i = 0 ; i < numrows ; ++ i ) { matrix -> rows_ [ i ] = & matrix -> data_ [ i * matrix -> numcols_ ] ; } for ( i = 0 ; i < matrix -> datasize_ ; ++ i ) { matrix -> data_ [ i ] = 0 ; } matrix -> xstart_ = 0 ; matrix -> ystart_ = 0 ; matrix -> xend_ = matrix -> numcols_ ; matrix -> yend_ = matrix -> numrows_ ; return matrix ; }","jas_matrix_t * jas_matrix_create ( int numrows , int numcols ) { jas_matrix_t * matrix ; int i ; if ( numrows < 0 || numcols < 0 ) { return 0 ; } if ( ! ( matrix = jas_malloc ( sizeof ( jas_matrix_t ) ) ) ) { return 0 ; } matrix -> flags_ = 0 ; matrix -> numrows_ = numrows ; matrix -> numcols_ = numcols ; matrix -> rows_ = 0 ; matrix -> maxrows_ = numrows ; matrix -> data_ = 0 ; matrix -> datasize_ = numrows * numcols ; if ( matrix -> maxrows_ > 0 ) { if ( ! ( matrix -> rows_ = jas_alloc2 ( matrix -> maxrows_ , sizeof ( jas_seqent_t * ) ) ) ) { jas_matrix_destroy ( matrix ) ; return 0 ; } } if ( matrix -> datasize_ > 0 ) { if ( ! ( matrix -> data_ = jas_alloc2 ( matrix -> datasize_ , sizeof ( jas_seqent_t ) ) ) ) { jas_matrix_destroy ( matrix ) ; return 0 ; } } for ( i = 0 ; i < numrows ; ++ i ) { matrix -> rows_ [ i ] = & matrix -> data_ [ i * matrix -> numcols_ ] ; } for ( i = 0 ; i < matrix -> datasize_ ; ++ i ) { matrix -> data_ [ i ] = 0 ; } matrix -> xstart_ = 0 ; matrix -> ystart_ = 0 ; matrix -> xend_ = matrix -> numcols_ ; matrix -> yend_ = matrix -> numrows_ ; return matrix ; }" 735,"CWE-20 static void handle_rx ( struct vhost_net * net ) { struct vhost_net_virtqueue * nvq = & net -> vqs [ VHOST_NET_VQ_RX ] ; struct vhost_virtqueue * vq = & nvq -> vq ; unsigned uninitialized_var ( in ) , log ; struct vhost_log * vq_log ; struct msghdr msg = { . msg_name = NULL , . msg_namelen = 0 , . msg_control = NULL , . msg_controllen = 0 , . msg_iov = vq -> iov , . msg_flags = MSG_DONTWAIT , } ; struct virtio_net_hdr_mrg_rxbuf hdr = { . hdr . flags = 0 , . hdr . gso_type = VIRTIO_NET_HDR_GSO_NONE } ; size_t total_len = 0 ; int err , mergeable ; s16 headcount ; size_t vhost_hlen , sock_hlen ; size_t vhost_len , sock_len ; struct socket * sock ; mutex_lock ( & vq -> mutex ) ; sock = vq -> private_data ; if ( ! sock ) goto out ; vhost_disable_notify ( & net -> dev , vq ) ; vhost_hlen = nvq -> vhost_hlen ; sock_hlen = nvq -> sock_hlen ; vq_log = unlikely ( vhost_has_feature ( & net -> dev , VHOST_F_LOG_ALL ) ) ? vq -> log : NULL ; mergeable = vhost_has_feature ( & net -> dev , VIRTIO_NET_F_MRG_RXBUF ) ; while ( ( sock_len = peek_head_len ( sock -> sk ) ) ) { sock_len += sock_hlen ; vhost_len = sock_len + vhost_hlen ; headcount = get_rx_bufs ( vq , vq -> heads , vhost_len , & in , vq_log , & log , likely ( mergeable ) ? UIO_MAXIOV : 1 ) ; if ( unlikely ( headcount < 0 ) ) break ; if ( ! headcount ) { if ( unlikely ( vhost_enable_notify ( & net -> dev , vq ) ) ) { vhost_disable_notify ( & net -> dev , vq ) ; continue ; } break ; } if ( unlikely ( ( vhost_hlen ) ) ) move_iovec_hdr ( vq -> iov , nvq -> hdr , vhost_hlen , in ) ; else copy_iovec_hdr ( vq -> iov , nvq -> hdr , sock_hlen , in ) ; msg . msg_iovlen = in ; err = sock -> ops -> recvmsg ( NULL , sock , & msg , sock_len , MSG_DONTWAIT | MSG_TRUNC ) ; if ( unlikely ( err != sock_len ) ) { pr_debug ( ""Discarded rx packet: "" "" len %d, expected %zd\\n"" , err , sock_len ) ; vhost_discard_vq_desc ( vq , headcount ) ; continue ; } if ( unlikely ( vhost_hlen ) && memcpy_toiovecend ( nvq -> hdr , ( unsigned char * ) & hdr , 0 , vhost_hlen ) ) { vq_err ( vq , ""Unable to write vnet_hdr at addr %p\\n"" , vq -> iov -> iov_base ) ; break ; } if ( likely ( mergeable ) && memcpy_toiovecend ( nvq -> hdr , ( unsigned char * ) & headcount , offsetof ( typeof ( hdr ) , num_buffers ) , sizeof hdr . num_buffers ) ) { vq_err ( vq , ""Failed num_buffers write"" ) ; vhost_discard_vq_desc ( vq , headcount ) ; break ; } vhost_add_used_and_signal_n ( & net -> dev , vq , vq -> heads , headcount ) ; if ( unlikely ( vq_log ) ) vhost_log_write ( vq , vq_log , log , vhost_len ) ; total_len += vhost_len ; if ( unlikely ( total_len >= VHOST_NET_WEIGHT ) ) { vhost_poll_queue ( & vq -> poll ) ; break ; } } out : mutex_unlock ( & vq -> mutex ) ; }","static void handle_rx ( struct vhost_net * net ) { struct vhost_net_virtqueue * nvq = & net -> vqs [ VHOST_NET_VQ_RX ] ; struct vhost_virtqueue * vq = & nvq -> vq ; unsigned uninitialized_var ( in ) , log ; struct vhost_log * vq_log ; struct msghdr msg = { . msg_name = NULL , . msg_namelen = 0 , . msg_control = NULL , . msg_controllen = 0 , . msg_iov = vq -> iov , . msg_flags = MSG_DONTWAIT , } ; struct virtio_net_hdr_mrg_rxbuf hdr = { . hdr . flags = 0 , . hdr . gso_type = VIRTIO_NET_HDR_GSO_NONE } ; size_t total_len = 0 ; int err , mergeable ; s16 headcount ; size_t vhost_hlen , sock_hlen ; size_t vhost_len , sock_len ; struct socket * sock ; mutex_lock ( & vq -> mutex ) ; sock = vq -> private_data ; if ( ! sock ) goto out ; vhost_disable_notify ( & net -> dev , vq ) ; vhost_hlen = nvq -> vhost_hlen ; sock_hlen = nvq -> sock_hlen ; vq_log = unlikely ( vhost_has_feature ( & net -> dev , VHOST_F_LOG_ALL ) ) ? vq -> log : NULL ; mergeable = vhost_has_feature ( & net -> dev , VIRTIO_NET_F_MRG_RXBUF ) ; while ( ( sock_len = peek_head_len ( sock -> sk ) ) ) { sock_len += sock_hlen ; vhost_len = sock_len + vhost_hlen ; headcount = get_rx_bufs ( vq , vq -> heads , vhost_len , & in , vq_log , & log , likely ( mergeable ) ? UIO_MAXIOV : 1 ) ; if ( unlikely ( headcount < 0 ) ) break ; if ( unlikely ( headcount > UIO_MAXIOV ) ) { msg . msg_iovlen = 1 ; err = sock -> ops -> recvmsg ( NULL , sock , & msg , 1 , MSG_DONTWAIT | MSG_TRUNC ) ; pr_debug ( ""Discarded rx packet: len %zd\\n"" , sock_len ) ; continue ; } if ( ! headcount ) { if ( unlikely ( vhost_enable_notify ( & net -> dev , vq ) ) ) { vhost_disable_notify ( & net -> dev , vq ) ; continue ; } break ; } if ( unlikely ( ( vhost_hlen ) ) ) move_iovec_hdr ( vq -> iov , nvq -> hdr , vhost_hlen , in ) ; else copy_iovec_hdr ( vq -> iov , nvq -> hdr , sock_hlen , in ) ; msg . msg_iovlen = in ; err = sock -> ops -> recvmsg ( NULL , sock , & msg , sock_len , MSG_DONTWAIT | MSG_TRUNC ) ; if ( unlikely ( err != sock_len ) ) { pr_debug ( ""Discarded rx packet: "" "" len %d, expected %zd\\n"" , err , sock_len ) ; vhost_discard_vq_desc ( vq , headcount ) ; continue ; } if ( unlikely ( vhost_hlen ) && memcpy_toiovecend ( nvq -> hdr , ( unsigned char * ) & hdr , 0 , vhost_hlen ) ) { vq_err ( vq , ""Unable to write vnet_hdr at addr %p\\n"" , vq -> iov -> iov_base ) ; break ; } if ( likely ( mergeable ) && memcpy_toiovecend ( nvq -> hdr , ( unsigned char * ) & headcount , offsetof ( typeof ( hdr ) , num_buffers ) , sizeof hdr . num_buffers ) ) { vq_err ( vq , ""Failed num_buffers write"" ) ; vhost_discard_vq_desc ( vq , headcount ) ; break ; } vhost_add_used_and_signal_n ( & net -> dev , vq , vq -> heads , headcount ) ; if ( unlikely ( vq_log ) ) vhost_log_write ( vq , vq_log , log , vhost_len ) ; total_len += vhost_len ; if ( unlikely ( total_len >= VHOST_NET_WEIGHT ) ) { vhost_poll_queue ( & vq -> poll ) ; break ; } } out : mutex_unlock ( & vq -> mutex ) ; }" 736,"CWE-772 LPSTR tr_esc_str ( LPCSTR arg , bool format ) { LPSTR tmp = NULL ; size_t cs = 0 , x , ds , len ; size_t s ; if ( NULL == arg ) return NULL ; s = strlen ( arg ) ; while ( ( s > 0 ) && isspace ( arg [ s - 1 ] ) ) s -- ; ds = s + 1 ; if ( s ) tmp = ( LPSTR ) realloc ( tmp , ds * sizeof ( CHAR ) ) ; if ( NULL == tmp ) { fprintf ( stderr , ""Could not allocate string buffer.\\n"" ) ; exit ( - 2 ) ; } memset ( tmp , 0 , ds * sizeof ( CHAR ) ) ; for ( x = 0 ; x < s ; x ++ ) { switch ( arg [ x ] ) { case '<' : len = format ? 13 : 4 ; ds += len - 1 ; tmp = ( LPSTR ) realloc ( tmp , ds * sizeof ( CHAR ) ) ; if ( NULL == tmp ) { fprintf ( stderr , ""Could not reallocate string buffer.\\n"" ) ; exit ( - 3 ) ; } if ( format ) strncpy ( & tmp [ cs ] , """" , len ) ; else strncpy ( & tmp [ cs ] , ""<"" , len ) ; cs += len ; break ; case '>' : len = format ? 14 : 4 ; ds += len - 1 ; tmp = ( LPSTR ) realloc ( tmp , ds * sizeof ( CHAR ) ) ; if ( NULL == tmp ) { fprintf ( stderr , ""Could not reallocate string buffer.\\n"" ) ; exit ( - 4 ) ; } if ( format ) strncpy ( & tmp [ cs ] , """" , len ) ; else strncpy ( & tmp [ cs ] , ""<"" , len ) ; cs += len ; break ; case '\\'' : ds += 5 ; tmp = ( LPSTR ) realloc ( tmp , ds * sizeof ( CHAR ) ) ; if ( NULL == tmp ) { fprintf ( stderr , ""Could not reallocate string buffer.\\n"" ) ; exit ( - 5 ) ; } tmp [ cs ++ ] = '&' ; tmp [ cs ++ ] = 'a' ; tmp [ cs ++ ] = 'p' ; tmp [ cs ++ ] = 'o' ; tmp [ cs ++ ] = 's' ; tmp [ cs ++ ] = ';' ; break ; case \'""\' : ds += 5 ; tmp = ( LPSTR ) realloc ( tmp , ds * sizeof ( CHAR ) ) ; if ( NULL == tmp ) { fprintf ( stderr , ""Could not reallocate string buffer.\\n"" ) ; exit ( - 6 ) ; } tmp [ cs ++ ] = '&' ; tmp [ cs ++ ] = 'q' ; tmp [ cs ++ ] = 'u' ; tmp [ cs ++ ] = 'o' ; tmp [ cs ++ ] = 't' ; tmp [ cs ++ ] = ';' ; break ; case '&' : ds += 4 ; tmp = ( LPSTR ) realloc ( tmp , ds * sizeof ( CHAR ) ) ; if ( NULL == tmp ) { fprintf ( stderr , ""Could not reallocate string buffer.\\n"" ) ; exit ( - 7 ) ; } tmp [ cs ++ ] = '&' ; tmp [ cs ++ ] = 'a' ; tmp [ cs ++ ] = 'm' ; tmp [ cs ++ ] = 'p' ; tmp [ cs ++ ] = ';' ; break ; default : tmp [ cs ++ ] = arg [ x ] ; break ; } tmp [ ds - 1 ] = '\\0' ; } return tmp ; }","LPSTR tr_esc_str ( LPCSTR arg , bool format ) { LPSTR tmp = NULL ; LPSTR tmp2 = NULL ; size_t cs = 0 , x , ds , len ; size_t s ; if ( NULL == arg ) return NULL ; s = strlen ( arg ) ; while ( ( s > 0 ) && isspace ( arg [ s - 1 ] ) ) s -- ; ds = s + 1 ; if ( s ) { tmp2 = ( LPSTR ) realloc ( tmp , ds * sizeof ( CHAR ) ) ; if ( ! tmp2 ) free ( tmp ) ; tmp = tmp2 ; } if ( NULL == tmp ) { fprintf ( stderr , ""Could not allocate string buffer.\\n"" ) ; exit ( - 2 ) ; } memset ( tmp , 0 , ds * sizeof ( CHAR ) ) ; for ( x = 0 ; x < s ; x ++ ) { switch ( arg [ x ] ) { case '<' : len = format ? 13 : 4 ; ds += len - 1 ; tmp2 = ( LPSTR ) realloc ( tmp , ds * sizeof ( CHAR ) ) ; if ( ! tmp2 ) free ( tmp ) ; tmp = tmp2 ; if ( NULL == tmp ) { fprintf ( stderr , ""Could not reallocate string buffer.\\n"" ) ; exit ( - 3 ) ; } if ( format ) strncpy ( & tmp [ cs ] , """" , len ) ; else strncpy ( & tmp [ cs ] , ""<"" , len ) ; cs += len ; break ; case '>' : len = format ? 14 : 4 ; ds += len - 1 ; tmp2 = ( LPSTR ) realloc ( tmp , ds * sizeof ( CHAR ) ) ; if ( ! tmp2 ) free ( tmp ) ; tmp = tmp2 ; if ( NULL == tmp ) { fprintf ( stderr , ""Could not reallocate string buffer.\\n"" ) ; exit ( - 4 ) ; } if ( format ) strncpy ( & tmp [ cs ] , """" , len ) ; else strncpy ( & tmp [ cs ] , ""<"" , len ) ; cs += len ; break ; case '\\'' : ds += 5 ; tmp2 = ( LPSTR ) realloc ( tmp , ds * sizeof ( CHAR ) ) ; if ( ! tmp2 ) free ( tmp ) ; tmp = tmp2 ; if ( NULL == tmp ) { fprintf ( stderr , ""Could not reallocate string buffer.\\n"" ) ; exit ( - 5 ) ; } tmp [ cs ++ ] = '&' ; tmp [ cs ++ ] = 'a' ; tmp [ cs ++ ] = 'p' ; tmp [ cs ++ ] = 'o' ; tmp [ cs ++ ] = 's' ; tmp [ cs ++ ] = ';' ; break ; case \'""\' : ds += 5 ; tmp2 = ( LPSTR ) realloc ( tmp , ds * sizeof ( CHAR ) ) ; if ( ! tmp2 ) free ( tmp ) ; tmp = tmp2 ; if ( NULL == tmp ) { fprintf ( stderr , ""Could not reallocate string buffer.\\n"" ) ; exit ( - 6 ) ; } tmp [ cs ++ ] = '&' ; tmp [ cs ++ ] = 'q' ; tmp [ cs ++ ] = 'u' ; tmp [ cs ++ ] = 'o' ; tmp [ cs ++ ] = 't' ; tmp [ cs ++ ] = ';' ; break ; case '&' : ds += 4 ; tmp2 = ( LPSTR ) realloc ( tmp , ds * sizeof ( CHAR ) ) ; if ( ! tmp2 ) free ( tmp ) ; tmp = tmp2 ; if ( NULL == tmp ) { fprintf ( stderr , ""Could not reallocate string buffer.\\n"" ) ; exit ( - 7 ) ; } tmp [ cs ++ ] = '&' ; tmp [ cs ++ ] = 'a' ; tmp [ cs ++ ] = 'm' ; tmp [ cs ++ ] = 'p' ; tmp [ cs ++ ] = ';' ; break ; default : tmp [ cs ++ ] = arg [ x ] ; break ; } tmp [ ds - 1 ] = '\\0' ; } return tmp ; }" 737,"CWE-190 static void controloptions ( lua_State * L , int opt , const char * * fmt , Header * h ) { switch ( opt ) { case ' ' : return ; case '>' : h -> endian = BIG ; return ; case '<' : h -> endian = LITTLE ; return ; case '!' : { int a = getnum ( fmt , MAXALIGN ) ; if ( ! isp2 ( a ) ) luaL_error ( L , ""alignment %d is not a power of 2"" , a ) ; h -> align = a ; return ; } default : { const char * msg = lua_pushfstring ( L , ""invalid format option \'%c\'"" , opt ) ; luaL_argerror ( L , 1 , msg ) ; } } }","static void controloptions ( lua_State * L , int opt , const char * * fmt , Header * h ) { switch ( opt ) { case ' ' : return ; case '>' : h -> endian = BIG ; return ; case '<' : h -> endian = LITTLE ; return ; case '!' : { int a = getnum ( L , fmt , MAXALIGN ) ; if ( ! isp2 ( a ) ) luaL_error ( L , ""alignment %d is not a power of 2"" , a ) ; h -> align = a ; return ; } default : { const char * msg = lua_pushfstring ( L , ""invalid format option \'%c\'"" , opt ) ; luaL_argerror ( L , 1 , msg ) ; } } }" 738,"CWE-119 char * cJSON_PrintUnformatted ( cJSON * item ) { return print_value ( item , 0 , 0 ) ; } ","char * cJSON_PrintUnformatted ( cJSON * item ) { return print_value ( item , 0 , 0 , 0 ) ; }" 739,"CWE-119 void vp9_idct8x8_add ( const int16_t * input , uint8_t * dest , int stride , int eob ) { if ( eob == 1 ) vp9_idct8x8_1_add ( input , dest , stride ) ; else if ( eob <= 10 ) vp9_idct8x8_10_add ( input , dest , stride ) ; else vp9_idct8x8_64_add ( input , dest , stride ) ; }","void vp9_idct8x8_add ( const tran_low_t * input , uint8_t * dest , int stride , int eob ) { if ( eob == 1 ) vpx_idct8x8_1_add ( input , dest , stride ) ; else if ( eob <= 12 ) vpx_idct8x8_12_add ( input , dest , stride ) ; else vpx_idct8x8_64_add ( input , dest , stride ) ; }" 740,"CWE-125 PyMODINIT_FUNC PyInit__ast ( void ) { PyObject * m , * d ; if ( ! init_types ( ) ) return NULL ; m = PyModule_Create ( & _astmodule ) ; if ( ! m ) return NULL ; d = PyModule_GetDict ( m ) ; if ( PyDict_SetItemString ( d , ""AST"" , ( PyObject * ) & AST_type ) < 0 ) return NULL ; if ( PyModule_AddIntMacro ( m , PyCF_ONLY_AST ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""mod"" , ( PyObject * ) mod_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Module"" , ( PyObject * ) Module_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Interactive"" , ( PyObject * ) Interactive_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Expression"" , ( PyObject * ) Expression_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Suite"" , ( PyObject * ) Suite_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""stmt"" , ( PyObject * ) stmt_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""FunctionDef"" , ( PyObject * ) FunctionDef_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""AsyncFunctionDef"" , ( PyObject * ) AsyncFunctionDef_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""ClassDef"" , ( PyObject * ) ClassDef_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Return"" , ( PyObject * ) Return_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Delete"" , ( PyObject * ) Delete_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Assign"" , ( PyObject * ) Assign_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""AugAssign"" , ( PyObject * ) AugAssign_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""AnnAssign"" , ( PyObject * ) AnnAssign_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""For"" , ( PyObject * ) For_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""AsyncFor"" , ( PyObject * ) AsyncFor_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""While"" , ( PyObject * ) While_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""If"" , ( PyObject * ) If_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""With"" , ( PyObject * ) With_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""AsyncWith"" , ( PyObject * ) AsyncWith_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Raise"" , ( PyObject * ) Raise_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Try"" , ( PyObject * ) Try_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Assert"" , ( PyObject * ) Assert_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Import"" , ( PyObject * ) Import_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""ImportFrom"" , ( PyObject * ) ImportFrom_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Global"" , ( PyObject * ) Global_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Nonlocal"" , ( PyObject * ) Nonlocal_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Expr"" , ( PyObject * ) Expr_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Pass"" , ( PyObject * ) Pass_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Break"" , ( PyObject * ) Break_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Continue"" , ( PyObject * ) Continue_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""expr"" , ( PyObject * ) expr_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""BoolOp"" , ( PyObject * ) BoolOp_type ) < 0 ) return NULL ;","PyMODINIT_FUNC PyInit__ast ( void ) { PyObject * m , * d ; if ( ! init_types ( ) ) return NULL ; m = PyModule_Create ( & _astmodule ) ; if ( ! m ) return NULL ; d = PyModule_GetDict ( m ) ; if ( PyDict_SetItemString ( d , ""AST"" , ( PyObject * ) & AST_type ) < 0 ) return NULL ; if ( PyModule_AddIntMacro ( m , PyCF_ONLY_AST ) < 0 ) return NULL ; if ( PyModule_AddIntMacro ( m , PyCF_TYPE_COMMENTS ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""mod"" , ( PyObject * ) mod_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Module"" , ( PyObject * ) Module_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Interactive"" , ( PyObject * ) Interactive_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Expression"" , ( PyObject * ) Expression_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""FunctionType"" , ( PyObject * ) FunctionType_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Suite"" , ( PyObject * ) Suite_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""stmt"" , ( PyObject * ) stmt_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""FunctionDef"" , ( PyObject * ) FunctionDef_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""AsyncFunctionDef"" , ( PyObject * ) AsyncFunctionDef_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""ClassDef"" , ( PyObject * ) ClassDef_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Return"" , ( PyObject * ) Return_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Delete"" , ( PyObject * ) Delete_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Assign"" , ( PyObject * ) Assign_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""AugAssign"" , ( PyObject * ) AugAssign_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""AnnAssign"" , ( PyObject * ) AnnAssign_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""For"" , ( PyObject * ) For_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""AsyncFor"" , ( PyObject * ) AsyncFor_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""While"" , ( PyObject * ) While_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""If"" , ( PyObject * ) If_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""With"" , ( PyObject * ) With_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""AsyncWith"" , ( PyObject * ) AsyncWith_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Raise"" , ( PyObject * ) Raise_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Try"" , ( PyObject * ) Try_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Assert"" , ( PyObject * ) Assert_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Import"" , ( PyObject * ) Import_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""ImportFrom"" , ( PyObject * ) ImportFrom_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Global"" , ( PyObject * ) Global_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Nonlocal"" , ( PyObject * ) Nonlocal_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Expr"" , ( PyObject * ) Expr_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Pass"" , ( PyObject * ) Pass_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Break"" , ( PyObject * ) Break_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""Continue"" , ( PyObject * ) Continue_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""expr"" , ( PyObject * ) expr_type ) < 0 ) return NULL ; if ( PyDict_SetItemString ( d , ""BoolOp"" , ( PyObject * ) BoolOp_type ) < 0 ) return NULL ;" 741,"CWE-284 static void sync_lockstate_on_connect ( btif_hh_device_t * p_dev ) { int keylockstates ; BTIF_TRACE_EVENT ( ""%s: Syncing keyboard lock states after "" \\ ""reconnect..."" , __FUNCTION__ ) ; update_keyboard_lockstates ( p_dev ) ; keylockstates = get_keylockstates ( ) ; if ( keylockstates ) { BTIF_TRACE_DEBUG ( ""%s: Sending hid report to kernel "" \\ ""indicating lock key state 0x%x"" , __FUNCTION__ , keylockstates ) ; usleep ( 200000 ) ; toggle_os_keylockstates ( p_dev -> fd , keylockstates ) ; } else { BTIF_TRACE_DEBUG ( ""%s: NOT sending hid report to kernel "" \\ ""indicating lock key state 0x%x"" , __FUNCTION__ , keylockstates ) ; } }","static void sync_lockstate_on_connect ( btif_hh_device_t * p_dev ) { int keylockstates ; BTIF_TRACE_EVENT ( ""%s: Syncing keyboard lock states after "" \\ ""reconnect..."" , __FUNCTION__ ) ; update_keyboard_lockstates ( p_dev ) ; keylockstates = get_keylockstates ( ) ; if ( keylockstates ) { BTIF_TRACE_DEBUG ( ""%s: Sending hid report to kernel "" \\ ""indicating lock key state 0x%x"" , __FUNCTION__ , keylockstates ) ; TEMP_FAILURE_RETRY ( usleep ( 200000 ) ) ; toggle_os_keylockstates ( p_dev -> fd , keylockstates ) ; } else { BTIF_TRACE_DEBUG ( ""%s: NOT sending hid report to kernel "" \\ ""indicating lock key state 0x%x"" , __FUNCTION__ , keylockstates ) ; } }" 742,"CWE-787 if ( ! str || ! strcmp ( str , ""No Audio Output Available"" ) ) fprintf ( stderr , ""WARNING: no audio output available - make sure no other program is locking the sound card\\n"" ) ; str = gf_cfg_get_key ( cfg_file , ""General"" , ""NoMIMETypeFetch"" ) ; no_mime_check = ( str && ! stricmp ( str , ""yes"" ) ) ? 1 : 0 ; } str = gf_cfg_get_key ( cfg_file , ""HTTPProxy"" , ""Enabled"" ) ; if ( str && ! strcmp ( str , ""yes"" ) ) { str = gf_cfg_get_key ( cfg_file , ""HTTPProxy"" , ""Name"" ) ; if ( str ) fprintf ( stderr , ""HTTP Proxy %s enabled\\n"" , str ) ; } if ( rti_file ) { str = gf_cfg_get_key ( cfg_file , ""General"" , ""RTIRefreshPeriod"" ) ; if ( str ) { rti_update_time_ms = atoi ( str ) ; } else { gf_cfg_set_key ( cfg_file , ""General"" , ""RTIRefreshPeriod"" , ""200"" ) ; } UpdateRTInfo ( ""At GPAC load time\\n"" ) ; } Run = 1 ; if ( dump_mode ) { if ( ! nb_times ) { times [ 0 ] = 0 ; nb_times ++ ; } ret_val = dump_file ( url_arg , out_arg , dump_mode , fps , forced_width , forced_height , scale , times , nb_times ) ; Run = 0 ; } else if ( views ) { } else if ( ! gui_mode && url_arg ) { char * ext ; if ( strlen ( url_arg ) >= sizeof ( the_url ) ) { fprintf ( stderr , ""Input url %s is too long, truncating to %d chars.\\n"" , url_arg , ( int ) ( sizeof ( the_url ) - 1 ) ) ; strncpy ( the_url , url_arg , sizeof ( the_url ) - 1 ) ; the_url [ sizeof ( the_url ) - 1 ] = 0 ; } else { strcpy ( the_url , url_arg ) ; } ext = strrchr ( the_url , '.' ) ; if ( ext && ( ! stricmp ( ext , "".m3u"" ) || ! stricmp ( ext , "".pls"" ) ) ) { GF_Err e = GF_OK ; fprintf ( stderr , ""Opening Playlist %s\\n"" , the_url ) ; strcpy ( pl_path , the_url ) ; if ( ! strncmp ( ""http:"" , the_url , 5 ) ) { GF_DownloadSession * sess = gf_dm_sess_new ( term -> downloader , the_url , GF_NETIO_SESSION_NOT_THREADED , NULL , NULL , & e ) ; if ( sess ) { e = gf_dm_sess_process ( sess ) ; if ( ! e ) { strncpy ( the_url , gf_dm_sess_get_cache_name ( sess ) , sizeof ( the_url ) - 1 ) ; the_url [ sizeof ( the_cfg ) - 1 ] = 0 ; } gf_dm_sess_del ( sess ) ; } } playlist = e ? NULL : gf_fopen ( the_url , ""rt"" ) ; readonly_playlist = 1 ; if ( playlist ) { request_next_playlist_item = GF_TRUE ; } else { if ( e ) fprintf ( stderr , ""Failed to open playlist %s: %s\\n"" , the_url , gf_error_to_string ( e ) ) ; fprintf ( stderr , ""Hit \'h\' for help\\n\\n"" ) ; } } else { fprintf ( stderr , ""Opening URL %s\\n"" , the_url ) ; if ( pause_at_first ) fprintf ( stderr , ""[Status: Paused]\\n"" ) ; gf_term_connect_from_time ( term , the_url , ( u64 ) ( play_from * 1000 ) , pause_at_first ) ; } } else { fprintf ( stderr , ""Hit \'h\' for help\\n\\n"" ) ; str = gf_cfg_get_key ( cfg_file , ""General"" , ""StartupFile"" ) ; if ( str ) { strncpy ( the_url , ""MP4Client "" GPAC_FULL_VERSION , sizeof ( the_url ) - 1 ) ; the_url [ sizeof ( the_url ) - 1 ] = 0 ; gf_term_connect ( term , str ) ; startup_file = 1 ; is_connected = 1 ; } } if ( gui_mode == 2 ) gui_mode = 0 ; if ( start_fs ) gf_term_set_option ( term , GF_OPT_FULLSCREEN , 1 ) ; if ( views ) { char szTemp [ 4046 ] ; sprintf ( szTemp , ""views://%s"" , views ) ; gf_term_connect ( term , szTemp ) ; } if ( mosaic ) { char szTemp [ 4046 ] ; sprintf ( szTemp , ""mosaic://%s"" , mosaic ) ; gf_term_connect ( term , szTemp ) ; } if ( bench_mode ) { rti_update_time_ms = 500 ; bench_mode_start = gf_sys_clock ( ) ; } while ( Run ) { if ( ( gui_mode == 1 ) || ! gf_prompt_has_input ( ) ) { if ( reload ) { reload = 0 ; gf_term_disconnect ( term ) ;","if ( ! str || ! strcmp ( str , ""No Audio Output Available"" ) ) fprintf ( stderr , ""WARNING: no audio output available - make sure no other program is locking the sound card\\n"" ) ; str = gf_cfg_get_key ( cfg_file , ""General"" , ""NoMIMETypeFetch"" ) ; no_mime_check = ( str && ! stricmp ( str , ""yes"" ) ) ? 1 : 0 ; } str = gf_cfg_get_key ( cfg_file , ""HTTPProxy"" , ""Enabled"" ) ; if ( str && ! strcmp ( str , ""yes"" ) ) { str = gf_cfg_get_key ( cfg_file , ""HTTPProxy"" , ""Name"" ) ; if ( str ) fprintf ( stderr , ""HTTP Proxy %s enabled\\n"" , str ) ; } if ( rti_file ) { str = gf_cfg_get_key ( cfg_file , ""General"" , ""RTIRefreshPeriod"" ) ; if ( str ) { rti_update_time_ms = atoi ( str ) ; } else { gf_cfg_set_key ( cfg_file , ""General"" , ""RTIRefreshPeriod"" , ""200"" ) ; } UpdateRTInfo ( ""At GPAC load time\\n"" ) ; } Run = 1 ; if ( dump_mode ) { if ( ! nb_times ) { times [ 0 ] = 0 ; nb_times ++ ; } ret_val = dump_file ( url_arg , out_arg , dump_mode , fps , forced_width , forced_height , scale , times , nb_times ) ; Run = 0 ; } else if ( views ) { } else if ( ! gui_mode && url_arg ) { char * ext ; if ( strlen ( url_arg ) >= sizeof ( the_url ) ) { fprintf ( stderr , ""Input url %s is too long, truncating to %d chars.\\n"" , url_arg , ( int ) ( sizeof ( the_url ) - 1 ) ) ; strncpy ( the_url , url_arg , sizeof ( the_url ) - 1 ) ; the_url [ sizeof ( the_url ) - 1 ] = 0 ; } else { strcpy ( the_url , url_arg ) ; } ext = strrchr ( the_url , '.' ) ; if ( ext && ( ! stricmp ( ext , "".m3u"" ) || ! stricmp ( ext , "".pls"" ) ) ) { GF_Err e = GF_OK ; fprintf ( stderr , ""Opening Playlist %s\\n"" , the_url ) ; strcpy ( pl_path , the_url ) ; if ( ! strncmp ( ""http:"" , the_url , 5 ) ) { GF_DownloadSession * sess = gf_dm_sess_new ( term -> downloader , the_url , GF_NETIO_SESSION_NOT_THREADED , NULL , NULL , & e ) ; if ( sess ) { e = gf_dm_sess_process ( sess ) ; if ( ! e ) { strncpy ( the_url , gf_dm_sess_get_cache_name ( sess ) , sizeof ( the_url ) - 1 ) ; the_url [ sizeof ( the_url ) - 1 ] = 0 ; } gf_dm_sess_del ( sess ) ; } } playlist = e ? NULL : gf_fopen ( the_url , ""rt"" ) ; readonly_playlist = 1 ; if ( playlist ) { request_next_playlist_item = GF_TRUE ; } else { if ( e ) fprintf ( stderr , ""Failed to open playlist %s: %s\\n"" , the_url , gf_error_to_string ( e ) ) ; fprintf ( stderr , ""Hit \'h\' for help\\n\\n"" ) ; } } else { fprintf ( stderr , ""Opening URL %s\\n"" , the_url ) ; if ( pause_at_first ) fprintf ( stderr , ""[Status: Paused]\\n"" ) ; gf_term_connect_from_time ( term , the_url , ( u64 ) ( play_from * 1000 ) , pause_at_first ) ; } } else { fprintf ( stderr , ""Hit \'h\' for help\\n\\n"" ) ; str = gf_cfg_get_key ( cfg_file , ""General"" , ""StartupFile"" ) ; if ( str ) { strncpy ( the_url , ""MP4Client "" GPAC_FULL_VERSION , sizeof ( the_url ) - 1 ) ; the_url [ sizeof ( the_url ) - 1 ] = 0 ; gf_term_connect ( term , str ) ; startup_file = 1 ; is_connected = 1 ; } } if ( gui_mode == 2 ) gui_mode = 0 ; if ( start_fs ) gf_term_set_option ( term , GF_OPT_FULLSCREEN , 1 ) ; if ( views ) { char szTemp [ 4046 ] ; sprintf ( szTemp , ""views://%s"" , views ) ; gf_term_connect ( term , szTemp ) ; } if ( mosaic ) { char szTemp [ 4046 ] ; sprintf ( szTemp , ""mosaic://%s"" , mosaic ) ; gf_term_connect ( term , szTemp ) ; } if ( bench_mode ) { rti_update_time_ms = 500 ; bench_mode_start = gf_sys_clock ( ) ; } while ( Run ) { if ( ( gui_mode == 1 ) || ! gf_prompt_has_input ( ) ) { if ( reload ) { reload = 0 ; gf_term_disconnect ( term ) ;" 743,"CWE-125 static int handle_keywordonly_args ( struct compiling * c , const node * n , int start , asdl_seq * kwonlyargs , asdl_seq * kwdefaults ) { PyObject * argname ; node * ch ; expr_ty expression , annotation ; arg_ty arg = NULL ; int i = start ; int j = 0 ; if ( kwonlyargs == NULL ) { ast_error ( c , CHILD ( n , start ) , ""named arguments must follow bare *"" ) ; return - 1 ; } assert ( kwdefaults != NULL ) ; while ( i < NCH ( n ) ) { ch = CHILD ( n , i ) ; switch ( TYPE ( ch ) ) { case vfpdef : case tfpdef : if ( i + 1 < NCH ( n ) && TYPE ( CHILD ( n , i + 1 ) ) == EQUAL ) { expression = ast_for_expr ( c , CHILD ( n , i + 2 ) ) ; if ( ! expression ) goto error ; asdl_seq_SET ( kwdefaults , j , expression ) ; i += 2 ; } else { asdl_seq_SET ( kwdefaults , j , NULL ) ; } if ( NCH ( ch ) == 3 ) { annotation = ast_for_expr ( c , CHILD ( ch , 2 ) ) ; if ( ! annotation ) goto error ; } else { annotation = NULL ; } ch = CHILD ( ch , 0 ) ; argname = NEW_IDENTIFIER ( ch ) ; if ( ! argname ) goto error ; if ( forbidden_name ( c , argname , ch , 0 ) ) goto error ; arg = arg ( argname , annotation , NULL , LINENO ( ch ) , ch -> n_col_offset , c -> c_arena ) ; if ( ! arg ) goto error ; asdl_seq_SET ( kwonlyargs , j ++ , arg ) ; i += 1 ; if ( TYPE ( CHILD ( n , i ) ) == COMMA ) i += 1 ; break ; case TYPE_COMMENT : arg -> type_comment = NEW_TYPE_COMMENT ( ch ) ; if ( ! arg -> type_comment ) goto error ; i += 1 ; break ; case DOUBLESTAR : return i ; default : ast_error ( c , ch , ""unexpected node"" ) ; goto error ; } } return i ; error : return - 1 ; }","static int handle_keywordonly_args ( struct compiling * c , const node * n , int start , asdl_seq * kwonlyargs , asdl_seq * kwdefaults ) { PyObject * argname ; node * ch ; expr_ty expression , annotation ; arg_ty arg = NULL ; int i = start ; int j = 0 ; if ( kwonlyargs == NULL ) { ast_error ( c , CHILD ( n , start ) , ""named arguments must follow bare *"" ) ; return - 1 ; } assert ( kwdefaults != NULL ) ; while ( i < NCH ( n ) ) { ch = CHILD ( n , i ) ; switch ( TYPE ( ch ) ) { case vfpdef : case tfpdef : if ( i + 1 < NCH ( n ) && TYPE ( CHILD ( n , i + 1 ) ) == EQUAL ) { expression = ast_for_expr ( c , CHILD ( n , i + 2 ) ) ; if ( ! expression ) goto error ; asdl_seq_SET ( kwdefaults , j , expression ) ; i += 2 ; } else { asdl_seq_SET ( kwdefaults , j , NULL ) ; } if ( NCH ( ch ) == 3 ) { annotation = ast_for_expr ( c , CHILD ( ch , 2 ) ) ; if ( ! annotation ) goto error ; } else { annotation = NULL ; } ch = CHILD ( ch , 0 ) ; argname = NEW_IDENTIFIER ( ch ) ; if ( ! argname ) goto error ; if ( forbidden_name ( c , argname , ch , 0 ) ) goto error ; arg = arg ( argname , annotation , NULL , LINENO ( ch ) , ch -> n_col_offset , c -> c_arena ) ; if ( ! arg ) goto error ; asdl_seq_SET ( kwonlyargs , j ++ , arg ) ; i += 1 ; if ( i < NCH ( n ) && TYPE ( CHILD ( n , i ) ) == COMMA ) i += 1 ; break ; case TYPE_COMMENT : arg -> type_comment = NEW_TYPE_COMMENT ( ch ) ; if ( ! arg -> type_comment ) goto error ; i += 1 ; break ; case DOUBLESTAR : return i ; default : ast_error ( c , ch , ""unexpected node"" ) ; goto error ; } } return i ; error : return - 1 ; }" 744,"CWE-20 static int pfkey_recvmsg ( struct kiocb * kiocb , struct socket * sock , struct msghdr * msg , size_t len , int flags ) { struct sock * sk = sock -> sk ; struct pfkey_sock * pfk = pfkey_sk ( sk ) ; struct sk_buff * skb ; int copied , err ; err = - EINVAL ; if ( flags & ~ ( MSG_PEEK | MSG_DONTWAIT | MSG_TRUNC | MSG_CMSG_COMPAT ) ) goto out ; msg -> msg_namelen = 0 ; skb = skb_recv_datagram ( sk , flags , flags & MSG_DONTWAIT , & err ) ; if ( skb == NULL ) goto out ; copied = skb -> len ; if ( copied > len ) { msg -> msg_flags |= MSG_TRUNC ; copied = len ; } skb_reset_transport_header ( skb ) ; err = skb_copy_datagram_iovec ( skb , 0 , msg -> msg_iov , copied ) ; if ( err ) goto out_free ; sock_recv_ts_and_drops ( msg , sk , skb ) ; err = ( flags & MSG_TRUNC ) ? skb -> len : copied ; if ( pfk -> dump . dump != NULL && 3 * atomic_read ( & sk -> sk_rmem_alloc ) <= sk -> sk_rcvbuf ) pfkey_do_dump ( pfk ) ; out_free : skb_free_datagram ( sk , skb ) ; out : return err ; }","static int pfkey_recvmsg ( struct kiocb * kiocb , struct socket * sock , struct msghdr * msg , size_t len , int flags ) { struct sock * sk = sock -> sk ; struct pfkey_sock * pfk = pfkey_sk ( sk ) ; struct sk_buff * skb ; int copied , err ; err = - EINVAL ; if ( flags & ~ ( MSG_PEEK | MSG_DONTWAIT | MSG_TRUNC | MSG_CMSG_COMPAT ) ) goto out ; skb = skb_recv_datagram ( sk , flags , flags & MSG_DONTWAIT , & err ) ; if ( skb == NULL ) goto out ; copied = skb -> len ; if ( copied > len ) { msg -> msg_flags |= MSG_TRUNC ; copied = len ; } skb_reset_transport_header ( skb ) ; err = skb_copy_datagram_iovec ( skb , 0 , msg -> msg_iov , copied ) ; if ( err ) goto out_free ; sock_recv_ts_and_drops ( msg , sk , skb ) ; err = ( flags & MSG_TRUNC ) ? skb -> len : copied ; if ( pfk -> dump . dump != NULL && 3 * atomic_read ( & sk -> sk_rmem_alloc ) <= sk -> sk_rcvbuf ) pfkey_do_dump ( pfk ) ; out_free : skb_free_datagram ( sk , skb ) ; out : return err ; }" 745,"CWE-190 static mongo_message * mongo_message_create ( int len , int id , int responseTo , int op ) { mongo_message * mm = ( mongo_message * ) bson_malloc ( len ) ; if ( ! id ) id = rand ( ) ; mm -> head . len = len ; mm -> head . id = id ; mm -> head . responseTo = responseTo ; mm -> head . op = op ; return mm ; }","static mongo_message * mongo_message_create ( size_t len , int id , int responseTo , int op ) { mongo_message * mm = ( mongo_message * ) bson_malloc ( len ) ; if ( ! id ) id = rand ( ) ; mm -> head . len = ( int ) len ; mm -> head . id = id ; mm -> head . responseTo = responseTo ; mm -> head . op = op ; return mm ; }" 746,"CWE-20 error_t ksz8851ReceivePacket ( NetInterface * interface ) { size_t n ; uint16_t status ; Ksz8851Context * context ; NetRxAncillary ancillary ; context = ( Ksz8851Context * ) interface -> nicContext ; status = ksz8851ReadReg ( interface , KSZ8851_REG_RXFHSR ) ; if ( ( status & RXFHSR_RXFV ) != 0 ) { if ( ( status & ( RXFHSR_RXMR | RXFHSR_RXFTL | RXFHSR_RXRF | RXFHSR_RXCE ) ) == 0 ) { n = ksz8851ReadReg ( interface , KSZ8851_REG_RXFHBCR ) & RXFHBCR_RXBC_MASK ; if ( n > 0 && n <= ETH_MAX_FRAME_SIZE ) { ksz8851WriteReg ( interface , KSZ8851_REG_RXFDPR , RXFDPR_RXFPAI ) ; ksz8851SetBit ( interface , KSZ8851_REG_RXQCR , RXQCR_SDA ) ; ksz8851ReadFifo ( interface , context -> rxBuffer , n ) ; ksz8851ClearBit ( interface , KSZ8851_REG_RXQCR , RXQCR_SDA ) ; ancillary = NET_DEFAULT_RX_ANCILLARY ; nicProcessPacket ( interface , context -> rxBuffer , n , & ancillary ) ; return NO_ERROR ; } } } ksz8851SetBit ( interface , KSZ8851_REG_RXQCR , RXQCR_RRXEF ) ; return ERROR_INVALID_PACKET ; }","error_t ksz8851ReceivePacket ( NetInterface * interface ) { size_t n ; uint16_t status ; Ksz8851Context * context ; NetRxAncillary ancillary ; context = ( Ksz8851Context * ) interface -> nicContext ; status = ksz8851ReadReg ( interface , KSZ8851_RXFHSR ) ; if ( ( status & KSZ8851_RXFHSR_RXFV ) != 0 ) { if ( ( status & ( KSZ8851_RXFHSR_RXMR | KSZ8851_RXFHSR_RXFTL | KSZ8851_RXFHSR_RXRF | KSZ8851_RXFHSR_RXCE ) ) == 0 ) { n = ksz8851ReadReg ( interface , KSZ8851_RXFHBCR ) & KSZ8851_RXFHBCR_RXBC ; if ( n > 0 && n <= ETH_MAX_FRAME_SIZE ) { ksz8851WriteReg ( interface , KSZ8851_RXFDPR , KSZ8851_RXFDPR_RXFPAI ) ; ksz8851SetBit ( interface , KSZ8851_RXQCR , KSZ8851_RXQCR_SDA ) ; ksz8851ReadFifo ( interface , context -> rxBuffer , n ) ; ksz8851ClearBit ( interface , KSZ8851_RXQCR , KSZ8851_RXQCR_SDA ) ; ancillary = NET_DEFAULT_RX_ANCILLARY ; nicProcessPacket ( interface , context -> rxBuffer , n , & ancillary ) ; return NO_ERROR ; } } } ksz8851SetBit ( interface , KSZ8851_RXQCR , KSZ8851_RXQCR_RRXEF ) ; return ERROR_INVALID_PACKET ; }" 747,"CWE-20 int rose_parse_facilities ( unsigned char * p , struct rose_facilities_struct * facilities ) { int facilities_len , len ; facilities_len = * p ++ ; if ( facilities_len == 0 ) return 0 ; while ( facilities_len > 0 ) { if ( * p == 0x00 ) { facilities_len -- ; p ++ ; switch ( * p ) { case FAC_NATIONAL : len = rose_parse_national ( p + 1 , facilities , facilities_len - 1 ) ; if ( len < 0 ) return 0 ; facilities_len -= len + 1 ; p += len + 1 ; break ; case FAC_CCITT : len = rose_parse_ccitt ( p + 1 , facilities , facilities_len - 1 ) ; if ( len < 0 ) return 0 ; facilities_len -= len + 1 ; p += len + 1 ; break ; default : printk ( KERN_DEBUG ""ROSE: rose_parse_facilities - unknown facilities family %02X\\n"" , * p ) ; facilities_len -- ; p ++ ; break ; } } else break ; } return 1 ; }","int rose_parse_facilities ( unsigned char * p , unsigned packet_len , struct rose_facilities_struct * facilities ) { int facilities_len , len ; facilities_len = * p ++ ; if ( facilities_len == 0 || ( unsigned ) facilities_len > packet_len ) return 0 ; while ( facilities_len >= 3 && * p == 0x00 ) { facilities_len -- ; p ++ ; switch ( * p ) { case FAC_NATIONAL : len = rose_parse_national ( p + 1 , facilities , facilities_len - 1 ) ; break ; case FAC_CCITT : len = rose_parse_ccitt ( p + 1 , facilities , facilities_len - 1 ) ; break ; default : printk ( KERN_DEBUG ""ROSE: rose_parse_facilities - unknown facilities family %02X\\n"" , * p ) ; len = 1 ; break ; } if ( len < 0 ) return 0 ; if ( WARN_ON ( len >= facilities_len ) ) return 0 ; facilities_len -= len + 1 ; p += len + 1 ; } return facilities_len == 0 ; }" 748,"CWE-476 static noinline int btrfs_ioctl_resize ( struct file * file , void __user * arg ) { struct inode * inode = file_inode ( file ) ; struct btrfs_fs_info * fs_info = btrfs_sb ( inode -> i_sb ) ; u64 new_size ; u64 old_size ; u64 devid = 1 ; struct btrfs_root * root = BTRFS_I ( inode ) -> root ; struct btrfs_ioctl_vol_args * vol_args ; struct btrfs_trans_handle * trans ; struct btrfs_device * device = NULL ; char * sizestr ; char * retptr ; char * devstr = NULL ; int ret = 0 ; int mod = 0 ; if ( ! capable ( CAP_SYS_ADMIN ) ) return - EPERM ; ret = mnt_want_write_file ( file ) ; if ( ret ) return ret ; if ( test_and_set_bit ( BTRFS_FS_EXCL_OP , & fs_info -> flags ) ) { mnt_drop_write_file ( file ) ; return BTRFS_ERROR_DEV_EXCL_RUN_IN_PROGRESS ; } vol_args = memdup_user ( arg , sizeof ( * vol_args ) ) ; if ( IS_ERR ( vol_args ) ) { ret = PTR_ERR ( vol_args ) ; goto out ; } vol_args -> name [ BTRFS_PATH_NAME_MAX ] = '\\0' ; sizestr = vol_args -> name ; devstr = strchr ( sizestr , ':' ) ; if ( devstr ) { sizestr = devstr + 1 ; * devstr = '\\0' ; devstr = vol_args -> name ; ret = kstrtoull ( devstr , 10 , & devid ) ; if ( ret ) goto out_free ; if ( ! devid ) { ret = - EINVAL ; goto out_free ; } btrfs_info ( fs_info , ""resizing devid %llu"" , devid ) ; } device = btrfs_find_device ( fs_info -> fs_devices , devid , NULL , NULL ) ; if ( ! device ) { btrfs_info ( fs_info , ""resizer unable to find device %llu"" , devid ) ; ret = - ENODEV ; goto out_free ; } if ( ! test_bit ( BTRFS_DEV_STATE_WRITEABLE , & device -> dev_state ) ) { btrfs_info ( fs_info , ""resizer unable to apply on readonly device %llu"" , devid ) ; ret = - EPERM ; goto out_free ; } if ( ! strcmp ( sizestr , ""max"" ) ) new_size = device -> bdev -> bd_inode -> i_size ; else { if ( sizestr [ 0 ] == '-' ) { mod = - 1 ; sizestr ++ ; } else if ( sizestr [ 0 ] == '+' ) { mod = 1 ; sizestr ++ ; } new_size = memparse ( sizestr , & retptr ) ; if ( * retptr != '\\0' || new_size == 0 ) { ret = - EINVAL ; goto out_free ; } } if ( test_bit ( BTRFS_DEV_STATE_REPLACE_TGT , & device -> dev_state ) ) { ret = - EPERM ; goto out_free ; } old_size = btrfs_device_get_total_bytes ( device ) ; if ( mod < 0 ) { if ( new_size > old_size ) { ret = - EINVAL ; goto out_free ; } new_size = old_size - new_size ; } else if ( mod > 0 ) { if ( new_size > ULLONG_MAX - old_size ) { ret = - ERANGE ; goto out_free ; } new_size = old_size + new_size ; } if ( new_size < SZ_256M ) { ret = - EINVAL ; goto out_free ;","static noinline int btrfs_ioctl_resize ( struct file * file , void __user * arg ) { struct inode * inode = file_inode ( file ) ; struct btrfs_fs_info * fs_info = btrfs_sb ( inode -> i_sb ) ; u64 new_size ; u64 old_size ; u64 devid = 1 ; struct btrfs_root * root = BTRFS_I ( inode ) -> root ; struct btrfs_ioctl_vol_args * vol_args ; struct btrfs_trans_handle * trans ; struct btrfs_device * device = NULL ; char * sizestr ; char * retptr ; char * devstr = NULL ; int ret = 0 ; int mod = 0 ; if ( ! capable ( CAP_SYS_ADMIN ) ) return - EPERM ; ret = mnt_want_write_file ( file ) ; if ( ret ) return ret ; if ( test_and_set_bit ( BTRFS_FS_EXCL_OP , & fs_info -> flags ) ) { mnt_drop_write_file ( file ) ; return BTRFS_ERROR_DEV_EXCL_RUN_IN_PROGRESS ; } vol_args = memdup_user ( arg , sizeof ( * vol_args ) ) ; if ( IS_ERR ( vol_args ) ) { ret = PTR_ERR ( vol_args ) ; goto out ; } vol_args -> name [ BTRFS_PATH_NAME_MAX ] = '\\0' ; sizestr = vol_args -> name ; devstr = strchr ( sizestr , ':' ) ; if ( devstr ) { sizestr = devstr + 1 ; * devstr = '\\0' ; devstr = vol_args -> name ; ret = kstrtoull ( devstr , 10 , & devid ) ; if ( ret ) goto out_free ; if ( ! devid ) { ret = - EINVAL ; goto out_free ; } btrfs_info ( fs_info , ""resizing devid %llu"" , devid ) ; } device = btrfs_find_device ( fs_info -> fs_devices , devid , NULL , NULL , true ) ; if ( ! device ) { btrfs_info ( fs_info , ""resizer unable to find device %llu"" , devid ) ; ret = - ENODEV ; goto out_free ; } if ( ! test_bit ( BTRFS_DEV_STATE_WRITEABLE , & device -> dev_state ) ) { btrfs_info ( fs_info , ""resizer unable to apply on readonly device %llu"" , devid ) ; ret = - EPERM ; goto out_free ; } if ( ! strcmp ( sizestr , ""max"" ) ) new_size = device -> bdev -> bd_inode -> i_size ; else { if ( sizestr [ 0 ] == '-' ) { mod = - 1 ; sizestr ++ ; } else if ( sizestr [ 0 ] == '+' ) { mod = 1 ; sizestr ++ ; } new_size = memparse ( sizestr , & retptr ) ; if ( * retptr != '\\0' || new_size == 0 ) { ret = - EINVAL ; goto out_free ; } } if ( test_bit ( BTRFS_DEV_STATE_REPLACE_TGT , & device -> dev_state ) ) { ret = - EPERM ; goto out_free ; } old_size = btrfs_device_get_total_bytes ( device ) ; if ( mod < 0 ) { if ( new_size > old_size ) { ret = - EINVAL ; goto out_free ; } new_size = old_size - new_size ; } else if ( mod > 0 ) { if ( new_size > ULLONG_MAX - old_size ) { ret = - ERANGE ; goto out_free ; } new_size = old_size + new_size ; } if ( new_size < SZ_256M ) { ret = - EINVAL ; goto out_free ;" 749,"CWE-119 void read_sequence_header ( decoder_info_t * decoder_info , stream_t * stream ) { decoder_info -> width = get_flc ( 16 , stream ) ; decoder_info -> height = get_flc ( 16 , stream ) ; decoder_info -> log2_sb_size = get_flc ( 3 , stream ) ; decoder_info -> pb_split = get_flc ( 1 , stream ) ; decoder_info -> tb_split_enable = get_flc ( 1 , stream ) ; decoder_info -> max_num_ref = get_flc ( 2 , stream ) + 1 ; decoder_info -> interp_ref = get_flc ( 2 , stream ) ; decoder_info -> max_delta_qp = get_flc ( 1 , stream ) ; decoder_info -> deblocking = get_flc ( 1 , stream ) ; decoder_info -> clpf = get_flc ( 1 , stream ) ; decoder_info -> use_block_contexts = get_flc ( 1 , stream ) ; decoder_info -> bipred = get_flc ( 2 , stream ) ; decoder_info -> qmtx = get_flc ( 1 , stream ) ; if ( decoder_info -> qmtx ) { decoder_info -> qmtx_offset = get_flc ( 6 , stream ) - 32 ; } decoder_info -> subsample = get_flc ( 2 , stream ) ; decoder_info -> subsample = ( decoder_info -> subsample & 1 ) * 20 + ( decoder_info -> subsample & 2 ) * 22 + ( ( decoder_info -> subsample & 3 ) == 3 ) * 2 + 400 ; decoder_info -> num_reorder_pics = get_flc ( 4 , stream ) ; if ( decoder_info -> subsample != 400 ) { decoder_info -> cfl_intra = get_flc ( 1 , stream ) ; decoder_info -> cfl_inter = get_flc ( 1 , stream ) ; } decoder_info -> bitdepth = get_flc ( 1 , stream ) ? 10 : 8 ; if ( decoder_info -> bitdepth == 10 ) decoder_info -> bitdepth += 2 * get_flc ( 1 , stream ) ; decoder_info -> input_bitdepth = get_flc ( 1 , stream ) ? 10 : 8 ; if ( decoder_info -> input_bitdepth == 10 ) decoder_info -> input_bitdepth += 2 * get_flc ( 1 , stream ) ; }","void read_sequence_header ( decoder_info_t * decoder_info , stream_t * stream ) { decoder_info -> width = get_flc ( 16 , stream ) ; decoder_info -> height = get_flc ( 16 , stream ) ; decoder_info -> log2_sb_size = get_flc ( 3 , stream ) ; decoder_info -> log2_sb_size = clip ( decoder_info -> log2_sb_size , log2i ( MIN_BLOCK_SIZE ) , log2i ( MAX_SB_SIZE ) ) ; decoder_info -> pb_split = get_flc ( 1 , stream ) ; decoder_info -> tb_split_enable = get_flc ( 1 , stream ) ; decoder_info -> max_num_ref = get_flc ( 2 , stream ) + 1 ; decoder_info -> interp_ref = get_flc ( 2 , stream ) ; decoder_info -> max_delta_qp = get_flc ( 1 , stream ) ; decoder_info -> deblocking = get_flc ( 1 , stream ) ; decoder_info -> clpf = get_flc ( 1 , stream ) ; decoder_info -> use_block_contexts = get_flc ( 1 , stream ) ; decoder_info -> bipred = get_flc ( 2 , stream ) ; decoder_info -> qmtx = get_flc ( 1 , stream ) ; if ( decoder_info -> qmtx ) { decoder_info -> qmtx_offset = get_flc ( 6 , stream ) - 32 ; } decoder_info -> subsample = get_flc ( 2 , stream ) ; decoder_info -> subsample = ( decoder_info -> subsample & 1 ) * 20 + ( decoder_info -> subsample & 2 ) * 22 + ( ( decoder_info -> subsample & 3 ) == 3 ) * 2 + 400 ; decoder_info -> num_reorder_pics = get_flc ( 4 , stream ) ; if ( decoder_info -> subsample != 400 ) { decoder_info -> cfl_intra = get_flc ( 1 , stream ) ; decoder_info -> cfl_inter = get_flc ( 1 , stream ) ; } decoder_info -> bitdepth = get_flc ( 1 , stream ) ? 10 : 8 ; if ( decoder_info -> bitdepth == 10 ) decoder_info -> bitdepth += 2 * get_flc ( 1 , stream ) ; decoder_info -> input_bitdepth = get_flc ( 1 , stream ) ? 10 : 8 ; if ( decoder_info -> input_bitdepth == 10 ) decoder_info -> input_bitdepth += 2 * get_flc ( 1 , stream ) ; }" 750,CWE-119 static vpx_codec_err_t encoder_destroy ( vpx_codec_alg_priv_t * ctx ) { free ( ctx -> cx_data ) ; vp9_remove_compressor ( ctx -> cpi ) ; free ( ctx ) ; return VPX_CODEC_OK ; },static vpx_codec_err_t encoder_destroy ( vpx_codec_alg_priv_t * ctx ) { free ( ctx -> cx_data ) ; vp9_remove_compressor ( ctx -> cpi ) ; # if CONFIG_MULTITHREAD pthread_mutex_destroy ( & ctx -> buffer_pool -> pool_mutex ) ; # endif vpx_free ( ctx -> buffer_pool ) ; vpx_free ( ctx ) ; return VPX_CODEC_OK ; } 751,CWE-119 static av_cold int xpm_decode_close ( AVCodecContext * avctx ) { XPMDecContext * x = avctx -> priv_data ; av_freep ( & x -> pixels ) ; return 0 ; },static av_cold int xpm_decode_close ( AVCodecContext * avctx ) { XPMDecContext * x = avctx -> priv_data ; av_freep ( & x -> pixels ) ; av_freep ( & x -> buf ) ; x -> buf_size = 0 ; return 0 ; } 752,"CWE-125 static int ng_pkt ( git_pkt * * out , const char * line , size_t len ) { git_pkt_ng * pkt ; const char * ptr ; size_t alloclen ; pkt = git__malloc ( sizeof ( * pkt ) ) ; GITERR_CHECK_ALLOC ( pkt ) ; pkt -> ref = NULL ; pkt -> type = GIT_PKT_NG ; line += 3 ; if ( ! ( ptr = strchr ( line , ' ' ) ) ) goto out_err ; len = ptr - line ; GITERR_CHECK_ALLOC_ADD ( & alloclen , len , 1 ) ; pkt -> ref = git__malloc ( alloclen ) ; GITERR_CHECK_ALLOC ( pkt -> ref ) ; memcpy ( pkt -> ref , line , len ) ; pkt -> ref [ len ] = '\\0' ; line = ptr + 1 ; if ( ! ( ptr = strchr ( line , '\\n' ) ) ) goto out_err ; len = ptr - line ; GITERR_CHECK_ALLOC_ADD ( & alloclen , len , 1 ) ; pkt -> msg = git__malloc ( alloclen ) ; GITERR_CHECK_ALLOC ( pkt -> msg ) ; memcpy ( pkt -> msg , line , len ) ; pkt -> msg [ len ] = '\\0' ; * out = ( git_pkt * ) pkt ; return 0 ; out_err : giterr_set ( GITERR_NET , ""invalid packet line"" ) ; git__free ( pkt -> ref ) ; git__free ( pkt ) ; return - 1 ; }","static int ng_pkt ( git_pkt * * out , const char * line , size_t len ) { git_pkt_ng * pkt ; const char * ptr ; size_t alloclen ; pkt = git__malloc ( sizeof ( * pkt ) ) ; GITERR_CHECK_ALLOC ( pkt ) ; pkt -> ref = NULL ; pkt -> type = GIT_PKT_NG ; if ( len < 3 ) goto out_err ; line += 3 ; len -= 3 ; if ( ! ( ptr = memchr ( line , ' ' , len ) ) ) goto out_err ; len = ptr - line ; GITERR_CHECK_ALLOC_ADD ( & alloclen , len , 1 ) ; pkt -> ref = git__malloc ( alloclen ) ; GITERR_CHECK_ALLOC ( pkt -> ref ) ; memcpy ( pkt -> ref , line , len ) ; pkt -> ref [ len ] = '\\0' ; if ( len < 1 ) goto out_err ; line = ptr + 1 ; len -= 1 ; if ( ! ( ptr = memchr ( line , '\\n' , len ) ) ) goto out_err ; len = ptr - line ; GITERR_CHECK_ALLOC_ADD ( & alloclen , len , 1 ) ; pkt -> msg = git__malloc ( alloclen ) ; GITERR_CHECK_ALLOC ( pkt -> msg ) ; memcpy ( pkt -> msg , line , len ) ; pkt -> msg [ len ] = '\\0' ; * out = ( git_pkt * ) pkt ; return 0 ; out_err : giterr_set ( GITERR_NET , ""invalid packet line"" ) ; git__free ( pkt -> ref ) ; git__free ( pkt ) ; return - 1 ; }" 753,"CWE-189 static void _copy_from_pages ( char * p , struct page * * pages , size_t pgbase , size_t len ) { struct page * * pgfrom ; char * vfrom ; size_t copy ; pgfrom = pages + ( pgbase >> PAGE_CACHE_SHIFT ) ; pgbase &= ~ PAGE_CACHE_MASK ; do { copy = PAGE_CACHE_SIZE - pgbase ; if ( copy > len ) copy = len ; vfrom = kmap_atomic ( * pgfrom , KM_USER0 ) ; memcpy ( p , vfrom + pgbase , copy ) ; kunmap_atomic ( vfrom , KM_USER0 ) ; pgbase += copy ; if ( pgbase == PAGE_CACHE_SIZE ) { pgbase = 0 ; pgfrom ++ ; } p += copy ; } while ( ( len -= copy ) != 0 ) ; }","void _copy_from_pages ( char * p , struct page * * pages , size_t pgbase , size_t len ) { struct page * * pgfrom ; char * vfrom ; size_t copy ; pgfrom = pages + ( pgbase >> PAGE_CACHE_SHIFT ) ; pgbase &= ~ PAGE_CACHE_MASK ; do { copy = PAGE_CACHE_SIZE - pgbase ; if ( copy > len ) copy = len ; vfrom = kmap_atomic ( * pgfrom , KM_USER0 ) ; memcpy ( p , vfrom + pgbase , copy ) ; kunmap_atomic ( vfrom , KM_USER0 ) ; pgbase += copy ; if ( pgbase == PAGE_CACHE_SIZE ) { pgbase = 0 ; pgfrom ++ ; } p += copy ; } while ( ( len -= copy ) != 0 ) ; }" 754,"CWE-399 sctp_disposition_t sctp_sf_do_asconf_ack ( struct net * net , const struct sctp_endpoint * ep , const struct sctp_association * asoc , const sctp_subtype_t type , void * arg , sctp_cmd_seq_t * commands ) { struct sctp_chunk * asconf_ack = arg ; struct sctp_chunk * last_asconf = asoc -> addip_last_asconf ; struct sctp_chunk * abort ; struct sctp_paramhdr * err_param = NULL ; sctp_addiphdr_t * addip_hdr ; __u32 sent_serial , rcvd_serial ; if ( ! sctp_vtag_verify ( asconf_ack , asoc ) ) { sctp_add_cmd_sf ( commands , SCTP_CMD_REPORT_BAD_TAG , SCTP_NULL ( ) ) ; return sctp_sf_pdiscard ( net , ep , asoc , type , arg , commands ) ; } if ( ! net -> sctp . addip_noauth && ! asconf_ack -> auth ) return sctp_sf_discard_chunk ( net , ep , asoc , type , arg , commands ) ; if ( ! sctp_chunk_length_valid ( asconf_ack , sizeof ( sctp_addip_chunk_t ) ) ) return sctp_sf_violation_chunklen ( net , ep , asoc , type , arg , commands ) ; addip_hdr = ( sctp_addiphdr_t * ) asconf_ack -> skb -> data ; rcvd_serial = ntohl ( addip_hdr -> serial ) ; if ( ! sctp_verify_asconf ( asoc , ( sctp_paramhdr_t * ) addip_hdr -> params , ( void * ) asconf_ack -> chunk_end , & err_param ) ) return sctp_sf_violation_paramlen ( net , ep , asoc , type , arg , ( void * ) err_param , commands ) ; if ( last_asconf ) { addip_hdr = ( sctp_addiphdr_t * ) last_asconf -> subh . addip_hdr ; sent_serial = ntohl ( addip_hdr -> serial ) ; } else { sent_serial = asoc -> addip_serial - 1 ; } if ( ADDIP_SERIAL_gte ( rcvd_serial , sent_serial + 1 ) && ! ( asoc -> addip_last_asconf ) ) { abort = sctp_make_abort ( asoc , asconf_ack , sizeof ( sctp_errhdr_t ) ) ; if ( abort ) { sctp_init_cause ( abort , SCTP_ERROR_ASCONF_ACK , 0 ) ; sctp_add_cmd_sf ( commands , SCTP_CMD_REPLY , SCTP_CHUNK ( abort ) ) ; } sctp_add_cmd_sf ( commands , SCTP_CMD_TIMER_STOP , SCTP_TO ( SCTP_EVENT_TIMEOUT_T4_RTO ) ) ; sctp_add_cmd_sf ( commands , SCTP_CMD_DISCARD_PACKET , SCTP_NULL ( ) ) ; sctp_add_cmd_sf ( commands , SCTP_CMD_SET_SK_ERR , SCTP_ERROR ( ECONNABORTED ) ) ; sctp_add_cmd_sf ( commands , SCTP_CMD_ASSOC_FAILED , SCTP_PERR ( SCTP_ERROR_ASCONF_ACK ) ) ; SCTP_INC_STATS ( net , SCTP_MIB_ABORTEDS ) ; SCTP_DEC_STATS ( net , SCTP_MIB_CURRESTAB ) ; return SCTP_DISPOSITION_ABORT ; } if ( ( rcvd_serial == sent_serial ) && asoc -> addip_last_asconf ) { sctp_add_cmd_sf ( commands , SCTP_CMD_TIMER_STOP , SCTP_TO ( SCTP_EVENT_TIMEOUT_T4_RTO ) ) ; if ( ! sctp_process_asconf_ack ( ( struct sctp_association * ) asoc , asconf_ack ) ) { sctp_add_cmd_sf ( commands , SCTP_CMD_SEND_NEXT_ASCONF , SCTP_NULL ( ) ) ; return SCTP_DISPOSITION_CONSUME ; } abort = sctp_make_abort ( asoc , asconf_ack , sizeof ( sctp_errhdr_t ) ) ; if ( abort ) { sctp_init_cause ( abort , SCTP_ERROR_RSRC_LOW , 0 ) ; sctp_add_cmd_sf ( commands , SCTP_CMD_REPLY , SCTP_CHUNK ( abort ) ) ; } sctp_add_cmd_sf ( commands , SCTP_CMD_DISCARD_PACKET , SCTP_NULL ( ) ) ; sctp_add_cmd_sf ( commands , SCTP_CMD_SET_SK_ERR , SCTP_ERROR ( ECONNABORTED ) ) ; sctp_add_cmd_sf ( commands , SCTP_CMD_ASSOC_FAILED , SCTP_PERR ( SCTP_ERROR_ASCONF_ACK ) ) ; SCTP_INC_STATS ( net , SCTP_MIB_ABORTEDS ) ;","sctp_disposition_t sctp_sf_do_asconf_ack ( struct net * net , const struct sctp_endpoint * ep , const struct sctp_association * asoc , const sctp_subtype_t type , void * arg , sctp_cmd_seq_t * commands ) { struct sctp_chunk * asconf_ack = arg ; struct sctp_chunk * last_asconf = asoc -> addip_last_asconf ; struct sctp_chunk * abort ; struct sctp_paramhdr * err_param = NULL ; sctp_addiphdr_t * addip_hdr ; __u32 sent_serial , rcvd_serial ; if ( ! sctp_vtag_verify ( asconf_ack , asoc ) ) { sctp_add_cmd_sf ( commands , SCTP_CMD_REPORT_BAD_TAG , SCTP_NULL ( ) ) ; return sctp_sf_pdiscard ( net , ep , asoc , type , arg , commands ) ; } if ( ! net -> sctp . addip_noauth && ! asconf_ack -> auth ) return sctp_sf_discard_chunk ( net , ep , asoc , type , arg , commands ) ; if ( ! sctp_chunk_length_valid ( asconf_ack , sizeof ( sctp_addip_chunk_t ) ) ) return sctp_sf_violation_chunklen ( net , ep , asoc , type , arg , commands ) ; addip_hdr = ( sctp_addiphdr_t * ) asconf_ack -> skb -> data ; rcvd_serial = ntohl ( addip_hdr -> serial ) ; if ( ! sctp_verify_asconf ( asoc , asconf_ack , false , & err_param ) ) return sctp_sf_violation_paramlen ( net , ep , asoc , type , arg , ( void * ) err_param , commands ) ; if ( last_asconf ) { addip_hdr = ( sctp_addiphdr_t * ) last_asconf -> subh . addip_hdr ; sent_serial = ntohl ( addip_hdr -> serial ) ; } else { sent_serial = asoc -> addip_serial - 1 ; } if ( ADDIP_SERIAL_gte ( rcvd_serial , sent_serial + 1 ) && ! ( asoc -> addip_last_asconf ) ) { abort = sctp_make_abort ( asoc , asconf_ack , sizeof ( sctp_errhdr_t ) ) ; if ( abort ) { sctp_init_cause ( abort , SCTP_ERROR_ASCONF_ACK , 0 ) ; sctp_add_cmd_sf ( commands , SCTP_CMD_REPLY , SCTP_CHUNK ( abort ) ) ; } sctp_add_cmd_sf ( commands , SCTP_CMD_TIMER_STOP , SCTP_TO ( SCTP_EVENT_TIMEOUT_T4_RTO ) ) ; sctp_add_cmd_sf ( commands , SCTP_CMD_DISCARD_PACKET , SCTP_NULL ( ) ) ; sctp_add_cmd_sf ( commands , SCTP_CMD_SET_SK_ERR , SCTP_ERROR ( ECONNABORTED ) ) ; sctp_add_cmd_sf ( commands , SCTP_CMD_ASSOC_FAILED , SCTP_PERR ( SCTP_ERROR_ASCONF_ACK ) ) ; SCTP_INC_STATS ( net , SCTP_MIB_ABORTEDS ) ; SCTP_DEC_STATS ( net , SCTP_MIB_CURRESTAB ) ; return SCTP_DISPOSITION_ABORT ; } if ( ( rcvd_serial == sent_serial ) && asoc -> addip_last_asconf ) { sctp_add_cmd_sf ( commands , SCTP_CMD_TIMER_STOP , SCTP_TO ( SCTP_EVENT_TIMEOUT_T4_RTO ) ) ; if ( ! sctp_process_asconf_ack ( ( struct sctp_association * ) asoc , asconf_ack ) ) { sctp_add_cmd_sf ( commands , SCTP_CMD_SEND_NEXT_ASCONF , SCTP_NULL ( ) ) ; return SCTP_DISPOSITION_CONSUME ; } abort = sctp_make_abort ( asoc , asconf_ack , sizeof ( sctp_errhdr_t ) ) ; if ( abort ) { sctp_init_cause ( abort , SCTP_ERROR_RSRC_LOW , 0 ) ; sctp_add_cmd_sf ( commands , SCTP_CMD_REPLY , SCTP_CHUNK ( abort ) ) ; } sctp_add_cmd_sf ( commands , SCTP_CMD_DISCARD_PACKET , SCTP_NULL ( ) ) ; sctp_add_cmd_sf ( commands , SCTP_CMD_SET_SK_ERR , SCTP_ERROR ( ECONNABORTED ) ) ; sctp_add_cmd_sf ( commands , SCTP_CMD_ASSOC_FAILED , SCTP_PERR ( SCTP_ERROR_ASCONF_ACK ) ) ; SCTP_INC_STATS ( net , SCTP_MIB_ABORTEDS ) ;" 755,"CWE-369 return WAVPACK_SOFT_ERROR ; } else if ( ! ( config -> qmode & QMODE_NO_STORE_WRAPPER ) && ! WavpackAddWrapper ( wpc , & dff_chunk_header , sizeof ( DFFChunkHeader ) ) ) { error_line ( ""%s"" , WavpackGetErrorMessage ( wpc ) ) ; return WAVPACK_SOFT_ERROR ; } WavpackBigEndianToNative ( & dff_chunk_header , DFFChunkHeaderFormat ) ; if ( debug_logging_mode ) error_line ( ""chunk header indicated length = %lld"" , dff_chunk_header . ckDataSize ) ; if ( ! strncmp ( dff_chunk_header . ckID , ""FVER"" , 4 ) ) { uint32_t version ; if ( dff_chunk_header . ckDataSize != sizeof ( version ) || ! DoReadFile ( infile , & version , sizeof ( version ) , & bcount ) || bcount != sizeof ( version ) ) { error_line ( ""%s is not a valid .DFF file!"" , infilename ) ; return WAVPACK_SOFT_ERROR ; } else if ( ! ( config -> qmode & QMODE_NO_STORE_WRAPPER ) && ! WavpackAddWrapper ( wpc , & version , sizeof ( version ) ) ) { error_line ( ""%s"" , WavpackGetErrorMessage ( wpc ) ) ; return WAVPACK_SOFT_ERROR ; } WavpackBigEndianToNative ( & version , ""L"" ) ; if ( debug_logging_mode ) error_line ( ""dsdiff file version = 0x%08x"" , version ) ; } else if ( ! strncmp ( dff_chunk_header . ckID , ""PROP"" , 4 ) ) { char * prop_chunk ; if ( dff_chunk_header . ckDataSize < 4 || dff_chunk_header . ckDataSize > 1024 ) { error_line ( ""%s is not a valid .DFF file!"" , infilename ) ; return WAVPACK_SOFT_ERROR ; } if ( debug_logging_mode ) error_line ( ""got PROP chunk of %d bytes total"" , ( int ) dff_chunk_header . ckDataSize ) ; prop_chunk = malloc ( ( size_t ) dff_chunk_header . ckDataSize ) ; if ( ! DoReadFile ( infile , prop_chunk , ( uint32_t ) dff_chunk_header . ckDataSize , & bcount ) || bcount != dff_chunk_header . ckDataSize ) { error_line ( ""%s is not a valid .DFF file!"" , infilename ) ; free ( prop_chunk ) ; return WAVPACK_SOFT_ERROR ; } else if ( ! ( config -> qmode & QMODE_NO_STORE_WRAPPER ) && ! WavpackAddWrapper ( wpc , prop_chunk , ( uint32_t ) dff_chunk_header . ckDataSize ) ) { error_line ( ""%s"" , WavpackGetErrorMessage ( wpc ) ) ; free ( prop_chunk ) ; return WAVPACK_SOFT_ERROR ; } if ( ! strncmp ( prop_chunk , ""SND "" , 4 ) ) { char * cptr = prop_chunk + 4 , * eptr = prop_chunk + dff_chunk_header . ckDataSize ; uint16_t numChannels , chansSpecified , chanMask = 0 ; uint32_t sampleRate ; while ( eptr - cptr >= sizeof ( dff_chunk_header ) ) { memcpy ( & dff_chunk_header , cptr , sizeof ( dff_chunk_header ) ) ; cptr += sizeof ( dff_chunk_header ) ; WavpackBigEndianToNative ( & dff_chunk_header , DFFChunkHeaderFormat ) ; if ( dff_chunk_header . ckDataSize > 0 && dff_chunk_header . ckDataSize <= eptr - cptr ) { if ( ! strncmp ( dff_chunk_header . ckID , ""FS "" , 4 ) && dff_chunk_header . ckDataSize == 4 ) { memcpy ( & sampleRate , cptr , sizeof ( sampleRate ) ) ; WavpackBigEndianToNative ( & sampleRate , ""L"" ) ; cptr += dff_chunk_header . ckDataSize ; if ( debug_logging_mode ) error_line ( ""got sample rate of %u Hz"" , sampleRate ) ; } else if ( ! strncmp ( dff_chunk_header . ckID , ""CHNL"" , 4 ) && dff_chunk_header . ckDataSize >= 2 ) { memcpy ( & numChannels , cptr , sizeof ( numChannels ) ) ; WavpackBigEndianToNative ( & numChannels , ""S"" ) ; cptr += sizeof ( numChannels ) ; chansSpecified = ( int ) ( dff_chunk_header . ckDataSize - sizeof ( numChannels ) ) / 4 ; if ( numChannels < chansSpecified || numChannels < 1 ) { error_line ( ""%s is not a valid .DFF file!"" , infilename ) ; free ( prop_chunk ) ; return WAVPACK_SOFT_ERROR ; } while ( chansSpecified -- ) { if ( ! strncmp ( cptr , ""SLFT"" , 4 ) || ! strncmp ( cptr , ""MLFT"" , 4 ) ) chanMask |= 0x1 ; else if ( ! strncmp ( cptr , ""SRGT"" , 4 ) || ! strncmp ( cptr , ""MRGT"" , 4 ) ) chanMask |= 0x2 ; else if ( ! strncmp ( cptr , ""LS "" , 4 ) ) chanMask |= 0x10 ; else if ( ! strncmp ( cptr , ""RS "" , 4 ) ) chanMask |= 0x20 ; else if ( ! strncmp ( cptr , ""C "" , 4 ) ) chanMask |= 0x4 ; else if ( ! strncmp ( cptr , ""LFE "" , 4 ) ) chanMask |= 0x8 ; else if ( debug_logging_mode ) error_line ( ""undefined channel ID %c%c%c%c"" , cptr [ 0 ] , cptr [ 1 ] , cptr [ 2 ] , cptr [ 3 ] ) ; cptr += 4 ; } if ( debug_logging_mode ) error_line ( ""%d channels, mask = 0x%08x"" , numChannels , chanMask ) ; } else if ( ! strncmp ( dff_chunk_header . ckID , ""CMPR"" , 4 ) && dff_chunk_header . ckDataSize >= 4 ) { if ( strncmp ( cptr , ""DSD "" , 4 ) ) { error_line ( ""DSDIFF files must be uncompressed, not \\""%c%c%c%c\\""!"" , cptr [ 0 ] , cptr [ 1 ] , cptr [ 2 ] , cptr [ 3 ] ) ; free ( prop_chunk ) ; return WAVPACK_SOFT_ERROR ; } cptr += dff_chunk_header . ckDataSize ; } else { if ( debug_logging_mode ) error_line ( ""got PROP/SND chunk type \\""%c%c%c%c\\"" of %d bytes"" , dff_chunk_header . ckID [ 0 ] , dff_chunk_header . ckID [ 1 ] , dff_chunk_header . ckID [ 2 ] , dff_chunk_header . ckID [ 3 ] , dff_chunk_header . ckDataSize ) ; cptr += dff_chunk_header . ckDataSize ; } } else { error_line ( ""%s is not a valid .DFF file!"" , infilename ) ; free ( prop_chunk ) ; return WAVPACK_SOFT_ERROR ; } } if ( chanMask && ( config -> channel_mask || ( config -> qmode & QMODE_CHANS_UNASSIGNED ) ) ) { error_line ( ""this DSDIFF file already has channel order information!"" ) ; free ( prop_chunk ) ; return WAVPACK_SOFT_ERROR ; } else if ( chanMask ) config -> channel_mask = chanMask ; config -> bits_per_sample = 8 ; config -> bytes_per_sample = 1 ; config -> num_channels = numChannels ; config -> sample_rate = sampleRate / 8 ; config -> qmode |= QMODE_DSD_MSB_FIRST ; } else if ( debug_logging_mode ) error_line ( ""got unknown PROP chunk type \\""%c%c%c%c\\"" of %d bytes"" , prop_chunk [ 0 ] , prop_chunk [ 1 ] , prop_chunk [ 2 ] , prop_chunk [ 3 ] , dff_chunk_header . ckDataSize ) ; free ( prop_chunk ) ; } else if ( ! strncmp ( dff_chunk_header . ckID , ""DSD "" , 4 ) ) { total_samples = dff_chunk_header . ckDataSize / config -> num_channels ; break ; } else { int bytes_to_copy = ( int ) ( ( ( dff_chunk_header . ckDataSize ) + 1 ) & ~ ( int64_t ) 1 ) ; char * buff ; if ( bytes_to_copy < 0 || bytes_to_copy > 4194304 ) { error_line ( ""%s is not a valid .DFF file!"" , infilename ) ; return WAVPACK_SOFT_ERROR ; } buff = malloc ( bytes_to_copy ) ; if ( debug_logging_mode ) error_line ( ""extra unknown chunk \\""%c%c%c%c\\"" of %d bytes"" , dff_chunk_header . ckID [ 0 ] , dff_chunk_header . ckID [ 1 ] , dff_chunk_header . ckID [ 2 ] , dff_chunk_header . ckID [ 3 ] , dff_chunk_header . ckDataSize ) ; if ( ! DoReadFile ( infile , buff , bytes_to_copy , & bcount ) || bcount != bytes_to_copy || ( ! ( config -> qmode & QMODE_NO_STORE_WRAPPER ) && ! WavpackAddWrapper ( wpc , buff , bytes_to_copy ) ) ) { error_line ( ""%s"" , WavpackGetErrorMessage ( wpc ) ) ; free ( buff ) ; return WAVPACK_SOFT_ERROR ; } free ( buff ) ; } } if ( debug_logging_mode ) error_line ( ""setting configuration with %lld samples"" , total_samples ) ; if ( ! WavpackSetConfiguration64 ( wpc , config , total_samples , NULL ) ) { error_line ( ""%s: %s"" , infilename , WavpackGetErrorMessage ( wpc ) ) ; return WAVPACK_SOFT_ERROR ; } return WAVPACK_NO_ERROR ; }","return WAVPACK_SOFT_ERROR ; } else if ( ! ( config -> qmode & QMODE_NO_STORE_WRAPPER ) && ! WavpackAddWrapper ( wpc , & dff_chunk_header , sizeof ( DFFChunkHeader ) ) ) { error_line ( ""%s"" , WavpackGetErrorMessage ( wpc ) ) ; return WAVPACK_SOFT_ERROR ; } WavpackBigEndianToNative ( & dff_chunk_header , DFFChunkHeaderFormat ) ; if ( debug_logging_mode ) error_line ( ""chunk header indicated length = %lld"" , dff_chunk_header . ckDataSize ) ; if ( ! strncmp ( dff_chunk_header . ckID , ""FVER"" , 4 ) ) { uint32_t version ; if ( dff_chunk_header . ckDataSize != sizeof ( version ) || ! DoReadFile ( infile , & version , sizeof ( version ) , & bcount ) || bcount != sizeof ( version ) ) { error_line ( ""%s is not a valid .DFF file!"" , infilename ) ; return WAVPACK_SOFT_ERROR ; } else if ( ! ( config -> qmode & QMODE_NO_STORE_WRAPPER ) && ! WavpackAddWrapper ( wpc , & version , sizeof ( version ) ) ) { error_line ( ""%s"" , WavpackGetErrorMessage ( wpc ) ) ; return WAVPACK_SOFT_ERROR ; } WavpackBigEndianToNative ( & version , ""L"" ) ; if ( debug_logging_mode ) error_line ( ""dsdiff file version = 0x%08x"" , version ) ; } else if ( ! strncmp ( dff_chunk_header . ckID , ""PROP"" , 4 ) ) { char * prop_chunk ; if ( dff_chunk_header . ckDataSize < 4 || dff_chunk_header . ckDataSize > 1024 ) { error_line ( ""%s is not a valid .DFF file!"" , infilename ) ; return WAVPACK_SOFT_ERROR ; } if ( debug_logging_mode ) error_line ( ""got PROP chunk of %d bytes total"" , ( int ) dff_chunk_header . ckDataSize ) ; prop_chunk = malloc ( ( size_t ) dff_chunk_header . ckDataSize ) ; if ( ! DoReadFile ( infile , prop_chunk , ( uint32_t ) dff_chunk_header . ckDataSize , & bcount ) || bcount != dff_chunk_header . ckDataSize ) { error_line ( ""%s is not a valid .DFF file!"" , infilename ) ; free ( prop_chunk ) ; return WAVPACK_SOFT_ERROR ; } else if ( ! ( config -> qmode & QMODE_NO_STORE_WRAPPER ) && ! WavpackAddWrapper ( wpc , prop_chunk , ( uint32_t ) dff_chunk_header . ckDataSize ) ) { error_line ( ""%s"" , WavpackGetErrorMessage ( wpc ) ) ; free ( prop_chunk ) ; return WAVPACK_SOFT_ERROR ; } if ( ! strncmp ( prop_chunk , ""SND "" , 4 ) ) { char * cptr = prop_chunk + 4 , * eptr = prop_chunk + dff_chunk_header . ckDataSize ; uint16_t numChannels = 0 , chansSpecified , chanMask = 0 ; uint32_t sampleRate ; while ( eptr - cptr >= sizeof ( dff_chunk_header ) ) { memcpy ( & dff_chunk_header , cptr , sizeof ( dff_chunk_header ) ) ; cptr += sizeof ( dff_chunk_header ) ; WavpackBigEndianToNative ( & dff_chunk_header , DFFChunkHeaderFormat ) ; if ( dff_chunk_header . ckDataSize > 0 && dff_chunk_header . ckDataSize <= eptr - cptr ) { if ( ! strncmp ( dff_chunk_header . ckID , ""FS "" , 4 ) && dff_chunk_header . ckDataSize == 4 ) { memcpy ( & sampleRate , cptr , sizeof ( sampleRate ) ) ; WavpackBigEndianToNative ( & sampleRate , ""L"" ) ; cptr += dff_chunk_header . ckDataSize ; if ( debug_logging_mode ) error_line ( ""got sample rate of %u Hz"" , sampleRate ) ; } else if ( ! strncmp ( dff_chunk_header . ckID , ""CHNL"" , 4 ) && dff_chunk_header . ckDataSize >= 2 ) { memcpy ( & numChannels , cptr , sizeof ( numChannels ) ) ; WavpackBigEndianToNative ( & numChannels , ""S"" ) ; cptr += sizeof ( numChannels ) ; chansSpecified = ( int ) ( dff_chunk_header . ckDataSize - sizeof ( numChannels ) ) / 4 ; if ( numChannels < chansSpecified || numChannels < 1 || numChannels > 256 ) { error_line ( ""%s is not a valid .DFF file!"" , infilename ) ; free ( prop_chunk ) ; return WAVPACK_SOFT_ERROR ; } while ( chansSpecified -- ) { if ( ! strncmp ( cptr , ""SLFT"" , 4 ) || ! strncmp ( cptr , ""MLFT"" , 4 ) ) chanMask |= 0x1 ; else if ( ! strncmp ( cptr , ""SRGT"" , 4 ) || ! strncmp ( cptr , ""MRGT"" , 4 ) ) chanMask |= 0x2 ; else if ( ! strncmp ( cptr , ""LS "" , 4 ) ) chanMask |= 0x10 ; else if ( ! strncmp ( cptr , ""RS "" , 4 ) ) chanMask |= 0x20 ; else if ( ! strncmp ( cptr , ""C "" , 4 ) ) chanMask |= 0x4 ; else if ( ! strncmp ( cptr , ""LFE "" , 4 ) ) chanMask |= 0x8 ; else if ( debug_logging_mode ) error_line ( ""undefined channel ID %c%c%c%c"" , cptr [ 0 ] , cptr [ 1 ] , cptr [ 2 ] , cptr [ 3 ] ) ; cptr += 4 ; } if ( debug_logging_mode ) error_line ( ""%d channels, mask = 0x%08x"" , numChannels , chanMask ) ; } else if ( ! strncmp ( dff_chunk_header . ckID , ""CMPR"" , 4 ) && dff_chunk_header . ckDataSize >= 4 ) { if ( strncmp ( cptr , ""DSD "" , 4 ) ) { error_line ( ""DSDIFF files must be uncompressed, not \\""%c%c%c%c\\""!"" , cptr [ 0 ] , cptr [ 1 ] , cptr [ 2 ] , cptr [ 3 ] ) ; free ( prop_chunk ) ; return WAVPACK_SOFT_ERROR ; } cptr += dff_chunk_header . ckDataSize ; } else { if ( debug_logging_mode ) error_line ( ""got PROP/SND chunk type \\""%c%c%c%c\\"" of %d bytes"" , dff_chunk_header . ckID [ 0 ] , dff_chunk_header . ckID [ 1 ] , dff_chunk_header . ckID [ 2 ] , dff_chunk_header . ckID [ 3 ] , dff_chunk_header . ckDataSize ) ; cptr += dff_chunk_header . ckDataSize ; } } else { error_line ( ""%s is not a valid .DFF file!"" , infilename ) ; free ( prop_chunk ) ; return WAVPACK_SOFT_ERROR ; } } if ( chanMask && ( config -> channel_mask || ( config -> qmode & QMODE_CHANS_UNASSIGNED ) ) ) { error_line ( ""this DSDIFF file already has channel order information!"" ) ; free ( prop_chunk ) ; return WAVPACK_SOFT_ERROR ; } else if ( chanMask ) config -> channel_mask = chanMask ; config -> bits_per_sample = 8 ; config -> bytes_per_sample = 1 ; config -> num_channels = numChannels ; config -> sample_rate = sampleRate / 8 ; config -> qmode |= QMODE_DSD_MSB_FIRST ; } else if ( debug_logging_mode ) error_line ( ""got unknown PROP chunk type \\""%c%c%c%c\\"" of %d bytes"" , prop_chunk [ 0 ] , prop_chunk [ 1 ] , prop_chunk [ 2 ] , prop_chunk [ 3 ] , dff_chunk_header . ckDataSize ) ; free ( prop_chunk ) ; } else if ( ! strncmp ( dff_chunk_header . ckID , ""DSD "" , 4 ) ) { if ( ! config -> num_channels ) { error_line ( ""%s is not a valid .DFF file!"" , infilename ) ; return WAVPACK_SOFT_ERROR ; } total_samples = dff_chunk_header . ckDataSize / config -> num_channels ; break ; } else { int bytes_to_copy = ( int ) ( ( ( dff_chunk_header . ckDataSize ) + 1 ) & ~ ( int64_t ) 1 ) ; char * buff ; if ( bytes_to_copy < 0 || bytes_to_copy > 4194304 ) { error_line ( ""%s is not a valid .DFF file!"" , infilename ) ; return WAVPACK_SOFT_ERROR ; } buff = malloc ( bytes_to_copy ) ; if ( debug_logging_mode ) error_line ( ""extra unknown chunk \\""%c%c%c%c\\"" of %d bytes"" , dff_chunk_header . ckID [ 0 ] , dff_chunk_header . ckID [ 1 ] , dff_chunk_header . ckID [ 2 ] , dff_chunk_header . ckID [ 3 ] , dff_chunk_header . ckDataSize ) ; if ( ! DoReadFile ( infile , buff , bytes_to_copy , & bcount ) || bcount != bytes_to_copy || ( ! ( config -> qmode & QMODE_NO_STORE_WRAPPER ) && ! WavpackAddWrapper ( wpc , buff , bytes_to_copy ) ) ) { error_line ( ""%s"" , WavpackGetErrorMessage ( wpc ) ) ; free ( buff ) ; return WAVPACK_SOFT_ERROR ; } free ( buff ) ; } } if ( debug_logging_mode ) error_line ( ""setting configuration with %lld samples"" , total_samples ) ; if ( ! WavpackSetConfiguration64 ( wpc , config , total_samples , NULL ) ) { error_line ( ""%s: %s"" , infilename , WavpackGetErrorMessage ( wpc ) ) ; return WAVPACK_SOFT_ERROR ; } return WAVPACK_NO_ERROR ; }" 756,"CWE-119 static RList * relocs ( RBinFile * arch ) { struct r_bin_bflt_obj * obj = ( struct r_bin_bflt_obj * ) arch -> o -> bin_obj ; RList * list = r_list_newf ( ( RListFree ) free ) ; int i , len , n_got , amount ; if ( ! list || ! obj ) { r_list_free ( list ) ; return NULL ; } if ( obj -> hdr -> flags & FLAT_FLAG_GOTPIC ) { n_got = get_ngot_entries ( obj ) ; if ( n_got ) { amount = n_got * sizeof ( ut32 ) ; if ( amount < n_got || amount > UT32_MAX ) { goto out_error ; } struct reloc_struct_t * got_table = calloc ( 1 , n_got * sizeof ( ut32 ) ) ; if ( got_table ) { ut32 offset = 0 ; for ( i = 0 ; i < n_got ; offset += 4 , i ++ ) { ut32 got_entry ; if ( obj -> hdr -> data_start + offset + 4 > obj -> size || obj -> hdr -> data_start + offset + 4 < offset ) { break ; } len = r_buf_read_at ( obj -> b , obj -> hdr -> data_start + offset , ( ut8 * ) & got_entry , sizeof ( ut32 ) ) ; if ( ! VALID_GOT_ENTRY ( got_entry ) || len != sizeof ( ut32 ) ) { break ; } got_table [ i ] . addr_to_patch = got_entry ; got_table [ i ] . data_offset = got_entry + BFLT_HDR_SIZE ; } obj -> n_got = n_got ; obj -> got_table = got_table ; } } } if ( obj -> hdr -> reloc_count > 0 ) { int n_reloc = obj -> hdr -> reloc_count ; amount = n_reloc * sizeof ( struct reloc_struct_t ) ; if ( amount < n_reloc || amount > UT32_MAX ) { goto out_error ; } struct reloc_struct_t * reloc_table = calloc ( 1 , amount + 1 ) ; if ( ! reloc_table ) { goto out_error ; } amount = n_reloc * sizeof ( ut32 ) ; if ( amount < n_reloc || amount > UT32_MAX ) { free ( reloc_table ) ; goto out_error ; } ut32 * reloc_pointer_table = calloc ( 1 , amount + 1 ) ; if ( ! reloc_pointer_table ) { free ( reloc_table ) ; goto out_error ; } if ( obj -> hdr -> reloc_start + amount > obj -> size || obj -> hdr -> reloc_start + amount < amount ) { free ( reloc_table ) ; free ( reloc_pointer_table ) ; goto out_error ; } len = r_buf_read_at ( obj -> b , obj -> hdr -> reloc_start , ( ut8 * ) reloc_pointer_table , amount ) ; if ( len != amount ) {","static RList * relocs ( RBinFile * arch ) { struct r_bin_bflt_obj * obj = ( struct r_bin_bflt_obj * ) arch -> o -> bin_obj ; RList * list = r_list_newf ( ( RListFree ) free ) ; int i , len , n_got , amount ; if ( ! list || ! obj ) { r_list_free ( list ) ; return NULL ; } if ( obj -> hdr -> flags & FLAT_FLAG_GOTPIC ) { n_got = get_ngot_entries ( obj ) ; if ( n_got ) { amount = n_got * sizeof ( ut32 ) ; if ( amount < n_got || amount > UT32_MAX ) { goto out_error ; } struct reloc_struct_t * got_table = calloc ( 1 , n_got * sizeof ( struct reloc_struct_t ) ) ; if ( got_table ) { ut32 offset = 0 ; for ( i = 0 ; i < n_got ; offset += 4 , i ++ ) { ut32 got_entry ; if ( obj -> hdr -> data_start + offset + 4 > obj -> size || obj -> hdr -> data_start + offset + 4 < offset ) { break ; } len = r_buf_read_at ( obj -> b , obj -> hdr -> data_start + offset , ( ut8 * ) & got_entry , sizeof ( ut32 ) ) ; if ( ! VALID_GOT_ENTRY ( got_entry ) || len != sizeof ( ut32 ) ) { break ; } got_table [ i ] . addr_to_patch = got_entry ; got_table [ i ] . data_offset = got_entry + BFLT_HDR_SIZE ; } obj -> n_got = n_got ; obj -> got_table = got_table ; } } } if ( obj -> hdr -> reloc_count > 0 ) { int n_reloc = obj -> hdr -> reloc_count ; amount = n_reloc * sizeof ( struct reloc_struct_t ) ; if ( amount < n_reloc || amount > UT32_MAX ) { goto out_error ; } struct reloc_struct_t * reloc_table = calloc ( 1 , amount + 1 ) ; if ( ! reloc_table ) { goto out_error ; } amount = n_reloc * sizeof ( ut32 ) ; if ( amount < n_reloc || amount > UT32_MAX ) { free ( reloc_table ) ; goto out_error ; } ut32 * reloc_pointer_table = calloc ( 1 , amount + 1 ) ; if ( ! reloc_pointer_table ) { free ( reloc_table ) ; goto out_error ; } if ( obj -> hdr -> reloc_start + amount > obj -> size || obj -> hdr -> reloc_start + amount < amount ) { free ( reloc_table ) ; free ( reloc_pointer_table ) ; goto out_error ; } len = r_buf_read_at ( obj -> b , obj -> hdr -> reloc_start , ( ut8 * ) reloc_pointer_table , amount ) ; if ( len != amount ) {" 757,"CWE-20 int rds_recvmsg ( struct kiocb * iocb , struct socket * sock , struct msghdr * msg , size_t size , int msg_flags ) { struct sock * sk = sock -> sk ; struct rds_sock * rs = rds_sk_to_rs ( sk ) ; long timeo ; int ret = 0 , nonblock = msg_flags & MSG_DONTWAIT ; struct sockaddr_in * sin ; struct rds_incoming * inc = NULL ; timeo = sock_rcvtimeo ( sk , nonblock ) ; rdsdebug ( ""size %zu flags 0x%x timeo %ld\\n"" , size , msg_flags , timeo ) ; msg -> msg_namelen = 0 ; if ( msg_flags & MSG_OOB ) goto out ; while ( 1 ) { if ( ! list_empty ( & rs -> rs_notify_queue ) ) { ret = rds_notify_queue_get ( rs , msg ) ; break ; } if ( rs -> rs_cong_notify ) { ret = rds_notify_cong ( rs , msg ) ; break ; } if ( ! rds_next_incoming ( rs , & inc ) ) { if ( nonblock ) { ret = - EAGAIN ; break ; } timeo = wait_event_interruptible_timeout ( * sk_sleep ( sk ) , ( ! list_empty ( & rs -> rs_notify_queue ) || rs -> rs_cong_notify || rds_next_incoming ( rs , & inc ) ) , timeo ) ; rdsdebug ( ""recvmsg woke inc %p timeo %ld\\n"" , inc , timeo ) ; if ( timeo > 0 || timeo == MAX_SCHEDULE_TIMEOUT ) continue ; ret = timeo ; if ( ret == 0 ) ret = - ETIMEDOUT ; break ; } rdsdebug ( ""copying inc %p from %pI4:%u to user\\n"" , inc , & inc -> i_conn -> c_faddr , ntohs ( inc -> i_hdr . h_sport ) ) ; ret = inc -> i_conn -> c_trans -> inc_copy_to_user ( inc , msg -> msg_iov , size ) ; if ( ret < 0 ) break ; if ( ! rds_still_queued ( rs , inc , ! ( msg_flags & MSG_PEEK ) ) ) { rds_inc_put ( inc ) ; inc = NULL ; rds_stats_inc ( s_recv_deliver_raced ) ; continue ; } if ( ret < be32_to_cpu ( inc -> i_hdr . h_len ) ) { if ( msg_flags & MSG_TRUNC ) ret = be32_to_cpu ( inc -> i_hdr . h_len ) ; msg -> msg_flags |= MSG_TRUNC ; } if ( rds_cmsg_recv ( inc , msg ) ) { ret = - EFAULT ; goto out ;","int rds_recvmsg ( struct kiocb * iocb , struct socket * sock , struct msghdr * msg , size_t size , int msg_flags ) { struct sock * sk = sock -> sk ; struct rds_sock * rs = rds_sk_to_rs ( sk ) ; long timeo ; int ret = 0 , nonblock = msg_flags & MSG_DONTWAIT ; struct sockaddr_in * sin ; struct rds_incoming * inc = NULL ; timeo = sock_rcvtimeo ( sk , nonblock ) ; rdsdebug ( ""size %zu flags 0x%x timeo %ld\\n"" , size , msg_flags , timeo ) ; if ( msg_flags & MSG_OOB ) goto out ; while ( 1 ) { if ( ! list_empty ( & rs -> rs_notify_queue ) ) { ret = rds_notify_queue_get ( rs , msg ) ; break ; } if ( rs -> rs_cong_notify ) { ret = rds_notify_cong ( rs , msg ) ; break ; } if ( ! rds_next_incoming ( rs , & inc ) ) { if ( nonblock ) { ret = - EAGAIN ; break ; } timeo = wait_event_interruptible_timeout ( * sk_sleep ( sk ) , ( ! list_empty ( & rs -> rs_notify_queue ) || rs -> rs_cong_notify || rds_next_incoming ( rs , & inc ) ) , timeo ) ; rdsdebug ( ""recvmsg woke inc %p timeo %ld\\n"" , inc , timeo ) ; if ( timeo > 0 || timeo == MAX_SCHEDULE_TIMEOUT ) continue ; ret = timeo ; if ( ret == 0 ) ret = - ETIMEDOUT ; break ; } rdsdebug ( ""copying inc %p from %pI4:%u to user\\n"" , inc , & inc -> i_conn -> c_faddr , ntohs ( inc -> i_hdr . h_sport ) ) ; ret = inc -> i_conn -> c_trans -> inc_copy_to_user ( inc , msg -> msg_iov , size ) ; if ( ret < 0 ) break ; if ( ! rds_still_queued ( rs , inc , ! ( msg_flags & MSG_PEEK ) ) ) { rds_inc_put ( inc ) ; inc = NULL ; rds_stats_inc ( s_recv_deliver_raced ) ; continue ; } if ( ret < be32_to_cpu ( inc -> i_hdr . h_len ) ) { if ( msg_flags & MSG_TRUNC ) ret = be32_to_cpu ( inc -> i_hdr . h_len ) ; msg -> msg_flags |= MSG_TRUNC ; } if ( rds_cmsg_recv ( inc , msg ) ) { ret = - EFAULT ; goto out ;" 758,"CWE-264 SYSCALL_DEFINE5 ( osf_getsysinfo , unsigned long , op , void __user * , buffer , unsigned long , nbytes , int __user * , start , void __user * , arg ) { unsigned long w ; struct percpu_struct * cpu ; switch ( op ) { case GSI_IEEE_FP_CONTROL : w = current_thread_info ( ) -> ieee_state & IEEE_SW_MASK ; w = swcr_update_status ( w , rdfpcr ( ) ) ; if ( put_user ( w , ( unsigned long __user * ) buffer ) ) return - EFAULT ; return 0 ; case GSI_IEEE_STATE_AT_SIGNAL : break ; case GSI_UACPROC : if ( nbytes < sizeof ( unsigned int ) ) return - EINVAL ; w = ( current_thread_info ( ) -> flags >> UAC_SHIFT ) & UAC_BITMASK ; if ( put_user ( w , ( unsigned int __user * ) buffer ) ) return - EFAULT ; return 1 ; case GSI_PROC_TYPE : if ( nbytes < sizeof ( unsigned long ) ) return - EINVAL ; cpu = ( struct percpu_struct * ) ( ( char * ) hwrpb + hwrpb -> processor_offset ) ; w = cpu -> type ; if ( put_user ( w , ( unsigned long __user * ) buffer ) ) return - EFAULT ; return 1 ; case GSI_GET_HWRPB : if ( nbytes < sizeof ( * hwrpb ) ) return - EINVAL ; if ( copy_to_user ( buffer , hwrpb , nbytes ) != 0 ) return - EFAULT ; return 1 ; default : break ; } return - EOPNOTSUPP ; }","SYSCALL_DEFINE5 ( osf_getsysinfo , unsigned long , op , void __user * , buffer , unsigned long , nbytes , int __user * , start , void __user * , arg ) { unsigned long w ; struct percpu_struct * cpu ; switch ( op ) { case GSI_IEEE_FP_CONTROL : w = current_thread_info ( ) -> ieee_state & IEEE_SW_MASK ; w = swcr_update_status ( w , rdfpcr ( ) ) ; if ( put_user ( w , ( unsigned long __user * ) buffer ) ) return - EFAULT ; return 0 ; case GSI_IEEE_STATE_AT_SIGNAL : break ; case GSI_UACPROC : if ( nbytes < sizeof ( unsigned int ) ) return - EINVAL ; w = ( current_thread_info ( ) -> flags >> UAC_SHIFT ) & UAC_BITMASK ; if ( put_user ( w , ( unsigned int __user * ) buffer ) ) return - EFAULT ; return 1 ; case GSI_PROC_TYPE : if ( nbytes < sizeof ( unsigned long ) ) return - EINVAL ; cpu = ( struct percpu_struct * ) ( ( char * ) hwrpb + hwrpb -> processor_offset ) ; w = cpu -> type ; if ( put_user ( w , ( unsigned long __user * ) buffer ) ) return - EFAULT ; return 1 ; case GSI_GET_HWRPB : if ( nbytes > sizeof ( * hwrpb ) ) return - EINVAL ; if ( copy_to_user ( buffer , hwrpb , nbytes ) != 0 ) return - EFAULT ; return 1 ; default : break ; } return - EOPNOTSUPP ; }" 759,"CWE-399 static struct page * alloc_huge_page ( struct vm_area_struct * vma , unsigned long addr , int avoid_reserve ) { struct hstate * h = hstate_vma ( vma ) ; struct page * page ; struct address_space * mapping = vma -> vm_file -> f_mapping ; struct inode * inode = mapping -> host ; long chg ; chg = vma_needs_reservation ( h , vma , addr ) ; if ( chg < 0 ) return ERR_PTR ( - VM_FAULT_OOM ) ; if ( chg ) if ( hugetlb_get_quota ( inode -> i_mapping , chg ) ) return ERR_PTR ( - VM_FAULT_SIGBUS ) ; spin_lock ( & hugetlb_lock ) ; page = dequeue_huge_page_vma ( h , vma , addr , avoid_reserve ) ; spin_unlock ( & hugetlb_lock ) ; if ( ! page ) { page = alloc_buddy_huge_page ( h , NUMA_NO_NODE ) ; if ( ! page ) { hugetlb_put_quota ( inode -> i_mapping , chg ) ; return ERR_PTR ( - VM_FAULT_SIGBUS ) ; } } set_page_private ( page , ( unsigned long ) mapping ) ; vma_commit_reservation ( h , vma , addr ) ; return page ; }","static struct page * alloc_huge_page ( struct vm_area_struct * vma , unsigned long addr , int avoid_reserve ) { struct hugepage_subpool * spool = subpool_vma ( vma ) ; struct hstate * h = hstate_vma ( vma ) ; struct page * page ; long chg ; chg = vma_needs_reservation ( h , vma , addr ) ; if ( chg < 0 ) return ERR_PTR ( - VM_FAULT_OOM ) ; if ( chg ) if ( hugepage_subpool_get_pages ( spool , chg ) ) return ERR_PTR ( - VM_FAULT_SIGBUS ) ; spin_lock ( & hugetlb_lock ) ; page = dequeue_huge_page_vma ( h , vma , addr , avoid_reserve ) ; spin_unlock ( & hugetlb_lock ) ; if ( ! page ) { page = alloc_buddy_huge_page ( h , NUMA_NO_NODE ) ; if ( ! page ) { hugepage_subpool_put_pages ( spool , chg ) ; return ERR_PTR ( - VM_FAULT_SIGBUS ) ; } } set_page_private ( page , ( unsigned long ) spool ) ; vma_commit_reservation ( h , vma , addr ) ; return page ; }" 760,"CWE-416 int snd_ctl_replace ( struct snd_card * card , struct snd_kcontrol * kcontrol , bool add_on_replace ) { struct snd_ctl_elem_id id ; unsigned int idx ; struct snd_kcontrol * old ; int ret ; if ( ! kcontrol ) return - EINVAL ; if ( snd_BUG_ON ( ! card || ! kcontrol -> info ) ) { ret = - EINVAL ; goto error ; } id = kcontrol -> id ; down_write ( & card -> controls_rwsem ) ; old = snd_ctl_find_id ( card , & id ) ; if ( ! old ) { if ( add_on_replace ) goto add ; up_write ( & card -> controls_rwsem ) ; ret = - EINVAL ; goto error ; } ret = snd_ctl_remove ( card , old ) ; if ( ret < 0 ) { up_write ( & card -> controls_rwsem ) ; goto error ; } add : if ( snd_ctl_find_hole ( card , kcontrol -> count ) < 0 ) { up_write ( & card -> controls_rwsem ) ; ret = - ENOMEM ; goto error ; } list_add_tail ( & kcontrol -> list , & card -> controls ) ; card -> controls_count += kcontrol -> count ; kcontrol -> id . numid = card -> last_numid + 1 ; card -> last_numid += kcontrol -> count ; up_write ( & card -> controls_rwsem ) ; for ( idx = 0 ; idx < kcontrol -> count ; idx ++ , id . index ++ , id . numid ++ ) snd_ctl_notify ( card , SNDRV_CTL_EVENT_MASK_ADD , & id ) ; return 0 ; error : snd_ctl_free_one ( kcontrol ) ; return ret ; }","int snd_ctl_replace ( struct snd_card * card , struct snd_kcontrol * kcontrol , bool add_on_replace ) { struct snd_ctl_elem_id id ; unsigned int count ; unsigned int idx ; struct snd_kcontrol * old ; int ret ; if ( ! kcontrol ) return - EINVAL ; if ( snd_BUG_ON ( ! card || ! kcontrol -> info ) ) { ret = - EINVAL ; goto error ; } id = kcontrol -> id ; down_write ( & card -> controls_rwsem ) ; old = snd_ctl_find_id ( card , & id ) ; if ( ! old ) { if ( add_on_replace ) goto add ; up_write ( & card -> controls_rwsem ) ; ret = - EINVAL ; goto error ; } ret = snd_ctl_remove ( card , old ) ; if ( ret < 0 ) { up_write ( & card -> controls_rwsem ) ; goto error ; } add : if ( snd_ctl_find_hole ( card , kcontrol -> count ) < 0 ) { up_write ( & card -> controls_rwsem ) ; ret = - ENOMEM ; goto error ; } list_add_tail ( & kcontrol -> list , & card -> controls ) ; card -> controls_count += kcontrol -> count ; kcontrol -> id . numid = card -> last_numid + 1 ; card -> last_numid += kcontrol -> count ; count = kcontrol -> count ; up_write ( & card -> controls_rwsem ) ; for ( idx = 0 ; idx < count ; idx ++ , id . index ++ , id . numid ++ ) snd_ctl_notify ( card , SNDRV_CTL_EVENT_MASK_ADD , & id ) ; return 0 ; error : snd_ctl_free_one ( kcontrol ) ; return ret ; }" 761,"CWE-284 int main ( int argc , char * * argv ) { MYSQL mysql ; option_string * eptr ; MY_INIT ( argv [ 0 ] ) ; my_getopt_use_args_separator = TRUE ; if ( load_defaults ( ""my"" , load_default_groups , & argc , & argv ) ) { my_end ( 0 ) ; exit ( 1 ) ; } my_getopt_use_args_separator = FALSE ; defaults_argv = argv ; if ( get_options ( & argc , & argv ) ) { free_defaults ( defaults_argv ) ; my_end ( 0 ) ; exit ( 1 ) ; } if ( auto_generate_sql ) srandom ( ( uint ) time ( NULL ) ) ; delimiter_length = strlen ( delimiter ) ; if ( argc > 2 ) { fprintf ( stderr , ""%s: Too many arguments\\n"" , my_progname ) ; free_defaults ( defaults_argv ) ; my_end ( 0 ) ; exit ( 1 ) ; } mysql_init ( & mysql ) ; if ( opt_compress ) mysql_options ( & mysql , MYSQL_OPT_COMPRESS , NullS ) ; # ifdef HAVE_OPENSSL if ( opt_use_ssl ) { mysql_ssl_set ( & mysql , opt_ssl_key , opt_ssl_cert , opt_ssl_ca , opt_ssl_capath , opt_ssl_cipher ) ; mysql_options ( & mysql , MYSQL_OPT_SSL_CRL , opt_ssl_crl ) ; mysql_options ( & mysql , MYSQL_OPT_SSL_CRLPATH , opt_ssl_crlpath ) ; } # endif if ( opt_protocol ) mysql_options ( & mysql , MYSQL_OPT_PROTOCOL , ( char * ) & opt_protocol ) ; # if defined ( _WIN32 ) && ! defined ( EMBEDDED_LIBRARY ) if ( shared_memory_base_name ) mysql_options ( & mysql , MYSQL_SHARED_MEMORY_BASE_NAME , shared_memory_base_name ) ; # endif mysql_options ( & mysql , MYSQL_SET_CHARSET_NAME , default_charset ) ; if ( opt_plugin_dir && * opt_plugin_dir ) mysql_options ( & mysql , MYSQL_PLUGIN_DIR , opt_plugin_dir ) ; if ( opt_default_auth && * opt_default_auth ) mysql_options ( & mysql , MYSQL_DEFAULT_AUTH , opt_default_auth ) ; mysql_options ( & mysql , MYSQL_OPT_CONNECT_ATTR_RESET , 0 ) ; mysql_options4 ( & mysql , MYSQL_OPT_CONNECT_ATTR_ADD , ""program_name"" , ""mysqlslap"" ) ; if ( using_opt_enable_cleartext_plugin ) mysql_options ( & mysql , MYSQL_ENABLE_CLEARTEXT_PLUGIN , ( char * ) & opt_enable_cleartext_plugin ) ; if ( ! opt_only_print ) { if ( ! ( mysql_real_connect ( & mysql , host , user , opt_password , NULL , opt_mysql_port , opt_mysql_unix_port , connect_flags ) ) ) { fprintf ( stderr , ""%s: Error when connecting to server: %s\\n"" , my_progname , mysql_error ( & mysql ) ) ; free_defaults ( defaults_argv ) ; my_end ( 0 ) ; exit ( 1 ) ; } } pthread_mutex_init ( & counter_mutex , NULL ) ; pthread_cond_init ( & count_threshhold , NULL ) ; pthread_mutex_init ( & sleeper_mutex , NULL ) ; pthread_cond_init ( & sleep_threshhold , NULL ) ; eptr = engine_options ; do { uint * current ; if ( verbose >= 2 ) printf ( ""Starting Concurrency Test\\n"" ) ; if ( * concurrency ) { for ( current = concurrency ; current && * current ; current ++ ) concurrency_loop ( & mysql , * current , eptr ) ; } else { uint infinite = 1 ; do { concurrency_loop ( & mysql , infinite , eptr ) ;","int main ( int argc , char * * argv ) { MYSQL mysql ; option_string * eptr ; MY_INIT ( argv [ 0 ] ) ; my_getopt_use_args_separator = TRUE ; if ( load_defaults ( ""my"" , load_default_groups , & argc , & argv ) ) { my_end ( 0 ) ; exit ( 1 ) ; } my_getopt_use_args_separator = FALSE ; defaults_argv = argv ; if ( get_options ( & argc , & argv ) ) { free_defaults ( defaults_argv ) ; my_end ( 0 ) ; exit ( 1 ) ; } if ( auto_generate_sql ) srandom ( ( uint ) time ( NULL ) ) ; delimiter_length = strlen ( delimiter ) ; if ( argc > 2 ) { fprintf ( stderr , ""%s: Too many arguments\\n"" , my_progname ) ; free_defaults ( defaults_argv ) ; my_end ( 0 ) ; exit ( 1 ) ; } mysql_init ( & mysql ) ; if ( opt_compress ) mysql_options ( & mysql , MYSQL_OPT_COMPRESS , NullS ) ; SSL_SET_OPTIONS ( & mysql ) ; if ( opt_protocol ) mysql_options ( & mysql , MYSQL_OPT_PROTOCOL , ( char * ) & opt_protocol ) ; # if defined ( _WIN32 ) && ! defined ( EMBEDDED_LIBRARY ) if ( shared_memory_base_name ) mysql_options ( & mysql , MYSQL_SHARED_MEMORY_BASE_NAME , shared_memory_base_name ) ; # endif mysql_options ( & mysql , MYSQL_SET_CHARSET_NAME , default_charset ) ; if ( opt_plugin_dir && * opt_plugin_dir ) mysql_options ( & mysql , MYSQL_PLUGIN_DIR , opt_plugin_dir ) ; if ( opt_default_auth && * opt_default_auth ) mysql_options ( & mysql , MYSQL_DEFAULT_AUTH , opt_default_auth ) ; mysql_options ( & mysql , MYSQL_OPT_CONNECT_ATTR_RESET , 0 ) ; mysql_options4 ( & mysql , MYSQL_OPT_CONNECT_ATTR_ADD , ""program_name"" , ""mysqlslap"" ) ; if ( using_opt_enable_cleartext_plugin ) mysql_options ( & mysql , MYSQL_ENABLE_CLEARTEXT_PLUGIN , ( char * ) & opt_enable_cleartext_plugin ) ; if ( ! opt_only_print ) { if ( ! ( mysql_real_connect ( & mysql , host , user , opt_password , NULL , opt_mysql_port , opt_mysql_unix_port , connect_flags ) ) ) { fprintf ( stderr , ""%s: Error when connecting to server: %s\\n"" , my_progname , mysql_error ( & mysql ) ) ; free_defaults ( defaults_argv ) ; my_end ( 0 ) ; exit ( 1 ) ; } } pthread_mutex_init ( & counter_mutex , NULL ) ; pthread_cond_init ( & count_threshhold , NULL ) ; pthread_mutex_init ( & sleeper_mutex , NULL ) ; pthread_cond_init ( & sleep_threshhold , NULL ) ; eptr = engine_options ; do { uint * current ; if ( verbose >= 2 ) printf ( ""Starting Concurrency Test\\n"" ) ; if ( * concurrency ) { for ( current = concurrency ; current && * current ; current ++ ) concurrency_loop ( & mysql , * current , eptr ) ; } else { uint infinite = 1 ; do { concurrency_loop ( & mysql , infinite , eptr ) ;" 762,"CWE-20 int ext4_orphan_del ( handle_t * handle , struct inode * inode ) { struct list_head * prev ; struct ext4_inode_info * ei = EXT4_I ( inode ) ; struct ext4_sb_info * sbi ; __u32 ino_next ; struct ext4_iloc iloc ; int err = 0 ; if ( handle && ! ext4_handle_valid ( handle ) ) return 0 ; mutex_lock ( & EXT4_SB ( inode -> i_sb ) -> s_orphan_lock ) ; if ( list_empty ( & ei -> i_orphan ) ) goto out ; ino_next = NEXT_ORPHAN ( inode ) ; prev = ei -> i_orphan . prev ; sbi = EXT4_SB ( inode -> i_sb ) ; jbd_debug ( 4 , ""remove inode %lu from orphan list\\n"" , inode -> i_ino ) ; list_del_init ( & ei -> i_orphan ) ; if ( sbi -> s_journal && ! handle ) goto out ; err = ext4_reserve_inode_write ( handle , inode , & iloc ) ; if ( err ) goto out_err ; if ( prev == & sbi -> s_orphan ) { jbd_debug ( 4 , ""superblock will point to %u\\n"" , ino_next ) ; BUFFER_TRACE ( sbi -> s_sbh , ""get_write_access"" ) ; err = ext4_journal_get_write_access ( handle , sbi -> s_sbh ) ; if ( err ) goto out_brelse ; sbi -> s_es -> s_last_orphan = cpu_to_le32 ( ino_next ) ; err = ext4_handle_dirty_super ( handle , inode -> i_sb ) ; } else { struct ext4_iloc iloc2 ; struct inode * i_prev = & list_entry ( prev , struct ext4_inode_info , i_orphan ) -> vfs_inode ; jbd_debug ( 4 , ""orphan inode %lu will point to %u\\n"" , i_prev -> i_ino , ino_next ) ; err = ext4_reserve_inode_write ( handle , i_prev , & iloc2 ) ; if ( err ) goto out_brelse ; NEXT_ORPHAN ( i_prev ) = ino_next ; err = ext4_mark_iloc_dirty ( handle , i_prev , & iloc2 ) ; } if ( err ) goto out_brelse ; NEXT_ORPHAN ( inode ) = 0 ; err = ext4_mark_iloc_dirty ( handle , inode , & iloc ) ; out_err : ext4_std_error ( inode -> i_sb , err ) ; out : mutex_unlock ( & EXT4_SB ( inode -> i_sb ) -> s_orphan_lock ) ; return err ; out_brelse : brelse ( iloc . bh ) ; goto out_err ; }","int ext4_orphan_del ( handle_t * handle , struct inode * inode ) { struct list_head * prev ; struct ext4_inode_info * ei = EXT4_I ( inode ) ; struct ext4_sb_info * sbi ; __u32 ino_next ; struct ext4_iloc iloc ; int err = 0 ; if ( ! EXT4_SB ( inode -> i_sb ) -> s_journal ) return 0 ; mutex_lock ( & EXT4_SB ( inode -> i_sb ) -> s_orphan_lock ) ; if ( list_empty ( & ei -> i_orphan ) ) goto out ; ino_next = NEXT_ORPHAN ( inode ) ; prev = ei -> i_orphan . prev ; sbi = EXT4_SB ( inode -> i_sb ) ; jbd_debug ( 4 , ""remove inode %lu from orphan list\\n"" , inode -> i_ino ) ; list_del_init ( & ei -> i_orphan ) ; if ( ! handle ) goto out ; err = ext4_reserve_inode_write ( handle , inode , & iloc ) ; if ( err ) goto out_err ; if ( prev == & sbi -> s_orphan ) { jbd_debug ( 4 , ""superblock will point to %u\\n"" , ino_next ) ; BUFFER_TRACE ( sbi -> s_sbh , ""get_write_access"" ) ; err = ext4_journal_get_write_access ( handle , sbi -> s_sbh ) ; if ( err ) goto out_brelse ; sbi -> s_es -> s_last_orphan = cpu_to_le32 ( ino_next ) ; err = ext4_handle_dirty_super ( handle , inode -> i_sb ) ; } else { struct ext4_iloc iloc2 ; struct inode * i_prev = & list_entry ( prev , struct ext4_inode_info , i_orphan ) -> vfs_inode ; jbd_debug ( 4 , ""orphan inode %lu will point to %u\\n"" , i_prev -> i_ino , ino_next ) ; err = ext4_reserve_inode_write ( handle , i_prev , & iloc2 ) ; if ( err ) goto out_brelse ; NEXT_ORPHAN ( i_prev ) = ino_next ; err = ext4_mark_iloc_dirty ( handle , i_prev , & iloc2 ) ; } if ( err ) goto out_brelse ; NEXT_ORPHAN ( inode ) = 0 ; err = ext4_mark_iloc_dirty ( handle , inode , & iloc ) ; out_err : ext4_std_error ( inode -> i_sb , err ) ; out : mutex_unlock ( & EXT4_SB ( inode -> i_sb ) -> s_orphan_lock ) ; return err ; out_brelse : brelse ( iloc . bh ) ; goto out_err ; }" 763,"CWE-119 int vp8_diamond_search_sadx4 ( MACROBLOCK * x , BLOCK * b , BLOCKD * d , int_mv * ref_mv , int_mv * best_mv , int search_param , int sad_per_bit , int * num00 , vp8_variance_fn_ptr_t * fn_ptr , int * mvcost [ 2 ] , int_mv * center_mv ) { int i , j , step ; unsigned char * what = ( * ( b -> base_src ) + b -> src ) ; int what_stride = b -> src_stride ; unsigned char * in_what ; int pre_stride = x -> e_mbd . pre . y_stride ; unsigned char * base_pre = x -> e_mbd . pre . y_buffer ; int in_what_stride = pre_stride ; unsigned char * best_address ; int tot_steps ; int_mv this_mv ; unsigned int bestsad ; unsigned int thissad ; int best_site = 0 ; int last_site = 0 ; int ref_row ; int ref_col ; int this_row_offset ; int this_col_offset ; search_site * ss ; unsigned char * check_here ; int * mvsadcost [ 2 ] ; int_mv fcenter_mv ; mvsadcost [ 0 ] = x -> mvsadcost [ 0 ] ; mvsadcost [ 1 ] = x -> mvsadcost [ 1 ] ; fcenter_mv . as_mv . row = center_mv -> as_mv . row >> 3 ; fcenter_mv . as_mv . col = center_mv -> as_mv . col >> 3 ; vp8_clamp_mv ( ref_mv , x -> mv_col_min , x -> mv_col_max , x -> mv_row_min , x -> mv_row_max ) ; ref_row = ref_mv -> as_mv . row ; ref_col = ref_mv -> as_mv . col ; * num00 = 0 ; best_mv -> as_mv . row = ref_row ; best_mv -> as_mv . col = ref_col ; in_what = ( unsigned char * ) ( base_pre + d -> offset + ( ref_row * pre_stride ) + ref_col ) ; best_address = in_what ; bestsad = fn_ptr -> sdf ( what , what_stride , in_what , in_what_stride , UINT_MAX ) ss = & x -> ss [ search_param * x -> searches_per_step ] ; tot_steps = ( x -> ss_count / x -> searches_per_step ) - search_param ; i = 1 ; for ( step = 0 ; step < tot_steps ; step ++ ) { int all_in = 1 , t ; all_in &= ( ( best_mv -> as_mv . row + ss [ i ] . mv . row ) > x -> mv_row_min ) ; all_in &= ( ( best_mv -> as_mv . row + ss [ i + 1 ] . mv . row ) < x -> mv_row_max ) ; all_in &= ( ( best_mv -> as_mv . col + ss [ i + 2 ] . mv . col ) > x -> mv_col_min ) ; all_in &= ( ( best_mv -> as_mv . col + ss [ i + 3 ] . mv . col ) < x -> mv_col_max ) ; if ( all_in ) { unsigned int sad_array [ 4 ] ; for ( j = 0 ; j < x -> searches_per_step ; j += 4 ) { const unsigned char * block_offset [ 4 ] ; for ( t = 0 ; t < 4 ; t ++ ) block_offset [ t ] = ss [ i + t ] . offset + best_address ; fn_ptr -> sdx4df ( what , what_stride , block_offset , in_what_stride , sad_array ) ; for ( t = 0 ; t < 4 ; t ++ , i ++ ) { if ( sad_array [ t ] < bestsad ) { this_mv . as_mv . row = best_mv -> as_mv . row + ss [ i ] . mv . row ; this_mv . as_mv . col = best_mv -> as_mv . col + ss [ i ] . mv . col ; sad_array [ t ] += mvsad_err_cost ( & this_mv , & fcenter_mv , mvsadcost , sad_per_bit ) ; if ( sad_array [ t ] < bestsad ) { bestsad = sad_array [ t ] ; best_site = i ; } } } } } else { for ( j = 0 ; j < x -> searches_per_step ; j ++ ) { this_row_offset = best_mv -> as_mv . row + ss [ i ] . mv . row ; this_col_offset = best_mv -> as_mv . col + ss [ i ] . mv . col ; if ( ( this_col_offset > x -> mv_col_min ) && ( this_col_offset < x -> mv_col_max ) && ( this_row_offset > x -> mv_row_min ) && ( this_row_offset < x -> mv_row_max ) ) { check_here = ss [ i ] . offset + best_address ; thissad = fn_ptr -> sdf ( what , what_stride , check_here , in_what_stride , bestsad ) ; if ( thissad < bestsad ) { this_mv . as_mv . row = this_row_offset ; this_mv . as_mv . col = this_col_offset ; thissad += mvsad_err_cost ( & this_mv , & fcenter_mv , mvsadcost , sad_per_bit ) ; if ( thissad < bestsad ) { bestsad = thissad ; best_site = i ; } } } i ++ ; } } if ( best_site != last_site ) { best_mv -> as_mv . row += ss [ best_site ] . mv . row ; best_mv -> as_mv . col += ss [ best_site ] . mv . col ; best_address += ss [ best_site ] . offset ; last_site = best_site ; } else if ( best_address == in_what ) ( * num00 ) ++ ; } this_mv . as_mv . row = best_mv -> as_mv . row * 8 ; this_mv . as_mv . col = best_mv -> as_mv . col * 8 ; return fn_ptr -> vf ( what , what_stride , best_address , in_what_stride , & thissad ) }","int vp8_diamond_search_sadx4 ( MACROBLOCK * x , BLOCK * b , BLOCKD * d , int_mv * ref_mv , int_mv * best_mv , int search_param , int sad_per_bit , int * num00 , vp8_variance_fn_ptr_t * fn_ptr , int * mvcost [ 2 ] , int_mv * center_mv ) { int i , j , step ; unsigned char * what = ( * ( b -> base_src ) + b -> src ) ; int what_stride = b -> src_stride ; unsigned char * in_what ; int pre_stride = x -> e_mbd . pre . y_stride ; unsigned char * base_pre = x -> e_mbd . pre . y_buffer ; int in_what_stride = pre_stride ; unsigned char * best_address ; int tot_steps ; int_mv this_mv ; unsigned int bestsad ; unsigned int thissad ; int best_site = 0 ; int last_site = 0 ; int ref_row ; int ref_col ; int this_row_offset ; int this_col_offset ; search_site * ss ; unsigned char * check_here ; int * mvsadcost [ 2 ] ; int_mv fcenter_mv ; mvsadcost [ 0 ] = x -> mvsadcost [ 0 ] ; mvsadcost [ 1 ] = x -> mvsadcost [ 1 ] ; fcenter_mv . as_mv . row = center_mv -> as_mv . row >> 3 ; fcenter_mv . as_mv . col = center_mv -> as_mv . col >> 3 ; vp8_clamp_mv ( ref_mv , x -> mv_col_min , x -> mv_col_max , x -> mv_row_min , x -> mv_row_max ) ; ref_row = ref_mv -> as_mv . row ; ref_col = ref_mv -> as_mv . col ; * num00 = 0 ; best_mv -> as_mv . row = ref_row ; best_mv -> as_mv . col = ref_col ; in_what = ( unsigned char * ) ( base_pre + d -> offset + ( ref_row * pre_stride ) + ref_col ) ; best_address = in_what ; bestsad = fn_ptr -> sdf ( what , what_stride , in_what , in_what_stride ) mvsad_err_cost ( best_mv , & fcenter_mv , mvsadcost , sad_per_bit ) ; ss = & x -> ss [ search_param * x -> searches_per_step ] ; tot_steps = ( x -> ss_count / x -> searches_per_step ) - search_param ; i = 1 ; for ( step = 0 ; step < tot_steps ; step ++ ) { int all_in = 1 , t ; all_in &= ( ( best_mv -> as_mv . row + ss [ i ] . mv . row ) > x -> mv_row_min ) ; all_in &= ( ( best_mv -> as_mv . row + ss [ i + 1 ] . mv . row ) < x -> mv_row_max ) ; all_in &= ( ( best_mv -> as_mv . col + ss [ i + 2 ] . mv . col ) > x -> mv_col_min ) ; all_in &= ( ( best_mv -> as_mv . col + ss [ i + 3 ] . mv . col ) < x -> mv_col_max ) ; if ( all_in ) { unsigned int sad_array [ 4 ] ; for ( j = 0 ; j < x -> searches_per_step ; j += 4 ) { const unsigned char * block_offset [ 4 ] ; for ( t = 0 ; t < 4 ; t ++ ) block_offset [ t ] = ss [ i + t ] . offset + best_address ; fn_ptr -> sdx4df ( what , what_stride , block_offset , in_what_stride , sad_array ) ; for ( t = 0 ; t < 4 ; t ++ , i ++ ) { if ( sad_array [ t ] < bestsad ) { this_mv . as_mv . row = best_mv -> as_mv . row + ss [ i ] . mv . row ; this_mv . as_mv . col = best_mv -> as_mv . col + ss [ i ] . mv . col ; sad_array [ t ] += mvsad_err_cost ( & this_mv , & fcenter_mv , mvsadcost , sad_per_bit ) ; if ( sad_array [ t ] < bestsad ) { bestsad = sad_array [ t ] ; best_site = i ; } } } } } else { for ( j = 0 ; j < x -> searches_per_step ; j ++ ) { this_row_offset = best_mv -> as_mv . row + ss [ i ] . mv . row ; this_col_offset = best_mv -> as_mv . col + ss [ i ] . mv . col ; if ( ( this_col_offset > x -> mv_col_min ) && ( this_col_offset < x -> mv_col_max ) && ( this_row_offset > x -> mv_row_min ) && ( this_row_offset < x -> mv_row_max ) ) { check_here = ss [ i ] . offset + best_address ; thissad = fn_ptr -> sdf ( what , what_stride , check_here , in_what_stride ) ; if ( thissad < bestsad ) { this_mv . as_mv . row = this_row_offset ; this_mv . as_mv . col = this_col_offset ; thissad += mvsad_err_cost ( & this_mv , & fcenter_mv , mvsadcost , sad_per_bit ) ; if ( thissad < bestsad ) { bestsad = thissad ; best_site = i ; } } } i ++ ; } } if ( best_site != last_site ) { best_mv -> as_mv . row += ss [ best_site ] . mv . row ; best_mv -> as_mv . col += ss [ best_site ] . mv . col ; best_address += ss [ best_site ] . offset ; last_site = best_site ; } else if ( best_address == in_what ) ( * num00 ) ++ ; } this_mv . as_mv . row = best_mv -> as_mv . row * 8 ; this_mv . as_mv . col = best_mv -> as_mv . col * 8 ; return fn_ptr -> vf ( what , what_stride , best_address , in_what_stride , & thissad ) mv_err_cost ( & this_mv , center_mv , mvcost , x -> errorperbit ) ; }" 764,"CWE-20 res = g_file_copy ( src , dest , flags , job -> cancellable , copy_file_progress_callback , & pdata , & error ) ; } if ( res ) { GFile * real ; real = map_possibly_volatile_file_to_real ( dest , job -> cancellable , & error ) ; if ( real == NULL ) { res = FALSE ; } else { g_object_unref ( dest ) ; dest = real ; } } if ( res ) { transfer_info -> num_files ++ ; report_copy_progress ( copy_job , source_info , transfer_info ) ; if ( debuting_files ) { dest_uri = g_file_get_uri ( dest ) ; if ( position ) { nautilus_file_changes_queue_schedule_position_set ( dest , * position , job -> screen_num ) ; } else if ( eel_uri_is_desktop ( dest_uri ) ) { nautilus_file_changes_queue_schedule_position_remove ( dest ) ; } g_hash_table_replace ( debuting_files , g_object_ref ( dest ) , GINT_TO_POINTER ( TRUE ) ) ; } if ( copy_job -> is_move ) { nautilus_file_changes_queue_file_moved ( src , dest ) ; } else { nautilus_file_changes_queue_file_added ( dest ) ; } if ( copy_job -> desktop_location != NULL && g_file_equal ( copy_job -> desktop_location , dest_dir ) && is_trusted_desktop_file ( src , job -> cancellable ) ) { mark_desktop_file_trusted ( job , job -> cancellable , dest , FALSE ) ; } if ( job -> undo_info != NULL ) { nautilus_file_undo_info_ext_add_origin_target_pair ( NAUTILUS_FILE_UNDO_INFO_EXT ( job -> undo_info ) , src , dest ) ; } g_object_unref ( dest ) ; return ; } if ( ! handled_invalid_filename && IS_IO_ERROR ( error , INVALID_FILENAME ) ) { handled_invalid_filename = TRUE ; g_assert ( * dest_fs_type == NULL ) ; * dest_fs_type = query_fs_type ( dest_dir , job -> cancellable ) ; if ( unique_names ) { new_dest = get_unique_target_file ( src , dest_dir , same_fs , * dest_fs_type , unique_name_nr ) ; } else { new_dest = get_target_file ( src , dest_dir , * dest_fs_type , same_fs ) ; } if ( ! g_file_equal ( dest , new_dest ) ) { g_object_unref ( dest ) ; dest = new_dest ; g_error_free ( error ) ; goto retry ; } else { g_object_unref ( new_dest ) ; } } if ( ! overwrite && IS_IO_ERROR ( error , EXISTS ) ) { gboolean is_merge ; FileConflictResponse * response ; g_error_free ( error ) ; if ( unique_names ) { g_object_unref ( dest ) ; dest = get_unique_target_file ( src , dest_dir , same_fs , * dest_fs_type , unique_name_nr ++ ) ; goto retry ; }","res = g_file_copy ( src , dest , flags , job -> cancellable , copy_file_progress_callback , & pdata , & error ) ; } if ( res ) { GFile * real ; real = map_possibly_volatile_file_to_real ( dest , job -> cancellable , & error ) ; if ( real == NULL ) { res = FALSE ; } else { g_object_unref ( dest ) ; dest = real ; } } if ( res ) { transfer_info -> num_files ++ ; report_copy_progress ( copy_job , source_info , transfer_info ) ; if ( debuting_files ) { dest_uri = g_file_get_uri ( dest ) ; if ( position ) { nautilus_file_changes_queue_schedule_position_set ( dest , * position , job -> screen_num ) ; } else if ( eel_uri_is_desktop ( dest_uri ) ) { nautilus_file_changes_queue_schedule_position_remove ( dest ) ; } g_hash_table_replace ( debuting_files , g_object_ref ( dest ) , GINT_TO_POINTER ( TRUE ) ) ; } if ( copy_job -> is_move ) { nautilus_file_changes_queue_file_moved ( src , dest ) ; } else { nautilus_file_changes_queue_file_added ( dest ) ; } if ( copy_job -> desktop_location != NULL && g_file_equal ( copy_job -> desktop_location , dest_dir ) && is_trusted_desktop_file ( src , job -> cancellable ) ) { mark_desktop_file_executable ( job , job -> cancellable , dest , FALSE ) ; } if ( job -> undo_info != NULL ) { nautilus_file_undo_info_ext_add_origin_target_pair ( NAUTILUS_FILE_UNDO_INFO_EXT ( job -> undo_info ) , src , dest ) ; } g_object_unref ( dest ) ; return ; } if ( ! handled_invalid_filename && IS_IO_ERROR ( error , INVALID_FILENAME ) ) { handled_invalid_filename = TRUE ; g_assert ( * dest_fs_type == NULL ) ; * dest_fs_type = query_fs_type ( dest_dir , job -> cancellable ) ; if ( unique_names ) { new_dest = get_unique_target_file ( src , dest_dir , same_fs , * dest_fs_type , unique_name_nr ) ; } else { new_dest = get_target_file ( src , dest_dir , * dest_fs_type , same_fs ) ; } if ( ! g_file_equal ( dest , new_dest ) ) { g_object_unref ( dest ) ; dest = new_dest ; g_error_free ( error ) ; goto retry ; } else { g_object_unref ( new_dest ) ; } } if ( ! overwrite && IS_IO_ERROR ( error , EXISTS ) ) { gboolean is_merge ; FileConflictResponse * response ; g_error_free ( error ) ; if ( unique_names ) { g_object_unref ( dest ) ; dest = get_unique_target_file ( src , dest_dir , same_fs , * dest_fs_type , unique_name_nr ++ ) ; goto retry ; }" 765,"CWE-119 static INLINE void right_shift_8x8 ( __m128i * res , int const bit ) { const __m128i kOne = _mm_set1_epi16 ( 1 ) ; const int bit_m02 = bit - 2 ; __m128i sign0 = _mm_srai_epi16 ( res [ 0 ] , 15 ) ; __m128i sign1 = _mm_srai_epi16 ( res [ 1 ] , 15 ) ; __m128i sign2 = _mm_srai_epi16 ( res [ 2 ] , 15 ) ; __m128i sign3 = _mm_srai_epi16 ( res [ 3 ] , 15 ) ; __m128i sign4 = _mm_srai_epi16 ( res [ 4 ] , 15 ) ; __m128i sign5 = _mm_srai_epi16 ( res [ 5 ] , 15 ) ; __m128i sign6 = _mm_srai_epi16 ( res [ 6 ] , 15 ) ; __m128i sign7 = _mm_srai_epi16 ( res [ 7 ] , 15 ) ; if ( bit_m02 >= 0 ) { __m128i k_const_rounding = _mm_slli_epi16 ( kOne , bit_m02 ) ; res [ 0 ] = _mm_add_epi16 ( res [ 0 ] , k_const_rounding ) ; res [ 1 ] = _mm_add_epi16 ( res [ 1 ] , k_const_rounding ) ; res [ 2 ] = _mm_add_epi16 ( res [ 2 ] , k_const_rounding ) ; res [ 3 ] = _mm_add_epi16 ( res [ 3 ] , k_const_rounding ) ; res [ 4 ] = _mm_add_epi16 ( res [ 4 ] , k_const_rounding ) ; res [ 5 ] = _mm_add_epi16 ( res [ 5 ] , k_const_rounding ) ; res [ 6 ] = _mm_add_epi16 ( res [ 6 ] , k_const_rounding ) ; res [ 7 ] = _mm_add_epi16 ( res [ 7 ] , k_const_rounding ) ; } res [ 0 ] = _mm_sub_epi16 ( res [ 0 ] , sign0 ) ; res [ 1 ] = _mm_sub_epi16 ( res [ 1 ] , sign1 ) ; res [ 2 ] = _mm_sub_epi16 ( res [ 2 ] , sign2 ) ; res [ 3 ] = _mm_sub_epi16 ( res [ 3 ] , sign3 ) ; res [ 4 ] = _mm_sub_epi16 ( res [ 4 ] , sign4 ) ; res [ 5 ] = _mm_sub_epi16 ( res [ 5 ] , sign5 ) ; res [ 6 ] = _mm_sub_epi16 ( res [ 6 ] , sign6 ) ; res [ 7 ] = _mm_sub_epi16 ( res [ 7 ] , sign7 ) ; res [ 0 ] = _mm_srai_epi16 ( res [ 0 ] , bit ) ; res [ 1 ] = _mm_srai_epi16 ( res [ 1 ] , bit ) ; res [ 2 ] = _mm_srai_epi16 ( res [ 2 ] , bit ) ; res [ 3 ] = _mm_srai_epi16 ( res [ 3 ] , bit ) ; res [ 4 ] = _mm_srai_epi16 ( res [ 4 ] , bit ) ; res [ 5 ] = _mm_srai_epi16 ( res [ 5 ] , bit ) ; res [ 6 ] = _mm_srai_epi16 ( res [ 6 ] , bit ) ; res [ 7 ] = _mm_srai_epi16 ( res [ 7 ] , bit ) ; }","static INLINE void right_shift_8x8 ( __m128i * res , const int bit ) { __m128i sign0 = _mm_srai_epi16 ( res [ 0 ] , 15 ) ; __m128i sign1 = _mm_srai_epi16 ( res [ 1 ] , 15 ) ; __m128i sign2 = _mm_srai_epi16 ( res [ 2 ] , 15 ) ; __m128i sign3 = _mm_srai_epi16 ( res [ 3 ] , 15 ) ; __m128i sign4 = _mm_srai_epi16 ( res [ 4 ] , 15 ) ; __m128i sign5 = _mm_srai_epi16 ( res [ 5 ] , 15 ) ; __m128i sign6 = _mm_srai_epi16 ( res [ 6 ] , 15 ) ; __m128i sign7 = _mm_srai_epi16 ( res [ 7 ] , 15 ) ; if ( bit == 2 ) { const __m128i const_rounding = _mm_set1_epi16 ( 1 ) ; res [ 0 ] = _mm_add_epi16 ( res [ 0 ] , const_rounding ) ; res [ 1 ] = _mm_add_epi16 ( res [ 1 ] , const_rounding ) ; res [ 2 ] = _mm_add_epi16 ( res [ 2 ] , const_rounding ) ; res [ 3 ] = _mm_add_epi16 ( res [ 3 ] , const_rounding ) ; res [ 4 ] = _mm_add_epi16 ( res [ 4 ] , const_rounding ) ; res [ 5 ] = _mm_add_epi16 ( res [ 5 ] , const_rounding ) ; res [ 6 ] = _mm_add_epi16 ( res [ 6 ] , const_rounding ) ; res [ 7 ] = _mm_add_epi16 ( res [ 7 ] , const_rounding ) ; } res [ 0 ] = _mm_sub_epi16 ( res [ 0 ] , sign0 ) ; res [ 1 ] = _mm_sub_epi16 ( res [ 1 ] , sign1 ) ; res [ 2 ] = _mm_sub_epi16 ( res [ 2 ] , sign2 ) ; res [ 3 ] = _mm_sub_epi16 ( res [ 3 ] , sign3 ) ; res [ 4 ] = _mm_sub_epi16 ( res [ 4 ] , sign4 ) ; res [ 5 ] = _mm_sub_epi16 ( res [ 5 ] , sign5 ) ; res [ 6 ] = _mm_sub_epi16 ( res [ 6 ] , sign6 ) ; res [ 7 ] = _mm_sub_epi16 ( res [ 7 ] , sign7 ) ; if ( bit == 1 ) { res [ 0 ] = _mm_srai_epi16 ( res [ 0 ] , 1 ) ; res [ 1 ] = _mm_srai_epi16 ( res [ 1 ] , 1 ) ; res [ 2 ] = _mm_srai_epi16 ( res [ 2 ] , 1 ) ; res [ 3 ] = _mm_srai_epi16 ( res [ 3 ] , 1 ) ; res [ 4 ] = _mm_srai_epi16 ( res [ 4 ] , 1 ) ; res [ 5 ] = _mm_srai_epi16 ( res [ 5 ] , 1 ) ; res [ 6 ] = _mm_srai_epi16 ( res [ 6 ] , 1 ) ; res [ 7 ] = _mm_srai_epi16 ( res [ 7 ] , 1 ) ; } else { res [ 0 ] = _mm_srai_epi16 ( res [ 0 ] , 2 ) ; res [ 1 ] = _mm_srai_epi16 ( res [ 1 ] , 2 ) ; res [ 2 ] = _mm_srai_epi16 ( res [ 2 ] , 2 ) ; res [ 3 ] = _mm_srai_epi16 ( res [ 3 ] , 2 ) ; res [ 4 ] = _mm_srai_epi16 ( res [ 4 ] , 2 ) ; res [ 5 ] = _mm_srai_epi16 ( res [ 5 ] , 2 ) ; res [ 6 ] = _mm_srai_epi16 ( res [ 6 ] , 2 ) ; res [ 7 ] = _mm_srai_epi16 ( res [ 7 ] , 2 ) ; } }" 766,"CWE-284 static int connect_to_db ( char * host , char * user , char * passwd ) { char buff [ 20 + FN_REFLEN ] ; DBUG_ENTER ( ""connect_to_db"" ) ; verbose_msg ( ""-- Connecting to %s...\\n"" , host ? host : ""localhost"" ) ; mysql_init ( & mysql_connection ) ; if ( opt_compress ) mysql_options ( & mysql_connection , MYSQL_OPT_COMPRESS , NullS ) ; # ifdef HAVE_OPENSSL if ( opt_use_ssl ) { mysql_ssl_set ( & mysql_connection , opt_ssl_key , opt_ssl_cert , opt_ssl_ca , opt_ssl_capath , opt_ssl_cipher ) ; mysql_options ( & mysql_connection , MYSQL_OPT_SSL_CRL , opt_ssl_crl ) ; mysql_options ( & mysql_connection , MYSQL_OPT_SSL_CRLPATH , opt_ssl_crlpath ) ; } mysql_options ( & mysql_connection , MYSQL_OPT_SSL_VERIFY_SERVER_CERT , ( char * ) & opt_ssl_verify_server_cert ) ; # endif if ( opt_protocol ) mysql_options ( & mysql_connection , MYSQL_OPT_PROTOCOL , ( char * ) & opt_protocol ) ; if ( opt_bind_addr ) mysql_options ( & mysql_connection , MYSQL_OPT_BIND , opt_bind_addr ) ; # if defined ( _WIN32 ) && ! defined ( EMBEDDED_LIBRARY ) if ( shared_memory_base_name ) mysql_options ( & mysql_connection , MYSQL_SHARED_MEMORY_BASE_NAME , shared_memory_base_name ) ; # endif mysql_options ( & mysql_connection , MYSQL_SET_CHARSET_NAME , default_charset ) ; if ( opt_plugin_dir && * opt_plugin_dir ) mysql_options ( & mysql_connection , MYSQL_PLUGIN_DIR , opt_plugin_dir ) ; if ( opt_default_auth && * opt_default_auth ) mysql_options ( & mysql_connection , MYSQL_DEFAULT_AUTH , opt_default_auth ) ; mysql_options ( & mysql_connection , MYSQL_OPT_CONNECT_ATTR_RESET , 0 ) ; mysql_options4 ( & mysql_connection , MYSQL_OPT_CONNECT_ATTR_ADD , ""program_name"" , ""mysqldump"" ) ; if ( ! ( mysql = mysql_real_connect ( & mysql_connection , host , user , passwd , NULL , opt_mysql_port , opt_mysql_unix_port , 0 ) ) ) { DB_error ( & mysql_connection , ""when trying to connect"" ) ; DBUG_RETURN ( 1 ) ; } if ( ( mysql_get_server_version ( & mysql_connection ) < 40100 ) || ( opt_compatible_mode & 3 ) ) { opt_set_charset = 0 ; server_supports_switching_charsets = FALSE ; } mysql -> reconnect = 0 ; my_snprintf ( buff , sizeof ( buff ) , ""/*!40100 SET @@SQL_MODE=\'%s\' */"" , compatible_mode_normal_str ) ; if ( mysql_query_with_error_report ( mysql , 0 , buff ) ) DBUG_RETURN ( 1 ) ; if ( opt_tz_utc ) { my_snprintf ( buff , sizeof ( buff ) , ""/*!40103 SET TIME_ZONE=\'+00:00\' */"" ) ; if ( mysql_query_with_error_report ( mysql , 0 , buff ) ) DBUG_RETURN ( 1 ) ; } DBUG_RETURN ( 0 ) ; }","static int connect_to_db ( char * host , char * user , char * passwd ) { char buff [ 20 + FN_REFLEN ] ; DBUG_ENTER ( ""connect_to_db"" ) ; verbose_msg ( ""-- Connecting to %s...\\n"" , host ? host : ""localhost"" ) ; mysql_init ( & mysql_connection ) ; if ( opt_compress ) mysql_options ( & mysql_connection , MYSQL_OPT_COMPRESS , NullS ) ; SSL_SET_OPTIONS ( & mysql_connection ) ; if ( opt_protocol ) mysql_options ( & mysql_connection , MYSQL_OPT_PROTOCOL , ( char * ) & opt_protocol ) ; if ( opt_bind_addr ) mysql_options ( & mysql_connection , MYSQL_OPT_BIND , opt_bind_addr ) ; # if defined ( _WIN32 ) && ! defined ( EMBEDDED_LIBRARY ) if ( shared_memory_base_name ) mysql_options ( & mysql_connection , MYSQL_SHARED_MEMORY_BASE_NAME , shared_memory_base_name ) ; # endif mysql_options ( & mysql_connection , MYSQL_SET_CHARSET_NAME , default_charset ) ; if ( opt_plugin_dir && * opt_plugin_dir ) mysql_options ( & mysql_connection , MYSQL_PLUGIN_DIR , opt_plugin_dir ) ; if ( opt_default_auth && * opt_default_auth ) mysql_options ( & mysql_connection , MYSQL_DEFAULT_AUTH , opt_default_auth ) ; mysql_options ( & mysql_connection , MYSQL_OPT_CONNECT_ATTR_RESET , 0 ) ; mysql_options4 ( & mysql_connection , MYSQL_OPT_CONNECT_ATTR_ADD , ""program_name"" , ""mysqldump"" ) ; if ( ! ( mysql = mysql_real_connect ( & mysql_connection , host , user , passwd , NULL , opt_mysql_port , opt_mysql_unix_port , 0 ) ) ) { DB_error ( & mysql_connection , ""when trying to connect"" ) ; DBUG_RETURN ( 1 ) ; } if ( ( mysql_get_server_version ( & mysql_connection ) < 40100 ) || ( opt_compatible_mode & 3 ) ) { opt_set_charset = 0 ; server_supports_switching_charsets = FALSE ; } mysql -> reconnect = 0 ; my_snprintf ( buff , sizeof ( buff ) , ""/*!40100 SET @@SQL_MODE=\'%s\' */"" , compatible_mode_normal_str ) ; if ( mysql_query_with_error_report ( mysql , 0 , buff ) ) DBUG_RETURN ( 1 ) ; if ( opt_tz_utc ) { my_snprintf ( buff , sizeof ( buff ) , ""/*!40103 SET TIME_ZONE=\'+00:00\' */"" ) ; if ( mysql_query_with_error_report ( mysql , 0 , buff ) ) DBUG_RETURN ( 1 ) ; } DBUG_RETURN ( 0 ) ; }" 767,"CWE-125 ND_PRINT ( ( ndo , "": %s:%u"" , as_printf ( ndo , astostr , sizeof ( astostr ) , EXTRACT_32BITS ( tptr + 2 ) ) , EXTRACT_16BITS ( tptr + 6 ) ) ) ; break ; case BGP_EXT_COM_LINKBAND : bw . i = EXTRACT_32BITS ( tptr + 2 ) ; ND_PRINT ( ( ndo , "": bandwidth: %.3f Mbps"" , bw . f * 8 / 1000000 ) ) ; break ; case BGP_EXT_COM_VPN_ORIGIN : case BGP_EXT_COM_VPN_ORIGIN2 : case BGP_EXT_COM_VPN_ORIGIN3 : case BGP_EXT_COM_VPN_ORIGIN4 : case BGP_EXT_COM_OSPF_RID : case BGP_EXT_COM_OSPF_RID2 : ND_PRINT ( ( ndo , ""%s"" , ipaddr_string ( ndo , tptr + 2 ) ) ) ; break ; case BGP_EXT_COM_OSPF_RTYPE : case BGP_EXT_COM_OSPF_RTYPE2 : ND_PRINT ( ( ndo , "": area:%s, router-type:%s, metric-type:%s%s"" , ipaddr_string ( ndo , tptr + 2 ) , tok2str ( bgp_extd_comm_ospf_rtype_values , ""unknown (0x%02x)"" , * ( tptr + 6 ) ) , ( * ( tptr + 7 ) & BGP_OSPF_RTYPE_METRIC_TYPE ) ? ""E2"" : """" , ( ( * ( tptr + 6 ) == BGP_OSPF_RTYPE_EXT ) || ( * ( tptr + 6 ) == BGP_OSPF_RTYPE_NSSA ) ) ? ""E1"" : """" ) ) ; break ; case BGP_EXT_COM_L2INFO : ND_PRINT ( ( ndo , "": %s Control Flags [0x%02x]:MTU %u"" , tok2str ( l2vpn_encaps_values , ""unknown encaps"" , * ( tptr + 2 ) ) , * ( tptr + 3 ) , EXTRACT_16BITS ( tptr + 4 ) ) ) ; break ; case BGP_EXT_COM_SOURCE_AS : ND_PRINT ( ( ndo , "": AS %u"" , EXTRACT_16BITS ( tptr + 2 ) ) ) ; break ; default : ND_TCHECK2 ( * tptr , 8 ) ; print_unknown_data ( ndo , tptr , ""\\n\\t "" , 8 ) ; break ; } tlen -= 8 ; tptr += 8 ; } break ; case BGPTYPE_PMSI_TUNNEL : { uint8_t tunnel_type , flags ; tunnel_type = * ( tptr + 1 ) ; flags = * tptr ; tlen = len ; ND_TCHECK2 ( tptr [ 0 ] , 5 ) ; ND_PRINT ( ( ndo , ""\\n\\t Tunnel-type %s (%u), Flags [%s], MPLS Label %u"" , tok2str ( bgp_pmsi_tunnel_values , ""Unknown"" , tunnel_type ) , tunnel_type , bittok2str ( bgp_pmsi_flag_values , ""none"" , flags ) , EXTRACT_24BITS ( tptr + 2 ) >> 4 ) ) ; tptr += 5 ; tlen -= 5 ; switch ( tunnel_type ) { case BGP_PMSI_TUNNEL_PIM_SM : case BGP_PMSI_TUNNEL_PIM_BIDIR : ND_TCHECK2 ( tptr [ 0 ] , 8 ) ; ND_PRINT ( ( ndo , ""\\n\\t Sender %s, P-Group %s"" , ipaddr_string ( ndo , tptr ) , ipaddr_string ( ndo , tptr + 4 ) ) ) ; break ; case BGP_PMSI_TUNNEL_PIM_SSM : ND_TCHECK2 ( tptr [ 0 ] , 8 ) ; ND_PRINT ( ( ndo , ""\\n\\t Root-Node %s, P-Group %s"" , ipaddr_string ( ndo , tptr ) , ipaddr_string ( ndo , tptr + 4 ) ) ) ; break ; case BGP_PMSI_TUNNEL_INGRESS : ND_TCHECK2 ( tptr [ 0 ] , 4 ) ; ND_PRINT ( ( ndo , ""\\n\\t Tunnel-Endpoint %s"" , ipaddr_string ( ndo , tptr ) ) ) ; break ; case BGP_PMSI_TUNNEL_LDP_P2MP : case BGP_PMSI_TUNNEL_LDP_MP2MP : ND_TCHECK2 ( tptr [ 0 ] , 8 ) ; ND_PRINT ( ( ndo , ""\\n\\t Root-Node %s, LSP-ID 0x%08x"" , ipaddr_string ( ndo , tptr ) , EXTRACT_32BITS ( tptr + 4 ) ) ) ; break ; case BGP_PMSI_TUNNEL_RSVP_P2MP : ND_TCHECK2 ( tptr [ 0 ] , 8 ) ; ND_PRINT ( ( ndo , ""\\n\\t Extended-Tunnel-ID %s, P2MP-ID 0x%08x"" , ipaddr_string ( ndo , tptr ) , EXTRACT_32BITS ( tptr + 4 ) ) ) ; break ; default : if ( ndo -> ndo_vflag <= 1 ) { print_unknown_data ( ndo , tptr , ""\\n\\t "" , tlen ) ; } } break ; } case BGPTYPE_AIGP : { uint8_t type ; uint16_t length ;","ND_PRINT ( ( ndo , "": %s:%u"" , as_printf ( ndo , astostr , sizeof ( astostr ) , EXTRACT_32BITS ( tptr + 2 ) ) , EXTRACT_16BITS ( tptr + 6 ) ) ) ; break ; case BGP_EXT_COM_LINKBAND : bw . i = EXTRACT_32BITS ( tptr + 2 ) ; ND_PRINT ( ( ndo , "": bandwidth: %.3f Mbps"" , bw . f * 8 / 1000000 ) ) ; break ; case BGP_EXT_COM_VPN_ORIGIN : case BGP_EXT_COM_VPN_ORIGIN2 : case BGP_EXT_COM_VPN_ORIGIN3 : case BGP_EXT_COM_VPN_ORIGIN4 : case BGP_EXT_COM_OSPF_RID : case BGP_EXT_COM_OSPF_RID2 : ND_PRINT ( ( ndo , ""%s"" , ipaddr_string ( ndo , tptr + 2 ) ) ) ; break ; case BGP_EXT_COM_OSPF_RTYPE : case BGP_EXT_COM_OSPF_RTYPE2 : ND_PRINT ( ( ndo , "": area:%s, router-type:%s, metric-type:%s%s"" , ipaddr_string ( ndo , tptr + 2 ) , tok2str ( bgp_extd_comm_ospf_rtype_values , ""unknown (0x%02x)"" , * ( tptr + 6 ) ) , ( * ( tptr + 7 ) & BGP_OSPF_RTYPE_METRIC_TYPE ) ? ""E2"" : """" , ( ( * ( tptr + 6 ) == BGP_OSPF_RTYPE_EXT ) || ( * ( tptr + 6 ) == BGP_OSPF_RTYPE_NSSA ) ) ? ""E1"" : """" ) ) ; break ; case BGP_EXT_COM_L2INFO : ND_PRINT ( ( ndo , "": %s Control Flags [0x%02x]:MTU %u"" , tok2str ( l2vpn_encaps_values , ""unknown encaps"" , * ( tptr + 2 ) ) , * ( tptr + 3 ) , EXTRACT_16BITS ( tptr + 4 ) ) ) ; break ; case BGP_EXT_COM_SOURCE_AS : ND_PRINT ( ( ndo , "": AS %u"" , EXTRACT_16BITS ( tptr + 2 ) ) ) ; break ; default : ND_TCHECK2 ( * tptr , 8 ) ; print_unknown_data ( ndo , tptr , ""\\n\\t "" , 8 ) ; break ; } tlen -= 8 ; tptr += 8 ; } break ; case BGPTYPE_PMSI_TUNNEL : { uint8_t tunnel_type , flags ; ND_TCHECK2 ( tptr [ 0 ] , 5 ) ; tunnel_type = * ( tptr + 1 ) ; flags = * tptr ; tlen = len ; ND_PRINT ( ( ndo , ""\\n\\t Tunnel-type %s (%u), Flags [%s], MPLS Label %u"" , tok2str ( bgp_pmsi_tunnel_values , ""Unknown"" , tunnel_type ) , tunnel_type , bittok2str ( bgp_pmsi_flag_values , ""none"" , flags ) , EXTRACT_24BITS ( tptr + 2 ) >> 4 ) ) ; tptr += 5 ; tlen -= 5 ; switch ( tunnel_type ) { case BGP_PMSI_TUNNEL_PIM_SM : case BGP_PMSI_TUNNEL_PIM_BIDIR : ND_TCHECK2 ( tptr [ 0 ] , 8 ) ; ND_PRINT ( ( ndo , ""\\n\\t Sender %s, P-Group %s"" , ipaddr_string ( ndo , tptr ) , ipaddr_string ( ndo , tptr + 4 ) ) ) ; break ; case BGP_PMSI_TUNNEL_PIM_SSM : ND_TCHECK2 ( tptr [ 0 ] , 8 ) ; ND_PRINT ( ( ndo , ""\\n\\t Root-Node %s, P-Group %s"" , ipaddr_string ( ndo , tptr ) , ipaddr_string ( ndo , tptr + 4 ) ) ) ; break ; case BGP_PMSI_TUNNEL_INGRESS : ND_TCHECK2 ( tptr [ 0 ] , 4 ) ; ND_PRINT ( ( ndo , ""\\n\\t Tunnel-Endpoint %s"" , ipaddr_string ( ndo , tptr ) ) ) ; break ; case BGP_PMSI_TUNNEL_LDP_P2MP : case BGP_PMSI_TUNNEL_LDP_MP2MP : ND_TCHECK2 ( tptr [ 0 ] , 8 ) ; ND_PRINT ( ( ndo , ""\\n\\t Root-Node %s, LSP-ID 0x%08x"" , ipaddr_string ( ndo , tptr ) , EXTRACT_32BITS ( tptr + 4 ) ) ) ; break ; case BGP_PMSI_TUNNEL_RSVP_P2MP : ND_TCHECK2 ( tptr [ 0 ] , 8 ) ; ND_PRINT ( ( ndo , ""\\n\\t Extended-Tunnel-ID %s, P2MP-ID 0x%08x"" , ipaddr_string ( ndo , tptr ) , EXTRACT_32BITS ( tptr + 4 ) ) ) ; break ; default : if ( ndo -> ndo_vflag <= 1 ) { print_unknown_data ( ndo , tptr , ""\\n\\t "" , tlen ) ; } } break ; } case BGPTYPE_AIGP : { uint8_t type ; uint16_t length ;" 768,"CWE-119 static int ExecuteSQL ( SQLHDBC hDbc , char * szSQL , char cDelimiter , int bColumnNames , int bHTMLTable ) { SQLHSTMT hStmt ; SQLTCHAR szSepLine [ 32001 ] ; SQLTCHAR szUcSQL [ 32001 ] ; SQLSMALLINT cols ; SQLINTEGER ret ; SQLLEN nRows = 0 ; szSepLine [ 0 ] = 0 ; ansi_to_unicode ( szSQL , szUcSQL ) ; if ( SQLAllocStmt ( hDbc , & hStmt ) != SQL_SUCCESS ) { if ( bVerbose ) DumpODBCLog ( hEnv , hDbc , 0 ) ; fprintf ( stderr , ""[ISQL]ERROR: Could not SQLAllocStmt\\n"" ) ; return 0 ; } if ( buseED ) { ret = SQLExecDirect ( hStmt , szUcSQL , SQL_NTS ) ; if ( ret == SQL_NO_DATA ) { fprintf ( stderr , ""[ISQL]INFO: SQLExecDirect returned SQL_NO_DATA\\n"" ) ; } else if ( ret == SQL_SUCCESS_WITH_INFO ) { if ( bVerbose ) DumpODBCLog ( hEnv , hDbc , hStmt ) ; fprintf ( stderr , ""[ISQL]INFO: SQLExecDirect returned SQL_SUCCESS_WITH_INFO\\n"" ) ; } else if ( ret != SQL_SUCCESS ) { if ( bVerbose ) DumpODBCLog ( hEnv , hDbc , hStmt ) ; fprintf ( stderr , ""[ISQL]ERROR: Could not SQLExecDirect\\n"" ) ; SQLFreeStmt ( hStmt , SQL_DROP ) ; free ( szSepLine ) ; return 0 ; } } else { if ( SQLPrepare ( hStmt , szUcSQL , SQL_NTS ) != SQL_SUCCESS ) { if ( bVerbose ) DumpODBCLog ( hEnv , hDbc , hStmt ) ; fprintf ( stderr , ""[ISQL]ERROR: Could not SQLPrepare\\n"" ) ; SQLFreeStmt ( hStmt , SQL_DROP ) ; return 0 ; } ret = SQLExecute ( hStmt ) ; if ( ret == SQL_NO_DATA ) { fprintf ( stderr , ""[ISQL]INFO: SQLExecute returned SQL_NO_DATA\\n"" ) ; } else if ( ret == SQL_SUCCESS_WITH_INFO ) { if ( bVerbose ) DumpODBCLog ( hEnv , hDbc , hStmt ) ; fprintf ( stderr , ""[ISQL]INFO: SQLExecute returned SQL_SUCCESS_WITH_INFO\\n"" ) ; } else if ( ret != SQL_SUCCESS ) { if ( bVerbose ) DumpODBCLog ( hEnv , hDbc , hStmt ) ; fprintf ( stderr , ""[ISQL]ERROR: Could not SQLExecute\\n"" ) ; SQLFreeStmt ( hStmt , SQL_DROP ) ; return 0 ; } } do { if ( SQLNumResultCols ( hStmt , & cols ) != SQL_SUCCESS ) { if ( bVerbose ) DumpODBCLog ( hEnv , hDbc , hStmt ) ; fprintf ( stderr , ""[ISQL]ERROR: Could not SQLNumResultCols\\n"" ) ; SQLFreeStmt ( hStmt , SQL_DROP ) ; return 0 ; } if ( cols > 0 ) { if ( bHTMLTable ) WriteHeaderHTMLTable ( hStmt ) ; else if ( cDelimiter == 0 ) UWriteHeaderNormal ( hStmt , szSepLine ) ; else if ( cDelimiter && bColumnNames ) WriteHeaderDelimited ( hStmt , cDelimiter ) ; if ( bHTMLTable ) WriteBodyHTMLTable ( hStmt ) ; else if ( cDelimiter == 0 ) nRows = WriteBodyNormal ( hStmt ) ;","static int ExecuteSQL ( SQLHDBC hDbc , char * szSQL , char cDelimiter , int bColumnNames , int bHTMLTable ) { SQLHSTMT hStmt ; SQLTCHAR szSepLine [ 32001 ] ; SQLTCHAR szUcSQL [ 32001 ] ; SQLSMALLINT cols ; SQLINTEGER ret ; SQLLEN nRows = 0 ; szSepLine [ 0 ] = 0 ; ansi_to_unicode ( szSQL , szUcSQL ) ; if ( SQLAllocStmt ( hDbc , & hStmt ) != SQL_SUCCESS ) { if ( bVerbose ) DumpODBCLog ( hEnv , hDbc , 0 ) ; fprintf ( stderr , ""[ISQL]ERROR: Could not SQLAllocStmt\\n"" ) ; return 0 ; } if ( buseED ) { ret = SQLExecDirect ( hStmt , szUcSQL , SQL_NTS ) ; if ( ret == SQL_NO_DATA ) { fprintf ( stderr , ""[ISQL]INFO: SQLExecDirect returned SQL_NO_DATA\\n"" ) ; } else if ( ret == SQL_SUCCESS_WITH_INFO ) { if ( bVerbose ) DumpODBCLog ( hEnv , hDbc , hStmt ) ; fprintf ( stderr , ""[ISQL]INFO: SQLExecDirect returned SQL_SUCCESS_WITH_INFO\\n"" ) ; } else if ( ret != SQL_SUCCESS ) { if ( bVerbose ) DumpODBCLog ( hEnv , hDbc , hStmt ) ; fprintf ( stderr , ""[ISQL]ERROR: Could not SQLExecDirect\\n"" ) ; SQLFreeStmt ( hStmt , SQL_DROP ) ; return 0 ; } } else { if ( SQLPrepare ( hStmt , szUcSQL , SQL_NTS ) != SQL_SUCCESS ) { if ( bVerbose ) DumpODBCLog ( hEnv , hDbc , hStmt ) ; fprintf ( stderr , ""[ISQL]ERROR: Could not SQLPrepare\\n"" ) ; SQLFreeStmt ( hStmt , SQL_DROP ) ; return 0 ; } ret = SQLExecute ( hStmt ) ; if ( ret == SQL_NO_DATA ) { fprintf ( stderr , ""[ISQL]INFO: SQLExecute returned SQL_NO_DATA\\n"" ) ; } else if ( ret == SQL_SUCCESS_WITH_INFO ) { if ( bVerbose ) DumpODBCLog ( hEnv , hDbc , hStmt ) ; fprintf ( stderr , ""[ISQL]INFO: SQLExecute returned SQL_SUCCESS_WITH_INFO\\n"" ) ; } else if ( ret != SQL_SUCCESS ) { if ( bVerbose ) DumpODBCLog ( hEnv , hDbc , hStmt ) ; fprintf ( stderr , ""[ISQL]ERROR: Could not SQLExecute\\n"" ) ; SQLFreeStmt ( hStmt , SQL_DROP ) ; return 0 ; } } do { if ( SQLNumResultCols ( hStmt , & cols ) != SQL_SUCCESS ) { if ( bVerbose ) DumpODBCLog ( hEnv , hDbc , hStmt ) ; fprintf ( stderr , ""[ISQL]ERROR: Could not SQLNumResultCols\\n"" ) ; SQLFreeStmt ( hStmt , SQL_DROP ) ; return 0 ; } if ( cols > 0 ) { if ( bHTMLTable ) WriteHeaderHTMLTable ( hStmt ) ; else if ( cDelimiter == 0 ) UWriteHeaderNormal ( hStmt , szSepLine ) ; else if ( cDelimiter && bColumnNames ) WriteHeaderDelimited ( hStmt , cDelimiter ) ; if ( bHTMLTable ) WriteBodyHTMLTable ( hStmt ) ; else if ( cDelimiter == 0 ) nRows = WriteBodyNormal ( hStmt ) ;" 769,"CWE-665 static int aa_read_header ( AVFormatContext * s ) { int i , j , idx , largest_idx = - 1 ; uint32_t nkey , nval , toc_size , npairs , header_seed = 0 , start ; char key [ 128 ] , val [ 128 ] , codec_name [ 64 ] = { 0 } ; uint8_t output [ 24 ] , dst [ 8 ] , src [ 8 ] ; int64_t largest_size = - 1 , current_size = - 1 , chapter_pos ; struct toc_entry { uint32_t offset ; uint32_t size ; } TOC [ MAX_TOC_ENTRIES ] ; uint32_t header_key_part [ 4 ] ; uint8_t header_key [ 16 ] = { 0 } ; AADemuxContext * c = s -> priv_data ; AVIOContext * pb = s -> pb ; AVStream * st ; avio_skip ( pb , 4 ) ; avio_skip ( pb , 4 ) ; toc_size = avio_rb32 ( pb ) ; avio_skip ( pb , 4 ) ; if ( toc_size > MAX_TOC_ENTRIES ) return AVERROR_INVALIDDATA ; for ( i = 0 ; i < toc_size ; i ++ ) { avio_skip ( pb , 4 ) ; TOC [ i ] . offset = avio_rb32 ( pb ) ; TOC [ i ] . size = avio_rb32 ( pb ) ; } avio_skip ( pb , 24 ) ; npairs = avio_rb32 ( pb ) ; if ( npairs > MAX_DICTIONARY_ENTRIES ) return AVERROR_INVALIDDATA ; for ( i = 0 ; i < npairs ; i ++ ) { memset ( val , 0 , sizeof ( val ) ) ; memset ( key , 0 , sizeof ( key ) ) ; avio_skip ( pb , 1 ) ; nkey = avio_rb32 ( pb ) ; nval = avio_rb32 ( pb ) ; avio_get_str ( pb , nkey , key , sizeof ( key ) ) ; avio_get_str ( pb , nval , val , sizeof ( val ) ) ; if ( ! strcmp ( key , ""codec"" ) ) { av_log ( s , AV_LOG_DEBUG , ""Codec is <%s>\\n"" , val ) ; strncpy ( codec_name , val , sizeof ( codec_name ) - 1 ) ; } else if ( ! strcmp ( key , ""HeaderSeed"" ) ) { av_log ( s , AV_LOG_DEBUG , ""HeaderSeed is <%s>\\n"" , val ) ; header_seed = atoi ( val ) ; } else if ( ! strcmp ( key , ""HeaderKey"" ) ) { av_log ( s , AV_LOG_DEBUG , ""HeaderKey is <%s>\\n"" , val ) ; sscanf ( val , ""%"" SCNu32 ""%"" SCNu32 ""%"" SCNu32 ""%"" SCNu32 , & header_key_part [ 0 ] , & header_key_part [ 1 ] , & header_key_part [ 2 ] , & header_key_part [ 3 ] ) ; for ( idx = 0 ; idx < 4 ; idx ++ ) { AV_WB32 ( & header_key [ idx * 4 ] , header_key_part [ idx ] ) ; } av_log ( s , AV_LOG_DEBUG , ""Processed HeaderKey is "" ) ; for ( i = 0 ; i < 16 ; i ++ ) av_log ( s , AV_LOG_DEBUG , ""%02x"" , header_key [ i ] ) ; av_log ( s , AV_LOG_DEBUG , ""\\n"" ) ; } else { av_dict_set ( & s -> metadata , key , val , 0 ) ; } } if ( c -> aa_fixed_key_len != 16 ) { av_log ( s , AV_LOG_ERROR , ""aa_fixed_key value needs to be 16 bytes!\\n"" ) ; return AVERROR ( EINVAL ) ; } if ( ( c -> codec_second_size = get_second_size ( codec_name ) ) == - 1 ) { av_log ( s , AV_LOG_ERROR , ""unknown codec <%s>!\\n"" , codec_name ) ; return AVERROR ( EINVAL ) ; } c -> tea_ctx = av_tea_alloc ( ) ; if ( ! c -> tea_ctx ) return AVERROR ( ENOMEM ) ; av_tea_init ( c -> tea_ctx , c -> aa_fixed_key , 16 ) ; output [ 0 ] = output [ 1 ] = 0 ; memcpy ( output + 2 , header_key , 16 ) ; idx = 0 ; for ( i = 0 ; i < 3 ; i ++ ) { AV_WB32 ( src , header_seed ) ; AV_WB32 ( src + 4 , header_seed + 1 ) ; header_seed += 2 ; av_tea_crypt ( c -> tea_ctx , dst , src , 1 , NULL , 0 ) ; for ( j = 0 ; j < TEA_BLOCK_SIZE && idx < 18 ; j += 1 , idx += 1 ) { output [ idx ] = output [ idx ] ^ dst [ j ] ; } } memcpy ( c -> file_key , output + 2 , 16 ) ; av_log ( s , AV_LOG_DEBUG , ""File key is "" ) ; for ( i = 0 ; i < 16 ; i ++ ) av_log ( s , AV_LOG_DEBUG , ""%02x"" , c -> file_key [ i ] ) ; av_log ( s , AV_LOG_DEBUG , ""\\n"" ) ; st = avformat_new_stream ( s , NULL ) ; if ( ! st ) { av_freep ( & c -> tea_ctx ) ; return AVERROR ( ENOMEM ) ; } st -> codecpar -> codec_type = AVMEDIA_TYPE_AUDIO ; if ( ! strcmp ( codec_name , ""mp332"" ) ) { st -> codecpar -> codec_id = AV_CODEC_ID_MP3 ; st -> codecpar -> sample_rate = 22050 ; st -> need_parsing = AVSTREAM_PARSE_FULL_RAW ;","static int aa_read_header ( AVFormatContext * s ) { int i , j , idx , largest_idx = - 1 ; uint32_t nkey , nval , toc_size , npairs , header_seed = 0 , start ; char key [ 128 ] , val [ 128 ] , codec_name [ 64 ] = { 0 } ; uint8_t output [ 24 ] , dst [ 8 ] , src [ 8 ] ; int64_t largest_size = - 1 , current_size = - 1 , chapter_pos ; struct toc_entry { uint32_t offset ; uint32_t size ; } TOC [ MAX_TOC_ENTRIES ] ; uint32_t header_key_part [ 4 ] ; uint8_t header_key [ 16 ] = { 0 } ; AADemuxContext * c = s -> priv_data ; AVIOContext * pb = s -> pb ; AVStream * st ; int ret ; avio_skip ( pb , 4 ) ; avio_skip ( pb , 4 ) ; toc_size = avio_rb32 ( pb ) ; avio_skip ( pb , 4 ) ; if ( toc_size > MAX_TOC_ENTRIES ) return AVERROR_INVALIDDATA ; for ( i = 0 ; i < toc_size ; i ++ ) { avio_skip ( pb , 4 ) ; TOC [ i ] . offset = avio_rb32 ( pb ) ; TOC [ i ] . size = avio_rb32 ( pb ) ; } avio_skip ( pb , 24 ) ; npairs = avio_rb32 ( pb ) ; if ( npairs > MAX_DICTIONARY_ENTRIES ) return AVERROR_INVALIDDATA ; for ( i = 0 ; i < npairs ; i ++ ) { memset ( val , 0 , sizeof ( val ) ) ; memset ( key , 0 , sizeof ( key ) ) ; avio_skip ( pb , 1 ) ; nkey = avio_rb32 ( pb ) ; nval = avio_rb32 ( pb ) ; avio_get_str ( pb , nkey , key , sizeof ( key ) ) ; avio_get_str ( pb , nval , val , sizeof ( val ) ) ; if ( ! strcmp ( key , ""codec"" ) ) { av_log ( s , AV_LOG_DEBUG , ""Codec is <%s>\\n"" , val ) ; strncpy ( codec_name , val , sizeof ( codec_name ) - 1 ) ; } else if ( ! strcmp ( key , ""HeaderSeed"" ) ) { av_log ( s , AV_LOG_DEBUG , ""HeaderSeed is <%s>\\n"" , val ) ; header_seed = atoi ( val ) ; } else if ( ! strcmp ( key , ""HeaderKey"" ) ) { av_log ( s , AV_LOG_DEBUG , ""HeaderKey is <%s>\\n"" , val ) ; ret = sscanf ( val , ""%"" SCNu32 ""%"" SCNu32 ""%"" SCNu32 ""%"" SCNu32 , & header_key_part [ 0 ] , & header_key_part [ 1 ] , & header_key_part [ 2 ] , & header_key_part [ 3 ] ) ; if ( ret != 4 ) return AVERROR_INVALIDDATA ; for ( idx = 0 ; idx < 4 ; idx ++ ) { AV_WB32 ( & header_key [ idx * 4 ] , header_key_part [ idx ] ) ; } av_log ( s , AV_LOG_DEBUG , ""Processed HeaderKey is "" ) ; for ( i = 0 ; i < 16 ; i ++ ) av_log ( s , AV_LOG_DEBUG , ""%02x"" , header_key [ i ] ) ; av_log ( s , AV_LOG_DEBUG , ""\\n"" ) ; } else { av_dict_set ( & s -> metadata , key , val , 0 ) ; } } if ( c -> aa_fixed_key_len != 16 ) { av_log ( s , AV_LOG_ERROR , ""aa_fixed_key value needs to be 16 bytes!\\n"" ) ; return AVERROR ( EINVAL ) ; } if ( ( c -> codec_second_size = get_second_size ( codec_name ) ) == - 1 ) { av_log ( s , AV_LOG_ERROR , ""unknown codec <%s>!\\n"" , codec_name ) ; return AVERROR ( EINVAL ) ; } c -> tea_ctx = av_tea_alloc ( ) ; if ( ! c -> tea_ctx ) return AVERROR ( ENOMEM ) ; av_tea_init ( c -> tea_ctx , c -> aa_fixed_key , 16 ) ; output [ 0 ] = output [ 1 ] = 0 ; memcpy ( output + 2 , header_key , 16 ) ; idx = 0 ; for ( i = 0 ; i < 3 ; i ++ ) { AV_WB32 ( src , header_seed ) ; AV_WB32 ( src + 4 , header_seed + 1 ) ; header_seed += 2 ; av_tea_crypt ( c -> tea_ctx , dst , src , 1 , NULL , 0 ) ; for ( j = 0 ; j < TEA_BLOCK_SIZE && idx < 18 ; j += 1 , idx += 1 ) { output [ idx ] = output [ idx ] ^ dst [ j ] ; } } memcpy ( c -> file_key , output + 2 , 16 ) ; av_log ( s , AV_LOG_DEBUG , ""File key is "" ) ; for ( i = 0 ; i < 16 ; i ++ ) av_log ( s , AV_LOG_DEBUG , ""%02x"" , c -> file_key [ i ] ) ; av_log ( s , AV_LOG_DEBUG , ""\\n"" ) ; st = avformat_new_stream ( s , NULL ) ; if ( ! st ) { av_freep ( & c -> tea_ctx ) ; return AVERROR ( ENOMEM ) ; } st -> codecpar -> codec_type = AVMEDIA_TYPE_AUDIO ; if ( ! strcmp ( codec_name , ""mp332"" ) ) { st -> codecpar -> codec_id = AV_CODEC_ID_MP3 ; st -> codecpar -> sample_rate = 22050 ; st -> need_parsing = AVSTREAM_PARSE_FULL_RAW ;" 770,"CWE-269 static void copy_asoundrc ( void ) { char * src = RUN_ASOUNDRC_FILE ; char * dest ; if ( asprintf ( & dest , ""%s/.asoundrc"" , cfg . homedir ) == - 1 ) errExit ( ""asprintf"" ) ; if ( is_link ( dest ) ) { fprintf ( stderr , ""Error: %s is a symbolic link\\n"" , dest ) ; exit ( 1 ) ; } pid_t child = fork ( ) ; if ( child < 0 ) errExit ( ""fork"" ) ; if ( child == 0 ) { drop_privs ( 0 ) ; int rv = copy_file ( src , dest , getuid ( ) , getgid ( ) , S_IRUSR | S_IWUSR ) ; if ( rv ) fprintf ( stderr , ""Warning: cannot transfer .asoundrc in private home directory\\n"" ) ; else { fs_logger2 ( ""clone"" , dest ) ; } _exit ( 0 ) ; } waitpid ( child , NULL , 0 ) ; unlink ( src ) ; }","static void copy_asoundrc ( void ) { char * src = RUN_ASOUNDRC_FILE ; char * dest ; if ( asprintf ( & dest , ""%s/.asoundrc"" , cfg . homedir ) == - 1 ) errExit ( ""asprintf"" ) ; if ( is_link ( dest ) ) { fprintf ( stderr , ""Error: %s is a symbolic link\\n"" , dest ) ; exit ( 1 ) ; } copy_file_as_user ( src , dest , getuid ( ) , getgid ( ) , S_IRUSR | S_IWUSR ) ; fs_logger2 ( ""clone"" , dest ) ; unlink ( src ) ; }" 771,"CWE-416 static int fanout_add ( struct sock * sk , u16 id , u16 type_flags ) { struct packet_sock * po = pkt_sk ( sk ) ; struct packet_fanout * f , * match ; u8 type = type_flags & 0xff ; u8 flags = type_flags >> 8 ; int err ; switch ( type ) { case PACKET_FANOUT_ROLLOVER : if ( type_flags & PACKET_FANOUT_FLAG_ROLLOVER ) return - EINVAL ; case PACKET_FANOUT_HASH : case PACKET_FANOUT_LB : case PACKET_FANOUT_CPU : case PACKET_FANOUT_RND : case PACKET_FANOUT_QM : case PACKET_FANOUT_CBPF : case PACKET_FANOUT_EBPF : break ; default : return - EINVAL ; } if ( ! po -> running ) return - EINVAL ; if ( po -> fanout ) return - EALREADY ; if ( type == PACKET_FANOUT_ROLLOVER || ( type_flags & PACKET_FANOUT_FLAG_ROLLOVER ) ) { po -> rollover = kzalloc ( sizeof ( * po -> rollover ) , GFP_KERNEL ) ; if ( ! po -> rollover ) return - ENOMEM ; atomic_long_set ( & po -> rollover -> num , 0 ) ; atomic_long_set ( & po -> rollover -> num_huge , 0 ) ; atomic_long_set ( & po -> rollover -> num_failed , 0 ) ; } mutex_lock ( & fanout_mutex ) ; match = NULL ; list_for_each_entry ( f , & fanout_list , list ) { if ( f -> id == id && read_pnet ( & f -> net ) == sock_net ( sk ) ) { match = f ; break ; } } err = - EINVAL ; if ( match && match -> flags != flags ) goto out ; if ( ! match ) { err = - ENOMEM ; match = kzalloc ( sizeof ( * match ) , GFP_KERNEL ) ; if ( ! match ) goto out ; write_pnet ( & match -> net , sock_net ( sk ) ) ; match -> id = id ; match -> type = type ; match -> flags = flags ; INIT_LIST_HEAD ( & match -> list ) ; spin_lock_init ( & match -> lock ) ; atomic_set ( & match -> sk_ref , 0 ) ; fanout_init_data ( match ) ; match -> prot_hook . type = po -> prot_hook . type ; match -> prot_hook . dev = po -> prot_hook . dev ; match -> prot_hook . func = packet_rcv_fanout ; match -> prot_hook . af_packet_priv = match ; match -> prot_hook . id_match = match_fanout_group ; dev_add_pack ( & match -> prot_hook ) ; list_add ( & match -> list , & fanout_list ) ; } err = - EINVAL ; if ( match -> type == type && match -> prot_hook . type == po -> prot_hook . type && match -> prot_hook . dev == po -> prot_hook . dev ) { err = - ENOSPC ; if ( atomic_read ( & match -> sk_ref ) < PACKET_FANOUT_MAX ) { __dev_remove_pack ( & po -> prot_hook ) ; po -> fanout = match ; atomic_inc ( & match -> sk_ref ) ; __fanout_link ( sk , po ) ; err = 0 ; } } out : mutex_unlock ( & fanout_mutex ) ; if ( err ) { kfree ( po -> rollover ) ; po -> rollover = NULL ; } return err ; }","static int fanout_add ( struct sock * sk , u16 id , u16 type_flags ) { struct packet_rollover * rollover = NULL ; struct packet_sock * po = pkt_sk ( sk ) ; struct packet_fanout * f , * match ; u8 type = type_flags & 0xff ; u8 flags = type_flags >> 8 ; int err ; switch ( type ) { case PACKET_FANOUT_ROLLOVER : if ( type_flags & PACKET_FANOUT_FLAG_ROLLOVER ) return - EINVAL ; case PACKET_FANOUT_HASH : case PACKET_FANOUT_LB : case PACKET_FANOUT_CPU : case PACKET_FANOUT_RND : case PACKET_FANOUT_QM : case PACKET_FANOUT_CBPF : case PACKET_FANOUT_EBPF : break ; default : return - EINVAL ; } mutex_lock ( & fanout_mutex ) ; err = - EINVAL ; if ( ! po -> running ) goto out ; err = - EALREADY ; if ( po -> fanout ) goto out ; if ( type == PACKET_FANOUT_ROLLOVER || ( type_flags & PACKET_FANOUT_FLAG_ROLLOVER ) ) { err = - ENOMEM ; rollover = kzalloc ( sizeof ( * rollover ) , GFP_KERNEL ) ; if ( ! rollover ) goto out ; atomic_long_set ( & rollover -> num , 0 ) ; atomic_long_set ( & rollover -> num_huge , 0 ) ; atomic_long_set ( & rollover -> num_failed , 0 ) ; po -> rollover = rollover ; } match = NULL ; list_for_each_entry ( f , & fanout_list , list ) { if ( f -> id == id && read_pnet ( & f -> net ) == sock_net ( sk ) ) { match = f ; break ; } } err = - EINVAL ; if ( match && match -> flags != flags ) goto out ; if ( ! match ) { err = - ENOMEM ; match = kzalloc ( sizeof ( * match ) , GFP_KERNEL ) ; if ( ! match ) goto out ; write_pnet ( & match -> net , sock_net ( sk ) ) ; match -> id = id ; match -> type = type ; match -> flags = flags ; INIT_LIST_HEAD ( & match -> list ) ; spin_lock_init ( & match -> lock ) ; atomic_set ( & match -> sk_ref , 0 ) ; fanout_init_data ( match ) ; match -> prot_hook . type = po -> prot_hook . type ; match -> prot_hook . dev = po -> prot_hook . dev ; match -> prot_hook . func = packet_rcv_fanout ; match -> prot_hook . af_packet_priv = match ; match -> prot_hook . id_match = match_fanout_group ; dev_add_pack ( & match -> prot_hook ) ; list_add ( & match -> list , & fanout_list ) ; } err = - EINVAL ; if ( match -> type == type && match -> prot_hook . type == po -> prot_hook . type && match -> prot_hook . dev == po -> prot_hook . dev ) { err = - ENOSPC ; if ( atomic_read ( & match -> sk_ref ) < PACKET_FANOUT_MAX ) { __dev_remove_pack ( & po -> prot_hook ) ; po -> fanout = match ; atomic_inc ( & match -> sk_ref ) ; __fanout_link ( sk , po ) ; err = 0 ; } } out : if ( err && rollover ) { kfree ( rollover ) ; po -> rollover = NULL ; } mutex_unlock ( & fanout_mutex ) ; return err ; }" 772,"CWE-310 goto fail ; } btrfs_set_lock_blocking ( old ) ; ret = btrfs_copy_root ( trans , root , old , & tmp , objectid ) ; btrfs_tree_unlock ( old ) ; free_extent_buffer ( old ) ; if ( ret ) { btrfs_abort_transaction ( trans , root , ret ) ; goto fail ; } root -> force_cow = 1 ; smp_wmb ( ) ; btrfs_set_root_node ( new_root_item , tmp ) ; key . offset = trans -> transid ; ret = btrfs_insert_root ( trans , tree_root , & key , new_root_item ) ; btrfs_tree_unlock ( tmp ) ; free_extent_buffer ( tmp ) ; if ( ret ) { btrfs_abort_transaction ( trans , root , ret ) ; goto fail ; } ret = btrfs_add_root_ref ( trans , tree_root , objectid , parent_root -> root_key . objectid , btrfs_ino ( parent_inode ) , index , dentry -> d_name . name , dentry -> d_name . len ) ; if ( ret ) { btrfs_abort_transaction ( trans , root , ret ) ; goto fail ; } key . offset = ( u64 ) - 1 ; pending -> snap = btrfs_read_fs_root_no_name ( root -> fs_info , & key ) ; if ( IS_ERR ( pending -> snap ) ) { ret = PTR_ERR ( pending -> snap ) ; btrfs_abort_transaction ( trans , root , ret ) ; goto fail ; } ret = btrfs_reloc_post_snapshot ( trans , pending ) ; if ( ret ) { btrfs_abort_transaction ( trans , root , ret ) ; goto fail ; } ret = btrfs_run_delayed_refs ( trans , root , ( unsigned long ) - 1 ) ; if ( ret ) { btrfs_abort_transaction ( trans , root , ret ) ; goto fail ; } ret = btrfs_insert_dir_item ( trans , parent_root , dentry -> d_name . name , dentry -> d_name . len , parent_inode , & key , BTRFS_FT_DIR , index ) ; BUG_ON ( ret == - EEXIST ) ; if ( ret ) { btrfs_abort_transaction ( trans , root , ret ) ; goto fail ; } btrfs_i_size_write ( parent_inode , parent_inode -> i_size + dentry -> d_name . len * 2 ) ; parent_inode -> i_mtime = parent_inode -> i_ctime = CURRENT_TIME ; ret = btrfs_update_inode_fallback ( trans , parent_root , parent_inode ) ; if ( ret ) btrfs_abort_transaction ( trans , root , ret ) ; fail : dput ( parent ) ; trans -> block_rsv = rsv ; no_free_objectid : kfree ( new_root_item ) ; root_item_alloc_fail : btrfs_free_path ( path ) ; path_alloc_fail : btrfs_block_rsv_release ( root , & pending -> block_rsv , ( u64 ) - 1 ) ; return ret ; }","goto fail ; } btrfs_set_lock_blocking ( old ) ; ret = btrfs_copy_root ( trans , root , old , & tmp , objectid ) ; btrfs_tree_unlock ( old ) ; free_extent_buffer ( old ) ; if ( ret ) { btrfs_abort_transaction ( trans , root , ret ) ; goto fail ; } root -> force_cow = 1 ; smp_wmb ( ) ; btrfs_set_root_node ( new_root_item , tmp ) ; key . offset = trans -> transid ; ret = btrfs_insert_root ( trans , tree_root , & key , new_root_item ) ; btrfs_tree_unlock ( tmp ) ; free_extent_buffer ( tmp ) ; if ( ret ) { btrfs_abort_transaction ( trans , root , ret ) ; goto fail ; } ret = btrfs_add_root_ref ( trans , tree_root , objectid , parent_root -> root_key . objectid , btrfs_ino ( parent_inode ) , index , dentry -> d_name . name , dentry -> d_name . len ) ; if ( ret ) { btrfs_abort_transaction ( trans , root , ret ) ; goto fail ; } key . offset = ( u64 ) - 1 ; pending -> snap = btrfs_read_fs_root_no_name ( root -> fs_info , & key ) ; if ( IS_ERR ( pending -> snap ) ) { ret = PTR_ERR ( pending -> snap ) ; btrfs_abort_transaction ( trans , root , ret ) ; goto fail ; } ret = btrfs_reloc_post_snapshot ( trans , pending ) ; if ( ret ) { btrfs_abort_transaction ( trans , root , ret ) ; goto fail ; } ret = btrfs_run_delayed_refs ( trans , root , ( unsigned long ) - 1 ) ; if ( ret ) { btrfs_abort_transaction ( trans , root , ret ) ; goto fail ; } ret = btrfs_insert_dir_item ( trans , parent_root , dentry -> d_name . name , dentry -> d_name . len , parent_inode , & key , BTRFS_FT_DIR , index ) ; BUG_ON ( ret == - EEXIST || ret == - EOVERFLOW ) ; if ( ret ) { btrfs_abort_transaction ( trans , root , ret ) ; goto fail ; } btrfs_i_size_write ( parent_inode , parent_inode -> i_size + dentry -> d_name . len * 2 ) ; parent_inode -> i_mtime = parent_inode -> i_ctime = CURRENT_TIME ; ret = btrfs_update_inode_fallback ( trans , parent_root , parent_inode ) ; if ( ret ) btrfs_abort_transaction ( trans , root , ret ) ; fail : dput ( parent ) ; trans -> block_rsv = rsv ; no_free_objectid : kfree ( new_root_item ) ; root_item_alloc_fail : btrfs_free_path ( path ) ; path_alloc_fail : btrfs_block_rsv_release ( root , & pending -> block_rsv , ( u64 ) - 1 ) ; return ret ; }" 773,"NVD-CWE-Other static void addFormVars ( cchar * buf ) { char * pair , * tok ; pair = stok ( sclone ( buf ) , ""&"" , & tok ) ; while ( pair != 0 ) { mprAddItem ( app -> formData , sclone ( pair ) ) ; pair = stok ( 0 , ""&"" , & tok ) ; } }","static void addFormVars ( cchar * buf ) { char * pair , * tok ; pair = stok ( sclone ( buf ) , ""&"" , & tok ) ; while ( pair ) { mprAddItem ( app -> formData , sclone ( pair ) ) ; pair = stok ( 0 , ""&"" , & tok ) ; } }" 774,"NVD-CWE-Other static int cdc_ncm_bind ( struct usbnet * dev , struct usb_interface * intf ) { int ret ; if ( cdc_ncm_select_altsetting ( intf ) != CDC_NCM_COMM_ALTSETTING_NCM ) return - ENODEV ; ret = cdc_ncm_bind_common ( dev , intf , CDC_NCM_DATA_ALTSETTING_NCM , 0 ) ; usbnet_link_change ( dev , 0 , 0 ) ; return ret ; }","static int cdc_ncm_bind ( struct usbnet * dev , struct usb_interface * intf ) { if ( cdc_ncm_select_altsetting ( intf ) != CDC_NCM_COMM_ALTSETTING_NCM ) return - ENODEV ; return cdc_ncm_bind_common ( dev , intf , CDC_NCM_DATA_ALTSETTING_NCM , 0 ) ; }" 775,"CWE-362 void ieee80211_sta_ps_deliver_wakeup ( struct sta_info * sta ) { struct ieee80211_sub_if_data * sdata = sta -> sdata ; struct ieee80211_local * local = sdata -> local ; struct sk_buff_head pending ; int filtered = 0 , buffered = 0 , ac ; unsigned long flags ; clear_sta_flag ( sta , WLAN_STA_SP ) ; BUILD_BUG_ON ( BITS_TO_LONGS ( IEEE80211_NUM_TIDS ) > 1 ) ; sta -> driver_buffered_tids = 0 ; if ( ! ( local -> hw . flags & IEEE80211_HW_AP_LINK_PS ) ) drv_sta_notify ( local , sdata , STA_NOTIFY_AWAKE , & sta -> sta ) ; skb_queue_head_init ( & pending ) ; for ( ac = 0 ; ac < IEEE80211_NUM_ACS ; ac ++ ) { int count = skb_queue_len ( & pending ) , tmp ; spin_lock_irqsave ( & sta -> tx_filtered [ ac ] . lock , flags ) ; skb_queue_splice_tail_init ( & sta -> tx_filtered [ ac ] , & pending ) ; spin_unlock_irqrestore ( & sta -> tx_filtered [ ac ] . lock , flags ) ; tmp = skb_queue_len ( & pending ) ; filtered += tmp - count ; count = tmp ; spin_lock_irqsave ( & sta -> ps_tx_buf [ ac ] . lock , flags ) ; skb_queue_splice_tail_init ( & sta -> ps_tx_buf [ ac ] , & pending ) ; spin_unlock_irqrestore ( & sta -> ps_tx_buf [ ac ] . lock , flags ) ; tmp = skb_queue_len ( & pending ) ; buffered += tmp - count ; } ieee80211_add_pending_skbs_fn ( local , & pending , clear_sta_ps_flags , sta ) ; if ( ! ieee80211_smps_is_restrictive ( sta -> known_smps_mode , sdata -> smps_mode ) && sta -> known_smps_mode != sdata -> bss -> req_smps && sta_info_tx_streams ( sta ) != 1 ) { ht_dbg ( sdata , ""%pM just woke up and MIMO capable - update SMPS\\n"" , sta -> sta . addr ) ; ieee80211_send_smps_action ( sdata , sdata -> bss -> req_smps , sta -> sta . addr , sdata -> vif . bss_conf . bssid ) ; } local -> total_ps_buffered -= buffered ; sta_info_recalc_tim ( sta ) ; ps_dbg ( sdata , ""STA %pM aid %d sending %d filtered/%d PS frames since STA not sleeping anymore\\n"" , sta -> sta . addr , sta -> sta . aid , filtered , buffered ) ; }","void ieee80211_sta_ps_deliver_wakeup ( struct sta_info * sta ) { struct ieee80211_sub_if_data * sdata = sta -> sdata ; struct ieee80211_local * local = sdata -> local ; struct sk_buff_head pending ; int filtered = 0 , buffered = 0 , ac ; unsigned long flags ; clear_sta_flag ( sta , WLAN_STA_SP ) ; BUILD_BUG_ON ( BITS_TO_LONGS ( IEEE80211_NUM_TIDS ) > 1 ) ; sta -> driver_buffered_tids = 0 ; if ( ! ( local -> hw . flags & IEEE80211_HW_AP_LINK_PS ) ) drv_sta_notify ( local , sdata , STA_NOTIFY_AWAKE , & sta -> sta ) ; skb_queue_head_init ( & pending ) ; spin_lock ( & sta -> ps_lock ) ; for ( ac = 0 ; ac < IEEE80211_NUM_ACS ; ac ++ ) { int count = skb_queue_len ( & pending ) , tmp ; spin_lock_irqsave ( & sta -> tx_filtered [ ac ] . lock , flags ) ; skb_queue_splice_tail_init ( & sta -> tx_filtered [ ac ] , & pending ) ; spin_unlock_irqrestore ( & sta -> tx_filtered [ ac ] . lock , flags ) ; tmp = skb_queue_len ( & pending ) ; filtered += tmp - count ; count = tmp ; spin_lock_irqsave ( & sta -> ps_tx_buf [ ac ] . lock , flags ) ; skb_queue_splice_tail_init ( & sta -> ps_tx_buf [ ac ] , & pending ) ; spin_unlock_irqrestore ( & sta -> ps_tx_buf [ ac ] . lock , flags ) ; tmp = skb_queue_len ( & pending ) ; buffered += tmp - count ; } ieee80211_add_pending_skbs_fn ( local , & pending , clear_sta_ps_flags , sta ) ; spin_unlock ( & sta -> ps_lock ) ; if ( ! ieee80211_smps_is_restrictive ( sta -> known_smps_mode , sdata -> smps_mode ) && sta -> known_smps_mode != sdata -> bss -> req_smps && sta_info_tx_streams ( sta ) != 1 ) { ht_dbg ( sdata , ""%pM just woke up and MIMO capable - update SMPS\\n"" , sta -> sta . addr ) ; ieee80211_send_smps_action ( sdata , sdata -> bss -> req_smps , sta -> sta . addr , sdata -> vif . bss_conf . bssid ) ; } local -> total_ps_buffered -= buffered ; sta_info_recalc_tim ( sta ) ; ps_dbg ( sdata , ""STA %pM aid %d sending %d filtered/%d PS frames since STA not sleeping anymore\\n"" , sta -> sta . addr , sta -> sta . aid , filtered , buffered ) ; }" 776,"CWE-119 case SQL_DESC_AUTO_UNIQUE_VALUE : case SQL_DESC_CASE_SENSITIVE : case SQL_DESC_CONCISE_TYPE : case SQL_DESC_DATA_PTR : case SQL_DESC_DATETIME_INTERVAL_CODE : case SQL_DESC_DATETIME_INTERVAL_PRECISION : case SQL_DESC_DISPLAY_SIZE : case SQL_DESC_FIXED_PREC_SCALE : case SQL_DESC_INDICATOR_PTR : case SQL_DESC_LENGTH : case SQL_DESC_NULLABLE : case SQL_DESC_NUM_PREC_RADIX : case SQL_DESC_OCTET_LENGTH : case SQL_DESC_OCTET_LENGTH_PTR : case SQL_DESC_PARAMETER_TYPE : case SQL_DESC_PRECISION : case SQL_DESC_ROWVER : case SQL_DESC_SCALE : case SQL_DESC_SEARCHABLE : case SQL_DESC_TYPE : case SQL_DESC_UNNAMED : case SQL_DESC_UNSIGNED : case SQL_DESC_UPDATABLE : isStrField = 0 ; break ; case SQL_DESC_BASE_COLUMN_NAME : case SQL_DESC_BASE_TABLE_NAME : case SQL_DESC_CATALOG_NAME : case SQL_DESC_LABEL : case SQL_DESC_LITERAL_PREFIX : case SQL_DESC_LITERAL_SUFFIX : case SQL_DESC_LOCAL_TYPE_NAME : case SQL_DESC_NAME : case SQL_DESC_SCHEMA_NAME : case SQL_DESC_TABLE_NAME : case SQL_DESC_TYPE_NAME : isStrField = 1 ; break ; default : isStrField = buffer_length != SQL_IS_POINTER && buffer_length != SQL_IS_INTEGER && buffer_length != SQL_IS_UINTEGER && buffer_length != SQL_IS_SMALLINT && buffer_length != SQL_IS_USMALLINT ; } if ( isStrField && buffer_length < 0 && buffer_length != SQL_NTS ) { __post_internal_error ( & descriptor -> error , ERROR_HY090 , NULL , descriptor -> connection -> environment -> requested_version ) ; return function_return_nodrv ( SQL_HANDLE_DESC , descriptor , SQL_ERROR ) ; } if ( field_identifier == SQL_DESC_COUNT && ( SQLINTEGER ) value < 0 ) { __post_internal_error ( & descriptor -> error , ERROR_07009 , NULL , descriptor -> connection -> environment -> requested_version ) ; return function_return_nodrv ( SQL_HANDLE_DESC , descriptor , SQL_ERROR ) ; } if ( field_identifier == SQL_DESC_PARAMETER_TYPE && value != SQL_PARAM_INPUT && value != SQL_PARAM_OUTPUT && value != SQL_PARAM_INPUT_OUTPUT && value != SQL_PARAM_INPUT_OUTPUT_STREAM && value != SQL_PARAM_OUTPUT_STREAM ) { __post_internal_error ( & descriptor -> error , ERROR_HY105 , NULL , descriptor -> connection -> environment -> requested_version ) ; return function_return_nodrv ( SQL_HANDLE_DESC , descriptor , SQL_ERROR ) ; } if ( CHECK_SQLSETDESCFIELD ( descriptor -> connection ) ) { ret = SQLSETDESCFIELD ( descriptor -> connection , descriptor -> driver_desc , rec_number , field_identifier , value , buffer_length ) ; } else if ( CHECK_SQLSETDESCFIELDW ( descriptor -> connection ) ) { SQLWCHAR * s1 = NULL ; if ( isStrField ) { s1 = ansi_to_unicode_alloc ( value , buffer_length , descriptor -> connection , NULL ) ; if ( SQL_NTS != buffer_length ) { buffer_length *= sizeof ( SQLWCHAR ) ; } } else { s1 = value ; } ret = SQLSETDESCFIELDW ( descriptor -> connection , descriptor -> driver_desc , rec_number , field_identifier , s1 , buffer_length ) ; if ( isStrField ) { if ( s1 ) free ( s1 ) ; } } else { dm_log_write ( __FILE__ , __LINE__ , LOG_INFO , LOG_INFO , ""Error: IM001"" ) ; __post_internal_error ( & descriptor -> error ,","case SQL_DESC_AUTO_UNIQUE_VALUE : case SQL_DESC_CASE_SENSITIVE : case SQL_DESC_CONCISE_TYPE : case SQL_DESC_DATA_PTR : case SQL_DESC_DATETIME_INTERVAL_CODE : case SQL_DESC_DATETIME_INTERVAL_PRECISION : case SQL_DESC_DISPLAY_SIZE : case SQL_DESC_FIXED_PREC_SCALE : case SQL_DESC_INDICATOR_PTR : case SQL_DESC_LENGTH : case SQL_DESC_NULLABLE : case SQL_DESC_NUM_PREC_RADIX : case SQL_DESC_OCTET_LENGTH : case SQL_DESC_OCTET_LENGTH_PTR : case SQL_DESC_PARAMETER_TYPE : case SQL_DESC_PRECISION : case SQL_DESC_ROWVER : case SQL_DESC_SCALE : case SQL_DESC_SEARCHABLE : case SQL_DESC_TYPE : case SQL_DESC_UNNAMED : case SQL_DESC_UNSIGNED : case SQL_DESC_UPDATABLE : isStrField = 0 ; break ; case SQL_DESC_BASE_COLUMN_NAME : case SQL_DESC_BASE_TABLE_NAME : case SQL_DESC_CATALOG_NAME : case SQL_DESC_LABEL : case SQL_DESC_LITERAL_PREFIX : case SQL_DESC_LITERAL_SUFFIX : case SQL_DESC_LOCAL_TYPE_NAME : case SQL_DESC_NAME : case SQL_DESC_SCHEMA_NAME : case SQL_DESC_TABLE_NAME : case SQL_DESC_TYPE_NAME : isStrField = 1 ; break ; default : isStrField = buffer_length != SQL_IS_POINTER && buffer_length != SQL_IS_INTEGER && buffer_length != SQL_IS_UINTEGER && buffer_length != SQL_IS_SMALLINT && buffer_length != SQL_IS_USMALLINT ; } if ( isStrField && buffer_length < 0 && buffer_length != SQL_NTS ) { __post_internal_error ( & descriptor -> error , ERROR_HY090 , NULL , descriptor -> connection -> environment -> requested_version ) ; return function_return_nodrv ( SQL_HANDLE_DESC , descriptor , SQL_ERROR ) ; } if ( field_identifier == SQL_DESC_COUNT && ( intptr_t ) value < 0 ) { __post_internal_error ( & descriptor -> error , ERROR_07009 , NULL , descriptor -> connection -> environment -> requested_version ) ; return function_return_nodrv ( SQL_HANDLE_DESC , descriptor , SQL_ERROR ) ; } if ( field_identifier == SQL_DESC_PARAMETER_TYPE && ( intptr_t ) value != SQL_PARAM_INPUT && ( intptr_t ) value != SQL_PARAM_OUTPUT && ( intptr_t ) value != SQL_PARAM_INPUT_OUTPUT && ( intptr_t ) value != SQL_PARAM_INPUT_OUTPUT_STREAM && ( intptr_t ) value != SQL_PARAM_OUTPUT_STREAM ) { __post_internal_error ( & descriptor -> error , ERROR_HY105 , NULL , descriptor -> connection -> environment -> requested_version ) ; return function_return_nodrv ( SQL_HANDLE_DESC , descriptor , SQL_ERROR ) ; } if ( CHECK_SQLSETDESCFIELD ( descriptor -> connection ) ) { ret = SQLSETDESCFIELD ( descriptor -> connection , descriptor -> driver_desc , rec_number , field_identifier , value , buffer_length ) ; } else if ( CHECK_SQLSETDESCFIELDW ( descriptor -> connection ) ) { SQLWCHAR * s1 = NULL ; if ( isStrField ) { s1 = ansi_to_unicode_alloc ( value , buffer_length , descriptor -> connection , NULL ) ; if ( SQL_NTS != buffer_length ) { buffer_length *= sizeof ( SQLWCHAR ) ; } } else { s1 = value ; } ret = SQLSETDESCFIELDW ( descriptor -> connection , descriptor -> driver_desc , rec_number , field_identifier , s1 , buffer_length ) ; if ( isStrField ) { if ( s1 ) free ( s1 ) ; } } else { dm_log_write ( __FILE__ , __LINE__ , LOG_INFO , LOG_INFO , ""Error: IM001"" ) ; __post_internal_error ( & descriptor -> error ," 777,"CWE-119 WORD32 ih264d_parse_nal_unit ( iv_obj_t * dec_hdl , ivd_video_decode_op_t * ps_dec_op , UWORD8 * pu1_buf , UWORD32 u4_length ) { dec_bit_stream_t * ps_bitstrm ; dec_struct_t * ps_dec = ( dec_struct_t * ) dec_hdl -> pv_codec_handle ; ivd_video_decode_ip_t * ps_dec_in = ( ivd_video_decode_ip_t * ) ps_dec -> pv_dec_in ; dec_slice_params_t * ps_cur_slice = ps_dec -> ps_cur_slice ; UWORD8 u1_first_byte , u1_nal_ref_idc ; UWORD8 u1_nal_unit_type ; WORD32 i_status = OK ; ps_bitstrm = ps_dec -> ps_bitstrm ; if ( pu1_buf ) { if ( u4_length ) { ps_dec_op -> u4_frame_decoded_flag = 0 ; ih264d_process_nal_unit ( ps_dec -> ps_bitstrm , pu1_buf , u4_length ) ; SWITCHOFFTRACE ; u1_first_byte = ih264d_get_bits_h264 ( ps_bitstrm , 8 ) ; if ( NAL_FORBIDDEN_BIT ( u1_first_byte ) ) { H264_DEC_DEBUG_PRINT ( ""\\nForbidden bit set in Nal Unit, Let\'s try\\n"" ) ; } u1_nal_unit_type = NAL_UNIT_TYPE ( u1_first_byte ) ; ps_dec -> u1_nal_unit_type = u1_nal_unit_type ; u1_nal_ref_idc = ( UWORD8 ) ( NAL_REF_IDC ( u1_first_byte ) ) ; switch ( u1_nal_unit_type ) { case SLICE_DATA_PARTITION_A_NAL : case SLICE_DATA_PARTITION_B_NAL : case SLICE_DATA_PARTITION_C_NAL : if ( ! ps_dec -> i4_decode_header ) ih264d_parse_slice_partition ( ps_dec , ps_bitstrm ) ; break ; case IDR_SLICE_NAL : case SLICE_NAL : DEBUG_THREADS_PRINTF ( ""Decoding a slice NAL\\n"" ) ; if ( ! ps_dec -> i4_decode_header ) { if ( ps_dec -> i4_header_decoded == 3 ) { ps_dec -> u4_slice_start_code_found = 1 ; ih264d_rbsp_to_sodb ( ps_dec -> ps_bitstrm ) ; i_status = ih264d_parse_decode_slice ( ( UWORD8 ) ( u1_nal_unit_type == IDR_SLICE_NAL ) , u1_nal_ref_idc , ps_dec ) ; if ( ( ps_dec -> u4_first_slice_in_pic != 0 ) && ( ( ps_dec -> ps_dec_err_status -> u1_err_flag & REJECT_CUR_PIC ) == 0 ) ) { ps_dec -> u4_first_slice_in_pic = 1 ; } if ( i_status != OK ) { return i_status ; } } else { H264_DEC_DEBUG_PRINT ( ""\\nSlice NAL Supplied but no header has been supplied\\n"" ) ; } } break ; case SEI_NAL : if ( ! ps_dec -> i4_decode_header ) { ih264d_rbsp_to_sodb ( ps_dec -> ps_bitstrm ) ; i_status = ih264d_parse_sei_message ( ps_dec , ps_bitstrm ) ; if ( i_status != OK ) return i_status ; ih264d_parse_sei ( ps_dec , ps_bitstrm ) ; } break ;","WORD32 ih264d_parse_nal_unit ( iv_obj_t * dec_hdl , ivd_video_decode_op_t * ps_dec_op , UWORD8 * pu1_buf , UWORD32 u4_length ) { dec_bit_stream_t * ps_bitstrm ; dec_struct_t * ps_dec = ( dec_struct_t * ) dec_hdl -> pv_codec_handle ; ivd_video_decode_ip_t * ps_dec_in = ( ivd_video_decode_ip_t * ) ps_dec -> pv_dec_in ; dec_slice_params_t * ps_cur_slice = ps_dec -> ps_cur_slice ; UWORD8 u1_first_byte , u1_nal_ref_idc ; UWORD8 u1_nal_unit_type ; WORD32 i_status = OK ; ps_bitstrm = ps_dec -> ps_bitstrm ; if ( pu1_buf ) { if ( u4_length ) { ps_dec_op -> u4_frame_decoded_flag = 0 ; ih264d_process_nal_unit ( ps_dec -> ps_bitstrm , pu1_buf , u4_length ) ; SWITCHOFFTRACE ; u1_first_byte = ih264d_get_bits_h264 ( ps_bitstrm , 8 ) ; if ( NAL_FORBIDDEN_BIT ( u1_first_byte ) ) { H264_DEC_DEBUG_PRINT ( ""\\nForbidden bit set in Nal Unit, Let\'s try\\n"" ) ; } u1_nal_unit_type = NAL_UNIT_TYPE ( u1_first_byte ) ; if ( ( ps_dec -> u2_total_mbs_coded != 0 ) && ( u1_nal_unit_type > IDR_SLICE_NAL ) ) { return ERROR_INCOMPLETE_FRAME ; } ps_dec -> u1_nal_unit_type = u1_nal_unit_type ; u1_nal_ref_idc = ( UWORD8 ) ( NAL_REF_IDC ( u1_first_byte ) ) ; switch ( u1_nal_unit_type ) { case SLICE_DATA_PARTITION_A_NAL : case SLICE_DATA_PARTITION_B_NAL : case SLICE_DATA_PARTITION_C_NAL : if ( ! ps_dec -> i4_decode_header ) ih264d_parse_slice_partition ( ps_dec , ps_bitstrm ) ; break ; case IDR_SLICE_NAL : case SLICE_NAL : DEBUG_THREADS_PRINTF ( ""Decoding a slice NAL\\n"" ) ; if ( ! ps_dec -> i4_decode_header ) { if ( ps_dec -> i4_header_decoded == 3 ) { ps_dec -> u4_slice_start_code_found = 1 ; ih264d_rbsp_to_sodb ( ps_dec -> ps_bitstrm ) ; i_status = ih264d_parse_decode_slice ( ( UWORD8 ) ( u1_nal_unit_type == IDR_SLICE_NAL ) , u1_nal_ref_idc , ps_dec ) ; if ( ( ps_dec -> u4_first_slice_in_pic != 0 ) && ( ( ps_dec -> ps_dec_err_status -> u1_err_flag & REJECT_CUR_PIC ) == 0 ) ) { ps_dec -> u4_first_slice_in_pic = 1 ; } if ( i_status != OK ) { return i_status ; } } else { H264_DEC_DEBUG_PRINT ( ""\\nSlice NAL Supplied but no header has been supplied\\n"" ) ; } } break ; case SEI_NAL : if ( ! ps_dec -> i4_decode_header ) { ih264d_rbsp_to_sodb ( ps_dec -> ps_bitstrm ) ; i_status = ih264d_parse_sei_message ( ps_dec , ps_bitstrm ) ; if ( i_status != OK ) return i_status ; ih264d_parse_sei ( ps_dec , ps_bitstrm ) ; } break ;" 778,"CWE-125 int Util_handle0Escapes ( char * buf ) { int editpos ; int insertpos ; ASSERT ( buf ) ; for ( editpos = insertpos = 0 ; * ( buf + editpos ) != '\\0' ; editpos ++ , insertpos ++ ) { if ( * ( buf + editpos ) == '\\\\' ) { switch ( * ( buf + editpos + 1 ) ) { case '0' : if ( * ( buf + editpos + 2 ) == 'x' ) { * ( buf + insertpos ) = x2c ( & buf [ editpos + 3 ] ) ; editpos += 4 ; } break ; default : * ( buf + insertpos ) = * ( buf + editpos ) ; } } else { * ( buf + insertpos ) = * ( buf + editpos ) ; } } * ( buf + insertpos ) = '\\0' ; return insertpos ; }","int Util_handle0Escapes ( char * buf ) { int editpos ; int insertpos ; ASSERT ( buf ) ; for ( editpos = insertpos = 0 ; * ( buf + editpos ) != '\\0' ; editpos ++ , insertpos ++ ) { if ( * ( buf + editpos ) == '\\\\' ) { switch ( * ( buf + editpos + 1 ) ) { case '0' : if ( * ( buf + editpos + 2 ) == 'x' ) { * ( buf + insertpos ) = _x2c ( & buf [ editpos + 3 ] ) ; editpos += 4 ; } break ; default : * ( buf + insertpos ) = * ( buf + editpos ) ; } } else { * ( buf + insertpos ) = * ( buf + editpos ) ; } } * ( buf + insertpos ) = '\\0' ; return insertpos ; }" 779,"CWE-119 break ; case R_BIN_WASM_VALUETYPE_f32 : snprintf ( op -> txt , R_ASM_BUFSIZE , ""%s (result f32)"" , opdef -> txt ) ; break ; case R_BIN_WASM_VALUETYPE_f64 : snprintf ( op -> txt , R_ASM_BUFSIZE , ""%s (result f64)"" , opdef -> txt ) ; break ; default : snprintf ( op -> txt , R_ASM_BUFSIZE , ""%s (result ?)"" , opdef -> txt ) ; break ; } op -> len += n ; } break ; case WASM_OP_BR : case WASM_OP_BRIF : case WASM_OP_CALL : { ut32 val = 0 ; size_t n = read_u32_leb128 ( buf + 1 , buf + buf_len , & val ) ; if ( ! ( n > 0 && n < buf_len ) ) goto err ; snprintf ( op -> txt , R_ASM_BUFSIZE , ""%s %d"" , opdef -> txt , val ) ; op -> len += n ; } break ; case WASM_OP_BRTABLE : { ut32 count = 0 , * table = NULL , def = 0 ; size_t n = read_u32_leb128 ( buf + 1 , buf + buf_len , & count ) ; if ( ! ( n > 0 && n < buf_len ) ) { goto err ; } if ( ! ( table = calloc ( count , sizeof ( ut32 ) ) ) ) { goto err ; } int i = 0 ; op -> len += n ; for ( i = 0 ; i < count ; i ++ ) { n = read_u32_leb128 ( buf + op -> len , buf + buf_len , & table [ i ] ) ; if ( ! ( op -> len + n <= buf_len ) ) { goto beach ; } op -> len += n ; } n = read_u32_leb128 ( buf + op -> len , buf + buf_len , & def ) ; if ( ! ( n > 0 && n + op -> len < buf_len ) ) { goto beach ; } op -> len += n ; snprintf ( op -> txt , R_ASM_BUFSIZE , ""%s %d "" , opdef -> txt , count ) ; for ( i = 0 ; i < count && strlen ( op -> txt ) + 10 < R_ASM_BUFSIZE ; i ++ ) { int optxtlen = strlen ( op -> txt ) ; snprintf ( op -> txt + optxtlen , R_ASM_BUFSIZE - optxtlen , ""%d "" , table [ i ] ) ; } snprintf ( op -> txt + strlen ( op -> txt ) , R_ASM_BUFSIZE , ""%d"" , def ) ; free ( table ) ; break ; beach : free ( table ) ; goto err ; } break ; case WASM_OP_CALLINDIRECT : { ut32 val = 0 , reserved = 0 ; size_t n = read_u32_leb128 ( buf + 1 , buf + buf_len , & val ) ; if ( ! ( n > 0 && n < buf_len ) ) goto err ; op -> len += n ; n = read_u32_leb128 ( buf + op -> len , buf + buf_len , & reserved ) ; if ( ! ( n == 1 && op -> len + n <= buf_len ) ) goto err ; reserved &= 0x1 ; snprintf ( op -> txt , R_ASM_BUFSIZE , ""%s %d %d"" , opdef -> txt , val , reserved ) ; op -> len += n ; } break ; case WASM_OP_GETLOCAL : case WASM_OP_SETLOCAL : case WASM_OP_TEELOCAL : case WASM_OP_GETGLOBAL : case WASM_OP_SETGLOBAL : { ut32 val = 0 ; size_t n = read_u32_leb128 ( buf + 1 , buf + buf_len , & val ) ; if ( ! ( n > 0 && n < buf_len ) ) goto err ; snprintf ( op -> txt , R_ASM_BUFSIZE , ""%s %d"" , opdef -> txt , val ) ; op -> len += n ; } break ; case WASM_OP_I32LOAD : case WASM_OP_I64LOAD : case WASM_OP_F32LOAD : case WASM_OP_F64LOAD : case WASM_OP_I32LOAD8S : case WASM_OP_I32LOAD8U : case WASM_OP_I32LOAD16S : case WASM_OP_I32LOAD16U : case WASM_OP_I64LOAD8S : case WASM_OP_I64LOAD8U : case WASM_OP_I64LOAD16S : case WASM_OP_I64LOAD16U : case WASM_OP_I64LOAD32S : case WASM_OP_I64LOAD32U : case WASM_OP_I32STORE : case WASM_OP_I64STORE : case WASM_OP_F32STORE :","break ; case R_BIN_WASM_VALUETYPE_f32 : snprintf ( op -> txt , R_ASM_BUFSIZE , ""%s (result f32)"" , opdef -> txt ) ; break ; case R_BIN_WASM_VALUETYPE_f64 : snprintf ( op -> txt , R_ASM_BUFSIZE , ""%s (result f64)"" , opdef -> txt ) ; break ; default : snprintf ( op -> txt , R_ASM_BUFSIZE , ""%s (result ?)"" , opdef -> txt ) ; break ; } op -> len += n ; } break ; case WASM_OP_BR : case WASM_OP_BRIF : case WASM_OP_CALL : { ut32 val = 0 ; size_t n = read_u32_leb128 ( buf + 1 , buf + buf_len , & val ) ; if ( ! ( n > 0 && n < buf_len ) ) goto err ; snprintf ( op -> txt , R_ASM_BUFSIZE , ""%s %d"" , opdef -> txt , val ) ; op -> len += n ; } break ; case WASM_OP_BRTABLE : { ut32 count = 0 , * table = NULL , def = 0 ; size_t n = read_u32_leb128 ( buf + 1 , buf + buf_len , & count ) ; if ( ! ( n > 0 && n < buf_len ) ) { goto err ; } if ( ! ( table = calloc ( count , sizeof ( ut32 ) ) ) ) { goto err ; } int i = 0 ; op -> len += n ; for ( i = 0 ; i < count ; i ++ ) { n = read_u32_leb128 ( buf + op -> len , buf + buf_len , & table [ i ] ) ; if ( ! ( op -> len + n <= buf_len ) ) { goto beach ; } op -> len += n ; } n = read_u32_leb128 ( buf + op -> len , buf + buf_len , & def ) ; if ( ! ( n > 0 && n + op -> len < buf_len ) ) { goto beach ; } op -> len += n ; snprintf ( op -> txt , R_ASM_BUFSIZE , ""%s %d "" , opdef -> txt , count ) ; char * txt = op -> txt ; int txtLen = strlen ( op -> txt ) ; int txtLeft = R_ASM_BUFSIZE - txtLen ; txt += txtLen ; for ( i = 0 ; i < count && txtLen + 10 < R_ASM_BUFSIZE ; i ++ ) { snprintf ( txt , txtLeft , ""%d "" , table [ i ] ) ; txtLen = strlen ( txt ) ; txt += txtLen ; txtLeft -= txtLen ; } snprintf ( txt , txtLeft - 1 , ""%d"" , def ) ; free ( table ) ; break ; beach : free ( table ) ; goto err ; } break ; case WASM_OP_CALLINDIRECT : { ut32 val = 0 , reserved = 0 ; size_t n = read_u32_leb128 ( buf + 1 , buf + buf_len , & val ) ; if ( ! ( n > 0 && n < buf_len ) ) goto err ; op -> len += n ; n = read_u32_leb128 ( buf + op -> len , buf + buf_len , & reserved ) ; if ( ! ( n == 1 && op -> len + n <= buf_len ) ) goto err ; reserved &= 0x1 ; snprintf ( op -> txt , R_ASM_BUFSIZE , ""%s %d %d"" , opdef -> txt , val , reserved ) ; op -> len += n ; } break ; case WASM_OP_GETLOCAL : case WASM_OP_SETLOCAL : case WASM_OP_TEELOCAL : case WASM_OP_GETGLOBAL : case WASM_OP_SETGLOBAL : { ut32 val = 0 ; size_t n = read_u32_leb128 ( buf + 1 , buf + buf_len , & val ) ; if ( ! ( n > 0 && n < buf_len ) ) goto err ; snprintf ( op -> txt , R_ASM_BUFSIZE , ""%s %d"" , opdef -> txt , val ) ; op -> len += n ; } break ; case WASM_OP_I32LOAD : case WASM_OP_I64LOAD : case WASM_OP_F32LOAD : case WASM_OP_F64LOAD : case WASM_OP_I32LOAD8S : case WASM_OP_I32LOAD8U : case WASM_OP_I32LOAD16S : case WASM_OP_I32LOAD16U : case WASM_OP_I64LOAD8S : case WASM_OP_I64LOAD8U : case WASM_OP_I64LOAD16S : case WASM_OP_I64LOAD16U : case WASM_OP_I64LOAD32S : case WASM_OP_I64LOAD32U : case WASM_OP_I32STORE : case WASM_OP_I64STORE : case WASM_OP_F32STORE :" 780,"CWE-125 static void exif_mnote_data_canon_load ( ExifMnoteData * ne , const unsigned char * buf , unsigned int buf_size ) { ExifMnoteDataCanon * n = ( ExifMnoteDataCanon * ) ne ; ExifShort c ; size_t i , tcount , o , datao ; if ( ! n || ! buf || ! buf_size ) { exif_log ( ne -> log , EXIF_LOG_CODE_CORRUPT_DATA , ""ExifMnoteCanon"" , ""Short MakerNote"" ) ; return ; } datao = 6 + n -> offset ; if ( ( datao + 2 < datao ) || ( datao + 2 < 2 ) || ( datao + 2 > buf_size ) ) { exif_log ( ne -> log , EXIF_LOG_CODE_CORRUPT_DATA , ""ExifMnoteCanon"" , ""Short MakerNote"" ) ; return ; } c = exif_get_short ( buf + datao , n -> order ) ; datao += 2 ; exif_mnote_data_canon_clear ( n ) ; n -> entries = exif_mem_alloc ( ne -> mem , sizeof ( MnoteCanonEntry ) * c ) ; if ( ! n -> entries ) { EXIF_LOG_NO_MEMORY ( ne -> log , ""ExifMnoteCanon"" , sizeof ( MnoteCanonEntry ) * c ) ; return ; } tcount = 0 ; for ( i = c , o = datao ; i ; -- i , o += 12 ) { size_t s ; if ( ( o + 12 < o ) || ( o + 12 < 12 ) || ( o + 12 > buf_size ) ) { exif_log ( ne -> log , EXIF_LOG_CODE_CORRUPT_DATA , ""ExifMnoteCanon"" , ""Short MakerNote"" ) ; break ; } n -> entries [ tcount ] . tag = exif_get_short ( buf + o , n -> order ) ; n -> entries [ tcount ] . format = exif_get_short ( buf + o + 2 , n -> order ) ; n -> entries [ tcount ] . components = exif_get_long ( buf + o + 4 , n -> order ) ; n -> entries [ tcount ] . order = n -> order ; exif_log ( ne -> log , EXIF_LOG_CODE_DEBUG , ""ExifMnoteCanon"" , ""Loading entry 0x%x (\'%s\')..."" , n -> entries [ tcount ] . tag , mnote_canon_tag_get_name ( n -> entries [ tcount ] . tag ) ) ; s = exif_format_get_size ( n -> entries [ tcount ] . format ) * n -> entries [ tcount ] . components ; n -> entries [ tcount ] . size = s ; if ( ! s ) { exif_log ( ne -> log , EXIF_LOG_CODE_CORRUPT_DATA , ""ExifMnoteCanon"" , ""Invalid zero-length tag size"" ) ; continue ; } else { size_t dataofs = o + 8 ; if ( s > 4 ) dataofs = exif_get_long ( buf + dataofs , n -> order ) + 6 ; if ( ( dataofs + s < s ) || ( dataofs + s < dataofs ) || ( dataofs + s > buf_size ) ) { exif_log ( ne -> log , EXIF_LOG_CODE_DEBUG , ""ExifMnoteCanon"" , ""Tag data past end of buffer (%u > %u)"" , ( unsigned ) ( dataofs + s ) , buf_size ) ; continue ; } n -> entries [ tcount ] . data = exif_mem_alloc ( ne -> mem , s ) ; if ( ! n -> entries [ tcount ] . data ) { EXIF_LOG_NO_MEMORY ( ne -> log , ""ExifMnoteCanon"" , s ) ; continue ; } memcpy ( n -> entries [ tcount ] . data , buf + dataofs , s ) ; } } n -> count = tcount ; }","static void exif_mnote_data_canon_load ( ExifMnoteData * ne , const unsigned char * buf , unsigned int buf_size ) { ExifMnoteDataCanon * n = ( ExifMnoteDataCanon * ) ne ; ExifShort c ; size_t i , tcount , o , datao ; if ( ! n || ! buf || ! buf_size ) { exif_log ( ne -> log , EXIF_LOG_CODE_CORRUPT_DATA , ""ExifMnoteCanon"" , ""Short MakerNote"" ) ; return ; } datao = 6 + n -> offset ; if ( CHECKOVERFLOW ( datao , buf_size , 2 ) ) { exif_log ( ne -> log , EXIF_LOG_CODE_CORRUPT_DATA , ""ExifMnoteCanon"" , ""Short MakerNote"" ) ; return ; } c = exif_get_short ( buf + datao , n -> order ) ; datao += 2 ; exif_mnote_data_canon_clear ( n ) ; n -> entries = exif_mem_alloc ( ne -> mem , sizeof ( MnoteCanonEntry ) * c ) ; if ( ! n -> entries ) { EXIF_LOG_NO_MEMORY ( ne -> log , ""ExifMnoteCanon"" , sizeof ( MnoteCanonEntry ) * c ) ; return ; } tcount = 0 ; for ( i = c , o = datao ; i ; -- i , o += 12 ) { size_t s ; if ( CHECKOVERFLOW ( o , buf_size , 12 ) ) { exif_log ( ne -> log , EXIF_LOG_CODE_CORRUPT_DATA , ""ExifMnoteCanon"" , ""Short MakerNote"" ) ; break ; } n -> entries [ tcount ] . tag = exif_get_short ( buf + o , n -> order ) ; n -> entries [ tcount ] . format = exif_get_short ( buf + o + 2 , n -> order ) ; n -> entries [ tcount ] . components = exif_get_long ( buf + o + 4 , n -> order ) ; n -> entries [ tcount ] . order = n -> order ; exif_log ( ne -> log , EXIF_LOG_CODE_DEBUG , ""ExifMnoteCanon"" , ""Loading entry 0x%x (\'%s\')..."" , n -> entries [ tcount ] . tag , mnote_canon_tag_get_name ( n -> entries [ tcount ] . tag ) ) ; if ( exif_format_get_size ( n -> entries [ tcount ] . format ) && buf_size / exif_format_get_size ( n -> entries [ tcount ] . format ) < n -> entries [ tcount ] . components ) { exif_log ( ne -> log , EXIF_LOG_CODE_CORRUPT_DATA , ""ExifMnoteCanon"" , ""Tag size overflow detected (%u * %lu)"" , exif_format_get_size ( n -> entries [ tcount ] . format ) , n -> entries [ tcount ] . components ) ; continue ; } s = exif_format_get_size ( n -> entries [ tcount ] . format ) * n -> entries [ tcount ] . components ; n -> entries [ tcount ] . size = s ; if ( ! s ) { exif_log ( ne -> log , EXIF_LOG_CODE_CORRUPT_DATA , ""ExifMnoteCanon"" , ""Invalid zero-length tag size"" ) ; continue ; } else { size_t dataofs = o + 8 ; if ( s > 4 ) dataofs = exif_get_long ( buf + dataofs , n -> order ) + 6 ; if ( CHECKOVERFLOW ( dataofs , buf_size , s ) ) { exif_log ( ne -> log , EXIF_LOG_CODE_DEBUG , ""ExifMnoteCanon"" , ""Tag data past end of buffer (%u > %u)"" , ( unsigned ) ( dataofs + s ) , buf_size ) ; continue ; } n -> entries [ tcount ] . data = exif_mem_alloc ( ne -> mem , s ) ; if ( ! n -> entries [ tcount ] . data ) { EXIF_LOG_NO_MEMORY ( ne -> log , ""ExifMnoteCanon"" , s ) ; continue ; } memcpy ( n -> entries [ tcount ] . data , buf + dataofs , s ) ; } + tcount ; } n -> count = tcount ; }" 781,"CWE-125 int obj2ast_withitem ( PyObject * obj , withitem_ty * out , PyArena * arena ) { PyObject * tmp = NULL ; expr_ty context_expr ; expr_ty optional_vars ; if ( _PyObject_HasAttrId ( obj , & PyId_context_expr ) ) { int res ; tmp = _PyObject_GetAttrId ( obj , & PyId_context_expr ) ; if ( tmp == NULL ) goto failed ; res = obj2ast_expr ( tmp , & context_expr , arena ) ; if ( res != 0 ) goto failed ; Py_CLEAR ( tmp ) ; } else { PyErr_SetString ( PyExc_TypeError , ""required field \\""context_expr\\"" missing from withitem"" ) ; return 1 ; } if ( exists_not_none ( obj , & PyId_optional_vars ) ) { int res ; tmp = _PyObject_GetAttrId ( obj , & PyId_optional_vars ) ; if ( tmp == NULL ) goto failed ; res = obj2ast_expr ( tmp , & optional_vars , arena ) ; if ( res != 0 ) goto failed ; Py_CLEAR ( tmp ) ; } else { optional_vars = NULL ; } * out = withitem ( context_expr , optional_vars , arena ) ; return 0 ; failed : Py_XDECREF ( tmp ) ; return 1 ; }","int obj2ast_withitem ( PyObject * obj , withitem_ty * out , PyArena * arena ) { PyObject * tmp = NULL ; expr_ty context_expr ; expr_ty optional_vars ; if ( lookup_attr_id ( obj , & PyId_context_expr , & tmp ) < 0 ) { return 1 ; } if ( tmp == NULL ) { PyErr_SetString ( PyExc_TypeError , ""required field \\""context_expr\\"" missing from withitem"" ) ; return 1 ; } else { int res ; res = obj2ast_expr ( tmp , & context_expr , arena ) ; if ( res != 0 ) goto failed ; Py_CLEAR ( tmp ) ; } if ( lookup_attr_id ( obj , & PyId_optional_vars , & tmp ) < 0 ) { return 1 ; } if ( tmp == NULL || tmp == Py_None ) { Py_CLEAR ( tmp ) ; optional_vars = NULL ; } else { int res ; res = obj2ast_expr ( tmp , & optional_vars , arena ) ; if ( res != 0 ) goto failed ; Py_CLEAR ( tmp ) ; } * out = withitem ( context_expr , optional_vars , arena ) ; return 0 ; failed : Py_XDECREF ( tmp ) ; return 1 ; }" 782,"CWE-436 static void flatpak_proxy_client_init ( FlatpakProxyClient * client ) { init_side ( client , & client -> client_side ) ; init_side ( client , & client -> bus_side ) ; client -> auth_end_offset = AUTH_END_INIT_OFFSET ; client -> rewrite_reply = g_hash_table_new_full ( g_direct_hash , g_direct_equal , NULL , g_object_unref ) ; client -> get_owner_reply = g_hash_table_new_full ( g_direct_hash , g_direct_equal , NULL , g_free ) ; client -> unique_id_policy = g_hash_table_new_full ( g_str_hash , g_str_equal , g_free , NULL ) ; }","static void flatpak_proxy_client_init ( FlatpakProxyClient * client ) { init_side ( client , & client -> client_side ) ; init_side ( client , & client -> bus_side ) ; client -> auth_buffer = g_byte_array_new ( ) ; client -> rewrite_reply = g_hash_table_new_full ( g_direct_hash , g_direct_equal , NULL , g_object_unref ) ; client -> get_owner_reply = g_hash_table_new_full ( g_direct_hash , g_direct_equal , NULL , g_free ) ; client -> unique_id_policy = g_hash_table_new_full ( g_str_hash , g_str_equal , g_free , NULL ) ; }" 783,"CWE-119 static void scsi_write_data ( SCSIRequest * req ) { SCSIDiskReq * r = DO_UPCAST ( SCSIDiskReq , req , req ) ; SCSIDiskState * s = DO_UPCAST ( SCSIDiskState , qdev , r -> req . dev ) ; uint32_t n ; assert ( r -> req . aiocb == NULL ) ; if ( r -> req . cmd . mode != SCSI_XFER_TO_DEV ) { DPRINTF ( ""Data transfer direction invalid\\n"" ) ; scsi_write_complete ( r , - EINVAL ) ; return ; } n = r -> iov . iov_len / 512 ; if ( n ) { if ( s -> tray_open ) { scsi_write_complete ( r , - ENOMEDIUM ) ; } qemu_iovec_init_external ( & r -> qiov , & r -> iov , 1 ) ; bdrv_acct_start ( s -> bs , & r -> acct , n * BDRV_SECTOR_SIZE , BDRV_ACCT_WRITE ) ; r -> req . aiocb = bdrv_aio_writev ( s -> bs , r -> sector , & r -> qiov , n , scsi_write_complete , r ) ; if ( r -> req . aiocb == NULL ) { scsi_write_complete ( r , - ENOMEM ) ; } } else { scsi_write_complete ( r , 0 ) ; } }","static void scsi_write_data ( SCSIRequest * req ) { SCSIDiskReq * r = DO_UPCAST ( SCSIDiskReq , req , req ) ; SCSIDiskState * s = DO_UPCAST ( SCSIDiskState , qdev , r -> req . dev ) ; uint32_t n ; assert ( r -> req . aiocb == NULL ) ; if ( r -> req . cmd . mode != SCSI_XFER_TO_DEV ) { DPRINTF ( ""Data transfer direction invalid\\n"" ) ; scsi_write_complete ( r , - EINVAL ) ; return ; } n = r -> qiov . size / 512 ; if ( n ) { if ( s -> tray_open ) { scsi_write_complete ( r , - ENOMEDIUM ) ; } bdrv_acct_start ( s -> bs , & r -> acct , n * BDRV_SECTOR_SIZE , BDRV_ACCT_WRITE ) ; r -> req . aiocb = bdrv_aio_writev ( s -> bs , r -> sector , & r -> qiov , n , scsi_write_complete , r ) ; if ( r -> req . aiocb == NULL ) { scsi_write_complete ( r , - ENOMEM ) ; } } else { scsi_write_complete ( r , 0 ) ; } }" 784,"CWE-125 hlen = IP6M_MINLEN ; ND_TCHECK2 ( * mh , hlen + 1 ) ; if ( bp [ hlen ] & 0xf0 ) ND_PRINT ( ( ndo , "" "" ) ) ; if ( bp [ hlen ] & 0x80 ) ND_PRINT ( ( ndo , ""A"" ) ) ; if ( bp [ hlen ] & 0x40 ) ND_PRINT ( ( ndo , ""H"" ) ) ; if ( bp [ hlen ] & 0x20 ) ND_PRINT ( ( ndo , ""L"" ) ) ; if ( bp [ hlen ] & 0x10 ) ND_PRINT ( ( ndo , ""K"" ) ) ; hlen += 1 ; hlen += 1 ; ND_TCHECK2 ( * mh , hlen + 2 ) ; ND_PRINT ( ( ndo , "" lifetime=%u"" , EXTRACT_16BITS ( & bp [ hlen ] ) << 2 ) ) ; hlen += 2 ; break ; case IP6M_BINDING_ACK : ND_TCHECK ( mh -> ip6m_data8 [ 0 ] ) ; ND_PRINT ( ( ndo , "" status=%u"" , mh -> ip6m_data8 [ 0 ] ) ) ; if ( mh -> ip6m_data8 [ 1 ] & 0x80 ) ND_PRINT ( ( ndo , "" K"" ) ) ; hlen = IP6M_MINLEN ; ND_TCHECK2 ( * mh , hlen + 2 ) ; ND_PRINT ( ( ndo , "" seq#=%u"" , EXTRACT_16BITS ( & bp [ hlen ] ) ) ) ; hlen += 2 ; ND_TCHECK2 ( * mh , hlen + 2 ) ; ND_PRINT ( ( ndo , "" lifetime=%u"" , EXTRACT_16BITS ( & bp [ hlen ] ) << 2 ) ) ; hlen += 2 ; break ; case IP6M_BINDING_ERROR : ND_TCHECK ( mh -> ip6m_data8 [ 0 ] ) ; ND_PRINT ( ( ndo , "" status=%u"" , mh -> ip6m_data8 [ 0 ] ) ) ; hlen = IP6M_MINLEN ; ND_TCHECK2 ( * mh , hlen + 16 ) ; ND_PRINT ( ( ndo , "" homeaddr %s"" , ip6addr_string ( ndo , & bp [ hlen ] ) ) ) ; hlen += 16 ; break ; default : ND_PRINT ( ( ndo , "" len=%u"" , mh -> ip6m_len ) ) ; return ( mhlen ) ; break ; } if ( ndo -> ndo_vflag ) if ( mobility_opt_print ( ndo , & bp [ hlen ] , mhlen - hlen ) ) goto trunc ; return ( mhlen ) ; trunc : ND_PRINT ( ( ndo , ""%s"" , tstr ) ) ; return ( mhlen ) ; }","hlen = IP6M_MINLEN ; ND_TCHECK2 ( * mh , hlen + 1 ) ; if ( bp [ hlen ] & 0xf0 ) ND_PRINT ( ( ndo , "" "" ) ) ; if ( bp [ hlen ] & 0x80 ) ND_PRINT ( ( ndo , ""A"" ) ) ; if ( bp [ hlen ] & 0x40 ) ND_PRINT ( ( ndo , ""H"" ) ) ; if ( bp [ hlen ] & 0x20 ) ND_PRINT ( ( ndo , ""L"" ) ) ; if ( bp [ hlen ] & 0x10 ) ND_PRINT ( ( ndo , ""K"" ) ) ; hlen += 1 ; hlen += 1 ; ND_TCHECK2 ( * mh , hlen + 2 ) ; ND_PRINT ( ( ndo , "" lifetime=%u"" , EXTRACT_16BITS ( & bp [ hlen ] ) << 2 ) ) ; hlen += 2 ; break ; case IP6M_BINDING_ACK : ND_TCHECK ( mh -> ip6m_data8 [ 0 ] ) ; ND_PRINT ( ( ndo , "" status=%u"" , mh -> ip6m_data8 [ 0 ] ) ) ; if ( mh -> ip6m_data8 [ 1 ] & 0x80 ) ND_PRINT ( ( ndo , "" K"" ) ) ; hlen = IP6M_MINLEN ; ND_TCHECK2 ( * mh , hlen + 2 ) ; ND_PRINT ( ( ndo , "" seq#=%u"" , EXTRACT_16BITS ( & bp [ hlen ] ) ) ) ; hlen += 2 ; ND_TCHECK2 ( * mh , hlen + 2 ) ; ND_PRINT ( ( ndo , "" lifetime=%u"" , EXTRACT_16BITS ( & bp [ hlen ] ) << 2 ) ) ; hlen += 2 ; break ; case IP6M_BINDING_ERROR : ND_TCHECK ( mh -> ip6m_data8 [ 0 ] ) ; ND_PRINT ( ( ndo , "" status=%u"" , mh -> ip6m_data8 [ 0 ] ) ) ; hlen = IP6M_MINLEN ; ND_TCHECK2 ( * mh , hlen + 16 ) ; ND_PRINT ( ( ndo , "" homeaddr %s"" , ip6addr_string ( ndo , & bp [ hlen ] ) ) ) ; hlen += 16 ; break ; default : ND_PRINT ( ( ndo , "" len=%u"" , mh -> ip6m_len ) ) ; return ( mhlen ) ; break ; } if ( ndo -> ndo_vflag ) if ( mobility_opt_print ( ndo , & bp [ hlen ] , mhlen - hlen ) ) goto trunc ; return ( mhlen ) ; trunc : ND_PRINT ( ( ndo , ""%s"" , tstr ) ) ; return ( - 1 ) ; }" 785,"CWE-399 struct sctp_chunk * sctp_assoc_lookup_asconf_ack ( const struct sctp_association * asoc , __be32 serial ) { struct sctp_chunk * ack ; list_for_each_entry ( ack , & asoc -> asconf_ack_list , transmitted_list ) { if ( ack -> subh . addip_hdr -> serial == serial ) { sctp_chunk_hold ( ack ) ; return ack ; } } return NULL ; }","struct sctp_chunk * sctp_assoc_lookup_asconf_ack ( const struct sctp_association * asoc , __be32 serial ) { struct sctp_chunk * ack ; list_for_each_entry ( ack , & asoc -> asconf_ack_list , transmitted_list ) { if ( sctp_chunk_pending ( ack ) ) continue ; if ( ack -> subh . addip_hdr -> serial == serial ) { sctp_chunk_hold ( ack ) ; return ack ; } } return NULL ; }" 786,"CWE-119 int vp8_set_active_map ( VP8_COMP * cpi , unsigned char * map , unsigned int rows , unsigned int cols ) { if ( rows == cpi -> common . mb_rows && cols == cpi -> common . mb_cols ) { if ( map ) { vpx_memcpy ( cpi -> active_map , map , rows * cols ) ; cpi -> active_map_enabled = 1 ; } else cpi -> active_map_enabled = 0 ; return 0 ; } else { return - 1 ; } }","int vp8_set_active_map ( VP8_COMP * cpi , unsigned char * map , unsigned int rows , unsigned int cols ) { if ( rows == cpi -> common . mb_rows && cols == cpi -> common . mb_cols ) { if ( map ) { memcpy ( cpi -> active_map , map , rows * cols ) ; cpi -> active_map_enabled = 1 ; } else cpi -> active_map_enabled = 0 ; return 0 ; } else { return - 1 ; } }" 787,"CWE-20 int main ( int argc , char * * argv ) { mode_t old_umask ; cleanup_free char * base_path = NULL ; int clone_flags ; char * old_cwd = NULL ; pid_t pid ; int event_fd = - 1 ; int child_wait_fd = - 1 ; int setup_finished_pipe [ ] = { - 1 , - 1 } ; const char * new_cwd ; uid_t ns_uid ; gid_t ns_gid ; struct stat sbuf ; uint64_t val ; int res UNUSED ; cleanup_free char * seccomp_data = NULL ; size_t seccomp_len ; struct sock_fprog seccomp_prog ; cleanup_free char * args_data = NULL ; if ( argc == 2 && ( strcmp ( argv [ 1 ] , ""--version"" ) == 0 ) ) print_version_and_exit ( ) ; real_uid = getuid ( ) ; real_gid = getgid ( ) ; acquire_privs ( ) ; if ( prctl ( PR_SET_NO_NEW_PRIVS , 1 , 0 , 0 , 0 ) < 0 ) die_with_error ( ""prctl(PR_SET_NO_NEW_CAPS) failed"" ) ; read_overflowids ( ) ; argv0 = argv [ 0 ] ; if ( isatty ( 1 ) ) host_tty_dev = ttyname ( 1 ) ; argv ++ ; argc -- ; if ( argc == 0 ) usage ( EXIT_FAILURE , stderr ) ; parse_args ( & argc , ( const char * * * ) & argv ) ; args_data = opt_args_data ; opt_args_data = NULL ; if ( ( requested_caps [ 0 ] || requested_caps [ 1 ] ) && is_privileged ) die ( ""--cap-add in setuid mode can be used only by root"" ) ; if ( opt_userns_block_fd != - 1 && ! opt_unshare_user ) die ( ""--userns-block-fd requires --unshare-user"" ) ; if ( opt_userns_block_fd != - 1 && opt_info_fd == - 1 ) die ( ""--userns-block-fd requires --info-fd"" ) ; if ( ! is_privileged && getuid ( ) != 0 ) opt_unshare_user = TRUE ; # ifdef ENABLE_REQUIRE_USERNS if ( is_privileged && getuid ( ) != 0 ) opt_unshare_user = TRUE ; # endif if ( opt_unshare_user_try && stat ( ""/proc/self/ns/user"" , & sbuf ) == 0 ) { bool disabled = FALSE ; if ( stat ( ""/sys/module/user_namespace/parameters/enable"" , & sbuf ) == 0 ) { cleanup_free char * enable = NULL ; enable = load_file_at ( AT_FDCWD , ""/sys/module/user_namespace/parameters/enable"" ) ; if ( enable != NULL && enable [ 0 ] == 'N' ) disabled = TRUE ; } if ( stat ( ""/proc/sys/user/max_user_namespaces"" , & sbuf ) == 0 ) { cleanup_free char * max_user_ns = NULL ; max_user_ns = load_file_at ( AT_FDCWD , ""/proc/sys/user/max_user_namespaces"" ) ; if ( max_user_ns != NULL && strcmp ( max_user_ns , ""0\\n"" ) == 0 ) disabled = TRUE ; } if ( ! disabled ) opt_unshare_user = TRUE ; } if ( argc == 0 ) usage ( EXIT_FAILURE , stderr ) ; __debug__ ( ( ""Creating root mount point\\n"" ) ) ; if ( opt_sandbox_uid == - 1 ) opt_sandbox_uid = real_uid ; if ( opt_sandbox_gid == - 1 ) opt_sandbox_gid = real_gid ; if ( ! opt_unshare_user && opt_sandbox_uid != real_uid ) die ( ""Specifying --uid requires --unshare-user"" ) ; if ( ! opt_unshare_user && opt_sandbox_gid != real_gid ) die ( ""Specifying --gid requires --unshare-user"" ) ; if ( ! opt_unshare_uts && opt_sandbox_hostname != NULL ) die ( ""Specifying --hostname requires --unshare-uts"" ) ; if ( opt_as_pid_1 && ! opt_unshare_pid ) die ( ""Specifying --as-pid-1 requires --unshare-pid"" ) ; if ( opt_as_pid_1 && lock_files != NULL ) die ( ""Specifying --as-pid-1 and --lock-file is not permitted"" ) ; proc_fd = open ( ""/proc"" , O_PATH ) ; if ( proc_fd == - 1 ) die_with_error ( ""Can\'t open /proc"" ) ; base_path = xasprintf ( ""/run/user/%d/.bubblewrap"" , real_uid ) ; if ( ensure_dir ( base_path , 0755 ) ) { free ( base_path ) ; base_path = xasprintf ( ""/tmp/.bubblewrap-%d"" , real_uid ) ; if ( ensure_dir ( base_path , 0755 ) ) die_with_error ( ""Creating root mountpoint failed"" ) ; } __debug__ ( ( ""creating new namespace\\n"" ) ) ; if ( opt_unshare_pid && ! opt_as_pid_1 ) { event_fd = eventfd ( 0 , EFD_CLOEXEC | EFD_NONBLOCK ) ; if ( event_fd == - 1 ) die_with_error ( ""eventfd()"" ) ; } block_sigchild ( ) ; clone_flags = SIGCHLD | CLONE_NEWNS ; if ( opt_unshare_user ) clone_flags |= CLONE_NEWUSER ; if ( opt_unshare_pid ) clone_flags |= CLONE_NEWPID ; if ( opt_unshare_net ) clone_flags |= CLONE_NEWNET ; if ( opt_unshare_ipc ) clone_flags |= CLONE_NEWIPC ; if ( opt_unshare_uts ) clone_flags |= CLONE_NEWUTS ; if ( opt_unshare_cgroup ) { if ( stat ( ""/proc/self/ns/cgroup"" , & sbuf ) ) { if ( errno == ENOENT ) die ( ""Cannot create new cgroup namespace because the kernel does not support it"" ) ; else die_with_error ( ""stat on /proc/self/ns/cgroup failed"" ) ; } clone_flags |= CLONE_NEWCGROUP ; } if ( opt_unshare_cgroup_try ) if ( ! stat ( ""/proc/self/ns/cgroup"" , & sbuf ) ) clone_flags |= CLONE_NEWCGROUP ; child_wait_fd = eventfd ( 0 , EFD_CLOEXEC ) ; if ( child_wait_fd == - 1 ) die_with_error ( ""eventfd()"" ) ; if ( opt_json_status_fd != - 1 ) { int ret ; ret = pipe2 ( setup_finished_pipe , O_CLOEXEC ) ; if ( ret == - 1 ) die_with_error ( ""pipe2()"" ) ; } pid = raw_clone ( clone_flags , NULL ) ; if ( pid == - 1 ) { if ( opt_unshare_user ) { if ( errno == EINVAL ) die ( ""Creating new namespace failed, likely because the kernel does not support user namespaces. bwrap must be installed setuid on such systems."" ) ;","int main ( int argc , char * * argv ) { mode_t old_umask ; const char * base_path = NULL ; int clone_flags ; char * old_cwd = NULL ; pid_t pid ; int event_fd = - 1 ; int child_wait_fd = - 1 ; int setup_finished_pipe [ ] = { - 1 , - 1 } ; const char * new_cwd ; uid_t ns_uid ; gid_t ns_gid ; struct stat sbuf ; uint64_t val ; int res UNUSED ; cleanup_free char * seccomp_data = NULL ; size_t seccomp_len ; struct sock_fprog seccomp_prog ; cleanup_free char * args_data = NULL ; if ( argc == 2 && ( strcmp ( argv [ 1 ] , ""--version"" ) == 0 ) ) print_version_and_exit ( ) ; real_uid = getuid ( ) ; real_gid = getgid ( ) ; acquire_privs ( ) ; if ( prctl ( PR_SET_NO_NEW_PRIVS , 1 , 0 , 0 , 0 ) < 0 ) die_with_error ( ""prctl(PR_SET_NO_NEW_CAPS) failed"" ) ; read_overflowids ( ) ; argv0 = argv [ 0 ] ; if ( isatty ( 1 ) ) host_tty_dev = ttyname ( 1 ) ; argv ++ ; argc -- ; if ( argc == 0 ) usage ( EXIT_FAILURE , stderr ) ; parse_args ( & argc , ( const char * * * ) & argv ) ; args_data = opt_args_data ; opt_args_data = NULL ; if ( ( requested_caps [ 0 ] || requested_caps [ 1 ] ) && is_privileged ) die ( ""--cap-add in setuid mode can be used only by root"" ) ; if ( opt_userns_block_fd != - 1 && ! opt_unshare_user ) die ( ""--userns-block-fd requires --unshare-user"" ) ; if ( opt_userns_block_fd != - 1 && opt_info_fd == - 1 ) die ( ""--userns-block-fd requires --info-fd"" ) ; if ( ! is_privileged && getuid ( ) != 0 ) opt_unshare_user = TRUE ; # ifdef ENABLE_REQUIRE_USERNS if ( is_privileged && getuid ( ) != 0 ) opt_unshare_user = TRUE ; # endif if ( opt_unshare_user_try && stat ( ""/proc/self/ns/user"" , & sbuf ) == 0 ) { bool disabled = FALSE ; if ( stat ( ""/sys/module/user_namespace/parameters/enable"" , & sbuf ) == 0 ) { cleanup_free char * enable = NULL ; enable = load_file_at ( AT_FDCWD , ""/sys/module/user_namespace/parameters/enable"" ) ; if ( enable != NULL && enable [ 0 ] == 'N' ) disabled = TRUE ; } if ( stat ( ""/proc/sys/user/max_user_namespaces"" , & sbuf ) == 0 ) { cleanup_free char * max_user_ns = NULL ; max_user_ns = load_file_at ( AT_FDCWD , ""/proc/sys/user/max_user_namespaces"" ) ; if ( max_user_ns != NULL && strcmp ( max_user_ns , ""0\\n"" ) == 0 ) disabled = TRUE ; } if ( ! disabled ) opt_unshare_user = TRUE ; } if ( argc == 0 ) usage ( EXIT_FAILURE , stderr ) ; __debug__ ( ( ""Creating root mount point\\n"" ) ) ; if ( opt_sandbox_uid == - 1 ) opt_sandbox_uid = real_uid ; if ( opt_sandbox_gid == - 1 ) opt_sandbox_gid = real_gid ; if ( ! opt_unshare_user && opt_sandbox_uid != real_uid ) die ( ""Specifying --uid requires --unshare-user"" ) ; if ( ! opt_unshare_user && opt_sandbox_gid != real_gid ) die ( ""Specifying --gid requires --unshare-user"" ) ; if ( ! opt_unshare_uts && opt_sandbox_hostname != NULL ) die ( ""Specifying --hostname requires --unshare-uts"" ) ; if ( opt_as_pid_1 && ! opt_unshare_pid ) die ( ""Specifying --as-pid-1 requires --unshare-pid"" ) ; if ( opt_as_pid_1 && lock_files != NULL ) die ( ""Specifying --as-pid-1 and --lock-file is not permitted"" ) ; proc_fd = open ( ""/proc"" , O_PATH ) ; if ( proc_fd == - 1 ) die_with_error ( ""Can\'t open /proc"" ) ; base_path = ""/tmp"" ; __debug__ ( ( ""creating new namespace\\n"" ) ) ; if ( opt_unshare_pid && ! opt_as_pid_1 ) { event_fd = eventfd ( 0 , EFD_CLOEXEC | EFD_NONBLOCK ) ; if ( event_fd == - 1 ) die_with_error ( ""eventfd()"" ) ; } block_sigchild ( ) ; clone_flags = SIGCHLD | CLONE_NEWNS ; if ( opt_unshare_user ) clone_flags |= CLONE_NEWUSER ; if ( opt_unshare_pid ) clone_flags |= CLONE_NEWPID ; if ( opt_unshare_net ) clone_flags |= CLONE_NEWNET ; if ( opt_unshare_ipc ) clone_flags |= CLONE_NEWIPC ; if ( opt_unshare_uts ) clone_flags |= CLONE_NEWUTS ; if ( opt_unshare_cgroup ) { if ( stat ( ""/proc/self/ns/cgroup"" , & sbuf ) ) { if ( errno == ENOENT ) die ( ""Cannot create new cgroup namespace because the kernel does not support it"" ) ; else die_with_error ( ""stat on /proc/self/ns/cgroup failed"" ) ; } clone_flags |= CLONE_NEWCGROUP ; } if ( opt_unshare_cgroup_try ) if ( ! stat ( ""/proc/self/ns/cgroup"" , & sbuf ) ) clone_flags |= CLONE_NEWCGROUP ; child_wait_fd = eventfd ( 0 , EFD_CLOEXEC ) ; if ( child_wait_fd == - 1 ) die_with_error ( ""eventfd()"" ) ; if ( opt_json_status_fd != - 1 ) { int ret ; ret = pipe2 ( setup_finished_pipe , O_CLOEXEC ) ; if ( ret == - 1 ) die_with_error ( ""pipe2()"" ) ; } pid = raw_clone ( clone_flags , NULL ) ; if ( pid == - 1 ) { if ( opt_unshare_user ) { if ( errno == EINVAL ) die ( ""Creating new namespace failed, likely because the kernel does not support user namespaces. bwrap must be installed setuid on such systems."" ) ;" 788,CWE-125 if ( offset ) { data [ l ++ ] = offset ; } if ( mod == 2 ) { data [ l ++ ] = offset >> 8 ; data [ l ++ ] = offset >> 16 ; data [ l ++ ] = offset >> 24 ; } } } } else if ( op -> operands [ 1 ] . type & OT_MEMORY ) { if ( op -> operands [ 0 ] . type & OT_MEMORY ) { return - 1 ; } offset = op -> operands [ 1 ] . offset * op -> operands [ 1 ] . offset_sign ; if ( op -> operands [ 0 ] . reg == X86R_EAX && op -> operands [ 1 ] . regs [ 0 ] == X86R_UNDEFINED ) { if ( a -> bits == 64 ) { data [ l ++ ] = 0x48 ; } if ( op -> operands [ 0 ] . type & OT_BYTE ) { data [ l ++ ] = 0xa0 ; } else { data [ l ++ ] = 0xa1 ; } data [ l ++ ] = offset ; data [ l ++ ] = offset >> 8 ; data [ l ++ ] = offset >> 16 ; data [ l ++ ] = offset >> 24 ; if ( a -> bits == 64 ) { data [ l ++ ] = offset >> 32 ; data [ l ++ ] = offset >> 40 ; data [ l ++ ] = offset >> 48 ; data [ l ++ ] = offset >> 54 ; } return l ; } if ( op -> operands [ 0 ] . type & OT_BYTE && a -> bits == 64 && op -> operands [ 1 ] . regs [ 0 ] ) { if ( op -> operands [ 1 ] . regs [ 0 ] >= X86R_R8 && op -> operands [ 0 ] . reg < 4 ) { data [ l ++ ] = 0x41 ; data [ l ++ ] = 0x8a ; data [ l ++ ] = op -> operands [ 0 ] . reg << 3 | ( op -> operands [ 1 ] . regs [ 0 ] - 8 ) ; return l ; } return - 1 ; } if ( op -> operands [ 1 ] . type & OT_REGTYPE & OT_SEGMENTREG ) { if ( op -> operands [ 1 ] . scale [ 0 ] == 0 ) { return - 1 ; } data [ l ++ ] = SEG_REG_PREFIXES [ op -> operands [ 1 ] . regs [ 0 ] ] ; data [ l ++ ] = 0x8b ; data [ l ++ ] = op -> operands [ 0 ] . reg << 3 | 0x5 ; data [ l ++ ] = offset ; data [ l ++ ] = offset >> 8 ; data [ l ++ ] = offset >> 16 ; data [ l ++ ] = offset >> 24 ; return l ; } if ( a -> bits == 64 ) { if ( op -> operands [ 0 ] . type & OT_QWORD ) { if ( ! ( op -> operands [ 1 ] . type & OT_QWORD ) ) { if ( op -> operands [ 1 ] . regs [ 0 ] != - 1 ) { data [ l ++ ] = 0x67 ; } data [ l ++ ] = 0x48 ; } } else if ( op -> operands [ 1 ] . type & OT_DWORD ) { data [ l ++ ] = 0x44 ; } else if ( ! ( op -> operands [ 1 ] . type & OT_QWORD ) ) { data [ l ++ ] = 0x67 ; } if ( op -> operands [ 1 ] . type & OT_QWORD && op -> operands [ 0 ] . type & OT_QWORD ) { data [ l ++ ] = 0x48 ; } } if ( op -> operands [ 0 ] . type & OT_WORD ) { data [ l ++ ] = 0x66 ; data [ l ++ ] = op -> operands [ 1 ] . type & OT_BYTE ? 0x8a : 0x8b ; } else { data [ l ++ ] = ( op -> operands [ 1 ] . type & OT_BYTE || op -> operands [ 0 ] . type & OT_BYTE ) ? 0x8a : 0x8b ; } if ( op -> operands [ 1 ] . regs [ 0 ] == X86R_UNDEFINED ) { if ( a -> bits == 64 ) { data [ l ++ ] = op -> operands [ 0 ] . reg << 3 | 0x4 ; data [ l ++ ] = 0x25 ; } else { data [ l ++ ] = op -> operands [ 0 ] . reg << 3 | 0x5 ; } data [ l ++ ] = offset ; data [ l ++ ] = offset >> 8 ; data [ l ++ ] = offset >> 16 ; data [ l ++ ] = offset >> 24 ; } else { if ( op -> operands [ 1 ] . scale [ 0 ] > 1 ) { data [ l ++ ] = op -> operands [ 0 ] . reg << 3 | 4 ; if ( op -> operands [ 1 ] . scale [ 0 ] >= 2 ) { base = 5 ; } if ( base ) {,if ( offset ) { data [ l ++ ] = offset ; } if ( mod == 2 ) { data [ l ++ ] = offset >> 8 ; data [ l ++ ] = offset >> 16 ; data [ l ++ ] = offset >> 24 ; } } } } else if ( op -> operands [ 1 ] . type & OT_MEMORY ) { if ( op -> operands [ 0 ] . type & OT_MEMORY ) { return - 1 ; } offset = op -> operands [ 1 ] . offset * op -> operands [ 1 ] . offset_sign ; if ( op -> operands [ 0 ] . reg == X86R_EAX && op -> operands [ 1 ] . regs [ 0 ] == X86R_UNDEFINED ) { if ( a -> bits == 64 ) { data [ l ++ ] = 0x48 ; } if ( op -> operands [ 0 ] . type & OT_BYTE ) { data [ l ++ ] = 0xa0 ; } else { data [ l ++ ] = 0xa1 ; } data [ l ++ ] = offset ; data [ l ++ ] = offset >> 8 ; data [ l ++ ] = offset >> 16 ; data [ l ++ ] = offset >> 24 ; if ( a -> bits == 64 ) { data [ l ++ ] = offset >> 32 ; data [ l ++ ] = offset >> 40 ; data [ l ++ ] = offset >> 48 ; data [ l ++ ] = offset >> 54 ; } return l ; } if ( op -> operands [ 0 ] . type & OT_BYTE && a -> bits == 64 && op -> operands [ 1 ] . regs [ 0 ] ) { if ( op -> operands [ 1 ] . regs [ 0 ] >= X86R_R8 && op -> operands [ 0 ] . reg < 4 ) { data [ l ++ ] = 0x41 ; data [ l ++ ] = 0x8a ; data [ l ++ ] = op -> operands [ 0 ] . reg << 3 | ( op -> operands [ 1 ] . regs [ 0 ] - 8 ) ; return l ; } return - 1 ; } if ( op -> operands [ 1 ] . type & OT_REGTYPE & OT_SEGMENTREG ) { if ( op -> operands [ 1 ] . scale [ 0 ] == 0 ) { return - 1 ; } data [ l ++ ] = SEG_REG_PREFIXES [ op -> operands [ 1 ] . regs [ 0 ] % 6 ] ; data [ l ++ ] = 0x8b ; data [ l ++ ] = ( ( ( ut32 ) op -> operands [ 0 ] . reg ) << 3 ) | 0x5 ; data [ l ++ ] = offset ; data [ l ++ ] = offset >> 8 ; data [ l ++ ] = offset >> 16 ; data [ l ++ ] = offset >> 24 ; return l ; } if ( a -> bits == 64 ) { if ( op -> operands [ 0 ] . type & OT_QWORD ) { if ( ! ( op -> operands [ 1 ] . type & OT_QWORD ) ) { if ( op -> operands [ 1 ] . regs [ 0 ] != - 1 ) { data [ l ++ ] = 0x67 ; } data [ l ++ ] = 0x48 ; } } else if ( op -> operands [ 1 ] . type & OT_DWORD ) { data [ l ++ ] = 0x44 ; } else if ( ! ( op -> operands [ 1 ] . type & OT_QWORD ) ) { data [ l ++ ] = 0x67 ; } if ( op -> operands [ 1 ] . type & OT_QWORD && op -> operands [ 0 ] . type & OT_QWORD ) { data [ l ++ ] = 0x48 ; } } if ( op -> operands [ 0 ] . type & OT_WORD ) { data [ l ++ ] = 0x66 ; data [ l ++ ] = op -> operands [ 1 ] . type & OT_BYTE ? 0x8a : 0x8b ; } else { data [ l ++ ] = ( op -> operands [ 1 ] . type & OT_BYTE || op -> operands [ 0 ] . type & OT_BYTE ) ? 0x8a : 0x8b ; } if ( op -> operands [ 1 ] . regs [ 0 ] == X86R_UNDEFINED ) { if ( a -> bits == 64 ) { data [ l ++ ] = op -> operands [ 0 ] . reg << 3 | 0x4 ; data [ l ++ ] = 0x25 ; } else { data [ l ++ ] = op -> operands [ 0 ] . reg << 3 | 0x5 ; } data [ l ++ ] = offset ; data [ l ++ ] = offset >> 8 ; data [ l ++ ] = offset >> 16 ; data [ l ++ ] = offset >> 24 ; } else { if ( op -> operands [ 1 ] . scale [ 0 ] > 1 ) { data [ l ++ ] = op -> operands [ 0 ] . reg << 3 | 4 ; if ( op -> operands [ 1 ] . scale [ 0 ] >= 2 ) { base = 5 ; } if ( base ) { 789,"CWE-704 static void n_tty_set_termios ( struct tty_struct * tty , struct ktermios * old ) { struct n_tty_data * ldata = tty -> disc_data ; if ( ! old || ( old -> c_lflag ^ tty -> termios . c_lflag ) & ICANON ) { bitmap_zero ( ldata -> read_flags , N_TTY_BUF_SIZE ) ; ldata -> line_start = ldata -> read_tail ; if ( ! L_ICANON ( tty ) || ! read_cnt ( ldata ) ) { ldata -> canon_head = ldata -> read_tail ; ldata -> push = 0 ; } else { set_bit ( ( ldata -> read_head - 1 ) & ( N_TTY_BUF_SIZE - 1 ) , ldata -> read_flags ) ; ldata -> canon_head = ldata -> read_head ; ldata -> push = 1 ; } ldata -> commit_head = ldata -> read_head ; ldata -> erasing = 0 ; ldata -> lnext = 0 ; } ldata -> icanon = ( L_ICANON ( tty ) != 0 ) ; if ( I_ISTRIP ( tty ) || I_IUCLC ( tty ) || I_IGNCR ( tty ) || I_ICRNL ( tty ) || I_INLCR ( tty ) || L_ICANON ( tty ) || I_IXON ( tty ) || L_ISIG ( tty ) || L_ECHO ( tty ) || I_PARMRK ( tty ) ) { bitmap_zero ( ldata -> char_map , 256 ) ; if ( I_IGNCR ( tty ) || I_ICRNL ( tty ) ) set_bit ( '\\r' , ldata -> char_map ) ; if ( I_INLCR ( tty ) ) set_bit ( '\\n' , ldata -> char_map ) ; if ( L_ICANON ( tty ) ) { set_bit ( ERASE_CHAR ( tty ) , ldata -> char_map ) ; set_bit ( KILL_CHAR ( tty ) , ldata -> char_map ) ; set_bit ( EOF_CHAR ( tty ) , ldata -> char_map ) ; set_bit ( '\\n' , ldata -> char_map ) ; set_bit ( EOL_CHAR ( tty ) , ldata -> char_map ) ; if ( L_IEXTEN ( tty ) ) { set_bit ( WERASE_CHAR ( tty ) , ldata -> char_map ) ; set_bit ( LNEXT_CHAR ( tty ) , ldata -> char_map ) ; set_bit ( EOL2_CHAR ( tty ) , ldata -> char_map ) ; if ( L_ECHO ( tty ) ) set_bit ( REPRINT_CHAR ( tty ) , ldata -> char_map ) ; } } if ( I_IXON ( tty ) ) { set_bit ( START_CHAR ( tty ) , ldata -> char_map ) ; set_bit ( STOP_CHAR ( tty ) , ldata -> char_map ) ; } if ( L_ISIG ( tty ) ) { set_bit ( INTR_CHAR ( tty ) , ldata -> char_map ) ; set_bit ( QUIT_CHAR ( tty ) , ldata -> char_map ) ; set_bit ( SUSP_CHAR ( tty ) , ldata -> char_map ) ; } clear_bit ( __DISABLED_CHAR , ldata -> char_map ) ;","static void n_tty_set_termios ( struct tty_struct * tty , struct ktermios * old ) { struct n_tty_data * ldata = tty -> disc_data ; if ( ! old || ( old -> c_lflag ^ tty -> termios . c_lflag ) & ( ICANON | EXTPROC ) ) { bitmap_zero ( ldata -> read_flags , N_TTY_BUF_SIZE ) ; ldata -> line_start = ldata -> read_tail ; if ( ! L_ICANON ( tty ) || ! read_cnt ( ldata ) ) { ldata -> canon_head = ldata -> read_tail ; ldata -> push = 0 ; } else { set_bit ( ( ldata -> read_head - 1 ) & ( N_TTY_BUF_SIZE - 1 ) , ldata -> read_flags ) ; ldata -> canon_head = ldata -> read_head ; ldata -> push = 1 ; } ldata -> commit_head = ldata -> read_head ; ldata -> erasing = 0 ; ldata -> lnext = 0 ; } ldata -> icanon = ( L_ICANON ( tty ) != 0 ) ; if ( I_ISTRIP ( tty ) || I_IUCLC ( tty ) || I_IGNCR ( tty ) || I_ICRNL ( tty ) || I_INLCR ( tty ) || L_ICANON ( tty ) || I_IXON ( tty ) || L_ISIG ( tty ) || L_ECHO ( tty ) || I_PARMRK ( tty ) ) { bitmap_zero ( ldata -> char_map , 256 ) ; if ( I_IGNCR ( tty ) || I_ICRNL ( tty ) ) set_bit ( '\\r' , ldata -> char_map ) ; if ( I_INLCR ( tty ) ) set_bit ( '\\n' , ldata -> char_map ) ; if ( L_ICANON ( tty ) ) { set_bit ( ERASE_CHAR ( tty ) , ldata -> char_map ) ; set_bit ( KILL_CHAR ( tty ) , ldata -> char_map ) ; set_bit ( EOF_CHAR ( tty ) , ldata -> char_map ) ; set_bit ( '\\n' , ldata -> char_map ) ; set_bit ( EOL_CHAR ( tty ) , ldata -> char_map ) ; if ( L_IEXTEN ( tty ) ) { set_bit ( WERASE_CHAR ( tty ) , ldata -> char_map ) ; set_bit ( LNEXT_CHAR ( tty ) , ldata -> char_map ) ; set_bit ( EOL2_CHAR ( tty ) , ldata -> char_map ) ; if ( L_ECHO ( tty ) ) set_bit ( REPRINT_CHAR ( tty ) , ldata -> char_map ) ; } } if ( I_IXON ( tty ) ) { set_bit ( START_CHAR ( tty ) , ldata -> char_map ) ; set_bit ( STOP_CHAR ( tty ) , ldata -> char_map ) ; } if ( L_ISIG ( tty ) ) { set_bit ( INTR_CHAR ( tty ) , ldata -> char_map ) ; set_bit ( QUIT_CHAR ( tty ) , ldata -> char_map ) ; set_bit ( SUSP_CHAR ( tty ) , ldata -> char_map ) ; } clear_bit ( __DISABLED_CHAR , ldata -> char_map ) ;" 790,"CWE-119 static VALUE cState_array_nl_set ( VALUE self , VALUE array_nl ) { unsigned long len ; GET_STATE ( self ) ; Check_Type ( array_nl , T_STRING ) ; len = RSTRING_LEN ( array_nl ) ; if ( len == 0 ) { if ( state -> array_nl ) { ruby_xfree ( state -> array_nl ) ; state -> array_nl = NULL ; } } else { if ( state -> array_nl ) ruby_xfree ( state -> array_nl ) ; state -> array_nl = strdup ( RSTRING_PTR ( array_nl ) ) ; state -> array_nl_len = len ; } return Qnil ; }","static VALUE cState_array_nl_set ( VALUE self , VALUE array_nl ) { unsigned long len ; GET_STATE ( self ) ; Check_Type ( array_nl , T_STRING ) ; len = RSTRING_LEN ( array_nl ) ; if ( len == 0 ) { if ( state -> array_nl ) { ruby_xfree ( state -> array_nl ) ; state -> array_nl = NULL ; } } else { if ( state -> array_nl ) ruby_xfree ( state -> array_nl ) ; state -> array_nl = fstrndup ( RSTRING_PTR ( array_nl ) , len ) ; state -> array_nl_len = len ; } return Qnil ; }" 791,"CWE-59 static int fsmMkfile ( rpmfi fi , const char * dest , rpmfiles files , rpmpsm psm , int nodigest , int * setmeta , int * firsthardlink ) { int rc = 0 ; int numHardlinks = rpmfiFNlink ( fi ) ; if ( numHardlinks > 1 ) { if ( * firsthardlink < 0 ) { * firsthardlink = rpmfiFX ( fi ) ; rc = expandRegular ( fi , dest , psm , nodigest , 1 ) ; } else { char * fn = rpmfilesFN ( files , * firsthardlink ) ; rc = link ( fn , dest ) ; if ( rc < 0 ) { rc = RPMERR_LINK_FAILED ; } free ( fn ) ; } } if ( numHardlinks <= 1 ) { if ( ! rc ) rc = expandRegular ( fi , dest , psm , nodigest , 0 ) ; } else if ( rpmfiArchiveHasContent ( fi ) ) { if ( ! rc ) rc = expandRegular ( fi , dest , psm , nodigest , 0 ) ; * firsthardlink = - 1 ; } else { * setmeta = 0 ; } return rc ; }","static int fsmMkfile ( rpmfi fi , const char * dest , rpmfiles files , rpmpsm psm , int nodigest , int * setmeta , int * firsthardlink ) { int rc = 0 ; int numHardlinks = rpmfiFNlink ( fi ) ; if ( numHardlinks > 1 ) { if ( * firsthardlink < 0 ) { * firsthardlink = rpmfiFX ( fi ) ; rc = expandRegular ( fi , dest , psm , 1 , nodigest , 1 ) ; } else { char * fn = rpmfilesFN ( files , * firsthardlink ) ; rc = link ( fn , dest ) ; if ( rc < 0 ) { rc = RPMERR_LINK_FAILED ; } free ( fn ) ; } } if ( numHardlinks <= 1 ) { if ( ! rc ) rc = expandRegular ( fi , dest , psm , 1 , nodigest , 0 ) ; } else if ( rpmfiArchiveHasContent ( fi ) ) { if ( ! rc ) rc = expandRegular ( fi , dest , psm , 0 , nodigest , 0 ) ; * firsthardlink = - 1 ; } else { * setmeta = 0 ; } return rc ; }" 792,"CWE-119 void vp9_foreach_transformed_block ( const MACROBLOCKD * const xd , BLOCK_SIZE bsize , foreach_transformed_block_visitor visit , void * arg ) { int plane ; for ( plane = 0 ; plane < MAX_MB_PLANE ; plane ++ ) vp9_foreach_transformed_block_in_plane ( xd , bsize , plane , visit , arg ) ; }","void vp9_foreach_transformed_block ( const MACROBLOCKD * const xd , BLOCK_SIZE bsize , foreach_transformed_block_visitor visit , void * arg ) { int plane ; for ( plane = 0 ; plane < MAX_MB_PLANE ; ++ plane ) vp9_foreach_transformed_block_in_plane ( xd , bsize , plane , visit , arg ) ; }" 793,"NVD-CWE-Other static int em_syscall ( struct x86_emulate_ctxt * ctxt ) { struct x86_emulate_ops * ops = ctxt -> ops ; struct desc_struct cs , ss ; u64 msr_data ; u16 cs_sel , ss_sel ; u64 efer = 0 ; if ( ctxt -> mode == X86EMUL_MODE_REAL || ctxt -> mode == X86EMUL_MODE_VM86 ) return emulate_ud ( ctxt ) ; ops -> get_msr ( ctxt , MSR_EFER , & efer ) ; setup_syscalls_segments ( ctxt , & cs , & ss ) ; ops -> get_msr ( ctxt , MSR_STAR , & msr_data ) ; msr_data >>= 32 ; cs_sel = ( u16 ) ( msr_data & 0xfffc ) ; ss_sel = ( u16 ) ( msr_data + 8 ) ; if ( efer & EFER_LMA ) { cs . d = 0 ; cs . l = 1 ; } ops -> set_segment ( ctxt , cs_sel , & cs , 0 , VCPU_SREG_CS ) ; ops -> set_segment ( ctxt , ss_sel , & ss , 0 , VCPU_SREG_SS ) ; ctxt -> regs [ VCPU_REGS_RCX ] = ctxt -> _eip ; if ( efer & EFER_LMA ) { # ifdef CONFIG_X86_64 ctxt -> regs [ VCPU_REGS_R11 ] = ctxt -> eflags & ~ EFLG_RF ; ops -> get_msr ( ctxt , ctxt -> mode == X86EMUL_MODE_PROT64 ? MSR_LSTAR : MSR_CSTAR , & msr_data ) ; ctxt -> _eip = msr_data ; ops -> get_msr ( ctxt , MSR_SYSCALL_MASK , & msr_data ) ; ctxt -> eflags &= ~ ( msr_data | EFLG_RF ) ; # endif } else { ops -> get_msr ( ctxt , MSR_STAR , & msr_data ) ; ctxt -> _eip = ( u32 ) msr_data ; ctxt -> eflags &= ~ ( EFLG_VM | EFLG_IF | EFLG_RF ) ; } return X86EMUL_CONTINUE ; }","static int em_syscall ( struct x86_emulate_ctxt * ctxt ) { struct x86_emulate_ops * ops = ctxt -> ops ; struct desc_struct cs , ss ; u64 msr_data ; u16 cs_sel , ss_sel ; u64 efer = 0 ; if ( ctxt -> mode == X86EMUL_MODE_REAL || ctxt -> mode == X86EMUL_MODE_VM86 ) return emulate_ud ( ctxt ) ; if ( ! ( em_syscall_is_enabled ( ctxt ) ) ) return emulate_ud ( ctxt ) ; ops -> get_msr ( ctxt , MSR_EFER , & efer ) ; setup_syscalls_segments ( ctxt , & cs , & ss ) ; if ( ! ( efer & EFER_SCE ) ) return emulate_ud ( ctxt ) ; ops -> get_msr ( ctxt , MSR_STAR , & msr_data ) ; msr_data >>= 32 ; cs_sel = ( u16 ) ( msr_data & 0xfffc ) ; ss_sel = ( u16 ) ( msr_data + 8 ) ; if ( efer & EFER_LMA ) { cs . d = 0 ; cs . l = 1 ; } ops -> set_segment ( ctxt , cs_sel , & cs , 0 , VCPU_SREG_CS ) ; ops -> set_segment ( ctxt , ss_sel , & ss , 0 , VCPU_SREG_SS ) ; ctxt -> regs [ VCPU_REGS_RCX ] = ctxt -> _eip ; if ( efer & EFER_LMA ) { # ifdef CONFIG_X86_64 ctxt -> regs [ VCPU_REGS_R11 ] = ctxt -> eflags & ~ EFLG_RF ; ops -> get_msr ( ctxt , ctxt -> mode == X86EMUL_MODE_PROT64 ? MSR_LSTAR : MSR_CSTAR , & msr_data ) ; ctxt -> _eip = msr_data ; ops -> get_msr ( ctxt , MSR_SYSCALL_MASK , & msr_data ) ; ctxt -> eflags &= ~ ( msr_data | EFLG_RF ) ; # endif } else { ops -> get_msr ( ctxt , MSR_STAR , & msr_data ) ; ctxt -> _eip = ( u32 ) msr_data ; ctxt -> eflags &= ~ ( EFLG_VM | EFLG_IF | EFLG_RF ) ; } return X86EMUL_CONTINUE ; }" 794,"CWE-119 int vp9_get_raw_frame ( VP9Decoder * pbi , YV12_BUFFER_CONFIG * sd , int64_t * time_stamp , int64_t * time_end_stamp , vp9_ppflags_t * flags ) { int ret = - 1 ; if ( pbi -> ready_for_new_data == 1 ) return ret ; if ( pbi -> common . show_frame == 0 ) return ret ; pbi -> ready_for_new_data = 1 ; * time_stamp = pbi -> last_time_stamp ; * time_end_stamp = 0 ; # if CONFIG_VP9_POSTPROC ret = vp9_post_proc_frame ( & pbi -> common , sd , flags ) ; # else * sd = * pbi -> common . frame_to_show ; sd -> y_width = pbi -> common . width ; sd -> y_height = pbi -> common . height ; sd -> uv_width = sd -> y_width >> pbi -> common . subsampling_x ; sd -> uv_height = sd -> y_height >> pbi -> common . subsampling_y ; ret = 0 ; # endif vp9_clear_system_state ( ) ; return ret ; }","int vp9_get_raw_frame ( VP9Decoder * pbi , YV12_BUFFER_CONFIG * sd , vp9_ppflags_t * flags ) { VP9_COMMON * const cm = & pbi -> common ; int ret = - 1 ; # if ! CONFIG_VP9_POSTPROC ( void ) * flags ; # endif if ( pbi -> ready_for_new_data == 1 ) return ret ; pbi -> ready_for_new_data = 1 ; if ( ! cm -> show_frame ) return ret ; pbi -> ready_for_new_data = 1 ; # if CONFIG_VP9_POSTPROC if ( ! cm -> show_existing_frame ) { ret = vp9_post_proc_frame ( cm , sd , flags ) ; } else { * sd = * cm -> frame_to_show ; ret = 0 ; } # else * sd = * cm -> frame_to_show ; ret = 0 ; # endif vpx_clear_system_state ( ) ; return ret ; }" 795,"CWE-119 if ( count != ( ssize_t ) image -> colors ) ThrowReaderException ( CorruptImageError , ""UnexpectedEndOfFile"" ) ; for ( i = 0 ; i < ( ssize_t ) image -> colors ; i ++ ) image -> colormap [ i ] . green = ( MagickRealType ) ScaleCharToQuantum ( sun_colormap [ i ] ) ; count = ReadBlob ( image , image -> colors , sun_colormap ) ; if ( count != ( ssize_t ) image -> colors ) ThrowReaderException ( CorruptImageError , ""UnexpectedEndOfFile"" ) ; for ( i = 0 ; i < ( ssize_t ) image -> colors ; i ++ ) image -> colormap [ i ] . blue = ( MagickRealType ) ScaleCharToQuantum ( sun_colormap [ i ] ) ; sun_colormap = ( unsigned char * ) RelinquishMagickMemory ( sun_colormap ) ; break ; } case RMT_RAW : { unsigned char * sun_colormap ; sun_colormap = ( unsigned char * ) AcquireQuantumMemory ( sun_info . maplength , sizeof ( * sun_colormap ) ) ; if ( sun_colormap == ( unsigned char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; count = ReadBlob ( image , sun_info . maplength , sun_colormap ) ; if ( count != ( ssize_t ) sun_info . maplength ) ThrowReaderException ( CorruptImageError , ""UnexpectedEndOfFile"" ) ; sun_colormap = ( unsigned char * ) RelinquishMagickMemory ( sun_colormap ) ; break ; } default : ThrowReaderException ( CoderError , ""ColormapTypeNotSupported"" ) ; } image -> alpha_trait = sun_info . depth == 32 ? BlendPixelTrait : UndefinedPixelTrait ; image -> columns = sun_info . width ; image -> rows = sun_info . height ; if ( image_info -> ping != MagickFalse ) { ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; } status = SetImageExtent ( image , image -> columns , image -> rows , exception ) ; if ( status == MagickFalse ) return ( DestroyImageList ( image ) ) ; if ( ( sun_info . length * sizeof ( * sun_data ) ) / sizeof ( * sun_data ) != sun_info . length || ! sun_info . length ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; number_pixels = ( MagickSizeType ) image -> columns * image -> rows ; if ( ( sun_info . type != RT_ENCODED ) && ( sun_info . depth >= 8 ) && ( ( number_pixels * ( ( sun_info . depth + 7 ) / 8 ) ) > sun_info . length ) ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; sun_data = ( unsigned char * ) AcquireQuantumMemory ( ( size_t ) sun_info . length , sizeof ( * sun_data ) ) ; if ( sun_data == ( unsigned char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; count = ( ssize_t ) ReadBlob ( image , sun_info . length , sun_data ) ; if ( count != ( ssize_t ) sun_info . length ) ThrowReaderException ( CorruptImageError , ""UnableToReadImageData"" ) ; sun_pixels = sun_data ; bytes_per_line = 0 ; if ( sun_info . type == RT_ENCODED ) { size_t height ; height = sun_info . height ; bytes_per_line = sun_info . width * sun_info . depth ; if ( ( height == 0 ) || ( sun_info . width == 0 ) || ( sun_info . depth == 0 ) || ( ( bytes_per_line / sun_info . depth ) != sun_info . width ) ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; bytes_per_line += 15 ; bytes_per_line <<= 1 ; if ( ( bytes_per_line >> 1 ) != ( sun_info . width * sun_info . depth + 15 ) ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; bytes_per_line >>= 4 ; sun_pixels = ( unsigned char * ) AcquireQuantumMemory ( height , bytes_per_line * sizeof ( * sun_pixels ) ) ; if ( sun_pixels == ( unsigned char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; ( void ) DecodeImage ( sun_data , sun_info . length , sun_pixels , bytes_per_line * height ) ; sun_data = ( unsigned char * ) RelinquishMagickMemory ( sun_data ) ; } p = sun_pixels ; if ( sun_info . depth == 1 ) for ( y = 0 ; y < ( ssize_t ) image -> rows ; y ++ ) { q = QueueAuthenticPixels ( image , 0 , y , image -> columns , 1 , exception ) ; if ( q == ( Quantum * ) NULL ) break ; for ( x = 0 ; x < ( ( ssize_t ) image -> columns - 7 ) ; x += 8 ) { for ( bit = 7 ; bit >= 0 ; bit -- ) { SetPixelIndex ( image , ( Quantum ) ( ( * p ) & ( 0x01 << bit ) ? 0x00 : 0x01 ) , q ) ; q += GetPixelChannels ( image ) ; } p ++ ; } if ( ( image -> columns % 8 ) != 0 ) { for ( bit = 7 ; bit >= ( int ) ( 8 - ( image -> columns % 8 ) ) ; bit -- ) { SetPixelIndex ( image , ( Quantum ) ( ( * p ) & ( 0x01 << bit ) ? 0x00 : 0x01 ) , q ) ; q += GetPixelChannels ( image ) ; } p ++ ; } if ( ( ( ( image -> columns / 8 ) + ( image -> columns % 8 ? 1 : 0 ) ) % 2 ) != 0 ) p ++ ; if ( SyncAuthenticPixels ( image , exception ) == MagickFalse ) break ; if ( image -> previous == ( Image * ) NULL ) { status = SetImageProgress ( image , LoadImageTag , ( MagickOffsetType ) y ,","if ( count != ( ssize_t ) image -> colors ) ThrowReaderException ( CorruptImageError , ""UnexpectedEndOfFile"" ) ; for ( i = 0 ; i < ( ssize_t ) image -> colors ; i ++ ) image -> colormap [ i ] . green = ( MagickRealType ) ScaleCharToQuantum ( sun_colormap [ i ] ) ; count = ReadBlob ( image , image -> colors , sun_colormap ) ; if ( count != ( ssize_t ) image -> colors ) ThrowReaderException ( CorruptImageError , ""UnexpectedEndOfFile"" ) ; for ( i = 0 ; i < ( ssize_t ) image -> colors ; i ++ ) image -> colormap [ i ] . blue = ( MagickRealType ) ScaleCharToQuantum ( sun_colormap [ i ] ) ; sun_colormap = ( unsigned char * ) RelinquishMagickMemory ( sun_colormap ) ; break ; } case RMT_RAW : { unsigned char * sun_colormap ; sun_colormap = ( unsigned char * ) AcquireQuantumMemory ( sun_info . maplength , sizeof ( * sun_colormap ) ) ; if ( sun_colormap == ( unsigned char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; count = ReadBlob ( image , sun_info . maplength , sun_colormap ) ; if ( count != ( ssize_t ) sun_info . maplength ) ThrowReaderException ( CorruptImageError , ""UnexpectedEndOfFile"" ) ; sun_colormap = ( unsigned char * ) RelinquishMagickMemory ( sun_colormap ) ; break ; } default : ThrowReaderException ( CoderError , ""ColormapTypeNotSupported"" ) ; } image -> alpha_trait = sun_info . depth == 32 ? BlendPixelTrait : UndefinedPixelTrait ; image -> columns = sun_info . width ; image -> rows = sun_info . height ; if ( image_info -> ping != MagickFalse ) { ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; } status = SetImageExtent ( image , image -> columns , image -> rows , exception ) ; if ( status == MagickFalse ) return ( DestroyImageList ( image ) ) ; if ( ( sun_info . length * sizeof ( * sun_data ) ) / sizeof ( * sun_data ) != sun_info . length || ! sun_info . length ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; number_pixels = ( MagickSizeType ) image -> columns * image -> rows ; if ( ( sun_info . type != RT_ENCODED ) && ( sun_info . depth >= 8 ) && ( ( number_pixels * ( ( sun_info . depth + 7 ) / 8 ) ) > sun_info . length ) ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; bytes_per_line = sun_info . width * sun_info . depth ; sun_data = ( unsigned char * ) AcquireQuantumMemory ( ( size_t ) MagickMax ( sun_info . length , bytes_per_line * sun_info . width ) , sizeof ( * sun_data ) ) ; if ( sun_data == ( unsigned char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; count = ( ssize_t ) ReadBlob ( image , sun_info . length , sun_data ) ; if ( count != ( ssize_t ) sun_info . length ) ThrowReaderException ( CorruptImageError , ""UnableToReadImageData"" ) ; sun_pixels = sun_data ; bytes_per_line = 0 ; if ( sun_info . type == RT_ENCODED ) { size_t height ; height = sun_info . height ; if ( ( height == 0 ) || ( sun_info . width == 0 ) || ( sun_info . depth == 0 ) || ( ( bytes_per_line / sun_info . depth ) != sun_info . width ) ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; bytes_per_line += 15 ; bytes_per_line <<= 1 ; if ( ( bytes_per_line >> 1 ) != ( sun_info . width * sun_info . depth + 15 ) ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; bytes_per_line >>= 4 ; sun_pixels = ( unsigned char * ) AcquireQuantumMemory ( height , bytes_per_line * sizeof ( * sun_pixels ) ) ; if ( sun_pixels == ( unsigned char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; ( void ) DecodeImage ( sun_data , sun_info . length , sun_pixels , bytes_per_line * height ) ; sun_data = ( unsigned char * ) RelinquishMagickMemory ( sun_data ) ; } p = sun_pixels ; if ( sun_info . depth == 1 ) for ( y = 0 ; y < ( ssize_t ) image -> rows ; y ++ ) { q = QueueAuthenticPixels ( image , 0 , y , image -> columns , 1 , exception ) ; if ( q == ( Quantum * ) NULL ) break ; for ( x = 0 ; x < ( ( ssize_t ) image -> columns - 7 ) ; x += 8 ) { for ( bit = 7 ; bit >= 0 ; bit -- ) { SetPixelIndex ( image , ( Quantum ) ( ( * p ) & ( 0x01 << bit ) ? 0x00 : 0x01 ) , q ) ; q += GetPixelChannels ( image ) ; } p ++ ; } if ( ( image -> columns % 8 ) != 0 ) { for ( bit = 7 ; bit >= ( int ) ( 8 - ( image -> columns % 8 ) ) ; bit -- ) { SetPixelIndex ( image , ( Quantum ) ( ( * p ) & ( 0x01 << bit ) ? 0x00 : 0x01 ) , q ) ; q += GetPixelChannels ( image ) ; } p ++ ; } if ( ( ( ( image -> columns / 8 ) + ( image -> columns % 8 ? 1 : 0 ) ) % 2 ) != 0 ) p ++ ; if ( SyncAuthenticPixels ( image , exception ) == MagickFalse ) break ; if ( image -> previous == ( Image * ) NULL ) { status = SetImageProgress ( image , LoadImageTag , ( MagickOffsetType ) y ," 796,"CWE-399 static void xen_netbk_idx_release ( struct xen_netbk * netbk , u16 pending_idx ) { struct xenvif * vif ; struct pending_tx_info * pending_tx_info ; pending_ring_idx_t index ; if ( netbk -> mmap_pages [ pending_idx ] == NULL ) return ; pending_tx_info = & netbk -> pending_tx_info [ pending_idx ] ; vif = pending_tx_info -> vif ; make_tx_response ( vif , & pending_tx_info -> req , XEN_NETIF_RSP_OKAY ) ; index = pending_index ( netbk -> pending_prod ++ ) ; netbk -> pending_ring [ index ] = pending_idx ; xenvif_put ( vif ) ; netbk -> mmap_pages [ pending_idx ] -> mapping = 0 ; put_page ( netbk -> mmap_pages [ pending_idx ] ) ; netbk -> mmap_pages [ pending_idx ] = NULL ; }","static void xen_netbk_idx_release ( struct xen_netbk * netbk , u16 pending_idx , u8 status ) { struct xenvif * vif ; struct pending_tx_info * pending_tx_info ; pending_ring_idx_t index ; if ( netbk -> mmap_pages [ pending_idx ] == NULL ) return ; pending_tx_info = & netbk -> pending_tx_info [ pending_idx ] ; vif = pending_tx_info -> vif ; make_tx_response ( vif , & pending_tx_info -> req , status ) ; index = pending_index ( netbk -> pending_prod ++ ) ; netbk -> pending_ring [ index ] = pending_idx ; xenvif_put ( vif ) ; netbk -> mmap_pages [ pending_idx ] -> mapping = 0 ; put_page ( netbk -> mmap_pages [ pending_idx ] ) ; netbk -> mmap_pages [ pending_idx ] = NULL ; }" 797,"CWE-125 int ntlm_read_message_header ( wStream * s , NTLM_MESSAGE_HEADER * header ) { if ( Stream_GetRemainingLength ( s ) < 12 ) return - 1 ; Stream_Read ( s , header -> Signature , 8 ) ; Stream_Read_UINT32 ( s , header -> MessageType ) ; if ( strncmp ( ( char * ) header -> Signature , NTLM_SIGNATURE , 8 ) != 0 ) return - 1 ; return 1 ; }","static int ntlm_read_message_header ( wStream * s , NTLM_MESSAGE_HEADER * header ) { if ( Stream_GetRemainingLength ( s ) < 12 ) return - 1 ; Stream_Read ( s , header -> Signature , 8 ) ; Stream_Read_UINT32 ( s , header -> MessageType ) ; if ( strncmp ( ( char * ) header -> Signature , NTLM_SIGNATURE , 8 ) != 0 ) return - 1 ; return 1 ; }" 798,"CWE-20 static void rose_loopback_timer ( unsigned long param ) { struct sk_buff * skb ; struct net_device * dev ; rose_address * dest ; struct sock * sk ; unsigned short frametype ; unsigned int lci_i , lci_o ; while ( ( skb = skb_dequeue ( & loopback_queue ) ) != NULL ) { lci_i = ( ( skb -> data [ 0 ] << 8 ) & 0xF00 ) + ( ( skb -> data [ 1 ] << 0 ) & 0x0FF ) ; frametype = skb -> data [ 2 ] ; dest = ( rose_address * ) ( skb -> data + 4 ) ; lci_o = ROSE_DEFAULT_MAXVC + 1 - lci_i ; skb_reset_transport_header ( skb ) ; sk = rose_find_socket ( lci_o , rose_loopback_neigh ) ; if ( sk ) { if ( rose_process_rx_frame ( sk , skb ) == 0 ) kfree_skb ( skb ) ; continue ; } if ( frametype == ROSE_CALL_REQUEST ) { if ( ( dev = rose_dev_get ( dest ) ) != NULL ) { if ( rose_rx_call_request ( skb , dev , rose_loopback_neigh , lci_o ) == 0 ) kfree_skb ( skb ) ; } else { kfree_skb ( skb ) ; } } else { kfree_skb ( skb ) ; } } }","static void rose_loopback_timer ( unsigned long param ) { struct sk_buff * skb ; struct net_device * dev ; rose_address * dest ; struct sock * sk ; unsigned short frametype ; unsigned int lci_i , lci_o ; while ( ( skb = skb_dequeue ( & loopback_queue ) ) != NULL ) { if ( skb -> len < ROSE_MIN_LEN ) { kfree_skb ( skb ) ; continue ; } lci_i = ( ( skb -> data [ 0 ] << 8 ) & 0xF00 ) + ( ( skb -> data [ 1 ] << 0 ) & 0x0FF ) ; frametype = skb -> data [ 2 ] ; if ( frametype == ROSE_CALL_REQUEST && ( skb -> len <= ROSE_CALL_REQ_FACILITIES_OFF || skb -> data [ ROSE_CALL_REQ_ADDR_LEN_OFF ] != ROSE_CALL_REQ_ADDR_LEN_VAL ) ) { kfree_skb ( skb ) ; continue ; } dest = ( rose_address * ) ( skb -> data + ROSE_CALL_REQ_DEST_ADDR_OFF ) ; lci_o = ROSE_DEFAULT_MAXVC + 1 - lci_i ; skb_reset_transport_header ( skb ) ; sk = rose_find_socket ( lci_o , rose_loopback_neigh ) ; if ( sk ) { if ( rose_process_rx_frame ( sk , skb ) == 0 ) kfree_skb ( skb ) ; continue ; } if ( frametype == ROSE_CALL_REQUEST ) { if ( ( dev = rose_dev_get ( dest ) ) != NULL ) { if ( rose_rx_call_request ( skb , dev , rose_loopback_neigh , lci_o ) == 0 ) kfree_skb ( skb ) ; } else { kfree_skb ( skb ) ; } } else { kfree_skb ( skb ) ; } } }" 799,"CWE-189 while ( lzx -> frame < end_frame ) { if ( lzx -> reset_interval && ( ( lzx -> frame % lzx -> reset_interval ) == 0 ) ) { if ( lzx -> block_remaining ) { D ( ( ""%d bytes remaining at reset interval"" , lzx -> block_remaining ) ) return lzx -> error = MSPACK_ERR_DECRUNCH ; } lzxd_reset_state ( lzx ) ; R0 = lzx -> R0 ; R1 = lzx -> R1 ; R2 = lzx -> R2 ; } if ( lzx -> is_delta ) { ENSURE_BITS ( 16 ) ; REMOVE_BITS ( 16 ) ; } if ( ! lzx -> header_read ) { j = 0 ; READ_BITS ( i , 1 ) ; if ( i ) { READ_BITS ( i , 16 ) ; READ_BITS ( j , 16 ) ; } lzx -> intel_filesize = ( i << 16 ) | j ; lzx -> header_read = 1 ; } frame_size = LZX_FRAME_SIZE ; if ( lzx -> length && ( lzx -> length - lzx -> offset ) < ( off_t ) frame_size ) { frame_size = lzx -> length - lzx -> offset ; } bytes_todo = lzx -> frame_posn + frame_size - window_posn ; while ( bytes_todo > 0 ) { if ( lzx -> block_remaining == 0 ) { if ( ( lzx -> block_type == LZX_BLOCKTYPE_UNCOMPRESSED ) && ( lzx -> block_length & 1 ) ) { READ_IF_NEEDED ; i_ptr ++ ; } READ_BITS ( lzx -> block_type , 3 ) ; READ_BITS ( i , 16 ) ; READ_BITS ( j , 8 ) ; lzx -> block_remaining = lzx -> block_length = ( i << 8 ) | j ; switch ( lzx -> block_type ) { case LZX_BLOCKTYPE_ALIGNED : for ( i = 0 ; i < 8 ; i ++ ) { READ_BITS ( j , 3 ) ; lzx -> ALIGNED_len [ i ] = j ; } BUILD_TABLE ( ALIGNED ) ; case LZX_BLOCKTYPE_VERBATIM : READ_LENGTHS ( MAINTREE , 0 , 256 ) ; READ_LENGTHS ( MAINTREE , 256 , LZX_NUM_CHARS + lzx -> num_offsets ) ; BUILD_TABLE ( MAINTREE ) ; if ( lzx -> MAINTREE_len [ 0xE8 ] != 0 ) lzx -> intel_started = 1 ; READ_LENGTHS ( LENGTH , 0 , LZX_NUM_SECONDARY_LENGTHS ) ; BUILD_TABLE_MAYBE_EMPTY ( LENGTH ) ; break ; case LZX_BLOCKTYPE_UNCOMPRESSED : lzx -> intel_started = 1 ; ENSURE_BITS ( 16 ) ; if ( bits_left > 16 ) i_ptr -= 2 ; bits_left = 0 ; bit_buffer = 0 ; for ( rundest = & buf [ 0 ] , i = 0 ; i < 12 ; i ++ ) { READ_IF_NEEDED ; * rundest ++ = * i_ptr ++ ; } R0 = buf [ 0 ] | ( buf [ 1 ] << 8 ) | ( buf [ 2 ] << 16 ) | ( buf [ 3 ] << 24 ) ; R1 = buf [ 4 ] | ( buf [ 5 ] << 8 ) | ( buf [ 6 ] << 16 ) | ( buf [ 7 ] << 24 ) ; R2 = buf [ 8 ] | ( buf [ 9 ] << 8 ) | ( buf [ 10 ] << 16 ) | ( buf [ 11 ] << 24 ) ; break ; default : D ( ( ""bad block type"" ) ) return lzx -> error = MSPACK_ERR_DECRUNCH ; } } this_run = lzx -> block_remaining ; if ( this_run > bytes_todo ) this_run = bytes_todo ; bytes_todo -= this_run ; lzx -> block_remaining -= this_run ; switch ( lzx -> block_type ) { case LZX_BLOCKTYPE_VERBATIM : while ( this_run > 0 ) { READ_HUFFSYM ( MAINTREE , main_element ) ; if ( main_element < LZX_NUM_CHARS ) { window [ window_posn ++ ] = main_element ; this_run -- ; } else { main_element -= LZX_NUM_CHARS ; match_length = main_element & LZX_NUM_PRIMARY_LENGTHS ; if ( match_length == LZX_NUM_PRIMARY_LENGTHS ) { if ( lzx -> LENGTH_empty ) { D ( ( ""LENGTH symbol needed but tree is empty"" ) ) return lzx -> error = MSPACK_ERR_DECRUNCH ; } READ_HUFFSYM ( LENGTH , length_footer ) ; match_length += length_footer ; } match_length += LZX_MIN_MATCH ; switch ( ( match_offset = ( main_element >> 3 ) ) ) { case 0 : match_offset = R0 ; break ; case 1 : match_offset = R1 ; R1 = R0 ; R0 = match_offset ; break ; case 2 : match_offset = R2 ; R2 = R0 ; R0 = match_offset ; break ; case 3 : match_offset = 1 ; R2 = R1 ; R1 = R0 ; R0 = match_offset ; break ; default : extra = ( match_offset >= 36 ) ? 17 : extra_bits [ match_offset ] ; READ_BITS ( verbatim_bits , extra ) ; match_offset = position_base [ match_offset ] - 2 + verbatim_bits ; R2 = R1 ; R1 = R0 ; R0 = match_offset ; } if ( match_length == LZX_MAX_MATCH && lzx -> is_delta ) {","while ( lzx -> frame < end_frame ) { if ( lzx -> reset_interval && ( ( lzx -> frame % lzx -> reset_interval ) == 0 ) ) { if ( lzx -> block_remaining ) { D ( ( ""%d bytes remaining at reset interval"" , lzx -> block_remaining ) ) return lzx -> error = MSPACK_ERR_DECRUNCH ; } lzxd_reset_state ( lzx ) ; R0 = lzx -> R0 ; R1 = lzx -> R1 ; R2 = lzx -> R2 ; } if ( lzx -> is_delta ) { ENSURE_BITS ( 16 ) ; REMOVE_BITS ( 16 ) ; } if ( ! lzx -> header_read ) { j = 0 ; READ_BITS ( i , 1 ) ; if ( i ) { READ_BITS ( i , 16 ) ; READ_BITS ( j , 16 ) ; } lzx -> intel_filesize = ( i << 16 ) | j ; lzx -> header_read = 1 ; } frame_size = LZX_FRAME_SIZE ; if ( lzx -> length && ( lzx -> length - lzx -> offset ) < ( off_t ) frame_size ) { frame_size = lzx -> length - lzx -> offset ; } bytes_todo = lzx -> frame_posn + frame_size - window_posn ; while ( bytes_todo > 0 ) { if ( lzx -> block_remaining == 0 ) { if ( ( lzx -> block_type == LZX_BLOCKTYPE_UNCOMPRESSED ) && ( lzx -> block_length & 1 ) ) { READ_IF_NEEDED ; i_ptr ++ ; } READ_BITS ( lzx -> block_type , 3 ) ; READ_BITS ( i , 16 ) ; READ_BITS ( j , 8 ) ; lzx -> block_remaining = lzx -> block_length = ( i << 8 ) | j ; switch ( lzx -> block_type ) { case LZX_BLOCKTYPE_ALIGNED : for ( i = 0 ; i < 8 ; i ++ ) { READ_BITS ( j , 3 ) ; lzx -> ALIGNED_len [ i ] = j ; } BUILD_TABLE ( ALIGNED ) ; case LZX_BLOCKTYPE_VERBATIM : READ_LENGTHS ( MAINTREE , 0 , 256 ) ; READ_LENGTHS ( MAINTREE , 256 , LZX_NUM_CHARS + lzx -> num_offsets ) ; BUILD_TABLE ( MAINTREE ) ; if ( lzx -> MAINTREE_len [ 0xE8 ] != 0 ) lzx -> intel_started = 1 ; READ_LENGTHS ( LENGTH , 0 , LZX_NUM_SECONDARY_LENGTHS ) ; BUILD_TABLE_MAYBE_EMPTY ( LENGTH ) ; break ; case LZX_BLOCKTYPE_UNCOMPRESSED : lzx -> intel_started = 1 ; if ( bits_left == 0 ) ENSURE_BITS ( 16 ) ; bits_left = 0 ; bit_buffer = 0 ; for ( rundest = & buf [ 0 ] , i = 0 ; i < 12 ; i ++ ) { READ_IF_NEEDED ; * rundest ++ = * i_ptr ++ ; } R0 = buf [ 0 ] | ( buf [ 1 ] << 8 ) | ( buf [ 2 ] << 16 ) | ( buf [ 3 ] << 24 ) ; R1 = buf [ 4 ] | ( buf [ 5 ] << 8 ) | ( buf [ 6 ] << 16 ) | ( buf [ 7 ] << 24 ) ; R2 = buf [ 8 ] | ( buf [ 9 ] << 8 ) | ( buf [ 10 ] << 16 ) | ( buf [ 11 ] << 24 ) ; break ; default : D ( ( ""bad block type"" ) ) return lzx -> error = MSPACK_ERR_DECRUNCH ; } } this_run = lzx -> block_remaining ; if ( this_run > bytes_todo ) this_run = bytes_todo ; bytes_todo -= this_run ; lzx -> block_remaining -= this_run ; switch ( lzx -> block_type ) { case LZX_BLOCKTYPE_VERBATIM : while ( this_run > 0 ) { READ_HUFFSYM ( MAINTREE , main_element ) ; if ( main_element < LZX_NUM_CHARS ) { window [ window_posn ++ ] = main_element ; this_run -- ; } else { main_element -= LZX_NUM_CHARS ; match_length = main_element & LZX_NUM_PRIMARY_LENGTHS ; if ( match_length == LZX_NUM_PRIMARY_LENGTHS ) { if ( lzx -> LENGTH_empty ) { D ( ( ""LENGTH symbol needed but tree is empty"" ) ) return lzx -> error = MSPACK_ERR_DECRUNCH ; } READ_HUFFSYM ( LENGTH , length_footer ) ; match_length += length_footer ; } match_length += LZX_MIN_MATCH ; switch ( ( match_offset = ( main_element >> 3 ) ) ) { case 0 : match_offset = R0 ; break ; case 1 : match_offset = R1 ; R1 = R0 ; R0 = match_offset ; break ; case 2 : match_offset = R2 ; R2 = R0 ; R0 = match_offset ; break ; case 3 : match_offset = 1 ; R2 = R1 ; R1 = R0 ; R0 = match_offset ; break ; default : extra = ( match_offset >= 36 ) ? 17 : extra_bits [ match_offset ] ; READ_BITS ( verbatim_bits , extra ) ; match_offset = position_base [ match_offset ] - 2 + verbatim_bits ; R2 = R1 ; R1 = R0 ; R0 = match_offset ; } if ( match_length == LZX_MAX_MATCH && lzx -> is_delta ) {" 800,"CWE-119 vpx_codec_err_t vpx_codec_enc_config_set ( vpx_codec_ctx_t * ctx , const vpx_codec_enc_cfg_t * cfg ) { vpx_codec_err_t res ; if ( ! ctx || ! ctx -> iface || ! ctx -> priv || ! cfg ) res = VPX_CODEC_INVALID_PARAM ; else if ( ! ( ctx -> iface -> caps & VPX_CODEC_CAP_ENCODER ) ) res = VPX_CODEC_INCAPABLE ; else res = ctx -> iface -> enc . cfg_set ( ctx -> priv -> alg_priv , cfg ) ; return SAVE_STATUS ( ctx , res ) ; }","vpx_codec_err_t vpx_codec_enc_config_set ( vpx_codec_ctx_t * ctx , const vpx_codec_enc_cfg_t * cfg ) { vpx_codec_err_t res ; if ( ! ctx || ! ctx -> iface || ! ctx -> priv || ! cfg ) res = VPX_CODEC_INVALID_PARAM ; else if ( ! ( ctx -> iface -> caps & VPX_CODEC_CAP_ENCODER ) ) res = VPX_CODEC_INCAPABLE ; else res = ctx -> iface -> enc . cfg_set ( get_alg_priv ( ctx ) , cfg ) ; return SAVE_STATUS ( ctx , res ) ; }" 801,"CWE-20 int __kvm_set_memory_region ( struct kvm * kvm , struct kvm_userspace_memory_region * mem , int user_alloc ) { int r ; gfn_t base_gfn ; unsigned long npages ; unsigned long i ; struct kvm_memory_slot * memslot ; struct kvm_memory_slot old , new ; struct kvm_memslots * slots , * old_memslots ; r = - EINVAL ; if ( mem -> memory_size & ( PAGE_SIZE - 1 ) ) goto out ; if ( mem -> guest_phys_addr & ( PAGE_SIZE - 1 ) ) goto out ; if ( user_alloc && ( mem -> userspace_addr & ( PAGE_SIZE - 1 ) ) ) goto out ; if ( mem -> slot >= KVM_MEMORY_SLOTS + KVM_PRIVATE_MEM_SLOTS ) goto out ; if ( mem -> guest_phys_addr + mem -> memory_size < mem -> guest_phys_addr ) goto out ; memslot = & kvm -> memslots -> memslots [ mem -> slot ] ; base_gfn = mem -> guest_phys_addr >> PAGE_SHIFT ; npages = mem -> memory_size >> PAGE_SHIFT ; r = - EINVAL ; if ( npages > KVM_MEM_MAX_NR_PAGES ) goto out ; if ( ! npages ) mem -> flags &= ~ KVM_MEM_LOG_DIRTY_PAGES ; new = old = * memslot ; new . id = mem -> slot ; new . base_gfn = base_gfn ; new . npages = npages ; new . flags = mem -> flags ; r = - EINVAL ; if ( npages && old . npages && npages != old . npages ) goto out_free ; r = - EEXIST ; for ( i = 0 ; i < KVM_MEMORY_SLOTS ; ++ i ) { struct kvm_memory_slot * s = & kvm -> memslots -> memslots [ i ] ; if ( s == memslot || ! s -> npages ) continue ; if ( ! ( ( base_gfn + npages <= s -> base_gfn ) || ( base_gfn >= s -> base_gfn + s -> npages ) ) ) goto out_free ; } if ( ! ( new . flags & KVM_MEM_LOG_DIRTY_PAGES ) ) new . dirty_bitmap = NULL ; r = - ENOMEM ; # ifndef CONFIG_S390 if ( npages && ! new . rmap ) { new . rmap = vzalloc ( npages * sizeof ( * new . rmap ) ) ; if ( ! new . rmap ) goto out_free ; new . user_alloc = user_alloc ; new . userspace_addr = mem -> userspace_addr ; } if ( ! npages ) goto skip_lpage ; for ( i = 0 ; i < KVM_NR_PAGE_SIZES - 1 ; ++ i ) { unsigned long ugfn ; unsigned long j ; int lpages ; int level = i + 2 ; ( void ) level ; if ( new . lpage_info [ i ] )","int __kvm_set_memory_region ( struct kvm * kvm , struct kvm_userspace_memory_region * mem , int user_alloc ) { int r ; gfn_t base_gfn ; unsigned long npages ; unsigned long i ; struct kvm_memory_slot * memslot ; struct kvm_memory_slot old , new ; struct kvm_memslots * slots , * old_memslots ; r = - EINVAL ; if ( mem -> memory_size & ( PAGE_SIZE - 1 ) ) goto out ; if ( mem -> guest_phys_addr & ( PAGE_SIZE - 1 ) ) goto out ; if ( user_alloc && ( ( mem -> userspace_addr & ( PAGE_SIZE - 1 ) ) || ! access_ok ( VERIFY_WRITE , mem -> userspace_addr , mem -> memory_size ) ) ) goto out ; if ( mem -> slot >= KVM_MEMORY_SLOTS + KVM_PRIVATE_MEM_SLOTS ) goto out ; if ( mem -> guest_phys_addr + mem -> memory_size < mem -> guest_phys_addr ) goto out ; memslot = & kvm -> memslots -> memslots [ mem -> slot ] ; base_gfn = mem -> guest_phys_addr >> PAGE_SHIFT ; npages = mem -> memory_size >> PAGE_SHIFT ; r = - EINVAL ; if ( npages > KVM_MEM_MAX_NR_PAGES ) goto out ; if ( ! npages ) mem -> flags &= ~ KVM_MEM_LOG_DIRTY_PAGES ; new = old = * memslot ; new . id = mem -> slot ; new . base_gfn = base_gfn ; new . npages = npages ; new . flags = mem -> flags ; r = - EINVAL ; if ( npages && old . npages && npages != old . npages ) goto out_free ; r = - EEXIST ; for ( i = 0 ; i < KVM_MEMORY_SLOTS ; ++ i ) { struct kvm_memory_slot * s = & kvm -> memslots -> memslots [ i ] ; if ( s == memslot || ! s -> npages ) continue ; if ( ! ( ( base_gfn + npages <= s -> base_gfn ) || ( base_gfn >= s -> base_gfn + s -> npages ) ) ) goto out_free ; } if ( ! ( new . flags & KVM_MEM_LOG_DIRTY_PAGES ) ) new . dirty_bitmap = NULL ; r = - ENOMEM ; # ifndef CONFIG_S390 if ( npages && ! new . rmap ) { new . rmap = vzalloc ( npages * sizeof ( * new . rmap ) ) ; if ( ! new . rmap ) goto out_free ; new . user_alloc = user_alloc ; new . userspace_addr = mem -> userspace_addr ; } if ( ! npages ) goto skip_lpage ; for ( i = 0 ; i < KVM_NR_PAGE_SIZES - 1 ; ++ i ) { unsigned long ugfn ; unsigned long j ; int lpages ; int level = i + 2 ; ( void ) level ; if ( new . lpage_info [ i ] )" 802,"CWE-189 void oz_hcd_get_desc_cnf ( void * hport , u8 req_id , int status , const u8 * desc , int length , int offset , int total_size ) { struct oz_port * port = hport ; struct urb * urb ; int err = 0 ; oz_dbg ( ON , ""oz_hcd_get_desc_cnf length = %d offs = %d tot_size = %d\\n"" , length , offset , total_size ) ; urb = oz_find_urb_by_id ( port , 0 , req_id ) ; if ( ! urb ) return ; if ( status == 0 ) { int copy_len ; int required_size = urb -> transfer_buffer_length ; if ( required_size > total_size ) required_size = total_size ; copy_len = required_size - offset ; if ( length <= copy_len ) copy_len = length ; memcpy ( urb -> transfer_buffer + offset , desc , copy_len ) ; offset += copy_len ; if ( offset < required_size ) { struct usb_ctrlrequest * setup = ( struct usb_ctrlrequest * ) urb -> setup_packet ; unsigned wvalue = le16_to_cpu ( setup -> wValue ) ; if ( oz_enqueue_ep_urb ( port , 0 , 0 , urb , req_id ) ) err = - ENOMEM ; else if ( oz_usb_get_desc_req ( port -> hpd , req_id , setup -> bRequestType , ( u8 ) ( wvalue >> 8 ) , ( u8 ) wvalue , setup -> wIndex , offset , required_size - offset ) ) { oz_dequeue_ep_urb ( port , 0 , 0 , urb ) ; err = - ENOMEM ; } if ( err == 0 ) return ; } } urb -> actual_length = total_size ; oz_complete_urb ( port -> ozhcd -> hcd , urb , 0 ) ; }","void oz_hcd_get_desc_cnf ( void * hport , u8 req_id , u8 status , const u8 * desc , u8 length , u16 offset , u16 total_size ) { struct oz_port * port = hport ; struct urb * urb ; int err = 0 ; oz_dbg ( ON , ""oz_hcd_get_desc_cnf length = %d offs = %d tot_size = %d\\n"" , length , offset , total_size ) ; urb = oz_find_urb_by_id ( port , 0 , req_id ) ; if ( ! urb ) return ; if ( status == 0 ) { unsigned int copy_len ; unsigned int required_size = urb -> transfer_buffer_length ; if ( required_size > total_size ) required_size = total_size ; copy_len = required_size - offset ; if ( length <= copy_len ) copy_len = length ; memcpy ( urb -> transfer_buffer + offset , desc , copy_len ) ; offset += copy_len ; if ( offset < required_size ) { struct usb_ctrlrequest * setup = ( struct usb_ctrlrequest * ) urb -> setup_packet ; unsigned wvalue = le16_to_cpu ( setup -> wValue ) ; if ( oz_enqueue_ep_urb ( port , 0 , 0 , urb , req_id ) ) err = - ENOMEM ; else if ( oz_usb_get_desc_req ( port -> hpd , req_id , setup -> bRequestType , ( u8 ) ( wvalue >> 8 ) , ( u8 ) wvalue , setup -> wIndex , offset , required_size - offset ) ) { oz_dequeue_ep_urb ( port , 0 , 0 , urb ) ; err = - ENOMEM ; } if ( err == 0 ) return ; } } urb -> actual_length = total_size ; oz_complete_urb ( port -> ozhcd -> hcd , urb , 0 ) ; }" 803,"CWE-20 static int _snd_timer_stop ( struct snd_timer_instance * timeri , int keep_flag , int event ) { struct snd_timer * timer ; unsigned long flags ; if ( snd_BUG_ON ( ! timeri ) ) return - ENXIO ; if ( timeri -> flags & SNDRV_TIMER_IFLG_SLAVE ) { if ( ! keep_flag ) { spin_lock_irqsave ( & slave_active_lock , flags ) ; timeri -> flags &= ~ SNDRV_TIMER_IFLG_RUNNING ; spin_unlock_irqrestore ( & slave_active_lock , flags ) ; } goto __end ; } timer = timeri -> timer ; if ( ! timer ) return - EINVAL ; spin_lock_irqsave ( & timer -> lock , flags ) ; list_del_init ( & timeri -> ack_list ) ; list_del_init ( & timeri -> active_list ) ; if ( ( timeri -> flags & SNDRV_TIMER_IFLG_RUNNING ) && ! ( -- timer -> running ) ) { timer -> hw . stop ( timer ) ; if ( timer -> flags & SNDRV_TIMER_FLG_RESCHED ) { timer -> flags &= ~ SNDRV_TIMER_FLG_RESCHED ; snd_timer_reschedule ( timer , 0 ) ; if ( timer -> flags & SNDRV_TIMER_FLG_CHANGE ) { timer -> flags &= ~ SNDRV_TIMER_FLG_CHANGE ; timer -> hw . start ( timer ) ; } } } if ( ! keep_flag ) timeri -> flags &= ~ ( SNDRV_TIMER_IFLG_RUNNING | SNDRV_TIMER_IFLG_START ) ; spin_unlock_irqrestore ( & timer -> lock , flags ) ; __end : if ( event != SNDRV_TIMER_EVENT_RESOLUTION ) snd_timer_notify1 ( timeri , event ) ; return 0 ; }","static int _snd_timer_stop ( struct snd_timer_instance * timeri , int keep_flag , int event ) { struct snd_timer * timer ; unsigned long flags ; if ( snd_BUG_ON ( ! timeri ) ) return - ENXIO ; if ( timeri -> flags & SNDRV_TIMER_IFLG_SLAVE ) { if ( ! keep_flag ) { spin_lock_irqsave ( & slave_active_lock , flags ) ; timeri -> flags &= ~ SNDRV_TIMER_IFLG_RUNNING ; list_del_init ( & timeri -> ack_list ) ; list_del_init ( & timeri -> active_list ) ; spin_unlock_irqrestore ( & slave_active_lock , flags ) ; } goto __end ; } timer = timeri -> timer ; if ( ! timer ) return - EINVAL ; spin_lock_irqsave ( & timer -> lock , flags ) ; list_del_init ( & timeri -> ack_list ) ; list_del_init ( & timeri -> active_list ) ; if ( ( timeri -> flags & SNDRV_TIMER_IFLG_RUNNING ) && ! ( -- timer -> running ) ) { timer -> hw . stop ( timer ) ; if ( timer -> flags & SNDRV_TIMER_FLG_RESCHED ) { timer -> flags &= ~ SNDRV_TIMER_FLG_RESCHED ; snd_timer_reschedule ( timer , 0 ) ; if ( timer -> flags & SNDRV_TIMER_FLG_CHANGE ) { timer -> flags &= ~ SNDRV_TIMER_FLG_CHANGE ; timer -> hw . start ( timer ) ; } } } if ( ! keep_flag ) timeri -> flags &= ~ ( SNDRV_TIMER_IFLG_RUNNING | SNDRV_TIMER_IFLG_START ) ; spin_unlock_irqrestore ( & timer -> lock , flags ) ; __end : if ( event != SNDRV_TIMER_EVENT_RESOLUTION ) snd_timer_notify1 ( timeri , event ) ; return 0 ; }" 804,"CWE-617 bi = pci_businfo [ bus ] ; if ( bi == NULL ) { if ( bus != 0 ) return ; } dsdt_line ( "" Device (PCI%01X)"" , bus ) ; dsdt_line ( "" {"" ) ; dsdt_line ( "" Name (_HID, EisaId (\\""PNP0A03\\""))"" ) ; dsdt_line ( "" Name (_ADR, Zero)"" ) ; dsdt_line ( "" Method (_BBN, 0, NotSerialized)"" ) ; dsdt_line ( "" {"" ) ; dsdt_line ( "" Return (0x%08X)"" , bus ) ; dsdt_line ( "" }"" ) ; dsdt_line ( "" Name (_CRS, ResourceTemplate ()"" ) ; dsdt_line ( "" {"" ) ; dsdt_line ( "" WordBusNumber (ResourceProducer, MinFixed, "" ""MaxFixed, PosDecode,"" ) ; dsdt_line ( "" 0x0000, // Granularity"" ) ; dsdt_line ( "" 0x%04X, // Range Minimum"" , bus ) ; dsdt_line ( "" 0x%04X, // Range Maximum"" , bus ) ; dsdt_line ( "" 0x0000, // Translation Offset"" ) ; dsdt_line ( "" 0x0001, // Length"" ) ; dsdt_line ( "" ,, )"" ) ; if ( bus == 0 ) { dsdt_indent ( 3 ) ; dsdt_fixed_ioport ( 0xCF8 , 8 ) ; dsdt_unindent ( 3 ) ; dsdt_line ( "" WordIO (ResourceProducer, MinFixed, MaxFixed, "" ""PosDecode, EntireRange,"" ) ; dsdt_line ( "" 0x0000, // Granularity"" ) ; dsdt_line ( "" 0x0000, // Range Minimum"" ) ; dsdt_line ( "" 0x0CF7, // Range Maximum"" ) ; dsdt_line ( "" 0x0000, // Translation Offset"" ) ; dsdt_line ( "" 0x0CF8, // Length"" ) ; dsdt_line ( "" ,, , TypeStatic)"" ) ; dsdt_line ( "" WordIO (ResourceProducer, MinFixed, MaxFixed, "" ""PosDecode, EntireRange,"" ) ; dsdt_line ( "" 0x0000, // Granularity"" ) ; dsdt_line ( "" 0x0D00, // Range Minimum"" ) ; dsdt_line ( "" 0x%04X, // Range Maximum"" , PCI_EMUL_IOBASE - 1 ) ; dsdt_line ( "" 0x0000, // Translation Offset"" ) ; dsdt_line ( "" 0x%04X, // Length"" , PCI_EMUL_IOBASE - 0x0D00 ) ; dsdt_line ( "" ,, , TypeStatic)"" ) ; if ( bi == NULL ) { dsdt_line ( "" })"" ) ; goto done ; } } assert ( bi != NULL ) ; dsdt_line ( "" WordIO (ResourceProducer, MinFixed, MaxFixed, "" ""PosDecode, EntireRange,"" ) ; dsdt_line ( "" 0x0000, // Granularity"" ) ; dsdt_line ( "" 0x%04X, // Range Minimum"" , bi -> iobase ) ; dsdt_line ( "" 0x%04X, // Range Maximum"" , bi -> iolimit - 1 ) ; dsdt_line ( "" 0x0000, // Translation Offset"" ) ; dsdt_line ( "" 0x%04X, // Length"" , bi -> iolimit - bi -> iobase ) ; dsdt_line ( "" ,, , TypeStatic)"" ) ; dsdt_line ( "" DWordMemory (ResourceProducer, PosDecode, "" ""MinFixed, MaxFixed, NonCacheable, ReadWrite,"" ) ; dsdt_line ( "" 0x00000000, // Granularity"" ) ; dsdt_line ( "" 0x%08X, // Range Minimum\\n"" , bi -> membase32 ) ; dsdt_line ( "" 0x%08X, // Range Maximum\\n"" , bi -> memlimit32 - 1 ) ; dsdt_line ( "" 0x00000000, // Translation Offset"" ) ; dsdt_line ( "" 0x%08X, // Length\\n"" , bi -> memlimit32 - bi -> membase32 ) ; dsdt_line ( "" ,, , AddressRangeMemory, TypeStatic)"" ) ; dsdt_line ( "" QWordMemory (ResourceProducer, PosDecode, "" ""MinFixed, MaxFixed, NonCacheable, ReadWrite,"" ) ; dsdt_line ( "" 0x0000000000000000, // Granularity"" ) ; dsdt_line ( "" 0x%016lX, // Range Minimum\\n"" , bi -> membase64 ) ; dsdt_line ( "" 0x%016lX, // Range Maximum\\n"" , bi -> memlimit64 - 1 ) ; dsdt_line ( "" 0x0000000000000000, // Translation Offset"" ) ; dsdt_line ( "" 0x%016lX, // Length\\n"" , bi -> memlimit64 - bi -> membase64 ) ; dsdt_line ( "" ,, , AddressRangeMemory, TypeStatic)"" ) ; dsdt_line ( "" })"" ) ; if ( ! is_rtvm ) { count = pci_count_lintr ( bus ) ; if ( count != 0 ) { dsdt_indent ( 2 ) ; dsdt_line ( ""Name (PPRT, Package ()"" ) ; dsdt_line ( ""{"" ) ; pci_walk_lintr ( bus , pci_pirq_prt_entry , NULL ) ; dsdt_line ( ""})"" ) ; dsdt_line ( ""Name (APRT, Package ()"" ) ; dsdt_line ( ""{"" ) ; pci_walk_lintr ( bus , pci_apic_prt_entry , NULL ) ; dsdt_line ( ""})"" ) ; dsdt_line ( ""Method (_PRT, 0, NotSerialized)"" ) ; dsdt_line ( ""{"" ) ; dsdt_line ( "" If (PICM)"" ) ; dsdt_line ( "" {"" ) ; dsdt_line ( "" Return (APRT)"" ) ; dsdt_line ( "" }"" ) ; dsdt_line ( "" Else"" ) ;","bi = pci_businfo [ bus ] ; if ( bi == NULL ) { if ( bus != 0 ) return ; } dsdt_line ( "" Device (PCI%01X)"" , bus ) ; dsdt_line ( "" {"" ) ; dsdt_line ( "" Name (_HID, EisaId (\\""PNP0A03\\""))"" ) ; dsdt_line ( "" Name (_ADR, Zero)"" ) ; dsdt_line ( "" Method (_BBN, 0, NotSerialized)"" ) ; dsdt_line ( "" {"" ) ; dsdt_line ( "" Return (0x%08X)"" , bus ) ; dsdt_line ( "" }"" ) ; dsdt_line ( "" Name (_CRS, ResourceTemplate ()"" ) ; dsdt_line ( "" {"" ) ; dsdt_line ( "" WordBusNumber (ResourceProducer, MinFixed, "" ""MaxFixed, PosDecode,"" ) ; dsdt_line ( "" 0x0000, // Granularity"" ) ; dsdt_line ( "" 0x%04X, // Range Minimum"" , bus ) ; dsdt_line ( "" 0x%04X, // Range Maximum"" , bus ) ; dsdt_line ( "" 0x0000, // Translation Offset"" ) ; dsdt_line ( "" 0x0001, // Length"" ) ; dsdt_line ( "" ,, )"" ) ; if ( bus == 0 ) { dsdt_indent ( 3 ) ; dsdt_fixed_ioport ( 0xCF8 , 8 ) ; dsdt_unindent ( 3 ) ; dsdt_line ( "" WordIO (ResourceProducer, MinFixed, MaxFixed, "" ""PosDecode, EntireRange,"" ) ; dsdt_line ( "" 0x0000, // Granularity"" ) ; dsdt_line ( "" 0x0000, // Range Minimum"" ) ; dsdt_line ( "" 0x0CF7, // Range Maximum"" ) ; dsdt_line ( "" 0x0000, // Translation Offset"" ) ; dsdt_line ( "" 0x0CF8, // Length"" ) ; dsdt_line ( "" ,, , TypeStatic)"" ) ; dsdt_line ( "" WordIO (ResourceProducer, MinFixed, MaxFixed, "" ""PosDecode, EntireRange,"" ) ; dsdt_line ( "" 0x0000, // Granularity"" ) ; dsdt_line ( "" 0x0D00, // Range Minimum"" ) ; dsdt_line ( "" 0x%04X, // Range Maximum"" , PCI_EMUL_IOBASE - 1 ) ; dsdt_line ( "" 0x0000, // Translation Offset"" ) ; dsdt_line ( "" 0x%04X, // Length"" , PCI_EMUL_IOBASE - 0x0D00 ) ; dsdt_line ( "" ,, , TypeStatic)"" ) ; if ( bi == NULL ) { dsdt_line ( "" })"" ) ; goto done ; } } dsdt_line ( "" WordIO (ResourceProducer, MinFixed, MaxFixed, "" ""PosDecode, EntireRange,"" ) ; dsdt_line ( "" 0x0000, // Granularity"" ) ; dsdt_line ( "" 0x%04X, // Range Minimum"" , bi -> iobase ) ; dsdt_line ( "" 0x%04X, // Range Maximum"" , bi -> iolimit - 1 ) ; dsdt_line ( "" 0x0000, // Translation Offset"" ) ; dsdt_line ( "" 0x%04X, // Length"" , bi -> iolimit - bi -> iobase ) ; dsdt_line ( "" ,, , TypeStatic)"" ) ; dsdt_line ( "" DWordMemory (ResourceProducer, PosDecode, "" ""MinFixed, MaxFixed, NonCacheable, ReadWrite,"" ) ; dsdt_line ( "" 0x00000000, // Granularity"" ) ; dsdt_line ( "" 0x%08X, // Range Minimum\\n"" , bi -> membase32 ) ; dsdt_line ( "" 0x%08X, // Range Maximum\\n"" , bi -> memlimit32 - 1 ) ; dsdt_line ( "" 0x00000000, // Translation Offset"" ) ; dsdt_line ( "" 0x%08X, // Length\\n"" , bi -> memlimit32 - bi -> membase32 ) ; dsdt_line ( "" ,, , AddressRangeMemory, TypeStatic)"" ) ; dsdt_line ( "" QWordMemory (ResourceProducer, PosDecode, "" ""MinFixed, MaxFixed, NonCacheable, ReadWrite,"" ) ; dsdt_line ( "" 0x0000000000000000, // Granularity"" ) ; dsdt_line ( "" 0x%016lX, // Range Minimum\\n"" , bi -> membase64 ) ; dsdt_line ( "" 0x%016lX, // Range Maximum\\n"" , bi -> memlimit64 - 1 ) ; dsdt_line ( "" 0x0000000000000000, // Translation Offset"" ) ; dsdt_line ( "" 0x%016lX, // Length\\n"" , bi -> memlimit64 - bi -> membase64 ) ; dsdt_line ( "" ,, , AddressRangeMemory, TypeStatic)"" ) ; dsdt_line ( "" })"" ) ; if ( ! is_rtvm ) { count = pci_count_lintr ( bus ) ; if ( count != 0 ) { dsdt_indent ( 2 ) ; dsdt_line ( ""Name (PPRT, Package ()"" ) ; dsdt_line ( ""{"" ) ; pci_walk_lintr ( bus , pci_pirq_prt_entry , NULL ) ; dsdt_line ( ""})"" ) ; dsdt_line ( ""Name (APRT, Package ()"" ) ; dsdt_line ( ""{"" ) ; pci_walk_lintr ( bus , pci_apic_prt_entry , NULL ) ; dsdt_line ( ""})"" ) ; dsdt_line ( ""Method (_PRT, 0, NotSerialized)"" ) ; dsdt_line ( ""{"" ) ; dsdt_line ( "" If (PICM)"" ) ; dsdt_line ( "" {"" ) ; dsdt_line ( "" Return (APRT)"" ) ; dsdt_line ( "" }"" ) ; dsdt_line ( "" Else"" ) ;" 805,"CWE-200 IMPEG2D_ERROR_CODES_T impeg2d_dec_pic_hdr ( dec_state_t * ps_dec ) { stream_t * ps_stream ; ps_stream = & ps_dec -> s_bit_stream ; impeg2d_bit_stream_flush ( ps_stream , START_CODE_LEN ) ; impeg2d_bit_stream_get ( ps_stream , 10 ) ; ps_dec -> e_pic_type = ( e_pic_type_t ) impeg2d_bit_stream_get ( ps_stream , 3 ) ; if ( ( ps_dec -> e_pic_type < I_PIC ) || ( ps_dec -> e_pic_type > D_PIC ) ) { impeg2d_next_code ( ps_dec , PICTURE_START_CODE ) ; return IMPEG2D_INVALID_PIC_TYPE ; } impeg2d_bit_stream_get ( ps_stream , 16 ) ; if ( ps_dec -> e_pic_type == P_PIC || ps_dec -> e_pic_type == B_PIC ) { ps_dec -> u2_full_pel_forw_vector = impeg2d_bit_stream_get_bit ( ps_stream ) ; ps_dec -> u2_forw_f_code = impeg2d_bit_stream_get ( ps_stream , 3 ) ; } if ( ps_dec -> e_pic_type == B_PIC ) { ps_dec -> u2_full_pel_back_vector = impeg2d_bit_stream_get_bit ( ps_stream ) ; ps_dec -> u2_back_f_code = impeg2d_bit_stream_get ( ps_stream , 3 ) ; } if ( ps_dec -> u2_is_mpeg2 == 0 ) { ps_dec -> au2_f_code [ 0 ] [ 0 ] = ps_dec -> au2_f_code [ 0 ] [ 1 ] = ps_dec -> u2_forw_f_code ; ps_dec -> au2_f_code [ 1 ] [ 0 ] = ps_dec -> au2_f_code [ 1 ] [ 1 ] = ps_dec -> u2_back_f_code ; } while ( impeg2d_bit_stream_nxt ( ps_stream , 1 ) == 1 && ps_stream -> u4_offset < ps_stream -> u4_max_offset ) { impeg2d_bit_stream_get ( ps_stream , 9 ) ; } impeg2d_bit_stream_get_bit ( ps_stream ) ; impeg2d_next_start_code ( ps_dec ) ; return ( IMPEG2D_ERROR_CODES_T ) IVD_ERROR_NONE ; }","IMPEG2D_ERROR_CODES_T impeg2d_dec_pic_hdr ( dec_state_t * ps_dec ) { stream_t * ps_stream ; ps_stream = & ps_dec -> s_bit_stream ; impeg2d_bit_stream_flush ( ps_stream , START_CODE_LEN ) ; impeg2d_bit_stream_get ( ps_stream , 10 ) ; ps_dec -> e_pic_type = ( e_pic_type_t ) impeg2d_bit_stream_get ( ps_stream , 3 ) ; if ( ( ps_dec -> e_pic_type < I_PIC ) || ( ps_dec -> e_pic_type > D_PIC ) ) { impeg2d_next_code ( ps_dec , PICTURE_START_CODE ) ; return IMPEG2D_INVALID_PIC_TYPE ; } impeg2d_bit_stream_get ( ps_stream , 16 ) ; if ( ps_dec -> e_pic_type == P_PIC || ps_dec -> e_pic_type == B_PIC ) { ps_dec -> u2_full_pel_forw_vector = impeg2d_bit_stream_get_bit ( ps_stream ) ; ps_dec -> u2_forw_f_code = impeg2d_bit_stream_get ( ps_stream , 3 ) ; } if ( ps_dec -> e_pic_type == B_PIC ) { ps_dec -> u2_full_pel_back_vector = impeg2d_bit_stream_get_bit ( ps_stream ) ; ps_dec -> u2_back_f_code = impeg2d_bit_stream_get ( ps_stream , 3 ) ; } if ( ps_dec -> u2_is_mpeg2 == 0 ) { if ( ps_dec -> u2_forw_f_code < 1 || ps_dec -> u2_forw_f_code > 7 || ps_dec -> u2_back_f_code < 1 || ps_dec -> u2_back_f_code > 7 ) { return IMPEG2D_UNKNOWN_ERROR ; } ps_dec -> au2_f_code [ 0 ] [ 0 ] = ps_dec -> au2_f_code [ 0 ] [ 1 ] = ps_dec -> u2_forw_f_code ; ps_dec -> au2_f_code [ 1 ] [ 0 ] = ps_dec -> au2_f_code [ 1 ] [ 1 ] = ps_dec -> u2_back_f_code ; } while ( impeg2d_bit_stream_nxt ( ps_stream , 1 ) == 1 && ps_stream -> u4_offset < ps_stream -> u4_max_offset ) { impeg2d_bit_stream_get ( ps_stream , 9 ) ; } impeg2d_bit_stream_get_bit ( ps_stream ) ; impeg2d_next_start_code ( ps_dec ) ; return ( IMPEG2D_ERROR_CODES_T ) IVD_ERROR_NONE ; }" 806,"CWE-476 av_cold void ff_mpv_idct_init ( MpegEncContext * s ) { ff_idctdsp_init ( & s -> idsp , s -> avctx ) ; if ( s -> alternate_scan ) { ff_init_scantable ( s -> idsp . idct_permutation , & s -> inter_scantable , ff_alternate_vertical_scan ) ; ff_init_scantable ( s -> idsp . idct_permutation , & s -> intra_scantable , ff_alternate_vertical_scan ) ; } else { ff_init_scantable ( s -> idsp . idct_permutation , & s -> inter_scantable , ff_zigzag_direct ) ; ff_init_scantable ( s -> idsp . idct_permutation , & s -> intra_scantable , ff_zigzag_direct ) ; } ff_init_scantable ( s -> idsp . idct_permutation , & s -> intra_h_scantable , ff_alternate_horizontal_scan ) ; ff_init_scantable ( s -> idsp . idct_permutation , & s -> intra_v_scantable , ff_alternate_vertical_scan ) ; }","av_cold void ff_mpv_idct_init ( MpegEncContext * s ) { if ( s -> codec_id == AV_CODEC_ID_MPEG4 ) s -> idsp . mpeg4_studio_profile = s -> studio_profile ; ff_idctdsp_init ( & s -> idsp , s -> avctx ) ; if ( s -> alternate_scan ) { ff_init_scantable ( s -> idsp . idct_permutation , & s -> inter_scantable , ff_alternate_vertical_scan ) ; ff_init_scantable ( s -> idsp . idct_permutation , & s -> intra_scantable , ff_alternate_vertical_scan ) ; } else { ff_init_scantable ( s -> idsp . idct_permutation , & s -> inter_scantable , ff_zigzag_direct ) ; ff_init_scantable ( s -> idsp . idct_permutation , & s -> intra_scantable , ff_zigzag_direct ) ; } ff_init_scantable ( s -> idsp . idct_permutation , & s -> intra_h_scantable , ff_alternate_horizontal_scan ) ; ff_init_scantable ( s -> idsp . idct_permutation , & s -> intra_v_scantable , ff_alternate_vertical_scan ) ; }" 807,"CWE-125 static inline long object_common1 ( UNSERIALIZE_PARAMETER , zend_class_entry * ce ) { long elements ; elements = parse_iv2 ( ( * p ) + 2 , p ) ; ( * p ) += 2 ; if ( ce -> serialize == NULL ) { object_init_ex ( * rval , ce ) ; } else { zend_error ( E_WARNING , ""Erroneous data format for unserializing \'%s\'"" , ce -> name ) ; return 0 ; } return elements ; }","static inline long object_common1 ( UNSERIALIZE_PARAMETER , zend_class_entry * ce ) { long elements ; if ( * p >= max - 2 ) { zend_error ( E_WARNING , ""Bad unserialize data"" ) ; return - 1 ; } elements = parse_iv2 ( ( * p ) + 2 , p ) ; ( * p ) += 2 ; if ( ce -> serialize == NULL ) { object_init_ex ( * rval , ce ) ; } else { zend_error ( E_WARNING , ""Erroneous data format for unserializing \'%s\'"" , ce -> name ) ; return - 1 ; } return elements ; }" 808,"CWE-20 static int encrypt ( struct blkcipher_desc * desc , struct scatterlist * dst , struct scatterlist * src , unsigned int nbytes ) { struct blkcipher_walk walk ; struct crypto_blkcipher * tfm = desc -> tfm ; struct salsa20_ctx * ctx = crypto_blkcipher_ctx ( tfm ) ; int err ; blkcipher_walk_init ( & walk , dst , src , nbytes ) ; err = blkcipher_walk_virt_block ( desc , & walk , 64 ) ; salsa20_ivsetup ( ctx , walk . iv ) ; if ( likely ( walk . nbytes == nbytes ) ) { salsa20_encrypt_bytes ( ctx , walk . src . virt . addr , walk . dst . virt . addr , nbytes ) ; return blkcipher_walk_done ( desc , & walk , 0 ) ; } while ( walk . nbytes >= 64 ) { salsa20_encrypt_bytes ( ctx , walk . src . virt . addr , walk . dst . virt . addr , walk . nbytes - ( walk . nbytes % 64 ) ) ; err = blkcipher_walk_done ( desc , & walk , walk . nbytes % 64 ) ; } if ( walk . nbytes ) { salsa20_encrypt_bytes ( ctx , walk . src . virt . addr , walk . dst . virt . addr , walk . nbytes ) ; err = blkcipher_walk_done ( desc , & walk , 0 ) ; } return err ; }","static int encrypt ( struct blkcipher_desc * desc , struct scatterlist * dst , struct scatterlist * src , unsigned int nbytes ) { struct blkcipher_walk walk ; struct crypto_blkcipher * tfm = desc -> tfm ; struct salsa20_ctx * ctx = crypto_blkcipher_ctx ( tfm ) ; int err ; blkcipher_walk_init ( & walk , dst , src , nbytes ) ; err = blkcipher_walk_virt_block ( desc , & walk , 64 ) ; salsa20_ivsetup ( ctx , walk . iv ) ; while ( walk . nbytes >= 64 ) { salsa20_encrypt_bytes ( ctx , walk . src . virt . addr , walk . dst . virt . addr , walk . nbytes - ( walk . nbytes % 64 ) ) ; err = blkcipher_walk_done ( desc , & walk , walk . nbytes % 64 ) ; } if ( walk . nbytes ) { salsa20_encrypt_bytes ( ctx , walk . src . virt . addr , walk . dst . virt . addr , walk . nbytes ) ; err = blkcipher_walk_done ( desc , & walk , 0 ) ; } return err ; }" 809,"CWE-20 ps_trns_addr -> pu1_mb_y = ps_trns_addr -> pu1_dest_y ; ps_trns_addr -> pu1_mb_u = ps_trns_addr -> pu1_dest_u ; ps_trns_addr -> pu1_mb_v = ps_trns_addr -> pu1_dest_v ; } ps_dec -> ps_part = ps_dec -> ps_parse_part_params ; ps_dec -> u2_mbx = ( MOD ( u2_first_mb_in_slice - 1 , ps_seq -> u2_frm_wd_in_mbs ) ) ; ps_dec -> u2_mby = ( DIV ( u2_first_mb_in_slice - 1 , ps_seq -> u2_frm_wd_in_mbs ) ) ; ps_dec -> u2_mby <<= ps_cur_slice -> u1_mbaff_frame_flag ; ps_dec -> i2_prev_slice_mbx = ps_dec -> u2_mbx ; ps_dec -> i2_prev_slice_mby = ps_dec -> u2_mby ; } ps_bitstrm -> u4_max_ofst += ps_dec -> ps_cur_pps -> u1_entropy_coding_mode ; ps_dec -> u1_B = ( u1_slice_type == B_SLICE ) ; ps_dec -> u4_next_mb_skip = 0 ; ps_dec -> ps_parse_cur_slice -> u4_first_mb_in_slice = ps_dec -> ps_cur_slice -> u2_first_mb_in_slice ; ps_dec -> ps_parse_cur_slice -> slice_type = ps_dec -> ps_cur_slice -> u1_slice_type ; ps_dec -> u4_start_recon_deblk = 1 ; { WORD32 num_entries ; WORD32 size ; UWORD8 * pu1_buf ; num_entries = MAX_FRAMES ; if ( ( 1 >= ps_dec -> ps_cur_sps -> u1_num_ref_frames ) && ( 0 == ps_dec -> i4_display_delay ) ) { num_entries = 1 ; } num_entries = ( ( 2 * num_entries ) + 1 ) ; if ( BASE_PROFILE_IDC != ps_dec -> ps_cur_sps -> u1_profile_idc ) { num_entries *= 2 ; } size = num_entries * sizeof ( void * ) ; size += PAD_MAP_IDX_POC * sizeof ( void * ) ; pu1_buf = ( UWORD8 * ) ps_dec -> pv_map_ref_idx_to_poc_buf ; pu1_buf += size * ps_dec -> u2_cur_slice_num ; ps_dec -> ps_parse_cur_slice -> ppv_map_ref_idx_to_poc = ( void * ) pu1_buf ; } if ( ps_dec -> u1_separate_parse ) { ps_dec -> ps_parse_cur_slice -> pv_tu_coeff_data_start = ps_dec -> pv_parse_tu_coeff_data ; } else { ps_dec -> pv_proc_tu_coeff_data = ps_dec -> pv_parse_tu_coeff_data ; } ps_dec -> pu4_wt_ofsts = ps_dec -> pu4_wts_ofsts_mat ; if ( u1_slice_type == I_SLICE ) { ps_dec -> ps_cur_pic -> u4_pack_slc_typ |= I_SLC_BIT ; ret = ih264d_parse_islice ( ps_dec , u2_first_mb_in_slice ) ; if ( ps_dec -> i4_pic_type != B_SLICE && ps_dec -> i4_pic_type != P_SLICE ) ps_dec -> i4_pic_type = I_SLICE ; } else if ( u1_slice_type == P_SLICE ) { ps_dec -> ps_cur_pic -> u4_pack_slc_typ |= P_SLC_BIT ; ret = ih264d_parse_pslice ( ps_dec , u2_first_mb_in_slice ) ; ps_dec -> u1_pr_sl_type = u1_slice_type ; if ( ps_dec -> i4_pic_type != B_SLICE ) ps_dec -> i4_pic_type = P_SLICE ; } else if ( u1_slice_type == B_SLICE ) { ps_dec -> ps_cur_pic -> u4_pack_slc_typ |= B_SLC_BIT ; ret = ih264d_parse_bslice ( ps_dec , u2_first_mb_in_slice ) ; ps_dec -> u1_pr_sl_type = u1_slice_type ; ps_dec -> i4_pic_type = B_SLICE ; } else return ERROR_INV_SLC_TYPE_T ; if ( ps_dec -> u1_slice_header_done ) { ps_dec -> u4_first_slice_in_pic = 0 ; ps_dec -> u1_first_slice_in_stream = 0 ; } if ( ret != OK ) return ret ; ps_dec -> u2_cur_slice_num ++ ; ps_dec -> i2_prev_slice_mbx = ps_dec -> u2_mbx ; ps_dec -> i2_prev_slice_mby = ps_dec -> u2_mby ; if ( ps_dec -> u2_total_mbs_coded >= ( ps_seq -> u2_max_mb_addr + 1 ) ) { ps_dec -> u1_pic_decode_done = 1 ; } { dec_err_status_t * ps_err = ps_dec -> ps_dec_err_status ; if ( ( ps_err -> u1_err_flag & REJECT_PB_PICS ) && ( ps_err -> u1_cur_pic_type == PIC_TYPE_I ) ) { ps_err -> u1_err_flag = ACCEPT_ALL_PICS ; } } PRINT_BIN_BIT_RATIO ( ps_dec ) return ret ; }","ps_trns_addr -> pu1_mb_y = ps_trns_addr -> pu1_dest_y ; ps_trns_addr -> pu1_mb_u = ps_trns_addr -> pu1_dest_u ; ps_trns_addr -> pu1_mb_v = ps_trns_addr -> pu1_dest_v ; } ps_dec -> ps_part = ps_dec -> ps_parse_part_params ; ps_dec -> u2_mbx = ( MOD ( u2_first_mb_in_slice - 1 , ps_seq -> u2_frm_wd_in_mbs ) ) ; ps_dec -> u2_mby = ( DIV ( u2_first_mb_in_slice - 1 , ps_seq -> u2_frm_wd_in_mbs ) ) ; ps_dec -> u2_mby <<= ps_cur_slice -> u1_mbaff_frame_flag ; ps_dec -> i2_prev_slice_mbx = ps_dec -> u2_mbx ; ps_dec -> i2_prev_slice_mby = ps_dec -> u2_mby ; } ps_bitstrm -> u4_max_ofst += ps_dec -> ps_cur_pps -> u1_entropy_coding_mode ; ps_dec -> u1_B = ( u1_slice_type == B_SLICE ) ; ps_dec -> u4_next_mb_skip = 0 ; ps_dec -> ps_parse_cur_slice -> u4_first_mb_in_slice = ps_dec -> ps_cur_slice -> u2_first_mb_in_slice ; ps_dec -> ps_parse_cur_slice -> slice_type = ps_dec -> ps_cur_slice -> u1_slice_type ; ps_dec -> u4_start_recon_deblk = 1 ; { WORD32 num_entries ; WORD32 size ; UWORD8 * pu1_buf ; num_entries = MAX_FRAMES ; if ( ( 1 >= ps_dec -> ps_cur_sps -> u1_num_ref_frames ) && ( 0 == ps_dec -> i4_display_delay ) ) { num_entries = 1 ; } num_entries = ( ( 2 * num_entries ) + 1 ) ; if ( BASE_PROFILE_IDC != ps_dec -> ps_cur_sps -> u1_profile_idc ) { num_entries *= 2 ; } size = num_entries * sizeof ( void * ) ; size += PAD_MAP_IDX_POC * sizeof ( void * ) ; pu1_buf = ( UWORD8 * ) ps_dec -> pv_map_ref_idx_to_poc_buf ; pu1_buf += size * ps_dec -> u2_cur_slice_num ; ps_dec -> ps_parse_cur_slice -> ppv_map_ref_idx_to_poc = ( void * ) pu1_buf ; } if ( ps_dec -> u1_separate_parse ) { ps_dec -> ps_parse_cur_slice -> pv_tu_coeff_data_start = ps_dec -> pv_parse_tu_coeff_data ; } else { ps_dec -> pv_proc_tu_coeff_data = ps_dec -> pv_parse_tu_coeff_data ; } if ( u1_slice_type == I_SLICE ) { ps_dec -> ps_cur_pic -> u4_pack_slc_typ |= I_SLC_BIT ; ret = ih264d_parse_islice ( ps_dec , u2_first_mb_in_slice ) ; if ( ps_dec -> i4_pic_type != B_SLICE && ps_dec -> i4_pic_type != P_SLICE ) ps_dec -> i4_pic_type = I_SLICE ; } else if ( u1_slice_type == P_SLICE ) { ps_dec -> ps_cur_pic -> u4_pack_slc_typ |= P_SLC_BIT ; ret = ih264d_parse_pslice ( ps_dec , u2_first_mb_in_slice ) ; ps_dec -> u1_pr_sl_type = u1_slice_type ; if ( ps_dec -> i4_pic_type != B_SLICE ) ps_dec -> i4_pic_type = P_SLICE ; } else if ( u1_slice_type == B_SLICE ) { ps_dec -> ps_cur_pic -> u4_pack_slc_typ |= B_SLC_BIT ; ret = ih264d_parse_bslice ( ps_dec , u2_first_mb_in_slice ) ; ps_dec -> u1_pr_sl_type = u1_slice_type ; ps_dec -> i4_pic_type = B_SLICE ; } else return ERROR_INV_SLC_TYPE_T ; if ( ps_dec -> u1_slice_header_done ) { ps_dec -> u4_first_slice_in_pic = 0 ; ps_dec -> u1_first_slice_in_stream = 0 ; } if ( ret != OK ) return ret ; ps_dec -> u2_cur_slice_num ++ ; ps_dec -> i2_prev_slice_mbx = ps_dec -> u2_mbx ; ps_dec -> i2_prev_slice_mby = ps_dec -> u2_mby ; if ( ps_dec -> u2_total_mbs_coded >= ( ps_seq -> u2_max_mb_addr + 1 ) ) { ps_dec -> u1_pic_decode_done = 1 ; } { dec_err_status_t * ps_err = ps_dec -> ps_dec_err_status ; if ( ( ps_err -> u1_err_flag & REJECT_PB_PICS ) && ( ps_err -> u1_cur_pic_type == PIC_TYPE_I ) ) { ps_err -> u1_err_flag = ACCEPT_ALL_PICS ; } } PRINT_BIN_BIT_RATIO ( ps_dec ) return ret ; }" 810,"CWE-125 static void file_add_mapi_attrs ( File * file , MAPI_Attr * * attrs ) { int i ; for ( i = 0 ; attrs [ i ] ; i ++ ) { MAPI_Attr * a = attrs [ i ] ; if ( a -> num_values ) { switch ( a -> name ) { case MAPI_ATTACH_LONG_FILENAME : if ( file -> name ) XFREE ( file -> name ) ; file -> name = strdup ( ( char * ) a -> values [ 0 ] . data . buf ) ; break ; case MAPI_ATTACH_DATA_OBJ : file -> len = a -> values [ 0 ] . len ; if ( file -> data ) XFREE ( file -> data ) ; file -> data = CHECKED_XMALLOC ( unsigned char , file -> len ) ; memmove ( file -> data , a -> values [ 0 ] . data . buf , file -> len ) ; break ; case MAPI_ATTACH_MIME_TAG : if ( file -> mime_type ) XFREE ( file -> mime_type ) ; file -> mime_type = CHECKED_XMALLOC ( char , a -> values [ 0 ] . len ) ; memmove ( file -> mime_type , a -> values [ 0 ] . data . buf , a -> values [ 0 ] . len ) ; break ; case MAPI_ATTACH_CONTENT_ID : if ( file -> content_id ) XFREE ( file -> content_id ) ; file -> content_id = CHECKED_XMALLOC ( char , a -> values [ 0 ] . len ) ; memmove ( file -> content_id , a -> values [ 0 ] . data . buf , a -> values [ 0 ] . len ) ; break ; default : break ; } } } }","static void file_add_mapi_attrs ( File * file , MAPI_Attr * * attrs ) { int i ; for ( i = 0 ; attrs [ i ] ; i ++ ) { MAPI_Attr * a = attrs [ i ] ; if ( a -> num_values ) { switch ( a -> name ) { case MAPI_ATTACH_LONG_FILENAME : assert ( a -> type == szMAPI_STRING ) ; if ( file -> name ) XFREE ( file -> name ) ; file -> name = strdup ( ( char * ) a -> values [ 0 ] . data . buf ) ; break ; case MAPI_ATTACH_DATA_OBJ : assert ( ( a -> type == szMAPI_BINARY ) || ( a -> type == szMAPI_OBJECT ) ) ; file -> len = a -> values [ 0 ] . len ; if ( file -> data ) XFREE ( file -> data ) ; file -> data = CHECKED_XMALLOC ( unsigned char , file -> len ) ; memmove ( file -> data , a -> values [ 0 ] . data . buf , file -> len ) ; break ; case MAPI_ATTACH_MIME_TAG : assert ( a -> type == szMAPI_STRING ) ; if ( file -> mime_type ) XFREE ( file -> mime_type ) ; file -> mime_type = CHECKED_XMALLOC ( char , a -> values [ 0 ] . len ) ; memmove ( file -> mime_type , a -> values [ 0 ] . data . buf , a -> values [ 0 ] . len ) ; break ; case MAPI_ATTACH_CONTENT_ID : assert ( a -> type == szMAPI_STRING ) ; if ( file -> content_id ) XFREE ( file -> content_id ) ; file -> content_id = CHECKED_XMALLOC ( char , a -> values [ 0 ] . len ) ; memmove ( file -> content_id , a -> values [ 0 ] . data . buf , a -> values [ 0 ] . len ) ; break ; default : break ; } } } }" 811,"CWE-119 static unsigned int convert_distribution ( unsigned int i , vp9_tree tree , unsigned int branch_ct [ ] [ 2 ] , const unsigned int num_events [ ] ) { unsigned int left , right ; if ( tree [ i ] <= 0 ) left = num_events [ - tree [ i ] ] ; else left = convert_distribution ( tree [ i ] , tree , branch_ct , num_events ) ; if ( tree [ i + 1 ] <= 0 ) right = num_events [ - tree [ i + 1 ] ] ; else right = convert_distribution ( tree [ i + 1 ] , tree , branch_ct , num_events ) ; branch_ct [ i >> 1 ] [ 0 ] = left ; branch_ct [ i >> 1 ] [ 1 ] = right ; return left + right ; }","static unsigned int convert_distribution ( unsigned int i , vpx_tree tree , unsigned int branch_ct [ ] [ 2 ] , const unsigned int num_events [ ] ) { unsigned int left , right ; if ( tree [ i ] <= 0 ) left = num_events [ - tree [ i ] ] ; else left = convert_distribution ( tree [ i ] , tree , branch_ct , num_events ) ; if ( tree [ i + 1 ] <= 0 ) right = num_events [ - tree [ i + 1 ] ] ; else right = convert_distribution ( tree [ i + 1 ] , tree , branch_ct , num_events ) ; branch_ct [ i >> 1 ] [ 0 ] = left ; branch_ct [ i >> 1 ] [ 1 ] = right ; return left + right ; }" 812,"CWE-476 int create_flush_cmd_control ( struct f2fs_sb_info * sbi ) { dev_t dev = sbi -> sb -> s_bdev -> bd_dev ; struct flush_cmd_control * fcc ; int err = 0 ; if ( SM_I ( sbi ) -> fcc_info ) { fcc = SM_I ( sbi ) -> fcc_info ; goto init_thread ; } fcc = kzalloc ( sizeof ( struct flush_cmd_control ) , GFP_KERNEL ) ; if ( ! fcc ) return - ENOMEM ; atomic_set ( & fcc -> issued_flush , 0 ) ; atomic_set ( & fcc -> issing_flush , 0 ) ; init_waitqueue_head ( & fcc -> flush_wait_queue ) ; init_llist_head ( & fcc -> issue_list ) ; SM_I ( sbi ) -> fcc_info = fcc ; init_thread : fcc -> f2fs_issue_flush = kthread_run ( issue_flush_thread , sbi , ""f2fs_flush-%u:%u"" , MAJOR ( dev ) , MINOR ( dev ) ) ; if ( IS_ERR ( fcc -> f2fs_issue_flush ) ) { err = PTR_ERR ( fcc -> f2fs_issue_flush ) ; kfree ( fcc ) ; SM_I ( sbi ) -> fcc_info = NULL ; return err ; } return err ; }","int create_flush_cmd_control ( struct f2fs_sb_info * sbi ) { dev_t dev = sbi -> sb -> s_bdev -> bd_dev ; struct flush_cmd_control * fcc ; int err = 0 ; if ( SM_I ( sbi ) -> fcc_info ) { fcc = SM_I ( sbi ) -> fcc_info ; goto init_thread ; } fcc = kzalloc ( sizeof ( struct flush_cmd_control ) , GFP_KERNEL ) ; if ( ! fcc ) return - ENOMEM ; atomic_set ( & fcc -> issued_flush , 0 ) ; atomic_set ( & fcc -> issing_flush , 0 ) ; init_waitqueue_head ( & fcc -> flush_wait_queue ) ; init_llist_head ( & fcc -> issue_list ) ; SM_I ( sbi ) -> fcc_info = fcc ; if ( ! test_opt ( sbi , FLUSH_MERGE ) ) return err ; init_thread : fcc -> f2fs_issue_flush = kthread_run ( issue_flush_thread , sbi , ""f2fs_flush-%u:%u"" , MAJOR ( dev ) , MINOR ( dev ) ) ; if ( IS_ERR ( fcc -> f2fs_issue_flush ) ) { err = PTR_ERR ( fcc -> f2fs_issue_flush ) ; kfree ( fcc ) ; SM_I ( sbi ) -> fcc_info = NULL ; return err ; } return err ; }" 813,"CWE-787 static void input_csi_dispatch_sgr_colon ( struct input_ctx * ictx , u_int i ) { struct grid_cell * gc = & ictx -> cell . cell ; char * s = ictx -> param_list [ i ] . str , * copy , * ptr , * out ; int p [ 8 ] ; u_int n ; const char * errstr ; for ( n = 0 ; n < nitems ( p ) ; n ++ ) p [ n ] = - 1 ; n = 0 ; ptr = copy = xstrdup ( s ) ; while ( ( out = strsep ( & ptr , "":"" ) ) != NULL ) { if ( * out != '\\0' ) { p [ n ++ ] = strtonum ( out , 0 , INT_MAX , & errstr ) ; if ( errstr != NULL || n == nitems ( p ) ) { free ( copy ) ; return ; } } else n ++ ; log_debug ( ""%s: %u = %d"" , __func__ , n - 1 , p [ n - 1 ] ) ; } free ( copy ) ; if ( n == 0 ) return ; if ( p [ 0 ] == 4 ) { if ( n != 2 ) return ; switch ( p [ 1 ] ) { case 0 : gc -> attr &= ~ GRID_ATTR_ALL_UNDERSCORE ; break ; case 1 : gc -> attr &= ~ GRID_ATTR_ALL_UNDERSCORE ; gc -> attr |= GRID_ATTR_UNDERSCORE ; break ; case 2 : gc -> attr &= ~ GRID_ATTR_ALL_UNDERSCORE ; gc -> attr |= GRID_ATTR_UNDERSCORE_2 ; break ; case 3 : gc -> attr &= ~ GRID_ATTR_ALL_UNDERSCORE ; gc -> attr |= GRID_ATTR_UNDERSCORE_3 ; break ; case 4 : gc -> attr &= ~ GRID_ATTR_ALL_UNDERSCORE ; gc -> attr |= GRID_ATTR_UNDERSCORE_4 ; break ; case 5 : gc -> attr &= ~ GRID_ATTR_ALL_UNDERSCORE ; gc -> attr |= GRID_ATTR_UNDERSCORE_5 ; break ; } return ; } if ( n < 2 || ( p [ 0 ] != 38 && p [ 0 ] != 48 && p [ 0 ] != 58 ) ) return ; switch ( p [ 1 ] ) { case 2 : if ( n < 3 ) break ; if ( n == 5 ) i = 2 ; else i = 3 ; if ( n < i + 3 ) break ; input_csi_dispatch_sgr_rgb_do ( ictx , p [ 0 ] , p [ i ] , p [ i + 1 ] , p [ i + 2 ] ) ; break ;","static void input_csi_dispatch_sgr_colon ( struct input_ctx * ictx , u_int i ) { struct grid_cell * gc = & ictx -> cell . cell ; char * s = ictx -> param_list [ i ] . str , * copy , * ptr , * out ; int p [ 8 ] ; u_int n ; const char * errstr ; for ( n = 0 ; n < nitems ( p ) ; n ++ ) p [ n ] = - 1 ; n = 0 ; ptr = copy = xstrdup ( s ) ; while ( ( out = strsep ( & ptr , "":"" ) ) != NULL ) { if ( * out != '\\0' ) { p [ n ++ ] = strtonum ( out , 0 , INT_MAX , & errstr ) ; if ( errstr != NULL || n == nitems ( p ) ) { free ( copy ) ; return ; } } else { n ++ ; if ( n == nitems ( p ) ) { free ( copy ) ; return ; } } log_debug ( ""%s: %u = %d"" , __func__ , n - 1 , p [ n - 1 ] ) ; } free ( copy ) ; if ( n == 0 ) return ; if ( p [ 0 ] == 4 ) { if ( n != 2 ) return ; switch ( p [ 1 ] ) { case 0 : gc -> attr &= ~ GRID_ATTR_ALL_UNDERSCORE ; break ; case 1 : gc -> attr &= ~ GRID_ATTR_ALL_UNDERSCORE ; gc -> attr |= GRID_ATTR_UNDERSCORE ; break ; case 2 : gc -> attr &= ~ GRID_ATTR_ALL_UNDERSCORE ; gc -> attr |= GRID_ATTR_UNDERSCORE_2 ; break ; case 3 : gc -> attr &= ~ GRID_ATTR_ALL_UNDERSCORE ; gc -> attr |= GRID_ATTR_UNDERSCORE_3 ; break ; case 4 : gc -> attr &= ~ GRID_ATTR_ALL_UNDERSCORE ; gc -> attr |= GRID_ATTR_UNDERSCORE_4 ; break ; case 5 : gc -> attr &= ~ GRID_ATTR_ALL_UNDERSCORE ; gc -> attr |= GRID_ATTR_UNDERSCORE_5 ; break ; } return ; } if ( n < 2 || ( p [ 0 ] != 38 && p [ 0 ] != 48 && p [ 0 ] != 58 ) ) return ; switch ( p [ 1 ] ) { case 2 : if ( n < 3 ) break ; if ( n == 5 ) i = 2 ; else i = 3 ; if ( n < i + 3 ) break ; input_csi_dispatch_sgr_rgb_do ( ictx , p [ 0 ] , p [ i ] , p [ i + 1 ] , p [ i + 2 ] ) ; break ;" 814,"CWE-119 int vp8_get_compressed_data ( VP8_COMP * cpi , unsigned int * frame_flags , unsigned long * size , unsigned char * dest , unsigned char * dest_end , int64_t * time_stamp , int64_t * time_end , int flush ) { # if HAVE_NEON int64_t store_reg [ 8 ] ; # endif VP8_COMMON * cm ; struct vpx_usec_timer tsctimer ; struct vpx_usec_timer ticktimer ; struct vpx_usec_timer cmptimer ; YV12_BUFFER_CONFIG * force_src_buffer = NULL ; if ( ! cpi ) return - 1 ; cm = & cpi -> common ; if ( setjmp ( cpi -> common . error . jmp ) ) { cpi -> common . error . setjmp = 0 ; return VPX_CODEC_CORRUPT_FRAME ; } cpi -> common . error . setjmp = 1 ; # if HAVE_NEON # if CONFIG_RUNTIME_CPU_DETECT if ( cm -> cpu_caps & HAS_NEON ) # endif { vp8_push_neon ( store_reg ) ; } # endif vpx_usec_timer_start ( & cmptimer ) ; cpi -> source = NULL ; # if ! ( CONFIG_REALTIME_ONLY ) if ( cpi -> oxcf . error_resilient_mode == 0 && cpi -> oxcf . play_alternate && cpi -> source_alt_ref_pending ) { if ( ( cpi -> source = vp8_lookahead_peek ( cpi -> lookahead , cpi -> frames_till_gf_update_due , PEEK_FORWARD ) ) ) { cpi -> alt_ref_source = cpi -> source ; if ( cpi -> oxcf . arnr_max_frames > 0 ) { vp8_temporal_filter_prepare_c ( cpi , cpi -> frames_till_gf_update_due ) ; force_src_buffer = & cpi -> alt_ref_buffer ; } cpi -> frames_till_alt_ref_frame = cpi -> frames_till_gf_update_due ; cm -> refresh_alt_ref_frame = 1 ; cm -> refresh_golden_frame = 0 ; cm -> refresh_last_frame = 0 ; cm -> show_frame = 0 ; cpi -> source_alt_ref_pending = 0 ; cpi -> is_src_frame_alt_ref = 0 ; } } # endif if ( ! cpi -> source ) { if ( cpi -> pass == 1 && cm -> current_video_frame > 0 ) { if ( ( cpi -> last_source = vp8_lookahead_peek ( cpi -> lookahead , 1 , PEEK_BACKWARD ) ) == NULL ) return - 1 ; } if ( ( cpi -> source = vp8_lookahead_pop ( cpi -> lookahead , flush ) ) ) { cm -> show_frame = 1 ; cpi -> is_src_frame_alt_ref = cpi -> alt_ref_source && ( cpi -> source == cpi -> alt_ref_source ) ; if ( cpi -> is_src_frame_alt_ref ) cpi -> alt_ref_source = NULL ; } } if ( cpi -> source ) { cpi -> Source = force_src_buffer ? force_src_buffer : & cpi -> source -> img ; cpi -> un_scaled_source = cpi -> Source ; * time_stamp = cpi -> source -> ts_start ; * time_end = cpi -> source -> ts_end ; * frame_flags = cpi -> source -> flags ; if ( cpi -> pass == 1 && cm -> current_video_frame > 0 ) { cpi -> last_frame_unscaled_source = & cpi -> last_source -> img ; } } else { * size = 0 ; # if ! ( CONFIG_REALTIME_ONLY ) if ( flush && cpi -> pass == 1 && ! cpi -> twopass . first_pass_done ) { vp8_end_first_pass ( cpi ) ; cpi -> twopass . first_pass_done = 1 ; } # endif # if HAVE_NEON # if CONFIG_RUNTIME_CPU_DETECT if ( cm -> cpu_caps & HAS_NEON ) # endif { vp8_pop_neon ( store_reg ) ; } # endif return - 1 ; } if ( cpi -> source -> ts_start < cpi -> first_time_stamp_ever ) { cpi -> first_time_stamp_ever = cpi -> source -> ts_start ; cpi -> last_end_time_stamp_seen = cpi -> source -> ts_start ; } if ( cm -> show_frame ) { int64_t this_duration ; int step = 0 ; if ( cpi -> source -> ts_start == cpi -> first_time_stamp_ever ) { this_duration = cpi -> source -> ts_end - cpi -> source -> ts_start ; step = 1 ; } else { int64_t last_duration ; this_duration = cpi -> source -> ts_end - cpi -> last_end_time_stamp_seen ; last_duration = cpi -> last_end_time_stamp_seen cpi -> last_time_stamp_seen ; if ( last_duration ) step = ( int ) ( ( ( this_duration - last_duration ) * 10 / last_duration ) ) ; } if ( this_duration ) { if ( step ) cpi -> ref_framerate = 10000000.0 / this_duration ; else { double avg_duration , interval ; interval = ( double ) ( cpi -> source -> ts_end - cpi -> first_time_stamp_ever ) ; if ( interval > 10000000.0 ) interval = 10000000 ; avg_duration = 10000000.0 / cpi -> ref_framerate ; avg_duration *= ( interval - avg_duration + this_duration ) ; avg_duration /= interval ; cpi -> ref_framerate = 10000000.0 / avg_duration ; } if ( cpi -> oxcf . number_of_layers > 1 ) { unsigned int i ; assert ( cpi -> oxcf . number_of_layers <= VPX_TS_MAX_LAYERS ) ; for ( i = 0 ; i < cpi -> oxcf . number_of_layers ; i ++ ) { LAYER_CONTEXT * lc = & cpi -> layer_context [ i ] ; lc -> framerate = cpi -> ref_framerate / cpi -> oxcf . rate_decimator [ i ] ; } } else vp8_new_framerate ( cpi , cpi -> ref_framerate ) ; } cpi -> last_time_stamp_seen = cpi -> source -> ts_start ; cpi -> last_end_time_stamp_seen = cpi -> source -> ts_end ; } if ( cpi -> oxcf . number_of_layers > 1 ) { int layer ; update_layer_contexts ( cpi ) ; layer = cpi -> oxcf . layer_id [ cpi -> temporal_pattern_counter % cpi -> oxcf . periodicity ] ; restore_layer_context ( cpi , layer ) ; vp8_new_framerate ( cpi , cpi -> layer_context [ layer ] . framerate ) ; } if ( cpi -> compressor_speed == 2 ) { vpx_usec_timer_start ( & tsctimer ) ; vpx_usec_timer_start ( & ticktimer ) ; } cpi -> lf_zeromv_pct = ( cpi -> zeromv_count * 100 ) / cm -> MBs ; # if CONFIG_REALTIME_ONLY & CONFIG_ONTHEFLY_BITPACKING { int i ; const int num_part = ( 1 << cm -> multi_token_partition ) ; const unsigned long dest_size = dest_end - dest ; const int tok_part_buff_size = ( dest_size * 9 ) / ( 10 * num_part ) ; unsigned char * dp = dest ; cpi -> partition_d [ 0 ] = dp ; dp += dest_size / 10 ; cpi -> partition_d_end [ 0 ] = dp ; for ( i = 0 ; i < num_part ; i ++ ) { cpi -> partition_d [ i + 1 ] = dp ; dp += tok_part_buff_size ; cpi -> partition_d_end [ i + 1 ] = dp ; } } # endif * size = 0 ; vp8_clear_system_state ( ) ; cm -> frame_type = INTER_FRAME ; cm -> frame_flags = * frame_flags ; # if 0 if ( cm -> refresh_alt_ref_frame ) { cm -> refresh_golden_frame = 0 ; cm -> refresh_last_frame = 0 ; } else { cm -> refresh_golden_frame = 0 ; cm -> refresh_last_frame = 1 ; } # endif { int i = 0 ; for ( ; i < NUM_YV12_BUFFERS ; i ++ ) { if ( ! cm -> yv12_fb [ i ] . flags ) { cm -> new_fb_idx = i ; break ; } } assert ( i < NUM_YV12_BUFFERS ) ; } # if ! ( CONFIG_REALTIME_ONLY ) if ( cpi -> pass == 1 ) { Pass1Encode ( cpi , size , dest , frame_flags ) ; } else if ( cpi -> pass == 2 ) { Pass2Encode ( cpi , size , dest , dest_end , frame_flags ) ; } else # endif encode_frame_to_data_rate ( cpi , size , dest , dest_end , frame_flags ) ; if ( cpi -> compressor_speed == 2 ) { unsigned int duration , duration2 ; vpx_usec_timer_mark ( & tsctimer ) ; vpx_usec_timer_mark ( & ticktimer ) ; duration = ( int ) ( vpx_usec_timer_elapsed ( & ticktimer ) ) ; duration2 = ( unsigned int ) ( ( double ) duration / 2 ) ; if ( cm -> frame_type != KEY_FRAME ) { if ( cpi -> avg_encode_time == 0 ) cpi -> avg_encode_time = duration ; else cpi -> avg_encode_time = ( 7 * cpi -> avg_encode_time + duration ) >> 3 ; } if ( duration2 ) { { if ( cpi -> avg_pick_mode_time == 0 ) cpi -> avg_pick_mode_time = duration2 ; else cpi -> avg_pick_mode_time = ( 7 * cpi -> avg_pick_mode_time + duration2 ) >> 3 ; } } } if ( cm -> refresh_entropy_probs == 0 ) { vpx_memcpy ( & cm -> fc , & cm -> lfc , sizeof ( cm -> fc ) ) ; } if ( cm -> refresh_alt_ref_frame ) vpx_memcpy ( & cpi -> lfc_a , & cm -> fc , sizeof ( cm -> fc ) ) ; if ( cm -> refresh_golden_frame ) vpx_memcpy ( & cpi -> lfc_g , & cm -> fc , sizeof ( cm -> fc ) ) ; if ( cm -> refresh_last_frame ) vpx_memcpy ( & cpi -> lfc_n , & cm -> fc , sizeof ( cm -> fc ) ) ; if ( * size > 0 ) { cpi -> droppable = ! frame_is_reference ( cpi ) ; cm -> refresh_entropy_probs = 1 ; cm -> refresh_alt_ref_frame = 0 ; cm -> refresh_golden_frame = 0 ; cm -> refresh_last_frame = 1 ; cm -> frame_type = INTER_FRAME ; } if ( cpi -> oxcf . number_of_layers > 1 ) save_layer_context ( cpi ) ; vpx_usec_timer_mark ( & cmptimer ) ; cpi -> time_compress_data += vpx_usec_timer_elapsed ( & cmptimer ) ; if ( cpi -> b_calculate_psnr && cpi -> pass != 1 && cm -> show_frame ) { generate_psnr_packet ( cpi ) ; } # if CONFIG_INTERNAL_STATS if ( cpi -> pass != 1 ) { cpi -> bytes += * size ; if ( cm -> show_frame ) { cpi -> common . show_frame_mi = cpi -> common . mi ; cpi -> count ++ ; if ( cpi -> b_calculate_psnr ) { uint64_t ye , ue , ve ; double frame_psnr ; YV12_BUFFER_CONFIG * orig = cpi -> Source ; YV12_BUFFER_CONFIG * recon = cpi -> common . frame_to_show ; int y_samples = orig -> y_height * orig -> y_width ; int uv_samples = orig -> uv_height * orig -> uv_width ; int t_samples = y_samples + 2 * uv_samples ; double sq_error , sq_error2 ; ye = calc_plane_error ( orig -> y_buffer , orig -> y_stride , recon -> y_buffer , recon -> y_stride , orig -> y_width , orig -> y_height ) ; ue = calc_plane_error ( orig -> u_buffer , orig -> uv_stride , recon -> u_buffer , recon -> uv_stride , orig -> uv_width , orig -> uv_height ) ; ve = calc_plane_error ( orig -> v_buffer , orig -> uv_stride , recon -> v_buffer , recon -> uv_stride , orig -> uv_width , orig -> uv_height ) ; sq_error = ( double ) ( ye + ue + ve ) ; frame_psnr = vpx_sse_to_psnr ( t_samples , 255.0 , sq_error ) ; cpi -> total_y += vpx_sse_to_psnr ( y_samples , 255.0 , ( double ) ye ) ; cpi -> total_u += vpx_sse_to_psnr ( uv_samples , 255.0 , ( double ) ue ) ; cpi -> total_v += vpx_sse_to_psnr ( uv_samples , 255.0 , ( double ) ve ) ; cpi -> total_sq_error += sq_error ; cpi -> total += frame_psnr ; # if CONFIG_POSTPROC { YV12_BUFFER_CONFIG * pp = & cm -> post_proc_buffer ; double frame_psnr2 , frame_ssim2 = 0 ; double weight = 0 ; vp8_deblock ( cm , cm -> frame_to_show , & cm -> post_proc_buffer , cm -> filter_level * 10 / 6 , 1 , 0 ) ; vp8_clear_system_state ( ) ; ye = calc_plane_error ( orig -> y_buffer , orig -> y_stride , pp -> y_buffer , pp -> y_stride , orig -> y_width , orig -> y_height ) ; ue = calc_plane_error ( orig -> u_buffer , orig -> uv_stride , pp -> u_buffer , pp -> uv_stride , orig -> uv_width , orig -> uv_height ) ; ve = calc_plane_error ( orig -> v_buffer , orig -> uv_stride , pp -> v_buffer , pp -> uv_stride , orig -> uv_width , orig -> uv_height ) ; sq_error2 = ( double ) ( ye + ue + ve ) ; frame_psnr2 = vpx_sse_to_psnr ( t_samples , 255.0 , sq_error2 ) ; cpi -> totalp_y += vpx_sse_to_psnr ( y_samples , 255.0 , ( double ) ye ) ; cpi -> totalp_u += vpx_sse_to_psnr ( uv_samples , 255.0 , ( double ) ue ) ; cpi -> totalp_v += vpx_sse_to_psnr ( uv_samples , 255.0 , ( double ) ve ) ; cpi -> total_sq_error2 += sq_error2 ; cpi -> totalp += frame_psnr2 ; frame_ssim2 = vp8_calc_ssim ( cpi -> Source , & cm -> post_proc_buffer , 1 , & weight ) ; cpi -> summed_quality += frame_ssim2 * weight ; cpi -> summed_weights += weight ; if ( cpi -> oxcf . number_of_layers > 1 ) { unsigned int i ; for ( i = cpi -> current_layer ; i < cpi -> oxcf . number_of_layers ; i ++ ) { cpi -> frames_in_layer [ i ] ++ ; cpi -> bytes_in_layer [ i ] += * size ; cpi -> sum_psnr [ i ] += frame_psnr ; cpi -> sum_psnr_p [ i ] += frame_psnr2 ; cpi -> total_error2 [ i ] += sq_error ; cpi -> total_error2_p [ i ] += sq_error2 ; cpi -> sum_ssim [ i ] += frame_ssim2 * weight ; cpi -> sum_weights [ i ] += weight ; } } } # endif } if ( cpi -> b_calculate_ssimg ) { double y , u , v , frame_all ; frame_all = vp8_calc_ssimg ( cpi -> Source , cm -> frame_to_show , & y , & u , & v ) ; if ( cpi -> oxcf . number_of_layers > 1 ) { unsigned int i ; for ( i = cpi -> current_layer ; i < cpi -> oxcf . number_of_layers ; i ++ ) { if ( ! cpi -> b_calculate_psnr ) cpi -> frames_in_layer [ i ] ++ ; cpi -> total_ssimg_y_in_layer [ i ] += y ; cpi -> total_ssimg_u_in_layer [ i ] += u ; cpi -> total_ssimg_v_in_layer [ i ] += v ; cpi -> total_ssimg_all_in_layer [ i ] += frame_all ; } } else { cpi -> total_ssimg_y += y ; cpi -> total_ssimg_u += u ; cpi -> total_ssimg_v += v ; cpi -> total_ssimg_all += frame_all ; } } } } # if 0 if ( cpi -> common . frame_type != 0 && cpi -> common . base_qindex == cpi -> oxcf . worst_allowed_q ) { skiptruecount += cpi -> skip_true_count ; skipfalsecount += cpi -> skip_false_count ; } # endif # if 0 if ( cpi -> pass != 1 ) { FILE * f = fopen ( ""skip.stt"" , ""a"" ) ; fprintf ( f , ""frame:%4d flags:%4x Q:%4d P:%4d Size:%5d\\n"" , cpi -> common . current_video_frame , * frame_flags , cpi -> common . base_qindex , cpi -> prob_skip_false , * size ) ; if ( cpi -> is_src_frame_alt_ref == 1 ) fprintf ( f , ""skipcount: %4d framesize: %d\\n"" , cpi -> skip_true_count , * size ) ; fclose ( f ) ; } # endif # endif # if HAVE_NEON # if CONFIG_RUNTIME_CPU_DETECT if ( cm -> cpu_caps & HAS_NEON ) # endif { vp8_pop_neon ( store_reg ) ; } # endif cpi -> common . error . setjmp = 0 ; return 0 ; }","int vp8_get_compressed_data ( VP8_COMP * cpi , unsigned int * frame_flags , unsigned long * size , unsigned char * dest , unsigned char * dest_end , int64_t * time_stamp , int64_t * time_end , int flush ) { VP8_COMMON * cm ; struct vpx_usec_timer tsctimer ; struct vpx_usec_timer ticktimer ; struct vpx_usec_timer cmptimer ; YV12_BUFFER_CONFIG * force_src_buffer = NULL ; if ( ! cpi ) return - 1 ; cm = & cpi -> common ; if ( setjmp ( cpi -> common . error . jmp ) ) { cpi -> common . error . setjmp = 0 ; vp8_clear_system_state ( ) ; return VPX_CODEC_CORRUPT_FRAME ; } cpi -> common . error . setjmp = 1 ; vpx_usec_timer_start ( & cmptimer ) ; cpi -> source = NULL ; # if ! ( CONFIG_REALTIME_ONLY ) if ( cpi -> oxcf . error_resilient_mode == 0 && cpi -> oxcf . play_alternate && cpi -> source_alt_ref_pending ) { if ( ( cpi -> source = vp8_lookahead_peek ( cpi -> lookahead , cpi -> frames_till_gf_update_due , PEEK_FORWARD ) ) ) { cpi -> alt_ref_source = cpi -> source ; if ( cpi -> oxcf . arnr_max_frames > 0 ) { vp8_temporal_filter_prepare_c ( cpi , cpi -> frames_till_gf_update_due ) ; force_src_buffer = & cpi -> alt_ref_buffer ; } cpi -> frames_till_alt_ref_frame = cpi -> frames_till_gf_update_due ; cm -> refresh_alt_ref_frame = 1 ; cm -> refresh_golden_frame = 0 ; cm -> refresh_last_frame = 0 ; cm -> show_frame = 0 ; cpi -> source_alt_ref_pending = 0 ; cpi -> is_src_frame_alt_ref = 0 ; } } # endif if ( ! cpi -> source ) { if ( cpi -> pass == 1 && cm -> current_video_frame > 0 ) { if ( ( cpi -> last_source = vp8_lookahead_peek ( cpi -> lookahead , 1 , PEEK_BACKWARD ) ) == NULL ) return - 1 ; } if ( ( cpi -> source = vp8_lookahead_pop ( cpi -> lookahead , flush ) ) ) { cm -> show_frame = 1 ; cpi -> is_src_frame_alt_ref = cpi -> alt_ref_source && ( cpi -> source == cpi -> alt_ref_source ) ; if ( cpi -> is_src_frame_alt_ref ) cpi -> alt_ref_source = NULL ; } } if ( cpi -> source ) { cpi -> Source = force_src_buffer ? force_src_buffer : & cpi -> source -> img ; cpi -> un_scaled_source = cpi -> Source ; * time_stamp = cpi -> source -> ts_start ; * time_end = cpi -> source -> ts_end ; * frame_flags = cpi -> source -> flags ; if ( cpi -> pass == 1 && cm -> current_video_frame > 0 ) { cpi -> last_frame_unscaled_source = & cpi -> last_source -> img ; } } else { * size = 0 ; # if ! ( CONFIG_REALTIME_ONLY ) if ( flush && cpi -> pass == 1 && ! cpi -> twopass . first_pass_done ) { vp8_end_first_pass ( cpi ) ; cpi -> twopass . first_pass_done = 1 ; } # endif return - 1 ; } if ( cpi -> source -> ts_start < cpi -> first_time_stamp_ever ) { cpi -> first_time_stamp_ever = cpi -> source -> ts_start ; cpi -> last_end_time_stamp_seen = cpi -> source -> ts_start ; } if ( cm -> show_frame ) { int64_t this_duration ; int step = 0 ; if ( cpi -> source -> ts_start == cpi -> first_time_stamp_ever ) { this_duration = cpi -> source -> ts_end - cpi -> source -> ts_start ; step = 1 ; } else { int64_t last_duration ; this_duration = cpi -> source -> ts_end - cpi -> last_end_time_stamp_seen ; last_duration = cpi -> last_end_time_stamp_seen if ( last_duration ) step = ( int ) ( ( ( this_duration - last_duration ) * 10 / last_duration ) ) ; } if ( this_duration ) { if ( step ) cpi -> ref_framerate = 10000000.0 / this_duration ; else { double avg_duration , interval ; interval = ( double ) ( cpi -> source -> ts_end - cpi -> first_time_stamp_ever ) ; if ( interval > 10000000.0 ) interval = 10000000 ; avg_duration = 10000000.0 / cpi -> ref_framerate ; avg_duration *= ( interval - avg_duration + this_duration ) ; avg_duration /= interval ; cpi -> ref_framerate = 10000000.0 / avg_duration ; } # if CONFIG_MULTI_RES_ENCODING if ( cpi -> oxcf . mr_total_resolutions > 1 ) { LOWER_RES_FRAME_INFO * low_res_frame_info = ( LOWER_RES_FRAME_INFO * ) cpi -> oxcf . mr_low_res_mode_info ; if ( cpi -> oxcf . mr_encoder_id ) { cpi -> ref_framerate = low_res_frame_info -> low_res_framerate ; } else { low_res_frame_info -> low_res_framerate = cpi -> ref_framerate ; } } # endif if ( cpi -> oxcf . number_of_layers > 1 ) { unsigned int i ; assert ( cpi -> oxcf . number_of_layers <= VPX_TS_MAX_LAYERS ) ; for ( i = 0 ; i < cpi -> oxcf . number_of_layers && i < VPX_TS_MAX_LAYERS ; ++ i ) { LAYER_CONTEXT * lc = & cpi -> layer_context [ i ] ; lc -> framerate = cpi -> ref_framerate / cpi -> oxcf . rate_decimator [ i ] ; } } else vp8_new_framerate ( cpi , cpi -> ref_framerate ) ; } cpi -> last_time_stamp_seen = cpi -> source -> ts_start ; cpi -> last_end_time_stamp_seen = cpi -> source -> ts_end ; } if ( cpi -> oxcf . number_of_layers > 1 ) { int layer ; update_layer_contexts ( cpi ) ; if ( cpi -> temporal_layer_id >= 0 ) { layer = cpi -> temporal_layer_id ; } else { layer = cpi -> oxcf . layer_id [ cpi -> temporal_pattern_counter % cpi -> oxcf . periodicity ] ; } restore_layer_context ( cpi , layer ) ; vp8_new_framerate ( cpi , cpi -> layer_context [ layer ] . framerate ) ; } if ( cpi -> compressor_speed == 2 ) { vpx_usec_timer_start ( & tsctimer ) ; vpx_usec_timer_start ( & ticktimer ) ; } cpi -> lf_zeromv_pct = ( cpi -> zeromv_count * 100 ) / cm -> MBs ; # if CONFIG_REALTIME_ONLY & CONFIG_ONTHEFLY_BITPACKING { int i ; const int num_part = ( 1 << cm -> multi_token_partition ) ; const unsigned long dest_size = dest_end - dest ; const int tok_part_buff_size = ( dest_size * 9 ) / ( 10 * num_part ) ; unsigned char * dp = dest ; cpi -> partition_d [ 0 ] = dp ; dp += dest_size / 10 ; cpi -> partition_d_end [ 0 ] = dp ; for ( i = 0 ; i < num_part ; i ++ ) { cpi -> partition_d [ i + 1 ] = dp ; dp += tok_part_buff_size ; cpi -> partition_d_end [ i + 1 ] = dp ; } } # endif * size = 0 ; vp8_clear_system_state ( ) ; cm -> frame_type = INTER_FRAME ; cm -> frame_flags = * frame_flags ; # if 0 if ( cm -> refresh_alt_ref_frame ) { cm -> refresh_golden_frame = 0 ; cm -> refresh_last_frame = 0 ; } else { cm -> refresh_golden_frame = 0 ; cm -> refresh_last_frame = 1 ; } # endif { int i = 0 ; for ( ; i < NUM_YV12_BUFFERS ; i ++ ) { if ( ! cm -> yv12_fb [ i ] . flags ) { cm -> new_fb_idx = i ; break ; } } assert ( i < NUM_YV12_BUFFERS ) ; } # if ! ( CONFIG_REALTIME_ONLY ) if ( cpi -> pass == 1 ) { Pass1Encode ( cpi , size , dest , frame_flags ) ; } else if ( cpi -> pass == 2 ) { Pass2Encode ( cpi , size , dest , dest_end , frame_flags ) ; } else # endif encode_frame_to_data_rate ( cpi , size , dest , dest_end , frame_flags ) ; if ( cpi -> compressor_speed == 2 ) { unsigned int duration , duration2 ; vpx_usec_timer_mark ( & tsctimer ) ; vpx_usec_timer_mark ( & ticktimer ) ; duration = ( int ) ( vpx_usec_timer_elapsed ( & ticktimer ) ) ; duration2 = ( unsigned int ) ( ( double ) duration / 2 ) ; if ( cm -> frame_type != KEY_FRAME ) { if ( cpi -> avg_encode_time == 0 ) cpi -> avg_encode_time = duration ; else cpi -> avg_encode_time = ( 7 * cpi -> avg_encode_time + duration ) >> 3 ; } if ( duration2 ) { { if ( cpi -> avg_pick_mode_time == 0 ) cpi -> avg_pick_mode_time = duration2 ; else cpi -> avg_pick_mode_time = ( 7 * cpi -> avg_pick_mode_time + duration2 ) >> 3 ; } } } if ( cm -> refresh_entropy_probs == 0 ) { memcpy ( & cm -> fc , & cm -> lfc , sizeof ( cm -> fc ) ) ; } if ( cm -> refresh_alt_ref_frame ) memcpy ( & cpi -> lfc_a , & cm -> fc , sizeof ( cm -> fc ) ) ; if ( cm -> refresh_golden_frame ) memcpy ( & cpi -> lfc_g , & cm -> fc , sizeof ( cm -> fc ) ) ; if ( cm -> refresh_last_frame ) memcpy ( & cpi -> lfc_n , & cm -> fc , sizeof ( cm -> fc ) ) ; if ( * size > 0 ) { cpi -> droppable = ! frame_is_reference ( cpi ) ; cm -> refresh_entropy_probs = 1 ; cm -> refresh_alt_ref_frame = 0 ; cm -> refresh_golden_frame = 0 ; cm -> refresh_last_frame = 1 ; cm -> frame_type = INTER_FRAME ; } if ( cpi -> oxcf . number_of_layers > 1 ) save_layer_context ( cpi ) ; vpx_usec_timer_mark ( & cmptimer ) ; cpi -> time_compress_data += vpx_usec_timer_elapsed ( & cmptimer ) ; if ( cpi -> b_calculate_psnr && cpi -> pass != 1 && cm -> show_frame ) { generate_psnr_packet ( cpi ) ; } # if CONFIG_INTERNAL_STATS if ( cpi -> pass != 1 ) { cpi -> bytes += * size ; if ( cm -> show_frame ) { cpi -> common . show_frame_mi = cpi -> common . mi ; cpi -> count ++ ; if ( cpi -> b_calculate_psnr ) { uint64_t ye , ue , ve ; double frame_psnr ; YV12_BUFFER_CONFIG * orig = cpi -> Source ; YV12_BUFFER_CONFIG * recon = cpi -> common . frame_to_show ; unsigned int y_width = cpi -> common . Width ; unsigned int y_height = cpi -> common . Height ; unsigned int uv_width = ( y_width + 1 ) / 2 ; unsigned int uv_height = ( y_height + 1 ) / 2 ; int y_samples = y_height * y_width ; int uv_samples = uv_height * uv_width ; int t_samples = y_samples + 2 * uv_samples ; double sq_error ; ye = calc_plane_error ( orig -> y_buffer , orig -> y_stride , recon -> y_buffer , recon -> y_stride , y_width , y_height ) ; ue = calc_plane_error ( orig -> u_buffer , orig -> uv_stride , recon -> u_buffer , recon -> uv_stride , uv_width , uv_height ) ; ve = calc_plane_error ( orig -> v_buffer , orig -> uv_stride , recon -> v_buffer , recon -> uv_stride , uv_width , uv_height ) ; sq_error = ( double ) ( ye + ue + ve ) ; frame_psnr = vpx_sse_to_psnr ( t_samples , 255.0 , sq_error ) ; cpi -> total_y += vpx_sse_to_psnr ( y_samples , 255.0 , ( double ) ye ) ; cpi -> total_u += vpx_sse_to_psnr ( uv_samples , 255.0 , ( double ) ue ) ; cpi -> total_v += vpx_sse_to_psnr ( uv_samples , 255.0 , ( double ) ve ) ; cpi -> total_sq_error += sq_error ; cpi -> total += frame_psnr ; # if CONFIG_POSTPROC { YV12_BUFFER_CONFIG * pp = & cm -> post_proc_buffer ; double sq_error2 ; double frame_psnr2 , frame_ssim2 = 0 ; double weight = 0 ; vp8_deblock ( cm , cm -> frame_to_show , & cm -> post_proc_buffer , cm -> filter_level * 10 / 6 , 1 , 0 ) ; vp8_clear_system_state ( ) ; ye = calc_plane_error ( orig -> y_buffer , orig -> y_stride , pp -> y_buffer , pp -> y_stride , y_width , y_height ) ; ue = calc_plane_error ( orig -> u_buffer , orig -> uv_stride , pp -> u_buffer , pp -> uv_stride , uv_width , uv_height ) ; ve = calc_plane_error ( orig -> v_buffer , orig -> uv_stride , pp -> v_buffer , pp -> uv_stride , uv_width , uv_height ) ; sq_error2 = ( double ) ( ye + ue + ve ) ; frame_psnr2 = vpx_sse_to_psnr ( t_samples , 255.0 , sq_error2 ) ; cpi -> totalp_y += vpx_sse_to_psnr ( y_samples , 255.0 , ( double ) ye ) ; cpi -> totalp_u += vpx_sse_to_psnr ( uv_samples , 255.0 , ( double ) ue ) ; cpi -> totalp_v += vpx_sse_to_psnr ( uv_samples , 255.0 , ( double ) ve ) ; cpi -> total_sq_error2 += sq_error2 ; cpi -> totalp += frame_psnr2 ; frame_ssim2 = vpx_calc_ssim ( cpi -> Source , & cm -> post_proc_buffer , & weight ) ; cpi -> summed_quality += frame_ssim2 * weight ; cpi -> summed_weights += weight ; if ( cpi -> oxcf . number_of_layers > 1 ) { unsigned int i ; for ( i = cpi -> current_layer ; i < cpi -> oxcf . number_of_layers ; i ++ ) { cpi -> frames_in_layer [ i ] ++ ; cpi -> bytes_in_layer [ i ] += * size ; cpi -> sum_psnr [ i ] += frame_psnr ; cpi -> sum_psnr_p [ i ] += frame_psnr2 ; cpi -> total_error2 [ i ] += sq_error ; cpi -> total_error2_p [ i ] += sq_error2 ; cpi -> sum_ssim [ i ] += frame_ssim2 * weight ; cpi -> sum_weights [ i ] += weight ; } } } # endif } if ( cpi -> b_calculate_ssimg ) { double y , u , v , frame_all ; frame_all = vpx_calc_ssimg ( cpi -> Source , cm -> frame_to_show , & y , & u , & v ) ; if ( cpi -> oxcf . number_of_layers > 1 ) { unsigned int i ; for ( i = cpi -> current_layer ; i < cpi -> oxcf . number_of_layers ; i ++ ) { if ( ! cpi -> b_calculate_psnr ) cpi -> frames_in_layer [ i ] ++ ; cpi -> total_ssimg_y_in_layer [ i ] += y ; cpi -> total_ssimg_u_in_layer [ i ] += u ; cpi -> total_ssimg_v_in_layer [ i ] += v ; cpi -> total_ssimg_all_in_layer [ i ] += frame_all ; } } else { cpi -> total_ssimg_y += y ; cpi -> total_ssimg_u += u ; cpi -> total_ssimg_v += v ; cpi -> total_ssimg_all += frame_all ; } } } } # if 0 if ( cpi -> common . frame_type != 0 && cpi -> common . base_qindex == cpi -> oxcf . worst_allowed_q ) { skiptruecount += cpi -> skip_true_count ; skipfalsecount += cpi -> skip_false_count ; } # endif # if 0 if ( cpi -> pass != 1 ) { FILE * f = fopen ( ""skip.stt"" , ""a"" ) ; fprintf ( f , ""frame:%4d flags:%4x Q:%4d P:%4d Size:%5d\\n"" , cpi -> common . current_video_frame , * frame_flags , cpi -> common . base_qindex , cpi -> prob_skip_false , * size ) ; if ( cpi -> is_src_frame_alt_ref == 1 ) fprintf ( f , ""skipcount: %4d framesize: %d\\n"" , cpi -> skip_true_count , * size ) ; fclose ( f ) ; } # endif # endif cpi -> common . error . setjmp = 0 ; return 0 ; }" 815,"CWE-476 int sqlite3ExprCodeTarget ( Parse * pParse , Expr * pExpr , int target ) { Vdbe * v = pParse -> pVdbe ; int op ; int inReg = target ; int regFree1 = 0 ; int regFree2 = 0 ; int r1 , r2 ; Expr tempX ; int p5 = 0 ; assert ( target > 0 && target <= pParse -> nMem ) ; if ( v == 0 ) { assert ( pParse -> db -> mallocFailed ) ; return 0 ; } expr_code_doover : if ( pExpr == 0 ) { op = TK_NULL ; } else { op = pExpr -> op ; } switch ( op ) { case TK_AGG_COLUMN : { AggInfo * pAggInfo = pExpr -> pAggInfo ; struct AggInfo_col * pCol = & pAggInfo -> aCol [ pExpr -> iAgg ] ; if ( ! pAggInfo -> directMode ) { assert ( pCol -> iMem > 0 ) ; return pCol -> iMem ; } else if ( pAggInfo -> useSortingIdx ) { sqlite3VdbeAddOp3 ( v , OP_Column , pAggInfo -> sortingIdxPTab , pCol -> iSorterColumn , target ) ; return target ; } } case TK_COLUMN : { int iTab = pExpr -> iTable ; if ( ExprHasProperty ( pExpr , EP_FixedCol ) ) { int iReg = sqlite3ExprCodeTarget ( pParse , pExpr -> pLeft , target ) ; int aff = sqlite3TableColumnAffinity ( pExpr -> y . pTab , pExpr -> iColumn ) ; if ( aff > SQLITE_AFF_BLOB ) { static const char zAff [ ] = ""B\\000C\\000D\\000E"" ; assert ( SQLITE_AFF_BLOB == 'A' ) ; assert ( SQLITE_AFF_TEXT == 'B' ) ; if ( iReg != target ) { sqlite3VdbeAddOp2 ( v , OP_SCopy , iReg , target ) ; iReg = target ; } sqlite3VdbeAddOp4 ( v , OP_Affinity , iReg , 1 , 0 , & zAff [ ( aff - 'B' ) * 2 ] , P4_STATIC ) ; } return iReg ; } if ( iTab < 0 ) { if ( pParse -> iSelfTab < 0 ) { Column * pCol ; Table * pTab = pExpr -> y . pTab ; int iSrc ; int iCol = pExpr -> iColumn ; assert ( pTab != 0 ) ; assert ( iCol >= XN_ROWID ) ; assert ( iCol < pExpr -> y . pTab -> nCol ) ; if ( iCol < 0 ) { return - 1 - pParse -> iSelfTab ; } pCol = pTab -> aCol + iCol ; testcase ( iCol != sqlite3TableColumnToStorage ( pTab , iCol ) ) ; iSrc = sqlite3TableColumnToStorage ( pTab , iCol ) - pParse -> iSelfTab ; # ifndef SQLITE_OMIT_GENERATED_COLUMNS if ( pCol -> colFlags & COLFLAG_GENERATED ) { if ( pCol -> colFlags & COLFLAG_BUSY ) { sqlite3ErrorMsg ( pParse , ""generated column loop on \\""%s\\"""" , pCol -> zName ) ; return 0 ; } pCol -> colFlags |= COLFLAG_BUSY ; if ( pCol -> colFlags & COLFLAG_NOTAVAIL ) { sqlite3ExprCodeGeneratedColumn ( pParse , pCol , iSrc ) ; } pCol -> colFlags &= ~ ( COLFLAG_BUSY | COLFLAG_NOTAVAIL ) ; return iSrc ; } else # endif if ( pCol -> affinity == SQLITE_AFF_REAL ) { sqlite3VdbeAddOp2 ( v , OP_SCopy , iSrc , target ) ; sqlite3VdbeAddOp1 ( v , OP_RealAffinity , target ) ; return target ; } else { return iSrc ; }","int sqlite3ExprCodeTarget ( Parse * pParse , Expr * pExpr , int target ) { Vdbe * v = pParse -> pVdbe ; int op ; int inReg = target ; int regFree1 = 0 ; int regFree2 = 0 ; int r1 , r2 ; Expr tempX ; int p5 = 0 ; assert ( target > 0 && target <= pParse -> nMem ) ; if ( v == 0 ) { assert ( pParse -> db -> mallocFailed ) ; return 0 ; } expr_code_doover : if ( pExpr == 0 ) { op = TK_NULL ; } else { op = pExpr -> op ; } switch ( op ) { case TK_AGG_COLUMN : { AggInfo * pAggInfo = pExpr -> pAggInfo ; struct AggInfo_col * pCol = & pAggInfo -> aCol [ pExpr -> iAgg ] ; if ( ! pAggInfo -> directMode ) { assert ( pCol -> iMem > 0 ) ; return pCol -> iMem ; } else if ( pAggInfo -> useSortingIdx ) { sqlite3VdbeAddOp3 ( v , OP_Column , pAggInfo -> sortingIdxPTab , pCol -> iSorterColumn , target ) ; return target ; } } case TK_COLUMN : { int iTab = pExpr -> iTable ; if ( ExprHasProperty ( pExpr , EP_FixedCol ) ) { int iReg = sqlite3ExprCodeTarget ( pParse , pExpr -> pLeft , target ) ; int aff ; if ( pExpr -> y . pTab ) { aff = sqlite3TableColumnAffinity ( pExpr -> y . pTab , pExpr -> iColumn ) ; } else { aff = pExpr -> affExpr ; } if ( aff > SQLITE_AFF_BLOB ) { static const char zAff [ ] = ""B\\000C\\000D\\000E"" ; assert ( SQLITE_AFF_BLOB == 'A' ) ; assert ( SQLITE_AFF_TEXT == 'B' ) ; if ( iReg != target ) { sqlite3VdbeAddOp2 ( v , OP_SCopy , iReg , target ) ; iReg = target ; } sqlite3VdbeAddOp4 ( v , OP_Affinity , iReg , 1 , 0 , & zAff [ ( aff - 'B' ) * 2 ] , P4_STATIC ) ; } return iReg ; } if ( iTab < 0 ) { if ( pParse -> iSelfTab < 0 ) { Column * pCol ; Table * pTab = pExpr -> y . pTab ; int iSrc ; int iCol = pExpr -> iColumn ; assert ( pTab != 0 ) ; assert ( iCol >= XN_ROWID ) ; assert ( iCol < pExpr -> y . pTab -> nCol ) ; if ( iCol < 0 ) { return - 1 - pParse -> iSelfTab ; } pCol = pTab -> aCol + iCol ; testcase ( iCol != sqlite3TableColumnToStorage ( pTab , iCol ) ) ; iSrc = sqlite3TableColumnToStorage ( pTab , iCol ) - pParse -> iSelfTab ; # ifndef SQLITE_OMIT_GENERATED_COLUMNS if ( pCol -> colFlags & COLFLAG_GENERATED ) { if ( pCol -> colFlags & COLFLAG_BUSY ) { sqlite3ErrorMsg ( pParse , ""generated column loop on \\""%s\\"""" , pCol -> zName ) ; return 0 ; } pCol -> colFlags |= COLFLAG_BUSY ; if ( pCol -> colFlags & COLFLAG_NOTAVAIL ) { sqlite3ExprCodeGeneratedColumn ( pParse , pCol , iSrc ) ; } pCol -> colFlags &= ~ ( COLFLAG_BUSY | COLFLAG_NOTAVAIL ) ; return iSrc ; } else # endif if ( pCol -> affinity == SQLITE_AFF_REAL ) { sqlite3VdbeAddOp2 ( v , OP_SCopy , iSrc , target ) ; sqlite3VdbeAddOp1 ( v , OP_RealAffinity , target ) ; return target ; } else { return iSrc ; }" 816,"CWE-59 static int expandRegular ( rpmfi fi , const char * dest , rpmpsm psm , int nodigest , int nocontent ) { FD_t wfd = NULL ; int rc = 0 ; { mode_t old_umask = umask ( 0577 ) ; wfd = Fopen ( dest , ""w.ufdio"" ) ; umask ( old_umask ) ; } if ( Ferror ( wfd ) ) { rc = RPMERR_OPEN_FAILED ; goto exit ; } if ( ! nocontent ) rc = rpmfiArchiveReadToFilePsm ( fi , wfd , nodigest , psm ) ; exit : if ( wfd ) { int myerrno = errno ; Fclose ( wfd ) ; errno = myerrno ; } return rc ; }","static int expandRegular ( rpmfi fi , const char * dest , rpmpsm psm , int exclusive , int nodigest , int nocontent ) { FD_t wfd = NULL ; int rc = 0 ; { mode_t old_umask = umask ( 0577 ) ; wfd = Fopen ( dest , exclusive ? ""wx.ufdio"" : ""a.ufdio"" ) ; umask ( old_umask ) ; if ( ! exclusive && wfd != NULL && ! linkSane ( wfd , dest ) ) { rc = RPMERR_OPEN_FAILED ; goto exit ; } } if ( Ferror ( wfd ) ) { rc = RPMERR_OPEN_FAILED ; goto exit ; } if ( ! nocontent ) rc = rpmfiArchiveReadToFilePsm ( fi , wfd , nodigest , psm ) ; exit : if ( wfd ) { int myerrno = errno ; Fclose ( wfd ) ; errno = myerrno ; } return rc ; }" 817,"CWE-362 int ip_options_echo ( struct ip_options * dopt , struct sk_buff * skb ) { struct ip_options * sopt ; unsigned char * sptr , * dptr ; int soffset , doffset ; int optlen ; __be32 daddr ; memset ( dopt , 0 , sizeof ( struct ip_options ) ) ; sopt = & ( IPCB ( skb ) -> opt ) ; if ( sopt -> optlen == 0 ) { dopt -> optlen = 0 ; return 0 ; } sptr = skb_network_header ( skb ) ; dptr = dopt -> __data ; daddr = skb_rtable ( skb ) -> rt_spec_dst ; if ( sopt -> rr ) { optlen = sptr [ sopt -> rr + 1 ] ; soffset = sptr [ sopt -> rr + 2 ] ; dopt -> rr = dopt -> optlen + sizeof ( struct iphdr ) ; memcpy ( dptr , sptr + sopt -> rr , optlen ) ; if ( sopt -> rr_needaddr && soffset <= optlen ) { if ( soffset + 3 > optlen ) return - EINVAL ; dptr [ 2 ] = soffset + 4 ; dopt -> rr_needaddr = 1 ; } dptr += optlen ; dopt -> optlen += optlen ; } if ( sopt -> ts ) { optlen = sptr [ sopt -> ts + 1 ] ; soffset = sptr [ sopt -> ts + 2 ] ; dopt -> ts = dopt -> optlen + sizeof ( struct iphdr ) ; memcpy ( dptr , sptr + sopt -> ts , optlen ) ; if ( soffset <= optlen ) { if ( sopt -> ts_needaddr ) { if ( soffset + 3 > optlen ) return - EINVAL ; dopt -> ts_needaddr = 1 ; soffset += 4 ; } if ( sopt -> ts_needtime ) { if ( soffset + 3 > optlen ) return - EINVAL ; if ( ( dptr [ 3 ] & 0xF ) != IPOPT_TS_PRESPEC ) { dopt -> ts_needtime = 1 ; soffset += 4 ; } else { dopt -> ts_needtime = 0 ; if ( soffset + 7 <= optlen ) { __be32 addr ; memcpy ( & addr , dptr + soffset - 1 , 4 ) ; if ( inet_addr_type ( dev_net ( skb_dst ( skb ) -> dev ) , addr ) != RTN_UNICAST ) { dopt -> ts_needtime = 1 ; soffset += 8 ; } } } } dptr [ 2 ] = soffset ; } dptr += optlen ;","int ip_options_echo ( struct ip_options * dopt , struct sk_buff * skb ) { const struct ip_options * sopt ; unsigned char * sptr , * dptr ; int soffset , doffset ; int optlen ; __be32 daddr ; memset ( dopt , 0 , sizeof ( struct ip_options ) ) ; sopt = & ( IPCB ( skb ) -> opt ) ; if ( sopt -> optlen == 0 ) return 0 ; sptr = skb_network_header ( skb ) ; dptr = dopt -> __data ; daddr = skb_rtable ( skb ) -> rt_spec_dst ; if ( sopt -> rr ) { optlen = sptr [ sopt -> rr + 1 ] ; soffset = sptr [ sopt -> rr + 2 ] ; dopt -> rr = dopt -> optlen + sizeof ( struct iphdr ) ; memcpy ( dptr , sptr + sopt -> rr , optlen ) ; if ( sopt -> rr_needaddr && soffset <= optlen ) { if ( soffset + 3 > optlen ) return - EINVAL ; dptr [ 2 ] = soffset + 4 ; dopt -> rr_needaddr = 1 ; } dptr += optlen ; dopt -> optlen += optlen ; } if ( sopt -> ts ) { optlen = sptr [ sopt -> ts + 1 ] ; soffset = sptr [ sopt -> ts + 2 ] ; dopt -> ts = dopt -> optlen + sizeof ( struct iphdr ) ; memcpy ( dptr , sptr + sopt -> ts , optlen ) ; if ( soffset <= optlen ) { if ( sopt -> ts_needaddr ) { if ( soffset + 3 > optlen ) return - EINVAL ; dopt -> ts_needaddr = 1 ; soffset += 4 ; } if ( sopt -> ts_needtime ) { if ( soffset + 3 > optlen ) return - EINVAL ; if ( ( dptr [ 3 ] & 0xF ) != IPOPT_TS_PRESPEC ) { dopt -> ts_needtime = 1 ; soffset += 4 ; } else { dopt -> ts_needtime = 0 ; if ( soffset + 7 <= optlen ) { __be32 addr ; memcpy ( & addr , dptr + soffset - 1 , 4 ) ; if ( inet_addr_type ( dev_net ( skb_dst ( skb ) -> dev ) , addr ) != RTN_UNICAST ) { dopt -> ts_needtime = 1 ; soffset += 8 ; } } } } dptr [ 2 ] = soffset ; } dptr += optlen ;" 818,"CWE-59 # endif # ifdef _WITH_LVS_ case 'I' : __set_bit ( DONT_RELEASE_IPVS_BIT , & debug ) ; break ; # endif case 'D' : if ( __test_bit ( LOG_DETAIL_BIT , & debug ) ) __set_bit ( LOG_EXTRA_DETAIL_BIT , & debug ) ; else __set_bit ( LOG_DETAIL_BIT , & debug ) ; break ; case 'R' : __set_bit ( DONT_RESPAWN_BIT , & debug ) ; break ; # ifdef _WITH_VRRP_ case 'X' : __set_bit ( RELEASE_VIPS_BIT , & debug ) ; break ; # endif case 'S' : if ( ! read_unsigned ( optarg , & facility , 0 , LOG_FACILITY_MAX , false ) ) fprintf ( stderr , ""Invalid log facility \'%s\'\\n"" , optarg ) ; else { log_facility = LOG_FACILITY [ facility ] . facility ; reopen_log = true ; } break ; case 'g' : if ( optarg && optarg [ 0 ] ) log_file_name = optarg ; else log_file_name = ""/tmp/keepalived.log"" ; open_log_file ( log_file_name , NULL , NULL , NULL ) ; break ; case 'G' : __set_bit ( NO_SYSLOG_BIT , & debug ) ; reopen_log = true ; break ; case 'u' : new_umask_val = set_umask ( optarg ) ; if ( umask_cmdline ) umask_val = new_umask_val ; break ; case 't' : __set_bit ( CONFIG_TEST_BIT , & debug ) ; __set_bit ( DONT_RESPAWN_BIT , & debug ) ; __set_bit ( DONT_FORK_BIT , & debug ) ; __set_bit ( NO_SYSLOG_BIT , & debug ) ; if ( optarg && optarg [ 0 ] ) { int fd = open ( optarg , O_WRONLY | O_APPEND | O_CREAT , S_IRUSR | S_IWUSR | S_IRGRP | S_IROTH ) ; if ( fd == - 1 ) { fprintf ( stderr , ""Unable to open config-test log file %s\\n"" , optarg ) ; exit ( EXIT_FAILURE ) ; } dup2 ( fd , STDERR_FILENO ) ; close ( fd ) ; } break ; case 'f' : conf_file = optarg ; break ; case 2 : set_flush_log_file ( ) ; break ; # if defined _WITH_VRRP_ && defined _WITH_LVS_ case 'P' : __clear_bit ( DAEMON_CHECKERS , & daemon_mode ) ; break ; case 'C' : __clear_bit ( DAEMON_VRRP , & daemon_mode ) ; break ; # endif # ifdef _WITH_BFD_ case 'B' : __clear_bit ( DAEMON_BFD , & daemon_mode ) ; break ; # endif case 'p' : main_pidfile = optarg ; break ; # ifdef _WITH_LVS_ case 'c' : checkers_pidfile = optarg ; break ; case 'a' : __set_bit ( LOG_ADDRESS_CHANGES , & debug ) ; break ; # endif # ifdef _WITH_VRRP_ case 'r' : vrrp_pidfile = optarg ; break ; # endif # ifdef _WITH_BFD_ case 'b' : bfd_pidfile = optarg ; break ; # endif # ifdef _WITH_SNMP_ case 'x' :","# endif # ifdef _WITH_LVS_ case 'I' : __set_bit ( DONT_RELEASE_IPVS_BIT , & debug ) ; break ; # endif case 'D' : if ( __test_bit ( LOG_DETAIL_BIT , & debug ) ) __set_bit ( LOG_EXTRA_DETAIL_BIT , & debug ) ; else __set_bit ( LOG_DETAIL_BIT , & debug ) ; break ; case 'R' : __set_bit ( DONT_RESPAWN_BIT , & debug ) ; break ; # ifdef _WITH_VRRP_ case 'X' : __set_bit ( RELEASE_VIPS_BIT , & debug ) ; break ; # endif case 'S' : if ( ! read_unsigned ( optarg , & facility , 0 , LOG_FACILITY_MAX , false ) ) fprintf ( stderr , ""Invalid log facility \'%s\'\\n"" , optarg ) ; else { log_facility = LOG_FACILITY [ facility ] . facility ; reopen_log = true ; } break ; case 'g' : if ( optarg && optarg [ 0 ] ) log_file_name = optarg ; else log_file_name = ""/tmp/keepalived.log"" ; open_log_file ( log_file_name , NULL , NULL , NULL ) ; break ; case 'G' : __set_bit ( NO_SYSLOG_BIT , & debug ) ; reopen_log = true ; break ; case 'u' : new_umask_val = set_umask ( optarg ) ; if ( umask_cmdline ) umask_val = new_umask_val ; break ; case 't' : __set_bit ( CONFIG_TEST_BIT , & debug ) ; __set_bit ( DONT_RESPAWN_BIT , & debug ) ; __set_bit ( DONT_FORK_BIT , & debug ) ; __set_bit ( NO_SYSLOG_BIT , & debug ) ; if ( optarg && optarg [ 0 ] ) { int fd = open ( optarg , O_WRONLY | O_APPEND | O_CREAT | O_NOFOLLOW , S_IRUSR | S_IWUSR | S_IRGRP | S_IROTH ) ; if ( fd == - 1 ) { fprintf ( stderr , ""Unable to open config-test log file %s\\n"" , optarg ) ; exit ( EXIT_FAILURE ) ; } dup2 ( fd , STDERR_FILENO ) ; close ( fd ) ; } break ; case 'f' : conf_file = optarg ; break ; case 2 : set_flush_log_file ( ) ; break ; # if defined _WITH_VRRP_ && defined _WITH_LVS_ case 'P' : __clear_bit ( DAEMON_CHECKERS , & daemon_mode ) ; break ; case 'C' : __clear_bit ( DAEMON_VRRP , & daemon_mode ) ; break ; # endif # ifdef _WITH_BFD_ case 'B' : __clear_bit ( DAEMON_BFD , & daemon_mode ) ; break ; # endif case 'p' : main_pidfile = optarg ; break ; # ifdef _WITH_LVS_ case 'c' : checkers_pidfile = optarg ; break ; case 'a' : __set_bit ( LOG_ADDRESS_CHANGES , & debug ) ; break ; # endif # ifdef _WITH_VRRP_ case 'r' : vrrp_pidfile = optarg ; break ; # endif # ifdef _WITH_BFD_ case 'b' : bfd_pidfile = optarg ; break ; # endif # ifdef _WITH_SNMP_ case 'x' :" 819,"CWE-763 static int pcrypt_create_aead ( struct crypto_template * tmpl , struct rtattr * * tb , u32 type , u32 mask ) { struct pcrypt_instance_ctx * ctx ; struct crypto_attr_type * algt ; struct aead_instance * inst ; struct aead_alg * alg ; const char * name ; int err ; algt = crypto_get_attr_type ( tb ) ; if ( IS_ERR ( algt ) ) return PTR_ERR ( algt ) ; name = crypto_attr_alg_name ( tb [ 1 ] ) ; if ( IS_ERR ( name ) ) return PTR_ERR ( name ) ; inst = kzalloc ( sizeof ( * inst ) + sizeof ( * ctx ) , GFP_KERNEL ) ; if ( ! inst ) return - ENOMEM ; ctx = aead_instance_ctx ( inst ) ; crypto_set_aead_spawn ( & ctx -> spawn , aead_crypto_instance ( inst ) ) ; err = crypto_grab_aead ( & ctx -> spawn , name , 0 , 0 ) ; if ( err ) goto out_free_inst ; alg = crypto_spawn_aead_alg ( & ctx -> spawn ) ; err = pcrypt_init_instance ( aead_crypto_instance ( inst ) , & alg -> base ) ; if ( err ) goto out_drop_aead ; inst -> alg . base . cra_flags = CRYPTO_ALG_ASYNC ; inst -> alg . ivsize = crypto_aead_alg_ivsize ( alg ) ; inst -> alg . maxauthsize = crypto_aead_alg_maxauthsize ( alg ) ; inst -> alg . base . cra_ctxsize = sizeof ( struct pcrypt_aead_ctx ) ; inst -> alg . init = pcrypt_aead_init_tfm ; inst -> alg . exit = pcrypt_aead_exit_tfm ; inst -> alg . setkey = pcrypt_aead_setkey ; inst -> alg . setauthsize = pcrypt_aead_setauthsize ; inst -> alg . encrypt = pcrypt_aead_encrypt ; inst -> alg . decrypt = pcrypt_aead_decrypt ; err = aead_register_instance ( tmpl , inst ) ; if ( err ) goto out_drop_aead ; out : return err ; out_drop_aead : crypto_drop_aead ( & ctx -> spawn ) ; out_free_inst : kfree ( inst ) ; goto out ; }","static int pcrypt_create_aead ( struct crypto_template * tmpl , struct rtattr * * tb , u32 type , u32 mask ) { struct pcrypt_instance_ctx * ctx ; struct crypto_attr_type * algt ; struct aead_instance * inst ; struct aead_alg * alg ; const char * name ; int err ; algt = crypto_get_attr_type ( tb ) ; if ( IS_ERR ( algt ) ) return PTR_ERR ( algt ) ; name = crypto_attr_alg_name ( tb [ 1 ] ) ; if ( IS_ERR ( name ) ) return PTR_ERR ( name ) ; inst = kzalloc ( sizeof ( * inst ) + sizeof ( * ctx ) , GFP_KERNEL ) ; if ( ! inst ) return - ENOMEM ; ctx = aead_instance_ctx ( inst ) ; crypto_set_aead_spawn ( & ctx -> spawn , aead_crypto_instance ( inst ) ) ; err = crypto_grab_aead ( & ctx -> spawn , name , 0 , 0 ) ; if ( err ) goto out_free_inst ; alg = crypto_spawn_aead_alg ( & ctx -> spawn ) ; err = pcrypt_init_instance ( aead_crypto_instance ( inst ) , & alg -> base ) ; if ( err ) goto out_drop_aead ; inst -> alg . base . cra_flags = CRYPTO_ALG_ASYNC ; inst -> alg . ivsize = crypto_aead_alg_ivsize ( alg ) ; inst -> alg . maxauthsize = crypto_aead_alg_maxauthsize ( alg ) ; inst -> alg . base . cra_ctxsize = sizeof ( struct pcrypt_aead_ctx ) ; inst -> alg . init = pcrypt_aead_init_tfm ; inst -> alg . exit = pcrypt_aead_exit_tfm ; inst -> alg . setkey = pcrypt_aead_setkey ; inst -> alg . setauthsize = pcrypt_aead_setauthsize ; inst -> alg . encrypt = pcrypt_aead_encrypt ; inst -> alg . decrypt = pcrypt_aead_decrypt ; inst -> free = pcrypt_free ; err = aead_register_instance ( tmpl , inst ) ; if ( err ) goto out_drop_aead ; out : return err ; out_drop_aead : crypto_drop_aead ( & ctx -> spawn ) ; out_free_inst : kfree ( inst ) ; goto out ; }" 820,"CWE-20 static int vsock_stream_recvmsg ( struct kiocb * kiocb , struct socket * sock , struct msghdr * msg , size_t len , int flags ) { struct sock * sk ; struct vsock_sock * vsk ; int err ; size_t target ; ssize_t copied ; long timeout ; struct vsock_transport_recv_notify_data recv_data ; DEFINE_WAIT ( wait ) ; sk = sock -> sk ; vsk = vsock_sk ( sk ) ; err = 0 ; msg -> msg_namelen = 0 ; lock_sock ( sk ) ; if ( sk -> sk_state != SS_CONNECTED ) { if ( sock_flag ( sk , SOCK_DONE ) ) err = 0 ; else err = - ENOTCONN ; goto out ; } if ( flags & MSG_OOB ) { err = - EOPNOTSUPP ; goto out ; } if ( sk -> sk_shutdown & RCV_SHUTDOWN ) { err = 0 ; goto out ; } if ( ! len ) { err = 0 ; goto out ; } target = sock_rcvlowat ( sk , flags & MSG_WAITALL , len ) ; if ( target >= transport -> stream_rcvhiwat ( vsk ) ) { err = - ENOMEM ; goto out ; } timeout = sock_rcvtimeo ( sk , flags & MSG_DONTWAIT ) ; copied = 0 ; err = transport -> notify_recv_init ( vsk , target , & recv_data ) ; if ( err < 0 ) goto out ; prepare_to_wait ( sk_sleep ( sk ) , & wait , TASK_INTERRUPTIBLE ) ; while ( 1 ) { s64 ready = vsock_stream_has_data ( vsk ) ; if ( ready < 0 ) { err = - ENOMEM ; goto out_wait ; } else if ( ready > 0 ) { ssize_t read ; err = transport -> notify_recv_pre_dequeue ( vsk , target , & recv_data ) ; if ( err < 0 ) break ; read = transport -> stream_dequeue ( vsk , msg -> msg_iov , len - copied , flags ) ; if ( read < 0 ) { err = - ENOMEM ; break ; } copied += read ;","static int vsock_stream_recvmsg ( struct kiocb * kiocb , struct socket * sock , struct msghdr * msg , size_t len , int flags ) { struct sock * sk ; struct vsock_sock * vsk ; int err ; size_t target ; ssize_t copied ; long timeout ; struct vsock_transport_recv_notify_data recv_data ; DEFINE_WAIT ( wait ) ; sk = sock -> sk ; vsk = vsock_sk ( sk ) ; err = 0 ; lock_sock ( sk ) ; if ( sk -> sk_state != SS_CONNECTED ) { if ( sock_flag ( sk , SOCK_DONE ) ) err = 0 ; else err = - ENOTCONN ; goto out ; } if ( flags & MSG_OOB ) { err = - EOPNOTSUPP ; goto out ; } if ( sk -> sk_shutdown & RCV_SHUTDOWN ) { err = 0 ; goto out ; } if ( ! len ) { err = 0 ; goto out ; } target = sock_rcvlowat ( sk , flags & MSG_WAITALL , len ) ; if ( target >= transport -> stream_rcvhiwat ( vsk ) ) { err = - ENOMEM ; goto out ; } timeout = sock_rcvtimeo ( sk , flags & MSG_DONTWAIT ) ; copied = 0 ; err = transport -> notify_recv_init ( vsk , target , & recv_data ) ; if ( err < 0 ) goto out ; prepare_to_wait ( sk_sleep ( sk ) , & wait , TASK_INTERRUPTIBLE ) ; while ( 1 ) { s64 ready = vsock_stream_has_data ( vsk ) ; if ( ready < 0 ) { err = - ENOMEM ; goto out_wait ; } else if ( ready > 0 ) { ssize_t read ; err = transport -> notify_recv_pre_dequeue ( vsk , target , & recv_data ) ; if ( err < 0 ) break ; read = transport -> stream_dequeue ( vsk , msg -> msg_iov , len - copied , flags ) ; if ( read < 0 ) { err = - ENOMEM ; break ; } copied += read ;" 821,"CWE-772 generic_ret * create_policy_2_svc ( cpol_arg * arg , struct svc_req * rqstp ) { static generic_ret ret ; char * prime_arg ; gss_buffer_desc client_name , service_name ; OM_uint32 minor_stat ; kadm5_server_handle_t handle ; const char * errmsg = NULL ; xdr_free ( xdr_generic_ret , & ret ) ; if ( ( ret . code = new_server_handle ( arg -> api_version , rqstp , & handle ) ) ) goto exit_func ; if ( ( ret . code = check_handle ( ( void * ) handle ) ) ) goto exit_func ; ret . api_version = handle -> api_version ; if ( setup_gss_names ( rqstp , & client_name , & service_name ) < 0 ) { ret . code = KADM5_FAILURE ; goto exit_func ; } prime_arg = arg -> rec . policy ; if ( CHANGEPW_SERVICE ( rqstp ) || ! kadm5int_acl_check ( handle -> context , rqst2name ( rqstp ) , ACL_ADD , NULL , NULL ) ) { ret . code = KADM5_AUTH_ADD ; log_unauth ( ""kadm5_create_policy"" , prime_arg , & client_name , & service_name , rqstp ) ; } else { ret . code = kadm5_create_policy ( ( void * ) handle , & arg -> rec , arg -> mask ) ; if ( ret . code != 0 ) errmsg = krb5_get_error_message ( handle -> context , ret . code ) ; log_done ( ""kadm5_create_policy"" , ( ( prime_arg == NULL ) ? ""(null)"" : prime_arg ) , errmsg , & client_name , & service_name , rqstp ) ; if ( errmsg != NULL ) krb5_free_error_message ( handle -> context , errmsg ) ; } gss_release_buffer ( & minor_stat , & client_name ) ; gss_release_buffer ( & minor_stat , & service_name ) ; exit_func : free_server_handle ( handle ) ; return & ret ; }","generic_ret * create_policy_2_svc ( cpol_arg * arg , struct svc_req * rqstp ) { static generic_ret ret ; char * prime_arg ; gss_buffer_desc client_name = GSS_C_EMPTY_BUFFER ; gss_buffer_desc service_name = GSS_C_EMPTY_BUFFER ; OM_uint32 minor_stat ; kadm5_server_handle_t handle ; const char * errmsg = NULL ; xdr_free ( xdr_generic_ret , & ret ) ; if ( ( ret . code = new_server_handle ( arg -> api_version , rqstp , & handle ) ) ) goto exit_func ; if ( ( ret . code = check_handle ( ( void * ) handle ) ) ) goto exit_func ; ret . api_version = handle -> api_version ; if ( setup_gss_names ( rqstp , & client_name , & service_name ) < 0 ) { ret . code = KADM5_FAILURE ; goto exit_func ; } prime_arg = arg -> rec . policy ; if ( CHANGEPW_SERVICE ( rqstp ) || ! kadm5int_acl_check ( handle -> context , rqst2name ( rqstp ) , ACL_ADD , NULL , NULL ) ) { ret . code = KADM5_AUTH_ADD ; log_unauth ( ""kadm5_create_policy"" , prime_arg , & client_name , & service_name , rqstp ) ; } else { ret . code = kadm5_create_policy ( ( void * ) handle , & arg -> rec , arg -> mask ) ; if ( ret . code != 0 ) errmsg = krb5_get_error_message ( handle -> context , ret . code ) ; log_done ( ""kadm5_create_policy"" , ( ( prime_arg == NULL ) ? ""(null)"" : prime_arg ) , errmsg , & client_name , & service_name , rqstp ) ; if ( errmsg != NULL ) krb5_free_error_message ( handle -> context , errmsg ) ; } exit_func : gss_release_buffer ( & minor_stat , & client_name ) ; gss_release_buffer ( & minor_stat , & service_name ) ; free_server_handle ( handle ) ; return & ret ; }" 822,CWE-119 void * H264SwDecMalloc ( u32 size ) { return malloc ( size ) ; },"void * H264SwDecMalloc ( u32 size , u32 num ) { if ( size > UINT32_MAX / num ) { return NULL ; } return malloc ( size * num ) ; }" 823,"CWE-119 static int get_prediction_error ( BLOCK * be , BLOCKD * b ) { unsigned char * sptr ; unsigned char * dptr ; sptr = ( * ( be -> base_src ) + be -> src ) ; dptr = b -> predictor ; return vp8_get4x4sse_cs ( sptr , be -> src_stride , dptr , 16 ) ; }","static int get_prediction_error ( BLOCK * be , BLOCKD * b ) { unsigned char * sptr ; unsigned char * dptr ; sptr = ( * ( be -> base_src ) + be -> src ) ; dptr = b -> predictor ; return vpx_get4x4sse_cs ( sptr , be -> src_stride , dptr , 16 ) ; }" 824,"CWE-125 static const struct usb_cdc_union_desc * ims_pcu_get_cdc_union_desc ( struct usb_interface * intf ) { const void * buf = intf -> altsetting -> extra ; size_t buflen = intf -> altsetting -> extralen ; struct usb_cdc_union_desc * union_desc ; if ( ! buf ) { dev_err ( & intf -> dev , ""Missing descriptor data\\n"" ) ; return NULL ; } if ( ! buflen ) { dev_err ( & intf -> dev , ""Zero length descriptor\\n"" ) ; return NULL ; } while ( buflen > 0 ) { union_desc = ( struct usb_cdc_union_desc * ) buf ; if ( union_desc -> bDescriptorType == USB_DT_CS_INTERFACE && union_desc -> bDescriptorSubType == USB_CDC_UNION_TYPE ) { dev_dbg ( & intf -> dev , ""Found union header\\n"" ) ; return union_desc ; } buflen -= union_desc -> bLength ; buf += union_desc -> bLength ; } dev_err ( & intf -> dev , ""Missing CDC union descriptor\\n"" ) ; return NULL ; }","static const struct usb_cdc_union_desc * ims_pcu_get_cdc_union_desc ( struct usb_interface * intf ) { const void * buf = intf -> altsetting -> extra ; size_t buflen = intf -> altsetting -> extralen ; struct usb_cdc_union_desc * union_desc ; if ( ! buf ) { dev_err ( & intf -> dev , ""Missing descriptor data\\n"" ) ; return NULL ; } if ( ! buflen ) { dev_err ( & intf -> dev , ""Zero length descriptor\\n"" ) ; return NULL ; } while ( buflen >= sizeof ( * union_desc ) ) { union_desc = ( struct usb_cdc_union_desc * ) buf ; if ( union_desc -> bLength > buflen ) { dev_err ( & intf -> dev , ""Too large descriptor\\n"" ) ; return NULL ; } if ( union_desc -> bDescriptorType == USB_DT_CS_INTERFACE && union_desc -> bDescriptorSubType == USB_CDC_UNION_TYPE ) { dev_dbg ( & intf -> dev , ""Found union header\\n"" ) ; if ( union_desc -> bLength >= sizeof ( * union_desc ) ) return union_desc ; dev_err ( & intf -> dev , ""Union descriptor to short (%d vs %zd\\n)"" , union_desc -> bLength , sizeof ( * union_desc ) ) ; return NULL ; } buflen -= union_desc -> bLength ; buf += union_desc -> bLength ; } dev_err ( & intf -> dev , ""Missing CDC union descriptor\\n"" ) ; return NULL ; }" 825,"nan } if ( ps_codec -> pu1_bitsbuf_dynamic ) { ps_codec -> pu1_bitsbuf = ps_codec -> pu1_bitsbuf_dynamic ; ps_codec -> u4_bitsbuf_size = ps_codec -> u4_bitsbuf_size_dynamic ; } else { ps_codec -> pu1_bitsbuf = ps_codec -> pu1_bitsbuf_static ; ps_codec -> u4_bitsbuf_size = ps_codec -> u4_bitsbuf_size_static ; } nal_ofst = ihevcd_nal_search_start_code ( ps_codec -> pu1_inp_bitsbuf , ps_codec -> i4_bytes_remaining ) ; ps_codec -> i4_nal_ofst = nal_ofst ; { WORD32 bytes_remaining = ps_codec -> i4_bytes_remaining - nal_ofst ; bytes_remaining = MIN ( ( UWORD32 ) bytes_remaining , ps_codec -> u4_bitsbuf_size ) ; ihevcd_nal_remv_emuln_bytes ( ps_codec -> pu1_inp_bitsbuf + nal_ofst , ps_codec -> pu1_bitsbuf , bytes_remaining , & nal_len , & bits_len ) ; if ( bits_len < ( WORD32 ) ( ps_codec -> u4_bitsbuf_size - 8 ) ) { memset ( ps_codec -> pu1_bitsbuf + bits_len , 0 , 2 * sizeof ( UWORD32 ) ) ; } } ps_codec -> i4_num_emln_bytes = nal_len - bits_len ; ps_codec -> i4_nal_len = nal_len ; ihevcd_bits_init ( & ps_codec -> s_parse . s_bitstrm , ps_codec -> pu1_bitsbuf , bits_len ) ; ret = ihevcd_nal_unit ( ps_codec ) ; if ( ps_codec -> i4_pic_present && ( ps_codec -> s_parse . i4_next_ctb_indx != ps_codec -> s_parse . ps_sps -> i4_pic_size_in_ctb ) ) { if ( ( ps_codec -> i4_bytes_remaining - ( nal_len + nal_ofst ) <= MIN_START_CODE_LEN ) || ( ps_codec -> i4_header_in_slice_mode ) ) { slice_header_t * ps_slice_hdr_next ; ps_codec -> s_parse . i4_cur_slice_idx -- ; if ( ps_codec -> s_parse . i4_cur_slice_idx < 0 ) ps_codec -> s_parse . i4_cur_slice_idx = 0 ; ps_slice_hdr_next = ps_codec -> s_parse . ps_slice_hdr_base + ( ( ps_codec -> s_parse . i4_cur_slice_idx + 1 ) & ( MAX_SLICE_HDR_CNT - 1 ) ) ; ps_slice_hdr_next -> i2_ctb_x = 0 ; ps_slice_hdr_next -> i2_ctb_y = ps_codec -> s_parse . ps_sps -> i2_pic_ht_in_ctb ; ps_codec -> i4_slice_error = 1 ; continue ; } } if ( IHEVCD_IGNORE_SLICE == ret ) { ps_codec -> pu1_inp_bitsbuf += ( nal_ofst + nal_len ) ; ps_codec -> i4_bytes_remaining -= ( nal_ofst + nal_len ) ; continue ; } if ( ( IVD_RES_CHANGED == ret ) || ( IHEVCD_UNSUPPORTED_DIMENSIONS == ret ) ) { break ; } if ( ret != IHEVCD_SLICE_IN_HEADER_MODE ) { if ( ( 0 == ps_codec -> i4_slice_error ) || ( ps_codec -> i4_bytes_remaining - ( nal_len + nal_ofst ) <= MIN_START_CODE_LEN ) ) { ps_codec -> pu1_inp_bitsbuf += ( nal_ofst + nal_len ) ; ps_codec -> i4_bytes_remaining -= ( nal_ofst + nal_len ) ; } if ( ret != IHEVCD_SUCCESS ) break ; if ( ps_codec -> s_parse . i4_end_of_frame ) break ; } else { ret = IHEVCD_SUCCESS ; break ; } if ( ( ps_codec -> u4_allocate_dynamic_done == 0 ) && ps_codec -> i4_sps_done ) { WORD32 ret ; ret = ihevcd_allocate_dynamic_bufs ( ps_codec ) ; if ( ret != IV_SUCCESS ) { ihevcd_free_dynamic_bufs ( ps_codec ) ; ps_codec -> i4_error_code = IVD_MEM_ALLOC_FAILED ; ps_dec_op -> u4_error_code |= 1 << IVD_FATALERROR ; ps_dec_op -> u4_error_code |= IVD_MEM_ALLOC_FAILED ; return IV_FAIL ; } } BREAK_AFTER_SLICE_NAL ( ) ; } if ( ( ps_codec -> u4_pic_cnt == 0 ) && ( ret != IHEVCD_SUCCESS ) ) { ps_codec -> i4_error_code = ret ; ihevcd_fill_outargs ( ps_codec , ps_dec_ip , ps_dec_op ) ; return IV_FAIL ; } if ( 1 == ps_codec -> i4_pic_present ) {","} if ( ps_codec -> pu1_bitsbuf_dynamic ) { ps_codec -> pu1_bitsbuf = ps_codec -> pu1_bitsbuf_dynamic ; ps_codec -> u4_bitsbuf_size = ps_codec -> u4_bitsbuf_size_dynamic ; } else { ps_codec -> pu1_bitsbuf = ps_codec -> pu1_bitsbuf_static ; ps_codec -> u4_bitsbuf_size = ps_codec -> u4_bitsbuf_size_static ; } nal_ofst = ihevcd_nal_search_start_code ( ps_codec -> pu1_inp_bitsbuf , ps_codec -> i4_bytes_remaining ) ; ps_codec -> i4_nal_ofst = nal_ofst ; { WORD32 bytes_remaining = ps_codec -> i4_bytes_remaining - nal_ofst ; bytes_remaining = MIN ( ( UWORD32 ) bytes_remaining , ps_codec -> u4_bitsbuf_size ) ; ihevcd_nal_remv_emuln_bytes ( ps_codec -> pu1_inp_bitsbuf + nal_ofst , ps_codec -> pu1_bitsbuf , bytes_remaining , & nal_len , & bits_len ) ; if ( bits_len < ( WORD32 ) ( ps_codec -> u4_bitsbuf_size - 8 ) ) { memset ( ps_codec -> pu1_bitsbuf + bits_len , 0 , 2 * sizeof ( UWORD32 ) ) ; } } ps_codec -> i4_num_emln_bytes = nal_len - bits_len ; ps_codec -> i4_nal_len = nal_len ; ihevcd_bits_init ( & ps_codec -> s_parse . s_bitstrm , ps_codec -> pu1_bitsbuf , bits_len ) ; ret = ihevcd_nal_unit ( ps_codec ) ; if ( ps_codec -> i4_pic_present && ( ps_codec -> s_parse . i4_next_ctb_indx != ps_codec -> s_parse . ps_sps -> i4_pic_size_in_ctb ) ) { if ( ( ps_codec -> i4_bytes_remaining - ( nal_len + nal_ofst ) <= MIN_START_CODE_LEN ) || ( ps_codec -> i4_header_in_slice_mode ) ) { slice_header_t * ps_slice_hdr_next ; ps_codec -> s_parse . i4_cur_slice_idx -- ; if ( ps_codec -> s_parse . i4_cur_slice_idx < 0 ) ps_codec -> s_parse . i4_cur_slice_idx = 0 ; ps_slice_hdr_next = ps_codec -> s_parse . ps_slice_hdr_base + ( ( ps_codec -> s_parse . i4_cur_slice_idx + 1 ) & ( MAX_SLICE_HDR_CNT - 1 ) ) ; ps_slice_hdr_next -> i2_ctb_x = 0 ; ps_slice_hdr_next -> i2_ctb_y = ps_codec -> s_parse . ps_sps -> i2_pic_ht_in_ctb ; ps_codec -> i4_slice_error = 1 ; continue ; } } if ( IHEVCD_IGNORE_SLICE == ret ) { ps_codec -> s_parse . i4_cur_slice_idx = MAX ( 0 , ( ps_codec -> s_parse . i4_cur_slice_idx - 1 ) ) ; ps_codec -> pu1_inp_bitsbuf += ( nal_ofst + nal_len ) ; ps_codec -> i4_bytes_remaining -= ( nal_ofst + nal_len ) ; continue ; } if ( ( IVD_RES_CHANGED == ret ) || ( IHEVCD_UNSUPPORTED_DIMENSIONS == ret ) ) { break ; } if ( ret != IHEVCD_SLICE_IN_HEADER_MODE ) { if ( ( 0 == ps_codec -> i4_slice_error ) || ( ps_codec -> i4_bytes_remaining - ( nal_len + nal_ofst ) <= MIN_START_CODE_LEN ) ) { ps_codec -> pu1_inp_bitsbuf += ( nal_ofst + nal_len ) ; ps_codec -> i4_bytes_remaining -= ( nal_ofst + nal_len ) ; } if ( ret != IHEVCD_SUCCESS ) break ; if ( ps_codec -> s_parse . i4_end_of_frame ) break ; } else { ret = IHEVCD_SUCCESS ; break ; } if ( ( ps_codec -> u4_allocate_dynamic_done == 0 ) && ps_codec -> i4_sps_done ) { WORD32 ret ; ret = ihevcd_allocate_dynamic_bufs ( ps_codec ) ; if ( ret != IV_SUCCESS ) { ihevcd_free_dynamic_bufs ( ps_codec ) ; ps_codec -> i4_error_code = IVD_MEM_ALLOC_FAILED ; ps_dec_op -> u4_error_code |= 1 << IVD_FATALERROR ; ps_dec_op -> u4_error_code |= IVD_MEM_ALLOC_FAILED ; return IV_FAIL ; } } BREAK_AFTER_SLICE_NAL ( ) ; } if ( ( ps_codec -> u4_pic_cnt == 0 ) && ( ret != IHEVCD_SUCCESS ) ) { ps_codec -> i4_error_code = ret ; ihevcd_fill_outargs ( ps_codec , ps_dec_ip , ps_dec_op ) ; return IV_FAIL ; } if ( 1 == ps_codec -> i4_pic_present ) {" 826,"CWE-190 SQLITE_PRIVATE void sqlite3VtabBeginParse ( Parse * pParse , Token * pName1 , Token * pName2 , Token * pModuleName , int ifNotExists ) { Table * pTable ; sqlite3 * db ; sqlite3StartTable ( pParse , pName1 , pName2 , 0 , 0 , 1 , ifNotExists ) ; pTable = pParse -> pNewTable ; if ( pTable == 0 ) return ; assert ( 0 == pTable -> pIndex ) ; db = pParse -> db ; assert ( pTable -> nModuleArg == 0 ) ; addModuleArgument ( db , pTable , sqlite3NameFromToken ( db , pModuleName ) ) ; addModuleArgument ( db , pTable , 0 ) ; addModuleArgument ( db , pTable , sqlite3DbStrDup ( db , pTable -> zName ) ) ; assert ( ( pParse -> sNameToken . z == pName2 -> z && pName2 -> z != 0 ) || ( pParse -> sNameToken . z == pName1 -> z && pName2 -> z == 0 ) ) ; pParse -> sNameToken . n = ( int ) ( & pModuleName -> z [ pModuleName -> n ] - pParse -> sNameToken . z ) ; # ifndef SQLITE_OMIT_AUTHORIZATION if ( pTable -> azModuleArg ) { int iDb = sqlite3SchemaToIndex ( db , pTable -> pSchema ) ; assert ( iDb >= 0 ) ; sqlite3AuthCheck ( pParse , SQLITE_CREATE_VTABLE , pTable -> zName , pTable -> azModuleArg [ 0 ] , pParse -> db -> aDb [ iDb ] . zDbSName ) ; } # endif }","SQLITE_PRIVATE void sqlite3VtabBeginParse ( Parse * pParse , Token * pName1 , Token * pName2 , Token * pModuleName , int ifNotExists ) { Table * pTable ; sqlite3 * db ; sqlite3StartTable ( pParse , pName1 , pName2 , 0 , 0 , 1 , ifNotExists ) ; pTable = pParse -> pNewTable ; if ( pTable == 0 ) return ; assert ( 0 == pTable -> pIndex ) ; db = pParse -> db ; assert ( pTable -> nModuleArg == 0 ) ; addModuleArgument ( pParse , pTable , sqlite3NameFromToken ( db , pModuleName ) ) ; addModuleArgument ( pParse , pTable , 0 ) ; addModuleArgument ( pParse , pTable , sqlite3DbStrDup ( db , pTable -> zName ) ) ; assert ( ( pParse -> sNameToken . z == pName2 -> z && pName2 -> z != 0 ) || ( pParse -> sNameToken . z == pName1 -> z && pName2 -> z == 0 ) ) ; pParse -> sNameToken . n = ( int ) ( & pModuleName -> z [ pModuleName -> n ] - pParse -> sNameToken . z ) ; # ifndef SQLITE_OMIT_AUTHORIZATION if ( pTable -> azModuleArg ) { int iDb = sqlite3SchemaToIndex ( db , pTable -> pSchema ) ; assert ( iDb >= 0 ) ; sqlite3AuthCheck ( pParse , SQLITE_CREATE_VTABLE , pTable -> zName , pTable -> azModuleArg [ 0 ] , pParse -> db -> aDb [ iDb ] . zDbSName ) ; } # endif }" 827,"CWE-17 void fput ( struct file * file ) { if ( atomic_long_dec_and_test ( & file -> f_count ) ) { struct task_struct * task = current ; file_sb_list_del ( file ) ; if ( likely ( ! in_interrupt ( ) && ! ( task -> flags & PF_KTHREAD ) ) ) { init_task_work ( & file -> f_u . fu_rcuhead , ____fput ) ; if ( ! task_work_add ( task , & file -> f_u . fu_rcuhead , true ) ) return ; } if ( llist_add ( & file -> f_u . fu_llist , & delayed_fput_list ) ) schedule_work ( & delayed_fput_work ) ; } }","void fput ( struct file * file ) { if ( atomic_long_dec_and_test ( & file -> f_count ) ) { struct task_struct * task = current ; if ( likely ( ! in_interrupt ( ) && ! ( task -> flags & PF_KTHREAD ) ) ) { init_task_work ( & file -> f_u . fu_rcuhead , ____fput ) ; if ( ! task_work_add ( task , & file -> f_u . fu_rcuhead , true ) ) return ; } if ( llist_add ( & file -> f_u . fu_llist , & delayed_fput_list ) ) schedule_work ( & delayed_fput_work ) ; } }" 828,"CWE-476 static void tw5864_handle_frame ( struct tw5864_h264_frame * frame ) { # define SKIP_VLCBUF_BYTES 3 struct tw5864_input * input = frame -> input ; struct tw5864_dev * dev = input -> root ; struct tw5864_buf * vb ; struct vb2_v4l2_buffer * v4l2_buf ; int frame_len = frame -> vlc_len - SKIP_VLCBUF_BYTES ; u8 * dst = input -> buf_cur_ptr ; u8 tail_mask , vlc_mask = 0 ; int i ; u8 vlc_first_byte = ( ( u8 * ) ( frame -> vlc . addr + SKIP_VLCBUF_BYTES ) ) [ 0 ] ; unsigned long flags ; int zero_run ; u8 * src ; u8 * src_end ; # ifdef DEBUG if ( frame -> checksum != tw5864_vlc_checksum ( ( u32 * ) frame -> vlc . addr , frame_len ) ) dev_err ( & dev -> pci -> dev , ""Checksum of encoded frame doesn\'t match!\\n"" ) ; # endif spin_lock_irqsave ( & input -> slock , flags ) ; vb = input -> vb ; input -> vb = NULL ; spin_unlock_irqrestore ( & input -> slock , flags ) ; v4l2_buf = to_vb2_v4l2_buffer ( & vb -> vb . vb2_buf ) ; if ( ! vb ) { dev_dbg ( & dev -> pci -> dev , ""vb is empty, dropping frame\\n"" ) ; return ; } if ( input -> buf_cur_space_left < frame_len * 5 / 4 ) { dev_err_once ( & dev -> pci -> dev , ""Left space in vb2 buffer, %d bytes, is less than considered safely enough to put frame of length %d. Dropping this frame.\\n"" , input -> buf_cur_space_left , frame_len ) ; return ; } for ( i = 0 ; i < 8 - input -> tail_nb_bits ; i ++ ) vlc_mask |= 1 << i ; tail_mask = ( ~ vlc_mask ) & 0xff ; dst [ 0 ] = ( input -> tail & tail_mask ) | ( vlc_first_byte & vlc_mask ) ; frame_len -- ; dst ++ ; src = frame -> vlc . addr + SKIP_VLCBUF_BYTES + 1 ; src_end = src + frame_len ; zero_run = 0 ; for ( ; src < src_end ; src ++ ) { if ( zero_run < 2 ) { if ( * src == 0 ) else zero_run = 0 ; } else { if ( ( * src & ~ 0x03 ) == 0 ) * dst ++ = 0x03 ; zero_run = * src == 0 ; } * dst ++ = * src ; } vb2_set_plane_payload ( & vb -> vb . vb2_buf , 0 , dst - ( u8 * ) vb2_plane_vaddr ( & vb -> vb . vb2_buf , 0 ) ) ; vb -> vb . vb2_buf . timestamp = frame -> timestamp ; v4l2_buf -> field = V4L2_FIELD_INTERLACED ; v4l2_buf -> sequence = frame -> seqno ; if ( frame -> gop_seqno && tw5864_is_motion_triggered ( frame ) ) { struct v4l2_event ev = { . type = V4L2_EVENT_MOTION_DET , . u . motion_det = { . flags = V4L2_EVENT_MD_FL_HAVE_FRAME_SEQ , . frame_sequence = v4l2_buf -> sequence , } , } ; v4l2_event_queue ( & input -> vdev , & ev ) ; } vb2_buffer_done ( & vb -> vb . vb2_buf , VB2_BUF_STATE_DONE ) ; }","static void tw5864_handle_frame ( struct tw5864_h264_frame * frame ) { # define SKIP_VLCBUF_BYTES 3 struct tw5864_input * input = frame -> input ; struct tw5864_dev * dev = input -> root ; struct tw5864_buf * vb ; struct vb2_v4l2_buffer * v4l2_buf ; int frame_len = frame -> vlc_len - SKIP_VLCBUF_BYTES ; u8 * dst = input -> buf_cur_ptr ; u8 tail_mask , vlc_mask = 0 ; int i ; u8 vlc_first_byte = ( ( u8 * ) ( frame -> vlc . addr + SKIP_VLCBUF_BYTES ) ) [ 0 ] ; unsigned long flags ; int zero_run ; u8 * src ; u8 * src_end ; # ifdef DEBUG if ( frame -> checksum != tw5864_vlc_checksum ( ( u32 * ) frame -> vlc . addr , frame_len ) ) dev_err ( & dev -> pci -> dev , ""Checksum of encoded frame doesn\'t match!\\n"" ) ; # endif spin_lock_irqsave ( & input -> slock , flags ) ; vb = input -> vb ; input -> vb = NULL ; spin_unlock_irqrestore ( & input -> slock , flags ) ; if ( ! vb ) { dev_dbg ( & dev -> pci -> dev , ""vb is empty, dropping frame\\n"" ) ; return ; } v4l2_buf = to_vb2_v4l2_buffer ( & vb -> vb . vb2_buf ) ; if ( input -> buf_cur_space_left < frame_len * 5 / 4 ) { dev_err_once ( & dev -> pci -> dev , ""Left space in vb2 buffer, %d bytes, is less than considered safely enough to put frame of length %d. Dropping this frame.\\n"" , input -> buf_cur_space_left , frame_len ) ; return ; } for ( i = 0 ; i < 8 - input -> tail_nb_bits ; i ++ ) vlc_mask |= 1 << i ; tail_mask = ( ~ vlc_mask ) & 0xff ; dst [ 0 ] = ( input -> tail & tail_mask ) | ( vlc_first_byte & vlc_mask ) ; frame_len -- ; dst ++ ; src = frame -> vlc . addr + SKIP_VLCBUF_BYTES + 1 ; src_end = src + frame_len ; zero_run = 0 ; for ( ; src < src_end ; src ++ ) { if ( zero_run < 2 ) { if ( * src == 0 ) + zero_run ; else zero_run = 0 ; } else { if ( ( * src & ~ 0x03 ) == 0 ) * dst ++ = 0x03 ; zero_run = * src == 0 ; } * dst ++ = * src ; } vb2_set_plane_payload ( & vb -> vb . vb2_buf , 0 , dst - ( u8 * ) vb2_plane_vaddr ( & vb -> vb . vb2_buf , 0 ) ) ; vb -> vb . vb2_buf . timestamp = frame -> timestamp ; v4l2_buf -> field = V4L2_FIELD_INTERLACED ; v4l2_buf -> sequence = frame -> seqno ; if ( frame -> gop_seqno && tw5864_is_motion_triggered ( frame ) ) { struct v4l2_event ev = { . type = V4L2_EVENT_MOTION_DET , . u . motion_det = { . flags = V4L2_EVENT_MD_FL_HAVE_FRAME_SEQ , . frame_sequence = v4l2_buf -> sequence , } , } ; v4l2_event_queue ( & input -> vdev , & ev ) ; } vb2_buffer_done ( & vb -> vb . vb2_buf , VB2_BUF_STATE_DONE ) ; }" 829,CWE-119 for ( ; iter -> end < iter -> text_end ; iter -> end = g_utf8_next_char ( iter -> end ) ) { gunichar ch = g_utf8_get_char ( iter -> end ) ; if ( ( ! ( ch == kZeroWidthJoinerCharacter && ! iter -> is_emoji ) && ch != kVariationSelector15Character && ch != kVariationSelector16Character && ch != kCombiningEnclosingCircleBackslashCharacter && ! _pango_Is_Regional_Indicator ( ch ) && ! ( ( ch == kLeftSpeechBubbleCharacter || ch == kRainbowCharacter || ch == kMaleSignCharacter || ch == kFemaleSignCharacter || ch == kStaffOfAesculapiusCharacter ) && ! iter -> is_emoji ) ) || current_emoji_type == PANGO_EMOJI_TYPE_INVALID ) { current_emoji_type = _pango_get_emoji_type ( ch ) ; } if ( g_utf8_next_char ( iter -> end ) < iter -> text_end ) { gunichar peek_char = g_utf8_get_char ( g_utf8_next_char ( iter -> end ) ) ; if ( current_emoji_type == PANGO_EMOJI_TYPE_EMOJI_EMOJI && peek_char == kVariationSelector15Character ) { current_emoji_type = PANGO_EMOJI_TYPE_EMOJI_TEXT ; } if ( ( current_emoji_type == PANGO_EMOJI_TYPE_EMOJI_TEXT || _pango_Is_Emoji_Keycap_Base ( ch ) ) && peek_char == kVariationSelector16Character ) { current_emoji_type = PANGO_EMOJI_TYPE_EMOJI_EMOJI ; } if ( _pango_Is_Emoji_Keycap_Base ( ch ) && peek_char == kCombiningEnclosingKeycapCharacter ) { current_emoji_type = PANGO_EMOJI_TYPE_EMOJI_EMOJI ; } ; if ( _pango_Is_Regional_Indicator ( ch ) && _pango_Is_Regional_Indicator ( peek_char ) ) { current_emoji_type = PANGO_EMOJI_TYPE_EMOJI_EMOJI ; } if ( ( ch == kEyeCharacter || ch == kWavingWhiteFlagCharacter ) && peek_char == kZeroWidthJoinerCharacter ) { current_emoji_type = PANGO_EMOJI_TYPE_EMOJI_EMOJI ; } } if ( iter -> is_emoji == ( gboolean ) 2 ) iter -> is_emoji = ! PANGO_EMOJI_TYPE_IS_EMOJI ( current_emoji_type ) ; if ( iter -> is_emoji == PANGO_EMOJI_TYPE_IS_EMOJI ( current_emoji_type ) ) { iter -> is_emoji = ! PANGO_EMOJI_TYPE_IS_EMOJI ( current_emoji_type ) ; return TRUE ; } } iter -> is_emoji = PANGO_EMOJI_TYPE_IS_EMOJI ( current_emoji_type ) ; return TRUE ; },for ( ; iter -> end < iter -> text_end ; iter -> end = g_utf8_next_char ( iter -> end ) ) { gunichar ch = g_utf8_get_char ( iter -> end ) ; if ( ( ! ( ch == kZeroWidthJoinerCharacter && ! iter -> is_emoji ) && ch != kVariationSelector15Character && ch != kVariationSelector16Character && ch != kCombiningEnclosingCircleBackslashCharacter && ! _pango_Is_Regional_Indicator ( ch ) && ! ( ( ch == kLeftSpeechBubbleCharacter || ch == kRainbowCharacter || ch == kMaleSignCharacter || ch == kFemaleSignCharacter || ch == kStaffOfAesculapiusCharacter ) && ! iter -> is_emoji ) ) || current_emoji_type == PANGO_EMOJI_TYPE_INVALID ) { current_emoji_type = _pango_get_emoji_type ( ch ) ; } if ( g_utf8_next_char ( iter -> end ) < iter -> text_end ) { gunichar peek_char = g_utf8_get_char ( g_utf8_next_char ( iter -> end ) ) ; if ( current_emoji_type == PANGO_EMOJI_TYPE_EMOJI_EMOJI && peek_char == kVariationSelector15Character ) { current_emoji_type = PANGO_EMOJI_TYPE_EMOJI_TEXT ; } if ( ( current_emoji_type == PANGO_EMOJI_TYPE_EMOJI_TEXT || _pango_Is_Emoji_Keycap_Base ( ch ) ) && peek_char == kVariationSelector16Character ) { current_emoji_type = PANGO_EMOJI_TYPE_EMOJI_EMOJI ; } if ( _pango_Is_Emoji_Keycap_Base ( ch ) && peek_char == kCombiningEnclosingKeycapCharacter ) { current_emoji_type = PANGO_EMOJI_TYPE_EMOJI_EMOJI ; } ; if ( _pango_Is_Regional_Indicator ( ch ) && _pango_Is_Regional_Indicator ( peek_char ) ) { current_emoji_type = PANGO_EMOJI_TYPE_EMOJI_EMOJI ; } if ( ( ch == kEyeCharacter || ch == kWavingWhiteFlagCharacter ) && peek_char == kZeroWidthJoinerCharacter ) { current_emoji_type = PANGO_EMOJI_TYPE_EMOJI_EMOJI ; } } if ( iter -> is_emoji == ( gboolean ) 2 ) iter -> is_emoji = ! PANGO_EMOJI_TYPE_IS_EMOJI ( current_emoji_type ) ; if ( iter -> is_emoji == PANGO_EMOJI_TYPE_IS_EMOJI ( current_emoji_type ) ) { iter -> is_emoji = ! PANGO_EMOJI_TYPE_IS_EMOJI ( current_emoji_type ) ; if ( iter -> start == iter -> end ) iter -> end = g_utf8_next_char ( iter -> end ) ; return TRUE ; } } iter -> is_emoji = PANGO_EMOJI_TYPE_IS_EMOJI ( current_emoji_type ) ; return TRUE ; } 830,"CWE-119 void traverse_commit_list ( struct rev_info * revs , show_commit_fn show_commit , show_object_fn show_object , void * data ) { int i ; struct commit * commit ; struct strbuf base ; strbuf_init ( & base , PATH_MAX ) ; while ( ( commit = get_revision ( revs ) ) != NULL ) { if ( commit -> tree ) add_pending_tree ( revs , commit -> tree ) ; show_commit ( commit , data ) ; } for ( i = 0 ; i < revs -> pending . nr ; i ++ ) { struct object_array_entry * pending = revs -> pending . objects + i ; struct object * obj = pending -> item ; const char * name = pending -> name ; const char * path = pending -> path ; if ( obj -> flags & ( UNINTERESTING | SEEN ) ) continue ; if ( obj -> type == OBJ_TAG ) { obj -> flags |= SEEN ; show_object ( obj , NULL , name , data ) ; continue ; } if ( ! path ) path = """" ; if ( obj -> type == OBJ_TREE ) { process_tree ( revs , ( struct tree * ) obj , show_object , & base , path , data ) ; continue ; } if ( obj -> type == OBJ_BLOB ) { process_blob ( revs , ( struct blob * ) obj , show_object , NULL , path , data ) ; continue ; } die ( ""unknown pending object %s (%s)"" , oid_to_hex ( & obj -> oid ) , name ) ; } object_array_clear ( & revs -> pending ) ; strbuf_release ( & base ) ; }","void traverse_commit_list ( struct rev_info * revs , show_commit_fn show_commit , show_object_fn show_object , void * data ) { int i ; struct commit * commit ; struct strbuf base ; strbuf_init ( & base , PATH_MAX ) ; while ( ( commit = get_revision ( revs ) ) != NULL ) { if ( commit -> tree ) add_pending_tree ( revs , commit -> tree ) ; show_commit ( commit , data ) ; } for ( i = 0 ; i < revs -> pending . nr ; i ++ ) { struct object_array_entry * pending = revs -> pending . objects + i ; struct object * obj = pending -> item ; const char * name = pending -> name ; const char * path = pending -> path ; if ( obj -> flags & ( UNINTERESTING | SEEN ) ) continue ; if ( obj -> type == OBJ_TAG ) { obj -> flags |= SEEN ; show_object ( obj , name , data ) ; continue ; } if ( ! path ) path = """" ; if ( obj -> type == OBJ_TREE ) { process_tree ( revs , ( struct tree * ) obj , show_object , & base , path , data ) ; continue ; } if ( obj -> type == OBJ_BLOB ) { process_blob ( revs , ( struct blob * ) obj , show_object , & base , path , data ) ; continue ; } die ( ""unknown pending object %s (%s)"" , oid_to_hex ( & obj -> oid ) , name ) ; } object_array_clear ( & revs -> pending ) ; strbuf_release ( & base ) ; }" 831,"CWE-119 int cli_scanpe ( cli_ctx * ctx ) { uint16_t e_magic ; uint16_t nsections ; uint32_t e_lfanew ; uint32_t ep , vep ; uint8_t polipos = 0 ; time_t timestamp ; struct pe_image_file_hdr file_hdr ; union { struct pe_image_optional_hdr64 opt64 ; struct pe_image_optional_hdr32 opt32 ; } pe_opt ; struct pe_image_section_hdr * section_hdr ; char sname [ 9 ] , epbuff [ 4096 ] , * tempfile ; uint32_t epsize ; ssize_t bytes , at ; unsigned int i , found , upx_success = 0 , min = 0 , max = 0 , err , overlays = 0 ; unsigned int ssize = 0 , dsize = 0 , dll = 0 , pe_plus = 0 , corrupted_cur ; int ( * upxfn ) ( const char * , uint32_t , char * , uint32_t * , uint32_t , uint32_t , uint32_t ) = NULL ; const char * src = NULL ; char * dest = NULL ; int ndesc , ret = CL_CLEAN , upack = 0 , native = 0 ; size_t fsize ; uint32_t valign , falign , hdr_size , j ; struct cli_exe_section * exe_sections ; char timestr [ 32 ] ; struct pe_image_data_dir * dirs ; struct cli_bc_ctx * bc_ctx ; fmap_t * map ; struct cli_pe_hook_data pedata ; # ifdef HAVE__INTERNAL__SHA_COLLECT int sha_collect = ctx -> sha_collect ; # endif const char * archtype = NULL , * subsystem = NULL ; uint32_t viruses_found = 0 ; # if HAVE_JSON int toval = 0 ; struct json_object * pe_json = NULL ; char jsonbuf [ 128 ] ; # endif if ( ! ctx ) { cli_errmsg ( ""cli_scanpe: ctx == NULL\\n"" ) ; return CL_ENULLARG ; } # if HAVE_JSON if ( cli_json_timeout_cycle_check ( ctx , & toval ) != CL_SUCCESS ) { return CL_ETIMEOUT ; } if ( ctx -> options & CL_SCAN_FILE_PROPERTIES ) { pe_json = get_pe_property ( ctx ) ; } # endif map = * ctx -> fmap ; if ( fmap_readn ( map , & e_magic , 0 , sizeof ( e_magic ) ) != sizeof ( e_magic ) ) { cli_dbgmsg ( ""Can\'t read DOS signature\\n"" ) ; return CL_CLEAN ; } if ( EC16 ( e_magic ) != PE_IMAGE_DOS_SIGNATURE && EC16 ( e_magic ) != PE_IMAGE_DOS_SIGNATURE_OLD ) { cli_dbgmsg ( ""Invalid DOS signature\\n"" ) ; return CL_CLEAN ; } if ( fmap_readn ( map , & e_lfanew , 58 + sizeof ( e_magic ) , sizeof ( e_lfanew ) ) != sizeof ( e_lfanew ) ) { cli_dbgmsg ( ""Can\'t read new header address\\n"" ) ; if ( DETECT_BROKEN_PE ) { cli_append_virus ( ctx , ""Heuristics.Broken.Executable"" ) ; return CL_VIRUS ; } return CL_CLEAN ; } e_lfanew = EC32 ( e_lfanew ) ; cli_dbgmsg ( ""e_lfanew == %d\\n"" , e_lfanew ) ; if ( ! e_lfanew ) { cli_dbgmsg ( ""Not a PE file\\n"" ) ; return CL_CLEAN ;","int cli_scanpe ( cli_ctx * ctx ) { uint16_t e_magic ; uint16_t nsections ; uint32_t e_lfanew ; uint32_t ep , vep ; uint8_t polipos = 0 ; time_t timestamp ; struct pe_image_file_hdr file_hdr ; union { struct pe_image_optional_hdr64 opt64 ; struct pe_image_optional_hdr32 opt32 ; } pe_opt ; struct pe_image_section_hdr * section_hdr ; char sname [ 9 ] , epbuff [ 4096 ] , * tempfile ; uint32_t epsize ; ssize_t bytes , at ; unsigned int i , j , found , upx_success = 0 , min = 0 , max = 0 , err , overlays = 0 , rescan = 1 ; unsigned int ssize = 0 , dsize = 0 , dll = 0 , pe_plus = 0 , corrupted_cur ; int ( * upxfn ) ( const char * , uint32_t , char * , uint32_t * , uint32_t , uint32_t , uint32_t ) = NULL ; const char * src = NULL ; char * dest = NULL ; int ndesc , ret = CL_CLEAN , upack = 0 , native = 0 ; size_t fsize ; uint32_t valign , falign , hdr_size ; struct cli_exe_section * exe_sections ; char timestr [ 32 ] ; struct pe_image_data_dir * dirs ; struct cli_bc_ctx * bc_ctx ; fmap_t * map ; struct cli_pe_hook_data pedata ; # ifdef HAVE__INTERNAL__SHA_COLLECT int sha_collect = ctx -> sha_collect ; # endif const char * archtype = NULL , * subsystem = NULL ; uint32_t viruses_found = 0 ; # if HAVE_JSON int toval = 0 ; struct json_object * pe_json = NULL ; char jsonbuf [ 128 ] ; # endif if ( ! ctx ) { cli_errmsg ( ""cli_scanpe: ctx == NULL\\n"" ) ; return CL_ENULLARG ; } # if HAVE_JSON if ( cli_json_timeout_cycle_check ( ctx , & toval ) != CL_SUCCESS ) { return CL_ETIMEOUT ; } if ( ctx -> options & CL_SCAN_FILE_PROPERTIES ) { pe_json = get_pe_property ( ctx ) ; } # endif map = * ctx -> fmap ; if ( fmap_readn ( map , & e_magic , 0 , sizeof ( e_magic ) ) != sizeof ( e_magic ) ) { cli_dbgmsg ( ""Can\'t read DOS signature\\n"" ) ; return CL_CLEAN ; } if ( EC16 ( e_magic ) != PE_IMAGE_DOS_SIGNATURE && EC16 ( e_magic ) != PE_IMAGE_DOS_SIGNATURE_OLD ) { cli_dbgmsg ( ""Invalid DOS signature\\n"" ) ; return CL_CLEAN ; } if ( fmap_readn ( map , & e_lfanew , 58 + sizeof ( e_magic ) , sizeof ( e_lfanew ) ) != sizeof ( e_lfanew ) ) { cli_dbgmsg ( ""Can\'t read new header address\\n"" ) ; if ( DETECT_BROKEN_PE ) { cli_append_virus ( ctx , ""Heuristics.Broken.Executable"" ) ; return CL_VIRUS ; } return CL_CLEAN ; } e_lfanew = EC32 ( e_lfanew ) ; cli_dbgmsg ( ""e_lfanew == %d\\n"" , e_lfanew ) ; if ( ! e_lfanew ) { cli_dbgmsg ( ""Not a PE file\\n"" ) ; return CL_CLEAN ;" 832,"CWE-190 static int bson_validate_string ( bson * b , const unsigned char * string , const int length , const char check_utf8 , const char check_dot , const char check_dollar ) { int position = 0 ; int sequence_length = 1 ; if ( check_dollar && string [ 0 ] == '$' ) { if ( ! bson_string_is_db_ref ( string , length ) ) b -> err |= BSON_FIELD_INIT_DOLLAR ; } while ( position < length ) { if ( check_dot && * ( string + position ) == '.' ) { b -> err |= BSON_FIELD_HAS_DOT ; } if ( check_utf8 ) { sequence_length = trailingBytesForUTF8 [ * ( string + position ) ] + 1 ; if ( ( position + sequence_length ) > length ) { b -> err |= BSON_NOT_UTF8 ; return BSON_ERROR ; } if ( ! isLegalUTF8 ( string + position , sequence_length ) ) { b -> err |= BSON_NOT_UTF8 ; return BSON_ERROR ; } } position += sequence_length ; } return BSON_OK ; }","static int bson_validate_string ( bson * b , const unsigned char * string , const size_t length , const char check_utf8 , const char check_dot , const char check_dollar ) { size_t position = 0 ; int sequence_length = 1 ; if ( check_dollar && string [ 0 ] == '$' ) { if ( ! bson_string_is_db_ref ( string , length ) ) b -> err |= BSON_FIELD_INIT_DOLLAR ; } while ( position < length ) { if ( check_dot && * ( string + position ) == '.' ) { b -> err |= BSON_FIELD_HAS_DOT ; } if ( check_utf8 ) { sequence_length = trailingBytesForUTF8 [ * ( string + position ) ] + 1 ; if ( ( position + sequence_length ) > length ) { b -> err |= BSON_NOT_UTF8 ; return BSON_ERROR ; } if ( ! isLegalUTF8 ( string + position , sequence_length ) ) { b -> err |= BSON_NOT_UTF8 ; return BSON_ERROR ; } } position += sequence_length ; } return BSON_OK ; }" 833,"CWE-476 static void mem_cgroup_usage_unregister_event ( struct cgroup * cgrp , struct cftype * cft , struct eventfd_ctx * eventfd ) { struct mem_cgroup * memcg = mem_cgroup_from_cont ( cgrp ) ; struct mem_cgroup_thresholds * thresholds ; struct mem_cgroup_threshold_ary * new ; int type = MEMFILE_TYPE ( cft -> private ) ; u64 usage ; int i , j , size ; mutex_lock ( & memcg -> thresholds_lock ) ; if ( type == _MEM ) thresholds = & memcg -> thresholds ; else if ( type == _MEMSWAP ) thresholds = & memcg -> memsw_thresholds ; else BUG ( ) ; BUG_ON ( ! thresholds ) ; usage = mem_cgroup_usage ( memcg , type == _MEMSWAP ) ; __mem_cgroup_threshold ( memcg , type == _MEMSWAP ) ; size = 0 ; for ( i = 0 ; i < thresholds -> primary -> size ; i ++ ) { if ( thresholds -> primary -> entries [ i ] . eventfd != eventfd ) size ++ ; } new = thresholds -> spare ; if ( ! size ) { kfree ( new ) ; new = NULL ; goto swap_buffers ; } new -> size = size ; new -> current_threshold = - 1 ; for ( i = 0 , j = 0 ; i < thresholds -> primary -> size ; i ++ ) { if ( thresholds -> primary -> entries [ i ] . eventfd == eventfd ) continue ; new -> entries [ j ] = thresholds -> primary -> entries [ i ] ; if ( new -> entries [ j ] . threshold < usage ) { } j ++ ; } swap_buffers : thresholds -> spare = thresholds -> primary ; rcu_assign_pointer ( thresholds -> primary , new ) ; synchronize_rcu ( ) ; mutex_unlock ( & memcg -> thresholds_lock ) ; }","static void mem_cgroup_usage_unregister_event ( struct cgroup * cgrp , struct cftype * cft , struct eventfd_ctx * eventfd ) { struct mem_cgroup * memcg = mem_cgroup_from_cont ( cgrp ) ; struct mem_cgroup_thresholds * thresholds ; struct mem_cgroup_threshold_ary * new ; int type = MEMFILE_TYPE ( cft -> private ) ; u64 usage ; int i , j , size ; mutex_lock ( & memcg -> thresholds_lock ) ; if ( type == _MEM ) thresholds = & memcg -> thresholds ; else if ( type == _MEMSWAP ) thresholds = & memcg -> memsw_thresholds ; else BUG ( ) ; BUG_ON ( ! thresholds ) ; if ( ! thresholds -> primary ) goto unlock ; usage = mem_cgroup_usage ( memcg , type == _MEMSWAP ) ; __mem_cgroup_threshold ( memcg , type == _MEMSWAP ) ; size = 0 ; for ( i = 0 ; i < thresholds -> primary -> size ; i ++ ) { if ( thresholds -> primary -> entries [ i ] . eventfd != eventfd ) size ++ ; } new = thresholds -> spare ; if ( ! size ) { kfree ( new ) ; new = NULL ; goto swap_buffers ; } new -> size = size ; new -> current_threshold = - 1 ; for ( i = 0 , j = 0 ; i < thresholds -> primary -> size ; i ++ ) { if ( thresholds -> primary -> entries [ i ] . eventfd == eventfd ) continue ; new -> entries [ j ] = thresholds -> primary -> entries [ i ] ; if ( new -> entries [ j ] . threshold < usage ) { + new -> current_threshold ; } j ++ ; } swap_buffers : thresholds -> spare = thresholds -> primary ; rcu_assign_pointer ( thresholds -> primary , new ) ; synchronize_rcu ( ) ; unlock : mutex_unlock ( & memcg -> thresholds_lock ) ; }" 834,"NVD-CWE-Other sctp_disposition_t retval ; struct sctp_chunk * chunk = arg ; struct sctp_association * new_asoc ; int error = 0 ; char action ; struct sctp_chunk * err_chk_p ; if ( ! sctp_chunk_length_valid ( chunk , sizeof ( sctp_chunkhdr_t ) ) ) return sctp_sf_violation_chunklen ( net , ep , asoc , type , arg , commands ) ; chunk -> subh . cookie_hdr = ( struct sctp_signed_cookie * ) chunk -> skb -> data ; if ( ! pskb_pull ( chunk -> skb , ntohs ( chunk -> chunk_hdr -> length ) - sizeof ( sctp_chunkhdr_t ) ) ) goto nomem ; new_asoc = sctp_unpack_cookie ( ep , asoc , chunk , GFP_ATOMIC , & error , & err_chk_p ) ; if ( ! new_asoc ) { switch ( error ) { case - SCTP_IERROR_NOMEM : goto nomem ; case - SCTP_IERROR_STALE_COOKIE : sctp_send_stale_cookie_err ( net , ep , asoc , chunk , commands , err_chk_p ) ; return sctp_sf_pdiscard ( net , ep , asoc , type , arg , commands ) ; case - SCTP_IERROR_BAD_SIG : default : return sctp_sf_pdiscard ( net , ep , asoc , type , arg , commands ) ; } } action = sctp_tietags_compare ( new_asoc , asoc ) ; switch ( action ) { case 'A' : retval = sctp_sf_do_dupcook_a ( net , ep , asoc , chunk , commands , new_asoc ) ; break ; case 'B' : retval = sctp_sf_do_dupcook_b ( net , ep , asoc , chunk , commands , new_asoc ) ; break ; case 'C' : retval = sctp_sf_do_dupcook_c ( net , ep , asoc , chunk , commands , new_asoc ) ; break ; case 'D' : retval = sctp_sf_do_dupcook_d ( net , ep , asoc , chunk , commands , new_asoc ) ; break ; default : retval = sctp_sf_pdiscard ( net , ep , asoc , type , arg , commands ) ; break ; } sctp_add_cmd_sf ( commands , SCTP_CMD_NEW_ASOC , SCTP_ASOC ( new_asoc ) ) ; sctp_add_cmd_sf ( commands , SCTP_CMD_DELETE_TCB , SCTP_NULL ( ) ) ; sctp_add_cmd_sf ( commands , SCTP_CMD_SET_ASOC , SCTP_ASOC ( ( struct sctp_association * ) asoc ) ) ; return retval ; nomem : return SCTP_DISPOSITION_NOMEM ; }","sctp_disposition_t retval ; struct sctp_chunk * chunk = arg ; struct sctp_association * new_asoc ; int error = 0 ; char action ; struct sctp_chunk * err_chk_p ; if ( ! sctp_chunk_length_valid ( chunk , sizeof ( sctp_chunkhdr_t ) ) ) return sctp_sf_violation_chunklen ( net , ep , asoc , type , arg , commands ) ; chunk -> subh . cookie_hdr = ( struct sctp_signed_cookie * ) chunk -> skb -> data ; if ( ! pskb_pull ( chunk -> skb , ntohs ( chunk -> chunk_hdr -> length ) - sizeof ( sctp_chunkhdr_t ) ) ) goto nomem ; new_asoc = sctp_unpack_cookie ( ep , asoc , chunk , GFP_ATOMIC , & error , & err_chk_p ) ; if ( ! new_asoc ) { switch ( error ) { case - SCTP_IERROR_NOMEM : goto nomem ; case - SCTP_IERROR_STALE_COOKIE : sctp_send_stale_cookie_err ( net , ep , asoc , chunk , commands , err_chk_p ) ; return sctp_sf_pdiscard ( net , ep , asoc , type , arg , commands ) ; case - SCTP_IERROR_BAD_SIG : default : return sctp_sf_pdiscard ( net , ep , asoc , type , arg , commands ) ; } } action = sctp_tietags_compare ( new_asoc , asoc ) ; switch ( action ) { case 'A' : retval = sctp_sf_do_dupcook_a ( net , ep , asoc , chunk , commands , new_asoc ) ; break ; case 'B' : retval = sctp_sf_do_dupcook_b ( net , ep , asoc , chunk , commands , new_asoc ) ; break ; case 'C' : retval = sctp_sf_do_dupcook_c ( net , ep , asoc , chunk , commands , new_asoc ) ; break ; case 'D' : retval = sctp_sf_do_dupcook_d ( net , ep , asoc , chunk , commands , new_asoc ) ; break ; default : retval = sctp_sf_pdiscard ( net , ep , asoc , type , arg , commands ) ; break ; } sctp_add_cmd_sf ( commands , SCTP_CMD_SET_ASOC , SCTP_ASOC ( new_asoc ) ) ; sctp_add_cmd_sf ( commands , SCTP_CMD_DELETE_TCB , SCTP_NULL ( ) ) ; sctp_add_cmd_sf ( commands , SCTP_CMD_SET_ASOC , SCTP_ASOC ( ( struct sctp_association * ) asoc ) ) ; return retval ; nomem : return SCTP_DISPOSITION_NOMEM ; }" 835,"CWE-119 entry . uncompressed_filesize = PHAR_GET_32 ( zipentry . uncompsize ) ; entry . crc32 = PHAR_GET_32 ( zipentry . crc32 ) ; entry . timestamp = phar_zip_d2u_time ( zipentry . timestamp , zipentry . datestamp ) ; entry . flags = PHAR_ENT_PERM_DEF_FILE ; entry . header_offset = PHAR_GET_32 ( zipentry . offset ) ; entry . offset = entry . offset_abs = PHAR_GET_32 ( zipentry . offset ) + sizeof ( phar_zip_file_header ) + PHAR_GET_16 ( zipentry . filename_len ) + PHAR_GET_16 ( zipentry . extra_len ) ; if ( PHAR_GET_16 ( zipentry . flags ) & PHAR_ZIP_FLAG_ENCRYPTED ) { PHAR_ZIP_FAIL ( ""Cannot process encrypted zip files"" ) ; } if ( ! PHAR_GET_16 ( zipentry . filename_len ) ) { PHAR_ZIP_FAIL ( ""Cannot process zips created from stdin (zero-length filename)"" ) ; } entry . filename_len = PHAR_GET_16 ( zipentry . filename_len ) ; entry . filename = ( char * ) pemalloc ( entry . filename_len + 1 , entry . is_persistent ) ; if ( entry . filename_len != php_stream_read ( fp , entry . filename , entry . filename_len ) ) { pefree ( entry . filename , entry . is_persistent ) ; PHAR_ZIP_FAIL ( ""unable to read in filename from central directory, truncated"" ) ; } entry . filename [ entry . filename_len ] = '\\0' ; if ( entry . filename [ entry . filename_len - 1 ] == '/' ) { entry . is_dir = 1 ; if ( entry . filename_len > 1 ) { entry . filename_len -- ; } entry . flags |= PHAR_ENT_PERM_DEF_DIR ; } else { entry . is_dir = 0 ; } if ( entry . filename_len == sizeof ( "".phar/signature.bin"" ) - 1 && ! strncmp ( entry . filename , "".phar/signature.bin"" , sizeof ( "".phar/signature.bin"" ) - 1 ) ) { size_t read ; php_stream * sigfile ; zend_off_t now ; char * sig ; now = php_stream_tell ( fp ) ; pefree ( entry . filename , entry . is_persistent ) ; sigfile = php_stream_fopen_tmpfile ( ) ; if ( ! sigfile ) { PHAR_ZIP_FAIL ( ""couldn\'t open temporary file"" ) ; } php_stream_seek ( fp , 0 , SEEK_SET ) ; php_stream_copy_to_stream_ex ( fp , sigfile , entry . header_offset , NULL ) ; php_stream_seek ( fp , PHAR_GET_32 ( locator . cdir_offset ) , SEEK_SET ) ; php_stream_copy_to_stream_ex ( fp , sigfile , beforeus - PHAR_GET_32 ( locator . cdir_offset ) , NULL ) ; if ( metadata ) { php_stream_write ( sigfile , metadata , PHAR_GET_16 ( locator . comment_len ) ) ; } php_stream_seek ( fp , sizeof ( phar_zip_file_header ) + entry . header_offset + entry . filename_len + PHAR_GET_16 ( zipentry . extra_len ) , SEEK_SET ) ; sig = ( char * ) emalloc ( entry . uncompressed_filesize ) ; read = php_stream_read ( fp , sig , entry . uncompressed_filesize ) ; if ( read != entry . uncompressed_filesize ) { php_stream_close ( sigfile ) ; efree ( sig ) ; PHAR_ZIP_FAIL ( ""signature cannot be read"" ) ; } mydata -> sig_flags = PHAR_GET_32 ( sig ) ; if ( FAILURE == phar_verify_signature ( sigfile , php_stream_tell ( sigfile ) , mydata -> sig_flags , sig + 8 , entry . uncompressed_filesize - 8 , fname , & mydata -> signature , & mydata -> sig_len , error ) ) { efree ( sig ) ; if ( error ) { char * save ; php_stream_close ( sigfile ) ; spprintf ( & save , 4096 , ""signature cannot be verified: %s"" , * error ) ; efree ( * error ) ; PHAR_ZIP_FAIL_FREE ( save , save ) ; } else { php_stream_close ( sigfile ) ; PHAR_ZIP_FAIL ( ""signature cannot be verified"" ) ; } } php_stream_close ( sigfile ) ; efree ( sig ) ; if ( i != PHAR_GET_16 ( locator . count ) - 1 ) { PHAR_ZIP_FAIL ( ""entries exist after signature, invalid phar"" ) ; } continue ; } phar_add_virtual_dirs ( mydata , entry . filename , entry . filename_len ) ; if ( PHAR_GET_16 ( zipentry . extra_len ) ) { zend_off_t loc = php_stream_tell ( fp ) ; if ( FAILURE == phar_zip_process_extra ( fp , & entry , PHAR_GET_16 ( zipentry . extra_len ) ) ) { pefree ( entry . filename , entry . is_persistent ) ; PHAR_ZIP_FAIL ( ""Unable to process extra field header for file in central directory"" ) ; } php_stream_seek ( fp , loc + PHAR_GET_16 ( zipentry . extra_len ) , SEEK_SET ) ; } switch ( PHAR_GET_16 ( zipentry . compressed ) ) { case PHAR_ZIP_COMP_NONE : break ; case PHAR_ZIP_COMP_DEFLATE : entry . flags |= PHAR_ENT_COMPRESSED_GZ ; if ( ! PHAR_G ( has_zlib ) ) { pefree ( entry . filename , entry . is_persistent ) ; PHAR_ZIP_FAIL ( ""zlib extension is required"" ) ; } break ; case PHAR_ZIP_COMP_BZIP2 : entry . flags |= PHAR_ENT_COMPRESSED_BZ2 ; if ( ! PHAR_G ( has_bz2 ) ) { pefree ( entry . filename , entry . is_persistent ) ; PHAR_ZIP_FAIL ( ""bzip2 extension is required"" ) ; }","entry . uncompressed_filesize = PHAR_GET_32 ( zipentry . uncompsize ) ; entry . crc32 = PHAR_GET_32 ( zipentry . crc32 ) ; entry . timestamp = phar_zip_d2u_time ( zipentry . timestamp , zipentry . datestamp ) ; entry . flags = PHAR_ENT_PERM_DEF_FILE ; entry . header_offset = PHAR_GET_32 ( zipentry . offset ) ; entry . offset = entry . offset_abs = PHAR_GET_32 ( zipentry . offset ) + sizeof ( phar_zip_file_header ) + PHAR_GET_16 ( zipentry . filename_len ) + PHAR_GET_16 ( zipentry . extra_len ) ; if ( PHAR_GET_16 ( zipentry . flags ) & PHAR_ZIP_FLAG_ENCRYPTED ) { PHAR_ZIP_FAIL ( ""Cannot process encrypted zip files"" ) ; } if ( ! PHAR_GET_16 ( zipentry . filename_len ) ) { PHAR_ZIP_FAIL ( ""Cannot process zips created from stdin (zero-length filename)"" ) ; } entry . filename_len = PHAR_GET_16 ( zipentry . filename_len ) ; entry . filename = ( char * ) pemalloc ( entry . filename_len + 1 , entry . is_persistent ) ; if ( entry . filename_len != php_stream_read ( fp , entry . filename , entry . filename_len ) ) { pefree ( entry . filename , entry . is_persistent ) ; PHAR_ZIP_FAIL ( ""unable to read in filename from central directory, truncated"" ) ; } entry . filename [ entry . filename_len ] = '\\0' ; if ( entry . filename [ entry . filename_len - 1 ] == '/' ) { entry . is_dir = 1 ; if ( entry . filename_len > 1 ) { entry . filename_len -- ; } entry . flags |= PHAR_ENT_PERM_DEF_DIR ; } else { entry . is_dir = 0 ; } if ( entry . filename_len == sizeof ( "".phar/signature.bin"" ) - 1 && ! strncmp ( entry . filename , "".phar/signature.bin"" , sizeof ( "".phar/signature.bin"" ) - 1 ) ) { size_t read ; php_stream * sigfile ; zend_off_t now ; char * sig ; now = php_stream_tell ( fp ) ; pefree ( entry . filename , entry . is_persistent ) ; sigfile = php_stream_fopen_tmpfile ( ) ; if ( ! sigfile ) { PHAR_ZIP_FAIL ( ""couldn\'t open temporary file"" ) ; } php_stream_seek ( fp , 0 , SEEK_SET ) ; php_stream_copy_to_stream_ex ( fp , sigfile , entry . header_offset , NULL ) ; php_stream_seek ( fp , PHAR_GET_32 ( locator . cdir_offset ) , SEEK_SET ) ; php_stream_copy_to_stream_ex ( fp , sigfile , beforeus - PHAR_GET_32 ( locator . cdir_offset ) , NULL ) ; if ( metadata ) { php_stream_write ( sigfile , metadata , PHAR_GET_16 ( locator . comment_len ) ) ; } php_stream_seek ( fp , sizeof ( phar_zip_file_header ) + entry . header_offset + entry . filename_len + PHAR_GET_16 ( zipentry . extra_len ) , SEEK_SET ) ; sig = ( char * ) emalloc ( entry . uncompressed_filesize ) ; read = php_stream_read ( fp , sig , entry . uncompressed_filesize ) ; if ( read != entry . uncompressed_filesize || read <= 8 ) { php_stream_close ( sigfile ) ; efree ( sig ) ; PHAR_ZIP_FAIL ( ""signature cannot be read"" ) ; } mydata -> sig_flags = PHAR_GET_32 ( sig ) ; if ( FAILURE == phar_verify_signature ( sigfile , php_stream_tell ( sigfile ) , mydata -> sig_flags , sig + 8 , entry . uncompressed_filesize - 8 , fname , & mydata -> signature , & mydata -> sig_len , error ) ) { efree ( sig ) ; if ( error ) { char * save ; php_stream_close ( sigfile ) ; spprintf ( & save , 4096 , ""signature cannot be verified: %s"" , * error ) ; efree ( * error ) ; PHAR_ZIP_FAIL_FREE ( save , save ) ; } else { php_stream_close ( sigfile ) ; PHAR_ZIP_FAIL ( ""signature cannot be verified"" ) ; } } php_stream_close ( sigfile ) ; efree ( sig ) ; if ( i != PHAR_GET_16 ( locator . count ) - 1 ) { PHAR_ZIP_FAIL ( ""entries exist after signature, invalid phar"" ) ; } continue ; } phar_add_virtual_dirs ( mydata , entry . filename , entry . filename_len ) ; if ( PHAR_GET_16 ( zipentry . extra_len ) ) { zend_off_t loc = php_stream_tell ( fp ) ; if ( FAILURE == phar_zip_process_extra ( fp , & entry , PHAR_GET_16 ( zipentry . extra_len ) ) ) { pefree ( entry . filename , entry . is_persistent ) ; PHAR_ZIP_FAIL ( ""Unable to process extra field header for file in central directory"" ) ; } php_stream_seek ( fp , loc + PHAR_GET_16 ( zipentry . extra_len ) , SEEK_SET ) ; } switch ( PHAR_GET_16 ( zipentry . compressed ) ) { case PHAR_ZIP_COMP_NONE : break ; case PHAR_ZIP_COMP_DEFLATE : entry . flags |= PHAR_ENT_COMPRESSED_GZ ; if ( ! PHAR_G ( has_zlib ) ) { pefree ( entry . filename , entry . is_persistent ) ; PHAR_ZIP_FAIL ( ""zlib extension is required"" ) ; } break ; case PHAR_ZIP_COMP_BZIP2 : entry . flags |= PHAR_ENT_COMPRESSED_BZ2 ; if ( ! PHAR_G ( has_bz2 ) ) { pefree ( entry . filename , entry . is_persistent ) ; PHAR_ZIP_FAIL ( ""bzip2 extension is required"" ) ; }" 836,"CWE-787 opj_image_t * tgatoimage ( const char * filename , opj_cparameters_t * parameters ) { FILE * f ; opj_image_t * image ; unsigned int image_width , image_height , pixel_bit_depth ; unsigned int x , y ; int flip_image = 0 ; opj_image_cmptparm_t cmptparm [ 4 ] ; int numcomps ; OPJ_COLOR_SPACE color_space ; OPJ_BOOL mono ; OPJ_BOOL save_alpha ; int subsampling_dx , subsampling_dy ; int i ; f = fopen ( filename , ""rb"" ) ; if ( ! f ) { fprintf ( stderr , ""Failed to open %s for reading !!\\n"" , filename ) ; return 0 ; } if ( ! tga_readheader ( f , & pixel_bit_depth , & image_width , & image_height , & flip_image ) ) { fclose ( f ) ; return NULL ; } if ( ! ( ( pixel_bit_depth == 24 ) || ( pixel_bit_depth == 32 ) ) ) { fclose ( f ) ; return NULL ; } memset ( & cmptparm [ 0 ] , 0 , 4 * sizeof ( opj_image_cmptparm_t ) ) ; mono = ( pixel_bit_depth == 8 ) || ( pixel_bit_depth == 16 ) ; save_alpha = ( pixel_bit_depth == 16 ) || ( pixel_bit_depth == 32 ) ; if ( mono ) { color_space = OPJ_CLRSPC_GRAY ; numcomps = save_alpha ? 2 : 1 ; } else { numcomps = save_alpha ? 4 : 3 ; color_space = OPJ_CLRSPC_SRGB ; } subsampling_dx = parameters -> subsampling_dx ; subsampling_dy = parameters -> subsampling_dy ; for ( i = 0 ; i < numcomps ; i ++ ) { cmptparm [ i ] . prec = 8 ; cmptparm [ i ] . bpp = 8 ; cmptparm [ i ] . sgnd = 0 ; cmptparm [ i ] . dx = ( OPJ_UINT32 ) subsampling_dx ; cmptparm [ i ] . dy = ( OPJ_UINT32 ) subsampling_dy ; cmptparm [ i ] . w = image_width ; cmptparm [ i ] . h = image_height ; } image = opj_image_create ( ( OPJ_UINT32 ) numcomps , & cmptparm [ 0 ] , color_space ) ; if ( ! image ) { fclose ( f ) ; return NULL ; } image -> x0 = ( OPJ_UINT32 ) parameters -> image_offset_x0 ; image -> y0 = ( OPJ_UINT32 ) parameters -> image_offset_y0 ; image -> x1 = ! image -> x0 ? ( OPJ_UINT32 ) ( image_width - 1 ) * ( OPJ_UINT32 ) subsampling_dx + 1 : image -> x0 + ( OPJ_UINT32 ) ( image_width - 1 ) * ( OPJ_UINT32 ) subsampling_dx + 1 ; image -> y1 = ! image -> y0 ? ( OPJ_UINT32 ) ( image_height - 1 ) * ( OPJ_UINT32 ) subsampling_dy + 1 : image -> y0 + ( OPJ_UINT32 ) ( image_height - 1 ) * ( OPJ_UINT32 ) subsampling_dy + 1 ; for ( y = 0 ; y < image_height ; y ++ ) { int index ; if ( flip_image ) { index = ( int ) ( ( image_height - y - 1 ) * image_width ) ; } else { index = ( int ) ( y * image_width ) ; } if ( numcomps == 3 ) { for ( x = 0 ; x < image_width ; x ++ ) { unsigned char r , g , b ; if ( ! fread ( & b , 1 , 1 , f ) ) { fprintf ( stderr , ""\\nError: fread return a number of element different from the expected.\\n"" ) ; opj_image_destroy ( image ) ; fclose ( f ) ; return NULL ; } if ( ! fread ( & g , 1 , 1 , f ) ) { fprintf ( stderr , ""\\nError: fread return a number of element different from the expected.\\n"" ) ; opj_image_destroy ( image ) ; fclose ( f ) ; return NULL ; } if ( ! fread ( & r , 1 , 1 , f ) ) {","opj_image_t * tgatoimage ( const char * filename , opj_cparameters_t * parameters ) { FILE * f ; opj_image_t * image ; unsigned int image_width , image_height , pixel_bit_depth ; unsigned int x , y ; int flip_image = 0 ; opj_image_cmptparm_t cmptparm [ 4 ] ; int numcomps ; OPJ_COLOR_SPACE color_space ; OPJ_BOOL mono ; OPJ_BOOL save_alpha ; int subsampling_dx , subsampling_dy ; int i ; f = fopen ( filename , ""rb"" ) ; if ( ! f ) { fprintf ( stderr , ""Failed to open %s for reading !!\\n"" , filename ) ; return 0 ; } if ( ! tga_readheader ( f , & pixel_bit_depth , & image_width , & image_height , & flip_image ) ) { fclose ( f ) ; return NULL ; } if ( ! ( ( pixel_bit_depth == 24 ) || ( pixel_bit_depth == 32 ) ) ) { fclose ( f ) ; return NULL ; } memset ( & cmptparm [ 0 ] , 0 , 4 * sizeof ( opj_image_cmptparm_t ) ) ; mono = ( pixel_bit_depth == 8 ) || ( pixel_bit_depth == 16 ) ; save_alpha = ( pixel_bit_depth == 16 ) || ( pixel_bit_depth == 32 ) ; if ( mono ) { color_space = OPJ_CLRSPC_GRAY ; numcomps = save_alpha ? 2 : 1 ; } else { numcomps = save_alpha ? 4 : 3 ; color_space = OPJ_CLRSPC_SRGB ; } if ( image_height != 0 && image_width > 10000000 / image_height / numcomps ) { char ch ; OPJ_UINT64 expected_file_size = ( OPJ_UINT64 ) image_width * image_height * numcomps ; long curpos = ftell ( f ) ; if ( expected_file_size > ( OPJ_UINT64 ) INT_MAX ) { expected_file_size = ( OPJ_UINT64 ) INT_MAX ; } fseek ( f , ( long ) expected_file_size - 1 , SEEK_SET ) ; if ( fread ( & ch , 1 , 1 , f ) != 1 ) { fclose ( f ) ; return NULL ; } fseek ( f , curpos , SEEK_SET ) ; } subsampling_dx = parameters -> subsampling_dx ; subsampling_dy = parameters -> subsampling_dy ; for ( i = 0 ; i < numcomps ; i ++ ) { cmptparm [ i ] . prec = 8 ; cmptparm [ i ] . bpp = 8 ; cmptparm [ i ] . sgnd = 0 ; cmptparm [ i ] . dx = ( OPJ_UINT32 ) subsampling_dx ; cmptparm [ i ] . dy = ( OPJ_UINT32 ) subsampling_dy ; cmptparm [ i ] . w = image_width ; cmptparm [ i ] . h = image_height ; } image = opj_image_create ( ( OPJ_UINT32 ) numcomps , & cmptparm [ 0 ] , color_space ) ; if ( ! image ) { fclose ( f ) ; return NULL ; } image -> x0 = ( OPJ_UINT32 ) parameters -> image_offset_x0 ; image -> y0 = ( OPJ_UINT32 ) parameters -> image_offset_y0 ; image -> x1 = ! image -> x0 ? ( OPJ_UINT32 ) ( image_width - 1 ) * ( OPJ_UINT32 ) subsampling_dx + 1 : image -> x0 + ( OPJ_UINT32 ) ( image_width - 1 ) * ( OPJ_UINT32 ) subsampling_dx + 1 ; image -> y1 = ! image -> y0 ? ( OPJ_UINT32 ) ( image_height - 1 ) * ( OPJ_UINT32 ) subsampling_dy + 1 : image -> y0 + ( OPJ_UINT32 ) ( image_height - 1 ) * ( OPJ_UINT32 ) subsampling_dy + 1 ; for ( y = 0 ; y < image_height ; y ++ ) { int index ; if ( flip_image ) { index = ( int ) ( ( image_height - y - 1 ) * image_width ) ; } else { index = ( int ) ( y * image_width ) ; } if ( numcomps == 3 ) { for ( x = 0 ; x < image_width ; x ++ ) { unsigned char r , g , b ; if ( ! fread ( & b , 1 , 1 , f ) ) { fprintf ( stderr , ""\\nError: fread return a number of element different from the expected.\\n"" ) ; opj_image_destroy ( image ) ; fclose ( f ) ; return NULL ; } if ( ! fread ( & g , 1 , 1 , f ) ) { fprintf ( stderr , ""\\nError: fread return a number of element different from the expected.\\n"" ) ; opj_image_destroy ( image ) ; fclose ( f ) ; return NULL ; } if ( ! fread ( & r , 1 , 1 , f ) ) {" 837,"CWE-20 static void dissect_ppi ( tvbuff_t * tvb , packet_info * pinfo , proto_tree * tree ) { proto_tree * ppi_tree = NULL , * ppi_flags_tree = NULL , * seg_tree = NULL , * ampdu_tree = NULL ; proto_tree * agg_tree = NULL ; proto_item * ti = NULL ; tvbuff_t * next_tvb ; int offset = 0 ; guint version , flags ; gint tot_len , data_len ; guint data_type ; guint32 dlt ; guint32 n_ext_flags = 0 ; guint32 ampdu_id = 0 ; fragment_head * fd_head = NULL ; fragment_item * ft_fdh = NULL ; gint mpdu_count = 0 ; gchar * mpdu_str ; gboolean first_mpdu = TRUE ; guint last_frame = 0 ; gint len_remain , ampdu_len = 0 ; struct ieee_802_11_phdr phdr ; col_set_str ( pinfo -> cinfo , COL_PROTOCOL , ""PPI"" ) ; col_clear ( pinfo -> cinfo , COL_INFO ) ; version = tvb_get_guint8 ( tvb , offset ) ; flags = tvb_get_guint8 ( tvb , offset + 1 ) ; tot_len = tvb_get_letohs ( tvb , offset + 2 ) ; dlt = tvb_get_letohl ( tvb , offset + 4 ) ; col_add_fstr ( pinfo -> cinfo , COL_INFO , ""PPI version %u, %u bytes"" , version , tot_len ) ; if ( tree ) { ti = proto_tree_add_protocol_format ( tree , proto_ppi , tvb , 0 , tot_len , ""PPI version %u, %u bytes"" , version , tot_len ) ; ppi_tree = proto_item_add_subtree ( ti , ett_ppi_pph ) ; proto_tree_add_item ( ppi_tree , hf_ppi_head_version , tvb , offset , 1 , ENC_LITTLE_ENDIAN ) ; ti = proto_tree_add_item ( ppi_tree , hf_ppi_head_flags , tvb , offset + 1 , 1 , ENC_LITTLE_ENDIAN ) ; ppi_flags_tree = proto_item_add_subtree ( ti , ett_ppi_flags ) ; proto_tree_add_item ( ppi_flags_tree , hf_ppi_head_flag_alignment , tvb , offset + 1 , 1 , ENC_LITTLE_ENDIAN ) ; proto_tree_add_item ( ppi_flags_tree , hf_ppi_head_flag_reserved , tvb , offset + 1 , 1 , ENC_LITTLE_ENDIAN ) ; proto_tree_add_item ( ppi_tree , hf_ppi_head_len , tvb , offset + 2 , 2 , ENC_LITTLE_ENDIAN ) ; proto_tree_add_item ( ppi_tree , hf_ppi_head_dlt , tvb , offset + 4 , 4 , ENC_LITTLE_ENDIAN ) ; } tot_len -= PPI_V0_HEADER_LEN ; offset += 8 ; memset ( & phdr , 0 , sizeof ( phdr ) ) ; phdr . fcs_len = - 1 ; phdr . decrypted = FALSE ; phdr . datapad = FALSE ; phdr . phy = PHDR_802_11_PHY_UNKNOWN ; phdr . presence_flags = 0 ; while ( tot_len > 0 ) { data_type = tvb_get_letohs ( tvb , offset ) ; data_len = tvb_get_letohs ( tvb , offset + 2 ) + 4 ; tot_len -= data_len ; switch ( data_type ) { case PPI_80211_COMMON : dissect_80211_common ( tvb , pinfo , ppi_tree , offset , data_len , & phdr ) ; break ; case PPI_80211N_MAC : dissect_80211n_mac ( tvb , pinfo , ppi_tree , offset , data_len , TRUE , & n_ext_flags , & ampdu_id , & phdr ) ; break ; case PPI_80211N_MAC_PHY : dissect_80211n_mac_phy ( tvb , pinfo , ppi_tree , offset , data_len , & n_ext_flags , & ampdu_id , & phdr ) ; break ;","static void dissect_ppi ( tvbuff_t * tvb , packet_info * pinfo , proto_tree * tree ) { proto_tree * ppi_tree = NULL , * ppi_flags_tree = NULL , * seg_tree = NULL , * ampdu_tree = NULL ; proto_tree * agg_tree = NULL ; proto_item * ti = NULL ; tvbuff_t * next_tvb ; int offset = 0 ; guint version , flags ; gint tot_len , data_len ; guint data_type ; guint32 dlt ; guint32 n_ext_flags = 0 ; guint32 ampdu_id = 0 ; fragment_head * fd_head = NULL ; fragment_item * ft_fdh = NULL ; gint mpdu_count = 0 ; gchar * mpdu_str ; gboolean first_mpdu = TRUE ; guint last_frame = 0 ; gint len_remain , ampdu_len = 0 ; struct ieee_802_11_phdr phdr ; int wtap_encap ; struct eth_phdr eth ; void * phdrp ; col_set_str ( pinfo -> cinfo , COL_PROTOCOL , ""PPI"" ) ; col_clear ( pinfo -> cinfo , COL_INFO ) ; version = tvb_get_guint8 ( tvb , offset ) ; flags = tvb_get_guint8 ( tvb , offset + 1 ) ; tot_len = tvb_get_letohs ( tvb , offset + 2 ) ; dlt = tvb_get_letohl ( tvb , offset + 4 ) ; col_add_fstr ( pinfo -> cinfo , COL_INFO , ""PPI version %u, %u bytes"" , version , tot_len ) ; if ( tree ) { ti = proto_tree_add_protocol_format ( tree , proto_ppi , tvb , 0 , tot_len , ""PPI version %u, %u bytes"" , version , tot_len ) ; ppi_tree = proto_item_add_subtree ( ti , ett_ppi_pph ) ; proto_tree_add_item ( ppi_tree , hf_ppi_head_version , tvb , offset , 1 , ENC_LITTLE_ENDIAN ) ; ti = proto_tree_add_item ( ppi_tree , hf_ppi_head_flags , tvb , offset + 1 , 1 , ENC_LITTLE_ENDIAN ) ; ppi_flags_tree = proto_item_add_subtree ( ti , ett_ppi_flags ) ; proto_tree_add_item ( ppi_flags_tree , hf_ppi_head_flag_alignment , tvb , offset + 1 , 1 , ENC_LITTLE_ENDIAN ) ; proto_tree_add_item ( ppi_flags_tree , hf_ppi_head_flag_reserved , tvb , offset + 1 , 1 , ENC_LITTLE_ENDIAN ) ; proto_tree_add_item ( ppi_tree , hf_ppi_head_len , tvb , offset + 2 , 2 , ENC_LITTLE_ENDIAN ) ; proto_tree_add_item ( ppi_tree , hf_ppi_head_dlt , tvb , offset + 4 , 4 , ENC_LITTLE_ENDIAN ) ; } tot_len -= PPI_V0_HEADER_LEN ; offset += 8 ; memset ( & phdr , 0 , sizeof ( phdr ) ) ; phdr . fcs_len = - 1 ; phdr . decrypted = FALSE ; phdr . datapad = FALSE ; phdr . phy = PHDR_802_11_PHY_UNKNOWN ; phdr . presence_flags = 0 ; while ( tot_len > 0 ) { data_type = tvb_get_letohs ( tvb , offset ) ; data_len = tvb_get_letohs ( tvb , offset + 2 ) + 4 ; tot_len -= data_len ; switch ( data_type ) { case PPI_80211_COMMON : dissect_80211_common ( tvb , pinfo , ppi_tree , offset , data_len , & phdr ) ; break ; case PPI_80211N_MAC : dissect_80211n_mac ( tvb , pinfo , ppi_tree , offset , data_len , TRUE , & n_ext_flags , & ampdu_id , & phdr ) ; break ; case PPI_80211N_MAC_PHY : dissect_80211n_mac_phy ( tvb , pinfo , ppi_tree , offset , data_len , & n_ext_flags , & ampdu_id , & phdr ) ; break ;" 838,"NVD-CWE-Other static StkId rethook ( lua_State * L , CallInfo * ci , StkId firstres , int nres ) { ptrdiff_t oldtop = savestack ( L , L -> top ) ; int delta = 0 ; if ( isLuacode ( ci ) ) { Proto * p = clLvalue ( s2v ( ci -> func ) ) -> p ; if ( p -> is_vararg ) delta = ci -> u . l . nextraargs + p -> numparams + 1 ; if ( L -> top < ci -> top ) L -> top = ci -> top ; } if ( L -> hookmask & LUA_MASKRET ) { int ftransfer ; ci -> func += delta ; ftransfer = cast ( unsigned short , firstres - ci -> func ) ; luaD_hook ( L , LUA_HOOKRET , - 1 , ftransfer , nres ) ; ci -> func -= delta ; } if ( isLua ( ci -> previous ) ) L -> oldpc = ci -> previous -> u . l . savedpc ; return restorestack ( L , oldtop ) ; }","static StkId rethook ( lua_State * L , CallInfo * ci , StkId firstres , int nres ) { ptrdiff_t oldtop = savestack ( L , L -> top ) ; int delta = 0 ; if ( isLuacode ( ci ) ) { Proto * p = ci_func ( ci ) -> p ; if ( p -> is_vararg ) delta = ci -> u . l . nextraargs + p -> numparams + 1 ; if ( L -> top < ci -> top ) L -> top = ci -> top ; } if ( L -> hookmask & LUA_MASKRET ) { int ftransfer ; ci -> func += delta ; ftransfer = cast ( unsigned short , firstres - ci -> func ) ; luaD_hook ( L , LUA_HOOKRET , - 1 , ftransfer , nres ) ; ci -> func -= delta ; } if ( isLua ( ci = ci -> previous ) ) L -> oldpc = pcRel ( ci -> u . l . savedpc , ci_func ( ci ) -> p ) ; return restorestack ( L , oldtop ) ; }" 839,"CWE-264 struct tcon_link * tlink ; struct cifs_tcon * pTcon ; struct cifsFileInfo * cfile ; struct inode * newInode = NULL ; char * full_path = NULL ; struct file * filp ; xid = GetXid ( ) ; cFYI ( 1 , ""parent inode = 0x%p name is: %s and dentry = 0x%p"" , parent_dir_inode , direntry -> d_name . name , direntry ) ; cifs_sb = CIFS_SB ( parent_dir_inode -> i_sb ) ; tlink = cifs_sb_tlink ( cifs_sb ) ; if ( IS_ERR ( tlink ) ) { FreeXid ( xid ) ; return ( struct dentry * ) tlink ; } pTcon = tlink_tcon ( tlink ) ; if ( ! ( cifs_sb -> mnt_cifs_flags & CIFS_MOUNT_POSIX_PATHS ) ) { int i ; for ( i = 0 ; i < direntry -> d_name . len ; i ++ ) if ( direntry -> d_name . name [ i ] == '\\\\' ) { cFYI ( 1 , ""Invalid file name"" ) ; rc = - EINVAL ; goto lookup_out ; } } if ( nd && ( nd -> flags & LOOKUP_EXCL ) ) { d_instantiate ( direntry , NULL ) ; rc = 0 ; goto lookup_out ; } full_path = build_path_from_dentry ( direntry ) ; if ( full_path == NULL ) { rc = - ENOMEM ; goto lookup_out ; } if ( direntry -> d_inode != NULL ) { cFYI ( 1 , ""non-NULL inode in lookup"" ) ; } else { cFYI ( 1 , ""NULL inode in lookup"" ) ; } cFYI ( 1 , ""Full path: %s inode = 0x%p"" , full_path , direntry -> d_inode ) ; if ( pTcon -> unix_ext ) { if ( nd && ! ( nd -> flags & LOOKUP_DIRECTORY ) && ( nd -> flags & LOOKUP_OPEN ) && ! pTcon -> broken_posix_open && ( nd -> intent . open . file -> f_flags & O_CREAT ) ) { rc = cifs_posix_open ( full_path , & newInode , parent_dir_inode -> i_sb , nd -> intent . open . create_mode , nd -> intent . open . file -> f_flags , & oplock , & fileHandle , xid ) ; if ( ( rc == 0 ) || ( rc == - ENOENT ) ) posix_open = true ; else if ( ( rc == - EINVAL ) || ( rc != - EOPNOTSUPP ) ) pTcon -> broken_posix_open = true ; } if ( ! posix_open ) rc = cifs_get_inode_info_unix ( & newInode , full_path , parent_dir_inode -> i_sb , xid ) ; } else rc = cifs_get_inode_info ( & newInode , full_path , NULL , parent_dir_inode -> i_sb , xid , NULL ) ; if ( ( rc == 0 ) && ( newInode != NULL ) ) { d_add ( direntry , newInode ) ; if ( posix_open ) { filp = lookup_instantiate_filp ( nd , direntry , generic_file_open ) ; if ( IS_ERR ( filp ) ) { rc = PTR_ERR ( filp ) ; CIFSSMBClose ( xid , pTcon , fileHandle ) ; goto lookup_out ; } cfile = cifs_new_fileinfo ( fileHandle , filp , tlink , oplock ) ; if ( cfile == NULL ) { fput ( filp ) ; CIFSSMBClose ( xid , pTcon , fileHandle ) ; rc = - ENOMEM ; goto lookup_out ; } } renew_parental_timestamps ( direntry ) ; } else if ( rc == - ENOENT ) { rc = 0 ; direntry -> d_time = jiffies ; d_add ( direntry , NULL ) ; } else if ( rc != - EACCES ) { cERROR ( 1 , ""Unexpected lookup error %d"" , rc ) ; } lookup_out : kfree ( full_path ) ; cifs_put_tlink ( tlink ) ; FreeXid ( xid ) ; return ERR_PTR ( rc ) ; }","struct tcon_link * tlink ; struct cifs_tcon * pTcon ; struct cifsFileInfo * cfile ; struct inode * newInode = NULL ; char * full_path = NULL ; struct file * filp ; xid = GetXid ( ) ; cFYI ( 1 , ""parent inode = 0x%p name is: %s and dentry = 0x%p"" , parent_dir_inode , direntry -> d_name . name , direntry ) ; cifs_sb = CIFS_SB ( parent_dir_inode -> i_sb ) ; tlink = cifs_sb_tlink ( cifs_sb ) ; if ( IS_ERR ( tlink ) ) { FreeXid ( xid ) ; return ( struct dentry * ) tlink ; } pTcon = tlink_tcon ( tlink ) ; if ( ! ( cifs_sb -> mnt_cifs_flags & CIFS_MOUNT_POSIX_PATHS ) ) { int i ; for ( i = 0 ; i < direntry -> d_name . len ; i ++ ) if ( direntry -> d_name . name [ i ] == '\\\\' ) { cFYI ( 1 , ""Invalid file name"" ) ; rc = - EINVAL ; goto lookup_out ; } } if ( nd && ( nd -> flags & LOOKUP_EXCL ) ) { d_instantiate ( direntry , NULL ) ; rc = 0 ; goto lookup_out ; } full_path = build_path_from_dentry ( direntry ) ; if ( full_path == NULL ) { rc = - ENOMEM ; goto lookup_out ; } if ( direntry -> d_inode != NULL ) { cFYI ( 1 , ""non-NULL inode in lookup"" ) ; } else { cFYI ( 1 , ""NULL inode in lookup"" ) ; } cFYI ( 1 , ""Full path: %s inode = 0x%p"" , full_path , direntry -> d_inode ) ; if ( pTcon -> unix_ext ) { if ( nd && ! ( nd -> flags & LOOKUP_DIRECTORY ) && ( nd -> flags & LOOKUP_OPEN ) && ! pTcon -> broken_posix_open && ( nd -> intent . open . file -> f_flags & O_CREAT ) ) { rc = cifs_posix_open ( full_path , & newInode , parent_dir_inode -> i_sb , nd -> intent . open . create_mode , nd -> intent . open . file -> f_flags , & oplock , & fileHandle , xid ) ; switch ( rc ) { case 0 : if ( newInode && ! S_ISREG ( newInode -> i_mode ) ) { CIFSSMBClose ( xid , pTcon , fileHandle ) ; break ; } case - ENOENT : posix_open = true ; case - EOPNOTSUPP : break ; default : pTcon -> broken_posix_open = true ; } } if ( ! posix_open ) rc = cifs_get_inode_info_unix ( & newInode , full_path , parent_dir_inode -> i_sb , xid ) ; } else rc = cifs_get_inode_info ( & newInode , full_path , NULL , parent_dir_inode -> i_sb , xid , NULL ) ; if ( ( rc == 0 ) && ( newInode != NULL ) ) { d_add ( direntry , newInode ) ; if ( posix_open ) { filp = lookup_instantiate_filp ( nd , direntry , generic_file_open ) ; if ( IS_ERR ( filp ) ) { rc = PTR_ERR ( filp ) ; CIFSSMBClose ( xid , pTcon , fileHandle ) ; goto lookup_out ; } cfile = cifs_new_fileinfo ( fileHandle , filp , tlink , oplock ) ; if ( cfile == NULL ) { fput ( filp ) ; CIFSSMBClose ( xid , pTcon , fileHandle ) ; rc = - ENOMEM ; goto lookup_out ; } } renew_parental_timestamps ( direntry ) ; } else if ( rc == - ENOENT ) { rc = 0 ; direntry -> d_time = jiffies ; d_add ( direntry , NULL ) ; } else if ( rc != - EACCES ) { cERROR ( 1 , ""Unexpected lookup error %d"" , rc ) ; } lookup_out : kfree ( full_path ) ; cifs_put_tlink ( tlink ) ; FreeXid ( xid ) ; return ERR_PTR ( rc ) ; }" 840,"NVD-CWE-noinfo static int encode_open_downgrade ( struct xdr_stream * xdr , const struct nfs_closeargs * arg ) { __be32 * p ; RESERVE_SPACE ( 4 + NFS4_STATEID_SIZE + 4 ) ; WRITE32 ( OP_OPEN_DOWNGRADE ) ; WRITEMEM ( arg -> stateid -> data , NFS4_STATEID_SIZE ) ; WRITE32 ( arg -> seqid -> sequence -> counter ) ; encode_share_access ( xdr , arg -> open_flags ) ; return 0 ; }","static int encode_open_downgrade ( struct xdr_stream * xdr , const struct nfs_closeargs * arg ) { __be32 * p ; RESERVE_SPACE ( 4 + NFS4_STATEID_SIZE + 4 ) ; WRITE32 ( OP_OPEN_DOWNGRADE ) ; WRITEMEM ( arg -> stateid -> data , NFS4_STATEID_SIZE ) ; WRITE32 ( arg -> seqid -> sequence -> counter ) ; encode_share_access ( xdr , arg -> fmode ) ; return 0 ; }" 841,"CWE-20 static int validate_event ( struct pmu_hw_events * hw_events , struct perf_event * event ) { struct arm_pmu * armpmu = to_arm_pmu ( event -> pmu ) ; struct pmu * leader_pmu = event -> group_leader -> pmu ; if ( event -> pmu != leader_pmu || event -> state < PERF_EVENT_STATE_OFF ) return 1 ; if ( event -> state == PERF_EVENT_STATE_OFF && ! event -> attr . enable_on_exec ) return 1 ; return armpmu -> get_event_idx ( hw_events , event ) >= 0 ; }","static int validate_event ( struct pmu_hw_events * hw_events , struct perf_event * event ) { struct arm_pmu * armpmu = to_arm_pmu ( event -> pmu ) ; struct pmu * leader_pmu = event -> group_leader -> pmu ; if ( is_software_event ( event ) ) return 1 ; if ( event -> pmu != leader_pmu || event -> state < PERF_EVENT_STATE_OFF ) return 1 ; if ( event -> state == PERF_EVENT_STATE_OFF && ! event -> attr . enable_on_exec ) return 1 ; return armpmu -> get_event_idx ( hw_events , event ) >= 0 ; }" 842,"CWE-264 SYSCALL_DEFINE4 ( osf_wait4 , pid_t , pid , int __user * , ustatus , int , options , struct rusage32 __user * , ur ) { struct rusage r ; long ret , err ; mm_segment_t old_fs ; if ( ! ur ) return sys_wait4 ( pid , ustatus , options , NULL ) ; old_fs = get_fs ( ) ; set_fs ( KERNEL_DS ) ; ret = sys_wait4 ( pid , ustatus , options , ( struct rusage __user * ) & r ) ; set_fs ( old_fs ) ; if ( ! access_ok ( VERIFY_WRITE , ur , sizeof ( * ur ) ) ) return - EFAULT ; err = 0 ; err |= __put_user ( r . ru_utime . tv_sec , & ur -> ru_utime . tv_sec ) ; err |= __put_user ( r . ru_utime . tv_usec , & ur -> ru_utime . tv_usec ) ; err |= __put_user ( r . ru_stime . tv_sec , & ur -> ru_stime . tv_sec ) ; err |= __put_user ( r . ru_stime . tv_usec , & ur -> ru_stime . tv_usec ) ; err |= __put_user ( r . ru_maxrss , & ur -> ru_maxrss ) ; err |= __put_user ( r . ru_ixrss , & ur -> ru_ixrss ) ; err |= __put_user ( r . ru_idrss , & ur -> ru_idrss ) ; err |= __put_user ( r . ru_isrss , & ur -> ru_isrss ) ; err |= __put_user ( r . ru_minflt , & ur -> ru_minflt ) ; err |= __put_user ( r . ru_majflt , & ur -> ru_majflt ) ; err |= __put_user ( r . ru_nswap , & ur -> ru_nswap ) ; err |= __put_user ( r . ru_inblock , & ur -> ru_inblock ) ; err |= __put_user ( r . ru_oublock , & ur -> ru_oublock ) ; err |= __put_user ( r . ru_msgsnd , & ur -> ru_msgsnd ) ; err |= __put_user ( r . ru_msgrcv , & ur -> ru_msgrcv ) ; err |= __put_user ( r . ru_nsignals , & ur -> ru_nsignals ) ; err |= __put_user ( r . ru_nvcsw , & ur -> ru_nvcsw ) ; err |= __put_user ( r . ru_nivcsw , & ur -> ru_nivcsw ) ; return err ? err : ret ; }","SYSCALL_DEFINE4 ( osf_wait4 , pid_t , pid , int __user * , ustatus , int , options , struct rusage32 __user * , ur ) { struct rusage r ; long ret , err ; unsigned int status = 0 ; mm_segment_t old_fs ; if ( ! ur ) return sys_wait4 ( pid , ustatus , options , NULL ) ; old_fs = get_fs ( ) ; set_fs ( KERNEL_DS ) ; ret = sys_wait4 ( pid , ( unsigned int __user * ) & status , options , ( struct rusage __user * ) & r ) ; set_fs ( old_fs ) ; if ( ! access_ok ( VERIFY_WRITE , ur , sizeof ( * ur ) ) ) return - EFAULT ; err = 0 ; err |= put_user ( status , ustatus ) ; err |= __put_user ( r . ru_utime . tv_sec , & ur -> ru_utime . tv_sec ) ; err |= __put_user ( r . ru_utime . tv_usec , & ur -> ru_utime . tv_usec ) ; err |= __put_user ( r . ru_stime . tv_sec , & ur -> ru_stime . tv_sec ) ; err |= __put_user ( r . ru_stime . tv_usec , & ur -> ru_stime . tv_usec ) ; err |= __put_user ( r . ru_maxrss , & ur -> ru_maxrss ) ; err |= __put_user ( r . ru_ixrss , & ur -> ru_ixrss ) ; err |= __put_user ( r . ru_idrss , & ur -> ru_idrss ) ; err |= __put_user ( r . ru_isrss , & ur -> ru_isrss ) ; err |= __put_user ( r . ru_minflt , & ur -> ru_minflt ) ; err |= __put_user ( r . ru_majflt , & ur -> ru_majflt ) ; err |= __put_user ( r . ru_nswap , & ur -> ru_nswap ) ; err |= __put_user ( r . ru_inblock , & ur -> ru_inblock ) ; err |= __put_user ( r . ru_oublock , & ur -> ru_oublock ) ; err |= __put_user ( r . ru_msgsnd , & ur -> ru_msgsnd ) ; err |= __put_user ( r . ru_msgrcv , & ur -> ru_msgrcv ) ; err |= __put_user ( r . ru_nsignals , & ur -> ru_nsignals ) ; err |= __put_user ( r . ru_nvcsw , & ur -> ru_nvcsw ) ; err |= __put_user ( r . ru_nivcsw , & ur -> ru_nivcsw ) ; return err ? err : ret ; }" 843,"CWE-119 void vp8_reset_mb_tokens_context ( MACROBLOCKD * x ) { ENTROPY_CONTEXT * a_ctx = ( ( ENTROPY_CONTEXT * ) x -> above_context ) ; ENTROPY_CONTEXT * l_ctx = ( ( ENTROPY_CONTEXT * ) x -> left_context ) ; vpx_memset ( a_ctx , 0 , sizeof ( ENTROPY_CONTEXT_PLANES ) - 1 ) ; vpx_memset ( l_ctx , 0 , sizeof ( ENTROPY_CONTEXT_PLANES ) - 1 ) ; if ( ! x -> mode_info_context -> mbmi . is_4x4 ) { a_ctx [ 8 ] = l_ctx [ 8 ] = 0 ; } }","void vp8_reset_mb_tokens_context ( MACROBLOCKD * x ) { ENTROPY_CONTEXT * a_ctx = ( ( ENTROPY_CONTEXT * ) x -> above_context ) ; ENTROPY_CONTEXT * l_ctx = ( ( ENTROPY_CONTEXT * ) x -> left_context ) ; memset ( a_ctx , 0 , sizeof ( ENTROPY_CONTEXT_PLANES ) - 1 ) ; memset ( l_ctx , 0 , sizeof ( ENTROPY_CONTEXT_PLANES ) - 1 ) ; if ( ! x -> mode_info_context -> mbmi . is_4x4 ) { a_ctx [ 8 ] = l_ctx [ 8 ] = 0 ; } }" 844,"CWE-119 static void mark_commit ( struct commit * c , void * data ) { mark_object ( & c -> object , NULL , NULL , data ) ; }","static void mark_commit ( struct commit * c , void * data ) { mark_object ( & c -> object , NULL , data ) ; }" 845,"CWE-59 rc_dir [ i - 1 ] = '\\0' ; # ifdef USE_M17N display_charset_str = wc_get_ces_list ( ) ; document_charset_str = display_charset_str ; system_charset_str = display_charset_str ; # endif if ( stat ( rc_dir , & st ) < 0 ) { if ( errno == ENOENT ) { if ( do_mkdir ( rc_dir , 0700 ) < 0 ) { goto rc_dir_err ; } else { stat ( rc_dir , & st ) ; } } else { goto rc_dir_err ; } } if ( ! S_ISDIR ( st . st_mode ) ) { goto rc_dir_err ; } if ( ! ( st . st_mode & S_IWUSR ) ) { goto rc_dir_err ; } no_rc_dir = FALSE ; tmp_dir = rc_dir ; if ( config_file == NULL ) config_file = rcFile ( CONFIG_FILE ) ; create_option_search_table ( ) ; open_rc : if ( ( f = fopen ( etcFile ( W3MCONFIG ) , ""rt"" ) ) != NULL ) { interpret_rc ( f ) ; fclose ( f ) ; } if ( ( f = fopen ( confFile ( CONFIG_FILE ) , ""rt"" ) ) != NULL ) { interpret_rc ( f ) ; fclose ( f ) ; } if ( config_file && ( f = fopen ( config_file , ""rt"" ) ) != NULL ) { interpret_rc ( f ) ; fclose ( f ) ; } return ; rc_dir_err : no_rc_dir = TRUE ; if ( ( ( tmp_dir = getenv ( ""TMPDIR"" ) ) == NULL || * tmp_dir == '\\0' ) && ( ( tmp_dir = getenv ( ""TMP"" ) ) == NULL || * tmp_dir == '\\0' ) && ( ( tmp_dir = getenv ( ""TEMP"" ) ) == NULL || * tmp_dir == '\\0' ) ) tmp_dir = ""/tmp"" ; create_option_search_table ( ) ; goto open_rc ; }","rc_dir [ i - 1 ] = '\\0' ; # ifdef USE_M17N display_charset_str = wc_get_ces_list ( ) ; document_charset_str = display_charset_str ; system_charset_str = display_charset_str ; # endif if ( stat ( rc_dir , & st ) < 0 ) { if ( errno == ENOENT ) { if ( do_mkdir ( rc_dir , 0700 ) < 0 ) { goto rc_dir_err ; } else { stat ( rc_dir , & st ) ; } } else { goto rc_dir_err ; } } if ( ! S_ISDIR ( st . st_mode ) ) { goto rc_dir_err ; } if ( ! ( st . st_mode & S_IWUSR ) ) { goto rc_dir_err ; } no_rc_dir = FALSE ; tmp_dir = rc_dir ; if ( config_file == NULL ) config_file = rcFile ( CONFIG_FILE ) ; create_option_search_table ( ) ; open_rc : if ( ( f = fopen ( etcFile ( W3MCONFIG ) , ""rt"" ) ) != NULL ) { interpret_rc ( f ) ; fclose ( f ) ; } if ( ( f = fopen ( confFile ( CONFIG_FILE ) , ""rt"" ) ) != NULL ) { interpret_rc ( f ) ; fclose ( f ) ; } if ( config_file && ( f = fopen ( config_file , ""rt"" ) ) != NULL ) { interpret_rc ( f ) ; fclose ( f ) ; } return ; rc_dir_err : no_rc_dir = TRUE ; if ( ( ( tmp_dir = getenv ( ""TMPDIR"" ) ) == NULL || * tmp_dir == '\\0' ) && ( ( tmp_dir = getenv ( ""TMP"" ) ) == NULL || * tmp_dir == '\\0' ) && ( ( tmp_dir = getenv ( ""TEMP"" ) ) == NULL || * tmp_dir == '\\0' ) ) tmp_dir = ""/tmp"" ; # ifdef HAVE_MKDTEMP tmp_dir = mkdtemp ( Strnew_m_charp ( tmp_dir , ""/w3m-XXXXXX"" , NULL ) -> ptr ) ; if ( tmp_dir == NULL ) tmp_dir = rc_dir ; # endif create_option_search_table ( ) ; goto open_rc ; }" 846,"CWE-119 { u1_num_mbs = ps_dec -> u4_num_mbs_cur_nmb ; if ( u1_num_mbs ) { ps_cur_mb_info = ps_dec -> ps_nmb_info + u1_num_mbs - 1 ; } else { if ( ps_dec -> u1_separate_parse ) { ps_cur_mb_info = ps_dec -> ps_nmb_info - 1 ; } else { ps_cur_mb_info = ps_dec -> ps_nmb_info } } ps_dec -> u2_mby = ps_cur_mb_info -> u2_mby ; ps_dec -> u2_mbx = ps_cur_mb_info -> u2_mbx ; ps_dec -> u1_mb_ngbr_availablity = ps_cur_mb_info -> u1_mb_ngbr_availablity ; ps_dec -> pv_parse_tu_coeff_data = ps_dec -> pv_prev_mb_parse_tu_coeff_data ; ps_dec -> u2_cur_mb_addr -- ; ps_dec -> i4_submb_ofst -= SUB_BLK_SIZE ; if ( u1_num_mbs ) { if ( ps_dec -> u1_pr_sl_type == P_SLICE || ps_dec -> u1_pr_sl_type == B_SLICE ) { ps_dec -> pf_mvpred_ref_tfr_nby2mb ( ps_dec , u1_mb_idx , u1_num_mbs ) ; ps_dec -> ps_part = ps_dec -> ps_parse_part_params ; } u1_num_mbs_next = i2_pic_wdin_mbs - ps_dec -> u2_mbx - 1 ; u1_end_of_row = ( ! u1_num_mbs_next ) && ( ! ( u1_mbaff && ( u1_num_mbs & 0x01 ) ) ) ; u1_slice_end = 1 ; u1_tfr_n_mb = 1 ; ps_cur_mb_info -> u1_end_of_slice = u1_slice_end ; if ( ps_dec -> u1_separate_parse ) { ih264d_parse_tfr_nmb ( ps_dec , u1_mb_idx , u1_num_mbs , u1_num_mbs_next , u1_tfr_n_mb , u1_end_of_row ) ; ps_dec -> ps_nmb_info += u1_num_mbs ; } else { ih264d_decode_recon_tfr_nmb ( ps_dec , u1_mb_idx , u1_num_mbs , u1_num_mbs_next , u1_tfr_n_mb , u1_end_of_row ) ; } ps_dec -> u1_mb_idx = 0 ; ps_dec -> u4_num_mbs_cur_nmb = 0 ; } if ( ps_dec -> u2_total_mbs_coded >= ps_dec -> u2_frm_ht_in_mbs * ps_dec -> u2_frm_wd_in_mbs ) { ps_dec -> u1_pic_decode_done = 1 ; return 0 ; } ps_dec -> u2_cur_slice_num ++ ; ps_dec -> i2_prev_slice_mbx = ps_dec -> u2_mbx ; ps_dec -> i2_prev_slice_mby = ps_dec -> u2_mby ; ps_dec -> ps_parse_cur_slice ++ ; } else { ps_dec -> ps_parse_cur_slice = ps_dec -> ps_dec_slice_buf } } { WORD32 num_entries ; WORD32 size ; UWORD8 * pu1_buf ; num_entries = MIN ( MAX_FRAMES , ps_dec -> u4_num_ref_frames_at_init ) ; num_entries = 2 * ( ( 2 * num_entries ) + 1 ) ; size = num_entries * sizeof ( void * ) ; size += PAD_MAP_IDX_POC * sizeof ( void * ) ; pu1_buf = ( UWORD8 * ) ps_dec -> pv_map_ref_idx_to_poc_buf ; pu1_buf += size * ps_dec -> u2_cur_slice_num ; ps_dec -> ps_parse_cur_slice -> ppv_map_ref_idx_to_poc = ( volatile void * * ) pu1_buf ; } ps_dec -> ps_cur_slice -> u2_first_mb_in_slice = ps_dec -> u2_total_mbs_coded << u1_mbaff ; if ( ps_dec -> ps_cur_slice -> u1_field_pic_flag ) ps_dec -> u2_prv_frame_num = ps_dec -> ps_cur_slice -> u2_frame_num ; ps_dec -> ps_parse_cur_slice -> u4_first_mb_in_slice = ps_dec -> u2_total_mbs_coded << u1_mbaff ; ps_dec -> ps_parse_cur_slice -> u2_log2Y_crwd = ps_dec -> ps_cur_slice -> u2_log2Y_crwd ; if ( ps_dec -> u1_separate_parse ) { ps_dec -> ps_parse_cur_slice -> pv_tu_coeff_data_start = ps_dec -> pv_parse_tu_coeff_data ; } else { ps_dec -> pv_proc_tu_coeff_data = ps_dec -> pv_parse_tu_coeff_data ; } u1_inter_mb_type = P_MB ; u1_deblk_mb_type = D_INTER_MB ; ps_dec -> ps_cur_slice -> u1_slice_type = P_SLICE ; ps_dec -> ps_parse_cur_slice -> slice_type = P_SLICE ; ps_dec -> pf_mvpred_ref_tfr_nby2mb = ih264d_mv_pred_ref_tfr_nby2_pmb ;","{ u1_num_mbs = ps_dec -> u4_num_mbs_cur_nmb ; if ( u1_num_mbs ) { ps_cur_mb_info = ps_dec -> ps_nmb_info + u1_num_mbs - 1 ; } else { if ( ps_dec -> u1_separate_parse ) { ps_cur_mb_info = ps_dec -> ps_nmb_info - 1 ; } else { ps_cur_mb_info = ps_dec -> ps_nmb_info ps_dec -> u4_num_mbs_prev_nmb - 1 ; } } ps_dec -> u2_mby = ps_cur_mb_info -> u2_mby ; ps_dec -> u2_mbx = ps_cur_mb_info -> u2_mbx ; ps_dec -> u1_mb_ngbr_availablity = ps_cur_mb_info -> u1_mb_ngbr_availablity ; ps_dec -> pv_parse_tu_coeff_data = ps_dec -> pv_prev_mb_parse_tu_coeff_data ; ps_dec -> u2_cur_mb_addr -- ; ps_dec -> i4_submb_ofst -= SUB_BLK_SIZE ; if ( u1_num_mbs ) { if ( ps_dec -> u1_pr_sl_type == P_SLICE || ps_dec -> u1_pr_sl_type == B_SLICE ) { ps_dec -> pf_mvpred_ref_tfr_nby2mb ( ps_dec , u1_mb_idx , u1_num_mbs ) ; ps_dec -> ps_part = ps_dec -> ps_parse_part_params ; } u1_num_mbs_next = i2_pic_wdin_mbs - ps_dec -> u2_mbx - 1 ; u1_end_of_row = ( ! u1_num_mbs_next ) && ( ! ( u1_mbaff && ( u1_num_mbs & 0x01 ) ) ) ; u1_slice_end = 1 ; u1_tfr_n_mb = 1 ; ps_cur_mb_info -> u1_end_of_slice = u1_slice_end ; if ( ps_dec -> u1_separate_parse ) { ih264d_parse_tfr_nmb ( ps_dec , u1_mb_idx , u1_num_mbs , u1_num_mbs_next , u1_tfr_n_mb , u1_end_of_row ) ; ps_dec -> ps_nmb_info += u1_num_mbs ; } else { ih264d_decode_recon_tfr_nmb ( ps_dec , u1_mb_idx , u1_num_mbs , u1_num_mbs_next , u1_tfr_n_mb , u1_end_of_row ) ; } ps_dec -> u2_total_mbs_coded += u1_num_mbs ; ps_dec -> u1_mb_idx = 0 ; ps_dec -> u4_num_mbs_cur_nmb = 0 ; } if ( ps_dec -> u2_total_mbs_coded >= ps_dec -> u2_frm_ht_in_mbs * ps_dec -> u2_frm_wd_in_mbs ) { ps_dec -> u1_pic_decode_done = 1 ; return 0 ; } ps_dec -> u2_cur_slice_num ++ ; ps_dec -> i2_prev_slice_mbx = ps_dec -> u2_mbx ; ps_dec -> i2_prev_slice_mby = ps_dec -> u2_mby ; ps_dec -> ps_parse_cur_slice ++ ; } else { ps_dec -> ps_parse_cur_slice = ps_dec -> ps_dec_slice_buf ps_dec -> u2_cur_slice_num ; } } { WORD32 num_entries ; WORD32 size ; UWORD8 * pu1_buf ; num_entries = MIN ( MAX_FRAMES , ps_dec -> u4_num_ref_frames_at_init ) ; num_entries = 2 * ( ( 2 * num_entries ) + 1 ) ; size = num_entries * sizeof ( void * ) ; size += PAD_MAP_IDX_POC * sizeof ( void * ) ; pu1_buf = ( UWORD8 * ) ps_dec -> pv_map_ref_idx_to_poc_buf ; pu1_buf += size * ps_dec -> u2_cur_slice_num ; ps_dec -> ps_parse_cur_slice -> ppv_map_ref_idx_to_poc = ( volatile void * * ) pu1_buf ; } ps_dec -> ps_cur_slice -> u2_first_mb_in_slice = ps_dec -> u2_total_mbs_coded << u1_mbaff ; if ( ps_dec -> ps_cur_slice -> u1_field_pic_flag ) ps_dec -> u2_prv_frame_num = ps_dec -> ps_cur_slice -> u2_frame_num ; ps_dec -> ps_parse_cur_slice -> u4_first_mb_in_slice = ps_dec -> u2_total_mbs_coded << u1_mbaff ; ps_dec -> ps_parse_cur_slice -> u2_log2Y_crwd = ps_dec -> ps_cur_slice -> u2_log2Y_crwd ; if ( ps_dec -> u1_separate_parse ) { ps_dec -> ps_parse_cur_slice -> pv_tu_coeff_data_start = ps_dec -> pv_parse_tu_coeff_data ; } else { ps_dec -> pv_proc_tu_coeff_data = ps_dec -> pv_parse_tu_coeff_data ; } u1_inter_mb_type = P_MB ; u1_deblk_mb_type = D_INTER_MB ; ps_dec -> ps_cur_slice -> u1_slice_type = P_SLICE ; ps_dec -> ps_parse_cur_slice -> slice_type = P_SLICE ; ps_dec -> pf_mvpred_ref_tfr_nby2mb = ih264d_mv_pred_ref_tfr_nby2_pmb ;" 847,"CWE-264 int setpwnam ( struct passwd * pwd ) { FILE * fp = NULL , * pwf = NULL ; int save_errno ; int found ; int namelen ; int buflen = 256 ; int contlen , rc ; char * linebuf = NULL ; char * tmpname = NULL ; char * atomic_dir = ""/etc"" ; pw_init ( ) ; if ( ( fp = xfmkstemp ( & tmpname , atomic_dir ) ) == NULL ) return - 1 ; if ( fchown ( fileno ( fp ) , ( uid_t ) 0 , ( gid_t ) 0 ) < 0 ) goto fail ; if ( lckpwdf ( ) < 0 ) goto fail ; pwf = fopen ( PASSWD_FILE , ""r"" ) ; if ( ! pwf ) goto fail ; namelen = strlen ( pwd -> pw_name ) ; linebuf = malloc ( buflen ) ; if ( ! linebuf ) goto fail ; found = false ; while ( fgets ( linebuf , buflen , pwf ) != NULL ) { contlen = strlen ( linebuf ) ; while ( linebuf [ contlen - 1 ] != '\\n' && ! feof ( pwf ) ) { char * tmp ; buflen *= 2 ; tmp = realloc ( linebuf , buflen ) ; if ( tmp == NULL ) goto fail ; linebuf = tmp ; if ( fgets ( & linebuf [ contlen ] , buflen / 2 , pwf ) == NULL ) break ; contlen = strlen ( linebuf ) ; } if ( ! found && linebuf [ namelen ] == ':' && ! strncmp ( linebuf , pwd -> pw_name , namelen ) ) { if ( putpwent ( pwd , fp ) < 0 ) goto fail ; found = true ; continue ; } fputs ( linebuf , fp ) ; } if ( fchmod ( fileno ( fp ) , 0644 ) < 0 ) goto fail ; rc = close_stream ( fp ) ; fp = NULL ; if ( rc != 0 ) goto fail ; fclose ( pwf ) ; pwf = NULL ; if ( ! found ) { errno = ENOENT ; goto fail ; } unlink ( PASSWD_FILE "".OLD"" ) ; ignore_result ( link ( PASSWD_FILE , PASSWD_FILE "".OLD"" ) ) ; if ( rename ( tmpname , PASSWD_FILE ) < 0 )","int setpwnam ( struct passwd * pwd , const char * prefix ) { FILE * fp = NULL , * pwf = NULL ; int save_errno ; int found ; int namelen ; int buflen = 256 ; int contlen , rc ; char * linebuf = NULL ; char * tmpname = NULL ; pw_init ( ) ; if ( ( fp = xfmkstemp ( & tmpname , ""/etc"" , prefix ) ) == NULL ) return - 1 ; if ( fchown ( fileno ( fp ) , ( uid_t ) 0 , ( gid_t ) 0 ) < 0 ) goto fail ; if ( lckpwdf ( ) < 0 ) goto fail ; pwf = fopen ( PASSWD_FILE , ""r"" ) ; if ( ! pwf ) goto fail ; namelen = strlen ( pwd -> pw_name ) ; linebuf = malloc ( buflen ) ; if ( ! linebuf ) goto fail ; found = false ; while ( fgets ( linebuf , buflen , pwf ) != NULL ) { contlen = strlen ( linebuf ) ; while ( linebuf [ contlen - 1 ] != '\\n' && ! feof ( pwf ) ) { char * tmp ; buflen *= 2 ; tmp = realloc ( linebuf , buflen ) ; if ( tmp == NULL ) goto fail ; linebuf = tmp ; if ( fgets ( & linebuf [ contlen ] , buflen / 2 , pwf ) == NULL ) break ; contlen = strlen ( linebuf ) ; } if ( ! found && linebuf [ namelen ] == ':' && ! strncmp ( linebuf , pwd -> pw_name , namelen ) ) { if ( putpwent ( pwd , fp ) < 0 ) goto fail ; found = true ; continue ; } fputs ( linebuf , fp ) ; } if ( fchmod ( fileno ( fp ) , 0644 ) < 0 ) goto fail ; rc = close_stream ( fp ) ; fp = NULL ; if ( rc != 0 ) goto fail ; fclose ( pwf ) ; pwf = NULL ; if ( ! found ) { errno = ENOENT ; goto fail ; } unlink ( PASSWD_FILE "".OLD"" ) ; ignore_result ( link ( PASSWD_FILE , PASSWD_FILE "".OLD"" ) ) ; if ( rename ( tmpname , PASSWD_FILE ) < 0 )" 848,"CWE-20 char * ReadInput ( char * filename ) { FILE * finput ; long filesize , num ; char * buffer ; if ( ( finput = fopen ( filename , ""r"" ) ) == 0 ) { fprintf ( stderr , ""%s: Cannot open file %s\\n"" , axohelp , filename ) ; exit ( - 1 ) ; } if ( ( fseek ( finput , 0 , SEEK_END ) != 0 ) || ( ( filesize = ftell ( finput ) ) < 0 ) || ( fseek ( finput , 0 , SEEK_SET ) != 0 ) ) { fprintf ( stderr , ""%s: File error in file %s\\n"" , axohelp , filename ) ; exit ( - 1 ) ; } if ( ( buffer = malloc ( ( filesize + 1 ) * sizeof ( char ) ) ) == 0 ) { fprintf ( stderr , ""%s: Error allocating %ld bytes of memory"" , axohelp , filesize + 1 ) ; exit ( - 1 ) ; } num = fread ( buffer , 1 , filesize , finput ) ; if ( ferror ( finput ) ) { fprintf ( stderr , ""%s: Error reading file %s\\n"" , axohelp , filename ) ; exit ( - 1 ) ; } buffer [ num ] = 0 ; fclose ( finput ) ; return ( buffer ) ; }","char * ReadInput ( char * filename ) { FILE * finput ; long filesize , num ; char * buffer ; if ( ( finput = fopen ( filename , ""r"" ) ) == 0 ) { fprintf ( stderr , ""%s: Cannot open file %s\\n"" , axohelp , filename ) ; exit ( 1 ) ; } if ( ( fseek ( finput , 0 , SEEK_END ) != 0 ) || ( ( filesize = ftell ( finput ) ) < 0 ) || ( fseek ( finput , 0 , SEEK_SET ) != 0 ) ) { fprintf ( stderr , ""%s: File error in file %s\\n"" , axohelp , filename ) ; exit ( 1 ) ; } if ( ( buffer = malloc ( ( filesize + 1 ) * sizeof ( char ) ) ) == 0 ) { fprintf ( stderr , ""%s: Error allocating %ld bytes of memory"" , axohelp , filesize + 1 ) ; exit ( 1 ) ; } num = fread ( buffer , 1 , filesize , finput ) ; if ( ferror ( finput ) ) { fprintf ( stderr , ""%s: Error reading file %s\\n"" , axohelp , filename ) ; exit ( 1 ) ; } buffer [ num ] = 0 ; fclose ( finput ) ; return ( buffer ) ; }" 849,"CWE-476 static void srpt_handle_tsk_mgmt ( struct srpt_rdma_ch * ch , struct srpt_recv_ioctx * recv_ioctx , struct srpt_send_ioctx * send_ioctx ) { struct srp_tsk_mgmt * srp_tsk ; struct se_cmd * cmd ; struct se_session * sess = ch -> sess ; uint64_t unpacked_lun ; uint32_t tag = 0 ; int tcm_tmr ; int rc ; BUG_ON ( ! send_ioctx ) ; srp_tsk = recv_ioctx -> ioctx . buf ; cmd = & send_ioctx -> cmd ; pr_debug ( ""recv tsk_mgmt fn %d for task_tag %lld and cmd tag %lld"" "" cm_id %p sess %p\\n"" , srp_tsk -> tsk_mgmt_func , srp_tsk -> task_tag , srp_tsk -> tag , ch -> cm_id , ch -> sess ) ; srpt_set_cmd_state ( send_ioctx , SRPT_STATE_MGMT ) ; send_ioctx -> cmd . tag = srp_tsk -> tag ; tcm_tmr = srp_tmr_to_tcm ( srp_tsk -> tsk_mgmt_func ) ; if ( tcm_tmr < 0 ) { send_ioctx -> cmd . se_tmr_req -> response = TMR_TASK_MGMT_FUNCTION_NOT_SUPPORTED ; goto fail ; } unpacked_lun = srpt_unpack_lun ( ( uint8_t * ) & srp_tsk -> lun , sizeof ( srp_tsk -> lun ) ) ; if ( srp_tsk -> tsk_mgmt_func == SRP_TSK_ABORT_TASK ) { rc = srpt_rx_mgmt_fn_tag ( send_ioctx , srp_tsk -> task_tag ) ; if ( rc < 0 ) { send_ioctx -> cmd . se_tmr_req -> response = TMR_TASK_DOES_NOT_EXIST ; goto fail ; } tag = srp_tsk -> task_tag ; } rc = target_submit_tmr ( & send_ioctx -> cmd , sess , NULL , unpacked_lun , srp_tsk , tcm_tmr , GFP_KERNEL , tag , TARGET_SCF_ACK_KREF ) ; if ( rc != 0 ) { send_ioctx -> cmd . se_tmr_req -> response = TMR_FUNCTION_REJECTED ; goto fail ; } return ; fail : transport_send_check_condition_and_sense ( cmd , 0 , 0 ) ; }","static void srpt_handle_tsk_mgmt ( struct srpt_rdma_ch * ch , struct srpt_recv_ioctx * recv_ioctx , struct srpt_send_ioctx * send_ioctx ) { struct srp_tsk_mgmt * srp_tsk ; struct se_cmd * cmd ; struct se_session * sess = ch -> sess ; uint64_t unpacked_lun ; int tcm_tmr ; int rc ; BUG_ON ( ! send_ioctx ) ; srp_tsk = recv_ioctx -> ioctx . buf ; cmd = & send_ioctx -> cmd ; pr_debug ( ""recv tsk_mgmt fn %d for task_tag %lld and cmd tag %lld"" "" cm_id %p sess %p\\n"" , srp_tsk -> tsk_mgmt_func , srp_tsk -> task_tag , srp_tsk -> tag , ch -> cm_id , ch -> sess ) ; srpt_set_cmd_state ( send_ioctx , SRPT_STATE_MGMT ) ; send_ioctx -> cmd . tag = srp_tsk -> tag ; tcm_tmr = srp_tmr_to_tcm ( srp_tsk -> tsk_mgmt_func ) ; unpacked_lun = srpt_unpack_lun ( ( uint8_t * ) & srp_tsk -> lun , sizeof ( srp_tsk -> lun ) ) ; rc = target_submit_tmr ( & send_ioctx -> cmd , sess , NULL , unpacked_lun , srp_tsk , tcm_tmr , GFP_KERNEL , srp_tsk -> task_tag , TARGET_SCF_ACK_KREF ) ; if ( rc != 0 ) { send_ioctx -> cmd . se_tmr_req -> response = TMR_FUNCTION_REJECTED ; goto fail ; } return ; fail : transport_send_check_condition_and_sense ( cmd , 0 , 0 ) ; }" 850,"CWE-400 static int read_packet ( int fd , gss_buffer_t buf , int timeout , int first ) { int ret ; static uint32_t len = 0 ; static char len_buf [ 4 ] ; static int len_buf_pos = 0 ; static char * tmpbuf = 0 ; static int tmpbuf_pos = 0 ; if ( first ) { len_buf_pos = 0 ; return - 2 ; } if ( len_buf_pos < 4 ) { ret = timed_read ( fd , & len_buf [ len_buf_pos ] , 4 - len_buf_pos , timeout ) ; if ( ret == - 1 ) { if ( errno == EINTR || errno == EAGAIN ) return - 2 ; LOG ( LOG_ERR , ( ""%s"" , strerror ( errno ) ) ) ; return - 1 ; } if ( ret == 0 ) { if ( len_buf_pos == 0 ) return 0 ; LOG ( LOG_INFO , ( ""EOF reading packet len"" ) ) ; return - 1 ; } len_buf_pos += ret ; } if ( len_buf_pos != 4 ) return - 2 ; len = ntohl ( * ( uint32_t * ) len_buf ) ; if ( len > GSTD_MAXPACKETCONTENTS + 512 ) { LOG ( LOG_ERR , ( ""ridiculous length, %ld"" , len ) ) ; return - 1 ; } if ( ! tmpbuf ) { if ( ( tmpbuf = malloc ( len ) ) == NULL ) { LOG ( LOG_CRIT , ( ""malloc failure, %ld bytes"" , len ) ) ; return - 1 ; } } ret = timed_read ( fd , tmpbuf + tmpbuf_pos , len - tmpbuf_pos , timeout ) ; if ( ret == - 1 ) { if ( errno == EINTR || errno == EAGAIN ) return - 2 ; LOG ( LOG_ERR , ( ""%s"" , strerror ( errno ) ) ) ; return - 1 ; } if ( ret == 0 ) { LOG ( LOG_ERR , ( ""EOF while reading packet (len=%d)"" , len ) ) ; return - 1 ; } tmpbuf_pos += ret ; if ( tmpbuf_pos == len ) { buf -> length = len ; buf -> value = tmpbuf ; len = len_buf_pos = tmpbuf_pos = 0 ; tmpbuf = NULL ; LOG ( LOG_DEBUG , ( ""read packet of length %d"" , buf -> length ) ) ; return 1 ; } return - 2 ; }","static int read_packet ( int fd , gss_buffer_t buf , int timeout , int first ) { int ret ; static uint32_t len = 0 ; static char len_buf [ 4 ] ; static int len_buf_pos = 0 ; static char * tmpbuf = 0 ; static int tmpbuf_pos = 0 ; if ( first ) { len_buf_pos = 0 ; return - 2 ; } if ( len_buf_pos < 4 ) { ret = timed_read ( fd , & len_buf [ len_buf_pos ] , 4 - len_buf_pos , timeout ) ; if ( ret == - 1 ) { if ( errno == EINTR || errno == EAGAIN ) return - 2 ; LOG ( LOG_ERR , ( ""%s"" , strerror ( errno ) ) ) ; goto bail ; } if ( ret == 0 ) { if ( len_buf_pos == 0 ) return 0 ; LOG ( LOG_INFO , ( ""EOF reading packet len"" ) ) ; goto bail ; } len_buf_pos += ret ; } if ( len_buf_pos != 4 ) return - 2 ; len = ntohl ( * ( uint32_t * ) len_buf ) ; if ( len > GSTD_MAXPACKETCONTENTS + 512 ) { LOG ( LOG_ERR , ( ""ridiculous length, %ld"" , len ) ) ; goto bail ; } if ( ! tmpbuf ) { if ( ( tmpbuf = malloc ( len ) ) == NULL ) { LOG ( LOG_CRIT , ( ""malloc failure, %ld bytes"" , len ) ) ; goto bail ; } } ret = timed_read ( fd , tmpbuf + tmpbuf_pos , len - tmpbuf_pos , timeout ) ; if ( ret == - 1 ) { if ( errno == EINTR || errno == EAGAIN ) return - 2 ; LOG ( LOG_ERR , ( ""%s"" , strerror ( errno ) ) ) ; goto bail ; } if ( ret == 0 ) { LOG ( LOG_ERR , ( ""EOF while reading packet (len=%d)"" , len ) ) ; goto bail ; } tmpbuf_pos += ret ; if ( tmpbuf_pos == len ) { buf -> length = len ; buf -> value = tmpbuf ; len = len_buf_pos = tmpbuf_pos = 0 ; tmpbuf = NULL ; LOG ( LOG_DEBUG , ( ""read packet of length %d"" , buf -> length ) ) ; return 1 ; } return - 2 ; bail : free ( tmpbuf ) ; tmpbuf = NULL ; return - 1 ; }" 851,"CWE-401 static int sof_set_get_large_ctrl_data ( struct snd_sof_dev * sdev , struct sof_ipc_ctrl_data * cdata , struct sof_ipc_ctrl_data_params * sparams , bool send ) { struct sof_ipc_ctrl_data * partdata ; size_t send_bytes ; size_t offset = 0 ; size_t msg_bytes ; size_t pl_size ; int err ; int i ; partdata = kzalloc ( SOF_IPC_MSG_MAX_SIZE , GFP_KERNEL ) ; if ( ! partdata ) return - ENOMEM ; if ( send ) err = sof_get_ctrl_copy_params ( cdata -> type , cdata , partdata , sparams ) ; else err = sof_get_ctrl_copy_params ( cdata -> type , partdata , cdata , sparams ) ; if ( err < 0 ) return err ; msg_bytes = sparams -> msg_bytes ; pl_size = sparams -> pl_size ; memcpy ( partdata , cdata , sparams -> hdr_bytes ) ; mutex_lock ( & sdev -> ipc -> tx_mutex ) ; for ( i = 0 ; i < sparams -> num_msg ; i ++ ) { send_bytes = min ( msg_bytes , pl_size ) ; partdata -> num_elems = send_bytes ; partdata -> rhdr . hdr . size = sparams -> hdr_bytes + send_bytes ; partdata -> msg_index = i ; msg_bytes -= send_bytes ; partdata -> elems_remaining = msg_bytes ; if ( send ) memcpy ( sparams -> dst , sparams -> src + offset , send_bytes ) ; err = sof_ipc_tx_message_unlocked ( sdev -> ipc , partdata -> rhdr . hdr . cmd , partdata , partdata -> rhdr . hdr . size , partdata , partdata -> rhdr . hdr . size ) ; if ( err < 0 ) break ; if ( ! send ) memcpy ( sparams -> dst + offset , sparams -> src , send_bytes ) ; offset += pl_size ; } mutex_unlock ( & sdev -> ipc -> tx_mutex ) ; kfree ( partdata ) ; return err ; }","static int sof_set_get_large_ctrl_data ( struct snd_sof_dev * sdev , struct sof_ipc_ctrl_data * cdata , struct sof_ipc_ctrl_data_params * sparams , bool send ) { struct sof_ipc_ctrl_data * partdata ; size_t send_bytes ; size_t offset = 0 ; size_t msg_bytes ; size_t pl_size ; int err ; int i ; partdata = kzalloc ( SOF_IPC_MSG_MAX_SIZE , GFP_KERNEL ) ; if ( ! partdata ) return - ENOMEM ; if ( send ) err = sof_get_ctrl_copy_params ( cdata -> type , cdata , partdata , sparams ) ; else err = sof_get_ctrl_copy_params ( cdata -> type , partdata , cdata , sparams ) ; if ( err < 0 ) { kfree ( partdata ) ; return err ; } msg_bytes = sparams -> msg_bytes ; pl_size = sparams -> pl_size ; memcpy ( partdata , cdata , sparams -> hdr_bytes ) ; mutex_lock ( & sdev -> ipc -> tx_mutex ) ; for ( i = 0 ; i < sparams -> num_msg ; i ++ ) { send_bytes = min ( msg_bytes , pl_size ) ; partdata -> num_elems = send_bytes ; partdata -> rhdr . hdr . size = sparams -> hdr_bytes + send_bytes ; partdata -> msg_index = i ; msg_bytes -= send_bytes ; partdata -> elems_remaining = msg_bytes ; if ( send ) memcpy ( sparams -> dst , sparams -> src + offset , send_bytes ) ; err = sof_ipc_tx_message_unlocked ( sdev -> ipc , partdata -> rhdr . hdr . cmd , partdata , partdata -> rhdr . hdr . size , partdata , partdata -> rhdr . hdr . size ) ; if ( err < 0 ) break ; if ( ! send ) memcpy ( sparams -> dst + offset , sparams -> src , send_bytes ) ; offset += pl_size ; } mutex_unlock ( & sdev -> ipc -> tx_mutex ) ; kfree ( partdata ) ; return err ; }" 852,"CWE-20 static int rawsock_recvmsg ( struct kiocb * iocb , struct socket * sock , struct msghdr * msg , size_t len , int flags ) { int noblock = flags & MSG_DONTWAIT ; struct sock * sk = sock -> sk ; struct sk_buff * skb ; int copied ; int rc ; pr_debug ( ""sock=%p sk=%p len=%zu flags=%d\\n"" , sock , sk , len , flags ) ; skb = skb_recv_datagram ( sk , flags , noblock , & rc ) ; if ( ! skb ) return rc ; msg -> msg_namelen = 0 ; copied = skb -> len ; if ( len < copied ) { msg -> msg_flags |= MSG_TRUNC ; copied = len ; } rc = skb_copy_datagram_iovec ( skb , 0 , msg -> msg_iov , copied ) ; skb_free_datagram ( sk , skb ) ; return rc ? : copied ; }","static int rawsock_recvmsg ( struct kiocb * iocb , struct socket * sock , struct msghdr * msg , size_t len , int flags ) { int noblock = flags & MSG_DONTWAIT ; struct sock * sk = sock -> sk ; struct sk_buff * skb ; int copied ; int rc ; pr_debug ( ""sock=%p sk=%p len=%zu flags=%d\\n"" , sock , sk , len , flags ) ; skb = skb_recv_datagram ( sk , flags , noblock , & rc ) ; if ( ! skb ) return rc ; copied = skb -> len ; if ( len < copied ) { msg -> msg_flags |= MSG_TRUNC ; copied = len ; } rc = skb_copy_datagram_iovec ( skb , 0 , msg -> msg_iov , copied ) ; skb_free_datagram ( sk , skb ) ; return rc ? : copied ; }" 853,"CWE-119 static void encode_superblock ( VP9_COMP * cpi , TOKENEXTRA * * t , int output_enabled , int mi_row , int mi_col , BLOCK_SIZE bsize ) { VP9_COMMON * const cm = & cpi -> common ; MACROBLOCK * const x = & cpi -> mb ; MACROBLOCKD * const xd = & x -> e_mbd ; MODE_INFO * * mi_8x8 = xd -> mi ; MODE_INFO * mi = mi_8x8 [ 0 ] ; MB_MODE_INFO * mbmi = & mi -> mbmi ; PICK_MODE_CONTEXT * ctx = get_block_context ( x , bsize ) ; unsigned int segment_id = mbmi -> segment_id ; const int mis = cm -> mi_stride ; const int mi_width = num_8x8_blocks_wide_lookup [ bsize ] ; const int mi_height = num_8x8_blocks_high_lookup [ bsize ] ; x -> skip_recode = ! x -> select_txfm_size && mbmi -> sb_type >= BLOCK_8X8 && cpi -> oxcf . aq_mode != COMPLEXITY_AQ && cpi -> oxcf . aq_mode != CYCLIC_REFRESH_AQ && cpi -> sf . allow_skip_recode ; x -> skip_optimize = ctx -> is_coded ; ctx -> is_coded = 1 ; x -> use_lp32x32fdct = cpi -> sf . use_lp32x32fdct ; x -> skip_encode = ( ! output_enabled && cpi -> sf . skip_encode_frame && x -> q_index < QIDX_SKIP_THRESH ) ; if ( x -> skip_encode ) return ; if ( cm -> frame_type == KEY_FRAME ) { if ( cpi -> oxcf . tuning == VP8_TUNE_SSIM ) { adjust_act_zbin ( cpi , x ) ; vp9_update_zbin_extra ( cpi , x ) ; } } else { set_ref_ptrs ( cm , xd , mbmi -> ref_frame [ 0 ] , mbmi -> ref_frame [ 1 ] ) ; if ( cpi -> oxcf . tuning == VP8_TUNE_SSIM ) { adjust_act_zbin ( cpi , x ) ; } cpi -> zbin_mode_boost = get_zbin_mode_boost ( mbmi , cpi -> zbin_mode_boost_enabled ) ; vp9_update_zbin_extra ( cpi , x ) ; } if ( ! is_inter_block ( mbmi ) ) { int plane ; mbmi -> skip = 1 ; for ( plane = 0 ; plane < MAX_MB_PLANE ; ++ plane ) vp9_encode_intra_block_plane ( x , MAX ( bsize , BLOCK_8X8 ) , plane ) ; if ( output_enabled ) sum_intra_stats ( & cm -> counts , mi ) ; vp9_tokenize_sb ( cpi , t , ! output_enabled , MAX ( bsize , BLOCK_8X8 ) ) ; } else { int ref ; const int is_compound = has_second_ref ( mbmi ) ; for ( ref = 0 ; ref < 1 + is_compound ; ++ ref ) { YV12_BUFFER_CONFIG * cfg = get_ref_frame_buffer ( cpi , mbmi -> ref_frame [ ref ] ) ; vp9_setup_pre_planes ( xd , ref , cfg , mi_row , mi_col , & xd -> block_refs [ ref ] -> sf ) ; } vp9_build_inter_predictors_sb ( xd , mi_row , mi_col , MAX ( bsize , BLOCK_8X8 ) ) ; if ( ! x -> skip ) { mbmi -> skip = 1 ; vp9_encode_sb ( x , MAX ( bsize , BLOCK_8X8 ) ) ; vp9_tokenize_sb ( cpi , t , ! output_enabled , MAX ( bsize , BLOCK_8X8 ) ) ; } else { mbmi -> skip = 1 ; if ( output_enabled ) cm -> counts . skip [ vp9_get_skip_context ( xd ) ] [ 1 ] ++ ; reset_skip_context ( xd , MAX ( bsize , BLOCK_8X8 ) ) ; } } if ( output_enabled ) { if ( cm -> tx_mode == TX_MODE_SELECT && mbmi -> sb_type >= BLOCK_8X8 && ! ( is_inter_block ( mbmi ) && ( mbmi -> skip || vp9_segfeature_active ( & cm -> seg , segment_id , SEG_LVL_SKIP ) ) ) ) { ++ get_tx_counts ( max_txsize_lookup [ bsize ] , vp9_get_tx_size_context ( xd ) , & cm -> counts . tx ) [ mbmi -> tx_size ] ; } else { int x , y ; TX_SIZE tx_size ; if ( is_inter_block ( & mi -> mbmi ) ) { tx_size = MIN ( tx_mode_to_biggest_tx_size [ cm -> tx_mode ] , max_txsize_lookup [ bsize ] ) ; } else { tx_size = ( bsize >= BLOCK_8X8 ) ? mbmi -> tx_size : TX_4X4 ; } for ( y = 0 ; y < mi_height ; y ++ ) for ( x = 0 ; x < mi_width ; x ++ ) if ( mi_col + x < cm -> mi_cols && mi_row + y < cm -> mi_rows ) mi_8x8 [ mis * y + x ] -> mbmi . tx_size = tx_size ; } } }","static void encode_superblock ( VP9_COMP * cpi , ThreadData * td , TOKENEXTRA * * t , int output_enabled , int mi_row , int mi_col , BLOCK_SIZE bsize , PICK_MODE_CONTEXT * ctx ) { VP9_COMMON * const cm = & cpi -> common ; MACROBLOCK * const x = & td -> mb ; MACROBLOCKD * const xd = & x -> e_mbd ; MODE_INFO * * mi_8x8 = xd -> mi ; MODE_INFO * mi = mi_8x8 [ 0 ] ; MB_MODE_INFO * mbmi = & mi -> mbmi ; const int seg_skip = segfeature_active ( & cm -> seg , mbmi -> segment_id , SEG_LVL_SKIP ) ; const int mis = cm -> mi_stride ; const int mi_width = num_8x8_blocks_wide_lookup [ bsize ] ; const int mi_height = num_8x8_blocks_high_lookup [ bsize ] ; x -> skip_recode = ! x -> select_tx_size && mbmi -> sb_type >= BLOCK_8X8 && cpi -> oxcf . aq_mode != COMPLEXITY_AQ && cpi -> oxcf . aq_mode != CYCLIC_REFRESH_AQ && cpi -> sf . allow_skip_recode ; if ( ! x -> skip_recode && ! cpi -> sf . use_nonrd_pick_mode ) memset ( x -> skip_txfm , 0 , sizeof ( x -> skip_txfm ) ) ; x -> skip_optimize = ctx -> is_coded ; ctx -> is_coded = 1 ; x -> use_lp32x32fdct = cpi -> sf . use_lp32x32fdct ; x -> skip_encode = ( ! output_enabled && cpi -> sf . skip_encode_frame && x -> q_index < QIDX_SKIP_THRESH ) ; if ( x -> skip_encode ) return ; if ( ! is_inter_block ( mbmi ) ) { int plane ; mbmi -> skip = 1 ; for ( plane = 0 ; plane < MAX_MB_PLANE ; ++ plane ) vp9_encode_intra_block_plane ( x , MAX ( bsize , BLOCK_8X8 ) , plane ) ; if ( output_enabled ) sum_intra_stats ( td -> counts , mi ) ; vp9_tokenize_sb ( cpi , td , t , ! output_enabled , MAX ( bsize , BLOCK_8X8 ) ) ; } else { int ref ; const int is_compound = has_second_ref ( mbmi ) ; set_ref_ptrs ( cm , xd , mbmi -> ref_frame [ 0 ] , mbmi -> ref_frame [ 1 ] ) ; for ( ref = 0 ; ref < 1 + is_compound ; ++ ref ) { YV12_BUFFER_CONFIG * cfg = get_ref_frame_buffer ( cpi , mbmi -> ref_frame [ ref ] ) ; assert ( cfg != NULL ) ; vp9_setup_pre_planes ( xd , ref , cfg , mi_row , mi_col , & xd -> block_refs [ ref ] -> sf ) ; } if ( ! ( cpi -> sf . reuse_inter_pred_sby && ctx -> pred_pixel_ready ) || seg_skip ) vp9_build_inter_predictors_sby ( xd , mi_row , mi_col , MAX ( bsize , BLOCK_8X8 ) ) ; vp9_build_inter_predictors_sbuv ( xd , mi_row , mi_col , MAX ( bsize , BLOCK_8X8 ) ) ; vp9_encode_sb ( x , MAX ( bsize , BLOCK_8X8 ) ) ; vp9_tokenize_sb ( cpi , td , t , ! output_enabled , MAX ( bsize , BLOCK_8X8 ) ) ; } if ( output_enabled ) { if ( cm -> tx_mode == TX_MODE_SELECT && mbmi -> sb_type >= BLOCK_8X8 && ! ( is_inter_block ( mbmi ) && ( mbmi -> skip || seg_skip ) ) ) { ++ get_tx_counts ( max_txsize_lookup [ bsize ] , get_tx_size_context ( xd ) , & td -> counts -> tx ) [ mbmi -> tx_size ] ; } else { int x , y ; TX_SIZE tx_size ; if ( is_inter_block ( & mi -> mbmi ) ) { tx_size = MIN ( tx_mode_to_biggest_tx_size [ cm -> tx_mode ] , max_txsize_lookup [ bsize ] ) ; } else { tx_size = ( bsize >= BLOCK_8X8 ) ? mbmi -> tx_size : TX_4X4 ; } for ( y = 0 ; y < mi_height ; y ++ ) for ( x = 0 ; x < mi_width ; x ++ ) if ( mi_col + x < cm -> mi_cols && mi_row + y < cm -> mi_rows ) mi_8x8 [ mis * y + x ] -> mbmi . tx_size = tx_size ; } ++ td -> counts -> tx . tx_totals [ mbmi -> tx_size ] ; ++ td -> counts -> tx . tx_totals [ get_uv_tx_size ( mbmi , & xd -> plane [ 1 ] ) ] ; } }" 854,"CWE-119 TpktState CotpConnection_readToTpktBuffer ( CotpConnection * self ) { uint8_t * buffer = self -> readBuffer -> buffer ; int bufferSize = self -> readBuffer -> maxSize ; int bufPos = self -> readBuffer -> size ; assert ( bufferSize > 4 ) ; int readBytes ; if ( bufPos < 4 ) { readBytes = readFromSocket ( self , buffer + bufPos , 4 - bufPos ) ; if ( readBytes < 0 ) goto exit_closed ; if ( DEBUG_COTP ) { if ( readBytes > 0 ) printf ( ""TPKT: read %i bytes from socket\\n"" , readBytes ) ; } bufPos += readBytes ; if ( bufPos == 4 ) { if ( ( buffer [ 0 ] == 3 ) && ( buffer [ 1 ] == 0 ) ) { self -> packetSize = ( buffer [ 2 ] * 0x100 ) + buffer [ 3 ] ; if ( DEBUG_COTP ) printf ( ""TPKT: header complete (msg size = %i)\\n"" , self -> packetSize ) ; if ( self -> packetSize > bufferSize ) { if ( DEBUG_COTP ) printf ( ""TPKT: packet too large\\n"" ) ; goto exit_error ; } } else { if ( DEBUG_COTP ) printf ( ""TPKT: failed to decode TPKT header.\\n"" ) ; goto exit_error ; } } else goto exit_waiting ; } readBytes = readFromSocket ( self , buffer + bufPos , self -> packetSize - bufPos ) ; if ( readBytes < 0 ) goto exit_closed ; bufPos += readBytes ; if ( bufPos < self -> packetSize ) goto exit_waiting ; if ( DEBUG_COTP ) printf ( ""TPKT: message complete (size = %i)\\n"" , self -> packetSize ) ; self -> readBuffer -> size = bufPos ; return TPKT_PACKET_COMPLETE ; exit_closed : if ( DEBUG_COTP ) printf ( ""TPKT: socket closed or socket error\\n"" ) ; return TPKT_ERROR ; exit_error : if ( DEBUG_COTP ) printf ( ""TPKT: Error parsing message\\n"" ) ; return TPKT_ERROR ; exit_waiting : if ( DEBUG_COTP ) if ( bufPos != 0 ) printf ( ""TPKT: waiting (read %i of %i)\\n"" , bufPos , self -> packetSize ) ; self -> readBuffer -> size = bufPos ; return TPKT_WAITING ; }","TpktState CotpConnection_readToTpktBuffer ( CotpConnection * self ) { uint8_t * buffer = self -> readBuffer -> buffer ; int bufferSize = self -> readBuffer -> maxSize ; int bufPos = self -> readBuffer -> size ; assert ( bufferSize > 4 ) ; int readBytes ; if ( bufPos < 4 ) { readBytes = readFromSocket ( self , buffer + bufPos , 4 - bufPos ) ; if ( readBytes < 0 ) goto exit_closed ; if ( DEBUG_COTP ) { if ( readBytes > 0 ) printf ( ""TPKT: read %i bytes from socket\\n"" , readBytes ) ; } bufPos += readBytes ; if ( bufPos == 4 ) { if ( ( buffer [ 0 ] == 3 ) && ( buffer [ 1 ] == 0 ) ) { self -> packetSize = ( buffer [ 2 ] * 0x100 ) + buffer [ 3 ] ; if ( DEBUG_COTP ) printf ( ""TPKT: header complete (msg size = %i)\\n"" , self -> packetSize ) ; if ( self -> packetSize > bufferSize ) { if ( DEBUG_COTP ) printf ( ""TPKT: packet too large\\n"" ) ; goto exit_error ; } } else { if ( DEBUG_COTP ) printf ( ""TPKT: failed to decode TPKT header.\\n"" ) ; goto exit_error ; } } else goto exit_waiting ; } if ( self -> packetSize <= bufPos ) goto exit_error ; readBytes = readFromSocket ( self , buffer + bufPos , self -> packetSize - bufPos ) ; if ( readBytes < 0 ) goto exit_closed ; bufPos += readBytes ; if ( bufPos < self -> packetSize ) goto exit_waiting ; if ( DEBUG_COTP ) printf ( ""TPKT: message complete (size = %i)\\n"" , self -> packetSize ) ; self -> readBuffer -> size = bufPos ; return TPKT_PACKET_COMPLETE ; exit_closed : if ( DEBUG_COTP ) printf ( ""TPKT: socket closed or socket error\\n"" ) ; return TPKT_ERROR ; exit_error : if ( DEBUG_COTP ) printf ( ""TPKT: Error parsing message\\n"" ) ; return TPKT_ERROR ; exit_waiting : if ( DEBUG_COTP ) if ( bufPos != 0 ) printf ( ""TPKT: waiting (read %i of %i)\\n"" , bufPos , self -> packetSize ) ; self -> readBuffer -> size = bufPos ; return TPKT_WAITING ; }" 855,"CWE-125 * tptr , tok2str ( vtp_message_type_values , ""Unknown message type"" , type ) , type , length ) ) ; if ( ndo -> ndo_vflag < 1 ) { return ; } ND_PRINT ( ( ndo , ""\\n\\tDomain name: "" ) ) ; mgmtd_len = * ( tptr + 3 ) ; if ( mgmtd_len < 1 || mgmtd_len > 32 ) { ND_PRINT ( ( ndo , "" [invalid MgmtD Len %d]"" , mgmtd_len ) ) ; return ; } fn_printzp ( ndo , tptr + 4 , mgmtd_len , NULL ) ; ND_PRINT ( ( ndo , "", %s: %u"" , tok2str ( vtp_header_values , ""Unknown"" , type ) , * ( tptr + 2 ) ) ) ; tptr += VTP_HEADER_LEN ; switch ( type ) { case VTP_SUMMARY_ADV : ND_TCHECK2 ( * tptr , 8 ) ; ND_PRINT ( ( ndo , ""\\n\\t Config Rev %x, Updater %s"" , EXTRACT_32BITS ( tptr ) , ipaddr_string ( ndo , tptr + 4 ) ) ) ; tptr += 8 ; ND_TCHECK2 ( * tptr , VTP_UPDATE_TIMESTAMP_LEN ) ; ND_PRINT ( ( ndo , "", Timestamp 0x%08x 0x%08x 0x%08x"" , EXTRACT_32BITS ( tptr ) , EXTRACT_32BITS ( tptr + 4 ) , EXTRACT_32BITS ( tptr + 8 ) ) ) ; tptr += VTP_UPDATE_TIMESTAMP_LEN ; ND_TCHECK2 ( * tptr , VTP_MD5_DIGEST_LEN ) ; ND_PRINT ( ( ndo , "", MD5 digest: %08x%08x%08x%08x"" , EXTRACT_32BITS ( tptr ) , EXTRACT_32BITS ( tptr + 4 ) , EXTRACT_32BITS ( tptr + 8 ) , EXTRACT_32BITS ( tptr + 12 ) ) ) ; tptr += VTP_MD5_DIGEST_LEN ; break ; case VTP_SUBSET_ADV : ND_TCHECK_32BITS ( tptr ) ; ND_PRINT ( ( ndo , "", Config Rev %x"" , EXTRACT_32BITS ( tptr ) ) ) ; tptr += 4 ; while ( tptr < ( pptr + length ) ) { ND_TCHECK_8BITS ( tptr ) ; len = * tptr ; if ( len == 0 ) break ; ND_TCHECK2 ( * tptr , len ) ; vtp_vlan = ( const struct vtp_vlan_ * ) tptr ; ND_TCHECK ( * vtp_vlan ) ; ND_PRINT ( ( ndo , ""\\n\\tVLAN info status %s, type %s, VLAN-id %u, MTU %u, SAID 0x%08x, Name "" , tok2str ( vtp_vlan_status , ""Unknown"" , vtp_vlan -> status ) , tok2str ( vtp_vlan_type_values , ""Unknown"" , vtp_vlan -> type ) , EXTRACT_16BITS ( & vtp_vlan -> vlanid ) , EXTRACT_16BITS ( & vtp_vlan -> mtu ) , EXTRACT_32BITS ( & vtp_vlan -> index ) ) ) ; fn_printzp ( ndo , tptr + VTP_VLAN_INFO_OFFSET , vtp_vlan -> name_len , NULL ) ; len -= VTP_VLAN_INFO_OFFSET + 4 * ( ( vtp_vlan -> name_len + 3 ) / 4 ) ; tptr += VTP_VLAN_INFO_OFFSET + 4 * ( ( vtp_vlan -> name_len + 3 ) / 4 ) ; while ( len > 0 ) { type = * tptr ; tlv_len = * ( tptr + 1 ) ; ND_PRINT ( ( ndo , ""\\n\\t\\t%s (0x%04x) TLV"" , tok2str ( vtp_vlan_tlv_values , ""Unknown"" , type ) , type ) ) ; if ( type == 0 || tlv_len == 0 ) { return ; } ND_TCHECK2 ( * tptr , tlv_len * 2 + 2 ) ; tlv_value = EXTRACT_16BITS ( tptr + 2 ) ; switch ( type ) { case VTP_VLAN_STE_HOP_COUNT : ND_PRINT ( ( ndo , "", %u"" , tlv_value ) ) ; break ; case VTP_VLAN_PRUNING : ND_PRINT ( ( ndo , "", %s (%u)"" , tlv_value == 1 ? ""Enabled"" : ""Disabled"" , tlv_value ) ) ; break ; case VTP_VLAN_STP_TYPE : ND_PRINT ( ( ndo , "", %s (%u)"" , tok2str ( vtp_stp_type_values , ""Unknown"" , tlv_value ) , tlv_value ) ) ; break ; case VTP_VLAN_BRIDGE_TYPE : ND_PRINT ( ( ndo , "", %s (%u)"" , tlv_value == 1 ? ""SRB"" : ""SRT"" , tlv_value ) ) ; break ; case VTP_VLAN_BACKUP_CRF_MODE : ND_PRINT ( ( ndo , "", %s (%u)"" , tlv_value == 1 ? ""Backup"" : ""Not backup"" , tlv_value ) ) ; break ; case VTP_VLAN_SOURCE_ROUTING_RING_NUMBER : case VTP_VLAN_SOURCE_ROUTING_BRIDGE_NUMBER : case VTP_VLAN_PARENT_VLAN : case VTP_VLAN_TRANS_BRIDGED_VLAN : case VTP_VLAN_ARP_HOP_COUNT : default : print_unknown_data ( ndo , tptr , ""\\n\\t\\t "" , 2 + tlv_len * 2 ) ; break ; } len -= 2 + tlv_len * 2 ; tptr += 2 + tlv_len * 2 ; } } break ; case VTP_ADV_REQUEST : ND_TCHECK2 ( * tptr , 4 ) ; ND_PRINT ( ( ndo , ""\\n\\tStart value: %u"" , EXTRACT_32BITS ( tptr ) ) ) ; break ; case VTP_JOIN_MESSAGE : break ; default : break ; } return ; trunc : ND_PRINT ( ( ndo , ""[|vtp]"" ) ) ; }","* tptr , tok2str ( vtp_message_type_values , ""Unknown message type"" , type ) , type , length ) ) ; if ( ndo -> ndo_vflag < 1 ) { return ; } ND_PRINT ( ( ndo , ""\\n\\tDomain name: "" ) ) ; mgmtd_len = * ( tptr + 3 ) ; if ( mgmtd_len < 1 || mgmtd_len > 32 ) { ND_PRINT ( ( ndo , "" [invalid MgmtD Len %d]"" , mgmtd_len ) ) ; return ; } fn_printzp ( ndo , tptr + 4 , mgmtd_len , NULL ) ; ND_PRINT ( ( ndo , "", %s: %u"" , tok2str ( vtp_header_values , ""Unknown"" , type ) , * ( tptr + 2 ) ) ) ; tptr += VTP_HEADER_LEN ; switch ( type ) { case VTP_SUMMARY_ADV : ND_TCHECK2 ( * tptr , 8 ) ; ND_PRINT ( ( ndo , ""\\n\\t Config Rev %x, Updater %s"" , EXTRACT_32BITS ( tptr ) , ipaddr_string ( ndo , tptr + 4 ) ) ) ; tptr += 8 ; ND_TCHECK2 ( * tptr , VTP_UPDATE_TIMESTAMP_LEN ) ; ND_PRINT ( ( ndo , "", Timestamp 0x%08x 0x%08x 0x%08x"" , EXTRACT_32BITS ( tptr ) , EXTRACT_32BITS ( tptr + 4 ) , EXTRACT_32BITS ( tptr + 8 ) ) ) ; tptr += VTP_UPDATE_TIMESTAMP_LEN ; ND_TCHECK2 ( * tptr , VTP_MD5_DIGEST_LEN ) ; ND_PRINT ( ( ndo , "", MD5 digest: %08x%08x%08x%08x"" , EXTRACT_32BITS ( tptr ) , EXTRACT_32BITS ( tptr + 4 ) , EXTRACT_32BITS ( tptr + 8 ) , EXTRACT_32BITS ( tptr + 12 ) ) ) ; tptr += VTP_MD5_DIGEST_LEN ; break ; case VTP_SUBSET_ADV : ND_TCHECK_32BITS ( tptr ) ; ND_PRINT ( ( ndo , "", Config Rev %x"" , EXTRACT_32BITS ( tptr ) ) ) ; tptr += 4 ; while ( tptr < ( pptr + length ) ) { ND_TCHECK_8BITS ( tptr ) ; len = * tptr ; if ( len == 0 ) break ; ND_TCHECK2 ( * tptr , len ) ; vtp_vlan = ( const struct vtp_vlan_ * ) tptr ; if ( len < VTP_VLAN_INFO_FIXED_PART_LEN ) goto trunc ; ND_TCHECK ( * vtp_vlan ) ; ND_PRINT ( ( ndo , ""\\n\\tVLAN info status %s, type %s, VLAN-id %u, MTU %u, SAID 0x%08x, Name "" , tok2str ( vtp_vlan_status , ""Unknown"" , vtp_vlan -> status ) , tok2str ( vtp_vlan_type_values , ""Unknown"" , vtp_vlan -> type ) , EXTRACT_16BITS ( & vtp_vlan -> vlanid ) , EXTRACT_16BITS ( & vtp_vlan -> mtu ) , EXTRACT_32BITS ( & vtp_vlan -> index ) ) ) ; len -= VTP_VLAN_INFO_FIXED_PART_LEN ; tptr += VTP_VLAN_INFO_FIXED_PART_LEN ; if ( len < 4 * ( ( vtp_vlan -> name_len + 3 ) / 4 ) ) goto trunc ; ND_TCHECK2 ( * tptr , vtp_vlan -> name_len ) ; fn_printzp ( ndo , tptr , vtp_vlan -> name_len , NULL ) ; len -= 4 * ( ( vtp_vlan -> name_len + 3 ) / 4 ) ; tptr += 4 * ( ( vtp_vlan -> name_len + 3 ) / 4 ) ; while ( len > 0 ) { if ( len < 2 ) goto trunc ; ND_TCHECK2 ( * tptr , 2 ) ; type = * tptr ; tlv_len = * ( tptr + 1 ) ; ND_PRINT ( ( ndo , ""\\n\\t\\t%s (0x%04x) TLV"" , tok2str ( vtp_vlan_tlv_values , ""Unknown"" , type ) , type ) ) ; if ( len < tlv_len * 2 + 2 ) { ND_PRINT ( ( ndo , "" (TLV goes past the end of the packet)"" ) ) ; return ; } ND_TCHECK2 ( * tptr , tlv_len * 2 + 2 ) ; if ( tlv_len != 1 ) { ND_PRINT ( ( ndo , "" (invalid TLV length %u != 1)"" , tlv_len ) ) ; return ; } else { tlv_value = EXTRACT_16BITS ( tptr + 2 ) ; switch ( type ) { case VTP_VLAN_STE_HOP_COUNT : ND_PRINT ( ( ndo , "", %u"" , tlv_value ) ) ; break ; case VTP_VLAN_PRUNING : ND_PRINT ( ( ndo , "", %s (%u)"" , tlv_value == 1 ? ""Enabled"" : ""Disabled"" , tlv_value ) ) ; break ; case VTP_VLAN_STP_TYPE : ND_PRINT ( ( ndo , "", %s (%u)"" , tok2str ( vtp_stp_type_values , ""Unknown"" , tlv_value ) , tlv_value ) ) ; break ; case VTP_VLAN_BRIDGE_TYPE : ND_PRINT ( ( ndo , "", %s (%u)"" , tlv_value == 1 ? ""SRB"" : ""SRT"" , tlv_value ) ) ; break ; case VTP_VLAN_BACKUP_CRF_MODE : ND_PRINT ( ( ndo , "", %s (%u)"" , tlv_value == 1 ? ""Backup"" : ""Not backup"" , tlv_value ) ) ; break ; case VTP_VLAN_SOURCE_ROUTING_RING_NUMBER : case VTP_VLAN_SOURCE_ROUTING_BRIDGE_NUMBER : case VTP_VLAN_PARENT_VLAN : case VTP_VLAN_TRANS_BRIDGED_VLAN : case VTP_VLAN_ARP_HOP_COUNT : default : print_unknown_data ( ndo , tptr , ""\\n\\t\\t "" , 2 + tlv_len * 2 ) ; break ; } } len -= 2 + tlv_len * 2 ; tptr += 2 + tlv_len * 2 ; } } break ; case VTP_ADV_REQUEST : ND_TCHECK2 ( * tptr , 4 ) ; ND_PRINT ( ( ndo , ""\\n\\tStart value: %u"" , EXTRACT_32BITS ( tptr ) ) ) ; break ; case VTP_JOIN_MESSAGE : break ; default : break ; } return ; trunc : ND_PRINT ( ( ndo , ""[|vtp]"" ) ) ; }" 856,"CWE-119 int y4m_write_file_header ( char * buf , size_t len , int width , int height , const struct VpxRational * framerate , vpx_img_fmt_t fmt ) { const char * const color = fmt == VPX_IMG_FMT_444A ? ""C444alpha\\n"" : fmt == VPX_IMG_FMT_I444 ? ""C444\\n"" : fmt == VPX_IMG_FMT_I422 ? ""C422\\n"" : ""C420jpeg\\n"" ; return snprintf ( buf , len , ""YUV4MPEG2 W%u H%u F%u:%u I%c %s"" , width , height , framerate -> numerator , framerate -> denominator , 'p' , color ) ; }","int y4m_write_file_header ( char * buf , size_t len , int width , int height , const struct VpxRational * framerate , vpx_img_fmt_t fmt , unsigned int bit_depth ) { const char * color ; switch ( bit_depth ) { case 8 : color = fmt == VPX_IMG_FMT_444A ? ""C444alpha\\n"" : fmt == VPX_IMG_FMT_I444 ? ""C444\\n"" : fmt == VPX_IMG_FMT_I422 ? ""C422\\n"" : ""C420jpeg\\n"" ; break ; case 9 : color = fmt == VPX_IMG_FMT_I44416 ? ""C444p9 XYSCSS=444P9\\n"" : fmt == VPX_IMG_FMT_I42216 ? ""C422p9 XYSCSS=422P9\\n"" : ""C420p9 XYSCSS=420P9\\n"" ; break ; case 10 : color = fmt == VPX_IMG_FMT_I44416 ? ""C444p10 XYSCSS=444P10\\n"" : fmt == VPX_IMG_FMT_I42216 ? ""C422p10 XYSCSS=422P10\\n"" : ""C420p10 XYSCSS=420P10\\n"" ; break ; case 12 : color = fmt == VPX_IMG_FMT_I44416 ? ""C444p12 XYSCSS=444P12\\n"" : fmt == VPX_IMG_FMT_I42216 ? ""C422p12 XYSCSS=422P12\\n"" : ""C420p12 XYSCSS=420P12\\n"" ; break ; case 14 : color = fmt == VPX_IMG_FMT_I44416 ? ""C444p14 XYSCSS=444P14\\n"" : fmt == VPX_IMG_FMT_I42216 ? ""C422p14 XYSCSS=422P14\\n"" : ""C420p14 XYSCSS=420P14\\n"" ; break ; case 16 : color = fmt == VPX_IMG_FMT_I44416 ? ""C444p16 XYSCSS=444P16\\n"" : fmt == VPX_IMG_FMT_I42216 ? ""C422p16 XYSCSS=422P16\\n"" : ""C420p16 XYSCSS=420P16\\n"" ; break ; default : color = NULL ; assert ( 0 ) ; } return snprintf ( buf , len , ""YUV4MPEG2 W%u H%u F%u:%u I%c %s"" , width , height , framerate -> numerator , framerate -> denominator , 'p' , color ) ; }" 857,"CWE-476 int read_escaped_char ( yyscan_t yyscanner , uint8_t * escaped_char ) { char text [ 4 ] = { 0 , 0 , 0 , 0 } ; text [ 0 ] = '\\\\' ; text [ 1 ] = RE_YY_INPUT ( yyscanner ) ; if ( text [ 1 ] == EOF ) return 0 ; if ( text [ 1 ] == 'x' ) { text [ 2 ] = RE_YY_INPUT ( yyscanner ) ; if ( text [ 2 ] == EOF ) return 0 ; text [ 3 ] = RE_YY_INPUT ( yyscanner ) ; if ( text [ 3 ] == EOF ) return 0 ; } * escaped_char = escaped_char_value ( text ) ; return 1 ; }","int read_escaped_char ( yyscan_t yyscanner , uint8_t * escaped_char ) { char text [ 4 ] = { 0 , 0 , 0 , 0 } ; text [ 0 ] = '\\\\' ; text [ 1 ] = RE_YY_INPUT ( yyscanner ) ; if ( text [ 1 ] == EOF || text [ 1 ] == 0 ) return 0 ; if ( text [ 1 ] == 'x' ) { text [ 2 ] = RE_YY_INPUT ( yyscanner ) ; if ( ! isxdigit ( text [ 2 ] ) ) return 0 ; text [ 3 ] = RE_YY_INPUT ( yyscanner ) ; if ( ! isxdigit ( text [ 3 ] ) ) return 0 ; } * escaped_char = escaped_char_value ( text ) ; return 1 ; }" 858,"CWE-362 if ( level <= write_lock_level ) { err = btrfs_try_tree_write_lock ( b ) ; if ( ! err ) { btrfs_set_path_blocking ( p ) ; btrfs_tree_lock ( b ) ; btrfs_clear_path_blocking ( p , b , BTRFS_WRITE_LOCK ) ; } p -> locks [ level ] = BTRFS_WRITE_LOCK ; } else { err = btrfs_try_tree_read_lock ( b ) ; if ( ! err ) { btrfs_set_path_blocking ( p ) ; btrfs_tree_read_lock ( b ) ; btrfs_clear_path_blocking ( p , b , BTRFS_READ_LOCK ) ; } p -> locks [ level ] = BTRFS_READ_LOCK ; } p -> nodes [ level ] = b ; } } else { p -> slots [ level ] = slot ; if ( ins_len > 0 && btrfs_leaf_free_space ( root , b ) < ins_len ) { if ( write_lock_level < 1 ) { write_lock_level = 1 ; btrfs_release_path ( p ) ; goto again ; } btrfs_set_path_blocking ( p ) ; err = split_leaf ( trans , root , key , p , ins_len , ret == 0 ) ; btrfs_clear_path_blocking ( p , NULL , 0 ) ; BUG_ON ( err > 0 ) ; if ( err ) { ret = err ; goto done ; } } if ( ! p -> search_for_split ) unlock_up ( p , level , lowest_unlock , min_write_lock_level , & write_lock_level ) ; goto done ; } } ret = 1 ; done : if ( ! p -> leave_spinning ) btrfs_set_path_blocking ( p ) ; if ( ret < 0 ) btrfs_release_path ( p ) ; return ret ; }","if ( level <= write_lock_level ) { err = btrfs_try_tree_write_lock ( b ) ; if ( ! err ) { btrfs_set_path_blocking ( p ) ; btrfs_tree_lock ( b ) ; btrfs_clear_path_blocking ( p , b , BTRFS_WRITE_LOCK ) ; } p -> locks [ level ] = BTRFS_WRITE_LOCK ; } else { err = btrfs_try_tree_read_lock ( b ) ; if ( ! err ) { btrfs_set_path_blocking ( p ) ; btrfs_tree_read_lock ( b ) ; btrfs_clear_path_blocking ( p , b , BTRFS_READ_LOCK ) ; } p -> locks [ level ] = BTRFS_READ_LOCK ; } p -> nodes [ level ] = b ; } } else { p -> slots [ level ] = slot ; if ( ins_len > 0 && btrfs_leaf_free_space ( root , b ) < ins_len ) { if ( write_lock_level < 1 ) { write_lock_level = 1 ; btrfs_release_path ( p ) ; goto again ; } btrfs_set_path_blocking ( p ) ; err = split_leaf ( trans , root , key , p , ins_len , ret == 0 ) ; btrfs_clear_path_blocking ( p , NULL , 0 ) ; BUG_ON ( err > 0 ) ; if ( err ) { ret = err ; goto done ; } } if ( ! p -> search_for_split ) unlock_up ( p , level , lowest_unlock , min_write_lock_level , & write_lock_level ) ; goto done ; } } ret = 1 ; done : if ( ! p -> leave_spinning ) btrfs_set_path_blocking ( p ) ; if ( ret < 0 && ! p -> skip_release_on_error ) btrfs_release_path ( p ) ; return ret ; }" 859,"CWE-119 void byteSwap ( UWORD32 * buf , unsigned words ) { md5byte * p ; int i = 1 ; if ( * ( char * ) & i == 1 ) return ; p = ( md5byte * ) buf ; do { * buf ++ = ( UWORD32 ) ( ( unsigned ) p [ 3 ] << 8 | p [ 2 ] ) << 16 | ( ( unsigned ) p [ 1 ] << 8 | p [ 0 ] ) ; p += 4 ; } while ( -- words ) ; }","static void byteSwap ( UWORD32 * buf , unsigned words ) { md5byte * p ; int i = 1 ; if ( * ( char * ) & i == 1 ) return ; p = ( md5byte * ) buf ; do { * buf ++ = ( UWORD32 ) ( ( unsigned ) p [ 3 ] << 8 | p [ 2 ] ) << 16 | ( ( unsigned ) p [ 1 ] << 8 | p [ 0 ] ) ; p += 4 ; } while ( -- words ) ; }" 860,"CWE-119 static ssize_t __nfs4_get_acl_uncached ( struct inode * inode , void * buf , size_t buflen ) { struct page * pages [ NFS4ACL_MAXPAGES ] = { NULL , } ; struct nfs_getaclargs args = { . fh = NFS_FH ( inode ) , . acl_pages = pages , . acl_len = buflen , } ; struct nfs_getaclres res = { . acl_len = buflen , } ; struct rpc_message msg = { . rpc_proc = & nfs4_procedures [ NFSPROC4_CLNT_GETACL ] , . rpc_argp = & args , . rpc_resp = & res , } ; unsigned int npages = DIV_ROUND_UP ( buflen , PAGE_SIZE ) ; int ret = - ENOMEM , i ; if ( npages == 0 ) npages = 1 ; if ( npages > ARRAY_SIZE ( pages ) ) return - ERANGE ; for ( i = 0 ; i < npages ; i ++ ) { pages [ i ] = alloc_page ( GFP_KERNEL ) ; if ( ! pages [ i ] ) goto out_free ; } res . acl_scratch = alloc_page ( GFP_KERNEL ) ; if ( ! res . acl_scratch ) goto out_free ; args . acl_len = npages * PAGE_SIZE ; args . acl_pgbase = 0 ; dprintk ( ""%s buf %p buflen %zu npages %d args.acl_len %zu\\n"" , __func__ , buf , buflen , npages , args . acl_len ) ; ret = nfs4_call_sync ( NFS_SERVER ( inode ) -> client , NFS_SERVER ( inode ) , & msg , & args . seq_args , & res . seq_res , 0 ) ; if ( ret ) goto out_free ; if ( res . acl_flags & NFS4_ACL_TRUNC ) { if ( buf == NULL ) goto out_ok ; ret = - ERANGE ; goto out_free ; } nfs4_write_cached_acl ( inode , pages , res . acl_data_offset , res . acl_len ) ; if ( buf ) _copy_from_pages ( buf , pages , res . acl_data_offset , res . acl_len ) ; out_ok : ret = res . acl_len ; out_free : for ( i = 0 ; i < npages ; i ++ ) if ( pages [ i ] ) __free_page ( pages [ i ] ) ; if ( res . acl_scratch ) __free_page ( res . acl_scratch ) ; return ret ; }","static ssize_t __nfs4_get_acl_uncached ( struct inode * inode , void * buf , size_t buflen ) { struct page * pages [ NFS4ACL_MAXPAGES ] = { NULL , } ; struct nfs_getaclargs args = { . fh = NFS_FH ( inode ) , . acl_pages = pages , . acl_len = buflen , } ; struct nfs_getaclres res = { . acl_len = buflen , } ; struct rpc_message msg = { . rpc_proc = & nfs4_procedures [ NFSPROC4_CLNT_GETACL ] , . rpc_argp = & args , . rpc_resp = & res , } ; unsigned int npages = DIV_ROUND_UP ( buflen , PAGE_SIZE ) ; int ret = - ENOMEM , i ; if ( npages == 0 ) npages = 1 ; if ( npages > ARRAY_SIZE ( pages ) ) return - ERANGE ; for ( i = 0 ; i < npages ; i ++ ) { pages [ i ] = alloc_page ( GFP_KERNEL ) ; if ( ! pages [ i ] ) goto out_free ; } res . acl_scratch = alloc_page ( GFP_KERNEL ) ; if ( ! res . acl_scratch ) goto out_free ; args . acl_len = npages * PAGE_SIZE ; args . acl_pgbase = 0 ; dprintk ( ""%s buf %p buflen %zu npages %d args.acl_len %zu\\n"" , __func__ , buf , buflen , npages , args . acl_len ) ; ret = nfs4_call_sync ( NFS_SERVER ( inode ) -> client , NFS_SERVER ( inode ) , & msg , & args . seq_args , & res . seq_res , 0 ) ; if ( ret ) goto out_free ; if ( res . acl_flags & NFS4_ACL_TRUNC ) { if ( buf == NULL ) goto out_ok ; ret = - ERANGE ; goto out_free ; } nfs4_write_cached_acl ( inode , pages , res . acl_data_offset , res . acl_len ) ; if ( buf ) { if ( res . acl_len > buflen ) { ret = - ERANGE ; goto out_free ; } _copy_from_pages ( buf , pages , res . acl_data_offset , res . acl_len ) ; } out_ok : ret = res . acl_len ; out_free : for ( i = 0 ; i < npages ; i ++ ) if ( pages [ i ] ) __free_page ( pages [ i ] ) ; if ( res . acl_scratch ) __free_page ( res . acl_scratch ) ; return ret ; }" 861,"CWE-772 Image * image ; assert ( image_info -> signature == MagickCoreSignature ) ; if ( image_info -> debug != MagickFalse ) ( void ) LogMagickEvent ( TraceEvent , GetMagickModule ( ) , ""%s"" , image_info -> filename ) ; assert ( exception != ( ExceptionInfo * ) NULL ) ; assert ( exception -> signature == MagickCoreSignature ) ; image = ( Image * ) NULL ; # if defined ( MAGICKCORE_WINGDI32_DELEGATE ) { BITMAPINFO bmi ; DISPLAY_DEVICE device ; HBITMAP bitmap , bitmapOld ; HDC bitmapDC , hDC ; Image * screen ; int i ; MagickBooleanType status ; register Quantum * q ; register ssize_t x ; RGBTRIPLE * p ; ssize_t y ; assert ( image_info != ( const ImageInfo * ) NULL ) ; i = 0 ; device . cb = sizeof ( device ) ; image = ( Image * ) NULL ; while ( EnumDisplayDevices ( NULL , i , & device , 0 ) && ++ i ) { if ( ( device . StateFlags & DISPLAY_DEVICE_ACTIVE ) != DISPLAY_DEVICE_ACTIVE ) continue ; hDC = CreateDC ( device . DeviceName , device . DeviceName , NULL , NULL ) ; if ( hDC == ( HDC ) NULL ) ThrowReaderException ( CoderError , ""UnableToCreateDC"" ) ; screen = AcquireImage ( image_info , exception ) ; screen -> columns = ( size_t ) GetDeviceCaps ( hDC , HORZRES ) ; screen -> rows = ( size_t ) GetDeviceCaps ( hDC , VERTRES ) ; screen -> storage_class = DirectClass ; status = SetImageExtent ( screen , screen -> columns , screen -> rows , exception ) ; if ( status == MagickFalse ) return ( DestroyImageList ( image ) ) ; if ( image == ( Image * ) NULL ) image = screen ; else AppendImageToList ( & image , screen ) ; bitmapDC = CreateCompatibleDC ( hDC ) ; if ( bitmapDC == ( HDC ) NULL ) { DeleteDC ( hDC ) ; ThrowReaderException ( CoderError , ""UnableToCreateDC"" ) ; } ( void ) ResetMagickMemory ( & bmi , 0 , sizeof ( BITMAPINFO ) ) ; bmi . bmiHeader . biSize = sizeof ( BITMAPINFOHEADER ) ; bmi . bmiHeader . biWidth = ( LONG ) screen -> columns ; bmi . bmiHeader . biHeight = ( - 1 ) * ( LONG ) screen -> rows ; bmi . bmiHeader . biPlanes = 1 ; bmi . bmiHeader . biBitCount = 24 ; bmi . bmiHeader . biCompression = BI_RGB ; bitmap = CreateDIBSection ( hDC , & bmi , DIB_RGB_COLORS , ( void * * ) & p , NULL , 0 ) ; if ( bitmap == ( HBITMAP ) NULL ) { DeleteDC ( hDC ) ; DeleteDC ( bitmapDC ) ; ThrowReaderException ( CoderError , ""UnableToCreateBitmap"" ) ; } bitmapOld = ( HBITMAP ) SelectObject ( bitmapDC , bitmap ) ; if ( bitmapOld == ( HBITMAP ) NULL ) { DeleteDC ( hDC ) ; DeleteDC ( bitmapDC ) ; DeleteObject ( bitmap ) ; ThrowReaderException ( CoderError , ""UnableToCreateBitmap"" ) ; } BitBlt ( bitmapDC , 0 , 0 , ( int ) screen -> columns , ( int ) screen -> rows , hDC , 0 , 0 , SRCCOPY ) ; ( void ) SelectObject ( bitmapDC , bitmapOld ) ; for ( y = 0 ; y < ( ssize_t ) screen -> rows ; y ++ ) { q = QueueAuthenticPixels ( screen , 0 , y , screen -> columns , 1 , exception ) ; if ( q == ( Quantum * ) NULL ) break ; for ( x = 0 ; x < ( ssize_t ) screen -> columns ; x ++ ) { SetPixelRed ( image , ScaleCharToQuantum ( p -> rgbtRed ) , q ) ; SetPixelGreen ( image , ScaleCharToQuantum ( p -> rgbtGreen ) , q ) ; SetPixelBlue ( image , ScaleCharToQuantum ( p -> rgbtBlue ) , q ) ; SetPixelAlpha ( image , OpaqueAlpha , q ) ; p ++ ; q += GetPixelChannels ( image ) ; } if ( SyncAuthenticPixels ( screen , exception ) == MagickFalse ) break ; } DeleteDC ( hDC ) ; DeleteDC ( bitmapDC ) ;","Image * image ; assert ( image_info -> signature == MagickCoreSignature ) ; if ( image_info -> debug != MagickFalse ) ( void ) LogMagickEvent ( TraceEvent , GetMagickModule ( ) , ""%s"" , image_info -> filename ) ; assert ( exception != ( ExceptionInfo * ) NULL ) ; assert ( exception -> signature == MagickCoreSignature ) ; image = ( Image * ) NULL ; # if defined ( MAGICKCORE_WINGDI32_DELEGATE ) { BITMAPINFO bmi ; DISPLAY_DEVICE device ; HBITMAP bitmap , bitmapOld ; HDC bitmapDC , hDC ; Image * screen ; int i ; MagickBooleanType status ; register Quantum * q ; register ssize_t x ; RGBTRIPLE * p ; ssize_t y ; assert ( image_info != ( const ImageInfo * ) NULL ) ; i = 0 ; device . cb = sizeof ( device ) ; image = ( Image * ) NULL ; while ( EnumDisplayDevices ( NULL , i , & device , 0 ) && ++ i ) { if ( ( device . StateFlags & DISPLAY_DEVICE_ACTIVE ) != DISPLAY_DEVICE_ACTIVE ) continue ; hDC = CreateDC ( device . DeviceName , device . DeviceName , NULL , NULL ) ; if ( hDC == ( HDC ) NULL ) ThrowReaderException ( CoderError , ""UnableToCreateDC"" ) ; screen = AcquireImage ( image_info , exception ) ; screen -> columns = ( size_t ) GetDeviceCaps ( hDC , HORZRES ) ; screen -> rows = ( size_t ) GetDeviceCaps ( hDC , VERTRES ) ; screen -> storage_class = DirectClass ; if ( image == ( Image * ) NULL ) image = screen ; else AppendImageToList ( & image , screen ) ; status = SetImageExtent ( screen , screen -> columns , screen -> rows , exception ) ; if ( status == MagickFalse ) return ( DestroyImageList ( image ) ) ; bitmapDC = CreateCompatibleDC ( hDC ) ; if ( bitmapDC == ( HDC ) NULL ) { DeleteDC ( hDC ) ; ThrowReaderException ( CoderError , ""UnableToCreateDC"" ) ; } ( void ) ResetMagickMemory ( & bmi , 0 , sizeof ( BITMAPINFO ) ) ; bmi . bmiHeader . biSize = sizeof ( BITMAPINFOHEADER ) ; bmi . bmiHeader . biWidth = ( LONG ) screen -> columns ; bmi . bmiHeader . biHeight = ( - 1 ) * ( LONG ) screen -> rows ; bmi . bmiHeader . biPlanes = 1 ; bmi . bmiHeader . biBitCount = 24 ; bmi . bmiHeader . biCompression = BI_RGB ; bitmap = CreateDIBSection ( hDC , & bmi , DIB_RGB_COLORS , ( void * * ) & p , NULL , 0 ) ; if ( bitmap == ( HBITMAP ) NULL ) { DeleteDC ( hDC ) ; DeleteDC ( bitmapDC ) ; ThrowReaderException ( CoderError , ""UnableToCreateBitmap"" ) ; } bitmapOld = ( HBITMAP ) SelectObject ( bitmapDC , bitmap ) ; if ( bitmapOld == ( HBITMAP ) NULL ) { DeleteDC ( hDC ) ; DeleteDC ( bitmapDC ) ; DeleteObject ( bitmap ) ; ThrowReaderException ( CoderError , ""UnableToCreateBitmap"" ) ; } BitBlt ( bitmapDC , 0 , 0 , ( int ) screen -> columns , ( int ) screen -> rows , hDC , 0 , 0 , SRCCOPY ) ; ( void ) SelectObject ( bitmapDC , bitmapOld ) ; for ( y = 0 ; y < ( ssize_t ) screen -> rows ; y ++ ) { q = QueueAuthenticPixels ( screen , 0 , y , screen -> columns , 1 , exception ) ; if ( q == ( Quantum * ) NULL ) break ; for ( x = 0 ; x < ( ssize_t ) screen -> columns ; x ++ ) { SetPixelRed ( image , ScaleCharToQuantum ( p -> rgbtRed ) , q ) ; SetPixelGreen ( image , ScaleCharToQuantum ( p -> rgbtGreen ) , q ) ; SetPixelBlue ( image , ScaleCharToQuantum ( p -> rgbtBlue ) , q ) ; SetPixelAlpha ( image , OpaqueAlpha , q ) ; p ++ ; q += GetPixelChannels ( image ) ; } if ( SyncAuthenticPixels ( screen , exception ) == MagickFalse ) break ; } DeleteDC ( hDC ) ; DeleteDC ( bitmapDC ) ;" 862,"CWE-22 static void xcopy_pt_undepend_remotedev ( struct xcopy_op * xop ) { struct se_device * remote_dev ; if ( xop -> op_origin == XCOL_SOURCE_RECV_OP ) remote_dev = xop -> dst_dev ; else remote_dev = xop -> src_dev ; pr_debug ( ""Calling configfs_undepend_item for"" "" remote_dev: %p remote_dev->dev_group: %p\\n"" , remote_dev , & remote_dev -> dev_group . cg_item ) ; target_undepend_item ( & remote_dev -> dev_group . cg_item ) ; }","static void xcopy_pt_undepend_remotedev ( struct xcopy_op * xop ) { if ( xop -> op_origin == XCOL_SOURCE_RECV_OP ) pr_debug ( ""putting dst lun_ref for %p\\n"" , xop -> dst_dev ) ; else pr_debug ( ""putting src lun_ref for %p\\n"" , xop -> src_dev ) ; percpu_ref_put ( xop -> remote_lun_ref ) ; }" 863,"CWE-400 static void commit_tree ( struct mount * mnt , struct mount * shadows ) { struct mount * parent = mnt -> mnt_parent ; struct mount * m ; LIST_HEAD ( head ) ; struct mnt_namespace * n = parent -> mnt_ns ; BUG_ON ( parent == mnt ) ; list_add_tail ( & head , & mnt -> mnt_list ) ; list_for_each_entry ( m , & head , mnt_list ) m -> mnt_ns = n ; list_splice ( & head , n -> list . prev ) ; attach_shadowed ( mnt , parent , shadows ) ; touch_mnt_namespace ( n ) ; }","static void commit_tree ( struct mount * mnt , struct mount * shadows ) { struct mount * parent = mnt -> mnt_parent ; struct mount * m ; LIST_HEAD ( head ) ; struct mnt_namespace * n = parent -> mnt_ns ; BUG_ON ( parent == mnt ) ; list_add_tail ( & head , & mnt -> mnt_list ) ; list_for_each_entry ( m , & head , mnt_list ) m -> mnt_ns = n ; list_splice ( & head , n -> list . prev ) ; n -> mounts += n -> pending_mounts ; n -> pending_mounts = 0 ; attach_shadowed ( mnt , parent , shadows ) ; touch_mnt_namespace ( n ) ; }" 864,"CWE-20 static void * etm_setup_aux ( int event_cpu , void * * pages , int nr_pages , bool overwrite ) { int cpu ; cpumask_t * mask ; struct coresight_device * sink ; struct etm_event_data * event_data = NULL ; event_data = alloc_event_data ( event_cpu ) ; if ( ! event_data ) return NULL ; sink = coresight_get_enabled_sink ( true ) ; if ( ! sink ) goto err ; INIT_WORK ( & event_data -> work , free_event_data ) ; mask = & event_data -> mask ; for_each_cpu ( cpu , mask ) { struct coresight_device * csdev ; csdev = per_cpu ( csdev_src , cpu ) ; if ( ! csdev ) goto err ; event_data -> path [ cpu ] = coresight_build_path ( csdev , sink ) ; if ( IS_ERR ( event_data -> path [ cpu ] ) ) goto err ; } if ( ! sink_ops ( sink ) -> alloc_buffer ) goto err ; event_data -> snk_config = sink_ops ( sink ) -> alloc_buffer ( sink , cpu , pages , nr_pages , overwrite ) ; if ( ! event_data -> snk_config ) goto err ; out : return event_data ; err : etm_free_aux ( event_data ) ; event_data = NULL ; goto out ; }","static void * etm_setup_aux ( int event_cpu , void * * pages , int nr_pages , bool overwrite ) { int cpu ; cpumask_t * mask ; struct coresight_device * sink ; struct etm_event_data * event_data = NULL ; event_data = alloc_event_data ( event_cpu ) ; if ( ! event_data ) return NULL ; sink = coresight_get_enabled_sink ( true ) ; if ( ! sink ) goto err ; INIT_WORK ( & event_data -> work , free_event_data ) ; mask = & event_data -> mask ; for_each_cpu ( cpu , mask ) { struct coresight_device * csdev ; csdev = per_cpu ( csdev_src , cpu ) ; if ( ! csdev ) goto err ; event_data -> path [ cpu ] = coresight_build_path ( csdev , sink ) ; if ( IS_ERR ( event_data -> path [ cpu ] ) ) goto err ; } if ( ! sink_ops ( sink ) -> alloc_buffer ) goto err ; cpu = cpumask_first ( mask ) ; event_data -> snk_config = sink_ops ( sink ) -> alloc_buffer ( sink , cpu , pages , nr_pages , overwrite ) ; if ( ! event_data -> snk_config ) goto err ; out : return event_data ; err : etm_free_aux ( event_data ) ; event_data = NULL ; goto out ; }" 865,"CWE-352 static boolean_t is_authenticated ( HttpRequest req , HttpResponse res ) { if ( Run . httpd . credentials ) { if ( ! basic_authenticate ( req ) ) { send_error ( req , res , SC_UNAUTHORIZED , ""You are not authorized to access monit. Either you supplied the wrong credentials (e.g. bad password), or your browser doesn\'t understand how to supply the credentials required"" ) ; set_header ( res , ""WWW-Authenticate"" , ""Basic realm=\\""monit\\"""" ) ; return false ; } } return true ; }","static boolean_t is_authenticated ( HttpRequest req , HttpResponse res ) { if ( Run . httpd . credentials ) { if ( ! basic_authenticate ( req ) ) { send_error ( req , res , SC_UNAUTHORIZED , ""You are not authorized to access monit. Either you supplied the wrong credentials (e.g. bad password), or your browser doesn\'t understand how to supply the credentials required"" ) ; set_header ( res , ""WWW-Authenticate"" , ""Basic realm=\\""monit\\"""" ) ; return false ; } } if ( IS ( req -> method , METHOD_POST ) ) { const char * cookie = get_header ( req , ""Cookie"" ) ; const char * token = get_parameter ( req , ""securitytoken"" ) ; if ( ! cookie ) { LogError ( ""HttpRequest: access denied -- client [%s]: missing CSRF token cookie\\n"" , NVLSTR ( Socket_getRemoteHost ( req -> S ) ) ) ; send_error ( req , res , SC_FORBIDDEN , ""Invalid CSRF Token"" ) ; return false ; } if ( ! token ) { LogError ( ""HttpRequest: access denied -- client [%s]: missing CSRF token in HTTP parameter\\n"" , NVLSTR ( Socket_getRemoteHost ( req -> S ) ) ) ; send_error ( req , res , SC_FORBIDDEN , ""Invalid CSRF Token"" ) ; return false ; } if ( ! Str_startsWith ( cookie , ""securitytoken="" ) ) { LogError ( ""HttpRequest: access denied -- client [%s]: no CSRF token in cookie\\n"" , NVLSTR ( Socket_getRemoteHost ( req -> S ) ) ) ; send_error ( req , res , SC_FORBIDDEN , ""Invalid CSRF Token"" ) ; return false ; } if ( Str_compareConstantTime ( cookie + 14 , token ) ) { LogError ( ""HttpRequest: access denied -- client [%s]: CSRF token mismatch\\n"" , NVLSTR ( Socket_getRemoteHost ( req -> S ) ) ) ; send_error ( req , res , SC_FORBIDDEN , ""Invalid CSRF Token"" ) ; return false ; } } return true ; }" 866,"CWE-20 static void snd_timer_check_master ( struct snd_timer_instance * master ) { struct snd_timer_instance * slave , * tmp ; list_for_each_entry_safe ( slave , tmp , & snd_timer_slave_list , open_list ) { if ( slave -> slave_class == master -> slave_class && slave -> slave_id == master -> slave_id ) { list_move_tail ( & slave -> open_list , & master -> slave_list_head ) ; spin_lock_irq ( & slave_active_lock ) ; slave -> master = master ; slave -> timer = master -> timer ; if ( slave -> flags & SNDRV_TIMER_IFLG_RUNNING ) list_add_tail ( & slave -> active_list , & master -> slave_active_head ) ; spin_unlock_irq ( & slave_active_lock ) ; } } }","static void snd_timer_check_master ( struct snd_timer_instance * master ) { struct snd_timer_instance * slave , * tmp ; list_for_each_entry_safe ( slave , tmp , & snd_timer_slave_list , open_list ) { if ( slave -> slave_class == master -> slave_class && slave -> slave_id == master -> slave_id ) { list_move_tail ( & slave -> open_list , & master -> slave_list_head ) ; spin_lock_irq ( & slave_active_lock ) ; spin_lock ( & master -> timer -> lock ) ; slave -> master = master ; slave -> timer = master -> timer ; if ( slave -> flags & SNDRV_TIMER_IFLG_RUNNING ) list_add_tail ( & slave -> active_list , & master -> slave_active_head ) ; spin_unlock ( & master -> timer -> lock ) ; spin_unlock_irq ( & slave_active_lock ) ; } } }" 867,"CWE-119 void * pvPortMalloc ( size_t xWantedSize ) { BlockLink_t * pxBlock , * pxPreviousBlock , * pxNewBlockLink ; static BaseType_t xHeapHasBeenInitialised = pdFALSE ; void * pvReturn = NULL ; vTaskSuspendAll ( ) ; { if ( xHeapHasBeenInitialised == pdFALSE ) { prvHeapInit ( ) ; xHeapHasBeenInitialised = pdTRUE ; } if ( xWantedSize > 0 ) { xWantedSize += heapSTRUCT_SIZE ; if ( ( xWantedSize & portBYTE_ALIGNMENT_MASK ) != 0 ) { xWantedSize += ( portBYTE_ALIGNMENT - ( xWantedSize & portBYTE_ALIGNMENT_MASK ) ) ; } } if ( ( xWantedSize > 0 ) && ( xWantedSize < configADJUSTED_HEAP_SIZE ) ) { pxPreviousBlock = & xStart ; pxBlock = xStart . pxNextFreeBlock ; while ( ( pxBlock -> xBlockSize < xWantedSize ) && ( pxBlock -> pxNextFreeBlock != NULL ) ) { pxPreviousBlock = pxBlock ; pxBlock = pxBlock -> pxNextFreeBlock ; } if ( pxBlock != & xEnd ) { pvReturn = ( void * ) ( ( ( uint8_t * ) pxPreviousBlock -> pxNextFreeBlock ) + heapSTRUCT_SIZE ) ; pxPreviousBlock -> pxNextFreeBlock = pxBlock -> pxNextFreeBlock ; if ( ( pxBlock -> xBlockSize - xWantedSize ) > heapMINIMUM_BLOCK_SIZE ) { pxNewBlockLink = ( void * ) ( ( ( uint8_t * ) pxBlock ) + xWantedSize ) ; pxNewBlockLink -> xBlockSize = pxBlock -> xBlockSize - xWantedSize ; pxBlock -> xBlockSize = xWantedSize ; prvInsertBlockIntoFreeList ( ( pxNewBlockLink ) ) ; } xFreeBytesRemaining -= pxBlock -> xBlockSize ; } } traceMALLOC ( pvReturn , xWantedSize ) ; } ( void ) xTaskResumeAll ( ) ; # if ( configUSE_MALLOC_FAILED_HOOK == 1 ) { if ( pvReturn == NULL ) { extern void vApplicationMallocFailedHook ( void ) ; vApplicationMallocFailedHook ( ) ; } } # endif return pvReturn ; }","void * pvPortMalloc ( size_t xWantedSize ) { BlockLink_t * pxBlock , * pxPreviousBlock , * pxNewBlockLink ; static BaseType_t xHeapHasBeenInitialised = pdFALSE ; void * pvReturn = NULL ; vTaskSuspendAll ( ) ; { if ( xHeapHasBeenInitialised == pdFALSE ) { prvHeapInit ( ) ; xHeapHasBeenInitialised = pdTRUE ; } if ( ( xWantedSize > 0 ) && ( ( xWantedSize + heapSTRUCT_SIZE ) > xWantedSize ) ) { xWantedSize += heapSTRUCT_SIZE ; if ( ( xWantedSize + ( portBYTE_ALIGNMENT - ( xWantedSize & portBYTE_ALIGNMENT_MASK ) ) ) > xWantedSize ) { xWantedSize += ( portBYTE_ALIGNMENT - ( xWantedSize & portBYTE_ALIGNMENT_MASK ) ) ; configASSERT ( ( xWantedSize & portBYTE_ALIGNMENT_MASK ) == 0 ) ; } else { xWantedSize = 0 ; } } else { xWantedSize = 0 ; } if ( ( xWantedSize > 0 ) && ( xWantedSize <= xFreeBytesRemaining ) ) { pxPreviousBlock = & xStart ; pxBlock = xStart . pxNextFreeBlock ; while ( ( pxBlock -> xBlockSize < xWantedSize ) && ( pxBlock -> pxNextFreeBlock != NULL ) ) { pxPreviousBlock = pxBlock ; pxBlock = pxBlock -> pxNextFreeBlock ; } if ( pxBlock != & xEnd ) { pvReturn = ( void * ) ( ( ( uint8_t * ) pxPreviousBlock -> pxNextFreeBlock ) + heapSTRUCT_SIZE ) ; pxPreviousBlock -> pxNextFreeBlock = pxBlock -> pxNextFreeBlock ; if ( ( pxBlock -> xBlockSize - xWantedSize ) > heapMINIMUM_BLOCK_SIZE ) { pxNewBlockLink = ( void * ) ( ( ( uint8_t * ) pxBlock ) + xWantedSize ) ; pxNewBlockLink -> xBlockSize = pxBlock -> xBlockSize - xWantedSize ; pxBlock -> xBlockSize = xWantedSize ; prvInsertBlockIntoFreeList ( ( pxNewBlockLink ) ) ; } xFreeBytesRemaining -= pxBlock -> xBlockSize ; } } traceMALLOC ( pvReturn , xWantedSize ) ; } ( void ) xTaskResumeAll ( ) ; # if ( configUSE_MALLOC_FAILED_HOOK == 1 ) { if ( pvReturn == NULL ) { extern void vApplicationMallocFailedHook ( void ) ; vApplicationMallocFailedHook ( ) ; } } # endif return pvReturn ; }" 868,CWE-476 rfbClientPtr rfbClientIteratorNext ( rfbClientIteratorPtr i ) { if ( i -> next == 0 ) { LOCK ( rfbClientListMutex ) ; i -> next = i -> screen -> clientHead ; UNLOCK ( rfbClientListMutex ) ; } else { rfbClientPtr cl = i -> next ; i -> next = i -> next -> next ; rfbDecrClientRef ( cl ) ; } # if defined ( LIBVNCSERVER_HAVE_LIBPTHREAD ) || defined ( LIBVNCSERVER_HAVE_WIN32THREADS ) if ( ! i -> closedToo ) while ( i -> next && i -> next -> sock < 0 ) i -> next = i -> next -> next ; if ( i -> next ) rfbIncrClientRef ( i -> next ) ; # endif return i -> next ; },rfbClientPtr rfbClientIteratorNext ( rfbClientIteratorPtr i ) { if ( ! i ) return NULL ; if ( i -> next == 0 ) { LOCK ( rfbClientListMutex ) ; i -> next = i -> screen -> clientHead ; UNLOCK ( rfbClientListMutex ) ; } else { rfbClientPtr cl = i -> next ; i -> next = i -> next -> next ; rfbDecrClientRef ( cl ) ; } # if defined ( LIBVNCSERVER_HAVE_LIBPTHREAD ) || defined ( LIBVNCSERVER_HAVE_WIN32THREADS ) if ( ! i -> closedToo ) while ( i -> next && i -> next -> sock < 0 ) i -> next = i -> next -> next ; if ( i -> next ) rfbIncrClientRef ( i -> next ) ; # endif return i -> next ; } 869,"CWE-772 chrand_ret * chrand_principal3_2_svc ( chrand3_arg * arg , struct svc_req * rqstp ) { static chrand_ret ret ; krb5_keyblock * k ; int nkeys ; char * prime_arg , * funcname ; gss_buffer_desc client_name , service_name ; OM_uint32 minor_stat ; kadm5_server_handle_t handle ; const char * errmsg = NULL ; xdr_free ( xdr_chrand_ret , & ret ) ; if ( ( ret . code = new_server_handle ( arg -> api_version , rqstp , & handle ) ) ) goto exit_func ; if ( ( ret . code = check_handle ( ( void * ) handle ) ) ) goto exit_func ; ret . api_version = handle -> api_version ; funcname = ""kadm5_randkey_principal"" ; if ( setup_gss_names ( rqstp , & client_name , & service_name ) < 0 ) { ret . code = KADM5_FAILURE ; goto exit_func ; } if ( krb5_unparse_name ( handle -> context , arg -> princ , & prime_arg ) ) { ret . code = KADM5_BAD_PRINCIPAL ; goto exit_func ; } if ( cmp_gss_krb5_name ( handle , rqst2name ( rqstp ) , arg -> princ ) ) { ret . code = randkey_principal_wrapper_3 ( ( void * ) handle , arg -> princ , arg -> keepold , arg -> n_ks_tuple , arg -> ks_tuple , & k , & nkeys ) ; } else if ( ! ( CHANGEPW_SERVICE ( rqstp ) ) && kadm5int_acl_check ( handle -> context , rqst2name ( rqstp ) , ACL_CHANGEPW , arg -> princ , NULL ) ) { ret . code = kadm5_randkey_principal_3 ( ( void * ) handle , arg -> princ , arg -> keepold , arg -> n_ks_tuple , arg -> ks_tuple , & k , & nkeys ) ; } else { log_unauth ( funcname , prime_arg , & client_name , & service_name , rqstp ) ; ret . code = KADM5_AUTH_CHANGEPW ; } if ( ret . code == KADM5_OK ) { ret . keys = k ; ret . n_keys = nkeys ; } if ( ret . code != KADM5_AUTH_CHANGEPW ) { if ( ret . code != 0 ) errmsg = krb5_get_error_message ( handle -> context , ret . code ) ; log_done ( funcname , prime_arg , errmsg , & client_name , & service_name , rqstp ) ; if ( errmsg != NULL ) krb5_free_error_message ( handle -> context , errmsg ) ; } free ( prime_arg ) ; gss_release_buffer ( & minor_stat , & client_name ) ; gss_release_buffer ( & minor_stat , & service_name ) ; exit_func : free_server_handle ( handle ) ; return & ret ; }","chrand_ret * chrand_principal3_2_svc ( chrand3_arg * arg , struct svc_req * rqstp ) { static chrand_ret ret ; krb5_keyblock * k ; int nkeys ; char * prime_arg , * funcname ; gss_buffer_desc client_name = GSS_C_EMPTY_BUFFER ; gss_buffer_desc service_name = GSS_C_EMPTY_BUFFER ; OM_uint32 minor_stat ; kadm5_server_handle_t handle ; const char * errmsg = NULL ; xdr_free ( xdr_chrand_ret , & ret ) ; if ( ( ret . code = new_server_handle ( arg -> api_version , rqstp , & handle ) ) ) goto exit_func ; if ( ( ret . code = check_handle ( ( void * ) handle ) ) ) goto exit_func ; ret . api_version = handle -> api_version ; funcname = ""kadm5_randkey_principal"" ; if ( setup_gss_names ( rqstp , & client_name , & service_name ) < 0 ) { ret . code = KADM5_FAILURE ; goto exit_func ; } if ( krb5_unparse_name ( handle -> context , arg -> princ , & prime_arg ) ) { ret . code = KADM5_BAD_PRINCIPAL ; goto exit_func ; } if ( cmp_gss_krb5_name ( handle , rqst2name ( rqstp ) , arg -> princ ) ) { ret . code = randkey_principal_wrapper_3 ( ( void * ) handle , arg -> princ , arg -> keepold , arg -> n_ks_tuple , arg -> ks_tuple , & k , & nkeys ) ; } else if ( ! ( CHANGEPW_SERVICE ( rqstp ) ) && kadm5int_acl_check ( handle -> context , rqst2name ( rqstp ) , ACL_CHANGEPW , arg -> princ , NULL ) ) { ret . code = kadm5_randkey_principal_3 ( ( void * ) handle , arg -> princ , arg -> keepold , arg -> n_ks_tuple , arg -> ks_tuple , & k , & nkeys ) ; } else { log_unauth ( funcname , prime_arg , & client_name , & service_name , rqstp ) ; ret . code = KADM5_AUTH_CHANGEPW ; } if ( ret . code == KADM5_OK ) { ret . keys = k ; ret . n_keys = nkeys ; } if ( ret . code != KADM5_AUTH_CHANGEPW ) { if ( ret . code != 0 ) errmsg = krb5_get_error_message ( handle -> context , ret . code ) ; log_done ( funcname , prime_arg , errmsg , & client_name , & service_name , rqstp ) ; if ( errmsg != NULL ) krb5_free_error_message ( handle -> context , errmsg ) ; } free ( prime_arg ) ; exit_func : gss_release_buffer ( & minor_stat , & client_name ) ; gss_release_buffer ( & minor_stat , & service_name ) ; free_server_handle ( handle ) ; return & ret ; }" 870,"CWE-399 long kvm_arch_vm_ioctl ( struct file * filp , unsigned int ioctl , unsigned long arg ) { struct kvm * kvm = filp -> private_data ; void __user * argp = ( void __user * ) arg ; int r = - ENOTTY ; union { struct kvm_pit_state ps ; struct kvm_pit_state2 ps2 ; struct kvm_pit_config pit_config ; } u ; switch ( ioctl ) { case KVM_SET_TSS_ADDR : r = kvm_vm_ioctl_set_tss_addr ( kvm , arg ) ; if ( r < 0 ) goto out ; break ; case KVM_SET_IDENTITY_MAP_ADDR : { u64 ident_addr ; r = - EFAULT ; if ( copy_from_user ( & ident_addr , argp , sizeof ident_addr ) ) goto out ; r = kvm_vm_ioctl_set_identity_map_addr ( kvm , ident_addr ) ; if ( r < 0 ) goto out ; break ; } case KVM_SET_NR_MMU_PAGES : r = kvm_vm_ioctl_set_nr_mmu_pages ( kvm , arg ) ; if ( r ) goto out ; break ; case KVM_GET_NR_MMU_PAGES : r = kvm_vm_ioctl_get_nr_mmu_pages ( kvm ) ; break ; case KVM_CREATE_IRQCHIP : { struct kvm_pic * vpic ; mutex_lock ( & kvm -> lock ) ; r = - EEXIST ; if ( kvm -> arch . vpic ) goto create_irqchip_unlock ; r = - ENOMEM ; vpic = kvm_create_pic ( kvm ) ; if ( vpic ) { r = kvm_ioapic_init ( kvm ) ; if ( r ) { mutex_lock ( & kvm -> slots_lock ) ; kvm_io_bus_unregister_dev ( kvm , KVM_PIO_BUS , & vpic -> dev_master ) ; kvm_io_bus_unregister_dev ( kvm , KVM_PIO_BUS , & vpic -> dev_slave ) ; kvm_io_bus_unregister_dev ( kvm , KVM_PIO_BUS , & vpic -> dev_eclr ) ; mutex_unlock ( & kvm -> slots_lock ) ; kfree ( vpic ) ; goto create_irqchip_unlock ; } } else goto create_irqchip_unlock ; smp_wmb ( ) ; kvm -> arch . vpic = vpic ; smp_wmb ( ) ; r = kvm_setup_default_irq_routing ( kvm ) ; if ( r ) { mutex_lock ( & kvm -> slots_lock ) ; mutex_lock ( & kvm -> irq_lock ) ; kvm_ioapic_destroy ( kvm ) ; kvm_destroy_pic ( kvm ) ; mutex_unlock ( & kvm -> irq_lock ) ; mutex_unlock ( & kvm -> slots_lock ) ; } create_irqchip_unlock : mutex_unlock ( & kvm -> lock ) ; break ; } case KVM_CREATE_PIT : u . pit_config . flags = KVM_PIT_SPEAKER_DUMMY ; goto create_pit ; case KVM_CREATE_PIT2 : r = - EFAULT ; if ( copy_from_user ( & u . pit_config , argp , sizeof ( struct kvm_pit_config ) ) ) goto out ; create_pit : mutex_lock ( & kvm -> slots_lock ) ; r = - EEXIST ; if ( kvm -> arch . vpit ) goto create_pit_unlock ; r = - ENOMEM ; kvm -> arch . vpit = kvm_create_pit ( kvm , u . pit_config . flags ) ; if ( kvm -> arch . vpit )","long kvm_arch_vm_ioctl ( struct file * filp , unsigned int ioctl , unsigned long arg ) { struct kvm * kvm = filp -> private_data ; void __user * argp = ( void __user * ) arg ; int r = - ENOTTY ; union { struct kvm_pit_state ps ; struct kvm_pit_state2 ps2 ; struct kvm_pit_config pit_config ; } u ; switch ( ioctl ) { case KVM_SET_TSS_ADDR : r = kvm_vm_ioctl_set_tss_addr ( kvm , arg ) ; if ( r < 0 ) goto out ; break ; case KVM_SET_IDENTITY_MAP_ADDR : { u64 ident_addr ; r = - EFAULT ; if ( copy_from_user ( & ident_addr , argp , sizeof ident_addr ) ) goto out ; r = kvm_vm_ioctl_set_identity_map_addr ( kvm , ident_addr ) ; if ( r < 0 ) goto out ; break ; } case KVM_SET_NR_MMU_PAGES : r = kvm_vm_ioctl_set_nr_mmu_pages ( kvm , arg ) ; if ( r ) goto out ; break ; case KVM_GET_NR_MMU_PAGES : r = kvm_vm_ioctl_get_nr_mmu_pages ( kvm ) ; break ; case KVM_CREATE_IRQCHIP : { struct kvm_pic * vpic ; mutex_lock ( & kvm -> lock ) ; r = - EEXIST ; if ( kvm -> arch . vpic ) goto create_irqchip_unlock ; r = - EINVAL ; if ( atomic_read ( & kvm -> online_vcpus ) ) goto create_irqchip_unlock ; r = - ENOMEM ; vpic = kvm_create_pic ( kvm ) ; if ( vpic ) { r = kvm_ioapic_init ( kvm ) ; if ( r ) { mutex_lock ( & kvm -> slots_lock ) ; kvm_io_bus_unregister_dev ( kvm , KVM_PIO_BUS , & vpic -> dev_master ) ; kvm_io_bus_unregister_dev ( kvm , KVM_PIO_BUS , & vpic -> dev_slave ) ; kvm_io_bus_unregister_dev ( kvm , KVM_PIO_BUS , & vpic -> dev_eclr ) ; mutex_unlock ( & kvm -> slots_lock ) ; kfree ( vpic ) ; goto create_irqchip_unlock ; } } else goto create_irqchip_unlock ; smp_wmb ( ) ; kvm -> arch . vpic = vpic ; smp_wmb ( ) ; r = kvm_setup_default_irq_routing ( kvm ) ; if ( r ) { mutex_lock ( & kvm -> slots_lock ) ; mutex_lock ( & kvm -> irq_lock ) ; kvm_ioapic_destroy ( kvm ) ; kvm_destroy_pic ( kvm ) ; mutex_unlock ( & kvm -> irq_lock ) ; mutex_unlock ( & kvm -> slots_lock ) ; } create_irqchip_unlock : mutex_unlock ( & kvm -> lock ) ; break ; } case KVM_CREATE_PIT : u . pit_config . flags = KVM_PIT_SPEAKER_DUMMY ; goto create_pit ; case KVM_CREATE_PIT2 : r = - EFAULT ; if ( copy_from_user ( & u . pit_config , argp , sizeof ( struct kvm_pit_config ) ) ) goto out ; create_pit : mutex_lock ( & kvm -> slots_lock ) ; r = - EEXIST ; if ( kvm -> arch . vpit ) goto create_pit_unlock ; r = - ENOMEM ; kvm -> arch . vpit = kvm_create_pit ( kvm , u . pit_config . flags ) ; if ( kvm -> arch . vpit )" 871,"CWE-19 memmove ( entry + 1 , entry , tmp ) ; xfs_trans_log_buf ( args -> trans , bp , XFS_DA_LOGRANGE ( leaf , entry , tmp + sizeof ( * entry ) ) ) ; } ichdr -> count ++ ; mp = args -> trans -> t_mountp ; ASSERT ( ichdr -> freemap [ mapindex ] . base < XFS_LBSIZE ( mp ) ) ; ASSERT ( ( ichdr -> freemap [ mapindex ] . base & 0x3 ) == 0 ) ; ASSERT ( ichdr -> freemap [ mapindex ] . size >= xfs_attr_leaf_newentsize ( args -> namelen , args -> valuelen , mp -> m_sb . sb_blocksize , NULL ) ) ; ASSERT ( ichdr -> freemap [ mapindex ] . size < XFS_LBSIZE ( mp ) ) ; ASSERT ( ( ichdr -> freemap [ mapindex ] . size & 0x3 ) == 0 ) ; ichdr -> freemap [ mapindex ] . size -= xfs_attr_leaf_newentsize ( args -> namelen , args -> valuelen , mp -> m_sb . sb_blocksize , & tmp ) ; entry -> nameidx = cpu_to_be16 ( ichdr -> freemap [ mapindex ] . base + ichdr -> freemap [ mapindex ] . size ) ; entry -> hashval = cpu_to_be32 ( args -> hashval ) ; entry -> flags = tmp ? XFS_ATTR_LOCAL : 0 ; entry -> flags |= XFS_ATTR_NSP_ARGS_TO_ONDISK ( args -> flags ) ; if ( args -> op_flags & XFS_DA_OP_RENAME ) { entry -> flags |= XFS_ATTR_INCOMPLETE ; if ( ( args -> blkno2 == args -> blkno ) && ( args -> index2 <= args -> index ) ) { args -> index2 ++ ; } } xfs_trans_log_buf ( args -> trans , bp , XFS_DA_LOGRANGE ( leaf , entry , sizeof ( * entry ) ) ) ; ASSERT ( ( args -> index == 0 ) || ( be32_to_cpu ( entry -> hashval ) >= be32_to_cpu ( ( entry - 1 ) -> hashval ) ) ) ; ASSERT ( ( args -> index == ichdr -> count - 1 ) || ( be32_to_cpu ( entry -> hashval ) <= be32_to_cpu ( ( entry + 1 ) -> hashval ) ) ) ; if ( entry -> flags & XFS_ATTR_LOCAL ) { name_loc = xfs_attr3_leaf_name_local ( leaf , args -> index ) ; name_loc -> namelen = args -> namelen ; name_loc -> valuelen = cpu_to_be16 ( args -> valuelen ) ; memcpy ( ( char * ) name_loc -> nameval , args -> name , args -> namelen ) ; memcpy ( ( char * ) & name_loc -> nameval [ args -> namelen ] , args -> value , be16_to_cpu ( name_loc -> valuelen ) ) ; } else { name_rmt = xfs_attr3_leaf_name_remote ( leaf , args -> index ) ; name_rmt -> namelen = args -> namelen ; memcpy ( ( char * ) name_rmt -> name , args -> name , args -> namelen ) ; entry -> flags |= XFS_ATTR_INCOMPLETE ; name_rmt -> valuelen = 0 ; name_rmt -> valueblk = 0 ; args -> rmtblkno = 1 ; args -> rmtblkcnt = xfs_attr3_rmt_blocks ( mp , args -> valuelen ) ; } xfs_trans_log_buf ( args -> trans , bp , XFS_DA_LOGRANGE ( leaf , xfs_attr3_leaf_name ( leaf , args -> index ) , xfs_attr_leaf_entsize ( leaf , args -> index ) ) ) ; if ( be16_to_cpu ( entry -> nameidx ) < ichdr -> firstused ) ichdr -> firstused = be16_to_cpu ( entry -> nameidx ) ; ASSERT ( ichdr -> firstused >= ichdr -> count * sizeof ( xfs_attr_leaf_entry_t ) tmp = ( ichdr -> count - 1 ) * sizeof ( xfs_attr_leaf_entry_t ) for ( i = 0 ; i < XFS_ATTR_LEAF_MAPSIZE ; i ++ ) { if ( ichdr -> freemap [ i ] . base == tmp ) { ichdr -> freemap [ i ] . base += sizeof ( xfs_attr_leaf_entry_t ) ; ichdr -> freemap [ i ] . size -= sizeof ( xfs_attr_leaf_entry_t ) ; } } ichdr -> usedbytes += xfs_attr_leaf_entsize ( leaf , args -> index ) ; return 0 ; }","memmove ( entry + 1 , entry , tmp ) ; xfs_trans_log_buf ( args -> trans , bp , XFS_DA_LOGRANGE ( leaf , entry , tmp + sizeof ( * entry ) ) ) ; } ichdr -> count ++ ; mp = args -> trans -> t_mountp ; ASSERT ( ichdr -> freemap [ mapindex ] . base < XFS_LBSIZE ( mp ) ) ; ASSERT ( ( ichdr -> freemap [ mapindex ] . base & 0x3 ) == 0 ) ; ASSERT ( ichdr -> freemap [ mapindex ] . size >= xfs_attr_leaf_newentsize ( args -> namelen , args -> valuelen , mp -> m_sb . sb_blocksize , NULL ) ) ; ASSERT ( ichdr -> freemap [ mapindex ] . size < XFS_LBSIZE ( mp ) ) ; ASSERT ( ( ichdr -> freemap [ mapindex ] . size & 0x3 ) == 0 ) ; ichdr -> freemap [ mapindex ] . size -= xfs_attr_leaf_newentsize ( args -> namelen , args -> valuelen , mp -> m_sb . sb_blocksize , & tmp ) ; entry -> nameidx = cpu_to_be16 ( ichdr -> freemap [ mapindex ] . base + ichdr -> freemap [ mapindex ] . size ) ; entry -> hashval = cpu_to_be32 ( args -> hashval ) ; entry -> flags = tmp ? XFS_ATTR_LOCAL : 0 ; entry -> flags |= XFS_ATTR_NSP_ARGS_TO_ONDISK ( args -> flags ) ; if ( args -> op_flags & XFS_DA_OP_RENAME ) { entry -> flags |= XFS_ATTR_INCOMPLETE ; if ( ( args -> blkno2 == args -> blkno ) && ( args -> index2 <= args -> index ) ) { args -> index2 ++ ; } } xfs_trans_log_buf ( args -> trans , bp , XFS_DA_LOGRANGE ( leaf , entry , sizeof ( * entry ) ) ) ; ASSERT ( ( args -> index == 0 ) || ( be32_to_cpu ( entry -> hashval ) >= be32_to_cpu ( ( entry - 1 ) -> hashval ) ) ) ; ASSERT ( ( args -> index == ichdr -> count - 1 ) || ( be32_to_cpu ( entry -> hashval ) <= be32_to_cpu ( ( entry + 1 ) -> hashval ) ) ) ; if ( entry -> flags & XFS_ATTR_LOCAL ) { name_loc = xfs_attr3_leaf_name_local ( leaf , args -> index ) ; name_loc -> namelen = args -> namelen ; name_loc -> valuelen = cpu_to_be16 ( args -> valuelen ) ; memcpy ( ( char * ) name_loc -> nameval , args -> name , args -> namelen ) ; memcpy ( ( char * ) & name_loc -> nameval [ args -> namelen ] , args -> value , be16_to_cpu ( name_loc -> valuelen ) ) ; } else { name_rmt = xfs_attr3_leaf_name_remote ( leaf , args -> index ) ; name_rmt -> namelen = args -> namelen ; memcpy ( ( char * ) name_rmt -> name , args -> name , args -> namelen ) ; entry -> flags |= XFS_ATTR_INCOMPLETE ; name_rmt -> valuelen = 0 ; name_rmt -> valueblk = 0 ; args -> rmtblkno = 1 ; args -> rmtblkcnt = xfs_attr3_rmt_blocks ( mp , args -> valuelen ) ; args -> rmtvaluelen = args -> valuelen ; } xfs_trans_log_buf ( args -> trans , bp , XFS_DA_LOGRANGE ( leaf , xfs_attr3_leaf_name ( leaf , args -> index ) , xfs_attr_leaf_entsize ( leaf , args -> index ) ) ) ; if ( be16_to_cpu ( entry -> nameidx ) < ichdr -> firstused ) ichdr -> firstused = be16_to_cpu ( entry -> nameidx ) ; ASSERT ( ichdr -> firstused >= ichdr -> count * sizeof ( xfs_attr_leaf_entry_t ) xfs_attr3_leaf_hdr_size ( leaf ) ) ; tmp = ( ichdr -> count - 1 ) * sizeof ( xfs_attr_leaf_entry_t ) xfs_attr3_leaf_hdr_size ( leaf ) ; for ( i = 0 ; i < XFS_ATTR_LEAF_MAPSIZE ; i ++ ) { if ( ichdr -> freemap [ i ] . base == tmp ) { ichdr -> freemap [ i ] . base += sizeof ( xfs_attr_leaf_entry_t ) ; ichdr -> freemap [ i ] . size -= sizeof ( xfs_attr_leaf_entry_t ) ; } } ichdr -> usedbytes += xfs_attr_leaf_entsize ( leaf , args -> index ) ; return 0 ; }" 872,"CWE-20 UWORD32 u1_num_mbs , u1_num_mbsNby2 ; UWORD32 u1_mb_idx = ps_dec -> u1_mb_idx ; UWORD32 i2_mb_skip_run ; UWORD32 u1_num_mbs_next , u1_end_of_row ; const UWORD32 i2_pic_wdin_mbs = ps_dec -> u2_frm_wd_in_mbs ; UWORD32 u1_slice_end ; UWORD32 u1_tfr_n_mb ; UWORD32 u1_decode_nmb ; dec_bit_stream_t * const ps_bitstrm = ps_dec -> ps_bitstrm ; dec_slice_params_t * ps_slice = ps_dec -> ps_cur_slice ; UWORD32 * pu4_bitstrm_buf = ps_bitstrm -> pu4_buffer ; UWORD32 * pu4_bitstrm_ofst = & ps_bitstrm -> u4_ofst ; deblk_mb_t * ps_cur_deblk_mb ; dec_mb_info_t * ps_cur_mb_info ; parse_pmbarams_t * ps_parse_mb_data ; UWORD32 u1_inter_mb_type ; UWORD32 u1_deblk_mb_type ; UWORD16 u2_total_mbs_coded ; UWORD32 u1_mbaff = ps_slice -> u1_mbaff_frame_flag ; parse_part_params_t * ps_part_info ; WORD32 ret ; if ( ps_dec -> ps_dec_err_status -> u1_err_flag & REJECT_CUR_PIC ) { ih264d_err_pic_dispbuf_mgr ( ps_dec ) ; return 0 ; } ps_dec -> ps_dpb_cmds -> u1_long_term_reference_flag = 0 ; if ( prev_slice_err == 1 ) { ps_dec -> ps_cur_slice -> u2_frame_num = u2_frame_num ; if ( ! ps_dec -> u1_first_slice_in_stream ) { ih264d_end_of_pic ( ps_dec , u1_is_idr_slice , ps_dec -> ps_cur_slice -> u2_frame_num ) ; ps_dec -> s_cur_pic_poc . u2_frame_num = ps_dec -> ps_cur_slice -> u2_frame_num ; } { WORD32 i , j , poc = 0 ; ps_dec -> ps_cur_slice -> u2_first_mb_in_slice = 0 ; ps_dec -> pf_mvpred = ih264d_mvpred_nonmbaff ; ps_dec -> p_form_mb_part_info = ih264d_form_mb_part_info_bp ; ps_dec -> p_motion_compensate = ih264d_motion_compensate_bp ; if ( ps_dec -> ps_cur_pic != NULL ) poc = ps_dec -> ps_cur_pic -> i4_poc + 2 ; j = 0 ; for ( i = 0 ; i < MAX_NUM_PIC_PARAMS ; i ++ ) if ( ps_dec -> ps_pps [ i ] . u1_is_valid == TRUE ) j = i ; { ps_dec -> ps_cur_slice -> u1_bottom_field_flag = 0 ; ps_dec -> ps_cur_slice -> u1_field_pic_flag = 0 ; ps_dec -> ps_cur_slice -> u1_slice_type = P_SLICE ; ps_dec -> ps_cur_slice -> u1_nal_ref_idc = 1 ; ps_dec -> ps_cur_slice -> u1_nal_unit_type = 1 ; ret = ih264d_start_of_pic ( ps_dec , poc , ps_cur_poc , ps_dec -> ps_cur_slice -> u2_frame_num , & ps_dec -> ps_pps [ j ] ) ; if ( ret != OK ) { return ret ; } } ps_dec -> ps_ref_pic_buf_lx [ 0 ] [ 0 ] -> u1_pic_buf_id = 0 ; ps_dec -> u4_output_present = 0 ; { ih264d_get_next_display_field ( ps_dec , ps_dec -> ps_out_buffer , & ( ps_dec -> s_disp_op ) ) ; if ( 0 != ps_dec -> s_disp_op . u4_error_code ) { ps_dec -> u4_fmt_conv_cur_row = ps_dec -> s_disp_frame_info . u4_y_ht ; } else ps_dec -> u4_output_present = 1 ; } if ( ps_dec -> u1_separate_parse == 1 ) { if ( ps_dec -> u4_dec_thread_created == 0 ) { ithread_create ( ps_dec -> pv_dec_thread_handle , NULL , ( void * ) ih264d_decode_picture_thread , ( void * ) ps_dec ) ; ps_dec -> u4_dec_thread_created = 1 ; } if ( ( ps_dec -> u4_num_cores == 3 ) && ( ( ps_dec -> u4_app_disable_deblk_frm == 0 ) || ps_dec -> i1_recon_in_thread3_flag ) && ( ps_dec -> u4_bs_deblk_thread_created == 0 ) ) { ps_dec -> u4_start_recon_deblk = 0 ; ithread_create ( ps_dec -> pv_bs_deblk_thread_handle , NULL , ( void * ) ih264d_recon_deblk_thread , ( void * ) ps_dec ) ; ps_dec -> u4_bs_deblk_thread_created = 1 ; } } } } else { dec_slice_struct_t * ps_parse_cur_slice ; ps_parse_cur_slice = ps_dec -> ps_dec_slice_buf + ps_dec -> u2_cur_slice_num ;","UWORD32 u1_num_mbs , u1_num_mbsNby2 ; UWORD32 u1_mb_idx = ps_dec -> u1_mb_idx ; UWORD32 i2_mb_skip_run ; UWORD32 u1_num_mbs_next , u1_end_of_row ; const UWORD32 i2_pic_wdin_mbs = ps_dec -> u2_frm_wd_in_mbs ; UWORD32 u1_slice_end ; UWORD32 u1_tfr_n_mb ; UWORD32 u1_decode_nmb ; dec_bit_stream_t * const ps_bitstrm = ps_dec -> ps_bitstrm ; dec_slice_params_t * ps_slice = ps_dec -> ps_cur_slice ; UWORD32 * pu4_bitstrm_buf = ps_bitstrm -> pu4_buffer ; UWORD32 * pu4_bitstrm_ofst = & ps_bitstrm -> u4_ofst ; deblk_mb_t * ps_cur_deblk_mb ; dec_mb_info_t * ps_cur_mb_info ; parse_pmbarams_t * ps_parse_mb_data ; UWORD32 u1_inter_mb_type ; UWORD32 u1_deblk_mb_type ; UWORD16 u2_total_mbs_coded ; UWORD32 u1_mbaff = ps_slice -> u1_mbaff_frame_flag ; parse_part_params_t * ps_part_info ; WORD32 ret ; if ( ps_dec -> ps_dec_err_status -> u1_err_flag & REJECT_CUR_PIC ) { ih264d_err_pic_dispbuf_mgr ( ps_dec ) ; return 0 ; } ps_dec -> ps_dpb_cmds -> u1_long_term_reference_flag = 0 ; if ( prev_slice_err == 1 ) { ps_dec -> ps_cur_slice -> u2_frame_num = u2_frame_num ; if ( ! ps_dec -> u1_first_slice_in_stream ) { ih264d_end_of_pic ( ps_dec , u1_is_idr_slice , ps_dec -> ps_cur_slice -> u2_frame_num ) ; ps_dec -> s_cur_pic_poc . u2_frame_num = ps_dec -> ps_cur_slice -> u2_frame_num ; } { WORD32 i , j , poc = 0 ; ps_dec -> ps_cur_slice -> u2_first_mb_in_slice = 0 ; ps_dec -> pf_mvpred = ih264d_mvpred_nonmbaff ; ps_dec -> p_form_mb_part_info = ih264d_form_mb_part_info_bp ; ps_dec -> p_motion_compensate = ih264d_motion_compensate_bp ; if ( ps_dec -> ps_cur_pic != NULL ) poc = ps_dec -> ps_cur_pic -> i4_poc + 2 ; j = 0 ; for ( i = 0 ; i < MAX_NUM_PIC_PARAMS ; i ++ ) if ( ps_dec -> ps_pps [ i ] . u1_is_valid == TRUE ) j = i ; { ps_dec -> ps_cur_slice -> u1_slice_type = P_SLICE ; ps_dec -> ps_cur_slice -> u1_nal_ref_idc = 1 ; ps_dec -> ps_cur_slice -> u1_nal_unit_type = 1 ; ret = ih264d_start_of_pic ( ps_dec , poc , ps_cur_poc , ps_dec -> ps_cur_slice -> u2_frame_num , & ps_dec -> ps_pps [ j ] ) ; if ( ret != OK ) { return ret ; } } ps_dec -> ps_ref_pic_buf_lx [ 0 ] [ 0 ] -> u1_pic_buf_id = 0 ; ps_dec -> u4_output_present = 0 ; { ih264d_get_next_display_field ( ps_dec , ps_dec -> ps_out_buffer , & ( ps_dec -> s_disp_op ) ) ; if ( 0 != ps_dec -> s_disp_op . u4_error_code ) { ps_dec -> u4_fmt_conv_cur_row = ps_dec -> s_disp_frame_info . u4_y_ht ; } else ps_dec -> u4_output_present = 1 ; } if ( ps_dec -> u1_separate_parse == 1 ) { if ( ps_dec -> u4_dec_thread_created == 0 ) { ithread_create ( ps_dec -> pv_dec_thread_handle , NULL , ( void * ) ih264d_decode_picture_thread , ( void * ) ps_dec ) ; ps_dec -> u4_dec_thread_created = 1 ; } if ( ( ps_dec -> u4_num_cores == 3 ) && ( ( ps_dec -> u4_app_disable_deblk_frm == 0 ) || ps_dec -> i1_recon_in_thread3_flag ) && ( ps_dec -> u4_bs_deblk_thread_created == 0 ) ) { ps_dec -> u4_start_recon_deblk = 0 ; ithread_create ( ps_dec -> pv_bs_deblk_thread_handle , NULL , ( void * ) ih264d_recon_deblk_thread , ( void * ) ps_dec ) ; ps_dec -> u4_bs_deblk_thread_created = 1 ; } } } } else { dec_slice_struct_t * ps_parse_cur_slice ; ps_parse_cur_slice = ps_dec -> ps_dec_slice_buf + ps_dec -> u2_cur_slice_num ;" 873,"CWE-352 ""On reboot%s"" , onrebootnames [ Run . onreboot ] ) ; StringBuffer_append ( res -> outputbuffer , ""Poll time%d seconds with start delay %d seconds"" , Run . polltime , Run . startdelay ) ; if ( Run . httpd . flags & Httpd_Net ) { StringBuffer_append ( res -> outputbuffer , ""httpd bind address%s"" , Run . httpd . socket . net . address ? Run . httpd . socket . net . address : ""Any/All"" ) ; StringBuffer_append ( res -> outputbuffer , ""httpd portnumber%d"" , Run . httpd . socket . net . port ) ; } else if ( Run . httpd . flags & Httpd_Unix ) { StringBuffer_append ( res -> outputbuffer , ""httpd unix socket%s"" , Run . httpd . socket . unix . path ) ; } StringBuffer_append ( res -> outputbuffer , ""httpd signature%s"" , Run . httpd . flags & Httpd_Signature ? ""True"" : ""False"" ) ; StringBuffer_append ( res -> outputbuffer , ""Use ssl encryption%s"" , Run . httpd . flags & Httpd_Ssl ? ""True"" : ""False"" ) ; if ( Run . httpd . flags & Httpd_Ssl ) { StringBuffer_append ( res -> outputbuffer , ""PEM key/certificate file%s"" , Run . httpd . socket . net . ssl . pem ) ; if ( Run . httpd . socket . net . ssl . clientpem != NULL ) { StringBuffer_append ( res -> outputbuffer , ""Client PEM key/certification"" ""%s"" , ""Enabled"" ) ; StringBuffer_append ( res -> outputbuffer , ""Client PEM key/certificate file"" ""%s"" , Run . httpd . socket . net . ssl . clientpem ) ; } else { StringBuffer_append ( res -> outputbuffer , ""Client PEM key/certification"" ""%s"" , ""Disabled"" ) ; } StringBuffer_append ( res -> outputbuffer , ""Allow self certified certificates "" ""%s"" , Run . httpd . flags & Httpd_AllowSelfSignedCertificates ? ""True"" : ""False"" ) ; } StringBuffer_append ( res -> outputbuffer , ""httpd auth. style%s"" , Run . httpd . credentials && Engine_hasAllow ( ) ? ""Basic Authentication and Host/Net allow list"" : Run . httpd . credentials ? ""Basic Authentication"" : Engine_hasAllow ( ) ? ""Host/Net allow list"" : ""No authentication"" ) ; print_alerts ( res , Run . maillist ) ; StringBuffer_append ( res -> outputbuffer , """" ) ; if ( ! is_readonly ( req ) ) { StringBuffer_append ( res -> outputbuffer , """" ) ; StringBuffer_append ( res -> outputbuffer , """" ) ; StringBuffer_append ( res -> outputbuffer , """" ) ; if ( ( Run . flags & Run_Log ) && ! ( Run . flags & Run_UseSyslog ) ) { StringBuffer_append ( res -> outputbuffer , """" ) ; } StringBuffer_append ( res -> outputbuffer , ""
Stop Monit http server? "" ""
Force validate now? "" ""
View Monit logfile?
"" ) ; } do_foot ( res ) ; }","""On reboot%s"" , onrebootnames [ Run . onreboot ] ) ; StringBuffer_append ( res -> outputbuffer , ""Poll time%d seconds with start delay %d seconds"" , Run . polltime , Run . startdelay ) ; if ( Run . httpd . flags & Httpd_Net ) { StringBuffer_append ( res -> outputbuffer , ""httpd bind address%s"" , Run . httpd . socket . net . address ? Run . httpd . socket . net . address : ""Any/All"" ) ; StringBuffer_append ( res -> outputbuffer , ""httpd portnumber%d"" , Run . httpd . socket . net . port ) ; } else if ( Run . httpd . flags & Httpd_Unix ) { StringBuffer_append ( res -> outputbuffer , ""httpd unix socket%s"" , Run . httpd . socket . unix . path ) ; } StringBuffer_append ( res -> outputbuffer , ""httpd signature%s"" , Run . httpd . flags & Httpd_Signature ? ""True"" : ""False"" ) ; StringBuffer_append ( res -> outputbuffer , ""Use ssl encryption%s"" , Run . httpd . flags & Httpd_Ssl ? ""True"" : ""False"" ) ; if ( Run . httpd . flags & Httpd_Ssl ) { StringBuffer_append ( res -> outputbuffer , ""PEM key/certificate file%s"" , Run . httpd . socket . net . ssl . pem ) ; if ( Run . httpd . socket . net . ssl . clientpem != NULL ) { StringBuffer_append ( res -> outputbuffer , ""Client PEM key/certification"" ""%s"" , ""Enabled"" ) ; StringBuffer_append ( res -> outputbuffer , ""Client PEM key/certificate file"" ""%s"" , Run . httpd . socket . net . ssl . clientpem ) ; } else { StringBuffer_append ( res -> outputbuffer , ""Client PEM key/certification"" ""%s"" , ""Disabled"" ) ; } StringBuffer_append ( res -> outputbuffer , ""Allow self certified certificates "" ""%s"" , Run . httpd . flags & Httpd_AllowSelfSignedCertificates ? ""True"" : ""False"" ) ; } StringBuffer_append ( res -> outputbuffer , ""httpd auth. style%s"" , Run . httpd . credentials && Engine_hasAllow ( ) ? ""Basic Authentication and Host/Net allow list"" : Run . httpd . credentials ? ""Basic Authentication"" : Engine_hasAllow ( ) ? ""Host/Net allow list"" : ""No authentication"" ) ; print_alerts ( res , Run . maillist ) ; StringBuffer_append ( res -> outputbuffer , """" ) ; if ( ! is_readonly ( req ) ) { StringBuffer_append ( res -> outputbuffer , """" ) ; StringBuffer_append ( res -> outputbuffer , """" , res -> token ) ; StringBuffer_append ( res -> outputbuffer , """" , res -> token ) ; if ( ( Run . flags & Run_Log ) && ! ( Run . flags & Run_UseSyslog ) ) { StringBuffer_append ( res -> outputbuffer , """" , res -> token ) ; } StringBuffer_append ( res -> outputbuffer , ""
"" ""
Stop Monit http server? "" """" """" """" ""
"" ""		"" ""
Force validate now? "" """" """" """" ""
"" ""		"" ""
View Monit logfile? "" """" """" ""
"" ""
"" ) ; } do_foot ( res ) ; }" 874,"CWE-119 int y4m_input_open ( y4m_input * _y4m , FILE * _fin , char * _skip , int _nskip , int only_420 ) { char buffer [ 80 ] ; int ret ; int i ; for ( i = 0 ; i < 79 ; i ++ ) { if ( _nskip > 0 ) { buffer [ i ] = * _skip ++ ; _nskip -- ; } else { if ( ! file_read ( buffer + i , 1 , _fin ) ) return - 1 ; } if ( buffer [ i ] == '\\n' ) break ; } if ( _nskip > 0 ) return - 1 ; if ( i == 79 ) { fprintf ( stderr , ""Error parsing header; not a YUV2MPEG2 file?\\n"" ) ; return - 1 ; } buffer [ i ] = '\\0' ; if ( memcmp ( buffer , ""YUV4MPEG"" , 8 ) ) { fprintf ( stderr , ""Incomplete magic for YUV4MPEG file.\\n"" ) ; return - 1 ; } if ( buffer [ 8 ] != '2' ) { fprintf ( stderr , ""Incorrect YUV input file version; YUV4MPEG2 required.\\n"" ) ; } ret = y4m_parse_tags ( _y4m , buffer + 5 ) ; if ( ret < 0 ) { fprintf ( stderr , ""Error parsing YUV4MPEG2 header.\\n"" ) ; return ret ; } if ( _y4m -> interlace == '?' ) { fprintf ( stderr , ""Warning: Input video interlacing format unknown; "" ""assuming progressive scan.\\n"" ) ; } else if ( _y4m -> interlace != 'p' ) { fprintf ( stderr , ""Input video is interlaced; "" ""Only progressive scan handled.\\n"" ) ; return - 1 ; } _y4m -> vpx_fmt = VPX_IMG_FMT_I420 ; _y4m -> vpx_bps = 12 ; if ( strcmp ( _y4m -> chroma_type , ""420"" ) == 0 || strcmp ( _y4m -> chroma_type , ""420jpeg"" ) == 0 ) { _y4m -> src_c_dec_h = _y4m -> dst_c_dec_h = _y4m -> src_c_dec_v = _y4m -> dst_c_dec_v = 2 ; _y4m -> dst_buf_read_sz = _y4m -> pic_w * _y4m -> pic_h _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 0 ; _y4m -> convert = y4m_convert_null ; } else if ( strcmp ( _y4m -> chroma_type , ""420mpeg2"" ) == 0 ) { _y4m -> src_c_dec_h = _y4m -> dst_c_dec_h = _y4m -> src_c_dec_v = _y4m -> dst_c_dec_v = 2 ; _y4m -> dst_buf_read_sz = _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 2 * ( ( _y4m -> pic_w + 1 ) / 2 ) * ( ( _y4m -> pic_h + 1 ) / 2 ) ; _y4m -> convert = y4m_convert_42xmpeg2_42xjpeg ; } else if ( strcmp ( _y4m -> chroma_type , ""420paldv"" ) == 0 ) { _y4m -> src_c_dec_h = _y4m -> dst_c_dec_h = _y4m -> src_c_dec_v = _y4m -> dst_c_dec_v = 2 ; _y4m -> dst_buf_read_sz = _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_sz = 3 * ( ( _y4m -> pic_w + 1 ) / 2 ) * ( ( _y4m -> pic_h + 1 ) / 2 ) ; _y4m -> aux_buf_read_sz = 2 * ( ( _y4m -> pic_w + 1 ) / 2 ) * ( ( _y4m -> pic_h + 1 ) / 2 ) ; _y4m -> convert = y4m_convert_42xpaldv_42xjpeg ; } else if ( strcmp ( _y4m -> chroma_type , ""422jpeg"" ) == 0 ) { _y4m -> src_c_dec_h = _y4m -> dst_c_dec_h = 2 ; _y4m -> src_c_dec_v = 1 ; _y4m -> dst_c_dec_v = 2 ; _y4m -> dst_buf_read_sz = _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 2 * ( ( _y4m -> pic_w + 1 ) / 2 ) * _y4m -> pic_h ; _y4m -> convert = y4m_convert_422jpeg_420jpeg ; } else if ( strcmp ( _y4m -> chroma_type , ""422"" ) == 0 ) { _y4m -> src_c_dec_h = 2 ; _y4m -> src_c_dec_v = 1 ; if ( only_420 ) { _y4m -> dst_c_dec_h = 2 ; _y4m -> dst_c_dec_v = 2 ; _y4m -> dst_buf_read_sz = _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_read_sz = 2 * ( ( _y4m -> pic_w + 1 ) / 2 ) * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz + ( ( _y4m -> pic_w + 1 ) / 2 ) * _y4m -> pic_h ; _y4m -> convert = y4m_convert_422_420jpeg ; } else { _y4m -> vpx_fmt = VPX_IMG_FMT_I422 ; _y4m -> vpx_bps = 16 ; _y4m -> dst_c_dec_h = _y4m -> src_c_dec_h ; _y4m -> dst_c_dec_v = _y4m -> src_c_dec_v ; _y4m -> dst_buf_read_sz = _y4m -> pic_w * _y4m -> pic_h _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 0 ; _y4m -> convert = y4m_convert_null ; } } else if ( strcmp ( _y4m -> chroma_type , ""411"" ) == 0 ) { _y4m -> src_c_dec_h = 4 ; _y4m -> dst_c_dec_h = 2 ; _y4m -> src_c_dec_v = 1 ; _y4m -> dst_c_dec_v = 2 ; _y4m -> dst_buf_read_sz = _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_read_sz = 2 * ( ( _y4m -> pic_w + 3 ) / 4 ) * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz + ( ( _y4m -> pic_w + 1 ) / 2 ) * _y4m -> pic_h ; _y4m -> convert = y4m_convert_411_420jpeg ; } else if ( strcmp ( _y4m -> chroma_type , ""444"" ) == 0 ) { _y4m -> src_c_dec_h = 1 ; _y4m -> src_c_dec_v = 1 ; if ( only_420 ) { _y4m -> dst_c_dec_h = 2 ; _y4m -> dst_c_dec_v = 2 ; _y4m -> dst_buf_read_sz = _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_read_sz = 2 * _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz + ( ( _y4m -> pic_w + 1 ) / 2 ) * _y4m -> pic_h ; _y4m -> convert = y4m_convert_444_420jpeg ; } else { _y4m -> vpx_fmt = VPX_IMG_FMT_I444 ; _y4m -> vpx_bps = 24 ; _y4m -> dst_c_dec_h = _y4m -> src_c_dec_h ; _y4m -> dst_c_dec_v = _y4m -> src_c_dec_v ; _y4m -> dst_buf_read_sz = 3 * _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 0 ; _y4m -> convert = y4m_convert_null ; } } else if ( strcmp ( _y4m -> chroma_type , ""444alpha"" ) == 0 ) { _y4m -> src_c_dec_h = 1 ; _y4m -> src_c_dec_v = 1 ; if ( only_420 ) { _y4m -> dst_c_dec_h = 2 ; _y4m -> dst_c_dec_v = 2 ; _y4m -> dst_buf_read_sz = _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 3 * _y4m -> pic_w * _y4m -> pic_h ; _y4m -> convert = y4m_convert_444_420jpeg ; } else { _y4m -> vpx_fmt = VPX_IMG_FMT_444A ; _y4m -> vpx_bps = 32 ; _y4m -> dst_c_dec_h = _y4m -> src_c_dec_h ; _y4m -> dst_c_dec_v = _y4m -> src_c_dec_v ; _y4m -> dst_buf_read_sz = 4 * _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 0 ; _y4m -> convert = y4m_convert_null ; } } else if ( strcmp ( _y4m -> chroma_type , ""mono"" ) == 0 ) { _y4m -> src_c_dec_h = _y4m -> src_c_dec_v = 0 ; _y4m -> dst_c_dec_h = _y4m -> dst_c_dec_v = 2 ; _y4m -> dst_buf_read_sz = _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 0 ; _y4m -> convert = y4m_convert_mono_420jpeg ; } else { fprintf ( stderr , ""Unknown chroma sampling type: %s\\n"" , _y4m -> chroma_type ) ; return - 1 ; } _y4m -> dst_buf_sz = _y4m -> pic_w * _y4m -> pic_h ( ( _y4m -> pic_h + _y4m -> dst_c_dec_v - 1 ) / _y4m -> dst_c_dec_v ) ; _y4m -> dst_buf = ( unsigned char * ) malloc ( _y4m -> dst_buf_sz ) ; _y4m -> aux_buf = ( unsigned char * ) malloc ( _y4m -> aux_buf_sz ) ; return 0 ; }","int y4m_input_open ( y4m_input * _y4m , FILE * _fin , char * _skip , int _nskip , int only_420 ) { char buffer [ 80 ] = { 0 } ; int ret ; int i ; for ( i = 0 ; i < 79 ; i ++ ) { if ( _nskip > 0 ) { buffer [ i ] = * _skip ++ ; _nskip -- ; } else { if ( ! file_read ( buffer + i , 1 , _fin ) ) return - 1 ; } if ( buffer [ i ] == '\\n' ) break ; } if ( _nskip > 0 ) return - 1 ; if ( i == 79 ) { fprintf ( stderr , ""Error parsing header; not a YUV2MPEG2 file?\\n"" ) ; return - 1 ; } buffer [ i ] = '\\0' ; if ( memcmp ( buffer , ""YUV4MPEG"" , 8 ) ) { fprintf ( stderr , ""Incomplete magic for YUV4MPEG file.\\n"" ) ; return - 1 ; } if ( buffer [ 8 ] != '2' ) { fprintf ( stderr , ""Incorrect YUV input file version; YUV4MPEG2 required.\\n"" ) ; } ret = y4m_parse_tags ( _y4m , buffer + 5 ) ; if ( ret < 0 ) { fprintf ( stderr , ""Error parsing YUV4MPEG2 header.\\n"" ) ; return ret ; } if ( _y4m -> interlace == '?' ) { fprintf ( stderr , ""Warning: Input video interlacing format unknown; "" ""assuming progressive scan.\\n"" ) ; } else if ( _y4m -> interlace != 'p' ) { fprintf ( stderr , ""Input video is interlaced; "" ""Only progressive scan handled.\\n"" ) ; return - 1 ; } _y4m -> vpx_fmt = VPX_IMG_FMT_I420 ; _y4m -> bps = 12 ; _y4m -> bit_depth = 8 ; if ( strcmp ( _y4m -> chroma_type , ""420"" ) == 0 || strcmp ( _y4m -> chroma_type , ""420jpeg"" ) == 0 ) { _y4m -> src_c_dec_h = _y4m -> dst_c_dec_h = _y4m -> src_c_dec_v = _y4m -> dst_c_dec_v = 2 ; _y4m -> dst_buf_read_sz = _y4m -> pic_w * _y4m -> pic_h 2 * ( ( _y4m -> pic_w + 1 ) / 2 ) * ( ( _y4m -> pic_h + 1 ) / 2 ) ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 0 ; _y4m -> convert = y4m_convert_null ; } else if ( strcmp ( _y4m -> chroma_type , ""420p10"" ) == 0 ) { _y4m -> src_c_dec_h = 2 ; _y4m -> dst_c_dec_h = 2 ; _y4m -> src_c_dec_v = 2 ; _y4m -> dst_c_dec_v = 2 ; _y4m -> dst_buf_read_sz = 2 * ( _y4m -> pic_w * _y4m -> pic_h + 2 * ( ( _y4m -> pic_w + 1 ) / 2 ) * ( ( _y4m -> pic_h + 1 ) / 2 ) ) ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 0 ; _y4m -> convert = y4m_convert_null ; _y4m -> bit_depth = 10 ; _y4m -> bps = 15 ; _y4m -> vpx_fmt = VPX_IMG_FMT_I42016 ; if ( only_420 ) { fprintf ( stderr , ""Unsupported conversion from 420p10 to 420jpeg\\n"" ) ; return - 1 ; } } else if ( strcmp ( _y4m -> chroma_type , ""420p12"" ) == 0 ) { _y4m -> src_c_dec_h = 2 ; _y4m -> dst_c_dec_h = 2 ; _y4m -> src_c_dec_v = 2 ; _y4m -> dst_c_dec_v = 2 ; _y4m -> dst_buf_read_sz = 2 * ( _y4m -> pic_w * _y4m -> pic_h + 2 * ( ( _y4m -> pic_w + 1 ) / 2 ) * ( ( _y4m -> pic_h + 1 ) / 2 ) ) ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 0 ; _y4m -> convert = y4m_convert_null ; _y4m -> bit_depth = 12 ; _y4m -> bps = 18 ; _y4m -> vpx_fmt = VPX_IMG_FMT_I42016 ; if ( only_420 ) { fprintf ( stderr , ""Unsupported conversion from 420p12 to 420jpeg\\n"" ) ; return - 1 ; } } else if ( strcmp ( _y4m -> chroma_type , ""420mpeg2"" ) == 0 ) { _y4m -> src_c_dec_h = _y4m -> dst_c_dec_h = _y4m -> src_c_dec_v = _y4m -> dst_c_dec_v = 2 ; _y4m -> dst_buf_read_sz = _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 2 * ( ( _y4m -> pic_w + 1 ) / 2 ) * ( ( _y4m -> pic_h + 1 ) / 2 ) ; _y4m -> convert = y4m_convert_42xmpeg2_42xjpeg ; } else if ( strcmp ( _y4m -> chroma_type , ""420paldv"" ) == 0 ) { _y4m -> src_c_dec_h = _y4m -> dst_c_dec_h = _y4m -> src_c_dec_v = _y4m -> dst_c_dec_v = 2 ; _y4m -> dst_buf_read_sz = _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_sz = 3 * ( ( _y4m -> pic_w + 1 ) / 2 ) * ( ( _y4m -> pic_h + 1 ) / 2 ) ; _y4m -> aux_buf_read_sz = 2 * ( ( _y4m -> pic_w + 1 ) / 2 ) * ( ( _y4m -> pic_h + 1 ) / 2 ) ; _y4m -> convert = y4m_convert_42xpaldv_42xjpeg ; } else if ( strcmp ( _y4m -> chroma_type , ""422jpeg"" ) == 0 ) { _y4m -> src_c_dec_h = _y4m -> dst_c_dec_h = 2 ; _y4m -> src_c_dec_v = 1 ; _y4m -> dst_c_dec_v = 2 ; _y4m -> dst_buf_read_sz = _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 2 * ( ( _y4m -> pic_w + 1 ) / 2 ) * _y4m -> pic_h ; _y4m -> convert = y4m_convert_422jpeg_420jpeg ; } else if ( strcmp ( _y4m -> chroma_type , ""422"" ) == 0 ) { _y4m -> src_c_dec_h = 2 ; _y4m -> src_c_dec_v = 1 ; if ( only_420 ) { _y4m -> dst_c_dec_h = 2 ; _y4m -> dst_c_dec_v = 2 ; _y4m -> dst_buf_read_sz = _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_read_sz = 2 * ( ( _y4m -> pic_w + 1 ) / 2 ) * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz + ( ( _y4m -> pic_w + 1 ) / 2 ) * _y4m -> pic_h ; _y4m -> convert = y4m_convert_422_420jpeg ; } else { _y4m -> vpx_fmt = VPX_IMG_FMT_I422 ; _y4m -> bps = 16 ; _y4m -> dst_c_dec_h = _y4m -> src_c_dec_h ; _y4m -> dst_c_dec_v = _y4m -> src_c_dec_v ; _y4m -> dst_buf_read_sz = _y4m -> pic_w * _y4m -> pic_h 2 * ( ( _y4m -> pic_w + 1 ) / 2 ) * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 0 ; _y4m -> convert = y4m_convert_null ; } } else if ( strcmp ( _y4m -> chroma_type , ""422p10"" ) == 0 ) { _y4m -> src_c_dec_h = 2 ; _y4m -> src_c_dec_v = 1 ; _y4m -> vpx_fmt = VPX_IMG_FMT_I42216 ; _y4m -> bps = 20 ; _y4m -> bit_depth = 10 ; _y4m -> dst_c_dec_h = _y4m -> src_c_dec_h ; _y4m -> dst_c_dec_v = _y4m -> src_c_dec_v ; _y4m -> dst_buf_read_sz = 2 * ( _y4m -> pic_w * _y4m -> pic_h + 2 * ( ( _y4m -> pic_w + 1 ) / 2 ) * _y4m -> pic_h ) ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 0 ; _y4m -> convert = y4m_convert_null ; if ( only_420 ) { fprintf ( stderr , ""Unsupported conversion from 422p10 to 420jpeg\\n"" ) ; return - 1 ; } } else if ( strcmp ( _y4m -> chroma_type , ""422p12"" ) == 0 ) { _y4m -> src_c_dec_h = 2 ; _y4m -> src_c_dec_v = 1 ; _y4m -> vpx_fmt = VPX_IMG_FMT_I42216 ; _y4m -> bps = 24 ; _y4m -> bit_depth = 12 ; _y4m -> dst_c_dec_h = _y4m -> src_c_dec_h ; _y4m -> dst_c_dec_v = _y4m -> src_c_dec_v ; _y4m -> dst_buf_read_sz = 2 * ( _y4m -> pic_w * _y4m -> pic_h + 2 * ( ( _y4m -> pic_w + 1 ) / 2 ) * _y4m -> pic_h ) ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 0 ; _y4m -> convert = y4m_convert_null ; if ( only_420 ) { fprintf ( stderr , ""Unsupported conversion from 422p12 to 420jpeg\\n"" ) ; return - 1 ; } } else if ( strcmp ( _y4m -> chroma_type , ""411"" ) == 0 ) { _y4m -> src_c_dec_h = 4 ; _y4m -> dst_c_dec_h = 2 ; _y4m -> src_c_dec_v = 1 ; _y4m -> dst_c_dec_v = 2 ; _y4m -> dst_buf_read_sz = _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_read_sz = 2 * ( ( _y4m -> pic_w + 3 ) / 4 ) * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz + ( ( _y4m -> pic_w + 1 ) / 2 ) * _y4m -> pic_h ; _y4m -> convert = y4m_convert_411_420jpeg ; } else if ( strcmp ( _y4m -> chroma_type , ""444"" ) == 0 ) { _y4m -> src_c_dec_h = 1 ; _y4m -> src_c_dec_v = 1 ; if ( only_420 ) { _y4m -> dst_c_dec_h = 2 ; _y4m -> dst_c_dec_v = 2 ; _y4m -> dst_buf_read_sz = _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_read_sz = 2 * _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz + ( ( _y4m -> pic_w + 1 ) / 2 ) * _y4m -> pic_h ; _y4m -> convert = y4m_convert_444_420jpeg ; } else { _y4m -> vpx_fmt = VPX_IMG_FMT_I444 ; _y4m -> bps = 24 ; _y4m -> dst_c_dec_h = _y4m -> src_c_dec_h ; _y4m -> dst_c_dec_v = _y4m -> src_c_dec_v ; _y4m -> dst_buf_read_sz = 3 * _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 0 ; _y4m -> convert = y4m_convert_null ; } } else if ( strcmp ( _y4m -> chroma_type , ""444p10"" ) == 0 ) { _y4m -> src_c_dec_h = 1 ; _y4m -> src_c_dec_v = 1 ; _y4m -> vpx_fmt = VPX_IMG_FMT_I44416 ; _y4m -> bps = 30 ; _y4m -> bit_depth = 10 ; _y4m -> dst_c_dec_h = _y4m -> src_c_dec_h ; _y4m -> dst_c_dec_v = _y4m -> src_c_dec_v ; _y4m -> dst_buf_read_sz = 2 * 3 * _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 0 ; _y4m -> convert = y4m_convert_null ; if ( only_420 ) { fprintf ( stderr , ""Unsupported conversion from 444p10 to 420jpeg\\n"" ) ; return - 1 ; } } else if ( strcmp ( _y4m -> chroma_type , ""444p12"" ) == 0 ) { _y4m -> src_c_dec_h = 1 ; _y4m -> src_c_dec_v = 1 ; _y4m -> vpx_fmt = VPX_IMG_FMT_I44416 ; _y4m -> bps = 36 ; _y4m -> bit_depth = 12 ; _y4m -> dst_c_dec_h = _y4m -> src_c_dec_h ; _y4m -> dst_c_dec_v = _y4m -> src_c_dec_v ; _y4m -> dst_buf_read_sz = 2 * 3 * _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 0 ; _y4m -> convert = y4m_convert_null ; if ( only_420 ) { fprintf ( stderr , ""Unsupported conversion from 444p12 to 420jpeg\\n"" ) ; return - 1 ; } } else if ( strcmp ( _y4m -> chroma_type , ""444alpha"" ) == 0 ) { _y4m -> src_c_dec_h = 1 ; _y4m -> src_c_dec_v = 1 ; if ( only_420 ) { _y4m -> dst_c_dec_h = 2 ; _y4m -> dst_c_dec_v = 2 ; _y4m -> dst_buf_read_sz = _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 3 * _y4m -> pic_w * _y4m -> pic_h ; _y4m -> convert = y4m_convert_444_420jpeg ; } else { _y4m -> vpx_fmt = VPX_IMG_FMT_444A ; _y4m -> bps = 32 ; _y4m -> dst_c_dec_h = _y4m -> src_c_dec_h ; _y4m -> dst_c_dec_v = _y4m -> src_c_dec_v ; _y4m -> dst_buf_read_sz = 4 * _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 0 ; _y4m -> convert = y4m_convert_null ; } } else if ( strcmp ( _y4m -> chroma_type , ""mono"" ) == 0 ) { _y4m -> src_c_dec_h = _y4m -> src_c_dec_v = 0 ; _y4m -> dst_c_dec_h = _y4m -> dst_c_dec_v = 2 ; _y4m -> dst_buf_read_sz = _y4m -> pic_w * _y4m -> pic_h ; _y4m -> aux_buf_sz = _y4m -> aux_buf_read_sz = 0 ; _y4m -> convert = y4m_convert_mono_420jpeg ; } else { fprintf ( stderr , ""Unknown chroma sampling type: %s\\n"" , _y4m -> chroma_type ) ; return - 1 ; } _y4m -> dst_buf_sz = _y4m -> pic_w * _y4m -> pic_h 2 * ( ( _y4m -> pic_w + _y4m -> dst_c_dec_h - 1 ) / _y4m -> dst_c_dec_h ) * ( ( _y4m -> pic_h + _y4m -> dst_c_dec_v - 1 ) / _y4m -> dst_c_dec_v ) ; if ( _y4m -> bit_depth == 8 ) _y4m -> dst_buf = ( unsigned char * ) malloc ( _y4m -> dst_buf_sz ) ; else _y4m -> dst_buf = ( unsigned char * ) malloc ( 2 * _y4m -> dst_buf_sz ) ; if ( _y4m -> aux_buf_sz > 0 ) _y4m -> aux_buf = ( unsigned char * ) malloc ( _y4m -> aux_buf_sz ) ; return 0 ; }" 875,"CWE-399 struct socket * sock , * oldsock ; struct vhost_virtqueue * vq ; struct vhost_net_virtqueue * nvq ; struct vhost_net_ubuf_ref * ubufs , * oldubufs = NULL ; int r ; mutex_lock ( & n -> dev . mutex ) ; r = vhost_dev_check_owner ( & n -> dev ) ; if ( r ) goto err ; if ( index >= VHOST_NET_VQ_MAX ) { r = - ENOBUFS ; goto err ; } vq = & n -> vqs [ index ] . vq ; nvq = & n -> vqs [ index ] ; mutex_lock ( & vq -> mutex ) ; if ( ! vhost_vq_access_ok ( vq ) ) { r = - EFAULT ; goto err_vq ; } sock = get_socket ( fd ) ; if ( IS_ERR ( sock ) ) { r = PTR_ERR ( sock ) ; goto err_vq ; } oldsock = rcu_dereference_protected ( vq -> private_data , lockdep_is_held ( & vq -> mutex ) ) ; if ( sock != oldsock ) { ubufs = vhost_net_ubuf_alloc ( vq , sock && vhost_sock_zcopy ( sock ) ) ; if ( IS_ERR ( ubufs ) ) { r = PTR_ERR ( ubufs ) ; goto err_ubufs ; } vhost_net_disable_vq ( n , vq ) ; rcu_assign_pointer ( vq -> private_data , sock ) ; r = vhost_init_used ( vq ) ; if ( r ) goto err_used ; r = vhost_net_enable_vq ( n , vq ) ; if ( r ) goto err_used ; oldubufs = nvq -> ubufs ; nvq -> ubufs = ubufs ; n -> tx_packets = 0 ; n -> tx_zcopy_err = 0 ; n -> tx_flush = false ; } mutex_unlock ( & vq -> mutex ) ; if ( oldubufs ) { vhost_net_ubuf_put_and_wait ( oldubufs ) ; mutex_lock ( & vq -> mutex ) ; vhost_zerocopy_signal_used ( n , vq ) ; mutex_unlock ( & vq -> mutex ) ; } if ( oldsock ) { vhost_net_flush_vq ( n , index ) ; fput ( oldsock -> file ) ; } mutex_unlock ( & n -> dev . mutex ) ; return 0 ; err_used : rcu_assign_pointer ( vq -> private_data , oldsock ) ; vhost_net_enable_vq ( n , vq ) ; if ( ubufs ) vhost_net_ubuf_put_and_wait ( ubufs ) ; err_ubufs : fput ( sock -> file ) ; err_vq : mutex_unlock ( & vq -> mutex ) ; err : mutex_unlock ( & n -> dev . mutex ) ; return r ; }","struct socket * sock , * oldsock ; struct vhost_virtqueue * vq ; struct vhost_net_virtqueue * nvq ; struct vhost_net_ubuf_ref * ubufs , * oldubufs = NULL ; int r ; mutex_lock ( & n -> dev . mutex ) ; r = vhost_dev_check_owner ( & n -> dev ) ; if ( r ) goto err ; if ( index >= VHOST_NET_VQ_MAX ) { r = - ENOBUFS ; goto err ; } vq = & n -> vqs [ index ] . vq ; nvq = & n -> vqs [ index ] ; mutex_lock ( & vq -> mutex ) ; if ( ! vhost_vq_access_ok ( vq ) ) { r = - EFAULT ; goto err_vq ; } sock = get_socket ( fd ) ; if ( IS_ERR ( sock ) ) { r = PTR_ERR ( sock ) ; goto err_vq ; } oldsock = rcu_dereference_protected ( vq -> private_data , lockdep_is_held ( & vq -> mutex ) ) ; if ( sock != oldsock ) { ubufs = vhost_net_ubuf_alloc ( vq , sock && vhost_sock_zcopy ( sock ) ) ; if ( IS_ERR ( ubufs ) ) { r = PTR_ERR ( ubufs ) ; goto err_ubufs ; } vhost_net_disable_vq ( n , vq ) ; rcu_assign_pointer ( vq -> private_data , sock ) ; r = vhost_init_used ( vq ) ; if ( r ) goto err_used ; r = vhost_net_enable_vq ( n , vq ) ; if ( r ) goto err_used ; oldubufs = nvq -> ubufs ; nvq -> ubufs = ubufs ; n -> tx_packets = 0 ; n -> tx_zcopy_err = 0 ; n -> tx_flush = false ; } mutex_unlock ( & vq -> mutex ) ; if ( oldubufs ) { vhost_net_ubuf_put_wait_and_free ( oldubufs ) ; mutex_lock ( & vq -> mutex ) ; vhost_zerocopy_signal_used ( n , vq ) ; mutex_unlock ( & vq -> mutex ) ; } if ( oldsock ) { vhost_net_flush_vq ( n , index ) ; fput ( oldsock -> file ) ; } mutex_unlock ( & n -> dev . mutex ) ; return 0 ; err_used : rcu_assign_pointer ( vq -> private_data , oldsock ) ; vhost_net_enable_vq ( n , vq ) ; if ( ubufs ) vhost_net_ubuf_put_wait_and_free ( ubufs ) ; err_ubufs : fput ( sock -> file ) ; err_vq : mutex_unlock ( & vq -> mutex ) ; err : mutex_unlock ( & n -> dev . mutex ) ; return r ; }" 876,"CWE-362 int hci_req_sync ( struct hci_dev * hdev , int ( * req ) ( struct hci_request * req , unsigned long opt ) , unsigned long opt , u32 timeout , u8 * hci_status ) { int ret ; if ( ! test_bit ( HCI_UP , & hdev -> flags ) ) return - ENETDOWN ; hci_req_sync_lock ( hdev ) ; ret = __hci_req_sync ( hdev , req , opt , timeout , hci_status ) ; hci_req_sync_unlock ( hdev ) ; return ret ; }","int hci_req_sync ( struct hci_dev * hdev , int ( * req ) ( struct hci_request * req , unsigned long opt ) , unsigned long opt , u32 timeout , u8 * hci_status ) { int ret ; hci_req_sync_lock ( hdev ) ; if ( test_bit ( HCI_UP , & hdev -> flags ) ) ret = __hci_req_sync ( hdev , req , opt , timeout , hci_status ) ; else ret = - ENETDOWN ; hci_req_sync_unlock ( hdev ) ; return ret ; }" 877,"NVD-CWE-noinfo asmlinkage void bad_mode ( struct pt_regs * regs , int reason , unsigned int esr ) { console_verbose ( ) ; pr_crit ( ""Bad mode in %s handler detected, code 0x%08x\\n"" , handler [ reason ] , esr ) ; die ( ""Oops - bad mode"" , regs , 0 ) ; local_irq_disable ( ) ; panic ( ""bad mode"" ) ; }","asmlinkage void bad_mode ( struct pt_regs * regs , int reason , unsigned int esr ) { siginfo_t info ; void __user * pc = ( void __user * ) instruction_pointer ( regs ) ; console_verbose ( ) ; pr_crit ( ""Bad mode in %s handler detected, code 0x%08x\\n"" , handler [ reason ] , esr ) ; __show_regs ( regs ) ; info . si_signo = SIGILL ; info . si_errno = 0 ; info . si_code = ILL_ILLOPC ; info . si_addr = pc ; arm64_notify_die ( ""Oops - bad mode"" , regs , & info , 0 ) ; }" 878,"CWE-125 quant_matrix = s -> intra_matrix ; } else { cc = ( n & 1 ) + 1 ; if ( ctx -> rgb ) dct_dc_size = get_vlc2 ( & s -> gb , ctx -> studio_luma_dc . table , STUDIO_INTRA_BITS , 2 ) ; else dct_dc_size = get_vlc2 ( & s -> gb , ctx -> studio_chroma_dc . table , STUDIO_INTRA_BITS , 2 ) ; quant_matrix = s -> chroma_intra_matrix ; } if ( dct_dc_size < 0 ) { av_log ( s -> avctx , AV_LOG_ERROR , ""illegal dct_dc_size vlc\\n"" ) ; return AVERROR_INVALIDDATA ; } else if ( dct_dc_size == 0 ) { dct_diff = 0 ; } else { dct_diff = get_xbits ( & s -> gb , dct_dc_size ) ; if ( dct_dc_size > 8 ) { if ( ! check_marker ( s -> avctx , & s -> gb , ""dct_dc_size > 8"" ) ) return AVERROR_INVALIDDATA ; } } s -> last_dc [ cc ] += dct_diff ; if ( s -> mpeg_quant ) block [ 0 ] = s -> last_dc [ cc ] * ( 8 >> s -> intra_dc_precision ) ; else block [ 0 ] = s -> last_dc [ cc ] * ( 8 >> s -> intra_dc_precision ) * ( 8 >> s -> dct_precision ) ; block [ 0 ] = av_clip ( block [ 0 ] , min , max ) ; mismatch ^= block [ 0 ] ; while ( 1 ) { group = get_vlc2 ( & s -> gb , cur_vlc -> table , STUDIO_INTRA_BITS , 2 ) ; if ( group < 0 ) { av_log ( s -> avctx , AV_LOG_ERROR , ""illegal ac coefficient group vlc\\n"" ) ; return AVERROR_INVALIDDATA ; } additional_code_len = ac_state_tab [ group ] [ 0 ] ; cur_vlc = & ctx -> studio_intra_tab [ ac_state_tab [ group ] [ 1 ] ] ; if ( group == 0 ) { break ; } else if ( group >= 1 && group <= 6 ) { run = 1 << additional_code_len ; if ( additional_code_len ) run += get_bits ( & s -> gb , additional_code_len ) ; idx += run ; continue ; } else if ( group >= 7 && group <= 12 ) { code = get_bits ( & s -> gb , additional_code_len ) ; sign = code & 1 ; code >>= 1 ; run = ( 1 << ( additional_code_len - 1 ) ) + code ; idx += run ; j = scantable [ idx ++ ] ; block [ j ] = sign ? 1 : - 1 ; } else if ( group >= 13 && group <= 20 ) { j = scantable [ idx ++ ] ; block [ j ] = get_xbits ( & s -> gb , additional_code_len ) ; } else if ( group == 21 ) { j = scantable [ idx ++ ] ; additional_code_len = s -> avctx -> bits_per_raw_sample + s -> dct_precision + 4 ; flc = get_bits ( & s -> gb , additional_code_len ) ; if ( flc >> ( additional_code_len - 1 ) ) block [ j ] = - 1 * ( ( flc ^ ( ( 1 << additional_code_len ) - 1 ) ) + 1 ) ; else block [ j ] = flc ; } block [ j ] = ( ( 8 * 2 * block [ j ] * quant_matrix [ j ] * s -> qscale ) >> s -> dct_precision ) / 32 ; block [ j ] = av_clip ( block [ j ] , min , max ) ; mismatch ^= block [ j ] ; } block [ 63 ] ^= mismatch & 1 ; return 0 ; }","quant_matrix = s -> intra_matrix ; } else { cc = ( n & 1 ) + 1 ; if ( ctx -> rgb ) dct_dc_size = get_vlc2 ( & s -> gb , ctx -> studio_luma_dc . table , STUDIO_INTRA_BITS , 2 ) ; else dct_dc_size = get_vlc2 ( & s -> gb , ctx -> studio_chroma_dc . table , STUDIO_INTRA_BITS , 2 ) ; quant_matrix = s -> chroma_intra_matrix ; } if ( dct_dc_size < 0 ) { av_log ( s -> avctx , AV_LOG_ERROR , ""illegal dct_dc_size vlc\\n"" ) ; return AVERROR_INVALIDDATA ; } else if ( dct_dc_size == 0 ) { dct_diff = 0 ; } else { dct_diff = get_xbits ( & s -> gb , dct_dc_size ) ; if ( dct_dc_size > 8 ) { if ( ! check_marker ( s -> avctx , & s -> gb , ""dct_dc_size > 8"" ) ) return AVERROR_INVALIDDATA ; } } s -> last_dc [ cc ] += dct_diff ; if ( s -> mpeg_quant ) block [ 0 ] = s -> last_dc [ cc ] * ( 8 >> s -> intra_dc_precision ) ; else block [ 0 ] = s -> last_dc [ cc ] * ( 8 >> s -> intra_dc_precision ) * ( 8 >> s -> dct_precision ) ; block [ 0 ] = av_clip ( block [ 0 ] , min , max ) ; mismatch ^= block [ 0 ] ; while ( 1 ) { group = get_vlc2 ( & s -> gb , cur_vlc -> table , STUDIO_INTRA_BITS , 2 ) ; if ( group < 0 ) { av_log ( s -> avctx , AV_LOG_ERROR , ""illegal ac coefficient group vlc\\n"" ) ; return AVERROR_INVALIDDATA ; } additional_code_len = ac_state_tab [ group ] [ 0 ] ; cur_vlc = & ctx -> studio_intra_tab [ ac_state_tab [ group ] [ 1 ] ] ; if ( group == 0 ) { break ; } else if ( group >= 1 && group <= 6 ) { run = 1 << additional_code_len ; if ( additional_code_len ) run += get_bits ( & s -> gb , additional_code_len ) ; idx += run ; continue ; } else if ( group >= 7 && group <= 12 ) { code = get_bits ( & s -> gb , additional_code_len ) ; sign = code & 1 ; code >>= 1 ; run = ( 1 << ( additional_code_len - 1 ) ) + code ; idx += run ; if ( idx > 63 ) return AVERROR_INVALIDDATA ; j = scantable [ idx ++ ] ; block [ j ] = sign ? 1 : - 1 ; } else if ( group >= 13 && group <= 20 ) { if ( idx > 63 ) return AVERROR_INVALIDDATA ; j = scantable [ idx ++ ] ; block [ j ] = get_xbits ( & s -> gb , additional_code_len ) ; } else if ( group == 21 ) { if ( idx > 63 ) return AVERROR_INVALIDDATA ; j = scantable [ idx ++ ] ; additional_code_len = s -> avctx -> bits_per_raw_sample + s -> dct_precision + 4 ; flc = get_bits ( & s -> gb , additional_code_len ) ; if ( flc >> ( additional_code_len - 1 ) ) block [ j ] = - 1 * ( ( flc ^ ( ( 1 << additional_code_len ) - 1 ) ) + 1 ) ; else block [ j ] = flc ; } block [ j ] = ( ( 8 * 2 * block [ j ] * quant_matrix [ j ] * s -> qscale ) >> s -> dct_precision ) / 32 ; block [ j ] = av_clip ( block [ j ] , min , max ) ; mismatch ^= block [ j ] ; } block [ 63 ] ^= mismatch & 1 ; return 0 ; }" 879,"nan void xmlParseElement ( xmlParserCtxtPtr ctxt ) { const xmlChar * name ; const xmlChar * prefix = NULL ; const xmlChar * URI = NULL ; xmlParserNodeInfo node_info ; int line , tlen ; xmlNodePtr ret ; int nsNr = ctxt -> nsNr ; if ( ( ( unsigned int ) ctxt -> nameNr > xmlParserMaxDepth ) && ( ( ctxt -> options & XML_PARSE_HUGE ) == 0 ) ) { xmlFatalErrMsgInt ( ctxt , XML_ERR_INTERNAL_ERROR , ""Excessive depth in document: %d use XML_PARSE_HUGE option\\n"" , xmlParserMaxDepth ) ; ctxt -> instate = XML_PARSER_EOF ; return ; } if ( ctxt -> record_info ) { node_info . begin_pos = ctxt -> input -> consumed + ( CUR_PTR - ctxt -> input -> base ) ; node_info . begin_line = ctxt -> input -> line ; } if ( ctxt -> spaceNr == 0 ) spacePush ( ctxt , - 1 ) ; else if ( * ctxt -> space == - 2 ) spacePush ( ctxt , - 1 ) ; else spacePush ( ctxt , * ctxt -> space ) ; line = ctxt -> input -> line ; # ifdef LIBXML_SAX1_ENABLED if ( ctxt -> sax2 ) # endif name = xmlParseStartTag2 ( ctxt , & prefix , & URI , & tlen ) ; # ifdef LIBXML_SAX1_ENABLED else name = xmlParseStartTag ( ctxt ) ; # endif if ( name == NULL ) { spacePop ( ctxt ) ; return ; } namePush ( ctxt , name ) ; ret = ctxt -> node ; # ifdef LIBXML_VALID_ENABLED if ( ctxt -> validate && ctxt -> wellFormed && ctxt -> myDoc && ctxt -> node && ( ctxt -> node == ctxt -> myDoc -> children ) ) ctxt -> valid &= xmlValidateRoot ( & ctxt -> vctxt , ctxt -> myDoc ) ; # endif if ( ( RAW == '/' ) && ( NXT ( 1 ) == '>' ) ) { SKIP ( 2 ) ; if ( ctxt -> sax2 ) { if ( ( ctxt -> sax != NULL ) && ( ctxt -> sax -> endElementNs != NULL ) && ( ! ctxt -> disableSAX ) ) ctxt -> sax -> endElementNs ( ctxt -> userData , name , prefix , URI ) ; # ifdef LIBXML_SAX1_ENABLED } else { if ( ( ctxt -> sax != NULL ) && ( ctxt -> sax -> endElement != NULL ) && ( ! ctxt -> disableSAX ) ) ctxt -> sax -> endElement ( ctxt -> userData , name ) ; # endif } namePop ( ctxt ) ; spacePop ( ctxt ) ; if ( nsNr != ctxt -> nsNr ) nsPop ( ctxt , ctxt -> nsNr - nsNr ) ; if ( ret != NULL && ctxt -> record_info ) { node_info . end_pos = ctxt -> input -> consumed + ( CUR_PTR - ctxt -> input -> base ) ; node_info . end_line = ctxt -> input -> line ; node_info . node = ret ; xmlParserAddNodeInfo ( ctxt , & node_info ) ; } return ; } if ( RAW == '>' ) { NEXT1 ; } else { xmlFatalErrMsgStrIntStr ( ctxt , XML_ERR_GT_REQUIRED , ""Couldn\'t find end of Start Tag %s line %d\\n"" , name , line , NULL ) ; nodePop ( ctxt ) ; namePop ( ctxt ) ; spacePop ( ctxt ) ; if ( nsNr != ctxt -> nsNr ) nsPop ( ctxt , ctxt -> nsNr - nsNr ) ; if ( ret != NULL && ctxt -> record_info ) { node_info . end_pos = ctxt -> input -> consumed +","void xmlParseElement ( xmlParserCtxtPtr ctxt ) { const xmlChar * name ; const xmlChar * prefix = NULL ; const xmlChar * URI = NULL ; xmlParserNodeInfo node_info ; int line , tlen ; xmlNodePtr ret ; int nsNr = ctxt -> nsNr ; if ( ( ( unsigned int ) ctxt -> nameNr > xmlParserMaxDepth ) && ( ( ctxt -> options & XML_PARSE_HUGE ) == 0 ) ) { xmlFatalErrMsgInt ( ctxt , XML_ERR_INTERNAL_ERROR , ""Excessive depth in document: %d use XML_PARSE_HUGE option\\n"" , xmlParserMaxDepth ) ; ctxt -> instate = XML_PARSER_EOF ; return ; } if ( ctxt -> record_info ) { node_info . begin_pos = ctxt -> input -> consumed + ( CUR_PTR - ctxt -> input -> base ) ; node_info . begin_line = ctxt -> input -> line ; } if ( ctxt -> spaceNr == 0 ) spacePush ( ctxt , - 1 ) ; else if ( * ctxt -> space == - 2 ) spacePush ( ctxt , - 1 ) ; else spacePush ( ctxt , * ctxt -> space ) ; line = ctxt -> input -> line ; # ifdef LIBXML_SAX1_ENABLED if ( ctxt -> sax2 ) # endif name = xmlParseStartTag2 ( ctxt , & prefix , & URI , & tlen ) ; # ifdef LIBXML_SAX1_ENABLED else name = xmlParseStartTag ( ctxt ) ; # endif if ( ctxt -> instate == XML_PARSER_EOF ) return ; if ( name == NULL ) { spacePop ( ctxt ) ; return ; } namePush ( ctxt , name ) ; ret = ctxt -> node ; # ifdef LIBXML_VALID_ENABLED if ( ctxt -> validate && ctxt -> wellFormed && ctxt -> myDoc && ctxt -> node && ( ctxt -> node == ctxt -> myDoc -> children ) ) ctxt -> valid &= xmlValidateRoot ( & ctxt -> vctxt , ctxt -> myDoc ) ; # endif if ( ( RAW == '/' ) && ( NXT ( 1 ) == '>' ) ) { SKIP ( 2 ) ; if ( ctxt -> sax2 ) { if ( ( ctxt -> sax != NULL ) && ( ctxt -> sax -> endElementNs != NULL ) && ( ! ctxt -> disableSAX ) ) ctxt -> sax -> endElementNs ( ctxt -> userData , name , prefix , URI ) ; # ifdef LIBXML_SAX1_ENABLED } else { if ( ( ctxt -> sax != NULL ) && ( ctxt -> sax -> endElement != NULL ) && ( ! ctxt -> disableSAX ) ) ctxt -> sax -> endElement ( ctxt -> userData , name ) ; # endif } namePop ( ctxt ) ; spacePop ( ctxt ) ; if ( nsNr != ctxt -> nsNr ) nsPop ( ctxt , ctxt -> nsNr - nsNr ) ; if ( ret != NULL && ctxt -> record_info ) { node_info . end_pos = ctxt -> input -> consumed + ( CUR_PTR - ctxt -> input -> base ) ; node_info . end_line = ctxt -> input -> line ; node_info . node = ret ; xmlParserAddNodeInfo ( ctxt , & node_info ) ; } return ; } if ( RAW == '>' ) { NEXT1 ; } else { xmlFatalErrMsgStrIntStr ( ctxt , XML_ERR_GT_REQUIRED , ""Couldn\'t find end of Start Tag %s line %d\\n"" , name , line , NULL ) ; nodePop ( ctxt ) ; namePop ( ctxt ) ; spacePop ( ctxt ) ; if ( nsNr != ctxt -> nsNr ) nsPop ( ctxt , ctxt -> nsNr - nsNr ) ; if ( ret != NULL && ctxt -> record_info ) { node_info . end_pos = ctxt -> input -> consumed +" 880,CWE-310 break ; case SSL3_ST_SW_SRVR_HELLO_A : case SSL3_ST_SW_SRVR_HELLO_B : ret = ssl3_send_server_hello ( s ) ; if ( ret <= 0 ) goto end ; # ifndef OPENSSL_NO_TLSEXT if ( s -> hit ) { if ( s -> tlsext_ticket_expected ) s -> state = SSL3_ST_SW_SESSION_TICKET_A ; else s -> state = SSL3_ST_SW_CHANGE_A ; } # else if ( s -> hit ) s -> state = SSL3_ST_SW_CHANGE_A ; # endif else s -> state = SSL3_ST_SW_CERT_A ; s -> init_num = 0 ; break ; case SSL3_ST_SW_CERT_A : case SSL3_ST_SW_CERT_B : if ( ! ( s -> s3 -> tmp . new_cipher -> algorithm_auth & ( SSL_aNULL | SSL_aKRB5 | SSL_aSRP ) ) && ! ( s -> s3 -> tmp . new_cipher -> algorithm_mkey & SSL_kPSK ) ) { ret = ssl3_send_server_certificate ( s ) ; if ( ret <= 0 ) goto end ; # ifndef OPENSSL_NO_TLSEXT if ( s -> tlsext_status_expected ) s -> state = SSL3_ST_SW_CERT_STATUS_A ; else s -> state = SSL3_ST_SW_KEY_EXCH_A ; } else { skip = 1 ; s -> state = SSL3_ST_SW_KEY_EXCH_A ; } # else } else skip = 1 ; s -> state = SSL3_ST_SW_KEY_EXCH_A ; # endif s -> init_num = 0 ; break ; case SSL3_ST_SW_KEY_EXCH_A : case SSL3_ST_SW_KEY_EXCH_B : alg_k = s -> s3 -> tmp . new_cipher -> algorithm_mkey ; if ( ( s -> options & SSL_OP_EPHEMERAL_RSA ) # ifndef OPENSSL_NO_KRB5 && ! ( alg_k & SSL_kKRB5 ) # endif ) s -> s3 -> tmp . use_rsa_tmp = 1 ; else s -> s3 -> tmp . use_rsa_tmp = 0 ; if ( s -> s3 -> tmp . use_rsa_tmp # ifndef OPENSSL_NO_PSK || ( ( alg_k & SSL_kPSK ) && s -> ctx -> psk_identity_hint ) # endif # ifndef OPENSSL_NO_SRP || ( alg_k & SSL_kSRP ) # endif || ( alg_k & SSL_kDHE ) || ( alg_k & SSL_kECDHE ) || ( ( alg_k & SSL_kRSA ) && ( s -> cert -> pkeys [ SSL_PKEY_RSA_ENC ] . privatekey == NULL || ( SSL_C_IS_EXPORT ( s -> s3 -> tmp . new_cipher ) && EVP_PKEY_size ( s -> cert -> pkeys [ SSL_PKEY_RSA_ENC ] . privatekey ) * 8 > SSL_C_EXPORT_PKEYLENGTH ( s -> s3 -> tmp . new_cipher ) ) ) ) ) { ret = ssl3_send_server_key_exchange ( s ) ; if ( ret <= 0 ) goto end ; } else skip = 1 ; s -> state = SSL3_ST_SW_CERT_REQ_A ; s -> init_num = 0 ; break ; case SSL3_ST_SW_CERT_REQ_A : case SSL3_ST_SW_CERT_REQ_B : if ( ! ( s -> verify_mode & SSL_VERIFY_PEER ) || ( ( s -> session -> peer != NULL ) && ( s -> verify_mode & SSL_VERIFY_CLIENT_ONCE ) ) || ( ( s -> s3 -> tmp . new_cipher -> algorithm_auth & SSL_aNULL ) && ! ( s -> verify_mode & SSL_VERIFY_FAIL_IF_NO_PEER_CERT ) ) || ( s -> s3 -> tmp . new_cipher -> algorithm_auth & SSL_aKRB5 ) || ( s -> s3 -> tmp . new_cipher -> algorithm_auth & SSL_aSRP ) || ( s -> s3 -> tmp . new_cipher -> algorithm_mkey & SSL_kPSK ) ) { skip = 1 ; s -> s3 -> tmp . cert_request = 0 ; s -> state = SSL3_ST_SW_SRVR_DONE_A ; if ( s -> s3 -> handshake_buffer ) if ( ! ssl3_digest_cached_records ( s ) ) return - 1 ; } else { s -> s3 -> tmp . cert_request = 1 ; ret = ssl3_send_certificate_request ( s ) ; if ( ret <= 0 ) goto end ; # ifndef NETSCAPE_HANG_BUG,break ; case SSL3_ST_SW_SRVR_HELLO_A : case SSL3_ST_SW_SRVR_HELLO_B : ret = ssl3_send_server_hello ( s ) ; if ( ret <= 0 ) goto end ; # ifndef OPENSSL_NO_TLSEXT if ( s -> hit ) { if ( s -> tlsext_ticket_expected ) s -> state = SSL3_ST_SW_SESSION_TICKET_A ; else s -> state = SSL3_ST_SW_CHANGE_A ; } # else if ( s -> hit ) s -> state = SSL3_ST_SW_CHANGE_A ; # endif else s -> state = SSL3_ST_SW_CERT_A ; s -> init_num = 0 ; break ; case SSL3_ST_SW_CERT_A : case SSL3_ST_SW_CERT_B : if ( ! ( s -> s3 -> tmp . new_cipher -> algorithm_auth & ( SSL_aNULL | SSL_aKRB5 | SSL_aSRP ) ) && ! ( s -> s3 -> tmp . new_cipher -> algorithm_mkey & SSL_kPSK ) ) { ret = ssl3_send_server_certificate ( s ) ; if ( ret <= 0 ) goto end ; # ifndef OPENSSL_NO_TLSEXT if ( s -> tlsext_status_expected ) s -> state = SSL3_ST_SW_CERT_STATUS_A ; else s -> state = SSL3_ST_SW_KEY_EXCH_A ; } else { skip = 1 ; s -> state = SSL3_ST_SW_KEY_EXCH_A ; } # else } else skip = 1 ; s -> state = SSL3_ST_SW_KEY_EXCH_A ; # endif s -> init_num = 0 ; break ; case SSL3_ST_SW_KEY_EXCH_A : case SSL3_ST_SW_KEY_EXCH_B : alg_k = s -> s3 -> tmp . new_cipher -> algorithm_mkey ; s -> s3 -> tmp . use_rsa_tmp = 0 ; if ( # ifndef OPENSSL_NO_PSK || ( ( alg_k & SSL_kPSK ) && s -> ctx -> psk_identity_hint ) # endif # ifndef OPENSSL_NO_SRP || ( alg_k & SSL_kSRP ) # endif || ( alg_k & SSL_kDHE ) || ( alg_k & SSL_kECDHE ) || ( ( alg_k & SSL_kRSA ) && ( s -> cert -> pkeys [ SSL_PKEY_RSA_ENC ] . privatekey == NULL || ( SSL_C_IS_EXPORT ( s -> s3 -> tmp . new_cipher ) && EVP_PKEY_size ( s -> cert -> pkeys [ SSL_PKEY_RSA_ENC ] . privatekey ) * 8 > SSL_C_EXPORT_PKEYLENGTH ( s -> s3 -> tmp . new_cipher ) ) ) ) ) { ret = ssl3_send_server_key_exchange ( s ) ; if ( ret <= 0 ) goto end ; } else skip = 1 ; s -> state = SSL3_ST_SW_CERT_REQ_A ; s -> init_num = 0 ; break ; case SSL3_ST_SW_CERT_REQ_A : case SSL3_ST_SW_CERT_REQ_B : if ( ! ( s -> verify_mode & SSL_VERIFY_PEER ) || ( ( s -> session -> peer != NULL ) && ( s -> verify_mode & SSL_VERIFY_CLIENT_ONCE ) ) || ( ( s -> s3 -> tmp . new_cipher -> algorithm_auth & SSL_aNULL ) && ! ( s -> verify_mode & SSL_VERIFY_FAIL_IF_NO_PEER_CERT ) ) || ( s -> s3 -> tmp . new_cipher -> algorithm_auth & SSL_aKRB5 ) || ( s -> s3 -> tmp . new_cipher -> algorithm_auth & SSL_aSRP ) || ( s -> s3 -> tmp . new_cipher -> algorithm_mkey & SSL_kPSK ) ) { skip = 1 ; s -> s3 -> tmp . cert_request = 0 ; s -> state = SSL3_ST_SW_SRVR_DONE_A ; if ( s -> s3 -> handshake_buffer ) if ( ! ssl3_digest_cached_records ( s ) ) return - 1 ; } else { s -> s3 -> tmp . cert_request = 1 ; ret = ssl3_send_certificate_request ( s ) ; if ( ret <= 0 ) goto end ; # ifndef NETSCAPE_HANG_BUG 881,"CWE-284 static bool write_hci_command ( hci_packet_t type , const void * packet , size_t length ) { int sock = socket ( AF_INET , SOCK_STREAM , IPPROTO_TCP ) ; if ( sock == INVALID_FD ) goto error ; struct sockaddr_in addr ; addr . sin_family = AF_INET ; addr . sin_addr . s_addr = htonl ( 0x7F000001 ) ; addr . sin_port = htons ( 8873 ) ; if ( connect ( sock , ( const struct sockaddr * ) & addr , sizeof ( addr ) ) == - 1 ) goto error ; if ( send ( sock , & type , 1 , 0 ) != 1 ) goto error ; if ( send ( sock , & length , 2 , 0 ) != 2 ) goto error ; if ( send ( sock , packet , length , 0 ) != ( ssize_t ) length ) goto error ; close ( sock ) ; return true ; error : ; close ( sock ) ; return false ; }","static bool write_hci_command ( hci_packet_t type , const void * packet , size_t length ) { int sock = socket ( AF_INET , SOCK_STREAM , IPPROTO_TCP ) ; if ( sock == INVALID_FD ) goto error ; struct sockaddr_in addr ; addr . sin_family = AF_INET ; addr . sin_addr . s_addr = htonl ( 0x7F000001 ) ; addr . sin_port = htons ( 8873 ) ; if ( TEMP_FAILURE_RETRY ( connect ( sock , ( const struct sockaddr * ) & addr , sizeof ( addr ) ) ) == - 1 ) goto error ; if ( TEMP_FAILURE_RETRY ( send ( sock , & type , 1 , 0 ) ) != 1 ) goto error ; if ( TEMP_FAILURE_RETRY ( send ( sock , & length , 2 , 0 ) ) != 2 ) goto error ; if ( TEMP_FAILURE_RETRY ( send ( sock , packet , length , 0 ) ) != ( ssize_t ) length ) goto error ; close ( sock ) ; return true ; error : ; close ( sock ) ; return false ; }" 882,"CWE-120 int16_t rssi = RxDoneParams . Rssi ; int8_t snr = RxDoneParams . Snr ; uint8_t pktHeaderLen = 0 ; uint32_t downLinkCounter = 0 ; uint32_t address = MacCtx . NvmCtx -> DevAddr ; uint8_t multicast = 0 ; AddressIdentifier_t addrID = UNICAST_DEV_ADDR ; FCntIdentifier_t fCntID ; MacCtx . McpsConfirm . AckReceived = false ; MacCtx . McpsIndication . Rssi = rssi ; MacCtx . McpsIndication . Snr = snr ; MacCtx . McpsIndication . RxSlot = MacCtx . RxSlot ; MacCtx . McpsIndication . Port = 0 ; MacCtx . McpsIndication . Multicast = 0 ; MacCtx . McpsIndication . FramePending = 0 ; MacCtx . McpsIndication . Buffer = NULL ; MacCtx . McpsIndication . BufferSize = 0 ; MacCtx . McpsIndication . RxData = false ; MacCtx . McpsIndication . AckReceived = false ; MacCtx . McpsIndication . DownLinkCounter = 0 ; MacCtx . McpsIndication . McpsIndication = MCPS_UNCONFIRMED ; MacCtx . McpsIndication . DevAddress = 0 ; MacCtx . McpsIndication . DeviceTimeAnsReceived = false ; Radio . Sleep ( ) ; TimerStop ( & MacCtx . RxWindowTimer2 ) ; if ( LoRaMacClassBRxBeacon ( payload , size ) == true ) { MacCtx . MlmeIndication . BeaconInfo . Rssi = rssi ; MacCtx . MlmeIndication . BeaconInfo . Snr = snr ; return ; } if ( MacCtx . NvmCtx -> DeviceClass == CLASS_B ) { if ( LoRaMacClassBIsPingExpected ( ) == true ) { LoRaMacClassBSetPingSlotState ( PINGSLOT_STATE_CALC_PING_OFFSET ) ; LoRaMacClassBPingSlotTimerEvent ( NULL ) ; MacCtx . McpsIndication . RxSlot = RX_SLOT_WIN_CLASS_B_PING_SLOT ; } else if ( LoRaMacClassBIsMulticastExpected ( ) == true ) { LoRaMacClassBSetMulticastSlotState ( PINGSLOT_STATE_CALC_PING_OFFSET ) ; LoRaMacClassBMulticastSlotTimerEvent ( NULL ) ; MacCtx . McpsIndication . RxSlot = RX_SLOT_WIN_CLASS_B_MULTICAST_SLOT ; } } macHdr . Value = payload [ pktHeaderLen ++ ] ; switch ( macHdr . Bits . MType ) { case FRAME_TYPE_JOIN_ACCEPT : macMsgJoinAccept . Buffer = payload ; macMsgJoinAccept . BufSize = size ; if ( MacCtx . NvmCtx -> NetworkActivation != ACTIVATION_TYPE_NONE ) { MacCtx . McpsIndication . Status = LORAMAC_EVENT_INFO_STATUS_ERROR ; PrepareRxDoneAbort ( ) ; return ; } macCryptoStatus = LoRaMacCryptoHandleJoinAccept ( JOIN_REQ , SecureElementGetJoinEui ( ) , & macMsgJoinAccept ) ; if ( LORAMAC_CRYPTO_SUCCESS == macCryptoStatus ) { MacCtx . NvmCtx -> NetID = ( uint32_t ) macMsgJoinAccept . NetID [ 0 ] ; MacCtx . NvmCtx -> NetID |= ( ( uint32_t ) macMsgJoinAccept . NetID [ 1 ] << 8 ) ; MacCtx . NvmCtx -> NetID |= ( ( uint32_t ) macMsgJoinAccept . NetID [ 2 ] << 16 ) ; MacCtx . NvmCtx -> DevAddr = macMsgJoinAccept . DevAddr ; MacCtx . NvmCtx -> MacParams . Rx1DrOffset = macMsgJoinAccept . DLSettings . Bits . RX1DRoffset ; MacCtx . NvmCtx -> MacParams . Rx2Channel . Datarate = macMsgJoinAccept . DLSettings . Bits . RX2DataRate ; MacCtx . NvmCtx -> MacParams . RxCChannel . Datarate = macMsgJoinAccept . DLSettings . Bits . RX2DataRate ; MacCtx . NvmCtx -> MacParams . ReceiveDelay1 = macMsgJoinAccept . RxDelay ; if ( MacCtx . NvmCtx -> MacParams . ReceiveDelay1 == 0 ) { MacCtx . NvmCtx -> MacParams . ReceiveDelay1 = 1 ; } MacCtx . NvmCtx -> MacParams . ReceiveDelay1 *= 1000 ; MacCtx . NvmCtx -> MacParams . ReceiveDelay2 = MacCtx . NvmCtx -> MacParams . ReceiveDelay1 + 1000 ; MacCtx . NvmCtx -> Version . Fields . Minor = 0 ; applyCFList . Payload = macMsgJoinAccept . CFList ; applyCFList . Size = size - 17 ; RegionApplyCFList ( MacCtx . NvmCtx -> Region , & applyCFList ) ; MacCtx . NvmCtx -> NetworkActivation = ACTIVATION_TYPE_OTAA ; if ( LoRaMacConfirmQueueIsCmdActive ( MLME_JOIN ) == true ) { LoRaMacConfirmQueueSetStatus ( LORAMAC_EVENT_INFO_STATUS_OK , MLME_JOIN ) ; } } else { if ( LoRaMacConfirmQueueIsCmdActive ( MLME_JOIN ) == true ) { LoRaMacConfirmQueueSetStatus ( LORAMAC_EVENT_INFO_STATUS_JOIN_FAIL , MLME_JOIN ) ; } } break ; case FRAME_TYPE_DATA_CONFIRMED_DOWN : MacCtx . McpsIndication . McpsIndication = MCPS_CONFIRMED ; case FRAME_TYPE_DATA_UNCONFIRMED_DOWN : getPhy . UplinkDwellTime = MacCtx . NvmCtx -> MacParams . DownlinkDwellTime ; getPhy . Datarate = MacCtx . McpsIndication . RxDatarate ; getPhy . Attribute = PHY_MAX_PAYLOAD ; phyParam = RegionGetPhyParam ( MacCtx . NvmCtx -> Region , & getPhy ) ; if ( MAX ( 0 , ( int16_t ) ( ( int16_t ) size - ( int16_t ) LORA_MAC_FRMPAYLOAD_OVERHEAD ) ) > ( int16_t ) phyParam . Value ) { MacCtx . McpsIndication . Status = LORAMAC_EVENT_INFO_STATUS_ERROR ; PrepareRxDoneAbort ( ) ; return ; } macMsgData . Buffer = payload ; macMsgData . BufSize = size ; macMsgData . FRMPayload = MacCtx . RxPayload ; macMsgData . FRMPayloadSize = LORAMAC_PHY_MAXPAYLOAD ; if ( LORAMAC_PARSER_SUCCESS != LoRaMacParserData ( & macMsgData ) ) { MacCtx . McpsIndication . Status = LORAMAC_EVENT_INFO_STATUS_ERROR ; PrepareRxDoneAbort ( ) ; return ; } MacCtx . McpsIndication . DevAddress = macMsgData . FHDR . DevAddr ; FType_t fType ; if ( LORAMAC_STATUS_OK != DetermineFrameType ( & macMsgData , & fType ) ) { MacCtx . McpsIndication . Status = LORAMAC_EVENT_INFO_STATUS_ERROR ; PrepareRxDoneAbort ( ) ; return ; } multicast = 0 ; downLinkCounter = 0 ; for ( uint8_t i = 0 ; i < LORAMAC_MAX_MC_CTX ; i ++ ) { if ( ( MacCtx . NvmCtx -> MulticastChannelList [ i ] . ChannelParams . Address == macMsgData . FHDR . DevAddr ) && ( MacCtx . NvmCtx -> MulticastChannelList [ i ] . ChannelParams . IsEnabled == true ) ) { multicast = 1 ; addrID = MacCtx . NvmCtx -> MulticastChannelList [ i ] . ChannelParams . GroupID ; downLinkCounter = * ( MacCtx . NvmCtx -> MulticastChannelList [ i ] . DownLinkCounter ) ; address = MacCtx . NvmCtx -> MulticastChannelList [ i ] . ChannelParams . Address ; if ( MacCtx . NvmCtx -> DeviceClass == CLASS_C ) { MacCtx . McpsIndication . RxSlot = RX_SLOT_WIN_CLASS_C_MULTICAST ; } break ; } } if ( ( multicast == 1 ) && ( ( fType != FRAME_TYPE_D ) || ( macMsgData . FHDR . FCtrl . Bits . Ack == true ) || ( macMsgData . FHDR . FCtrl . Bits . AdrAckReq == true ) ) ) { MacCtx . McpsIndication . Status = LORAMAC_EVENT_INFO_STATUS_ERROR ; PrepareRxDoneAbort ( ) ; return ; } getPhy . Attribute = PHY_MAX_FCNT_GAP ;","int16_t rssi = RxDoneParams . Rssi ; int8_t snr = RxDoneParams . Snr ; uint8_t pktHeaderLen = 0 ; uint32_t downLinkCounter = 0 ; uint32_t address = MacCtx . NvmCtx -> DevAddr ; uint8_t multicast = 0 ; AddressIdentifier_t addrID = UNICAST_DEV_ADDR ; FCntIdentifier_t fCntID ; MacCtx . McpsConfirm . AckReceived = false ; MacCtx . McpsIndication . Rssi = rssi ; MacCtx . McpsIndication . Snr = snr ; MacCtx . McpsIndication . RxSlot = MacCtx . RxSlot ; MacCtx . McpsIndication . Port = 0 ; MacCtx . McpsIndication . Multicast = 0 ; MacCtx . McpsIndication . FramePending = 0 ; MacCtx . McpsIndication . Buffer = NULL ; MacCtx . McpsIndication . BufferSize = 0 ; MacCtx . McpsIndication . RxData = false ; MacCtx . McpsIndication . AckReceived = false ; MacCtx . McpsIndication . DownLinkCounter = 0 ; MacCtx . McpsIndication . McpsIndication = MCPS_UNCONFIRMED ; MacCtx . McpsIndication . DevAddress = 0 ; MacCtx . McpsIndication . DeviceTimeAnsReceived = false ; Radio . Sleep ( ) ; TimerStop ( & MacCtx . RxWindowTimer2 ) ; if ( LoRaMacClassBRxBeacon ( payload , size ) == true ) { MacCtx . MlmeIndication . BeaconInfo . Rssi = rssi ; MacCtx . MlmeIndication . BeaconInfo . Snr = snr ; return ; } if ( MacCtx . NvmCtx -> DeviceClass == CLASS_B ) { if ( LoRaMacClassBIsPingExpected ( ) == true ) { LoRaMacClassBSetPingSlotState ( PINGSLOT_STATE_CALC_PING_OFFSET ) ; LoRaMacClassBPingSlotTimerEvent ( NULL ) ; MacCtx . McpsIndication . RxSlot = RX_SLOT_WIN_CLASS_B_PING_SLOT ; } else if ( LoRaMacClassBIsMulticastExpected ( ) == true ) { LoRaMacClassBSetMulticastSlotState ( PINGSLOT_STATE_CALC_PING_OFFSET ) ; LoRaMacClassBMulticastSlotTimerEvent ( NULL ) ; MacCtx . McpsIndication . RxSlot = RX_SLOT_WIN_CLASS_B_MULTICAST_SLOT ; } } macHdr . Value = payload [ pktHeaderLen ++ ] ; switch ( macHdr . Bits . MType ) { case FRAME_TYPE_JOIN_ACCEPT : if ( size < LORAMAC_JOIN_ACCEPT_FRAME_MIN_SIZE ) { MacCtx . McpsIndication . Status = LORAMAC_EVENT_INFO_STATUS_ERROR ; PrepareRxDoneAbort ( ) ; return ; } macMsgJoinAccept . Buffer = payload ; macMsgJoinAccept . BufSize = size ; if ( MacCtx . NvmCtx -> NetworkActivation != ACTIVATION_TYPE_NONE ) { MacCtx . McpsIndication . Status = LORAMAC_EVENT_INFO_STATUS_ERROR ; PrepareRxDoneAbort ( ) ; return ; } macCryptoStatus = LoRaMacCryptoHandleJoinAccept ( JOIN_REQ , SecureElementGetJoinEui ( ) , & macMsgJoinAccept ) ; if ( LORAMAC_CRYPTO_SUCCESS == macCryptoStatus ) { MacCtx . NvmCtx -> NetID = ( uint32_t ) macMsgJoinAccept . NetID [ 0 ] ; MacCtx . NvmCtx -> NetID |= ( ( uint32_t ) macMsgJoinAccept . NetID [ 1 ] << 8 ) ; MacCtx . NvmCtx -> NetID |= ( ( uint32_t ) macMsgJoinAccept . NetID [ 2 ] << 16 ) ; MacCtx . NvmCtx -> DevAddr = macMsgJoinAccept . DevAddr ; MacCtx . NvmCtx -> MacParams . Rx1DrOffset = macMsgJoinAccept . DLSettings . Bits . RX1DRoffset ; MacCtx . NvmCtx -> MacParams . Rx2Channel . Datarate = macMsgJoinAccept . DLSettings . Bits . RX2DataRate ; MacCtx . NvmCtx -> MacParams . RxCChannel . Datarate = macMsgJoinAccept . DLSettings . Bits . RX2DataRate ; MacCtx . NvmCtx -> MacParams . ReceiveDelay1 = macMsgJoinAccept . RxDelay ; if ( MacCtx . NvmCtx -> MacParams . ReceiveDelay1 == 0 ) { MacCtx . NvmCtx -> MacParams . ReceiveDelay1 = 1 ; } MacCtx . NvmCtx -> MacParams . ReceiveDelay1 *= 1000 ; MacCtx . NvmCtx -> MacParams . ReceiveDelay2 = MacCtx . NvmCtx -> MacParams . ReceiveDelay1 + 1000 ; MacCtx . NvmCtx -> Version . Fields . Minor = 0 ; applyCFList . Payload = macMsgJoinAccept . CFList ; applyCFList . Size = size - 17 ; RegionApplyCFList ( MacCtx . NvmCtx -> Region , & applyCFList ) ; MacCtx . NvmCtx -> NetworkActivation = ACTIVATION_TYPE_OTAA ; if ( LoRaMacConfirmQueueIsCmdActive ( MLME_JOIN ) == true ) { LoRaMacConfirmQueueSetStatus ( LORAMAC_EVENT_INFO_STATUS_OK , MLME_JOIN ) ; } } else { if ( LoRaMacConfirmQueueIsCmdActive ( MLME_JOIN ) == true ) { LoRaMacConfirmQueueSetStatus ( LORAMAC_EVENT_INFO_STATUS_JOIN_FAIL , MLME_JOIN ) ; } } break ; case FRAME_TYPE_DATA_CONFIRMED_DOWN : MacCtx . McpsIndication . McpsIndication = MCPS_CONFIRMED ; case FRAME_TYPE_DATA_UNCONFIRMED_DOWN : getPhy . UplinkDwellTime = MacCtx . NvmCtx -> MacParams . DownlinkDwellTime ; getPhy . Datarate = MacCtx . McpsIndication . RxDatarate ; getPhy . Attribute = PHY_MAX_PAYLOAD ; phyParam = RegionGetPhyParam ( MacCtx . NvmCtx -> Region , & getPhy ) ; if ( ( MAX ( 0 , ( int16_t ) ( ( int16_t ) size - ( int16_t ) LORAMAC_FRAME_PAYLOAD_OVERHEAD_SIZE ) ) > ( int16_t ) phyParam . Value ) || ( size < LORAMAC_FRAME_PAYLOAD_MIN_SIZE ) ) { MacCtx . McpsIndication . Status = LORAMAC_EVENT_INFO_STATUS_ERROR ; PrepareRxDoneAbort ( ) ; return ; } macMsgData . Buffer = payload ; macMsgData . BufSize = size ; macMsgData . FRMPayload = MacCtx . RxPayload ; macMsgData . FRMPayloadSize = LORAMAC_PHY_MAXPAYLOAD ; if ( LORAMAC_PARSER_SUCCESS != LoRaMacParserData ( & macMsgData ) ) { MacCtx . McpsIndication . Status = LORAMAC_EVENT_INFO_STATUS_ERROR ; PrepareRxDoneAbort ( ) ; return ; } MacCtx . McpsIndication . DevAddress = macMsgData . FHDR . DevAddr ; FType_t fType ; if ( LORAMAC_STATUS_OK != DetermineFrameType ( & macMsgData , & fType ) ) { MacCtx . McpsIndication . Status = LORAMAC_EVENT_INFO_STATUS_ERROR ; PrepareRxDoneAbort ( ) ; return ; } multicast = 0 ; downLinkCounter = 0 ; for ( uint8_t i = 0 ; i < LORAMAC_MAX_MC_CTX ; i ++ ) { if ( ( MacCtx . NvmCtx -> MulticastChannelList [ i ] . ChannelParams . Address == macMsgData . FHDR . DevAddr ) && ( MacCtx . NvmCtx -> MulticastChannelList [ i ] . ChannelParams . IsEnabled == true ) ) { multicast = 1 ; addrID = MacCtx . NvmCtx -> MulticastChannelList [ i ] . ChannelParams . GroupID ; downLinkCounter = * ( MacCtx . NvmCtx -> MulticastChannelList [ i ] . DownLinkCounter ) ; address = MacCtx . NvmCtx -> MulticastChannelList [ i ] . ChannelParams . Address ; if ( MacCtx . NvmCtx -> DeviceClass == CLASS_C ) { MacCtx . McpsIndication . RxSlot = RX_SLOT_WIN_CLASS_C_MULTICAST ; } break ; } } if ( ( multicast == 1 ) && ( ( fType != FRAME_TYPE_D ) || ( macMsgData . FHDR . FCtrl . Bits . Ack == true ) || ( macMsgData . FHDR . FCtrl . Bits . AdrAckReq == true ) ) ) { MacCtx . McpsIndication . Status = LORAMAC_EVENT_INFO_STATUS_ERROR ; PrepareRxDoneAbort ( ) ; return ; } getPhy . Attribute = PHY_MAX_FCNT_GAP ;" 883,"CWE-119 { mutt_debug ( 2 , ""Couldn\'t get service name for [%s]\\n"" , buf1 ) ; return IMAP_AUTH_UNAVAIL ; } else if ( DebugLevel >= 2 ) { gss_display_name ( & min_stat , target_name , & request_buf , & mech_name ) ; mutt_debug ( 2 , ""Using service name [%s]\\n"" , ( char * ) request_buf . value ) ; gss_release_buffer ( & min_stat , & request_buf ) ; } sec_token = GSS_C_NO_BUFFER ; context = GSS_C_NO_CONTEXT ; maj_stat = gss_init_sec_context ( & min_stat , GSS_C_NO_CREDENTIAL , & context , target_name , GSS_C_NO_OID , GSS_C_MUTUAL_FLAG | GSS_C_SEQUENCE_FLAG , 0 , GSS_C_NO_CHANNEL_BINDINGS , sec_token , NULL , & send_token , ( unsigned int * ) & cflags , NULL ) ; if ( maj_stat != GSS_S_COMPLETE && maj_stat != GSS_S_CONTINUE_NEEDED ) { print_gss_error ( maj_stat , min_stat ) ; mutt_debug ( 1 , ""Error acquiring credentials - no TGT?\\n"" ) ; gss_release_name ( & min_stat , & target_name ) ; return IMAP_AUTH_UNAVAIL ; } mutt_message ( _ ( ""Authenticating (GSSAPI)..."" ) ) ; imap_cmd_start ( idata , ""AUTHENTICATE GSSAPI"" ) ; do rc = imap_cmd_step ( idata ) ; while ( rc == IMAP_CMD_CONTINUE ) ; if ( rc != IMAP_CMD_RESPOND ) { mutt_debug ( 2 , ""Invalid response from server: %s\\n"" , buf1 ) ; gss_release_name ( & min_stat , & target_name ) ; goto bail ; } mutt_debug ( 2 , ""Sending credentials\\n"" ) ; mutt_b64_encode ( buf1 , send_token . value , send_token . length , sizeof ( buf1 ) - 2 ) ; gss_release_buffer ( & min_stat , & send_token ) ; mutt_str_strcat ( buf1 , sizeof ( buf1 ) , ""\\r\\n"" ) ; mutt_socket_send ( idata -> conn , buf1 ) ; while ( maj_stat == GSS_S_CONTINUE_NEEDED ) { do rc = imap_cmd_step ( idata ) ; while ( rc == IMAP_CMD_CONTINUE ) ; if ( rc != IMAP_CMD_RESPOND ) { mutt_debug ( 1 , ""#1 Error receiving server response.\\n"" ) ; gss_release_name ( & min_stat , & target_name ) ; goto bail ; } request_buf . length = mutt_b64_decode ( buf2 , idata -> buf + 2 ) ; request_buf . value = buf2 ; sec_token = & request_buf ; maj_stat = gss_init_sec_context ( & min_stat , GSS_C_NO_CREDENTIAL , & context , target_name , GSS_C_NO_OID , GSS_C_MUTUAL_FLAG | GSS_C_SEQUENCE_FLAG , 0 , GSS_C_NO_CHANNEL_BINDINGS , sec_token , NULL , & send_token , ( unsigned int * ) & cflags , NULL ) ; if ( maj_stat != GSS_S_COMPLETE && maj_stat != GSS_S_CONTINUE_NEEDED ) { print_gss_error ( maj_stat , min_stat ) ; mutt_debug ( 1 , ""Error exchanging credentials\\n"" ) ; gss_release_name ( & min_stat , & target_name ) ; goto err_abort_cmd ; } mutt_b64_encode ( buf1 , send_token . value , send_token . length , sizeof ( buf1 ) - 2 ) ; gss_release_buffer ( & min_stat , & send_token ) ; mutt_str_strcat ( buf1 , sizeof ( buf1 ) , ""\\r\\n"" ) ; mutt_socket_send ( idata -> conn , buf1 ) ; } gss_release_name ( & min_stat , & target_name ) ; do rc = imap_cmd_step ( idata ) ; while ( rc == IMAP_CMD_CONTINUE ) ; if ( rc != IMAP_CMD_RESPOND ) { mutt_debug ( 1 , ""#2 Error receiving server response.\\n"" ) ; goto bail ; } request_buf . length = mutt_b64_decode ( buf2 , idata -> buf + 2 ) ; request_buf . value = buf2 ; maj_stat = gss_unwrap ( & min_stat , context , & request_buf , & send_token , & cflags , & quality ) ; if ( maj_stat != GSS_S_COMPLETE ) { print_gss_error ( maj_stat , min_stat ) ; mutt_debug ( 2 , ""Couldn\'t unwrap security level data\\n"" ) ; gss_release_buffer ( & min_stat , & send_token ) ; goto err_abort_cmd ; } mutt_debug ( 2 , ""Credential exchange complete\\n"" ) ; server_conf_flags = ( ( char * ) send_token . value ) [ 0 ] ; if ( ! ( ( ( char * ) send_token . value ) [ 0 ] & GSS_AUTH_P_NONE ) ) { mutt_debug ( 2 , ""Server requires integrity or privacy\\n"" ) ; gss_release_buffer ( & min_stat , & send_token ) ; goto err_abort_cmd ; } ( ( char * ) send_token . value ) [ 0 ] = '\\0' ; buf_size = ntohl ( * ( ( long * ) send_token . value ) ) ; gss_release_buffer ( & min_stat , & send_token ) ; mutt_debug ( 2 , ""Unwrapped security level flags: %c%c%c\\n"" , ( server_conf_flags & GSS_AUTH_P_NONE ) ? 'N' : '-' , ( server_conf_flags & GSS_AUTH_P_INTEGRITY ) ? 'I' : '-' , ( server_conf_flags & GSS_AUTH_P_PRIVACY ) ? 'P' : '-' ) ; mutt_debug ( 2 , ""Maximum GSS token size is %ld\\n"" , buf_size ) ; buf_size = htonl ( buf_size ) ; memcpy ( buf1 , & buf_size , 4 ) ; buf1 [ 0 ] = GSS_AUTH_P_NONE ; strncpy ( buf1 + 4 , idata -> conn -> account . user , sizeof ( buf1 ) - 4 ) ; request_buf . value = buf1 ; request_buf . length = 4 + strlen ( idata -> conn -> account . user ) ; maj_stat = gss_wrap ( & min_stat , context , 0 , GSS_C_QOP_DEFAULT , & request_buf , & cflags , & send_token ) ; if ( maj_stat != GSS_S_COMPLETE ) { mutt_debug ( 2 , ""Error creating login request\\n"" ) ; goto err_abort_cmd ; } mutt_b64_encode ( buf1 , send_token . value , send_token . length , sizeof ( buf1 ) - 2 ) ; mutt_debug ( 2 , ""Requesting authorisation as %s\\n"" , idata -> conn -> account . user ) ; mutt_str_strcat ( buf1 , sizeof ( buf1 ) , ""\\r\\n"" ) ; mutt_socket_send ( idata -> conn , buf1 ) ; do rc = imap_cmd_step ( idata ) ; while ( rc == IMAP_CMD_CONTINUE ) ; if ( rc == IMAP_CMD_RESPOND ) { mutt_debug ( 1 , ""Unexpected server continuation request.\\n"" ) ; goto err_abort_cmd ; }","{ mutt_debug ( 2 , ""Couldn\'t get service name for [%s]\\n"" , buf1 ) ; return IMAP_AUTH_UNAVAIL ; } else if ( DebugLevel >= 2 ) { gss_display_name ( & min_stat , target_name , & request_buf , & mech_name ) ; mutt_debug ( 2 , ""Using service name [%s]\\n"" , ( char * ) request_buf . value ) ; gss_release_buffer ( & min_stat , & request_buf ) ; } sec_token = GSS_C_NO_BUFFER ; context = GSS_C_NO_CONTEXT ; maj_stat = gss_init_sec_context ( & min_stat , GSS_C_NO_CREDENTIAL , & context , target_name , GSS_C_NO_OID , GSS_C_MUTUAL_FLAG | GSS_C_SEQUENCE_FLAG , 0 , GSS_C_NO_CHANNEL_BINDINGS , sec_token , NULL , & send_token , ( unsigned int * ) & cflags , NULL ) ; if ( maj_stat != GSS_S_COMPLETE && maj_stat != GSS_S_CONTINUE_NEEDED ) { print_gss_error ( maj_stat , min_stat ) ; mutt_debug ( 1 , ""Error acquiring credentials - no TGT?\\n"" ) ; gss_release_name ( & min_stat , & target_name ) ; return IMAP_AUTH_UNAVAIL ; } mutt_message ( _ ( ""Authenticating (GSSAPI)..."" ) ) ; imap_cmd_start ( idata , ""AUTHENTICATE GSSAPI"" ) ; do rc = imap_cmd_step ( idata ) ; while ( rc == IMAP_CMD_CONTINUE ) ; if ( rc != IMAP_CMD_RESPOND ) { mutt_debug ( 2 , ""Invalid response from server: %s\\n"" , buf1 ) ; gss_release_name ( & min_stat , & target_name ) ; goto bail ; } mutt_debug ( 2 , ""Sending credentials\\n"" ) ; mutt_b64_encode ( buf1 , send_token . value , send_token . length , sizeof ( buf1 ) - 2 ) ; gss_release_buffer ( & min_stat , & send_token ) ; mutt_str_strcat ( buf1 , sizeof ( buf1 ) , ""\\r\\n"" ) ; mutt_socket_send ( idata -> conn , buf1 ) ; while ( maj_stat == GSS_S_CONTINUE_NEEDED ) { do rc = imap_cmd_step ( idata ) ; while ( rc == IMAP_CMD_CONTINUE ) ; if ( rc != IMAP_CMD_RESPOND ) { mutt_debug ( 1 , ""#1 Error receiving server response.\\n"" ) ; gss_release_name ( & min_stat , & target_name ) ; goto bail ; } request_buf . length = mutt_b64_decode ( buf2 , idata -> buf + 2 , sizeof ( buf2 ) ) ; request_buf . value = buf2 ; sec_token = & request_buf ; maj_stat = gss_init_sec_context ( & min_stat , GSS_C_NO_CREDENTIAL , & context , target_name , GSS_C_NO_OID , GSS_C_MUTUAL_FLAG | GSS_C_SEQUENCE_FLAG , 0 , GSS_C_NO_CHANNEL_BINDINGS , sec_token , NULL , & send_token , ( unsigned int * ) & cflags , NULL ) ; if ( maj_stat != GSS_S_COMPLETE && maj_stat != GSS_S_CONTINUE_NEEDED ) { print_gss_error ( maj_stat , min_stat ) ; mutt_debug ( 1 , ""Error exchanging credentials\\n"" ) ; gss_release_name ( & min_stat , & target_name ) ; goto err_abort_cmd ; } mutt_b64_encode ( buf1 , send_token . value , send_token . length , sizeof ( buf1 ) - 2 ) ; gss_release_buffer ( & min_stat , & send_token ) ; mutt_str_strcat ( buf1 , sizeof ( buf1 ) , ""\\r\\n"" ) ; mutt_socket_send ( idata -> conn , buf1 ) ; } gss_release_name ( & min_stat , & target_name ) ; do rc = imap_cmd_step ( idata ) ; while ( rc == IMAP_CMD_CONTINUE ) ; if ( rc != IMAP_CMD_RESPOND ) { mutt_debug ( 1 , ""#2 Error receiving server response.\\n"" ) ; goto bail ; } request_buf . length = mutt_b64_decode ( buf2 , idata -> buf + 2 , sizeof ( buf2 ) ) ; request_buf . value = buf2 ; maj_stat = gss_unwrap ( & min_stat , context , & request_buf , & send_token , & cflags , & quality ) ; if ( maj_stat != GSS_S_COMPLETE ) { print_gss_error ( maj_stat , min_stat ) ; mutt_debug ( 2 , ""Couldn\'t unwrap security level data\\n"" ) ; gss_release_buffer ( & min_stat , & send_token ) ; goto err_abort_cmd ; } mutt_debug ( 2 , ""Credential exchange complete\\n"" ) ; server_conf_flags = ( ( char * ) send_token . value ) [ 0 ] ; if ( ! ( ( ( char * ) send_token . value ) [ 0 ] & GSS_AUTH_P_NONE ) ) { mutt_debug ( 2 , ""Server requires integrity or privacy\\n"" ) ; gss_release_buffer ( & min_stat , & send_token ) ; goto err_abort_cmd ; } ( ( char * ) send_token . value ) [ 0 ] = '\\0' ; buf_size = ntohl ( * ( ( long * ) send_token . value ) ) ; gss_release_buffer ( & min_stat , & send_token ) ; mutt_debug ( 2 , ""Unwrapped security level flags: %c%c%c\\n"" , ( server_conf_flags & GSS_AUTH_P_NONE ) ? 'N' : '-' , ( server_conf_flags & GSS_AUTH_P_INTEGRITY ) ? 'I' : '-' , ( server_conf_flags & GSS_AUTH_P_PRIVACY ) ? 'P' : '-' ) ; mutt_debug ( 2 , ""Maximum GSS token size is %ld\\n"" , buf_size ) ; buf_size = htonl ( buf_size ) ; memcpy ( buf1 , & buf_size , 4 ) ; buf1 [ 0 ] = GSS_AUTH_P_NONE ; strncpy ( buf1 + 4 , idata -> conn -> account . user , sizeof ( buf1 ) - 4 ) ; request_buf . value = buf1 ; request_buf . length = 4 + strlen ( idata -> conn -> account . user ) ; maj_stat = gss_wrap ( & min_stat , context , 0 , GSS_C_QOP_DEFAULT , & request_buf , & cflags , & send_token ) ; if ( maj_stat != GSS_S_COMPLETE ) { mutt_debug ( 2 , ""Error creating login request\\n"" ) ; goto err_abort_cmd ; } mutt_b64_encode ( buf1 , send_token . value , send_token . length , sizeof ( buf1 ) - 2 ) ; mutt_debug ( 2 , ""Requesting authorisation as %s\\n"" , idata -> conn -> account . user ) ; mutt_str_strcat ( buf1 , sizeof ( buf1 ) , ""\\r\\n"" ) ; mutt_socket_send ( idata -> conn , buf1 ) ; do rc = imap_cmd_step ( idata ) ; while ( rc == IMAP_CMD_CONTINUE ) ; if ( rc == IMAP_CMD_RESPOND ) { mutt_debug ( 1 , ""Unexpected server continuation request.\\n"" ) ; goto err_abort_cmd ; }" 884,"CWE-284 { int error ; my_bool first_argument_uses_wildcards = 0 ; char * wild ; MYSQL mysql ; MY_INIT ( argv [ 0 ] ) ; my_getopt_use_args_separator = TRUE ; if ( load_defaults ( ""my"" , load_default_groups , & argc , & argv ) ) exit ( 1 ) ; my_getopt_use_args_separator = FALSE ; get_options ( & argc , & argv ) ; wild = 0 ; if ( argc ) { char * pos = argv [ argc - 1 ] , * to ; for ( to = pos ; * pos ; pos ++ , to ++ ) { switch ( * pos ) { case '*' : * pos = '%' ; first_argument_uses_wildcards = 1 ; break ; case '?' : * pos = '_' ; first_argument_uses_wildcards = 1 ; break ; case '%' : case '_' : first_argument_uses_wildcards = 1 ; break ; case '\\\\' : pos ++ ; default : break ; } * to = * pos ; } * to = * pos ; } if ( first_argument_uses_wildcards ) wild = argv [ -- argc ] ; else if ( argc == 3 ) wild = argv [ -- argc ] ; if ( argc > 2 ) { fprintf ( stderr , ""%s: Too many arguments\\n"" , my_progname ) ; exit ( 1 ) ; } mysql_init ( & mysql ) ; if ( opt_compress ) mysql_options ( & mysql , MYSQL_OPT_COMPRESS , NullS ) ; # ifdef HAVE_OPENSSL if ( opt_use_ssl ) { mysql_ssl_set ( & mysql , opt_ssl_key , opt_ssl_cert , opt_ssl_ca , opt_ssl_capath , opt_ssl_cipher ) ; mysql_options ( & mysql , MYSQL_OPT_SSL_CRL , opt_ssl_crl ) ; mysql_options ( & mysql , MYSQL_OPT_SSL_CRLPATH , opt_ssl_crlpath ) ; } mysql_options ( & mysql , MYSQL_OPT_SSL_VERIFY_SERVER_CERT , ( char * ) & opt_ssl_verify_server_cert ) ; # endif if ( opt_protocol ) mysql_options ( & mysql , MYSQL_OPT_PROTOCOL , ( char * ) & opt_protocol ) ; if ( opt_bind_addr ) mysql_options ( & mysql , MYSQL_OPT_BIND , opt_bind_addr ) ; # if defined ( _WIN32 ) && ! defined ( EMBEDDED_LIBRARY ) if ( shared_memory_base_name ) mysql_options ( & mysql , MYSQL_SHARED_MEMORY_BASE_NAME , shared_memory_base_name ) ; # endif mysql_options ( & mysql , MYSQL_SET_CHARSET_NAME , default_charset ) ; if ( opt_plugin_dir && * opt_plugin_dir ) mysql_options ( & mysql , MYSQL_PLUGIN_DIR , opt_plugin_dir ) ; if ( opt_default_auth && * opt_default_auth ) mysql_options ( & mysql , MYSQL_DEFAULT_AUTH , opt_default_auth ) ; mysql_options ( & mysql , MYSQL_OPT_CONNECT_ATTR_RESET , 0 ) ; mysql_options4 ( & mysql , MYSQL_OPT_CONNECT_ATTR_ADD , ""program_name"" , ""mysqlshow"" ) ; if ( ! ( mysql_real_connect ( & mysql , host , user , opt_password , ( first_argument_uses_wildcards ) ? """" : argv [ 0 ] , opt_mysql_port , opt_mysql_unix_port , 0 ) ) ) { fprintf ( stderr , ""%s: %s\\n"" , my_progname , mysql_error ( & mysql ) ) ; exit ( 1 ) ; } mysql . reconnect = 1 ; switch ( argc ) { case 0 : error = list_dbs ( & mysql , wild ) ; break ; case 1 : if ( opt_status ) error = list_table_status ( & mysql , argv [ 0 ] , wild ) ; else error = list_tables ( & mysql , argv [ 0 ] , wild ) ; break ; default : if ( opt_status && ! wild ) error = list_table_status ( & mysql , argv [ 0 ] , argv [ 1 ] ) ; else error = list_fields ( & mysql , argv [ 0 ] , argv [ 1 ] , wild ) ; break ; } mysql_close ( & mysql ) ; my_free ( opt_password ) ; # if defined ( _WIN32 ) && ! defined ( EMBEDDED_LIBRARY ) my_free ( shared_memory_base_name ) ; # endif my_end ( my_end_arg ) ; exit ( error ? 1 : 0 ) ; return 0 ; }","{ int error ; my_bool first_argument_uses_wildcards = 0 ; char * wild ; MYSQL mysql ; MY_INIT ( argv [ 0 ] ) ; my_getopt_use_args_separator = TRUE ; if ( load_defaults ( ""my"" , load_default_groups , & argc , & argv ) ) exit ( 1 ) ; my_getopt_use_args_separator = FALSE ; get_options ( & argc , & argv ) ; wild = 0 ; if ( argc ) { char * pos = argv [ argc - 1 ] , * to ; for ( to = pos ; * pos ; pos ++ , to ++ ) { switch ( * pos ) { case '*' : * pos = '%' ; first_argument_uses_wildcards = 1 ; break ; case '?' : * pos = '_' ; first_argument_uses_wildcards = 1 ; break ; case '%' : case '_' : first_argument_uses_wildcards = 1 ; break ; case '\\\\' : pos ++ ; default : break ; } * to = * pos ; } * to = * pos ; } if ( first_argument_uses_wildcards ) wild = argv [ -- argc ] ; else if ( argc == 3 ) wild = argv [ -- argc ] ; if ( argc > 2 ) { fprintf ( stderr , ""%s: Too many arguments\\n"" , my_progname ) ; exit ( 1 ) ; } mysql_init ( & mysql ) ; if ( opt_compress ) mysql_options ( & mysql , MYSQL_OPT_COMPRESS , NullS ) ; SSL_SET_OPTIONS ( & mysql ) ; if ( opt_protocol ) mysql_options ( & mysql , MYSQL_OPT_PROTOCOL , ( char * ) & opt_protocol ) ; if ( opt_bind_addr ) mysql_options ( & mysql , MYSQL_OPT_BIND , opt_bind_addr ) ; # if defined ( _WIN32 ) && ! defined ( EMBEDDED_LIBRARY ) if ( shared_memory_base_name ) mysql_options ( & mysql , MYSQL_SHARED_MEMORY_BASE_NAME , shared_memory_base_name ) ; # endif mysql_options ( & mysql , MYSQL_SET_CHARSET_NAME , default_charset ) ; if ( opt_plugin_dir && * opt_plugin_dir ) mysql_options ( & mysql , MYSQL_PLUGIN_DIR , opt_plugin_dir ) ; if ( opt_default_auth && * opt_default_auth ) mysql_options ( & mysql , MYSQL_DEFAULT_AUTH , opt_default_auth ) ; mysql_options ( & mysql , MYSQL_OPT_CONNECT_ATTR_RESET , 0 ) ; mysql_options4 ( & mysql , MYSQL_OPT_CONNECT_ATTR_ADD , ""program_name"" , ""mysqlshow"" ) ; if ( ! ( mysql_real_connect ( & mysql , host , user , opt_password , ( first_argument_uses_wildcards ) ? """" : argv [ 0 ] , opt_mysql_port , opt_mysql_unix_port , 0 ) ) ) { fprintf ( stderr , ""%s: %s\\n"" , my_progname , mysql_error ( & mysql ) ) ; exit ( 1 ) ; } mysql . reconnect = 1 ; switch ( argc ) { case 0 : error = list_dbs ( & mysql , wild ) ; break ; case 1 : if ( opt_status ) error = list_table_status ( & mysql , argv [ 0 ] , wild ) ; else error = list_tables ( & mysql , argv [ 0 ] , wild ) ; break ; default : if ( opt_status && ! wild ) error = list_table_status ( & mysql , argv [ 0 ] , argv [ 1 ] ) ; else error = list_fields ( & mysql , argv [ 0 ] , argv [ 1 ] , wild ) ; break ; } mysql_close ( & mysql ) ; my_free ( opt_password ) ; # if defined ( _WIN32 ) && ! defined ( EMBEDDED_LIBRARY ) my_free ( shared_memory_base_name ) ; # endif my_end ( my_end_arg ) ; exit ( error ? 1 : 0 ) ; return 0 ; }" 885,CWE-125 static void ast_dealloc ( AST_object * self ) { Py_CLEAR ( self -> dict ) ; Py_TYPE ( self ) -> tp_free ( self ) ; },static void ast_dealloc ( AST_object * self ) { PyObject_GC_UnTrack ( self ) ; Py_CLEAR ( self -> dict ) ; Py_TYPE ( self ) -> tp_free ( self ) ; } 886,"CWE-399 sock_recv_ts_and_drops ( msg , sk , skb ) ; if ( msg -> msg_name ) { DECLARE_SOCKADDR ( struct sockaddr_in6 * , sin6 , msg -> msg_name ) ; sin6 -> sin6_family = AF_INET6 ; sin6 -> sin6_port = udp_hdr ( skb ) -> source ; sin6 -> sin6_flowinfo = 0 ; if ( is_udp4 ) { ipv6_addr_set_v4mapped ( ip_hdr ( skb ) -> saddr , & sin6 -> sin6_addr ) ; sin6 -> sin6_scope_id = 0 ; } else { sin6 -> sin6_addr = ipv6_hdr ( skb ) -> saddr ; sin6 -> sin6_scope_id = ipv6_iface_scope_id ( & sin6 -> sin6_addr , inet6_iif ( skb ) ) ; } * addr_len = sizeof ( * sin6 ) ; } if ( np -> rxopt . all ) ip6_datagram_recv_common_ctl ( sk , msg , skb ) ; if ( is_udp4 ) { if ( inet -> cmsg_flags ) ip_cmsg_recv ( msg , skb ) ; } else { if ( np -> rxopt . all ) ip6_datagram_recv_specific_ctl ( sk , msg , skb ) ; } err = copied ; if ( flags & MSG_TRUNC ) err = ulen ; out_free : skb_free_datagram_locked ( sk , skb ) ; out : return err ; csum_copy_err : slow = lock_sock_fast ( sk ) ; if ( ! skb_kill_datagram ( sk , skb , flags ) ) { if ( is_udp4 ) { UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_CSUMERRORS , is_udplite ) ; UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INERRORS , is_udplite ) ; } else { UDP6_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_CSUMERRORS , is_udplite ) ; UDP6_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INERRORS , is_udplite ) ; } } unlock_sock_fast ( sk , slow ) ; if ( noblock ) return - EAGAIN ; msg -> msg_flags &= ~ MSG_TRUNC ; goto try_again ; }","sock_recv_ts_and_drops ( msg , sk , skb ) ; if ( msg -> msg_name ) { DECLARE_SOCKADDR ( struct sockaddr_in6 * , sin6 , msg -> msg_name ) ; sin6 -> sin6_family = AF_INET6 ; sin6 -> sin6_port = udp_hdr ( skb ) -> source ; sin6 -> sin6_flowinfo = 0 ; if ( is_udp4 ) { ipv6_addr_set_v4mapped ( ip_hdr ( skb ) -> saddr , & sin6 -> sin6_addr ) ; sin6 -> sin6_scope_id = 0 ; } else { sin6 -> sin6_addr = ipv6_hdr ( skb ) -> saddr ; sin6 -> sin6_scope_id = ipv6_iface_scope_id ( & sin6 -> sin6_addr , inet6_iif ( skb ) ) ; } * addr_len = sizeof ( * sin6 ) ; } if ( np -> rxopt . all ) ip6_datagram_recv_common_ctl ( sk , msg , skb ) ; if ( is_udp4 ) { if ( inet -> cmsg_flags ) ip_cmsg_recv ( msg , skb ) ; } else { if ( np -> rxopt . all ) ip6_datagram_recv_specific_ctl ( sk , msg , skb ) ; } err = copied ; if ( flags & MSG_TRUNC ) err = ulen ; out_free : skb_free_datagram_locked ( sk , skb ) ; out : return err ; csum_copy_err : slow = lock_sock_fast ( sk ) ; if ( ! skb_kill_datagram ( sk , skb , flags ) ) { if ( is_udp4 ) { UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_CSUMERRORS , is_udplite ) ; UDP_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INERRORS , is_udplite ) ; } else { UDP6_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_CSUMERRORS , is_udplite ) ; UDP6_INC_STATS_USER ( sock_net ( sk ) , UDP_MIB_INERRORS , is_udplite ) ; } } unlock_sock_fast ( sk , slow ) ; cond_resched ( ) ; msg -> msg_flags &= ~ MSG_TRUNC ; goto try_again ; }" 887,"CWE-416 void usb_sg_cancel ( struct usb_sg_request * io ) { unsigned long flags ; int i , retval ; spin_lock_irqsave ( & io -> lock , flags ) ; if ( io -> status ) { spin_unlock_irqrestore ( & io -> lock , flags ) ; return ; } io -> status = - ECONNRESET ; spin_unlock_irqrestore ( & io -> lock , flags ) ; for ( i = io -> entries - 1 ; i >= 0 ; -- i ) { usb_block_urb ( io -> urbs [ i ] ) ; retval = usb_unlink_urb ( io -> urbs [ i ] ) ; if ( retval != - EINPROGRESS && retval != - ENODEV && retval != - EBUSY && retval != - EIDRM ) dev_warn ( & io -> dev -> dev , ""%s, unlink --> %d\\n"" , __func__ , retval ) ; } }","void usb_sg_cancel ( struct usb_sg_request * io ) { unsigned long flags ; int i , retval ; spin_lock_irqsave ( & io -> lock , flags ) ; if ( io -> status || io -> count == 0 ) { spin_unlock_irqrestore ( & io -> lock , flags ) ; return ; } io -> status = - ECONNRESET ; io -> count ++ ; spin_unlock_irqrestore ( & io -> lock , flags ) ; for ( i = io -> entries - 1 ; i >= 0 ; -- i ) { usb_block_urb ( io -> urbs [ i ] ) ; retval = usb_unlink_urb ( io -> urbs [ i ] ) ; if ( retval != - EINPROGRESS && retval != - ENODEV && retval != - EBUSY && retval != - EIDRM ) dev_warn ( & io -> dev -> dev , ""%s, unlink --> %d\\n"" , __func__ , retval ) ; } spin_lock_irqsave ( & io -> lock , flags ) ; io -> count -- ; if ( ! io -> count ) complete ( & io -> complete ) ; spin_unlock_irqrestore ( & io -> lock , flags ) ; }" 888,"CWE-125 static int name_len ( netdissect_options * ndo , const unsigned char * s , const unsigned char * maxbuf ) { const unsigned char * s0 = s ; unsigned char c ; if ( s >= maxbuf ) return ( - 1 ) ; ND_TCHECK2 ( * s , 1 ) ; c = * s ; if ( ( c & 0xC0 ) == 0xC0 ) return ( 2 ) ; while ( * s ) { if ( s >= maxbuf ) return ( - 1 ) ; ND_TCHECK2 ( * s , 1 ) ; s += ( * s ) + 1 ; } return ( PTR_DIFF ( s , s0 ) + 1 ) ; trunc : return ( - 1 ) ; }","static int name_len ( netdissect_options * ndo , const unsigned char * s , const unsigned char * maxbuf ) { const unsigned char * s0 = s ; unsigned char c ; if ( s >= maxbuf ) return ( - 1 ) ; ND_TCHECK2 ( * s , 1 ) ; c = * s ; if ( ( c & 0xC0 ) == 0xC0 ) return ( 2 ) ; while ( * s ) { if ( s >= maxbuf ) return ( - 1 ) ; ND_TCHECK2 ( * s , 1 ) ; s += ( * s ) + 1 ; ND_TCHECK2 ( * s , 1 ) ; } return ( PTR_DIFF ( s , s0 ) + 1 ) ; trunc : return ( - 1 ) ; }" 889,"CWE-787 { UWORD32 u4_bits_read ; dec_state_t * ps_dec ; UWORD32 u4_size = ps_ip -> s_ivd_video_decode_ip_t . u4_num_Bytes ; ps_dec = ( dec_state_t * ) pv_dec ; ps_op -> s_ivd_video_decode_op_t . u4_error_code = 0 ; if ( u4_size > MAX_BITSTREAM_BUFFER_SIZE ) { u4_size = MAX_BITSTREAM_BUFFER_SIZE ; } memcpy ( ps_dec -> pu1_input_buffer , ps_ip -> s_ivd_video_decode_ip_t . pv_stream_buffer , u4_size ) ; impeg2d_bit_stream_init ( & ( ps_dec -> s_bit_stream ) , ps_dec -> pu1_input_buffer , u4_size ) ; { { IMPEG2D_ERROR_CODES_T e_error ; e_error = impeg2d_process_video_header ( ps_dec ) ; if ( ( IMPEG2D_ERROR_CODES_T ) IVD_ERROR_NONE != e_error ) { ps_op -> s_ivd_video_decode_op_t . u4_error_code = e_error ; u4_bits_read = impeg2d_bit_stream_num_bits_read ( & ps_dec -> s_bit_stream ) ; ps_op -> s_ivd_video_decode_op_t . u4_num_bytes_consumed = u4_bits_read >> 3 ; if ( ps_op -> s_ivd_video_decode_op_t . u4_num_bytes_consumed > ps_ip -> s_ivd_video_decode_ip_t . u4_num_Bytes ) { ps_op -> s_ivd_video_decode_op_t . u4_num_bytes_consumed = ps_ip -> s_ivd_video_decode_ip_t . u4_num_Bytes ; } if ( ps_op -> s_ivd_video_decode_op_t . u4_error_code == 0 ) ps_op -> s_ivd_video_decode_op_t . u4_error_code = e_error ; if ( IMPEG2D_UNSUPPORTED_DIMENSIONS == e_error ) { ps_op -> s_ivd_video_decode_op_t . u4_num_bytes_consumed = 0 ; ps_dec -> u2_header_done = 0 ; ps_op -> s_ivd_video_decode_op_t . u4_pic_ht = ps_dec -> u2_reinit_max_height ; ps_op -> s_ivd_video_decode_op_t . u4_pic_wd = ps_dec -> u2_reinit_max_width ; } impeg2d_next_code ( ps_dec , SEQUENCE_HEADER_CODE ) ; return ; } } ps_op -> s_ivd_video_decode_op_t . u4_pic_ht = ps_dec -> u2_vertical_size ; ps_op -> s_ivd_video_decode_op_t . u4_pic_wd = ps_dec -> u2_horizontal_size ; ps_op -> s_ivd_video_decode_op_t . e_pic_type = IV_NA_FRAME ; ps_op -> s_ivd_video_decode_op_t . u4_error_code = IV_SUCCESS ; u4_bits_read = impeg2d_bit_stream_num_bits_read ( & ps_dec -> s_bit_stream ) ; ps_op -> s_ivd_video_decode_op_t . u4_num_bytes_consumed = u4_bits_read >> 3 ; if ( ps_op -> s_ivd_video_decode_op_t . u4_num_bytes_consumed > ps_ip -> s_ivd_video_decode_ip_t . u4_num_Bytes ) { ps_op -> s_ivd_video_decode_op_t . u4_num_bytes_consumed = ps_ip -> s_ivd_video_decode_ip_t . u4_num_Bytes ; } ps_op -> s_ivd_video_decode_op_t . u4_frame_decoded_flag = 0 ; ps_dec -> u2_header_done = 1 ; } }","{ UWORD32 u4_bits_read ; dec_state_t * ps_dec ; UWORD32 u4_size = ps_ip -> s_ivd_video_decode_ip_t . u4_num_Bytes ; ps_dec = ( dec_state_t * ) pv_dec ; ps_op -> s_ivd_video_decode_op_t . u4_error_code = 0 ; if ( u4_size > MAX_BITSTREAM_BUFFER_SIZE ) { u4_size = MAX_BITSTREAM_BUFFER_SIZE ; } memcpy ( ps_dec -> pu1_input_buffer , ps_ip -> s_ivd_video_decode_ip_t . pv_stream_buffer , u4_size ) ; impeg2d_bit_stream_init ( & ( ps_dec -> s_bit_stream ) , ps_dec -> pu1_input_buffer , u4_size ) ; { { IMPEG2D_ERROR_CODES_T e_error ; e_error = impeg2d_process_video_header ( ps_dec ) ; if ( ( IMPEG2D_ERROR_CODES_T ) IVD_ERROR_NONE != e_error ) { ps_op -> s_ivd_video_decode_op_t . u4_error_code = e_error ; u4_bits_read = impeg2d_bit_stream_num_bits_read ( & ps_dec -> s_bit_stream ) ; ps_op -> s_ivd_video_decode_op_t . u4_num_bytes_consumed = u4_bits_read >> 3 ; if ( ps_op -> s_ivd_video_decode_op_t . u4_num_bytes_consumed > ps_ip -> s_ivd_video_decode_ip_t . u4_num_Bytes ) { ps_op -> s_ivd_video_decode_op_t . u4_num_bytes_consumed = ps_ip -> s_ivd_video_decode_ip_t . u4_num_Bytes ; } if ( ps_op -> s_ivd_video_decode_op_t . u4_error_code == 0 ) ps_op -> s_ivd_video_decode_op_t . u4_error_code = e_error ; if ( IMPEG2D_UNSUPPORTED_DIMENSIONS == e_error ) { ps_op -> s_ivd_video_decode_op_t . u4_num_bytes_consumed = 0 ; ps_dec -> u2_header_done = 0 ; ps_op -> s_ivd_video_decode_op_t . u4_pic_ht = ps_dec -> u2_reinit_max_height ; ps_op -> s_ivd_video_decode_op_t . u4_pic_wd = ps_dec -> u2_reinit_max_width ; } impeg2d_next_code ( ps_dec , SEQUENCE_HEADER_CODE ) ; return ; } } ps_op -> s_ivd_video_decode_op_t . u4_pic_ht = ps_dec -> u2_vertical_size ; ps_op -> s_ivd_video_decode_op_t . u4_pic_wd = ps_dec -> u2_horizontal_size ; ps_op -> s_ivd_video_decode_op_t . e_pic_type = IV_NA_FRAME ; ps_op -> s_ivd_video_decode_op_t . u4_error_code = IV_SUCCESS ; u4_bits_read = impeg2d_bit_stream_num_bits_read ( & ps_dec -> s_bit_stream ) ; ps_op -> s_ivd_video_decode_op_t . u4_num_bytes_consumed = u4_bits_read >> 3 ; if ( ps_op -> s_ivd_video_decode_op_t . u4_num_bytes_consumed > ps_ip -> s_ivd_video_decode_ip_t . u4_num_Bytes ) { ps_op -> s_ivd_video_decode_op_t . u4_num_bytes_consumed = ps_ip -> s_ivd_video_decode_ip_t . u4_num_Bytes ; } ps_op -> s_ivd_video_decode_op_t . u4_frame_decoded_flag = 0 ; if ( 0 == ps_dec -> u4_frm_buf_stride ) { ps_dec -> u4_frm_buf_stride = ps_dec -> u2_horizontal_size ; } ps_dec -> u2_header_done = 1 ; } }" 890,"CWE-552 static int _hostsock_getsockopt ( oe_fd_t * sock_ , int level , int optname , void * optval , oe_socklen_t * optlen ) { int ret = - 1 ; sock_t * sock = _cast_sock ( sock_ ) ; oe_socklen_t optlen_in = 0 ; oe_errno = 0 ; if ( ! sock ) OE_RAISE_ERRNO ( OE_EINVAL ) ; if ( optlen ) optlen_in = * optlen ; if ( oe_syscall_getsockopt_ocall ( & ret , sock -> host_fd , level , optname , optval , optlen_in , optlen ) != OE_OK ) { OE_RAISE_ERRNO ( OE_EINVAL ) ; } done : return ret ; }","static int _hostsock_getsockopt ( oe_fd_t * sock_ , int level , int optname , void * optval , oe_socklen_t * optlen ) { int ret = - 1 ; sock_t * sock = _cast_sock ( sock_ ) ; oe_socklen_t optlen_in = 0 ; oe_socklen_t optlen_out = 0 ; oe_errno = 0 ; if ( ! sock || ! optval || ! optlen ) OE_RAISE_ERRNO ( OE_EINVAL ) ; optlen_in = * optlen ; if ( oe_syscall_getsockopt_ocall ( & ret , sock -> host_fd , level , optname , optval , optlen_in , & optlen_out ) != OE_OK ) { OE_RAISE_ERRNO ( OE_EINVAL ) ; } if ( optlen_out > optlen_in ) optlen_out = optlen_in ; * optlen = optlen_out ; done : return ret ; }" 891,"CWE-362 static ssize_t n_tty_write ( struct tty_struct * tty , struct file * file , const unsigned char * buf , size_t nr ) { const unsigned char * b = buf ; DECLARE_WAITQUEUE ( wait , current ) ; int c ; ssize_t retval = 0 ; if ( L_TOSTOP ( tty ) && file -> f_op -> write != redirected_tty_write ) { retval = tty_check_change ( tty ) ; if ( retval ) return retval ; } down_read ( & tty -> termios_rwsem ) ; process_echoes ( tty ) ; add_wait_queue ( & tty -> write_wait , & wait ) ; while ( 1 ) { set_current_state ( TASK_INTERRUPTIBLE ) ; if ( signal_pending ( current ) ) { retval = - ERESTARTSYS ; break ; } if ( tty_hung_up_p ( file ) || ( tty -> link && ! tty -> link -> count ) ) { retval = - EIO ; break ; } if ( O_OPOST ( tty ) ) { while ( nr > 0 ) { ssize_t num = process_output_block ( tty , b , nr ) ; if ( num < 0 ) { if ( num == - EAGAIN ) break ; retval = num ; goto break_out ; } b += num ; nr -= num ; if ( nr == 0 ) break ; c = * b ; if ( process_output ( c , tty ) < 0 ) break ; b ++ ; nr -- ; } if ( tty -> ops -> flush_chars ) tty -> ops -> flush_chars ( tty ) ; } else { while ( nr > 0 ) { c = tty -> ops -> write ( tty , b , nr ) ; if ( c < 0 ) { retval = c ; goto break_out ; } if ( ! c ) break ; b += c ; nr -= c ; } } if ( ! nr ) break ; if ( file -> f_flags & O_NONBLOCK ) { retval = - EAGAIN ; break ; } up_read ( & tty -> termios_rwsem ) ; schedule ( ) ; down_read ( & tty -> termios_rwsem ) ; } break_out : __set_current_state ( TASK_RUNNING ) ; remove_wait_queue ( & tty -> write_wait , & wait ) ; if ( b - buf != nr && tty -> fasync ) set_bit ( TTY_DO_WRITE_WAKEUP , & tty -> flags ) ; up_read ( & tty -> termios_rwsem ) ; return ( b - buf ) ? b - buf : retval ; }","static ssize_t n_tty_write ( struct tty_struct * tty , struct file * file , const unsigned char * buf , size_t nr ) { const unsigned char * b = buf ; DECLARE_WAITQUEUE ( wait , current ) ; int c ; ssize_t retval = 0 ; if ( L_TOSTOP ( tty ) && file -> f_op -> write != redirected_tty_write ) { retval = tty_check_change ( tty ) ; if ( retval ) return retval ; } down_read ( & tty -> termios_rwsem ) ; process_echoes ( tty ) ; add_wait_queue ( & tty -> write_wait , & wait ) ; while ( 1 ) { set_current_state ( TASK_INTERRUPTIBLE ) ; if ( signal_pending ( current ) ) { retval = - ERESTARTSYS ; break ; } if ( tty_hung_up_p ( file ) || ( tty -> link && ! tty -> link -> count ) ) { retval = - EIO ; break ; } if ( O_OPOST ( tty ) ) { while ( nr > 0 ) { ssize_t num = process_output_block ( tty , b , nr ) ; if ( num < 0 ) { if ( num == - EAGAIN ) break ; retval = num ; goto break_out ; } b += num ; nr -= num ; if ( nr == 0 ) break ; c = * b ; if ( process_output ( c , tty ) < 0 ) break ; b ++ ; nr -- ; } if ( tty -> ops -> flush_chars ) tty -> ops -> flush_chars ( tty ) ; } else { struct n_tty_data * ldata = tty -> disc_data ; while ( nr > 0 ) { mutex_lock ( & ldata -> output_lock ) ; c = tty -> ops -> write ( tty , b , nr ) ; mutex_unlock ( & ldata -> output_lock ) ; if ( c < 0 ) { retval = c ; goto break_out ; } if ( ! c ) break ; b += c ; nr -= c ; } } if ( ! nr ) break ; if ( file -> f_flags & O_NONBLOCK ) { retval = - EAGAIN ; break ; } up_read ( & tty -> termios_rwsem ) ; schedule ( ) ; down_read ( & tty -> termios_rwsem ) ; } break_out : __set_current_state ( TASK_RUNNING ) ; remove_wait_queue ( & tty -> write_wait , & wait ) ; if ( b - buf != nr && tty -> fasync ) set_bit ( TTY_DO_WRITE_WAKEUP , & tty -> flags ) ; up_read ( & tty -> termios_rwsem ) ; return ( b - buf ) ? b - buf : retval ; }" 892,"CWE-189 static int32 makepol ( QPRS_STATE * state ) { int32 val = 0 , type ; int32 lenval = 0 ; char * strval = NULL ; int32 stack [ STACKDEPTH ] ; int32 lenstack = 0 ; uint16 flag = 0 ; while ( ( type = gettoken_query ( state , & val , & lenval , & strval , & flag ) ) != END ) { switch ( type ) { case VAL : pushval_asis ( state , VAL , strval , lenval , flag ) ; while ( lenstack && ( stack [ lenstack - 1 ] == ( int32 ) '&' || stack [ lenstack - 1 ] == ( int32 ) '!' ) ) { lenstack -- ; pushquery ( state , OPR , stack [ lenstack ] , 0 , 0 , 0 ) ; } break ; case OPR : if ( lenstack && val == ( int32 ) '|' ) pushquery ( state , OPR , val , 0 , 0 , 0 ) ; else { if ( lenstack == STACKDEPTH ) elog ( ERROR , ""stack too short"" ) ; stack [ lenstack ] = val ; lenstack ++ ; } break ; case OPEN : if ( makepol ( state ) == ERR ) return ERR ; while ( lenstack && ( stack [ lenstack - 1 ] == ( int32 ) '&' || stack [ lenstack - 1 ] == ( int32 ) '!' ) ) { lenstack -- ; pushquery ( state , OPR , stack [ lenstack ] , 0 , 0 , 0 ) ; } break ; case CLOSE : while ( lenstack ) { lenstack -- ; pushquery ( state , OPR , stack [ lenstack ] , 0 , 0 , 0 ) ; } ; return END ; break ; case ERR : default : ereport ( ERROR , ( errcode ( ERRCODE_SYNTAX_ERROR ) , errmsg ( ""syntax error"" ) ) ) ; return ERR ; } }","static int32 makepol ( QPRS_STATE * state ) { int32 val = 0 , type ; int32 lenval = 0 ; char * strval = NULL ; int32 stack [ STACKDEPTH ] ; int32 lenstack = 0 ; uint16 flag = 0 ; check_stack_depth ( ) ; while ( ( type = gettoken_query ( state , & val , & lenval , & strval , & flag ) ) != END ) { switch ( type ) { case VAL : pushval_asis ( state , VAL , strval , lenval , flag ) ; while ( lenstack && ( stack [ lenstack - 1 ] == ( int32 ) '&' || stack [ lenstack - 1 ] == ( int32 ) '!' ) ) { lenstack -- ; pushquery ( state , OPR , stack [ lenstack ] , 0 , 0 , 0 ) ; } break ; case OPR : if ( lenstack && val == ( int32 ) '|' ) pushquery ( state , OPR , val , 0 , 0 , 0 ) ; else { if ( lenstack == STACKDEPTH ) elog ( ERROR , ""stack too short"" ) ; stack [ lenstack ] = val ; lenstack ++ ; } break ; case OPEN : if ( makepol ( state ) == ERR ) return ERR ; while ( lenstack && ( stack [ lenstack - 1 ] == ( int32 ) '&' || stack [ lenstack - 1 ] == ( int32 ) '!' ) ) { lenstack -- ; pushquery ( state , OPR , stack [ lenstack ] , 0 , 0 , 0 ) ; } break ; case CLOSE : while ( lenstack ) { lenstack -- ; pushquery ( state , OPR , stack [ lenstack ] , 0 , 0 , 0 ) ; } ; return END ; break ; case ERR : default : ereport ( ERROR , ( errcode ( ERRCODE_SYNTAX_ERROR ) , errmsg ( ""syntax error"" ) ) ) ; return ERR ; } }" 893,"CWE-190 static long mem_seek ( jas_stream_obj_t * obj , long offset , int origin ) { jas_stream_memobj_t * m = ( jas_stream_memobj_t * ) obj ; long newpos ; JAS_DBGLOG ( 100 , ( ""mem_seek(%p, %ld, %d)\\n"" , obj , offset , origin ) ) ; switch ( origin ) { case SEEK_SET : newpos = offset ; break ; case SEEK_END : newpos = m -> len_ - offset ; break ; case SEEK_CUR : newpos = m -> pos_ + offset ; break ; default : abort ( ) ; break ; } if ( newpos < 0 ) { return - 1 ; } m -> pos_ = newpos ; return m -> pos_ ; }","static long mem_seek ( jas_stream_obj_t * obj , long offset , int origin ) { jas_stream_memobj_t * m = ( jas_stream_memobj_t * ) obj ; size_t newpos ; JAS_DBGLOG ( 100 , ( ""mem_seek(%p, %ld, %d)\\n"" , obj , offset , origin ) ) ; switch ( origin ) { case SEEK_SET : newpos = offset ; break ; case SEEK_END : newpos = m -> len_ - offset ; break ; case SEEK_CUR : newpos = m -> pos_ + offset ; break ; default : abort ( ) ; break ; } if ( newpos < 0 ) { return - 1 ; } m -> pos_ = newpos ; return m -> pos_ ; }" 894,"NVD-CWE-Other unsigned int get_random_int ( void ) { struct keydata * keyptr ; __u32 * hash = get_cpu_var ( get_random_int_hash ) ; int ret ; keyptr = get_keyptr ( ) ; hash [ 0 ] += current -> pid + jiffies + get_cycles ( ) ; ret = half_md4_transform ( hash , keyptr -> secret ) ; put_cpu_var ( get_random_int_hash ) ; return ret ; }","unsigned int get_random_int ( void ) { __u32 * hash = get_cpu_var ( get_random_int_hash ) ; unsigned int ret ; hash [ 0 ] += current -> pid + jiffies + get_cycles ( ) ; md5_transform ( hash , random_int_secret ) ; ret = hash [ 0 ] ; put_cpu_var ( get_random_int_hash ) ; return ret ; }" 895,"CWE-787 static int _server_handle_vCont ( libgdbr_t * g , int ( * cmd_cb ) ( void * , const char * , char * , size_t ) , void * core_ptr ) { char * action = NULL ; if ( send_ack ( g ) < 0 ) { return - 1 ; } g -> data [ g -> data_len ] = '\\0' ; if ( g -> data [ 5 ] == '?' ) { return send_msg ( g , ""vCont;c;s"" ) ; } if ( ! ( action = strtok ( g -> data , "";"" ) ) ) { return send_msg ( g , ""E01"" ) ; } while ( action = strtok ( NULL , "";"" ) ) { eprintf ( ""action: %s\\n"" , action ) ; switch ( action [ 0 ] ) { case 's' : if ( cmd_cb ( core_ptr , ""ds"" , NULL , 0 ) < 0 ) { send_msg ( g , ""E01"" ) ; return - 1 ; } return send_msg ( g , ""OK"" ) ; case 'c' : if ( cmd_cb ( core_ptr , ""dc"" , NULL , 0 ) < 0 ) { send_msg ( g , ""E01"" ) ; return - 1 ; } return send_msg ( g , ""OK"" ) ; default : return send_msg ( g , ""E01"" ) ; } } }","static int _server_handle_vCont ( libgdbr_t * g , int ( * cmd_cb ) ( void * , const char * , char * , size_t ) , void * core_ptr ) { char * action = NULL ; if ( send_ack ( g ) < 0 ) { return - 1 ; } g -> data [ g -> data_len ] = '\\0' ; if ( g -> data [ 5 ] == '?' ) { return send_msg ( g , ""vCont;c;s"" ) ; } if ( ! ( action = strtok ( g -> data , "";"" ) ) ) { return send_msg ( g , ""E01"" ) ; } while ( action = strtok ( NULL , "";"" ) ) { eprintf ( ""action: %s\\n"" , action ) ; switch ( action [ 0 ] ) { case 's' : if ( cmd_cb ( core_ptr , ""ds"" , NULL , 0 ) < 0 ) { send_msg ( g , ""E01"" ) ; return - 1 ; } return send_msg ( g , ""OK"" ) ; case 'c' : if ( cmd_cb ( core_ptr , ""dc"" , NULL , 0 ) < 0 ) { send_msg ( g , ""E01"" ) ; return - 1 ; } return send_msg ( g , ""OK"" ) ; default : return send_msg ( g , ""E01"" ) ; } } return - 1 ; }" 896,"CWE-119 int usb_cypress_load_firmware ( struct usb_device * udev , const struct firmware * fw , int type ) { struct hexline * hx ; u8 reset ; int ret , pos = 0 ; hx = kmalloc ( sizeof ( * hx ) , GFP_KERNEL ) ; if ( ! hx ) return - ENOMEM ; reset = 1 ; if ( ( ret = usb_cypress_writemem ( udev , cypress [ type ] . cpu_cs_register , & reset , 1 ) ) != 1 ) err ( ""could not stop the USB controller CPU."" ) ; while ( ( ret = dvb_usb_get_hexline ( fw , hx , & pos ) ) > 0 ) { deb_fw ( ""writing to address 0x%04x (buffer: 0x%02x %02x)\\n"" , hx -> addr , hx -> len , hx -> chk ) ; ret = usb_cypress_writemem ( udev , hx -> addr , hx -> data , hx -> len ) ; if ( ret != hx -> len ) { err ( ""error while transferring firmware (transferred size: %d, block size: %d)"" , ret , hx -> len ) ; ret = - EINVAL ; break ; } } if ( ret < 0 ) { err ( ""firmware download failed at %d with %d"" , pos , ret ) ; kfree ( hx ) ; return ret ; } if ( ret == 0 ) { reset = 0 ; if ( ret || usb_cypress_writemem ( udev , cypress [ type ] . cpu_cs_register , & reset , 1 ) != 1 ) { err ( ""could not restart the USB controller CPU."" ) ; ret = - EINVAL ; } } else ret = - EIO ; kfree ( hx ) ; return ret ; }","int usb_cypress_load_firmware ( struct usb_device * udev , const struct firmware * fw , int type ) { struct hexline * hx ; u8 * buf ; int ret , pos = 0 ; u16 cpu_cs_register = cypress [ type ] . cpu_cs_register ; buf = kmalloc ( sizeof ( * hx ) , GFP_KERNEL ) ; if ( ! buf ) return - ENOMEM ; hx = ( struct hexline * ) buf ; buf [ 0 ] = 1 ; if ( usb_cypress_writemem ( udev , cpu_cs_register , buf , 1 ) != 1 ) err ( ""could not stop the USB controller CPU."" ) ; while ( ( ret = dvb_usb_get_hexline ( fw , hx , & pos ) ) > 0 ) { deb_fw ( ""writing to address 0x%04x (buffer: 0x%02x %02x)\\n"" , hx -> addr , hx -> len , hx -> chk ) ; ret = usb_cypress_writemem ( udev , hx -> addr , hx -> data , hx -> len ) ; if ( ret != hx -> len ) { err ( ""error while transferring firmware (transferred size: %d, block size: %d)"" , ret , hx -> len ) ; ret = - EINVAL ; break ; } } if ( ret < 0 ) { err ( ""firmware download failed at %d with %d"" , pos , ret ) ; kfree ( buf ) ; return ret ; } if ( ret == 0 ) { buf [ 0 ] = 0 ; if ( usb_cypress_writemem ( udev , cpu_cs_register , buf , 1 ) != 1 ) { err ( ""could not restart the USB controller CPU."" ) ; ret = - EINVAL ; } } else ret = - EIO ; kfree ( buf ) ; return ret ; }" 897,"CWE-119 static MB_PREDICTION_MODE read_intra_mode_y ( VP9_COMMON * cm , vp9_reader * r , int size_group ) { const MB_PREDICTION_MODE y_mode = read_intra_mode ( r , cm -> fc . y_mode_prob [ size_group ] ) ; if ( ! cm -> frame_parallel_decoding_mode ) ++ cm -> counts . y_mode [ size_group ] [ y_mode ] ; return y_mode ; }","static PREDICTION_MODE read_intra_mode_y ( VP9_COMMON * cm , MACROBLOCKD * xd , vpx_reader * r , int size_group ) { const PREDICTION_MODE y_mode = read_intra_mode ( r , cm -> fc -> y_mode_prob [ size_group ] ) ; FRAME_COUNTS * counts = xd -> counts ; if ( counts ) ++ counts -> y_mode [ size_group ] [ y_mode ] ; return y_mode ; }" 898,"CWE-125 args_fmt , NULL , NULL ) ; function = ( YR_OBJECT_FUNCTION * ) ( yyvsp [ - 3 ] . expression ) . value . object ; ( yyval . expression ) . type = EXPRESSION_TYPE_OBJECT ; ( yyval . expression ) . value . object = function -> return_obj ; ( yyval . expression ) . identifier = function -> identifier ; } else { yr_compiler_set_error_extra_info ( compiler , ( yyvsp [ - 3 ] . expression ) . identifier ) ; compiler -> last_result = ERROR_NOT_A_FUNCTION ; } yr_free ( ( yyvsp [ - 1 ] . c_string ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } # line 2328 ""grammar.c"" break ; case 49 : # line 801 ""grammar.y"" { ( yyval . c_string ) = yr_strdup ( """" ) ; } # line 2334 ""grammar.c"" break ; case 50 : # line 802 ""grammar.y"" { ( yyval . c_string ) = ( yyvsp [ 0 ] . c_string ) ; } # line 2340 ""grammar.c"" break ; case 51 : # line 807 ""grammar.y"" { ( yyval . c_string ) = ( char * ) yr_malloc ( MAX_FUNCTION_ARGS + 1 ) ; switch ( ( yyvsp [ 0 ] . expression ) . type ) { case EXPRESSION_TYPE_INTEGER : strlcpy ( ( yyval . c_string ) , ""i"" , MAX_FUNCTION_ARGS ) ; break ; case EXPRESSION_TYPE_FLOAT : strlcpy ( ( yyval . c_string ) , ""f"" , MAX_FUNCTION_ARGS ) ; break ; case EXPRESSION_TYPE_BOOLEAN : strlcpy ( ( yyval . c_string ) , ""b"" , MAX_FUNCTION_ARGS ) ; break ; case EXPRESSION_TYPE_STRING : strlcpy ( ( yyval . c_string ) , ""s"" , MAX_FUNCTION_ARGS ) ; break ; case EXPRESSION_TYPE_REGEXP : strlcpy ( ( yyval . c_string ) , ""r"" , MAX_FUNCTION_ARGS ) ; break ; } ERROR_IF ( ( yyval . c_string ) == NULL ) ; } # line 2369 ""grammar.c"" break ; case 52 : # line 832 ""grammar.y"" { if ( strlen ( ( yyvsp [ - 2 ] . c_string ) ) == MAX_FUNCTION_ARGS ) { compiler -> last_result = ERROR_TOO_MANY_ARGUMENTS ; } else { switch ( ( yyvsp [ 0 ] . expression ) . type ) { case EXPRESSION_TYPE_INTEGER : strlcat ( ( yyvsp [ - 2 ] . c_string ) , ""i"" , MAX_FUNCTION_ARGS ) ; break ; case EXPRESSION_TYPE_FLOAT : strlcat ( ( yyvsp [ - 2 ] . c_string ) , ""f"" , MAX_FUNCTION_ARGS ) ; break ; case EXPRESSION_TYPE_BOOLEAN : strlcat ( ( yyvsp [ - 2 ] . c_string ) , ""b"" , MAX_FUNCTION_ARGS ) ; break ; case EXPRESSION_TYPE_STRING : strlcat ( ( yyvsp [ - 2 ] . c_string ) , ""s"" , MAX_FUNCTION_ARGS ) ; break ; case EXPRESSION_TYPE_REGEXP : strlcat ( ( yyvsp [ - 2 ] . c_string ) , ""r"" , MAX_FUNCTION_ARGS ) ; break ; } } ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . c_string ) = ( yyvsp [ - 2 ] . c_string ) ; } # line 2405 ""grammar.c"" break ; case 53 : # line 868 ""grammar.y"" { SIZED_STRING * sized_string = ( yyvsp [ 0 ] . sized_string ) ; RE * re ; RE_ERROR error ; int re_flags = 0 ; if ( sized_string -> flags & SIZED_STRING_FLAGS_NO_CASE ) re_flags |= RE_FLAGS_NO_CASE ; if ( sized_string -> flags & SIZED_STRING_FLAGS_DOT_ALL ) re_flags |= RE_FLAGS_DOT_ALL ; compiler -> last_result = yr_re_compile ( sized_string -> c_string , re_flags , compiler -> re_code_arena , & re , & error ) ; yr_free ( ( yyvsp [ 0 ] . sized_string ) ) ; if ( compiler -> last_result == ERROR_INVALID_REGULAR_EXPRESSION ) yr_compiler_set_error_extra_info ( compiler , error . message ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; if ( compiler -> last_result == ERROR_SUCCESS ) compiler -> last_result = yr_parser_emit_with_arg_reloc ( yyscanner , OP_PUSH , re -> root_node -> forward_code , NULL , NULL ) ; yr_re_destroy ( re ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_REGEXP ; } # line 2451 ""grammar.c"" break ; case 54 : # line 914 ""grammar.y"" { if ( ( yyvsp [ 0 ] . expression ) . type == EXPRESSION_TYPE_STRING ) { if ( ( yyvsp [ 0 ] . expression ) . value . sized_string != NULL ) { yywarning ( yyscanner , ""Using literal string \\""%s\\"" in a boolean operation."" , ( yyvsp [ 0 ] . expression ) . value . sized_string -> c_string ) ; } compiler -> last_result = yr_parser_emit ( yyscanner , OP_STR_TO_BOOL , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2474 ""grammar.c"" break ; case 55 : # line 936 ""grammar.y"" { compiler -> last_result = yr_parser_emit_with_arg ( yyscanner , OP_PUSH , 1 , NULL , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2487 ""grammar.c"" break ; case 56 : # line 945 ""grammar.y"" { compiler -> last_result = yr_parser_emit_with_arg ( yyscanner , OP_PUSH , 0 , NULL , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2500 ""grammar.c"" break ; case 57 : # line 954 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ - 2 ] . expression ) , EXPRESSION_TYPE_STRING , ""matches"" ) ; CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_REGEXP , ""matches"" ) ; if ( compiler -> last_result == ERROR_SUCCESS ) compiler -> last_result = yr_parser_emit ( yyscanner , OP_MATCHES , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2519 ""grammar.c"" break ; case 58 : # line 969 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ - 2 ] . expression ) , EXPRESSION_TYPE_STRING , ""contains"" ) ; CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_STRING , ""contains"" ) ; compiler -> last_result = yr_parser_emit ( yyscanner , OP_CONTAINS , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2535 ""grammar.c"" break ; case 59 : # line 981 ""grammar.y"" { int result = yr_parser_reduce_string_identifier ( yyscanner , ( yyvsp [ 0 ] . c_string ) , OP_FOUND , UNDEFINED ) ; yr_free ( ( yyvsp [ 0 ] . c_string ) ) ; ERROR_IF ( result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2553 ""grammar.c"" break ; case 60 : # line 995 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""at"" ) ; compiler -> last_result = yr_parser_reduce_string_identifier ( yyscanner , ( yyvsp [ - 2 ] . c_string ) , OP_FOUND_AT , ( yyvsp [ 0 ] . expression ) . value . integer ) ; yr_free ( ( yyvsp [ - 2 ] . c_string ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2570 ""grammar.c"" break ; case 61 : # line 1008 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_string_identifier ( yyscanner , ( yyvsp [ - 2 ] . c_string ) , OP_FOUND_IN , UNDEFINED ) ; yr_free ( ( yyvsp [ - 2 ] . c_string ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2585 ""grammar.c"" break ; case 62 : # line 1019 ""grammar.y"" { if ( compiler -> loop_depth > 0 ) { compiler -> loop_depth -- ; compiler -> loop_identifier [ compiler -> loop_depth ] = NULL ; } } # line 2597 ""grammar.c"" break ; case 63 : # line 1027 ""grammar.y"" { int var_index ; if ( compiler -> loop_depth == MAX_LOOP_NESTING ) compiler -> last_result = \\ ERROR_LOOP_NESTING_LIMIT_EXCEEDED ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; var_index = yr_parser_lookup_loop_variable ( yyscanner , ( yyvsp [ - 1 ] . c_string ) ) ; if ( var_index >= 0 ) { yr_compiler_set_error_extra_info ( compiler , ( yyvsp [ - 1 ] . c_string ) ) ; compiler -> last_result = \\ ERROR_DUPLICATED_LOOP_IDENTIFIER ; } ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; compiler -> last_result = yr_parser_emit_with_arg ( yyscanner , OP_PUSH , UNDEFINED , NULL , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } # line 2631 ""grammar.c"" break ; case 64 : # line 1057 ""grammar.y"" { int mem_offset = LOOP_LOCAL_VARS * compiler -> loop_depth ; uint8_t * addr ; yr_parser_emit_with_arg ( yyscanner , OP_CLEAR_M , mem_offset + 1 , NULL , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_CLEAR_M , mem_offset + 2 , NULL , NULL ) ; if ( ( yyvsp [ - 1 ] . integer ) == INTEGER_SET_ENUMERATION ) { yr_parser_emit_with_arg ( yyscanner , OP_POP_M , mem_offset , & addr , NULL ) ; } else { yr_parser_emit_with_arg ( yyscanner , OP_POP_M , mem_offset + 3 , & addr , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_POP_M , mem_offset , NULL , NULL ) ; } compiler -> loop_address [ compiler -> loop_depth ] = addr ; compiler -> loop_identifier [ compiler -> loop_depth ] = ( yyvsp [ - 4 ] . c_string ) ; compiler -> loop_depth ++ ; } # line 2670 ""grammar.c"" break ; case 65 : # line 1092 ""grammar.y"" { int mem_offset ; compiler -> loop_depth -- ; mem_offset = LOOP_LOCAL_VARS * compiler -> loop_depth ; yr_parser_emit_with_arg ( yyscanner , OP_ADD_M , mem_offset + 1 , NULL , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_INCR_M , mem_offset + 2 , NULL , NULL ) ; if ( ( yyvsp [ - 5 ] . integer ) == INTEGER_SET_ENUMERATION ) { yr_parser_emit_with_arg_reloc ( yyscanner , OP_JNUNDEF , compiler -> loop_address [ compiler -> loop_depth ] , NULL , NULL ) ; } else { yr_parser_emit_with_arg ( yyscanner , OP_INCR_M , mem_offset , NULL , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_PUSH_M , mem_offset , NULL , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_PUSH_M , mem_offset + 3 , NULL , NULL ) ; yr_parser_emit_with_arg_reloc ( yyscanner , OP_JLE , compiler -> loop_address [ compiler -> loop_depth ] , NULL , NULL ) ; yr_parser_emit ( yyscanner , OP_POP , NULL ) ; yr_parser_emit ( yyscanner , OP_POP , NULL ) ; } yr_parser_emit ( yyscanner , OP_POP , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_SWAPUNDEF , mem_offset + 2 , NULL , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_PUSH_M , mem_offset + 1 , NULL , NULL ) ; yr_parser_emit ( yyscanner , OP_INT_LE , NULL ) ; compiler -> loop_identifier [ compiler -> loop_depth ] = NULL ; yr_free ( ( yyvsp [ - 8 ] . c_string ) ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2753 ""grammar.c"" break ; case 66 : # line 1171 ""grammar.y"" { int mem_offset = LOOP_LOCAL_VARS * compiler -> loop_depth ; uint8_t * addr ; if ( compiler -> loop_depth == MAX_LOOP_NESTING ) compiler -> last_result = \\ ERROR_LOOP_NESTING_LIMIT_EXCEEDED ; if ( compiler -> loop_for_of_mem_offset != - 1 ) compiler -> last_result = \\ ERROR_NESTED_FOR_OF_LOOP ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; yr_parser_emit_with_arg ( yyscanner , OP_CLEAR_M , mem_offset + 1 , NULL , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_CLEAR_M , mem_offset + 2 , NULL , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_POP_M , mem_offset , & addr , NULL ) ; compiler -> loop_for_of_mem_offset = mem_offset ; compiler -> loop_address [ compiler -> loop_depth ] = addr ; compiler -> loop_identifier [ compiler -> loop_depth ] = NULL ; compiler -> loop_depth ++ ; } # line 2787 ""grammar.c"" break ; case 67 : # line 1201 ""grammar.y"" { int mem_offset ; compiler -> loop_depth -- ; compiler -> loop_for_of_mem_offset = - 1 ; mem_offset = LOOP_LOCAL_VARS * compiler -> loop_depth ; yr_parser_emit_with_arg ( yyscanner , OP_ADD_M , mem_offset + 1 , NULL , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_INCR_M , mem_offset + 2 , NULL , NULL ) ; yr_parser_emit_with_arg_reloc ( yyscanner , OP_JNUNDEF , compiler -> loop_address [ compiler -> loop_depth ] , NULL , NULL ) ; yr_parser_emit ( yyscanner , OP_POP , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_SWAPUNDEF , mem_offset + 2 , NULL , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_PUSH_M , mem_offset + 1 , NULL , NULL ) ; yr_parser_emit ( yyscanner , OP_INT_LE , NULL ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2840 ""grammar.c"" break ; case 68 : # line 1250 ""grammar.y"" { yr_parser_emit ( yyscanner , OP_OF , NULL ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2850 ""grammar.c"" break ; case 69 : # line 1256 ""grammar.y"" { yr_parser_emit ( yyscanner , OP_NOT , NULL ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2860 ""grammar.c"" break ; case 70 : # line 1262 ""grammar.y"" { YR_FIXUP * fixup ; void * jmp_destination_addr ; compiler -> last_result = yr_parser_emit_with_arg_reloc ( yyscanner , OP_JFALSE , 0 , NULL , & jmp_destination_addr ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; fixup = ( YR_FIXUP * ) yr_malloc ( sizeof ( YR_FIXUP ) ) ; if ( fixup == NULL ) compiler -> last_error = ERROR_INSUFFICIENT_MEMORY ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; fixup -> address = jmp_destination_addr ; fixup -> next = compiler -> fixup_stack_head ; compiler -> fixup_stack_head = fixup ; } # line 2890 ""grammar.c"" break ; case 71 : # line 1288 ""grammar.y"" { YR_FIXUP * fixup ; uint8_t * and_addr ; compiler -> last_result = yr_arena_reserve_memory ( compiler -> code_arena , 2 ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; compiler -> last_result = yr_parser_emit ( yyscanner , OP_AND , & and_addr ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; fixup = compiler -> fixup_stack_head ; * ( void * * ) ( fixup -> address ) = ( void * ) ( and_addr + 1 ) ; compiler -> fixup_stack_head = fixup -> next ; yr_free ( fixup ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2930 ""grammar.c"" break ; case 72 : # line 1324 ""grammar.y"" { YR_FIXUP * fixup ; void * jmp_destination_addr ; compiler -> last_result = yr_parser_emit_with_arg_reloc ( yyscanner , OP_JTRUE , 0 , NULL , & jmp_destination_addr ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; fixup = ( YR_FIXUP * ) yr_malloc ( sizeof ( YR_FIXUP ) ) ; if ( fixup == NULL ) compiler -> last_error = ERROR_INSUFFICIENT_MEMORY ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; fixup -> address = jmp_destination_addr ; fixup -> next = compiler -> fixup_stack_head ; compiler -> fixup_stack_head = fixup ; } # line 2959 ""grammar.c"" break ; case 73 : # line 1349 ""grammar.y"" { YR_FIXUP * fixup ; uint8_t * or_addr ; compiler -> last_result = yr_arena_reserve_memory ( compiler -> code_arena , 2 ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; compiler -> last_result = yr_parser_emit ( yyscanner , OP_OR , & or_addr ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; fixup = compiler -> fixup_stack_head ; * ( void * * ) ( fixup -> address ) = ( void * ) ( or_addr + 1 ) ; compiler -> fixup_stack_head = fixup -> next ; yr_free ( fixup ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2999 ""grammar.c"" break ; case 74 : # line 1385 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_operation ( yyscanner , ""<"" , ( yyvsp [ - 2 ] . expression ) , ( yyvsp [ 0 ] . expression ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 3012 ""grammar.c"" break ; case 75 : # line 1394 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_operation ( yyscanner , "">"" , ( yyvsp [ - 2 ] . expression ) , ( yyvsp [ 0 ] . expression ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 3025 ""grammar.c"" break ; case 76 : # line 1403 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_operation ( yyscanner , ""<="" , ( yyvsp [ - 2 ] . expression ) , ( yyvsp [ 0 ] . expression ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 3038 ""grammar.c"" break ; case 77 : # line 1412 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_operation ( yyscanner , "">="" , ( yyvsp [ - 2 ] . expression ) , ( yyvsp [ 0 ] . expression ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 3051 ""grammar.c"" break ; case 78 : # line 1421 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_operation ( yyscanner , ""=="" , ( yyvsp [ - 2 ] . expression ) , ( yyvsp [ 0 ] . expression ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 3064 ""grammar.c"" break ; case 79 : # line 1430 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_operation ( yyscanner , ""!="" , ( yyvsp [ - 2 ] . expression ) , ( yyvsp [ 0 ] . expression ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 3077 ""grammar.c"" break ; case 80 : # line 1439 ""grammar.y"" { ( yyval . expression ) = ( yyvsp [ 0 ] . expression ) ; } # line 3085 ""grammar.c"" break ; case 81 : # line 1443 ""grammar.y"" { ( yyval . expression ) = ( yyvsp [ - 1 ] . expression ) ; } # line 3093 ""grammar.c"" break ; case 82 : # line 1450 ""grammar.y"" { ( yyval . integer ) = INTEGER_SET_ENUMERATION ; } # line 3099 ""grammar.c"" break ; case 83 : # line 1451 ""grammar.y"" { ( yyval . integer ) = INTEGER_SET_RANGE ; } # line 3105 ""grammar.c"" break ; case 84 : # line 1457 ""grammar.y"" { if ( ( yyvsp [ - 3 ] . expression ) . type != EXPRESSION_TYPE_INTEGER ) { yr_compiler_set_error_extra_info ( compiler , ""wrong type for range\'s lower bound"" ) ; compiler -> last_result = ERROR_WRONG_TYPE ; } if ( ( yyvsp [ - 1 ] . expression ) . type != EXPRESSION_TYPE_INTEGER ) { yr_compiler_set_error_extra_info ( compiler , ""wrong type for range\'s upper bound"" ) ; compiler -> last_result = ERROR_WRONG_TYPE ; } ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } # line 3127 ""grammar.c"" break ; case 85 : # line 1479 ""grammar.y"" { if ( ( yyvsp [ 0 ] . expression ) . type != EXPRESSION_TYPE_INTEGER ) { yr_compiler_set_error_extra_info ( compiler , ""wrong type for enumeration item"" ) ; compiler -> last_result = ERROR_WRONG_TYPE ; } ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } # line 3143 ""grammar.c"" break ; case 86 : # line 1491 ""grammar.y"" { if ( ( yyvsp [ 0 ] . expression ) . type != EXPRESSION_TYPE_INTEGER ) { yr_compiler_set_error_extra_info ( compiler , ""wrong type for enumeration item"" ) ; compiler -> last_result = ERROR_WRONG_TYPE ; } ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } # line 3158 ""grammar.c"" break ; case 87 : # line 1506 ""grammar.y"" { yr_parser_emit_with_arg ( yyscanner , OP_PUSH , UNDEFINED , NULL , NULL ) ; } # line 3167 ""grammar.c"" break ; case 89 : # line 1512 ""grammar.y"" { yr_parser_emit_with_arg ( yyscanner , OP_PUSH , UNDEFINED , NULL , NULL ) ; yr_parser_emit_pushes_for_strings ( yyscanner , ""$*"" ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } # line 3178 ""grammar.c"" break ; case 92 : # line 1529 ""grammar.y"" { yr_parser_emit_pushes_for_strings ( yyscanner , ( yyvsp [ 0 ] . c_string ) ) ; yr_free ( ( yyvsp [ 0 ] . c_string ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } # line 3189 ""grammar.c"" break ; case 93 : # line 1536 ""grammar.y"" { yr_parser_emit_pushes_for_strings ( yyscanner , ( yyvsp [ 0 ] . c_string ) ) ; yr_free ( ( yyvsp [ 0 ] . c_string ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } # line 3200 ""grammar.c"" break ; case 95 : # line 1548 ""grammar.y"" { yr_parser_emit_with_arg ( yyscanner , OP_PUSH , UNDEFINED , NULL , NULL ) ; } # line 3208 ""grammar.c"" break ; case 96 : # line 1552 ""grammar.y"" { yr_parser_emit_with_arg ( yyscanner , OP_PUSH , 1 , NULL , NULL ) ; } # line 3216 ""grammar.c"" break ; case 97 : # line 1560 ""grammar.y"" { ( yyval . expression ) = ( yyvsp [ - 1 ] . expression ) ; } # line 3224 ""grammar.c"" break ; case 98 : # line 1564 ""grammar.y"" { compiler -> last_result = yr_parser_emit ( yyscanner , OP_FILESIZE , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = UNDEFINED ; } # line 3238 ""grammar.c"" break ; case 99 : # line 1574 ""grammar.y"" { yywarning ( yyscanner , ""Using deprecated \\""entrypoint\\"" keyword. Use the \\""entry_point\\"" "" ""function from PE module instead."" ) ; compiler -> last_result = yr_parser_emit ( yyscanner , OP_ENTRYPOINT , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = UNDEFINED ; } # line 3256 ""grammar.c"" break ; case 100 : # line 1588 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ - 1 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""intXXXX or uintXXXX"" ) ; compiler -> last_result = yr_parser_emit ( yyscanner , ( uint8_t ) ( OP_READ_INT + ( yyvsp [ - 3 ] . integer ) ) , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = UNDEFINED ; } # line 3276 ""grammar.c"" break ; case 101 : # line 1604 ""grammar.y"" { compiler -> last_result = yr_parser_emit_with_arg ( yyscanner , OP_PUSH , ( yyvsp [ 0 ] . integer ) , NULL , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = ( yyvsp [ 0 ] . integer ) ; } # line 3290 ""grammar.c"" break ; case 102 : # line 1614 ""grammar.y"" { compiler -> last_result = yr_parser_emit_with_arg_double ( yyscanner , OP_PUSH , ( yyvsp [ 0 ] . double_ ) , NULL , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_FLOAT ; } # line 3303 ""grammar.c"" break ; case 103 : # line 1623 ""grammar.y"" { SIZED_STRING * sized_string ; compiler -> last_result = yr_arena_write_data ( compiler -> sz_arena , ( yyvsp [ 0 ] . sized_string ) , ( yyvsp [ 0 ] . sized_string ) -> length + sizeof ( SIZED_STRING ) , ( void * * ) & sized_string ) ; yr_free ( ( yyvsp [ 0 ] . sized_string ) ) ; if ( compiler -> last_result == ERROR_SUCCESS ) compiler -> last_result = yr_parser_emit_with_arg_reloc ( yyscanner , OP_PUSH , sized_string , NULL , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_STRING ; ( yyval . expression ) . value . sized_string = sized_string ; } # line 3332 ""grammar.c"" break ; case 104 : # line 1648 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_string_identifier ( yyscanner , ( yyvsp [ 0 ] . c_string ) , OP_COUNT , UNDEFINED ) ; yr_free ( ( yyvsp [ 0 ] . c_string ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = UNDEFINED ; } # line 3348 ""grammar.c"" break ; case 105 : # line 1660 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_string_identifier ( yyscanner , ( yyvsp [ - 3 ] . c_string ) , OP_OFFSET , UNDEFINED ) ; yr_free ( ( yyvsp [ - 3 ] . c_string ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = UNDEFINED ; } # line 3364 ""grammar.c"" break ; case 106 : # line 1672 ""grammar.y"" { compiler -> last_result = yr_parser_emit_with_arg ( yyscanner , OP_PUSH , 1 , NULL , NULL ) ; if ( compiler -> last_result == ERROR_SUCCESS ) compiler -> last_result = yr_parser_reduce_string_identifier ( yyscanner , ( yyvsp [ 0 ] . c_string ) , OP_OFFSET , UNDEFINED ) ; yr_free ( ( yyvsp [ 0 ] . c_string ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = UNDEFINED ; } # line 3384 ""grammar.c"" break ; case 107 : # line 1688 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_string_identifier ( yyscanner , ( yyvsp [ - 3 ] . c_string ) , OP_LENGTH , UNDEFINED ) ; yr_free ( ( yyvsp [ - 3 ] . c_string ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = UNDEFINED ; } # line 3400 ""grammar.c"" break ; case 108 : # line 1700 ""grammar.y"" { compiler -> last_result = yr_parser_emit_with_arg ( yyscanner , OP_PUSH , 1 , NULL , NULL ) ; if ( compiler -> last_result == ERROR_SUCCESS ) compiler -> last_result = yr_parser_reduce_string_identifier ( yyscanner , ( yyvsp [ 0 ] . c_string ) , OP_LENGTH , UNDEFINED ) ; yr_free ( ( yyvsp [ 0 ] . c_string ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = UNDEFINED ; } # line 3420 ""grammar.c"" break ; case 109 : # line 1716 ""grammar.y"" { if ( ( yyvsp [ 0 ] . expression ) . type == EXPRESSION_TYPE_INTEGER ) { ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = UNDEFINED ; } else if ( ( yyvsp [ 0 ] . expression ) . type == EXPRESSION_TYPE_BOOLEAN ) { ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; ( yyval . expression ) . value . integer = UNDEFINED ; } else if ( ( yyvsp [ 0 ] . expression ) . type == EXPRESSION_TYPE_OBJECT ) { compiler -> last_result = yr_parser_emit ( yyscanner , OP_OBJ_VALUE , NULL ) ; switch ( ( yyvsp [ 0 ] . expression ) . value . object -> type ) { case OBJECT_TYPE_INTEGER : ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = UNDEFINED ; break ; case OBJECT_TYPE_FLOAT : ( yyval . expression ) . type = EXPRESSION_TYPE_FLOAT ; break ; case OBJECT_TYPE_STRING : ( yyval . expression ) . type = EXPRESSION_TYPE_STRING ; ( yyval . expression ) . value . sized_string = NULL ; break ; default : yr_compiler_set_error_extra_info_fmt ( compiler , ""wrong usage of identifier \\""%s\\"""" , ( yyvsp [ 0 ] . expression ) . identifier ) ; compiler -> last_result = ERROR_WRONG_TYPE ; } } else { assert ( FALSE ) ; } ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } # line 3469 ""grammar.c"" break ; case 110 : # line 1761 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_INTEGER | EXPRESSION_TYPE_FLOAT , ""-"" ) ; if ( ( yyvsp [ 0 ] . expression ) . type == EXPRESSION_TYPE_INTEGER ) { ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = ( ( yyvsp [ 0 ] . expression ) . value . integer == UNDEFINED ) ? UNDEFINED : - ( ( yyvsp [ 0 ] . expression ) . value . integer ) ; compiler -> last_result = yr_parser_emit ( yyscanner , OP_INT_MINUS , NULL ) ; } else if ( ( yyvsp [ 0 ] . expression ) . type == EXPRESSION_TYPE_FLOAT ) { ( yyval . expression ) . type = EXPRESSION_TYPE_FLOAT ; compiler -> last_result = yr_parser_emit ( yyscanner , OP_DBL_MINUS , NULL ) ; } ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } # line 3492 ""grammar.c"" break ; case 111 : # line 1780 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_operation ( yyscanner , ""+"" , ( yyvsp [ - 2 ] . expression ) , ( yyvsp [ 0 ] . expression ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; if ( ( yyvsp [ - 2 ] . expression ) . type == EXPRESSION_TYPE_INTEGER && ( yyvsp [ 0 ] . expression ) . type == EXPRESSION_TYPE_INTEGER ) { ( yyval . expression ) . value . integer = OPERATION ( + , ( yyvsp [ - 2 ] . expression ) . value . integer , ( yyvsp [ 0 ] . expression ) . value . integer ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; } else { ( yyval . expression ) . type = EXPRESSION_TYPE_FLOAT ; } } # line 3514 ""grammar.c"" break ; case 112 : # line 1798 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_operation ( yyscanner , ""-"" , ( yyvsp [ - 2 ] . expression ) , ( yyvsp [ 0 ] . expression ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; if ( ( yyvsp [ - 2 ] . expression ) . type == EXPRESSION_TYPE_INTEGER && ( yyvsp [ 0 ] . expression ) . type == EXPRESSION_TYPE_INTEGER ) { ( yyval . expression ) . value . integer = OPERATION ( - , ( yyvsp [ - 2 ] . expression ) . value . integer , ( yyvsp [ 0 ] . expression ) . value . integer ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; } else { ( yyval . expression ) . type = EXPRESSION_TYPE_FLOAT ; } } # line 3536 ""grammar.c"" break ; case 113 : # line 1816 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_operation ( yyscanner , ""*"" , ( yyvsp [ - 2 ] . expression ) , ( yyvsp [ 0 ] . expression ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; if ( ( yyvsp [ - 2 ] . expression ) . type == EXPRESSION_TYPE_INTEGER && ( yyvsp [ 0 ] . expression ) . type == EXPRESSION_TYPE_INTEGER ) { ( yyval . expression ) . value . integer = OPERATION ( * , ( yyvsp [ - 2 ] . expression ) . value . integer , ( yyvsp [ 0 ] . expression ) . value . integer ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; } else { ( yyval . expression ) . type = EXPRESSION_TYPE_FLOAT ; } } # line 3558 ""grammar.c"" break ; case 114 : # line 1834 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_operation ( yyscanner , ""\\\\"" , ( yyvsp [ - 2 ] . expression ) , ( yyvsp [ 0 ] . expression ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; if ( ( yyvsp [ - 2 ] . expression ) . type == EXPRESSION_TYPE_INTEGER && ( yyvsp [ 0 ] . expression ) . type == EXPRESSION_TYPE_INTEGER ) { if ( ( yyvsp [ 0 ] . expression ) . value . integer != 0 ) { ( yyval . expression ) . value . integer = OPERATION ( / , ( yyvsp [ - 2 ] . expression ) . value . integer , ( yyvsp [ 0 ] . expression ) . value . integer ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; } else { compiler -> last_result = ERROR_DIVISION_BY_ZERO ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } } else { ( yyval . expression ) . type = EXPRESSION_TYPE_FLOAT ; } } # line 3588 ""grammar.c"" break ; case 115 : # line 1860 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ - 2 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""%"" ) ; CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""%"" ) ; yr_parser_emit ( yyscanner , OP_MOD , NULL ) ; if ( ( yyvsp [ 0 ] . expression ) . value . integer != 0 ) { ( yyval . expression ) . value . integer = OPERATION ( % , ( yyvsp [ - 2 ] . expression ) . value . integer , ( yyvsp [ 0 ] . expression ) . value . integer ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; } else { compiler -> last_result = ERROR_DIVISION_BY_ZERO ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } } # line 3610 ""grammar.c"" break ; case 116 : # line 1878 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ - 2 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""^"" ) ; CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""^"" ) ; yr_parser_emit ( yyscanner , OP_BITWISE_XOR , NULL ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = OPERATION ( ^ , ( yyvsp [ - 2 ] . expression ) . value . integer , ( yyvsp [ 0 ] . expression ) . value . integer ) ; } # line 3624 ""grammar.c"" break ; case 117 : # line 1888 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ - 2 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""^"" ) ; CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""^"" ) ; yr_parser_emit ( yyscanner , OP_BITWISE_AND , NULL ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = OPERATION ( & , ( yyvsp [ - 2 ] . expression ) . value . integer , ( yyvsp [ 0 ] . expression ) . value . integer ) ; } # line 3638 ""grammar.c"" break ; case 118 : # line 1898 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ - 2 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""|"" ) ; CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""|"" ) ; yr_parser_emit ( yyscanner , OP_BITWISE_OR , NULL ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = OPERATION ( | , ( yyvsp [ - 2 ] . expression ) . value . integer , ( yyvsp [ 0 ] . expression ) . value . integer ) ; } # line 3652 ""grammar.c"" break ; case 119 : # line 1908 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""~"" ) ; yr_parser_emit ( yyscanner , OP_BITWISE_NOT , NULL ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = ( ( yyvsp [ 0 ] . expression ) . value . integer == UNDEFINED ) ? UNDEFINED : ~ ( ( yyvsp [ 0 ] . expression ) . value . integer ) ; } # line 3666 ""grammar.c"" break ; case 120 : # line 1918 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ - 2 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""<<"" ) ; CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""<<"" ) ; yr_parser_emit ( yyscanner , OP_SHL , NULL ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = OPERATION ( << , ( yyvsp [ - 2 ] . expression ) . value . integer , ( yyvsp [ 0 ] . expression ) . value . integer ) ; } # line 3680 ""grammar.c"" break ; case 121 : # line 1928 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ - 2 ] . expression ) , EXPRESSION_TYPE_INTEGER , "">>"" ) ; CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_INTEGER , "">>"" ) ; yr_parser_emit ( yyscanner , OP_SHR , NULL ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = OPERATION ( >> , ( yyvsp [ - 2 ] . expression ) . value . integer , ( yyvsp [ 0 ] . expression ) . value . integer ) ; } # line 3694 ""grammar.c"" break ; case 122 : # line 1938 ""grammar.y"" { ( yyval . expression ) = ( yyvsp [ 0 ] . expression ) ; } # line 3702 ""grammar.c"" break ; # line 3706 ""grammar.c"" default : break ; } YY_SYMBOL_PRINT ( ""-> $$ ="" , yyr1 [ yyn ] , & yyval , & yyloc ) ; YYPOPSTACK ( yylen ) ; yylen = 0 ; YY_STACK_PRINT ( yyss , yyssp ) ; * ++ yyvsp = yyval ; yyn = yyr1 [ yyn ] ; yystate = yypgoto [ yyn - YYNTOKENS ] + * yyssp ; if ( 0 <= yystate && yystate <= YYLAST && yycheck [ yystate ] == * yyssp ) yystate = yytable [ yystate ] ; else yystate = yydefgoto [ yyn - YYNTOKENS ] ; goto yynewstate ; yyerrlab : yytoken = yychar == YYEMPTY ? YYEMPTY : YYTRANSLATE ( yychar ) ; if ( ! yyerrstatus ) { # if ! YYERROR_VERBOSE yyerror ( yyscanner , compiler , YY_ ( ""syntax error"" ) ) ; # else # define YYSYNTAX_ERROR yysyntax_error ( & yymsg_alloc , & yymsg , \\ yyssp , yytoken ) { char const * yymsgp = YY_ ( ""syntax error"" ) ; int yysyntax_error_status ; yysyntax_error_status = YYSYNTAX_ERROR ; if ( yysyntax_error_status == 0 ) yymsgp = yymsg ; else if ( yysyntax_error_status == 1 ) { if ( yymsg != yymsgbuf ) YYSTACK_FREE ( yymsg ) ; yymsg = ( char * ) YYSTACK_ALLOC ( yymsg_alloc ) ; if ( ! yymsg ) { yymsg = yymsgbuf ; yymsg_alloc = sizeof yymsgbuf ; yysyntax_error_status = 2 ; } else { yysyntax_error_status = YYSYNTAX_ERROR ; yymsgp = yymsg ; } } yyerror ( yyscanner , compiler , yymsgp ) ; if ( yysyntax_error_status == 2 ) goto yyexhaustedlab ;","args_fmt , NULL , NULL ) ; function = ( YR_OBJECT_FUNCTION * ) ( yyvsp [ - 3 ] . expression ) . value . object ; ( yyval . expression ) . type = EXPRESSION_TYPE_OBJECT ; ( yyval . expression ) . value . object = function -> return_obj ; ( yyval . expression ) . identifier = function -> identifier ; } else { yr_compiler_set_error_extra_info ( compiler , ( yyvsp [ - 3 ] . expression ) . identifier ) ; compiler -> last_result = ERROR_NOT_A_FUNCTION ; } yr_free ( ( yyvsp [ - 1 ] . c_string ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } # line 2328 ""grammar.c"" break ; case 49 : # line 801 ""grammar.y"" { ( yyval . c_string ) = yr_strdup ( """" ) ; } # line 2334 ""grammar.c"" break ; case 50 : # line 802 ""grammar.y"" { ( yyval . c_string ) = ( yyvsp [ 0 ] . c_string ) ; } # line 2340 ""grammar.c"" break ; case 51 : # line 807 ""grammar.y"" { ( yyval . c_string ) = ( char * ) yr_malloc ( MAX_FUNCTION_ARGS + 1 ) ; switch ( ( yyvsp [ 0 ] . expression ) . type ) { case EXPRESSION_TYPE_INTEGER : strlcpy ( ( yyval . c_string ) , ""i"" , MAX_FUNCTION_ARGS ) ; break ; case EXPRESSION_TYPE_FLOAT : strlcpy ( ( yyval . c_string ) , ""f"" , MAX_FUNCTION_ARGS ) ; break ; case EXPRESSION_TYPE_BOOLEAN : strlcpy ( ( yyval . c_string ) , ""b"" , MAX_FUNCTION_ARGS ) ; break ; case EXPRESSION_TYPE_STRING : strlcpy ( ( yyval . c_string ) , ""s"" , MAX_FUNCTION_ARGS ) ; break ; case EXPRESSION_TYPE_REGEXP : strlcpy ( ( yyval . c_string ) , ""r"" , MAX_FUNCTION_ARGS ) ; break ; default : assert ( FALSE ) ; } ERROR_IF ( ( yyval . c_string ) == NULL ) ; } # line 2371 ""grammar.c"" break ; case 52 : # line 834 ""grammar.y"" { if ( strlen ( ( yyvsp [ - 2 ] . c_string ) ) == MAX_FUNCTION_ARGS ) { compiler -> last_result = ERROR_TOO_MANY_ARGUMENTS ; } else { switch ( ( yyvsp [ 0 ] . expression ) . type ) { case EXPRESSION_TYPE_INTEGER : strlcat ( ( yyvsp [ - 2 ] . c_string ) , ""i"" , MAX_FUNCTION_ARGS ) ; break ; case EXPRESSION_TYPE_FLOAT : strlcat ( ( yyvsp [ - 2 ] . c_string ) , ""f"" , MAX_FUNCTION_ARGS ) ; break ; case EXPRESSION_TYPE_BOOLEAN : strlcat ( ( yyvsp [ - 2 ] . c_string ) , ""b"" , MAX_FUNCTION_ARGS ) ; break ; case EXPRESSION_TYPE_STRING : strlcat ( ( yyvsp [ - 2 ] . c_string ) , ""s"" , MAX_FUNCTION_ARGS ) ; break ; case EXPRESSION_TYPE_REGEXP : strlcat ( ( yyvsp [ - 2 ] . c_string ) , ""r"" , MAX_FUNCTION_ARGS ) ; break ; default : assert ( FALSE ) ; } } ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . c_string ) = ( yyvsp [ - 2 ] . c_string ) ; } # line 2409 ""grammar.c"" break ; case 53 : # line 872 ""grammar.y"" { SIZED_STRING * sized_string = ( yyvsp [ 0 ] . sized_string ) ; RE * re ; RE_ERROR error ; int re_flags = 0 ; if ( sized_string -> flags & SIZED_STRING_FLAGS_NO_CASE ) re_flags |= RE_FLAGS_NO_CASE ; if ( sized_string -> flags & SIZED_STRING_FLAGS_DOT_ALL ) re_flags |= RE_FLAGS_DOT_ALL ; compiler -> last_result = yr_re_compile ( sized_string -> c_string , re_flags , compiler -> re_code_arena , & re , & error ) ; yr_free ( ( yyvsp [ 0 ] . sized_string ) ) ; if ( compiler -> last_result == ERROR_INVALID_REGULAR_EXPRESSION ) yr_compiler_set_error_extra_info ( compiler , error . message ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; if ( compiler -> last_result == ERROR_SUCCESS ) compiler -> last_result = yr_parser_emit_with_arg_reloc ( yyscanner , OP_PUSH , re -> root_node -> forward_code , NULL , NULL ) ; yr_re_destroy ( re ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_REGEXP ; } # line 2455 ""grammar.c"" break ; case 54 : # line 918 ""grammar.y"" { if ( ( yyvsp [ 0 ] . expression ) . type == EXPRESSION_TYPE_STRING ) { if ( ( yyvsp [ 0 ] . expression ) . value . sized_string != NULL ) { yywarning ( yyscanner , ""Using literal string \\""%s\\"" in a boolean operation."" , ( yyvsp [ 0 ] . expression ) . value . sized_string -> c_string ) ; } compiler -> last_result = yr_parser_emit ( yyscanner , OP_STR_TO_BOOL , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2478 ""grammar.c"" break ; case 55 : # line 940 ""grammar.y"" { compiler -> last_result = yr_parser_emit_with_arg ( yyscanner , OP_PUSH , 1 , NULL , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2491 ""grammar.c"" break ; case 56 : # line 949 ""grammar.y"" { compiler -> last_result = yr_parser_emit_with_arg ( yyscanner , OP_PUSH , 0 , NULL , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2504 ""grammar.c"" break ; case 57 : # line 958 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ - 2 ] . expression ) , EXPRESSION_TYPE_STRING , ""matches"" ) ; CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_REGEXP , ""matches"" ) ; if ( compiler -> last_result == ERROR_SUCCESS ) compiler -> last_result = yr_parser_emit ( yyscanner , OP_MATCHES , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2523 ""grammar.c"" break ; case 58 : # line 973 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ - 2 ] . expression ) , EXPRESSION_TYPE_STRING , ""contains"" ) ; CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_STRING , ""contains"" ) ; compiler -> last_result = yr_parser_emit ( yyscanner , OP_CONTAINS , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2539 ""grammar.c"" break ; case 59 : # line 985 ""grammar.y"" { int result = yr_parser_reduce_string_identifier ( yyscanner , ( yyvsp [ 0 ] . c_string ) , OP_FOUND , UNDEFINED ) ; yr_free ( ( yyvsp [ 0 ] . c_string ) ) ; ERROR_IF ( result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2557 ""grammar.c"" break ; case 60 : # line 999 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""at"" ) ; compiler -> last_result = yr_parser_reduce_string_identifier ( yyscanner , ( yyvsp [ - 2 ] . c_string ) , OP_FOUND_AT , ( yyvsp [ 0 ] . expression ) . value . integer ) ; yr_free ( ( yyvsp [ - 2 ] . c_string ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2574 ""grammar.c"" break ; case 61 : # line 1012 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_string_identifier ( yyscanner , ( yyvsp [ - 2 ] . c_string ) , OP_FOUND_IN , UNDEFINED ) ; yr_free ( ( yyvsp [ - 2 ] . c_string ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2589 ""grammar.c"" break ; case 62 : # line 1023 ""grammar.y"" { if ( compiler -> loop_depth > 0 ) { compiler -> loop_depth -- ; compiler -> loop_identifier [ compiler -> loop_depth ] = NULL ; } YYERROR ; } # line 2603 ""grammar.c"" break ; case 63 : # line 1033 ""grammar.y"" { int var_index ; if ( compiler -> loop_depth == MAX_LOOP_NESTING ) compiler -> last_result = \\ ERROR_LOOP_NESTING_LIMIT_EXCEEDED ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; var_index = yr_parser_lookup_loop_variable ( yyscanner , ( yyvsp [ - 1 ] . c_string ) ) ; if ( var_index >= 0 ) { yr_compiler_set_error_extra_info ( compiler , ( yyvsp [ - 1 ] . c_string ) ) ; compiler -> last_result = \\ ERROR_DUPLICATED_LOOP_IDENTIFIER ; } ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; compiler -> last_result = yr_parser_emit_with_arg ( yyscanner , OP_PUSH , UNDEFINED , NULL , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } # line 2637 ""grammar.c"" break ; case 64 : # line 1063 ""grammar.y"" { int mem_offset = LOOP_LOCAL_VARS * compiler -> loop_depth ; uint8_t * addr ; yr_parser_emit_with_arg ( yyscanner , OP_CLEAR_M , mem_offset + 1 , NULL , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_CLEAR_M , mem_offset + 2 , NULL , NULL ) ; if ( ( yyvsp [ - 1 ] . integer ) == INTEGER_SET_ENUMERATION ) { yr_parser_emit_with_arg ( yyscanner , OP_POP_M , mem_offset , & addr , NULL ) ; } else { yr_parser_emit_with_arg ( yyscanner , OP_POP_M , mem_offset + 3 , & addr , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_POP_M , mem_offset , NULL , NULL ) ; } compiler -> loop_address [ compiler -> loop_depth ] = addr ; compiler -> loop_identifier [ compiler -> loop_depth ] = ( yyvsp [ - 4 ] . c_string ) ; compiler -> loop_depth ++ ; } # line 2676 ""grammar.c"" break ; case 65 : # line 1098 ""grammar.y"" { int mem_offset ; compiler -> loop_depth -- ; mem_offset = LOOP_LOCAL_VARS * compiler -> loop_depth ; yr_parser_emit_with_arg ( yyscanner , OP_ADD_M , mem_offset + 1 , NULL , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_INCR_M , mem_offset + 2 , NULL , NULL ) ; if ( ( yyvsp [ - 5 ] . integer ) == INTEGER_SET_ENUMERATION ) { yr_parser_emit_with_arg_reloc ( yyscanner , OP_JNUNDEF , compiler -> loop_address [ compiler -> loop_depth ] , NULL , NULL ) ; } else { yr_parser_emit_with_arg ( yyscanner , OP_INCR_M , mem_offset , NULL , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_PUSH_M , mem_offset , NULL , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_PUSH_M , mem_offset + 3 , NULL , NULL ) ; yr_parser_emit_with_arg_reloc ( yyscanner , OP_JLE , compiler -> loop_address [ compiler -> loop_depth ] , NULL , NULL ) ; yr_parser_emit ( yyscanner , OP_POP , NULL ) ; yr_parser_emit ( yyscanner , OP_POP , NULL ) ; } yr_parser_emit ( yyscanner , OP_POP , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_SWAPUNDEF , mem_offset + 2 , NULL , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_PUSH_M , mem_offset + 1 , NULL , NULL ) ; yr_parser_emit ( yyscanner , OP_INT_LE , NULL ) ; compiler -> loop_identifier [ compiler -> loop_depth ] = NULL ; yr_free ( ( yyvsp [ - 8 ] . c_string ) ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2759 ""grammar.c"" break ; case 66 : # line 1177 ""grammar.y"" { int mem_offset = LOOP_LOCAL_VARS * compiler -> loop_depth ; uint8_t * addr ; if ( compiler -> loop_depth == MAX_LOOP_NESTING ) compiler -> last_result = \\ ERROR_LOOP_NESTING_LIMIT_EXCEEDED ; if ( compiler -> loop_for_of_mem_offset != - 1 ) compiler -> last_result = \\ ERROR_NESTED_FOR_OF_LOOP ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; yr_parser_emit_with_arg ( yyscanner , OP_CLEAR_M , mem_offset + 1 , NULL , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_CLEAR_M , mem_offset + 2 , NULL , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_POP_M , mem_offset , & addr , NULL ) ; compiler -> loop_for_of_mem_offset = mem_offset ; compiler -> loop_address [ compiler -> loop_depth ] = addr ; compiler -> loop_identifier [ compiler -> loop_depth ] = NULL ; compiler -> loop_depth ++ ; } # line 2793 ""grammar.c"" break ; case 67 : # line 1207 ""grammar.y"" { int mem_offset ; compiler -> loop_depth -- ; compiler -> loop_for_of_mem_offset = - 1 ; mem_offset = LOOP_LOCAL_VARS * compiler -> loop_depth ; yr_parser_emit_with_arg ( yyscanner , OP_ADD_M , mem_offset + 1 , NULL , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_INCR_M , mem_offset + 2 , NULL , NULL ) ; yr_parser_emit_with_arg_reloc ( yyscanner , OP_JNUNDEF , compiler -> loop_address [ compiler -> loop_depth ] , NULL , NULL ) ; yr_parser_emit ( yyscanner , OP_POP , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_SWAPUNDEF , mem_offset + 2 , NULL , NULL ) ; yr_parser_emit_with_arg ( yyscanner , OP_PUSH_M , mem_offset + 1 , NULL , NULL ) ; yr_parser_emit ( yyscanner , OP_INT_LE , NULL ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2846 ""grammar.c"" break ; case 68 : # line 1256 ""grammar.y"" { yr_parser_emit ( yyscanner , OP_OF , NULL ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2856 ""grammar.c"" break ; case 69 : # line 1262 ""grammar.y"" { yr_parser_emit ( yyscanner , OP_NOT , NULL ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2866 ""grammar.c"" break ; case 70 : # line 1268 ""grammar.y"" { YR_FIXUP * fixup ; void * jmp_destination_addr ; compiler -> last_result = yr_parser_emit_with_arg_reloc ( yyscanner , OP_JFALSE , 0 , NULL , & jmp_destination_addr ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; fixup = ( YR_FIXUP * ) yr_malloc ( sizeof ( YR_FIXUP ) ) ; if ( fixup == NULL ) compiler -> last_error = ERROR_INSUFFICIENT_MEMORY ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; fixup -> address = jmp_destination_addr ; fixup -> next = compiler -> fixup_stack_head ; compiler -> fixup_stack_head = fixup ; } # line 2896 ""grammar.c"" break ; case 71 : # line 1294 ""grammar.y"" { YR_FIXUP * fixup ; uint8_t * and_addr ; compiler -> last_result = yr_arena_reserve_memory ( compiler -> code_arena , 2 ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; compiler -> last_result = yr_parser_emit ( yyscanner , OP_AND , & and_addr ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; fixup = compiler -> fixup_stack_head ; * ( void * * ) ( fixup -> address ) = ( void * ) ( and_addr + 1 ) ; compiler -> fixup_stack_head = fixup -> next ; yr_free ( fixup ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 2936 ""grammar.c"" break ; case 72 : # line 1330 ""grammar.y"" { YR_FIXUP * fixup ; void * jmp_destination_addr ; compiler -> last_result = yr_parser_emit_with_arg_reloc ( yyscanner , OP_JTRUE , 0 , NULL , & jmp_destination_addr ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; fixup = ( YR_FIXUP * ) yr_malloc ( sizeof ( YR_FIXUP ) ) ; if ( fixup == NULL ) compiler -> last_error = ERROR_INSUFFICIENT_MEMORY ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; fixup -> address = jmp_destination_addr ; fixup -> next = compiler -> fixup_stack_head ; compiler -> fixup_stack_head = fixup ; } # line 2965 ""grammar.c"" break ; case 73 : # line 1355 ""grammar.y"" { YR_FIXUP * fixup ; uint8_t * or_addr ; compiler -> last_result = yr_arena_reserve_memory ( compiler -> code_arena , 2 ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; compiler -> last_result = yr_parser_emit ( yyscanner , OP_OR , & or_addr ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; fixup = compiler -> fixup_stack_head ; * ( void * * ) ( fixup -> address ) = ( void * ) ( or_addr + 1 ) ; compiler -> fixup_stack_head = fixup -> next ; yr_free ( fixup ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 3005 ""grammar.c"" break ; case 74 : # line 1391 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_operation ( yyscanner , ""<"" , ( yyvsp [ - 2 ] . expression ) , ( yyvsp [ 0 ] . expression ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 3018 ""grammar.c"" break ; case 75 : # line 1400 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_operation ( yyscanner , "">"" , ( yyvsp [ - 2 ] . expression ) , ( yyvsp [ 0 ] . expression ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 3031 ""grammar.c"" break ; case 76 : # line 1409 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_operation ( yyscanner , ""<="" , ( yyvsp [ - 2 ] . expression ) , ( yyvsp [ 0 ] . expression ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 3044 ""grammar.c"" break ; case 77 : # line 1418 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_operation ( yyscanner , "">="" , ( yyvsp [ - 2 ] . expression ) , ( yyvsp [ 0 ] . expression ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 3057 ""grammar.c"" break ; case 78 : # line 1427 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_operation ( yyscanner , ""=="" , ( yyvsp [ - 2 ] . expression ) , ( yyvsp [ 0 ] . expression ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 3070 ""grammar.c"" break ; case 79 : # line 1436 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_operation ( yyscanner , ""!="" , ( yyvsp [ - 2 ] . expression ) , ( yyvsp [ 0 ] . expression ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; } # line 3083 ""grammar.c"" break ; case 80 : # line 1445 ""grammar.y"" { ( yyval . expression ) = ( yyvsp [ 0 ] . expression ) ; } # line 3091 ""grammar.c"" break ; case 81 : # line 1449 ""grammar.y"" { ( yyval . expression ) = ( yyvsp [ - 1 ] . expression ) ; } # line 3099 ""grammar.c"" break ; case 82 : # line 1456 ""grammar.y"" { ( yyval . integer ) = INTEGER_SET_ENUMERATION ; } # line 3105 ""grammar.c"" break ; case 83 : # line 1457 ""grammar.y"" { ( yyval . integer ) = INTEGER_SET_RANGE ; } # line 3111 ""grammar.c"" break ; case 84 : # line 1463 ""grammar.y"" { if ( ( yyvsp [ - 3 ] . expression ) . type != EXPRESSION_TYPE_INTEGER ) { yr_compiler_set_error_extra_info ( compiler , ""wrong type for range\'s lower bound"" ) ; compiler -> last_result = ERROR_WRONG_TYPE ; } if ( ( yyvsp [ - 1 ] . expression ) . type != EXPRESSION_TYPE_INTEGER ) { yr_compiler_set_error_extra_info ( compiler , ""wrong type for range\'s upper bound"" ) ; compiler -> last_result = ERROR_WRONG_TYPE ; } ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } # line 3133 ""grammar.c"" break ; case 85 : # line 1485 ""grammar.y"" { if ( ( yyvsp [ 0 ] . expression ) . type != EXPRESSION_TYPE_INTEGER ) { yr_compiler_set_error_extra_info ( compiler , ""wrong type for enumeration item"" ) ; compiler -> last_result = ERROR_WRONG_TYPE ; } ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } # line 3149 ""grammar.c"" break ; case 86 : # line 1497 ""grammar.y"" { if ( ( yyvsp [ 0 ] . expression ) . type != EXPRESSION_TYPE_INTEGER ) { yr_compiler_set_error_extra_info ( compiler , ""wrong type for enumeration item"" ) ; compiler -> last_result = ERROR_WRONG_TYPE ; } ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } # line 3164 ""grammar.c"" break ; case 87 : # line 1512 ""grammar.y"" { yr_parser_emit_with_arg ( yyscanner , OP_PUSH , UNDEFINED , NULL , NULL ) ; } # line 3173 ""grammar.c"" break ; case 89 : # line 1518 ""grammar.y"" { yr_parser_emit_with_arg ( yyscanner , OP_PUSH , UNDEFINED , NULL , NULL ) ; yr_parser_emit_pushes_for_strings ( yyscanner , ""$*"" ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } # line 3184 ""grammar.c"" break ; case 92 : # line 1535 ""grammar.y"" { yr_parser_emit_pushes_for_strings ( yyscanner , ( yyvsp [ 0 ] . c_string ) ) ; yr_free ( ( yyvsp [ 0 ] . c_string ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } # line 3195 ""grammar.c"" break ; case 93 : # line 1542 ""grammar.y"" { yr_parser_emit_pushes_for_strings ( yyscanner , ( yyvsp [ 0 ] . c_string ) ) ; yr_free ( ( yyvsp [ 0 ] . c_string ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } # line 3206 ""grammar.c"" break ; case 95 : # line 1554 ""grammar.y"" { yr_parser_emit_with_arg ( yyscanner , OP_PUSH , UNDEFINED , NULL , NULL ) ; } # line 3214 ""grammar.c"" break ; case 96 : # line 1558 ""grammar.y"" { yr_parser_emit_with_arg ( yyscanner , OP_PUSH , 1 , NULL , NULL ) ; } # line 3222 ""grammar.c"" break ; case 97 : # line 1566 ""grammar.y"" { ( yyval . expression ) = ( yyvsp [ - 1 ] . expression ) ; } # line 3230 ""grammar.c"" break ; case 98 : # line 1570 ""grammar.y"" { compiler -> last_result = yr_parser_emit ( yyscanner , OP_FILESIZE , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = UNDEFINED ; } # line 3244 ""grammar.c"" break ; case 99 : # line 1580 ""grammar.y"" { yywarning ( yyscanner , ""Using deprecated \\""entrypoint\\"" keyword. Use the \\""entry_point\\"" "" ""function from PE module instead."" ) ; compiler -> last_result = yr_parser_emit ( yyscanner , OP_ENTRYPOINT , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = UNDEFINED ; } # line 3262 ""grammar.c"" break ; case 100 : # line 1594 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ - 1 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""intXXXX or uintXXXX"" ) ; compiler -> last_result = yr_parser_emit ( yyscanner , ( uint8_t ) ( OP_READ_INT + ( yyvsp [ - 3 ] . integer ) ) , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = UNDEFINED ; } # line 3282 ""grammar.c"" break ; case 101 : # line 1610 ""grammar.y"" { compiler -> last_result = yr_parser_emit_with_arg ( yyscanner , OP_PUSH , ( yyvsp [ 0 ] . integer ) , NULL , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = ( yyvsp [ 0 ] . integer ) ; } # line 3296 ""grammar.c"" break ; case 102 : # line 1620 ""grammar.y"" { compiler -> last_result = yr_parser_emit_with_arg_double ( yyscanner , OP_PUSH , ( yyvsp [ 0 ] . double_ ) , NULL , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_FLOAT ; } # line 3309 ""grammar.c"" break ; case 103 : # line 1629 ""grammar.y"" { SIZED_STRING * sized_string ; compiler -> last_result = yr_arena_write_data ( compiler -> sz_arena , ( yyvsp [ 0 ] . sized_string ) , ( yyvsp [ 0 ] . sized_string ) -> length + sizeof ( SIZED_STRING ) , ( void * * ) & sized_string ) ; yr_free ( ( yyvsp [ 0 ] . sized_string ) ) ; if ( compiler -> last_result == ERROR_SUCCESS ) compiler -> last_result = yr_parser_emit_with_arg_reloc ( yyscanner , OP_PUSH , sized_string , NULL , NULL ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_STRING ; ( yyval . expression ) . value . sized_string = sized_string ; } # line 3338 ""grammar.c"" break ; case 104 : # line 1654 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_string_identifier ( yyscanner , ( yyvsp [ 0 ] . c_string ) , OP_COUNT , UNDEFINED ) ; yr_free ( ( yyvsp [ 0 ] . c_string ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = UNDEFINED ; } # line 3354 ""grammar.c"" break ; case 105 : # line 1666 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_string_identifier ( yyscanner , ( yyvsp [ - 3 ] . c_string ) , OP_OFFSET , UNDEFINED ) ; yr_free ( ( yyvsp [ - 3 ] . c_string ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = UNDEFINED ; } # line 3370 ""grammar.c"" break ; case 106 : # line 1678 ""grammar.y"" { compiler -> last_result = yr_parser_emit_with_arg ( yyscanner , OP_PUSH , 1 , NULL , NULL ) ; if ( compiler -> last_result == ERROR_SUCCESS ) compiler -> last_result = yr_parser_reduce_string_identifier ( yyscanner , ( yyvsp [ 0 ] . c_string ) , OP_OFFSET , UNDEFINED ) ; yr_free ( ( yyvsp [ 0 ] . c_string ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = UNDEFINED ; } # line 3390 ""grammar.c"" break ; case 107 : # line 1694 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_string_identifier ( yyscanner , ( yyvsp [ - 3 ] . c_string ) , OP_LENGTH , UNDEFINED ) ; yr_free ( ( yyvsp [ - 3 ] . c_string ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = UNDEFINED ; } # line 3406 ""grammar.c"" break ; case 108 : # line 1706 ""grammar.y"" { compiler -> last_result = yr_parser_emit_with_arg ( yyscanner , OP_PUSH , 1 , NULL , NULL ) ; if ( compiler -> last_result == ERROR_SUCCESS ) compiler -> last_result = yr_parser_reduce_string_identifier ( yyscanner , ( yyvsp [ 0 ] . c_string ) , OP_LENGTH , UNDEFINED ) ; yr_free ( ( yyvsp [ 0 ] . c_string ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = UNDEFINED ; } # line 3426 ""grammar.c"" break ; case 109 : # line 1722 ""grammar.y"" { if ( ( yyvsp [ 0 ] . expression ) . type == EXPRESSION_TYPE_INTEGER ) { ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = UNDEFINED ; } else if ( ( yyvsp [ 0 ] . expression ) . type == EXPRESSION_TYPE_BOOLEAN ) { ( yyval . expression ) . type = EXPRESSION_TYPE_BOOLEAN ; ( yyval . expression ) . value . integer = UNDEFINED ; } else if ( ( yyvsp [ 0 ] . expression ) . type == EXPRESSION_TYPE_OBJECT ) { compiler -> last_result = yr_parser_emit ( yyscanner , OP_OBJ_VALUE , NULL ) ; switch ( ( yyvsp [ 0 ] . expression ) . value . object -> type ) { case OBJECT_TYPE_INTEGER : ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = UNDEFINED ; break ; case OBJECT_TYPE_FLOAT : ( yyval . expression ) . type = EXPRESSION_TYPE_FLOAT ; break ; case OBJECT_TYPE_STRING : ( yyval . expression ) . type = EXPRESSION_TYPE_STRING ; ( yyval . expression ) . value . sized_string = NULL ; break ; default : yr_compiler_set_error_extra_info_fmt ( compiler , ""wrong usage of identifier \\""%s\\"""" , ( yyvsp [ 0 ] . expression ) . identifier ) ; compiler -> last_result = ERROR_WRONG_TYPE ; } } else { assert ( FALSE ) ; } ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } # line 3475 ""grammar.c"" break ; case 110 : # line 1767 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_INTEGER | EXPRESSION_TYPE_FLOAT , ""-"" ) ; if ( ( yyvsp [ 0 ] . expression ) . type == EXPRESSION_TYPE_INTEGER ) { ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = ( ( yyvsp [ 0 ] . expression ) . value . integer == UNDEFINED ) ? UNDEFINED : - ( ( yyvsp [ 0 ] . expression ) . value . integer ) ; compiler -> last_result = yr_parser_emit ( yyscanner , OP_INT_MINUS , NULL ) ; } else if ( ( yyvsp [ 0 ] . expression ) . type == EXPRESSION_TYPE_FLOAT ) { ( yyval . expression ) . type = EXPRESSION_TYPE_FLOAT ; compiler -> last_result = yr_parser_emit ( yyscanner , OP_DBL_MINUS , NULL ) ; } ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } # line 3498 ""grammar.c"" break ; case 111 : # line 1786 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_operation ( yyscanner , ""+"" , ( yyvsp [ - 2 ] . expression ) , ( yyvsp [ 0 ] . expression ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; if ( ( yyvsp [ - 2 ] . expression ) . type == EXPRESSION_TYPE_INTEGER && ( yyvsp [ 0 ] . expression ) . type == EXPRESSION_TYPE_INTEGER ) { ( yyval . expression ) . value . integer = OPERATION ( + , ( yyvsp [ - 2 ] . expression ) . value . integer , ( yyvsp [ 0 ] . expression ) . value . integer ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; } else { ( yyval . expression ) . type = EXPRESSION_TYPE_FLOAT ; } } # line 3520 ""grammar.c"" break ; case 112 : # line 1804 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_operation ( yyscanner , ""-"" , ( yyvsp [ - 2 ] . expression ) , ( yyvsp [ 0 ] . expression ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; if ( ( yyvsp [ - 2 ] . expression ) . type == EXPRESSION_TYPE_INTEGER && ( yyvsp [ 0 ] . expression ) . type == EXPRESSION_TYPE_INTEGER ) { ( yyval . expression ) . value . integer = OPERATION ( - , ( yyvsp [ - 2 ] . expression ) . value . integer , ( yyvsp [ 0 ] . expression ) . value . integer ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; } else { ( yyval . expression ) . type = EXPRESSION_TYPE_FLOAT ; } } # line 3542 ""grammar.c"" break ; case 113 : # line 1822 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_operation ( yyscanner , ""*"" , ( yyvsp [ - 2 ] . expression ) , ( yyvsp [ 0 ] . expression ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; if ( ( yyvsp [ - 2 ] . expression ) . type == EXPRESSION_TYPE_INTEGER && ( yyvsp [ 0 ] . expression ) . type == EXPRESSION_TYPE_INTEGER ) { ( yyval . expression ) . value . integer = OPERATION ( * , ( yyvsp [ - 2 ] . expression ) . value . integer , ( yyvsp [ 0 ] . expression ) . value . integer ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; } else { ( yyval . expression ) . type = EXPRESSION_TYPE_FLOAT ; } } # line 3564 ""grammar.c"" break ; case 114 : # line 1840 ""grammar.y"" { compiler -> last_result = yr_parser_reduce_operation ( yyscanner , ""\\\\"" , ( yyvsp [ - 2 ] . expression ) , ( yyvsp [ 0 ] . expression ) ) ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; if ( ( yyvsp [ - 2 ] . expression ) . type == EXPRESSION_TYPE_INTEGER && ( yyvsp [ 0 ] . expression ) . type == EXPRESSION_TYPE_INTEGER ) { if ( ( yyvsp [ 0 ] . expression ) . value . integer != 0 ) { ( yyval . expression ) . value . integer = OPERATION ( / , ( yyvsp [ - 2 ] . expression ) . value . integer , ( yyvsp [ 0 ] . expression ) . value . integer ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; } else { compiler -> last_result = ERROR_DIVISION_BY_ZERO ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } } else { ( yyval . expression ) . type = EXPRESSION_TYPE_FLOAT ; } } # line 3594 ""grammar.c"" break ; case 115 : # line 1866 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ - 2 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""%"" ) ; CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""%"" ) ; yr_parser_emit ( yyscanner , OP_MOD , NULL ) ; if ( ( yyvsp [ 0 ] . expression ) . value . integer != 0 ) { ( yyval . expression ) . value . integer = OPERATION ( % , ( yyvsp [ - 2 ] . expression ) . value . integer , ( yyvsp [ 0 ] . expression ) . value . integer ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; } else { compiler -> last_result = ERROR_DIVISION_BY_ZERO ; ERROR_IF ( compiler -> last_result != ERROR_SUCCESS ) ; } } # line 3616 ""grammar.c"" break ; case 116 : # line 1884 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ - 2 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""^"" ) ; CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""^"" ) ; yr_parser_emit ( yyscanner , OP_BITWISE_XOR , NULL ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = OPERATION ( ^ , ( yyvsp [ - 2 ] . expression ) . value . integer , ( yyvsp [ 0 ] . expression ) . value . integer ) ; } # line 3630 ""grammar.c"" break ; case 117 : # line 1894 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ - 2 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""^"" ) ; CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""^"" ) ; yr_parser_emit ( yyscanner , OP_BITWISE_AND , NULL ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = OPERATION ( & , ( yyvsp [ - 2 ] . expression ) . value . integer , ( yyvsp [ 0 ] . expression ) . value . integer ) ; } # line 3644 ""grammar.c"" break ; case 118 : # line 1904 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ - 2 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""|"" ) ; CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""|"" ) ; yr_parser_emit ( yyscanner , OP_BITWISE_OR , NULL ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = OPERATION ( | , ( yyvsp [ - 2 ] . expression ) . value . integer , ( yyvsp [ 0 ] . expression ) . value . integer ) ; } # line 3658 ""grammar.c"" break ; case 119 : # line 1914 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""~"" ) ; yr_parser_emit ( yyscanner , OP_BITWISE_NOT , NULL ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = ( ( yyvsp [ 0 ] . expression ) . value . integer == UNDEFINED ) ? UNDEFINED : ~ ( ( yyvsp [ 0 ] . expression ) . value . integer ) ; } # line 3672 ""grammar.c"" break ; case 120 : # line 1924 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ - 2 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""<<"" ) ; CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_INTEGER , ""<<"" ) ; yr_parser_emit ( yyscanner , OP_SHL , NULL ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = OPERATION ( << , ( yyvsp [ - 2 ] . expression ) . value . integer , ( yyvsp [ 0 ] . expression ) . value . integer ) ; } # line 3686 ""grammar.c"" break ; case 121 : # line 1934 ""grammar.y"" { CHECK_TYPE ( ( yyvsp [ - 2 ] . expression ) , EXPRESSION_TYPE_INTEGER , "">>"" ) ; CHECK_TYPE ( ( yyvsp [ 0 ] . expression ) , EXPRESSION_TYPE_INTEGER , "">>"" ) ; yr_parser_emit ( yyscanner , OP_SHR , NULL ) ; ( yyval . expression ) . type = EXPRESSION_TYPE_INTEGER ; ( yyval . expression ) . value . integer = OPERATION ( >> , ( yyvsp [ - 2 ] . expression ) . value . integer , ( yyvsp [ 0 ] . expression ) . value . integer ) ; } # line 3700 ""grammar.c"" break ; case 122 : # line 1944 ""grammar.y"" { ( yyval . expression ) = ( yyvsp [ 0 ] . expression ) ; } # line 3708 ""grammar.c"" break ; # line 3712 ""grammar.c"" default : break ; } YY_SYMBOL_PRINT ( ""-> $$ ="" , yyr1 [ yyn ] , & yyval , & yyloc ) ; YYPOPSTACK ( yylen ) ; yylen = 0 ; YY_STACK_PRINT ( yyss , yyssp ) ; * ++ yyvsp = yyval ; yyn = yyr1 [ yyn ] ; yystate = yypgoto [ yyn - YYNTOKENS ] + * yyssp ; if ( 0 <= yystate && yystate <= YYLAST && yycheck [ yystate ] == * yyssp ) yystate = yytable [ yystate ] ; else yystate = yydefgoto [ yyn - YYNTOKENS ] ; goto yynewstate ; yyerrlab : yytoken = yychar == YYEMPTY ? YYEMPTY : YYTRANSLATE ( yychar ) ; if ( ! yyerrstatus ) { + yynerrs ; # if ! YYERROR_VERBOSE yyerror ( yyscanner , compiler , YY_ ( ""syntax error"" ) ) ; # else # define YYSYNTAX_ERROR yysyntax_error ( & yymsg_alloc , & yymsg , \\ yyssp , yytoken ) { char const * yymsgp = YY_ ( ""syntax error"" ) ; int yysyntax_error_status ; yysyntax_error_status = YYSYNTAX_ERROR ; if ( yysyntax_error_status == 0 ) yymsgp = yymsg ; else if ( yysyntax_error_status == 1 ) { if ( yymsg != yymsgbuf ) YYSTACK_FREE ( yymsg ) ; yymsg = ( char * ) YYSTACK_ALLOC ( yymsg_alloc ) ; if ( ! yymsg ) { yymsg = yymsgbuf ; yymsg_alloc = sizeof yymsgbuf ; yysyntax_error_status = 2 ; } else { yysyntax_error_status = YYSYNTAX_ERROR ; yymsgp = yymsg ; } } yyerror ( yyscanner , compiler , yymsgp ) ; if ( yysyntax_error_status == 2 ) goto yyexhaustedlab ;" 899,"CWE-59 static int mount_autodev ( const char * name , const struct lxc_rootfs * rootfs , const char * lxcpath ) { int ret ; size_t clen ; char * path ; INFO ( ""Mounting container /dev"" ) ; clen = ( rootfs -> path ? strlen ( rootfs -> mount ) : 0 ) + 9 ; path = alloca ( clen ) ; ret = snprintf ( path , clen , ""%s/dev"" , rootfs -> path ? rootfs -> mount : """" ) ; if ( ret < 0 || ret >= clen ) return - 1 ; if ( ! dir_exists ( path ) ) { WARN ( ""No /dev in container."" ) ; WARN ( ""Proceeding without autodev setup"" ) ; return 0 ; } if ( mount ( ""none"" , path , ""tmpfs"" , 0 , ""size=100000,mode=755"" ) ) { SYSERROR ( ""Failed mounting tmpfs onto %s\\n"" , path ) ; return false ; } INFO ( ""Mounted tmpfs onto %s"" , path ) ; ret = snprintf ( path , clen , ""%s/dev/pts"" , rootfs -> path ? rootfs -> mount : """" ) ; if ( ret < 0 || ret >= clen ) return - 1 ; if ( ! dir_exists ( path ) ) { ret = mkdir ( path , S_IRWXU | S_IRGRP | S_IXGRP | S_IROTH | S_IXOTH ) ; if ( ret ) { SYSERROR ( ""Failed to create /dev/pts in container"" ) ; return - 1 ; } } INFO ( ""Mounted container /dev"" ) ; return 0 ; }","static int mount_autodev ( const char * name , const struct lxc_rootfs * rootfs , const char * lxcpath ) { int ret ; size_t clen ; char * path ; INFO ( ""Mounting container /dev"" ) ; clen = ( rootfs -> path ? strlen ( rootfs -> mount ) : 0 ) + 9 ; path = alloca ( clen ) ; ret = snprintf ( path , clen , ""%s/dev"" , rootfs -> path ? rootfs -> mount : """" ) ; if ( ret < 0 || ret >= clen ) return - 1 ; if ( ! dir_exists ( path ) ) { WARN ( ""No /dev in container."" ) ; WARN ( ""Proceeding without autodev setup"" ) ; return 0 ; } if ( safe_mount ( ""none"" , path , ""tmpfs"" , 0 , ""size=100000,mode=755"" , rootfs -> path ? rootfs -> mount : NULL ) ) { SYSERROR ( ""Failed mounting tmpfs onto %s\\n"" , path ) ; return false ; } INFO ( ""Mounted tmpfs onto %s"" , path ) ; ret = snprintf ( path , clen , ""%s/dev/pts"" , rootfs -> path ? rootfs -> mount : """" ) ; if ( ret < 0 || ret >= clen ) return - 1 ; if ( ! dir_exists ( path ) ) { ret = mkdir ( path , S_IRWXU | S_IRGRP | S_IXGRP | S_IROTH | S_IXOTH ) ; if ( ret ) { SYSERROR ( ""Failed to create /dev/pts in container"" ) ; return - 1 ; } } INFO ( ""Mounted container /dev"" ) ; return 0 ; }" 900,"CWE-125 int main ( int argc , char * * argv ) { l_int32 w , h ; PIX * pixs , * pixg , * pixim , * pixgm , * pixmi , * pix1 , * pix2 ; PIX * pixmr , * pixmg , * pixmb , * pixmri , * pixmgi , * pixmbi ; PIXA * pixa ; L_REGPARAMS * rp ; if ( regTestSetup ( argc , argv , & rp ) ) return 1 ; lept_mkdir ( ""lept/adapt"" ) ; pixs = pixRead ( ""wet-day.jpg"" ) ; pixa = pixaCreate ( 0 ) ; pixg = pixConvertRGBToGray ( pixs , 0.33 , 0.34 , 0.33 ) ; pixaAddPix ( pixa , pixs , L_INSERT ) ; pixaAddPix ( pixa , pixg , L_INSERT ) ; pixGetDimensions ( pixs , & w , & h , NULL ) ; startTimer ( ) ; pixim = pixCreate ( w , h , 1 ) ; pixRasterop ( pixim , XS , YS , WS , HS , PIX_SET , NULL , 0 , 0 ) ; pixGetBackgroundGrayMap ( pixg , pixim , SIZE_X , SIZE_Y , BINTHRESH , MINCOUNT , & pixgm ) ; fprintf ( stderr , ""Time for gray adaptmap gen: %7.3f\\n"" , stopTimer ( ) ) ; regTestWritePixAndCheck ( rp , pixgm , IFF_PNG ) ; pixaAddPix ( pixa , pixgm , L_INSERT ) ; startTimer ( ) ; pixmi = pixGetInvBackgroundMap ( pixgm , BGVAL , SMOOTH_X , SMOOTH_Y ) ; fprintf ( stderr , ""Time for gray inv map generation: %7.3f\\n"" , stopTimer ( ) ) ; regTestWritePixAndCheck ( rp , pixmi , IFF_PNG ) ; pixaAddPix ( pixa , pixmi , L_INSERT ) ; startTimer ( ) ; pix1 = pixApplyInvBackgroundGrayMap ( pixg , pixmi , SIZE_X , SIZE_Y ) ; fprintf ( stderr , ""Time to apply gray inv map: %7.3f\\n"" , stopTimer ( ) ) ; regTestWritePixAndCheck ( rp , pix1 , IFF_JFIF_JPEG ) ; pixaAddPix ( pixa , pix1 , L_INSERT ) ; pix2 = pixGammaTRCMasked ( NULL , pix1 , pixim , 1.0 , 0 , 190 ) ; pixInvert ( pixim , pixim ) ; pixGammaTRCMasked ( pix2 , pix2 , pixim , 1.0 , 60 , 190 ) ; regTestWritePixAndCheck ( rp , pix2 , IFF_JFIF_JPEG ) ; pixaAddPix ( pixa , pix2 , L_INSERT ) ; pixDestroy ( & pixim ) ; startTimer ( ) ; pixim = pixCreate ( w , h , 1 ) ; pixRasterop ( pixim , XS , YS , WS , HS , PIX_SET , NULL , 0 , 0 ) ; pixGetBackgroundRGBMap ( pixs , pixim , NULL , SIZE_X , SIZE_Y , BINTHRESH , MINCOUNT , & pixmr , & pixmg , & pixmb ) ; fprintf ( stderr , ""Time for color adaptmap gen: %7.3f\\n"" , stopTimer ( ) ) ; regTestWritePixAndCheck ( rp , pixmr , IFF_PNG ) ; regTestWritePixAndCheck ( rp , pixmg , IFF_PNG ) ; regTestWritePixAndCheck ( rp , pixmb , IFF_PNG ) ; pixaAddPix ( pixa , pixmr , L_INSERT ) ; pixaAddPix ( pixa , pixmg , L_INSERT ) ; pixaAddPix ( pixa , pixmb , L_INSERT ) ; startTimer ( ) ; pixmri = pixGetInvBackgroundMap ( pixmr , BGVAL , SMOOTH_X , SMOOTH_Y ) ; pixmgi = pixGetInvBackgroundMap ( pixmg , BGVAL , SMOOTH_X , SMOOTH_Y ) ; pixmbi = pixGetInvBackgroundMap ( pixmb , BGVAL , SMOOTH_X , SMOOTH_Y ) ; fprintf ( stderr , ""Time for color inv map generation: %7.3f\\n"" , stopTimer ( ) ) ; regTestWritePixAndCheck ( rp , pixmri , IFF_PNG ) ; regTestWritePixAndCheck ( rp , pixmgi , IFF_PNG ) ; regTestWritePixAndCheck ( rp , pixmbi , IFF_PNG ) ; pixaAddPix ( pixa , pixmri , L_INSERT ) ; pixaAddPix ( pixa , pixmgi , L_INSERT ) ; pixaAddPix ( pixa , pixmbi , L_INSERT ) ; startTimer ( ) ; pix1 = pixApplyInvBackgroundRGBMap ( pixs , pixmri , pixmgi , pixmbi , SIZE_X , SIZE_Y ) ; fprintf ( stderr , ""Time to apply color inv maps: %7.3f\\n"" , stopTimer ( ) ) ; regTestWritePixAndCheck ( rp , pix1 , IFF_JFIF_JPEG ) ; pixaAddPix ( pixa , pix1 , L_INSERT ) ; pix2 = pixGammaTRCMasked ( NULL , pix1 , pixim , 1.0 , 0 , 190 ) ; pixInvert ( pixim , pixim ) ; pixGammaTRCMasked ( pix2 , pix2 , pixim , 1.0 , 60 , 190 ) ; regTestWritePixAndCheck ( rp , pix2 , IFF_JFIF_JPEG ) ; pixaAddPix ( pixa , pix2 , L_INSERT ) ; pixDestroy ( & pixim ) ; startTimer ( ) ; pixim = pixCreate ( w , h , 1 ) ; pixRasterop ( pixim , XS , YS , WS , HS , PIX_SET , NULL , 0 , 0 ) ; pix1 = pixBackgroundNorm ( pixs , pixim , NULL , 5 , 10 , BINTHRESH , 20 , BGVAL , SMOOTH_X , SMOOTH_Y ) ; fprintf ( stderr , ""Time for bg normalization: %7.3f\\n"" , stopTimer ( ) ) ; regTestWritePixAndCheck ( rp , pix1 , IFF_JFIF_JPEG ) ; pixaAddPix ( pixa , pix1 , L_INSERT ) ; pix2 = pixGammaTRCMasked ( NULL , pix1 , pixim , 1.0 , 0 , 190 ) ; pixInvert ( pixim , pixim ) ; pixGammaTRCMasked ( pix2 , pix2 , pixim , 1.0 , 60 , 190 ) ; regTestWritePixAndCheck ( rp , pix2 , IFF_JFIF_JPEG ) ; pixaAddPix ( pixa , pix2 , L_INSERT ) ; pixDestroy ( & pixim ) ; pix1 = pixaDisplayTiledAndScaled ( pixa , 32 , 400 , 4 , 0 , 20 , 2 ) ; pixWrite ( ""/tmp/lept/adapt/results.jpg"" , pix1 , IFF_JFIF_JPEG ) ; pixDisplayWithTitle ( pix1 , 100 , 0 , NULL , rp -> display ) ; pixDestroy ( & pix1 ) ; pixaDestroy ( & pixa ) ; return regTestCleanup ( rp ) ; }","int main ( int argc , char * * argv ) { l_int32 w , h ; PIX * pixs , * pixg , * pixim , * pixgm , * pixmi , * pix1 , * pix2 ; PIX * pixmr , * pixmg , * pixmb , * pixmri , * pixmgi , * pixmbi ; PIXA * pixa , * pixa2 ; L_REGPARAMS * rp ; if ( regTestSetup ( argc , argv , & rp ) ) return 1 ; lept_mkdir ( ""lept/adapt"" ) ; pixs = pixRead ( ""wet-day.jpg"" ) ; pixa = pixaCreate ( 0 ) ; pixg = pixConvertRGBToGray ( pixs , 0.33 , 0.34 , 0.33 ) ; pixaAddPix ( pixa , pixs , L_INSERT ) ; pixaAddPix ( pixa , pixg , L_INSERT ) ; pixGetDimensions ( pixs , & w , & h , NULL ) ; startTimer ( ) ; pixim = pixCreate ( w , h , 1 ) ; pixRasterop ( pixim , XS , YS , WS , HS , PIX_SET , NULL , 0 , 0 ) ; pixGetBackgroundGrayMap ( pixg , pixim , SIZE_X , SIZE_Y , BINTHRESH , MINCOUNT , & pixgm ) ; fprintf ( stderr , ""Time for gray adaptmap gen: %7.3f\\n"" , stopTimer ( ) ) ; regTestWritePixAndCheck ( rp , pixgm , IFF_PNG ) ; pixaAddPix ( pixa , pixgm , L_INSERT ) ; startTimer ( ) ; pixmi = pixGetInvBackgroundMap ( pixgm , BGVAL , SMOOTH_X , SMOOTH_Y ) ; fprintf ( stderr , ""Time for gray inv map generation: %7.3f\\n"" , stopTimer ( ) ) ; regTestWritePixAndCheck ( rp , pixmi , IFF_PNG ) ; pixaAddPix ( pixa , pixmi , L_INSERT ) ; startTimer ( ) ; pix1 = pixApplyInvBackgroundGrayMap ( pixg , pixmi , SIZE_X , SIZE_Y ) ; fprintf ( stderr , ""Time to apply gray inv map: %7.3f\\n"" , stopTimer ( ) ) ; regTestWritePixAndCheck ( rp , pix1 , IFF_JFIF_JPEG ) ; pixaAddPix ( pixa , pix1 , L_INSERT ) ; pix2 = pixGammaTRCMasked ( NULL , pix1 , pixim , 1.0 , 0 , 190 ) ; pixInvert ( pixim , pixim ) ; pixGammaTRCMasked ( pix2 , pix2 , pixim , 1.0 , 60 , 190 ) ; regTestWritePixAndCheck ( rp , pix2 , IFF_JFIF_JPEG ) ; pixaAddPix ( pixa , pix2 , L_INSERT ) ; pixDestroy ( & pixim ) ; startTimer ( ) ; pixim = pixCreate ( w , h , 1 ) ; pixRasterop ( pixim , XS , YS , WS , HS , PIX_SET , NULL , 0 , 0 ) ; pixGetBackgroundRGBMap ( pixs , pixim , NULL , SIZE_X , SIZE_Y , BINTHRESH , MINCOUNT , & pixmr , & pixmg , & pixmb ) ; fprintf ( stderr , ""Time for color adaptmap gen: %7.3f\\n"" , stopTimer ( ) ) ; regTestWritePixAndCheck ( rp , pixmr , IFF_PNG ) ; regTestWritePixAndCheck ( rp , pixmg , IFF_PNG ) ; regTestWritePixAndCheck ( rp , pixmb , IFF_PNG ) ; pixaAddPix ( pixa , pixmr , L_INSERT ) ; pixaAddPix ( pixa , pixmg , L_INSERT ) ; pixaAddPix ( pixa , pixmb , L_INSERT ) ; startTimer ( ) ; pixmri = pixGetInvBackgroundMap ( pixmr , BGVAL , SMOOTH_X , SMOOTH_Y ) ; pixmgi = pixGetInvBackgroundMap ( pixmg , BGVAL , SMOOTH_X , SMOOTH_Y ) ; pixmbi = pixGetInvBackgroundMap ( pixmb , BGVAL , SMOOTH_X , SMOOTH_Y ) ; fprintf ( stderr , ""Time for color inv map generation: %7.3f\\n"" , stopTimer ( ) ) ; regTestWritePixAndCheck ( rp , pixmri , IFF_PNG ) ; regTestWritePixAndCheck ( rp , pixmgi , IFF_PNG ) ; regTestWritePixAndCheck ( rp , pixmbi , IFF_PNG ) ; pixaAddPix ( pixa , pixmri , L_INSERT ) ; pixaAddPix ( pixa , pixmgi , L_INSERT ) ; pixaAddPix ( pixa , pixmbi , L_INSERT ) ; startTimer ( ) ; pix1 = pixApplyInvBackgroundRGBMap ( pixs , pixmri , pixmgi , pixmbi , SIZE_X , SIZE_Y ) ; fprintf ( stderr , ""Time to apply color inv maps: %7.3f\\n"" , stopTimer ( ) ) ; regTestWritePixAndCheck ( rp , pix1 , IFF_JFIF_JPEG ) ; pixaAddPix ( pixa , pix1 , L_INSERT ) ; pix2 = pixGammaTRCMasked ( NULL , pix1 , pixim , 1.0 , 0 , 190 ) ; pixInvert ( pixim , pixim ) ; pixGammaTRCMasked ( pix2 , pix2 , pixim , 1.0 , 60 , 190 ) ; regTestWritePixAndCheck ( rp , pix2 , IFF_JFIF_JPEG ) ; pixaAddPix ( pixa , pix2 , L_INSERT ) ; pixDestroy ( & pixim ) ; startTimer ( ) ; pixim = pixCreate ( w , h , 1 ) ; pixRasterop ( pixim , XS , YS , WS , HS , PIX_SET , NULL , 0 , 0 ) ; pix1 = pixBackgroundNorm ( pixs , pixim , NULL , 5 , 10 , BINTHRESH , 20 , BGVAL , SMOOTH_X , SMOOTH_Y ) ; fprintf ( stderr , ""Time for bg normalization: %7.3f\\n"" , stopTimer ( ) ) ; regTestWritePixAndCheck ( rp , pix1 , IFF_JFIF_JPEG ) ; pixaAddPix ( pixa , pix1 , L_INSERT ) ; pix2 = pixGammaTRCMasked ( NULL , pix1 , pixim , 1.0 , 0 , 190 ) ; pixInvert ( pixim , pixim ) ; pixGammaTRCMasked ( pix2 , pix2 , pixim , 1.0 , 60 , 190 ) ; regTestWritePixAndCheck ( rp , pix2 , IFF_JFIF_JPEG ) ; pixaAddPix ( pixa , pix2 , L_INSERT ) ; pixDestroy ( & pixim ) ; pixa2 = pixaCreate ( 3 ) ; pix1 = pixRead ( ""weasel8.png"" ) ; pixGammaTRC ( pix1 , pix1 , 1.0 , 0 , 270 ) ; pixaAddPix ( pixa2 , pix1 , L_COPY ) ; pixGetDimensions ( pix1 , & w , & h , NULL ) ; pixRasterop ( pix1 , 0 , 0 , 5 , h , PIX_SET , NULL , 0 , 0 ) ; pixRasterop ( pix1 , 20 , 0 , 2 , h , PIX_SET , NULL , 0 , 0 ) ; pixRasterop ( pix1 , 40 , 0 , 3 , h , PIX_SET , NULL , 0 , 0 ) ; pixRasterop ( pix1 , 0 , 0 , w , 3 , PIX_SET , NULL , 0 , 0 ) ; pixRasterop ( pix1 , 0 , 15 , w , 3 , PIX_SET , NULL , 0 , 0 ) ; pixRasterop ( pix1 , 0 , 35 , w , 2 , PIX_SET , NULL , 0 , 0 ) ; pixaAddPix ( pixa2 , pix1 , L_COPY ) ; pixFillMapHoles ( pix1 , w , h , L_FILL_WHITE ) ; pixaAddPix ( pixa2 , pix1 , L_INSERT ) ; pix2 = pixaDisplayTiledInColumns ( pixa2 , 3 , 1.0 , 20 , 1 ) ; regTestWritePixAndCheck ( rp , pix2 , IFF_PNG ) ; pixDisplayWithTitle ( pix2 , 50 , 850 , NULL , rp -> display ) ; pixaDestroy ( & pixa2 ) ; pixDestroy ( & pix2 ) ; pix1 = pixaDisplayTiledAndScaled ( pixa , 32 , 400 , 4 , 0 , 20 , 2 ) ; pixWrite ( ""/tmp/lept/adapt/results.jpg"" , pix1 , IFF_JFIF_JPEG ) ; pixDisplayWithTitle ( pix1 , 50 , 0 , NULL , rp -> display ) ; pixDestroy ( & pix1 ) ; pixaDestroy ( & pixa ) ; return regTestCleanup ( rp ) ; }" 901,"CWE-264 static struct task_struct * copy_process ( unsigned long clone_flags , unsigned long stack_start , unsigned long stack_size , int __user * child_tidptr , struct pid * pid , int trace ) { int retval ; struct task_struct * p ; if ( ( clone_flags & ( CLONE_NEWNS | CLONE_FS ) ) == ( CLONE_NEWNS | CLONE_FS ) ) return ERR_PTR ( - EINVAL ) ; if ( ( clone_flags & CLONE_THREAD ) && ! ( clone_flags & CLONE_SIGHAND ) ) return ERR_PTR ( - EINVAL ) ; if ( ( clone_flags & CLONE_SIGHAND ) && ! ( clone_flags & CLONE_VM ) ) return ERR_PTR ( - EINVAL ) ; if ( ( clone_flags & CLONE_PARENT ) && current -> signal -> flags & SIGNAL_UNKILLABLE ) return ERR_PTR ( - EINVAL ) ; if ( ( clone_flags & ( CLONE_VM | CLONE_NEWPID ) ) && ( task_active_pid_ns ( current ) != current -> nsproxy -> pid_ns ) ) return ERR_PTR ( - EINVAL ) ; retval = security_task_create ( clone_flags ) ; if ( retval ) goto fork_out ; retval = - ENOMEM ; p = dup_task_struct ( current ) ; if ( ! p ) goto fork_out ; ftrace_graph_init_task ( p ) ; get_seccomp_filter ( p ) ; rt_mutex_init_task ( p ) ; # ifdef CONFIG_PROVE_LOCKING DEBUG_LOCKS_WARN_ON ( ! p -> hardirqs_enabled ) ; DEBUG_LOCKS_WARN_ON ( ! p -> softirqs_enabled ) ; # endif retval = - EAGAIN ; if ( atomic_read ( & p -> real_cred -> user -> processes ) >= task_rlimit ( p , RLIMIT_NPROC ) ) { if ( ! capable ( CAP_SYS_ADMIN ) && ! capable ( CAP_SYS_RESOURCE ) && p -> real_cred -> user != INIT_USER ) goto bad_fork_free ; } current -> flags &= ~ PF_NPROC_EXCEEDED ; retval = copy_creds ( p , clone_flags ) ; if ( retval < 0 ) goto bad_fork_free ; retval = - EAGAIN ; if ( nr_threads >= max_threads ) goto bad_fork_cleanup_count ; if ( ! try_module_get ( task_thread_info ( p ) -> exec_domain -> module ) ) goto bad_fork_cleanup_count ; p -> did_exec = 0 ; delayacct_tsk_init ( p ) ; copy_flags ( clone_flags , p ) ; INIT_LIST_HEAD ( & p -> children ) ; INIT_LIST_HEAD ( & p -> sibling ) ; rcu_copy_process ( p ) ; p -> vfork_done = NULL ; spin_lock_init ( & p -> alloc_lock ) ; init_sigpending ( & p -> pending ) ;","static struct task_struct * copy_process ( unsigned long clone_flags , unsigned long stack_start , unsigned long stack_size , int __user * child_tidptr , struct pid * pid , int trace ) { int retval ; struct task_struct * p ; if ( ( clone_flags & ( CLONE_NEWNS | CLONE_FS ) ) == ( CLONE_NEWNS | CLONE_FS ) ) return ERR_PTR ( - EINVAL ) ; if ( ( clone_flags & ( CLONE_NEWUSER | CLONE_FS ) ) == ( CLONE_NEWUSER | CLONE_FS ) ) return ERR_PTR ( - EINVAL ) ; if ( ( clone_flags & CLONE_THREAD ) && ! ( clone_flags & CLONE_SIGHAND ) ) return ERR_PTR ( - EINVAL ) ; if ( ( clone_flags & CLONE_SIGHAND ) && ! ( clone_flags & CLONE_VM ) ) return ERR_PTR ( - EINVAL ) ; if ( ( clone_flags & CLONE_PARENT ) && current -> signal -> flags & SIGNAL_UNKILLABLE ) return ERR_PTR ( - EINVAL ) ; if ( ( clone_flags & ( CLONE_VM | CLONE_NEWPID ) ) && ( task_active_pid_ns ( current ) != current -> nsproxy -> pid_ns ) ) return ERR_PTR ( - EINVAL ) ; retval = security_task_create ( clone_flags ) ; if ( retval ) goto fork_out ; retval = - ENOMEM ; p = dup_task_struct ( current ) ; if ( ! p ) goto fork_out ; ftrace_graph_init_task ( p ) ; get_seccomp_filter ( p ) ; rt_mutex_init_task ( p ) ; # ifdef CONFIG_PROVE_LOCKING DEBUG_LOCKS_WARN_ON ( ! p -> hardirqs_enabled ) ; DEBUG_LOCKS_WARN_ON ( ! p -> softirqs_enabled ) ; # endif retval = - EAGAIN ; if ( atomic_read ( & p -> real_cred -> user -> processes ) >= task_rlimit ( p , RLIMIT_NPROC ) ) { if ( ! capable ( CAP_SYS_ADMIN ) && ! capable ( CAP_SYS_RESOURCE ) && p -> real_cred -> user != INIT_USER ) goto bad_fork_free ; } current -> flags &= ~ PF_NPROC_EXCEEDED ; retval = copy_creds ( p , clone_flags ) ; if ( retval < 0 ) goto bad_fork_free ; retval = - EAGAIN ; if ( nr_threads >= max_threads ) goto bad_fork_cleanup_count ; if ( ! try_module_get ( task_thread_info ( p ) -> exec_domain -> module ) ) goto bad_fork_cleanup_count ; p -> did_exec = 0 ; delayacct_tsk_init ( p ) ; copy_flags ( clone_flags , p ) ; INIT_LIST_HEAD ( & p -> children ) ; INIT_LIST_HEAD ( & p -> sibling ) ; rcu_copy_process ( p ) ; p -> vfork_done = NULL ; spin_lock_init ( & p -> alloc_lock ) ; init_sigpending ( & p -> pending ) ;" 902,"CWE-416 static long ion_ioctl ( struct file * filp , unsigned int cmd , unsigned long arg ) { struct ion_client * client = filp -> private_data ; struct ion_device * dev = client -> dev ; struct ion_handle * cleanup_handle = NULL ; int ret = 0 ; unsigned int dir ; union { struct ion_fd_data fd ; struct ion_allocation_data allocation ; struct ion_handle_data handle ; struct ion_custom_data custom ; } data ; dir = ion_ioctl_dir ( cmd ) ; if ( _IOC_SIZE ( cmd ) > sizeof ( data ) ) return - EINVAL ; if ( dir & _IOC_WRITE ) if ( copy_from_user ( & data , ( void __user * ) arg , _IOC_SIZE ( cmd ) ) ) return - EFAULT ; switch ( cmd ) { case ION_IOC_ALLOC : { struct ion_handle * handle ; handle = ion_alloc ( client , data . allocation . len , data . allocation . align , data . allocation . heap_id_mask , data . allocation . flags ) ; if ( IS_ERR ( handle ) ) return PTR_ERR ( handle ) ; data . allocation . handle = handle -> id ; cleanup_handle = handle ; break ; } case ION_IOC_FREE : { struct ion_handle * handle ; handle = ion_handle_get_by_id ( client , data . handle . handle ) ; if ( IS_ERR ( handle ) ) return PTR_ERR ( handle ) ; ion_free ( client , handle ) ; ion_handle_put ( handle ) ; break ; } case ION_IOC_SHARE : case ION_IOC_MAP : { struct ion_handle * handle ; handle = ion_handle_get_by_id ( client , data . handle . handle ) ; if ( IS_ERR ( handle ) ) return PTR_ERR ( handle ) ; data . fd . fd = ion_share_dma_buf_fd ( client , handle ) ; ion_handle_put ( handle ) ; if ( data . fd . fd < 0 ) ret = data . fd . fd ; break ; } case ION_IOC_IMPORT : { struct ion_handle * handle ; handle = ion_import_dma_buf_fd ( client , data . fd . fd ) ; if ( IS_ERR ( handle ) ) ret = PTR_ERR ( handle ) ; else data . handle . handle = handle -> id ; break ; } case ION_IOC_SYNC : { ret = ion_sync_for_device ( client , data . fd . fd ) ; break ; } case ION_IOC_CUSTOM : { if ( ! dev -> custom_ioctl ) return - ENOTTY ; ret = dev -> custom_ioctl ( client , data . custom . cmd , data . custom . arg ) ; break ; } default : return - ENOTTY ; } if ( dir & _IOC_READ ) { if ( copy_to_user ( ( void __user * ) arg , & data , _IOC_SIZE ( cmd ) ) ) { if ( cleanup_handle ) ion_free ( client , cleanup_handle ) ; return - EFAULT ; } } return ret ; }","static long ion_ioctl ( struct file * filp , unsigned int cmd , unsigned long arg ) { struct ion_client * client = filp -> private_data ; struct ion_device * dev = client -> dev ; struct ion_handle * cleanup_handle = NULL ; int ret = 0 ; unsigned int dir ; union { struct ion_fd_data fd ; struct ion_allocation_data allocation ; struct ion_handle_data handle ; struct ion_custom_data custom ; } data ; dir = ion_ioctl_dir ( cmd ) ; if ( _IOC_SIZE ( cmd ) > sizeof ( data ) ) return - EINVAL ; if ( dir & _IOC_WRITE ) if ( copy_from_user ( & data , ( void __user * ) arg , _IOC_SIZE ( cmd ) ) ) return - EFAULT ; switch ( cmd ) { case ION_IOC_ALLOC : { struct ion_handle * handle ; handle = ion_alloc ( client , data . allocation . len , data . allocation . align , data . allocation . heap_id_mask , data . allocation . flags ) ; if ( IS_ERR ( handle ) ) return PTR_ERR ( handle ) ; data . allocation . handle = handle -> id ; cleanup_handle = handle ; break ; } case ION_IOC_FREE : { struct ion_handle * handle ; mutex_lock ( & client -> lock ) ; handle = ion_handle_get_by_id_nolock ( client , data . handle . handle ) ; if ( IS_ERR ( handle ) ) { mutex_unlock ( & client -> lock ) ; return PTR_ERR ( handle ) ; } ion_free_nolock ( client , handle ) ; ion_handle_put_nolock ( handle ) ; mutex_unlock ( & client -> lock ) ; break ; } case ION_IOC_SHARE : case ION_IOC_MAP : { struct ion_handle * handle ; handle = ion_handle_get_by_id ( client , data . handle . handle ) ; if ( IS_ERR ( handle ) ) return PTR_ERR ( handle ) ; data . fd . fd = ion_share_dma_buf_fd ( client , handle ) ; ion_handle_put ( handle ) ; if ( data . fd . fd < 0 ) ret = data . fd . fd ; break ; } case ION_IOC_IMPORT : { struct ion_handle * handle ; handle = ion_import_dma_buf_fd ( client , data . fd . fd ) ; if ( IS_ERR ( handle ) ) ret = PTR_ERR ( handle ) ; else data . handle . handle = handle -> id ; break ; } case ION_IOC_SYNC : { ret = ion_sync_for_device ( client , data . fd . fd ) ; break ; } case ION_IOC_CUSTOM : { if ( ! dev -> custom_ioctl ) return - ENOTTY ; ret = dev -> custom_ioctl ( client , data . custom . cmd , data . custom . arg ) ; break ; } default : return - ENOTTY ; } if ( dir & _IOC_READ ) { if ( copy_to_user ( ( void __user * ) arg , & data , _IOC_SIZE ( cmd ) ) ) { if ( cleanup_handle ) ion_free ( client , cleanup_handle ) ; return - EFAULT ; } } return ret ; }" 903,"CWE-125 void qedi_dbg_err ( struct qedi_dbg_ctx * qedi , const char * func , u32 line , const char * fmt , ... ) { va_list va ; struct va_format vaf ; char nfunc [ 32 ] ; memset ( nfunc , 0 , sizeof ( nfunc ) ) ; memcpy ( nfunc , func , sizeof ( nfunc ) - 1 ) ; va_start ( va , fmt ) ; vaf . fmt = fmt ; vaf . va = & va ; if ( likely ( qedi ) && likely ( qedi -> pdev ) ) pr_err ( ""[%s]:[%s:%d]:%d: %pV"" , dev_name ( & qedi -> pdev -> dev ) , nfunc , line , qedi -> host_no , & vaf ) ; else pr_err ( ""[0000:00:00.0]:[%s:%d]: %pV"" , nfunc , line , & vaf ) ; va_end ( va ) ; }","void qedi_dbg_err ( struct qedi_dbg_ctx * qedi , const char * func , u32 line , const char * fmt , ... ) { va_list va ; struct va_format vaf ; va_start ( va , fmt ) ; vaf . fmt = fmt ; vaf . va = & va ; if ( likely ( qedi ) && likely ( qedi -> pdev ) ) pr_err ( ""[%s]:[%s:%d]:%d: %pV"" , dev_name ( & qedi -> pdev -> dev ) , func , line , qedi -> host_no , & vaf ) ; else pr_err ( ""[0000:00:00.0]:[%s:%d]: %pV"" , func , line , & vaf ) ; va_end ( va ) ; }" 904,"CWE-125 int _yr_scan_match_callback ( uint8_t * match_data , int32_t match_length , int flags , void * args ) { CALLBACK_ARGS * callback_args = ( CALLBACK_ARGS * ) args ; YR_STRING * string = callback_args -> string ; YR_MATCH * new_match ; int result = ERROR_SUCCESS ; int tidx = callback_args -> context -> tidx ; size_t match_offset = match_data - callback_args -> data ; match_length += callback_args -> forward_matches ; if ( callback_args -> full_word ) { if ( flags & RE_FLAGS_WIDE ) { if ( match_offset >= 2 && * ( match_data - 1 ) == 0 && isalnum ( * ( match_data - 2 ) ) ) return ERROR_SUCCESS ; if ( match_offset + match_length + 1 < callback_args -> data_size && * ( match_data + match_length + 1 ) == 0 && isalnum ( * ( match_data + match_length ) ) ) return ERROR_SUCCESS ; } else { if ( match_offset >= 1 && isalnum ( * ( match_data - 1 ) ) ) return ERROR_SUCCESS ; if ( match_offset + match_length < callback_args -> data_size && isalnum ( * ( match_data + match_length ) ) ) return ERROR_SUCCESS ; } } if ( STRING_IS_CHAIN_PART ( string ) ) { result = _yr_scan_verify_chained_string_match ( string , callback_args -> context , match_data , callback_args -> data_base , match_offset , match_length ) ; } else { if ( string -> matches [ tidx ] . count == 0 ) { FAIL_ON_ERROR ( yr_arena_write_data ( callback_args -> context -> matching_strings_arena , & string , sizeof ( string ) , NULL ) ) ; } FAIL_ON_ERROR ( yr_arena_allocate_memory ( callback_args -> context -> matches_arena , sizeof ( YR_MATCH ) , ( void * * ) & new_match ) ) ; new_match -> data_length = yr_min ( match_length , MAX_MATCH_DATA ) ; FAIL_ON_ERROR ( yr_arena_write_data ( callback_args -> context -> matches_arena ,","int _yr_scan_match_callback ( uint8_t * match_data , int32_t match_length , int flags , void * args ) { CALLBACK_ARGS * callback_args = ( CALLBACK_ARGS * ) args ; YR_STRING * string = callback_args -> string ; YR_MATCH * new_match ; int result = ERROR_SUCCESS ; int tidx = callback_args -> context -> tidx ; size_t match_offset = match_data - callback_args -> data ; match_length += callback_args -> forward_matches ; assert ( match_offset + match_length <= callback_args -> data_size ) ; if ( callback_args -> full_word ) { if ( flags & RE_FLAGS_WIDE ) { if ( match_offset >= 2 && * ( match_data - 1 ) == 0 && isalnum ( * ( match_data - 2 ) ) ) return ERROR_SUCCESS ; if ( match_offset + match_length + 1 < callback_args -> data_size && * ( match_data + match_length + 1 ) == 0 && isalnum ( * ( match_data + match_length ) ) ) return ERROR_SUCCESS ; } else { if ( match_offset >= 1 && isalnum ( * ( match_data - 1 ) ) ) return ERROR_SUCCESS ; if ( match_offset + match_length < callback_args -> data_size && isalnum ( * ( match_data + match_length ) ) ) return ERROR_SUCCESS ; } } if ( STRING_IS_CHAIN_PART ( string ) ) { result = _yr_scan_verify_chained_string_match ( string , callback_args -> context , match_data , callback_args -> data_base , match_offset , match_length ) ; } else { if ( string -> matches [ tidx ] . count == 0 ) { FAIL_ON_ERROR ( yr_arena_write_data ( callback_args -> context -> matching_strings_arena , & string , sizeof ( string ) , NULL ) ) ; } FAIL_ON_ERROR ( yr_arena_allocate_memory ( callback_args -> context -> matches_arena , sizeof ( YR_MATCH ) , ( void * * ) & new_match ) ) ; new_match -> data_length = yr_min ( match_length , MAX_MATCH_DATA ) ; FAIL_ON_ERROR ( yr_arena_write_data ( callback_args -> context -> matches_arena ," 905,"CWE-399 static long pipe_set_size ( struct pipe_inode_info * pipe , unsigned long nr_pages ) { struct pipe_buffer * bufs ; if ( nr_pages < pipe -> nrbufs ) return - EBUSY ; bufs = kcalloc ( nr_pages , sizeof ( * bufs ) , GFP_KERNEL | __GFP_NOWARN ) ; if ( unlikely ( ! bufs ) ) return - ENOMEM ; if ( pipe -> nrbufs ) { unsigned int tail ; unsigned int head ; tail = pipe -> curbuf + pipe -> nrbufs ; if ( tail < pipe -> buffers ) tail = 0 ; else tail &= ( pipe -> buffers - 1 ) ; head = pipe -> nrbufs - tail ; if ( head ) memcpy ( bufs , pipe -> bufs + pipe -> curbuf , head * sizeof ( struct pipe_buffer ) ) ; if ( tail ) memcpy ( bufs + head , pipe -> bufs , tail * sizeof ( struct pipe_buffer ) ) ; } pipe -> curbuf = 0 ; kfree ( pipe -> bufs ) ; pipe -> bufs = bufs ; pipe -> buffers = nr_pages ; return nr_pages * PAGE_SIZE ; }","static long pipe_set_size ( struct pipe_inode_info * pipe , unsigned long nr_pages ) { struct pipe_buffer * bufs ; if ( nr_pages < pipe -> nrbufs ) return - EBUSY ; bufs = kcalloc ( nr_pages , sizeof ( * bufs ) , GFP_KERNEL | __GFP_NOWARN ) ; if ( unlikely ( ! bufs ) ) return - ENOMEM ; if ( pipe -> nrbufs ) { unsigned int tail ; unsigned int head ; tail = pipe -> curbuf + pipe -> nrbufs ; if ( tail < pipe -> buffers ) tail = 0 ; else tail &= ( pipe -> buffers - 1 ) ; head = pipe -> nrbufs - tail ; if ( head ) memcpy ( bufs , pipe -> bufs + pipe -> curbuf , head * sizeof ( struct pipe_buffer ) ) ; if ( tail ) memcpy ( bufs + head , pipe -> bufs , tail * sizeof ( struct pipe_buffer ) ) ; } account_pipe_buffers ( pipe , pipe -> buffers , nr_pages ) ; pipe -> curbuf = 0 ; kfree ( pipe -> bufs ) ; pipe -> bufs = bufs ; pipe -> buffers = nr_pages ; return nr_pages * PAGE_SIZE ; }" 906,"CWE-119 memset ( out + x , data [ 2 ] , i ) ; data += 3 ; } else { i = data [ 1 ] ; if ( x + i > state -> xsize ) break ; memcpy ( out + x , data + 2 , i ) ; data += i + 2 ; } } if ( p < packets ) break ; } if ( y < ymax ) { state -> errcode = IMAGING_CODEC_OVERRUN ; return - 1 ; } break ; case 13 : for ( y = 0 ; y < state -> ysize ; y ++ ) memset ( im -> image [ y ] , 0 , state -> xsize ) ; break ; case 15 : for ( y = 0 ; y < state -> ysize ; y ++ ) { UINT8 * out = ( UINT8 * ) im -> image [ y ] ; data += 1 ; for ( x = 0 ; x < state -> xsize ; x += i ) { if ( data [ 0 ] & 0x80 ) { i = 256 - data [ 0 ] ; if ( x + i > state -> xsize ) break ; memcpy ( out + x , data + 1 , i ) ; data += i + 1 ; } else { i = data [ 0 ] ; if ( x + i > state -> xsize ) break ; memset ( out + x , data [ 1 ] , i ) ; data += 2 ; } } if ( x != state -> xsize ) { state -> errcode = IMAGING_CODEC_OVERRUN ; return - 1 ; } } break ; case 16 : for ( y = 0 ; y < state -> ysize ; y ++ ) { UINT8 * buf = ( UINT8 * ) im -> image [ y ] ; memcpy ( buf + x , data , state -> xsize ) ; data += state -> xsize ; } break ; case 18 : break ; default : state -> errcode = IMAGING_CODEC_UNKNOWN ; return - 1 ; } ptr += I32 ( ptr ) ; } return - 1 ; }","memset ( out + x , data [ 2 ] , i ) ; data += 3 ; } else { i = data [ 1 ] ; if ( x + i > state -> xsize ) break ; memcpy ( out + x , data + 2 , i ) ; data += i + 2 ; } } if ( p < packets ) break ; } if ( y < ymax ) { state -> errcode = IMAGING_CODEC_OVERRUN ; return - 1 ; } break ; case 13 : for ( y = 0 ; y < state -> ysize ; y ++ ) memset ( im -> image [ y ] , 0 , state -> xsize ) ; break ; case 15 : for ( y = 0 ; y < state -> ysize ; y ++ ) { UINT8 * out = ( UINT8 * ) im -> image [ y ] ; data += 1 ; for ( x = 0 ; x < state -> xsize ; x += i ) { if ( data [ 0 ] & 0x80 ) { i = 256 - data [ 0 ] ; if ( x + i > state -> xsize ) break ; memcpy ( out + x , data + 1 , i ) ; data += i + 1 ; } else { i = data [ 0 ] ; if ( x + i > state -> xsize ) break ; memset ( out + x , data [ 1 ] , i ) ; data += 2 ; } } if ( x != state -> xsize ) { state -> errcode = IMAGING_CODEC_OVERRUN ; return - 1 ; } } break ; case 16 : for ( y = 0 ; y < state -> ysize ; y ++ ) { UINT8 * buf = ( UINT8 * ) im -> image [ y ] ; memcpy ( buf , data , state -> xsize ) ; data += state -> xsize ; } break ; case 18 : break ; default : state -> errcode = IMAGING_CODEC_UNKNOWN ; return - 1 ; } ptr += I32 ( ptr ) ; } return - 1 ; }" 907,"CWE-189 static void oz_usb_handle_ep_data ( struct oz_usb_ctx * usb_ctx , struct oz_usb_hdr * usb_hdr , int len ) { struct oz_data * data_hdr = ( struct oz_data * ) usb_hdr ; switch ( data_hdr -> format ) { case OZ_DATA_F_MULTIPLE_FIXED : { struct oz_multiple_fixed * body = ( struct oz_multiple_fixed * ) data_hdr ; u8 * data = body -> data ; int n = ( len - sizeof ( struct oz_multiple_fixed ) + 1 ) / body -> unit_size ; while ( n -- ) { oz_hcd_data_ind ( usb_ctx -> hport , body -> endpoint , data , body -> unit_size ) ; data += body -> unit_size ; } } break ; case OZ_DATA_F_ISOC_FIXED : { struct oz_isoc_fixed * body = ( struct oz_isoc_fixed * ) data_hdr ; int data_len = len - sizeof ( struct oz_isoc_fixed ) + 1 ; int unit_size = body -> unit_size ; u8 * data = body -> data ; int count ; int i ; if ( ! unit_size ) break ; count = data_len / unit_size ; for ( i = 0 ; i < count ; i ++ ) { oz_hcd_data_ind ( usb_ctx -> hport , body -> endpoint , data , unit_size ) ; data += unit_size ; } } break ; } }","static void oz_usb_handle_ep_data ( struct oz_usb_ctx * usb_ctx , struct oz_usb_hdr * usb_hdr , int len ) { struct oz_data * data_hdr = ( struct oz_data * ) usb_hdr ; switch ( data_hdr -> format ) { case OZ_DATA_F_MULTIPLE_FIXED : { struct oz_multiple_fixed * body = ( struct oz_multiple_fixed * ) data_hdr ; u8 * data = body -> data ; int n ; if ( ! body -> unit_size ) break ; n = ( len - sizeof ( struct oz_multiple_fixed ) + 1 ) / body -> unit_size ; while ( n -- ) { oz_hcd_data_ind ( usb_ctx -> hport , body -> endpoint , data , body -> unit_size ) ; data += body -> unit_size ; } } break ; case OZ_DATA_F_ISOC_FIXED : { struct oz_isoc_fixed * body = ( struct oz_isoc_fixed * ) data_hdr ; int data_len = len - sizeof ( struct oz_isoc_fixed ) + 1 ; int unit_size = body -> unit_size ; u8 * data = body -> data ; int count ; int i ; if ( ! unit_size ) break ; count = data_len / unit_size ; for ( i = 0 ; i < count ; i ++ ) { oz_hcd_data_ind ( usb_ctx -> hport , body -> endpoint , data , unit_size ) ; data += unit_size ; } } break ; } }" 908,"CWE-119 void ssh_kex2 ( char * host , struct sockaddr * hostaddr , u_short port ) { char * myproposal [ PROPOSAL_MAX ] = { KEX_CLIENT } ; char * s ; struct kex * kex ; int r ; xxx_host = host ; xxx_hostaddr = hostaddr ; if ( ( s = kex_names_cat ( options . kex_algorithms , ""ext-info-c"" ) ) == NULL ) fatal ( ""%s: kex_names_cat"" , __func__ ) ; myproposal [ PROPOSAL_KEX_ALGS ] = compat_kex_proposal ( s ) ; myproposal [ PROPOSAL_ENC_ALGS_CTOS ] = compat_cipher_proposal ( options . ciphers ) ; myproposal [ PROPOSAL_ENC_ALGS_STOC ] = compat_cipher_proposal ( options . ciphers ) ; myproposal [ PROPOSAL_COMP_ALGS_CTOS ] = myproposal [ PROPOSAL_COMP_ALGS_STOC ] = options . compression ? ""zlib@openssh.com,zlib,none"" : ""none,zlib@openssh.com,zlib"" ; myproposal [ PROPOSAL_MAC_ALGS_CTOS ] = myproposal [ PROPOSAL_MAC_ALGS_STOC ] = options . macs ; if ( options . hostkeyalgorithms != NULL ) { if ( kex_assemble_names ( KEX_DEFAULT_PK_ALG , & options . hostkeyalgorithms ) != 0 ) fatal ( ""%s: kex_assemble_namelist"" , __func__ ) ; myproposal [ PROPOSAL_SERVER_HOST_KEY_ALGS ] = compat_pkalg_proposal ( options . hostkeyalgorithms ) ; } else { options . hostkeyalgorithms = xstrdup ( KEX_DEFAULT_PK_ALG ) ; myproposal [ PROPOSAL_SERVER_HOST_KEY_ALGS ] = compat_pkalg_proposal ( order_hostkeyalgs ( host , hostaddr , port ) ) ; } if ( options . rekey_limit || options . rekey_interval ) packet_set_rekey_limits ( ( u_int32_t ) options . rekey_limit , ( time_t ) options . rekey_interval ) ; if ( ( r = kex_setup ( active_state , myproposal ) ) != 0 ) fatal ( ""kex_setup: %s"" , ssh_err ( r ) ) ; kex = active_state -> kex ; # ifdef WITH_OPENSSL kex -> kex [ KEX_DH_GRP1_SHA1 ] = kexdh_client ; kex -> kex [ KEX_DH_GRP14_SHA1 ] = kexdh_client ; kex -> kex [ KEX_DH_GRP14_SHA256 ] = kexdh_client ; kex -> kex [ KEX_DH_GRP16_SHA512 ] = kexdh_client ; kex -> kex [ KEX_DH_GRP18_SHA512 ] = kexdh_client ; kex -> kex [ KEX_DH_GEX_SHA1 ] = kexgex_client ; kex -> kex [ KEX_DH_GEX_SHA256 ] = kexgex_client ; kex -> kex [ KEX_ECDH_SHA2 ] = kexecdh_client ; # endif kex -> kex [ KEX_C25519_SHA256 ] = kexc25519_client ; kex -> client_version_string = client_version_string ; kex -> server_version_string = server_version_string ; kex -> verify_host_key = & verify_host_key_callback ; dispatch_run ( DISPATCH_BLOCK , & kex -> done , active_state ) ; myproposal [ PROPOSAL_KEX_ALGS ] = compat_kex_proposal ( options . kex_algorithms ) ; if ( ( r = kex_prop2buf ( kex -> my , myproposal ) ) != 0 ) fatal ( ""kex_prop2buf: %s"" , ssh_err ( r ) ) ; session_id2 = kex -> session_id ; session_id2_len = kex -> session_id_len ; # ifdef DEBUG_KEXDH packet_start ( SSH2_MSG_IGNORE ) ; packet_put_cstring ( ""markus"" ) ; packet_send ( ) ; packet_write_wait ( ) ; # endif }","void ssh_kex2 ( char * host , struct sockaddr * hostaddr , u_short port ) { char * myproposal [ PROPOSAL_MAX ] = { KEX_CLIENT } ; char * s ; struct kex * kex ; int r ; xxx_host = host ; xxx_hostaddr = hostaddr ; if ( ( s = kex_names_cat ( options . kex_algorithms , ""ext-info-c"" ) ) == NULL ) fatal ( ""%s: kex_names_cat"" , __func__ ) ; myproposal [ PROPOSAL_KEX_ALGS ] = compat_kex_proposal ( s ) ; myproposal [ PROPOSAL_ENC_ALGS_CTOS ] = compat_cipher_proposal ( options . ciphers ) ; myproposal [ PROPOSAL_ENC_ALGS_STOC ] = compat_cipher_proposal ( options . ciphers ) ; myproposal [ PROPOSAL_COMP_ALGS_CTOS ] = myproposal [ PROPOSAL_COMP_ALGS_STOC ] = options . compression ? ""zlib@openssh.com,none"" : ""none,zlib@openssh.com"" ; myproposal [ PROPOSAL_MAC_ALGS_CTOS ] = myproposal [ PROPOSAL_MAC_ALGS_STOC ] = options . macs ; if ( options . hostkeyalgorithms != NULL ) { if ( kex_assemble_names ( KEX_DEFAULT_PK_ALG , & options . hostkeyalgorithms ) != 0 ) fatal ( ""%s: kex_assemble_namelist"" , __func__ ) ; myproposal [ PROPOSAL_SERVER_HOST_KEY_ALGS ] = compat_pkalg_proposal ( options . hostkeyalgorithms ) ; } else { options . hostkeyalgorithms = xstrdup ( KEX_DEFAULT_PK_ALG ) ; myproposal [ PROPOSAL_SERVER_HOST_KEY_ALGS ] = compat_pkalg_proposal ( order_hostkeyalgs ( host , hostaddr , port ) ) ; } if ( options . rekey_limit || options . rekey_interval ) packet_set_rekey_limits ( ( u_int32_t ) options . rekey_limit , ( time_t ) options . rekey_interval ) ; if ( ( r = kex_setup ( active_state , myproposal ) ) != 0 ) fatal ( ""kex_setup: %s"" , ssh_err ( r ) ) ; kex = active_state -> kex ; # ifdef WITH_OPENSSL kex -> kex [ KEX_DH_GRP1_SHA1 ] = kexdh_client ; kex -> kex [ KEX_DH_GRP14_SHA1 ] = kexdh_client ; kex -> kex [ KEX_DH_GRP14_SHA256 ] = kexdh_client ; kex -> kex [ KEX_DH_GRP16_SHA512 ] = kexdh_client ; kex -> kex [ KEX_DH_GRP18_SHA512 ] = kexdh_client ; kex -> kex [ KEX_DH_GEX_SHA1 ] = kexgex_client ; kex -> kex [ KEX_DH_GEX_SHA256 ] = kexgex_client ; kex -> kex [ KEX_ECDH_SHA2 ] = kexecdh_client ; # endif kex -> kex [ KEX_C25519_SHA256 ] = kexc25519_client ; kex -> client_version_string = client_version_string ; kex -> server_version_string = server_version_string ; kex -> verify_host_key = & verify_host_key_callback ; dispatch_run ( DISPATCH_BLOCK , & kex -> done , active_state ) ; myproposal [ PROPOSAL_KEX_ALGS ] = compat_kex_proposal ( options . kex_algorithms ) ; if ( ( r = kex_prop2buf ( kex -> my , myproposal ) ) != 0 ) fatal ( ""kex_prop2buf: %s"" , ssh_err ( r ) ) ; session_id2 = kex -> session_id ; session_id2_len = kex -> session_id_len ; # ifdef DEBUG_KEXDH packet_start ( SSH2_MSG_IGNORE ) ; packet_put_cstring ( ""markus"" ) ; packet_send ( ) ; packet_write_wait ( ) ; # endif }" 909,"CWE-125 image -> colormap [ i ] . red = ( MagickRealType ) ScaleCharToQuantum ( sun_colormap [ i ] ) ; count = ReadBlob ( image , image -> colors , sun_colormap ) ; if ( count != ( ssize_t ) image -> colors ) ThrowReaderException ( CorruptImageError , ""UnexpectedEndOfFile"" ) ; for ( i = 0 ; i < ( ssize_t ) image -> colors ; i ++ ) image -> colormap [ i ] . green = ( MagickRealType ) ScaleCharToQuantum ( sun_colormap [ i ] ) ; count = ReadBlob ( image , image -> colors , sun_colormap ) ; if ( count != ( ssize_t ) image -> colors ) ThrowReaderException ( CorruptImageError , ""UnexpectedEndOfFile"" ) ; for ( i = 0 ; i < ( ssize_t ) image -> colors ; i ++ ) image -> colormap [ i ] . blue = ( MagickRealType ) ScaleCharToQuantum ( sun_colormap [ i ] ) ; sun_colormap = ( unsigned char * ) RelinquishMagickMemory ( sun_colormap ) ; break ; } case RMT_RAW : { unsigned char * sun_colormap ; sun_colormap = ( unsigned char * ) AcquireQuantumMemory ( sun_info . maplength , sizeof ( * sun_colormap ) ) ; if ( sun_colormap == ( unsigned char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; count = ReadBlob ( image , sun_info . maplength , sun_colormap ) ; if ( count != ( ssize_t ) sun_info . maplength ) ThrowReaderException ( CorruptImageError , ""UnexpectedEndOfFile"" ) ; sun_colormap = ( unsigned char * ) RelinquishMagickMemory ( sun_colormap ) ; break ; } default : ThrowReaderException ( CoderError , ""ColormapTypeNotSupported"" ) ; } image -> alpha_trait = sun_info . depth == 32 ? BlendPixelTrait : UndefinedPixelTrait ; image -> columns = sun_info . width ; image -> rows = sun_info . height ; if ( image_info -> ping != MagickFalse ) { ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; } status = SetImageExtent ( image , image -> columns , image -> rows , exception ) ; if ( status == MagickFalse ) return ( DestroyImageList ( image ) ) ; if ( ( sun_info . length * sizeof ( * sun_data ) ) / sizeof ( * sun_data ) != sun_info . length || ! sun_info . length ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; number_pixels = ( MagickSizeType ) image -> columns * image -> rows ; if ( ( sun_info . type != RT_ENCODED ) && ( sun_info . depth >= 8 ) && ( ( number_pixels * ( ( sun_info . depth + 7 ) / 8 ) ) > sun_info . length ) ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; bytes_per_line = sun_info . width * sun_info . depth ; sun_data = ( unsigned char * ) AcquireQuantumMemory ( ( size_t ) MagickMax ( sun_info . length , bytes_per_line * sun_info . width ) , sizeof ( * sun_data ) ) ; if ( sun_data == ( unsigned char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; count = ( ssize_t ) ReadBlob ( image , sun_info . length , sun_data ) ; if ( count != ( ssize_t ) sun_info . length ) ThrowReaderException ( CorruptImageError , ""UnableToReadImageData"" ) ; sun_pixels = sun_data ; bytes_per_line = 0 ; if ( sun_info . type == RT_ENCODED ) { size_t height ; height = sun_info . height ; if ( ( height == 0 ) || ( sun_info . width == 0 ) || ( sun_info . depth == 0 ) || ( ( bytes_per_line / sun_info . depth ) != sun_info . width ) ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; bytes_per_line += 15 ; bytes_per_line <<= 1 ; if ( ( bytes_per_line >> 1 ) != ( sun_info . width * sun_info . depth + 15 ) ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; bytes_per_line >>= 4 ; sun_pixels = ( unsigned char * ) AcquireQuantumMemory ( height , bytes_per_line * sizeof ( * sun_pixels ) ) ; if ( sun_pixels == ( unsigned char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; ( void ) DecodeImage ( sun_data , sun_info . length , sun_pixels , bytes_per_line * height ) ; sun_data = ( unsigned char * ) RelinquishMagickMemory ( sun_data ) ; } p = sun_pixels ; if ( sun_info . depth == 1 ) for ( y = 0 ; y < ( ssize_t ) image -> rows ; y ++ ) { q = QueueAuthenticPixels ( image , 0 , y , image -> columns , 1 , exception ) ; if ( q == ( Quantum * ) NULL ) break ; for ( x = 0 ; x < ( ( ssize_t ) image -> columns - 7 ) ; x += 8 ) { for ( bit = 7 ; bit >= 0 ; bit -- ) { SetPixelIndex ( image , ( Quantum ) ( ( * p ) & ( 0x01 << bit ) ? 0x00 : 0x01 ) , q ) ; q += GetPixelChannels ( image ) ; } p ++ ; } if ( ( image -> columns % 8 ) != 0 )","image -> colormap [ i ] . red = ( MagickRealType ) ScaleCharToQuantum ( sun_colormap [ i ] ) ; count = ReadBlob ( image , image -> colors , sun_colormap ) ; if ( count != ( ssize_t ) image -> colors ) ThrowReaderException ( CorruptImageError , ""UnexpectedEndOfFile"" ) ; for ( i = 0 ; i < ( ssize_t ) image -> colors ; i ++ ) image -> colormap [ i ] . green = ( MagickRealType ) ScaleCharToQuantum ( sun_colormap [ i ] ) ; count = ReadBlob ( image , image -> colors , sun_colormap ) ; if ( count != ( ssize_t ) image -> colors ) ThrowReaderException ( CorruptImageError , ""UnexpectedEndOfFile"" ) ; for ( i = 0 ; i < ( ssize_t ) image -> colors ; i ++ ) image -> colormap [ i ] . blue = ( MagickRealType ) ScaleCharToQuantum ( sun_colormap [ i ] ) ; sun_colormap = ( unsigned char * ) RelinquishMagickMemory ( sun_colormap ) ; break ; } case RMT_RAW : { unsigned char * sun_colormap ; sun_colormap = ( unsigned char * ) AcquireQuantumMemory ( sun_info . maplength , sizeof ( * sun_colormap ) ) ; if ( sun_colormap == ( unsigned char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; count = ReadBlob ( image , sun_info . maplength , sun_colormap ) ; if ( count != ( ssize_t ) sun_info . maplength ) ThrowReaderException ( CorruptImageError , ""UnexpectedEndOfFile"" ) ; sun_colormap = ( unsigned char * ) RelinquishMagickMemory ( sun_colormap ) ; break ; } default : ThrowReaderException ( CoderError , ""ColormapTypeNotSupported"" ) ; } image -> alpha_trait = sun_info . depth == 32 ? BlendPixelTrait : UndefinedPixelTrait ; image -> columns = sun_info . width ; image -> rows = sun_info . height ; if ( image_info -> ping != MagickFalse ) { ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; } status = SetImageExtent ( image , image -> columns , image -> rows , exception ) ; if ( status == MagickFalse ) return ( DestroyImageList ( image ) ) ; if ( ( sun_info . length * sizeof ( * sun_data ) ) / sizeof ( * sun_data ) != sun_info . length || ! sun_info . length ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; number_pixels = ( MagickSizeType ) image -> columns * image -> rows ; if ( ( sun_info . type != RT_ENCODED ) && ( ( number_pixels * sun_info . depth ) > ( 8 * sun_info . length ) ) ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; bytes_per_line = sun_info . width * sun_info . depth ; sun_data = ( unsigned char * ) AcquireQuantumMemory ( ( size_t ) MagickMax ( sun_info . length , bytes_per_line * sun_info . width ) , sizeof ( * sun_data ) ) ; if ( sun_data == ( unsigned char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; count = ( ssize_t ) ReadBlob ( image , sun_info . length , sun_data ) ; if ( count != ( ssize_t ) sun_info . length ) ThrowReaderException ( CorruptImageError , ""UnableToReadImageData"" ) ; sun_pixels = sun_data ; bytes_per_line = 0 ; if ( sun_info . type == RT_ENCODED ) { size_t height ; height = sun_info . height ; if ( ( height == 0 ) || ( sun_info . width == 0 ) || ( sun_info . depth == 0 ) || ( ( bytes_per_line / sun_info . depth ) != sun_info . width ) ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; bytes_per_line += 15 ; bytes_per_line <<= 1 ; if ( ( bytes_per_line >> 1 ) != ( sun_info . width * sun_info . depth + 15 ) ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; bytes_per_line >>= 4 ; sun_pixels = ( unsigned char * ) AcquireQuantumMemory ( height , bytes_per_line * sizeof ( * sun_pixels ) ) ; if ( sun_pixels == ( unsigned char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; ( void ) DecodeImage ( sun_data , sun_info . length , sun_pixels , bytes_per_line * height ) ; sun_data = ( unsigned char * ) RelinquishMagickMemory ( sun_data ) ; } p = sun_pixels ; if ( sun_info . depth == 1 ) for ( y = 0 ; y < ( ssize_t ) image -> rows ; y ++ ) { q = QueueAuthenticPixels ( image , 0 , y , image -> columns , 1 , exception ) ; if ( q == ( Quantum * ) NULL ) break ; for ( x = 0 ; x < ( ( ssize_t ) image -> columns - 7 ) ; x += 8 ) { for ( bit = 7 ; bit >= 0 ; bit -- ) { SetPixelIndex ( image , ( Quantum ) ( ( * p ) & ( 0x01 << bit ) ? 0x00 : 0x01 ) , q ) ; q += GetPixelChannels ( image ) ; } p ++ ; } if ( ( image -> columns % 8 ) != 0 )" 910,"CWE-119 static void set_segment_id ( VP9_COMMON * cm , BLOCK_SIZE bsize , int mi_row , int mi_col , int segment_id ) { const int mi_offset = mi_row * cm -> mi_cols + mi_col ; const int bw = num_8x8_blocks_wide_lookup [ bsize ] ; const int bh = num_8x8_blocks_high_lookup [ bsize ] ; const int xmis = MIN ( cm -> mi_cols - mi_col , bw ) ; const int ymis = MIN ( cm -> mi_rows - mi_row , bh ) ; int x , y ; assert ( segment_id >= 0 && segment_id < MAX_SEGMENTS ) ; for ( y = 0 ; y < ymis ; y ++ ) for ( x = 0 ; x < xmis ; x ++ ) cm -> last_frame_seg_map [ mi_offset + y * cm -> mi_cols + x ] = segment_id ; }","static void set_segment_id ( VP9_COMMON * cm , int mi_offset , int x_mis , int y_mis , int segment_id ) { int x , y ; assert ( segment_id >= 0 && segment_id < MAX_SEGMENTS ) ; for ( y = 0 ; y < y_mis ; y ++ ) for ( x = 0 ; x < x_mis ; x ++ ) cm -> current_frame_seg_map [ mi_offset + y * cm -> mi_cols + x ] = segment_id ; }" 911,"CWE-125 static inline LineContribType * _gdContributionsCalc ( unsigned int line_size , unsigned int src_size , double scale_d , const interpolation_method pFilter ) { double width_d ; double scale_f_d = 1.0 ; const double filter_width_d = DEFAULT_BOX_RADIUS ; int windows_size ; unsigned int u ; LineContribType * res ; if ( scale_d < 1.0 ) { width_d = filter_width_d / scale_d ; scale_f_d = scale_d ; } else { width_d = filter_width_d ; } windows_size = 2 * ( int ) ceil ( width_d ) + 1 ; res = _gdContributionsAlloc ( line_size , windows_size ) ; for ( u = 0 ; u < line_size ; u ++ ) { const double dCenter = ( double ) u / scale_d ; register int iLeft = MAX ( 0 , ( int ) floor ( dCenter - width_d ) ) ; int iRight = MIN ( ( int ) ceil ( dCenter + width_d ) , ( int ) src_size - 1 ) ; double dTotalWeight = 0.0 ; int iSrc ; res -> ContribRow [ u ] . Left = iLeft ; res -> ContribRow [ u ] . Right = iRight ; if ( iRight - iLeft + 1 > windows_size ) { if ( iLeft < ( ( int ) src_size - 1 / 2 ) ) { iLeft ++ ; } else { iRight -- ; } } for ( iSrc = iLeft ; iSrc <= iRight ; iSrc ++ ) { dTotalWeight += ( res -> ContribRow [ u ] . Weights [ iSrc - iLeft ] = scale_f_d * ( * pFilter ) ( scale_f_d * ( dCenter - ( double ) iSrc ) ) ) ; } if ( dTotalWeight < 0.0 ) { _gdContributionsFree ( res ) ; return NULL ; } if ( dTotalWeight > 0.0 ) { for ( iSrc = iLeft ; iSrc <= iRight ; iSrc ++ ) { res -> ContribRow [ u ] . Weights [ iSrc - iLeft ] /= dTotalWeight ; } } } return res ; }","static inline LineContribType * _gdContributionsCalc ( unsigned int line_size , unsigned int src_size , double scale_d , const interpolation_method pFilter ) { double width_d ; double scale_f_d = 1.0 ; const double filter_width_d = DEFAULT_BOX_RADIUS ; int windows_size ; unsigned int u ; LineContribType * res ; if ( scale_d < 1.0 ) { width_d = filter_width_d / scale_d ; scale_f_d = scale_d ; } else { width_d = filter_width_d ; } windows_size = 2 * ( int ) ceil ( width_d ) + 1 ; res = _gdContributionsAlloc ( line_size , windows_size ) ; for ( u = 0 ; u < line_size ; u ++ ) { const double dCenter = ( double ) u / scale_d ; register int iLeft = MAX ( 0 , ( int ) floor ( dCenter - width_d ) ) ; int iRight = MIN ( ( int ) ceil ( dCenter + width_d ) , ( int ) src_size - 1 ) ; double dTotalWeight = 0.0 ; int iSrc ; if ( iRight - iLeft + 1 > windows_size ) { if ( iLeft < ( ( int ) src_size - 1 / 2 ) ) { iLeft ++ ; } else { iRight -- ; } } res -> ContribRow [ u ] . Left = iLeft ; res -> ContribRow [ u ] . Right = iRight ; for ( iSrc = iLeft ; iSrc <= iRight ; iSrc ++ ) { dTotalWeight += ( res -> ContribRow [ u ] . Weights [ iSrc - iLeft ] = scale_f_d * ( * pFilter ) ( scale_f_d * ( dCenter - ( double ) iSrc ) ) ) ; } if ( dTotalWeight < 0.0 ) { _gdContributionsFree ( res ) ; return NULL ; } if ( dTotalWeight > 0.0 ) { for ( iSrc = iLeft ; iSrc <= iRight ; iSrc ++ ) { res -> ContribRow [ u ] . Weights [ iSrc - iLeft ] /= dTotalWeight ; } } } return res ; }" 912,"CWE-200 int xstateregs_set ( struct task_struct * target , const struct user_regset * regset , unsigned int pos , unsigned int count , const void * kbuf , const void __user * ubuf ) { struct fpu * fpu = & target -> thread . fpu ; struct xregs_state * xsave ; int ret ; if ( ! boot_cpu_has ( X86_FEATURE_XSAVE ) ) return - ENODEV ; if ( ( pos != 0 ) || ( count < fpu_user_xstate_size ) ) return - EFAULT ; xsave = & fpu -> state . xsave ; fpu__activate_fpstate_write ( fpu ) ; if ( boot_cpu_has ( X86_FEATURE_XSAVES ) ) { if ( kbuf ) ret = copy_kernel_to_xstate ( xsave , kbuf ) ; else ret = copy_user_to_xstate ( xsave , ubuf ) ; } else { ret = user_regset_copyin ( & pos , & count , & kbuf , & ubuf , xsave , 0 , - 1 ) ; } if ( ret ) fpstate_init ( & fpu -> state ) ; xsave -> i387 . mxcsr &= mxcsr_feature_mask ; xsave -> header . xfeatures &= xfeatures_mask ; memset ( & xsave -> header . reserved , 0 , 48 ) ; return ret ; }","int xstateregs_set ( struct task_struct * target , const struct user_regset * regset , unsigned int pos , unsigned int count , const void * kbuf , const void __user * ubuf ) { struct fpu * fpu = & target -> thread . fpu ; struct xregs_state * xsave ; int ret ; if ( ! boot_cpu_has ( X86_FEATURE_XSAVE ) ) return - ENODEV ; if ( ( pos != 0 ) || ( count < fpu_user_xstate_size ) ) return - EFAULT ; xsave = & fpu -> state . xsave ; fpu__activate_fpstate_write ( fpu ) ; if ( boot_cpu_has ( X86_FEATURE_XSAVES ) ) { if ( kbuf ) ret = copy_kernel_to_xstate ( xsave , kbuf ) ; else ret = copy_user_to_xstate ( xsave , ubuf ) ; } else { ret = user_regset_copyin ( & pos , & count , & kbuf , & ubuf , xsave , 0 , - 1 ) ; if ( ! ret && xsave -> header . xcomp_bv ) ret = - EINVAL ; } if ( ret ) fpstate_init ( & fpu -> state ) ; xsave -> i387 . mxcsr &= mxcsr_feature_mask ; xsave -> header . xfeatures &= xfeatures_mask ; memset ( & xsave -> header . reserved , 0 , 48 ) ; return ret ; }" 913,"CWE-400 static void fpm_child_init ( struct fpm_worker_pool_s * wp ) { fpm_globals . max_requests = wp -> config -> pm_max_requests ; if ( 0 > fpm_stdio_init_child ( wp ) || 0 > fpm_log_init_child ( wp ) || 0 > fpm_status_init_child ( wp ) || 0 > fpm_unix_init_child ( wp ) || 0 > fpm_signals_init_child ( ) || 0 > fpm_env_init_child ( wp ) || 0 > fpm_php_init_child ( wp ) ) { zlog ( ZLOG_ERROR , ""[pool %s] child failed to initialize"" , wp -> config -> name ) ; exit ( FPM_EXIT_SOFTWARE ) ; } }","static void fpm_child_init ( struct fpm_worker_pool_s * wp ) { fpm_globals . max_requests = wp -> config -> pm_max_requests ; fpm_globals . listening_socket = dup ( wp -> listening_socket ) ; if ( 0 > fpm_stdio_init_child ( wp ) || 0 > fpm_log_init_child ( wp ) || 0 > fpm_status_init_child ( wp ) || 0 > fpm_unix_init_child ( wp ) || 0 > fpm_signals_init_child ( ) || 0 > fpm_env_init_child ( wp ) || 0 > fpm_php_init_child ( wp ) ) { zlog ( ZLOG_ERROR , ""[pool %s] child failed to initialize"" , wp -> config -> name ) ; exit ( FPM_EXIT_SOFTWARE ) ; } }" 914,"CWE-310 void Init_ossl_cipher ( void ) { # if 0 mOSSL = rb_define_module ( ""OpenSSL"" ) ; eOSSLError = rb_define_class_under ( mOSSL , ""OpenSSLError"" , rb_eStandardError ) ; # endif cCipher = rb_define_class_under ( mOSSL , ""Cipher"" , rb_cObject ) ; eCipherError = rb_define_class_under ( cCipher , ""CipherError"" , eOSSLError ) ; rb_define_alloc_func ( cCipher , ossl_cipher_alloc ) ; rb_define_copy_func ( cCipher , ossl_cipher_copy ) ; rb_define_module_function ( cCipher , ""ciphers"" , ossl_s_ciphers , 0 ) ; rb_define_method ( cCipher , ""initialize"" , ossl_cipher_initialize , 1 ) ; rb_define_method ( cCipher , ""reset"" , ossl_cipher_reset , 0 ) ; rb_define_method ( cCipher , ""encrypt"" , ossl_cipher_encrypt , - 1 ) ; rb_define_method ( cCipher , ""decrypt"" , ossl_cipher_decrypt , - 1 ) ; rb_define_method ( cCipher , ""pkcs5_keyivgen"" , ossl_cipher_pkcs5_keyivgen , - 1 ) ; rb_define_method ( cCipher , ""update"" , ossl_cipher_update , - 1 ) ; rb_define_method ( cCipher , ""final"" , ossl_cipher_final , 0 ) ; rb_define_method ( cCipher , ""name"" , ossl_cipher_name , 0 ) ; rb_define_method ( cCipher , ""key="" , ossl_cipher_set_key , 1 ) ; rb_define_method ( cCipher , ""auth_data="" , ossl_cipher_set_auth_data , 1 ) ; rb_define_method ( cCipher , ""auth_tag="" , ossl_cipher_set_auth_tag , 1 ) ; rb_define_method ( cCipher , ""auth_tag"" , ossl_cipher_get_auth_tag , - 1 ) ; rb_define_method ( cCipher , ""auth_tag_len="" , ossl_cipher_set_auth_tag_len , 1 ) ; rb_define_method ( cCipher , ""authenticated?"" , ossl_cipher_is_authenticated , 0 ) ; rb_define_method ( cCipher , ""key_len="" , ossl_cipher_set_key_length , 1 ) ; rb_define_method ( cCipher , ""key_len"" , ossl_cipher_key_length , 0 ) ; rb_define_method ( cCipher , ""iv="" , ossl_cipher_set_iv , 1 ) ; rb_define_method ( cCipher , ""iv_len="" , ossl_cipher_set_iv_length , 1 ) ; rb_define_method ( cCipher , ""iv_len"" , ossl_cipher_iv_length , 0 ) ; rb_define_method ( cCipher , ""block_size"" , ossl_cipher_block_size , 0 ) ; rb_define_method ( cCipher , ""padding="" , ossl_cipher_set_padding , 1 ) ; id_auth_tag_len = rb_intern_const ( ""auth_tag_len"" ) ; }","void Init_ossl_cipher ( void ) { # if 0 mOSSL = rb_define_module ( ""OpenSSL"" ) ; eOSSLError = rb_define_class_under ( mOSSL , ""OpenSSLError"" , rb_eStandardError ) ; # endif cCipher = rb_define_class_under ( mOSSL , ""Cipher"" , rb_cObject ) ; eCipherError = rb_define_class_under ( cCipher , ""CipherError"" , eOSSLError ) ; rb_define_alloc_func ( cCipher , ossl_cipher_alloc ) ; rb_define_copy_func ( cCipher , ossl_cipher_copy ) ; rb_define_module_function ( cCipher , ""ciphers"" , ossl_s_ciphers , 0 ) ; rb_define_method ( cCipher , ""initialize"" , ossl_cipher_initialize , 1 ) ; rb_define_method ( cCipher , ""reset"" , ossl_cipher_reset , 0 ) ; rb_define_method ( cCipher , ""encrypt"" , ossl_cipher_encrypt , - 1 ) ; rb_define_method ( cCipher , ""decrypt"" , ossl_cipher_decrypt , - 1 ) ; rb_define_method ( cCipher , ""pkcs5_keyivgen"" , ossl_cipher_pkcs5_keyivgen , - 1 ) ; rb_define_method ( cCipher , ""update"" , ossl_cipher_update , - 1 ) ; rb_define_method ( cCipher , ""final"" , ossl_cipher_final , 0 ) ; rb_define_method ( cCipher , ""name"" , ossl_cipher_name , 0 ) ; rb_define_method ( cCipher , ""key="" , ossl_cipher_set_key , 1 ) ; rb_define_method ( cCipher , ""auth_data="" , ossl_cipher_set_auth_data , 1 ) ; rb_define_method ( cCipher , ""auth_tag="" , ossl_cipher_set_auth_tag , 1 ) ; rb_define_method ( cCipher , ""auth_tag"" , ossl_cipher_get_auth_tag , - 1 ) ; rb_define_method ( cCipher , ""auth_tag_len="" , ossl_cipher_set_auth_tag_len , 1 ) ; rb_define_method ( cCipher , ""authenticated?"" , ossl_cipher_is_authenticated , 0 ) ; rb_define_method ( cCipher , ""key_len="" , ossl_cipher_set_key_length , 1 ) ; rb_define_method ( cCipher , ""key_len"" , ossl_cipher_key_length , 0 ) ; rb_define_method ( cCipher , ""iv="" , ossl_cipher_set_iv , 1 ) ; rb_define_method ( cCipher , ""iv_len="" , ossl_cipher_set_iv_length , 1 ) ; rb_define_method ( cCipher , ""iv_len"" , ossl_cipher_iv_length , 0 ) ; rb_define_method ( cCipher , ""block_size"" , ossl_cipher_block_size , 0 ) ; rb_define_method ( cCipher , ""padding="" , ossl_cipher_set_padding , 1 ) ; id_auth_tag_len = rb_intern_const ( ""auth_tag_len"" ) ; id_key_set = rb_intern_const ( ""key_set"" ) ; }" 915,"NVD-CWE-Other av_log ( avctx , AV_LOG_ERROR , ""nreslevels2decode %d invalid or uninitialized\\n"" , codsty -> nreslevels2decode ) ; return AVERROR_INVALIDDATA ; } if ( ret = ff_jpeg2000_dwt_init ( & comp -> dwt , comp -> coord , codsty -> nreslevels2decode - 1 , codsty -> transform ) ) return ret ; csize = ( comp -> coord [ 0 ] [ 1 ] - comp -> coord [ 0 ] [ 0 ] ) * ( comp -> coord [ 1 ] [ 1 ] - comp -> coord [ 1 ] [ 0 ] ) ; if ( codsty -> transform == FF_DWT97 ) { comp -> i_data = NULL ; comp -> f_data = av_malloc_array ( csize , sizeof ( * comp -> f_data ) ) ; if ( ! comp -> f_data ) return AVERROR ( ENOMEM ) ; } else { comp -> f_data = NULL ; comp -> i_data = av_malloc_array ( csize , sizeof ( * comp -> i_data ) ) ; if ( ! comp -> i_data ) return AVERROR ( ENOMEM ) ; } comp -> reslevel = av_malloc_array ( codsty -> nreslevels , sizeof ( * comp -> reslevel ) ) ; if ( ! comp -> reslevel ) return AVERROR ( ENOMEM ) ; for ( reslevelno = 0 ; reslevelno < codsty -> nreslevels ; reslevelno ++ ) { int declvl = codsty -> nreslevels - reslevelno ; Jpeg2000ResLevel * reslevel = comp -> reslevel + reslevelno ; for ( i = 0 ; i < 2 ; i ++ ) for ( j = 0 ; j < 2 ; j ++ ) reslevel -> coord [ i ] [ j ] = ff_jpeg2000_ceildivpow2 ( comp -> coord_o [ i ] [ j ] , declvl - 1 ) ; reslevel -> log2_prec_width = codsty -> log2_prec_widths [ reslevelno ] ; reslevel -> log2_prec_height = codsty -> log2_prec_heights [ reslevelno ] ; if ( reslevelno == 0 ) reslevel -> nbands = 1 ; else reslevel -> nbands = 3 ; if ( reslevel -> coord [ 0 ] [ 1 ] == reslevel -> coord [ 0 ] [ 0 ] ) reslevel -> num_precincts_x = 0 ; else reslevel -> num_precincts_x = ff_jpeg2000_ceildivpow2 ( reslevel -> coord [ 0 ] [ 1 ] , reslevel -> log2_prec_width ) - ( reslevel -> coord [ 0 ] [ 0 ] >> reslevel -> log2_prec_width ) ; if ( reslevel -> coord [ 1 ] [ 1 ] == reslevel -> coord [ 1 ] [ 0 ] ) reslevel -> num_precincts_y = 0 ; else reslevel -> num_precincts_y = ff_jpeg2000_ceildivpow2 ( reslevel -> coord [ 1 ] [ 1 ] , reslevel -> log2_prec_height ) - ( reslevel -> coord [ 1 ] [ 0 ] >> reslevel -> log2_prec_height ) ; reslevel -> band = av_malloc_array ( reslevel -> nbands , sizeof ( * reslevel -> band ) ) ; if ( ! reslevel -> band ) return AVERROR ( ENOMEM ) ; for ( bandno = 0 ; bandno < reslevel -> nbands ; bandno ++ , gbandno ++ ) { Jpeg2000Band * band = reslevel -> band + bandno ; int cblkno , precno ; int nb_precincts ; switch ( qntsty -> quantsty ) { uint8_t gain ; int numbps ; case JPEG2000_QSTY_NONE : band -> f_stepsize = 1 ; break ; case JPEG2000_QSTY_SI : numbps = cbps + lut_gain [ codsty -> transform == FF_DWT53 ] [ bandno + ( reslevelno > 0 ) ] ; band -> f_stepsize = SHL ( 2048 + qntsty -> mant [ gbandno ] , 2 + numbps - qntsty -> expn [ gbandno ] ) ; break ; case JPEG2000_QSTY_SE : gain = cbps ; band -> f_stepsize = pow ( 2.0 , gain - qntsty -> expn [ gbandno ] ) ; band -> f_stepsize *= qntsty -> mant [ gbandno ] / 2048.0 + 1.0 ; break ; default : band -> f_stepsize = 0 ; av_log ( avctx , AV_LOG_ERROR , ""Unknown quantization format\\n"" ) ; break ; } if ( ! av_codec_is_encoder ( avctx -> codec ) ) band -> f_stepsize *= 0.5 ; band -> i_stepsize = band -> f_stepsize * ( 1 << 15 ) ; if ( reslevelno == 0 ) { for ( i = 0 ; i < 2 ; i ++ ) for ( j = 0 ; j < 2 ; j ++ ) band -> coord [ i ] [ j ] = ff_jpeg2000_ceildivpow2 ( comp -> coord_o [ i ] [ j ] - comp -> coord_o [ i ] [ 0 ] , declvl - 1 ) ; log2_band_prec_width = reslevel -> log2_prec_width ; log2_band_prec_height = reslevel -> log2_prec_height ; band -> log2_cblk_width = FFMIN ( codsty -> log2_cblk_width , reslevel -> log2_prec_width ) ; band -> log2_cblk_height = FFMIN ( codsty -> log2_cblk_height , reslevel -> log2_prec_height ) ; } else { for ( i = 0 ; i < 2 ; i ++ ) for ( j = 0 ; j < 2 ; j ++ ) band -> coord [ i ] [ j ] = ff_jpeg2000_ceildivpow2 ( comp -> coord_o [ i ] [ j ] - comp -> coord_o [ i ] [ 0 ] - ( ( ( bandno + 1 >> i ) & 1 ) << declvl - 1 ) , declvl ) ; band -> log2_cblk_width = FFMIN ( codsty -> log2_cblk_width , reslevel -> log2_prec_width - 1 ) ; band -> log2_cblk_height = FFMIN ( codsty -> log2_cblk_height , reslevel -> log2_prec_height - 1 ) ; log2_band_prec_width = reslevel -> log2_prec_width - 1 ; log2_band_prec_height = reslevel -> log2_prec_height - 1 ; } for ( j = 0 ; j < 2 ; j ++ ) band -> coord [ 0 ] [ j ] = ff_jpeg2000_ceildiv ( band -> coord [ 0 ] [ j ] , dx ) ; for ( j = 0 ; j < 2 ; j ++ ) band -> coord [ 1 ] [ j ] = ff_jpeg2000_ceildiv ( band -> coord [ 1 ] [ j ] , dy ) ; band -> prec = av_malloc_array ( reslevel -> num_precincts_x * ( uint64_t ) reslevel -> num_precincts_y , sizeof ( * band -> prec ) ) ; if ( ! band -> prec ) return AVERROR ( ENOMEM ) ; nb_precincts = reslevel -> num_precincts_x * reslevel -> num_precincts_y ; for ( precno = 0 ; precno < nb_precincts ; precno ++ ) { Jpeg2000Prec * prec = band -> prec + precno ; prec -> coord [ 0 ] [ 0 ] = ( precno % reslevel -> num_precincts_x ) * ( 1 << log2_band_prec_width ) ; prec -> coord [ 0 ] [ 0 ] = FFMAX ( prec -> coord [ 0 ] [ 0 ] , band -> coord [ 0 ] [ 0 ] ) ; prec -> coord [ 1 ] [ 0 ] = ( precno / reslevel -> num_precincts_x ) * ( 1 << log2_band_prec_height ) ; prec -> coord [ 1 ] [ 0 ] = FFMAX ( prec -> coord [ 1 ] [ 0 ] , band -> coord [ 1 ] [ 0 ] ) ; prec -> coord [ 0 ] [ 1 ] = prec -> coord [ 0 ] [ 0 ] + ( 1 << log2_band_prec_width ) ; prec -> coord [ 0 ] [ 1 ] = FFMIN ( prec -> coord [ 0 ] [ 1 ] , band -> coord [ 0 ] [ 1 ] ) ; prec -> coord [ 1 ] [ 1 ] = prec -> coord [ 1 ] [ 0 ] + ( 1 << log2_band_prec_height ) ; prec -> coord [ 1 ] [ 1 ] = FFMIN ( prec -> coord [ 1 ] [ 1 ] , band -> coord [ 1 ] [ 1 ] ) ; prec -> nb_codeblocks_width = ff_jpeg2000_ceildivpow2 ( prec -> coord [ 0 ] [ 1 ] - prec -> coord [ 0 ] [ 0 ] , band -> log2_cblk_width ) ; prec -> nb_codeblocks_height = ff_jpeg2000_ceildivpow2 ( prec -> coord [ 1 ] [ 1 ] - prec -> coord [ 1 ] [ 0 ] , band -> log2_cblk_height ) ; prec -> cblkincl = ff_jpeg2000_tag_tree_init ( prec -> nb_codeblocks_width , prec -> nb_codeblocks_height ) ; if ( ! prec -> cblkincl ) return AVERROR ( ENOMEM ) ; prec -> zerobits = ff_jpeg2000_tag_tree_init ( prec -> nb_codeblocks_width , prec -> nb_codeblocks_height ) ; if ( ! prec -> zerobits ) return AVERROR ( ENOMEM ) ; prec -> cblk = av_mallocz_array ( prec -> nb_codeblocks_width * ( uint64_t ) prec -> nb_codeblocks_height , sizeof ( * prec -> cblk ) ) ; if ( ! prec -> cblk ) return AVERROR ( ENOMEM ) ; for ( cblkno = 0 ; cblkno < prec -> nb_codeblocks_width * prec -> nb_codeblocks_height ; cblkno ++ ) { Jpeg2000Cblk * cblk = prec -> cblk + cblkno ; uint16_t Cx0 , Cy0 ; Cx0 = ( prec -> coord [ 0 ] [ 0 ] >> band -> log2_cblk_width ) << band -> log2_cblk_width ; Cx0 = Cx0 + ( ( cblkno % prec -> nb_codeblocks_width ) << band -> log2_cblk_width ) ; cblk -> coord [ 0 ] [ 0 ] = FFMAX ( Cx0 , prec -> coord [ 0 ] [ 0 ] ) ; Cy0 = ( prec -> coord [ 1 ] [ 0 ] >> band -> log2_cblk_height ) << band -> log2_cblk_height ; Cy0 = Cy0 + ( ( cblkno / prec -> nb_codeblocks_width ) << band -> log2_cblk_height ) ;","av_log ( avctx , AV_LOG_ERROR , ""nreslevels2decode %d invalid or uninitialized\\n"" , codsty -> nreslevels2decode ) ; return AVERROR_INVALIDDATA ; } if ( ret = ff_jpeg2000_dwt_init ( & comp -> dwt , comp -> coord , codsty -> nreslevels2decode - 1 , codsty -> transform ) ) return ret ; csize = ( comp -> coord [ 0 ] [ 1 ] - comp -> coord [ 0 ] [ 0 ] ) * ( comp -> coord [ 1 ] [ 1 ] - comp -> coord [ 1 ] [ 0 ] ) ; if ( codsty -> transform == FF_DWT97 ) { comp -> i_data = NULL ; comp -> f_data = av_malloc_array ( csize , sizeof ( * comp -> f_data ) ) ; if ( ! comp -> f_data ) return AVERROR ( ENOMEM ) ; } else { comp -> f_data = NULL ; comp -> i_data = av_malloc_array ( csize , sizeof ( * comp -> i_data ) ) ; if ( ! comp -> i_data ) return AVERROR ( ENOMEM ) ; } comp -> reslevel = av_malloc_array ( codsty -> nreslevels , sizeof ( * comp -> reslevel ) ) ; if ( ! comp -> reslevel ) return AVERROR ( ENOMEM ) ; for ( reslevelno = 0 ; reslevelno < codsty -> nreslevels ; reslevelno ++ ) { int declvl = codsty -> nreslevels - reslevelno ; Jpeg2000ResLevel * reslevel = comp -> reslevel + reslevelno ; for ( i = 0 ; i < 2 ; i ++ ) for ( j = 0 ; j < 2 ; j ++ ) reslevel -> coord [ i ] [ j ] = ff_jpeg2000_ceildivpow2 ( comp -> coord_o [ i ] [ j ] , declvl - 1 ) ; reslevel -> log2_prec_width = codsty -> log2_prec_widths [ reslevelno ] ; reslevel -> log2_prec_height = codsty -> log2_prec_heights [ reslevelno ] ; if ( reslevelno == 0 ) reslevel -> nbands = 1 ; else reslevel -> nbands = 3 ; if ( reslevel -> coord [ 0 ] [ 1 ] == reslevel -> coord [ 0 ] [ 0 ] ) reslevel -> num_precincts_x = 0 ; else reslevel -> num_precincts_x = ff_jpeg2000_ceildivpow2 ( reslevel -> coord [ 0 ] [ 1 ] , reslevel -> log2_prec_width ) - ( reslevel -> coord [ 0 ] [ 0 ] >> reslevel -> log2_prec_width ) ; if ( reslevel -> coord [ 1 ] [ 1 ] == reslevel -> coord [ 1 ] [ 0 ] ) reslevel -> num_precincts_y = 0 ; else reslevel -> num_precincts_y = ff_jpeg2000_ceildivpow2 ( reslevel -> coord [ 1 ] [ 1 ] , reslevel -> log2_prec_height ) - ( reslevel -> coord [ 1 ] [ 0 ] >> reslevel -> log2_prec_height ) ; reslevel -> band = av_calloc ( reslevel -> nbands , sizeof ( * reslevel -> band ) ) ; if ( ! reslevel -> band ) return AVERROR ( ENOMEM ) ; for ( bandno = 0 ; bandno < reslevel -> nbands ; bandno ++ , gbandno ++ ) { Jpeg2000Band * band = reslevel -> band + bandno ; int cblkno , precno ; int nb_precincts ; switch ( qntsty -> quantsty ) { uint8_t gain ; int numbps ; case JPEG2000_QSTY_NONE : band -> f_stepsize = 1 ; break ; case JPEG2000_QSTY_SI : numbps = cbps + lut_gain [ codsty -> transform == FF_DWT53 ] [ bandno + ( reslevelno > 0 ) ] ; band -> f_stepsize = SHL ( 2048 + qntsty -> mant [ gbandno ] , 2 + numbps - qntsty -> expn [ gbandno ] ) ; break ; case JPEG2000_QSTY_SE : gain = cbps ; band -> f_stepsize = pow ( 2.0 , gain - qntsty -> expn [ gbandno ] ) ; band -> f_stepsize *= qntsty -> mant [ gbandno ] / 2048.0 + 1.0 ; break ; default : band -> f_stepsize = 0 ; av_log ( avctx , AV_LOG_ERROR , ""Unknown quantization format\\n"" ) ; break ; } if ( ! av_codec_is_encoder ( avctx -> codec ) ) band -> f_stepsize *= 0.5 ; band -> i_stepsize = band -> f_stepsize * ( 1 << 15 ) ; if ( reslevelno == 0 ) { for ( i = 0 ; i < 2 ; i ++ ) for ( j = 0 ; j < 2 ; j ++ ) band -> coord [ i ] [ j ] = ff_jpeg2000_ceildivpow2 ( comp -> coord_o [ i ] [ j ] - comp -> coord_o [ i ] [ 0 ] , declvl - 1 ) ; log2_band_prec_width = reslevel -> log2_prec_width ; log2_band_prec_height = reslevel -> log2_prec_height ; band -> log2_cblk_width = FFMIN ( codsty -> log2_cblk_width , reslevel -> log2_prec_width ) ; band -> log2_cblk_height = FFMIN ( codsty -> log2_cblk_height , reslevel -> log2_prec_height ) ; } else { for ( i = 0 ; i < 2 ; i ++ ) for ( j = 0 ; j < 2 ; j ++ ) band -> coord [ i ] [ j ] = ff_jpeg2000_ceildivpow2 ( comp -> coord_o [ i ] [ j ] - comp -> coord_o [ i ] [ 0 ] - ( ( ( bandno + 1 >> i ) & 1 ) << declvl - 1 ) , declvl ) ; band -> log2_cblk_width = FFMIN ( codsty -> log2_cblk_width , reslevel -> log2_prec_width - 1 ) ; band -> log2_cblk_height = FFMIN ( codsty -> log2_cblk_height , reslevel -> log2_prec_height - 1 ) ; log2_band_prec_width = reslevel -> log2_prec_width - 1 ; log2_band_prec_height = reslevel -> log2_prec_height - 1 ; } for ( j = 0 ; j < 2 ; j ++ ) band -> coord [ 0 ] [ j ] = ff_jpeg2000_ceildiv ( band -> coord [ 0 ] [ j ] , dx ) ; for ( j = 0 ; j < 2 ; j ++ ) band -> coord [ 1 ] [ j ] = ff_jpeg2000_ceildiv ( band -> coord [ 1 ] [ j ] , dy ) ; band -> prec = av_calloc ( reslevel -> num_precincts_x * ( uint64_t ) reslevel -> num_precincts_y , sizeof ( * band -> prec ) ) ; if ( ! band -> prec ) return AVERROR ( ENOMEM ) ; nb_precincts = reslevel -> num_precincts_x * reslevel -> num_precincts_y ; for ( precno = 0 ; precno < nb_precincts ; precno ++ ) { Jpeg2000Prec * prec = band -> prec + precno ; prec -> coord [ 0 ] [ 0 ] = ( precno % reslevel -> num_precincts_x ) * ( 1 << log2_band_prec_width ) ; prec -> coord [ 0 ] [ 0 ] = FFMAX ( prec -> coord [ 0 ] [ 0 ] , band -> coord [ 0 ] [ 0 ] ) ; prec -> coord [ 1 ] [ 0 ] = ( precno / reslevel -> num_precincts_x ) * ( 1 << log2_band_prec_height ) ; prec -> coord [ 1 ] [ 0 ] = FFMAX ( prec -> coord [ 1 ] [ 0 ] , band -> coord [ 1 ] [ 0 ] ) ; prec -> coord [ 0 ] [ 1 ] = prec -> coord [ 0 ] [ 0 ] + ( 1 << log2_band_prec_width ) ; prec -> coord [ 0 ] [ 1 ] = FFMIN ( prec -> coord [ 0 ] [ 1 ] , band -> coord [ 0 ] [ 1 ] ) ; prec -> coord [ 1 ] [ 1 ] = prec -> coord [ 1 ] [ 0 ] + ( 1 << log2_band_prec_height ) ; prec -> coord [ 1 ] [ 1 ] = FFMIN ( prec -> coord [ 1 ] [ 1 ] , band -> coord [ 1 ] [ 1 ] ) ; prec -> nb_codeblocks_width = ff_jpeg2000_ceildivpow2 ( prec -> coord [ 0 ] [ 1 ] - prec -> coord [ 0 ] [ 0 ] , band -> log2_cblk_width ) ; prec -> nb_codeblocks_height = ff_jpeg2000_ceildivpow2 ( prec -> coord [ 1 ] [ 1 ] - prec -> coord [ 1 ] [ 0 ] , band -> log2_cblk_height ) ; prec -> cblkincl = ff_jpeg2000_tag_tree_init ( prec -> nb_codeblocks_width , prec -> nb_codeblocks_height ) ; if ( ! prec -> cblkincl ) return AVERROR ( ENOMEM ) ; prec -> zerobits = ff_jpeg2000_tag_tree_init ( prec -> nb_codeblocks_width , prec -> nb_codeblocks_height ) ; if ( ! prec -> zerobits ) return AVERROR ( ENOMEM ) ; prec -> cblk = av_mallocz_array ( prec -> nb_codeblocks_width * ( uint64_t ) prec -> nb_codeblocks_height , sizeof ( * prec -> cblk ) ) ; if ( ! prec -> cblk ) return AVERROR ( ENOMEM ) ; for ( cblkno = 0 ; cblkno < prec -> nb_codeblocks_width * prec -> nb_codeblocks_height ; cblkno ++ ) { Jpeg2000Cblk * cblk = prec -> cblk + cblkno ; uint16_t Cx0 , Cy0 ; Cx0 = ( prec -> coord [ 0 ] [ 0 ] >> band -> log2_cblk_width ) << band -> log2_cblk_width ; Cx0 = Cx0 + ( ( cblkno % prec -> nb_codeblocks_width ) << band -> log2_cblk_width ) ; cblk -> coord [ 0 ] [ 0 ] = FFMAX ( Cx0 , prec -> coord [ 0 ] [ 0 ] ) ; Cy0 = ( prec -> coord [ 1 ] [ 0 ] >> band -> log2_cblk_height ) << band -> log2_cblk_height ; Cy0 = Cy0 + ( ( cblkno / prec -> nb_codeblocks_width ) << band -> log2_cblk_height ) ;" 916,"CWE-264 _ ( ""%s is not authorized to change the shell of %s"" ) , user_context ? : _ ( ""Unknown user context"" ) , pw -> pw_name ) ; } } if ( setupDefaultContext ( _PATH_PASSWD ) != 0 ) errx ( EXIT_FAILURE , _ ( ""can\'t set default context for %s"" ) , _PATH_PASSWD ) ; } # endif oldshell = pw -> pw_shell ; if ( oldshell == NULL || * oldshell == '\\0' ) { oldshell = _PATH_BSHELL ; nullshell = 1 ; } # ifdef HAVE_LIBUSER if ( geteuid ( ) != getuid ( ) && uid != pw -> pw_uid ) { # else if ( uid != 0 && uid != pw -> pw_uid ) { # endif errno = EACCES ; err ( EXIT_FAILURE , _ ( ""running UID doesn\'t match UID of user we\'re "" ""altering, shell change denied"" ) ) ; } if ( uid != 0 && ! get_shell_list ( oldshell ) ) { errno = EACCES ; err ( EXIT_FAILURE , _ ( ""your shell is not in %s, "" ""shell change denied"" ) , _PATH_SHELLS ) ; } printf ( _ ( ""Changing shell for %s.\\n"" ) , pw -> pw_name ) ; # if ! defined ( HAVE_LIBUSER ) && defined ( CHFN_CHSH_PASSWORD ) if ( ! auth_pam ( ""chsh"" , uid , pw -> pw_name ) ) { return EXIT_FAILURE ; } # endif if ( ! info . shell ) { info . shell = ask_new_shell ( _ ( ""New shell"" ) , oldshell ) ; if ( ! info . shell ) return EXIT_SUCCESS ; } check_shell ( info . shell ) ; if ( ! nullshell && strcmp ( oldshell , info . shell ) == 0 ) errx ( EXIT_SUCCESS , _ ( ""Shell not changed."" ) ) ; # ifdef HAVE_LIBUSER if ( set_value_libuser ( ""chsh"" , pw -> pw_name , uid , LU_LOGINSHELL , info . shell ) < 0 ) errx ( EXIT_FAILURE , _ ( ""Shell *NOT* changed. Try again later."" ) ) ; # else pw -> pw_shell = info . shell ; if ( setpwnam ( pw ) < 0 ) err ( EXIT_FAILURE , _ ( ""setpwnam failed\\n"" ""Shell *NOT* changed. Try again later."" ) ) ; # endif printf ( _ ( ""Shell changed.\\n"" ) ) ; return EXIT_SUCCESS ; }","_ ( ""%s is not authorized to change the shell of %s"" ) , user_context ? : _ ( ""Unknown user context"" ) , pw -> pw_name ) ; } } if ( setupDefaultContext ( _PATH_PASSWD ) != 0 ) errx ( EXIT_FAILURE , _ ( ""can\'t set default context for %s"" ) , _PATH_PASSWD ) ; } # endif oldshell = pw -> pw_shell ; if ( oldshell == NULL || * oldshell == '\\0' ) { oldshell = _PATH_BSHELL ; nullshell = 1 ; } # ifdef HAVE_LIBUSER if ( geteuid ( ) != getuid ( ) && uid != pw -> pw_uid ) { # else if ( uid != 0 && uid != pw -> pw_uid ) { # endif errno = EACCES ; err ( EXIT_FAILURE , _ ( ""running UID doesn\'t match UID of user we\'re "" ""altering, shell change denied"" ) ) ; } if ( uid != 0 && ! get_shell_list ( oldshell ) ) { errno = EACCES ; err ( EXIT_FAILURE , _ ( ""your shell is not in %s, "" ""shell change denied"" ) , _PATH_SHELLS ) ; } printf ( _ ( ""Changing shell for %s.\\n"" ) , pw -> pw_name ) ; # if ! defined ( HAVE_LIBUSER ) && defined ( CHFN_CHSH_PASSWORD ) if ( ! auth_pam ( ""chsh"" , uid , pw -> pw_name ) ) { return EXIT_FAILURE ; } # endif if ( ! info . shell ) { info . shell = ask_new_shell ( _ ( ""New shell"" ) , oldshell ) ; if ( ! info . shell ) return EXIT_SUCCESS ; } check_shell ( info . shell ) ; if ( ! nullshell && strcmp ( oldshell , info . shell ) == 0 ) errx ( EXIT_SUCCESS , _ ( ""Shell not changed."" ) ) ; # ifdef HAVE_LIBUSER if ( set_value_libuser ( ""chsh"" , pw -> pw_name , uid , LU_LOGINSHELL , info . shell ) < 0 ) errx ( EXIT_FAILURE , _ ( ""Shell *NOT* changed. Try again later."" ) ) ; # else pw -> pw_shell = info . shell ; if ( setpwnam ( pw , "".chsh"" ) < 0 ) err ( EXIT_FAILURE , _ ( ""setpwnam failed\\n"" ""Shell *NOT* changed. Try again later."" ) ) ; # endif printf ( _ ( ""Shell changed.\\n"" ) ) ; return EXIT_SUCCESS ; }" 917,"CWE-787 static int blosc_c ( struct thread_context * thread_context , int32_t bsize , int32_t leftoverblock , int32_t ntbytes , int32_t maxbytes , const uint8_t * src , const int32_t offset , uint8_t * dest , uint8_t * tmp , uint8_t * tmp2 ) { blosc2_context * context = thread_context -> parent_context ; int dont_split = ( context -> header_flags & 0x10 ) >> 4 ; int dict_training = context -> use_dict && context -> dict_cdict == NULL ; int32_t j , neblock , nstreams ; int32_t cbytes ; int32_t ctbytes = 0 ; int64_t maxout ; int32_t typesize = context -> typesize ; const char * compname ; int accel ; const uint8_t * _src ; uint8_t * _tmp = tmp , * _tmp2 = tmp2 ; uint8_t * _tmp3 = thread_context -> tmp4 ; int last_filter_index = last_filter ( context -> filters , 'c' ) ; bool memcpyed = context -> header_flags & ( uint8_t ) BLOSC_MEMCPYED ; if ( last_filter_index >= 0 || context -> prefilter != NULL ) { if ( memcpyed && context -> prefilter != NULL ) { _src = pipeline_c ( thread_context , bsize , src , offset , dest , _tmp2 , _tmp3 ) ; if ( _src == NULL ) { return - 9 ; } return bsize ; } _src = pipeline_c ( thread_context , bsize , src , offset , _tmp , _tmp2 , _tmp3 ) ; if ( _src == NULL ) { return - 9 ; } } else { _src = src + offset ; } assert ( context -> clevel > 0 ) ; accel = get_accel ( context ) ; if ( ! dont_split && ! leftoverblock && ! dict_training ) { nstreams = ( int32_t ) typesize ; } else { nstreams = 1 ; } neblock = bsize / nstreams ; for ( j = 0 ; j < nstreams ; j ++ ) { if ( ! dict_training ) { dest += sizeof ( int32_t ) ; ntbytes += sizeof ( int32_t ) ; ctbytes += sizeof ( int32_t ) ; } const uint8_t * ip = ( uint8_t * ) _src + j * neblock ; const uint8_t * ipbound = ( uint8_t * ) _src + ( j + 1 ) * neblock ; if ( get_run ( ip , ipbound ) ) { int32_t value = _src [ j * neblock ] ; _sw32 ( dest - 4 , - value ) ; continue ; } maxout = neblock ; # if defined ( HAVE_SNAPPY ) if ( context -> compcode == BLOSC_SNAPPY ) { maxout = ( int32_t ) snappy_max_compressed_length ( ( size_t ) neblock ) ; } # endif if ( ntbytes + maxout > maxbytes ) { maxout = ( int64_t ) maxbytes - ( int64_t ) ntbytes ; if ( maxout <= 0 ) { return 0 ; } } if ( dict_training ) { memcpy ( dest , _src + j * neblock , ( unsigned int ) neblock ) ; cbytes = ( int32_t ) neblock ; } else if ( context -> compcode == BLOSC_BLOSCLZ ) { cbytes = blosclz_compress ( context -> clevel , _src + j * neblock , ( int ) neblock , dest , ( int ) maxout ) ; } # if defined ( HAVE_LZ4 ) else if ( context -> compcode == BLOSC_LZ4 ) { void * hash_table = NULL ; # ifdef HAVE_IPP hash_table = ( void * ) thread_context -> lz4_hash_table ; # endif cbytes = lz4_wrap_compress ( ( char * ) _src + j * neblock , ( size_t ) neblock , ( char * ) dest , ( size_t ) maxout , accel , hash_table ) ; } else if ( context -> compcode == BLOSC_LZ4HC ) { cbytes = lz4hc_wrap_compress ( ( char * ) _src + j * neblock , ( size_t ) neblock , ( char * ) dest , ( size_t ) maxout , context -> clevel ) ; } # endif # if defined ( HAVE_LIZARD ) else if ( context -> compcode == BLOSC_LIZARD ) { cbytes = lizard_wrap_compress ( ( char * ) _src + j * neblock , ( size_t ) neblock , ( char * ) dest , ( size_t ) maxout , accel ) ; } # endif # if defined ( HAVE_SNAPPY ) else if ( context -> compcode == BLOSC_SNAPPY ) { cbytes = snappy_wrap_compress ( ( char * ) _src + j * neblock , ( size_t ) neblock , ( char * ) dest , ( size_t ) maxout ) ; } # endif # if defined ( HAVE_ZLIB ) else if ( context -> compcode == BLOSC_ZLIB ) { cbytes = zlib_wrap_compress ( ( char * ) _src + j * neblock , ( size_t ) neblock , ( char * ) dest , ( size_t ) maxout , context -> clevel ) ; } # endif # if defined ( HAVE_ZSTD ) else if ( context -> compcode == BLOSC_ZSTD ) { cbytes = zstd_wrap_compress ( thread_context , ( char * ) _src + j * neblock , ( size_t ) neblock , ( char * ) dest , ( size_t ) maxout , context -> clevel ) ; } # endif else { blosc_compcode_to_compname ( context -> compcode , & compname ) ; fprintf ( stderr , ""Blosc has not been compiled with \'%s\' "" , compname ) ; fprintf ( stderr , ""compression support. Please use one having it."" ) ; return - 5 ; } if ( cbytes > maxout ) { return - 1 ; } if ( cbytes < 0 ) { return - 2 ; } if ( ! dict_training ) { if ( cbytes == 0 || cbytes == neblock ) { if ( ( ntbytes + neblock ) > maxbytes ) { return 0 ; } memcpy ( dest , _src + j * neblock , ( unsigned int ) neblock ) ; cbytes = neblock ; } _sw32 ( dest - 4 , cbytes ) ; } dest += cbytes ; ntbytes += cbytes ; ctbytes += cbytes ; } return ctbytes ; }","static int blosc_c ( struct thread_context * thread_context , int32_t bsize , int32_t leftoverblock , int32_t ntbytes , int32_t destsize , const uint8_t * src , const int32_t offset , uint8_t * dest , uint8_t * tmp , uint8_t * tmp2 ) { blosc2_context * context = thread_context -> parent_context ; int dont_split = ( context -> header_flags & 0x10 ) >> 4 ; int dict_training = context -> use_dict && context -> dict_cdict == NULL ; int32_t j , neblock , nstreams ; int32_t cbytes ; int32_t ctbytes = 0 ; int64_t maxout ; int32_t typesize = context -> typesize ; const char * compname ; int accel ; const uint8_t * _src ; uint8_t * _tmp = tmp , * _tmp2 = tmp2 ; uint8_t * _tmp3 = thread_context -> tmp4 ; int last_filter_index = last_filter ( context -> filters , 'c' ) ; bool memcpyed = context -> header_flags & ( uint8_t ) BLOSC_MEMCPYED ; if ( last_filter_index >= 0 || context -> prefilter != NULL ) { if ( memcpyed && context -> prefilter != NULL ) { _src = pipeline_c ( thread_context , bsize , src , offset , dest , _tmp2 , _tmp3 ) ; if ( _src == NULL ) { return - 9 ; } return bsize ; } _src = pipeline_c ( thread_context , bsize , src , offset , _tmp , _tmp2 , _tmp3 ) ; if ( _src == NULL ) { return - 9 ; } } else { _src = src + offset ; } assert ( context -> clevel > 0 ) ; accel = get_accel ( context ) ; if ( ! dont_split && ! leftoverblock && ! dict_training ) { nstreams = ( int32_t ) typesize ; } else { nstreams = 1 ; } neblock = bsize / nstreams ; for ( j = 0 ; j < nstreams ; j ++ ) { if ( ! dict_training ) { dest += sizeof ( int32_t ) ; ntbytes += sizeof ( int32_t ) ; ctbytes += sizeof ( int32_t ) ; } const uint8_t * ip = ( uint8_t * ) _src + j * neblock ; const uint8_t * ipbound = ( uint8_t * ) _src + ( j + 1 ) * neblock ; if ( get_run ( ip , ipbound ) ) { int32_t value = _src [ j * neblock ] ; if ( ntbytes > destsize ) { return - 1 ; } _sw32 ( dest - 4 , - value ) ; continue ; } maxout = neblock ; # if defined ( HAVE_SNAPPY ) if ( context -> compcode == BLOSC_SNAPPY ) { maxout = ( int32_t ) snappy_max_compressed_length ( ( size_t ) neblock ) ; } # endif if ( ntbytes + maxout > destsize ) { maxout = ( int64_t ) destsize - ( int64_t ) ntbytes ; if ( maxout <= 0 ) { return 0 ; } } if ( dict_training ) { memcpy ( dest , _src + j * neblock , ( unsigned int ) neblock ) ; cbytes = ( int32_t ) neblock ; } else if ( context -> compcode == BLOSC_BLOSCLZ ) { cbytes = blosclz_compress ( context -> clevel , _src + j * neblock , ( int ) neblock , dest , ( int ) maxout ) ; } # if defined ( HAVE_LZ4 ) else if ( context -> compcode == BLOSC_LZ4 ) { void * hash_table = NULL ; # ifdef HAVE_IPP hash_table = ( void * ) thread_context -> lz4_hash_table ; # endif cbytes = lz4_wrap_compress ( ( char * ) _src + j * neblock , ( size_t ) neblock , ( char * ) dest , ( size_t ) maxout , accel , hash_table ) ; } else if ( context -> compcode == BLOSC_LZ4HC ) { cbytes = lz4hc_wrap_compress ( ( char * ) _src + j * neblock , ( size_t ) neblock , ( char * ) dest , ( size_t ) maxout , context -> clevel ) ; } # endif # if defined ( HAVE_LIZARD ) else if ( context -> compcode == BLOSC_LIZARD ) { cbytes = lizard_wrap_compress ( ( char * ) _src + j * neblock , ( size_t ) neblock , ( char * ) dest , ( size_t ) maxout , accel ) ; } # endif # if defined ( HAVE_SNAPPY ) else if ( context -> compcode == BLOSC_SNAPPY ) { cbytes = snappy_wrap_compress ( ( char * ) _src + j * neblock , ( size_t ) neblock , ( char * ) dest , ( size_t ) maxout ) ; } # endif # if defined ( HAVE_ZLIB ) else if ( context -> compcode == BLOSC_ZLIB ) { cbytes = zlib_wrap_compress ( ( char * ) _src + j * neblock , ( size_t ) neblock , ( char * ) dest , ( size_t ) maxout , context -> clevel ) ; } # endif # if defined ( HAVE_ZSTD ) else if ( context -> compcode == BLOSC_ZSTD ) { cbytes = zstd_wrap_compress ( thread_context , ( char * ) _src + j * neblock , ( size_t ) neblock , ( char * ) dest , ( size_t ) maxout , context -> clevel ) ; } # endif else { blosc_compcode_to_compname ( context -> compcode , & compname ) ; fprintf ( stderr , ""Blosc has not been compiled with \'%s\' "" , compname ) ; fprintf ( stderr , ""compression support. Please use one having it."" ) ; return - 5 ; } if ( cbytes > maxout ) { return - 1 ; } if ( cbytes < 0 ) { return - 2 ; } if ( ! dict_training ) { if ( cbytes == 0 || cbytes == neblock ) { if ( ( ntbytes + neblock ) > destsize ) { return 0 ; } memcpy ( dest , _src + j * neblock , ( unsigned int ) neblock ) ; cbytes = neblock ; } _sw32 ( dest - 4 , cbytes ) ; } dest += cbytes ; ntbytes += cbytes ; ctbytes += cbytes ; } return ctbytes ; }" 918,"CWE-189 void * ipc_rcu_alloc ( int size ) { void * out ; if ( rcu_use_vmalloc ( size ) ) { out = vmalloc ( HDRLEN_VMALLOC + size ) ; if ( out ) { out += HDRLEN_VMALLOC ; container_of ( out , struct ipc_rcu_hdr , data ) -> is_vmalloc = 1 ; container_of ( out , struct ipc_rcu_hdr , data ) -> refcount = 1 ; } } else { out = kmalloc ( HDRLEN_KMALLOC + size , GFP_KERNEL ) ; if ( out ) { out += HDRLEN_KMALLOC ; container_of ( out , struct ipc_rcu_hdr , data ) -> is_vmalloc = 0 ; container_of ( out , struct ipc_rcu_hdr , data ) -> refcount = 1 ; } } return out ; }","void * ipc_rcu_alloc ( int size ) { void * out ; if ( rcu_use_vmalloc ( size ) ) { out = vmalloc ( HDRLEN_VMALLOC + size ) ; if ( ! out ) goto done ; out += HDRLEN_VMALLOC ; container_of ( out , struct ipc_rcu_hdr , data ) -> is_vmalloc = 1 ; } else { out = kmalloc ( HDRLEN_KMALLOC + size , GFP_KERNEL ) ; if ( ! out ) goto done ; out += HDRLEN_KMALLOC ; container_of ( out , struct ipc_rcu_hdr , data ) -> is_vmalloc = 0 ; } atomic_set ( & container_of ( out , struct ipc_rcu_hdr , data ) -> refcount , 1 ) ; done : return out ; }" 919,"CWE-189 static int sysMapBlockFile ( FILE * mapf , MemMapping * pMap ) { char block_dev [ PATH_MAX + 1 ] ; size_t size ; unsigned int blksize ; unsigned int blocks ; unsigned int range_count ; unsigned int i ; if ( fgets ( block_dev , sizeof ( block_dev ) , mapf ) == NULL ) { LOGW ( ""failed to read block device from header\\n"" ) ; return - 1 ; } for ( i = 0 ; i < sizeof ( block_dev ) ; ++ i ) { if ( block_dev [ i ] == '\\n' ) { block_dev [ i ] = 0 ; break ; } } if ( fscanf ( mapf , ""%zu %u\\n%u\\n"" , & size , & blksize , & range_count ) != 3 ) { LOGW ( ""failed to parse block map header\\n"" ) ; return - 1 ; } blocks = ( ( size - 1 ) / blksize ) + 1 ; pMap -> range_count = range_count ; pMap -> ranges = malloc ( range_count * sizeof ( MappedRange ) ) ; memset ( pMap -> ranges , 0 , range_count * sizeof ( MappedRange ) ) ; unsigned char * reserve ; reserve = mmap64 ( NULL , blocks * blksize , PROT_NONE , MAP_PRIVATE | MAP_ANON , - 1 , 0 ) ; if ( reserve == MAP_FAILED ) { LOGW ( ""failed to reserve address space: %s\\n"" , strerror ( errno ) ) ; return - 1 ; } pMap -> ranges [ range_count - 1 ] . addr = reserve ; pMap -> ranges [ range_count - 1 ] . length = blocks * blksize ; int fd = open ( block_dev , O_RDONLY ) ; if ( fd < 0 ) { LOGW ( ""failed to open block device %s: %s\\n"" , block_dev , strerror ( errno ) ) ; return - 1 ; } unsigned char * next = reserve ; for ( i = 0 ; i < range_count ; ++ i ) { int start , end ; if ( fscanf ( mapf , ""%d %d\\n"" , & start , & end ) != 2 ) { LOGW ( ""failed to parse range %d in block map\\n"" , i ) ; return - 1 ; } void * addr = mmap64 ( next , ( end - start ) * blksize , PROT_READ , MAP_PRIVATE | MAP_FIXED , fd , ( ( off64_t ) start ) * blksize ) ; if ( addr == MAP_FAILED ) { LOGW ( ""failed to map block %d: %s\\n"" , i , strerror ( errno ) ) ; return - 1 ; } pMap -> ranges [ i ] . addr = addr ; pMap -> ranges [ i ] . length = ( end - start ) * blksize ; next += pMap -> ranges [ i ] . length ; } pMap -> addr = reserve ; pMap -> length = size ; LOGI ( ""mmapped %d ranges\\n"" , range_count ) ; return 0 ; }","static int sysMapBlockFile ( FILE * mapf , MemMapping * pMap ) { char block_dev [ PATH_MAX + 1 ] ; size_t size ; unsigned int blksize ; size_t blocks ; unsigned int range_count ; unsigned int i ; if ( fgets ( block_dev , sizeof ( block_dev ) , mapf ) == NULL ) { LOGW ( ""failed to read block device from header\\n"" ) ; return - 1 ; } for ( i = 0 ; i < sizeof ( block_dev ) ; ++ i ) { if ( block_dev [ i ] == '\\n' ) { block_dev [ i ] = 0 ; break ; } } if ( fscanf ( mapf , ""%zu %u\\n%u\\n"" , & size , & blksize , & range_count ) != 3 ) { LOGW ( ""failed to parse block map header\\n"" ) ; return - 1 ; } if ( blksize != 0 ) { blocks = ( ( size - 1 ) / blksize ) + 1 ; } if ( size == 0 || blksize == 0 || blocks > SIZE_MAX / blksize || range_count == 0 ) { LOGE ( ""invalid data in block map file: size %zu, blksize %u, range_count %u\\n"" , size , blksize , range_count ) ; return - 1 ; } pMap -> range_count = range_count ; pMap -> ranges = calloc ( range_count , sizeof ( MappedRange ) ) ; if ( pMap -> ranges == NULL ) { LOGE ( ""calloc(%u, %zu) failed: %s\\n"" , range_count , sizeof ( MappedRange ) , strerror ( errno ) ) ; return - 1 ; } unsigned char * reserve ; reserve = mmap64 ( NULL , blocks * blksize , PROT_NONE , MAP_PRIVATE | MAP_ANON , - 1 , 0 ) ; if ( reserve == MAP_FAILED ) { LOGW ( ""failed to reserve address space: %s\\n"" , strerror ( errno ) ) ; free ( pMap -> ranges ) ; return - 1 ; } int fd = open ( block_dev , O_RDONLY ) ; if ( fd < 0 ) { LOGW ( ""failed to open block device %s: %s\\n"" , block_dev , strerror ( errno ) ) ; munmap ( reserve , blocks * blksize ) ; free ( pMap -> ranges ) ; return - 1 ; } unsigned char * next = reserve ; size_t remaining_size = blocks * blksize ; bool success = true ; for ( i = 0 ; i < range_count ; ++ i ) { size_t start , end ; if ( fscanf ( mapf , ""%zu %zu\\n"" , & start , & end ) != 2 ) { LOGW ( ""failed to parse range %d in block map\\n"" , i ) ; success = false ; break ; } size_t length = ( end - start ) * blksize ; if ( end <= start || ( end - start ) > SIZE_MAX / blksize || length > remaining_size ) { LOGE ( ""unexpected range in block map: %zu %zu\\n"" , start , end ) ; success = false ; break ; } void * addr = mmap64 ( next , length , PROT_READ , MAP_PRIVATE | MAP_FIXED , fd , ( ( off64_t ) start ) * blksize ) ; if ( addr == MAP_FAILED ) { LOGW ( ""failed to map block %d: %s\\n"" , i , strerror ( errno ) ) ; success = false ; break ; } pMap -> ranges [ i ] . addr = addr ; pMap -> ranges [ i ] . length = length ; next += length ; remaining_size -= length ; } if ( success && remaining_size != 0 ) { LOGE ( ""ranges in block map are invalid: remaining_size = %zu\\n"" , remaining_size ) ; success = false ; } if ( ! success ) { close ( fd ) ; munmap ( reserve , blocks * blksize ) ; free ( pMap -> ranges ) ; return - 1 ; } close ( fd ) ; pMap -> addr = reserve ; pMap -> length = size ; LOGI ( ""mmapped %d ranges\\n"" , range_count ) ; return 0 ; }" 920,"CWE-125 static void l2tp_msgtype_print ( netdissect_options * ndo , const u_char * dat ) { const uint16_t * ptr = ( const uint16_t * ) dat ; ND_PRINT ( ( ndo , ""%s"" , tok2str ( l2tp_msgtype2str , ""MSGTYPE-#%u"" , EXTRACT_16BITS ( ptr ) ) ) ) ; }","static void l2tp_msgtype_print ( netdissect_options * ndo , const u_char * dat , u_int length ) { const uint16_t * ptr = ( const uint16_t * ) dat ; if ( length < 2 ) { ND_PRINT ( ( ndo , ""AVP too short"" ) ) ; return ; } ND_PRINT ( ( ndo , ""%s"" , tok2str ( l2tp_msgtype2str , ""MSGTYPE-#%u"" , EXTRACT_16BITS ( ptr ) ) ) ) ; }" 921,"CWE-200 long vorbis_book_decodev_set ( codebook * book , ogg_int32_t * a , oggpack_buffer * b , int n , int point ) { if ( book -> used_entries > 0 ) { ogg_int32_t * v = book -> dec_buf ; int i , j ; if ( ! v ) return - 1 ; for ( i = 0 ; i < n ; ) { if ( decode_map ( book , b , v , point ) ) return - 1 ; for ( j = 0 ; j < book -> dim ; j ++ ) a [ i ++ ] = v [ j ] ; } } else { int i , j ; for ( i = 0 ; i < n ; ) { for ( j = 0 ; j < book -> dim ; j ++ ) a [ i ++ ] = 0 ; } } return 0 ; }","long vorbis_book_decodev_set ( codebook * book , ogg_int32_t * a , oggpack_buffer * b , int n , int point ) { if ( book -> used_entries > 0 ) { ogg_int32_t * v = book -> dec_buf ; int i , j ; if ( ! v ) return - 1 ; for ( i = 0 ; i < n ; ) { if ( decode_map ( book , b , v , point ) ) return - 1 ; for ( j = 0 ; j < book -> dim && i < n ; j ++ ) a [ i ++ ] = v [ j ] ; } } else { int i , j ; for ( i = 0 ; i < n ; ) { for ( j = 0 ; j < book -> dim && i < n ; j ++ ) a [ i ++ ] = 0 ; } } return 0 ; }" 922,"CWE-125 static int update_write_order_info ( rdpContext * context , wStream * s , ORDER_INFO * orderInfo , size_t offset ) { size_t position ; WINPR_UNUSED ( context ) ; position = Stream_GetPosition ( s ) ; Stream_SetPosition ( s , offset ) ; Stream_Write_UINT8 ( s , orderInfo -> controlFlags ) ; if ( orderInfo -> controlFlags & ORDER_TYPE_CHANGE ) Stream_Write_UINT8 ( s , orderInfo -> orderType ) ; update_write_field_flags ( s , orderInfo -> fieldFlags , orderInfo -> controlFlags , PRIMARY_DRAWING_ORDER_FIELD_BYTES [ orderInfo -> orderType ] ) ; update_write_bounds ( s , orderInfo ) ; Stream_SetPosition ( s , position ) ; return 0 ; }","static int update_write_order_info ( rdpContext * context , wStream * s , ORDER_INFO * orderInfo , size_t offset ) { size_t position ; WINPR_UNUSED ( context ) ; position = Stream_GetPosition ( s ) ; Stream_SetPosition ( s , offset ) ; Stream_Write_UINT8 ( s , orderInfo -> controlFlags ) ; if ( orderInfo -> controlFlags & ORDER_TYPE_CHANGE ) Stream_Write_UINT8 ( s , orderInfo -> orderType ) ; update_write_field_flags ( s , orderInfo -> fieldFlags , orderInfo -> controlFlags , get_primary_drawing_order_field_bytes ( orderInfo -> orderType , NULL ) ) ; update_write_bounds ( s , orderInfo ) ; Stream_SetPosition ( s , position ) ; return 0 ; }" 923,"NVD-CWE-Other static int traceLogDirective ( MaState * state , cchar * key , cchar * value ) { HttpRoute * route ; char * format , * option , * ovalue , * tok , * path , * formatter ; ssize size ; int flags , backup , level ; route = state -> route ; size = MAXINT ; backup = 0 ; flags = 0 ; path = 0 ; format = ME_HTTP_LOG_FORMAT ; formatter = ""detail"" ; level = 0 ; if ( route -> trace -> flags & MPR_LOG_CMDLINE ) { mprLog ( ""info appweb config"" , 4 , ""Already tracing. Ignoring TraceLog directive"" ) ; return 0 ; } for ( option = maGetNextArg ( sclone ( value ) , & tok ) ; option ; option = maGetNextArg ( tok , & tok ) ) { if ( ! path ) { path = sclone ( option ) ; } else { option = stok ( option , "" =\\t,"" , & ovalue ) ; ovalue = strim ( ovalue , ""\\""\'"" , MPR_TRIM_BOTH ) ; if ( smatch ( option , ""anew"" ) ) { flags |= MPR_LOG_ANEW ; } else if ( smatch ( option , ""backup"" ) ) { backup = atoi ( ovalue ) ; } else if ( smatch ( option , ""format"" ) ) { format = ovalue ; } else if ( smatch ( option , ""level"" ) ) { level = ( int ) stoi ( ovalue ) ; } else if ( smatch ( option , ""size"" ) ) { size = ( ssize ) getnum ( ovalue ) ; } else if ( smatch ( option , ""formatter"" ) ) { formatter = ovalue ; } else { mprLog ( ""error appweb config"" , 0 , ""Unknown TraceLog option %s"" , option ) ; } } } if ( size < HTTP_TRACE_MIN_LOG_SIZE ) { size = HTTP_TRACE_MIN_LOG_SIZE ; } if ( path == 0 ) { mprLog ( ""error appweb config"" , 0 , ""Missing TraceLog filename"" ) ; return MPR_ERR_BAD_SYNTAX ; } if ( formatter ) { httpSetTraceFormatterName ( route -> trace , formatter ) ; } if ( ! smatch ( path , ""stdout"" ) && ! smatch ( path , ""stderr"" ) ) { path = httpMakePath ( route , state -> configDir , path ) ; } route -> trace = httpCreateTrace ( route -> trace ) ; if ( httpSetTraceLogFile ( route -> trace , path , size , backup , format , flags ) < 0 ) { return MPR_ERR_CANT_OPEN ; } httpSetTraceLevel ( level ) ; return 0 ; }","static int traceLogDirective ( MaState * state , cchar * key , cchar * value ) { HttpRoute * route ; char * format , * option , * ovalue , * tok , * path , * formatter ; ssize size ; int flags , backup , level ; route = state -> route ; size = MAXINT ; backup = 0 ; flags = 0 ; path = 0 ; format = ME_HTTP_LOG_FORMAT ; formatter = ""detail"" ; level = 0 ; if ( route -> trace -> flags & MPR_LOG_CMDLINE ) { mprLog ( ""info appweb config"" , 4 , ""Already tracing. Ignoring TraceLog directive"" ) ; return 0 ; } for ( option = maGetNextArg ( sclone ( value ) , & tok ) ; option ; option = maGetNextArg ( tok , & tok ) ) { if ( ! path ) { path = sclone ( option ) ; } else { option = ssplit ( option , "" =\\t,"" , & ovalue ) ; ovalue = strim ( ovalue , ""\\""\'"" , MPR_TRIM_BOTH ) ; if ( smatch ( option , ""anew"" ) ) { flags |= MPR_LOG_ANEW ; } else if ( smatch ( option , ""backup"" ) ) { backup = atoi ( ovalue ) ; } else if ( smatch ( option , ""format"" ) ) { format = ovalue ; } else if ( smatch ( option , ""level"" ) ) { level = ( int ) stoi ( ovalue ) ; } else if ( smatch ( option , ""size"" ) ) { size = ( ssize ) getnum ( ovalue ) ; } else if ( smatch ( option , ""formatter"" ) ) { formatter = ovalue ; } else { mprLog ( ""error appweb config"" , 0 , ""Unknown TraceLog option %s"" , option ) ; } } } if ( size < HTTP_TRACE_MIN_LOG_SIZE ) { size = HTTP_TRACE_MIN_LOG_SIZE ; } if ( path == 0 ) { mprLog ( ""error appweb config"" , 0 , ""Missing TraceLog filename"" ) ; return MPR_ERR_BAD_SYNTAX ; } if ( formatter ) { httpSetTraceFormatterName ( route -> trace , formatter ) ; } if ( ! smatch ( path , ""stdout"" ) && ! smatch ( path , ""stderr"" ) ) { path = httpMakePath ( route , state -> configDir , path ) ; } route -> trace = httpCreateTrace ( route -> trace ) ; if ( httpSetTraceLogFile ( route -> trace , path , size , backup , format , flags ) < 0 ) { return MPR_ERR_CANT_OPEN ; } httpSetTraceLevel ( level ) ; return 0 ; }" 924,"CWE-119 static void set_good_speed_feature ( VP9_COMP * cpi , VP9_COMMON * cm , SPEED_FEATURES * sf , int speed ) { sf -> adaptive_rd_thresh = 1 ; sf -> recode_loop = ( speed < 1 ) ? ALLOW_RECODE : ALLOW_RECODE_KFMAXBW ; sf -> allow_skip_recode = 1 ; if ( speed >= 1 ) { sf -> use_square_partition_only = ! frame_is_intra_only ( cm ) ; sf -> less_rectangular_check = 1 ; sf -> tx_size_search_method = vp9_frame_is_boosted ( cpi ) ? USE_FULL_RD : USE_LARGESTALL ; if ( MIN ( cm -> width , cm -> height ) >= 720 ) sf -> disable_split_mask = cm -> show_frame ? DISABLE_ALL_SPLIT : DISABLE_ALL_INTER_SPLIT ; else sf -> disable_split_mask = DISABLE_COMPOUND_SPLIT ; sf -> use_rd_breakout = 1 ; sf -> adaptive_motion_search = 1 ; sf -> auto_mv_step_size = 1 ; sf -> adaptive_rd_thresh = 2 ; sf -> subpel_iters_per_step = 1 ; sf -> mode_skip_start = 10 ; sf -> adaptive_pred_interp_filter = 1 ; sf -> recode_loop = ALLOW_RECODE_KFARFGF ; sf -> intra_y_mode_mask [ TX_32X32 ] = INTRA_DC_H_V ; sf -> intra_uv_mode_mask [ TX_32X32 ] = INTRA_DC_H_V ; sf -> intra_y_mode_mask [ TX_16X16 ] = INTRA_DC_H_V ; sf -> intra_uv_mode_mask [ TX_16X16 ] = INTRA_DC_H_V ; } if ( speed >= 2 ) { sf -> tx_size_search_method = vp9_frame_is_boosted ( cpi ) ? USE_FULL_RD : USE_LARGESTALL ; if ( MIN ( cm -> width , cm -> height ) >= 720 ) sf -> disable_split_mask = cm -> show_frame ? DISABLE_ALL_SPLIT : DISABLE_ALL_INTER_SPLIT ; else sf -> disable_split_mask = LAST_AND_INTRA_SPLIT_ONLY ; sf -> adaptive_pred_interp_filter = 2 ; sf -> reference_masking = 1 ; sf -> mode_search_skip_flags = FLAG_SKIP_INTRA_DIRMISMATCH | FLAG_SKIP_INTRA_BESTINTER | FLAG_SKIP_COMP_BESTINTRA | FLAG_SKIP_INTRA_LOWVAR ; sf -> disable_filter_search_var_thresh = 100 ; sf -> comp_inter_joint_search_thresh = BLOCK_SIZES ; sf -> auto_min_max_partition_size = RELAXED_NEIGHBORING_MIN_MAX ; sf -> use_lastframe_partitioning = LAST_FRAME_PARTITION_LOW_MOTION ; sf -> adjust_partitioning_from_last_frame = 1 ; sf -> last_partitioning_redo_frequency = 3 ; } if ( speed >= 3 ) { if ( MIN ( cm -> width , cm -> height ) >= 720 ) sf -> disable_split_mask = DISABLE_ALL_SPLIT ; else sf -> disable_split_mask = DISABLE_ALL_INTER_SPLIT ; sf -> recode_loop = ALLOW_RECODE_KFMAXBW ; sf -> adaptive_rd_thresh = 3 ; sf -> mode_skip_start = 6 ; sf -> use_fast_coef_updates = ONE_LOOP_REDUCED ; sf -> use_fast_coef_costing = 1 ; } if ( speed >= 4 ) { sf -> use_square_partition_only = 1 ; sf -> tx_size_search_method = USE_LARGESTALL ; sf -> disable_split_mask = DISABLE_ALL_SPLIT ; sf -> adaptive_rd_thresh = 4 ; sf -> mode_search_skip_flags |= FLAG_SKIP_COMP_REFMISMATCH | FLAG_EARLY_TERMINATE ; sf -> disable_filter_search_var_thresh = 200 ; sf -> use_lastframe_partitioning = LAST_FRAME_PARTITION_ALL ; sf -> use_lp32x32fdct = 1 ; } if ( speed >= 5 ) { int i ; sf -> partition_search_type = FIXED_PARTITION ; sf -> optimize_coefficients = 0 ; sf -> search_method = HEX ; sf -> disable_filter_search_var_thresh = 500 ; for ( i = 0 ; i < TX_SIZES ; ++ i ) { sf -> intra_y_mode_mask [ i ] = INTRA_DC_ONLY ; sf -> intra_uv_mode_mask [ i ] = INTRA_DC_ONLY ; } cpi -> allow_encode_breakout = ENCODE_BREAKOUT_ENABLED ; } }","static void set_good_speed_feature ( VP9_COMP * cpi , VP9_COMMON * cm , SPEED_FEATURES * sf , int speed ) { const int boosted = frame_is_boosted ( cpi ) ; sf -> adaptive_rd_thresh = 1 ; sf -> allow_skip_recode = 1 ; if ( speed >= 1 ) { if ( ( cpi -> twopass . fr_content_type == FC_GRAPHICS_ANIMATION ) || vp9_internal_image_edge ( cpi ) ) { sf -> use_square_partition_only = ! frame_is_boosted ( cpi ) ; } else { sf -> use_square_partition_only = ! frame_is_intra_only ( cm ) ; } sf -> less_rectangular_check = 1 ; sf -> use_rd_breakout = 1 ; sf -> adaptive_motion_search = 1 ; sf -> mv . auto_mv_step_size = 1 ; sf -> adaptive_rd_thresh = 2 ; sf -> mv . subpel_iters_per_step = 1 ; sf -> mode_skip_start = 10 ; sf -> adaptive_pred_interp_filter = 1 ; sf -> recode_loop = ALLOW_RECODE_KFARFGF ; sf -> intra_y_mode_mask [ TX_32X32 ] = INTRA_DC_H_V ; sf -> intra_uv_mode_mask [ TX_32X32 ] = INTRA_DC_H_V ; sf -> intra_y_mode_mask [ TX_16X16 ] = INTRA_DC_H_V ; sf -> intra_uv_mode_mask [ TX_16X16 ] = INTRA_DC_H_V ; sf -> tx_size_search_breakout = 1 ; sf -> partition_search_breakout_rate_thr = 80 ; } if ( speed >= 2 ) { sf -> tx_size_search_method = frame_is_boosted ( cpi ) ? USE_FULL_RD : USE_LARGESTALL ; sf -> reference_masking = cpi -> oxcf . resize_mode != RESIZE_DYNAMIC ? 1 : 0 ; sf -> mode_search_skip_flags = ( cm -> frame_type == KEY_FRAME ) ? 0 : FLAG_SKIP_INTRA_DIRMISMATCH | FLAG_SKIP_INTRA_BESTINTER | FLAG_SKIP_COMP_BESTINTRA | FLAG_SKIP_INTRA_LOWVAR ; sf -> disable_filter_search_var_thresh = 100 ; sf -> comp_inter_joint_search_thresh = BLOCK_SIZES ; sf -> auto_min_max_partition_size = RELAXED_NEIGHBORING_MIN_MAX ; sf -> allow_partition_search_skip = 1 ; } if ( speed >= 3 ) { sf -> use_square_partition_only = ! frame_is_intra_only ( cm ) ; sf -> tx_size_search_method = frame_is_intra_only ( cm ) ? USE_FULL_RD : USE_LARGESTALL ; sf -> mv . subpel_search_method = SUBPEL_TREE_PRUNED ; sf -> adaptive_pred_interp_filter = 0 ; sf -> adaptive_mode_search = 1 ; sf -> cb_partition_search = ! boosted ; sf -> cb_pred_filter_search = 1 ; sf -> alt_ref_search_fp = 1 ; sf -> recode_loop = ALLOW_RECODE_KFMAXBW ; sf -> adaptive_rd_thresh = 3 ; sf -> mode_skip_start = 6 ; sf -> intra_y_mode_mask [ TX_32X32 ] = INTRA_DC ; sf -> intra_uv_mode_mask [ TX_32X32 ] = INTRA_DC ; sf -> adaptive_interp_filter_search = 1 ; } if ( speed >= 4 ) { sf -> use_square_partition_only = 1 ; sf -> tx_size_search_method = USE_LARGESTALL ; sf -> mv . search_method = BIGDIA ; sf -> mv . subpel_search_method = SUBPEL_TREE_PRUNED_MORE ; sf -> adaptive_rd_thresh = 4 ; if ( cm -> frame_type != KEY_FRAME ) sf -> mode_search_skip_flags |= FLAG_EARLY_TERMINATE ; sf -> disable_filter_search_var_thresh = 200 ; sf -> use_lp32x32fdct = 1 ; sf -> use_fast_coef_updates = ONE_LOOP_REDUCED ; sf -> use_fast_coef_costing = 1 ; sf -> motion_field_mode_search = ! boosted ; sf -> partition_search_breakout_rate_thr = 300 ; } if ( speed >= 5 ) { int i ; sf -> optimize_coefficients = 0 ; sf -> mv . search_method = HEX ; sf -> disable_filter_search_var_thresh = 500 ; for ( i = 0 ; i < TX_SIZES ; ++ i ) { sf -> intra_y_mode_mask [ i ] = INTRA_DC ; sf -> intra_uv_mode_mask [ i ] = INTRA_DC ; } sf -> partition_search_breakout_rate_thr = 500 ; sf -> mv . reduce_first_step_size = 1 ; sf -> simple_model_rd_from_var = 1 ; } }" 925,"CWE-125 static int tok_get ( struct tok_state * tok , char * * p_start , char * * p_end ) { int c ; int blankline , nonascii ; * p_start = * p_end = NULL ; nextline : tok -> start = NULL ; blankline = 0 ; if ( tok -> atbol ) { int col = 0 ; int altcol = 0 ; tok -> atbol = 0 ; for ( ; ; ) { c = tok_nextc ( tok ) ; if ( c == ' ' ) { col ++ , altcol ++ ; } else if ( c == '\\t' ) { col = ( col / tok -> tabsize + 1 ) * tok -> tabsize ; altcol = ( altcol / tok -> alttabsize + 1 ) * tok -> alttabsize ; } else if ( c == '\\014' ) { col = altcol = 0 ; } else { break ; } } tok_backup ( tok , c ) ; if ( c == '#' || c == '\\n' ) { if ( col == 0 && c == '\\n' && tok -> prompt != NULL ) { blankline = 0 ; } else { blankline = 1 ; } } if ( ! blankline && tok -> level == 0 ) { if ( col == tok -> indstack [ tok -> indent ] ) { if ( altcol != tok -> altindstack [ tok -> indent ] ) { if ( indenterror ( tok ) ) { return ERRORTOKEN ; } } } else if ( col > tok -> indstack [ tok -> indent ] ) { if ( tok -> indent + 1 >= MAXINDENT ) { tok -> done = E_TOODEEP ; tok -> cur = tok -> inp ; return ERRORTOKEN ; } if ( altcol <= tok -> altindstack [ tok -> indent ] ) { if ( indenterror ( tok ) ) { return ERRORTOKEN ; } } tok -> pendin ++ ; tok -> indstack [ ++ tok -> indent ] = col ; tok -> altindstack [ tok -> indent ] = altcol ; } else { while ( tok -> indent > 0 && col < tok -> indstack [ tok -> indent ] ) { tok -> pendin -- ; tok -> indent -- ; } if ( col != tok -> indstack [ tok -> indent ] ) { tok -> done = E_DEDENT ; tok -> cur = tok -> inp ; return ERRORTOKEN ; } if ( altcol != tok -> altindstack [ tok -> indent ] ) { if ( indenterror ( tok ) ) { return ERRORTOKEN ; } } } } } tok -> start = tok -> cur ; if ( tok -> pendin != 0 ) { if ( tok -> pendin < 0 ) { tok -> pendin ++ ; return DEDENT ; } else { tok -> pendin -- ; return INDENT ; } } if ( tok -> async_def && ! blankline && tok -> level == 0 && tok -> async_def_nl && tok -> async_def_indent >= tok -> indent ) { tok -> async_def = 0 ; tok -> async_def_indent = 0 ; tok -> async_def_nl = 0 ; } again : tok -> start = NULL ; do { c = tok_nextc ( tok ) ; } while ( c == ' ' || c == '\\t' || c == '\\014' ) ; tok -> start = tok -> cur - 1 ; if ( c == '#' ) { const char * prefix , * p , * type_start ; while ( c != EOF && c != '\\n' ) c = tok_nextc ( tok ) ; p = tok -> start ; prefix = type_comment_prefix ; while ( * prefix && p < tok -> cur ) { if ( * prefix == ' ' ) { while ( * p == ' ' || * p == '\\t' ) p ++ ; } else if ( * prefix == * p ) { p ++ ; } else { break ; } prefix ++ ; } if ( ! * prefix ) { int is_type_ignore = 1 ;","static int tok_get ( struct tok_state * tok , char * * p_start , char * * p_end ) { int c ; int blankline , nonascii ; * p_start = * p_end = NULL ; nextline : tok -> start = NULL ; blankline = 0 ; if ( tok -> atbol ) { int col = 0 ; int altcol = 0 ; tok -> atbol = 0 ; for ( ; ; ) { c = tok_nextc ( tok ) ; if ( c == ' ' ) { col ++ , altcol ++ ; } else if ( c == '\\t' ) { col = ( col / tok -> tabsize + 1 ) * tok -> tabsize ; altcol = ( altcol / ALTTABSIZE + 1 ) * ALTTABSIZE ; } else if ( c == '\\014' ) { col = altcol = 0 ; } else { break ; } } tok_backup ( tok , c ) ; if ( c == '#' || c == '\\n' ) { if ( col == 0 && c == '\\n' && tok -> prompt != NULL ) { blankline = 0 ; } else { blankline = 1 ; } } if ( ! blankline && tok -> level == 0 ) { if ( col == tok -> indstack [ tok -> indent ] ) { if ( altcol != tok -> altindstack [ tok -> indent ] ) { return indenterror ( tok ) ; } } else if ( col > tok -> indstack [ tok -> indent ] ) { if ( tok -> indent + 1 >= MAXINDENT ) { tok -> done = E_TOODEEP ; tok -> cur = tok -> inp ; return ERRORTOKEN ; } if ( altcol <= tok -> altindstack [ tok -> indent ] ) { return indenterror ( tok ) ; } tok -> pendin ++ ; tok -> indstack [ ++ tok -> indent ] = col ; tok -> altindstack [ tok -> indent ] = altcol ; } else { while ( tok -> indent > 0 && col < tok -> indstack [ tok -> indent ] ) { tok -> pendin -- ; tok -> indent -- ; } if ( col != tok -> indstack [ tok -> indent ] ) { tok -> done = E_DEDENT ; tok -> cur = tok -> inp ; return ERRORTOKEN ; } if ( altcol != tok -> altindstack [ tok -> indent ] ) { return indenterror ( tok ) ; } } } } tok -> start = tok -> cur ; if ( tok -> pendin != 0 ) { if ( tok -> pendin < 0 ) { tok -> pendin ++ ; return DEDENT ; } else { tok -> pendin -- ; return INDENT ; } } if ( tok -> async_def && ! blankline && tok -> level == 0 && tok -> async_def_nl && tok -> async_def_indent >= tok -> indent ) { tok -> async_def = 0 ; tok -> async_def_indent = 0 ; tok -> async_def_nl = 0 ; } again : tok -> start = NULL ; do { c = tok_nextc ( tok ) ; } while ( c == ' ' || c == '\\t' || c == '\\014' ) ; tok -> start = tok -> cur - 1 ; if ( c == '#' ) { const char * prefix , * p , * type_start ; while ( c != EOF && c != '\\n' ) c = tok_nextc ( tok ) ; p = tok -> start ; prefix = type_comment_prefix ; while ( * prefix && p < tok -> cur ) { if ( * prefix == ' ' ) { while ( * p == ' ' || * p == '\\t' ) p ++ ; } else if ( * prefix == * p ) { p ++ ; } else { break ; } prefix ++ ; } if ( ! * prefix ) { int is_type_ignore = 1 ;" 926,"CWE-119 static inline bool unconditional ( const struct arpt_arp * arp ) { static const struct arpt_arp uncond ; return memcmp ( arp , & uncond , sizeof ( uncond ) ) == 0 ; }","static inline bool unconditional ( const struct arpt_entry * e ) { static const struct arpt_arp uncond ; return e -> target_offset == sizeof ( struct arpt_entry ) && memcmp ( & e -> arp , & uncond , sizeof ( uncond ) ) == 0 ; }" 927,"CWE-835 void CLASS parse_minolta ( int base ) { int save , tag , len , offset , high = 0 , wide = 0 , i , c ; short sorder = order ; fseek ( ifp , base , SEEK_SET ) ; if ( fgetc ( ifp ) || fgetc ( ifp ) - 'M' || fgetc ( ifp ) - 'R' ) return ; order = fgetc ( ifp ) * 0x101 ; offset = base + get4 ( ) + 8 ; while ( ( save = ftell ( ifp ) ) < offset ) { for ( tag = i = 0 ; i < 4 ; i ++ ) tag = tag << 8 | fgetc ( ifp ) ; len = get4 ( ) ; switch ( tag ) { case 0x505244 : fseek ( ifp , 8 , SEEK_CUR ) ; high = get2 ( ) ; wide = get2 ( ) ; # ifdef LIBRAW_LIBRARY_BUILD imgdata . makernotes . sony . prd_ImageHeight = get2 ( ) ; imgdata . makernotes . sony . prd_ImageWidth = get2 ( ) ; fseek ( ifp , 1L , SEEK_CUR ) ; imgdata . makernotes . sony . prd_RawBitDepth = ( ushort ) fgetc ( ifp ) ; imgdata . makernotes . sony . prd_StorageMethod = ( ushort ) fgetc ( ifp ) ; fseek ( ifp , 4L , SEEK_CUR ) ; imgdata . makernotes . sony . prd_BayerPattern = ( ushort ) fgetc ( ifp ) ; # endif break ; # ifdef LIBRAW_LIBRARY_BUILD case 0x524946 : if ( ! strncasecmp ( model , ""DSLR-A100"" , 9 ) ) { fseek ( ifp , 8 , SEEK_CUR ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Tungsten ] [ 0 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Tungsten ] [ 2 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Daylight ] [ 0 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Daylight ] [ 2 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Cloudy ] [ 0 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Cloudy ] [ 2 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_W ] [ 0 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_W ] [ 2 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Flash ] [ 0 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Flash ] [ 2 ] = get2 ( ) ; get4 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Shade ] [ 0 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Shade ] [ 2 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_D ] [ 0 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_D ] [ 2 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_N ] [ 0 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_N ] [ 2 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_WW ] [ 0 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_WW ] [ 2 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Daylight ] [ 1 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_Daylight ] [ 3 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_Tungsten ] [ 1 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_Tungsten ] [ 3 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_Flash ] [ 1 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_Flash ] [ 3 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_Cloudy ] [ 1 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_Cloudy ] [ 3 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_Shade ] [ 1 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_Shade ] [ 3 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_D ] [ 1 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_D ] [ 3 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_N ] [ 1 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_N ] [ 3 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_W ] [ 1 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_W ] [ 3 ] =","void CLASS parse_minolta ( int base ) { int save , tag , len , offset , high = 0 , wide = 0 , i , c ; short sorder = order ; fseek ( ifp , base , SEEK_SET ) ; if ( fgetc ( ifp ) || fgetc ( ifp ) - 'M' || fgetc ( ifp ) - 'R' ) return ; order = fgetc ( ifp ) * 0x101 ; offset = base + get4 ( ) + 8 ; # ifdef LIBRAW_LIBRARY_BUILD if ( offset > ifp -> size ( ) - 8 ) offset = ifp -> size ( ) - 8 ; # endif while ( ( save = ftell ( ifp ) ) < offset ) { for ( tag = i = 0 ; i < 4 ; i ++ ) tag = tag << 8 | fgetc ( ifp ) ; len = get4 ( ) ; if ( len < 0 ) return ; switch ( tag ) { case 0x505244 : fseek ( ifp , 8 , SEEK_CUR ) ; high = get2 ( ) ; wide = get2 ( ) ; # ifdef LIBRAW_LIBRARY_BUILD imgdata . makernotes . sony . prd_ImageHeight = get2 ( ) ; imgdata . makernotes . sony . prd_ImageWidth = get2 ( ) ; fseek ( ifp , 1L , SEEK_CUR ) ; imgdata . makernotes . sony . prd_RawBitDepth = ( ushort ) fgetc ( ifp ) ; imgdata . makernotes . sony . prd_StorageMethod = ( ushort ) fgetc ( ifp ) ; fseek ( ifp , 4L , SEEK_CUR ) ; imgdata . makernotes . sony . prd_BayerPattern = ( ushort ) fgetc ( ifp ) ; # endif break ; # ifdef LIBRAW_LIBRARY_BUILD case 0x524946 : if ( ! strncasecmp ( model , ""DSLR-A100"" , 9 ) ) { fseek ( ifp , 8 , SEEK_CUR ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Tungsten ] [ 0 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Tungsten ] [ 2 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Daylight ] [ 0 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Daylight ] [ 2 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Cloudy ] [ 0 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Cloudy ] [ 2 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_W ] [ 0 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_W ] [ 2 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Flash ] [ 0 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Flash ] [ 2 ] = get2 ( ) ; get4 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Shade ] [ 0 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Shade ] [ 2 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_D ] [ 0 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_D ] [ 2 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_N ] [ 0 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_N ] [ 2 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_WW ] [ 0 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_WW ] [ 2 ] = get2 ( ) ; imgdata . color . WB_Coeffs [ LIBRAW_WBI_Daylight ] [ 1 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_Daylight ] [ 3 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_Tungsten ] [ 1 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_Tungsten ] [ 3 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_Flash ] [ 1 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_Flash ] [ 3 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_Cloudy ] [ 1 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_Cloudy ] [ 3 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_Shade ] [ 1 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_Shade ] [ 3 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_D ] [ 1 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_D ] [ 3 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_N ] [ 1 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_N ] [ 3 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_W ] [ 1 ] = imgdata . color . WB_Coeffs [ LIBRAW_WBI_FL_W ] [ 3 ] =" 928,"CWE-119 static void fillrd ( struct postproc_state * state , int q , int a ) { char char_dist [ 300 ] ; double sigma ; int i ; vp8_clear_system_state ( ) ; sigma = a + .5 + .6 * ( 63 - q ) / 63.0 ; { int next , j ; next = 0 ; for ( i = - 32 ; i < 32 ; i ++ ) { const int v = ( int ) ( .5 + 256 * vp8_gaussian ( sigma , 0 , i ) ) ; if ( v ) { for ( j = 0 ; j < v ; j ++ ) { char_dist [ next + j ] = ( char ) i ; } next = next + j ; } } for ( ; next < 256 ; next ++ ) char_dist [ next ] = 0 ; } for ( i = 0 ; i < 3072 ; i ++ ) { state -> noise [ i ] = char_dist [ rand ( ) & 0xff ] ; } for ( i = 0 ; i < 16 ; i ++ ) { state -> blackclamp [ i ] = - char_dist [ 0 ] ; state -> whiteclamp [ i ] = - char_dist [ 0 ] ; state -> bothclamp [ i ] = - 2 * char_dist [ 0 ] ; } state -> last_q = q ; state -> last_noise = a ; }","static void fillrd ( struct postproc_state * state , int q , int a ) { char char_dist [ 300 ] ; double sigma ; int i ; vp8_clear_system_state ( ) ; sigma = a + .5 + .6 * ( 63 - q ) / 63.0 ; { int next , j ; next = 0 ; for ( i = - 32 ; i < 32 ; i ++ ) { const int v = ( int ) ( .5 + 256 * gaussian ( sigma , 0 , i ) ) ; if ( v ) { for ( j = 0 ; j < v ; j ++ ) { char_dist [ next + j ] = ( char ) i ; } next = next + j ; } } for ( ; next < 256 ; next ++ ) char_dist [ next ] = 0 ; } for ( i = 0 ; i < 3072 ; i ++ ) { state -> noise [ i ] = char_dist [ rand ( ) & 0xff ] ; } for ( i = 0 ; i < 16 ; i ++ ) { state -> blackclamp [ i ] = - char_dist [ 0 ] ; state -> whiteclamp [ i ] = - char_dist [ 0 ] ; state -> bothclamp [ i ] = - 2 * char_dist [ 0 ] ; } state -> last_q = q ; state -> last_noise = a ; }" 929,"CWE-119 static void encode_frame ( struct stream_state * stream , struct VpxEncoderConfig * global , struct vpx_image * img , unsigned int frames_in ) { vpx_codec_pts_t frame_start , next_frame_start ; struct vpx_codec_enc_cfg * cfg = & stream -> config . cfg ; struct vpx_usec_timer timer ; frame_start = ( cfg -> g_timebase . den * ( int64_t ) ( frames_in - 1 ) * global -> framerate . den ) / cfg -> g_timebase . num / global -> framerate . num ; next_frame_start = ( cfg -> g_timebase . den * ( int64_t ) ( frames_in ) * global -> framerate . den ) / cfg -> g_timebase . num / global -> framerate . num ; if ( img && ( img -> d_w != cfg -> g_w || img -> d_h != cfg -> g_h ) ) { if ( ! stream -> img ) stream -> img = vpx_img_alloc ( NULL , VPX_IMG_FMT_I420 , cfg -> g_w , cfg -> g_h , 16 ) ; I420Scale ( img -> planes [ VPX_PLANE_Y ] , img -> stride [ VPX_PLANE_Y ] , img -> planes [ VPX_PLANE_U ] , img -> stride [ VPX_PLANE_U ] , img -> planes [ VPX_PLANE_V ] , img -> stride [ VPX_PLANE_V ] , img -> d_w , img -> d_h , stream -> img -> planes [ VPX_PLANE_Y ] , stream -> img -> stride [ VPX_PLANE_Y ] , stream -> img -> planes [ VPX_PLANE_U ] , stream -> img -> stride [ VPX_PLANE_U ] , stream -> img -> planes [ VPX_PLANE_V ] , stream -> img -> stride [ VPX_PLANE_V ] , stream -> img -> d_w , stream -> img -> d_h , kFilterBox ) ; img = stream -> img ; } vpx_usec_timer_start ( & timer ) ; vpx_codec_encode ( & stream -> encoder , img , frame_start , ( unsigned long ) ( next_frame_start - frame_start ) , 0 , global -> deadline ) ; vpx_usec_timer_mark ( & timer ) ; stream -> cx_time += vpx_usec_timer_elapsed ( & timer ) ; ctx_exit_on_error ( & stream -> encoder , ""Stream %d: Failed to encode frame"" , stream -> index ) ; }","static void encode_frame ( struct stream_state * stream , struct VpxEncoderConfig * global , struct vpx_image * img , unsigned int frames_in ) { vpx_codec_pts_t frame_start , next_frame_start ; struct vpx_codec_enc_cfg * cfg = & stream -> config . cfg ; struct vpx_usec_timer timer ; frame_start = ( cfg -> g_timebase . den * ( int64_t ) ( frames_in - 1 ) * global -> framerate . den ) / cfg -> g_timebase . num / global -> framerate . num ; next_frame_start = ( cfg -> g_timebase . den * ( int64_t ) ( frames_in ) * global -> framerate . den ) / cfg -> g_timebase . num / global -> framerate . num ; # if CONFIG_VP9_HIGHBITDEPTH if ( img ) { if ( ( img -> fmt & VPX_IMG_FMT_HIGHBITDEPTH ) && ( img -> d_w != cfg -> g_w || img -> d_h != cfg -> g_h ) ) { if ( img -> fmt != VPX_IMG_FMT_I42016 ) { fprintf ( stderr , ""%s can only scale 4:2:0 inputs\\n"" , exec_name ) ; exit ( EXIT_FAILURE ) ; } # if CONFIG_LIBYUV if ( ! stream -> img ) { stream -> img = vpx_img_alloc ( NULL , VPX_IMG_FMT_I42016 , cfg -> g_w , cfg -> g_h , 16 ) ; } I420Scale_16 ( ( uint16 * ) img -> planes [ VPX_PLANE_Y ] , img -> stride [ VPX_PLANE_Y ] / 2 , ( uint16 * ) img -> planes [ VPX_PLANE_U ] , img -> stride [ VPX_PLANE_U ] / 2 , ( uint16 * ) img -> planes [ VPX_PLANE_V ] , img -> stride [ VPX_PLANE_V ] / 2 , img -> d_w , img -> d_h , ( uint16 * ) stream -> img -> planes [ VPX_PLANE_Y ] , stream -> img -> stride [ VPX_PLANE_Y ] / 2 , ( uint16 * ) stream -> img -> planes [ VPX_PLANE_U ] , stream -> img -> stride [ VPX_PLANE_U ] / 2 , ( uint16 * ) stream -> img -> planes [ VPX_PLANE_V ] , stream -> img -> stride [ VPX_PLANE_V ] / 2 , stream -> img -> d_w , stream -> img -> d_h , kFilterBox ) ; img = stream -> img ; # else stream -> encoder . err = 1 ; ctx_exit_on_error ( & stream -> encoder , ""Stream %d: Failed to encode frame.\\n"" ""Scaling disabled in this configuration. \\n"" ""To enable, configure with --enable-libyuv\\n"" , stream -> index ) ; # endif } } # endif if ( img && ( img -> d_w != cfg -> g_w || img -> d_h != cfg -> g_h ) ) { if ( img -> fmt != VPX_IMG_FMT_I420 && img -> fmt != VPX_IMG_FMT_YV12 ) { fprintf ( stderr , ""%s can only scale 4:2:0 8bpp inputs\\n"" , exec_name ) ; exit ( EXIT_FAILURE ) ; } # if CONFIG_LIBYUV if ( ! stream -> img ) stream -> img = vpx_img_alloc ( NULL , VPX_IMG_FMT_I420 , cfg -> g_w , cfg -> g_h , 16 ) ; I420Scale ( img -> planes [ VPX_PLANE_Y ] , img -> stride [ VPX_PLANE_Y ] , img -> planes [ VPX_PLANE_U ] , img -> stride [ VPX_PLANE_U ] , img -> planes [ VPX_PLANE_V ] , img -> stride [ VPX_PLANE_V ] , img -> d_w , img -> d_h , stream -> img -> planes [ VPX_PLANE_Y ] , stream -> img -> stride [ VPX_PLANE_Y ] , stream -> img -> planes [ VPX_PLANE_U ] , stream -> img -> stride [ VPX_PLANE_U ] , stream -> img -> planes [ VPX_PLANE_V ] , stream -> img -> stride [ VPX_PLANE_V ] , stream -> img -> d_w , stream -> img -> d_h , kFilterBox ) ; img = stream -> img ; # else stream -> encoder . err = 1 ; ctx_exit_on_error ( & stream -> encoder , ""Stream %d: Failed to encode frame.\\n"" ""Scaling disabled in this configuration. \\n"" ""To enable, configure with --enable-libyuv\\n"" , stream -> index ) ; # endif } vpx_usec_timer_start ( & timer ) ; vpx_codec_encode ( & stream -> encoder , img , frame_start , ( unsigned long ) ( next_frame_start - frame_start ) , 0 , global -> deadline ) ; vpx_usec_timer_mark ( & timer ) ; stream -> cx_time += vpx_usec_timer_elapsed ( & timer ) ; ctx_exit_on_error ( & stream -> encoder , ""Stream %d: Failed to encode frame"" , stream -> index ) ; }" 930,"CWE-264 static int em_loop ( struct x86_emulate_ctxt * ctxt ) { register_address_increment ( ctxt , reg_rmw ( ctxt , VCPU_REGS_RCX ) , - 1 ) ; if ( ( address_mask ( ctxt , reg_read ( ctxt , VCPU_REGS_RCX ) ) != 0 ) && ( ctxt -> b == 0xe2 || test_cc ( ctxt -> b ^ 0x5 , ctxt -> eflags ) ) ) jmp_rel ( ctxt , ctxt -> src . val ) ; return X86EMUL_CONTINUE ; }","static int em_loop ( struct x86_emulate_ctxt * ctxt ) { int rc = X86EMUL_CONTINUE ; register_address_increment ( ctxt , reg_rmw ( ctxt , VCPU_REGS_RCX ) , - 1 ) ; if ( ( address_mask ( ctxt , reg_read ( ctxt , VCPU_REGS_RCX ) ) != 0 ) && ( ctxt -> b == 0xe2 || test_cc ( ctxt -> b ^ 0x5 , ctxt -> eflags ) ) ) rc = jmp_rel ( ctxt , ctxt -> src . val ) ; return rc ; }" 931,"CWE-362 static int mptctl_readtest ( unsigned long arg ) { struct mpt_ioctl_test __user * uarg = ( void __user * ) arg ; struct mpt_ioctl_test karg ; MPT_ADAPTER * ioc ; int iocnum ; if ( copy_from_user ( & karg , uarg , sizeof ( struct mpt_ioctl_test ) ) ) { printk ( KERN_ERR MYNAM ""%s@%d::mptctl_readtest - "" ""Unable to read in mpt_ioctl_test struct @ %p\\n"" , __FILE__ , __LINE__ , uarg ) ; return - EFAULT ; } if ( ( ( iocnum = mpt_verify_adapter ( karg . hdr . iocnum , & ioc ) ) < 0 ) || ( ioc == NULL ) ) { printk ( KERN_DEBUG MYNAM ""%s::mptctl_readtest() @%d - ioc%d not found!\\n"" , __FILE__ , __LINE__ , iocnum ) ; return - ENODEV ; } dctlprintk ( ioc , printk ( MYIOC_s_DEBUG_FMT ""mptctl_readtest called.\\n"" , ioc -> name ) ) ; # ifdef MFCNT karg . chip_type = ioc -> mfcnt ; # else karg . chip_type = ioc -> pcidev -> device ; # endif strncpy ( karg . name , ioc -> name , MPT_MAX_NAME ) ; karg . name [ MPT_MAX_NAME - 1 ] = '\\0' ; strncpy ( karg . product , ioc -> prod_name , MPT_PRODUCT_LENGTH ) ; karg . product [ MPT_PRODUCT_LENGTH - 1 ] = '\\0' ; if ( copy_to_user ( ( char __user * ) arg , & karg , sizeof ( struct mpt_ioctl_test ) ) ) { printk ( MYIOC_s_ERR_FMT ""%s@%d::mptctl_readtest - "" ""Unable to write out mpt_ioctl_test struct @ %p\\n"" , ioc -> name , __FILE__ , __LINE__ , uarg ) ; return - EFAULT ; } return 0 ; }","static int mptctl_readtest ( MPT_ADAPTER * ioc , unsigned long arg ) { struct mpt_ioctl_test __user * uarg = ( void __user * ) arg ; struct mpt_ioctl_test karg ; if ( copy_from_user ( & karg , uarg , sizeof ( struct mpt_ioctl_test ) ) ) { printk ( KERN_ERR MYNAM ""%s@%d::mptctl_readtest - "" ""Unable to read in mpt_ioctl_test struct @ %p\\n"" , __FILE__ , __LINE__ , uarg ) ; return - EFAULT ; } dctlprintk ( ioc , printk ( MYIOC_s_DEBUG_FMT ""mptctl_readtest called.\\n"" , ioc -> name ) ) ; # ifdef MFCNT karg . chip_type = ioc -> mfcnt ; # else karg . chip_type = ioc -> pcidev -> device ; # endif strncpy ( karg . name , ioc -> name , MPT_MAX_NAME ) ; karg . name [ MPT_MAX_NAME - 1 ] = '\\0' ; strncpy ( karg . product , ioc -> prod_name , MPT_PRODUCT_LENGTH ) ; karg . product [ MPT_PRODUCT_LENGTH - 1 ] = '\\0' ; if ( copy_to_user ( ( char __user * ) arg , & karg , sizeof ( struct mpt_ioctl_test ) ) ) { printk ( MYIOC_s_ERR_FMT ""%s@%d::mptctl_readtest - "" ""Unable to write out mpt_ioctl_test struct @ %p\\n"" , ioc -> name , __FILE__ , __LINE__ , uarg ) ; return - EFAULT ; } return 0 ; }" 932,"CWE-125 static inline unsigned int ReadPropertyUnsignedLong ( const EndianType endian , const unsigned char * buffer ) { unsigned int value ; if ( endian == LSBEndian ) { value = ( unsigned int ) ( ( buffer [ 3 ] << 24 ) | ( buffer [ 2 ] << 16 ) | ( buffer [ 1 ] << 8 ) | ( buffer [ 0 ] ) ) ; return ( ( unsigned int ) ( value & 0xffffffff ) ) ; } value = ( unsigned int ) ( ( buffer [ 0 ] << 24 ) | ( buffer [ 1 ] << 16 ) | ( buffer [ 2 ] << 8 ) | buffer [ 3 ] ) ; return ( ( unsigned int ) ( value & 0xffffffff ) ) ; }","static inline unsigned int ReadPropertyUnsignedLong ( const EndianType endian , const unsigned char * buffer ) { unsigned int value ; if ( endian == LSBEndian ) { value = ( unsigned int ) buffer [ 3 ] << 24 ; value |= ( unsigned int ) buffer [ 2 ] << 16 ; value |= ( unsigned int ) buffer [ 1 ] << 8 ; value |= ( unsigned int ) buffer [ 0 ] ; return ( value & 0xffffffff ) ; } value = ( unsigned int ) buffer [ 0 ] << 24 ; value |= ( unsigned int ) buffer [ 1 ] << 16 ; value |= ( unsigned int ) buffer [ 2 ] << 8 ; value |= ( unsigned int ) buffer [ 3 ] ; return ( value & 0xffffffff ) ; }" 933,"CWE-190 static jas_image_cmpt_t * jas_image_cmpt_create ( int_fast32_t tlx , int_fast32_t tly , int_fast32_t hstep , int_fast32_t vstep , int_fast32_t width , int_fast32_t height , uint_fast16_t depth , bool sgnd , uint_fast32_t inmem ) { jas_image_cmpt_t * cmpt ; size_t size ; cmpt = 0 ; if ( width < 0 || height < 0 || hstep <= 0 || vstep <= 0 ) { goto error ; } if ( ! jas_safe_intfast32_add ( tlx , width , 0 ) || ! jas_safe_intfast32_add ( tly , height , 0 ) ) { goto error ; } if ( ! ( cmpt = jas_malloc ( sizeof ( jas_image_cmpt_t ) ) ) ) { goto error ; } cmpt -> type_ = JAS_IMAGE_CT_UNKNOWN ; cmpt -> tlx_ = tlx ; cmpt -> tly_ = tly ; cmpt -> hstep_ = hstep ; cmpt -> vstep_ = vstep ; cmpt -> width_ = width ; cmpt -> height_ = height ; cmpt -> prec_ = depth ; cmpt -> sgnd_ = sgnd ; cmpt -> stream_ = 0 ; cmpt -> cps_ = ( depth + 7 ) / 8 ; if ( ! jas_safe_size_mul ( cmpt -> width_ , cmpt -> height_ , & size ) || ! jas_safe_size_mul ( size , cmpt -> cps_ , & size ) ) { goto error ; } cmpt -> stream_ = ( inmem ) ? jas_stream_memopen ( 0 , size ) : jas_stream_tmpfile ( ) ; if ( ! cmpt -> stream_ ) { goto error ; } if ( jas_stream_seek ( cmpt -> stream_ , size - 1 , SEEK_SET ) < 0 || jas_stream_putc ( cmpt -> stream_ , 0 ) == EOF || jas_stream_seek ( cmpt -> stream_ , 0 , SEEK_SET ) < 0 ) { goto error ; } return cmpt ; error : if ( cmpt ) { jas_image_cmpt_destroy ( cmpt ) ; } return 0 ; }","static jas_image_cmpt_t * jas_image_cmpt_create ( int_fast32_t tlx , int_fast32_t tly , int_fast32_t hstep , int_fast32_t vstep , int_fast32_t width , int_fast32_t height , uint_fast16_t depth , bool sgnd , uint_fast32_t inmem ) { jas_image_cmpt_t * cmpt ; size_t size ; cmpt = 0 ; if ( width < 0 || height < 0 || hstep <= 0 || vstep <= 0 ) { goto error ; } if ( ! jas_safe_intfast32_add ( tlx , width , 0 ) || ! jas_safe_intfast32_add ( tly , height , 0 ) ) { goto error ; } if ( ! ( cmpt = jas_malloc ( sizeof ( jas_image_cmpt_t ) ) ) ) { goto error ; } cmpt -> type_ = JAS_IMAGE_CT_UNKNOWN ; cmpt -> tlx_ = tlx ; cmpt -> tly_ = tly ; cmpt -> hstep_ = hstep ; cmpt -> vstep_ = vstep ; cmpt -> width_ = width ; cmpt -> height_ = height ; cmpt -> prec_ = depth ; cmpt -> sgnd_ = sgnd ; cmpt -> stream_ = 0 ; cmpt -> cps_ = ( depth + 7 ) / 8 ; if ( ! jas_safe_size_mul ( cmpt -> width_ , cmpt -> height_ , & size ) || ! jas_safe_size_mul ( size , cmpt -> cps_ , & size ) ) { goto error ; } cmpt -> stream_ = ( inmem ) ? jas_stream_memopen2 ( 0 , size ) : jas_stream_tmpfile ( ) ; if ( ! cmpt -> stream_ ) { goto error ; } if ( jas_stream_seek ( cmpt -> stream_ , size - 1 , SEEK_SET ) < 0 || jas_stream_putc ( cmpt -> stream_ , 0 ) == EOF || jas_stream_seek ( cmpt -> stream_ , 0 , SEEK_SET ) < 0 ) { goto error ; } return cmpt ; error : if ( cmpt ) { jas_image_cmpt_destroy ( cmpt ) ; } return 0 ; }" 934,"CWE-119 int mainloop ( CLIENT * client ) { struct nbd_request request ; struct nbd_reply reply ; gboolean go_on = TRUE ; # ifdef DODBG int i = 0 ; # endif negotiate ( client -> net , client , NULL ) ; DEBUG ( ""Entering request loop!\\n"" ) ; reply . magic = htonl ( NBD_REPLY_MAGIC ) ; reply . error = 0 ; while ( go_on ) { char buf [ BUFSIZE ] ; size_t len ; # ifdef DODBG i ++ ; printf ( ""%d: "" , i ) ; # endif readit ( client -> net , & request , sizeof ( request ) ) ; request . from = ntohll ( request . from ) ; request . type = ntohl ( request . type ) ; if ( request . type == NBD_CMD_DISC ) { msg2 ( LOG_INFO , ""Disconnect request received."" ) ; if ( client -> server -> flags & F_COPYONWRITE ) { if ( client -> difmap ) g_free ( client -> difmap ) ; close ( client -> difffile ) ; unlink ( client -> difffilename ) ; free ( client -> difffilename ) ; } go_on = FALSE ; continue ; } len = ntohl ( request . len ) ; if ( request . magic != htonl ( NBD_REQUEST_MAGIC ) ) err ( ""Not enough magic."" ) ; if ( len > BUFSIZE + sizeof ( struct nbd_reply ) ) err ( ""Request too big!"" ) ; # ifdef DODBG printf ( ""%s from %llu (%llu) len %d, "" , request . type ? ""WRITE"" : ""READ"" , ( unsigned long long ) request . from , ( unsigned long long ) request . from / 512 , len ) ; # endif memcpy ( reply . handle , request . handle , sizeof ( reply . handle ) ) ; if ( ( request . from + len ) > ( OFFT_MAX ) ) { DEBUG ( ""[Number too large!]"" ) ; ERROR ( client , reply , EINVAL ) ; continue ; } if ( ( ( ssize_t ) ( ( off_t ) request . from + len ) > client -> exportsize ) ) { DEBUG ( ""[RANGE!]"" ) ; ERROR ( client , reply , EINVAL ) ; continue ; } if ( request . type == NBD_CMD_WRITE ) { DEBUG ( ""wr: net->buf, "" ) ; readit ( client -> net , buf , len ) ; DEBUG ( ""buf->exp, "" ) ; if ( ( client -> server -> flags & F_READONLY ) || ( client -> server -> flags & F_AUTOREADONLY ) ) { DEBUG ( ""[WRITE to READONLY!]"" ) ; ERROR ( client , reply , EPERM ) ; continue ; } if ( expwrite ( request . from , buf , len , client ) ) { DEBUG ( ""Write failed: %m"" ) ; ERROR ( client , reply , errno ) ; continue ; } SEND ( client -> net , reply ) ; DEBUG ( ""OK!\\n"" ) ; continue ; } DEBUG ( ""exp->buf, "" ) ; if ( expread ( request . from , buf + sizeof ( struct nbd_reply ) , len , client ) ) { DEBUG ( ""Read failed: %m"" ) ; ERROR ( client , reply , errno ) ; continue ; } DEBUG ( ""buf->net, "" ) ; memcpy ( buf , & reply , sizeof ( struct nbd_reply ) ) ; writeit ( client -> net , buf , len + sizeof ( struct nbd_reply ) ) ; DEBUG ( ""OK!\\n"" ) ; } return 0 ; }","int mainloop ( CLIENT * client ) { struct nbd_request request ; struct nbd_reply reply ; gboolean go_on = TRUE ; # ifdef DODBG int i = 0 ; # endif negotiate ( client -> net , client , NULL ) ; DEBUG ( ""Entering request loop!\\n"" ) ; reply . magic = htonl ( NBD_REPLY_MAGIC ) ; reply . error = 0 ; while ( go_on ) { char buf [ BUFSIZE ] ; size_t len ; # ifdef DODBG i ++ ; printf ( ""%d: "" , i ) ; # endif readit ( client -> net , & request , sizeof ( request ) ) ; request . from = ntohll ( request . from ) ; request . type = ntohl ( request . type ) ; if ( request . type == NBD_CMD_DISC ) { msg2 ( LOG_INFO , ""Disconnect request received."" ) ; if ( client -> server -> flags & F_COPYONWRITE ) { if ( client -> difmap ) g_free ( client -> difmap ) ; close ( client -> difffile ) ; unlink ( client -> difffilename ) ; free ( client -> difffilename ) ; } go_on = FALSE ; continue ; } len = ntohl ( request . len ) ; if ( request . magic != htonl ( NBD_REQUEST_MAGIC ) ) err ( ""Not enough magic."" ) ; if ( len > BUFSIZE - sizeof ( struct nbd_reply ) ) err ( ""Request too big!"" ) ; # ifdef DODBG printf ( ""%s from %llu (%llu) len %d, "" , request . type ? ""WRITE"" : ""READ"" , ( unsigned long long ) request . from , ( unsigned long long ) request . from / 512 , len ) ; # endif memcpy ( reply . handle , request . handle , sizeof ( reply . handle ) ) ; if ( ( request . from + len ) > ( OFFT_MAX ) ) { DEBUG ( ""[Number too large!]"" ) ; ERROR ( client , reply , EINVAL ) ; continue ; } if ( ( ( ssize_t ) ( ( off_t ) request . from + len ) > client -> exportsize ) ) { DEBUG ( ""[RANGE!]"" ) ; ERROR ( client , reply , EINVAL ) ; continue ; } if ( request . type == NBD_CMD_WRITE ) { DEBUG ( ""wr: net->buf, "" ) ; readit ( client -> net , buf , len ) ; DEBUG ( ""buf->exp, "" ) ; if ( ( client -> server -> flags & F_READONLY ) || ( client -> server -> flags & F_AUTOREADONLY ) ) { DEBUG ( ""[WRITE to READONLY!]"" ) ; ERROR ( client , reply , EPERM ) ; continue ; } if ( expwrite ( request . from , buf , len , client ) ) { DEBUG ( ""Write failed: %m"" ) ; ERROR ( client , reply , errno ) ; continue ; } SEND ( client -> net , reply ) ; DEBUG ( ""OK!\\n"" ) ; continue ; } DEBUG ( ""exp->buf, "" ) ; if ( expread ( request . from , buf + sizeof ( struct nbd_reply ) , len , client ) ) { DEBUG ( ""Read failed: %m"" ) ; ERROR ( client , reply , errno ) ; continue ; } DEBUG ( ""buf->net, "" ) ; memcpy ( buf , & reply , sizeof ( struct nbd_reply ) ) ; writeit ( client -> net , buf , len + sizeof ( struct nbd_reply ) ) ; DEBUG ( ""OK!\\n"" ) ; } return 0 ; }" 935,"CWE-119 static INLINE void write_buffer_4x4 ( int16_t * output , __m128i * res ) { const __m128i kOne = _mm_set1_epi16 ( 1 ) ; __m128i in01 = _mm_unpacklo_epi64 ( res [ 0 ] , res [ 1 ] ) ; __m128i in23 = _mm_unpacklo_epi64 ( res [ 2 ] , res [ 3 ] ) ; __m128i out01 = _mm_add_epi16 ( in01 , kOne ) ; __m128i out23 = _mm_add_epi16 ( in23 , kOne ) ; out01 = _mm_srai_epi16 ( out01 , 2 ) ; out23 = _mm_srai_epi16 ( out23 , 2 ) ; _mm_store_si128 ( ( __m128i * ) ( output + 0 * 8 ) , out01 ) ; _mm_store_si128 ( ( __m128i * ) ( output + 1 * 8 ) , out23 ) ; }","static INLINE void write_buffer_4x4 ( tran_low_t * output , __m128i * res ) { const __m128i kOne = _mm_set1_epi16 ( 1 ) ; __m128i in01 = _mm_unpacklo_epi64 ( res [ 0 ] , res [ 1 ] ) ; __m128i in23 = _mm_unpacklo_epi64 ( res [ 2 ] , res [ 3 ] ) ; __m128i out01 = _mm_add_epi16 ( in01 , kOne ) ; __m128i out23 = _mm_add_epi16 ( in23 , kOne ) ; out01 = _mm_srai_epi16 ( out01 , 2 ) ; out23 = _mm_srai_epi16 ( out23 , 2 ) ; store_output ( & out01 , ( output + 0 * 8 ) ) ; store_output ( & out23 , ( output + 1 * 8 ) ) ; }" 936,"CWE-189 struct timespec ns_to_timespec ( const s64 nsec ) { struct timespec ts ; if ( ! nsec ) return ( struct timespec ) { 0 , 0 } ; ts . tv_sec = div_long_long_rem_signed ( nsec , NSEC_PER_SEC , & ts . tv_nsec ) ; if ( unlikely ( nsec < 0 ) ) set_normalized_timespec ( & ts , ts . tv_sec , ts . tv_nsec ) ; return ts ; }","struct timespec ns_to_timespec ( const s64 nsec ) { struct timespec ts ; s32 rem ; if ( ! nsec ) return ( struct timespec ) { 0 , 0 } ; ts . tv_sec = div_s64_rem ( nsec , NSEC_PER_SEC , & rem ) ; if ( unlikely ( rem < 0 ) ) { ts . tv_sec -- ; rem += NSEC_PER_SEC ; } ts . tv_nsec = rem ; return ts ; }" 937,"CWE-787 grub_ssize_t grub_fshelp_read_file ( grub_disk_t disk , grub_fshelp_node_t node , void ( * read_hook ) ( grub_disk_addr_t sector , unsigned offset , unsigned length , void * closure ) , void * closure , int flags , grub_off_t pos , grub_size_t len , char * buf , grub_disk_addr_t ( * get_block ) ( grub_fshelp_node_t node , grub_disk_addr_t block ) , grub_off_t filesize , int log2blocksize ) { grub_disk_addr_t i , blockcnt ; int blocksize = 1 << ( log2blocksize + GRUB_DISK_SECTOR_BITS ) ; if ( pos + len > filesize ) len = filesize - pos ; blockcnt = ( ( len + pos ) + blocksize - 1 ) >> ( log2blocksize + GRUB_DISK_SECTOR_BITS ) ; for ( i = pos >> ( log2blocksize + GRUB_DISK_SECTOR_BITS ) ; i < blockcnt ; i ++ ) { grub_disk_addr_t blknr ; int blockoff = pos & ( blocksize - 1 ) ; int blockend = blocksize ; int skipfirst = 0 ; blknr = get_block ( node , i ) ; if ( grub_errno ) return - 1 ; blknr = blknr << log2blocksize ; if ( i == blockcnt - 1 ) { blockend = ( len + pos ) & ( blocksize - 1 ) ; if ( ! blockend ) blockend = blocksize ; } if ( i == ( pos >> ( log2blocksize + GRUB_DISK_SECTOR_BITS ) ) ) { skipfirst = blockoff ; blockend -= skipfirst ; } if ( blknr ) { disk -> read_hook = read_hook ; disk -> closure = closure ; grub_hack_lastoff = blknr * 512 ; grub_disk_read_ex ( disk , blknr , skipfirst , blockend , buf , flags ) ; disk -> read_hook = 0 ; if ( grub_errno ) return - 1 ; } else if ( buf ) grub_memset ( buf , 0 , blockend ) ; if ( buf ) buf += blocksize - skipfirst ; } return len ; }","grub_ssize_t grub_fshelp_read_file ( grub_disk_t disk , grub_fshelp_node_t node , void ( * read_hook ) ( grub_disk_addr_t sector , unsigned offset , unsigned length , void * closure ) , void * closure , int flags , grub_off_t pos , grub_size_t len , char * buf , grub_disk_addr_t ( * get_block ) ( grub_fshelp_node_t node , grub_disk_addr_t block ) , grub_off_t filesize , int log2blocksize ) { grub_disk_addr_t i , blockcnt ; int blocksize = 1 << ( log2blocksize + GRUB_DISK_SECTOR_BITS ) ; if ( pos + len > filesize ) len = filesize - pos ; if ( len < 1 || len == 0xffffffff ) { return - 1 ; } blockcnt = ( ( len + pos ) + blocksize - 1 ) >> ( log2blocksize + GRUB_DISK_SECTOR_BITS ) ; for ( i = pos >> ( log2blocksize + GRUB_DISK_SECTOR_BITS ) ; i < blockcnt ; i ++ ) { grub_disk_addr_t blknr ; int blockoff = pos & ( blocksize - 1 ) ; int blockend = blocksize ; int skipfirst = 0 ; blknr = get_block ( node , i ) ; if ( grub_errno ) return - 1 ; blknr = blknr << log2blocksize ; if ( i == blockcnt - 1 ) { blockend = ( len + pos ) & ( blocksize - 1 ) ; if ( ! blockend ) blockend = blocksize ; } if ( i == ( pos >> ( log2blocksize + GRUB_DISK_SECTOR_BITS ) ) ) { skipfirst = blockoff ; blockend -= skipfirst ; } if ( blknr ) { disk -> read_hook = read_hook ; disk -> closure = closure ; grub_hack_lastoff = blknr * 512 ; grub_disk_read_ex ( disk , blknr , skipfirst , blockend , buf , flags ) ; disk -> read_hook = 0 ; if ( grub_errno ) return - 1 ; } else if ( buf ) grub_memset ( buf , 0 , blockend ) ; if ( buf ) buf += blocksize - skipfirst ; } return len ; }" 938,"CWE-119 static int DecodeGifImg ( struct ngiflib_img * i ) { struct ngiflib_decode_context context ; long npix ; u8 * stackp ; u8 * stack_top ; u16 clr ; u16 eof ; u16 free ; u16 act_code = 0 ; u16 old_code = 0 ; u16 read_byt ; u16 ab_prfx [ 4096 ] ; u8 ab_suffx [ 4096 ] ; u8 ab_stack [ 4096 ] ; u8 flags ; u8 casspecial = 0 ; if ( ! i ) return - 1 ; i -> posX = GetWord ( i -> parent ) ; i -> posY = GetWord ( i -> parent ) ; i -> width = GetWord ( i -> parent ) ; i -> height = GetWord ( i -> parent ) ; context . Xtogo = i -> width ; context . curY = i -> posY ; # ifdef NGIFLIB_INDEXED_ONLY # ifdef NGIFLIB_ENABLE_CALLBACKS context . line_p . p8 = i -> parent -> frbuff . p8 + ( u32 ) i -> posY * i -> parent -> width ; context . frbuff_p . p8 = context . line_p . p8 + i -> posX ; # else context . frbuff_p . p8 = i -> parent -> frbuff . p8 + ( u32 ) i -> posY * i -> parent -> width + i -> posX ; # endif # else if ( i -> parent -> mode & NGIFLIB_MODE_INDEXED ) { # ifdef NGIFLIB_ENABLE_CALLBACKS context . line_p . p8 = i -> parent -> frbuff . p8 + ( u32 ) i -> posY * i -> parent -> width ; context . frbuff_p . p8 = context . line_p . p8 + i -> posX ; # else context . frbuff_p . p8 = i -> parent -> frbuff . p8 + ( u32 ) i -> posY * i -> parent -> width + i -> posX ; # endif } else { # ifdef NGIFLIB_ENABLE_CALLBACKS context . line_p . p32 = i -> parent -> frbuff . p32 + ( u32 ) i -> posY * i -> parent -> width ; context . frbuff_p . p32 = context . line_p . p32 + i -> posX ; # else context . frbuff_p . p32 = i -> parent -> frbuff . p32 + ( u32 ) i -> posY * i -> parent -> width + i -> posX ; # endif } # endif npix = ( long ) i -> width * i -> height ; flags = GetByte ( i -> parent ) ; i -> interlaced = ( flags & 64 ) >> 6 ; context . pass = i -> interlaced ? 1 : 0 ; i -> sort_flag = ( flags & 32 ) >> 5 ; i -> localpalbits = ( flags & 7 ) + 1 ; if ( flags & 128 ) { int k ; int localpalsize = 1 << i -> localpalbits ; # if ! defined ( NGIFLIB_NO_FILE ) if ( i -> parent && i -> parent -> log ) fprintf ( i -> parent -> log , ""Local palette\\n"" ) ; # endif i -> palette = ( struct ngiflib_rgb * ) ngiflib_malloc ( sizeof ( struct ngiflib_rgb ) * localpalsize ) ; for ( k = 0 ; k < localpalsize ; k ++ ) { i -> palette [ k ] . r = GetByte ( i -> parent ) ; i -> palette [ k ] . g = GetByte ( i -> parent ) ; i -> palette [ k ] . b = GetByte ( i -> parent ) ; } # ifdef NGIFLIB_ENABLE_CALLBACKS if ( i -> parent -> palette_cb ) i -> parent -> palette_cb ( i -> parent , i -> palette , localpalsize ) ; # endif } else { i -> palette = i -> parent -> palette ; i -> localpalbits = i -> parent -> imgbits ;","static int DecodeGifImg ( struct ngiflib_img * i ) { struct ngiflib_decode_context context ; long npix ; u8 * stackp ; u8 * stack_top ; u16 clr ; u16 eof ; u16 free ; u16 act_code = 0 ; u16 old_code = 0 ; u16 read_byt ; u16 ab_prfx [ 4096 ] ; u8 ab_suffx [ 4096 ] ; u8 ab_stack [ 4096 ] ; u8 flags ; u8 casspecial = 0 ; if ( ! i ) return - 1 ; i -> posX = GetWord ( i -> parent ) ; i -> posY = GetWord ( i -> parent ) ; i -> width = GetWord ( i -> parent ) ; i -> height = GetWord ( i -> parent ) ; if ( ( i -> width > i -> parent -> width ) || ( i -> height > i -> parent -> height ) ) { # if ! defined ( NGIFLIB_NO_FILE ) if ( i -> parent -> log ) fprintf ( i -> parent -> log , ""*** ERROR *** Image bigger than global GIF canvas !\\n"" ) ; # endif return - 1 ; } if ( ( i -> posX + i -> width ) > i -> parent -> width ) { # if ! defined ( NGIFLIB_NO_FILE ) if ( i -> parent -> log ) fprintf ( i -> parent -> log , ""*** WARNING *** Adjusting X position\\n"" ) ; # endif i -> posX = i -> parent -> width - i -> width ; } if ( ( i -> posY + i -> height ) > i -> parent -> height ) { # if ! defined ( NGIFLIB_NO_FILE ) if ( i -> parent -> log ) fprintf ( i -> parent -> log , ""*** WARNING *** Adjusting Y position\\n"" ) ; # endif i -> posY = i -> parent -> height - i -> height ; } context . Xtogo = i -> width ; context . curY = i -> posY ; # ifdef NGIFLIB_INDEXED_ONLY # ifdef NGIFLIB_ENABLE_CALLBACKS context . line_p . p8 = i -> parent -> frbuff . p8 + ( u32 ) i -> posY * i -> parent -> width ; context . frbuff_p . p8 = context . line_p . p8 + i -> posX ; # else context . frbuff_p . p8 = i -> parent -> frbuff . p8 + ( u32 ) i -> posY * i -> parent -> width + i -> posX ; # endif # else if ( i -> parent -> mode & NGIFLIB_MODE_INDEXED ) { # ifdef NGIFLIB_ENABLE_CALLBACKS context . line_p . p8 = i -> parent -> frbuff . p8 + ( u32 ) i -> posY * i -> parent -> width ; context . frbuff_p . p8 = context . line_p . p8 + i -> posX ; # else context . frbuff_p . p8 = i -> parent -> frbuff . p8 + ( u32 ) i -> posY * i -> parent -> width + i -> posX ; # endif } else { # ifdef NGIFLIB_ENABLE_CALLBACKS context . line_p . p32 = i -> parent -> frbuff . p32 + ( u32 ) i -> posY * i -> parent -> width ; context . frbuff_p . p32 = context . line_p . p32 + i -> posX ; # else context . frbuff_p . p32 = i -> parent -> frbuff . p32 + ( u32 ) i -> posY * i -> parent -> width + i -> posX ; # endif } # endif npix = ( long ) i -> width * i -> height ; flags = GetByte ( i -> parent ) ; i -> interlaced = ( flags & 64 ) >> 6 ; context . pass = i -> interlaced ? 1 : 0 ; i -> sort_flag = ( flags & 32 ) >> 5 ; i -> localpalbits = ( flags & 7 ) + 1 ; if ( flags & 128 ) { int k ; int localpalsize = 1 << i -> localpalbits ; # if ! defined ( NGIFLIB_NO_FILE ) if ( i -> parent && i -> parent -> log ) fprintf ( i -> parent -> log , ""Local palette\\n"" ) ; # endif i -> palette = ( struct ngiflib_rgb * ) ngiflib_malloc ( sizeof ( struct ngiflib_rgb ) * localpalsize ) ; for ( k = 0 ; k < localpalsize ; k ++ ) { i -> palette [ k ] . r = GetByte ( i -> parent ) ; i -> palette [ k ] . g = GetByte ( i -> parent ) ; i -> palette [ k ] . b = GetByte ( i -> parent ) ; } # ifdef NGIFLIB_ENABLE_CALLBACKS if ( i -> parent -> palette_cb ) i -> parent -> palette_cb ( i -> parent , i -> palette , localpalsize ) ; # endif } else { i -> palette = i -> parent -> palette ; i -> localpalbits = i -> parent -> imgbits ;" 939,"CWE-119 void queue_push ( register Queue * qp , size_t extra_length , char const * info ) { register char * cp ; size_t memory_length ; size_t available_length ; size_t begin_length ; size_t n_begin ; size_t q_length ; if ( ! extra_length ) return ; memory_length = qp -> d_memory_end - qp -> d_memory ; q_length = qp -> d_read <= qp -> d_write ? ( size_t ) ( qp -> d_write - qp -> d_read ) : memory_length - ( qp -> d_read - qp -> d_write ) ; available_length = memory_length - q_length - 1 ; if ( message_show ( MSG_INFO ) ) message ( ""push_front %u bytes in `%s\'"" , ( unsigned ) extra_length , info ) ; if ( extra_length > available_length ) { memory_length += extra_length - available_length + BLOCK_QUEUE ; cp = new_memory ( memory_length , sizeof ( char ) ) ; if ( message_show ( MSG_INFO ) ) message ( ""Reallocating queue at %p to %p"" , qp -> d_memory , cp ) ; if ( qp -> d_read > qp -> d_write ) { size_t tail_len = qp -> d_memory_end - qp -> d_read ; memcpy ( cp , qp -> d_read , tail_len ) ; memcpy ( cp + tail_len , qp -> d_memory , ( size_t ) ( qp -> d_write - qp -> d_memory ) ) ; qp -> d_write = cp + q_length ; qp -> d_read = cp ; } else { memcpy ( cp , qp -> d_memory , memory_length ) ; qp -> d_read = cp + ( qp -> d_read - qp -> d_memory ) ; qp -> d_write = cp + ( qp -> d_write - qp -> d_memory ) ; } free ( qp -> d_memory ) ; qp -> d_memory_end = cp + memory_length ; qp -> d_memory = cp ; } begin_length = qp -> d_read - qp -> d_memory ; n_begin = extra_length <= begin_length ? extra_length : begin_length ; memcpy ( qp -> d_read -= n_begin , info + extra_length - n_begin , n_begin ) ; if ( extra_length > begin_length ) { extra_length -= begin_length ; memcpy ( qp -> d_read = qp -> d_memory_end - extra_length , info , extra_length ) ; } }","void queue_push ( register Queue * qp , size_t extra_length , char const * info ) { register char * cp ; size_t memory_length ; size_t available_length ; size_t begin_length ; size_t n_begin ; size_t q_length ; if ( ! extra_length ) return ; memory_length = qp -> d_memory_end - qp -> d_memory ; q_length = qp -> d_read <= qp -> d_write ? ( size_t ) ( qp -> d_write - qp -> d_read ) : memory_length - ( qp -> d_read - qp -> d_write ) ; available_length = memory_length - q_length - 1 ; if ( message_show ( MSG_INFO ) ) message ( ""push_front %u bytes in `%s\'"" , ( unsigned ) extra_length , info ) ; if ( extra_length > available_length ) { size_t original_length = memory_length ; memory_length += extra_length - available_length + BLOCK_QUEUE ; cp = new_memory ( memory_length , sizeof ( char ) ) ; if ( message_show ( MSG_INFO ) ) message ( ""Reallocating queue at %p to %p"" , qp -> d_memory , cp ) ; if ( qp -> d_read > qp -> d_write ) { size_t tail_len = qp -> d_memory_end - qp -> d_read ; memcpy ( cp , qp -> d_read , tail_len ) ; memcpy ( cp + tail_len , qp -> d_memory , ( size_t ) ( qp -> d_write - qp -> d_memory ) ) ; qp -> d_write = cp + q_length ; qp -> d_read = cp ; } else { memcpy ( cp , qp -> d_memory , original_length ) ; qp -> d_read = cp + ( qp -> d_read - qp -> d_memory ) ; qp -> d_write = cp + ( qp -> d_write - qp -> d_memory ) ; } free ( qp -> d_memory ) ; qp -> d_memory_end = cp + memory_length ; qp -> d_memory = cp ; } begin_length = qp -> d_read - qp -> d_memory ; n_begin = extra_length <= begin_length ? extra_length : begin_length ; memcpy ( qp -> d_read -= n_begin , info + extra_length - n_begin , n_begin ) ; if ( extra_length > begin_length ) { extra_length -= begin_length ; memcpy ( qp -> d_read = qp -> d_memory_end - extra_length , info , extra_length ) ; } }" 940,"CWE-125 static u_int16_t concat_hash_string ( struct ndpi_packet_struct * packet , char * buf , u_int8_t client_hash ) { u_int16_t offset = 22 , buf_out_len = 0 ; if ( offset + sizeof ( u_int32_t ) >= packet -> payload_packet_len ) goto invalid_payload ; u_int32_t len = ntohl ( * ( u_int32_t * ) & packet -> payload [ offset ] ) ; offset += 4 ; if ( ( offset >= packet -> payload_packet_len ) || ( len >= packet -> payload_packet_len - offset - 1 ) ) goto invalid_payload ; strncpy ( buf , ( const char * ) & packet -> payload [ offset ] , buf_out_len = len ) ; buf [ buf_out_len ++ ] = ';' ; offset += len ; len = ntohl ( * ( u_int32_t * ) & packet -> payload [ offset ] ) ; offset += 4 + len ; len = ntohl ( * ( u_int32_t * ) & packet -> payload [ offset ] ) ; if ( client_hash ) { offset += 4 ; if ( ( offset >= packet -> payload_packet_len ) || ( len >= packet -> payload_packet_len - offset - 1 ) ) goto invalid_payload ; strncpy ( & buf [ buf_out_len ] , ( const char * ) & packet -> payload [ offset ] , len ) ; buf_out_len += len ; buf [ buf_out_len ++ ] = ';' ; offset += len ; } else offset += 4 + len ; len = ntohl ( * ( u_int32_t * ) & packet -> payload [ offset ] ) ; if ( ! client_hash ) { offset += 4 ; if ( ( offset >= packet -> payload_packet_len ) || ( len >= packet -> payload_packet_len - offset - 1 ) ) goto invalid_payload ; strncpy ( & buf [ buf_out_len ] , ( const char * ) & packet -> payload [ offset ] , len ) ; buf_out_len += len ; buf [ buf_out_len ++ ] = ';' ; offset += len ; } else offset += 4 + len ; len = ntohl ( * ( u_int32_t * ) & packet -> payload [ offset ] ) ; if ( client_hash ) { offset += 4 ; if ( ( offset >= packet -> payload_packet_len ) || ( len >= packet -> payload_packet_len - offset - 1 ) ) goto invalid_payload ; strncpy ( & buf [ buf_out_len ] , ( const char * ) & packet -> payload [ offset ] , len ) ; buf_out_len += len ; buf [ buf_out_len ++ ] = ';' ; offset += len ; } else offset += 4 + len ; len = ntohl ( * ( u_int32_t * ) & packet -> payload [ offset ] ) ; if ( ! client_hash ) { offset += 4 ; if ( ( offset >= packet -> payload_packet_len ) || ( len >= packet -> payload_packet_len - offset - 1 ) ) goto invalid_payload ; strncpy ( & buf [ buf_out_len ] , ( const char * ) & packet -> payload [ offset ] , len ) ; buf_out_len += len ; buf [ buf_out_len ++ ] = ';' ; offset += len ; } else offset += 4 + len ; if ( offset + sizeof ( u_int32_t ) >= packet -> payload_packet_len ) goto invalid_payload ; len = ntohl ( * ( u_int32_t * ) & packet -> payload [ offset ] ) ; if ( client_hash ) { offset += 4 ; if ( ( offset >= packet -> payload_packet_len ) || ( len >= packet -> payload_packet_len - offset - 1 ) ) goto invalid_payload ; strncpy ( & buf [ buf_out_len ] , ( const char * ) & packet -> payload [ offset ] , len ) ; buf_out_len += len ; offset += len ; } else offset += 4 + len ; len = ntohl ( * ( u_int32_t * ) & packet -> payload [ offset ] ) ; if ( ! client_hash ) { offset += 4 ; if ( ( offset >= packet -> payload_packet_len ) || ( len >= packet -> payload_packet_len - offset - 1 ) ) goto invalid_payload ; strncpy ( & buf [ buf_out_len ] , ( const char * ) & packet -> payload [ offset ] , len ) ; buf_out_len += len ; offset += len ; } else offset += 4 + len ; # ifdef SSH_DEBUG printf ( ""[SSH] %s\\n"" , buf ) ; # endif return ( buf_out_len ) ; invalid_payload : # ifdef SSH_DEBUG printf ( ""[SSH] Invalid packet payload\\n"" ) ; # endif return ( 0 ) ; }","static u_int16_t concat_hash_string ( struct ndpi_packet_struct * packet , char * buf , u_int8_t client_hash ) { u_int16_t offset = 22 , buf_out_len = 0 ; if ( offset + sizeof ( u_int32_t ) >= packet -> payload_packet_len ) goto invalid_payload ; u_int32_t len = ntohl ( * ( u_int32_t * ) & packet -> payload [ offset ] ) ; offset += 4 ; if ( ( offset >= packet -> payload_packet_len ) || ( len >= packet -> payload_packet_len - offset - 1 ) ) goto invalid_payload ; strncpy ( buf , ( const char * ) & packet -> payload [ offset ] , buf_out_len = len ) ; buf [ buf_out_len ++ ] = ';' ; offset += len ; if ( offset + sizeof ( u_int32_t ) >= packet -> payload_packet_len ) goto invalid_payload ; len = ntohl ( * ( u_int32_t * ) & packet -> payload [ offset ] ) ; offset += 4 + len ; if ( offset + sizeof ( u_int32_t ) >= packet -> payload_packet_len ) goto invalid_payload ; len = ntohl ( * ( u_int32_t * ) & packet -> payload [ offset ] ) ; if ( client_hash ) { offset += 4 ; if ( ( offset >= packet -> payload_packet_len ) || ( len >= packet -> payload_packet_len - offset - 1 ) ) goto invalid_payload ; strncpy ( & buf [ buf_out_len ] , ( const char * ) & packet -> payload [ offset ] , len ) ; buf_out_len += len ; buf [ buf_out_len ++ ] = ';' ; offset += len ; } else offset += 4 + len ; if ( offset + sizeof ( u_int32_t ) >= packet -> payload_packet_len ) goto invalid_payload ; len = ntohl ( * ( u_int32_t * ) & packet -> payload [ offset ] ) ; if ( ! client_hash ) { offset += 4 ; if ( ( offset >= packet -> payload_packet_len ) || ( len >= packet -> payload_packet_len - offset - 1 ) ) goto invalid_payload ; strncpy ( & buf [ buf_out_len ] , ( const char * ) & packet -> payload [ offset ] , len ) ; buf_out_len += len ; buf [ buf_out_len ++ ] = ';' ; offset += len ; } else offset += 4 + len ; if ( offset + sizeof ( u_int32_t ) >= packet -> payload_packet_len ) goto invalid_payload ; len = ntohl ( * ( u_int32_t * ) & packet -> payload [ offset ] ) ; if ( client_hash ) { offset += 4 ; if ( ( offset >= packet -> payload_packet_len ) || ( len >= packet -> payload_packet_len - offset - 1 ) ) goto invalid_payload ; strncpy ( & buf [ buf_out_len ] , ( const char * ) & packet -> payload [ offset ] , len ) ; buf_out_len += len ; buf [ buf_out_len ++ ] = ';' ; offset += len ; } else offset += 4 + len ; if ( offset + sizeof ( u_int32_t ) >= packet -> payload_packet_len ) goto invalid_payload ; len = ntohl ( * ( u_int32_t * ) & packet -> payload [ offset ] ) ; if ( ! client_hash ) { offset += 4 ; if ( ( offset >= packet -> payload_packet_len ) || ( len >= packet -> payload_packet_len - offset - 1 ) ) goto invalid_payload ; strncpy ( & buf [ buf_out_len ] , ( const char * ) & packet -> payload [ offset ] , len ) ; buf_out_len += len ; buf [ buf_out_len ++ ] = ';' ; offset += len ; } else offset += 4 + len ; if ( offset + sizeof ( u_int32_t ) >= packet -> payload_packet_len ) goto invalid_payload ; len = ntohl ( * ( u_int32_t * ) & packet -> payload [ offset ] ) ; if ( client_hash ) { offset += 4 ; if ( ( offset >= packet -> payload_packet_len ) || ( len >= packet -> payload_packet_len - offset - 1 ) ) goto invalid_payload ; strncpy ( & buf [ buf_out_len ] , ( const char * ) & packet -> payload [ offset ] , len ) ; buf_out_len += len ; offset += len ; } else offset += 4 + len ; if ( offset + sizeof ( u_int32_t ) >= packet -> payload_packet_len ) goto invalid_payload ; len = ntohl ( * ( u_int32_t * ) & packet -> payload [ offset ] ) ; if ( ! client_hash ) { offset += 4 ; if ( ( offset >= packet -> payload_packet_len ) || ( len >= packet -> payload_packet_len - offset - 1 ) ) goto invalid_payload ; strncpy ( & buf [ buf_out_len ] , ( const char * ) & packet -> payload [ offset ] , len ) ; buf_out_len += len ; offset += len ; } else offset += 4 + len ; # ifdef SSH_DEBUG printf ( ""[SSH] %s\\n"" , buf ) ; # endif return ( buf_out_len ) ; invalid_payload : # ifdef SSH_DEBUG printf ( ""[SSH] Invalid packet payload\\n"" ) ; # endif return ( 0 ) ; }" 941,"CWE-772 gpol_ret * get_policy_2_svc ( gpol_arg * arg , struct svc_req * rqstp ) { static gpol_ret ret ; kadm5_ret_t ret2 ; char * prime_arg , * funcname ; gss_buffer_desc client_name , service_name ; OM_uint32 minor_stat ; kadm5_principal_ent_rec caller_ent ; kadm5_server_handle_t handle ; const char * errmsg = NULL ; xdr_free ( xdr_gpol_ret , & ret ) ; if ( ( ret . code = new_server_handle ( arg -> api_version , rqstp , & handle ) ) ) goto exit_func ; if ( ( ret . code = check_handle ( ( void * ) handle ) ) ) goto exit_func ; ret . api_version = handle -> api_version ; funcname = ""kadm5_get_policy"" ; if ( setup_gss_names ( rqstp , & client_name , & service_name ) < 0 ) { ret . code = KADM5_FAILURE ; goto exit_func ; } prime_arg = arg -> name ; ret . code = KADM5_AUTH_GET ; if ( ! CHANGEPW_SERVICE ( rqstp ) && kadm5int_acl_check ( handle -> context , rqst2name ( rqstp ) , ACL_INQUIRE , NULL , NULL ) ) ret . code = KADM5_OK ; else { ret . code = kadm5_get_principal ( handle -> lhandle , handle -> current_caller , & caller_ent , KADM5_PRINCIPAL_NORMAL_MASK ) ; if ( ret . code == KADM5_OK ) { if ( caller_ent . aux_attributes & KADM5_POLICY && strcmp ( caller_ent . policy , arg -> name ) == 0 ) { ret . code = KADM5_OK ; } else ret . code = KADM5_AUTH_GET ; ret2 = kadm5_free_principal_ent ( handle -> lhandle , & caller_ent ) ; ret . code = ret . code ? ret . code : ret2 ; } } if ( ret . code == KADM5_OK ) { ret . code = kadm5_get_policy ( handle , arg -> name , & ret . rec ) ; if ( ret . code != 0 ) errmsg = krb5_get_error_message ( handle -> context , ret . code ) ; log_done ( funcname , ( ( prime_arg == NULL ) ? ""(null)"" : prime_arg ) , errmsg , & client_name , & service_name , rqstp ) ; if ( errmsg != NULL ) krb5_free_error_message ( handle -> context , errmsg ) ; } else { log_unauth ( funcname , prime_arg , & client_name , & service_name , rqstp ) ; } gss_release_buffer ( & minor_stat , & client_name ) ; gss_release_buffer ( & minor_stat , & service_name ) ; exit_func : free_server_handle ( handle ) ; return & ret ; }","gpol_ret * get_policy_2_svc ( gpol_arg * arg , struct svc_req * rqstp ) { static gpol_ret ret ; kadm5_ret_t ret2 ; char * prime_arg , * funcname ; gss_buffer_desc client_name = GSS_C_EMPTY_BUFFER ; gss_buffer_desc service_name = GSS_C_EMPTY_BUFFER ; OM_uint32 minor_stat ; kadm5_principal_ent_rec caller_ent ; kadm5_server_handle_t handle ; const char * errmsg = NULL ; xdr_free ( xdr_gpol_ret , & ret ) ; if ( ( ret . code = new_server_handle ( arg -> api_version , rqstp , & handle ) ) ) goto exit_func ; if ( ( ret . code = check_handle ( ( void * ) handle ) ) ) goto exit_func ; ret . api_version = handle -> api_version ; funcname = ""kadm5_get_policy"" ; if ( setup_gss_names ( rqstp , & client_name , & service_name ) < 0 ) { ret . code = KADM5_FAILURE ; goto exit_func ; } prime_arg = arg -> name ; ret . code = KADM5_AUTH_GET ; if ( ! CHANGEPW_SERVICE ( rqstp ) && kadm5int_acl_check ( handle -> context , rqst2name ( rqstp ) , ACL_INQUIRE , NULL , NULL ) ) ret . code = KADM5_OK ; else { ret . code = kadm5_get_principal ( handle -> lhandle , handle -> current_caller , & caller_ent , KADM5_PRINCIPAL_NORMAL_MASK ) ; if ( ret . code == KADM5_OK ) { if ( caller_ent . aux_attributes & KADM5_POLICY && strcmp ( caller_ent . policy , arg -> name ) == 0 ) { ret . code = KADM5_OK ; } else ret . code = KADM5_AUTH_GET ; ret2 = kadm5_free_principal_ent ( handle -> lhandle , & caller_ent ) ; ret . code = ret . code ? ret . code : ret2 ; } } if ( ret . code == KADM5_OK ) { ret . code = kadm5_get_policy ( handle , arg -> name , & ret . rec ) ; if ( ret . code != 0 ) errmsg = krb5_get_error_message ( handle -> context , ret . code ) ; log_done ( funcname , ( ( prime_arg == NULL ) ? ""(null)"" : prime_arg ) , errmsg , & client_name , & service_name , rqstp ) ; if ( errmsg != NULL ) krb5_free_error_message ( handle -> context , errmsg ) ; } else { log_unauth ( funcname , prime_arg , & client_name , & service_name , rqstp ) ; } exit_func : gss_release_buffer ( & minor_stat , & client_name ) ; gss_release_buffer ( & minor_stat , & service_name ) ; free_server_handle ( handle ) ; return & ret ; }" 942,"CWE-119 width += 16 - ( width & 0xf ) ; if ( ( height & 0xf ) != 0 ) height += 16 - ( height & 0xf ) ; if ( vp8_yv12_alloc_frame_buffer ( & cpi -> pick_lf_lvl_frame , width , height , VP8BORDERINPIXELS ) ) vpx_internal_error ( & cpi -> common . error , VPX_CODEC_MEM_ERROR , ""Failed to allocate last frame buffer"" ) ; if ( vp8_yv12_alloc_frame_buffer ( & cpi -> scaled_source , width , height , VP8BORDERINPIXELS ) ) vpx_internal_error ( & cpi -> common . error , VPX_CODEC_MEM_ERROR , ""Failed to allocate scaled source buffer"" ) ; vpx_free ( cpi -> tok ) ; { # if CONFIG_REALTIME_ONLY & CONFIG_ONTHEFLY_BITPACKING unsigned int tokens = 8 * 24 * 16 ; # else unsigned int tokens = cm -> mb_rows * cm -> mb_cols * 24 * 16 ; # endif CHECK_MEM_ERROR ( cpi -> tok , vpx_calloc ( tokens , sizeof ( * cpi -> tok ) ) ) ; } cpi -> zeromv_count = 0 ; vpx_free ( cpi -> gf_active_flags ) ; CHECK_MEM_ERROR ( cpi -> gf_active_flags , vpx_calloc ( sizeof ( * cpi -> gf_active_flags ) , cm -> mb_rows * cm -> mb_cols ) ) ; cpi -> gf_active_count = cm -> mb_rows * cm -> mb_cols ; vpx_free ( cpi -> mb_activity_map ) ; CHECK_MEM_ERROR ( cpi -> mb_activity_map , vpx_calloc ( sizeof ( * cpi -> mb_activity_map ) , cm -> mb_rows * cm -> mb_cols ) ) ; vpx_free ( cpi -> lfmv ) ; CHECK_MEM_ERROR ( cpi -> lfmv , vpx_calloc ( ( cm -> mb_rows + 2 ) * ( cm -> mb_cols + 2 ) , sizeof ( * cpi -> lfmv ) ) ) ; vpx_free ( cpi -> lf_ref_frame_sign_bias ) ; CHECK_MEM_ERROR ( cpi -> lf_ref_frame_sign_bias , vpx_calloc ( ( cm -> mb_rows + 2 ) * ( cm -> mb_cols + 2 ) , sizeof ( * cpi -> lf_ref_frame_sign_bias ) ) ) ; vpx_free ( cpi -> lf_ref_frame ) ; CHECK_MEM_ERROR ( cpi -> lf_ref_frame , vpx_calloc ( ( cm -> mb_rows + 2 ) * ( cm -> mb_cols + 2 ) , sizeof ( * cpi -> lf_ref_frame ) ) ) ; vpx_free ( cpi -> segmentation_map ) ; CHECK_MEM_ERROR ( cpi -> segmentation_map , vpx_calloc ( cm -> mb_rows * cm -> mb_cols , sizeof ( * cpi -> segmentation_map ) ) ) ; cpi -> cyclic_refresh_mode_index = 0 ; vpx_free ( cpi -> active_map ) ; CHECK_MEM_ERROR ( cpi -> active_map , vpx_calloc ( cm -> mb_rows * cm -> mb_cols , sizeof ( * cpi -> active_map ) ) ) ; vpx_memset ( cpi -> active_map , 1 , ( cm -> mb_rows * cm -> mb_cols ) ) ; # if CONFIG_MULTITHREAD if ( width < 640 ) cpi -> mt_sync_range = 1 ; else if ( width <= 1280 ) cpi -> mt_sync_range = 4 ; else if ( width <= 2560 ) cpi -> mt_sync_range = 8 ; else cpi -> mt_sync_range = 16 ; if ( cpi -> oxcf . multi_threaded > 1 ) { vpx_free ( cpi -> mt_current_mb_col ) ; CHECK_MEM_ERROR ( cpi -> mt_current_mb_col , vpx_malloc ( sizeof ( * cpi -> mt_current_mb_col ) * cm -> mb_rows ) ) ; } # endif vpx_free ( cpi -> tplist ) ; CHECK_MEM_ERROR ( cpi -> tplist , vpx_malloc ( sizeof ( TOKENLIST ) * cm -> mb_rows ) ) ; }","width += 16 - ( width & 0xf ) ; if ( ( height & 0xf ) != 0 ) height += 16 - ( height & 0xf ) ; if ( vp8_yv12_alloc_frame_buffer ( & cpi -> pick_lf_lvl_frame , width , height , VP8BORDERINPIXELS ) ) vpx_internal_error ( & cpi -> common . error , VPX_CODEC_MEM_ERROR , ""Failed to allocate last frame buffer"" ) ; if ( vp8_yv12_alloc_frame_buffer ( & cpi -> scaled_source , width , height , VP8BORDERINPIXELS ) ) vpx_internal_error ( & cpi -> common . error , VPX_CODEC_MEM_ERROR , ""Failed to allocate scaled source buffer"" ) ; vpx_free ( cpi -> tok ) ; { # if CONFIG_REALTIME_ONLY & CONFIG_ONTHEFLY_BITPACKING unsigned int tokens = 8 * 24 * 16 ; # else unsigned int tokens = cm -> mb_rows * cm -> mb_cols * 24 * 16 ; # endif CHECK_MEM_ERROR ( cpi -> tok , vpx_calloc ( tokens , sizeof ( * cpi -> tok ) ) ) ; } cpi -> zeromv_count = 0 ; vpx_free ( cpi -> gf_active_flags ) ; CHECK_MEM_ERROR ( cpi -> gf_active_flags , vpx_calloc ( sizeof ( * cpi -> gf_active_flags ) , cm -> mb_rows * cm -> mb_cols ) ) ; cpi -> gf_active_count = cm -> mb_rows * cm -> mb_cols ; vpx_free ( cpi -> mb_activity_map ) ; CHECK_MEM_ERROR ( cpi -> mb_activity_map , vpx_calloc ( sizeof ( * cpi -> mb_activity_map ) , cm -> mb_rows * cm -> mb_cols ) ) ; vpx_free ( cpi -> lfmv ) ; CHECK_MEM_ERROR ( cpi -> lfmv , vpx_calloc ( ( cm -> mb_rows + 2 ) * ( cm -> mb_cols + 2 ) , sizeof ( * cpi -> lfmv ) ) ) ; vpx_free ( cpi -> lf_ref_frame_sign_bias ) ; CHECK_MEM_ERROR ( cpi -> lf_ref_frame_sign_bias , vpx_calloc ( ( cm -> mb_rows + 2 ) * ( cm -> mb_cols + 2 ) , sizeof ( * cpi -> lf_ref_frame_sign_bias ) ) ) ; vpx_free ( cpi -> lf_ref_frame ) ; CHECK_MEM_ERROR ( cpi -> lf_ref_frame , vpx_calloc ( ( cm -> mb_rows + 2 ) * ( cm -> mb_cols + 2 ) , sizeof ( * cpi -> lf_ref_frame ) ) ) ; vpx_free ( cpi -> segmentation_map ) ; CHECK_MEM_ERROR ( cpi -> segmentation_map , vpx_calloc ( cm -> mb_rows * cm -> mb_cols , sizeof ( * cpi -> segmentation_map ) ) ) ; cpi -> cyclic_refresh_mode_index = 0 ; vpx_free ( cpi -> active_map ) ; CHECK_MEM_ERROR ( cpi -> active_map , vpx_calloc ( cm -> mb_rows * cm -> mb_cols , sizeof ( * cpi -> active_map ) ) ) ; memset ( cpi -> active_map , 1 , ( cm -> mb_rows * cm -> mb_cols ) ) ; # if CONFIG_MULTITHREAD if ( width < 640 ) cpi -> mt_sync_range = 1 ; else if ( width <= 1280 ) cpi -> mt_sync_range = 4 ; else if ( width <= 2560 ) cpi -> mt_sync_range = 8 ; else cpi -> mt_sync_range = 16 ; if ( cpi -> oxcf . multi_threaded > 1 ) { vpx_free ( cpi -> mt_current_mb_col ) ; CHECK_MEM_ERROR ( cpi -> mt_current_mb_col , vpx_malloc ( sizeof ( * cpi -> mt_current_mb_col ) * cm -> mb_rows ) ) ; } # endif vpx_free ( cpi -> tplist ) ; CHECK_MEM_ERROR ( cpi -> tplist , vpx_malloc ( sizeof ( TOKENLIST ) * cm -> mb_rows ) ) ; # if CONFIG_TEMPORAL_DENOISING if ( cpi -> oxcf . noise_sensitivity > 0 ) { vp8_denoiser_free ( & cpi -> denoiser ) ; vp8_denoiser_allocate ( & cpi -> denoiser , width , height , cm -> mb_rows , cm -> mb_cols , cpi -> oxcf . noise_sensitivity ) ; } # endif }" 943,"CWE-119 ssize_t cdf_read_sector ( const cdf_info_t * info , void * buf , size_t offs , size_t len , const cdf_header_t * h , cdf_secid_t id ) { assert ( ( size_t ) CDF_SEC_SIZE ( h ) == len ) ; return cdf_read ( info , ( off_t ) CDF_SEC_POS ( h , id ) , ( ( char * ) buf ) + offs , len ) ; }","ssize_t cdf_read_sector ( const cdf_info_t * info , void * buf , size_t offs , size_t len , const cdf_header_t * h , cdf_secid_t id ) { size_t ss = CDF_SEC_SIZE ( h ) ; size_t pos = CDF_SEC_POS ( h , id ) ; assert ( ss == len ) ; return cdf_read ( info , ( off_t ) pos , ( ( char * ) buf ) + offs , len ) ; }" 944,"CWE-264 static int persistent_prepare_exception ( struct dm_exception_store * store , struct dm_exception * e ) { struct pstore * ps = get_info ( store ) ; uint32_t stride ; chunk_t next_free ; sector_t size = get_dev_size ( dm_snap_cow ( store -> snap ) -> bdev ) ; if ( size < ( ( ps -> next_free + 1 ) * store -> chunk_size ) ) return - ENOSPC ; e -> new_chunk = ps -> next_free ; stride = ( ps -> exceptions_per_area + 1 ) ; next_free = ++ ps -> next_free ; if ( sector_div ( next_free , stride ) == 1 ) ps -> next_free ++ ; atomic_inc ( & ps -> pending_count ) ; return 0 ; }","static int persistent_prepare_exception ( struct dm_exception_store * store , struct dm_exception * e ) { struct pstore * ps = get_info ( store ) ; sector_t size = get_dev_size ( dm_snap_cow ( store -> snap ) -> bdev ) ; if ( size < ( ( ps -> next_free + 1 ) * store -> chunk_size ) ) return - ENOSPC ; e -> new_chunk = ps -> next_free ; ps -> next_free ++ ; skip_metadata ( ps ) ; atomic_inc ( & ps -> pending_count ) ; return 0 ; }" 945,"CWE-125 static identifier new_identifier ( const char * n , struct compiling * c ) { PyObject * id = PyUnicode_DecodeUTF8 ( n , strlen ( n ) , NULL ) ; if ( ! id ) return NULL ; assert ( PyUnicode_IS_READY ( id ) ) ; if ( ! PyUnicode_IS_ASCII ( id ) ) { PyObject * id2 ; if ( ! c -> c_normalize && ! init_normalization ( c ) ) { Py_DECREF ( id ) ; return NULL ; } PyTuple_SET_ITEM ( c -> c_normalize_args , 1 , id ) ; id2 = PyObject_Call ( c -> c_normalize , c -> c_normalize_args , NULL ) ; Py_DECREF ( id ) ; if ( ! id2 ) return NULL ; id = id2 ; } PyUnicode_InternInPlace ( & id ) ; if ( PyArena_AddPyObject ( c -> c_arena , id ) < 0 ) { Py_DECREF ( id ) ; return NULL ; } return id ; }","static identifier new_identifier ( const char * n , struct compiling * c ) { PyObject * id = PyUnicode_DecodeUTF8 ( n , strlen ( n ) , NULL ) ; if ( ! id ) return NULL ; assert ( PyUnicode_IS_READY ( id ) ) ; if ( ! PyUnicode_IS_ASCII ( id ) ) { PyObject * id2 ; PyObject * form ; PyObject * args [ 2 ] ; _Py_IDENTIFIER ( NFKC ) ; if ( ! c -> c_normalize && ! init_normalization ( c ) ) { Py_DECREF ( id ) ; return NULL ; } form = _PyUnicode_FromId ( & PyId_NFKC ) ; if ( form == NULL ) { Py_DECREF ( id ) ; return NULL ; } args [ 0 ] = form ; args [ 1 ] = id ; id2 = _PyObject_FastCall ( c -> c_normalize , args , 2 ) ; Py_DECREF ( id ) ; if ( ! id2 ) return NULL ; if ( ! PyUnicode_Check ( id2 ) ) { PyErr_Format ( PyExc_TypeError , ""unicodedata.normalize() must return a string, not "" ""%.200s"" , Py_TYPE ( id2 ) -> tp_name ) ; Py_DECREF ( id2 ) ; return NULL ; } id = id2 ; } PyUnicode_InternInPlace ( & id ) ; if ( PyArena_AddPyObject ( c -> c_arena , id ) < 0 ) { Py_DECREF ( id ) ; return NULL ; } return id ; }" 946,"CWE-119 static void update_coef_probs_common ( vp9_writer * const bc , VP9_COMP * cpi , TX_SIZE tx_size , vp9_coeff_stats * frame_branch_ct ) { vp9_coeff_probs_model * new_frame_coef_probs = cpi -> frame_coef_probs [ tx_size ] ; vp9_coeff_probs_model * old_frame_coef_probs = cpi -> common . fc . coef_probs [ tx_size ] ; const vp9_prob upd = DIFF_UPDATE_PROB ; const int entropy_nodes_update = UNCONSTRAINED_NODES ; int i , j , k , l , t ; switch ( cpi -> sf . use_fast_coef_updates ) { case TWO_LOOP : { int savings = 0 ; int update [ 2 ] = { 0 , 0 } ; for ( i = 0 ; i < PLANE_TYPES ; ++ i ) { for ( j = 0 ; j < REF_TYPES ; ++ j ) { for ( k = 0 ; k < COEF_BANDS ; ++ k ) { for ( l = 0 ; l < BAND_COEFF_CONTEXTS ( k ) ; ++ l ) { for ( t = 0 ; t < entropy_nodes_update ; ++ t ) { vp9_prob newp = new_frame_coef_probs [ i ] [ j ] [ k ] [ l ] [ t ] ; const vp9_prob oldp = old_frame_coef_probs [ i ] [ j ] [ k ] [ l ] [ t ] ; int s ; int u = 0 ; if ( t == PIVOT_NODE ) s = vp9_prob_diff_update_savings_search_model ( frame_branch_ct [ i ] [ j ] [ k ] [ l ] [ 0 ] , old_frame_coef_probs [ i ] [ j ] [ k ] [ l ] , & newp , upd ) ; else s = vp9_prob_diff_update_savings_search ( frame_branch_ct [ i ] [ j ] [ k ] [ l ] [ t ] , oldp , & newp , upd ) ; if ( s > 0 && newp != oldp ) u = 1 ; if ( u ) savings += s - ( int ) ( vp9_cost_zero ( upd ) ) ; else savings -= ( int ) ( vp9_cost_zero ( upd ) ) ; update [ u ] ++ ; } } } } } if ( update [ 1 ] == 0 || savings < 0 ) { vp9_write_bit ( bc , 0 ) ; return ; } vp9_write_bit ( bc , 1 ) ; for ( i = 0 ; i < PLANE_TYPES ; ++ i ) { for ( j = 0 ; j < REF_TYPES ; ++ j ) { for ( k = 0 ; k < COEF_BANDS ; ++ k ) { for ( l = 0 ; l < BAND_COEFF_CONTEXTS ( k ) ; ++ l ) { for ( t = 0 ; t < entropy_nodes_update ; ++ t ) { vp9_prob newp = new_frame_coef_probs [ i ] [ j ] [ k ] [ l ] [ t ] ; vp9_prob * oldp = old_frame_coef_probs [ i ] [ j ] [ k ] [ l ] + t ; const vp9_prob upd = DIFF_UPDATE_PROB ; int s ; int u = 0 ; if ( t == PIVOT_NODE ) s = vp9_prob_diff_update_savings_search_model ( frame_branch_ct [ i ] [ j ] [ k ] [ l ] [ 0 ] , old_frame_coef_probs [ i ] [ j ] [ k ] [ l ] , & newp , upd ) ; else s = vp9_prob_diff_update_savings_search ( frame_branch_ct [ i ] [ j ] [ k ] [ l ] [ t ] , * oldp , & newp , upd ) ; if ( s > 0 && newp != * oldp ) u = 1 ; vp9_write ( bc , u , upd ) ; if ( u ) { vp9_write_prob_diff_update ( bc , newp , * oldp ) ; * oldp = newp ; } } } } } } return ; } case ONE_LOOP : case ONE_LOOP_REDUCED : { const int prev_coef_contexts_to_update = cpi -> sf . use_fast_coef_updates == ONE_LOOP_REDUCED ? COEFF_CONTEXTS >> 1 : COEFF_CONTEXTS ; const int coef_band_to_update = cpi -> sf . use_fast_coef_updates == ONE_LOOP_REDUCED ? COEF_BANDS >> 1 : COEF_BANDS ; int updates = 0 ; int noupdates_before_first = 0 ; for ( i = 0 ; i < PLANE_TYPES ; ++ i ) { for ( j = 0 ; j < REF_TYPES ; ++ j ) { for ( k = 0 ; k < COEF_BANDS ; ++ k ) { for ( l = 0 ; l < BAND_COEFF_CONTEXTS ( k ) ; ++ l ) { for ( t = 0 ; t < entropy_nodes_update ; ++ t ) { vp9_prob newp = new_frame_coef_probs [ i ] [ j ] [ k ] [ l ] [ t ] ; vp9_prob * oldp = old_frame_coef_probs [ i ] [ j ] [ k ] [ l ] + t ; int s ; int u = 0 ; if ( l >= prev_coef_contexts_to_update || k >= coef_band_to_update ) { u = 0 ; } else { if ( t == PIVOT_NODE ) s = vp9_prob_diff_update_savings_search_model ( frame_branch_ct [ i ] [ j ] [ k ] [ l ] [ 0 ] , old_frame_coef_probs [ i ] [ j ] [ k ] [ l ] , & newp , upd ) ; else s = vp9_prob_diff_update_savings_search ( frame_branch_ct [ i ] [ j ] [ k ] [ l ] [ t ] , * oldp , & newp , upd ) ; if ( s > 0 && newp != * oldp ) u = 1 ; } updates += u ; if ( u == 0 && updates == 0 ) { noupdates_before_first ++ ; continue ; } if ( u == 1 && updates == 1 ) { int v ; vp9_write_bit ( bc , 1 ) ; for ( v = 0 ; v < noupdates_before_first ; ++ v ) vp9_write ( bc , 0 , upd ) ; } vp9_write ( bc , u , upd ) ; if ( u ) { vp9_write_prob_diff_update ( bc , newp , * oldp ) ; * oldp = newp ; } } } } } } if ( updates == 0 ) { vp9_write_bit ( bc , 0 ) ; } return ; } default : assert ( 0 ) ; } }","static void update_coef_probs_common ( vpx_writer * const bc , VP9_COMP * cpi , TX_SIZE tx_size , vp9_coeff_stats * frame_branch_ct , vp9_coeff_probs_model * new_coef_probs ) { vp9_coeff_probs_model * old_coef_probs = cpi -> common . fc -> coef_probs [ tx_size ] ; const vpx_prob upd = DIFF_UPDATE_PROB ; const int entropy_nodes_update = UNCONSTRAINED_NODES ; int i , j , k , l , t ; int stepsize = cpi -> sf . coeff_prob_appx_step ; switch ( cpi -> sf . use_fast_coef_updates ) { case TWO_LOOP : { int savings = 0 ; int update [ 2 ] = { 0 , 0 } ; for ( i = 0 ; i < PLANE_TYPES ; ++ i ) { for ( j = 0 ; j < REF_TYPES ; ++ j ) { for ( k = 0 ; k < COEF_BANDS ; ++ k ) { for ( l = 0 ; l < BAND_COEFF_CONTEXTS ( k ) ; ++ l ) { for ( t = 0 ; t < entropy_nodes_update ; ++ t ) { vpx_prob newp = new_coef_probs [ i ] [ j ] [ k ] [ l ] [ t ] ; const vpx_prob oldp = old_coef_probs [ i ] [ j ] [ k ] [ l ] [ t ] ; int s ; int u = 0 ; if ( t == PIVOT_NODE ) s = vp9_prob_diff_update_savings_search_model ( frame_branch_ct [ i ] [ j ] [ k ] [ l ] [ 0 ] , old_coef_probs [ i ] [ j ] [ k ] [ l ] , & newp , upd , stepsize ) ; else s = vp9_prob_diff_update_savings_search ( frame_branch_ct [ i ] [ j ] [ k ] [ l ] [ t ] , oldp , & newp , upd ) ; if ( s > 0 && newp != oldp ) u = 1 ; if ( u ) savings += s - ( int ) ( vp9_cost_zero ( upd ) ) ; else savings -= ( int ) ( vp9_cost_zero ( upd ) ) ; update [ u ] ++ ; } } } } } if ( update [ 1 ] == 0 || savings < 0 ) { vpx_write_bit ( bc , 0 ) ; return ; } vpx_write_bit ( bc , 1 ) ; for ( i = 0 ; i < PLANE_TYPES ; ++ i ) { for ( j = 0 ; j < REF_TYPES ; ++ j ) { for ( k = 0 ; k < COEF_BANDS ; ++ k ) { for ( l = 0 ; l < BAND_COEFF_CONTEXTS ( k ) ; ++ l ) { for ( t = 0 ; t < entropy_nodes_update ; ++ t ) { vpx_prob newp = new_coef_probs [ i ] [ j ] [ k ] [ l ] [ t ] ; vpx_prob * oldp = old_coef_probs [ i ] [ j ] [ k ] [ l ] + t ; const vpx_prob upd = DIFF_UPDATE_PROB ; int s ; int u = 0 ; if ( t == PIVOT_NODE ) s = vp9_prob_diff_update_savings_search_model ( frame_branch_ct [ i ] [ j ] [ k ] [ l ] [ 0 ] , old_coef_probs [ i ] [ j ] [ k ] [ l ] , & newp , upd , stepsize ) ; else s = vp9_prob_diff_update_savings_search ( frame_branch_ct [ i ] [ j ] [ k ] [ l ] [ t ] , * oldp , & newp , upd ) ; if ( s > 0 && newp != * oldp ) u = 1 ; vpx_write ( bc , u , upd ) ; if ( u ) { vp9_write_prob_diff_update ( bc , newp , * oldp ) ; * oldp = newp ; } } } } } } return ; } case ONE_LOOP_REDUCED : { int updates = 0 ; int noupdates_before_first = 0 ; for ( i = 0 ; i < PLANE_TYPES ; ++ i ) { for ( j = 0 ; j < REF_TYPES ; ++ j ) { for ( k = 0 ; k < COEF_BANDS ; ++ k ) { for ( l = 0 ; l < BAND_COEFF_CONTEXTS ( k ) ; ++ l ) { for ( t = 0 ; t < entropy_nodes_update ; ++ t ) { vpx_prob newp = new_coef_probs [ i ] [ j ] [ k ] [ l ] [ t ] ; vpx_prob * oldp = old_coef_probs [ i ] [ j ] [ k ] [ l ] + t ; int s ; int u = 0 ; if ( t == PIVOT_NODE ) { s = vp9_prob_diff_update_savings_search_model ( frame_branch_ct [ i ] [ j ] [ k ] [ l ] [ 0 ] , old_coef_probs [ i ] [ j ] [ k ] [ l ] , & newp , upd , stepsize ) ; } else { s = vp9_prob_diff_update_savings_search ( frame_branch_ct [ i ] [ j ] [ k ] [ l ] [ t ] , * oldp , & newp , upd ) ; } if ( s > 0 && newp != * oldp ) u = 1 ; updates += u ; if ( u == 0 && updates == 0 ) { noupdates_before_first ++ ; continue ; } if ( u == 1 && updates == 1 ) { int v ; vpx_write_bit ( bc , 1 ) ; for ( v = 0 ; v < noupdates_before_first ; ++ v ) vpx_write ( bc , 0 , upd ) ; } vpx_write ( bc , u , upd ) ; if ( u ) { vp9_write_prob_diff_update ( bc , newp , * oldp ) ; * oldp = newp ; } } } } } } if ( updates == 0 ) { vpx_write_bit ( bc , 0 ) ; } return ; } default : assert ( 0 ) ; } }" 947,"CWE-200 int ldbm_config_search_entry_callback ( Slapi_PBlock * pb __attribute__ ( ( unused ) ) , Slapi_Entry * e , Slapi_Entry * entryAfter __attribute__ ( ( unused ) ) , int * returncode , char * returntext , void * arg ) { char buf [ BUFSIZ ] ; struct berval * vals [ 2 ] ; struct berval val ; struct ldbminfo * li = ( struct ldbminfo * ) arg ; config_info * config ; int scope ; vals [ 0 ] = & val ; vals [ 1 ] = NULL ; returntext [ 0 ] = '\\0' ; PR_Lock ( li -> li_config_mutex ) ; if ( pb ) { slapi_pblock_get ( pb , SLAPI_SEARCH_SCOPE , & scope ) ; if ( scope == LDAP_SCOPE_BASE ) { char * * attrs = NULL ; slapi_pblock_get ( pb , SLAPI_SEARCH_ATTRS , & attrs ) ; if ( attrs ) { for ( size_t i = 0 ; attrs [ i ] ; i ++ ) { if ( ldbm_config_moved_attr ( attrs [ i ] ) ) { slapi_pblock_set ( pb , SLAPI_PB_RESULT_TEXT , ""at least one required attribute has been moved to the BDB scecific configuration entry"" ) ; break ; } } } } } for ( config = ldbm_config ; config -> config_name != NULL ; config ++ ) { if ( ! ( config -> config_flags & ( CONFIG_FLAG_ALWAYS_SHOW | CONFIG_FLAG_PREVIOUSLY_SET ) ) ) { continue ; } ldbm_config_get ( ( void * ) li , config , buf ) ; val . bv_val = buf ; val . bv_len = strlen ( buf ) ; slapi_entry_attr_replace ( e , config -> config_name , vals ) ; } PR_Unlock ( li -> li_config_mutex ) ; * returncode = LDAP_SUCCESS ; return SLAPI_DSE_CALLBACK_OK ; }","int ldbm_config_search_entry_callback ( Slapi_PBlock * pb __attribute__ ( ( unused ) ) , Slapi_Entry * e , Slapi_Entry * entryAfter __attribute__ ( ( unused ) ) , int * returncode , char * returntext , void * arg ) { char buf [ BUFSIZ ] ; struct berval * vals [ 2 ] ; struct berval val ; struct ldbminfo * li = ( struct ldbminfo * ) arg ; config_info * config ; int scope ; vals [ 0 ] = & val ; vals [ 1 ] = NULL ; returntext [ 0 ] = '\\0' ; PR_Lock ( li -> li_config_mutex ) ; if ( pb ) { slapi_pblock_get ( pb , SLAPI_SEARCH_SCOPE , & scope ) ; if ( scope == LDAP_SCOPE_BASE ) { char * * attrs = NULL ; slapi_pblock_get ( pb , SLAPI_SEARCH_ATTRS , & attrs ) ; if ( attrs ) { for ( size_t i = 0 ; attrs [ i ] ; i ++ ) { if ( ldbm_config_moved_attr ( attrs [ i ] ) ) { slapi_pblock_set ( pb , SLAPI_RESULT_TEXT , ""at least one required attribute has been moved to the BDB scecific configuration entry"" ) ; break ; } } } } } for ( config = ldbm_config ; config -> config_name != NULL ; config ++ ) { if ( ! ( config -> config_flags & ( CONFIG_FLAG_ALWAYS_SHOW | CONFIG_FLAG_PREVIOUSLY_SET ) ) ) { continue ; } ldbm_config_get ( ( void * ) li , config , buf ) ; val . bv_val = buf ; val . bv_len = strlen ( buf ) ; slapi_entry_attr_replace ( e , config -> config_name , vals ) ; } PR_Unlock ( li -> li_config_mutex ) ; * returncode = LDAP_SUCCESS ; return SLAPI_DSE_CALLBACK_OK ; }" 948,"CWE-476 static int f2fs_set_data_page_dirty ( struct page * page ) { struct address_space * mapping = page -> mapping ; struct inode * inode = mapping -> host ; trace_f2fs_set_page_dirty ( page , DATA ) ; if ( ! PageUptodate ( page ) ) SetPageUptodate ( page ) ; if ( f2fs_is_atomic_file ( inode ) && ! f2fs_is_commit_atomic_write ( inode ) ) { if ( ! IS_ATOMIC_WRITTEN_PAGE ( page ) ) { f2fs_register_inmem_page ( inode , page ) ; return 1 ; } return 0 ; } if ( ! PageDirty ( page ) ) { __set_page_dirty_nobuffers ( page ) ; f2fs_update_dirty_page ( inode , page ) ; return 1 ; } return 0 ; }","static int f2fs_set_data_page_dirty ( struct page * page ) { struct inode * inode = page_file_mapping ( page ) -> host ; trace_f2fs_set_page_dirty ( page , DATA ) ; if ( ! PageUptodate ( page ) ) SetPageUptodate ( page ) ; if ( PageSwapCache ( page ) ) return __set_page_dirty_nobuffers ( page ) ; if ( f2fs_is_atomic_file ( inode ) && ! f2fs_is_commit_atomic_write ( inode ) ) { if ( ! IS_ATOMIC_WRITTEN_PAGE ( page ) ) { f2fs_register_inmem_page ( inode , page ) ; return 1 ; } return 0 ; } if ( ! PageDirty ( page ) ) { __set_page_dirty_nobuffers ( page ) ; f2fs_update_dirty_page ( inode , page ) ; return 1 ; } return 0 ; }" 949,"CWE-20 long keyctl_read_key ( key_serial_t keyid , char __user * buffer , size_t buflen ) { struct key * key ; key_ref_t key_ref ; long ret ; key_ref = lookup_user_key ( keyid , 0 , 0 ) ; if ( IS_ERR ( key_ref ) ) { ret = - ENOKEY ; goto error ; } key = key_ref_to_ptr ( key_ref ) ; if ( test_bit ( KEY_FLAG_NEGATIVE , & key -> flags ) ) { ret = - ENOKEY ; goto error2 ; } ret = key_permission ( key_ref , KEY_NEED_READ ) ; if ( ret == 0 ) goto can_read_key ; if ( ret != - EACCES ) goto error2 ; if ( ! is_key_possessed ( key_ref ) ) { ret = - EACCES ; goto error2 ; } can_read_key : ret = - EOPNOTSUPP ; if ( key -> type -> read ) { down_read ( & key -> sem ) ; ret = key_validate ( key ) ; if ( ret == 0 ) ret = key -> type -> read ( key , buffer , buflen ) ; up_read ( & key -> sem ) ; } error2 : key_put ( key ) ; error : return ret ; }","long keyctl_read_key ( key_serial_t keyid , char __user * buffer , size_t buflen ) { struct key * key ; key_ref_t key_ref ; long ret ; key_ref = lookup_user_key ( keyid , 0 , 0 ) ; if ( IS_ERR ( key_ref ) ) { ret = - ENOKEY ; goto error ; } key = key_ref_to_ptr ( key_ref ) ; ret = key_read_state ( key ) ; if ( ret < 0 ) goto error2 ; ret = key_permission ( key_ref , KEY_NEED_READ ) ; if ( ret == 0 ) goto can_read_key ; if ( ret != - EACCES ) goto error2 ; if ( ! is_key_possessed ( key_ref ) ) { ret = - EACCES ; goto error2 ; } can_read_key : ret = - EOPNOTSUPP ; if ( key -> type -> read ) { down_read ( & key -> sem ) ; ret = key_validate ( key ) ; if ( ret == 0 ) ret = key -> type -> read ( key , buffer , buflen ) ; up_read ( & key -> sem ) ; } error2 : key_put ( key ) ; error : return ret ; }" 950,"CWE-476 key_ref_t key_create_or_update ( key_ref_t keyring_ref , const char * type , const char * description , const void * payload , size_t plen , key_perm_t perm , unsigned long flags ) { struct keyring_index_key index_key = { . description = description , } ; struct key_preparsed_payload prep ; struct assoc_array_edit * edit ; const struct cred * cred = current_cred ( ) ; struct key * keyring , * key = NULL ; key_ref_t key_ref ; int ret ; index_key . type = key_type_lookup ( type ) ; if ( IS_ERR ( index_key . type ) ) { key_ref = ERR_PTR ( - ENODEV ) ; goto error ; } key_ref = ERR_PTR ( - EINVAL ) ; if ( ! index_key . type -> match || ! index_key . type -> instantiate || ( ! index_key . description && ! index_key . type -> preparse ) ) goto error_put_type ; keyring = key_ref_to_ptr ( keyring_ref ) ; key_check ( keyring ) ; key_ref = ERR_PTR ( - ENOTDIR ) ; if ( keyring -> type != & key_type_keyring ) goto error_put_type ; memset ( & prep , 0 , sizeof ( prep ) ) ; prep . data = payload ; prep . datalen = plen ; prep . quotalen = index_key . type -> def_datalen ; prep . trusted = flags & KEY_ALLOC_TRUSTED ; prep . expiry = TIME_T_MAX ; if ( index_key . type -> preparse ) { ret = index_key . type -> preparse ( & prep ) ; if ( ret < 0 ) { key_ref = ERR_PTR ( ret ) ; goto error_free_prep ; } if ( ! index_key . description ) index_key . description = prep . description ; key_ref = ERR_PTR ( - EINVAL ) ; if ( ! index_key . description ) goto error_free_prep ; } index_key . desc_len = strlen ( index_key . description ) ; key_ref = ERR_PTR ( - EPERM ) ; if ( ! prep . trusted && test_bit ( KEY_FLAG_TRUSTED_ONLY , & keyring -> flags ) ) goto error_free_prep ; flags |= prep . trusted ? KEY_ALLOC_TRUSTED : 0 ; ret = __key_link_begin ( keyring , & index_key , & edit ) ; if ( ret < 0 ) { key_ref = ERR_PTR ( ret ) ; goto error_free_prep ; } ret = key_permission ( keyring_ref , KEY_NEED_WRITE ) ; if ( ret < 0 ) { key_ref = ERR_PTR ( ret ) ; goto error_link_end ; } if ( index_key . type -> update ) { key_ref = find_key_to_update ( keyring_ref , & index_key ) ; if ( key_ref ) goto found_matching_key ; } if ( perm == KEY_PERM_UNDEF ) { perm = KEY_POS_VIEW | KEY_POS_SEARCH | KEY_POS_LINK | KEY_POS_SETATTR ; perm |= KEY_USR_VIEW ; if ( index_key . type -> read ) perm |= KEY_POS_READ ;","key_ref_t key_create_or_update ( key_ref_t keyring_ref , const char * type , const char * description , const void * payload , size_t plen , key_perm_t perm , unsigned long flags ) { struct keyring_index_key index_key = { . description = description , } ; struct key_preparsed_payload prep ; struct assoc_array_edit * edit ; const struct cred * cred = current_cred ( ) ; struct key * keyring , * key = NULL ; key_ref_t key_ref ; int ret ; index_key . type = key_type_lookup ( type ) ; if ( IS_ERR ( index_key . type ) ) { key_ref = ERR_PTR ( - ENODEV ) ; goto error ; } key_ref = ERR_PTR ( - EINVAL ) ; if ( ! index_key . type -> instantiate || ( ! index_key . description && ! index_key . type -> preparse ) ) goto error_put_type ; keyring = key_ref_to_ptr ( keyring_ref ) ; key_check ( keyring ) ; key_ref = ERR_PTR ( - ENOTDIR ) ; if ( keyring -> type != & key_type_keyring ) goto error_put_type ; memset ( & prep , 0 , sizeof ( prep ) ) ; prep . data = payload ; prep . datalen = plen ; prep . quotalen = index_key . type -> def_datalen ; prep . trusted = flags & KEY_ALLOC_TRUSTED ; prep . expiry = TIME_T_MAX ; if ( index_key . type -> preparse ) { ret = index_key . type -> preparse ( & prep ) ; if ( ret < 0 ) { key_ref = ERR_PTR ( ret ) ; goto error_free_prep ; } if ( ! index_key . description ) index_key . description = prep . description ; key_ref = ERR_PTR ( - EINVAL ) ; if ( ! index_key . description ) goto error_free_prep ; } index_key . desc_len = strlen ( index_key . description ) ; key_ref = ERR_PTR ( - EPERM ) ; if ( ! prep . trusted && test_bit ( KEY_FLAG_TRUSTED_ONLY , & keyring -> flags ) ) goto error_free_prep ; flags |= prep . trusted ? KEY_ALLOC_TRUSTED : 0 ; ret = __key_link_begin ( keyring , & index_key , & edit ) ; if ( ret < 0 ) { key_ref = ERR_PTR ( ret ) ; goto error_free_prep ; } ret = key_permission ( keyring_ref , KEY_NEED_WRITE ) ; if ( ret < 0 ) { key_ref = ERR_PTR ( ret ) ; goto error_link_end ; } if ( index_key . type -> update ) { key_ref = find_key_to_update ( keyring_ref , & index_key ) ; if ( key_ref ) goto found_matching_key ; } if ( perm == KEY_PERM_UNDEF ) { perm = KEY_POS_VIEW | KEY_POS_SEARCH | KEY_POS_LINK | KEY_POS_SETATTR ; perm |= KEY_USR_VIEW ; if ( index_key . type -> read ) perm |= KEY_POS_READ ;" 951,"CWE-119 int WriteRiffHeader ( FILE * outfile , WavpackContext * wpc , int64_t total_samples , int qmode ) { int do_rf64 = 0 , write_junk = 1 ; ChunkHeader ds64hdr , datahdr , fmthdr ; RiffChunkHeader riffhdr ; DS64Chunk ds64_chunk ; JunkChunk junkchunk ; WaveHeader wavhdr ; uint32_t bcount ; int64_t total_data_bytes , total_riff_bytes ; int num_channels = WavpackGetNumChannels ( wpc ) ; int32_t channel_mask = WavpackGetChannelMask ( wpc ) ; int32_t sample_rate = WavpackGetSampleRate ( wpc ) ; int bytes_per_sample = WavpackGetBytesPerSample ( wpc ) ; int bits_per_sample = WavpackGetBitsPerSample ( wpc ) ; int format = WavpackGetFloatNormExp ( wpc ) ? 3 : 1 ; int wavhdrsize = 16 ; if ( format == 3 && WavpackGetFloatNormExp ( wpc ) != 127 ) { error_line ( ""can\'t create valid RIFF wav header for non-normalized floating data!"" ) ; return FALSE ; } if ( total_samples == - 1 ) total_samples = 0x7ffff000 / ( bytes_per_sample * num_channels ) ; total_data_bytes = total_samples * bytes_per_sample * num_channels ; if ( total_data_bytes > 0xff000000 ) { if ( debug_logging_mode ) error_line ( ""total_data_bytes = %lld, so rf64"" , total_data_bytes ) ; write_junk = 0 ; do_rf64 = 1 ; } else if ( debug_logging_mode ) error_line ( ""total_data_bytes = %lld, so riff"" , total_data_bytes ) ; CLEAR ( wavhdr ) ; wavhdr . FormatTag = format ; wavhdr . NumChannels = num_channels ; wavhdr . SampleRate = sample_rate ; wavhdr . BytesPerSecond = sample_rate * num_channels * bytes_per_sample ; wavhdr . BlockAlign = bytes_per_sample * num_channels ; wavhdr . BitsPerSample = bits_per_sample ; if ( num_channels > 2 || channel_mask != 0x5 - num_channels ) { wavhdrsize = sizeof ( wavhdr ) ; wavhdr . cbSize = 22 ; wavhdr . ValidBitsPerSample = bits_per_sample ; wavhdr . SubFormat = format ; wavhdr . ChannelMask = channel_mask ; wavhdr . FormatTag = 0xfffe ; wavhdr . BitsPerSample = bytes_per_sample * 8 ; wavhdr . GUID [ 4 ] = 0x10 ; wavhdr . GUID [ 6 ] = 0x80 ; wavhdr . GUID [ 9 ] = 0xaa ; wavhdr . GUID [ 11 ] = 0x38 ; wavhdr . GUID [ 12 ] = 0x9b ; wavhdr . GUID [ 13 ] = 0x71 ; } strncpy ( riffhdr . ckID , do_rf64 ? ""RF64"" : ""RIFF"" , sizeof ( riffhdr . ckID ) ) ; strncpy ( riffhdr . formType , ""WAVE"" , sizeof ( riffhdr . formType ) ) ; total_riff_bytes = sizeof ( riffhdr ) + wavhdrsize + sizeof ( datahdr ) + ( ( total_data_bytes + 1 ) & ~ ( int64_t ) 1 ) ; if ( do_rf64 ) total_riff_bytes += sizeof ( ds64hdr ) + sizeof ( ds64_chunk ) ; if ( write_junk ) total_riff_bytes += sizeof ( junkchunk ) ; strncpy ( fmthdr . ckID , ""fmt "" , sizeof ( fmthdr . ckID ) ) ; strncpy ( datahdr . ckID , ""data"" , sizeof ( datahdr . ckID ) ) ; fmthdr . ckSize = wavhdrsize ; if ( write_junk ) { CLEAR ( junkchunk ) ; strncpy ( junkchunk . ckID , ""junk"" , sizeof ( junkchunk . ckID ) ) ; junkchunk . ckSize = sizeof ( junkchunk ) - 8 ; WavpackNativeToLittleEndian ( & junkchunk , ChunkHeaderFormat ) ; } if ( do_rf64 ) { strncpy ( ds64hdr . ckID , ""ds64"" , sizeof ( ds64hdr . ckID ) ) ; ds64hdr . ckSize = sizeof ( ds64_chunk ) ; CLEAR ( ds64_chunk ) ; ds64_chunk . riffSize64 = total_riff_bytes ; ds64_chunk . dataSize64 = total_data_bytes ; ds64_chunk . sampleCount64 = total_samples ; riffhdr . ckSize = ( uint32_t ) - 1 ; datahdr . ckSize = ( uint32_t ) - 1 ; WavpackNativeToLittleEndian ( & ds64hdr , ChunkHeaderFormat ) ; WavpackNativeToLittleEndian ( & ds64_chunk , DS64ChunkFormat ) ; } else { riffhdr . ckSize = ( uint32_t ) total_riff_bytes ; datahdr . ckSize = ( uint32_t ) total_data_bytes ; } WavpackNativeToLittleEndian ( & riffhdr , ChunkHeaderFormat ) ; WavpackNativeToLittleEndian ( & fmthdr , ChunkHeaderFormat ) ; WavpackNativeToLittleEndian ( & wavhdr , WaveHeaderFormat ) ; WavpackNativeToLittleEndian ( & datahdr , ChunkHeaderFormat ) ; if ( ! DoWriteFile ( outfile , & riffhdr , sizeof ( riffhdr ) , & bcount ) || bcount != sizeof ( riffhdr ) || ( do_rf64 && ( ! DoWriteFile ( outfile , & ds64hdr , sizeof ( ds64hdr ) , & bcount ) || bcount != sizeof ( ds64hdr ) ) ) || ( do_rf64 && ( ! DoWriteFile ( outfile , & ds64_chunk , sizeof ( ds64_chunk ) , & bcount ) || bcount != sizeof ( ds64_chunk ) ) ) || ( write_junk && ( ! DoWriteFile ( outfile , & junkchunk , sizeof ( junkchunk ) , & bcount ) || bcount != sizeof ( junkchunk ) ) ) || ! DoWriteFile ( outfile , & fmthdr , sizeof ( fmthdr ) , & bcount ) || bcount != sizeof ( fmthdr ) || ! DoWriteFile ( outfile , & wavhdr , wavhdrsize , & bcount ) || bcount != wavhdrsize || ! DoWriteFile ( outfile , & datahdr , sizeof ( datahdr ) , & bcount ) || bcount != sizeof ( datahdr ) ) { error_line ( ""can\'t write .WAV data, disk probably full!"" ) ; return FALSE ; } return TRUE ; }","int WriteRiffHeader ( FILE * outfile , WavpackContext * wpc , int64_t total_samples , int qmode ) { int do_rf64 = 0 , write_junk = 1 , table_length = 0 ; ChunkHeader ds64hdr , datahdr , fmthdr ; RiffChunkHeader riffhdr ; DS64Chunk ds64_chunk ; CS64Chunk cs64_chunk ; JunkChunk junkchunk ; WaveHeader wavhdr ; uint32_t bcount ; int64_t total_data_bytes , total_riff_bytes ; int num_channels = WavpackGetNumChannels ( wpc ) ; int32_t channel_mask = WavpackGetChannelMask ( wpc ) ; int32_t sample_rate = WavpackGetSampleRate ( wpc ) ; int bytes_per_sample = WavpackGetBytesPerSample ( wpc ) ; int bits_per_sample = WavpackGetBitsPerSample ( wpc ) ; int format = WavpackGetFloatNormExp ( wpc ) ? 3 : 1 ; int wavhdrsize = 16 ; if ( format == 3 && WavpackGetFloatNormExp ( wpc ) != 127 ) { error_line ( ""can\'t create valid RIFF wav header for non-normalized floating data!"" ) ; return FALSE ; } if ( total_samples == - 1 ) total_samples = 0x7ffff000 / ( bytes_per_sample * num_channels ) ; total_data_bytes = total_samples * bytes_per_sample * num_channels ; if ( total_data_bytes > 0xff000000 ) { if ( debug_logging_mode ) error_line ( ""total_data_bytes = %lld, so rf64"" , total_data_bytes ) ; write_junk = 0 ; do_rf64 = 1 ; } else if ( debug_logging_mode ) error_line ( ""total_data_bytes = %lld, so riff"" , total_data_bytes ) ; CLEAR ( wavhdr ) ; wavhdr . FormatTag = format ; wavhdr . NumChannels = num_channels ; wavhdr . SampleRate = sample_rate ; wavhdr . BytesPerSecond = sample_rate * num_channels * bytes_per_sample ; wavhdr . BlockAlign = bytes_per_sample * num_channels ; wavhdr . BitsPerSample = bits_per_sample ; if ( num_channels > 2 || channel_mask != 0x5 - num_channels ) { wavhdrsize = sizeof ( wavhdr ) ; wavhdr . cbSize = 22 ; wavhdr . ValidBitsPerSample = bits_per_sample ; wavhdr . SubFormat = format ; wavhdr . ChannelMask = channel_mask ; wavhdr . FormatTag = 0xfffe ; wavhdr . BitsPerSample = bytes_per_sample * 8 ; wavhdr . GUID [ 4 ] = 0x10 ; wavhdr . GUID [ 6 ] = 0x80 ; wavhdr . GUID [ 9 ] = 0xaa ; wavhdr . GUID [ 11 ] = 0x38 ; wavhdr . GUID [ 12 ] = 0x9b ; wavhdr . GUID [ 13 ] = 0x71 ; } strncpy ( riffhdr . ckID , do_rf64 ? ""RF64"" : ""RIFF"" , sizeof ( riffhdr . ckID ) ) ; strncpy ( riffhdr . formType , ""WAVE"" , sizeof ( riffhdr . formType ) ) ; total_riff_bytes = sizeof ( riffhdr ) + wavhdrsize + sizeof ( datahdr ) + ( ( total_data_bytes + 1 ) & ~ ( int64_t ) 1 ) ; if ( do_rf64 ) total_riff_bytes += sizeof ( ds64hdr ) + sizeof ( ds64_chunk ) ; total_riff_bytes += table_length * sizeof ( CS64Chunk ) ; if ( write_junk ) total_riff_bytes += sizeof ( junkchunk ) ; strncpy ( fmthdr . ckID , ""fmt "" , sizeof ( fmthdr . ckID ) ) ; strncpy ( datahdr . ckID , ""data"" , sizeof ( datahdr . ckID ) ) ; fmthdr . ckSize = wavhdrsize ; if ( write_junk ) { CLEAR ( junkchunk ) ; strncpy ( junkchunk . ckID , ""junk"" , sizeof ( junkchunk . ckID ) ) ; junkchunk . ckSize = sizeof ( junkchunk ) - 8 ; WavpackNativeToLittleEndian ( & junkchunk , ChunkHeaderFormat ) ; } if ( do_rf64 ) { strncpy ( ds64hdr . ckID , ""ds64"" , sizeof ( ds64hdr . ckID ) ) ; ds64hdr . ckSize = sizeof ( ds64_chunk ) + ( table_length * sizeof ( CS64Chunk ) ) ; CLEAR ( ds64_chunk ) ; ds64_chunk . riffSize64 = total_riff_bytes ; ds64_chunk . dataSize64 = total_data_bytes ; ds64_chunk . sampleCount64 = total_samples ; ds64_chunk . tableLength = table_length ; riffhdr . ckSize = ( uint32_t ) - 1 ; datahdr . ckSize = ( uint32_t ) - 1 ; WavpackNativeToLittleEndian ( & ds64hdr , ChunkHeaderFormat ) ; WavpackNativeToLittleEndian ( & ds64_chunk , DS64ChunkFormat ) ; } else { riffhdr . ckSize = ( uint32_t ) total_riff_bytes ; datahdr . ckSize = ( uint32_t ) total_data_bytes ; } if ( table_length ) { strncpy ( cs64_chunk . ckID , ""dmmy"" , sizeof ( cs64_chunk . ckID ) ) ; cs64_chunk . chunkSize64 = 12345678 ; WavpackNativeToLittleEndian ( & cs64_chunk , CS64ChunkFormat ) ; } WavpackNativeToLittleEndian ( & riffhdr , ChunkHeaderFormat ) ; WavpackNativeToLittleEndian ( & fmthdr , ChunkHeaderFormat ) ; WavpackNativeToLittleEndian ( & wavhdr , WaveHeaderFormat ) ; WavpackNativeToLittleEndian ( & datahdr , ChunkHeaderFormat ) ; if ( ! DoWriteFile ( outfile , & riffhdr , sizeof ( riffhdr ) , & bcount ) || bcount != sizeof ( riffhdr ) || ( do_rf64 && ( ! DoWriteFile ( outfile , & ds64hdr , sizeof ( ds64hdr ) , & bcount ) || bcount != sizeof ( ds64hdr ) ) ) || ( do_rf64 && ( ! DoWriteFile ( outfile , & ds64_chunk , sizeof ( ds64_chunk ) , & bcount ) || bcount != sizeof ( ds64_chunk ) ) ) ) { error_line ( ""can\'t write .WAV data, disk probably full!"" ) ; return FALSE ; } while ( table_length -- ) if ( ! DoWriteFile ( outfile , & cs64_chunk , sizeof ( cs64_chunk ) , & bcount ) || bcount != sizeof ( cs64_chunk ) ) { error_line ( ""can\'t write .WAV data, disk probably full!"" ) ; return FALSE ; } if ( ( write_junk && ( ! DoWriteFile ( outfile , & junkchunk , sizeof ( junkchunk ) , & bcount ) || bcount != sizeof ( junkchunk ) ) ) || ! DoWriteFile ( outfile , & fmthdr , sizeof ( fmthdr ) , & bcount ) || bcount != sizeof ( fmthdr ) || ! DoWriteFile ( outfile , & wavhdr , wavhdrsize , & bcount ) || bcount != wavhdrsize || ! DoWriteFile ( outfile , & datahdr , sizeof ( datahdr ) , & bcount ) || bcount != sizeof ( datahdr ) ) { error_line ( ""can\'t write .WAV data, disk probably full!"" ) ; return FALSE ; } return TRUE ; }" 952,"CWE-200 void * pCmdData , uint32_t * replySize , void * pReplyData ) { downmix_module_t * pDwmModule = ( downmix_module_t * ) self ; downmix_object_t * pDownmixer ; if ( pDwmModule == NULL || pDwmModule -> context . state == DOWNMIX_STATE_UNINITIALIZED ) { return - EINVAL ; } pDownmixer = ( downmix_object_t * ) & pDwmModule -> context ; ALOGV ( ""Downmix_Command command %"" PRIu32 "" cmdSize %"" PRIu32 , cmdCode , cmdSize ) ; switch ( cmdCode ) { case EFFECT_CMD_INIT : if ( pReplyData == NULL || replySize == NULL || * replySize != sizeof ( int ) ) { return - EINVAL ; } * ( int * ) pReplyData = Downmix_Init ( pDwmModule ) ; break ; case EFFECT_CMD_SET_CONFIG : if ( pCmdData == NULL || cmdSize != sizeof ( effect_config_t ) || pReplyData == NULL || replySize == NULL || * replySize != sizeof ( int ) ) { return - EINVAL ; } * ( int * ) pReplyData = Downmix_Configure ( pDwmModule , ( effect_config_t * ) pCmdData , false ) ; break ; case EFFECT_CMD_RESET : Downmix_Reset ( pDownmixer , false ) ; break ; case EFFECT_CMD_GET_PARAM : ALOGV ( ""Downmix_Command EFFECT_CMD_GET_PARAM pCmdData %p, *replySize %"" PRIu32 "", pReplyData: %p"" , pCmdData , * replySize , pReplyData ) ; if ( pCmdData == NULL || cmdSize < ( int ) ( sizeof ( effect_param_t ) + sizeof ( int32_t ) ) || pReplyData == NULL || replySize == NULL || * replySize < ( int ) sizeof ( effect_param_t ) + 2 * sizeof ( int32_t ) ) { return - EINVAL ; } effect_param_t * rep = ( effect_param_t * ) pReplyData ; memcpy ( pReplyData , pCmdData , sizeof ( effect_param_t ) + sizeof ( int32_t ) ) ; ALOGV ( ""Downmix_Command EFFECT_CMD_GET_PARAM param %"" PRId32 "", replySize %"" PRIu32 , * ( int32_t * ) rep -> data , rep -> vsize ) ; rep -> status = Downmix_getParameter ( pDownmixer , * ( int32_t * ) rep -> data , & rep -> vsize , rep -> data + sizeof ( int32_t ) ) ; * replySize = sizeof ( effect_param_t ) + sizeof ( int32_t ) + rep -> vsize ; break ; case EFFECT_CMD_SET_PARAM : ALOGV ( ""Downmix_Command EFFECT_CMD_SET_PARAM cmdSize %d pCmdData %p, *replySize %"" PRIu32 "", pReplyData %p"" , cmdSize , pCmdData , * replySize , pReplyData ) ; if ( pCmdData == NULL || ( cmdSize < ( int ) ( sizeof ( effect_param_t ) + sizeof ( int32_t ) ) ) || pReplyData == NULL || replySize == NULL || * replySize != ( int ) sizeof ( int32_t ) ) { return - EINVAL ; } effect_param_t * cmd = ( effect_param_t * ) pCmdData ; * ( int * ) pReplyData = Downmix_setParameter ( pDownmixer , * ( int32_t * ) cmd -> data , cmd -> vsize , cmd -> data + sizeof ( int32_t ) ) ; break ; case EFFECT_CMD_SET_PARAM_DEFERRED : ALOGW ( ""Downmix_Command command EFFECT_CMD_SET_PARAM_DEFERRED not supported, FIXME"" ) ; break ; case EFFECT_CMD_SET_PARAM_COMMIT : ALOGW ( ""Downmix_Command command EFFECT_CMD_SET_PARAM_COMMIT not supported, FIXME"" ) ; break ; case EFFECT_CMD_ENABLE : if ( pReplyData == NULL || replySize == NULL || * replySize != sizeof ( int ) ) { return - EINVAL ; } if ( pDownmixer -> state != DOWNMIX_STATE_INITIALIZED ) { return - ENOSYS ; } pDownmixer -> state = DOWNMIX_STATE_ACTIVE ; ALOGV ( ""EFFECT_CMD_ENABLE() OK"" ) ; * ( int * ) pReplyData = 0 ; break ; case EFFECT_CMD_DISABLE : if ( pReplyData == NULL || replySize == NULL || * replySize != sizeof ( int ) ) { return - EINVAL ; } if ( pDownmixer -> state != DOWNMIX_STATE_ACTIVE ) { return - ENOSYS ; } pDownmixer -> state = DOWNMIX_STATE_INITIALIZED ; ALOGV ( ""EFFECT_CMD_DISABLE() OK"" ) ; * ( int * ) pReplyData = 0 ; break ; case EFFECT_CMD_SET_DEVICE : if ( pCmdData == NULL || cmdSize != ( int ) sizeof ( uint32_t ) ) { return - EINVAL ; } ALOGV ( ""Downmix_Command EFFECT_CMD_SET_DEVICE: 0x%08"" PRIx32 , * ( uint32_t * ) pCmdData ) ; break ; case EFFECT_CMD_SET_VOLUME : { if ( pCmdData == NULL || cmdSize != ( int ) sizeof ( uint32_t ) * 2 ) { return - EINVAL ; } ALOGW ( ""Downmix_Command command EFFECT_CMD_SET_VOLUME not supported, FIXME"" ) ; float left = ( float ) ( * ( uint32_t * ) pCmdData ) / ( 1 << 24 ) ; float right = ( float ) ( * ( ( uint32_t * ) pCmdData + 1 ) ) / ( 1 << 24 ) ; ALOGV ( ""Downmix_Command EFFECT_CMD_SET_VOLUME: left %f, right %f "" , left , right ) ; break ; } case EFFECT_CMD_SET_AUDIO_MODE : if ( pCmdData == NULL || cmdSize != ( int ) sizeof ( uint32_t ) ) { return - EINVAL ;","void * pCmdData , uint32_t * replySize , void * pReplyData ) { downmix_module_t * pDwmModule = ( downmix_module_t * ) self ; downmix_object_t * pDownmixer ; if ( pDwmModule == NULL || pDwmModule -> context . state == DOWNMIX_STATE_UNINITIALIZED ) { return - EINVAL ; } pDownmixer = ( downmix_object_t * ) & pDwmModule -> context ; ALOGV ( ""Downmix_Command command %"" PRIu32 "" cmdSize %"" PRIu32 , cmdCode , cmdSize ) ; switch ( cmdCode ) { case EFFECT_CMD_INIT : if ( pReplyData == NULL || replySize == NULL || * replySize != sizeof ( int ) ) { return - EINVAL ; } * ( int * ) pReplyData = Downmix_Init ( pDwmModule ) ; break ; case EFFECT_CMD_SET_CONFIG : if ( pCmdData == NULL || cmdSize != sizeof ( effect_config_t ) || pReplyData == NULL || replySize == NULL || * replySize != sizeof ( int ) ) { return - EINVAL ; } * ( int * ) pReplyData = Downmix_Configure ( pDwmModule , ( effect_config_t * ) pCmdData , false ) ; break ; case EFFECT_CMD_RESET : Downmix_Reset ( pDownmixer , false ) ; break ; case EFFECT_CMD_GET_PARAM : ALOGV ( ""Downmix_Command EFFECT_CMD_GET_PARAM pCmdData %p, *replySize %"" PRIu32 "", pReplyData: %p"" , pCmdData , * replySize , pReplyData ) ; if ( pCmdData == NULL || cmdSize < ( int ) ( sizeof ( effect_param_t ) + sizeof ( int32_t ) ) || pReplyData == NULL || replySize == NULL || * replySize < ( int ) sizeof ( effect_param_t ) + 2 * sizeof ( int32_t ) ) { return - EINVAL ; } effect_param_t * rep = ( effect_param_t * ) pReplyData ; memcpy ( pReplyData , pCmdData , sizeof ( effect_param_t ) + sizeof ( int32_t ) ) ; ALOGV ( ""Downmix_Command EFFECT_CMD_GET_PARAM param %"" PRId32 "", replySize %"" PRIu32 , * ( int32_t * ) rep -> data , rep -> vsize ) ; rep -> status = Downmix_getParameter ( pDownmixer , * ( int32_t * ) rep -> data , & rep -> vsize , rep -> data + sizeof ( int32_t ) ) ; * replySize = sizeof ( effect_param_t ) + sizeof ( int32_t ) + rep -> vsize ; break ; case EFFECT_CMD_SET_PARAM : ALOGV ( ""Downmix_Command EFFECT_CMD_SET_PARAM cmdSize %d pCmdData %p, *replySize %"" PRIu32 "", pReplyData %p"" , cmdSize , pCmdData , * replySize , pReplyData ) ; if ( pCmdData == NULL || ( cmdSize < ( int ) ( sizeof ( effect_param_t ) + sizeof ( int32_t ) ) ) || pReplyData == NULL || replySize == NULL || * replySize != ( int ) sizeof ( int32_t ) ) { return - EINVAL ; } effect_param_t * cmd = ( effect_param_t * ) pCmdData ; if ( cmd -> psize != sizeof ( int32_t ) ) { android_errorWriteLog ( 0x534e4554 , ""63662938"" ) ; return - EINVAL ; } * ( int * ) pReplyData = Downmix_setParameter ( pDownmixer , * ( int32_t * ) cmd -> data , cmd -> vsize , cmd -> data + sizeof ( int32_t ) ) ; break ; case EFFECT_CMD_SET_PARAM_DEFERRED : ALOGW ( ""Downmix_Command command EFFECT_CMD_SET_PARAM_DEFERRED not supported, FIXME"" ) ; break ; case EFFECT_CMD_SET_PARAM_COMMIT : ALOGW ( ""Downmix_Command command EFFECT_CMD_SET_PARAM_COMMIT not supported, FIXME"" ) ; break ; case EFFECT_CMD_ENABLE : if ( pReplyData == NULL || replySize == NULL || * replySize != sizeof ( int ) ) { return - EINVAL ; } if ( pDownmixer -> state != DOWNMIX_STATE_INITIALIZED ) { return - ENOSYS ; } pDownmixer -> state = DOWNMIX_STATE_ACTIVE ; ALOGV ( ""EFFECT_CMD_ENABLE() OK"" ) ; * ( int * ) pReplyData = 0 ; break ; case EFFECT_CMD_DISABLE : if ( pReplyData == NULL || replySize == NULL || * replySize != sizeof ( int ) ) { return - EINVAL ; } if ( pDownmixer -> state != DOWNMIX_STATE_ACTIVE ) { return - ENOSYS ; } pDownmixer -> state = DOWNMIX_STATE_INITIALIZED ; ALOGV ( ""EFFECT_CMD_DISABLE() OK"" ) ; * ( int * ) pReplyData = 0 ; break ; case EFFECT_CMD_SET_DEVICE : if ( pCmdData == NULL || cmdSize != ( int ) sizeof ( uint32_t ) ) { return - EINVAL ; } ALOGV ( ""Downmix_Command EFFECT_CMD_SET_DEVICE: 0x%08"" PRIx32 , * ( uint32_t * ) pCmdData ) ; break ; case EFFECT_CMD_SET_VOLUME : { if ( pCmdData == NULL || cmdSize != ( int ) sizeof ( uint32_t ) * 2 ) { return - EINVAL ; } ALOGW ( ""Downmix_Command command EFFECT_CMD_SET_VOLUME not supported, FIXME"" ) ; float left = ( float ) ( * ( uint32_t * ) pCmdData ) / ( 1 << 24 ) ; float right = ( float ) ( * ( ( uint32_t * ) pCmdData + 1 ) ) / ( 1 << 24 ) ; ALOGV ( ""Downmix_Command EFFECT_CMD_SET_VOLUME: left %f, right %f "" , left , right ) ; break ; } case EFFECT_CMD_SET_AUDIO_MODE : if ( pCmdData == NULL || cmdSize != ( int ) sizeof ( uint32_t ) ) { return - EINVAL ;" 953,"CWE-415 int sctp_do_peeloff ( struct sock * sk , sctp_assoc_t id , struct socket * * sockp ) { struct sctp_association * asoc = sctp_id2assoc ( sk , id ) ; struct sctp_sock * sp = sctp_sk ( sk ) ; struct socket * sock ; int err = 0 ; if ( ! asoc ) return - EINVAL ; if ( ! sctp_style ( sk , UDP ) ) return - EINVAL ; err = sock_create ( sk -> sk_family , SOCK_SEQPACKET , IPPROTO_SCTP , & sock ) ; if ( err < 0 ) return err ; sctp_copy_sock ( sock -> sk , sk , asoc ) ; sp -> pf -> to_sk_daddr ( & asoc -> peer . primary_addr , sk ) ; sctp_sock_migrate ( sk , sock -> sk , asoc , SCTP_SOCKET_UDP_HIGH_BANDWIDTH ) ; * sockp = sock ; return err ; }","int sctp_do_peeloff ( struct sock * sk , sctp_assoc_t id , struct socket * * sockp ) { struct sctp_association * asoc = sctp_id2assoc ( sk , id ) ; struct sctp_sock * sp = sctp_sk ( sk ) ; struct socket * sock ; int err = 0 ; if ( ! asoc ) return - EINVAL ; if ( waitqueue_active ( & asoc -> wait ) ) return - EBUSY ; if ( ! sctp_style ( sk , UDP ) ) return - EINVAL ; err = sock_create ( sk -> sk_family , SOCK_SEQPACKET , IPPROTO_SCTP , & sock ) ; if ( err < 0 ) return err ; sctp_copy_sock ( sock -> sk , sk , asoc ) ; sp -> pf -> to_sk_daddr ( & asoc -> peer . primary_addr , sk ) ; sctp_sock_migrate ( sk , sock -> sk , asoc , SCTP_SOCKET_UDP_HIGH_BANDWIDTH ) ; * sockp = sock ; return err ; }" 954,"CWE-119 int vp8_full_search_sadx8 ( MACROBLOCK * x , BLOCK * b , BLOCKD * d , int_mv * ref_mv , int sad_per_bit , int distance , vp8_variance_fn_ptr_t * fn_ptr , int * mvcost [ 2 ] , int_mv * center_mv ) { unsigned char * what = ( * ( b -> base_src ) + b -> src ) ; int what_stride = b -> src_stride ; int pre_stride = x -> e_mbd . pre . y_stride ; unsigned char * base_pre = x -> e_mbd . pre . y_buffer ; unsigned char * in_what ; int in_what_stride = pre_stride ; int mv_stride = pre_stride ; unsigned char * bestaddress ; int_mv * best_mv = & d -> bmi . mv ; int_mv this_mv ; unsigned int bestsad ; unsigned int thissad ; int r , c ; unsigned char * check_here ; int ref_row = ref_mv -> as_mv . row ; int ref_col = ref_mv -> as_mv . col ; int row_min = ref_row - distance ; int row_max = ref_row + distance ; int col_min = ref_col - distance ; int col_max = ref_col + distance ; DECLARE_ALIGNED_ARRAY ( 16 , unsigned short , sad_array8 , 8 ) ; unsigned int sad_array [ 3 ] ; int * mvsadcost [ 2 ] ; int_mv fcenter_mv ; mvsadcost [ 0 ] = x -> mvsadcost [ 0 ] ; mvsadcost [ 1 ] = x -> mvsadcost [ 1 ] ; fcenter_mv . as_mv . row = center_mv -> as_mv . row >> 3 ; fcenter_mv . as_mv . col = center_mv -> as_mv . col >> 3 ; in_what = base_pre + d -> offset ; bestaddress = in_what + ( ref_row * pre_stride ) + ref_col ; best_mv -> as_mv . row = ref_row ; best_mv -> as_mv . col = ref_col ; bestsad = fn_ptr -> sdf ( what , what_stride , bestaddress , in_what_stride , UINT_MAX ) if ( col_min < x -> mv_col_min ) col_min = x -> mv_col_min ; if ( col_max > x -> mv_col_max ) col_max = x -> mv_col_max ; if ( row_min < x -> mv_row_min ) row_min = x -> mv_row_min ; if ( row_max > x -> mv_row_max ) row_max = x -> mv_row_max ; for ( r = row_min ; r < row_max ; r ++ ) { this_mv . as_mv . row = r ; check_here = r * mv_stride + in_what + col_min ; c = col_min ; while ( ( c + 7 ) < col_max ) { int i ; fn_ptr -> sdx8f ( what , what_stride , check_here , in_what_stride , sad_array8 ) ; for ( i = 0 ; i < 8 ; i ++ ) { thissad = sad_array8 [ i ] ; if ( thissad < bestsad ) { this_mv . as_mv . col = c ; thissad += mvsad_err_cost ( & this_mv , & fcenter_mv , mvsadcost , sad_per_bit ) ; if ( thissad < bestsad ) { bestsad = thissad ; best_mv -> as_mv . row = r ; best_mv -> as_mv . col = c ; bestaddress = check_here ; } } check_here ++ ; c ++ ; } } while ( ( c + 2 ) < col_max ) { int i ; fn_ptr -> sdx3f ( what , what_stride , check_here , in_what_stride , sad_array ) ; for ( i = 0 ; i < 3 ; i ++ ) { thissad = sad_array [ i ] ; if ( thissad < bestsad ) { this_mv . as_mv . col = c ; thissad += mvsad_err_cost ( & this_mv , & fcenter_mv , mvsadcost , sad_per_bit ) ; if ( thissad < bestsad ) { bestsad = thissad ; best_mv -> as_mv . row = r ; best_mv -> as_mv . col = c ; bestaddress = check_here ; } } check_here ++ ; c ++ ; } } while ( c < col_max ) { thissad = fn_ptr -> sdf ( what , what_stride , check_here , in_what_stride , bestsad ) ; if ( thissad < bestsad ) { this_mv . as_mv . col = c ; thissad += mvsad_err_cost ( & this_mv , & fcenter_mv , mvsadcost , sad_per_bit ) ; if ( thissad < bestsad ) { bestsad = thissad ; best_mv -> as_mv . row = r ; best_mv -> as_mv . col = c ; bestaddress = check_here ; } } check_here ++ ; c ++ ; } } this_mv . as_mv . row = best_mv -> as_mv . row * 8 ; this_mv . as_mv . col = best_mv -> as_mv . col * 8 ; return fn_ptr -> vf ( what , what_stride , bestaddress , in_what_stride , & thissad ) }","int vp8_full_search_sadx8 ( MACROBLOCK * x , BLOCK * b , BLOCKD * d , int_mv * ref_mv , int sad_per_bit , int distance , vp8_variance_fn_ptr_t * fn_ptr , int * mvcost [ 2 ] , int_mv * center_mv ) { unsigned char * what = ( * ( b -> base_src ) + b -> src ) ; int what_stride = b -> src_stride ; int pre_stride = x -> e_mbd . pre . y_stride ; unsigned char * base_pre = x -> e_mbd . pre . y_buffer ; unsigned char * in_what ; int in_what_stride = pre_stride ; int mv_stride = pre_stride ; unsigned char * bestaddress ; int_mv * best_mv = & d -> bmi . mv ; int_mv this_mv ; unsigned int bestsad ; unsigned int thissad ; int r , c ; unsigned char * check_here ; int ref_row = ref_mv -> as_mv . row ; int ref_col = ref_mv -> as_mv . col ; int row_min = ref_row - distance ; int row_max = ref_row + distance ; int col_min = ref_col - distance ; int col_max = ref_col + distance ; DECLARE_ALIGNED ( 16 , unsigned int , sad_array8 [ 8 ] ) ; unsigned int sad_array [ 3 ] ; int * mvsadcost [ 2 ] ; int_mv fcenter_mv ; mvsadcost [ 0 ] = x -> mvsadcost [ 0 ] ; mvsadcost [ 1 ] = x -> mvsadcost [ 1 ] ; fcenter_mv . as_mv . row = center_mv -> as_mv . row >> 3 ; fcenter_mv . as_mv . col = center_mv -> as_mv . col >> 3 ; in_what = base_pre + d -> offset ; bestaddress = in_what + ( ref_row * pre_stride ) + ref_col ; best_mv -> as_mv . row = ref_row ; best_mv -> as_mv . col = ref_col ; bestsad = fn_ptr -> sdf ( what , what_stride , bestaddress , in_what_stride ) mvsad_err_cost ( best_mv , & fcenter_mv , mvsadcost , sad_per_bit ) ; if ( col_min < x -> mv_col_min ) col_min = x -> mv_col_min ; if ( col_max > x -> mv_col_max ) col_max = x -> mv_col_max ; if ( row_min < x -> mv_row_min ) row_min = x -> mv_row_min ; if ( row_max > x -> mv_row_max ) row_max = x -> mv_row_max ; for ( r = row_min ; r < row_max ; r ++ ) { this_mv . as_mv . row = r ; check_here = r * mv_stride + in_what + col_min ; c = col_min ; while ( ( c + 7 ) < col_max ) { int i ; fn_ptr -> sdx8f ( what , what_stride , check_here , in_what_stride , sad_array8 ) ; for ( i = 0 ; i < 8 ; i ++ ) { thissad = sad_array8 [ i ] ; if ( thissad < bestsad ) { this_mv . as_mv . col = c ; thissad += mvsad_err_cost ( & this_mv , & fcenter_mv , mvsadcost , sad_per_bit ) ; if ( thissad < bestsad ) { bestsad = thissad ; best_mv -> as_mv . row = r ; best_mv -> as_mv . col = c ; bestaddress = check_here ; } } check_here ++ ; c ++ ; } } while ( ( c + 2 ) < col_max ) { int i ; fn_ptr -> sdx3f ( what , what_stride , check_here , in_what_stride , sad_array ) ; for ( i = 0 ; i < 3 ; i ++ ) { thissad = sad_array [ i ] ; if ( thissad < bestsad ) { this_mv . as_mv . col = c ; thissad += mvsad_err_cost ( & this_mv , & fcenter_mv , mvsadcost , sad_per_bit ) ; if ( thissad < bestsad ) { bestsad = thissad ; best_mv -> as_mv . row = r ; best_mv -> as_mv . col = c ; bestaddress = check_here ; } } check_here ++ ; c ++ ; } } while ( c < col_max ) { thissad = fn_ptr -> sdf ( what , what_stride , check_here , in_what_stride ) ; if ( thissad < bestsad ) { this_mv . as_mv . col = c ; thissad += mvsad_err_cost ( & this_mv , & fcenter_mv , mvsadcost , sad_per_bit ) ; if ( thissad < bestsad ) { bestsad = thissad ; best_mv -> as_mv . row = r ; best_mv -> as_mv . col = c ; bestaddress = check_here ; } } check_here ++ ; c ++ ; } } this_mv . as_mv . row = best_mv -> as_mv . row * 8 ; this_mv . as_mv . col = best_mv -> as_mv . col * 8 ; return fn_ptr -> vf ( what , what_stride , bestaddress , in_what_stride , & thissad ) mv_err_cost ( & this_mv , center_mv , mvcost , x -> errorperbit ) ; }" 955,"CWE-674 static krb5_error_code get_tag ( const uint8_t * asn1 , size_t len , taginfo * tag_out , const uint8_t * * contents_out , size_t * clen_out , const uint8_t * * remainder_out , size_t * rlen_out ) { krb5_error_code ret ; uint8_t o ; const uint8_t * c , * p , * tag_start = asn1 ; size_t clen , llen , i ; taginfo t ; * contents_out = * remainder_out = NULL ; * clen_out = * rlen_out = 0 ; if ( len == 0 ) return ASN1_OVERRUN ; o = * asn1 ++ ; len -- ; tag_out -> asn1class = o & 0xC0 ; tag_out -> construction = o & 0x20 ; if ( ( o & 0x1F ) != 0x1F ) { tag_out -> tagnum = o & 0x1F ; } else { tag_out -> tagnum = 0 ; do { if ( len == 0 ) return ASN1_OVERRUN ; o = * asn1 ++ ; len -- ; tag_out -> tagnum = ( tag_out -> tagnum << 7 ) | ( o & 0x7F ) ; } while ( o & 0x80 ) ; } if ( len == 0 ) return ASN1_OVERRUN ; o = * asn1 ++ ; len -- ; if ( o == 0x80 ) { if ( tag_out -> construction != CONSTRUCTED ) return ASN1_MISMATCH_INDEF ; p = asn1 ; while ( ! ( len >= 2 && p [ 0 ] == 0 && p [ 1 ] == 0 ) ) { ret = get_tag ( p , len , & t , & c , & clen , & p , & len ) ; if ( ret ) return ret ; } tag_out -> tag_end_len = 2 ; * contents_out = asn1 ; * clen_out = p - asn1 ; * remainder_out = p + 2 ; * rlen_out = len - 2 ; } else if ( ( o & 0x80 ) == 0 ) { if ( o > len ) return ASN1_OVERRUN ; tag_out -> tag_end_len = 0 ; * contents_out = asn1 ; * clen_out = o ; * remainder_out = asn1 + * clen_out ; * rlen_out = len - ( * remainder_out - asn1 ) ; } else { llen = o & 0x7F ; if ( llen > len ) return ASN1_OVERRUN ; if ( llen > sizeof ( * clen_out ) ) return ASN1_OVERFLOW ; for ( i = 0 , clen = 0 ; i < llen ; i ++ ) clen = ( clen << 8 ) | asn1 [ i ] ; if ( clen > len - llen ) return ASN1_OVERRUN ; tag_out -> tag_end_len = 0 ; * contents_out = asn1 + llen ; * clen_out = clen ; * remainder_out = * contents_out + clen ; * rlen_out = len - ( * remainder_out - asn1 ) ; } tag_out -> tag_len = * contents_out - tag_start ; return 0 ; }","static krb5_error_code get_tag ( const uint8_t * asn1 , size_t len , taginfo * tag_out , const uint8_t * * contents_out , size_t * clen_out , const uint8_t * * remainder_out , size_t * rlen_out , int recursion ) { krb5_error_code ret ; uint8_t o ; const uint8_t * c , * p , * tag_start = asn1 ; size_t clen , llen , i ; taginfo t ; * contents_out = * remainder_out = NULL ; * clen_out = * rlen_out = 0 ; if ( len == 0 ) return ASN1_OVERRUN ; o = * asn1 ++ ; len -- ; tag_out -> asn1class = o & 0xC0 ; tag_out -> construction = o & 0x20 ; if ( ( o & 0x1F ) != 0x1F ) { tag_out -> tagnum = o & 0x1F ; } else { tag_out -> tagnum = 0 ; do { if ( len == 0 ) return ASN1_OVERRUN ; o = * asn1 ++ ; len -- ; tag_out -> tagnum = ( tag_out -> tagnum << 7 ) | ( o & 0x7F ) ; } while ( o & 0x80 ) ; } if ( len == 0 ) return ASN1_OVERRUN ; o = * asn1 ++ ; len -- ; if ( o == 0x80 ) { if ( tag_out -> construction != CONSTRUCTED ) return ASN1_MISMATCH_INDEF ; if ( recursion >= 32 ) return ASN1_OVERFLOW ; p = asn1 ; while ( ! ( len >= 2 && p [ 0 ] == 0 && p [ 1 ] == 0 ) ) { ret = get_tag ( p , len , & t , & c , & clen , & p , & len , recursion + 1 ) ; if ( ret ) return ret ; } tag_out -> tag_end_len = 2 ; * contents_out = asn1 ; * clen_out = p - asn1 ; * remainder_out = p + 2 ; * rlen_out = len - 2 ; } else if ( ( o & 0x80 ) == 0 ) { if ( o > len ) return ASN1_OVERRUN ; tag_out -> tag_end_len = 0 ; * contents_out = asn1 ; * clen_out = o ; * remainder_out = asn1 + * clen_out ; * rlen_out = len - ( * remainder_out - asn1 ) ; } else { llen = o & 0x7F ; if ( llen > len ) return ASN1_OVERRUN ; if ( llen > sizeof ( * clen_out ) ) return ASN1_OVERFLOW ; for ( i = 0 , clen = 0 ; i < llen ; i ++ ) clen = ( clen << 8 ) | asn1 [ i ] ; if ( clen > len - llen ) return ASN1_OVERRUN ; tag_out -> tag_end_len = 0 ; * contents_out = asn1 + llen ; * clen_out = clen ; * remainder_out = * contents_out + clen ; * rlen_out = len - ( * remainder_out - asn1 ) ; } tag_out -> tag_len = * contents_out - tag_start ; return 0 ; }" 956,"CWE-119 void fdct16_8col ( __m128i * in ) { __m128i i [ 8 ] , s [ 8 ] , p [ 8 ] , t [ 8 ] , u [ 16 ] , v [ 16 ] ; const __m128i k__cospi_p16_p16 = _mm_set1_epi16 ( cospi_16_64 ) ; const __m128i k__cospi_p16_m16 = pair_set_epi16 ( cospi_16_64 , - cospi_16_64 ) ; const __m128i k__cospi_m16_p16 = pair_set_epi16 ( - cospi_16_64 , cospi_16_64 ) ; const __m128i k__cospi_p24_p08 = pair_set_epi16 ( cospi_24_64 , cospi_8_64 ) ; const __m128i k__cospi_m24_m08 = pair_set_epi16 ( - cospi_24_64 , - cospi_8_64 ) ; const __m128i k__cospi_m08_p24 = pair_set_epi16 ( - cospi_8_64 , cospi_24_64 ) ; const __m128i k__cospi_p28_p04 = pair_set_epi16 ( cospi_28_64 , cospi_4_64 ) ; const __m128i k__cospi_m04_p28 = pair_set_epi16 ( - cospi_4_64 , cospi_28_64 ) ; const __m128i k__cospi_p12_p20 = pair_set_epi16 ( cospi_12_64 , cospi_20_64 ) ; const __m128i k__cospi_m20_p12 = pair_set_epi16 ( - cospi_20_64 , cospi_12_64 ) ; const __m128i k__cospi_p30_p02 = pair_set_epi16 ( cospi_30_64 , cospi_2_64 ) ; const __m128i k__cospi_p14_p18 = pair_set_epi16 ( cospi_14_64 , cospi_18_64 ) ; const __m128i k__cospi_m02_p30 = pair_set_epi16 ( - cospi_2_64 , cospi_30_64 ) ; const __m128i k__cospi_m18_p14 = pair_set_epi16 ( - cospi_18_64 , cospi_14_64 ) ; const __m128i k__cospi_p22_p10 = pair_set_epi16 ( cospi_22_64 , cospi_10_64 ) ; const __m128i k__cospi_p06_p26 = pair_set_epi16 ( cospi_6_64 , cospi_26_64 ) ; const __m128i k__cospi_m10_p22 = pair_set_epi16 ( - cospi_10_64 , cospi_22_64 ) ; const __m128i k__cospi_m26_p06 = pair_set_epi16 ( - cospi_26_64 , cospi_6_64 ) ; const __m128i k__DCT_CONST_ROUNDING = _mm_set1_epi32 ( DCT_CONST_ROUNDING ) ; i [ 0 ] = _mm_add_epi16 ( in [ 0 ] , in [ 15 ] ) ; i [ 1 ] = _mm_add_epi16 ( in [ 1 ] , in [ 14 ] ) ; i [ 2 ] = _mm_add_epi16 ( in [ 2 ] , in [ 13 ] ) ; i [ 3 ] = _mm_add_epi16 ( in [ 3 ] , in [ 12 ] ) ; i [ 4 ] = _mm_add_epi16 ( in [ 4 ] , in [ 11 ] ) ; i [ 5 ] = _mm_add_epi16 ( in [ 5 ] , in [ 10 ] ) ; i [ 6 ] = _mm_add_epi16 ( in [ 6 ] , in [ 9 ] ) ; i [ 7 ] = _mm_add_epi16 ( in [ 7 ] , in [ 8 ] ) ; s [ 0 ] = _mm_sub_epi16 ( in [ 7 ] , in [ 8 ] ) ; s [ 1 ] = _mm_sub_epi16 ( in [ 6 ] , in [ 9 ] ) ; s [ 2 ] = _mm_sub_epi16 ( in [ 5 ] , in [ 10 ] ) ; s [ 3 ] = _mm_sub_epi16 ( in [ 4 ] , in [ 11 ] ) ; s [ 4 ] = _mm_sub_epi16 ( in [ 3 ] , in [ 12 ] ) ; s [ 5 ] = _mm_sub_epi16 ( in [ 2 ] , in [ 13 ] ) ; s [ 6 ] = _mm_sub_epi16 ( in [ 1 ] , in [ 14 ] ) ; s [ 7 ] = _mm_sub_epi16 ( in [ 0 ] , in [ 15 ] ) ; p [ 0 ] = _mm_add_epi16 ( i [ 0 ] , i [ 7 ] ) ; p [ 1 ] = _mm_add_epi16 ( i [ 1 ] , i [ 6 ] ) ; p [ 2 ] = _mm_add_epi16 ( i [ 2 ] , i [ 5 ] ) ; p [ 3 ] = _mm_add_epi16 ( i [ 3 ] , i [ 4 ] ) ; p [ 4 ] = _mm_sub_epi16 ( i [ 3 ] , i [ 4 ] ) ; p [ 5 ] = _mm_sub_epi16 ( i [ 2 ] , i [ 5 ] ) ; p [ 6 ] = _mm_sub_epi16 ( i [ 1 ] , i [ 6 ] ) ; p [ 7 ] = _mm_sub_epi16 ( i [ 0 ] , i [ 7 ] ) ; u [ 0 ] = _mm_add_epi16 ( p [ 0 ] , p [ 3 ] ) ; u [ 1 ] = _mm_add_epi16 ( p [ 1 ] , p [ 2 ] ) ; u [ 2 ] = _mm_sub_epi16 ( p [ 1 ] , p [ 2 ] ) ; u [ 3 ] = _mm_sub_epi16 ( p [ 0 ] , p [ 3 ] ) ; v [ 0 ] = _mm_unpacklo_epi16 ( u [ 0 ] , u [ 1 ] ) ; v [ 1 ] = _mm_unpackhi_epi16 ( u [ 0 ] , u [ 1 ] ) ; v [ 2 ] = _mm_unpacklo_epi16 ( u [ 2 ] , u [ 3 ] ) ; v [ 3 ] = _mm_unpackhi_epi16 ( u [ 2 ] , u [ 3 ] ) ; u [ 0 ] = _mm_madd_epi16 ( v [ 0 ] , k__cospi_p16_p16 ) ; u [ 1 ] = _mm_madd_epi16 ( v [ 1 ] , k__cospi_p16_p16 ) ; u [ 2 ] = _mm_madd_epi16 ( v [ 0 ] , k__cospi_p16_m16 ) ; u [ 3 ] = _mm_madd_epi16 ( v [ 1 ] , k__cospi_p16_m16 ) ;","static void fdct16_8col ( __m128i * in ) { __m128i i [ 8 ] , s [ 8 ] , p [ 8 ] , t [ 8 ] , u [ 16 ] , v [ 16 ] ; const __m128i k__cospi_p16_p16 = _mm_set1_epi16 ( ( int16_t ) cospi_16_64 ) ; const __m128i k__cospi_p16_m16 = pair_set_epi16 ( cospi_16_64 , - cospi_16_64 ) ; const __m128i k__cospi_m16_p16 = pair_set_epi16 ( - cospi_16_64 , cospi_16_64 ) ; const __m128i k__cospi_p24_p08 = pair_set_epi16 ( cospi_24_64 , cospi_8_64 ) ; const __m128i k__cospi_p08_m24 = pair_set_epi16 ( cospi_8_64 , - cospi_24_64 ) ; const __m128i k__cospi_m08_p24 = pair_set_epi16 ( - cospi_8_64 , cospi_24_64 ) ; const __m128i k__cospi_p28_p04 = pair_set_epi16 ( cospi_28_64 , cospi_4_64 ) ; const __m128i k__cospi_m04_p28 = pair_set_epi16 ( - cospi_4_64 , cospi_28_64 ) ; const __m128i k__cospi_p12_p20 = pair_set_epi16 ( cospi_12_64 , cospi_20_64 ) ; const __m128i k__cospi_m20_p12 = pair_set_epi16 ( - cospi_20_64 , cospi_12_64 ) ; const __m128i k__cospi_p30_p02 = pair_set_epi16 ( cospi_30_64 , cospi_2_64 ) ; const __m128i k__cospi_p14_p18 = pair_set_epi16 ( cospi_14_64 , cospi_18_64 ) ; const __m128i k__cospi_m02_p30 = pair_set_epi16 ( - cospi_2_64 , cospi_30_64 ) ; const __m128i k__cospi_m18_p14 = pair_set_epi16 ( - cospi_18_64 , cospi_14_64 ) ; const __m128i k__cospi_p22_p10 = pair_set_epi16 ( cospi_22_64 , cospi_10_64 ) ; const __m128i k__cospi_p06_p26 = pair_set_epi16 ( cospi_6_64 , cospi_26_64 ) ; const __m128i k__cospi_m10_p22 = pair_set_epi16 ( - cospi_10_64 , cospi_22_64 ) ; const __m128i k__cospi_m26_p06 = pair_set_epi16 ( - cospi_26_64 , cospi_6_64 ) ; const __m128i k__DCT_CONST_ROUNDING = _mm_set1_epi32 ( DCT_CONST_ROUNDING ) ; i [ 0 ] = _mm_add_epi16 ( in [ 0 ] , in [ 15 ] ) ; i [ 1 ] = _mm_add_epi16 ( in [ 1 ] , in [ 14 ] ) ; i [ 2 ] = _mm_add_epi16 ( in [ 2 ] , in [ 13 ] ) ; i [ 3 ] = _mm_add_epi16 ( in [ 3 ] , in [ 12 ] ) ; i [ 4 ] = _mm_add_epi16 ( in [ 4 ] , in [ 11 ] ) ; i [ 5 ] = _mm_add_epi16 ( in [ 5 ] , in [ 10 ] ) ; i [ 6 ] = _mm_add_epi16 ( in [ 6 ] , in [ 9 ] ) ; i [ 7 ] = _mm_add_epi16 ( in [ 7 ] , in [ 8 ] ) ; s [ 0 ] = _mm_sub_epi16 ( in [ 7 ] , in [ 8 ] ) ; s [ 1 ] = _mm_sub_epi16 ( in [ 6 ] , in [ 9 ] ) ; s [ 2 ] = _mm_sub_epi16 ( in [ 5 ] , in [ 10 ] ) ; s [ 3 ] = _mm_sub_epi16 ( in [ 4 ] , in [ 11 ] ) ; s [ 4 ] = _mm_sub_epi16 ( in [ 3 ] , in [ 12 ] ) ; s [ 5 ] = _mm_sub_epi16 ( in [ 2 ] , in [ 13 ] ) ; s [ 6 ] = _mm_sub_epi16 ( in [ 1 ] , in [ 14 ] ) ; s [ 7 ] = _mm_sub_epi16 ( in [ 0 ] , in [ 15 ] ) ; p [ 0 ] = _mm_add_epi16 ( i [ 0 ] , i [ 7 ] ) ; p [ 1 ] = _mm_add_epi16 ( i [ 1 ] , i [ 6 ] ) ; p [ 2 ] = _mm_add_epi16 ( i [ 2 ] , i [ 5 ] ) ; p [ 3 ] = _mm_add_epi16 ( i [ 3 ] , i [ 4 ] ) ; p [ 4 ] = _mm_sub_epi16 ( i [ 3 ] , i [ 4 ] ) ; p [ 5 ] = _mm_sub_epi16 ( i [ 2 ] , i [ 5 ] ) ; p [ 6 ] = _mm_sub_epi16 ( i [ 1 ] , i [ 6 ] ) ; p [ 7 ] = _mm_sub_epi16 ( i [ 0 ] , i [ 7 ] ) ; u [ 0 ] = _mm_add_epi16 ( p [ 0 ] , p [ 3 ] ) ; u [ 1 ] = _mm_add_epi16 ( p [ 1 ] , p [ 2 ] ) ; u [ 2 ] = _mm_sub_epi16 ( p [ 1 ] , p [ 2 ] ) ; u [ 3 ] = _mm_sub_epi16 ( p [ 0 ] , p [ 3 ] ) ; v [ 0 ] = _mm_unpacklo_epi16 ( u [ 0 ] , u [ 1 ] ) ; v [ 1 ] = _mm_unpackhi_epi16 ( u [ 0 ] , u [ 1 ] ) ; v [ 2 ] = _mm_unpacklo_epi16 ( u [ 2 ] , u [ 3 ] ) ; v [ 3 ] = _mm_unpackhi_epi16 ( u [ 2 ] , u [ 3 ] ) ; u [ 0 ] = _mm_madd_epi16 ( v [ 0 ] , k__cospi_p16_p16 ) ; u [ 1 ] = _mm_madd_epi16 ( v [ 1 ] , k__cospi_p16_p16 ) ; u [ 2 ] = _mm_madd_epi16 ( v [ 0 ] , k__cospi_p16_m16 ) ; u [ 3 ] = _mm_madd_epi16 ( v [ 1 ] , k__cospi_p16_m16 ) ;" 957,"CWE-119 } switch ( vratio * 10 / vscale ) { case 8 : vert_band_scale = vp8_vertical_band_5_4_scale ; source_band_height = 5 ; dest_band_height = 4 ; break ; case 6 : vert_band_scale = vp8_vertical_band_5_3_scale ; source_band_height = 5 ; dest_band_height = 3 ; break ; case 5 : if ( interlaced ) { vert_band_scale = vp8_vertical_band_2_1_scale ; } else { interpolation = 1 ; vert_band_scale = vp8_vertical_band_2_1_scale_i ; } source_band_height = 2 ; dest_band_height = 1 ; break ; default : ratio_scalable = 0 ; break ; } if ( ratio_scalable ) { if ( source_height == dest_height ) { for ( k = 0 ; k < ( int ) dest_height ; k ++ ) { horiz_line_scale ( source , source_width , dest , dest_width ) ; source += source_pitch ; dest += dest_pitch ; } return ; } if ( interpolation ) { if ( source < source_base ) source = source_base ; horiz_line_scale ( source , source_width , temp_area , dest_width ) ; } for ( k = 0 ; k < ( int ) ( dest_height + dest_band_height - 1 ) / dest_band_height ; k ++ ) { for ( i = 0 ; i < source_band_height ; i ++ ) { line_src = ( unsigned char * ) source + i * source_pitch ; if ( line_src < source_base ) line_src = source_base ; horiz_line_scale ( line_src , source_width , temp_area + ( i + 1 ) * dest_pitch , dest_width ) ; } vert_band_scale ( temp_area + dest_pitch , dest_pitch , dest , dest_pitch , dest_width ) ; if ( interpolation ) vpx_memcpy ( temp_area , temp_area + source_band_height * dest_pitch , dest_width ) ; source += ( unsigned long ) source_band_height * source_pitch ; dest += ( unsigned long ) dest_band_height * dest_pitch ; } return ; } if ( hscale == 2 && hratio == 1 ) Scale1Dh = scale1d_2t1_ps ; if ( vscale == 2 && vratio == 1 ) { if ( interlaced ) Scale1Dv = scale1d_2t1_ps ; else Scale1Dv = scale1d_2t1_i ; } if ( source_height == dest_height ) { for ( k = 0 ; k < ( int ) dest_height ; k ++ ) { Scale1Dh ( source , 1 , hscale , source_width + 1 , dest , 1 , hratio , dest_width ) ; source += source_pitch ; dest += dest_pitch ; } return ; } if ( dest_height > source_height ) { dest_band_height = temp_area_height - 1 ; source_band_height = dest_band_height * source_height / dest_height ; } else { source_band_height = temp_area_height - 1 ; dest_band_height = source_band_height * vratio / vscale ; } Scale1Dh ( source , 1 , hscale , source_width + 1 , temp_area , 1 , hratio , dest_width ) ; bands = ( dest_height + dest_band_height - 1 ) / dest_band_height ; for ( k = 0 ; k < bands ; k ++ ) { for ( i = 1 ; i < source_band_height + 1 ; i ++ ) { if ( k * source_band_height + i < ( int ) source_height ) { Scale1Dh ( source + i * source_pitch , 1 , hscale , source_width + 1 , temp_area + i * dest_pitch , 1 , hratio , dest_width ) ; } else { vpx_memcpy ( temp_area + i * dest_pitch , temp_area + ( i - 1 ) * dest_pitch , dest_pitch ) ; } } for ( j = 0 ; j < ( int ) dest_width ; j ++ ) { Scale1Dv ( & temp_area [ j ] , dest_pitch , vscale , source_band_height + 1 , & dest [ j ] , dest_pitch , vratio , dest_band_height ) ; } vpx_memcpy ( temp_area , temp_area + source_band_height * dest_pitch , dest_pitch ) ; source += source_band_height * source_pitch ; dest += dest_band_height * dest_pitch ; } }","} switch ( vratio * 10 / vscale ) { case 8 : vert_band_scale = vp8_vertical_band_5_4_scale ; source_band_height = 5 ; dest_band_height = 4 ; break ; case 6 : vert_band_scale = vp8_vertical_band_5_3_scale ; source_band_height = 5 ; dest_band_height = 3 ; break ; case 5 : if ( interlaced ) { vert_band_scale = vp8_vertical_band_2_1_scale ; } else { interpolation = 1 ; vert_band_scale = vp8_vertical_band_2_1_scale_i ; } source_band_height = 2 ; dest_band_height = 1 ; break ; default : ratio_scalable = 0 ; break ; } if ( ratio_scalable ) { if ( source_height == dest_height ) { for ( k = 0 ; k < ( int ) dest_height ; k ++ ) { horiz_line_scale ( source , source_width , dest , dest_width ) ; source += source_pitch ; dest += dest_pitch ; } return ; } if ( interpolation ) { if ( source < source_base ) source = source_base ; horiz_line_scale ( source , source_width , temp_area , dest_width ) ; } for ( k = 0 ; k < ( int ) ( dest_height + dest_band_height - 1 ) / dest_band_height ; k ++ ) { for ( i = 0 ; i < source_band_height ; i ++ ) { line_src = ( unsigned char * ) source + i * source_pitch ; if ( line_src < source_base ) line_src = source_base ; horiz_line_scale ( line_src , source_width , temp_area + ( i + 1 ) * dest_pitch , dest_width ) ; } vert_band_scale ( temp_area + dest_pitch , dest_pitch , dest , dest_pitch , dest_width ) ; if ( interpolation ) memcpy ( temp_area , temp_area + source_band_height * dest_pitch , dest_width ) ; source += ( unsigned long ) source_band_height * source_pitch ; dest += ( unsigned long ) dest_band_height * dest_pitch ; } return ; } if ( hscale == 2 && hratio == 1 ) Scale1Dh = scale1d_2t1_ps ; if ( vscale == 2 && vratio == 1 ) { if ( interlaced ) Scale1Dv = scale1d_2t1_ps ; else Scale1Dv = scale1d_2t1_i ; } if ( source_height == dest_height ) { for ( k = 0 ; k < ( int ) dest_height ; k ++ ) { Scale1Dh ( source , 1 , hscale , source_width + 1 , dest , 1 , hratio , dest_width ) ; source += source_pitch ; dest += dest_pitch ; } return ; } if ( dest_height > source_height ) { dest_band_height = temp_area_height - 1 ; source_band_height = dest_band_height * source_height / dest_height ; } else { source_band_height = temp_area_height - 1 ; dest_band_height = source_band_height * vratio / vscale ; } Scale1Dh ( source , 1 , hscale , source_width + 1 , temp_area , 1 , hratio , dest_width ) ; bands = ( dest_height + dest_band_height - 1 ) / dest_band_height ; for ( k = 0 ; k < bands ; k ++ ) { for ( i = 1 ; i < source_band_height + 1 ; i ++ ) { if ( k * source_band_height + i < ( int ) source_height ) { Scale1Dh ( source + i * source_pitch , 1 , hscale , source_width + 1 , temp_area + i * dest_pitch , 1 , hratio , dest_width ) ; } else { memcpy ( temp_area + i * dest_pitch , temp_area + ( i - 1 ) * dest_pitch , dest_pitch ) ; } } for ( j = 0 ; j < ( int ) dest_width ; j ++ ) { Scale1Dv ( & temp_area [ j ] , dest_pitch , vscale , source_band_height + 1 , & dest [ j ] , dest_pitch , vratio , dest_band_height ) ; } memcpy ( temp_area , temp_area + source_band_height * dest_pitch , dest_pitch ) ; source += source_band_height * source_pitch ; dest += dest_band_height * dest_pitch ; } }" 958,"CWE-20 static Image * ReadDDSImage ( const ImageInfo * image_info , ExceptionInfo * exception ) { Image * image ; MagickBooleanType status , cubemap = MagickFalse , volume = MagickFalse ; CompressionType compression ; DDSInfo dds_info ; DDSDecoder * decoder ; PixelTrait alpha_trait ; size_t n , num_images ; assert ( image_info != ( const ImageInfo * ) NULL ) ; assert ( image_info -> signature == MagickCoreSignature ) ; if ( image_info -> debug != MagickFalse ) ( void ) LogMagickEvent ( TraceEvent , GetMagickModule ( ) , ""%s"" , image_info -> filename ) ; assert ( exception != ( ExceptionInfo * ) NULL ) ; assert ( exception -> signature == MagickCoreSignature ) ; image = AcquireImage ( image_info , exception ) ; status = OpenBlob ( image_info , image , ReadBinaryBlobMode , exception ) ; if ( status == MagickFalse ) { image = DestroyImageList ( image ) ; return ( ( Image * ) NULL ) ; } if ( ReadDDSInfo ( image , & dds_info ) != MagickTrue ) { ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; } if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP ) cubemap = MagickTrue ; if ( dds_info . ddscaps2 & DDSCAPS2_VOLUME && dds_info . depth > 0 ) volume = MagickTrue ; ( void ) SeekBlob ( image , 128 , SEEK_SET ) ; if ( dds_info . pixelformat . flags & DDPF_RGB ) { compression = NoCompression ; if ( dds_info . pixelformat . flags & DDPF_ALPHAPIXELS ) { alpha_trait = BlendPixelTrait ; decoder = ReadUncompressedRGBA ; } else { alpha_trait = UndefinedPixelTrait ; decoder = ReadUncompressedRGB ; } } else if ( dds_info . pixelformat . flags & DDPF_LUMINANCE ) { compression = NoCompression ; if ( dds_info . pixelformat . flags & DDPF_ALPHAPIXELS ) { ThrowReaderException ( CorruptImageError , ""ImageTypeNotSupported"" ) ; } else { alpha_trait = UndefinedPixelTrait ; decoder = ReadUncompressedRGB ; } } else if ( dds_info . pixelformat . flags & DDPF_FOURCC ) { switch ( dds_info . pixelformat . fourcc ) { case FOURCC_DXT1 : { alpha_trait = UndefinedPixelTrait ; compression = DXT1Compression ; decoder = ReadDXT1 ; break ; } case FOURCC_DXT3 : { alpha_trait = BlendPixelTrait ; compression = DXT3Compression ; decoder = ReadDXT3 ; break ; } case FOURCC_DXT5 : { alpha_trait = BlendPixelTrait ; compression = DXT5Compression ; decoder = ReadDXT5 ; break ; } default : { ThrowReaderException ( CorruptImageError , ""ImageTypeNotSupported"" ) ; } } } else { ThrowReaderException ( CorruptImageError , ""ImageTypeNotSupported"" ) ; } num_images = 1 ; if ( cubemap ) { num_images = 0 ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_POSITIVEX ) num_images ++ ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_NEGATIVEX ) num_images ++ ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_POSITIVEY ) num_images ++ ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_NEGATIVEY ) num_images ++ ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_POSITIVEZ ) num_images ++ ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_NEGATIVEZ ) num_images ++ ; } if ( volume ) num_images = dds_info . depth ; for ( n = 0 ; n < num_images ; n ++ ) { if ( n != 0 ) { AcquireNextImage ( image_info , image , exception ) ; if ( GetNextImageInList ( image ) == ( Image * ) NULL ) return ( DestroyImageList ( image ) ) ; image = SyncNextImageInList ( image ) ; } image -> alpha_trait = alpha_trait ; image -> compression = compression ; image -> columns = dds_info . width ; image -> rows = dds_info . height ; image -> storage_class = DirectClass ; image -> endian = LSBEndian ; image -> depth = 8 ; if ( image_info -> ping != MagickFalse ) { ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; } status = SetImageExtent ( image , image -> columns , image -> rows , exception ) ; if ( status == MagickFalse ) return ( DestroyImageList ( image ) ) ; if ( ( decoder ) ( image , & dds_info , exception ) != MagickTrue ) { ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; } } ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; }","static Image * ReadDDSImage ( const ImageInfo * image_info , ExceptionInfo * exception ) { Image * image ; MagickBooleanType status , cubemap = MagickFalse , volume = MagickFalse ; CompressionType compression ; DDSInfo dds_info ; DDSDecoder * decoder ; PixelTrait alpha_trait ; size_t n , num_images ; assert ( image_info != ( const ImageInfo * ) NULL ) ; assert ( image_info -> signature == MagickCoreSignature ) ; if ( image_info -> debug != MagickFalse ) ( void ) LogMagickEvent ( TraceEvent , GetMagickModule ( ) , ""%s"" , image_info -> filename ) ; assert ( exception != ( ExceptionInfo * ) NULL ) ; assert ( exception -> signature == MagickCoreSignature ) ; image = AcquireImage ( image_info , exception ) ; status = OpenBlob ( image_info , image , ReadBinaryBlobMode , exception ) ; if ( status == MagickFalse ) { image = DestroyImageList ( image ) ; return ( ( Image * ) NULL ) ; } if ( ReadDDSInfo ( image , & dds_info ) != MagickTrue ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP ) cubemap = MagickTrue ; if ( dds_info . ddscaps2 & DDSCAPS2_VOLUME && dds_info . depth > 0 ) volume = MagickTrue ; ( void ) SeekBlob ( image , 128 , SEEK_SET ) ; if ( dds_info . pixelformat . flags & DDPF_RGB ) { compression = NoCompression ; if ( dds_info . pixelformat . flags & DDPF_ALPHAPIXELS ) { alpha_trait = BlendPixelTrait ; decoder = ReadUncompressedRGBA ; } else { alpha_trait = UndefinedPixelTrait ; decoder = ReadUncompressedRGB ; } } else if ( dds_info . pixelformat . flags & DDPF_LUMINANCE ) { compression = NoCompression ; if ( dds_info . pixelformat . flags & DDPF_ALPHAPIXELS ) { ThrowReaderException ( CorruptImageError , ""ImageTypeNotSupported"" ) ; } else { alpha_trait = UndefinedPixelTrait ; decoder = ReadUncompressedRGB ; } } else if ( dds_info . pixelformat . flags & DDPF_FOURCC ) { switch ( dds_info . pixelformat . fourcc ) { case FOURCC_DXT1 : { alpha_trait = UndefinedPixelTrait ; compression = DXT1Compression ; decoder = ReadDXT1 ; break ; } case FOURCC_DXT3 : { alpha_trait = BlendPixelTrait ; compression = DXT3Compression ; decoder = ReadDXT3 ; break ; } case FOURCC_DXT5 : { alpha_trait = BlendPixelTrait ; compression = DXT5Compression ; decoder = ReadDXT5 ; break ; } default : { ThrowReaderException ( CorruptImageError , ""ImageTypeNotSupported"" ) ; } } } else { ThrowReaderException ( CorruptImageError , ""ImageTypeNotSupported"" ) ; } num_images = 1 ; if ( cubemap ) { num_images = 0 ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_POSITIVEX ) num_images ++ ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_NEGATIVEX ) num_images ++ ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_POSITIVEY ) num_images ++ ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_NEGATIVEY ) num_images ++ ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_POSITIVEZ ) num_images ++ ; if ( dds_info . ddscaps2 & DDSCAPS2_CUBEMAP_NEGATIVEZ ) num_images ++ ; } if ( volume ) num_images = dds_info . depth ; if ( num_images < 1 ) ThrowReaderException ( CorruptImageError , ""ImproperImageHeader"" ) ; for ( n = 0 ; n < num_images ; n ++ ) { if ( n != 0 ) { AcquireNextImage ( image_info , image , exception ) ; if ( GetNextImageInList ( image ) == ( Image * ) NULL ) return ( DestroyImageList ( image ) ) ; image = SyncNextImageInList ( image ) ; } image -> alpha_trait = alpha_trait ; image -> compression = compression ; image -> columns = dds_info . width ; image -> rows = dds_info . height ; image -> storage_class = DirectClass ; image -> endian = LSBEndian ; image -> depth = 8 ; if ( image_info -> ping != MagickFalse ) { ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; } status = SetImageExtent ( image , image -> columns , image -> rows , exception ) ; if ( status == MagickFalse ) return ( DestroyImageList ( image ) ) ; if ( ( decoder ) ( image , & dds_info , exception ) != MagickTrue ) { ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; } } ( void ) CloseBlob ( image ) ; return ( GetFirstImageInList ( image ) ) ; }" 959,"CWE-20 return REDIS_ERR ; } cmd = lookupCommand ( c -> argv [ 0 ] -> ptr ) ; if ( ! cmd ) { addReplyErrorFormat ( c , ""unknown command \'%s\'"" , ( char * ) c -> argv [ 0 ] -> ptr ) ; return REDIS_OK ; } else if ( ( cmd -> arity > 0 && cmd -> arity != c -> argc ) || ( c -> argc < - cmd -> arity ) ) { addReplyErrorFormat ( c , ""wrong number of arguments for \'%s\' command"" , cmd -> name ) ; return REDIS_OK ; } if ( server . requirepass && ! c -> authenticated && cmd -> proc != authCommand ) { addReplyError ( c , ""operation not permitted"" ) ; return REDIS_OK ; } if ( server . maxmemory ) freeMemoryIfNeeded ( ) ; if ( server . maxmemory && ( cmd -> flags & REDIS_CMD_DENYOOM ) && zmalloc_used_memory ( ) > server . maxmemory ) { addReplyError ( c , ""command not allowed when used memory > \'maxmemory\'"" ) ; return REDIS_OK ; } if ( ( dictSize ( c -> pubsub_channels ) > 0 || listLength ( c -> pubsub_patterns ) > 0 ) && cmd -> proc != subscribeCommand && cmd -> proc != unsubscribeCommand && cmd -> proc != psubscribeCommand && cmd -> proc != punsubscribeCommand ) { addReplyError ( c , ""only (P)SUBSCRIBE / (P)UNSUBSCRIBE / QUIT allowed in this context"" ) ; return REDIS_OK ; } if ( server . masterhost && server . replstate != REDIS_REPL_CONNECTED && server . repl_serve_stale_data == 0 && cmd -> proc != infoCommand && cmd -> proc != slaveofCommand ) { addReplyError ( c , ""link with MASTER is down and slave-serve-stale-data is set to no"" ) ; return REDIS_OK ; } if ( server . loading && cmd -> proc != infoCommand ) { addReply ( c , shared . loadingerr ) ; return REDIS_OK ; } if ( c -> flags & REDIS_MULTI && cmd -> proc != execCommand && cmd -> proc != discardCommand && cmd -> proc != multiCommand && cmd -> proc != watchCommand ) { queueMultiCommand ( c , cmd ) ; addReply ( c , shared . queued ) ; } else { if ( server . vm_enabled && server . vm_max_threads > 0 && blockClientOnSwappedKeys ( c , cmd ) ) return REDIS_ERR ; call ( c , cmd ) ; } return REDIS_OK ; }","return REDIS_ERR ; } cmd = lookupCommand ( c -> argv [ 0 ] -> ptr ) ; if ( ! cmd ) { addReplyErrorFormat ( c , ""unknown command \'%s\'"" , ( char * ) c -> argv [ 0 ] -> ptr ) ; return REDIS_OK ; } else if ( ( cmd -> arity > 0 && cmd -> arity != c -> argc ) || ( c -> argc < - cmd -> arity ) ) { addReplyErrorFormat ( c , ""wrong number of arguments for \'%s\' command"" , cmd -> name ) ; return REDIS_OK ; } if ( server . requirepass && ! c -> authenticated && cmd -> proc != authCommand ) { addReplyError ( c , ""operation not permitted"" ) ; return REDIS_OK ; } if ( server . maxmemory ) freeMemoryIfNeeded ( ) ; if ( server . maxmemory && ( cmd -> flags & REDIS_CMD_DENYOOM ) && zmalloc_used_memory ( ) > server . maxmemory ) { addReplyError ( c , ""command not allowed when used memory > \'maxmemory\'"" ) ; return REDIS_OK ; } if ( ( dictSize ( c -> pubsub_channels ) > 0 || listLength ( c -> pubsub_patterns ) > 0 ) && cmd -> proc != subscribeCommand && cmd -> proc != unsubscribeCommand && cmd -> proc != psubscribeCommand && cmd -> proc != punsubscribeCommand ) { addReplyError ( c , ""only (P)SUBSCRIBE / (P)UNSUBSCRIBE / QUIT allowed in this context"" ) ; return REDIS_OK ; } if ( server . masterhost && server . replstate != REDIS_REPL_CONNECTED && server . repl_serve_stale_data == 0 && cmd -> proc != infoCommand && cmd -> proc != slaveofCommand ) { addReplyError ( c , ""link with MASTER is down and slave-serve-stale-data is set to no"" ) ; return REDIS_OK ; } if ( server . loading && cmd -> proc != infoCommand ) { addReply ( c , shared . loadingerr ) ; return REDIS_OK ; } if ( c -> flags & REDIS_MULTI && cmd -> proc != execCommand && cmd -> proc != discardCommand && cmd -> proc != multiCommand && cmd -> proc != watchCommand ) { queueMultiCommand ( c , cmd ) ; addReply ( c , shared . queued ) ; } else { if ( server . ds_enabled && blockClientOnSwappedKeys ( c , cmd ) ) return REDIS_ERR ; call ( c , cmd ) ; } return REDIS_OK ; }" 960,"CWE-290 static int valid_host ( cupsd_client_t * con ) { cupsd_alias_t * a ; cupsd_netif_t * netif ; const char * end ; char * ptr ; strlcpy ( con -> clientname , httpGetField ( con -> http , HTTP_FIELD_HOST ) , sizeof ( con -> clientname ) ) ; if ( ( ptr = strrchr ( con -> clientname , ':' ) ) != NULL && ! strchr ( ptr , ']' ) ) { * ptr ++ = '\\0' ; con -> clientport = atoi ( ptr ) ; } else con -> clientport = con -> serverport ; if ( httpAddrLocalhost ( httpGetAddress ( con -> http ) ) ) { return ( ! _cups_strcasecmp ( con -> clientname , ""localhost"" ) || ! _cups_strcasecmp ( con -> clientname , ""localhost."" ) || # ifdef __linux ! _cups_strcasecmp ( con -> clientname , ""localhost.localdomain"" ) || # endif ! strcmp ( con -> clientname , ""127.0.0.1"" ) || ! strcmp ( con -> clientname , ""[::1]"" ) ) ; } # if defined ( HAVE_DNSSD ) || defined ( HAVE_AVAHI ) if ( ( end = strrchr ( con -> clientname , '.' ) ) != NULL && end > con -> clientname && ! end [ 1 ] ) { for ( end -- ; end > con -> clientname && * end != '.' ; end -- ) ; } if ( end && ( ! _cups_strcasecmp ( end , "".local"" ) || ! _cups_strcasecmp ( end , "".local."" ) ) ) return ( 1 ) ; # endif if ( isdigit ( con -> clientname [ 0 ] & 255 ) || con -> clientname [ 0 ] == '[' ) { http_addrlist_t * addrlist ; if ( ( addrlist = httpAddrGetList ( con -> clientname , AF_UNSPEC , NULL ) ) != NULL ) { httpAddrFreeList ( addrlist ) ; return ( 1 ) ; } } for ( a = ( cupsd_alias_t * ) cupsArrayFirst ( ServerAlias ) ; a ; a = ( cupsd_alias_t * ) cupsArrayNext ( ServerAlias ) ) { if ( ! strcmp ( a -> name , ""*"" ) ) return ( 1 ) ; if ( ! _cups_strncasecmp ( con -> clientname , a -> name , a -> namelen ) ) { end = con -> clientname + a -> namelen ; if ( ! * end || ( * end == '.' && ! end [ 1 ] ) ) return ( 1 ) ; } } # if defined ( HAVE_DNSSD ) || defined ( HAVE_AVAHI ) for ( a = ( cupsd_alias_t * ) cupsArrayFirst ( DNSSDAlias ) ; a ; a = ( cupsd_alias_t * ) cupsArrayNext ( DNSSDAlias ) ) { if ( ! strcmp ( a -> name , ""*"" ) ) return ( 1 ) ; if ( ! _cups_strncasecmp ( con -> clientname , a -> name , a -> namelen ) ) { end = con -> clientname + a -> namelen ; if ( ! * end || ( * end == '.' && ! end [ 1 ] ) ) return ( 1 ) ; } } # endif","static int valid_host ( cupsd_client_t * con ) { cupsd_alias_t * a ; cupsd_netif_t * netif ; const char * end ; char * ptr ; strlcpy ( con -> clientname , httpGetField ( con -> http , HTTP_FIELD_HOST ) , sizeof ( con -> clientname ) ) ; if ( ( ptr = strrchr ( con -> clientname , ':' ) ) != NULL && ! strchr ( ptr , ']' ) ) { * ptr ++ = '\\0' ; con -> clientport = atoi ( ptr ) ; } else con -> clientport = con -> serverport ; if ( httpAddrLocalhost ( httpGetAddress ( con -> http ) ) ) { return ( ! _cups_strcasecmp ( con -> clientname , ""localhost"" ) || ! _cups_strcasecmp ( con -> clientname , ""localhost."" ) || ! strcmp ( con -> clientname , ""127.0.0.1"" ) || ! strcmp ( con -> clientname , ""[::1]"" ) ) ; } # if defined ( HAVE_DNSSD ) || defined ( HAVE_AVAHI ) if ( ( end = strrchr ( con -> clientname , '.' ) ) != NULL && end > con -> clientname && ! end [ 1 ] ) { for ( end -- ; end > con -> clientname && * end != '.' ; end -- ) ; } if ( end && ( ! _cups_strcasecmp ( end , "".local"" ) || ! _cups_strcasecmp ( end , "".local."" ) ) ) return ( 1 ) ; # endif if ( isdigit ( con -> clientname [ 0 ] & 255 ) || con -> clientname [ 0 ] == '[' ) { http_addrlist_t * addrlist ; if ( ( addrlist = httpAddrGetList ( con -> clientname , AF_UNSPEC , NULL ) ) != NULL ) { httpAddrFreeList ( addrlist ) ; return ( 1 ) ; } } for ( a = ( cupsd_alias_t * ) cupsArrayFirst ( ServerAlias ) ; a ; a = ( cupsd_alias_t * ) cupsArrayNext ( ServerAlias ) ) { if ( ! strcmp ( a -> name , ""*"" ) ) return ( 1 ) ; if ( ! _cups_strncasecmp ( con -> clientname , a -> name , a -> namelen ) ) { end = con -> clientname + a -> namelen ; if ( ! * end || ( * end == '.' && ! end [ 1 ] ) ) return ( 1 ) ; } } # if defined ( HAVE_DNSSD ) || defined ( HAVE_AVAHI ) for ( a = ( cupsd_alias_t * ) cupsArrayFirst ( DNSSDAlias ) ; a ; a = ( cupsd_alias_t * ) cupsArrayNext ( DNSSDAlias ) ) { if ( ! strcmp ( a -> name , ""*"" ) ) return ( 1 ) ; if ( ! _cups_strncasecmp ( con -> clientname , a -> name , a -> namelen ) ) { end = con -> clientname + a -> namelen ; if ( ! * end || ( * end == '.' && ! end [ 1 ] ) ) return ( 1 ) ; } } # endif" 961,"CWE-119 static void send_auth ( char * username , char * password ) { struct mt_packet data ; unsigned short width = 0 ; unsigned short height = 0 ; char * terminal = getenv ( ""TERM"" ) ; char md5data [ 100 ] ; unsigned char md5sum [ 17 ] ; int plen ; md5_state_t state ; # if defined ( __linux__ ) && defined ( _POSIX_MEMLOCK_RANGE ) mlock ( md5data , sizeof ( md5data ) ) ; mlock ( md5sum , sizeof ( md5data ) ) ; # endif md5data [ 0 ] = 0 ; strncpy ( md5data + 1 , password , 82 ) ; md5data [ 83 ] = '\\0' ; memcpy ( md5data + 1 + strlen ( password ) , pass_salt , 16 ) ; md5_init ( & state ) ; md5_append ( & state , ( const md5_byte_t * ) md5data , strlen ( password ) + 17 ) ; md5_finish ( & state , ( md5_byte_t * ) md5sum + 1 ) ; md5sum [ 0 ] = 0 ; init_packet ( & data , MT_PTYPE_DATA , srcmac , dstmac , sessionkey , outcounter ) ; plen = add_control_packet ( & data , MT_CPTYPE_PASSWORD , md5sum , 17 ) ; plen += add_control_packet ( & data , MT_CPTYPE_USERNAME , username , strlen ( username ) ) ; plen += add_control_packet ( & data , MT_CPTYPE_TERM_TYPE , terminal , strlen ( terminal ) ) ; if ( is_a_tty && get_terminal_size ( & width , & height ) != - 1 ) { width = htole16 ( width ) ; height = htole16 ( height ) ; plen += add_control_packet ( & data , MT_CPTYPE_TERM_WIDTH , & width , 2 ) ; plen += add_control_packet ( & data , MT_CPTYPE_TERM_HEIGHT , & height , 2 ) ; } outcounter += plen ; send_udp ( & data , 1 ) ; }","static void send_auth ( char * username , char * password ) { struct mt_packet data ; unsigned short width = 0 ; unsigned short height = 0 ; char * terminal = getenv ( ""TERM"" ) ; char md5data [ 100 ] ; unsigned char md5sum [ 17 ] ; int plen , act_pass_len ; md5_state_t state ; # if defined ( __linux__ ) && defined ( _POSIX_MEMLOCK_RANGE ) mlock ( md5data , sizeof ( md5data ) ) ; mlock ( md5sum , sizeof ( md5data ) ) ; # endif act_pass_len = strnlen ( password , 82 ) ; md5data [ 0 ] = 0 ; memcpy ( md5data + 1 , password , act_pass_len ) ; memcpy ( md5data + 1 + act_pass_len , pass_salt , 16 ) ; md5_init ( & state ) ; md5_append ( & state , ( const md5_byte_t * ) md5data , 1 + act_pass_len + 16 ) ; md5_finish ( & state , ( md5_byte_t * ) md5sum + 1 ) ; md5sum [ 0 ] = 0 ; init_packet ( & data , MT_PTYPE_DATA , srcmac , dstmac , sessionkey , outcounter ) ; plen = add_control_packet ( & data , MT_CPTYPE_PASSWORD , md5sum , 17 ) ; plen += add_control_packet ( & data , MT_CPTYPE_USERNAME , username , strlen ( username ) ) ; plen += add_control_packet ( & data , MT_CPTYPE_TERM_TYPE , terminal , strlen ( terminal ) ) ; if ( is_a_tty && get_terminal_size ( & width , & height ) != - 1 ) { width = htole16 ( width ) ; height = htole16 ( height ) ; plen += add_control_packet ( & data , MT_CPTYPE_TERM_WIDTH , & width , 2 ) ; plen += add_control_packet ( & data , MT_CPTYPE_TERM_HEIGHT , & height , 2 ) ; } outcounter += plen ; send_udp ( & data , 1 ) ; }" 962,"CWE-416 int hlim = np -> mcast_hops ; put_cmsg ( & msg , SOL_IPV6 , IPV6_2292HOPLIMIT , sizeof ( hlim ) , & hlim ) ; } if ( np -> rxopt . bits . rxflow ) { __be32 flowinfo = np -> rcv_flowinfo ; put_cmsg ( & msg , SOL_IPV6 , IPV6_FLOWINFO , sizeof ( flowinfo ) , & flowinfo ) ; } } len -= msg . msg_controllen ; return put_user ( len , optlen ) ; } case IPV6_MTU : { struct dst_entry * dst ; val = 0 ; rcu_read_lock ( ) ; dst = __sk_dst_get ( sk ) ; if ( dst ) val = dst_mtu ( dst ) ; rcu_read_unlock ( ) ; if ( ! val ) return - ENOTCONN ; break ; } case IPV6_V6ONLY : val = sk -> sk_ipv6only ; break ; case IPV6_RECVPKTINFO : val = np -> rxopt . bits . rxinfo ; break ; case IPV6_2292PKTINFO : val = np -> rxopt . bits . rxoinfo ; break ; case IPV6_RECVHOPLIMIT : val = np -> rxopt . bits . rxhlim ; break ; case IPV6_2292HOPLIMIT : val = np -> rxopt . bits . rxohlim ; break ; case IPV6_RECVRTHDR : val = np -> rxopt . bits . srcrt ; break ; case IPV6_2292RTHDR : val = np -> rxopt . bits . osrcrt ; break ; case IPV6_HOPOPTS : case IPV6_RTHDRDSTOPTS : case IPV6_RTHDR : case IPV6_DSTOPTS : { lock_sock ( sk ) ; len = ipv6_getsockopt_sticky ( sk , np -> opt , optname , optval , len ) ; release_sock ( sk ) ; if ( len < 0 ) return len ; return put_user ( len , optlen ) ; } case IPV6_RECVHOPOPTS : val = np -> rxopt . bits . hopopts ; break ; case IPV6_2292HOPOPTS : val = np -> rxopt . bits . ohopopts ; break ; case IPV6_RECVDSTOPTS : val = np -> rxopt . bits . dstopts ; break ; case IPV6_2292DSTOPTS : val = np -> rxopt . bits . odstopts ; break ; case IPV6_TCLASS : val = np -> tclass ; break ; case IPV6_RECVTCLASS : val = np -> rxopt . bits . rxtclass ; break ; case IPV6_FLOWINFO : val = np -> rxopt . bits . rxflow ; break ; case IPV6_RECVPATHMTU : val = np -> rxopt . bits . rxpmtu ; break ; case IPV6_PATHMTU : { struct dst_entry * dst ; struct ip6_mtuinfo mtuinfo ; if ( len < sizeof ( mtuinfo ) ) return - EINVAL ; len = sizeof ( mtuinfo ) ; memset ( & mtuinfo , 0 , sizeof ( mtuinfo ) ) ; rcu_read_lock ( ) ; dst = __sk_dst_get ( sk ) ; if ( dst ) mtuinfo . ip6m_mtu = dst_mtu ( dst ) ; rcu_read_unlock ( ) ; if ( ! mtuinfo . ip6m_mtu ) return - ENOTCONN ; if ( put_user ( len , optlen ) ) return - EFAULT ; if ( copy_to_user ( optval , & mtuinfo , len ) ) return - EFAULT ; return 0 ; }","int hlim = np -> mcast_hops ; put_cmsg ( & msg , SOL_IPV6 , IPV6_2292HOPLIMIT , sizeof ( hlim ) , & hlim ) ; } if ( np -> rxopt . bits . rxflow ) { __be32 flowinfo = np -> rcv_flowinfo ; put_cmsg ( & msg , SOL_IPV6 , IPV6_FLOWINFO , sizeof ( flowinfo ) , & flowinfo ) ; } } len -= msg . msg_controllen ; return put_user ( len , optlen ) ; } case IPV6_MTU : { struct dst_entry * dst ; val = 0 ; rcu_read_lock ( ) ; dst = __sk_dst_get ( sk ) ; if ( dst ) val = dst_mtu ( dst ) ; rcu_read_unlock ( ) ; if ( ! val ) return - ENOTCONN ; break ; } case IPV6_V6ONLY : val = sk -> sk_ipv6only ; break ; case IPV6_RECVPKTINFO : val = np -> rxopt . bits . rxinfo ; break ; case IPV6_2292PKTINFO : val = np -> rxopt . bits . rxoinfo ; break ; case IPV6_RECVHOPLIMIT : val = np -> rxopt . bits . rxhlim ; break ; case IPV6_2292HOPLIMIT : val = np -> rxopt . bits . rxohlim ; break ; case IPV6_RECVRTHDR : val = np -> rxopt . bits . srcrt ; break ; case IPV6_2292RTHDR : val = np -> rxopt . bits . osrcrt ; break ; case IPV6_HOPOPTS : case IPV6_RTHDRDSTOPTS : case IPV6_RTHDR : case IPV6_DSTOPTS : { struct ipv6_txoptions * opt ; lock_sock ( sk ) ; opt = rcu_dereference_protected ( np -> opt , sock_owned_by_user ( sk ) ) ; len = ipv6_getsockopt_sticky ( sk , opt , optname , optval , len ) ; release_sock ( sk ) ; if ( len < 0 ) return len ; return put_user ( len , optlen ) ; } case IPV6_RECVHOPOPTS : val = np -> rxopt . bits . hopopts ; break ; case IPV6_2292HOPOPTS : val = np -> rxopt . bits . ohopopts ; break ; case IPV6_RECVDSTOPTS : val = np -> rxopt . bits . dstopts ; break ; case IPV6_2292DSTOPTS : val = np -> rxopt . bits . odstopts ; break ; case IPV6_TCLASS : val = np -> tclass ; break ; case IPV6_RECVTCLASS : val = np -> rxopt . bits . rxtclass ; break ; case IPV6_FLOWINFO : val = np -> rxopt . bits . rxflow ; break ; case IPV6_RECVPATHMTU : val = np -> rxopt . bits . rxpmtu ; break ; case IPV6_PATHMTU : { struct dst_entry * dst ; struct ip6_mtuinfo mtuinfo ; if ( len < sizeof ( mtuinfo ) ) return - EINVAL ; len = sizeof ( mtuinfo ) ; memset ( & mtuinfo , 0 , sizeof ( mtuinfo ) ) ; rcu_read_lock ( ) ; dst = __sk_dst_get ( sk ) ; if ( dst ) mtuinfo . ip6m_mtu = dst_mtu ( dst ) ; rcu_read_unlock ( ) ; if ( ! mtuinfo . ip6m_mtu ) return - ENOTCONN ; if ( put_user ( len , optlen ) ) return - EFAULT ; if ( copy_to_user ( optval , & mtuinfo , len ) ) return - EFAULT ; return 0 ; }" 963,"CWE-404 queue_only_set = TRUE ; } else if ( Ustrcmp ( argrest , ""df"" ) == 0 || Ustrcmp ( argrest , ""di"" ) == 0 ) { synchronous_delivery = TRUE ; arg_queue_only = FALSE ; queue_only_set = TRUE ; } else if ( Ustrcmp ( argrest , ""dq"" ) == 0 ) { synchronous_delivery = FALSE ; arg_queue_only = TRUE ; queue_only_set = TRUE ; } else if ( Ustrcmp ( argrest , ""dqs"" ) == 0 ) { queue_smtp = TRUE ; arg_queue_only = FALSE ; queue_only_set = TRUE ; } else if ( Ustrcmp ( argrest , ""i"" ) == 0 || Ustrcmp ( argrest , ""itrue"" ) == 0 ) dot_ends = FALSE ; else if ( * argrest == 'M' ) { if ( i + 1 >= argc ) { fprintf ( stderr , ""exim: data expected after -o%s\\n"" , argrest ) ; exit ( EXIT_FAILURE ) ; } if ( Ustrcmp ( argrest , ""Ma"" ) == 0 ) sender_host_address = argv [ ++ i ] ; else if ( Ustrcmp ( argrest , ""Maa"" ) == 0 ) sender_host_authenticated = argv [ ++ i ] ; else if ( Ustrcmp ( argrest , ""Mas"" ) == 0 ) authenticated_sender = argv [ ++ i ] ; else if ( Ustrcmp ( argrest , ""Mai"" ) == 0 ) authenticated_id = argv [ ++ i ] ; else if ( Ustrcmp ( argrest , ""Mi"" ) == 0 ) interface_address = argv [ ++ i ] ; else if ( Ustrcmp ( argrest , ""Mm"" ) == 0 ) { if ( ! mac_ismsgid ( argv [ i + 1 ] ) ) { fprintf ( stderr , ""-oMm must be a valid message ID\\n"" ) ; exit ( EXIT_FAILURE ) ; } if ( ! trusted_config ) { fprintf ( stderr , ""-oMm must be called by a trusted user/config\\n"" ) ; exit ( EXIT_FAILURE ) ; } message_reference = argv [ ++ i ] ; } else if ( Ustrcmp ( argrest , ""Mr"" ) == 0 ) received_protocol = argv [ ++ i ] ; else if ( Ustrcmp ( argrest , ""Ms"" ) == 0 ) sender_host_name = argv [ ++ i ] ; else if ( Ustrcmp ( argrest , ""Mt"" ) == 0 ) { sender_ident_set = TRUE ; sender_ident = argv [ ++ i ] ; } else { badarg = TRUE ; break ; } } else if ( Ustrcmp ( argrest , ""m"" ) == 0 ) { } else if ( Ustrcmp ( argrest , ""o"" ) == 0 ) { } else if ( Ustrcmp ( argrest , ""P"" ) == 0 ) override_pid_file_path = argv [ ++ i ] ; else if ( * argrest == 'r' || * argrest == 's' ) { int * tp = ( * argrest == 'r' ) ? & arg_receive_timeout : & arg_smtp_receive_timeout ; if ( argrest [ 1 ] == 0 ) { if ( i + 1 < argc ) * tp = readconf_readtime ( argv [ ++ i ] , 0 , FALSE ) ; } else * tp = readconf_readtime ( argrest + 1 , 0 , FALSE ) ; if ( * tp < 0 ) { fprintf ( stderr , ""exim: bad time value %s: abandoned\\n"" , argv [ i ] ) ; exit ( EXIT_FAILURE ) ; } } else if ( Ustrcmp ( argrest , ""X"" ) == 0 ) override_local_interfaces = argv [ ++ i ] ; else badarg = TRUE ; break ; case 'p' : # ifdef EXIM_PERL if ( * argrest == 's' && argrest [ 1 ] == 0 ) { perl_start_option = 1 ; break ; } if ( * argrest == 'd' && argrest [ 1 ] == 0 ) { perl_start_option = - 1 ; break ; } # endif if ( * argrest == 0 ) { if ( i + 1 < argc ) argrest = argv [ ++ i ] ; else { badarg = TRUE ; break ; } } if ( * argrest != 0 ) { uschar * hn = Ustrchr ( argrest , ':' ) ; if ( hn == NULL ) { received_protocol = argrest ; } else { int old_pool = store_pool ; store_pool = POOL_PERM ; received_protocol = string_copyn ( argrest , hn - argrest ) ; store_pool = old_pool ; sender_host_name = hn + 1 ; } } break ; case 'q' : receiving_message = FALSE ; if ( queue_interval >= 0 ) { fprintf ( stderr , ""exim: -q specified more than once\\n"" ) ; exit ( EXIT_FAILURE ) ; } if ( * argrest == 'q' ) { queue_2stage = TRUE ; argrest ++ ; } if ( * argrest == 'i' ) { queue_run_first_delivery = TRUE ; argrest ++ ; } if ( * argrest == 'f' ) { queue_run_force = TRUE ; if ( * ++ argrest == 'f' ) { deliver_force_thaw = TRUE ; argrest ++ ; } } if ( * argrest == 'l' ) { queue_run_local = TRUE ; argrest ++ ; } if ( * argrest == 'G' ) { int i ; for ( argrest ++ , i = 0 ; argrest [ i ] && argrest [ i ] != '/' ; ) i ++ ; queue_name = string_copyn ( argrest , i ) ;","queue_only_set = TRUE ; } else if ( Ustrcmp ( argrest , ""df"" ) == 0 || Ustrcmp ( argrest , ""di"" ) == 0 ) { synchronous_delivery = TRUE ; arg_queue_only = FALSE ; queue_only_set = TRUE ; } else if ( Ustrcmp ( argrest , ""dq"" ) == 0 ) { synchronous_delivery = FALSE ; arg_queue_only = TRUE ; queue_only_set = TRUE ; } else if ( Ustrcmp ( argrest , ""dqs"" ) == 0 ) { queue_smtp = TRUE ; arg_queue_only = FALSE ; queue_only_set = TRUE ; } else if ( Ustrcmp ( argrest , ""i"" ) == 0 || Ustrcmp ( argrest , ""itrue"" ) == 0 ) dot_ends = FALSE ; else if ( * argrest == 'M' ) { if ( i + 1 >= argc ) { fprintf ( stderr , ""exim: data expected after -o%s\\n"" , argrest ) ; exit ( EXIT_FAILURE ) ; } if ( Ustrcmp ( argrest , ""Ma"" ) == 0 ) sender_host_address = argv [ ++ i ] ; else if ( Ustrcmp ( argrest , ""Maa"" ) == 0 ) sender_host_authenticated = argv [ ++ i ] ; else if ( Ustrcmp ( argrest , ""Mas"" ) == 0 ) authenticated_sender = argv [ ++ i ] ; else if ( Ustrcmp ( argrest , ""Mai"" ) == 0 ) authenticated_id = argv [ ++ i ] ; else if ( Ustrcmp ( argrest , ""Mi"" ) == 0 ) interface_address = argv [ ++ i ] ; else if ( Ustrcmp ( argrest , ""Mm"" ) == 0 ) { if ( ! mac_ismsgid ( argv [ i + 1 ] ) ) { fprintf ( stderr , ""-oMm must be a valid message ID\\n"" ) ; exit ( EXIT_FAILURE ) ; } if ( ! trusted_config ) { fprintf ( stderr , ""-oMm must be called by a trusted user/config\\n"" ) ; exit ( EXIT_FAILURE ) ; } message_reference = argv [ ++ i ] ; } else if ( Ustrcmp ( argrest , ""Mr"" ) == 0 ) if ( received_protocol ) { fprintf ( stderr , ""received_protocol is set already\\n"" ) ; exit ( EXIT_FAILURE ) ; } else received_protocol = argv [ ++ i ] ; else if ( Ustrcmp ( argrest , ""Ms"" ) == 0 ) sender_host_name = argv [ ++ i ] ; else if ( Ustrcmp ( argrest , ""Mt"" ) == 0 ) { sender_ident_set = TRUE ; sender_ident = argv [ ++ i ] ; } else { badarg = TRUE ; break ; } } else if ( Ustrcmp ( argrest , ""m"" ) == 0 ) { } else if ( Ustrcmp ( argrest , ""o"" ) == 0 ) { } else if ( Ustrcmp ( argrest , ""P"" ) == 0 ) override_pid_file_path = argv [ ++ i ] ; else if ( * argrest == 'r' || * argrest == 's' ) { int * tp = ( * argrest == 'r' ) ? & arg_receive_timeout : & arg_smtp_receive_timeout ; if ( argrest [ 1 ] == 0 ) { if ( i + 1 < argc ) * tp = readconf_readtime ( argv [ ++ i ] , 0 , FALSE ) ; } else * tp = readconf_readtime ( argrest + 1 , 0 , FALSE ) ; if ( * tp < 0 ) { fprintf ( stderr , ""exim: bad time value %s: abandoned\\n"" , argv [ i ] ) ; exit ( EXIT_FAILURE ) ; } } else if ( Ustrcmp ( argrest , ""X"" ) == 0 ) override_local_interfaces = argv [ ++ i ] ; else badarg = TRUE ; break ; case 'p' : # ifdef EXIM_PERL if ( * argrest == 's' && argrest [ 1 ] == 0 ) { perl_start_option = 1 ; break ; } if ( * argrest == 'd' && argrest [ 1 ] == 0 ) { perl_start_option = - 1 ; break ; } # endif if ( * argrest == 0 ) { if ( i + 1 < argc ) argrest = argv [ ++ i ] ; else { badarg = TRUE ; break ; } } if ( * argrest != 0 ) { uschar * hn ; if ( received_protocol ) { fprintf ( stderr , ""received_protocol is set already\\n"" ) ; exit ( EXIT_FAILURE ) ; } hn = Ustrchr ( argrest , ':' ) ; if ( hn == NULL ) { received_protocol = argrest ; } else { int old_pool = store_pool ; store_pool = POOL_PERM ; received_protocol = string_copyn ( argrest , hn - argrest ) ; store_pool = old_pool ; sender_host_name = hn + 1 ; } } break ; case 'q' : receiving_message = FALSE ; if ( queue_interval >= 0 ) { fprintf ( stderr , ""exim: -q specified more than once\\n"" ) ; exit ( EXIT_FAILURE ) ; } if ( * argrest == 'q' ) { queue_2stage = TRUE ; argrest ++ ; } if ( * argrest == 'i' ) { queue_run_first_delivery = TRUE ; argrest ++ ; } if ( * argrest == 'f' ) { queue_run_force = TRUE ; if ( * ++ argrest == 'f' ) { deliver_force_thaw = TRUE ; argrest ++ ; } } if ( * argrest == 'l' ) { queue_run_local = TRUE ; argrest ++ ; } if ( * argrest == 'G' ) { int i ; for ( argrest ++ , i = 0 ; argrest [ i ] && argrest [ i ] != '/' ; ) i ++ ; queue_name = string_copyn ( argrest , i ) ;" 964,"CWE-119 void psf_asciiheader_printf ( SF_PRIVATE * psf , const char * format , ... ) { va_list argptr ; int maxlen ; char * start ; maxlen = strlen ( ( char * ) psf -> header ) ; start = ( ( char * ) psf -> header ) + maxlen ; maxlen = sizeof ( psf -> header ) - maxlen ; va_start ( argptr , format ) ; vsnprintf ( start , maxlen , format , argptr ) ; va_end ( argptr ) ; start [ maxlen - 1 ] = 0 ; psf -> headindex = strlen ( ( char * ) psf -> header ) ; return ; }","void psf_asciiheader_printf ( SF_PRIVATE * psf , const char * format , ... ) { va_list argptr ; int maxlen ; char * start ; maxlen = strlen ( ( char * ) psf -> header . ptr ) ; start = ( ( char * ) psf -> header . ptr ) + maxlen ; maxlen = psf -> header . len - maxlen ; va_start ( argptr , format ) ; vsnprintf ( start , maxlen , format , argptr ) ; va_end ( argptr ) ; start [ maxlen - 1 ] = 0 ; psf -> header . indx = strlen ( ( char * ) psf -> header . ptr ) ; return ; }" 965,"CWE-20 static void f2fs_put_super ( struct super_block * sb ) { struct f2fs_sb_info * sbi = F2FS_SB ( sb ) ; int i ; f2fs_quota_off_umount ( sb ) ; mutex_lock ( & sbi -> umount_mutex ) ; if ( is_sbi_flag_set ( sbi , SBI_IS_DIRTY ) || ! is_set_ckpt_flags ( sbi , CP_UMOUNT_FLAG ) ) { struct cp_control cpc = { . reason = CP_UMOUNT , } ; write_checkpoint ( sbi , & cpc ) ; } f2fs_wait_discard_bios ( sbi ) ; if ( f2fs_discard_en ( sbi ) && ! sbi -> discard_blks ) { struct cp_control cpc = { . reason = CP_UMOUNT | CP_TRIMMED , } ; write_checkpoint ( sbi , & cpc ) ; } f2fs_destroy_stats ( sbi ) ; release_ino_entry ( sbi , true ) ; f2fs_leave_shrinker ( sbi ) ; mutex_unlock ( & sbi -> umount_mutex ) ; f2fs_flush_merged_writes ( sbi ) ; iput ( sbi -> node_inode ) ; iput ( sbi -> meta_inode ) ; destroy_node_manager ( sbi ) ; destroy_segment_manager ( sbi ) ; kfree ( sbi -> ckpt ) ; f2fs_unregister_sysfs ( sbi ) ; sb -> s_fs_info = NULL ; if ( sbi -> s_chksum_driver ) crypto_free_shash ( sbi -> s_chksum_driver ) ; kfree ( sbi -> raw_super ) ; destroy_device_list ( sbi ) ; mempool_destroy ( sbi -> write_io_dummy ) ; # ifdef CONFIG_QUOTA for ( i = 0 ; i < MAXQUOTAS ; i ++ ) kfree ( sbi -> s_qf_names [ i ] ) ; # endif destroy_percpu_info ( sbi ) ; for ( i = 0 ; i < NR_PAGE_TYPE ; i ++ ) kfree ( sbi -> write_io [ i ] ) ; kfree ( sbi ) ; }","static void f2fs_put_super ( struct super_block * sb ) { struct f2fs_sb_info * sbi = F2FS_SB ( sb ) ; int i ; f2fs_quota_off_umount ( sb ) ; mutex_lock ( & sbi -> umount_mutex ) ; if ( is_sbi_flag_set ( sbi , SBI_IS_DIRTY ) || ! is_set_ckpt_flags ( sbi , CP_UMOUNT_FLAG ) ) { struct cp_control cpc = { . reason = CP_UMOUNT , } ; write_checkpoint ( sbi , & cpc ) ; } f2fs_wait_discard_bios ( sbi , true ) ; if ( f2fs_discard_en ( sbi ) && ! sbi -> discard_blks ) { struct cp_control cpc = { . reason = CP_UMOUNT | CP_TRIMMED , } ; write_checkpoint ( sbi , & cpc ) ; } f2fs_destroy_stats ( sbi ) ; release_ino_entry ( sbi , true ) ; f2fs_leave_shrinker ( sbi ) ; mutex_unlock ( & sbi -> umount_mutex ) ; f2fs_flush_merged_writes ( sbi ) ; iput ( sbi -> node_inode ) ; iput ( sbi -> meta_inode ) ; destroy_node_manager ( sbi ) ; destroy_segment_manager ( sbi ) ; kfree ( sbi -> ckpt ) ; f2fs_unregister_sysfs ( sbi ) ; sb -> s_fs_info = NULL ; if ( sbi -> s_chksum_driver ) crypto_free_shash ( sbi -> s_chksum_driver ) ; kfree ( sbi -> raw_super ) ; destroy_device_list ( sbi ) ; mempool_destroy ( sbi -> write_io_dummy ) ; # ifdef CONFIG_QUOTA for ( i = 0 ; i < MAXQUOTAS ; i ++ ) kfree ( sbi -> s_qf_names [ i ] ) ; # endif destroy_percpu_info ( sbi ) ; for ( i = 0 ; i < NR_PAGE_TYPE ; i ++ ) kfree ( sbi -> write_io [ i ] ) ; kfree ( sbi ) ; }" 966,"CWE-119 expn = ""Can\'t read SAT"" ; goto out0 ; } # ifdef CDF_DEBUG cdf_dump_sat ( ""SAT"" , & sat , CDF_SEC_SIZE ( & h ) ) ; # endif if ( ( i = cdf_read_ssat ( & info , & h , & sat , & ssat ) ) == - 1 ) { expn = ""Can\'t read SSAT"" ; goto out1 ; } # ifdef CDF_DEBUG cdf_dump_sat ( ""SSAT"" , & ssat , CDF_SHORT_SEC_SIZE ( & h ) ) ; # endif if ( ( i = cdf_read_dir ( & info , & h , & sat , & dir ) ) == - 1 ) { expn = ""Can\'t read directory"" ; goto out2 ; } const cdf_directory_t * root_storage ; if ( ( i = cdf_read_short_stream ( & info , & h , & sat , & dir , & sst , & root_storage ) ) == - 1 ) { expn = ""Cannot read short stream"" ; goto out3 ; } # ifdef CDF_DEBUG cdf_dump_dir ( & info , & h , & sat , & ssat , & sst , & dir ) ; # endif # ifdef notdef if ( root_storage ) { if ( NOTMIME ( ms ) ) { char clsbuf [ 128 ] ; if ( file_printf ( ms , ""CLSID %s, "" , format_clsid ( clsbuf , sizeof ( clsbuf ) , root_storage -> d_storage_uuid ) ) == - 1 ) return - 1 ; } } # endif if ( ( i = cdf_read_summary_info ( & info , & h , & sat , & ssat , & sst , & dir , & scn ) ) == - 1 ) { if ( errno == ESRCH ) { corrupt = expn ; expn = ""No summary info"" ; } else { expn = ""Cannot read summary info"" ; } goto out4 ; } # ifdef CDF_DEBUG cdf_dump_summary_info ( & h , & scn ) ; # endif if ( ( i = cdf_file_summary_info ( ms , & h , & scn , root_storage -> d_storage_uuid ) ) < 0 ) expn = ""Can\'t expand summary_info"" ; if ( i == 0 ) { const char * str = NULL ; cdf_directory_t * d ; char name [ __arraycount ( d -> d_name ) ] ; size_t j , k ; for ( j = 0 ; str == NULL && j < dir . dir_len ; j ++ ) { d = & dir . dir_tab [ j ] ; for ( k = 0 ; k < sizeof ( name ) ; k ++ ) name [ k ] = ( char ) cdf_tole2 ( d -> d_name [ k ] ) ; str = cdf_app_to_mime ( name , NOTMIME ( ms ) ? name2desc : name2mime ) ; } if ( NOTMIME ( ms ) ) { if ( str != NULL ) { if ( file_printf ( ms , ""%s"" , str ) == - 1 ) return - 1 ; i = 1 ; } } else { if ( str == NULL ) str = ""vnd.ms-office"" ; if ( file_printf ( ms , ""application/%s"" , str ) == - 1 ) return - 1 ; i = 1 ; } } free ( scn . sst_tab ) ; out4 : free ( sst . sst_tab ) ; out3 : free ( dir . dir_tab ) ; out2 : free ( ssat . sat_tab ) ; out1 : free ( sat . sat_tab ) ; out0 : if ( i == - 1 ) { if ( NOTMIME ( ms ) ) { if ( file_printf ( ms , ""Composite Document File V2 Document"" ) == - 1 ) return - 1 ; if ( * expn ) if ( file_printf ( ms , "", %s%s"" , corrupt , expn ) == - 1 ) return - 1 ; } else { if ( file_printf ( ms , ""application/CDFV2-corrupt"" ) == - 1 ) return - 1 ; } i = 1 ;","expn = ""Can\'t read SAT"" ; goto out0 ; } # ifdef CDF_DEBUG cdf_dump_sat ( ""SAT"" , & sat , CDF_SEC_SIZE ( & h ) ) ; # endif if ( ( i = cdf_read_ssat ( & info , & h , & sat , & ssat ) ) == - 1 ) { expn = ""Can\'t read SSAT"" ; goto out1 ; } # ifdef CDF_DEBUG cdf_dump_sat ( ""SSAT"" , & ssat , CDF_SHORT_SEC_SIZE ( & h ) ) ; # endif if ( ( i = cdf_read_dir ( & info , & h , & sat , & dir ) ) == - 1 ) { expn = ""Can\'t read directory"" ; goto out2 ; } const cdf_directory_t * root_storage ; if ( ( i = cdf_read_short_stream ( & info , & h , & sat , & dir , & sst , & root_storage ) ) == - 1 ) { expn = ""Cannot read short stream"" ; goto out3 ; } # ifdef CDF_DEBUG cdf_dump_dir ( & info , & h , & sat , & ssat , & sst , & dir ) ; # endif # ifdef notdef if ( root_storage ) { if ( NOTMIME ( ms ) ) { char clsbuf [ 128 ] ; if ( file_printf ( ms , ""CLSID %s, "" , format_clsid ( clsbuf , sizeof ( clsbuf ) , root_storage -> d_storage_uuid ) ) == - 1 ) return - 1 ; } } # endif if ( ( i = cdf_read_summary_info ( & info , & h , & sat , & ssat , & sst , & dir , & scn ) ) == - 1 ) { if ( errno == ESRCH ) { corrupt = expn ; expn = ""No summary info"" ; } else { expn = ""Cannot read summary info"" ; } goto out4 ; } # ifdef CDF_DEBUG cdf_dump_summary_info ( & h , & scn ) ; # endif if ( ( i = cdf_file_summary_info ( ms , & h , & scn , root_storage ) ) < 0 ) expn = ""Can\'t expand summary_info"" ; if ( i == 0 ) { const char * str = NULL ; cdf_directory_t * d ; char name [ __arraycount ( d -> d_name ) ] ; size_t j , k ; for ( j = 0 ; str == NULL && j < dir . dir_len ; j ++ ) { d = & dir . dir_tab [ j ] ; for ( k = 0 ; k < sizeof ( name ) ; k ++ ) name [ k ] = ( char ) cdf_tole2 ( d -> d_name [ k ] ) ; str = cdf_app_to_mime ( name , NOTMIME ( ms ) ? name2desc : name2mime ) ; } if ( NOTMIME ( ms ) ) { if ( str != NULL ) { if ( file_printf ( ms , ""%s"" , str ) == - 1 ) return - 1 ; i = 1 ; } } else { if ( str == NULL ) str = ""vnd.ms-office"" ; if ( file_printf ( ms , ""application/%s"" , str ) == - 1 ) return - 1 ; i = 1 ; } } free ( scn . sst_tab ) ; out4 : free ( sst . sst_tab ) ; out3 : free ( dir . dir_tab ) ; out2 : free ( ssat . sat_tab ) ; out1 : free ( sat . sat_tab ) ; out0 : if ( i == - 1 ) { if ( NOTMIME ( ms ) ) { if ( file_printf ( ms , ""Composite Document File V2 Document"" ) == - 1 ) return - 1 ; if ( * expn ) if ( file_printf ( ms , "", %s%s"" , corrupt , expn ) == - 1 ) return - 1 ; } else { if ( file_printf ( ms , ""application/CDFV2-corrupt"" ) == - 1 ) return - 1 ; } i = 1 ;" 967,"CWE-20 int vcc_recvmsg ( struct kiocb * iocb , struct socket * sock , struct msghdr * msg , size_t size , int flags ) { struct sock * sk = sock -> sk ; struct atm_vcc * vcc ; struct sk_buff * skb ; int copied , error = - EINVAL ; msg -> msg_namelen = 0 ; if ( sock -> state != SS_CONNECTED ) return - ENOTCONN ; if ( flags & ~ ( MSG_DONTWAIT | MSG_PEEK ) ) return - EOPNOTSUPP ; vcc = ATM_SD ( sock ) ; if ( test_bit ( ATM_VF_RELEASED , & vcc -> flags ) || test_bit ( ATM_VF_CLOSE , & vcc -> flags ) || ! test_bit ( ATM_VF_READY , & vcc -> flags ) ) return 0 ; skb = skb_recv_datagram ( sk , flags , flags & MSG_DONTWAIT , & error ) ; if ( ! skb ) return error ; copied = skb -> len ; if ( copied > size ) { copied = size ; msg -> msg_flags |= MSG_TRUNC ; } error = skb_copy_datagram_iovec ( skb , 0 , msg -> msg_iov , copied ) ; if ( error ) return error ; sock_recv_ts_and_drops ( msg , sk , skb ) ; if ( ! ( flags & MSG_PEEK ) ) { pr_debug ( ""%d -= %d\\n"" , atomic_read ( & sk -> sk_rmem_alloc ) , skb -> truesize ) ; atm_return ( vcc , skb -> truesize ) ; } skb_free_datagram ( sk , skb ) ; return copied ; }","int vcc_recvmsg ( struct kiocb * iocb , struct socket * sock , struct msghdr * msg , size_t size , int flags ) { struct sock * sk = sock -> sk ; struct atm_vcc * vcc ; struct sk_buff * skb ; int copied , error = - EINVAL ; if ( sock -> state != SS_CONNECTED ) return - ENOTCONN ; if ( flags & ~ ( MSG_DONTWAIT | MSG_PEEK ) ) return - EOPNOTSUPP ; vcc = ATM_SD ( sock ) ; if ( test_bit ( ATM_VF_RELEASED , & vcc -> flags ) || test_bit ( ATM_VF_CLOSE , & vcc -> flags ) || ! test_bit ( ATM_VF_READY , & vcc -> flags ) ) return 0 ; skb = skb_recv_datagram ( sk , flags , flags & MSG_DONTWAIT , & error ) ; if ( ! skb ) return error ; copied = skb -> len ; if ( copied > size ) { copied = size ; msg -> msg_flags |= MSG_TRUNC ; } error = skb_copy_datagram_iovec ( skb , 0 , msg -> msg_iov , copied ) ; if ( error ) return error ; sock_recv_ts_and_drops ( msg , sk , skb ) ; if ( ! ( flags & MSG_PEEK ) ) { pr_debug ( ""%d -= %d\\n"" , atomic_read ( & sk -> sk_rmem_alloc ) , skb -> truesize ) ; atm_return ( vcc , skb -> truesize ) ; } skb_free_datagram ( sk , skb ) ; return copied ; }" 968,"CWE-119 void vp9_reset_segment_features ( struct segmentation * seg ) { seg -> enabled = 0 ; seg -> update_map = 0 ; seg -> update_data = 0 ; vpx_memset ( seg -> tree_probs , 255 , sizeof ( seg -> tree_probs ) ) ; vp9_clearall_segfeatures ( seg ) ; }","void vp9_reset_segment_features ( struct segmentation * seg ) { seg -> enabled = 0 ; seg -> update_map = 0 ; seg -> update_data = 0 ; memset ( seg -> tree_probs , 255 , sizeof ( seg -> tree_probs ) ) ; vp9_clearall_segfeatures ( seg ) ; }" 969,"CWE-125 static irqreturn_t snd_msnd_interrupt ( int irq , void * dev_id ) { struct snd_msnd * chip = dev_id ; void * pwDSPQData = chip -> mappedbase + DSPQ_DATA_BUFF ; while ( readw ( chip -> DSPQ + JQS_wTail ) != readw ( chip -> DSPQ + JQS_wHead ) ) { u16 wTmp ; snd_msnd_eval_dsp_msg ( chip , readw ( pwDSPQData + 2 * readw ( chip -> DSPQ + JQS_wHead ) ) ) ; wTmp = readw ( chip -> DSPQ + JQS_wHead ) + 1 ; if ( wTmp > readw ( chip -> DSPQ + JQS_wSize ) ) writew ( 0 , chip -> DSPQ + JQS_wHead ) ; else writew ( wTmp , chip -> DSPQ + JQS_wHead ) ; } inb ( chip -> io + HP_RXL ) ; return IRQ_HANDLED ; }","static irqreturn_t snd_msnd_interrupt ( int irq , void * dev_id ) { struct snd_msnd * chip = dev_id ; void * pwDSPQData = chip -> mappedbase + DSPQ_DATA_BUFF ; u16 head , tail , size ; head = readw ( chip -> DSPQ + JQS_wHead ) ; tail = readw ( chip -> DSPQ + JQS_wTail ) ; size = readw ( chip -> DSPQ + JQS_wSize ) ; if ( head > size || tail > size ) goto out ; while ( head != tail ) { snd_msnd_eval_dsp_msg ( chip , readw ( pwDSPQData + 2 * head ) ) ; if ( ++ head > size ) head = 0 ; writew ( head , chip -> DSPQ + JQS_wHead ) ; } out : inb ( chip -> io + HP_RXL ) ; return IRQ_HANDLED ; }" 970,"CWE-119 static inline void queue_unlock ( struct futex_q * q , struct futex_hash_bucket * hb ) { spin_unlock ( & hb -> lock ) ; drop_futex_key_refs ( & q -> key ) ; }","static inline void queue_unlock ( struct futex_q * q , struct futex_hash_bucket * hb ) { spin_unlock ( & hb -> lock ) ; }" 971,"CWE-416 int dbd_db_login ( SV * dbh , imp_dbh_t * imp_dbh , char * dbname , char * user , char * password ) { # ifdef dTHR dTHR ; # endif dTHX ; D_imp_xxh ( dbh ) ; if ( DBIc_TRACE_LEVEL ( imp_xxh ) >= 2 ) PerlIO_printf ( DBIc_LOGPIO ( imp_xxh ) , ""imp_dbh->connect: dsn = %s, uid = %s, pwd = %s\\n"" , dbname ? dbname : ""NULL"" , user ? user : ""NULL"" , password ? password : ""NULL"" ) ; imp_dbh -> stats . auto_reconnects_ok = 0 ; imp_dbh -> stats . auto_reconnects_failed = 0 ; imp_dbh -> bind_type_guessing = FALSE ; imp_dbh -> bind_comment_placeholders = FALSE ; imp_dbh -> has_transactions = TRUE ; imp_dbh -> auto_reconnect = FALSE ; # if defined ( sv_utf8_decode ) && MYSQL_VERSION_ID >= SERVER_PREPARE_VERSION imp_dbh -> enable_utf8 = FALSE ; # endif if ( ! my_login ( aTHX_ dbh , imp_dbh ) ) { do_error ( dbh , mysql_errno ( imp_dbh -> pmysql ) , mysql_error ( imp_dbh -> pmysql ) , mysql_sqlstate ( imp_dbh -> pmysql ) ) ; return FALSE ; } DBIc_ACTIVE_on ( imp_dbh ) ; DBIc_on ( imp_dbh , DBIcf_IMPSET ) ; return TRUE ; }","int dbd_db_login ( SV * dbh , imp_dbh_t * imp_dbh , char * dbname , char * user , char * password ) { # ifdef dTHR dTHR ; # endif dTHX ; D_imp_xxh ( dbh ) ; if ( DBIc_TRACE_LEVEL ( imp_xxh ) >= 2 ) PerlIO_printf ( DBIc_LOGPIO ( imp_xxh ) , ""imp_dbh->connect: dsn = %s, uid = %s, pwd = %s\\n"" , dbname ? dbname : ""NULL"" , user ? user : ""NULL"" , password ? password : ""NULL"" ) ; imp_dbh -> stats . auto_reconnects_ok = 0 ; imp_dbh -> stats . auto_reconnects_failed = 0 ; imp_dbh -> bind_type_guessing = FALSE ; imp_dbh -> bind_comment_placeholders = FALSE ; imp_dbh -> has_transactions = TRUE ; imp_dbh -> auto_reconnect = FALSE ; # if defined ( sv_utf8_decode ) && MYSQL_VERSION_ID >= SERVER_PREPARE_VERSION imp_dbh -> enable_utf8 = FALSE ; # endif if ( ! my_login ( aTHX_ dbh , imp_dbh ) ) { if ( imp_dbh -> pmysql ) do_error ( dbh , mysql_errno ( imp_dbh -> pmysql ) , mysql_error ( imp_dbh -> pmysql ) , mysql_sqlstate ( imp_dbh -> pmysql ) ) ; return FALSE ; } DBIc_ACTIVE_on ( imp_dbh ) ; DBIc_on ( imp_dbh , DBIcf_IMPSET ) ; return TRUE ; }" 972,"CWE-200 static int get_linux_shareopts ( const char * shareopts , char * * plinux_opts ) { int rc ; assert ( plinux_opts != NULL ) ; * plinux_opts = NULL ; ( void ) add_linux_shareopt ( plinux_opts , ""no_subtree_check"" , NULL ) ; ( void ) add_linux_shareopt ( plinux_opts , ""no_root_squash"" , NULL ) ; ( void ) add_linux_shareopt ( plinux_opts , ""mountpoint"" , NULL ) ; rc = foreach_nfs_shareopt ( shareopts , get_linux_shareopts_cb , plinux_opts ) ; if ( rc != SA_OK ) { free ( * plinux_opts ) ; * plinux_opts = NULL ; } return ( rc ) ; }","static int get_linux_shareopts ( const char * shareopts , char * * plinux_opts ) { int rc ; assert ( plinux_opts != NULL ) ; * plinux_opts = NULL ; ( void ) add_linux_shareopt ( plinux_opts , ""no_subtree_check"" , NULL ) ; ( void ) add_linux_shareopt ( plinux_opts , ""no_root_squash"" , NULL ) ; ( void ) add_linux_shareopt ( plinux_opts , ""mountpoint"" , NULL ) ; rc = foreach_shareopt ( shareopts , get_linux_shareopts_cb , plinux_opts ) ; if ( rc != SA_OK ) { free ( * plinux_opts ) ; * plinux_opts = NULL ; } return ( rc ) ; }" 973,"CWE-119 void show_progress ( int frame_in , int frame_out , uint64_t dx_time ) { fprintf ( stderr , ""%d decoded frames/%d showed frames in %"" PRId64 "" us (%.2f fps)\\r"" , frame_in , frame_out , dx_time , ( double ) frame_out * 1000000.0 / ( double ) dx_time ) ; }","static void show_progress ( int frame_in , int frame_out , uint64_t dx_time ) { fprintf ( stderr , ""%d decoded frames/%d showed frames in %"" PRId64 "" us (%.2f fps)\\r"" , frame_in , frame_out , dx_time , ( double ) frame_out * 1000000.0 / ( double ) dx_time ) ; }" 974,"CWE-119 static vpx_codec_err_t ctrl_set_scale_mode ( vpx_codec_alg_priv_t * ctx , int ctr_id , va_list args ) { vpx_scaling_mode_t * const mode = va_arg ( args , vpx_scaling_mode_t * ) ; if ( mode ) { const int res = vp9_set_internal_size ( ctx -> cpi , ( VPX_SCALING ) mode -> h_scaling_mode , ( VPX_SCALING ) mode -> v_scaling_mode ) ; return ( res == 0 ) ? VPX_CODEC_OK : VPX_CODEC_INVALID_PARAM ; } else { return VPX_CODEC_INVALID_PARAM ; } }","static vpx_codec_err_t ctrl_set_scale_mode ( vpx_codec_alg_priv_t * ctx , va_list args ) { vpx_scaling_mode_t * const mode = va_arg ( args , vpx_scaling_mode_t * ) ; if ( mode ) { const int res = vp9_set_internal_size ( ctx -> cpi , ( VPX_SCALING ) mode -> h_scaling_mode , ( VPX_SCALING ) mode -> v_scaling_mode ) ; return ( res == 0 ) ? VPX_CODEC_OK : VPX_CODEC_INVALID_PARAM ; } else { return VPX_CODEC_INVALID_PARAM ; } }" 975,"CWE-119 static char * get_pid_environ_val ( pid_t pid , char * val ) { char temp [ 500 ] ; int i = 0 ; int foundit = 0 ; FILE * fp ; sprintf ( temp , ""/proc/%d/environ"" , pid ) ; fp = fopen ( temp , ""r"" ) ; if ( fp == NULL ) return NULL ; for ( ; ; ) { temp [ i ] = fgetc ( fp ) ; if ( foundit == 1 && ( temp [ i ] == 0 || temp [ i ] == '\\0' || temp [ i ] == EOF ) ) { char * ret ; temp [ i ] = 0 ; ret = malloc ( strlen ( temp ) + 10 ) ; sprintf ( ret , ""%s"" , temp ) ; fclose ( fp ) ; return ret ; } switch ( temp [ i ] ) { case EOF : fclose ( fp ) ; return NULL ; case '=' : temp [ i ] = 0 ; if ( ! strcmp ( temp , val ) ) { foundit = 1 ; } i = 0 ; break ; case '\\0' : i = 0 ; break ; default : i ++ ; } } }","static char * get_pid_environ_val ( pid_t pid , char * val ) { int temp_size = 500 ; char * temp = malloc ( temp_size ) ; int i = 0 ; int foundit = 0 ; FILE * fp ; sprintf ( temp , ""/proc/%d/environ"" , pid ) ; fp = fopen ( temp , ""r"" ) ; if ( fp == NULL ) return NULL ; for ( ; ; ) { if ( i >= temp_size ) { temp_size *= 2 ; temp = realloc ( temp , temp_size ) ; } temp [ i ] = fgetc ( fp ) ; if ( foundit == 1 && ( temp [ i ] == 0 || temp [ i ] == '\\0' || temp [ i ] == EOF ) ) { char * ret ; temp [ i ] = 0 ; ret = malloc ( strlen ( temp ) + 10 ) ; sprintf ( ret , ""%s"" , temp ) ; fclose ( fp ) ; return ret ; } switch ( temp [ i ] ) { case EOF : fclose ( fp ) ; return NULL ; case '=' : temp [ i ] = 0 ; if ( ! strcmp ( temp , val ) ) { foundit = 1 ; } i = 0 ; break ; case '\\0' : i = 0 ; break ; default : i ++ ; } } }" 976,"CWE-476 static void do_iccprofile_item ( deark * c , lctx * d , i64 pos , i64 len ) { i64 selector ; i64 data_len ; if ( len < 4 ) return ; selector = de_getu32be ( pos ) ; data_len = len - 4 ; de_dbg ( c , ""ICC profile segment, selector=%d, data len=%d"" , ( int ) selector , ( int ) data_len ) ; if ( selector != 1 ) { dbuf_close ( d -> iccprofile_file ) ; d -> iccprofile_file = NULL ; } if ( selector == 0 ) { d -> iccprofile_file = dbuf_create_output_file ( c , ""icc"" , NULL , DE_CREATEFLAG_IS_AUX ) ; } if ( selector == 0 || selector == 1 ) { dbuf_copy ( c -> infile , pos + 4 , data_len , d -> iccprofile_file ) ; } }","static void do_iccprofile_item ( deark * c , lctx * d , i64 pos , i64 len ) { i64 selector ; i64 data_len ; if ( len < 4 ) return ; selector = de_getu32be ( pos ) ; data_len = len - 4 ; de_dbg ( c , ""ICC profile segment, selector=%d, data len=%d"" , ( int ) selector , ( int ) data_len ) ; if ( selector != 1 ) { dbuf_close ( d -> iccprofile_file ) ; d -> iccprofile_file = NULL ; } if ( selector == 0 ) { d -> iccprofile_file = dbuf_create_output_file ( c , ""icc"" , NULL , DE_CREATEFLAG_IS_AUX ) ; } if ( selector == 0 || selector == 1 ) { if ( ! d -> iccprofile_file ) { de_warn ( c , ""Bad ICC profile segment"" ) ; return ; } dbuf_copy ( c -> infile , pos + 4 , data_len , d -> iccprofile_file ) ; } }" 977,"CWE-119 static int picolcd_raw_event ( struct hid_device * hdev , struct hid_report * report , u8 * raw_data , int size ) { struct picolcd_data * data = hid_get_drvdata ( hdev ) ; unsigned long flags ; int ret = 0 ; if ( ! data ) return 1 ; if ( report -> id == REPORT_KEY_STATE ) { if ( data -> input_keys ) ret = picolcd_raw_keypad ( data , report , raw_data + 1 , size - 1 ) ; } else if ( report -> id == REPORT_IR_DATA ) { ret = picolcd_raw_cir ( data , report , raw_data + 1 , size - 1 ) ; } else { spin_lock_irqsave ( & data -> lock , flags ) ; if ( data -> pending ) { memcpy ( data -> pending -> raw_data , raw_data + 1 , size - 1 ) ; data -> pending -> raw_size = size - 1 ; data -> pending -> in_report = report ; complete ( & data -> pending -> ready ) ; } spin_unlock_irqrestore ( & data -> lock , flags ) ; } picolcd_debug_raw_event ( data , hdev , report , raw_data , size ) ; return 1 ; }","static int picolcd_raw_event ( struct hid_device * hdev , struct hid_report * report , u8 * raw_data , int size ) { struct picolcd_data * data = hid_get_drvdata ( hdev ) ; unsigned long flags ; int ret = 0 ; if ( ! data ) return 1 ; if ( size > 64 ) { hid_warn ( hdev , ""invalid size value (%d) for picolcd raw event\\n"" , size ) ; return 0 ; } if ( report -> id == REPORT_KEY_STATE ) { if ( data -> input_keys ) ret = picolcd_raw_keypad ( data , report , raw_data + 1 , size - 1 ) ; } else if ( report -> id == REPORT_IR_DATA ) { ret = picolcd_raw_cir ( data , report , raw_data + 1 , size - 1 ) ; } else { spin_lock_irqsave ( & data -> lock , flags ) ; if ( data -> pending ) { memcpy ( data -> pending -> raw_data , raw_data + 1 , size - 1 ) ; data -> pending -> raw_size = size - 1 ; data -> pending -> in_report = report ; complete ( & data -> pending -> ready ) ; } spin_unlock_irqrestore ( & data -> lock , flags ) ; } picolcd_debug_raw_event ( data , hdev , report , raw_data , size ) ; return 1 ; }" 978,"NVD-CWE-noinfo static int uECC_sign_with_k ( const uint8_t * private_key , const uint8_t * message_hash , unsigned hash_size , uECC_word_t * k , uint8_t * signature , uECC_Curve curve ) { uECC_word_t tmp [ uECC_MAX_WORDS ] ; uECC_word_t s [ uECC_MAX_WORDS ] ; uECC_word_t * k2 [ 2 ] = { tmp , s } ; # if uECC_VLI_NATIVE_LITTLE_ENDIAN uECC_word_t * p = ( uECC_word_t * ) signature ; # else uECC_word_t p [ uECC_MAX_WORDS * 2 ] ; # endif uECC_word_t carry ; wordcount_t num_words = curve -> num_words ; wordcount_t num_n_words = BITS_TO_WORDS ( curve -> num_n_bits ) ; bitcount_t num_n_bits = curve -> num_n_bits ; if ( uECC_vli_isZero ( k , num_words ) || uECC_vli_cmp ( curve -> n , k , num_n_words ) != 1 ) { return 0 ; } carry = regularize_k ( k , tmp , s , curve ) ; EccPoint_mult ( p , curve -> G , k2 [ ! carry ] , 0 , num_n_bits + 1 , curve ) ; if ( uECC_vli_isZero ( p , num_words ) ) { return 0 ; } if ( ! g_rng_function ) { uECC_vli_clear ( tmp , num_n_words ) ; tmp [ 0 ] = 1 ; } else if ( ! uECC_generate_random_int ( tmp , curve -> n , num_n_words ) ) { return 0 ; } uECC_vli_modMult ( k , k , tmp , curve -> n , num_n_words ) ; uECC_vli_modInv ( k , k , curve -> n , num_n_words ) ; uECC_vli_modMult ( k , k , tmp , curve -> n , num_n_words ) ; # if uECC_VLI_NATIVE_LITTLE_ENDIAN == 0 uECC_vli_nativeToBytes ( signature , curve -> num_bytes , p ) ; # endif # if uECC_VLI_NATIVE_LITTLE_ENDIAN bcopy ( ( uint8_t * ) tmp , private_key , BITS_TO_BYTES ( curve -> num_n_bits ) ) ; # else uECC_vli_bytesToNative ( tmp , private_key , BITS_TO_BYTES ( curve -> num_n_bits ) ) ; # endif s [ num_n_words - 1 ] = 0 ; uECC_vli_set ( s , p , num_words ) ; uECC_vli_modMult ( s , tmp , s , curve -> n , num_n_words ) ; bits2int ( tmp , message_hash , hash_size , curve ) ; uECC_vli_modAdd ( s , tmp , s , curve -> n , num_n_words ) ; uECC_vli_modMult ( s , s , k , curve -> n , num_n_words ) ; if ( uECC_vli_numBits ( s , num_n_words ) > ( bitcount_t ) curve -> num_bytes * 8 ) { return 0 ; } # if uECC_VLI_NATIVE_LITTLE_ENDIAN bcopy ( ( uint8_t * ) signature + curve -> num_bytes , ( uint8_t * ) s , curve -> num_bytes ) ; # else uECC_vli_nativeToBytes ( signature + curve -> num_bytes , curve -> num_bytes , s ) ; # endif return 1 ; }","static int uECC_sign_with_k ( const uint8_t * private_key , const uint8_t * message_hash , unsigned hash_size , uECC_word_t * k , uint8_t * signature , uECC_Curve curve ) { uECC_word_t tmp [ uECC_MAX_WORDS ] ; uECC_word_t s [ uECC_MAX_WORDS ] ; uECC_word_t * k2 [ 2 ] = { tmp , s } ; uECC_word_t * initial_Z = 0 ; # if uECC_VLI_NATIVE_LITTLE_ENDIAN uECC_word_t * p = ( uECC_word_t * ) signature ; # else uECC_word_t p [ uECC_MAX_WORDS * 2 ] ; # endif uECC_word_t carry ; wordcount_t num_words = curve -> num_words ; wordcount_t num_n_words = BITS_TO_WORDS ( curve -> num_n_bits ) ; bitcount_t num_n_bits = curve -> num_n_bits ; if ( uECC_vli_isZero ( k , num_words ) || uECC_vli_cmp ( curve -> n , k , num_n_words ) != 1 ) { return 0 ; } carry = regularize_k ( k , tmp , s , curve ) ; if ( g_rng_function ) { if ( ! uECC_generate_random_int ( k2 [ carry ] , curve -> p , num_words ) ) { return 0 ; } initial_Z = k2 [ carry ] ; } EccPoint_mult ( p , curve -> G , k2 [ ! carry ] , initial_Z , num_n_bits + 1 , curve ) ; if ( uECC_vli_isZero ( p , num_words ) ) { return 0 ; } if ( ! g_rng_function ) { uECC_vli_clear ( tmp , num_n_words ) ; tmp [ 0 ] = 1 ; } else if ( ! uECC_generate_random_int ( tmp , curve -> n , num_n_words ) ) { return 0 ; } uECC_vli_modMult ( k , k , tmp , curve -> n , num_n_words ) ; uECC_vli_modInv ( k , k , curve -> n , num_n_words ) ; uECC_vli_modMult ( k , k , tmp , curve -> n , num_n_words ) ; # if uECC_VLI_NATIVE_LITTLE_ENDIAN == 0 uECC_vli_nativeToBytes ( signature , curve -> num_bytes , p ) ; # endif # if uECC_VLI_NATIVE_LITTLE_ENDIAN bcopy ( ( uint8_t * ) tmp , private_key , BITS_TO_BYTES ( curve -> num_n_bits ) ) ; # else uECC_vli_bytesToNative ( tmp , private_key , BITS_TO_BYTES ( curve -> num_n_bits ) ) ; # endif s [ num_n_words - 1 ] = 0 ; uECC_vli_set ( s , p , num_words ) ; uECC_vli_modMult ( s , tmp , s , curve -> n , num_n_words ) ; bits2int ( tmp , message_hash , hash_size , curve ) ; uECC_vli_modAdd ( s , tmp , s , curve -> n , num_n_words ) ; uECC_vli_modMult ( s , s , k , curve -> n , num_n_words ) ; if ( uECC_vli_numBits ( s , num_n_words ) > ( bitcount_t ) curve -> num_bytes * 8 ) { return 0 ; } # if uECC_VLI_NATIVE_LITTLE_ENDIAN bcopy ( ( uint8_t * ) signature + curve -> num_bytes , ( uint8_t * ) s , curve -> num_bytes ) ; # else uECC_vli_nativeToBytes ( signature + curve -> num_bytes , curve -> num_bytes , s ) ; # endif return 1 ; }" 979,"CWE-20 static inline void VectorClamp ( DDSVector4 * value ) { value -> x = MinF ( 1.0f , MaxF ( 0.0f , value -> x ) ) ; value -> y = MinF ( 1.0f , MaxF ( 0.0f , value -> y ) ) ; value -> z = MinF ( 1.0f , MaxF ( 0.0f , value -> z ) ) ; value -> w = MinF ( 1.0f , MaxF ( 0.0f , value -> w ) ) ; }","static inline void VectorClamp ( DDSVector4 * value ) { value -> x = MagickMin ( 1.0f , MagickMax ( 0.0f , value -> x ) ) ; value -> y = MagickMin ( 1.0f , MagickMax ( 0.0f , value -> y ) ) ; value -> z = MagickMin ( 1.0f , MagickMax ( 0.0f , value -> z ) ) ; value -> w = MagickMin ( 1.0f , MagickMax ( 0.0f , value -> w ) ) ; }" 980,"CWE-772 generic_ret * delete_policy_2_svc ( dpol_arg * arg , struct svc_req * rqstp ) { static generic_ret ret ; char * prime_arg ; gss_buffer_desc client_name , service_name ; OM_uint32 minor_stat ; kadm5_server_handle_t handle ; const char * errmsg = NULL ; xdr_free ( xdr_generic_ret , & ret ) ; if ( ( ret . code = new_server_handle ( arg -> api_version , rqstp , & handle ) ) ) goto exit_func ; if ( ( ret . code = check_handle ( ( void * ) handle ) ) ) goto exit_func ; ret . api_version = handle -> api_version ; if ( setup_gss_names ( rqstp , & client_name , & service_name ) < 0 ) { ret . code = KADM5_FAILURE ; goto exit_func ; } prime_arg = arg -> name ; if ( CHANGEPW_SERVICE ( rqstp ) || ! kadm5int_acl_check ( handle -> context , rqst2name ( rqstp ) , ACL_DELETE , NULL , NULL ) ) { log_unauth ( ""kadm5_delete_policy"" , prime_arg , & client_name , & service_name , rqstp ) ; ret . code = KADM5_AUTH_DELETE ; } else { ret . code = kadm5_delete_policy ( ( void * ) handle , arg -> name ) ; if ( ret . code != 0 ) errmsg = krb5_get_error_message ( handle -> context , ret . code ) ; log_done ( ""kadm5_delete_policy"" , ( ( prime_arg == NULL ) ? ""(null)"" : prime_arg ) , errmsg , & client_name , & service_name , rqstp ) ; if ( errmsg != NULL ) krb5_free_error_message ( handle -> context , errmsg ) ; } gss_release_buffer ( & minor_stat , & client_name ) ; gss_release_buffer ( & minor_stat , & service_name ) ; exit_func : free_server_handle ( handle ) ; return & ret ; }","generic_ret * delete_policy_2_svc ( dpol_arg * arg , struct svc_req * rqstp ) { static generic_ret ret ; char * prime_arg ; gss_buffer_desc client_name = GSS_C_EMPTY_BUFFER ; gss_buffer_desc service_name = GSS_C_EMPTY_BUFFER ; OM_uint32 minor_stat ; kadm5_server_handle_t handle ; const char * errmsg = NULL ; xdr_free ( xdr_generic_ret , & ret ) ; if ( ( ret . code = new_server_handle ( arg -> api_version , rqstp , & handle ) ) ) goto exit_func ; if ( ( ret . code = check_handle ( ( void * ) handle ) ) ) goto exit_func ; ret . api_version = handle -> api_version ; if ( setup_gss_names ( rqstp , & client_name , & service_name ) < 0 ) { ret . code = KADM5_FAILURE ; goto exit_func ; } prime_arg = arg -> name ; if ( CHANGEPW_SERVICE ( rqstp ) || ! kadm5int_acl_check ( handle -> context , rqst2name ( rqstp ) , ACL_DELETE , NULL , NULL ) ) { log_unauth ( ""kadm5_delete_policy"" , prime_arg , & client_name , & service_name , rqstp ) ; ret . code = KADM5_AUTH_DELETE ; } else { ret . code = kadm5_delete_policy ( ( void * ) handle , arg -> name ) ; if ( ret . code != 0 ) errmsg = krb5_get_error_message ( handle -> context , ret . code ) ; log_done ( ""kadm5_delete_policy"" , ( ( prime_arg == NULL ) ? ""(null)"" : prime_arg ) , errmsg , & client_name , & service_name , rqstp ) ; if ( errmsg != NULL ) krb5_free_error_message ( handle -> context , errmsg ) ; } exit_func : gss_release_buffer ( & minor_stat , & client_name ) ; gss_release_buffer ( & minor_stat , & service_name ) ; free_server_handle ( handle ) ; return & ret ; }" 981,"CWE-772 generic_ret * delete_principal_2_svc ( dprinc_arg * arg , struct svc_req * rqstp ) { static generic_ret ret ; char * prime_arg ; gss_buffer_desc client_name , service_name ; OM_uint32 minor_stat ; kadm5_server_handle_t handle ; const char * errmsg = NULL ; xdr_free ( xdr_generic_ret , & ret ) ; if ( ( ret . code = new_server_handle ( arg -> api_version , rqstp , & handle ) ) ) goto exit_func ; if ( ( ret . code = check_handle ( ( void * ) handle ) ) ) goto exit_func ; ret . api_version = handle -> api_version ; if ( setup_gss_names ( rqstp , & client_name , & service_name ) < 0 ) { ret . code = KADM5_FAILURE ; goto exit_func ; } if ( krb5_unparse_name ( handle -> context , arg -> princ , & prime_arg ) ) { ret . code = KADM5_BAD_PRINCIPAL ; goto exit_func ; } if ( CHANGEPW_SERVICE ( rqstp ) || ! kadm5int_acl_check ( handle -> context , rqst2name ( rqstp ) , ACL_DELETE , arg -> princ , NULL ) ) { ret . code = KADM5_AUTH_DELETE ; log_unauth ( ""kadm5_delete_principal"" , prime_arg , & client_name , & service_name , rqstp ) ; } else { ret . code = kadm5_delete_principal ( ( void * ) handle , arg -> princ ) ; if ( ret . code != 0 ) errmsg = krb5_get_error_message ( handle -> context , ret . code ) ; log_done ( ""kadm5_delete_principal"" , prime_arg , errmsg , & client_name , & service_name , rqstp ) ; if ( errmsg != NULL ) krb5_free_error_message ( handle -> context , errmsg ) ; } free ( prime_arg ) ; gss_release_buffer ( & minor_stat , & client_name ) ; gss_release_buffer ( & minor_stat , & service_name ) ; exit_func : free_server_handle ( handle ) ; return & ret ; }","generic_ret * delete_principal_2_svc ( dprinc_arg * arg , struct svc_req * rqstp ) { static generic_ret ret ; char * prime_arg ; gss_buffer_desc client_name = GSS_C_EMPTY_BUFFER ; gss_buffer_desc service_name = GSS_C_EMPTY_BUFFER ; OM_uint32 minor_stat ; kadm5_server_handle_t handle ; const char * errmsg = NULL ; xdr_free ( xdr_generic_ret , & ret ) ; if ( ( ret . code = new_server_handle ( arg -> api_version , rqstp , & handle ) ) ) goto exit_func ; if ( ( ret . code = check_handle ( ( void * ) handle ) ) ) goto exit_func ; ret . api_version = handle -> api_version ; if ( setup_gss_names ( rqstp , & client_name , & service_name ) < 0 ) { ret . code = KADM5_FAILURE ; goto exit_func ; } if ( krb5_unparse_name ( handle -> context , arg -> princ , & prime_arg ) ) { ret . code = KADM5_BAD_PRINCIPAL ; goto exit_func ; } if ( CHANGEPW_SERVICE ( rqstp ) || ! kadm5int_acl_check ( handle -> context , rqst2name ( rqstp ) , ACL_DELETE , arg -> princ , NULL ) ) { ret . code = KADM5_AUTH_DELETE ; log_unauth ( ""kadm5_delete_principal"" , prime_arg , & client_name , & service_name , rqstp ) ; } else { ret . code = kadm5_delete_principal ( ( void * ) handle , arg -> princ ) ; if ( ret . code != 0 ) errmsg = krb5_get_error_message ( handle -> context , ret . code ) ; log_done ( ""kadm5_delete_principal"" , prime_arg , errmsg , & client_name , & service_name , rqstp ) ; if ( errmsg != NULL ) krb5_free_error_message ( handle -> context , errmsg ) ; } free ( prime_arg ) ; exit_func : gss_release_buffer ( & minor_stat , & client_name ) ; gss_release_buffer ( & minor_stat , & service_name ) ; free_server_handle ( handle ) ; return & ret ; }" 982,"CWE-310 static int crypto_report_comp ( struct sk_buff * skb , struct crypto_alg * alg ) { struct crypto_report_comp rcomp ; snprintf ( rcomp . type , CRYPTO_MAX_ALG_NAME , ""%s"" , ""compression"" ) ; if ( nla_put ( skb , CRYPTOCFGA_REPORT_COMPRESS , sizeof ( struct crypto_report_comp ) , & rcomp ) ) goto nla_put_failure ; return 0 ; nla_put_failure : return - EMSGSIZE ; }","static int crypto_report_comp ( struct sk_buff * skb , struct crypto_alg * alg ) { struct crypto_report_comp rcomp ; strncpy ( rcomp . type , ""compression"" , sizeof ( rcomp . type ) ) ; if ( nla_put ( skb , CRYPTOCFGA_REPORT_COMPRESS , sizeof ( struct crypto_report_comp ) , & rcomp ) ) goto nla_put_failure ; return 0 ; nla_put_failure : return - EMSGSIZE ; }" 983,"CWE-787 DECLAREwriteFunc ( writeBufferToContigTiles ) { uint32 imagew = TIFFScanlineSize ( out ) ; uint32 tilew = TIFFTileRowSize ( out ) ; int iskew = imagew - tilew ; tsize_t tilesize = TIFFTileSize ( out ) ; tdata_t obuf ; uint8 * bufp = ( uint8 * ) buf ; uint32 tl , tw ; uint32 row ; ( void ) spp ; obuf = _TIFFmalloc ( TIFFTileSize ( out ) ) ; if ( obuf == NULL ) return 0 ; _TIFFmemset ( obuf , 0 , tilesize ) ; ( void ) TIFFGetField ( out , TIFFTAG_TILELENGTH , & tl ) ; ( void ) TIFFGetField ( out , TIFFTAG_TILEWIDTH , & tw ) ; for ( row = 0 ; row < imagelength ; row += tilelength ) { uint32 nrow = ( row + tl > imagelength ) ? imagelength - row : tl ; uint32 colb = 0 ; uint32 col ; for ( col = 0 ; col < imagewidth ; col += tw ) { if ( colb + tilew > imagew ) { uint32 width = imagew - colb ; int oskew = tilew - width ; cpStripToTile ( obuf , bufp + colb , nrow , width , oskew , oskew + iskew ) ; } else cpStripToTile ( obuf , bufp + colb , nrow , tilew , 0 , iskew ) ; if ( TIFFWriteTile ( out , obuf , col , row , 0 , 0 ) < 0 ) { TIFFError ( TIFFFileName ( out ) , ""Error, can\'t write tile at %lu %lu"" , ( unsigned long ) col , ( unsigned long ) row ) ; _TIFFfree ( obuf ) ; return 0 ; } colb += tilew ; } bufp += nrow * imagew ; } _TIFFfree ( obuf ) ; return 1 ; }","DECLAREwriteFunc ( writeBufferToContigTiles ) { uint32 imagew = TIFFScanlineSize ( out ) ; uint32 tilew = TIFFTileRowSize ( out ) ; int iskew = imagew - tilew ; tsize_t tilesize = TIFFTileSize ( out ) ; tdata_t obuf ; uint8 * bufp = ( uint8 * ) buf ; uint32 tl , tw ; uint32 row ; ( void ) spp ; obuf = _TIFFmalloc ( TIFFTileSize ( out ) ) ; if ( obuf == NULL ) return 0 ; _TIFFmemset ( obuf , 0 , tilesize ) ; ( void ) TIFFGetField ( out , TIFFTAG_TILELENGTH , & tl ) ; ( void ) TIFFGetField ( out , TIFFTAG_TILEWIDTH , & tw ) ; for ( row = 0 ; row < imagelength ; row += tilelength ) { uint32 nrow = ( row + tl > imagelength ) ? imagelength - row : tl ; uint32 colb = 0 ; uint32 col ; for ( col = 0 ; col < imagewidth && colb < imagew ; col += tw ) { if ( colb + tilew > imagew ) { uint32 width = imagew - colb ; int oskew = tilew - width ; cpStripToTile ( obuf , bufp + colb , nrow , width , oskew , oskew + iskew ) ; } else cpStripToTile ( obuf , bufp + colb , nrow , tilew , 0 , iskew ) ; if ( TIFFWriteTile ( out , obuf , col , row , 0 , 0 ) < 0 ) { TIFFError ( TIFFFileName ( out ) , ""Error, can\'t write tile at %lu %lu"" , ( unsigned long ) col , ( unsigned long ) row ) ; _TIFFfree ( obuf ) ; return 0 ; } colb += tilew ; } bufp += nrow * imagew ; } _TIFFfree ( obuf ) ; return 1 ; }" 984,"CWE-399 void unix_inflight ( struct file * fp ) { struct sock * s = unix_get_socket ( fp ) ; spin_lock ( & unix_gc_lock ) ; if ( s ) { struct unix_sock * u = unix_sk ( s ) ; if ( atomic_long_inc_return ( & u -> inflight ) == 1 ) { BUG_ON ( ! list_empty ( & u -> link ) ) ; list_add_tail ( & u -> link , & gc_inflight_list ) ; } else { BUG_ON ( list_empty ( & u -> link ) ) ; } unix_tot_inflight ++ ; } fp -> f_cred -> user -> unix_inflight ++ ; spin_unlock ( & unix_gc_lock ) ; }","void unix_inflight ( struct user_struct * user , struct file * fp ) { struct sock * s = unix_get_socket ( fp ) ; spin_lock ( & unix_gc_lock ) ; if ( s ) { struct unix_sock * u = unix_sk ( s ) ; if ( atomic_long_inc_return ( & u -> inflight ) == 1 ) { BUG_ON ( ! list_empty ( & u -> link ) ) ; list_add_tail ( & u -> link , & gc_inflight_list ) ; } else { BUG_ON ( list_empty ( & u -> link ) ) ; } unix_tot_inflight ++ ; } user -> unix_inflight ++ ; spin_unlock ( & unix_gc_lock ) ; }" 985,"CWE-20 static char * base64_decode_string ( const char * enc ) { if ( enc == NULL ) return NULL ; char * dec = g_strdup ( enc ) ; gsize len ; g_base64_decode_inplace ( dec , & len ) ; dec [ len ] = '\\0' ; return dec ; }","static gchar * base64_decode_string ( const char * enc ) { gchar * dec ; gsize len ; if ( enc == NULL ) return NULL ; dec = ( gchar * ) g_base64_decode ( enc , & len ) ; if ( dec ) dec [ len ] = '\\0' ; return dec ; }" 986,"CWE-552 static ssize_t _hostsock_sendmsg ( oe_fd_t * sock_ , const struct oe_msghdr * msg , int flags ) { ssize_t ret = - 1 ; sock_t * sock = _cast_sock ( sock_ ) ; void * buf = NULL ; size_t buf_size = 0 ; oe_errno = 0 ; if ( ! sock || ! msg || ( msg -> msg_iovlen && ! msg -> msg_iov ) ) OE_RAISE_ERRNO ( OE_EINVAL ) ; if ( oe_iov_pack ( msg -> msg_iov , ( int ) msg -> msg_iovlen , & buf , & buf_size ) != 0 ) OE_RAISE_ERRNO ( OE_ENOMEM ) ; if ( oe_syscall_sendmsg_ocall ( & ret , sock -> host_fd , msg -> msg_name , msg -> msg_namelen , buf , msg -> msg_iovlen , buf_size , msg -> msg_control , msg -> msg_controllen , flags ) != OE_OK ) { OE_RAISE_ERRNO ( OE_EINVAL ) ; } done : if ( buf ) oe_free ( buf ) ; return ret ; }","static ssize_t _hostsock_sendmsg ( oe_fd_t * sock_ , const struct oe_msghdr * msg , int flags ) { ssize_t ret = - 1 ; sock_t * sock = _cast_sock ( sock_ ) ; void * buf = NULL ; size_t buf_size = 0 ; size_t data_size = 0 ; oe_errno = 0 ; if ( ! sock || ! msg || ( msg -> msg_iovlen && ! msg -> msg_iov ) ) OE_RAISE_ERRNO ( OE_EINVAL ) ; if ( oe_iov_pack ( msg -> msg_iov , ( int ) msg -> msg_iovlen , & buf , & buf_size , & data_size ) != 0 ) OE_RAISE_ERRNO ( OE_ENOMEM ) ; if ( data_size > OE_SSIZE_MAX ) OE_RAISE_ERRNO ( OE_EINVAL ) ; if ( oe_syscall_sendmsg_ocall ( & ret , sock -> host_fd , msg -> msg_name , msg -> msg_namelen , buf , msg -> msg_iovlen , buf_size , msg -> msg_control , msg -> msg_controllen , flags ) != OE_OK ) { OE_RAISE_ERRNO ( OE_EINVAL ) ; } if ( ret > ( ssize_t ) data_size ) { ret = - 1 ; OE_RAISE_ERRNO ( OE_EINVAL ) ; } done : if ( buf ) oe_free ( buf ) ; return ret ; }" 987,"CWE-125 static void mldv2_report_print ( netdissect_options * ndo , const u_char * bp , u_int len ) { const struct icmp6_hdr * icp = ( const struct icmp6_hdr * ) bp ; u_int group , nsrcs , ngroups ; u_int i , j ; if ( len < 8 ) { ND_PRINT ( ( ndo , "" [invalid len %d]"" , len ) ) ; return ; } ND_TCHECK ( icp -> icmp6_data16 [ 1 ] ) ; ngroups = EXTRACT_16BITS ( & icp -> icmp6_data16 [ 1 ] ) ; ND_PRINT ( ( ndo , "", %d group record(s)"" , ngroups ) ) ; if ( ndo -> ndo_vflag > 0 ) { group = 8 ; for ( i = 0 ; i < ngroups ; i ++ ) { if ( len < group + 20 ) { ND_PRINT ( ( ndo , "" [invalid number of groups]"" ) ) ; return ; } ND_TCHECK2 ( bp [ group + 4 ] , sizeof ( struct in6_addr ) ) ; ND_PRINT ( ( ndo , "" [gaddr %s"" , ip6addr_string ( ndo , & bp [ group + 4 ] ) ) ) ; ND_PRINT ( ( ndo , "" %s"" , tok2str ( mldv2report2str , "" [v2-report-#%d]"" , bp [ group ] ) ) ) ; nsrcs = ( bp [ group + 2 ] << 8 ) + bp [ group + 3 ] ; if ( len < group + 20 + ( nsrcs * sizeof ( struct in6_addr ) ) ) { ND_PRINT ( ( ndo , "" [invalid number of sources %d]"" , nsrcs ) ) ; return ; } if ( ndo -> ndo_vflag == 1 ) ND_PRINT ( ( ndo , "", %d source(s)"" , nsrcs ) ) ; else { ND_PRINT ( ( ndo , "" {"" ) ) ; for ( j = 0 ; j < nsrcs ; j ++ ) { ND_TCHECK2 ( bp [ group + 20 + j * sizeof ( struct in6_addr ) ] , sizeof ( struct in6_addr ) ) ; ND_PRINT ( ( ndo , "" %s"" , ip6addr_string ( ndo , & bp [ group + 20 + j * sizeof ( struct in6_addr ) ] ) ) ) ; } ND_PRINT ( ( ndo , "" }"" ) ) ; } group += 20 + nsrcs * sizeof ( struct in6_addr ) ; ND_PRINT ( ( ndo , ""]"" ) ) ; } } return ; trunc : ND_PRINT ( ( ndo , ""[|icmp6]"" ) ) ; return ; }","static void mldv2_report_print ( netdissect_options * ndo , const u_char * bp , u_int len ) { const struct icmp6_hdr * icp = ( const struct icmp6_hdr * ) bp ; u_int group , nsrcs , ngroups ; u_int i , j ; if ( len < 8 ) { ND_PRINT ( ( ndo , "" [invalid len %d]"" , len ) ) ; return ; } ND_TCHECK ( icp -> icmp6_data16 [ 1 ] ) ; ngroups = EXTRACT_16BITS ( & icp -> icmp6_data16 [ 1 ] ) ; ND_PRINT ( ( ndo , "", %d group record(s)"" , ngroups ) ) ; if ( ndo -> ndo_vflag > 0 ) { group = 8 ; for ( i = 0 ; i < ngroups ; i ++ ) { if ( len < group + 20 ) { ND_PRINT ( ( ndo , "" [invalid number of groups]"" ) ) ; return ; } ND_TCHECK2 ( bp [ group + 4 ] , sizeof ( struct in6_addr ) ) ; ND_PRINT ( ( ndo , "" [gaddr %s"" , ip6addr_string ( ndo , & bp [ group + 4 ] ) ) ) ; ND_PRINT ( ( ndo , "" %s"" , tok2str ( mldv2report2str , "" [v2-report-#%d]"" , bp [ group ] ) ) ) ; nsrcs = ( bp [ group + 2 ] << 8 ) + bp [ group + 3 ] ; if ( len < group + 20 + ( nsrcs * sizeof ( struct in6_addr ) ) ) { ND_PRINT ( ( ndo , "" [invalid number of sources %d]"" , nsrcs ) ) ; return ; } if ( ndo -> ndo_vflag == 1 ) ND_PRINT ( ( ndo , "", %d source(s)"" , nsrcs ) ) ; else { ND_PRINT ( ( ndo , "" {"" ) ) ; for ( j = 0 ; j < nsrcs ; j ++ ) { ND_TCHECK2 ( bp [ group + 20 + j * sizeof ( struct in6_addr ) ] , sizeof ( struct in6_addr ) ) ; ND_PRINT ( ( ndo , "" %s"" , ip6addr_string ( ndo , & bp [ group + 20 + j * sizeof ( struct in6_addr ) ] ) ) ) ; } ND_PRINT ( ( ndo , "" }"" ) ) ; } group += 20 + nsrcs * sizeof ( struct in6_addr ) ; ND_PRINT ( ( ndo , ""]"" ) ) ; } } return ; trunc : ND_PRINT ( ( ndo , ""%s"" , mldv2_tstr ) ) ; return ; }" 988,"CWE-119 static void write_segment_id ( vp9_writer * w , const struct segmentation * seg , int segment_id ) { if ( seg -> enabled && seg -> update_map ) vp9_write_tree ( w , vp9_segment_tree , seg -> tree_probs , segment_id , 3 , 0 ) ; }","static void write_segment_id ( vpx_writer * w , const struct segmentation * seg , int segment_id ) { if ( seg -> enabled && seg -> update_map ) vp9_write_tree ( w , vp9_segment_tree , seg -> tree_probs , segment_id , 3 , 0 ) ; }" 989,"CWE-119 static void update_layer_contexts ( VP8_COMP * cpi ) { VP8_CONFIG * oxcf = & cpi -> oxcf ; if ( oxcf -> number_of_layers > 1 ) { unsigned int i ; double prev_layer_framerate = 0 ; assert ( oxcf -> number_of_layers <= VPX_TS_MAX_LAYERS ) ; for ( i = 0 ; i < oxcf -> number_of_layers ; i ++ ) { LAYER_CONTEXT * lc = & cpi -> layer_context [ i ] ; lc -> framerate = cpi -> ref_framerate / oxcf -> rate_decimator [ i ] ; lc -> target_bandwidth = oxcf -> target_bitrate [ i ] * 1000 ; lc -> starting_buffer_level = rescale ( ( int ) oxcf -> starting_buffer_level_in_ms , lc -> target_bandwidth , 1000 ) ; if ( oxcf -> optimal_buffer_level == 0 ) lc -> optimal_buffer_level = lc -> target_bandwidth / 8 ; else lc -> optimal_buffer_level = rescale ( ( int ) oxcf -> optimal_buffer_level_in_ms , lc -> target_bandwidth , 1000 ) ; if ( oxcf -> maximum_buffer_size == 0 ) lc -> maximum_buffer_size = lc -> target_bandwidth / 8 ; else lc -> maximum_buffer_size = rescale ( ( int ) oxcf -> maximum_buffer_size_in_ms , lc -> target_bandwidth , 1000 ) ; if ( i > 0 ) lc -> avg_frame_size_for_layer = ( int ) ( ( oxcf -> target_bitrate [ i ] - oxcf -> target_bitrate [ i - 1 ] ) * 1000 / ( lc -> framerate - prev_layer_framerate ) ) ; prev_layer_framerate = lc -> framerate ; } } }","static void update_layer_contexts ( VP8_COMP * cpi ) { VP8_CONFIG * oxcf = & cpi -> oxcf ; if ( oxcf -> number_of_layers > 1 ) { unsigned int i ; double prev_layer_framerate = 0 ; assert ( oxcf -> number_of_layers <= VPX_TS_MAX_LAYERS ) ; for ( i = 0 ; i < oxcf -> number_of_layers && i < VPX_TS_MAX_LAYERS ; ++ i ) { LAYER_CONTEXT * lc = & cpi -> layer_context [ i ] ; lc -> framerate = cpi -> ref_framerate / oxcf -> rate_decimator [ i ] ; lc -> target_bandwidth = oxcf -> target_bitrate [ i ] * 1000 ; lc -> starting_buffer_level = rescale ( ( int ) oxcf -> starting_buffer_level_in_ms , lc -> target_bandwidth , 1000 ) ; if ( oxcf -> optimal_buffer_level == 0 ) lc -> optimal_buffer_level = lc -> target_bandwidth / 8 ; else lc -> optimal_buffer_level = rescale ( ( int ) oxcf -> optimal_buffer_level_in_ms , lc -> target_bandwidth , 1000 ) ; if ( oxcf -> maximum_buffer_size == 0 ) lc -> maximum_buffer_size = lc -> target_bandwidth / 8 ; else lc -> maximum_buffer_size = rescale ( ( int ) oxcf -> maximum_buffer_size_in_ms , lc -> target_bandwidth , 1000 ) ; if ( i > 0 ) lc -> avg_frame_size_for_layer = ( int ) ( ( oxcf -> target_bitrate [ i ] - oxcf -> target_bitrate [ i - 1 ] ) * 1000 / ( lc -> framerate - prev_layer_framerate ) ) ; prev_layer_framerate = lc -> framerate ; } } }" 990,"CWE-125 static struct pid * good_sigevent ( sigevent_t * event ) { struct task_struct * rtn = current -> group_leader ; if ( ( event -> sigev_notify & SIGEV_THREAD_ID ) && ( ! ( rtn = find_task_by_vpid ( event -> sigev_notify_thread_id ) ) || ! same_thread_group ( rtn , current ) || ( event -> sigev_notify & ~ SIGEV_THREAD_ID ) != SIGEV_SIGNAL ) ) return NULL ; if ( ( ( event -> sigev_notify & ~ SIGEV_THREAD_ID ) != SIGEV_NONE ) && ( ( event -> sigev_signo <= 0 ) || ( event -> sigev_signo > SIGRTMAX ) ) ) return NULL ; return task_pid ( rtn ) ; }","static struct pid * good_sigevent ( sigevent_t * event ) { struct task_struct * rtn = current -> group_leader ; switch ( event -> sigev_notify ) { case SIGEV_SIGNAL | SIGEV_THREAD_ID : rtn = find_task_by_vpid ( event -> sigev_notify_thread_id ) ; if ( ! rtn || ! same_thread_group ( rtn , current ) ) return NULL ; case SIGEV_SIGNAL : case SIGEV_THREAD : if ( event -> sigev_signo <= 0 || event -> sigev_signo > SIGRTMAX ) return NULL ; case SIGEV_NONE : return task_pid ( rtn ) ; default : return NULL ; } }" 991,"CWE-119 void btif_config_flush ( void ) { assert ( config != NULL ) ; assert ( alarm_timer != NULL ) ; alarm_cancel ( alarm_timer ) ; pthread_mutex_lock ( & lock ) ; config_save ( config , CONFIG_FILE_PATH ) ; pthread_mutex_unlock ( & lock ) ; }",void btif_config_flush ( void ) { assert ( config != NULL ) ; assert ( alarm_timer != NULL ) ; alarm_cancel ( alarm_timer ) ; btif_config_write ( ) ; } 992,"CWE-787 static inline int l2cap_connect_rsp ( struct l2cap_conn * conn , struct l2cap_cmd_hdr * cmd , u8 * data ) { struct l2cap_conn_rsp * rsp = ( struct l2cap_conn_rsp * ) data ; u16 scid , dcid , result , status ; struct sock * sk ; u8 req [ 128 ] ; scid = __le16_to_cpu ( rsp -> scid ) ; dcid = __le16_to_cpu ( rsp -> dcid ) ; result = __le16_to_cpu ( rsp -> result ) ; status = __le16_to_cpu ( rsp -> status ) ; BT_DBG ( ""dcid 0x%4.4x scid 0x%4.4x result 0x%2.2x status 0x%2.2x"" , dcid , scid , result , status ) ; if ( scid ) { sk = l2cap_get_chan_by_scid ( & conn -> chan_list , scid ) ; if ( ! sk ) return 0 ; } else { sk = l2cap_get_chan_by_ident ( & conn -> chan_list , cmd -> ident ) ; if ( ! sk ) return 0 ; } switch ( result ) { case L2CAP_CR_SUCCESS : sk -> sk_state = BT_CONFIG ; l2cap_pi ( sk ) -> ident = 0 ; l2cap_pi ( sk ) -> dcid = dcid ; l2cap_pi ( sk ) -> conf_state |= L2CAP_CONF_REQ_SENT ; l2cap_pi ( sk ) -> conf_state &= ~ L2CAP_CONF_CONNECT_PEND ; l2cap_send_cmd ( conn , l2cap_get_ident ( conn ) , L2CAP_CONF_REQ , l2cap_build_conf_req ( sk , req ) , req ) ; break ; case L2CAP_CR_PEND : l2cap_pi ( sk ) -> conf_state |= L2CAP_CONF_CONNECT_PEND ; break ; default : l2cap_chan_del ( sk , ECONNREFUSED ) ; break ; } bh_unlock_sock ( sk ) ; return 0 ; }","static inline int l2cap_connect_rsp ( struct l2cap_conn * conn , struct l2cap_cmd_hdr * cmd , u8 * data ) { struct l2cap_conn_rsp * rsp = ( struct l2cap_conn_rsp * ) data ; u16 scid , dcid , result , status ; struct sock * sk ; u8 req [ 128 ] ; scid = __le16_to_cpu ( rsp -> scid ) ; dcid = __le16_to_cpu ( rsp -> dcid ) ; result = __le16_to_cpu ( rsp -> result ) ; status = __le16_to_cpu ( rsp -> status ) ; BT_DBG ( ""dcid 0x%4.4x scid 0x%4.4x result 0x%2.2x status 0x%2.2x"" , dcid , scid , result , status ) ; if ( scid ) { sk = l2cap_get_chan_by_scid ( & conn -> chan_list , scid ) ; if ( ! sk ) return 0 ; } else { sk = l2cap_get_chan_by_ident ( & conn -> chan_list , cmd -> ident ) ; if ( ! sk ) return 0 ; } switch ( result ) { case L2CAP_CR_SUCCESS : sk -> sk_state = BT_CONFIG ; l2cap_pi ( sk ) -> ident = 0 ; l2cap_pi ( sk ) -> dcid = dcid ; l2cap_pi ( sk ) -> conf_state |= L2CAP_CONF_REQ_SENT ; l2cap_pi ( sk ) -> conf_state &= ~ L2CAP_CONF_CONNECT_PEND ; l2cap_send_cmd ( conn , l2cap_get_ident ( conn ) , L2CAP_CONF_REQ , l2cap_build_conf_req ( sk , req ) , req ) ; l2cap_pi ( sk ) -> num_conf_req ++ ; break ; case L2CAP_CR_PEND : l2cap_pi ( sk ) -> conf_state |= L2CAP_CONF_CONNECT_PEND ; break ; default : l2cap_chan_del ( sk , ECONNREFUSED ) ; break ; } bh_unlock_sock ( sk ) ; return 0 ; }" 993,"CWE-129 static int cbs_av1_read_uvlc ( CodedBitstreamContext * ctx , GetBitContext * gbc , const char * name , uint32_t * write_to , uint32_t range_min , uint32_t range_max ) { uint32_t value ; int position , zeroes , i , j ; char bits [ 65 ] ; if ( ctx -> trace_enable ) position = get_bits_count ( gbc ) ; zeroes = i = 0 ; while ( 1 ) { if ( get_bits_left ( gbc ) < zeroes + 1 ) { av_log ( ctx -> log_ctx , AV_LOG_ERROR , ""Invalid uvlc code at "" ""%s: bitstream ended.\\n"" , name ) ; return AVERROR_INVALIDDATA ; } if ( get_bits1 ( gbc ) ) { bits [ i ++ ] = '1' ; break ; } else { bits [ i ++ ] = '0' ; } } if ( zeroes >= 32 ) { value = MAX_UINT_BITS ( 32 ) ; } else { value = get_bits_long ( gbc , zeroes ) ; for ( j = 0 ; j < zeroes ; j ++ ) bits [ i ++ ] = ( value >> ( zeroes - j - 1 ) & 1 ) ? '1' : '0' ; value += ( 1 << zeroes ) - 1 ; } if ( ctx -> trace_enable ) { bits [ i ] = 0 ; ff_cbs_trace_syntax_element ( ctx , position , name , NULL , bits , value ) ; } if ( value < range_min || value > range_max ) { av_log ( ctx -> log_ctx , AV_LOG_ERROR , ""%s out of range: "" ""%"" PRIu32 "", but must be in [%"" PRIu32 "",%"" PRIu32 ""].\\n"" , name , value , range_min , range_max ) ; return AVERROR_INVALIDDATA ; } * write_to = value ; return 0 ; }","static int cbs_av1_read_uvlc ( CodedBitstreamContext * ctx , GetBitContext * gbc , const char * name , uint32_t * write_to , uint32_t range_min , uint32_t range_max ) { uint32_t zeroes , bits_value , value ; int position ; if ( ctx -> trace_enable ) position = get_bits_count ( gbc ) ; zeroes = 0 ; while ( 1 ) { if ( get_bits_left ( gbc ) < 1 ) { av_log ( ctx -> log_ctx , AV_LOG_ERROR , ""Invalid uvlc code at "" ""%s: bitstream ended.\\n"" , name ) ; return AVERROR_INVALIDDATA ; } if ( get_bits1 ( gbc ) ) break ; + zeroes ; } if ( zeroes >= 32 ) { value = MAX_UINT_BITS ( 32 ) ; } else { if ( get_bits_left ( gbc ) < zeroes ) { av_log ( ctx -> log_ctx , AV_LOG_ERROR , ""Invalid uvlc code at "" ""%s: bitstream ended.\\n"" , name ) ; return AVERROR_INVALIDDATA ; } bits_value = get_bits_long ( gbc , zeroes ) ; value = bits_value + ( UINT32_C ( 1 ) << zeroes ) - 1 ; } if ( ctx -> trace_enable ) { char bits [ 65 ] ; int i , j , k ; if ( zeroes >= 32 ) { while ( zeroes > 32 ) { k = FFMIN ( zeroes - 32 , 32 ) ; for ( i = 0 ; i < k ; i ++ ) bits [ i ] = '0' ; bits [ i ] = 0 ; ff_cbs_trace_syntax_element ( ctx , position , name , NULL , bits , 0 ) ; zeroes -= k ; position += k ; } } for ( i = 0 ; i < zeroes ; i ++ ) bits [ i ] = '0' ; bits [ i ++ ] = '1' ; if ( zeroes < 32 ) { for ( j = 0 ; j < zeroes ; j ++ ) bits [ i ++ ] = ( bits_value >> ( zeroes - j - 1 ) & 1 ) ? '1' : '0' ; } bits [ i ] = 0 ; ff_cbs_trace_syntax_element ( ctx , position , name , NULL , bits , value ) ; } if ( value < range_min || value > range_max ) { av_log ( ctx -> log_ctx , AV_LOG_ERROR , ""%s out of range: "" ""%"" PRIu32 "", but must be in [%"" PRIu32 "",%"" PRIu32 ""].\\n"" , name , value , range_min , range_max ) ; return AVERROR_INVALIDDATA ; } * write_to = value ; return 0 ; }" 994,"CWE-125 static void nfs_printfh ( netdissect_options * ndo , register const uint32_t * dp , const u_int len ) { my_fsid fsid ; uint32_t ino ; const char * sfsname = NULL ; char * spacep ; if ( ndo -> ndo_uflag ) { u_int i ; char const * sep = """" ; ND_PRINT ( ( ndo , "" fh["" ) ) ; for ( i = 0 ; i < len ; i ++ ) { ND_PRINT ( ( ndo , ""%s%x"" , sep , dp [ i ] ) ) ; sep = "":"" ; } ND_PRINT ( ( ndo , ""]"" ) ) ; return ; } Parse_fh ( ( const u_char * ) dp , len , & fsid , & ino , NULL , & sfsname , 0 ) ; if ( sfsname ) { static char temp [ NFSX_V3FHMAX + 1 ] ; strncpy ( temp , sfsname , NFSX_V3FHMAX ) ; temp [ sizeof ( temp ) - 1 ] = '\\0' ; spacep = strchr ( temp , ' ' ) ; if ( spacep ) * spacep = '\\0' ; ND_PRINT ( ( ndo , "" fh %s/"" , temp ) ) ; } else { ND_PRINT ( ( ndo , "" fh %d,%d/"" , fsid . Fsid_dev . Major , fsid . Fsid_dev . Minor ) ) ; } if ( fsid . Fsid_dev . Minor == 257 ) ND_PRINT ( ( ndo , ""%s"" , fsid . Opaque_Handle ) ) ; else ND_PRINT ( ( ndo , ""%ld"" , ( long ) ino ) ) ; }","static void nfs_printfh ( netdissect_options * ndo , register const uint32_t * dp , const u_int len ) { my_fsid fsid ; uint32_t ino ; const char * sfsname = NULL ; char * spacep ; if ( ndo -> ndo_uflag ) { u_int i ; char const * sep = """" ; ND_PRINT ( ( ndo , "" fh["" ) ) ; for ( i = 0 ; i < len ; i ++ ) { ND_PRINT ( ( ndo , ""%s%x"" , sep , dp [ i ] ) ) ; sep = "":"" ; } ND_PRINT ( ( ndo , ""]"" ) ) ; return ; } Parse_fh ( ( const u_char * ) dp , len , & fsid , & ino , NULL , & sfsname , 0 ) ; if ( sfsname ) { char temp [ NFSX_V3FHMAX + 1 ] ; u_int stringlen ; stringlen = len ; if ( stringlen > NFSX_V3FHMAX ) stringlen = NFSX_V3FHMAX ; strncpy ( temp , sfsname , stringlen ) ; temp [ stringlen ] = '\\0' ; spacep = strchr ( temp , ' ' ) ; if ( spacep ) * spacep = '\\0' ; ND_PRINT ( ( ndo , "" fh %s/"" , temp ) ) ; } else { ND_PRINT ( ( ndo , "" fh %d,%d/"" , fsid . Fsid_dev . Major , fsid . Fsid_dev . Minor ) ) ; } if ( fsid . Fsid_dev . Minor == 257 ) ND_PRINT ( ( ndo , ""%s"" , fsid . Opaque_Handle ) ) ; else ND_PRINT ( ( ndo , ""%ld"" , ( long ) ino ) ) ; }" 995,"NVD-CWE-Other static int irda_create ( struct net * net , struct socket * sock , int protocol , int kern ) { struct sock * sk ; struct irda_sock * self ; if ( net != & init_net ) return - EAFNOSUPPORT ; switch ( sock -> type ) { case SOCK_STREAM : case SOCK_SEQPACKET : case SOCK_DGRAM : break ; default : return - ESOCKTNOSUPPORT ; } sk = sk_alloc ( net , PF_IRDA , GFP_KERNEL , & irda_proto , kern ) ; if ( sk == NULL ) return - ENOMEM ; self = irda_sk ( sk ) ; pr_debug ( ""%s() : self is %p\\n"" , __func__ , self ) ; init_waitqueue_head ( & self -> query_wait ) ; switch ( sock -> type ) { case SOCK_STREAM : sock -> ops = & irda_stream_ops ; self -> max_sdu_size_rx = TTP_SAR_DISABLE ; break ; case SOCK_SEQPACKET : sock -> ops = & irda_seqpacket_ops ; self -> max_sdu_size_rx = TTP_SAR_UNBOUND ; break ; case SOCK_DGRAM : switch ( protocol ) { # ifdef CONFIG_IRDA_ULTRA case IRDAPROTO_ULTRA : sock -> ops = & irda_ultra_ops ; self -> max_data_size = ULTRA_MAX_DATA - LMP_PID_HEADER ; self -> max_header_size = IRDA_MAX_HEADER + LMP_PID_HEADER ; break ; # endif case IRDAPROTO_UNITDATA : sock -> ops = & irda_dgram_ops ; self -> max_sdu_size_rx = TTP_SAR_UNBOUND ; break ; default : sk_free ( sk ) ; return - ESOCKTNOSUPPORT ; } break ; default : sk_free ( sk ) ; return - ESOCKTNOSUPPORT ; } sock_init_data ( sock , sk ) ; sk -> sk_family = PF_IRDA ; sk -> sk_protocol = protocol ;","static int irda_create ( struct net * net , struct socket * sock , int protocol , int kern ) { struct sock * sk ; struct irda_sock * self ; if ( protocol < 0 || protocol > SK_PROTOCOL_MAX ) return - EINVAL ; if ( net != & init_net ) return - EAFNOSUPPORT ; switch ( sock -> type ) { case SOCK_STREAM : case SOCK_SEQPACKET : case SOCK_DGRAM : break ; default : return - ESOCKTNOSUPPORT ; } sk = sk_alloc ( net , PF_IRDA , GFP_KERNEL , & irda_proto , kern ) ; if ( sk == NULL ) return - ENOMEM ; self = irda_sk ( sk ) ; pr_debug ( ""%s() : self is %p\\n"" , __func__ , self ) ; init_waitqueue_head ( & self -> query_wait ) ; switch ( sock -> type ) { case SOCK_STREAM : sock -> ops = & irda_stream_ops ; self -> max_sdu_size_rx = TTP_SAR_DISABLE ; break ; case SOCK_SEQPACKET : sock -> ops = & irda_seqpacket_ops ; self -> max_sdu_size_rx = TTP_SAR_UNBOUND ; break ; case SOCK_DGRAM : switch ( protocol ) { # ifdef CONFIG_IRDA_ULTRA case IRDAPROTO_ULTRA : sock -> ops = & irda_ultra_ops ; self -> max_data_size = ULTRA_MAX_DATA - LMP_PID_HEADER ; self -> max_header_size = IRDA_MAX_HEADER + LMP_PID_HEADER ; break ; # endif case IRDAPROTO_UNITDATA : sock -> ops = & irda_dgram_ops ; self -> max_sdu_size_rx = TTP_SAR_UNBOUND ; break ; default : sk_free ( sk ) ; return - ESOCKTNOSUPPORT ; } break ; default : sk_free ( sk ) ; return - ESOCKTNOSUPPORT ; } sock_init_data ( sock , sk ) ; sk -> sk_family = PF_IRDA ; sk -> sk_protocol = protocol ;" 996,"CWE-125 static int isis_print_mt_capability_subtlv ( netdissect_options * ndo , const uint8_t * tptr , int len ) { int stlv_type , stlv_len , tmp ; while ( len > 2 ) { stlv_type = * ( tptr ++ ) ; stlv_len = * ( tptr ++ ) ; ND_PRINT ( ( ndo , ""\\n\\t %s subTLV #%u, length: %u"" , tok2str ( isis_mt_capability_subtlv_values , ""unknown"" , stlv_type ) , stlv_type , stlv_len ) ) ; len = len - 2 ; switch ( stlv_type ) { case ISIS_SUBTLV_SPB_INSTANCE : ND_TCHECK2 ( * tptr , ISIS_SUBTLV_SPB_INSTANCE_MIN_LEN ) ; ND_PRINT ( ( ndo , ""\\n\\t CIST Root-ID: %08x"" , EXTRACT_32BITS ( tptr ) ) ) ; tptr = tptr + 4 ; ND_PRINT ( ( ndo , "" %08x"" , EXTRACT_32BITS ( tptr ) ) ) ; tptr = tptr + 4 ; ND_PRINT ( ( ndo , "", Path Cost: %08x"" , EXTRACT_32BITS ( tptr ) ) ) ; tptr = tptr + 4 ; ND_PRINT ( ( ndo , "", Prio: %d"" , EXTRACT_16BITS ( tptr ) ) ) ; tptr = tptr + 2 ; ND_PRINT ( ( ndo , ""\\n\\t RES: %d"" , EXTRACT_16BITS ( tptr ) >> 5 ) ) ; ND_PRINT ( ( ndo , "", V: %d"" , ( EXTRACT_16BITS ( tptr ) >> 4 ) & 0x0001 ) ) ; ND_PRINT ( ( ndo , "", SPSource-ID: %d"" , ( EXTRACT_32BITS ( tptr ) & 0x000fffff ) ) ) ; tptr = tptr + 4 ; ND_PRINT ( ( ndo , "", No of Trees: %x"" , * ( tptr ) ) ) ; tmp = * ( tptr ++ ) ; len = len - ISIS_SUBTLV_SPB_INSTANCE_MIN_LEN ; while ( tmp ) { ND_TCHECK2 ( * tptr , ISIS_SUBTLV_SPB_INSTANCE_VLAN_TUPLE_LEN ) ; ND_PRINT ( ( ndo , ""\\n\\t U:%d, M:%d, A:%d, RES:%d"" , * ( tptr ) >> 7 , ( * ( tptr ) >> 6 ) & 0x01 , ( * ( tptr ) >> 5 ) & 0x01 , ( * ( tptr ) & 0x1f ) ) ) ; tptr ++ ; ND_PRINT ( ( ndo , "", ECT: %08x"" , EXTRACT_32BITS ( tptr ) ) ) ; tptr = tptr + 4 ; ND_PRINT ( ( ndo , "", BVID: %d, SPVID: %d"" , ( EXTRACT_24BITS ( tptr ) >> 12 ) & 0x000fff , EXTRACT_24BITS ( tptr ) & 0x000fff ) ) ; tptr = tptr + 3 ; len = len - ISIS_SUBTLV_SPB_INSTANCE_VLAN_TUPLE_LEN ; tmp -- ; } break ; case ISIS_SUBTLV_SPBM_SI : ND_TCHECK2 ( * tptr , 8 ) ; ND_PRINT ( ( ndo , ""\\n\\t BMAC: %08x"" , EXTRACT_32BITS ( tptr ) ) ) ; tptr = tptr + 4 ; ND_PRINT ( ( ndo , ""%04x"" , EXTRACT_16BITS ( tptr ) ) ) ; tptr = tptr + 2 ; ND_PRINT ( ( ndo , "", RES: %d, VID: %d"" , EXTRACT_16BITS ( tptr ) >> 12 , ( EXTRACT_16BITS ( tptr ) ) & 0x0fff ) ) ; tptr = tptr + 2 ; len = len - 8 ; stlv_len = stlv_len - 8 ; while ( stlv_len >= 4 ) { ND_TCHECK2 ( * tptr , 4 ) ; ND_PRINT ( ( ndo , ""\\n\\t T: %d, R: %d, RES: %d, ISID: %d"" , ( EXTRACT_32BITS ( tptr ) >> 31 ) , ( EXTRACT_32BITS ( tptr ) >> 30 ) & 0x01 , ( EXTRACT_32BITS ( tptr ) >> 24 ) & 0x03f , ( EXTRACT_32BITS ( tptr ) ) & 0x0ffffff ) ) ; tptr = tptr + 4 ; len = len - 4 ; stlv_len = stlv_len - 4 ; } break ; default : break ; } } return 0 ; trunc : ND_PRINT ( ( ndo , ""\\n\\t\\t"" ) ) ; ND_PRINT ( ( ndo , ""%s"" , tstr ) ) ; return ( 1 ) ; }","static int isis_print_mt_capability_subtlv ( netdissect_options * ndo , const uint8_t * tptr , int len ) { int stlv_type , stlv_len , tmp ; while ( len > 2 ) { ND_TCHECK2 ( * tptr , 2 ) ; stlv_type = * ( tptr ++ ) ; stlv_len = * ( tptr ++ ) ; ND_PRINT ( ( ndo , ""\\n\\t %s subTLV #%u, length: %u"" , tok2str ( isis_mt_capability_subtlv_values , ""unknown"" , stlv_type ) , stlv_type , stlv_len ) ) ; len = len - 2 ; if ( len < stlv_len ) goto trunc ; ND_TCHECK2 ( * ( tptr ) , stlv_len ) ; switch ( stlv_type ) { case ISIS_SUBTLV_SPB_INSTANCE : if ( stlv_len < ISIS_SUBTLV_SPB_INSTANCE_MIN_LEN ) goto trunc ; ND_PRINT ( ( ndo , ""\\n\\t CIST Root-ID: %08x"" , EXTRACT_32BITS ( tptr ) ) ) ; tptr = tptr + 4 ; ND_PRINT ( ( ndo , "" %08x"" , EXTRACT_32BITS ( tptr ) ) ) ; tptr = tptr + 4 ; ND_PRINT ( ( ndo , "", Path Cost: %08x"" , EXTRACT_32BITS ( tptr ) ) ) ; tptr = tptr + 4 ; ND_PRINT ( ( ndo , "", Prio: %d"" , EXTRACT_16BITS ( tptr ) ) ) ; tptr = tptr + 2 ; ND_PRINT ( ( ndo , ""\\n\\t RES: %d"" , EXTRACT_16BITS ( tptr ) >> 5 ) ) ; ND_PRINT ( ( ndo , "", V: %d"" , ( EXTRACT_16BITS ( tptr ) >> 4 ) & 0x0001 ) ) ; ND_PRINT ( ( ndo , "", SPSource-ID: %d"" , ( EXTRACT_32BITS ( tptr ) & 0x000fffff ) ) ) ; tptr = tptr + 4 ; ND_PRINT ( ( ndo , "", No of Trees: %x"" , * ( tptr ) ) ) ; tmp = * ( tptr ++ ) ; len = len - ISIS_SUBTLV_SPB_INSTANCE_MIN_LEN ; stlv_len = stlv_len - ISIS_SUBTLV_SPB_INSTANCE_MIN_LEN ; while ( tmp ) { if ( stlv_len < ISIS_SUBTLV_SPB_INSTANCE_VLAN_TUPLE_LEN ) goto trunc ; ND_PRINT ( ( ndo , ""\\n\\t U:%d, M:%d, A:%d, RES:%d"" , * ( tptr ) >> 7 , ( * ( tptr ) >> 6 ) & 0x01 , ( * ( tptr ) >> 5 ) & 0x01 , ( * ( tptr ) & 0x1f ) ) ) ; tptr ++ ; ND_PRINT ( ( ndo , "", ECT: %08x"" , EXTRACT_32BITS ( tptr ) ) ) ; tptr = tptr + 4 ; ND_PRINT ( ( ndo , "", BVID: %d, SPVID: %d"" , ( EXTRACT_24BITS ( tptr ) >> 12 ) & 0x000fff , EXTRACT_24BITS ( tptr ) & 0x000fff ) ) ; tptr = tptr + 3 ; len = len - ISIS_SUBTLV_SPB_INSTANCE_VLAN_TUPLE_LEN ; stlv_len = stlv_len - ISIS_SUBTLV_SPB_INSTANCE_VLAN_TUPLE_LEN ; tmp -- ; } break ; case ISIS_SUBTLV_SPBM_SI : if ( stlv_len < 8 ) goto trunc ; ND_PRINT ( ( ndo , ""\\n\\t BMAC: %08x"" , EXTRACT_32BITS ( tptr ) ) ) ; tptr = tptr + 4 ; ND_PRINT ( ( ndo , ""%04x"" , EXTRACT_16BITS ( tptr ) ) ) ; tptr = tptr + 2 ; ND_PRINT ( ( ndo , "", RES: %d, VID: %d"" , EXTRACT_16BITS ( tptr ) >> 12 , ( EXTRACT_16BITS ( tptr ) ) & 0x0fff ) ) ; tptr = tptr + 2 ; len = len - 8 ; stlv_len = stlv_len - 8 ; while ( stlv_len >= 4 ) { ND_TCHECK2 ( * tptr , 4 ) ; ND_PRINT ( ( ndo , ""\\n\\t T: %d, R: %d, RES: %d, ISID: %d"" , ( EXTRACT_32BITS ( tptr ) >> 31 ) , ( EXTRACT_32BITS ( tptr ) >> 30 ) & 0x01 , ( EXTRACT_32BITS ( tptr ) >> 24 ) & 0x03f , ( EXTRACT_32BITS ( tptr ) ) & 0x0ffffff ) ) ; tptr = tptr + 4 ; len = len - 4 ; stlv_len = stlv_len - 4 ; } break ; default : break ; } tptr += stlv_len ; len -= stlv_len ; } return 0 ; trunc : ND_PRINT ( ( ndo , ""\\n\\t\\t"" ) ) ; ND_PRINT ( ( ndo , ""%s"" , tstr ) ) ; return ( 1 ) ; }" 997,"CWE-552 static ssize_t _epoll_readv ( oe_fd_t * desc , const struct oe_iovec * iov , int iovcnt ) { ssize_t ret = - 1 ; epoll_t * file = _cast_epoll ( desc ) ; void * buf = NULL ; size_t buf_size = 0 ; if ( ! file || ( iovcnt && ! iov ) || iovcnt < 0 || iovcnt > OE_IOV_MAX ) OE_RAISE_ERRNO ( OE_EINVAL ) ; if ( oe_iov_pack ( iov , iovcnt , & buf , & buf_size ) != 0 ) OE_RAISE_ERRNO ( OE_ENOMEM ) ; if ( oe_syscall_readv_ocall ( & ret , file -> host_fd , buf , iovcnt , buf_size ) != OE_OK ) { OE_RAISE_ERRNO ( OE_EINVAL ) ; } if ( oe_iov_sync ( iov , iovcnt , buf , buf_size ) != 0 ) OE_RAISE_ERRNO ( OE_EINVAL ) ; done : if ( buf ) oe_free ( buf ) ; return ret ; }","static ssize_t _epoll_readv ( oe_fd_t * desc , const struct oe_iovec * iov , int iovcnt ) { ssize_t ret = - 1 ; epoll_t * file = _cast_epoll ( desc ) ; void * buf = NULL ; size_t buf_size = 0 ; size_t data_size = 0 ; if ( ! file || ( iovcnt && ! iov ) || iovcnt < 0 || iovcnt > OE_IOV_MAX ) OE_RAISE_ERRNO ( OE_EINVAL ) ; if ( oe_iov_pack ( iov , iovcnt , & buf , & buf_size , & data_size ) != 0 ) OE_RAISE_ERRNO ( OE_ENOMEM ) ; if ( data_size > OE_SSIZE_MAX ) OE_RAISE_ERRNO ( OE_EINVAL ) ; if ( oe_syscall_readv_ocall ( & ret , file -> host_fd , buf , iovcnt , buf_size ) != OE_OK ) { OE_RAISE_ERRNO ( OE_EINVAL ) ; } if ( ret > ( ssize_t ) data_size ) { ret = - 1 ; OE_RAISE_ERRNO ( OE_EINVAL ) ; } if ( oe_iov_sync ( iov , iovcnt , buf , buf_size ) != 0 ) OE_RAISE_ERRNO ( OE_EINVAL ) ; done : if ( buf ) oe_free ( buf ) ; return ret ; }" 998,"CWE-119 int64_t vp9_pick_inter_mode ( VP9_COMP * cpi , MACROBLOCK * x , const TileInfo * const tile , int mi_row , int mi_col , int * returnrate , int64_t * returndistortion , BLOCK_SIZE bsize ) { MACROBLOCKD * xd = & x -> e_mbd ; MB_MODE_INFO * mbmi = & xd -> mi [ 0 ] -> mbmi ; struct macroblock_plane * const p = & x -> plane [ 0 ] ; struct macroblockd_plane * const pd = & xd -> plane [ 0 ] ; MB_PREDICTION_MODE this_mode , best_mode = ZEROMV ; MV_REFERENCE_FRAME ref_frame , best_ref_frame = LAST_FRAME ; INTERP_FILTER best_pred_filter = EIGHTTAP ; int_mv frame_mv [ MB_MODE_COUNT ] [ MAX_REF_FRAMES ] ; struct buf_2d yv12_mb [ 4 ] [ MAX_MB_PLANE ] ; static const int flag_list [ 4 ] = { 0 , VP9_LAST_FLAG , VP9_GOLD_FLAG , VP9_ALT_FLAG } ; int64_t best_rd = INT64_MAX ; int64_t this_rd = INT64_MAX ; int rate = INT_MAX ; int64_t dist = INT64_MAX ; VP9_COMMON * cm = & cpi -> common ; int intra_cost_penalty = 20 * vp9_dc_quant ( cm -> base_qindex , cm -> y_dc_delta_q ) ; const int64_t inter_mode_thresh = RDCOST ( x -> rdmult , x -> rddiv , intra_cost_penalty , 0 ) ; const int64_t intra_mode_cost = 50 ; unsigned char segment_id = mbmi -> segment_id ; const int * const rd_threshes = cpi -> rd_threshes [ segment_id ] [ bsize ] ; const int * const rd_thresh_freq_fact = cpi -> rd_thresh_freq_fact [ bsize ] ; int mode_idx [ MB_MODE_COUNT ] = { 0 } ; INTERP_FILTER filter_ref = SWITCHABLE ; x -> skip_encode = cpi -> sf . skip_encode_frame && x -> q_index < QIDX_SKIP_THRESH ; x -> skip = 0 ; if ( ! x -> in_active_map ) x -> skip = 1 ; * returnrate = INT_MAX ; * returndistortion = INT64_MAX ; vpx_memset ( mbmi , 0 , sizeof ( MB_MODE_INFO ) ) ; mbmi -> sb_type = bsize ; mbmi -> ref_frame [ 0 ] = NONE ; mbmi -> ref_frame [ 1 ] = NONE ; mbmi -> tx_size = MIN ( max_txsize_lookup [ bsize ] , tx_mode_to_biggest_tx_size [ cpi -> common . tx_mode ] ) ; mbmi -> interp_filter = cpi -> common . interp_filter == SWITCHABLE ? EIGHTTAP : cpi -> common . interp_filter ; mbmi -> skip = 0 ; mbmi -> segment_id = segment_id ; for ( ref_frame = LAST_FRAME ; ref_frame <= LAST_FRAME ; ++ ref_frame ) { x -> pred_mv_sad [ ref_frame ] = INT_MAX ; if ( cpi -> ref_frame_flags & flag_list [ ref_frame ] ) { vp9_setup_buffer_inter ( cpi , x , tile , ref_frame , bsize , mi_row , mi_col , frame_mv [ NEARESTMV ] , frame_mv [ NEARMV ] , yv12_mb ) ; } frame_mv [ NEWMV ] [ ref_frame ] . as_int = INVALID_MV ; frame_mv [ ZEROMV ] [ ref_frame ] . as_int = 0 ; } if ( xd -> up_available ) filter_ref = xd -> mi [ - xd -> mi_stride ] -> mbmi . interp_filter ; else if ( xd -> left_available ) filter_ref = xd -> mi [ - 1 ] -> mbmi . interp_filter ; for ( ref_frame = LAST_FRAME ; ref_frame <= LAST_FRAME ; ++ ref_frame ) { if ( ! ( cpi -> ref_frame_flags & flag_list [ ref_frame ] ) ) continue ; xd -> plane [ 0 ] . pre [ 0 ] = yv12_mb [ ref_frame ] [ 0 ] ; clamp_mv2 ( & frame_mv [ NEARESTMV ] [ ref_frame ] . as_mv , xd ) ; clamp_mv2 ( & frame_mv [ NEARMV ] [ ref_frame ] . as_mv , xd ) ; mbmi -> ref_frame [ 0 ] = ref_frame ; if ( ref_frame == LAST_FRAME ) { mode_idx [ NEARESTMV ] = THR_NEARESTMV ; mode_idx [ NEARMV ] = THR_NEARMV ; mode_idx [ ZEROMV ] = THR_ZEROMV ; mode_idx [ NEWMV ] = THR_NEWMV ; } for ( this_mode = NEARESTMV ; this_mode <= NEWMV ; ++ this_mode ) { int rate_mv = 0 ; if ( cpi -> sf . disable_inter_mode_mask [ bsize ] & ( 1 << INTER_OFFSET ( this_mode ) ) ) continue ; if ( best_rd < ( ( int64_t ) rd_threshes [ mode_idx [ this_mode ] ] * rd_thresh_freq_fact [ this_mode ] >> 5 ) || rd_threshes [ mode_idx [ this_mode ] ] == INT_MAX ) continue ; if ( this_mode == NEWMV ) { int rate_mode = 0 ; if ( this_rd < ( int64_t ) ( 1 << num_pels_log2_lookup [ bsize ] ) ) continue ; full_pixel_motion_search ( cpi , x , tile , bsize , mi_row , mi_col , & frame_mv [ NEWMV ] [ ref_frame ] , & rate_mv ) ; if ( frame_mv [ NEWMV ] [ ref_frame ] . as_int == INVALID_MV ) continue ; rate_mode = x -> inter_mode_cost [ mbmi -> mode_context [ ref_frame ] ] [ INTER_OFFSET ( this_mode ) ] ; if ( RDCOST ( x -> rdmult , x -> rddiv , rate_mv + rate_mode , 0 ) > best_rd ) continue ; sub_pixel_motion_search ( cpi , x , tile , bsize , mi_row , mi_col , & frame_mv [ NEWMV ] [ ref_frame ] . as_mv ) ; } if ( this_mode != NEARESTMV ) if ( frame_mv [ this_mode ] [ ref_frame ] . as_int == frame_mv [ NEARESTMV ] [ ref_frame ] . as_int ) continue ; mbmi -> mode = this_mode ; mbmi -> mv [ 0 ] . as_int = frame_mv [ this_mode ] [ ref_frame ] . as_int ; if ( ( this_mode == NEWMV || filter_ref == SWITCHABLE ) && ( ( mbmi -> mv [ 0 ] . as_mv . row & 0x07 ) != 0 || ( mbmi -> mv [ 0 ] . as_mv . col & 0x07 ) != 0 ) ) { int64_t tmp_rdcost1 = INT64_MAX ; int64_t tmp_rdcost2 = INT64_MAX ; int64_t tmp_rdcost3 = INT64_MAX ; int pf_rate [ 3 ] ; int64_t pf_dist [ 3 ] ; mbmi -> interp_filter = EIGHTTAP ; vp9_build_inter_predictors_sby ( xd , mi_row , mi_col , bsize ) ; model_rd_for_sb_y ( cpi , bsize , x , xd , & pf_rate [ EIGHTTAP ] , & pf_dist [ EIGHTTAP ] ) ; tmp_rdcost1 = RDCOST ( x -> rdmult , x -> rddiv , vp9_get_switchable_rate ( x ) + pf_rate [ EIGHTTAP ] , pf_dist [ EIGHTTAP ] ) ; mbmi -> interp_filter = EIGHTTAP_SHARP ; vp9_build_inter_predictors_sby ( xd , mi_row , mi_col , bsize ) ; model_rd_for_sb_y ( cpi , bsize , x , xd , & pf_rate [ EIGHTTAP_SHARP ] , & pf_dist [ EIGHTTAP_SHARP ] ) ; tmp_rdcost2 = RDCOST ( x -> rdmult , x -> rddiv , vp9_get_switchable_rate ( x ) + pf_rate [ EIGHTTAP_SHARP ] , pf_dist [ EIGHTTAP_SHARP ] ) ; mbmi -> interp_filter = EIGHTTAP_SMOOTH ; vp9_build_inter_predictors_sby ( xd , mi_row , mi_col , bsize ) ; model_rd_for_sb_y ( cpi , bsize , x , xd , & pf_rate [ EIGHTTAP_SMOOTH ] , & pf_dist [ EIGHTTAP_SMOOTH ] ) ; tmp_rdcost3 = RDCOST ( x -> rdmult , x -> rddiv , vp9_get_switchable_rate ( x ) + pf_rate [ EIGHTTAP_SMOOTH ] , pf_dist [ EIGHTTAP_SMOOTH ] ) ; if ( tmp_rdcost2 < tmp_rdcost1 ) { if ( tmp_rdcost2 < tmp_rdcost3 ) mbmi -> interp_filter = EIGHTTAP_SHARP ; else mbmi -> interp_filter = EIGHTTAP_SMOOTH ; } else { if ( tmp_rdcost1 < tmp_rdcost3 ) mbmi -> interp_filter = EIGHTTAP ; else mbmi -> interp_filter = EIGHTTAP_SMOOTH ; } rate = pf_rate [ mbmi -> interp_filter ] ; dist = pf_dist [ mbmi -> interp_filter ] ; } else { mbmi -> interp_filter = ( filter_ref == SWITCHABLE ) ? EIGHTTAP : filter_ref ; vp9_build_inter_predictors_sby ( xd , mi_row , mi_col , bsize ) ; model_rd_for_sb_y ( cpi , bsize , x , xd , & rate , & dist ) ; } rate += rate_mv ; rate += x -> inter_mode_cost [ mbmi -> mode_context [ ref_frame ] ] [ INTER_OFFSET ( this_mode ) ] ; this_rd = RDCOST ( x -> rdmult , x -> rddiv , rate , dist ) ; if ( this_rd < best_rd ) { best_rd = this_rd ; * returnrate = rate ; * returndistortion = dist ; best_mode = this_mode ; best_pred_filter = mbmi -> interp_filter ; best_ref_frame = ref_frame ; } } } mbmi -> mode = best_mode ; mbmi -> interp_filter = best_pred_filter ; mbmi -> ref_frame [ 0 ] = best_ref_frame ; mbmi -> mv [ 0 ] . as_int = frame_mv [ best_mode ] [ best_ref_frame ] . as_int ; xd -> mi [ 0 ] -> bmi [ 0 ] . as_mv [ 0 ] . as_int = mbmi -> mv [ 0 ] . as_int ; if ( best_rd > inter_mode_thresh ) { for ( this_mode = DC_PRED ; this_mode <= DC_PRED ; ++ this_mode ) { vp9_predict_intra_block ( xd , 0 , b_width_log2 ( bsize ) , mbmi -> tx_size , this_mode , & p -> src . buf [ 0 ] , p -> src . stride , & pd -> dst . buf [ 0 ] , pd -> dst . stride , 0 , 0 , 0 ) ; model_rd_for_sb_y ( cpi , bsize , x , xd , & rate , & dist ) ; rate += x -> mbmode_cost [ this_mode ] ; rate += intra_cost_penalty ; this_rd = RDCOST ( x -> rdmult , x -> rddiv , rate , dist ) ; if ( this_rd + intra_mode_cost < best_rd ) { best_rd = this_rd ; * returnrate = rate ; * returndistortion = dist ; mbmi -> mode = this_mode ; mbmi -> ref_frame [ 0 ] = INTRA_FRAME ; mbmi -> uv_mode = this_mode ; mbmi -> mv [ 0 ] . as_int = INVALID_MV ; } } } return INT64_MAX ; }","void vp9_pick_inter_mode ( VP9_COMP * cpi , MACROBLOCK * x , TileDataEnc * tile_data , int mi_row , int mi_col , RD_COST * rd_cost , BLOCK_SIZE bsize , PICK_MODE_CONTEXT * ctx ) { VP9_COMMON * const cm = & cpi -> common ; SPEED_FEATURES * const sf = & cpi -> sf ; TileInfo * const tile_info = & tile_data -> tile_info ; MACROBLOCKD * const xd = & x -> e_mbd ; MB_MODE_INFO * const mbmi = & xd -> mi [ 0 ] -> mbmi ; struct macroblockd_plane * const pd = & xd -> plane [ 0 ] ; PREDICTION_MODE best_mode = ZEROMV ; MV_REFERENCE_FRAME ref_frame , best_ref_frame = LAST_FRAME ; MV_REFERENCE_FRAME usable_ref_frame ; TX_SIZE best_tx_size = TX_SIZES ; INTERP_FILTER best_pred_filter = EIGHTTAP ; int_mv frame_mv [ MB_MODE_COUNT ] [ MAX_REF_FRAMES ] ; struct buf_2d yv12_mb [ 4 ] [ MAX_MB_PLANE ] ; static const int flag_list [ 4 ] = { 0 , VP9_LAST_FLAG , VP9_GOLD_FLAG , VP9_ALT_FLAG } ; RD_COST this_rdc , best_rdc ; uint8_t skip_txfm = SKIP_TXFM_NONE , best_mode_skip_txfm = SKIP_TXFM_NONE ; unsigned int var_y = UINT_MAX ; unsigned int sse_y = UINT_MAX ; const int reduction_fac = ( bsize <= BLOCK_16X16 ) ? ( ( bsize <= BLOCK_8X8 ) ? 4 : 2 ) : 0 ; const int intra_cost_penalty = vp9_get_intra_cost_penalty ( cm -> base_qindex , cm -> y_dc_delta_q , cm -> bit_depth ) >> reduction_fac ; const int64_t inter_mode_thresh = RDCOST ( x -> rdmult , x -> rddiv , intra_cost_penalty , 0 ) ; const int * const rd_threshes = cpi -> rd . threshes [ mbmi -> segment_id ] [ bsize ] ; const int * const rd_thresh_freq_fact = tile_data -> thresh_freq_fact [ bsize ] ; INTERP_FILTER filter_ref ; const int bsl = mi_width_log2_lookup [ bsize ] ; const int pred_filter_search = cm -> interp_filter == SWITCHABLE ? ( ( ( mi_row + mi_col ) >> bsl ) + get_chessboard_index ( cm -> current_video_frame ) ) & 0x1 : 0 ; int const_motion [ MAX_REF_FRAMES ] = { 0 } ; const int bh = num_4x4_blocks_high_lookup [ bsize ] << 2 ; const int bw = num_4x4_blocks_wide_lookup [ bsize ] << 2 ; PRED_BUFFER tmp [ 4 ] ; DECLARE_ALIGNED ( 16 , uint8_t , pred_buf [ 3 * 64 * 64 ] ) ; # if CONFIG_VP9_HIGHBITDEPTH DECLARE_ALIGNED ( 16 , uint16_t , pred_buf_16 [ 3 * 64 * 64 ] ) ; # endif struct buf_2d orig_dst = pd -> dst ; PRED_BUFFER * best_pred = NULL ; PRED_BUFFER * this_mode_pred = NULL ; const int pixels_in_block = bh * bw ; int reuse_inter_pred = cpi -> sf . reuse_inter_pred_sby && ctx -> pred_pixel_ready ; int ref_frame_skip_mask = 0 ; int idx ; int best_pred_sad = INT_MAX ; int best_early_term = 0 ; int ref_frame_cost [ MAX_REF_FRAMES ] ; init_ref_frame_cost ( cm , xd , ref_frame_cost ) ; if ( reuse_inter_pred ) { int i ; for ( i = 0 ; i < 3 ; i ++ ) { # if CONFIG_VP9_HIGHBITDEPTH if ( cm -> use_highbitdepth ) tmp [ i ] . data = CONVERT_TO_BYTEPTR ( & pred_buf_16 [ pixels_in_block * i ] ) ; else tmp [ i ] . data = & pred_buf [ pixels_in_block * i ] ; # else tmp [ i ] . data = & pred_buf [ pixels_in_block * i ] ; # endif tmp [ i ] . stride = bw ; tmp [ i ] . in_use = 0 ; } tmp [ 3 ] . data = pd -> dst . buf ; tmp [ 3 ] . stride = pd -> dst . stride ; tmp [ 3 ] . in_use = 0 ; } x -> skip_encode = cpi -> sf . skip_encode_frame && x -> q_index < QIDX_SKIP_THRESH ; x -> skip = 0 ; if ( xd -> up_available ) filter_ref = xd -> mi [ - xd -> mi_stride ] -> mbmi . interp_filter ; else if ( xd -> left_available ) filter_ref = xd -> mi [ - 1 ] -> mbmi . interp_filter ; else filter_ref = cm -> interp_filter ; vp9_rd_cost_reset ( & best_rdc ) ; vp9_rd_cost_reset ( rd_cost ) ; mbmi -> sb_type = bsize ; mbmi -> ref_frame [ 0 ] = NONE ; mbmi -> ref_frame [ 1 ] = NONE ; mbmi -> tx_size = MIN ( max_txsize_lookup [ bsize ] , tx_mode_to_biggest_tx_size [ cm -> tx_mode ] ) ; # if CONFIG_VP9_TEMPORAL_DENOISING vp9_denoiser_reset_frame_stats ( ctx ) ; # endif if ( cpi -> rc . frames_since_golden == 0 && ! cpi -> use_svc ) { usable_ref_frame = LAST_FRAME ; } else { usable_ref_frame = GOLDEN_FRAME ; } for ( ref_frame = LAST_FRAME ; ref_frame <= usable_ref_frame ; ++ ref_frame ) { const YV12_BUFFER_CONFIG * yv12 = get_ref_frame_buffer ( cpi , ref_frame ) ; x -> pred_mv_sad [ ref_frame ] = INT_MAX ; frame_mv [ NEWMV ] [ ref_frame ] . as_int = INVALID_MV ; frame_mv [ ZEROMV ] [ ref_frame ] . as_int = 0 ; if ( ( cpi -> ref_frame_flags & flag_list [ ref_frame ] ) && ( yv12 != NULL ) ) { int_mv * const candidates = x -> mbmi_ext -> ref_mvs [ ref_frame ] ; const struct scale_factors * const sf = & cm -> frame_refs [ ref_frame - 1 ] . sf ; vp9_setup_pred_block ( xd , yv12_mb [ ref_frame ] , yv12 , mi_row , mi_col , sf , sf ) ; if ( cm -> use_prev_frame_mvs ) vp9_find_mv_refs ( cm , xd , xd -> mi [ 0 ] , ref_frame , candidates , mi_row , mi_col , NULL , NULL , x -> mbmi_ext -> mode_context ) ; else const_motion [ ref_frame ] = mv_refs_rt ( cm , x , xd , tile_info , xd -> mi [ 0 ] , ref_frame , candidates , mi_row , mi_col ) ; vp9_find_best_ref_mvs ( xd , cm -> allow_high_precision_mv , candidates , & frame_mv [ NEARESTMV ] [ ref_frame ] , & frame_mv [ NEARMV ] [ ref_frame ] ) ; if ( ! vp9_is_scaled ( sf ) && bsize >= BLOCK_8X8 ) vp9_mv_pred ( cpi , x , yv12_mb [ ref_frame ] [ 0 ] . buf , yv12 -> y_stride , ref_frame , bsize ) ; } else { ref_frame_skip_mask |= ( 1 << ref_frame ) ; } } for ( idx = 0 ; idx < RT_INTER_MODES ; ++ idx ) { int rate_mv = 0 ; int mode_rd_thresh ; int mode_index ; int i ; int64_t this_sse ; int is_skippable ; int this_early_term = 0 ; PREDICTION_MODE this_mode = ref_mode_set [ idx ] . pred_mode ; if ( cpi -> use_svc ) this_mode = ref_mode_set_svc [ idx ] . pred_mode ; if ( ! ( cpi -> sf . inter_mode_mask [ bsize ] & ( 1 << this_mode ) ) ) continue ; ref_frame = ref_mode_set [ idx ] . ref_frame ; if ( cpi -> use_svc ) ref_frame = ref_mode_set_svc [ idx ] . ref_frame ; if ( ! ( cpi -> ref_frame_flags & flag_list [ ref_frame ] ) ) continue ; if ( const_motion [ ref_frame ] && this_mode == NEARMV ) continue ; i = ( ref_frame == LAST_FRAME ) ? GOLDEN_FRAME : LAST_FRAME ; if ( ( cpi -> ref_frame_flags & flag_list [ i ] ) && sf -> reference_masking ) if ( x -> pred_mv_sad [ ref_frame ] > ( x -> pred_mv_sad [ i ] << 1 ) ) ref_frame_skip_mask |= ( 1 << ref_frame ) ; if ( ref_frame_skip_mask & ( 1 << ref_frame ) ) continue ; for ( i = 0 ; i < MAX_MB_PLANE ; i ++ ) xd -> plane [ i ] . pre [ 0 ] = yv12_mb [ ref_frame ] [ i ] ; mbmi -> ref_frame [ 0 ] = ref_frame ; set_ref_ptrs ( cm , xd , ref_frame , NONE ) ; mode_index = mode_idx [ ref_frame ] [ INTER_OFFSET ( this_mode ) ] ; mode_rd_thresh = best_mode_skip_txfm ? rd_threshes [ mode_index ] << 1 : rd_threshes [ mode_index ] ; if ( rd_less_than_thresh ( best_rdc . rdcost , mode_rd_thresh , rd_thresh_freq_fact [ mode_index ] ) ) continue ; if ( this_mode == NEWMV ) { if ( ref_frame > LAST_FRAME && ! cpi -> use_svc ) { int tmp_sad ; int dis , cost_list [ 5 ] ; if ( bsize < BLOCK_16X16 ) continue ; tmp_sad = vp9_int_pro_motion_estimation ( cpi , x , bsize , mi_row , mi_col ) ; if ( tmp_sad > x -> pred_mv_sad [ LAST_FRAME ] ) continue ; if ( tmp_sad + ( num_pels_log2_lookup [ bsize ] << 4 ) > best_pred_sad ) continue ; frame_mv [ NEWMV ] [ ref_frame ] . as_int = mbmi -> mv [ 0 ] . as_int ; rate_mv = vp9_mv_bit_cost ( & frame_mv [ NEWMV ] [ ref_frame ] . as_mv , & x -> mbmi_ext -> ref_mvs [ ref_frame ] [ 0 ] . as_mv , x -> nmvjointcost , x -> mvcost , MV_COST_WEIGHT ) ; frame_mv [ NEWMV ] [ ref_frame ] . as_mv . row >>= 3 ; frame_mv [ NEWMV ] [ ref_frame ] . as_mv . col >>= 3 ; cpi -> find_fractional_mv_step ( x , & frame_mv [ NEWMV ] [ ref_frame ] . as_mv , & x -> mbmi_ext -> ref_mvs [ ref_frame ] [ 0 ] . as_mv , cpi -> common . allow_high_precision_mv , x -> errorperbit , & cpi -> fn_ptr [ bsize ] , cpi -> sf . mv . subpel_force_stop , cpi -> sf . mv . subpel_iters_per_step , cond_cost_list ( cpi , cost_list ) , x -> nmvjointcost , x -> mvcost , & dis , & x -> pred_sse [ ref_frame ] , NULL , 0 , 0 ) ; } else if ( ! combined_motion_search ( cpi , x , bsize , mi_row , mi_col , & frame_mv [ NEWMV ] [ ref_frame ] , & rate_mv , best_rdc . rdcost ) ) { continue ; } } if ( this_mode == NEWMV && ref_frame == LAST_FRAME && frame_mv [ NEWMV ] [ LAST_FRAME ] . as_int != INVALID_MV ) { const int pre_stride = xd -> plane [ 0 ] . pre [ 0 ] . stride ; const uint8_t * const pre_buf = xd -> plane [ 0 ] . pre [ 0 ] . buf + ( frame_mv [ NEWMV ] [ LAST_FRAME ] . as_mv . row >> 3 ) * pre_stride + ( frame_mv [ NEWMV ] [ LAST_FRAME ] . as_mv . col >> 3 ) ; best_pred_sad = cpi -> fn_ptr [ bsize ] . sdf ( x -> plane [ 0 ] . src . buf , x -> plane [ 0 ] . src . stride , pre_buf , pre_stride ) ; x -> pred_mv_sad [ LAST_FRAME ] = best_pred_sad ; } if ( cpi -> use_svc ) { if ( this_mode == NEWMV && ref_frame == GOLDEN_FRAME && frame_mv [ NEWMV ] [ GOLDEN_FRAME ] . as_int != INVALID_MV ) { const int pre_stride = xd -> plane [ 0 ] . pre [ 0 ] . stride ; const uint8_t * const pre_buf = xd -> plane [ 0 ] . pre [ 0 ] . buf + ( frame_mv [ NEWMV ] [ GOLDEN_FRAME ] . as_mv . row >> 3 ) * pre_stride + ( frame_mv [ NEWMV ] [ GOLDEN_FRAME ] . as_mv . col >> 3 ) ; best_pred_sad = cpi -> fn_ptr [ bsize ] . sdf ( x -> plane [ 0 ] . src . buf , x -> plane [ 0 ] . src . stride , pre_buf , pre_stride ) ; x -> pred_mv_sad [ GOLDEN_FRAME ] = best_pred_sad ; } } if ( this_mode != NEARESTMV && frame_mv [ this_mode ] [ ref_frame ] . as_int == frame_mv [ NEARESTMV ] [ ref_frame ] . as_int ) continue ; mbmi -> mode = this_mode ; mbmi -> mv [ 0 ] . as_int = frame_mv [ this_mode ] [ ref_frame ] . as_int ; if ( reuse_inter_pred ) { if ( ! this_mode_pred ) { this_mode_pred = & tmp [ 3 ] ; } else { this_mode_pred = & tmp [ get_pred_buffer ( tmp , 3 ) ] ; pd -> dst . buf = this_mode_pred -> data ; pd -> dst . stride = bw ; } } if ( ( this_mode == NEWMV || filter_ref == SWITCHABLE ) && pred_filter_search && ( ref_frame == LAST_FRAME || ( ref_frame == GOLDEN_FRAME && cpi -> use_svc ) ) && ( ( ( mbmi -> mv [ 0 ] . as_mv . row | mbmi -> mv [ 0 ] . as_mv . col ) & 0x07 ) != 0 ) ) { int pf_rate [ 3 ] ; int64_t pf_dist [ 3 ] ; unsigned int pf_var [ 3 ] ; unsigned int pf_sse [ 3 ] ; TX_SIZE pf_tx_size [ 3 ] ; int64_t best_cost = INT64_MAX ; INTERP_FILTER best_filter = SWITCHABLE , filter ; PRED_BUFFER * current_pred = this_mode_pred ; for ( filter = EIGHTTAP ; filter <= EIGHTTAP_SMOOTH ; ++ filter ) { int64_t cost ; mbmi -> interp_filter = filter ; vp9_build_inter_predictors_sby ( xd , mi_row , mi_col , bsize ) ; model_rd_for_sb_y ( cpi , bsize , x , xd , & pf_rate [ filter ] , & pf_dist [ filter ] , & pf_var [ filter ] , & pf_sse [ filter ] ) ; pf_rate [ filter ] += vp9_get_switchable_rate ( cpi , xd ) ; cost = RDCOST ( x -> rdmult , x -> rddiv , pf_rate [ filter ] , pf_dist [ filter ] ) ; pf_tx_size [ filter ] = mbmi -> tx_size ; if ( cost < best_cost ) { best_filter = filter ; best_cost = cost ; skip_txfm = x -> skip_txfm [ 0 ] ; if ( reuse_inter_pred ) { if ( this_mode_pred != current_pred ) { free_pred_buffer ( this_mode_pred ) ; this_mode_pred = current_pred ; } if ( filter < EIGHTTAP_SHARP ) { current_pred = & tmp [ get_pred_buffer ( tmp , 3 ) ] ; pd -> dst . buf = current_pred -> data ; pd -> dst . stride = bw ; } } } } if ( reuse_inter_pred && this_mode_pred != current_pred ) free_pred_buffer ( current_pred ) ; mbmi -> interp_filter = best_filter ; mbmi -> tx_size = pf_tx_size [ best_filter ] ; this_rdc . rate = pf_rate [ best_filter ] ; this_rdc . dist = pf_dist [ best_filter ] ; var_y = pf_var [ best_filter ] ; sse_y = pf_sse [ best_filter ] ; x -> skip_txfm [ 0 ] = skip_txfm ; if ( reuse_inter_pred ) { pd -> dst . buf = this_mode_pred -> data ; pd -> dst . stride = this_mode_pred -> stride ; } } else { mbmi -> interp_filter = ( filter_ref == SWITCHABLE ) ? EIGHTTAP : filter_ref ; vp9_build_inter_predictors_sby ( xd , mi_row , mi_col , bsize ) ; if ( bsize > BLOCK_32X32 && ! cyclic_refresh_segment_id_boosted ( xd -> mi [ 0 ] -> mbmi . segment_id ) && cm -> base_qindex ) { model_rd_for_sb_y_large ( cpi , bsize , x , xd , & this_rdc . rate , & this_rdc . dist , & var_y , & sse_y , mi_row , mi_col , & this_early_term ) ; } else { model_rd_for_sb_y ( cpi , bsize , x , xd , & this_rdc . rate , & this_rdc . dist , & var_y , & sse_y ) ; } } if ( ! this_early_term ) { this_sse = ( int64_t ) sse_y ; block_yrd ( cpi , x , & this_rdc . rate , & this_rdc . dist , & is_skippable , & this_sse , 0 , bsize , MIN ( mbmi -> tx_size , TX_16X16 ) ) ; x -> skip_txfm [ 0 ] = is_skippable ; if ( is_skippable ) { this_rdc . rate = vp9_cost_bit ( vp9_get_skip_prob ( cm , xd ) , 1 ) ; } else { if ( RDCOST ( x -> rdmult , x -> rddiv , this_rdc . rate , this_rdc . dist ) < RDCOST ( x -> rdmult , x -> rddiv , 0 , this_sse ) ) { this_rdc . rate += vp9_cost_bit ( vp9_get_skip_prob ( cm , xd ) , 0 ) ; } else { this_rdc . rate = vp9_cost_bit ( vp9_get_skip_prob ( cm , xd ) , 1 ) ; this_rdc . dist = this_sse ; x -> skip_txfm [ 0 ] = SKIP_TXFM_AC_DC ; } } if ( cm -> interp_filter == SWITCHABLE ) { if ( ( mbmi -> mv [ 0 ] . as_mv . row | mbmi -> mv [ 0 ] . as_mv . col ) & 0x07 ) this_rdc . rate += vp9_get_switchable_rate ( cpi , xd ) ; } } else { this_rdc . rate += cm -> interp_filter == SWITCHABLE ? vp9_get_switchable_rate ( cpi , xd ) : 0 ; this_rdc . rate += vp9_cost_bit ( vp9_get_skip_prob ( cm , xd ) , 1 ) ; } if ( x -> color_sensitivity [ 0 ] || x -> color_sensitivity [ 1 ] ) { int uv_rate = 0 ; int64_t uv_dist = 0 ; if ( x -> color_sensitivity [ 0 ] ) vp9_build_inter_predictors_sbp ( xd , mi_row , mi_col , bsize , 1 ) ; if ( x -> color_sensitivity [ 1 ] ) vp9_build_inter_predictors_sbp ( xd , mi_row , mi_col , bsize , 2 ) ; model_rd_for_sb_uv ( cpi , bsize , x , xd , & uv_rate , & uv_dist , & var_y , & sse_y ) ; this_rdc . rate += uv_rate ; this_rdc . dist += uv_dist ; } this_rdc . rate += rate_mv ; this_rdc . rate += cpi -> inter_mode_cost [ x -> mbmi_ext -> mode_context [ ref_frame ] ] [ INTER_OFFSET ( this_mode ) ] ; this_rdc . rate += ref_frame_cost [ ref_frame ] ; this_rdc . rdcost = RDCOST ( x -> rdmult , x -> rddiv , this_rdc . rate , this_rdc . dist ) ; if ( cpi -> allow_encode_breakout ) { encode_breakout_test ( cpi , x , bsize , mi_row , mi_col , ref_frame , this_mode , var_y , sse_y , yv12_mb , & this_rdc . rate , & this_rdc . dist ) ; if ( x -> skip ) { this_rdc . rate += rate_mv ; this_rdc . rdcost = RDCOST ( x -> rdmult , x -> rddiv , this_rdc . rate , this_rdc . dist ) ; } } # if CONFIG_VP9_TEMPORAL_DENOISING if ( cpi -> oxcf . noise_sensitivity > 0 ) vp9_denoiser_update_frame_stats ( mbmi , sse_y , this_mode , ctx ) ; # else ( void ) ctx ; # endif if ( this_rdc . rdcost < best_rdc . rdcost || x -> skip ) { best_rdc = this_rdc ; best_mode = this_mode ; best_pred_filter = mbmi -> interp_filter ; best_tx_size = mbmi -> tx_size ; best_ref_frame = ref_frame ; best_mode_skip_txfm = x -> skip_txfm [ 0 ] ; best_early_term = this_early_term ; if ( reuse_inter_pred ) { free_pred_buffer ( best_pred ) ; best_pred = this_mode_pred ; } } else { if ( reuse_inter_pred ) free_pred_buffer ( this_mode_pred ) ; } if ( x -> skip ) break ; if ( best_early_term && idx > 0 ) { x -> skip = 1 ; break ; } } mbmi -> mode = best_mode ; mbmi -> interp_filter = best_pred_filter ; mbmi -> tx_size = best_tx_size ; mbmi -> ref_frame [ 0 ] = best_ref_frame ; mbmi -> mv [ 0 ] . as_int = frame_mv [ best_mode ] [ best_ref_frame ] . as_int ; xd -> mi [ 0 ] -> bmi [ 0 ] . as_mv [ 0 ] . as_int = mbmi -> mv [ 0 ] . as_int ; x -> skip_txfm [ 0 ] = best_mode_skip_txfm ; if ( best_rdc . rdcost == INT64_MAX || ( ! x -> skip && best_rdc . rdcost > inter_mode_thresh && bsize <= cpi -> sf . max_intra_bsize ) ) { struct estimate_block_intra_args args = { cpi , x , DC_PRED , 0 , 0 } ; const TX_SIZE intra_tx_size = MIN ( max_txsize_lookup [ bsize ] , tx_mode_to_biggest_tx_size [ cpi -> common . tx_mode ] ) ; int i ; TX_SIZE best_intra_tx_size = TX_SIZES ; if ( reuse_inter_pred && best_pred != NULL ) { if ( best_pred -> data == orig_dst . buf ) { this_mode_pred = & tmp [ get_pred_buffer ( tmp , 3 ) ] ; # if CONFIG_VP9_HIGHBITDEPTH if ( cm -> use_highbitdepth ) vpx_highbd_convolve_copy ( best_pred -> data , best_pred -> stride , this_mode_pred -> data , this_mode_pred -> stride , NULL , 0 , NULL , 0 , bw , bh , xd -> bd ) ; else vpx_convolve_copy ( best_pred -> data , best_pred -> stride , this_mode_pred -> data , this_mode_pred -> stride , NULL , 0 , NULL , 0 , bw , bh ) ; # else vpx_convolve_copy ( best_pred -> data , best_pred -> stride , this_mode_pred -> data , this_mode_pred -> stride , NULL , 0 , NULL , 0 , bw , bh ) ; # endif best_pred = this_mode_pred ; } } pd -> dst = orig_dst ; for ( i = 0 ; i < 4 ; ++ i ) { const PREDICTION_MODE this_mode = intra_mode_list [ i ] ; THR_MODES mode_index = mode_idx [ INTRA_FRAME ] [ mode_offset ( this_mode ) ] ; int mode_rd_thresh = rd_threshes [ mode_index ] ; if ( ! ( ( 1 << this_mode ) & cpi -> sf . intra_y_mode_bsize_mask [ bsize ] ) ) continue ; if ( rd_less_than_thresh ( best_rdc . rdcost , mode_rd_thresh , rd_thresh_freq_fact [ mode_index ] ) ) continue ; mbmi -> mode = this_mode ; mbmi -> ref_frame [ 0 ] = INTRA_FRAME ; args . mode = this_mode ; args . rate = 0 ; args . dist = 0 ; mbmi -> tx_size = intra_tx_size ; vp9_foreach_transformed_block_in_plane ( xd , bsize , 0 , estimate_block_intra , & args ) ; this_rdc . rate = args . rate ; this_rdc . dist = args . dist ; this_rdc . rate += cpi -> mbmode_cost [ this_mode ] ; this_rdc . rate += ref_frame_cost [ INTRA_FRAME ] ; this_rdc . rate += intra_cost_penalty ; this_rdc . rdcost = RDCOST ( x -> rdmult , x -> rddiv , this_rdc . rate , this_rdc . dist ) ; if ( this_rdc . rdcost < best_rdc . rdcost ) { best_rdc = this_rdc ; best_mode = this_mode ; best_intra_tx_size = mbmi -> tx_size ; best_ref_frame = INTRA_FRAME ; mbmi -> uv_mode = this_mode ; mbmi -> mv [ 0 ] . as_int = INVALID_MV ; best_mode_skip_txfm = x -> skip_txfm [ 0 ] ; } } if ( best_ref_frame != INTRA_FRAME ) { mbmi -> tx_size = best_tx_size ; } else { mbmi -> tx_size = best_intra_tx_size ; } } pd -> dst = orig_dst ; mbmi -> mode = best_mode ; mbmi -> ref_frame [ 0 ] = best_ref_frame ; x -> skip_txfm [ 0 ] = best_mode_skip_txfm ; if ( reuse_inter_pred && best_pred != NULL ) { if ( best_pred -> data != orig_dst . buf && is_inter_mode ( mbmi -> mode ) ) { # if CONFIG_VP9_HIGHBITDEPTH if ( cm -> use_highbitdepth ) vpx_highbd_convolve_copy ( best_pred -> data , best_pred -> stride , pd -> dst . buf , pd -> dst . stride , NULL , 0 , NULL , 0 , bw , bh , xd -> bd ) ; else vpx_convolve_copy ( best_pred -> data , best_pred -> stride , pd -> dst . buf , pd -> dst . stride , NULL , 0 , NULL , 0 , bw , bh ) ; # else vpx_convolve_copy ( best_pred -> data , best_pred -> stride , pd -> dst . buf , pd -> dst . stride , NULL , 0 , NULL , 0 , bw , bh ) ; # endif } } if ( cpi -> sf . adaptive_rd_thresh ) { THR_MODES best_mode_idx = mode_idx [ best_ref_frame ] [ mode_offset ( mbmi -> mode ) ] ; if ( best_ref_frame == INTRA_FRAME ) { int intra_modes = sizeof ( intra_mode_list ) / sizeof ( PREDICTION_MODE ) ; int i ; for ( i = 0 ; i < intra_modes ; i ++ ) { update_thresh_freq_fact ( cpi , tile_data , bsize , INTRA_FRAME , best_mode_idx , intra_mode_list [ i ] ) ; } } else { for ( ref_frame = LAST_FRAME ; ref_frame <= GOLDEN_FRAME ; ++ ref_frame ) { PREDICTION_MODE this_mode ; if ( best_ref_frame != ref_frame ) continue ; for ( this_mode = NEARESTMV ; this_mode <= NEWMV ; ++ this_mode ) { update_thresh_freq_fact ( cpi , tile_data , bsize , ref_frame , best_mode_idx , this_mode ) ; } } } } * rd_cost = best_rdc ; }" 999,"CWE-119 static void first_pass_motion_search ( VP8_COMP * cpi , MACROBLOCK * x , int_mv * ref_mv , MV * best_mv , YV12_BUFFER_CONFIG * recon_buffer , int * best_motion_err , int recon_yoffset ) { MACROBLOCKD * const xd = & x -> e_mbd ; BLOCK * b = & x -> block [ 0 ] ; BLOCKD * d = & x -> e_mbd . block [ 0 ] ; int num00 ; int_mv tmp_mv ; int_mv ref_mv_full ; int tmp_err ; int step_param = 3 ; int further_steps = ( MAX_MVSEARCH_STEPS - 1 ) - step_param ; int n ; vp8_variance_fn_ptr_t v_fn_ptr = cpi -> fn_ptr [ BLOCK_16X16 ] ; int new_mv_mode_penalty = 256 ; v_fn_ptr . vf = vp8_mse16x16 ; xd -> pre . y_buffer = recon_buffer -> y_buffer + recon_yoffset ; tmp_mv . as_int = 0 ; ref_mv_full . as_mv . col = ref_mv -> as_mv . col >> 3 ; ref_mv_full . as_mv . row = ref_mv -> as_mv . row >> 3 ; tmp_err = cpi -> diamond_search_sad ( x , b , d , & ref_mv_full , & tmp_mv , step_param , x -> sadperbit16 , & num00 , & v_fn_ptr , x -> mvcost , ref_mv ) ; if ( tmp_err < INT_MAX - new_mv_mode_penalty ) tmp_err += new_mv_mode_penalty ; if ( tmp_err < * best_motion_err ) { * best_motion_err = tmp_err ; best_mv -> row = tmp_mv . as_mv . row ; best_mv -> col = tmp_mv . as_mv . col ; } n = num00 ; num00 = 0 ; while ( n < further_steps ) { n ++ ; if ( num00 ) num00 -- ; else { tmp_err = cpi -> diamond_search_sad ( x , b , d , & ref_mv_full , & tmp_mv , step_param + n , x -> sadperbit16 , & num00 , & v_fn_ptr , x -> mvcost , ref_mv ) ; if ( tmp_err < INT_MAX - new_mv_mode_penalty ) tmp_err += new_mv_mode_penalty ; if ( tmp_err < * best_motion_err ) { * best_motion_err = tmp_err ; best_mv -> row = tmp_mv . as_mv . row ; best_mv -> col = tmp_mv . as_mv . col ; } } } }","static void first_pass_motion_search ( VP8_COMP * cpi , MACROBLOCK * x , int_mv * ref_mv , MV * best_mv , YV12_BUFFER_CONFIG * recon_buffer , int * best_motion_err , int recon_yoffset ) { MACROBLOCKD * const xd = & x -> e_mbd ; BLOCK * b = & x -> block [ 0 ] ; BLOCKD * d = & x -> e_mbd . block [ 0 ] ; int num00 ; int_mv tmp_mv ; int_mv ref_mv_full ; int tmp_err ; int step_param = 3 ; int further_steps = ( MAX_MVSEARCH_STEPS - 1 ) - step_param ; int n ; vp8_variance_fn_ptr_t v_fn_ptr = cpi -> fn_ptr [ BLOCK_16X16 ] ; int new_mv_mode_penalty = 256 ; v_fn_ptr . vf = vpx_mse16x16 ; xd -> pre . y_buffer = recon_buffer -> y_buffer + recon_yoffset ; tmp_mv . as_int = 0 ; ref_mv_full . as_mv . col = ref_mv -> as_mv . col >> 3 ; ref_mv_full . as_mv . row = ref_mv -> as_mv . row >> 3 ; tmp_err = cpi -> diamond_search_sad ( x , b , d , & ref_mv_full , & tmp_mv , step_param , x -> sadperbit16 , & num00 , & v_fn_ptr , x -> mvcost , ref_mv ) ; if ( tmp_err < INT_MAX - new_mv_mode_penalty ) tmp_err += new_mv_mode_penalty ; if ( tmp_err < * best_motion_err ) { * best_motion_err = tmp_err ; best_mv -> row = tmp_mv . as_mv . row ; best_mv -> col = tmp_mv . as_mv . col ; } n = num00 ; num00 = 0 ; while ( n < further_steps ) { n ++ ; if ( num00 ) num00 -- ; else { tmp_err = cpi -> diamond_search_sad ( x , b , d , & ref_mv_full , & tmp_mv , step_param + n , x -> sadperbit16 , & num00 , & v_fn_ptr , x -> mvcost , ref_mv ) ; if ( tmp_err < INT_MAX - new_mv_mode_penalty ) tmp_err += new_mv_mode_penalty ; if ( tmp_err < * best_motion_err ) { * best_motion_err = tmp_err ; best_mv -> row = tmp_mv . as_mv . row ; best_mv -> col = tmp_mv . as_mv . col ; } } } }" 1000,"CWE-200 static int load_script ( struct linux_binprm * bprm ) { const char * i_arg , * i_name ; char * cp ; struct file * file ; char interp [ BINPRM_BUF_SIZE ] ; int retval ; if ( ( bprm -> buf [ 0 ] != '#' ) || ( bprm -> buf [ 1 ] != '!' ) ) return - ENOEXEC ; allow_write_access ( bprm -> file ) ; fput ( bprm -> file ) ; bprm -> file = NULL ; bprm -> buf [ BINPRM_BUF_SIZE - 1 ] = '\\0' ; if ( ( cp = strchr ( bprm -> buf , '\\n' ) ) == NULL ) cp = bprm -> buf + BINPRM_BUF_SIZE - 1 ; * cp = '\\0' ; while ( cp > bprm -> buf ) { cp -- ; if ( ( * cp == ' ' ) || ( * cp == '\\t' ) ) * cp = '\\0' ; else break ; } for ( cp = bprm -> buf + 2 ; ( * cp == ' ' ) || ( * cp == '\\t' ) ; cp ++ ) ; if ( * cp == '\\0' ) return - ENOEXEC ; i_name = cp ; i_arg = NULL ; for ( ; * cp && ( * cp != ' ' ) && ( * cp != '\\t' ) ; cp ++ ) ; while ( ( * cp == ' ' ) || ( * cp == '\\t' ) ) * cp ++ = '\\0' ; if ( * cp ) i_arg = cp ; strcpy ( interp , i_name ) ; retval = remove_arg_zero ( bprm ) ; if ( retval ) return retval ; retval = copy_strings_kernel ( 1 , & bprm -> interp , bprm ) ; if ( retval < 0 ) return retval ; bprm -> argc ++ ; if ( i_arg ) { retval = copy_strings_kernel ( 1 , & i_arg , bprm ) ; if ( retval < 0 ) return retval ; bprm -> argc ++ ; } retval = copy_strings_kernel ( 1 , & i_name , bprm ) ; if ( retval ) return retval ; bprm -> argc ++ ; bprm -> interp = interp ; file = open_exec ( interp ) ; if ( IS_ERR ( file ) ) return PTR_ERR ( file ) ; bprm -> file = file ; retval = prepare_binprm ( bprm ) ; if ( retval < 0 ) return retval ; return search_binary_handler ( bprm ) ; }","static int load_script ( struct linux_binprm * bprm ) { const char * i_arg , * i_name ; char * cp ; struct file * file ; char interp [ BINPRM_BUF_SIZE ] ; int retval ; if ( ( bprm -> buf [ 0 ] != '#' ) || ( bprm -> buf [ 1 ] != '!' ) ) return - ENOEXEC ; allow_write_access ( bprm -> file ) ; fput ( bprm -> file ) ; bprm -> file = NULL ; bprm -> buf [ BINPRM_BUF_SIZE - 1 ] = '\\0' ; if ( ( cp = strchr ( bprm -> buf , '\\n' ) ) == NULL ) cp = bprm -> buf + BINPRM_BUF_SIZE - 1 ; * cp = '\\0' ; while ( cp > bprm -> buf ) { cp -- ; if ( ( * cp == ' ' ) || ( * cp == '\\t' ) ) * cp = '\\0' ; else break ; } for ( cp = bprm -> buf + 2 ; ( * cp == ' ' ) || ( * cp == '\\t' ) ; cp ++ ) ; if ( * cp == '\\0' ) return - ENOEXEC ; i_name = cp ; i_arg = NULL ; for ( ; * cp && ( * cp != ' ' ) && ( * cp != '\\t' ) ; cp ++ ) ; while ( ( * cp == ' ' ) || ( * cp == '\\t' ) ) * cp ++ = '\\0' ; if ( * cp ) i_arg = cp ; strcpy ( interp , i_name ) ; retval = remove_arg_zero ( bprm ) ; if ( retval ) return retval ; retval = copy_strings_kernel ( 1 , & bprm -> interp , bprm ) ; if ( retval < 0 ) return retval ; bprm -> argc ++ ; if ( i_arg ) { retval = copy_strings_kernel ( 1 , & i_arg , bprm ) ; if ( retval < 0 ) return retval ; bprm -> argc ++ ; } retval = copy_strings_kernel ( 1 , & i_name , bprm ) ; if ( retval ) return retval ; bprm -> argc ++ ; retval = bprm_change_interp ( interp , bprm ) ; if ( retval < 0 ) return retval ; file = open_exec ( interp ) ; if ( IS_ERR ( file ) ) return PTR_ERR ( file ) ; bprm -> file = file ; retval = prepare_binprm ( bprm ) ; if ( retval < 0 ) return retval ; return search_binary_handler ( bprm ) ; }" 1001,"CWE-125 static void aodv_extension ( netdissect_options * ndo , const struct aodv_ext * ep , u_int length ) { const struct aodv_hello * ah ; switch ( ep -> type ) { case AODV_EXT_HELLO : ah = ( const struct aodv_hello * ) ( const void * ) ep ; ND_TCHECK ( * ah ) ; if ( length < sizeof ( struct aodv_hello ) ) goto trunc ; ND_PRINT ( ( ndo , ""\\n\\text HELLO %ld ms"" , ( unsigned long ) EXTRACT_32BITS ( & ah -> interval ) ) ) ; break ; default : ND_PRINT ( ( ndo , ""\\n\\text %u %u"" , ep -> type , ep -> length ) ) ; break ; } return ; trunc : ND_PRINT ( ( ndo , "" [|hello]"" ) ) ; }","static void aodv_extension ( netdissect_options * ndo , const struct aodv_ext * ep , u_int length ) { const struct aodv_hello * ah ; ND_TCHECK ( * ep ) ; switch ( ep -> type ) { case AODV_EXT_HELLO : ah = ( const struct aodv_hello * ) ( const void * ) ep ; ND_TCHECK ( * ah ) ; if ( length < sizeof ( struct aodv_hello ) ) goto trunc ; if ( ep -> length < 4 ) { ND_PRINT ( ( ndo , ""\\n\\text HELLO - bad length %u"" , ep -> length ) ) ; break ; } ND_PRINT ( ( ndo , ""\\n\\text HELLO %ld ms"" , ( unsigned long ) EXTRACT_32BITS ( & ah -> interval ) ) ) ; break ; default : ND_PRINT ( ( ndo , ""\\n\\text %u %u"" , ep -> type , ep -> length ) ) ; break ; } return ; trunc : ND_PRINT ( ( ndo , "" [|hello]"" ) ) ; }" 1002,"NVD-CWE-Other goto out ; } ret = ext4_ext_handle_uninitialized_extents ( handle , inode , iblock , max_blocks , path , flags , allocated , bh_result , newblock ) ; return ret ; } } if ( ( flags & EXT4_GET_BLOCKS_CREATE ) == 0 ) { ext4_ext_put_gap_in_cache ( inode , path , iblock ) ; goto out2 ; } ar . lleft = iblock ; err = ext4_ext_search_left ( inode , path , & ar . lleft , & ar . pleft ) ; if ( err ) goto out2 ; ar . lright = iblock ; err = ext4_ext_search_right ( inode , path , & ar . lright , & ar . pright ) ; if ( err ) goto out2 ; if ( max_blocks > EXT_INIT_MAX_LEN && ! ( flags & EXT4_GET_BLOCKS_UNINIT_EXT ) ) max_blocks = EXT_INIT_MAX_LEN ; else if ( max_blocks > EXT_UNINIT_MAX_LEN && ( flags & EXT4_GET_BLOCKS_UNINIT_EXT ) ) max_blocks = EXT_UNINIT_MAX_LEN ; newex . ee_block = cpu_to_le32 ( iblock ) ; newex . ee_len = cpu_to_le16 ( max_blocks ) ; err = ext4_ext_check_overlap ( inode , & newex , path ) ; if ( err ) allocated = ext4_ext_get_actual_len ( & newex ) ; else allocated = max_blocks ; ar . inode = inode ; ar . goal = ext4_ext_find_goal ( inode , path , iblock ) ; ar . logical = iblock ; ar . len = allocated ; if ( S_ISREG ( inode -> i_mode ) ) ar . flags = EXT4_MB_HINT_DATA ; else ar . flags = 0 ; newblock = ext4_mb_new_blocks ( handle , & ar , & err ) ; if ( ! newblock ) goto out2 ; ext_debug ( ""allocate new block: goal %llu, found %llu/%u\\n"" , ar . goal , newblock , allocated ) ; ext4_ext_store_pblock ( & newex , newblock ) ; newex . ee_len = cpu_to_le16 ( ar . len ) ; if ( flags & EXT4_GET_BLOCKS_UNINIT_EXT ) { ext4_ext_mark_uninitialized ( & newex ) ; if ( flags == EXT4_GET_BLOCKS_PRE_IO ) { if ( io ) io -> flag = EXT4_IO_UNWRITTEN ; else ext4_set_inode_state ( inode , EXT4_STATE_DIO_UNWRITTEN ) ; } } if ( unlikely ( EXT4_I ( inode ) -> i_flags & EXT4_EOFBLOCKS_FL ) ) { if ( eh -> eh_entries ) { last_ex = EXT_LAST_EXTENT ( eh ) ; if ( iblock + ar . len > le32_to_cpu ( last_ex -> ee_block ) EXT4_I ( inode ) -> i_flags &= ~ EXT4_EOFBLOCKS_FL ; } else { WARN_ON ( eh -> eh_entries == 0 ) ; ext4_error ( inode -> i_sb , __func__ , ""inode#%lu, eh->eh_entries = 0!"" , inode -> i_ino ) ; } } err = ext4_ext_insert_extent ( handle , inode , path , & newex , flags ) ; if ( err ) { ext4_discard_preallocations ( inode ) ; ext4_free_blocks ( handle , inode , 0 , ext_pblock ( & newex ) , ext4_ext_get_actual_len ( & newex ) , 0 ) ; goto out2 ; } newblock = ext_pblock ( & newex ) ; allocated = ext4_ext_get_actual_len ( & newex ) ; if ( allocated > max_blocks ) allocated = max_blocks ; set_buffer_new ( bh_result ) ; if ( flags & EXT4_GET_BLOCKS_DELALLOC_RESERVE ) ext4_da_update_reserve_space ( inode , allocated , 1 ) ; if ( ( flags & EXT4_GET_BLOCKS_UNINIT_EXT ) == 0 ) { ext4_ext_put_in_cache ( inode , iblock , allocated , newblock , EXT4_EXT_CACHE_EXTENT ) ; ext4_update_inode_fsync_trans ( handle , inode , 1 ) ; } else ext4_update_inode_fsync_trans ( handle , inode , 0 ) ; out : if ( allocated > max_blocks ) allocated = max_blocks ; ext4_ext_show_leaf ( inode , path ) ; set_buffer_mapped ( bh_result ) ; bh_result -> b_bdev = inode -> i_sb -> s_bdev ; bh_result -> b_blocknr = newblock ; out2 : if ( path ) { ext4_ext_drop_refs ( path ) ; kfree ( path ) ; } return err ? err : allocated ; }","goto out ; } ret = ext4_ext_handle_uninitialized_extents ( handle , inode , iblock , max_blocks , path , flags , allocated , bh_result , newblock ) ; return ret ; } } if ( ( flags & EXT4_GET_BLOCKS_CREATE ) == 0 ) { ext4_ext_put_gap_in_cache ( inode , path , iblock ) ; goto out2 ; } ar . lleft = iblock ; err = ext4_ext_search_left ( inode , path , & ar . lleft , & ar . pleft ) ; if ( err ) goto out2 ; ar . lright = iblock ; err = ext4_ext_search_right ( inode , path , & ar . lright , & ar . pright ) ; if ( err ) goto out2 ; if ( max_blocks > EXT_INIT_MAX_LEN && ! ( flags & EXT4_GET_BLOCKS_UNINIT_EXT ) ) max_blocks = EXT_INIT_MAX_LEN ; else if ( max_blocks > EXT_UNINIT_MAX_LEN && ( flags & EXT4_GET_BLOCKS_UNINIT_EXT ) ) max_blocks = EXT_UNINIT_MAX_LEN ; newex . ee_block = cpu_to_le32 ( iblock ) ; newex . ee_len = cpu_to_le16 ( max_blocks ) ; err = ext4_ext_check_overlap ( inode , & newex , path ) ; if ( err ) allocated = ext4_ext_get_actual_len ( & newex ) ; else allocated = max_blocks ; ar . inode = inode ; ar . goal = ext4_ext_find_goal ( inode , path , iblock ) ; ar . logical = iblock ; ar . len = allocated ; if ( S_ISREG ( inode -> i_mode ) ) ar . flags = EXT4_MB_HINT_DATA ; else ar . flags = 0 ; newblock = ext4_mb_new_blocks ( handle , & ar , & err ) ; if ( ! newblock ) goto out2 ; ext_debug ( ""allocate new block: goal %llu, found %llu/%u\\n"" , ar . goal , newblock , allocated ) ; ext4_ext_store_pblock ( & newex , newblock ) ; newex . ee_len = cpu_to_le16 ( ar . len ) ; if ( flags & EXT4_GET_BLOCKS_UNINIT_EXT ) { ext4_ext_mark_uninitialized ( & newex ) ; if ( ( flags & EXT4_GET_BLOCKS_PRE_IO ) ) { if ( io ) io -> flag = EXT4_IO_UNWRITTEN ; else ext4_set_inode_state ( inode , EXT4_STATE_DIO_UNWRITTEN ) ; } if ( ext4_should_dioread_nolock ( inode ) ) set_buffer_uninit ( bh_result ) ; } if ( unlikely ( EXT4_I ( inode ) -> i_flags & EXT4_EOFBLOCKS_FL ) ) { if ( eh -> eh_entries ) { last_ex = EXT_LAST_EXTENT ( eh ) ; if ( iblock + ar . len > le32_to_cpu ( last_ex -> ee_block ) ext4_ext_get_actual_len ( last_ex ) ) EXT4_I ( inode ) -> i_flags &= ~ EXT4_EOFBLOCKS_FL ; } else { WARN_ON ( eh -> eh_entries == 0 ) ; ext4_error ( inode -> i_sb , __func__ , ""inode#%lu, eh->eh_entries = 0!"" , inode -> i_ino ) ; } } err = ext4_ext_insert_extent ( handle , inode , path , & newex , flags ) ; if ( err ) { ext4_discard_preallocations ( inode ) ; ext4_free_blocks ( handle , inode , 0 , ext_pblock ( & newex ) , ext4_ext_get_actual_len ( & newex ) , 0 ) ; goto out2 ; } newblock = ext_pblock ( & newex ) ; allocated = ext4_ext_get_actual_len ( & newex ) ; if ( allocated > max_blocks ) allocated = max_blocks ; set_buffer_new ( bh_result ) ; if ( flags & EXT4_GET_BLOCKS_DELALLOC_RESERVE ) ext4_da_update_reserve_space ( inode , allocated , 1 ) ; if ( ( flags & EXT4_GET_BLOCKS_UNINIT_EXT ) == 0 ) { ext4_ext_put_in_cache ( inode , iblock , allocated , newblock , EXT4_EXT_CACHE_EXTENT ) ; ext4_update_inode_fsync_trans ( handle , inode , 1 ) ; } else ext4_update_inode_fsync_trans ( handle , inode , 0 ) ; out : if ( allocated > max_blocks ) allocated = max_blocks ; ext4_ext_show_leaf ( inode , path ) ; set_buffer_mapped ( bh_result ) ; bh_result -> b_bdev = inode -> i_sb -> s_bdev ; bh_result -> b_blocknr = newblock ; out2 : if ( path ) { ext4_ext_drop_refs ( path ) ; kfree ( path ) ; } return err ? err : allocated ; }" 1003,"CWE-362 long keyctl_read_key ( key_serial_t keyid , char __user * buffer , size_t buflen ) { struct key * key ; key_ref_t key_ref ; long ret ; key_ref = lookup_user_key ( keyid , 0 , 0 ) ; if ( IS_ERR ( key_ref ) ) { ret = - ENOKEY ; goto error ; } key = key_ref_to_ptr ( key_ref ) ; ret = key_permission ( key_ref , KEY_NEED_READ ) ; if ( ret == 0 ) goto can_read_key ; if ( ret != - EACCES ) goto error ; if ( ! is_key_possessed ( key_ref ) ) { ret = - EACCES ; goto error2 ; } can_read_key : ret = key_validate ( key ) ; if ( ret == 0 ) { ret = - EOPNOTSUPP ; if ( key -> type -> read ) { down_read ( & key -> sem ) ; ret = key -> type -> read ( key , buffer , buflen ) ; up_read ( & key -> sem ) ; } } error2 : key_put ( key ) ; error : return ret ; }","long keyctl_read_key ( key_serial_t keyid , char __user * buffer , size_t buflen ) { struct key * key ; key_ref_t key_ref ; long ret ; key_ref = lookup_user_key ( keyid , 0 , 0 ) ; if ( IS_ERR ( key_ref ) ) { ret = - ENOKEY ; goto error ; } key = key_ref_to_ptr ( key_ref ) ; ret = key_permission ( key_ref , KEY_NEED_READ ) ; if ( ret == 0 ) goto can_read_key ; if ( ret != - EACCES ) goto error ; if ( ! is_key_possessed ( key_ref ) ) { ret = - EACCES ; goto error2 ; } can_read_key : ret = - EOPNOTSUPP ; if ( key -> type -> read ) { down_read ( & key -> sem ) ; ret = key_validate ( key ) ; if ( ret == 0 ) ret = key -> type -> read ( key , buffer , buflen ) ; up_read ( & key -> sem ) ; } error2 : key_put ( key ) ; error : return ret ; }" 1004,"CWE-200 static int do_video_set_spu_palette ( unsigned int fd , unsigned int cmd , struct compat_video_spu_palette __user * up ) { struct video_spu_palette __user * up_native ; compat_uptr_t palp ; int length , err ; err = get_user ( palp , & up -> palette ) ; err |= get_user ( length , & up -> length ) ; up_native = compat_alloc_user_space ( sizeof ( struct video_spu_palette ) ) ; err = put_user ( compat_ptr ( palp ) , & up_native -> palette ) ; err |= put_user ( length , & up_native -> length ) ; if ( err ) return - EFAULT ; err = sys_ioctl ( fd , cmd , ( unsigned long ) up_native ) ; return err ; }","static int do_video_set_spu_palette ( unsigned int fd , unsigned int cmd , struct compat_video_spu_palette __user * up ) { struct video_spu_palette __user * up_native ; compat_uptr_t palp ; int length , err ; err = get_user ( palp , & up -> palette ) ; err |= get_user ( length , & up -> length ) ; if ( err ) return - EFAULT ; up_native = compat_alloc_user_space ( sizeof ( struct video_spu_palette ) ) ; err = put_user ( compat_ptr ( palp ) , & up_native -> palette ) ; err |= put_user ( length , & up_native -> length ) ; if ( err ) return - EFAULT ; err = sys_ioctl ( fd , cmd , ( unsigned long ) up_native ) ; return err ; }" 1005,"CWE-200 static void slc_bump ( struct slcan * sl ) { struct sk_buff * skb ; struct can_frame cf ; int i , tmp ; u32 tmpid ; char * cmd = sl -> rbuff ; cf . can_id = 0 ; switch ( * cmd ) { case 'r' : cf . can_id = CAN_RTR_FLAG ; case 't' : cf . can_dlc = sl -> rbuff [ SLC_CMD_LEN + SLC_SFF_ID_LEN ] ; sl -> rbuff [ SLC_CMD_LEN + SLC_SFF_ID_LEN ] = 0 ; cmd += SLC_CMD_LEN + SLC_SFF_ID_LEN + 1 ; break ; case 'R' : cf . can_id = CAN_RTR_FLAG ; case 'T' : cf . can_id |= CAN_EFF_FLAG ; cf . can_dlc = sl -> rbuff [ SLC_CMD_LEN + SLC_EFF_ID_LEN ] ; sl -> rbuff [ SLC_CMD_LEN + SLC_EFF_ID_LEN ] = 0 ; cmd += SLC_CMD_LEN + SLC_EFF_ID_LEN + 1 ; break ; default : return ; } if ( kstrtou32 ( sl -> rbuff + SLC_CMD_LEN , 16 , & tmpid ) ) return ; cf . can_id |= tmpid ; if ( cf . can_dlc >= '0' && cf . can_dlc < '9' ) cf . can_dlc -= '0' ; else return ; * ( u64 * ) ( & cf . data ) = 0 ; if ( ! ( cf . can_id & CAN_RTR_FLAG ) ) { for ( i = 0 ; i < cf . can_dlc ; i ++ ) { tmp = hex_to_bin ( * cmd ++ ) ; if ( tmp < 0 ) return ; cf . data [ i ] = ( tmp << 4 ) ; tmp = hex_to_bin ( * cmd ++ ) ; if ( tmp < 0 ) return ; cf . data [ i ] |= tmp ; } } skb = dev_alloc_skb ( sizeof ( struct can_frame ) + sizeof ( struct can_skb_priv ) ) ; if ( ! skb ) return ; skb -> dev = sl -> dev ; skb -> protocol = htons ( ETH_P_CAN ) ; skb -> pkt_type = PACKET_BROADCAST ; skb -> ip_summed = CHECKSUM_UNNECESSARY ; can_skb_reserve ( skb ) ; can_skb_prv ( skb ) -> ifindex = sl -> dev -> ifindex ; can_skb_prv ( skb ) -> skbcnt = 0 ; skb_put_data ( skb , & cf , sizeof ( struct can_frame ) ) ; sl -> dev -> stats . rx_packets ++ ; sl -> dev -> stats . rx_bytes += cf . can_dlc ; netif_rx_ni ( skb ) ; }","static void slc_bump ( struct slcan * sl ) { struct sk_buff * skb ; struct can_frame cf ; int i , tmp ; u32 tmpid ; char * cmd = sl -> rbuff ; memset ( & cf , 0 , sizeof ( cf ) ) ; switch ( * cmd ) { case 'r' : cf . can_id = CAN_RTR_FLAG ; case 't' : cf . can_dlc = sl -> rbuff [ SLC_CMD_LEN + SLC_SFF_ID_LEN ] ; sl -> rbuff [ SLC_CMD_LEN + SLC_SFF_ID_LEN ] = 0 ; cmd += SLC_CMD_LEN + SLC_SFF_ID_LEN + 1 ; break ; case 'R' : cf . can_id = CAN_RTR_FLAG ; case 'T' : cf . can_id |= CAN_EFF_FLAG ; cf . can_dlc = sl -> rbuff [ SLC_CMD_LEN + SLC_EFF_ID_LEN ] ; sl -> rbuff [ SLC_CMD_LEN + SLC_EFF_ID_LEN ] = 0 ; cmd += SLC_CMD_LEN + SLC_EFF_ID_LEN + 1 ; break ; default : return ; } if ( kstrtou32 ( sl -> rbuff + SLC_CMD_LEN , 16 , & tmpid ) ) return ; cf . can_id |= tmpid ; if ( cf . can_dlc >= '0' && cf . can_dlc < '9' ) cf . can_dlc -= '0' ; else return ; if ( ! ( cf . can_id & CAN_RTR_FLAG ) ) { for ( i = 0 ; i < cf . can_dlc ; i ++ ) { tmp = hex_to_bin ( * cmd ++ ) ; if ( tmp < 0 ) return ; cf . data [ i ] = ( tmp << 4 ) ; tmp = hex_to_bin ( * cmd ++ ) ; if ( tmp < 0 ) return ; cf . data [ i ] |= tmp ; } } skb = dev_alloc_skb ( sizeof ( struct can_frame ) + sizeof ( struct can_skb_priv ) ) ; if ( ! skb ) return ; skb -> dev = sl -> dev ; skb -> protocol = htons ( ETH_P_CAN ) ; skb -> pkt_type = PACKET_BROADCAST ; skb -> ip_summed = CHECKSUM_UNNECESSARY ; can_skb_reserve ( skb ) ; can_skb_prv ( skb ) -> ifindex = sl -> dev -> ifindex ; can_skb_prv ( skb ) -> skbcnt = 0 ; skb_put_data ( skb , & cf , sizeof ( struct can_frame ) ) ; sl -> dev -> stats . rx_packets ++ ; sl -> dev -> stats . rx_bytes += cf . can_dlc ; netif_rx_ni ( skb ) ; }" 1006,"CWE-362 static int mptctl_do_mpt_command ( struct mpt_ioctl_command karg , void __user * mfPtr ) { MPT_ADAPTER * ioc ; MPT_FRAME_HDR * mf = NULL ; MPIHeader_t * hdr ; char * psge ; struct buflist bufIn ; struct buflist bufOut ; dma_addr_t dma_addr_in ; dma_addr_t dma_addr_out ; int sgSize = 0 ; int iocnum , flagsLength ; int sz , rc = 0 ; int msgContext ; u16 req_idx ; ulong timeout ; unsigned long timeleft ; struct scsi_device * sdev ; unsigned long flags ; u8 function ; bufIn . kptr = bufOut . kptr = NULL ; bufIn . len = bufOut . len = 0 ; if ( ( ( iocnum = mpt_verify_adapter ( karg . hdr . iocnum , & ioc ) ) < 0 ) || ( ioc == NULL ) ) { printk ( KERN_DEBUG MYNAM ""%s::mptctl_do_mpt_command() @%d - ioc%d not found!\\n"" , __FILE__ , __LINE__ , iocnum ) ; return - ENODEV ; } spin_lock_irqsave ( & ioc -> taskmgmt_lock , flags ) ; if ( ioc -> ioc_reset_in_progress ) { spin_unlock_irqrestore ( & ioc -> taskmgmt_lock , flags ) ; printk ( KERN_ERR MYNAM ""%s@%d::mptctl_do_mpt_command - "" ""Busy with diagnostic reset\\n"" , __FILE__ , __LINE__ ) ; return - EBUSY ; } spin_unlock_irqrestore ( & ioc -> taskmgmt_lock , flags ) ; if ( karg . maxReplyBytes < 0 || karg . dataInSize < 0 || karg . dataOutSize < 0 || karg . dataSgeOffset < 0 || karg . maxSenseBytes < 0 || karg . dataSgeOffset > ioc -> req_sz / 4 ) return - EINVAL ; sz = karg . dataSgeOffset * 4 ; if ( karg . dataInSize > 0 ) sz += ioc -> SGE_size ; if ( karg . dataOutSize > 0 ) sz += ioc -> SGE_size ; if ( sz > ioc -> req_sz ) { printk ( MYIOC_s_ERR_FMT ""%s@%d::mptctl_do_mpt_command - "" ""Request frame too large (%d) maximum (%d)\\n"" , ioc -> name , __FILE__ , __LINE__ , sz , ioc -> req_sz ) ; return - EFAULT ; } if ( ( mf = mpt_get_msg_frame ( mptctl_id , ioc ) ) == NULL ) return - EAGAIN ; hdr = ( MPIHeader_t * ) mf ; msgContext = le32_to_cpu ( hdr -> MsgContext ) ; req_idx = le16_to_cpu ( mf -> u . frame . hwhdr . msgctxu . fld . req_idx ) ; if ( copy_from_user ( mf , mfPtr , karg . dataSgeOffset * 4 ) ) { printk ( MYIOC_s_ERR_FMT ""%s@%d::mptctl_do_mpt_command - "" ""Unable to read MF from mpt_ioctl_command struct @ %p\\n"" , ioc -> name , __FILE__ , __LINE__ , mfPtr ) ; function = - 1 ; rc = - EFAULT ; goto done_free_mem ; } hdr -> MsgContext = cpu_to_le32 ( msgContext ) ; function = hdr -> Function ; dctlprintk ( ioc , printk ( MYIOC_s_DEBUG_FMT ""sending mpi function (0x%02X), req=%p\\n"" , ioc -> name , hdr -> Function , mf ) ) ; switch ( function ) { case MPI_FUNCTION_IOC_FACTS : case MPI_FUNCTION_PORT_FACTS : karg . dataOutSize = karg . dataInSize = 0 ; break ; case MPI_FUNCTION_CONFIG : {","static int mptctl_do_mpt_command ( MPT_ADAPTER * ioc , struct mpt_ioctl_command karg , void __user * mfPtr ) { MPT_FRAME_HDR * mf = NULL ; MPIHeader_t * hdr ; char * psge ; struct buflist bufIn ; struct buflist bufOut ; dma_addr_t dma_addr_in ; dma_addr_t dma_addr_out ; int sgSize = 0 ; int flagsLength ; int sz , rc = 0 ; int msgContext ; u16 req_idx ; ulong timeout ; unsigned long timeleft ; struct scsi_device * sdev ; unsigned long flags ; u8 function ; bufIn . kptr = bufOut . kptr = NULL ; bufIn . len = bufOut . len = 0 ; spin_lock_irqsave ( & ioc -> taskmgmt_lock , flags ) ; if ( ioc -> ioc_reset_in_progress ) { spin_unlock_irqrestore ( & ioc -> taskmgmt_lock , flags ) ; printk ( KERN_ERR MYNAM ""%s@%d::mptctl_do_mpt_command - "" ""Busy with diagnostic reset\\n"" , __FILE__ , __LINE__ ) ; return - EBUSY ; } spin_unlock_irqrestore ( & ioc -> taskmgmt_lock , flags ) ; if ( karg . maxReplyBytes < 0 || karg . dataInSize < 0 || karg . dataOutSize < 0 || karg . dataSgeOffset < 0 || karg . maxSenseBytes < 0 || karg . dataSgeOffset > ioc -> req_sz / 4 ) return - EINVAL ; sz = karg . dataSgeOffset * 4 ; if ( karg . dataInSize > 0 ) sz += ioc -> SGE_size ; if ( karg . dataOutSize > 0 ) sz += ioc -> SGE_size ; if ( sz > ioc -> req_sz ) { printk ( MYIOC_s_ERR_FMT ""%s@%d::mptctl_do_mpt_command - "" ""Request frame too large (%d) maximum (%d)\\n"" , ioc -> name , __FILE__ , __LINE__ , sz , ioc -> req_sz ) ; return - EFAULT ; } if ( ( mf = mpt_get_msg_frame ( mptctl_id , ioc ) ) == NULL ) return - EAGAIN ; hdr = ( MPIHeader_t * ) mf ; msgContext = le32_to_cpu ( hdr -> MsgContext ) ; req_idx = le16_to_cpu ( mf -> u . frame . hwhdr . msgctxu . fld . req_idx ) ; if ( copy_from_user ( mf , mfPtr , karg . dataSgeOffset * 4 ) ) { printk ( MYIOC_s_ERR_FMT ""%s@%d::mptctl_do_mpt_command - "" ""Unable to read MF from mpt_ioctl_command struct @ %p\\n"" , ioc -> name , __FILE__ , __LINE__ , mfPtr ) ; function = - 1 ; rc = - EFAULT ; goto done_free_mem ; } hdr -> MsgContext = cpu_to_le32 ( msgContext ) ; function = hdr -> Function ; dctlprintk ( ioc , printk ( MYIOC_s_DEBUG_FMT ""sending mpi function (0x%02X), req=%p\\n"" , ioc -> name , hdr -> Function , mf ) ) ; switch ( function ) { case MPI_FUNCTION_IOC_FACTS : case MPI_FUNCTION_PORT_FACTS : karg . dataOutSize = karg . dataInSize = 0 ; break ; case MPI_FUNCTION_CONFIG : {" 1007,"CWE-119 static grub_err_t read_foo ( struct grub_disk * disk , grub_disk_addr_t sector , grub_size_t size , char * buf ) { if ( disk != NULL ) { const int blocksize = 512 ; int ret ; RIOBind * iob = disk -> data ; if ( bio ) iob = bio ; ret = iob -> read_at ( iob -> io , delta + ( blocksize * sector ) , ( ut8 * ) buf , size * blocksize ) ; if ( ret == - 1 ) return 1 ; } else eprintf ( ""oops. no disk\\n"" ) ; return 0 ; }","static grub_err_t read_foo ( struct grub_disk * disk , grub_disk_addr_t sector , grub_size_t size , char * buf ) { if ( ! disk ) { eprintf ( ""oops. no disk\\n"" ) ; return 1 ; } const int blocksize = 512 ; RIOBind * iob = disk -> data ; if ( bio ) { iob = bio ; } if ( iob -> read_at ( iob -> io , delta + ( blocksize * sector ) , ( ut8 * ) buf , size * blocksize ) == - 1 ) { return 1 ; } return 0 ; }" 1008,"CWE-119 static int handle_packet ( unsigned char * data , int data_len ) { struct mt_mactelnet_hdr pkthdr ; if ( data_len < MT_HEADER_LEN ) { return - 1 ; } parse_packet ( data , & pkthdr ) ; if ( pkthdr . seskey != sessionkey ) { return - 1 ; } if ( pkthdr . ptype == MT_PTYPE_DATA ) { struct mt_packet odata ; struct mt_mactelnet_control_hdr cpkt ; int success = 0 ; init_packet ( & odata , MT_PTYPE_ACK , srcmac , dstmac , sessionkey , pkthdr . counter + ( data_len - MT_HEADER_LEN ) ) ; send_udp ( & odata , 0 ) ; if ( pkthdr . counter > incounter || ( incounter - pkthdr . counter ) > 65535 ) { incounter = pkthdr . counter ; } else { return - 1 ; } success = parse_control_packet ( data + MT_HEADER_LEN , data_len - MT_HEADER_LEN , & cpkt ) ; while ( success ) { if ( cpkt . cptype == MT_CPTYPE_PASSSALT ) { memcpy ( pass_salt , cpkt . data , cpkt . length ) ; send_auth ( username , password ) ; } else if ( cpkt . cptype == MT_CPTYPE_PLAINDATA ) { fwrite ( ( const void * ) cpkt . data , 1 , cpkt . length , stdout ) ; } else if ( cpkt . cptype == MT_CPTYPE_END_AUTH ) { terminal_mode = 1 ; if ( is_a_tty ) { raw_term ( ) ; setvbuf ( stdin , ( char * ) NULL , _IONBF , 0 ) ; signal ( SIGWINCH , sig_winch ) ; } } success = parse_control_packet ( NULL , 0 , & cpkt ) ; } } else if ( pkthdr . ptype == MT_PTYPE_ACK ) { } else if ( pkthdr . ptype == MT_PTYPE_END ) { struct mt_packet odata ; init_packet ( & odata , MT_PTYPE_END , srcmac , dstmac , pkthdr . seskey , 0 ) ; send_udp ( & odata , 0 ) ; if ( ! quiet_mode ) { fprintf ( stderr , _ ( ""Connection closed.\\n"" ) ) ; } running = 0 ; } else { fprintf ( stderr , _ ( ""Unhandeled packet type: %d received from server %s\\n"" ) , pkthdr . ptype , ether_ntoa ( ( struct ether_addr * ) dstmac ) ) ; return - 1 ; } return pkthdr . ptype ; }","static int handle_packet ( unsigned char * data , int data_len ) { struct mt_mactelnet_hdr pkthdr ; if ( data_len < MT_HEADER_LEN ) { return - 1 ; } parse_packet ( data , & pkthdr ) ; if ( pkthdr . seskey != sessionkey ) { return - 1 ; } if ( pkthdr . ptype == MT_PTYPE_DATA ) { struct mt_packet odata ; struct mt_mactelnet_control_hdr cpkt ; int success = 0 ; init_packet ( & odata , MT_PTYPE_ACK , srcmac , dstmac , sessionkey , pkthdr . counter + ( data_len - MT_HEADER_LEN ) ) ; send_udp ( & odata , 0 ) ; if ( pkthdr . counter > incounter || ( incounter - pkthdr . counter ) > 65535 ) { incounter = pkthdr . counter ; } else { return - 1 ; } success = parse_control_packet ( data + MT_HEADER_LEN , data_len - MT_HEADER_LEN , & cpkt ) ; while ( success ) { if ( cpkt . cptype == MT_CPTYPE_PASSSALT ) { if ( cpkt . length != 16 ) { fprintf ( stderr , _ ( ""Invalid salt length: %d (instead of 16) received from server %s\\n"" ) , cpkt . length , ether_ntoa ( ( struct ether_addr * ) dstmac ) ) ; } memcpy ( pass_salt , cpkt . data , 16 ) ; send_auth ( username , password ) ; } else if ( cpkt . cptype == MT_CPTYPE_PLAINDATA ) { fwrite ( ( const void * ) cpkt . data , 1 , cpkt . length , stdout ) ; } else if ( cpkt . cptype == MT_CPTYPE_END_AUTH ) { terminal_mode = 1 ; if ( is_a_tty ) { raw_term ( ) ; setvbuf ( stdin , ( char * ) NULL , _IONBF , 0 ) ; signal ( SIGWINCH , sig_winch ) ; } } success = parse_control_packet ( NULL , 0 , & cpkt ) ; } } else if ( pkthdr . ptype == MT_PTYPE_ACK ) { } else if ( pkthdr . ptype == MT_PTYPE_END ) { struct mt_packet odata ; init_packet ( & odata , MT_PTYPE_END , srcmac , dstmac , pkthdr . seskey , 0 ) ; send_udp ( & odata , 0 ) ; if ( ! quiet_mode ) { fprintf ( stderr , _ ( ""Connection closed.\\n"" ) ) ; } running = 0 ; } else { fprintf ( stderr , _ ( ""Unhandeled packet type: %d received from server %s\\n"" ) , pkthdr . ptype , ether_ntoa ( ( struct ether_addr * ) dstmac ) ) ; return - 1 ; } return pkthdr . ptype ; }" 1009,"CWE-119 int ParseDateTime ( char * timestr , char * lowstr , char * * field , int * ftype , int * numfields , char * * endstr ) { int nf = 0 ; char * lp = lowstr ; * endstr = timestr ; while ( * ( * endstr ) != '\\0' ) { field [ nf ] = lp ; if ( isdigit ( ( unsigned char ) * ( * endstr ) ) ) { * lp ++ = * ( * endstr ) ++ ; while ( isdigit ( ( unsigned char ) * ( * endstr ) ) ) * lp ++ = * ( * endstr ) ++ ; if ( * ( * endstr ) == ':' ) { ftype [ nf ] = DTK_TIME ; * lp ++ = * ( * endstr ) ++ ; while ( isdigit ( ( unsigned char ) * ( * endstr ) ) || ( * ( * endstr ) == ':' ) || ( * ( * endstr ) == '.' ) ) * lp ++ = * ( * endstr ) ++ ; } else if ( * ( * endstr ) == '-' || * ( * endstr ) == '/' || * ( * endstr ) == '.' ) { char * dp = ( * endstr ) ; * lp ++ = * ( * endstr ) ++ ; if ( isdigit ( ( unsigned char ) * ( * endstr ) ) ) { ftype [ nf ] = ( * dp == '.' ) ? DTK_NUMBER : DTK_DATE ; while ( isdigit ( ( unsigned char ) * ( * endstr ) ) ) * lp ++ = * ( * endstr ) ++ ; if ( * ( * endstr ) == * dp ) { ftype [ nf ] = DTK_DATE ; * lp ++ = * ( * endstr ) ++ ; while ( isdigit ( ( unsigned char ) * ( * endstr ) ) || ( * ( * endstr ) == * dp ) ) * lp ++ = * ( * endstr ) ++ ; } } else { ftype [ nf ] = DTK_DATE ; while ( isalnum ( ( unsigned char ) * ( * endstr ) ) || ( * ( * endstr ) == * dp ) ) * lp ++ = pg_tolower ( ( unsigned char ) * ( * endstr ) ++ ) ; } } else ftype [ nf ] = DTK_NUMBER ; } else if ( * ( * endstr ) == '.' ) { * lp ++ = * ( * endstr ) ++ ; while ( isdigit ( ( unsigned char ) * ( * endstr ) ) ) * lp ++ = * ( * endstr ) ++ ; ftype [ nf ] = DTK_NUMBER ; } else if ( isalpha ( ( unsigned char ) * ( * endstr ) ) ) { ftype [ nf ] = DTK_STRING ; * lp ++ = pg_tolower ( ( unsigned char ) * ( * endstr ) ++ ) ; while ( isalpha ( ( unsigned char ) * ( * endstr ) ) ) * lp ++ = pg_tolower ( ( unsigned char ) * ( * endstr ) ++ ) ; if ( * ( * endstr ) == '-' || * ( * endstr ) == '/' || * ( * endstr ) == '.' ) { char * dp = ( * endstr ) ; ftype [ nf ] = DTK_DATE ; * lp ++ = * ( * endstr ) ++ ; while ( isdigit ( ( unsigned char ) * ( * endstr ) ) || * ( * endstr ) == * dp ) * lp ++ = * ( * endstr ) ++ ; } } else if ( isspace ( ( unsigned char ) * ( * endstr ) ) ) { ( * endstr ) ++ ; continue ; } else if ( * ( * endstr ) == '+' || * ( * endstr ) == '-' ) { * lp ++ = * ( * endstr ) ++ ; while ( isspace ( ( unsigned char ) * ( * endstr ) ) ) ( * endstr ) ++ ; if ( isdigit ( ( unsigned char ) * ( * endstr ) ) ) { ftype [ nf ] = DTK_TZ ; * lp ++ = * ( * endstr ) ++ ; while ( isdigit ( ( unsigned char ) * ( * endstr ) ) || ( * ( * endstr ) == ':' ) || ( * ( * endstr ) == '.' ) ) * lp ++ = * ( * endstr ) ++ ; } else if ( isalpha ( ( unsigned char ) * ( * endstr ) ) ) { ftype [ nf ] = DTK_SPECIAL ; * lp ++ = pg_tolower ( ( unsigned char ) * ( * endstr ) ++ ) ; while ( isalpha ( ( unsigned char ) * ( * endstr ) ) ) * lp ++ = pg_tolower ( ( unsigned char ) * ( * endstr ) ++ ) ; } else return - 1 ; } else if ( ispunct ( ( unsigned char ) * ( * endstr ) ) ) { ( * endstr ) ++ ; continue ; } else return - 1 ; * lp ++ = '\\0' ; nf ++ ; if ( nf > MAXDATEFIELDS ) return - 1 ; } * numfields = nf ; return 0 ; }","int ParseDateTime ( char * timestr , char * lowstr , char * * field , int * ftype , int * numfields , char * * endstr ) { int nf = 0 ; char * lp = lowstr ; * endstr = timestr ; while ( * ( * endstr ) != '\\0' ) { field [ nf ] = lp ; if ( nf >= MAXDATEFIELDS ) return - 1 ; if ( isdigit ( ( unsigned char ) * ( * endstr ) ) ) { * lp ++ = * ( * endstr ) ++ ; while ( isdigit ( ( unsigned char ) * ( * endstr ) ) ) * lp ++ = * ( * endstr ) ++ ; if ( * ( * endstr ) == ':' ) { ftype [ nf ] = DTK_TIME ; * lp ++ = * ( * endstr ) ++ ; while ( isdigit ( ( unsigned char ) * ( * endstr ) ) || ( * ( * endstr ) == ':' ) || ( * ( * endstr ) == '.' ) ) * lp ++ = * ( * endstr ) ++ ; } else if ( * ( * endstr ) == '-' || * ( * endstr ) == '/' || * ( * endstr ) == '.' ) { char * dp = ( * endstr ) ; * lp ++ = * ( * endstr ) ++ ; if ( isdigit ( ( unsigned char ) * ( * endstr ) ) ) { ftype [ nf ] = ( * dp == '.' ) ? DTK_NUMBER : DTK_DATE ; while ( isdigit ( ( unsigned char ) * ( * endstr ) ) ) * lp ++ = * ( * endstr ) ++ ; if ( * ( * endstr ) == * dp ) { ftype [ nf ] = DTK_DATE ; * lp ++ = * ( * endstr ) ++ ; while ( isdigit ( ( unsigned char ) * ( * endstr ) ) || ( * ( * endstr ) == * dp ) ) * lp ++ = * ( * endstr ) ++ ; } } else { ftype [ nf ] = DTK_DATE ; while ( isalnum ( ( unsigned char ) * ( * endstr ) ) || ( * ( * endstr ) == * dp ) ) * lp ++ = pg_tolower ( ( unsigned char ) * ( * endstr ) ++ ) ; } } else ftype [ nf ] = DTK_NUMBER ; } else if ( * ( * endstr ) == '.' ) { * lp ++ = * ( * endstr ) ++ ; while ( isdigit ( ( unsigned char ) * ( * endstr ) ) ) * lp ++ = * ( * endstr ) ++ ; ftype [ nf ] = DTK_NUMBER ; } else if ( isalpha ( ( unsigned char ) * ( * endstr ) ) ) { ftype [ nf ] = DTK_STRING ; * lp ++ = pg_tolower ( ( unsigned char ) * ( * endstr ) ++ ) ; while ( isalpha ( ( unsigned char ) * ( * endstr ) ) ) * lp ++ = pg_tolower ( ( unsigned char ) * ( * endstr ) ++ ) ; if ( * ( * endstr ) == '-' || * ( * endstr ) == '/' || * ( * endstr ) == '.' ) { char * dp = ( * endstr ) ; ftype [ nf ] = DTK_DATE ; * lp ++ = * ( * endstr ) ++ ; while ( isdigit ( ( unsigned char ) * ( * endstr ) ) || * ( * endstr ) == * dp ) * lp ++ = * ( * endstr ) ++ ; } } else if ( isspace ( ( unsigned char ) * ( * endstr ) ) ) { ( * endstr ) ++ ; continue ; } else if ( * ( * endstr ) == '+' || * ( * endstr ) == '-' ) { * lp ++ = * ( * endstr ) ++ ; while ( isspace ( ( unsigned char ) * ( * endstr ) ) ) ( * endstr ) ++ ; if ( isdigit ( ( unsigned char ) * ( * endstr ) ) ) { ftype [ nf ] = DTK_TZ ; * lp ++ = * ( * endstr ) ++ ; while ( isdigit ( ( unsigned char ) * ( * endstr ) ) || ( * ( * endstr ) == ':' ) || ( * ( * endstr ) == '.' ) ) * lp ++ = * ( * endstr ) ++ ; } else if ( isalpha ( ( unsigned char ) * ( * endstr ) ) ) { ftype [ nf ] = DTK_SPECIAL ; * lp ++ = pg_tolower ( ( unsigned char ) * ( * endstr ) ++ ) ; while ( isalpha ( ( unsigned char ) * ( * endstr ) ) ) * lp ++ = pg_tolower ( ( unsigned char ) * ( * endstr ) ++ ) ; } else return - 1 ; } else if ( ispunct ( ( unsigned char ) * ( * endstr ) ) ) { ( * endstr ) ++ ; continue ; } else return - 1 ; * lp ++ = '\\0' ; nf ++ ; } * numfields = nf ; return 0 ; }" 1010,CWE-310 static void * my_malloc ( size_t size ) { malloc_called += 1 ; return malloc ( size ) ; },static void * my_malloc ( size_t size ) { malloc_called = 1 ; return malloc ( size ) ; } 1011,"CWE-611 void init_xml_relax_ng ( ) { VALUE nokogiri = rb_define_module ( ""Nokogiri"" ) ; VALUE xml = rb_define_module_under ( nokogiri , ""XML"" ) ; VALUE klass = rb_define_class_under ( xml , ""RelaxNG"" , cNokogiriXmlSchema ) ; cNokogiriXmlRelaxNG = klass ; rb_define_singleton_method ( klass , ""read_memory"" , read_memory , 1 ) ; rb_define_singleton_method ( klass , ""from_document"" , from_document , 1 ) ; rb_define_private_method ( klass , ""validate_document"" , validate_document , 1 ) ; }","void init_xml_relax_ng ( ) { VALUE nokogiri = rb_define_module ( ""Nokogiri"" ) ; VALUE xml = rb_define_module_under ( nokogiri , ""XML"" ) ; VALUE klass = rb_define_class_under ( xml , ""RelaxNG"" , cNokogiriXmlSchema ) ; cNokogiriXmlRelaxNG = klass ; rb_define_singleton_method ( klass , ""read_memory"" , read_memory , - 1 ) ; rb_define_singleton_method ( klass , ""from_document"" , from_document , - 1 ) ; rb_define_private_method ( klass , ""validate_document"" , validate_document , 1 ) ; }" 1012,"CWE-125 case JUNIPER_EXT_TLV_IFD_NAME : break ; case JUNIPER_EXT_TLV_IFD_MEDIATYPE : case JUNIPER_EXT_TLV_TTP_IFD_MEDIATYPE : if ( tlv_value != - 1 ) { if ( ndo -> ndo_vflag > 1 ) ND_PRINT ( ( ndo , ""%s (%u)"" , tok2str ( juniper_ifmt_values , ""Unknown"" , tlv_value ) , tlv_value ) ) ; } break ; case JUNIPER_EXT_TLV_IFL_ENCAPS : case JUNIPER_EXT_TLV_TTP_IFL_ENCAPS : if ( tlv_value != - 1 ) { if ( ndo -> ndo_vflag > 1 ) ND_PRINT ( ( ndo , ""%s (%u)"" , tok2str ( juniper_ifle_values , ""Unknown"" , tlv_value ) , tlv_value ) ) ; } break ; case JUNIPER_EXT_TLV_IFL_IDX : case JUNIPER_EXT_TLV_IFL_UNIT : case JUNIPER_EXT_TLV_IFD_IDX : default : if ( tlv_value != - 1 ) { if ( ndo -> ndo_vflag > 1 ) ND_PRINT ( ( ndo , ""%u"" , tlv_value ) ) ; } break ; } tptr += tlv_len ; jnx_ext_len -= tlv_len + JUNIPER_EXT_TLV_OVERHEAD ; } if ( ndo -> ndo_vflag > 1 ) ND_PRINT ( ( ndo , ""\\n\\t-----original packet-----\\n\\t"" ) ) ; } if ( ( l2info -> flags & JUNIPER_BPF_NO_L2 ) == JUNIPER_BPF_NO_L2 ) { if ( ndo -> ndo_eflag ) ND_PRINT ( ( ndo , ""no-L2-hdr, "" ) ) ; ND_TCHECK2 ( p [ jnx_header_len + 4 ] , 1 ) ; if ( ip_heuristic_guess ( ndo , p + jnx_header_len + 4 , l2info -> length - ( jnx_header_len + 4 ) ) == 0 ) ND_PRINT ( ( ndo , ""no IP-hdr found!"" ) ) ; l2info -> header_len = jnx_header_len + 4 ; return 0 ; } l2info -> header_len = jnx_header_len ; p += l2info -> header_len ; l2info -> length -= l2info -> header_len ; l2info -> caplen -= l2info -> header_len ; while ( lp -> s != NULL ) { if ( lp -> pictype == l2info -> pictype ) { l2info -> cookie_len += lp -> cookie_len ; switch ( p [ 0 ] ) { case LS_COOKIE_ID : l2info -> cookie_type = LS_COOKIE_ID ; l2info -> cookie_len += 2 ; break ; case AS_COOKIE_ID : l2info -> cookie_type = AS_COOKIE_ID ; l2info -> cookie_len = 8 ; break ; default : l2info -> bundle = l2info -> cookie [ 0 ] ; break ; } # ifdef DLT_JUNIPER_MFR if ( l2info -> pictype == DLT_JUNIPER_MFR && ( p [ 0 ] & MFR_BE_MASK ) == MFR_BE_MASK ) { l2info -> cookie_len = 0 ; } # endif l2info -> header_len += l2info -> cookie_len ; l2info -> length -= l2info -> cookie_len ; l2info -> caplen -= l2info -> cookie_len ; if ( ndo -> ndo_eflag ) ND_PRINT ( ( ndo , ""%s-PIC, cookie-len %u"" , lp -> s , l2info -> cookie_len ) ) ; if ( l2info -> cookie_len > 0 ) { ND_TCHECK2 ( p [ 0 ] , l2info -> cookie_len ) ; if ( ndo -> ndo_eflag ) ND_PRINT ( ( ndo , "", cookie 0x"" ) ) ; for ( idx = 0 ; idx < l2info -> cookie_len ; idx ++ ) { l2info -> cookie [ idx ] = p [ idx ] ; if ( ndo -> ndo_eflag ) ND_PRINT ( ( ndo , ""%02x"" , p [ idx ] ) ) ; } } if ( ndo -> ndo_eflag ) ND_PRINT ( ( ndo , "": "" ) ) ; l2info -> proto = EXTRACT_16BITS ( p + l2info -> cookie_len ) ; break ; } } p += l2info -> cookie_len ; switch ( l2info -> pictype ) { # ifdef DLT_JUNIPER_MLPPP case DLT_JUNIPER_MLPPP : switch ( l2info -> cookie_type ) { case LS_COOKIE_ID : l2info -> bundle = l2info -> cookie [ 1 ] ; break ; case AS_COOKIE_ID : l2info -> bundle = ( EXTRACT_16BITS ( & l2info -> cookie [ 6 ] ) >> 3 ) & 0xfff ; l2info -> proto = ( l2info -> cookie [ 5 ] ) & JUNIPER_LSQ_L3_PROTO_MASK ; break ; default : l2info -> bundle = l2info -> cookie [ 0 ] ; break ; } break ; # endif # ifdef DLT_JUNIPER_MLFR case DLT_JUNIPER_MLFR : switch ( l2info -> cookie_type ) { case LS_COOKIE_ID : l2info -> bundle = l2info -> cookie [ 1 ] ; l2info -> proto = EXTRACT_16BITS ( p ) ; l2info -> header_len += 2 ; l2info -> length -= 2 ; l2info -> caplen -= 2 ; break ; case AS_COOKIE_ID : l2info -> bundle = ( EXTRACT_16BITS ( & l2info -> cookie [ 6 ] ) >> 3 ) & 0xfff ; l2info -> proto = ( l2info -> cookie [ 5 ] ) & JUNIPER_LSQ_L3_PROTO_MASK ; break ; default : l2info -> bundle = l2info -> cookie [ 0 ] ; l2info -> header_len += 2 ; l2info -> length -= 2 ; l2info -> caplen -= 2 ; break ; } break ; # endif # ifdef DLT_JUNIPER_MFR case DLT_JUNIPER_MFR : switch ( l2info -> cookie_type ) { case LS_COOKIE_ID : l2info -> bundle = l2info -> cookie [ 1 ] ; l2info -> proto = EXTRACT_16BITS ( p ) ; l2info -> header_len += 2 ; l2info -> length -= 2 ; l2info -> caplen -= 2 ; break ; case AS_COOKIE_ID : l2info -> bundle = ( EXTRACT_16BITS ( & l2info -> cookie [ 6 ] ) >> 3 ) & 0xfff ; l2info -> proto = ( l2info -> cookie [ 5 ] ) & JUNIPER_LSQ_L3_PROTO_MASK ; break ; default : l2info -> bundle = l2info -> cookie [ 0 ] ; break ; } break ; # endif # ifdef DLT_JUNIPER_ATM2 case DLT_JUNIPER_ATM2 : ND_TCHECK2 ( p [ 0 ] , 4 ) ; if ( l2info -> cookie [ 7 ] & ATM2_PKT_TYPE_MASK ) { control_word = EXTRACT_32BITS ( p ) ; switch ( control_word ) { case 0 : case 0x08000000 : case 0x08380000 : l2info -> header_len += 4 ; break ; default : break ; } if ( ndo -> ndo_eflag ) ND_PRINT ( ( ndo , ""control-word 0x%08x "" , control_word ) ) ; } break ; # endif # ifdef DLT_JUNIPER_GGSN case DLT_JUNIPER_GGSN : break ; # endif # ifdef DLT_JUNIPER_ATM1 case DLT_JUNIPER_ATM1 : break ; # endif # ifdef DLT_JUNIPER_PPP case DLT_JUNIPER_PPP : break ; # endif # ifdef DLT_JUNIPER_CHDLC case DLT_JUNIPER_CHDLC : break ;","case JUNIPER_EXT_TLV_IFD_NAME : break ; case JUNIPER_EXT_TLV_IFD_MEDIATYPE : case JUNIPER_EXT_TLV_TTP_IFD_MEDIATYPE : if ( tlv_value != - 1 ) { if ( ndo -> ndo_vflag > 1 ) ND_PRINT ( ( ndo , ""%s (%u)"" , tok2str ( juniper_ifmt_values , ""Unknown"" , tlv_value ) , tlv_value ) ) ; } break ; case JUNIPER_EXT_TLV_IFL_ENCAPS : case JUNIPER_EXT_TLV_TTP_IFL_ENCAPS : if ( tlv_value != - 1 ) { if ( ndo -> ndo_vflag > 1 ) ND_PRINT ( ( ndo , ""%s (%u)"" , tok2str ( juniper_ifle_values , ""Unknown"" , tlv_value ) , tlv_value ) ) ; } break ; case JUNIPER_EXT_TLV_IFL_IDX : case JUNIPER_EXT_TLV_IFL_UNIT : case JUNIPER_EXT_TLV_IFD_IDX : default : if ( tlv_value != - 1 ) { if ( ndo -> ndo_vflag > 1 ) ND_PRINT ( ( ndo , ""%u"" , tlv_value ) ) ; } break ; } tptr += tlv_len ; jnx_ext_len -= tlv_len + JUNIPER_EXT_TLV_OVERHEAD ; } if ( ndo -> ndo_vflag > 1 ) ND_PRINT ( ( ndo , ""\\n\\t-----original packet-----\\n\\t"" ) ) ; } if ( ( l2info -> flags & JUNIPER_BPF_NO_L2 ) == JUNIPER_BPF_NO_L2 ) { if ( ndo -> ndo_eflag ) ND_PRINT ( ( ndo , ""no-L2-hdr, "" ) ) ; ND_TCHECK2 ( p [ jnx_header_len + 4 ] , 1 ) ; if ( ip_heuristic_guess ( ndo , p + jnx_header_len + 4 , l2info -> length - ( jnx_header_len + 4 ) ) == 0 ) ND_PRINT ( ( ndo , ""no IP-hdr found!"" ) ) ; l2info -> header_len = jnx_header_len + 4 ; return 0 ; } l2info -> header_len = jnx_header_len ; p += l2info -> header_len ; l2info -> length -= l2info -> header_len ; l2info -> caplen -= l2info -> header_len ; ND_TCHECK ( p [ 0 ] ) ; while ( lp -> s != NULL ) { if ( lp -> pictype == l2info -> pictype ) { l2info -> cookie_len += lp -> cookie_len ; switch ( p [ 0 ] ) { case LS_COOKIE_ID : l2info -> cookie_type = LS_COOKIE_ID ; l2info -> cookie_len += 2 ; break ; case AS_COOKIE_ID : l2info -> cookie_type = AS_COOKIE_ID ; l2info -> cookie_len = 8 ; break ; default : l2info -> bundle = l2info -> cookie [ 0 ] ; break ; } # ifdef DLT_JUNIPER_MFR if ( l2info -> pictype == DLT_JUNIPER_MFR && ( p [ 0 ] & MFR_BE_MASK ) == MFR_BE_MASK ) { l2info -> cookie_len = 0 ; } # endif l2info -> header_len += l2info -> cookie_len ; l2info -> length -= l2info -> cookie_len ; l2info -> caplen -= l2info -> cookie_len ; if ( ndo -> ndo_eflag ) ND_PRINT ( ( ndo , ""%s-PIC, cookie-len %u"" , lp -> s , l2info -> cookie_len ) ) ; if ( l2info -> cookie_len > 0 ) { ND_TCHECK2 ( p [ 0 ] , l2info -> cookie_len ) ; if ( ndo -> ndo_eflag ) ND_PRINT ( ( ndo , "", cookie 0x"" ) ) ; for ( idx = 0 ; idx < l2info -> cookie_len ; idx ++ ) { l2info -> cookie [ idx ] = p [ idx ] ; if ( ndo -> ndo_eflag ) ND_PRINT ( ( ndo , ""%02x"" , p [ idx ] ) ) ; } } if ( ndo -> ndo_eflag ) ND_PRINT ( ( ndo , "": "" ) ) ; l2info -> proto = EXTRACT_16BITS ( p + l2info -> cookie_len ) ; break ; } + lp ; } p += l2info -> cookie_len ; switch ( l2info -> pictype ) { # ifdef DLT_JUNIPER_MLPPP case DLT_JUNIPER_MLPPP : switch ( l2info -> cookie_type ) { case LS_COOKIE_ID : l2info -> bundle = l2info -> cookie [ 1 ] ; break ; case AS_COOKIE_ID : l2info -> bundle = ( EXTRACT_16BITS ( & l2info -> cookie [ 6 ] ) >> 3 ) & 0xfff ; l2info -> proto = ( l2info -> cookie [ 5 ] ) & JUNIPER_LSQ_L3_PROTO_MASK ; break ; default : l2info -> bundle = l2info -> cookie [ 0 ] ; break ; } break ; # endif # ifdef DLT_JUNIPER_MLFR case DLT_JUNIPER_MLFR : switch ( l2info -> cookie_type ) { case LS_COOKIE_ID : ND_TCHECK2 ( p [ 0 ] , 2 ) ; l2info -> bundle = l2info -> cookie [ 1 ] ; l2info -> proto = EXTRACT_16BITS ( p ) ; l2info -> header_len += 2 ; l2info -> length -= 2 ; l2info -> caplen -= 2 ; break ; case AS_COOKIE_ID : l2info -> bundle = ( EXTRACT_16BITS ( & l2info -> cookie [ 6 ] ) >> 3 ) & 0xfff ; l2info -> proto = ( l2info -> cookie [ 5 ] ) & JUNIPER_LSQ_L3_PROTO_MASK ; break ; default : l2info -> bundle = l2info -> cookie [ 0 ] ; l2info -> header_len += 2 ; l2info -> length -= 2 ; l2info -> caplen -= 2 ; break ; } break ; # endif # ifdef DLT_JUNIPER_MFR case DLT_JUNIPER_MFR : switch ( l2info -> cookie_type ) { case LS_COOKIE_ID : ND_TCHECK2 ( p [ 0 ] , 2 ) ; l2info -> bundle = l2info -> cookie [ 1 ] ; l2info -> proto = EXTRACT_16BITS ( p ) ; l2info -> header_len += 2 ; l2info -> length -= 2 ; l2info -> caplen -= 2 ; break ; case AS_COOKIE_ID : l2info -> bundle = ( EXTRACT_16BITS ( & l2info -> cookie [ 6 ] ) >> 3 ) & 0xfff ; l2info -> proto = ( l2info -> cookie [ 5 ] ) & JUNIPER_LSQ_L3_PROTO_MASK ; break ; default : l2info -> bundle = l2info -> cookie [ 0 ] ; break ; } break ; # endif # ifdef DLT_JUNIPER_ATM2 case DLT_JUNIPER_ATM2 : ND_TCHECK2 ( p [ 0 ] , 4 ) ; if ( l2info -> cookie [ 7 ] & ATM2_PKT_TYPE_MASK ) { control_word = EXTRACT_32BITS ( p ) ; switch ( control_word ) { case 0 : case 0x08000000 : case 0x08380000 : l2info -> header_len += 4 ; break ; default : break ; } if ( ndo -> ndo_eflag ) ND_PRINT ( ( ndo , ""control-word 0x%08x "" , control_word ) ) ; } break ; # endif # ifdef DLT_JUNIPER_GGSN case DLT_JUNIPER_GGSN : break ; # endif # ifdef DLT_JUNIPER_ATM1 case DLT_JUNIPER_ATM1 : break ; # endif # ifdef DLT_JUNIPER_PPP case DLT_JUNIPER_PPP : break ; # endif # ifdef DLT_JUNIPER_CHDLC case DLT_JUNIPER_CHDLC : break ;" 1013,"CWE-119 void cJSON_DeleteItemFromArray ( cJSON * array , int which ) { cJSON_Delete ( cJSON_DetachItemFromArray ( array , which ) ) ; } ","void cJSON_DeleteItemFromArray ( cJSON * array , int which ) { cJSON_Delete ( cJSON_DetachItemFromArray ( array , which ) ) ; }" 1014,"CWE-416 void luaT_getvarargs ( lua_State * L , CallInfo * ci , StkId where , int wanted ) { int i ; int nextra = ci -> u . l . nextraargs ; if ( wanted < 0 ) { wanted = nextra ; checkstackp ( L , nextra , where ) ; L -> top = where + nextra ; } for ( i = 0 ; i < wanted && i < nextra ; i ++ ) setobjs2s ( L , where + i , ci -> func - nextra + i ) ; for ( ; i < wanted ; i ++ ) setnilvalue ( s2v ( where + i ) ) ; }","void luaT_getvarargs ( lua_State * L , CallInfo * ci , StkId where , int wanted ) { int i ; int nextra = ci -> u . l . nextraargs ; if ( wanted < 0 ) { wanted = nextra ; checkstackGCp ( L , nextra , where ) ; L -> top = where + nextra ; } for ( i = 0 ; i < wanted && i < nextra ; i ++ ) setobjs2s ( L , where + i , ci -> func - nextra + i ) ; for ( ; i < wanted ; i ++ ) setnilvalue ( s2v ( where + i ) ) ; }" 1015,"CWE-125 { uint32 d ; uint16 key ; Attr * attr = NULL ; File * file = NULL ; int rtf_size = 0 , html_size = 0 ; MessageBody body ; memset ( & body , '\\0' , sizeof ( MessageBody ) ) ; g_flags = flags ; d = geti32 ( input_file ) ; if ( d != TNEF_SIGNATURE ) { fprintf ( stdout , ""Seems not to be a TNEF file\\n"" ) ; return 1 ; } key = geti16 ( input_file ) ; debug_print ( ""TNEF Key: %hx\\n"" , key ) ; while ( data_left ( input_file ) ) { attr = read_object ( input_file ) ; if ( attr == NULL ) break ; if ( attr -> name == attATTACHRENDDATA ) { if ( file ) { file_write ( file , directory ) ; file_free ( file ) ; } else { file = CHECKED_XCALLOC ( File , 1 ) ; } } switch ( attr -> lvl_type ) { case LVL_MESSAGE : if ( attr -> name == attBODY ) { body . text_body = get_text_data ( attr ) ; } else if ( attr -> name == attMAPIPROPS ) { MAPI_Attr * * mapi_attrs = mapi_attr_read ( attr -> len , attr -> buf ) ; if ( mapi_attrs ) { int i ; for ( i = 0 ; mapi_attrs [ i ] ; i ++ ) { MAPI_Attr * a = mapi_attrs [ i ] ; if ( a -> name == MAPI_BODY_HTML ) { body . html_bodies = get_html_data ( a ) ; html_size = a -> num_values ; } else if ( a -> name == MAPI_RTF_COMPRESSED ) { body . rtf_bodies = get_rtf_data ( a ) ; rtf_size = a -> num_values ; } } mapi_attr_free_list ( mapi_attrs ) ; XFREE ( mapi_attrs ) ; } } break ; case LVL_ATTACHMENT : file_add_attr ( file , attr ) ; break ; default : fprintf ( stderr , ""Invalid lvl type on attribute: %d\\n"" , attr -> lvl_type ) ; return 1 ; break ; } attr_free ( attr ) ; XFREE ( attr ) ; } if ( file ) { file_write ( file , directory ) ; file_free ( file ) ; XFREE ( file ) ; } if ( flags & SAVEBODY ) { int i = 0 ; int all_flag = 0 ; if ( strcmp ( body_pref , ""all"" ) == 0 ) { all_flag = 1 ; body_pref = ""rht"" ; } for ( ; i < 3 ; i ++ ) { File * * files = get_body_files ( body_filename , body_pref [ i ] , & body ) ; if ( files ) { int j = 0 ; for ( ; files [ j ] ; j ++ ) { file_write ( files [ j ] , directory ) ; file_free ( files [ j ] ) ; XFREE ( files [ j ] ) ; }","{ uint32 d ; uint16 key ; Attr * attr = NULL ; File * file = NULL ; int rtf_size = 0 , html_size = 0 ; MessageBody body ; memset ( & body , '\\0' , sizeof ( MessageBody ) ) ; g_flags = flags ; d = geti32 ( input_file ) ; if ( d != TNEF_SIGNATURE ) { fprintf ( stdout , ""Seems not to be a TNEF file\\n"" ) ; return 1 ; } key = geti16 ( input_file ) ; debug_print ( ""TNEF Key: %hx\\n"" , key ) ; while ( data_left ( input_file ) ) { attr = read_object ( input_file ) ; if ( attr == NULL ) break ; if ( attr -> name == attATTACHRENDDATA ) { if ( file ) { file_write ( file , directory ) ; file_free ( file ) ; } else { file = CHECKED_XCALLOC ( File , 1 ) ; } } switch ( attr -> lvl_type ) { case LVL_MESSAGE : if ( attr -> name == attBODY ) { body . text_body = get_text_data ( attr ) ; } else if ( attr -> name == attMAPIPROPS ) { MAPI_Attr * * mapi_attrs = mapi_attr_read ( attr -> len , attr -> buf ) ; if ( mapi_attrs ) { int i ; for ( i = 0 ; mapi_attrs [ i ] ; i ++ ) { MAPI_Attr * a = mapi_attrs [ i ] ; if ( a -> type == szMAPI_BINARY && a -> name == MAPI_BODY_HTML ) { body . html_bodies = get_html_data ( a ) ; html_size = a -> num_values ; } else if ( a -> type == szMAPI_BINARY && a -> name == MAPI_RTF_COMPRESSED ) { body . rtf_bodies = get_rtf_data ( a ) ; rtf_size = a -> num_values ; } } mapi_attr_free_list ( mapi_attrs ) ; XFREE ( mapi_attrs ) ; } } break ; case LVL_ATTACHMENT : file_add_attr ( file , attr ) ; break ; default : fprintf ( stderr , ""Invalid lvl type on attribute: %d\\n"" , attr -> lvl_type ) ; return 1 ; break ; } attr_free ( attr ) ; XFREE ( attr ) ; } if ( file ) { file_write ( file , directory ) ; file_free ( file ) ; XFREE ( file ) ; } if ( flags & SAVEBODY ) { int i = 0 ; int all_flag = 0 ; if ( strcmp ( body_pref , ""all"" ) == 0 ) { all_flag = 1 ; body_pref = ""rht"" ; } for ( ; i < 3 ; i ++ ) { File * * files = get_body_files ( body_filename , body_pref [ i ] , & body ) ; if ( files ) { int j = 0 ; for ( ; files [ j ] ; j ++ ) { file_write ( files [ j ] , directory ) ; file_free ( files [ j ] ) ; XFREE ( files [ j ] ) ; }" 1016,"CWE-119 static void define_gf_group ( VP9_COMP * cpi , FIRSTPASS_STATS * this_frame ) { RATE_CONTROL * const rc = & cpi -> rc ; VP9_CONFIG * const oxcf = & cpi -> oxcf ; struct twopass_rc * const twopass = & cpi -> twopass ; FIRSTPASS_STATS next_frame = { 0 } ; const FIRSTPASS_STATS * start_pos ; int i ; double boost_score = 0.0 ; double old_boost_score = 0.0 ; double gf_group_err = 0.0 ; double gf_first_frame_err = 0.0 ; double mod_frame_err = 0.0 ; double mv_ratio_accumulator = 0.0 ; double decay_accumulator = 1.0 ; double zero_motion_accumulator = 1.0 ; double loop_decay_rate = 1.00 ; double last_loop_decay_rate = 1.00 ; double this_frame_mv_in_out = 0.0 ; double mv_in_out_accumulator = 0.0 ; double abs_mv_in_out_accumulator = 0.0 ; double mv_ratio_accumulator_thresh ; const int max_bits = frame_max_bits ( rc , oxcf ) ; unsigned int allow_alt_ref = oxcf -> play_alternate && oxcf -> lag_in_frames ; int f_boost = 0 ; int b_boost = 0 ; int flash_detected ; int active_max_gf_interval ; twopass -> gf_group_bits = 0 ; vp9_clear_system_state ( ) ; start_pos = twopass -> stats_in ; mod_frame_err = calculate_modified_err ( cpi , this_frame ) ; gf_first_frame_err = mod_frame_err ; if ( cpi -> common . frame_type == KEY_FRAME || rc -> source_alt_ref_active ) gf_group_err -= gf_first_frame_err ; mv_ratio_accumulator_thresh = ( cpi -> common . width + cpi -> common . height ) / 10.0 ; active_max_gf_interval = 12 + ( ( int ) vp9_convert_qindex_to_q ( rc -> last_q [ INTER_FRAME ] ) >> 5 ) ; if ( active_max_gf_interval > rc -> max_gf_interval ) active_max_gf_interval = rc -> max_gf_interval ; i = 0 ; while ( i < rc -> static_scene_max_gf_interval && i < rc -> frames_to_key ) { mod_frame_err = calculate_modified_err ( cpi , this_frame ) ; gf_group_err += mod_frame_err ; if ( EOF == input_stats ( twopass , & next_frame ) ) break ; flash_detected = detect_flash ( twopass , 0 ) ; accumulate_frame_motion_stats ( & next_frame , & this_frame_mv_in_out , & mv_in_out_accumulator , & abs_mv_in_out_accumulator , & mv_ratio_accumulator ) ; if ( ! flash_detected ) { last_loop_decay_rate = loop_decay_rate ; loop_decay_rate = get_prediction_decay_rate ( & cpi -> common , & next_frame ) ; decay_accumulator = decay_accumulator * loop_decay_rate ; if ( ( next_frame . pcnt_inter - next_frame . pcnt_motion ) < zero_motion_accumulator ) { zero_motion_accumulator = next_frame . pcnt_inter - next_frame . pcnt_motion ; } if ( detect_transition_to_still ( twopass , i , 5 , loop_decay_rate , last_loop_decay_rate ) ) { allow_alt_ref = 0 ; break ; } } boost_score += ( decay_accumulator * calc_frame_boost ( cpi , & next_frame , this_frame_mv_in_out ) ) ; if ( ( i >= active_max_gf_interval && ( zero_motion_accumulator < 0.995 ) ) || ( ( i > MIN_GF_INTERVAL ) && ( ( boost_score > 125.0 ) || ( next_frame . pcnt_inter < 0.75 ) ) && ( ! flash_detected ) && ( ( mv_ratio_accumulator > mv_ratio_accumulator_thresh ) || ( abs_mv_in_out_accumulator > 3.0 ) || ( mv_in_out_accumulator < - 2.0 ) || ( ( boost_score - old_boost_score ) < IIFACTOR ) ) ) ) { boost_score = old_boost_score ; break ; } * this_frame = next_frame ; old_boost_score = boost_score ; } twopass -> gf_zeromotion_pct = ( int ) ( zero_motion_accumulator * 1000.0 ) ; if ( ( rc -> frames_to_key - i ) < MIN_GF_INTERVAL ) { while ( i < ( rc -> frames_to_key + ! rc -> next_key_frame_forced ) ) { ++ i ; if ( EOF == input_stats ( twopass , this_frame ) ) break ; if ( i < rc -> frames_to_key ) { mod_frame_err = calculate_modified_err ( cpi , this_frame ) ; gf_group_err += mod_frame_err ; } } } # if CONFIG_MULTIPLE_ARF if ( cpi -> multi_arf_enabled ) { cpi -> new_frame_coding_order_period = 0 ; cpi -> next_frame_in_order = 0 ; cpi -> arf_buffered = 0 ; vp9_zero ( cpi -> frame_coding_order ) ; vp9_zero ( cpi -> arf_buffer_idx ) ; vpx_memset ( cpi -> arf_weight , - 1 , sizeof ( cpi -> arf_weight ) ) ; } # endif if ( cpi -> common . frame_type == KEY_FRAME || rc -> source_alt_ref_active ) rc -> baseline_gf_interval = i - 1 ; else rc -> baseline_gf_interval = i ; if ( allow_alt_ref && ( i < cpi -> oxcf . lag_in_frames ) && ( i >= MIN_GF_INTERVAL ) && ( rc -> next_key_frame_forced || ( i <= ( rc -> frames_to_key - MIN_GF_INTERVAL ) ) ) ) { rc -> gfu_boost = calc_arf_boost ( cpi , 0 , ( i - 1 ) , ( i - 1 ) , & f_boost , & b_boost ) ; rc -> source_alt_ref_pending = 1 ; # if CONFIG_MULTIPLE_ARF if ( cpi -> multi_arf_enabled ) { schedule_frames ( cpi , 0 , - ( rc -> baseline_gf_interval - 1 ) , 2 , 1 , 0 ) ; } # endif } else { rc -> gfu_boost = ( int ) boost_score ; rc -> source_alt_ref_pending = 0 ; # if CONFIG_MULTIPLE_ARF if ( cpi -> multi_arf_enabled ) { schedule_frames ( cpi , 0 , rc -> baseline_gf_interval - 1 , 2 , 0 , 0 ) ; assert ( cpi -> new_frame_coding_order_period == rc -> baseline_gf_interval ) ; } # endif } # if CONFIG_MULTIPLE_ARF if ( cpi -> multi_arf_enabled && ( cpi -> common . frame_type != KEY_FRAME ) ) { int max_level = INT_MIN ; for ( i = 0 ; i < cpi -> frame_coding_order_period ; ++ i ) { if ( cpi -> arf_weight [ i ] > max_level ) { max_level = cpi -> arf_weight [ i ] ; } } ++ max_level ; for ( i = 0 ; i < cpi -> frame_coding_order_period ; ++ i ) { if ( cpi -> arf_weight [ i ] == - 1 ) { cpi -> arf_weight [ i ] = max_level ; } } cpi -> max_arf_level = max_level ; } # if 0 if ( cpi -> multi_arf_enabled ) { printf ( ""\\nSchedule: "" ) ; for ( i = 0 ; i < cpi -> new_frame_coding_order_period ; ++ i ) { printf ( ""%4d "" , cpi -> frame_coding_order [ i ] ) ; } printf ( ""\\n"" ) ; printf ( ""ARFref: "" ) ; for ( i = 0 ; i < cpi -> new_frame_coding_order_period ; ++ i ) { printf ( ""%4d "" , cpi -> arf_buffer_idx [ i ] ) ; } printf ( ""\\n"" ) ; printf ( ""Weight: "" ) ; for ( i = 0 ; i < cpi -> new_frame_coding_order_period ; ++ i ) { printf ( ""%4d "" , cpi -> arf_weight [ i ] ) ; } printf ( ""\\n"" ) ; } # endif # endif if ( twopass -> kf_group_bits > 0 && twopass -> kf_group_error_left > 0 ) { twopass -> gf_group_bits = ( int64_t ) ( twopass -> kf_group_bits * ( gf_group_err / twopass -> kf_group_error_left ) ) ; } else { twopass -> gf_group_bits = 0 ; } twopass -> gf_group_bits = ( twopass -> gf_group_bits < 0 ) ? 0 : ( twopass -> gf_group_bits > twopass -> kf_group_bits ) ? twopass -> kf_group_bits : twopass -> gf_group_bits ; if ( twopass -> gf_group_bits > ( int64_t ) max_bits * rc -> baseline_gf_interval ) twopass -> gf_group_bits = ( int64_t ) max_bits * rc -> baseline_gf_interval ; reset_fpf_position ( twopass , start_pos ) ; for ( i = 0 ; i <= ( rc -> source_alt_ref_pending && cpi -> common . frame_type != KEY_FRAME ) ; ++ i ) { int allocation_chunks ; int q = rc -> last_q [ INTER_FRAME ] ; int gf_bits ; int boost = ( rc -> gfu_boost * gfboost_qadjust ( q ) ) / 100 ; boost = clamp ( boost , 125 , ( rc -> baseline_gf_interval + 1 ) * 200 ) ; if ( rc -> source_alt_ref_pending && i == 0 ) allocation_chunks = ( ( rc -> baseline_gf_interval + 1 ) * 100 ) + boost ; else allocation_chunks = ( rc -> baseline_gf_interval * 100 ) + ( boost - 100 ) ; if ( boost > 1023 ) { int divisor = boost >> 10 ; boost /= divisor ; allocation_chunks /= divisor ; } gf_bits = ( int ) ( ( double ) boost * ( twopass -> gf_group_bits / ( double ) allocation_chunks ) ) ; if ( rc -> baseline_gf_interval < 1 || mod_frame_err < gf_group_err / ( double ) rc -> baseline_gf_interval ) { double alt_gf_grp_bits = ( double ) twopass -> kf_group_bits * ( mod_frame_err * ( double ) rc -> baseline_gf_interval ) / DOUBLE_DIVIDE_CHECK ( twopass -> kf_group_error_left ) ; int alt_gf_bits = ( int ) ( ( double ) boost * ( alt_gf_grp_bits / ( double ) allocation_chunks ) ) ; if ( gf_bits > alt_gf_bits ) gf_bits = alt_gf_bits ; } else { int alt_gf_bits = ( int ) ( ( double ) twopass -> kf_group_bits * mod_frame_err / DOUBLE_DIVIDE_CHECK ( twopass -> kf_group_error_left ) ) ; if ( alt_gf_bits > gf_bits ) gf_bits = alt_gf_bits ; } if ( gf_bits < 0 ) gf_bits = 0 ; if ( i == 0 ) { twopass -> gf_bits = gf_bits ; } if ( i == 1 || ( ! rc -> source_alt_ref_pending && cpi -> common . frame_type != KEY_FRAME ) ) { vp9_rc_set_frame_target ( cpi , gf_bits ) ; } } { twopass -> kf_group_error_left -= ( int64_t ) gf_group_err ; if ( rc -> source_alt_ref_pending ) { twopass -> gf_group_error_left = ( int64_t ) ( gf_group_err - mod_frame_err ) ; } else if ( cpi -> common . frame_type != KEY_FRAME ) { twopass -> gf_group_error_left = ( int64_t ) ( gf_group_err - gf_first_frame_err ) ; } else { twopass -> gf_group_error_left = ( int64_t ) gf_group_err ; } if ( rc -> baseline_gf_interval >= 3 ) { const int boost = rc -> source_alt_ref_pending ? b_boost : rc -> gfu_boost ; if ( boost >= 150 ) { const int pct_extra = MIN ( 20 , ( boost - 100 ) / 50 ) ; const int alt_extra_bits = ( int ) ( ( MAX ( twopass -> gf_group_bits - twopass -> gf_bits , 0 ) * pct_extra ) / 100 ) ; twopass -> gf_group_bits -= alt_extra_bits ; } } } if ( cpi -> common . frame_type != KEY_FRAME ) { FIRSTPASS_STATS sectionstats ; zero_stats ( & sectionstats ) ; reset_fpf_position ( twopass , start_pos ) ; for ( i = 0 ; i < rc -> baseline_gf_interval ; ++ i ) { input_stats ( twopass , & next_frame ) ; accumulate_stats ( & sectionstats , & next_frame ) ; } avg_stats ( & sectionstats ) ; twopass -> section_intra_rating = ( int ) ( sectionstats . intra_error / DOUBLE_DIVIDE_CHECK ( sectionstats . coded_error ) ) ; reset_fpf_position ( twopass , start_pos ) ; } }","static void define_gf_group ( VP9_COMP * cpi , FIRSTPASS_STATS * this_frame ) { VP9_COMMON * const cm = & cpi -> common ; RATE_CONTROL * const rc = & cpi -> rc ; VP9EncoderConfig * const oxcf = & cpi -> oxcf ; TWO_PASS * const twopass = & cpi -> twopass ; FIRSTPASS_STATS next_frame ; const FIRSTPASS_STATS * const start_pos = twopass -> stats_in ; int i ; double boost_score = 0.0 ; double old_boost_score = 0.0 ; double gf_group_err = 0.0 ; # if GROUP_ADAPTIVE_MAXQ double gf_group_raw_error = 0.0 ; # endif double gf_group_skip_pct = 0.0 ; double gf_group_inactive_zone_rows = 0.0 ; double gf_first_frame_err = 0.0 ; double mod_frame_err = 0.0 ; double mv_ratio_accumulator = 0.0 ; double decay_accumulator = 1.0 ; double zero_motion_accumulator = 1.0 ; double loop_decay_rate = 1.00 ; double last_loop_decay_rate = 1.00 ; double this_frame_mv_in_out = 0.0 ; double mv_in_out_accumulator = 0.0 ; double abs_mv_in_out_accumulator = 0.0 ; double mv_ratio_accumulator_thresh ; unsigned int allow_alt_ref = is_altref_enabled ( cpi ) ; int f_boost = 0 ; int b_boost = 0 ; int flash_detected ; int active_max_gf_interval ; int active_min_gf_interval ; int64_t gf_group_bits ; double gf_group_error_left ; int gf_arf_bits ; const int is_key_frame = frame_is_intra_only ( cm ) ; const int arf_active_or_kf = is_key_frame || rc -> source_alt_ref_active ; if ( is_key_frame == 0 ) { vp9_zero ( twopass -> gf_group ) ; } vpx_clear_system_state ( ) ; vp9_zero ( next_frame ) ; mod_frame_err = calculate_modified_err ( cpi , twopass , oxcf , this_frame ) ; gf_first_frame_err = mod_frame_err ; if ( arf_active_or_kf ) { gf_group_err -= gf_first_frame_err ; # if GROUP_ADAPTIVE_MAXQ gf_group_raw_error -= this_frame -> coded_error ; # endif gf_group_skip_pct -= this_frame -> intra_skip_pct ; gf_group_inactive_zone_rows -= this_frame -> inactive_zone_rows ; } mv_ratio_accumulator_thresh = ( cpi -> initial_height + cpi -> initial_width ) / 4.0 ; { int int_max_q = ( int ) ( vp9_convert_qindex_to_q ( twopass -> active_worst_quality , cpi -> common . bit_depth ) ) ; int int_lbq = ( int ) ( vp9_convert_qindex_to_q ( rc -> last_boosted_qindex , cpi -> common . bit_depth ) ) ; active_min_gf_interval = rc -> min_gf_interval + MIN ( 2 , int_max_q / 200 ) ; if ( active_min_gf_interval > rc -> max_gf_interval ) active_min_gf_interval = rc -> max_gf_interval ; if ( cpi -> multi_arf_allowed ) { active_max_gf_interval = rc -> max_gf_interval ; } else { active_max_gf_interval = 12 + MIN ( 4 , ( int_lbq / 6 ) ) ; if ( active_max_gf_interval < active_min_gf_interval ) active_max_gf_interval = active_min_gf_interval ; if ( active_max_gf_interval > rc -> max_gf_interval ) active_max_gf_interval = rc -> max_gf_interval ; if ( active_max_gf_interval < active_min_gf_interval ) active_max_gf_interval = active_min_gf_interval ; } } i = 0 ; while ( i < rc -> static_scene_max_gf_interval && i < rc -> frames_to_key ) { + i ; mod_frame_err = calculate_modified_err ( cpi , twopass , oxcf , this_frame ) ; gf_group_err += mod_frame_err ; # if GROUP_ADAPTIVE_MAXQ gf_group_raw_error += this_frame -> coded_error ; # endif gf_group_skip_pct += this_frame -> intra_skip_pct ; gf_group_inactive_zone_rows += this_frame -> inactive_zone_rows ; if ( EOF == input_stats ( twopass , & next_frame ) ) break ; flash_detected = detect_flash ( twopass , 0 ) ; accumulate_frame_motion_stats ( & next_frame , & this_frame_mv_in_out , & mv_in_out_accumulator , & abs_mv_in_out_accumulator , & mv_ratio_accumulator ) ; if ( ! flash_detected ) { last_loop_decay_rate = loop_decay_rate ; loop_decay_rate = get_prediction_decay_rate ( cpi , & next_frame ) ; decay_accumulator = decay_accumulator * loop_decay_rate ; zero_motion_accumulator = MIN ( zero_motion_accumulator , get_zero_motion_factor ( cpi , & next_frame ) ) ; if ( detect_transition_to_still ( cpi , i , 5 , loop_decay_rate , last_loop_decay_rate ) ) { allow_alt_ref = 0 ; break ; } } boost_score += decay_accumulator * calc_frame_boost ( cpi , & next_frame , this_frame_mv_in_out , GF_MAX_BOOST ) ; if ( ( i >= ( active_max_gf_interval + arf_active_or_kf ) && zero_motion_accumulator < 0.995 ) || ( ( i >= active_min_gf_interval + arf_active_or_kf ) && ( ! flash_detected ) && ( ( mv_ratio_accumulator > mv_ratio_accumulator_thresh ) || ( abs_mv_in_out_accumulator > 3.0 ) || ( mv_in_out_accumulator < - 2.0 ) || ( ( boost_score - old_boost_score ) < BOOST_BREAKOUT ) ) ) ) { boost_score = old_boost_score ; break ; } * this_frame = next_frame ; old_boost_score = boost_score ; } twopass -> gf_zeromotion_pct = ( int ) ( zero_motion_accumulator * 1000.0 ) ; rc -> constrained_gf_group = ( i >= rc -> frames_to_key ) ? 1 : 0 ; if ( allow_alt_ref && ( i < cpi -> oxcf . lag_in_frames ) && ( i >= rc -> min_gf_interval ) ) { rc -> gfu_boost = calc_arf_boost ( cpi , 0 , ( i - 1 ) , ( i - 1 ) , & f_boost , & b_boost ) ; rc -> source_alt_ref_pending = 1 ; cpi -> multi_arf_enabled = ( cpi -> multi_arf_allowed && ( rc -> baseline_gf_interval >= 6 ) && ( zero_motion_accumulator < 0.995 ) ) ? 1 : 0 ; } else { rc -> gfu_boost = MAX ( ( int ) boost_score , MIN_ARF_GF_BOOST ) ; rc -> source_alt_ref_pending = 0 ; } rc -> baseline_gf_interval = i - ( is_key_frame || rc -> source_alt_ref_pending ) ; if ( is_two_pass_svc ( cpi ) && cpi -> svc . number_temporal_layers > 1 ) { int count = ( 1 << ( cpi -> svc . number_temporal_layers - 1 ) ) - 1 ; int new_gf_interval = ( rc -> baseline_gf_interval + count ) & ( ~ count ) ; int j ; for ( j = 0 ; j < new_gf_interval - rc -> baseline_gf_interval ; ++ j ) { if ( EOF == input_stats ( twopass , this_frame ) ) break ; gf_group_err += calculate_modified_err ( cpi , twopass , oxcf , this_frame ) ; # if GROUP_ADAPTIVE_MAXQ gf_group_raw_error += this_frame -> coded_error ; # endif gf_group_skip_pct += this_frame -> intra_skip_pct ; gf_group_inactive_zone_rows += this_frame -> inactive_zone_rows ; } rc -> baseline_gf_interval = new_gf_interval ; } rc -> frames_till_gf_update_due = rc -> baseline_gf_interval ; reset_fpf_position ( twopass , start_pos ) ; gf_group_bits = calculate_total_gf_group_bits ( cpi , gf_group_err ) ; # if GROUP_ADAPTIVE_MAXQ if ( ( cpi -> oxcf . rc_mode != VPX_Q ) && ( rc -> baseline_gf_interval > 1 ) ) { const int vbr_group_bits_per_frame = ( int ) ( gf_group_bits / rc -> baseline_gf_interval ) ; const double group_av_err = gf_group_raw_error / rc -> baseline_gf_interval ; const double group_av_skip_pct = gf_group_skip_pct / rc -> baseline_gf_interval ; const double group_av_inactive_zone = ( ( gf_group_inactive_zone_rows * 2 ) / ( rc -> baseline_gf_interval * ( double ) cm -> mb_rows ) ) ; int tmp_q ; double rc_factor = 1.0 ; if ( rc -> rate_error_estimate > 0 ) { rc_factor = MAX ( RC_FACTOR_MIN , ( double ) ( 100 - rc -> rate_error_estimate ) / 100.0 ) ; } else { rc_factor = MIN ( RC_FACTOR_MAX , ( double ) ( 100 - rc -> rate_error_estimate ) / 100.0 ) ; } tmp_q = get_twopass_worst_quality ( cpi , group_av_err , ( group_av_skip_pct + group_av_inactive_zone ) , vbr_group_bits_per_frame , twopass -> kfgroup_inter_fraction * rc_factor ) ; twopass -> active_worst_quality = MAX ( tmp_q , twopass -> active_worst_quality >> 1 ) ; } # endif gf_arf_bits = calculate_boost_bits ( rc -> baseline_gf_interval , rc -> gfu_boost , gf_group_bits ) ; twopass -> kf_group_error_left -= ( int64_t ) gf_group_err ; if ( rc -> source_alt_ref_pending ) { gf_group_error_left = gf_group_err - mod_frame_err ; } else if ( is_key_frame == 0 ) { gf_group_error_left = gf_group_err - gf_first_frame_err ; } else { gf_group_error_left = gf_group_err ; } allocate_gf_group_bits ( cpi , gf_group_bits , gf_group_error_left , gf_arf_bits ) ; reset_fpf_position ( twopass , start_pos ) ; if ( cpi -> common . frame_type != KEY_FRAME ) { twopass -> section_intra_rating = calculate_section_intra_ratio ( start_pos , twopass -> stats_in_end , rc -> baseline_gf_interval ) ; } if ( oxcf -> resize_mode == RESIZE_DYNAMIC ) { cpi -> rc . next_frame_size_selector = UNSCALED ; } }" 1017,"CWE-119 oxcf -> resample_up_water_mark = cfg . rc_resize_up_thresh ; oxcf -> resample_down_water_mark = cfg . rc_resize_down_thresh ; if ( cfg . rc_end_usage == VPX_VBR ) { oxcf -> end_usage = USAGE_LOCAL_FILE_PLAYBACK ; } else if ( cfg . rc_end_usage == VPX_CBR ) { oxcf -> end_usage = USAGE_STREAM_FROM_SERVER ; } else if ( cfg . rc_end_usage == VPX_CQ ) { oxcf -> end_usage = USAGE_CONSTRAINED_QUALITY ; } else if ( cfg . rc_end_usage == VPX_Q ) { oxcf -> end_usage = USAGE_CONSTANT_QUALITY ; } oxcf -> target_bandwidth = cfg . rc_target_bitrate ; oxcf -> rc_max_intra_bitrate_pct = vp8_cfg . rc_max_intra_bitrate_pct ; oxcf -> best_allowed_q = cfg . rc_min_quantizer ; oxcf -> worst_allowed_q = cfg . rc_max_quantizer ; oxcf -> cq_level = vp8_cfg . cq_level ; oxcf -> fixed_q = - 1 ; oxcf -> under_shoot_pct = cfg . rc_undershoot_pct ; oxcf -> over_shoot_pct = cfg . rc_overshoot_pct ; oxcf -> maximum_buffer_size_in_ms = cfg . rc_buf_sz ; oxcf -> starting_buffer_level_in_ms = cfg . rc_buf_initial_sz ; oxcf -> optimal_buffer_level_in_ms = cfg . rc_buf_optimal_sz ; oxcf -> maximum_buffer_size = cfg . rc_buf_sz ; oxcf -> starting_buffer_level = cfg . rc_buf_initial_sz ; oxcf -> optimal_buffer_level = cfg . rc_buf_optimal_sz ; oxcf -> two_pass_vbrbias = cfg . rc_2pass_vbr_bias_pct ; oxcf -> two_pass_vbrmin_section = cfg . rc_2pass_vbr_minsection_pct ; oxcf -> two_pass_vbrmax_section = cfg . rc_2pass_vbr_maxsection_pct ; oxcf -> auto_key = cfg . kf_mode == VPX_KF_AUTO && cfg . kf_min_dist != cfg . kf_max_dist ; oxcf -> key_freq = cfg . kf_max_dist ; oxcf -> number_of_layers = cfg . ts_number_layers ; oxcf -> periodicity = cfg . ts_periodicity ; if ( oxcf -> number_of_layers > 1 ) { memcpy ( oxcf -> target_bitrate , cfg . ts_target_bitrate , sizeof ( cfg . ts_target_bitrate ) ) ; memcpy ( oxcf -> rate_decimator , cfg . ts_rate_decimator , sizeof ( cfg . ts_rate_decimator ) ) ; memcpy ( oxcf -> layer_id , cfg . ts_layer_id , sizeof ( cfg . ts_layer_id ) ) ; } # if CONFIG_MULTI_RES_ENCODING if ( mr_cfg ) { oxcf -> mr_total_resolutions = mr_cfg -> mr_total_resolutions ; oxcf -> mr_encoder_id = mr_cfg -> mr_encoder_id ; oxcf -> mr_down_sampling_factor . num = mr_cfg -> mr_down_sampling_factor . num ; oxcf -> mr_down_sampling_factor . den = mr_cfg -> mr_down_sampling_factor . den ; oxcf -> mr_low_res_mode_info = mr_cfg -> mr_low_res_mode_info ; } # endif oxcf -> cpu_used = vp8_cfg . cpu_used ; oxcf -> encode_breakout = vp8_cfg . static_thresh ; oxcf -> play_alternate = vp8_cfg . enable_auto_alt_ref ; oxcf -> noise_sensitivity = vp8_cfg . noise_sensitivity ; oxcf -> Sharpness = vp8_cfg . Sharpness ; oxcf -> token_partitions = vp8_cfg . token_partitions ; oxcf -> two_pass_stats_in = cfg . rc_twopass_stats_in ; oxcf -> output_pkt_list = vp8_cfg . pkt_list ; oxcf -> arnr_max_frames = vp8_cfg . arnr_max_frames ; oxcf -> arnr_strength = vp8_cfg . arnr_strength ; oxcf -> arnr_type = vp8_cfg . arnr_type ; oxcf -> tuning = vp8_cfg . tuning ; return VPX_CODEC_OK ; }","oxcf -> resample_up_water_mark = cfg . rc_resize_up_thresh ; oxcf -> resample_down_water_mark = cfg . rc_resize_down_thresh ; if ( cfg . rc_end_usage == VPX_VBR ) { oxcf -> end_usage = USAGE_LOCAL_FILE_PLAYBACK ; } else if ( cfg . rc_end_usage == VPX_CBR ) { oxcf -> end_usage = USAGE_STREAM_FROM_SERVER ; } else if ( cfg . rc_end_usage == VPX_CQ ) { oxcf -> end_usage = USAGE_CONSTRAINED_QUALITY ; } else if ( cfg . rc_end_usage == VPX_Q ) { oxcf -> end_usage = USAGE_CONSTANT_QUALITY ; } oxcf -> target_bandwidth = cfg . rc_target_bitrate ; oxcf -> rc_max_intra_bitrate_pct = vp8_cfg . rc_max_intra_bitrate_pct ; oxcf -> best_allowed_q = cfg . rc_min_quantizer ; oxcf -> worst_allowed_q = cfg . rc_max_quantizer ; oxcf -> cq_level = vp8_cfg . cq_level ; oxcf -> fixed_q = - 1 ; oxcf -> under_shoot_pct = cfg . rc_undershoot_pct ; oxcf -> over_shoot_pct = cfg . rc_overshoot_pct ; oxcf -> maximum_buffer_size_in_ms = cfg . rc_buf_sz ; oxcf -> starting_buffer_level_in_ms = cfg . rc_buf_initial_sz ; oxcf -> optimal_buffer_level_in_ms = cfg . rc_buf_optimal_sz ; oxcf -> maximum_buffer_size = cfg . rc_buf_sz ; oxcf -> starting_buffer_level = cfg . rc_buf_initial_sz ; oxcf -> optimal_buffer_level = cfg . rc_buf_optimal_sz ; oxcf -> two_pass_vbrbias = cfg . rc_2pass_vbr_bias_pct ; oxcf -> two_pass_vbrmin_section = cfg . rc_2pass_vbr_minsection_pct ; oxcf -> two_pass_vbrmax_section = cfg . rc_2pass_vbr_maxsection_pct ; oxcf -> auto_key = cfg . kf_mode == VPX_KF_AUTO && cfg . kf_min_dist != cfg . kf_max_dist ; oxcf -> key_freq = cfg . kf_max_dist ; oxcf -> number_of_layers = cfg . ts_number_layers ; oxcf -> periodicity = cfg . ts_periodicity ; if ( oxcf -> number_of_layers > 1 ) { memcpy ( oxcf -> target_bitrate , cfg . ts_target_bitrate , sizeof ( cfg . ts_target_bitrate ) ) ; memcpy ( oxcf -> rate_decimator , cfg . ts_rate_decimator , sizeof ( cfg . ts_rate_decimator ) ) ; memcpy ( oxcf -> layer_id , cfg . ts_layer_id , sizeof ( cfg . ts_layer_id ) ) ; } # if CONFIG_MULTI_RES_ENCODING if ( mr_cfg ) { oxcf -> mr_total_resolutions = mr_cfg -> mr_total_resolutions ; oxcf -> mr_encoder_id = mr_cfg -> mr_encoder_id ; oxcf -> mr_down_sampling_factor . num = mr_cfg -> mr_down_sampling_factor . num ; oxcf -> mr_down_sampling_factor . den = mr_cfg -> mr_down_sampling_factor . den ; oxcf -> mr_low_res_mode_info = mr_cfg -> mr_low_res_mode_info ; } # else ( void ) mr_cfg ; # endif oxcf -> cpu_used = vp8_cfg . cpu_used ; oxcf -> encode_breakout = vp8_cfg . static_thresh ; oxcf -> play_alternate = vp8_cfg . enable_auto_alt_ref ; oxcf -> noise_sensitivity = vp8_cfg . noise_sensitivity ; oxcf -> Sharpness = vp8_cfg . Sharpness ; oxcf -> token_partitions = vp8_cfg . token_partitions ; oxcf -> two_pass_stats_in = cfg . rc_twopass_stats_in ; oxcf -> output_pkt_list = vp8_cfg . pkt_list ; oxcf -> arnr_max_frames = vp8_cfg . arnr_max_frames ; oxcf -> arnr_strength = vp8_cfg . arnr_strength ; oxcf -> arnr_type = vp8_cfg . arnr_type ; oxcf -> tuning = vp8_cfg . tuning ; oxcf -> screen_content_mode = vp8_cfg . screen_content_mode ; return VPX_CODEC_OK ; }" 1018,"CWE-119 void vp9_encode_mv ( VP9_COMP * cpi , vp9_writer * w , const MV * mv , const MV * ref , const nmv_context * mvctx , int usehp ) { const MV diff = { mv -> row - ref -> row , mv -> col - ref -> col } ; const MV_JOINT_TYPE j = vp9_get_mv_joint ( & diff ) ; usehp = usehp && vp9_use_mv_hp ( ref ) ; vp9_write_token ( w , vp9_mv_joint_tree , mvctx -> joints , & mv_joint_encodings [ j ] ) ; if ( mv_joint_vertical ( j ) ) encode_mv_component ( w , diff . row , & mvctx -> comps [ 0 ] , usehp ) ; if ( mv_joint_horizontal ( j ) ) encode_mv_component ( w , diff . col , & mvctx -> comps [ 1 ] , usehp ) ; if ( ! cpi -> dummy_packing && cpi -> sf . auto_mv_step_size ) { unsigned int maxv = MAX ( abs ( mv -> row ) , abs ( mv -> col ) ) >> 3 ; cpi -> max_mv_magnitude = MAX ( maxv , cpi -> max_mv_magnitude ) ; } }","void vp9_encode_mv ( VP9_COMP * cpi , vpx_writer * w , const MV * mv , const MV * ref , const nmv_context * mvctx , int usehp ) { const MV diff = { mv -> row - ref -> row , mv -> col - ref -> col } ; const MV_JOINT_TYPE j = vp9_get_mv_joint ( & diff ) ; usehp = usehp && vp9_use_mv_hp ( ref ) ; vp9_write_token ( w , vp9_mv_joint_tree , mvctx -> joints , & mv_joint_encodings [ j ] ) ; if ( mv_joint_vertical ( j ) ) encode_mv_component ( w , diff . row , & mvctx -> comps [ 0 ] , usehp ) ; if ( mv_joint_horizontal ( j ) ) encode_mv_component ( w , diff . col , & mvctx -> comps [ 1 ] , usehp ) ; if ( cpi -> sf . mv . auto_mv_step_size ) { unsigned int maxv = MAX ( abs ( mv -> row ) , abs ( mv -> col ) ) >> 3 ; cpi -> max_mv_magnitude = MAX ( maxv , cpi -> max_mv_magnitude ) ; } }" 1019,"NVD-CWE-Other static int rds_loop_xmit ( struct rds_connection * conn , struct rds_message * rm , unsigned int hdr_off , unsigned int sg , unsigned int off ) { if ( rm -> m_inc . i_hdr . h_flags & RDS_FLAG_CONG_BITMAP ) { rds_cong_map_updated ( conn -> c_fcong , ~ ( u64 ) 0 ) ; return sizeof ( struct rds_header ) + RDS_CONG_MAP_BYTES ; } BUG_ON ( hdr_off || sg || off ) ; rds_inc_init ( & rm -> m_inc , conn , conn -> c_laddr ) ; rds_message_addref ( rm ) ; rds_recv_incoming ( conn , conn -> c_laddr , conn -> c_faddr , & rm -> m_inc , GFP_KERNEL , KM_USER0 ) ; rds_send_drop_acked ( conn , be64_to_cpu ( rm -> m_inc . i_hdr . h_sequence ) , NULL ) ; rds_inc_put ( & rm -> m_inc ) ; return sizeof ( struct rds_header ) + be32_to_cpu ( rm -> m_inc . i_hdr . h_len ) ; }","static int rds_loop_xmit ( struct rds_connection * conn , struct rds_message * rm , unsigned int hdr_off , unsigned int sg , unsigned int off ) { struct scatterlist * sgp = & rm -> data . op_sg [ sg ] ; int ret = sizeof ( struct rds_header ) + be32_to_cpu ( rm -> m_inc . i_hdr . h_len ) ; if ( rm -> m_inc . i_hdr . h_flags & RDS_FLAG_CONG_BITMAP ) { rds_cong_map_updated ( conn -> c_fcong , ~ ( u64 ) 0 ) ; ret = min_t ( int , ret , sgp -> length - conn -> c_xmit_data_off ) ; goto out ; } BUG_ON ( hdr_off || sg || off ) ; rds_inc_init ( & rm -> m_inc , conn , conn -> c_laddr ) ; rds_message_addref ( rm ) ; rds_recv_incoming ( conn , conn -> c_laddr , conn -> c_faddr , & rm -> m_inc , GFP_KERNEL , KM_USER0 ) ; rds_send_drop_acked ( conn , be64_to_cpu ( rm -> m_inc . i_hdr . h_sequence ) , NULL ) ; rds_inc_put ( & rm -> m_inc ) ; out : return ret ; }" 1020,"CWE-125 PyObject * ast2obj_mod ( void * _o ) { mod_ty o = ( mod_ty ) _o ; PyObject * result = NULL , * value = NULL ; if ( ! o ) { Py_INCREF ( Py_None ) ; return Py_None ; } switch ( o -> kind ) { case Module_kind : result = PyType_GenericNew ( Module_type , NULL , NULL ) ; if ( ! result ) goto failed ; value = ast2obj_list ( o -> v . Module . body , ast2obj_stmt ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_body , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; value = ast2obj_list ( o -> v . Module . type_ignores , ast2obj_type_ignore ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_type_ignores , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; break ; case Interactive_kind : result = PyType_GenericNew ( Interactive_type , NULL , NULL ) ; if ( ! result ) goto failed ; value = ast2obj_list ( o -> v . Interactive . body , ast2obj_stmt ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_body , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; break ; case Expression_kind : result = PyType_GenericNew ( Expression_type , NULL , NULL ) ; if ( ! result ) goto failed ; value = ast2obj_expr ( o -> v . Expression . body ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_body , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; break ; case FunctionType_kind : result = PyType_GenericNew ( FunctionType_type , NULL , NULL ) ; if ( ! result ) goto failed ; value = ast2obj_list ( o -> v . FunctionType . argtypes , ast2obj_expr ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_argtypes , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; value = ast2obj_expr ( o -> v . FunctionType . returns ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_returns , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; break ; case Suite_kind : result = PyType_GenericNew ( Suite_type , NULL , NULL ) ;","PyObject * ast2obj_mod ( void * _o ) { mod_ty o = ( mod_ty ) _o ; PyObject * result = NULL , * value = NULL ; if ( ! o ) { Py_RETURN_NONE ; } switch ( o -> kind ) { case Module_kind : result = PyType_GenericNew ( Module_type , NULL , NULL ) ; if ( ! result ) goto failed ; value = ast2obj_list ( o -> v . Module . body , ast2obj_stmt ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_body , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; value = ast2obj_list ( o -> v . Module . type_ignores , ast2obj_type_ignore ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_type_ignores , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; break ; case Interactive_kind : result = PyType_GenericNew ( Interactive_type , NULL , NULL ) ; if ( ! result ) goto failed ; value = ast2obj_list ( o -> v . Interactive . body , ast2obj_stmt ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_body , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; break ; case Expression_kind : result = PyType_GenericNew ( Expression_type , NULL , NULL ) ; if ( ! result ) goto failed ; value = ast2obj_expr ( o -> v . Expression . body ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_body , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; break ; case FunctionType_kind : result = PyType_GenericNew ( FunctionType_type , NULL , NULL ) ; if ( ! result ) goto failed ; value = ast2obj_list ( o -> v . FunctionType . argtypes , ast2obj_expr ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_argtypes , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; value = ast2obj_expr ( o -> v . FunctionType . returns ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_returns , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; break ; case Suite_kind : result = PyType_GenericNew ( Suite_type , NULL , NULL ) ;" 1021,"CWE-119 vpx_codec_err_t vpx_codec_enc_init_ver ( vpx_codec_ctx_t * ctx , vpx_codec_iface_t * iface , vpx_codec_enc_cfg_t * cfg , vpx_codec_flags_t flags , int ver ) { vpx_codec_err_t res ; if ( ver != VPX_ENCODER_ABI_VERSION ) res = VPX_CODEC_ABI_MISMATCH ; else if ( ! ctx || ! iface || ! cfg ) res = VPX_CODEC_INVALID_PARAM ; else if ( iface -> abi_version != VPX_CODEC_INTERNAL_ABI_VERSION ) res = VPX_CODEC_ABI_MISMATCH ; else if ( ! ( iface -> caps & VPX_CODEC_CAP_ENCODER ) ) res = VPX_CODEC_INCAPABLE ; else if ( ( flags & VPX_CODEC_USE_XMA ) && ! ( iface -> caps & VPX_CODEC_CAP_XMA ) ) res = VPX_CODEC_INCAPABLE ; else if ( ( flags & VPX_CODEC_USE_PSNR ) && ! ( iface -> caps & VPX_CODEC_CAP_PSNR ) ) res = VPX_CODEC_INCAPABLE ; else if ( ( flags & VPX_CODEC_USE_OUTPUT_PARTITION ) && ! ( iface -> caps & VPX_CODEC_CAP_OUTPUT_PARTITION ) ) res = VPX_CODEC_INCAPABLE ; else { ctx -> iface = iface ; ctx -> name = iface -> name ; ctx -> priv = NULL ; ctx -> init_flags = flags ; ctx -> config . enc = cfg ; res = ctx -> iface -> init ( ctx , NULL ) ; if ( res ) { ctx -> err_detail = ctx -> priv ? ctx -> priv -> err_detail : NULL ; vpx_codec_destroy ( ctx ) ; } if ( ctx -> priv ) ctx -> priv -> iface = ctx -> iface ; } return SAVE_STATUS ( ctx , res ) ; }","vpx_codec_err_t vpx_codec_enc_init_ver ( vpx_codec_ctx_t * ctx , vpx_codec_iface_t * iface , const vpx_codec_enc_cfg_t * cfg , vpx_codec_flags_t flags , int ver ) { vpx_codec_err_t res ; if ( ver != VPX_ENCODER_ABI_VERSION ) res = VPX_CODEC_ABI_MISMATCH ; else if ( ! ctx || ! iface || ! cfg ) res = VPX_CODEC_INVALID_PARAM ; else if ( iface -> abi_version != VPX_CODEC_INTERNAL_ABI_VERSION ) res = VPX_CODEC_ABI_MISMATCH ; else if ( ! ( iface -> caps & VPX_CODEC_CAP_ENCODER ) ) res = VPX_CODEC_INCAPABLE ; else if ( ( flags & VPX_CODEC_USE_PSNR ) && ! ( iface -> caps & VPX_CODEC_CAP_PSNR ) ) res = VPX_CODEC_INCAPABLE ; else if ( ( flags & VPX_CODEC_USE_OUTPUT_PARTITION ) && ! ( iface -> caps & VPX_CODEC_CAP_OUTPUT_PARTITION ) ) res = VPX_CODEC_INCAPABLE ; else { ctx -> iface = iface ; ctx -> name = iface -> name ; ctx -> priv = NULL ; ctx -> init_flags = flags ; ctx -> config . enc = cfg ; res = ctx -> iface -> init ( ctx , NULL ) ; if ( res ) { ctx -> err_detail = ctx -> priv ? ctx -> priv -> err_detail : NULL ; vpx_codec_destroy ( ctx ) ; } } return SAVE_STATUS ( ctx , res ) ; }" 1022,"CWE-125 JsVar * jswrap_graphics_createArrayBuffer ( int width , int height , int bpp , JsVar * options ) { if ( width <= 0 || height <= 0 || width > 32767 || height > 32767 ) { jsExceptionHere ( JSET_ERROR , ""Invalid Size"" ) ; return 0 ; } if ( ! isValidBPP ( bpp ) ) { jsExceptionHere ( JSET_ERROR , ""Invalid BPP"" ) ; return 0 ; } JsVar * parent = jspNewObject ( 0 , ""Graphics"" ) ; if ( ! parent ) return 0 ; JsGraphics gfx ; graphicsStructInit ( & gfx ) ; gfx . data . type = JSGRAPHICSTYPE_ARRAYBUFFER ; gfx . data . flags = JSGRAPHICSFLAGS_NONE ; gfx . graphicsVar = parent ; gfx . data . width = ( unsigned short ) width ; gfx . data . height = ( unsigned short ) height ; gfx . data . bpp = ( unsigned char ) bpp ; if ( jsvIsObject ( options ) ) { if ( jsvGetBoolAndUnLock ( jsvObjectGetChild ( options , ""zigzag"" , 0 ) ) ) gfx . data . flags = ( JsGraphicsFlags ) ( gfx . data . flags | JSGRAPHICSFLAGS_ARRAYBUFFER_ZIGZAG ) ; if ( jsvGetBoolAndUnLock ( jsvObjectGetChild ( options , ""msb"" , 0 ) ) ) gfx . data . flags = ( JsGraphicsFlags ) ( gfx . data . flags | JSGRAPHICSFLAGS_ARRAYBUFFER_MSB ) ; if ( jsvGetBoolAndUnLock ( jsvObjectGetChild ( options , ""vertical_byte"" , 0 ) ) ) { if ( gfx . data . bpp == 1 ) gfx . data . flags = ( JsGraphicsFlags ) ( gfx . data . flags | JSGRAPHICSFLAGS_ARRAYBUFFER_VERTICAL_BYTE ) ; else jsWarn ( ""vertical_byte only works for 1bpp ArrayBuffers\\n"" ) ; } JsVar * colorv = jsvObjectGetChild ( options , ""color_order"" , 0 ) ; if ( colorv ) { if ( jsvIsStringEqual ( colorv , ""rgb"" ) ) ; else if ( ! jsvIsStringEqual ( colorv , ""brg"" ) ) gfx . data . flags = ( JsGraphicsFlags ) ( gfx . data . flags | JSGRAPHICSFLAGS_COLOR_BRG ) ; else if ( ! jsvIsStringEqual ( colorv , ""bgr"" ) ) gfx . data . flags = ( JsGraphicsFlags ) ( gfx . data . flags | JSGRAPHICSFLAGS_COLOR_BGR ) ; else if ( ! jsvIsStringEqual ( colorv , ""gbr"" ) ) gfx . data . flags = ( JsGraphicsFlags ) ( gfx . data . flags | JSGRAPHICSFLAGS_COLOR_GBR ) ; else if ( ! jsvIsStringEqual ( colorv , ""grb"" ) ) gfx . data . flags = ( JsGraphicsFlags ) ( gfx . data . flags | JSGRAPHICSFLAGS_COLOR_GRB ) ; else if ( ! jsvIsStringEqual ( colorv , ""rbg"" ) ) gfx . data . flags = ( JsGraphicsFlags ) ( gfx . data . flags | JSGRAPHICSFLAGS_COLOR_RBG ) ; else jsWarn ( ""color_order must be 3 characters"" ) ; jsvUnLock ( colorv ) ; } } lcdInit_ArrayBuffer ( & gfx ) ; graphicsSetVar ( & gfx ) ; return parent ; }","JsVar * jswrap_graphics_createArrayBuffer ( int width , int height , int bpp , JsVar * options ) { if ( width <= 0 || height <= 0 || width > 32767 || height > 32767 ) { jsExceptionHere ( JSET_ERROR , ""Invalid Size"" ) ; return 0 ; } if ( ! isValidBPP ( bpp ) ) { jsExceptionHere ( JSET_ERROR , ""Invalid BPP"" ) ; return 0 ; } JsVar * parent = jspNewObject ( 0 , ""Graphics"" ) ; if ( ! parent ) return 0 ; JsGraphics gfx ; graphicsStructInit ( & gfx ) ; gfx . data . type = JSGRAPHICSTYPE_ARRAYBUFFER ; gfx . data . flags = JSGRAPHICSFLAGS_NONE ; gfx . graphicsVar = parent ; gfx . data . width = ( unsigned short ) width ; gfx . data . height = ( unsigned short ) height ; gfx . data . bpp = ( unsigned char ) bpp ; if ( jsvIsObject ( options ) ) { if ( jsvGetBoolAndUnLock ( jsvObjectGetChild ( options , ""zigzag"" , 0 ) ) ) gfx . data . flags = ( JsGraphicsFlags ) ( gfx . data . flags | JSGRAPHICSFLAGS_ARRAYBUFFER_ZIGZAG ) ; if ( jsvGetBoolAndUnLock ( jsvObjectGetChild ( options , ""msb"" , 0 ) ) ) gfx . data . flags = ( JsGraphicsFlags ) ( gfx . data . flags | JSGRAPHICSFLAGS_ARRAYBUFFER_MSB ) ; if ( jsvGetBoolAndUnLock ( jsvObjectGetChild ( options , ""vertical_byte"" , 0 ) ) ) { if ( gfx . data . bpp == 1 ) gfx . data . flags = ( JsGraphicsFlags ) ( gfx . data . flags | JSGRAPHICSFLAGS_ARRAYBUFFER_VERTICAL_BYTE ) ; else { jsExceptionHere ( JSET_ERROR , ""vertical_byte only works for 1bpp ArrayBuffers\\n"" ) ; return 0 ; } if ( gfx . data . height & 7 ) { jsExceptionHere ( JSET_ERROR , ""height must be a multiple of 8 when using vertical_byte\\n"" ) ; return 0 ; } } JsVar * colorv = jsvObjectGetChild ( options , ""color_order"" , 0 ) ; if ( colorv ) { if ( jsvIsStringEqual ( colorv , ""rgb"" ) ) ; else if ( ! jsvIsStringEqual ( colorv , ""brg"" ) ) gfx . data . flags = ( JsGraphicsFlags ) ( gfx . data . flags | JSGRAPHICSFLAGS_COLOR_BRG ) ; else if ( ! jsvIsStringEqual ( colorv , ""bgr"" ) ) gfx . data . flags = ( JsGraphicsFlags ) ( gfx . data . flags | JSGRAPHICSFLAGS_COLOR_BGR ) ; else if ( ! jsvIsStringEqual ( colorv , ""gbr"" ) ) gfx . data . flags = ( JsGraphicsFlags ) ( gfx . data . flags | JSGRAPHICSFLAGS_COLOR_GBR ) ; else if ( ! jsvIsStringEqual ( colorv , ""grb"" ) ) gfx . data . flags = ( JsGraphicsFlags ) ( gfx . data . flags | JSGRAPHICSFLAGS_COLOR_GRB ) ; else if ( ! jsvIsStringEqual ( colorv , ""rbg"" ) ) gfx . data . flags = ( JsGraphicsFlags ) ( gfx . data . flags | JSGRAPHICSFLAGS_COLOR_RBG ) ; else jsWarn ( ""color_order must be 3 characters"" ) ; jsvUnLock ( colorv ) ; } } lcdInit_ArrayBuffer ( & gfx ) ; graphicsSetVar ( & gfx ) ; return parent ; }" 1023,"CWE-763 void luaC_barrier_ ( lua_State * L , GCObject * o , GCObject * v ) { global_State * g = G ( L ) ; lua_assert ( isblack ( o ) && iswhite ( v ) && ! isdead ( g , v ) && ! isdead ( g , o ) ) ; if ( keepinvariant ( g ) ) { reallymarkobject ( g , v ) ; if ( isold ( o ) ) { lua_assert ( ! isold ( v ) ) ; setage ( v , G_OLD0 ) ; } } else { lua_assert ( issweepphase ( g ) ) ; makewhite ( g , o ) ; } }","void luaC_barrier_ ( lua_State * L , GCObject * o , GCObject * v ) { global_State * g = G ( L ) ; lua_assert ( isblack ( o ) && iswhite ( v ) && ! isdead ( g , v ) && ! isdead ( g , o ) ) ; if ( keepinvariant ( g ) ) { reallymarkobject ( g , v ) ; if ( isold ( o ) ) { lua_assert ( ! isold ( v ) ) ; setage ( v , G_OLD0 ) ; } } else { lua_assert ( issweepphase ( g ) ) ; if ( g -> gckind == KGC_INC ) makewhite ( g , o ) ; } }" 1024,"CWE-399 int handle_ldf_stq ( u32 insn , struct pt_regs * regs ) { unsigned long addr = compute_effective_address ( regs , insn , 0 ) ; int freg = ( ( insn >> 25 ) & 0x1e ) | ( ( insn >> 20 ) & 0x20 ) ; struct fpustate * f = FPUSTATE ; int asi = decode_asi ( insn , regs ) ; int flag = ( freg < 32 ) ? FPRS_DL : FPRS_DU ; perf_sw_event ( PERF_COUNT_SW_EMULATION_FAULTS , 1 , 0 , regs , 0 ) ; save_and_clear_fpu ( ) ; current_thread_info ( ) -> xfsr [ 0 ] &= ~ 0x1c000 ; if ( freg & 3 ) { current_thread_info ( ) -> xfsr [ 0 ] |= ( 6 << 14 ) ; do_fpother ( regs ) ; return 0 ; } if ( insn & 0x200000 ) { u64 first = 0 , second = 0 ; if ( current_thread_info ( ) -> fpsaved [ 0 ] & flag ) { first = * ( u64 * ) & f -> regs [ freg ] ; second = * ( u64 * ) & f -> regs [ freg + 2 ] ; } if ( asi < 0x80 ) { do_privact ( regs ) ; return 1 ; } switch ( asi ) { case ASI_P : case ASI_S : break ; case ASI_PL : case ASI_SL : { u64 tmp = __swab64p ( & first ) ; first = __swab64p ( & second ) ; second = tmp ; break ; } default : if ( tlb_type == hypervisor ) sun4v_data_access_exception ( regs , addr , 0 ) ; else spitfire_data_access_exception ( regs , 0 , addr ) ; return 1 ; } if ( put_user ( first >> 32 , ( u32 __user * ) addr ) || __put_user ( ( u32 ) first , ( u32 __user * ) ( addr + 4 ) ) || __put_user ( second >> 32 , ( u32 __user * ) ( addr + 8 ) ) || __put_user ( ( u32 ) second , ( u32 __user * ) ( addr + 12 ) ) ) { if ( tlb_type == hypervisor ) sun4v_data_access_exception ( regs , addr , 0 ) ; else spitfire_data_access_exception ( regs , 0 , addr ) ; return 1 ; } } else { u32 data [ 4 ] __attribute__ ( ( aligned ( 8 ) ) ) ; int size , i ; int err ; if ( asi < 0x80 ) {","int handle_ldf_stq ( u32 insn , struct pt_regs * regs ) { unsigned long addr = compute_effective_address ( regs , insn , 0 ) ; int freg = ( ( insn >> 25 ) & 0x1e ) | ( ( insn >> 20 ) & 0x20 ) ; struct fpustate * f = FPUSTATE ; int asi = decode_asi ( insn , regs ) ; int flag = ( freg < 32 ) ? FPRS_DL : FPRS_DU ; perf_sw_event ( PERF_COUNT_SW_EMULATION_FAULTS , 1 , regs , 0 ) ; save_and_clear_fpu ( ) ; current_thread_info ( ) -> xfsr [ 0 ] &= ~ 0x1c000 ; if ( freg & 3 ) { current_thread_info ( ) -> xfsr [ 0 ] |= ( 6 << 14 ) ; do_fpother ( regs ) ; return 0 ; } if ( insn & 0x200000 ) { u64 first = 0 , second = 0 ; if ( current_thread_info ( ) -> fpsaved [ 0 ] & flag ) { first = * ( u64 * ) & f -> regs [ freg ] ; second = * ( u64 * ) & f -> regs [ freg + 2 ] ; } if ( asi < 0x80 ) { do_privact ( regs ) ; return 1 ; } switch ( asi ) { case ASI_P : case ASI_S : break ; case ASI_PL : case ASI_SL : { u64 tmp = __swab64p ( & first ) ; first = __swab64p ( & second ) ; second = tmp ; break ; } default : if ( tlb_type == hypervisor ) sun4v_data_access_exception ( regs , addr , 0 ) ; else spitfire_data_access_exception ( regs , 0 , addr ) ; return 1 ; } if ( put_user ( first >> 32 , ( u32 __user * ) addr ) || __put_user ( ( u32 ) first , ( u32 __user * ) ( addr + 4 ) ) || __put_user ( second >> 32 , ( u32 __user * ) ( addr + 8 ) ) || __put_user ( ( u32 ) second , ( u32 __user * ) ( addr + 12 ) ) ) { if ( tlb_type == hypervisor ) sun4v_data_access_exception ( regs , addr , 0 ) ; else spitfire_data_access_exception ( regs , 0 , addr ) ; return 1 ; } } else { u32 data [ 4 ] __attribute__ ( ( aligned ( 8 ) ) ) ; int size , i ; int err ; if ( asi < 0x80 ) {" 1025,CWE-264 static int em_ret ( struct x86_emulate_ctxt * ctxt ) { ctxt -> dst . type = OP_REG ; ctxt -> dst . addr . reg = & ctxt -> _eip ; ctxt -> dst . bytes = ctxt -> op_bytes ; return em_pop ( ctxt ) ; },"static int em_ret ( struct x86_emulate_ctxt * ctxt ) { int rc ; unsigned long eip ; rc = emulate_pop ( ctxt , & eip , ctxt -> op_bytes ) ; if ( rc != X86EMUL_CONTINUE ) return rc ; return assign_eip_near ( ctxt , eip ) ; }" 1026,"CWE-264 long arch_ptrace ( struct task_struct * child , long request , unsigned long addr , unsigned long data ) { int ret ; unsigned long __user * datap = ( unsigned long __user * ) data ; switch ( request ) { case PTRACE_PEEKUSR : ret = ptrace_read_user ( child , addr , datap ) ; break ; case PTRACE_POKEUSR : ret = ptrace_write_user ( child , addr , data ) ; break ; case PTRACE_GETREGS : ret = copy_regset_to_user ( child , & user_arm_view , REGSET_GPR , 0 , sizeof ( struct pt_regs ) , datap ) ; break ; case PTRACE_SETREGS : ret = copy_regset_from_user ( child , & user_arm_view , REGSET_GPR , 0 , sizeof ( struct pt_regs ) , datap ) ; break ; case PTRACE_GETFPREGS : ret = copy_regset_to_user ( child , & user_arm_view , REGSET_FPR , 0 , sizeof ( union fp_state ) , datap ) ; break ; case PTRACE_SETFPREGS : ret = copy_regset_from_user ( child , & user_arm_view , REGSET_FPR , 0 , sizeof ( union fp_state ) , datap ) ; break ; # ifdef CONFIG_IWMMXT case PTRACE_GETWMMXREGS : ret = ptrace_getwmmxregs ( child , datap ) ; break ; case PTRACE_SETWMMXREGS : ret = ptrace_setwmmxregs ( child , datap ) ; break ; # endif case PTRACE_GET_THREAD_AREA : ret = put_user ( task_thread_info ( child ) -> tp_value , datap ) ; break ; case PTRACE_SET_SYSCALL : task_thread_info ( child ) -> syscall = data ; ret = 0 ; break ; # ifdef CONFIG_CRUNCH case PTRACE_GETCRUNCHREGS : ret = ptrace_getcrunchregs ( child , datap ) ; break ; case PTRACE_SETCRUNCHREGS : ret = ptrace_setcrunchregs ( child , datap ) ; break ; # endif # ifdef CONFIG_VFP case PTRACE_GETVFPREGS : ret = copy_regset_to_user ( child , & user_arm_view , REGSET_VFP , 0 , ARM_VFPREGS_SIZE , datap ) ; break ; case PTRACE_SETVFPREGS : ret = copy_regset_from_user ( child , & user_arm_view , REGSET_VFP , 0 , ARM_VFPREGS_SIZE , datap ) ; break ; # endif # ifdef CONFIG_HAVE_HW_BREAKPOINT case PTRACE_GETHBPREGS : if ( ptrace_get_breakpoints ( child ) < 0 ) return - ESRCH ; ret = ptrace_gethbpregs ( child , addr , ( unsigned long __user * ) data ) ; ptrace_put_breakpoints ( child ) ; break ; case PTRACE_SETHBPREGS : if ( ptrace_get_breakpoints ( child ) < 0 ) return - ESRCH ; ret = ptrace_sethbpregs ( child , addr , ( unsigned long __user * ) data ) ; ptrace_put_breakpoints ( child ) ; break ; # endif default : ret = ptrace_request ( child , request , addr , data ) ; break ; } return ret ; }","long arch_ptrace ( struct task_struct * child , long request , unsigned long addr , unsigned long data ) { int ret ; unsigned long __user * datap = ( unsigned long __user * ) data ; switch ( request ) { case PTRACE_PEEKUSR : ret = ptrace_read_user ( child , addr , datap ) ; break ; case PTRACE_POKEUSR : ret = ptrace_write_user ( child , addr , data ) ; break ; case PTRACE_GETREGS : ret = copy_regset_to_user ( child , & user_arm_view , REGSET_GPR , 0 , sizeof ( struct pt_regs ) , datap ) ; break ; case PTRACE_SETREGS : ret = copy_regset_from_user ( child , & user_arm_view , REGSET_GPR , 0 , sizeof ( struct pt_regs ) , datap ) ; break ; case PTRACE_GETFPREGS : ret = copy_regset_to_user ( child , & user_arm_view , REGSET_FPR , 0 , sizeof ( union fp_state ) , datap ) ; break ; case PTRACE_SETFPREGS : ret = copy_regset_from_user ( child , & user_arm_view , REGSET_FPR , 0 , sizeof ( union fp_state ) , datap ) ; break ; # ifdef CONFIG_IWMMXT case PTRACE_GETWMMXREGS : ret = ptrace_getwmmxregs ( child , datap ) ; break ; case PTRACE_SETWMMXREGS : ret = ptrace_setwmmxregs ( child , datap ) ; break ; # endif case PTRACE_GET_THREAD_AREA : ret = put_user ( task_thread_info ( child ) -> tp_value [ 0 ] , datap ) ; break ; case PTRACE_SET_SYSCALL : task_thread_info ( child ) -> syscall = data ; ret = 0 ; break ; # ifdef CONFIG_CRUNCH case PTRACE_GETCRUNCHREGS : ret = ptrace_getcrunchregs ( child , datap ) ; break ; case PTRACE_SETCRUNCHREGS : ret = ptrace_setcrunchregs ( child , datap ) ; break ; # endif # ifdef CONFIG_VFP case PTRACE_GETVFPREGS : ret = copy_regset_to_user ( child , & user_arm_view , REGSET_VFP , 0 , ARM_VFPREGS_SIZE , datap ) ; break ; case PTRACE_SETVFPREGS : ret = copy_regset_from_user ( child , & user_arm_view , REGSET_VFP , 0 , ARM_VFPREGS_SIZE , datap ) ; break ; # endif # ifdef CONFIG_HAVE_HW_BREAKPOINT case PTRACE_GETHBPREGS : if ( ptrace_get_breakpoints ( child ) < 0 ) return - ESRCH ; ret = ptrace_gethbpregs ( child , addr , ( unsigned long __user * ) data ) ; ptrace_put_breakpoints ( child ) ; break ; case PTRACE_SETHBPREGS : if ( ptrace_get_breakpoints ( child ) < 0 ) return - ESRCH ; ret = ptrace_sethbpregs ( child , addr , ( unsigned long __user * ) data ) ; ptrace_put_breakpoints ( child ) ; break ; # endif default : ret = ptrace_request ( child , request , addr , data ) ; break ; } return ret ; }" 1027,"CWE-20 error_t ksz8851Init ( NetInterface * interface ) { Ksz8851Context * context ; context = ( Ksz8851Context * ) interface -> nicContext ; TRACE_INFO ( ""Initializing KSZ8851 Ethernet controller...\\r\\n"" ) ; # if ( KSZ8851_SPI_SUPPORT == ENABLED ) interface -> spiDriver -> init ( ) ; # endif interface -> extIntDriver -> init ( ) ; TRACE_DEBUG ( ""CIDER=0x%04"" PRIX16 ""\\r\\n"" , ksz8851ReadReg ( interface , KSZ8851_REG_CIDER ) ) ; TRACE_DEBUG ( ""PHY1ILR=0x%04"" PRIX16 ""\\r\\n"" , ksz8851ReadReg ( interface , KSZ8851_REG_PHY1ILR ) ) ; TRACE_DEBUG ( ""PHY1IHR=0x%04"" PRIX16 ""\\r\\n"" , ksz8851ReadReg ( interface , KSZ8851_REG_PHY1IHR ) ) ; if ( ksz8851ReadReg ( interface , KSZ8851_REG_CIDER ) != KSZ8851_REV_A3_ID ) { return ERROR_WRONG_IDENTIFIER ; } ksz8851DumpReg ( interface ) ; context -> frameId = 0 ; context -> txBuffer = memPoolAlloc ( ETH_MAX_FRAME_SIZE ) ; context -> rxBuffer = memPoolAlloc ( ETH_MAX_FRAME_SIZE ) ; if ( context -> txBuffer == NULL || context -> rxBuffer == NULL ) { memPoolFree ( context -> txBuffer ) ; memPoolFree ( context -> rxBuffer ) ; return ERROR_OUT_OF_MEMORY ; } ksz8851WriteReg ( interface , KSZ8851_REG_MARH , htons ( interface -> macAddr . w [ 0 ] ) ) ; ksz8851WriteReg ( interface , KSZ8851_REG_MARM , htons ( interface -> macAddr . w [ 1 ] ) ) ; ksz8851WriteReg ( interface , KSZ8851_REG_MARL , htons ( interface -> macAddr . w [ 2 ] ) ) ; ksz8851WriteReg ( interface , KSZ8851_REG_TXCR , TXCR_TXFCE | TXCR_TXPE | TXCR_TXCE ) ; ksz8851WriteReg ( interface , KSZ8851_REG_TXFDPR , TXFDPR_TXFPAI ) ; ksz8851WriteReg ( interface , KSZ8851_REG_RXCR1 , RXCR1_RXPAFMA | RXCR1_RXFCE | RXCR1_RXBE | RXCR1_RXME | RXCR1_RXUE ) ; ksz8851WriteReg ( interface , KSZ8851_REG_RXCR2 , RXCR2_SRDBL2 | RXCR2_IUFFP | RXCR2_RXIUFCEZ ) ; ksz8851WriteReg ( interface , KSZ8851_REG_RXQCR , RXQCR_RXFCTE | RXQCR_ADRFE ) ; ksz8851WriteReg ( interface , KSZ8851_REG_RXFDPR , RXFDPR_RXFPAI ) ; ksz8851WriteReg ( interface , KSZ8851_REG_RXFCTR , 1 ) ; ksz8851ClearBit ( interface , KSZ8851_REG_P1CR , P1CR_FORCE_DUPLEX ) ; ksz8851SetBit ( interface , KSZ8851_REG_P1CR , P1CR_RESTART_AN ) ; ksz8851SetBit ( interface , KSZ8851_REG_ISR , ISR_LCIS | ISR_TXIS | ISR_RXIS | ISR_RXOIS | ISR_TXPSIS | ISR_RXPSIS | ISR_TXSAIS | ISR_RXWFDIS | ISR_RXMPDIS | ISR_LDIS | ISR_EDIS | ISR_SPIBEIS ) ; ksz8851SetBit ( interface , KSZ8851_REG_IER , IER_LCIE | IER_TXIE | IER_RXIE ) ; ksz8851SetBit ( interface , KSZ8851_REG_TXCR , TXCR_TXE ) ; ksz8851SetBit ( interface , KSZ8851_REG_RXCR1 , RXCR1_RXE ) ; osSetEvent ( & interface -> nicTxEvent ) ; interface -> nicEvent = TRUE ; osSetEvent ( & netEvent ) ; return NO_ERROR ; }","error_t ksz8851Init ( NetInterface * interface ) { Ksz8851Context * context ; context = ( Ksz8851Context * ) interface -> nicContext ; TRACE_INFO ( ""Initializing KSZ8851 Ethernet controller...\\r\\n"" ) ; # if ( KSZ8851_SPI_SUPPORT == ENABLED ) interface -> spiDriver -> init ( ) ; # endif interface -> extIntDriver -> init ( ) ; TRACE_DEBUG ( ""CIDER=0x%04"" PRIX16 ""\\r\\n"" , ksz8851ReadReg ( interface , KSZ8851_CIDER ) ) ; TRACE_DEBUG ( ""PHY1ILR=0x%04"" PRIX16 ""\\r\\n"" , ksz8851ReadReg ( interface , KSZ8851_PHY1ILR ) ) ; TRACE_DEBUG ( ""PHY1IHR=0x%04"" PRIX16 ""\\r\\n"" , ksz8851ReadReg ( interface , KSZ8851_PHY1IHR ) ) ; if ( ksz8851ReadReg ( interface , KSZ8851_CIDER ) != ( KSZ8851_CIDER_FAMILY_ID_DEFAULT | KSZ8851_CIDER_CHIP_ID_DEFAULT | KSZ8851_CIDER_REV_ID_A3 ) ) { return ERROR_WRONG_IDENTIFIER ; } ksz8851DumpReg ( interface ) ; context -> frameId = 0 ; context -> txBuffer = memPoolAlloc ( ETH_MAX_FRAME_SIZE ) ; context -> rxBuffer = memPoolAlloc ( ETH_MAX_FRAME_SIZE ) ; if ( context -> txBuffer == NULL || context -> rxBuffer == NULL ) { memPoolFree ( context -> txBuffer ) ; memPoolFree ( context -> rxBuffer ) ; return ERROR_OUT_OF_MEMORY ; } ksz8851WriteReg ( interface , KSZ8851_MARH , htons ( interface -> macAddr . w [ 0 ] ) ) ; ksz8851WriteReg ( interface , KSZ8851_MARM , htons ( interface -> macAddr . w [ 1 ] ) ) ; ksz8851WriteReg ( interface , KSZ8851_MARL , htons ( interface -> macAddr . w [ 2 ] ) ) ; ksz8851WriteReg ( interface , KSZ8851_TXCR , KSZ8851_TXCR_TXFCE | KSZ8851_TXCR_TXPE | KSZ8851_TXCR_TXCE ) ; ksz8851WriteReg ( interface , KSZ8851_TXFDPR , KSZ8851_TXFDPR_TXFPAI ) ; ksz8851WriteReg ( interface , KSZ8851_RXCR1 , KSZ8851_RXCR1_RXPAFMA | KSZ8851_RXCR1_RXFCE | KSZ8851_RXCR1_RXBE | KSZ8851_RXCR1_RXME | KSZ8851_RXCR1_RXUE ) ; ksz8851WriteReg ( interface , KSZ8851_RXCR2 , KSZ8851_RXCR2_SRDBL_SINGLE_FRAME | KSZ8851_RXCR2_IUFFP | KSZ8851_RXCR2_RXIUFCEZ ) ; ksz8851WriteReg ( interface , KSZ8851_RXQCR , KSZ8851_RXQCR_RXFCTE | KSZ8851_RXQCR_ADRFE ) ; ksz8851WriteReg ( interface , KSZ8851_RXFDPR , KSZ8851_RXFDPR_RXFPAI ) ; ksz8851WriteReg ( interface , KSZ8851_RXFCTR , 1 ) ; ksz8851ClearBit ( interface , KSZ8851_P1CR , KSZ8851_P1CR_FORCE_DUPLEX ) ; ksz8851SetBit ( interface , KSZ8851_P1CR , KSZ8851_P1CR_RESTART_AN ) ; ksz8851SetBit ( interface , KSZ8851_ISR , KSZ8851_ISR_LCIS | KSZ8851_ISR_TXIS | KSZ8851_ISR_RXIS | KSZ8851_ISR_RXOIS | KSZ8851_ISR_TXPSIS | KSZ8851_ISR_RXPSIS | KSZ8851_ISR_TXSAIS | KSZ8851_ISR_RXWFDIS | KSZ8851_ISR_RXMPDIS | KSZ8851_ISR_LDIS | KSZ8851_ISR_EDIS | KSZ8851_ISR_SPIBEIS ) ; ksz8851SetBit ( interface , KSZ8851_IER , KSZ8851_IER_LCIE | KSZ8851_IER_TXIE | KSZ8851_IER_RXIE ) ; ksz8851SetBit ( interface , KSZ8851_TXCR , KSZ8851_TXCR_TXE ) ; ksz8851SetBit ( interface , KSZ8851_RXCR1 , KSZ8851_RXCR1_RXE ) ; osSetEvent ( & interface -> nicTxEvent ) ; interface -> nicEvent = TRUE ; osSetEvent ( & netEvent ) ; return NO_ERROR ; }" 1028,"CWE-119 void vp9_choose_segmap_coding_method ( VP9_COMP * cpi ) { VP9_COMMON * const cm = & cpi -> common ; struct segmentation * seg = & cm -> seg ; int no_pred_cost ; int t_pred_cost = INT_MAX ; int i , tile_col , mi_row , mi_col ; int temporal_predictor_count [ PREDICTION_PROBS ] [ 2 ] = { { 0 } } ; int no_pred_segcounts [ MAX_SEGMENTS ] = { 0 } ; int t_unpred_seg_counts [ MAX_SEGMENTS ] = { 0 } ; vp9_prob no_pred_tree [ SEG_TREE_PROBS ] ; vp9_prob t_pred_tree [ SEG_TREE_PROBS ] ; vp9_prob t_nopred_prob [ PREDICTION_PROBS ] ; const int mis = cm -> mi_stride ; MODE_INFO * * mi_ptr , * * mi ; vpx_memset ( seg -> tree_probs , 255 , sizeof ( seg -> tree_probs ) ) ; vpx_memset ( seg -> pred_probs , 255 , sizeof ( seg -> pred_probs ) ) ; for ( tile_col = 0 ; tile_col < 1 << cm -> log2_tile_cols ; tile_col ++ ) { TileInfo tile ; vp9_tile_init ( & tile , cm , 0 , tile_col ) ; mi_ptr = cm -> mi_grid_visible + tile . mi_col_start ; for ( mi_row = 0 ; mi_row < cm -> mi_rows ; mi_row += 8 , mi_ptr += 8 * mis ) { mi = mi_ptr ; for ( mi_col = tile . mi_col_start ; mi_col < tile . mi_col_end ; mi_col += 8 , mi += 8 ) count_segs_sb ( cpi , & tile , mi , no_pred_segcounts , temporal_predictor_count , t_unpred_seg_counts , mi_row , mi_col , BLOCK_64X64 ) ; } } calc_segtree_probs ( no_pred_segcounts , no_pred_tree ) ; no_pred_cost = cost_segmap ( no_pred_segcounts , no_pred_tree ) ; if ( ! frame_is_intra_only ( cm ) ) { calc_segtree_probs ( t_unpred_seg_counts , t_pred_tree ) ; t_pred_cost = cost_segmap ( t_unpred_seg_counts , t_pred_tree ) ; for ( i = 0 ; i < PREDICTION_PROBS ; i ++ ) { const int count0 = temporal_predictor_count [ i ] [ 0 ] ; const int count1 = temporal_predictor_count [ i ] [ 1 ] ; t_nopred_prob [ i ] = get_binary_prob ( count0 , count1 ) ; t_pred_cost += count0 * vp9_cost_zero ( t_nopred_prob [ i ] ) + count1 * vp9_cost_one ( t_nopred_prob [ i ] ) ; } } if ( t_pred_cost < no_pred_cost ) { seg -> temporal_update = 1 ; vpx_memcpy ( seg -> tree_probs , t_pred_tree , sizeof ( t_pred_tree ) ) ; vpx_memcpy ( seg -> pred_probs , t_nopred_prob , sizeof ( t_nopred_prob ) ) ; } else { seg -> temporal_update = 0 ; vpx_memcpy ( seg -> tree_probs , no_pred_tree , sizeof ( no_pred_tree ) ) ; } }","void vp9_choose_segmap_coding_method ( VP9_COMMON * cm , MACROBLOCKD * xd ) { struct segmentation * seg = & cm -> seg ; int no_pred_cost ; int t_pred_cost = INT_MAX ; int i , tile_col , mi_row , mi_col ; int temporal_predictor_count [ PREDICTION_PROBS ] [ 2 ] = { { 0 } } ; int no_pred_segcounts [ MAX_SEGMENTS ] = { 0 } ; int t_unpred_seg_counts [ MAX_SEGMENTS ] = { 0 } ; vpx_prob no_pred_tree [ SEG_TREE_PROBS ] ; vpx_prob t_pred_tree [ SEG_TREE_PROBS ] ; vpx_prob t_nopred_prob [ PREDICTION_PROBS ] ; memset ( seg -> tree_probs , 255 , sizeof ( seg -> tree_probs ) ) ; memset ( seg -> pred_probs , 255 , sizeof ( seg -> pred_probs ) ) ; for ( tile_col = 0 ; tile_col < 1 << cm -> log2_tile_cols ; tile_col ++ ) { TileInfo tile ; MODE_INFO * * mi_ptr ; vp9_tile_init ( & tile , cm , 0 , tile_col ) ; mi_ptr = cm -> mi_grid_visible + tile . mi_col_start ; for ( mi_row = 0 ; mi_row < cm -> mi_rows ; mi_row += 8 , mi_ptr += 8 * cm -> mi_stride ) { MODE_INFO * * mi = mi_ptr ; for ( mi_col = tile . mi_col_start ; mi_col < tile . mi_col_end ; mi_col += 8 , mi += 8 ) count_segs_sb ( cm , xd , & tile , mi , no_pred_segcounts , temporal_predictor_count , t_unpred_seg_counts , mi_row , mi_col , BLOCK_64X64 ) ; } } calc_segtree_probs ( no_pred_segcounts , no_pred_tree ) ; no_pred_cost = cost_segmap ( no_pred_segcounts , no_pred_tree ) ; if ( ! frame_is_intra_only ( cm ) ) { calc_segtree_probs ( t_unpred_seg_counts , t_pred_tree ) ; t_pred_cost = cost_segmap ( t_unpred_seg_counts , t_pred_tree ) ; for ( i = 0 ; i < PREDICTION_PROBS ; i ++ ) { const int count0 = temporal_predictor_count [ i ] [ 0 ] ; const int count1 = temporal_predictor_count [ i ] [ 1 ] ; t_nopred_prob [ i ] = get_binary_prob ( count0 , count1 ) ; t_pred_cost += count0 * vp9_cost_zero ( t_nopred_prob [ i ] ) + count1 * vp9_cost_one ( t_nopred_prob [ i ] ) ; } } if ( t_pred_cost < no_pred_cost ) { seg -> temporal_update = 1 ; memcpy ( seg -> tree_probs , t_pred_tree , sizeof ( t_pred_tree ) ) ; memcpy ( seg -> pred_probs , t_nopred_prob , sizeof ( t_nopred_prob ) ) ; } else { seg -> temporal_update = 0 ; memcpy ( seg -> tree_probs , no_pred_tree , sizeof ( no_pred_tree ) ) ; } }" 1029,"CWE-119 static void y4m_convert_mono_420jpeg ( y4m_input * _y4m , unsigned char * _dst , unsigned char * _aux ) { int c_sz ; _dst += _y4m -> pic_w * _y4m -> pic_h ; c_sz = ( ( _y4m -> pic_w + _y4m -> dst_c_dec_h - 1 ) / _y4m -> dst_c_dec_h ) * ( ( _y4m -> pic_h + _y4m -> dst_c_dec_v - 1 ) / _y4m -> dst_c_dec_v ) ; memset ( _dst , 128 , c_sz * 2 ) ; }","static void y4m_convert_mono_420jpeg ( y4m_input * _y4m , unsigned char * _dst , unsigned char * _aux ) { int c_sz ; ( void ) _aux ; _dst += _y4m -> pic_w * _y4m -> pic_h ; c_sz = ( ( _y4m -> pic_w + _y4m -> dst_c_dec_h - 1 ) / _y4m -> dst_c_dec_h ) * ( ( _y4m -> pic_h + _y4m -> dst_c_dec_v - 1 ) / _y4m -> dst_c_dec_v ) ; memset ( _dst , 128 , c_sz * 2 ) ; }" 1030,"CWE-119 int64_t vp9_rd_pick_inter_mode_sub8x8 ( VP9_COMP * cpi , MACROBLOCK * x , const TileInfo * const tile , int mi_row , int mi_col , int * returnrate , int64_t * returndistortion , BLOCK_SIZE bsize , PICK_MODE_CONTEXT * ctx , int64_t best_rd_so_far ) { VP9_COMMON * cm = & cpi -> common ; MACROBLOCKD * xd = & x -> e_mbd ; MB_MODE_INFO * mbmi = & xd -> mi [ 0 ] -> mbmi ; const struct segmentation * seg = & cm -> seg ; MV_REFERENCE_FRAME ref_frame , second_ref_frame ; unsigned char segment_id = mbmi -> segment_id ; int comp_pred , i ; int_mv frame_mv [ MB_MODE_COUNT ] [ MAX_REF_FRAMES ] ; struct buf_2d yv12_mb [ 4 ] [ MAX_MB_PLANE ] ; static const int flag_list [ 4 ] = { 0 , VP9_LAST_FLAG , VP9_GOLD_FLAG , VP9_ALT_FLAG } ; int64_t best_rd = best_rd_so_far ; int64_t best_yrd = best_rd_so_far ; int64_t best_tx_rd [ TX_MODES ] ; int64_t best_tx_diff [ TX_MODES ] ; int64_t best_pred_diff [ REFERENCE_MODES ] ; int64_t best_pred_rd [ REFERENCE_MODES ] ; int64_t best_filter_rd [ SWITCHABLE_FILTER_CONTEXTS ] ; int64_t best_filter_diff [ SWITCHABLE_FILTER_CONTEXTS ] ; MB_MODE_INFO best_mbmode = { 0 } ; int mode_index , best_mode_index = 0 ; unsigned int ref_costs_single [ MAX_REF_FRAMES ] , ref_costs_comp [ MAX_REF_FRAMES ] ; vp9_prob comp_mode_p ; int64_t best_inter_rd = INT64_MAX ; MV_REFERENCE_FRAME best_inter_ref_frame = LAST_FRAME ; INTERP_FILTER tmp_best_filter = SWITCHABLE ; int rate_uv_intra [ TX_SIZES ] , rate_uv_tokenonly [ TX_SIZES ] ; int64_t dist_uv [ TX_SIZES ] ; int skip_uv [ TX_SIZES ] ; MB_PREDICTION_MODE mode_uv [ TX_SIZES ] = { 0 } ; int intra_cost_penalty = 20 * vp9_dc_quant ( cm -> base_qindex , cm -> y_dc_delta_q ) ; int_mv seg_mvs [ 4 ] [ MAX_REF_FRAMES ] ; b_mode_info best_bmodes [ 4 ] ; int best_skip2 = 0 ; int ref_frame_mask = 0 ; int mode_skip_mask = 0 ; x -> skip_encode = cpi -> sf . skip_encode_frame && x -> q_index < QIDX_SKIP_THRESH ; vpx_memset ( x -> zcoeff_blk [ TX_4X4 ] , 0 , 4 ) ; for ( i = 0 ; i < 4 ; i ++ ) { int j ; for ( j = 0 ; j < MAX_REF_FRAMES ; j ++ ) seg_mvs [ i ] [ j ] . as_int = INVALID_MV ; } estimate_ref_frame_costs ( cpi , segment_id , ref_costs_single , ref_costs_comp , & comp_mode_p ) ; for ( i = 0 ; i < REFERENCE_MODES ; ++ i ) best_pred_rd [ i ] = INT64_MAX ; for ( i = 0 ; i < TX_MODES ; i ++ ) best_tx_rd [ i ] = INT64_MAX ; for ( i = 0 ; i < SWITCHABLE_FILTER_CONTEXTS ; i ++ ) best_filter_rd [ i ] = INT64_MAX ; for ( i = 0 ; i < TX_SIZES ; i ++ ) rate_uv_intra [ i ] = INT_MAX ; * returnrate = INT_MAX ; for ( ref_frame = LAST_FRAME ; ref_frame <= ALTREF_FRAME ; ref_frame ++ ) { if ( cpi -> ref_frame_flags & flag_list [ ref_frame ] ) { vp9_setup_buffer_inter ( cpi , x , tile , ref_frame , bsize , mi_row , mi_col , frame_mv [ NEARESTMV ] , frame_mv [ NEARMV ] , yv12_mb ) ; } frame_mv [ NEWMV ] [ ref_frame ] . as_int = INVALID_MV ; frame_mv [ ZEROMV ] [ ref_frame ] . as_int = 0 ; } for ( ref_frame = LAST_FRAME ; ref_frame <= ALTREF_FRAME && cpi -> sf . reference_masking ; ++ ref_frame ) { int i ; for ( i = LAST_FRAME ; i <= ALTREF_FRAME ; ++ i ) { if ( ( x -> pred_mv_sad [ ref_frame ] >> 1 ) > x -> pred_mv_sad [ i ] ) { ref_frame_mask |= ( 1 << ref_frame ) ; break ; } } } for ( mode_index = 0 ; mode_index < MAX_REFS ; ++ mode_index ) { int mode_excluded = 0 ; int64_t this_rd = INT64_MAX ; int disable_skip = 0 ; int compmode_cost = 0 ; int rate2 = 0 , rate_y = 0 , rate_uv = 0 ; int64_t distortion2 = 0 , distortion_y = 0 , distortion_uv = 0 ; int skippable = 0 ; int64_t tx_cache [ TX_MODES ] ; int i ; int this_skip2 = 0 ; int64_t total_sse = INT_MAX ; int early_term = 0 ; for ( i = 0 ; i < TX_MODES ; ++ i ) tx_cache [ i ] = INT64_MAX ; x -> skip = 0 ; ref_frame = vp9_ref_order [ mode_index ] . ref_frame [ 0 ] ; second_ref_frame = vp9_ref_order [ mode_index ] . ref_frame [ 1 ] ; if ( mode_index > 2 && cpi -> sf . mode_skip_start < MAX_MODES ) { if ( mode_index == 3 ) { switch ( vp9_ref_order [ best_mode_index ] . ref_frame [ 0 ] ) { case INTRA_FRAME : mode_skip_mask = 0 ; break ; case LAST_FRAME : mode_skip_mask = 0x0010 ; break ; case GOLDEN_FRAME : mode_skip_mask = 0x0008 ; break ; case ALTREF_FRAME : mode_skip_mask = 0x0000 ; break ; case NONE : case MAX_REF_FRAMES : assert ( 0 && ""Invalid Reference frame"" ) ; } } if ( mode_skip_mask & ( 1 << mode_index ) ) continue ; } if ( ( best_rd < ( ( int64_t ) cpi -> rd_thresh_sub8x8 [ segment_id ] [ bsize ] [ mode_index ] * cpi -> rd_thresh_freq_sub8x8 [ bsize ] [ mode_index ] >> 5 ) ) || cpi -> rd_thresh_sub8x8 [ segment_id ] [ bsize ] [ mode_index ] == INT_MAX ) continue ; if ( ( second_ref_frame > INTRA_FRAME ) && vp9_segfeature_active ( seg , segment_id , SEG_LVL_REF_FRAME ) ) continue ; mbmi -> ref_frame [ 0 ] = ref_frame ; mbmi -> ref_frame [ 1 ] = second_ref_frame ; if ( ! ( ref_frame == INTRA_FRAME || ( cpi -> ref_frame_flags & flag_list [ ref_frame ] ) ) ) { continue ; } if ( ! ( second_ref_frame == NONE || ( cpi -> ref_frame_flags & flag_list [ second_ref_frame ] ) ) ) { continue ; } comp_pred = second_ref_frame > INTRA_FRAME ; if ( comp_pred ) { if ( cpi -> sf . mode_search_skip_flags & FLAG_SKIP_COMP_BESTINTRA ) if ( vp9_ref_order [ best_mode_index ] . ref_frame [ 0 ] == INTRA_FRAME ) continue ; if ( cpi -> sf . mode_search_skip_flags & FLAG_SKIP_COMP_REFMISMATCH ) if ( ref_frame != best_inter_ref_frame && second_ref_frame != best_inter_ref_frame ) continue ; } if ( ref_frame > 0 && vp9_is_scaled ( & cm -> frame_refs [ ref_frame - 1 ] . sf ) ) continue ; if ( second_ref_frame > 0 && vp9_is_scaled ( & cm -> frame_refs [ second_ref_frame - 1 ] . sf ) ) continue ; set_ref_ptrs ( cm , xd , ref_frame , second_ref_frame ) ; mbmi -> uv_mode = DC_PRED ; mbmi -> interp_filter = cm -> interp_filter == SWITCHABLE ? EIGHTTAP : cm -> interp_filter ; if ( comp_pred ) { if ( ! ( cpi -> ref_frame_flags & flag_list [ second_ref_frame ] ) ) continue ; mode_excluded = mode_excluded ? mode_excluded : cm -> reference_mode == SINGLE_REFERENCE ; } else { if ( ref_frame != INTRA_FRAME && second_ref_frame != INTRA_FRAME ) { mode_excluded = mode_excluded ? mode_excluded : cm -> reference_mode == COMPOUND_REFERENCE ; } } for ( i = 0 ; i < MAX_MB_PLANE ; i ++ ) { xd -> plane [ i ] . pre [ 0 ] = yv12_mb [ ref_frame ] [ i ] ; if ( comp_pred ) xd -> plane [ i ] . pre [ 1 ] = yv12_mb [ second_ref_frame ] [ i ] ; } if ( vp9_segfeature_active ( seg , segment_id , SEG_LVL_REF_FRAME ) && vp9_get_segdata ( seg , segment_id , SEG_LVL_REF_FRAME ) != ( int ) ref_frame ) { continue ; } else if ( vp9_segfeature_active ( seg , segment_id , SEG_LVL_SKIP ) && ref_frame != INTRA_FRAME ) { continue ; } else if ( ! vp9_segfeature_active ( seg , segment_id , SEG_LVL_REF_FRAME ) ) { if ( cpi -> rc . is_src_frame_alt_ref && ( cpi -> oxcf . arnr_max_frames == 0 ) ) continue ; } # ifdef MODE_TEST_HIT_STATS cpi -> mode_test_hits [ bsize ] ++ ; # endif if ( ref_frame == INTRA_FRAME ) { int rate ; mbmi -> tx_size = TX_4X4 ; if ( rd_pick_intra_sub_8x8_y_mode ( cpi , x , & rate , & rate_y , & distortion_y , best_rd ) >= best_rd ) continue ; rate2 += rate ; rate2 += intra_cost_penalty ; distortion2 += distortion_y ; if ( rate_uv_intra [ TX_4X4 ] == INT_MAX ) { choose_intra_uv_mode ( cpi , ctx , bsize , TX_4X4 , & rate_uv_intra [ TX_4X4 ] , & rate_uv_tokenonly [ TX_4X4 ] , & dist_uv [ TX_4X4 ] , & skip_uv [ TX_4X4 ] , & mode_uv [ TX_4X4 ] ) ; } rate2 += rate_uv_intra [ TX_4X4 ] ; rate_uv = rate_uv_tokenonly [ TX_4X4 ] ; distortion2 += dist_uv [ TX_4X4 ] ; distortion_uv = dist_uv [ TX_4X4 ] ; mbmi -> uv_mode = mode_uv [ TX_4X4 ] ; tx_cache [ ONLY_4X4 ] = RDCOST ( x -> rdmult , x -> rddiv , rate2 , distortion2 ) ; for ( i = 0 ; i < TX_MODES ; ++ i ) tx_cache [ i ] = tx_cache [ ONLY_4X4 ] ; } else { int rate ; int64_t distortion ; int64_t this_rd_thresh ; int64_t tmp_rd , tmp_best_rd = INT64_MAX , tmp_best_rdu = INT64_MAX ; int tmp_best_rate = INT_MAX , tmp_best_ratey = INT_MAX ; int64_t tmp_best_distortion = INT_MAX , tmp_best_sse , uv_sse ; int tmp_best_skippable = 0 ; int switchable_filter_index ; int_mv * second_ref = comp_pred ? & mbmi -> ref_mvs [ second_ref_frame ] [ 0 ] : NULL ; b_mode_info tmp_best_bmodes [ 16 ] ; MB_MODE_INFO tmp_best_mbmode ; BEST_SEG_INFO bsi [ SWITCHABLE_FILTERS ] ; int pred_exists = 0 ; int uv_skippable ; this_rd_thresh = ( ref_frame == LAST_FRAME ) ? cpi -> rd_thresh_sub8x8 [ segment_id ] [ bsize ] [ THR_LAST ] : cpi -> rd_thresh_sub8x8 [ segment_id ] [ bsize ] [ THR_ALTR ] ; this_rd_thresh = ( ref_frame == GOLDEN_FRAME ) ? cpi -> rd_thresh_sub8x8 [ segment_id ] [ bsize ] [ THR_GOLD ] : this_rd_thresh ; xd -> mi [ 0 ] -> mbmi . tx_size = TX_4X4 ; cpi -> mask_filter_rd = 0 ; for ( i = 0 ; i < SWITCHABLE_FILTER_CONTEXTS ; ++ i ) cpi -> rd_filter_cache [ i ] = INT64_MAX ; if ( cm -> interp_filter != BILINEAR ) { tmp_best_filter = EIGHTTAP ; if ( x -> source_variance < cpi -> sf . disable_filter_search_var_thresh ) { tmp_best_filter = EIGHTTAP ; } else if ( cpi -> sf . adaptive_pred_interp_filter == 1 && ctx -> pred_interp_filter < SWITCHABLE ) { tmp_best_filter = ctx -> pred_interp_filter ; } else if ( cpi -> sf . adaptive_pred_interp_filter == 2 ) { tmp_best_filter = ctx -> pred_interp_filter < SWITCHABLE ? ctx -> pred_interp_filter : 0 ; } else { for ( switchable_filter_index = 0 ; switchable_filter_index < SWITCHABLE_FILTERS ; int newbest , rs ; int64_t rs_rd ; mbmi -> interp_filter = switchable_filter_index ; tmp_rd = rd_pick_best_mbsegmentation ( cpi , x , tile , & mbmi -> ref_mvs [ ref_frame ] [ 0 ] , second_ref , best_yrd , & rate , & rate_y , & distortion , & skippable , & total_sse , ( int ) this_rd_thresh , seg_mvs , bsi , switchable_filter_index , mi_row , mi_col ) ; if ( tmp_rd == INT64_MAX ) continue ; rs = vp9_get_switchable_rate ( x ) ; rs_rd = RDCOST ( x -> rdmult , x -> rddiv , rs , 0 ) ; cpi -> rd_filter_cache [ switchable_filter_index ] = tmp_rd ; cpi -> rd_filter_cache [ SWITCHABLE_FILTERS ] = MIN ( cpi -> rd_filter_cache [ SWITCHABLE_FILTERS ] , tmp_rd + rs_rd ) ; if ( cm -> interp_filter == SWITCHABLE ) tmp_rd += rs_rd ; cpi -> mask_filter_rd = MAX ( cpi -> mask_filter_rd , tmp_rd ) ; newbest = ( tmp_rd < tmp_best_rd ) ; if ( newbest ) { tmp_best_filter = mbmi -> interp_filter ; tmp_best_rd = tmp_rd ; } if ( ( newbest && cm -> interp_filter == SWITCHABLE ) || ( mbmi -> interp_filter == cm -> interp_filter && cm -> interp_filter != SWITCHABLE ) ) { tmp_best_rdu = tmp_rd ; tmp_best_rate = rate ; tmp_best_ratey = rate_y ; tmp_best_distortion = distortion ; tmp_best_sse = total_sse ; tmp_best_skippable = skippable ; tmp_best_mbmode = * mbmi ; for ( i = 0 ; i < 4 ; i ++ ) { tmp_best_bmodes [ i ] = xd -> mi [ 0 ] -> bmi [ i ] ; x -> zcoeff_blk [ TX_4X4 ] [ i ] = ! x -> plane [ 0 ] . eobs [ i ] ; } pred_exists = 1 ; if ( switchable_filter_index == 0 && cpi -> sf . use_rd_breakout && best_rd < INT64_MAX ) { if ( tmp_best_rdu / 2 > best_rd ) { tmp_best_filter = mbmi -> interp_filter ; tmp_best_rdu = INT64_MAX ; break ; } } } } } } if ( tmp_best_rdu == INT64_MAX && pred_exists ) continue ; mbmi -> interp_filter = ( cm -> interp_filter == SWITCHABLE ? tmp_best_filter : cm -> interp_filter ) ; if ( ! pred_exists ) { tmp_rd = rd_pick_best_mbsegmentation ( cpi , x , tile , & mbmi -> ref_mvs [ ref_frame ] [ 0 ] , second_ref , best_yrd , & rate , & rate_y , & distortion , & skippable , & total_sse , ( int ) this_rd_thresh , seg_mvs , bsi , 0 , mi_row , mi_col ) ; if ( tmp_rd == INT64_MAX ) continue ; } else { total_sse = tmp_best_sse ; rate = tmp_best_rate ; rate_y = tmp_best_ratey ; distortion = tmp_best_distortion ; skippable = tmp_best_skippable ; * mbmi = tmp_best_mbmode ; for ( i = 0 ; i < 4 ; i ++ ) xd -> mi [ 0 ] -> bmi [ i ] = tmp_best_bmodes [ i ] ; } rate2 += rate ; distortion2 += distortion ; if ( cm -> interp_filter == SWITCHABLE ) rate2 += vp9_get_switchable_rate ( x ) ; if ( ! mode_excluded ) mode_excluded = comp_pred ? cm -> reference_mode == SINGLE_REFERENCE : cm -> reference_mode == COMPOUND_REFERENCE ; compmode_cost = vp9_cost_bit ( comp_mode_p , comp_pred ) ; tmp_best_rdu = best_rd - MIN ( RDCOST ( x -> rdmult , x -> rddiv , rate2 , distortion2 ) , RDCOST ( x -> rdmult , x -> rddiv , 0 , total_sse ) ) ; if ( tmp_best_rdu > 0 ) { vp9_build_inter_predictors_sbuv ( & x -> e_mbd , mi_row , mi_col , BLOCK_8X8 ) ; super_block_uvrd ( cpi , x , & rate_uv , & distortion_uv , & uv_skippable , & uv_sse , BLOCK_8X8 , tmp_best_rdu ) ; if ( rate_uv == INT_MAX ) continue ; rate2 += rate_uv ; distortion2 += distortion_uv ; skippable = skippable && uv_skippable ; total_sse += uv_sse ; tx_cache [ ONLY_4X4 ] = RDCOST ( x -> rdmult , x -> rddiv , rate2 , distortion2 ) ; for ( i = 0 ; i < TX_MODES ; ++ i ) tx_cache [ i ] = tx_cache [ ONLY_4X4 ] ; } } if ( cm -> reference_mode == REFERENCE_MODE_SELECT ) rate2 += compmode_cost ; if ( second_ref_frame > INTRA_FRAME ) { rate2 += ref_costs_comp [ ref_frame ] ; } else { rate2 += ref_costs_single [ ref_frame ] ; } if ( ! disable_skip ) { const int mb_skip_allowed = ! vp9_segfeature_active ( seg , segment_id , SEG_LVL_SKIP ) ; if ( mb_skip_allowed && ref_frame != INTRA_FRAME && ! xd -> lossless ) { if ( RDCOST ( x -> rdmult , x -> rddiv , rate_y + rate_uv , distortion2 ) < RDCOST ( x -> rdmult , x -> rddiv , 0 , total_sse ) ) { rate2 += vp9_cost_bit ( vp9_get_skip_prob ( cm , xd ) , 0 ) ; } else { rate2 += vp9_cost_bit ( vp9_get_skip_prob ( cm , xd ) , 1 ) ; distortion2 = total_sse ; assert ( total_sse >= 0 ) ; rate2 -= ( rate_y + rate_uv ) ; rate_y = 0 ; rate_uv = 0 ; this_skip2 = 1 ; } } else if ( mb_skip_allowed ) { rate2 += vp9_cost_bit ( vp9_get_skip_prob ( cm , xd ) , 0 ) ; } this_rd = RDCOST ( x -> rdmult , x -> rddiv , rate2 , distortion2 ) ; } if ( is_inter_block ( & xd -> mi [ 0 ] -> mbmi ) && ! has_second_ref ( & xd -> mi [ 0 ] -> mbmi ) && ! mode_excluded && this_rd < best_inter_rd ) { best_inter_rd = this_rd ; best_inter_ref_frame = ref_frame ; } if ( ! disable_skip && ref_frame == INTRA_FRAME ) { for ( i = 0 ; i < REFERENCE_MODES ; ++ i ) best_pred_rd [ i ] = MIN ( best_pred_rd [ i ] , this_rd ) ; for ( i = 0 ; i < SWITCHABLE_FILTER_CONTEXTS ; i ++ ) best_filter_rd [ i ] = MIN ( best_filter_rd [ i ] , this_rd ) ; } if ( this_rd < best_rd || x -> skip ) { if ( ! mode_excluded ) { int max_plane = MAX_MB_PLANE ; best_mode_index = mode_index ; if ( ref_frame == INTRA_FRAME ) { mbmi -> mv [ 0 ] . as_int = 0 ; max_plane = 1 ; } * returnrate = rate2 ; * returndistortion = distortion2 ; best_rd = this_rd ; best_yrd = best_rd - RDCOST ( x -> rdmult , x -> rddiv , rate_uv , distortion_uv ) ; best_mbmode = * mbmi ; best_skip2 = this_skip2 ; if ( ! x -> select_txfm_size ) swap_block_ptr ( x , ctx , max_plane ) ; vpx_memcpy ( ctx -> zcoeff_blk , x -> zcoeff_blk [ mbmi -> tx_size ] , sizeof ( uint8_t ) * ctx -> num_4x4_blk ) ; for ( i = 0 ; i < 4 ; i ++ ) best_bmodes [ i ] = xd -> mi [ 0 ] -> bmi [ i ] ; if ( ( cpi -> sf . mode_search_skip_flags & FLAG_EARLY_TERMINATE ) && ( mode_index > MIN_EARLY_TERM_INDEX ) ) { const int qstep = xd -> plane [ 0 ] . dequant [ 1 ] ; int scale = 4 ; if ( x -> source_variance < UINT_MAX ) { const int var_adjust = ( x -> source_variance < 16 ) ; scale -= var_adjust ; } if ( ref_frame > INTRA_FRAME && distortion2 * scale < qstep * qstep ) { early_term = 1 ; } } } } if ( ! disable_skip && ref_frame != INTRA_FRAME ) { int64_t single_rd , hybrid_rd , single_rate , hybrid_rate ; if ( cm -> reference_mode == REFERENCE_MODE_SELECT ) { single_rate = rate2 - compmode_cost ; hybrid_rate = rate2 ; } else { single_rate = rate2 ; hybrid_rate = rate2 + compmode_cost ; } single_rd = RDCOST ( x -> rdmult , x -> rddiv , single_rate , distortion2 ) ; hybrid_rd = RDCOST ( x -> rdmult , x -> rddiv , hybrid_rate , distortion2 ) ; if ( second_ref_frame <= INTRA_FRAME && single_rd < best_pred_rd [ SINGLE_REFERENCE ] ) { best_pred_rd [ SINGLE_REFERENCE ] = single_rd ; } else if ( second_ref_frame > INTRA_FRAME && single_rd < best_pred_rd [ COMPOUND_REFERENCE ] ) { best_pred_rd [ COMPOUND_REFERENCE ] = single_rd ; } if ( hybrid_rd < best_pred_rd [ REFERENCE_MODE_SELECT ] ) best_pred_rd [ REFERENCE_MODE_SELECT ] = hybrid_rd ; } if ( ! mode_excluded && ! disable_skip && ref_frame != INTRA_FRAME && cm -> interp_filter != BILINEAR ) { int64_t ref = cpi -> rd_filter_cache [ cm -> interp_filter == SWITCHABLE ? SWITCHABLE_FILTERS : cm -> interp_filter ] ; int64_t adj_rd ; for ( i = 0 ; i < SWITCHABLE_FILTER_CONTEXTS ; i ++ ) { if ( ref == INT64_MAX ) adj_rd = 0 ; else if ( cpi -> rd_filter_cache [ i ] == INT64_MAX ) adj_rd = cpi -> mask_filter_rd - ref + 10 ; else adj_rd = cpi -> rd_filter_cache [ i ] - ref ; adj_rd += this_rd ; best_filter_rd [ i ] = MIN ( best_filter_rd [ i ] , adj_rd ) ; } } if ( bsize < BLOCK_32X32 ) { if ( bsize < BLOCK_16X16 ) { tx_cache [ ALLOW_8X8 ] = tx_cache [ ONLY_4X4 ] ; tx_cache [ ALLOW_16X16 ] = tx_cache [ ALLOW_8X8 ] ; } tx_cache [ ALLOW_32X32 ] = tx_cache [ ALLOW_16X16 ] ; } if ( ! mode_excluded && this_rd != INT64_MAX ) { for ( i = 0 ; i < TX_MODES && tx_cache [ i ] < INT64_MAX ; i ++ ) { int64_t adj_rd = INT64_MAX ; if ( ref_frame > INTRA_FRAME ) adj_rd = this_rd + tx_cache [ i ] - tx_cache [ cm -> tx_mode ] ; else adj_rd = this_rd ; if ( adj_rd < best_tx_rd [ i ] ) best_tx_rd [ i ] = adj_rd ; } } if ( early_term ) break ; if ( x -> skip && ! comp_pred ) break ; } if ( best_rd >= best_rd_so_far ) return INT64_MAX ; if ( cpi -> sf . use_uv_intra_rd_estimate ) { if ( vp9_ref_order [ best_mode_index ] . ref_frame [ 0 ] == INTRA_FRAME ) { TX_SIZE uv_tx_size ; * mbmi = best_mbmode ; uv_tx_size = get_uv_tx_size ( mbmi ) ; rd_pick_intra_sbuv_mode ( cpi , x , ctx , & rate_uv_intra [ uv_tx_size ] , & rate_uv_tokenonly [ uv_tx_size ] , & dist_uv [ uv_tx_size ] , & skip_uv [ uv_tx_size ] , BLOCK_8X8 , uv_tx_size ) ; } } if ( best_rd == INT64_MAX && bsize < BLOCK_8X8 ) { * returnrate = INT_MAX ; * returndistortion = INT64_MAX ; return best_rd ; } assert ( ( cm -> interp_filter == SWITCHABLE ) || ( cm -> interp_filter == best_mbmode . interp_filter ) || ! is_inter_block ( & best_mbmode ) ) ; if ( cpi -> sf . adaptive_rd_thresh ) { for ( mode_index = 0 ; mode_index < MAX_REFS ; ++ mode_index ) { int * const fact = & cpi -> rd_thresh_freq_sub8x8 [ bsize ] [ mode_index ] ; if ( mode_index == best_mode_index ) { * fact -= ( * fact >> 3 ) ; } else { * fact = MIN ( * fact + RD_THRESH_INC , cpi -> sf . adaptive_rd_thresh * RD_THRESH_MAX_FACT ) ; } } } * mbmi = best_mbmode ; x -> skip |= best_skip2 ; if ( ! is_inter_block ( & best_mbmode ) ) { for ( i = 0 ; i < 4 ; i ++ ) xd -> mi [ 0 ] -> bmi [ i ] . as_mode = best_bmodes [ i ] . as_mode ; } else { for ( i = 0 ; i < 4 ; ++ i ) vpx_memcpy ( & xd -> mi [ 0 ] -> bmi [ i ] , & best_bmodes [ i ] , sizeof ( b_mode_info ) ) ; mbmi -> mv [ 0 ] . as_int = xd -> mi [ 0 ] -> bmi [ 3 ] . as_mv [ 0 ] . as_int ; mbmi -> mv [ 1 ] . as_int = xd -> mi [ 0 ] -> bmi [ 3 ] . as_mv [ 1 ] . as_int ; } for ( i = 0 ; i < REFERENCE_MODES ; ++ i ) { if ( best_pred_rd [ i ] == INT64_MAX ) best_pred_diff [ i ] = INT_MIN ; else best_pred_diff [ i ] = best_rd - best_pred_rd [ i ] ; } if ( ! x -> skip ) { for ( i = 0 ; i < SWITCHABLE_FILTER_CONTEXTS ; i ++ ) { if ( best_filter_rd [ i ] == INT64_MAX ) best_filter_diff [ i ] = 0 ; else best_filter_diff [ i ] = best_rd - best_filter_rd [ i ] ; } if ( cm -> interp_filter == SWITCHABLE ) assert ( best_filter_diff [ SWITCHABLE_FILTERS ] == 0 ) ; } else { vp9_zero ( best_filter_diff ) ; } if ( ! x -> skip ) { for ( i = 0 ; i < TX_MODES ; i ++ ) { if ( best_tx_rd [ i ] == INT64_MAX ) best_tx_diff [ i ] = 0 ; else best_tx_diff [ i ] = best_rd - best_tx_rd [ i ] ; } } else { vp9_zero ( best_tx_diff ) ; } set_ref_ptrs ( cm , xd , mbmi -> ref_frame [ 0 ] , mbmi -> ref_frame [ 1 ] ) ; store_coding_context ( x , ctx , best_mode_index , & mbmi -> ref_mvs [ mbmi -> ref_frame [ 0 ] ] [ 0 ] , & mbmi -> ref_mvs [ mbmi -> ref_frame [ 1 ] < 0 ? 0 : mbmi -> ref_frame [ 1 ] ] [ 0 ] , best_pred_diff , best_tx_diff , best_filter_diff ) ; return best_rd ; }","void vp9_rd_pick_inter_mode_sub8x8 ( VP9_COMP * cpi , TileDataEnc * tile_data , MACROBLOCK * x , int mi_row , int mi_col , RD_COST * rd_cost , BLOCK_SIZE bsize , PICK_MODE_CONTEXT * ctx , int64_t best_rd_so_far ) { VP9_COMMON * const cm = & cpi -> common ; RD_OPT * const rd_opt = & cpi -> rd ; SPEED_FEATURES * const sf = & cpi -> sf ; MACROBLOCKD * const xd = & x -> e_mbd ; MB_MODE_INFO * const mbmi = & xd -> mi [ 0 ] -> mbmi ; const struct segmentation * const seg = & cm -> seg ; MV_REFERENCE_FRAME ref_frame , second_ref_frame ; unsigned char segment_id = mbmi -> segment_id ; int comp_pred , i ; int_mv frame_mv [ MB_MODE_COUNT ] [ MAX_REF_FRAMES ] ; struct buf_2d yv12_mb [ 4 ] [ MAX_MB_PLANE ] ; static const int flag_list [ 4 ] = { 0 , VP9_LAST_FLAG , VP9_GOLD_FLAG , VP9_ALT_FLAG } ; int64_t best_rd = best_rd_so_far ; int64_t best_yrd = best_rd_so_far ; int64_t best_pred_diff [ REFERENCE_MODES ] ; int64_t best_pred_rd [ REFERENCE_MODES ] ; int64_t best_filter_rd [ SWITCHABLE_FILTER_CONTEXTS ] ; int64_t best_filter_diff [ SWITCHABLE_FILTER_CONTEXTS ] ; MB_MODE_INFO best_mbmode ; int ref_index , best_ref_index = 0 ; unsigned int ref_costs_single [ MAX_REF_FRAMES ] , ref_costs_comp [ MAX_REF_FRAMES ] ; vpx_prob comp_mode_p ; INTERP_FILTER tmp_best_filter = SWITCHABLE ; int rate_uv_intra , rate_uv_tokenonly ; int64_t dist_uv ; int skip_uv ; PREDICTION_MODE mode_uv = DC_PRED ; const int intra_cost_penalty = vp9_get_intra_cost_penalty ( cm -> base_qindex , cm -> y_dc_delta_q , cm -> bit_depth ) ; int_mv seg_mvs [ 4 ] [ MAX_REF_FRAMES ] ; b_mode_info best_bmodes [ 4 ] ; int best_skip2 = 0 ; int ref_frame_skip_mask [ 2 ] = { 0 } ; int64_t mask_filter = 0 ; int64_t filter_cache [ SWITCHABLE_FILTER_CONTEXTS ] ; int internal_active_edge = vp9_active_edge_sb ( cpi , mi_row , mi_col ) && vp9_internal_image_edge ( cpi ) ; x -> skip_encode = sf -> skip_encode_frame && x -> q_index < QIDX_SKIP_THRESH ; memset ( x -> zcoeff_blk [ TX_4X4 ] , 0 , 4 ) ; vp9_zero ( best_mbmode ) ; for ( i = 0 ; i < SWITCHABLE_FILTER_CONTEXTS ; ++ i ) filter_cache [ i ] = INT64_MAX ; for ( i = 0 ; i < 4 ; i ++ ) { int j ; for ( j = 0 ; j < MAX_REF_FRAMES ; j ++ ) seg_mvs [ i ] [ j ] . as_int = INVALID_MV ; } estimate_ref_frame_costs ( cm , xd , segment_id , ref_costs_single , ref_costs_comp , & comp_mode_p ) ; for ( i = 0 ; i < REFERENCE_MODES ; ++ i ) best_pred_rd [ i ] = INT64_MAX ; for ( i = 0 ; i < SWITCHABLE_FILTER_CONTEXTS ; i ++ ) best_filter_rd [ i ] = INT64_MAX ; rate_uv_intra = INT_MAX ; rd_cost -> rate = INT_MAX ; for ( ref_frame = LAST_FRAME ; ref_frame <= ALTREF_FRAME ; ref_frame ++ ) { if ( cpi -> ref_frame_flags & flag_list [ ref_frame ] ) { setup_buffer_inter ( cpi , x , ref_frame , bsize , mi_row , mi_col , frame_mv [ NEARESTMV ] , frame_mv [ NEARMV ] , yv12_mb ) ; } else { ref_frame_skip_mask [ 0 ] |= ( 1 << ref_frame ) ; ref_frame_skip_mask [ 1 ] |= SECOND_REF_FRAME_MASK ; } frame_mv [ NEWMV ] [ ref_frame ] . as_int = INVALID_MV ; frame_mv [ ZEROMV ] [ ref_frame ] . as_int = 0 ; } for ( ref_index = 0 ; ref_index < MAX_REFS ; ++ ref_index ) { int mode_excluded = 0 ; int64_t this_rd = INT64_MAX ; int disable_skip = 0 ; int compmode_cost = 0 ; int rate2 = 0 , rate_y = 0 , rate_uv = 0 ; int64_t distortion2 = 0 , distortion_y = 0 , distortion_uv = 0 ; int skippable = 0 ; int i ; int this_skip2 = 0 ; int64_t total_sse = INT_MAX ; int early_term = 0 ; ref_frame = vp9_ref_order [ ref_index ] . ref_frame [ 0 ] ; second_ref_frame = vp9_ref_order [ ref_index ] . ref_frame [ 1 ] ; if ( ref_index > 2 && sf -> mode_skip_start < MAX_MODES ) { if ( ref_index == 3 ) { switch ( best_mbmode . ref_frame [ 0 ] ) { case INTRA_FRAME : break ; case LAST_FRAME : ref_frame_skip_mask [ 0 ] |= ( 1 << GOLDEN_FRAME ) | ( 1 << ALTREF_FRAME ) ; ref_frame_skip_mask [ 1 ] |= SECOND_REF_FRAME_MASK ; break ; case GOLDEN_FRAME : ref_frame_skip_mask [ 0 ] |= ( 1 << LAST_FRAME ) | ( 1 << ALTREF_FRAME ) ; ref_frame_skip_mask [ 1 ] |= SECOND_REF_FRAME_MASK ; break ; case ALTREF_FRAME : ref_frame_skip_mask [ 0 ] |= ( 1 << GOLDEN_FRAME ) | ( 1 << LAST_FRAME ) ; break ; case NONE : case MAX_REF_FRAMES : assert ( 0 && ""Invalid Reference frame"" ) ; break ; } } } if ( ( ref_frame_skip_mask [ 0 ] & ( 1 << ref_frame ) ) && ( ref_frame_skip_mask [ 1 ] & ( 1 << MAX ( 0 , second_ref_frame ) ) ) ) continue ; if ( ! internal_active_edge && rd_less_than_thresh ( best_rd , rd_opt -> threshes [ segment_id ] [ bsize ] [ ref_index ] , tile_data -> thresh_freq_fact [ bsize ] [ ref_index ] ) ) continue ; comp_pred = second_ref_frame > INTRA_FRAME ; if ( comp_pred ) { if ( ! cpi -> allow_comp_inter_inter ) continue ; if ( ! ( cpi -> ref_frame_flags & flag_list [ second_ref_frame ] ) ) continue ; if ( segfeature_active ( seg , segment_id , SEG_LVL_REF_FRAME ) ) continue ; if ( ( sf -> mode_search_skip_flags & FLAG_SKIP_COMP_BESTINTRA ) && best_mbmode . ref_frame [ 0 ] == INTRA_FRAME ) continue ; } if ( ref_frame > INTRA_FRAME && vp9_is_scaled ( & cm -> frame_refs [ ref_frame - 1 ] . sf ) ) continue ; if ( second_ref_frame > INTRA_FRAME && vp9_is_scaled ( & cm -> frame_refs [ second_ref_frame - 1 ] . sf ) ) continue ; if ( comp_pred ) mode_excluded = cm -> reference_mode == SINGLE_REFERENCE ; else if ( ref_frame != INTRA_FRAME ) mode_excluded = cm -> reference_mode == COMPOUND_REFERENCE ; if ( segfeature_active ( seg , segment_id , SEG_LVL_REF_FRAME ) && get_segdata ( seg , segment_id , SEG_LVL_REF_FRAME ) != ( int ) ref_frame ) { continue ; } else if ( ! segfeature_active ( seg , segment_id , SEG_LVL_REF_FRAME ) ) { if ( cpi -> rc . is_src_frame_alt_ref && ( cpi -> oxcf . arnr_max_frames == 0 ) ) continue ; } mbmi -> tx_size = TX_4X4 ; mbmi -> uv_mode = DC_PRED ; mbmi -> ref_frame [ 0 ] = ref_frame ; mbmi -> ref_frame [ 1 ] = second_ref_frame ; mbmi -> interp_filter = cm -> interp_filter == SWITCHABLE ? EIGHTTAP : cm -> interp_filter ; x -> skip = 0 ; set_ref_ptrs ( cm , xd , ref_frame , second_ref_frame ) ; for ( i = 0 ; i < MAX_MB_PLANE ; i ++ ) { xd -> plane [ i ] . pre [ 0 ] = yv12_mb [ ref_frame ] [ i ] ; if ( comp_pred ) xd -> plane [ i ] . pre [ 1 ] = yv12_mb [ second_ref_frame ] [ i ] ; } if ( ref_frame == INTRA_FRAME ) { int rate ; if ( rd_pick_intra_sub_8x8_y_mode ( cpi , x , & rate , & rate_y , & distortion_y , best_rd ) >= best_rd ) continue ; rate2 += rate ; rate2 += intra_cost_penalty ; distortion2 += distortion_y ; if ( rate_uv_intra == INT_MAX ) { choose_intra_uv_mode ( cpi , x , ctx , bsize , TX_4X4 , & rate_uv_intra , & rate_uv_tokenonly , & dist_uv , & skip_uv , & mode_uv ) ; } rate2 += rate_uv_intra ; rate_uv = rate_uv_tokenonly ; distortion2 += dist_uv ; distortion_uv = dist_uv ; mbmi -> uv_mode = mode_uv ; } else { int rate ; int64_t distortion ; int64_t this_rd_thresh ; int64_t tmp_rd , tmp_best_rd = INT64_MAX , tmp_best_rdu = INT64_MAX ; int tmp_best_rate = INT_MAX , tmp_best_ratey = INT_MAX ; int64_t tmp_best_distortion = INT_MAX , tmp_best_sse , uv_sse ; int tmp_best_skippable = 0 ; int switchable_filter_index ; int_mv * second_ref = comp_pred ? & x -> mbmi_ext -> ref_mvs [ second_ref_frame ] [ 0 ] : NULL ; b_mode_info tmp_best_bmodes [ 16 ] ; MB_MODE_INFO tmp_best_mbmode ; BEST_SEG_INFO bsi [ SWITCHABLE_FILTERS ] ; int pred_exists = 0 ; int uv_skippable ; this_rd_thresh = ( ref_frame == LAST_FRAME ) ? rd_opt -> threshes [ segment_id ] [ bsize ] [ THR_LAST ] : rd_opt -> threshes [ segment_id ] [ bsize ] [ THR_ALTR ] ; this_rd_thresh = ( ref_frame == GOLDEN_FRAME ) ? rd_opt -> threshes [ segment_id ] [ bsize ] [ THR_GOLD ] : this_rd_thresh ; for ( i = 0 ; i < SWITCHABLE_FILTER_CONTEXTS ; ++ i ) filter_cache [ i ] = INT64_MAX ; if ( cm -> interp_filter != BILINEAR ) { tmp_best_filter = EIGHTTAP ; if ( x -> source_variance < sf -> disable_filter_search_var_thresh ) { tmp_best_filter = EIGHTTAP ; } else if ( sf -> adaptive_pred_interp_filter == 1 && ctx -> pred_interp_filter < SWITCHABLE ) { tmp_best_filter = ctx -> pred_interp_filter ; } else if ( sf -> adaptive_pred_interp_filter == 2 ) { tmp_best_filter = ctx -> pred_interp_filter < SWITCHABLE ? ctx -> pred_interp_filter : 0 ; } else { for ( switchable_filter_index = 0 ; switchable_filter_index < SWITCHABLE_FILTERS ; + switchable_filter_index ) { int newbest , rs ; int64_t rs_rd ; MB_MODE_INFO_EXT * mbmi_ext = x -> mbmi_ext ; mbmi -> interp_filter = switchable_filter_index ; tmp_rd = rd_pick_best_sub8x8_mode ( cpi , x , & mbmi_ext -> ref_mvs [ ref_frame ] [ 0 ] , second_ref , best_yrd , & rate , & rate_y , & distortion , & skippable , & total_sse , ( int ) this_rd_thresh , seg_mvs , bsi , switchable_filter_index , mi_row , mi_col ) ; if ( tmp_rd == INT64_MAX ) continue ; rs = vp9_get_switchable_rate ( cpi , xd ) ; rs_rd = RDCOST ( x -> rdmult , x -> rddiv , rs , 0 ) ; filter_cache [ switchable_filter_index ] = tmp_rd ; filter_cache [ SWITCHABLE_FILTERS ] = MIN ( filter_cache [ SWITCHABLE_FILTERS ] , tmp_rd + rs_rd ) ; if ( cm -> interp_filter == SWITCHABLE ) tmp_rd += rs_rd ; mask_filter = MAX ( mask_filter , tmp_rd ) ; newbest = ( tmp_rd < tmp_best_rd ) ; if ( newbest ) { tmp_best_filter = mbmi -> interp_filter ; tmp_best_rd = tmp_rd ; } if ( ( newbest && cm -> interp_filter == SWITCHABLE ) || ( mbmi -> interp_filter == cm -> interp_filter && cm -> interp_filter != SWITCHABLE ) ) { tmp_best_rdu = tmp_rd ; tmp_best_rate = rate ; tmp_best_ratey = rate_y ; tmp_best_distortion = distortion ; tmp_best_sse = total_sse ; tmp_best_skippable = skippable ; tmp_best_mbmode = * mbmi ; for ( i = 0 ; i < 4 ; i ++ ) { tmp_best_bmodes [ i ] = xd -> mi [ 0 ] -> bmi [ i ] ; x -> zcoeff_blk [ TX_4X4 ] [ i ] = ! x -> plane [ 0 ] . eobs [ i ] ; } pred_exists = 1 ; if ( switchable_filter_index == 0 && sf -> use_rd_breakout && best_rd < INT64_MAX ) { if ( tmp_best_rdu / 2 > best_rd ) { tmp_best_filter = mbmi -> interp_filter ; tmp_best_rdu = INT64_MAX ; break ; } } } } } } if ( tmp_best_rdu == INT64_MAX && pred_exists ) continue ; mbmi -> interp_filter = ( cm -> interp_filter == SWITCHABLE ? tmp_best_filter : cm -> interp_filter ) ; if ( ! pred_exists ) { tmp_rd = rd_pick_best_sub8x8_mode ( cpi , x , & x -> mbmi_ext -> ref_mvs [ ref_frame ] [ 0 ] , second_ref , best_yrd , & rate , & rate_y , & distortion , & skippable , & total_sse , ( int ) this_rd_thresh , seg_mvs , bsi , 0 , mi_row , mi_col ) ; if ( tmp_rd == INT64_MAX ) continue ; } else { total_sse = tmp_best_sse ; rate = tmp_best_rate ; rate_y = tmp_best_ratey ; distortion = tmp_best_distortion ; skippable = tmp_best_skippable ; * mbmi = tmp_best_mbmode ; for ( i = 0 ; i < 4 ; i ++ ) xd -> mi [ 0 ] -> bmi [ i ] = tmp_best_bmodes [ i ] ; } rate2 += rate ; distortion2 += distortion ; if ( cm -> interp_filter == SWITCHABLE ) rate2 += vp9_get_switchable_rate ( cpi , xd ) ; if ( ! mode_excluded ) mode_excluded = comp_pred ? cm -> reference_mode == SINGLE_REFERENCE : cm -> reference_mode == COMPOUND_REFERENCE ; compmode_cost = vp9_cost_bit ( comp_mode_p , comp_pred ) ; tmp_best_rdu = best_rd - MIN ( RDCOST ( x -> rdmult , x -> rddiv , rate2 , distortion2 ) , RDCOST ( x -> rdmult , x -> rddiv , 0 , total_sse ) ) ; if ( tmp_best_rdu > 0 ) { vp9_build_inter_predictors_sbuv ( & x -> e_mbd , mi_row , mi_col , BLOCK_8X8 ) ; memset ( x -> skip_txfm , SKIP_TXFM_NONE , sizeof ( x -> skip_txfm ) ) ; if ( ! super_block_uvrd ( cpi , x , & rate_uv , & distortion_uv , & uv_skippable , & uv_sse , BLOCK_8X8 , tmp_best_rdu ) ) continue ; rate2 += rate_uv ; distortion2 += distortion_uv ; skippable = skippable && uv_skippable ; total_sse += uv_sse ; } } if ( cm -> reference_mode == REFERENCE_MODE_SELECT ) rate2 += compmode_cost ; if ( second_ref_frame > INTRA_FRAME ) { rate2 += ref_costs_comp [ ref_frame ] ; } else { rate2 += ref_costs_single [ ref_frame ] ; } if ( ! disable_skip ) { if ( ref_frame != INTRA_FRAME && ! xd -> lossless ) { if ( RDCOST ( x -> rdmult , x -> rddiv , rate_y + rate_uv , distortion2 ) < RDCOST ( x -> rdmult , x -> rddiv , 0 , total_sse ) ) { rate2 += vp9_cost_bit ( vp9_get_skip_prob ( cm , xd ) , 0 ) ; } else { rate2 += vp9_cost_bit ( vp9_get_skip_prob ( cm , xd ) , 1 ) ; distortion2 = total_sse ; assert ( total_sse >= 0 ) ; rate2 -= ( rate_y + rate_uv ) ; rate_y = 0 ; rate_uv = 0 ; this_skip2 = 1 ; } } else { rate2 += vp9_cost_bit ( vp9_get_skip_prob ( cm , xd ) , 0 ) ; } this_rd = RDCOST ( x -> rdmult , x -> rddiv , rate2 , distortion2 ) ; } if ( ! disable_skip && ref_frame == INTRA_FRAME ) { for ( i = 0 ; i < REFERENCE_MODES ; ++ i ) best_pred_rd [ i ] = MIN ( best_pred_rd [ i ] , this_rd ) ; for ( i = 0 ; i < SWITCHABLE_FILTER_CONTEXTS ; i ++ ) best_filter_rd [ i ] = MIN ( best_filter_rd [ i ] , this_rd ) ; } if ( this_rd < best_rd || x -> skip ) { if ( ! mode_excluded ) { int max_plane = MAX_MB_PLANE ; best_ref_index = ref_index ; if ( ref_frame == INTRA_FRAME ) { mbmi -> mv [ 0 ] . as_int = 0 ; max_plane = 1 ; } rd_cost -> rate = rate2 ; rd_cost -> dist = distortion2 ; rd_cost -> rdcost = this_rd ; best_rd = this_rd ; best_yrd = best_rd - RDCOST ( x -> rdmult , x -> rddiv , rate_uv , distortion_uv ) ; best_mbmode = * mbmi ; best_skip2 = this_skip2 ; if ( ! x -> select_tx_size ) swap_block_ptr ( x , ctx , 1 , 0 , 0 , max_plane ) ; memcpy ( ctx -> zcoeff_blk , x -> zcoeff_blk [ TX_4X4 ] , sizeof ( ctx -> zcoeff_blk [ 0 ] ) * ctx -> num_4x4_blk ) ; for ( i = 0 ; i < 4 ; i ++ ) best_bmodes [ i ] = xd -> mi [ 0 ] -> bmi [ i ] ; if ( ( sf -> mode_search_skip_flags & FLAG_EARLY_TERMINATE ) && ( ref_index > MIN_EARLY_TERM_INDEX ) ) { int qstep = xd -> plane [ 0 ] . dequant [ 1 ] ; int scale = 4 ; # if CONFIG_VP9_HIGHBITDEPTH if ( xd -> cur_buf -> flags & YV12_FLAG_HIGHBITDEPTH ) { qstep >>= ( xd -> bd - 8 ) ; } # endif if ( x -> source_variance < UINT_MAX ) { const int var_adjust = ( x -> source_variance < 16 ) ; scale -= var_adjust ; } if ( ref_frame > INTRA_FRAME && distortion2 * scale < qstep * qstep ) { early_term = 1 ; } } } } if ( ! disable_skip && ref_frame != INTRA_FRAME ) { int64_t single_rd , hybrid_rd , single_rate , hybrid_rate ; if ( cm -> reference_mode == REFERENCE_MODE_SELECT ) { single_rate = rate2 - compmode_cost ; hybrid_rate = rate2 ; } else { single_rate = rate2 ; hybrid_rate = rate2 + compmode_cost ; } single_rd = RDCOST ( x -> rdmult , x -> rddiv , single_rate , distortion2 ) ; hybrid_rd = RDCOST ( x -> rdmult , x -> rddiv , hybrid_rate , distortion2 ) ; if ( ! comp_pred && single_rd < best_pred_rd [ SINGLE_REFERENCE ] ) best_pred_rd [ SINGLE_REFERENCE ] = single_rd ; else if ( comp_pred && single_rd < best_pred_rd [ COMPOUND_REFERENCE ] ) best_pred_rd [ COMPOUND_REFERENCE ] = single_rd ; if ( hybrid_rd < best_pred_rd [ REFERENCE_MODE_SELECT ] ) best_pred_rd [ REFERENCE_MODE_SELECT ] = hybrid_rd ; } if ( ! mode_excluded && ! disable_skip && ref_frame != INTRA_FRAME && cm -> interp_filter != BILINEAR ) { int64_t ref = filter_cache [ cm -> interp_filter == SWITCHABLE ? SWITCHABLE_FILTERS : cm -> interp_filter ] ; int64_t adj_rd ; for ( i = 0 ; i < SWITCHABLE_FILTER_CONTEXTS ; i ++ ) { if ( ref == INT64_MAX ) adj_rd = 0 ; else if ( filter_cache [ i ] == INT64_MAX ) adj_rd = mask_filter - ref + 10 ; else adj_rd = filter_cache [ i ] - ref ; adj_rd += this_rd ; best_filter_rd [ i ] = MIN ( best_filter_rd [ i ] , adj_rd ) ; } } if ( early_term ) break ; if ( x -> skip && ! comp_pred ) break ; } if ( best_rd >= best_rd_so_far ) { rd_cost -> rate = INT_MAX ; rd_cost -> rdcost = INT64_MAX ; return ; } if ( sf -> use_uv_intra_rd_estimate ) { if ( best_mbmode . ref_frame [ 0 ] == INTRA_FRAME ) { * mbmi = best_mbmode ; rd_pick_intra_sbuv_mode ( cpi , x , ctx , & rate_uv_intra , & rate_uv_tokenonly , & dist_uv , & skip_uv , BLOCK_8X8 , TX_4X4 ) ; } } if ( best_rd == INT64_MAX ) { rd_cost -> rate = INT_MAX ; rd_cost -> dist = INT64_MAX ; rd_cost -> rdcost = INT64_MAX ; return ; } assert ( ( cm -> interp_filter == SWITCHABLE ) || ( cm -> interp_filter == best_mbmode . interp_filter ) || ! is_inter_block ( & best_mbmode ) ) ; vp9_update_rd_thresh_fact ( tile_data -> thresh_freq_fact , sf -> adaptive_rd_thresh , bsize , best_ref_index ) ; * mbmi = best_mbmode ; x -> skip |= best_skip2 ; if ( ! is_inter_block ( & best_mbmode ) ) { for ( i = 0 ; i < 4 ; i ++ ) xd -> mi [ 0 ] -> bmi [ i ] . as_mode = best_bmodes [ i ] . as_mode ; } else { for ( i = 0 ; i < 4 ; ++ i ) memcpy ( & xd -> mi [ 0 ] -> bmi [ i ] , & best_bmodes [ i ] , sizeof ( b_mode_info ) ) ; mbmi -> mv [ 0 ] . as_int = xd -> mi [ 0 ] -> bmi [ 3 ] . as_mv [ 0 ] . as_int ; mbmi -> mv [ 1 ] . as_int = xd -> mi [ 0 ] -> bmi [ 3 ] . as_mv [ 1 ] . as_int ; } for ( i = 0 ; i < REFERENCE_MODES ; ++ i ) { if ( best_pred_rd [ i ] == INT64_MAX ) best_pred_diff [ i ] = INT_MIN ; else best_pred_diff [ i ] = best_rd - best_pred_rd [ i ] ; } if ( ! x -> skip ) { for ( i = 0 ; i < SWITCHABLE_FILTER_CONTEXTS ; i ++ ) { if ( best_filter_rd [ i ] == INT64_MAX ) best_filter_diff [ i ] = 0 ; else best_filter_diff [ i ] = best_rd - best_filter_rd [ i ] ; } if ( cm -> interp_filter == SWITCHABLE ) assert ( best_filter_diff [ SWITCHABLE_FILTERS ] == 0 ) ; } else { vp9_zero ( best_filter_diff ) ; } store_coding_context ( x , ctx , best_ref_index , best_pred_diff , best_filter_diff , 0 ) ; }" 1031,"CWE-416 static int ion_handle_put ( struct ion_handle * handle ) { struct ion_client * client = handle -> client ; int ret ; mutex_lock ( & client -> lock ) ; ret = kref_put ( & handle -> ref , ion_handle_destroy ) ; mutex_unlock ( & client -> lock ) ; return ret ; }",int ion_handle_put ( struct ion_handle * handle ) { struct ion_client * client = handle -> client ; int ret ; mutex_lock ( & client -> lock ) ; ret = ion_handle_put_nolock ( handle ) ; mutex_unlock ( & client -> lock ) ; return ret ; } 1032,"CWE-20 error_t httpCheckCharset ( const char_t * s , size_t length , uint_t charset ) { error_t error ; size_t i ; uint8_t c ; uint_t m ; error = NO_ERROR ; for ( i = 0 ; i < length ; i ++ ) { c = ( uint8_t ) s [ i ] ; m = HTTP_CHARSET_OCTET ; if ( iscntrl ( c ) ) m |= HTTP_CHARSET_CTL ; if ( isprint ( c ) && c <= 126 ) m |= HTTP_CHARSET_TEXT | HTTP_CHARSET_VCHAR ; if ( c == ' ' || c == '\\t' ) m |= HTTP_CHARSET_TEXT | HTTP_CHARSET_LWS ; if ( isalpha ( c ) ) m |= HTTP_CHARSET_TCHAR | HTTP_CHARSET_ALPHA ; if ( osIsdigit ( c ) ) m |= HTTP_CHARSET_TCHAR | HTTP_CHARSET_DIGIT ; if ( isxdigit ( c ) ) m |= HTTP_CHARSET_HEX ; if ( c >= 128 ) m |= HTTP_CHARSET_TEXT | HTTP_CHARSET_OBS_TEXT ; if ( strchr ( ""!#$%&\'*+-.^_`|~"" , c ) ) m |= HTTP_CHARSET_TCHAR ; if ( ( m & charset ) == 0 ) error = ERROR_INVALID_SYNTAX ; } return error ; }","error_t httpCheckCharset ( const char_t * s , size_t length , uint_t charset ) { error_t error ; size_t i ; uint8_t c ; uint_t m ; error = NO_ERROR ; for ( i = 0 ; i < length ; i ++ ) { c = ( uint8_t ) s [ i ] ; m = HTTP_CHARSET_OCTET ; if ( iscntrl ( c ) ) m |= HTTP_CHARSET_CTL ; if ( isprint ( c ) && c <= 126 ) m |= HTTP_CHARSET_TEXT | HTTP_CHARSET_VCHAR ; if ( c == ' ' || c == '\\t' ) m |= HTTP_CHARSET_TEXT | HTTP_CHARSET_LWS ; if ( isalpha ( c ) ) m |= HTTP_CHARSET_TCHAR | HTTP_CHARSET_ALPHA ; if ( osIsdigit ( c ) ) m |= HTTP_CHARSET_TCHAR | HTTP_CHARSET_DIGIT ; if ( isxdigit ( c ) ) m |= HTTP_CHARSET_HEX ; if ( c >= 128 ) m |= HTTP_CHARSET_TEXT | HTTP_CHARSET_OBS_TEXT ; if ( osStrchr ( ""!#$%&\'*+-.^_`|~"" , c ) ) m |= HTTP_CHARSET_TCHAR ; if ( ( m & charset ) == 0 ) error = ERROR_INVALID_SYNTAX ; } return error ; }" 1033,"CWE-200 static int sched_read_attr ( struct sched_attr __user * uattr , struct sched_attr * attr , unsigned int usize ) { int ret ; if ( ! access_ok ( VERIFY_WRITE , uattr , usize ) ) return - EFAULT ; if ( usize < sizeof ( * attr ) ) { unsigned char * addr ; unsigned char * end ; addr = ( void * ) attr + usize ; end = ( void * ) attr + sizeof ( * attr ) ; for ( ; addr < end ; addr ++ ) { if ( * addr ) goto err_size ; } attr -> size = usize ; } ret = copy_to_user ( uattr , attr , usize ) ; if ( ret ) return - EFAULT ; out : return ret ; err_size : ret = - E2BIG ; goto out ; }","static int sched_read_attr ( struct sched_attr __user * uattr , struct sched_attr * attr , unsigned int usize ) { int ret ; if ( ! access_ok ( VERIFY_WRITE , uattr , usize ) ) return - EFAULT ; if ( usize < sizeof ( * attr ) ) { unsigned char * addr ; unsigned char * end ; addr = ( void * ) attr + usize ; end = ( void * ) attr + sizeof ( * attr ) ; for ( ; addr < end ; addr ++ ) { if ( * addr ) goto err_size ; } attr -> size = usize ; } ret = copy_to_user ( uattr , attr , attr -> size ) ; if ( ret ) return - EFAULT ; out : return ret ; err_size : ret = - E2BIG ; goto out ; }" 1034,"CWE-416 int inet6_csk_xmit ( struct sock * sk , struct sk_buff * skb , struct flowi * fl_unused ) { struct ipv6_pinfo * np = inet6_sk ( sk ) ; struct flowi6 fl6 ; struct dst_entry * dst ; int res ; dst = inet6_csk_route_socket ( sk , & fl6 ) ; if ( IS_ERR ( dst ) ) { sk -> sk_err_soft = - PTR_ERR ( dst ) ; sk -> sk_route_caps = 0 ; kfree_skb ( skb ) ; return PTR_ERR ( dst ) ; } rcu_read_lock ( ) ; skb_dst_set_noref ( skb , dst ) ; fl6 . daddr = sk -> sk_v6_daddr ; res = ip6_xmit ( sk , skb , & fl6 , np -> opt , np -> tclass ) ; rcu_read_unlock ( ) ; return res ; }","int inet6_csk_xmit ( struct sock * sk , struct sk_buff * skb , struct flowi * fl_unused ) { struct ipv6_pinfo * np = inet6_sk ( sk ) ; struct flowi6 fl6 ; struct dst_entry * dst ; int res ; dst = inet6_csk_route_socket ( sk , & fl6 ) ; if ( IS_ERR ( dst ) ) { sk -> sk_err_soft = - PTR_ERR ( dst ) ; sk -> sk_route_caps = 0 ; kfree_skb ( skb ) ; return PTR_ERR ( dst ) ; } rcu_read_lock ( ) ; skb_dst_set_noref ( skb , dst ) ; fl6 . daddr = sk -> sk_v6_daddr ; res = ip6_xmit ( sk , skb , & fl6 , rcu_dereference ( np -> opt ) , np -> tclass ) ; rcu_read_unlock ( ) ; return res ; }" 1035,"CWE-362 int dccp_v4_connect ( struct sock * sk , struct sockaddr * uaddr , int addr_len ) { const struct sockaddr_in * usin = ( struct sockaddr_in * ) uaddr ; struct inet_sock * inet = inet_sk ( sk ) ; struct dccp_sock * dp = dccp_sk ( sk ) ; __be16 orig_sport , orig_dport ; __be32 daddr , nexthop ; struct flowi4 fl4 ; struct rtable * rt ; int err ; dp -> dccps_role = DCCP_ROLE_CLIENT ; if ( addr_len < sizeof ( struct sockaddr_in ) ) return - EINVAL ; if ( usin -> sin_family != AF_INET ) return - EAFNOSUPPORT ; nexthop = daddr = usin -> sin_addr . s_addr ; if ( inet -> opt != NULL && inet -> opt -> srr ) { if ( daddr == 0 ) return - EINVAL ; nexthop = inet -> opt -> faddr ; } orig_sport = inet -> inet_sport ; orig_dport = usin -> sin_port ; rt = ip_route_connect ( & fl4 , nexthop , inet -> inet_saddr , RT_CONN_FLAGS ( sk ) , sk -> sk_bound_dev_if , IPPROTO_DCCP , orig_sport , orig_dport , sk , true ) ; if ( IS_ERR ( rt ) ) return PTR_ERR ( rt ) ; if ( rt -> rt_flags & ( RTCF_MULTICAST | RTCF_BROADCAST ) ) { ip_rt_put ( rt ) ; return - ENETUNREACH ; } if ( inet -> opt == NULL || ! inet -> opt -> srr ) daddr = rt -> rt_dst ; if ( inet -> inet_saddr == 0 ) inet -> inet_saddr = rt -> rt_src ; inet -> inet_rcv_saddr = inet -> inet_saddr ; inet -> inet_dport = usin -> sin_port ; inet -> inet_daddr = daddr ; inet_csk ( sk ) -> icsk_ext_hdr_len = 0 ; if ( inet -> opt != NULL ) inet_csk ( sk ) -> icsk_ext_hdr_len = inet -> opt -> optlen ; dccp_set_state ( sk , DCCP_REQUESTING ) ; err = inet_hash_connect ( & dccp_death_row , sk ) ; if ( err != 0 ) goto failure ; rt = ip_route_newports ( & fl4 , rt , orig_sport , orig_dport , inet -> inet_sport , inet -> inet_dport , sk ) ; if ( IS_ERR ( rt ) ) { rt = NULL ; goto failure ; } sk_setup_caps ( sk , & rt -> dst ) ; dp -> dccps_iss = secure_dccp_sequence_number ( inet -> inet_saddr , inet -> inet_daddr , inet -> inet_sport , inet -> inet_dport ) ; inet -> inet_id = dp -> dccps_iss ^ jiffies ; err = dccp_connect ( sk ) ; rt = NULL ; if ( err != 0 ) goto failure ; out : return err ; failure : dccp_set_state ( sk , DCCP_CLOSED ) ; ip_rt_put ( rt ) ; sk -> sk_route_caps = 0 ; inet -> inet_dport = 0 ; goto out ; }","int dccp_v4_connect ( struct sock * sk , struct sockaddr * uaddr , int addr_len ) { const struct sockaddr_in * usin = ( struct sockaddr_in * ) uaddr ; struct inet_sock * inet = inet_sk ( sk ) ; struct dccp_sock * dp = dccp_sk ( sk ) ; __be16 orig_sport , orig_dport ; __be32 daddr , nexthop ; struct flowi4 fl4 ; struct rtable * rt ; int err ; struct ip_options_rcu * inet_opt ; dp -> dccps_role = DCCP_ROLE_CLIENT ; if ( addr_len < sizeof ( struct sockaddr_in ) ) return - EINVAL ; if ( usin -> sin_family != AF_INET ) return - EAFNOSUPPORT ; nexthop = daddr = usin -> sin_addr . s_addr ; inet_opt = rcu_dereference_protected ( inet -> inet_opt , sock_owned_by_user ( sk ) ) ; if ( inet_opt != NULL && inet_opt -> opt . srr ) { if ( daddr == 0 ) return - EINVAL ; nexthop = inet_opt -> opt . faddr ; } orig_sport = inet -> inet_sport ; orig_dport = usin -> sin_port ; rt = ip_route_connect ( & fl4 , nexthop , inet -> inet_saddr , RT_CONN_FLAGS ( sk ) , sk -> sk_bound_dev_if , IPPROTO_DCCP , orig_sport , orig_dport , sk , true ) ; if ( IS_ERR ( rt ) ) return PTR_ERR ( rt ) ; if ( rt -> rt_flags & ( RTCF_MULTICAST | RTCF_BROADCAST ) ) { ip_rt_put ( rt ) ; return - ENETUNREACH ; } if ( inet_opt == NULL || ! inet_opt -> opt . srr ) daddr = rt -> rt_dst ; if ( inet -> inet_saddr == 0 ) inet -> inet_saddr = rt -> rt_src ; inet -> inet_rcv_saddr = inet -> inet_saddr ; inet -> inet_dport = usin -> sin_port ; inet -> inet_daddr = daddr ; inet_csk ( sk ) -> icsk_ext_hdr_len = 0 ; if ( inet_opt ) inet_csk ( sk ) -> icsk_ext_hdr_len = inet_opt -> opt . optlen ; dccp_set_state ( sk , DCCP_REQUESTING ) ; err = inet_hash_connect ( & dccp_death_row , sk ) ; if ( err != 0 ) goto failure ; rt = ip_route_newports ( & fl4 , rt , orig_sport , orig_dport , inet -> inet_sport , inet -> inet_dport , sk ) ; if ( IS_ERR ( rt ) ) { rt = NULL ; goto failure ; } sk_setup_caps ( sk , & rt -> dst ) ; dp -> dccps_iss = secure_dccp_sequence_number ( inet -> inet_saddr , inet -> inet_daddr , inet -> inet_sport , inet -> inet_dport ) ; inet -> inet_id = dp -> dccps_iss ^ jiffies ; err = dccp_connect ( sk ) ; rt = NULL ; if ( err != 0 ) goto failure ; out : return err ; failure : dccp_set_state ( sk , DCCP_CLOSED ) ; ip_rt_put ( rt ) ; sk -> sk_route_caps = 0 ; inet -> inet_dport = 0 ; goto out ; }" 1036,CWE-119 cJSON * cJSON_CreateString ( const char * string ) { cJSON * item = cJSON_New_Item ( ) ; if ( item ) { item -> type = cJSON_String ; item -> valuestring = cJSON_strdup ( string ) ; } return item ; } ,cJSON * cJSON_CreateString ( const char * string ) { cJSON * item = cJSON_New_Item ( ) ; if ( item ) { item -> type = cJSON_String ; item -> valuestring = cJSON_strdup ( string ) ; if ( ! item -> valuestring ) { cJSON_Delete ( item ) ; return 0 ; } } return item ; } 1037,"CWE-399 static int rds_ib_laddr_check ( __be32 addr ) { int ret ; struct rdma_cm_id * cm_id ; struct sockaddr_in sin ; cm_id = rdma_create_id ( NULL , NULL , RDMA_PS_TCP , IB_QPT_RC ) ; if ( IS_ERR ( cm_id ) ) return PTR_ERR ( cm_id ) ; memset ( & sin , 0 , sizeof ( sin ) ) ; sin . sin_family = AF_INET ; sin . sin_addr . s_addr = addr ; ret = rdma_bind_addr ( cm_id , ( struct sockaddr * ) & sin ) ; if ( ret || cm_id -> device -> node_type != RDMA_NODE_IB_CA ) ret = - EADDRNOTAVAIL ; rdsdebug ( ""addr %pI4 ret %d node type %d\\n"" , & addr , ret , cm_id -> device ? cm_id -> device -> node_type : - 1 ) ; rdma_destroy_id ( cm_id ) ; return ret ; }","static int rds_ib_laddr_check ( __be32 addr ) { int ret ; struct rdma_cm_id * cm_id ; struct sockaddr_in sin ; cm_id = rdma_create_id ( NULL , NULL , RDMA_PS_TCP , IB_QPT_RC ) ; if ( IS_ERR ( cm_id ) ) return PTR_ERR ( cm_id ) ; memset ( & sin , 0 , sizeof ( sin ) ) ; sin . sin_family = AF_INET ; sin . sin_addr . s_addr = addr ; ret = rdma_bind_addr ( cm_id , ( struct sockaddr * ) & sin ) ; if ( ret || ! cm_id -> device || cm_id -> device -> node_type != RDMA_NODE_IB_CA ) ret = - EADDRNOTAVAIL ; rdsdebug ( ""addr %pI4 ret %d node type %d\\n"" , & addr , ret , cm_id -> device ? cm_id -> device -> node_type : - 1 ) ; rdma_destroy_id ( cm_id ) ; return ret ; }" 1038,"CWE-269 int fixExec2Error ( int action , u_char * var_val , u_char var_val_type , size_t var_val_len , u_char * statP , oid * name , size_t name_len ) { netsnmp_old_extend * exten = NULL ; unsigned int idx ; idx = name [ name_len - 1 ] - 1 ; exten = & compatability_entries [ idx ] ; # ifndef NETSNMP_NO_WRITE_SUPPORT switch ( action ) { case MODE_SET_RESERVE1 : if ( var_val_type != ASN_INTEGER ) { snmp_log ( LOG_ERR , ""Wrong type != int\\n"" ) ; return SNMP_ERR_WRONGTYPE ; } idx = * ( ( long * ) var_val ) ; if ( idx != 1 ) { snmp_log ( LOG_ERR , ""Wrong value != 1\\n"" ) ; return SNMP_ERR_WRONGVALUE ; } if ( ! exten || ! exten -> efix_entry ) { snmp_log ( LOG_ERR , ""No command to run\\n"" ) ; return SNMP_ERR_GENERR ; } return SNMP_ERR_NOERROR ; case MODE_SET_COMMIT : netsnmp_cache_check_and_reload ( exten -> efix_entry -> cache ) ; } # endif return SNMP_ERR_NOERROR ; }","int fixExec2Error ( int action , u_char * var_val , u_char var_val_type , size_t var_val_len , u_char * statP , oid * name , size_t name_len ) { netsnmp_old_extend * exten = NULL ; unsigned int idx ; idx = name [ name_len - 1 ] - 1 ; exten = & compatability_entries [ idx ] ; # if ! defined ( NETSNMP_NO_WRITE_SUPPORT ) && ENABLE_EXTEND_WRITE_ACCESS switch ( action ) { case MODE_SET_RESERVE1 : if ( var_val_type != ASN_INTEGER ) { snmp_log ( LOG_ERR , ""Wrong type != int\\n"" ) ; return SNMP_ERR_WRONGTYPE ; } idx = * ( ( long * ) var_val ) ; if ( idx != 1 ) { snmp_log ( LOG_ERR , ""Wrong value != 1\\n"" ) ; return SNMP_ERR_WRONGVALUE ; } if ( ! exten || ! exten -> efix_entry ) { snmp_log ( LOG_ERR , ""No command to run\\n"" ) ; return SNMP_ERR_GENERR ; } return SNMP_ERR_NOERROR ; case MODE_SET_COMMIT : netsnmp_cache_check_and_reload ( exten -> efix_entry -> cache ) ; } # endif return SNMP_ERR_NOERROR ; }" 1039,"CWE-119 if ( zend_hash_find ( EG ( active_symbol_table ) , ""http_response_header"" , sizeof ( ""http_response_header"" ) , ( void * * ) & rh ) != SUCCESS || Z_TYPE_PP ( rh ) != IS_ARRAY ) { php_stream_wrapper_log_error ( wrapper , options TSRMLS_CC , ""HTTP request failed, http_response_header overwritten"" ) ; goto out ; } response_header = * rh ; Z_ADDREF_P ( response_header ) ; } if ( ! php_stream_eof ( stream ) ) { size_t tmp_line_len ; if ( php_stream_get_line ( stream , tmp_line , sizeof ( tmp_line ) - 1 , & tmp_line_len ) != NULL ) { zval * http_response ; if ( tmp_line_len > 9 ) { response_code = atoi ( tmp_line + 9 ) ; } else { response_code = 0 ; } if ( context && SUCCESS == php_stream_context_get_option ( context , ""http"" , ""ignore_errors"" , & tmpzval ) ) { ignore_errors = zend_is_true ( * tmpzval ) ; } if ( ( options & STREAM_ONLY_GET_HEADERS ) || ignore_errors ) { reqok = 1 ; } if ( response_code >= 100 && response_code < 200 ) { while ( ! php_stream_eof ( stream ) && php_stream_get_line ( stream , tmp_line , sizeof ( tmp_line ) - 1 , & tmp_line_len ) != NULL && ( tmp_line_len < sizeof ( ""HTTP/1"" ) - 1 || strncasecmp ( tmp_line , ""HTTP/1"" , sizeof ( ""HTTP/1"" ) - 1 ) ) ) ; if ( tmp_line_len > 9 ) { response_code = atoi ( tmp_line + 9 ) ; } else { response_code = 0 ; } } if ( response_code >= 200 && response_code < 400 ) { reqok = 1 ; } else { switch ( response_code ) { case 403 : php_stream_notify_error ( context , PHP_STREAM_NOTIFY_AUTH_RESULT , tmp_line , response_code ) ; break ; default : if ( ! tmp_line_len ) { tmp_line [ 0 ] = '\\0' ; } php_stream_notify_error ( context , PHP_STREAM_NOTIFY_FAILURE , tmp_line , response_code ) ; } } if ( tmp_line [ tmp_line_len - 1 ] == '\\n' ) { - tmp_line_len ; if ( tmp_line [ tmp_line_len - 1 ] == '\\r' ) { - tmp_line_len ; } } MAKE_STD_ZVAL ( http_response ) ; ZVAL_STRINGL ( http_response , tmp_line , tmp_line_len , 1 ) ; zend_hash_next_index_insert ( Z_ARRVAL_P ( response_header ) , & http_response , sizeof ( zval * ) , NULL ) ; } } else { php_stream_wrapper_log_error ( wrapper , options TSRMLS_CC , ""HTTP request failed, unexpected end of socket!"" ) ; goto out ; } http_header_line = emalloc ( HTTP_HEADER_BLOCK_SIZE ) ; while ( ! body && ! php_stream_eof ( stream ) ) { size_t http_header_line_length ; if ( php_stream_get_line ( stream , http_header_line , HTTP_HEADER_BLOCK_SIZE , & http_header_line_length ) && * http_header_line != '\\n' && * http_header_line != '\\r' ) { char * e = http_header_line + http_header_line_length - 1 ; if ( * e != '\\n' ) { do { if ( php_stream_get_line ( stream , http_header_line , HTTP_HEADER_BLOCK_SIZE , & http_header_line_length ) == NULL ) { php_stream_wrapper_log_error ( wrapper , options TSRMLS_CC , ""Failed to read HTTP headers"" ) ; goto out ; } e = http_header_line + http_header_line_length - 1 ; } while ( * e != '\\n' ) ; continue ; } while ( * e == '\\n' || * e == '\\r' ) { e -- ; } http_header_line_length = e - http_header_line + 1 ; http_header_line [ http_header_line_length ] = '\\0' ; if ( ! strncasecmp ( http_header_line , ""Location: "" , 10 ) ) { if ( context && php_stream_context_get_option ( context , ""http"" , ""follow_location"" , & tmpzval ) == SUCCESS ) { SEPARATE_ZVAL ( tmpzval ) ; convert_to_long_ex ( tmpzval ) ; follow_location = Z_LVAL_PP ( tmpzval ) ; } else if ( ! ( response_code >= 300 && response_code < 304 || 307 == response_code || 308 == response_code ) ) { follow_location = 0 ; } strlcpy ( location , http_header_line + 10 , sizeof ( location ) ) ; } else if ( ! strncasecmp ( http_header_line , ""Content-Type: "" , 14 ) ) { php_stream_notify_info ( context , PHP_STREAM_NOTIFY_MIME_TYPE_IS , http_header_line + 14 , 0 ) ; } else if ( ! strncasecmp ( http_header_line , ""Content-Length: "" , 16 ) ) { file_size = atoi ( http_header_line + 16 ) ; php_stream_notify_file_size ( context , file_size , http_header_line , 0 ) ; } else if ( ! strncasecmp ( http_header_line , ""Transfer-Encoding: chunked"" , sizeof ( ""Transfer-Encoding: chunked"" ) ) ) { if ( ! ( options & STREAM_ONLY_GET_HEADERS ) ) { long decode = 1 ; if ( context && php_stream_context_get_option ( context , ""http"" , ""auto_decode"" , & tmpzval ) == SUCCESS ) { SEPARATE_ZVAL ( tmpzval ) ;","if ( zend_hash_find ( EG ( active_symbol_table ) , ""http_response_header"" , sizeof ( ""http_response_header"" ) , ( void * * ) & rh ) != SUCCESS || Z_TYPE_PP ( rh ) != IS_ARRAY ) { php_stream_wrapper_log_error ( wrapper , options TSRMLS_CC , ""HTTP request failed, http_response_header overwritten"" ) ; goto out ; } response_header = * rh ; Z_ADDREF_P ( response_header ) ; } if ( ! php_stream_eof ( stream ) ) { size_t tmp_line_len ; if ( php_stream_get_line ( stream , tmp_line , sizeof ( tmp_line ) - 1 , & tmp_line_len ) != NULL ) { zval * http_response ; if ( tmp_line_len > 9 ) { response_code = atoi ( tmp_line + 9 ) ; } else { response_code = 0 ; } if ( context && SUCCESS == php_stream_context_get_option ( context , ""http"" , ""ignore_errors"" , & tmpzval ) ) { ignore_errors = zend_is_true ( * tmpzval ) ; } if ( ( options & STREAM_ONLY_GET_HEADERS ) || ignore_errors ) { reqok = 1 ; } if ( response_code >= 100 && response_code < 200 ) { while ( ! php_stream_eof ( stream ) && php_stream_get_line ( stream , tmp_line , sizeof ( tmp_line ) - 1 , & tmp_line_len ) != NULL && ( tmp_line_len < sizeof ( ""HTTP/1"" ) - 1 || strncasecmp ( tmp_line , ""HTTP/1"" , sizeof ( ""HTTP/1"" ) - 1 ) ) ) ; if ( tmp_line_len > 9 ) { response_code = atoi ( tmp_line + 9 ) ; } else { response_code = 0 ; } } if ( response_code >= 200 && response_code < 400 ) { reqok = 1 ; } else { switch ( response_code ) { case 403 : php_stream_notify_error ( context , PHP_STREAM_NOTIFY_AUTH_RESULT , tmp_line , response_code ) ; break ; default : if ( ! tmp_line_len ) { tmp_line [ 0 ] = '\\0' ; } php_stream_notify_error ( context , PHP_STREAM_NOTIFY_FAILURE , tmp_line , response_code ) ; } } if ( tmp_line_len >= 1 && tmp_line [ tmp_line_len - 1 ] == '\\n' ) { if ( tmp_line_len >= 1 && tmp_line [ tmp_line_len - 1 ] == '\\r' ) { } } MAKE_STD_ZVAL ( http_response ) ; ZVAL_STRINGL ( http_response , tmp_line , tmp_line_len , 1 ) ; zend_hash_next_index_insert ( Z_ARRVAL_P ( response_header ) , & http_response , sizeof ( zval * ) , NULL ) ; } } else { php_stream_wrapper_log_error ( wrapper , options TSRMLS_CC , ""HTTP request failed, unexpected end of socket!"" ) ; goto out ; } http_header_line = emalloc ( HTTP_HEADER_BLOCK_SIZE ) ; while ( ! body && ! php_stream_eof ( stream ) ) { size_t http_header_line_length ; if ( php_stream_get_line ( stream , http_header_line , HTTP_HEADER_BLOCK_SIZE , & http_header_line_length ) && * http_header_line != '\\n' && * http_header_line != '\\r' ) { char * e = http_header_line + http_header_line_length - 1 ; if ( * e != '\\n' ) { do { if ( php_stream_get_line ( stream , http_header_line , HTTP_HEADER_BLOCK_SIZE , & http_header_line_length ) == NULL ) { php_stream_wrapper_log_error ( wrapper , options TSRMLS_CC , ""Failed to read HTTP headers"" ) ; goto out ; } e = http_header_line + http_header_line_length - 1 ; } while ( * e != '\\n' ) ; continue ; } while ( * e == '\\n' || * e == '\\r' ) { e -- ; } http_header_line_length = e - http_header_line + 1 ; http_header_line [ http_header_line_length ] = '\\0' ; if ( ! strncasecmp ( http_header_line , ""Location: "" , 10 ) ) { if ( context && php_stream_context_get_option ( context , ""http"" , ""follow_location"" , & tmpzval ) == SUCCESS ) { SEPARATE_ZVAL ( tmpzval ) ; convert_to_long_ex ( tmpzval ) ; follow_location = Z_LVAL_PP ( tmpzval ) ; } else if ( ! ( response_code >= 300 && response_code < 304 || 307 == response_code || 308 == response_code ) ) { follow_location = 0 ; } strlcpy ( location , http_header_line + 10 , sizeof ( location ) ) ; } else if ( ! strncasecmp ( http_header_line , ""Content-Type: "" , 14 ) ) { php_stream_notify_info ( context , PHP_STREAM_NOTIFY_MIME_TYPE_IS , http_header_line + 14 , 0 ) ; } else if ( ! strncasecmp ( http_header_line , ""Content-Length: "" , 16 ) ) { file_size = atoi ( http_header_line + 16 ) ; php_stream_notify_file_size ( context , file_size , http_header_line , 0 ) ; } else if ( ! strncasecmp ( http_header_line , ""Transfer-Encoding: chunked"" , sizeof ( ""Transfer-Encoding: chunked"" ) ) ) { if ( ! ( options & STREAM_ONLY_GET_HEADERS ) ) { long decode = 1 ; if ( context && php_stream_context_get_option ( context , ""http"" , ""auto_decode"" , & tmpzval ) == SUCCESS ) { SEPARATE_ZVAL ( tmpzval ) ;" 1040,"CWE-119 static void tree_to_node ( void * data , BLOCK_SIZE bsize , variance_node * node ) { int i ; switch ( bsize ) { case BLOCK_64X64 : { v64x64 * vt = ( v64x64 * ) data ; node -> part_variances = & vt -> part_variances ; for ( i = 0 ; i < 4 ; i ++ ) node -> split [ i ] = & vt -> split [ i ] . part_variances . none ; break ; } case BLOCK_32X32 : { v32x32 * vt = ( v32x32 * ) data ; node -> part_variances = & vt -> part_variances ; for ( i = 0 ; i < 4 ; i ++ ) node -> split [ i ] = & vt -> split [ i ] . part_variances . none ; break ; } case BLOCK_16X16 : { v16x16 * vt = ( v16x16 * ) data ; node -> part_variances = & vt -> part_variances ; for ( i = 0 ; i < 4 ; i ++ ) node -> split [ i ] = & vt -> split [ i ] . part_variances . none ; break ; } case BLOCK_8X8 : { v8x8 * vt = ( v8x8 * ) data ; node -> part_variances = & vt -> part_variances ; for ( i = 0 ; i < 4 ; i ++ ) node -> split [ i ] = & vt -> split [ i ] ; break ; } default : { assert ( 0 ) ; } } }","static void tree_to_node ( void * data , BLOCK_SIZE bsize , variance_node * node ) { int i ; node -> part_variances = NULL ; switch ( bsize ) { case BLOCK_64X64 : { v64x64 * vt = ( v64x64 * ) data ; node -> part_variances = & vt -> part_variances ; for ( i = 0 ; i < 4 ; i ++ ) node -> split [ i ] = & vt -> split [ i ] . part_variances . none ; break ; } case BLOCK_32X32 : { v32x32 * vt = ( v32x32 * ) data ; node -> part_variances = & vt -> part_variances ; for ( i = 0 ; i < 4 ; i ++ ) node -> split [ i ] = & vt -> split [ i ] . part_variances . none ; break ; } case BLOCK_16X16 : { v16x16 * vt = ( v16x16 * ) data ; node -> part_variances = & vt -> part_variances ; for ( i = 0 ; i < 4 ; i ++ ) node -> split [ i ] = & vt -> split [ i ] . part_variances . none ; break ; } case BLOCK_8X8 : { v8x8 * vt = ( v8x8 * ) data ; node -> part_variances = & vt -> part_variances ; for ( i = 0 ; i < 4 ; i ++ ) node -> split [ i ] = & vt -> split [ i ] . part_variances . none ; break ; } case BLOCK_4X4 : { v4x4 * vt = ( v4x4 * ) data ; node -> part_variances = & vt -> part_variances ; for ( i = 0 ; i < 4 ; i ++ ) node -> split [ i ] = & vt -> split [ i ] ; break ; } default : { assert ( 0 ) ; break ; } } }" 1041,CWE-416 static void timerfd_remove_cancel ( struct timerfd_ctx * ctx ) { if ( ctx -> might_cancel ) { ctx -> might_cancel = false ; spin_lock ( & cancel_lock ) ; list_del_rcu ( & ctx -> clist ) ; spin_unlock ( & cancel_lock ) ; } },static void timerfd_remove_cancel ( struct timerfd_ctx * ctx ) { spin_lock ( & ctx -> cancel_lock ) ; __timerfd_remove_cancel ( ctx ) ; spin_unlock ( & ctx -> cancel_lock ) ; } 1042,"CWE-125 int mobility_print ( netdissect_options * ndo , const u_char * bp , const u_char * bp2 _U_ ) { const struct ip6_mobility * mh ; const u_char * ep ; unsigned mhlen , hlen ; uint8_t type ; mh = ( const struct ip6_mobility * ) bp ; ep = ndo -> ndo_snapend ; if ( ! ND_TTEST ( mh -> ip6m_len ) ) { mhlen = ep - bp ; goto trunc ; } mhlen = ( mh -> ip6m_len + 1 ) << 3 ; ND_TCHECK ( mh -> ip6m_type ) ; type = mh -> ip6m_type ; if ( type <= IP6M_MAX && mhlen < ip6m_hdrlen [ type ] ) { ND_PRINT ( ( ndo , ""(header length %u is too small for type %u)"" , mhlen , type ) ) ; goto trunc ; } ND_PRINT ( ( ndo , ""mobility: %s"" , tok2str ( ip6m_str , ""type-#%u"" , type ) ) ) ; switch ( type ) { case IP6M_BINDING_REQUEST : hlen = IP6M_MINLEN ; break ; case IP6M_HOME_TEST_INIT : case IP6M_CAREOF_TEST_INIT : hlen = IP6M_MINLEN ; if ( ndo -> ndo_vflag ) { ND_TCHECK2 ( * mh , hlen + 8 ) ; ND_PRINT ( ( ndo , "" %s Init Cookie=%08x:%08x"" , type == IP6M_HOME_TEST_INIT ? ""Home"" : ""Care-of"" , EXTRACT_32BITS ( & bp [ hlen ] ) , EXTRACT_32BITS ( & bp [ hlen + 4 ] ) ) ) ; } hlen += 8 ; break ; case IP6M_HOME_TEST : case IP6M_CAREOF_TEST : ND_TCHECK ( mh -> ip6m_data16 [ 0 ] ) ; ND_PRINT ( ( ndo , "" nonce id=0x%x"" , EXTRACT_16BITS ( & mh -> ip6m_data16 [ 0 ] ) ) ) ; hlen = IP6M_MINLEN ; if ( ndo -> ndo_vflag ) { ND_TCHECK2 ( * mh , hlen + 8 ) ; ND_PRINT ( ( ndo , "" %s Init Cookie=%08x:%08x"" , type == IP6M_HOME_TEST ? ""Home"" : ""Care-of"" , EXTRACT_32BITS ( & bp [ hlen ] ) , EXTRACT_32BITS ( & bp [ hlen + 4 ] ) ) ) ; } hlen += 8 ; if ( ndo -> ndo_vflag ) { ND_TCHECK2 ( * mh , hlen + 8 ) ; ND_PRINT ( ( ndo , "" %s Keygen Token=%08x:%08x"" , type == IP6M_HOME_TEST ? ""Home"" : ""Care-of"" , EXTRACT_32BITS ( & bp [ hlen ] ) , EXTRACT_32BITS ( & bp [ hlen + 4 ] ) ) ) ; } hlen += 8 ; break ; case IP6M_BINDING_UPDATE : ND_TCHECK ( mh -> ip6m_data16 [ 0 ] ) ; ND_PRINT ( ( ndo , "" seq#=%u"" , EXTRACT_16BITS ( & mh -> ip6m_data16 [ 0 ] ) ) ) ; hlen = IP6M_MINLEN ; ND_TCHECK2 ( * mh , hlen + 1 ) ; if ( bp [ hlen ] & 0xf0 ) ND_PRINT ( ( ndo , "" "" ) ) ; if ( bp [ hlen ] & 0x80 ) ND_PRINT ( ( ndo , ""A"" ) ) ; if ( bp [ hlen ] & 0x40 ) ND_PRINT ( ( ndo , ""H"" ) ) ; if ( bp [ hlen ] & 0x20 ) ND_PRINT ( ( ndo , ""L"" ) ) ; if ( bp [ hlen ] & 0x10 ) ND_PRINT ( ( ndo , ""K"" ) ) ; hlen += 1 ; hlen += 1 ; ND_TCHECK2 ( * mh , hlen + 2 ) ; ND_PRINT ( ( ndo , "" lifetime=%u"" , EXTRACT_16BITS ( & bp [ hlen ] ) << 2 ) ) ; hlen += 2 ; break ; case IP6M_BINDING_ACK : ND_TCHECK ( mh -> ip6m_data8 [ 0 ] ) ; ND_PRINT ( ( ndo , "" status=%u"" , mh -> ip6m_data8 [ 0 ] ) ) ; if ( mh -> ip6m_data8 [ 1 ] & 0x80 ) ND_PRINT ( ( ndo , "" K"" ) ) ; hlen = IP6M_MINLEN ; ND_TCHECK2 ( * mh , hlen + 2 ) ; ND_PRINT ( ( ndo , "" seq#=%u"" , EXTRACT_16BITS ( & bp [ hlen ] ) ) ) ; hlen += 2 ; ND_TCHECK2 ( * mh , hlen + 2 ) ; ND_PRINT ( ( ndo , "" lifetime=%u"" , EXTRACT_16BITS ( & bp [ hlen ] ) << 2 ) ) ; hlen += 2 ; break ; case IP6M_BINDING_ERROR : ND_TCHECK ( mh -> ip6m_data8 [ 0 ] ) ; ND_PRINT ( ( ndo , "" status=%u"" , mh -> ip6m_data8 [ 0 ] ) ) ; hlen = IP6M_MINLEN ; ND_TCHECK2 ( * mh , hlen + 16 ) ; ND_PRINT ( ( ndo , "" homeaddr %s"" , ip6addr_string ( ndo , & bp [ hlen ] ) ) ) ; hlen += 16 ; break ; default : ND_PRINT ( ( ndo , "" len=%u"" , mh -> ip6m_len ) ) ; return ( mhlen ) ; break ; } if ( ndo -> ndo_vflag ) if ( mobility_opt_print ( ndo , & bp [ hlen ] , mhlen - hlen ) ) goto trunc ; return ( mhlen ) ; trunc : ND_PRINT ( ( ndo , ""%s"" , tstr ) ) ; return ( - 1 ) ; }","int mobility_print ( netdissect_options * ndo , const u_char * bp , const u_char * bp2 _U_ ) { const struct ip6_mobility * mh ; const u_char * ep ; unsigned mhlen , hlen ; uint8_t type ; mh = ( const struct ip6_mobility * ) bp ; ep = ndo -> ndo_snapend ; if ( ! ND_TTEST ( mh -> ip6m_len ) ) { mhlen = ep - bp ; goto trunc ; } mhlen = ( mh -> ip6m_len + 1 ) << 3 ; ND_TCHECK ( mh -> ip6m_type ) ; type = mh -> ip6m_type ; if ( type <= IP6M_MAX && mhlen < ip6m_hdrlen [ type ] ) { ND_PRINT ( ( ndo , ""(header length %u is too small for type %u)"" , mhlen , type ) ) ; goto trunc ; } ND_PRINT ( ( ndo , ""mobility: %s"" , tok2str ( ip6m_str , ""type-#%u"" , type ) ) ) ; switch ( type ) { case IP6M_BINDING_REQUEST : hlen = IP6M_MINLEN ; break ; case IP6M_HOME_TEST_INIT : case IP6M_CAREOF_TEST_INIT : hlen = IP6M_MINLEN ; if ( ndo -> ndo_vflag ) { ND_TCHECK_32BITS ( & bp [ hlen + 4 ] ) ; ND_PRINT ( ( ndo , "" %s Init Cookie=%08x:%08x"" , type == IP6M_HOME_TEST_INIT ? ""Home"" : ""Care-of"" , EXTRACT_32BITS ( & bp [ hlen ] ) , EXTRACT_32BITS ( & bp [ hlen + 4 ] ) ) ) ; } hlen += 8 ; break ; case IP6M_HOME_TEST : case IP6M_CAREOF_TEST : ND_TCHECK ( mh -> ip6m_data16 [ 0 ] ) ; ND_PRINT ( ( ndo , "" nonce id=0x%x"" , EXTRACT_16BITS ( & mh -> ip6m_data16 [ 0 ] ) ) ) ; hlen = IP6M_MINLEN ; if ( ndo -> ndo_vflag ) { ND_TCHECK_32BITS ( & bp [ hlen + 4 ] ) ; ND_PRINT ( ( ndo , "" %s Init Cookie=%08x:%08x"" , type == IP6M_HOME_TEST ? ""Home"" : ""Care-of"" , EXTRACT_32BITS ( & bp [ hlen ] ) , EXTRACT_32BITS ( & bp [ hlen + 4 ] ) ) ) ; } hlen += 8 ; if ( ndo -> ndo_vflag ) { ND_TCHECK_32BITS ( & bp [ hlen + 4 ] ) ; ND_PRINT ( ( ndo , "" %s Keygen Token=%08x:%08x"" , type == IP6M_HOME_TEST ? ""Home"" : ""Care-of"" , EXTRACT_32BITS ( & bp [ hlen ] ) , EXTRACT_32BITS ( & bp [ hlen + 4 ] ) ) ) ; } hlen += 8 ; break ; case IP6M_BINDING_UPDATE : ND_TCHECK ( mh -> ip6m_data16 [ 0 ] ) ; ND_PRINT ( ( ndo , "" seq#=%u"" , EXTRACT_16BITS ( & mh -> ip6m_data16 [ 0 ] ) ) ) ; hlen = IP6M_MINLEN ; ND_TCHECK_16BITS ( & bp [ hlen ] ) ; if ( bp [ hlen ] & 0xf0 ) { ND_PRINT ( ( ndo , "" "" ) ) ; if ( bp [ hlen ] & 0x80 ) ND_PRINT ( ( ndo , ""A"" ) ) ; if ( bp [ hlen ] & 0x40 ) ND_PRINT ( ( ndo , ""H"" ) ) ; if ( bp [ hlen ] & 0x20 ) ND_PRINT ( ( ndo , ""L"" ) ) ; if ( bp [ hlen ] & 0x10 ) ND_PRINT ( ( ndo , ""K"" ) ) ; } hlen += 1 ; hlen += 1 ; ND_TCHECK_16BITS ( & bp [ hlen ] ) ; ND_PRINT ( ( ndo , "" lifetime=%u"" , EXTRACT_16BITS ( & bp [ hlen ] ) << 2 ) ) ; hlen += 2 ; break ; case IP6M_BINDING_ACK : ND_TCHECK ( mh -> ip6m_data8 [ 0 ] ) ; ND_PRINT ( ( ndo , "" status=%u"" , mh -> ip6m_data8 [ 0 ] ) ) ; ND_TCHECK ( mh -> ip6m_data8 [ 1 ] ) ; if ( mh -> ip6m_data8 [ 1 ] & 0x80 ) ND_PRINT ( ( ndo , "" K"" ) ) ; hlen = IP6M_MINLEN ; ND_TCHECK_16BITS ( & bp [ hlen ] ) ; ND_PRINT ( ( ndo , "" seq#=%u"" , EXTRACT_16BITS ( & bp [ hlen ] ) ) ) ; hlen += 2 ; ND_TCHECK_16BITS ( & bp [ hlen ] ) ; ND_PRINT ( ( ndo , "" lifetime=%u"" , EXTRACT_16BITS ( & bp [ hlen ] ) << 2 ) ) ; hlen += 2 ; break ; case IP6M_BINDING_ERROR : ND_TCHECK ( mh -> ip6m_data8 [ 0 ] ) ; ND_PRINT ( ( ndo , "" status=%u"" , mh -> ip6m_data8 [ 0 ] ) ) ; hlen = IP6M_MINLEN ; ND_TCHECK2 ( bp [ hlen ] , 16 ) ; ND_PRINT ( ( ndo , "" homeaddr %s"" , ip6addr_string ( ndo , & bp [ hlen ] ) ) ) ; hlen += 16 ; break ; default : ND_PRINT ( ( ndo , "" len=%u"" , mh -> ip6m_len ) ) ; return ( mhlen ) ; break ; } if ( ndo -> ndo_vflag ) if ( mobility_opt_print ( ndo , & bp [ hlen ] , mhlen - hlen ) ) goto trunc ; return ( mhlen ) ; trunc : ND_PRINT ( ( ndo , ""%s"" , tstr ) ) ; return ( - 1 ) ; }" 1043,"CWE-190 void ihevcd_parse_sei_payload ( codec_t * ps_codec , UWORD32 u4_payload_type , UWORD32 u4_payload_size , WORD8 i1_nal_type ) { parse_ctxt_t * ps_parse = & ps_codec -> s_parse ; bitstrm_t * ps_bitstrm = & ps_parse -> s_bitstrm ; WORD32 payload_bits_remaining = 0 ; sps_t * ps_sps ; UWORD32 i ; for ( i = 0 ; i < MAX_SPS_CNT ; i ++ ) { ps_sps = ps_codec -> ps_sps_base + i ; if ( ps_sps -> i1_sps_valid ) { break ; } } if ( NULL == ps_sps ) { return ; } if ( NAL_PREFIX_SEI == i1_nal_type ) { switch ( u4_payload_type ) { case SEI_BUFFERING_PERIOD : ps_parse -> s_sei_params . i1_sei_parameters_present_flag = 1 ; ihevcd_parse_buffering_period_sei ( ps_codec , ps_sps ) ; break ; case SEI_PICTURE_TIMING : ps_parse -> s_sei_params . i1_sei_parameters_present_flag = 1 ; ihevcd_parse_pic_timing_sei ( ps_codec , ps_sps ) ; break ; case SEI_TIME_CODE : ps_parse -> s_sei_params . i1_sei_parameters_present_flag = 1 ; ihevcd_parse_time_code_sei ( ps_codec ) ; break ; case SEI_MASTERING_DISPLAY_COLOUR_VOLUME : ps_parse -> s_sei_params . i4_sei_mastering_disp_colour_vol_params_present_flags = 1 ; ihevcd_parse_mastering_disp_params_sei ( ps_codec ) ; break ; case SEI_USER_DATA_REGISTERED_ITU_T_T35 : ps_parse -> s_sei_params . i1_sei_parameters_present_flag = 1 ; ihevcd_parse_user_data_registered_itu_t_t35 ( ps_codec , u4_payload_size ) ; break ; default : for ( i = 0 ; i < u4_payload_size ; i ++ ) { ihevcd_bits_flush ( ps_bitstrm , 8 ) ; } break ; } } else { switch ( u4_payload_type ) { case SEI_USER_DATA_REGISTERED_ITU_T_T35 : ps_parse -> s_sei_params . i1_sei_parameters_present_flag = 1 ; ihevcd_parse_user_data_registered_itu_t_t35 ( ps_codec , u4_payload_size ) ; break ; default : for ( i = 0 ; i < u4_payload_size ; i ++ ) { ihevcd_bits_flush ( ps_bitstrm , 8 ) ; } break ; } } payload_bits_remaining = ihevcd_bits_num_bits_remaining ( ps_bitstrm ) ; if ( payload_bits_remaining ) { WORD32 final_bits ; WORD32 final_payload_bits = 0 ; WORD32 mask = 0xFF ; UWORD32 u4_dummy ; UWORD32 u4_reserved_payload_extension_data ; UNUSED ( u4_dummy ) ; UNUSED ( u4_reserved_payload_extension_data ) ; while ( payload_bits_remaining > 9 ) { BITS_PARSE ( ""reserved_payload_extension_data"" , u4_reserved_payload_extension_data , ps_bitstrm , 1 ) ; payload_bits_remaining -- ; } final_bits = ihevcd_bits_nxt ( ps_bitstrm , payload_bits_remaining ) ; while ( final_bits & ( mask >> final_payload_bits ) ) { final_payload_bits ++ ; continue ; } while ( payload_bits_remaining > ( 9 - final_payload_bits ) ) { BITS_PARSE ( ""reserved_payload_extension_data"" , u4_reserved_payload_extension_data , ps_bitstrm , 1 ) ; payload_bits_remaining -- ; } BITS_PARSE ( ""payload_bit_equal_to_one"" , u4_dummy , ps_bitstrm , 1 ) ; payload_bits_remaining -- ; while ( payload_bits_remaining ) { BITS_PARSE ( ""payload_bit_equal_to_zero"" , u4_dummy , ps_bitstrm , 1 ) ; payload_bits_remaining -- ; } } return ; }","void ihevcd_parse_sei_payload ( codec_t * ps_codec , UWORD32 u4_payload_type , UWORD32 u4_payload_size , WORD8 i1_nal_type ) { parse_ctxt_t * ps_parse = & ps_codec -> s_parse ; bitstrm_t * ps_bitstrm = & ps_parse -> s_bitstrm ; WORD32 payload_bits_remaining = 0 ; sps_t * ps_sps ; UWORD32 i ; for ( i = 0 ; i < MAX_SPS_CNT ; i ++ ) { ps_sps = ps_codec -> ps_sps_base + i ; if ( ps_sps -> i1_sps_valid ) { break ; } } if ( NULL == ps_sps ) { return ; } if ( NAL_PREFIX_SEI == i1_nal_type ) { switch ( u4_payload_type ) { case SEI_BUFFERING_PERIOD : ps_parse -> s_sei_params . i1_sei_parameters_present_flag = 1 ; ihevcd_parse_buffering_period_sei ( ps_codec , ps_sps ) ; break ; case SEI_PICTURE_TIMING : ps_parse -> s_sei_params . i1_sei_parameters_present_flag = 1 ; ihevcd_parse_pic_timing_sei ( ps_codec , ps_sps ) ; break ; case SEI_TIME_CODE : ps_parse -> s_sei_params . i1_sei_parameters_present_flag = 1 ; ihevcd_parse_time_code_sei ( ps_codec ) ; break ; case SEI_MASTERING_DISPLAY_COLOUR_VOLUME : ps_parse -> s_sei_params . i4_sei_mastering_disp_colour_vol_params_present_flags = 1 ; ihevcd_parse_mastering_disp_params_sei ( ps_codec ) ; break ; case SEI_USER_DATA_REGISTERED_ITU_T_T35 : ps_parse -> s_sei_params . i1_sei_parameters_present_flag = 1 ; if ( ps_parse -> s_sei_params . i4_sei_user_data_cnt >= USER_DATA_MAX ) { for ( i = 0 ; i < u4_payload_size / 4 ; i ++ ) { ihevcd_bits_flush ( ps_bitstrm , 4 * 8 ) ; } ihevcd_bits_flush ( ps_bitstrm , ( u4_payload_size - i * 4 ) * 8 ) ; } else { ihevcd_parse_user_data_registered_itu_t_t35 ( ps_codec , u4_payload_size ) ; } break ; default : for ( i = 0 ; i < u4_payload_size ; i ++ ) { ihevcd_bits_flush ( ps_bitstrm , 8 ) ; } break ; } } else { switch ( u4_payload_type ) { case SEI_USER_DATA_REGISTERED_ITU_T_T35 : ps_parse -> s_sei_params . i1_sei_parameters_present_flag = 1 ; if ( ps_parse -> s_sei_params . i4_sei_user_data_cnt >= USER_DATA_MAX ) { for ( i = 0 ; i < u4_payload_size / 4 ; i ++ ) { ihevcd_bits_flush ( ps_bitstrm , 4 * 8 ) ; } ihevcd_bits_flush ( ps_bitstrm , ( u4_payload_size - i * 4 ) * 8 ) ; } else { ihevcd_parse_user_data_registered_itu_t_t35 ( ps_codec , u4_payload_size ) ; } break ; default : for ( i = 0 ; i < u4_payload_size ; i ++ ) { ihevcd_bits_flush ( ps_bitstrm , 8 ) ; } break ; } } payload_bits_remaining = ihevcd_bits_num_bits_remaining ( ps_bitstrm ) ; if ( payload_bits_remaining ) { WORD32 final_bits ; WORD32 final_payload_bits = 0 ; WORD32 mask = 0xFF ; UWORD32 u4_dummy ; UWORD32 u4_reserved_payload_extension_data ; UNUSED ( u4_dummy ) ; UNUSED ( u4_reserved_payload_extension_data ) ; while ( payload_bits_remaining > 9 ) { BITS_PARSE ( ""reserved_payload_extension_data"" , u4_reserved_payload_extension_data , ps_bitstrm , 1 ) ; payload_bits_remaining -- ; } final_bits = ihevcd_bits_nxt ( ps_bitstrm , payload_bits_remaining ) ; while ( final_bits & ( mask >> final_payload_bits ) ) { final_payload_bits ++ ; continue ; } while ( payload_bits_remaining > ( 9 - final_payload_bits ) ) { BITS_PARSE ( ""reserved_payload_extension_data"" , u4_reserved_payload_extension_data , ps_bitstrm , 1 ) ; payload_bits_remaining -- ; } BITS_PARSE ( ""payload_bit_equal_to_one"" , u4_dummy , ps_bitstrm , 1 ) ; payload_bits_remaining -- ; while ( payload_bits_remaining ) { BITS_PARSE ( ""payload_bit_equal_to_zero"" , u4_dummy , ps_bitstrm , 1 ) ; payload_bits_remaining -- ; } } return ; }" 1044,"CWE-119 static INLINE int write_bit_gte ( vp9_writer * w , int word , int test ) { vp9_write_literal ( w , word >= test , 1 ) ; return word >= test ; }","static INLINE int write_bit_gte ( vpx_writer * w , int word , int test ) { vpx_write_literal ( w , word >= test , 1 ) ; return word >= test ; }" 1045,"CWE-120 SecureElementStatus_t SecureElementProcessJoinAccept ( JoinReqIdentifier_t joinReqType , uint8_t * joinEui , uint16_t devNonce , uint8_t * encJoinAccept , uint8_t encJoinAcceptSize , uint8_t * decJoinAccept , uint8_t * versionMinor ) { SecureElementStatus_t status = SECURE_ELEMENT_ERROR ; if ( ( encJoinAccept == NULL ) || ( decJoinAccept == NULL ) || ( versionMinor == NULL ) ) { return SECURE_ELEMENT_ERROR_NPE ; } KeyIdentifier_t encKeyID = NWK_KEY ; if ( joinReqType != JOIN_REQ ) { encKeyID = J_S_ENC_KEY ; } uint8_t micHeader10 [ 1 ] = { 0x20 } ; lr1110_crypto_process_join_accept ( & LR1110 , ( lr1110_crypto_status_t * ) & status , convert_key_id_from_se_to_lr1110 ( encKeyID ) , convert_key_id_from_se_to_lr1110 ( NWK_KEY ) , ( lr1110_crypto_lorawan_version_t ) 0 , micHeader10 , encJoinAccept + 1 , encJoinAcceptSize - 1 , decJoinAccept + 1 ) ; if ( status == SECURE_ELEMENT_SUCCESS ) { * versionMinor = ( ( decJoinAccept [ 11 ] & 0x80 ) == 0x80 ) ? 1 : 0 ; if ( * versionMinor == 0 ) { return SECURE_ELEMENT_SUCCESS ; } } # if ( USE_LRWAN_1_1_X_CRYPTO == 1 ) uint8_t micHeader11 [ JOIN_ACCEPT_MIC_COMPUTATION_OFFSET ] = { 0 } ; uint16_t bufItr = 0 ; micHeader11 [ bufItr ++ ] = ( uint8_t ) joinReqType ; memcpyr ( micHeader11 + bufItr , joinEui , LORAMAC_JOIN_EUI_FIELD_SIZE ) ; bufItr += LORAMAC_JOIN_EUI_FIELD_SIZE ; micHeader11 [ bufItr ++ ] = devNonce & 0xFF ; micHeader11 [ bufItr ++ ] = ( devNonce >> 8 ) & 0xFF ; micHeader11 [ bufItr ++ ] = 0x20 ; lr1110_crypto_process_join_accept ( & LR1110 , ( lr1110_crypto_status_t * ) & status , convert_key_id_from_se_to_lr1110 ( encKeyID ) , convert_key_id_from_se_to_lr1110 ( J_S_INT_KEY ) , ( lr1110_crypto_lorawan_version_t ) 1 , micHeader11 , encJoinAccept + 1 , encJoinAcceptSize - 1 , decJoinAccept + 1 ) ; if ( status == SECURE_ELEMENT_SUCCESS ) { * versionMinor = ( ( decJoinAccept [ 11 ] & 0x80 ) == 0x80 ) ? 1 : 0 ; if ( * versionMinor == 1 ) { return SECURE_ELEMENT_SUCCESS ; } } # endif return status ; }","SecureElementStatus_t SecureElementProcessJoinAccept ( JoinReqIdentifier_t joinReqType , uint8_t * joinEui , uint16_t devNonce , uint8_t * encJoinAccept , uint8_t encJoinAcceptSize , uint8_t * decJoinAccept , uint8_t * versionMinor ) { SecureElementStatus_t status = SECURE_ELEMENT_ERROR ; if ( ( encJoinAccept == NULL ) || ( decJoinAccept == NULL ) || ( versionMinor == NULL ) ) { return SECURE_ELEMENT_ERROR_NPE ; } if ( encJoinAcceptSize > LORAMAC_JOIN_ACCEPT_FRAME_MAX_SIZE ) { return SECURE_ELEMENT_ERROR_BUF_SIZE ; } KeyIdentifier_t encKeyID = NWK_KEY ; if ( joinReqType != JOIN_REQ ) { encKeyID = J_S_ENC_KEY ; } uint8_t micHeader10 [ 1 ] = { 0x20 } ; lr1110_crypto_process_join_accept ( & LR1110 , ( lr1110_crypto_status_t * ) & status , convert_key_id_from_se_to_lr1110 ( encKeyID ) , convert_key_id_from_se_to_lr1110 ( NWK_KEY ) , ( lr1110_crypto_lorawan_version_t ) 0 , micHeader10 , encJoinAccept + 1 , encJoinAcceptSize - 1 , decJoinAccept + 1 ) ; if ( status == SECURE_ELEMENT_SUCCESS ) { * versionMinor = ( ( decJoinAccept [ 11 ] & 0x80 ) == 0x80 ) ? 1 : 0 ; if ( * versionMinor == 0 ) { return SECURE_ELEMENT_SUCCESS ; } } # if ( USE_LRWAN_1_1_X_CRYPTO == 1 ) uint8_t micHeader11 [ JOIN_ACCEPT_MIC_COMPUTATION_OFFSET ] = { 0 } ; uint16_t bufItr = 0 ; micHeader11 [ bufItr ++ ] = ( uint8_t ) joinReqType ; memcpyr ( micHeader11 + bufItr , joinEui , LORAMAC_JOIN_EUI_FIELD_SIZE ) ; bufItr += LORAMAC_JOIN_EUI_FIELD_SIZE ; micHeader11 [ bufItr ++ ] = devNonce & 0xFF ; micHeader11 [ bufItr ++ ] = ( devNonce >> 8 ) & 0xFF ; micHeader11 [ bufItr ++ ] = 0x20 ; lr1110_crypto_process_join_accept ( & LR1110 , ( lr1110_crypto_status_t * ) & status , convert_key_id_from_se_to_lr1110 ( encKeyID ) , convert_key_id_from_se_to_lr1110 ( J_S_INT_KEY ) , ( lr1110_crypto_lorawan_version_t ) 1 , micHeader11 , encJoinAccept + 1 , encJoinAcceptSize - 1 , decJoinAccept + 1 ) ; if ( status == SECURE_ELEMENT_SUCCESS ) { * versionMinor = ( ( decJoinAccept [ 11 ] & 0x80 ) == 0x80 ) ? 1 : 0 ; if ( * versionMinor == 1 ) { return SECURE_ELEMENT_SUCCESS ; } } # endif return status ; }" 1046,"CWE-326 int secure_decrypt ( void * data , unsigned int data_length , int is_signed ) { at91_aes_key_size_t key_size ; unsigned int cmac_key [ 8 ] , cipher_key [ 8 ] ; unsigned int iv [ AT91_AES_IV_SIZE_WORD ] ; unsigned int computed_cmac [ AT91_AES_BLOCK_SIZE_WORD ] ; unsigned int fixed_length ; const unsigned int * cmac ; int rc = - 1 ; init_keys ( & key_size , cipher_key , cmac_key , iv ) ; at91_aes_init ( ) ; if ( is_signed ) { if ( at91_aes_cmac ( data_length , data , computed_cmac , key_size , cmac_key ) ) goto exit ; fixed_length = at91_aes_roundup ( data_length ) ; cmac = ( const unsigned int * ) ( ( char * ) data + fixed_length ) ; if ( ! consttime_memequal ( cmac , computed_cmac , AT91_AES_BLOCK_SIZE_BYTE ) ) goto exit ; } if ( at91_aes_cbc ( data_length , data , data , 0 , key_size , cipher_key , iv ) ) goto exit ; rc = 0 ; exit : at91_aes_cleanup ( ) ; memset ( cmac_key , 0 , sizeof ( cmac_key ) ) ; memset ( cipher_key , 0 , sizeof ( cipher_key ) ) ; memset ( iv , 0 , sizeof ( iv ) ) ; return rc ; }","static int secure_decrypt ( void * data , unsigned int data_length , int is_signed ) { at91_aes_key_size_t key_size ; unsigned int computed_cmac [ AT91_AES_BLOCK_SIZE_WORD ] ; unsigned int fixed_length ; const unsigned int * cmac ; int rc = - 1 ; # if defined ( CONFIG_AES_KEY_SIZE_128 ) key_size = AT91_AES_KEY_SIZE_128 ; # elif defined ( CONFIG_AES_KEY_SIZE_192 ) key_size = AT91_AES_KEY_SIZE_192 ; # elif defined ( CONFIG_AES_KEY_SIZE_256 ) key_size = AT91_AES_KEY_SIZE_256 ; # else # error ""bad AES key size"" # endif at91_aes_init ( ) ; if ( is_signed ) { if ( at91_aes_cmac ( data_length , data , computed_cmac , key_size , cmac_key ) ) goto exit ; fixed_length = at91_aes_roundup ( data_length ) ; cmac = ( const unsigned int * ) ( ( char * ) data + fixed_length ) ; if ( ! consttime_memequal ( cmac , computed_cmac , AT91_AES_BLOCK_SIZE_BYTE ) ) goto exit ; } if ( at91_aes_cbc ( data_length , data , data , 0 , key_size , cipher_key , iv ) ) goto exit ; rc = 0 ; exit : at91_aes_cleanup ( ) ; return rc ; }" 1047,"CWE-189 Datum ltree_in ( PG_FUNCTION_ARGS ) { char * buf = ( char * ) PG_GETARG_POINTER ( 0 ) ; char * ptr ; nodeitem * list , * lptr ; int num = 0 , totallen = 0 ; int state = LTPRS_WAITNAME ; ltree * result ; ltree_level * curlevel ; int charlen ; int pos = 0 ; ptr = buf ; while ( * ptr ) { charlen = pg_mblen ( ptr ) ; if ( charlen == 1 && t_iseq ( ptr , '.' ) ) num ++ ; ptr += charlen ; } list = lptr = ( nodeitem * ) palloc ( sizeof ( nodeitem ) * ( num + 1 ) ) ; ptr = buf ; while ( * ptr ) { charlen = pg_mblen ( ptr ) ; if ( state == LTPRS_WAITNAME ) { if ( ISALNUM ( ptr ) ) { lptr -> start = ptr ; lptr -> wlen = 0 ; state = LTPRS_WAITDELIM ; } else UNCHAR ; } else if ( state == LTPRS_WAITDELIM ) { if ( charlen == 1 && t_iseq ( ptr , '.' ) ) { lptr -> len = ptr - lptr -> start ; if ( lptr -> wlen > 255 ) ereport ( ERROR , ( errcode ( ERRCODE_NAME_TOO_LONG ) , errmsg ( ""name of level is too long"" ) , errdetail ( ""Name length is %d, must "" ""be < 256, in position %d."" , lptr -> wlen , pos ) ) ) ; totallen += MAXALIGN ( lptr -> len + LEVEL_HDRSIZE ) ; lptr ++ ; state = LTPRS_WAITNAME ; } else if ( ! ISALNUM ( ptr ) ) UNCHAR ; } else elog ( ERROR , ""internal error in parser"" ) ; ptr += charlen ; lptr -> wlen ++ ; pos ++ ; } if ( state == LTPRS_WAITDELIM ) { lptr -> len = ptr - lptr -> start ; if ( lptr -> wlen > 255 ) ereport ( ERROR , ( errcode ( ERRCODE_NAME_TOO_LONG ) , errmsg ( ""name of level is too long"" ) , errdetail ( ""Name length is %d, must "" ""be < 256, in position %d."" ,","Datum ltree_in ( PG_FUNCTION_ARGS ) { char * buf = ( char * ) PG_GETARG_POINTER ( 0 ) ; char * ptr ; nodeitem * list , * lptr ; int num = 0 , totallen = 0 ; int state = LTPRS_WAITNAME ; ltree * result ; ltree_level * curlevel ; int charlen ; int pos = 0 ; ptr = buf ; while ( * ptr ) { charlen = pg_mblen ( ptr ) ; if ( charlen == 1 && t_iseq ( ptr , '.' ) ) num ++ ; ptr += charlen ; } if ( num + 1 > MaxAllocSize / sizeof ( nodeitem ) ) ereport ( ERROR , ( errcode ( ERRCODE_PROGRAM_LIMIT_EXCEEDED ) , errmsg ( ""number of levels (%d) exceeds the maximum allowed (%d)"" , num + 1 , ( int ) ( MaxAllocSize / sizeof ( nodeitem ) ) ) ) ) ; list = lptr = ( nodeitem * ) palloc ( sizeof ( nodeitem ) * ( num + 1 ) ) ; ptr = buf ; while ( * ptr ) { charlen = pg_mblen ( ptr ) ; if ( state == LTPRS_WAITNAME ) { if ( ISALNUM ( ptr ) ) { lptr -> start = ptr ; lptr -> wlen = 0 ; state = LTPRS_WAITDELIM ; } else UNCHAR ; } else if ( state == LTPRS_WAITDELIM ) { if ( charlen == 1 && t_iseq ( ptr , '.' ) ) { lptr -> len = ptr - lptr -> start ; if ( lptr -> wlen > 255 ) ereport ( ERROR , ( errcode ( ERRCODE_NAME_TOO_LONG ) , errmsg ( ""name of level is too long"" ) , errdetail ( ""Name length is %d, must "" ""be < 256, in position %d."" , lptr -> wlen , pos ) ) ) ; totallen += MAXALIGN ( lptr -> len + LEVEL_HDRSIZE ) ; lptr ++ ; state = LTPRS_WAITNAME ; } else if ( ! ISALNUM ( ptr ) ) UNCHAR ; } else elog ( ERROR , ""internal error in parser"" ) ; ptr += charlen ; lptr -> wlen ++ ; pos ++ ; } if ( state == LTPRS_WAITDELIM ) { lptr -> len = ptr - lptr -> start ; if ( lptr -> wlen > 255 ) ereport ( ERROR , ( errcode ( ERRCODE_NAME_TOO_LONG ) , errmsg ( ""name of level is too long"" ) , errdetail ( ""Name length is %d, must "" ""be < 256, in position %d."" ," 1048,"CWE-119 void process_bitmap_updates ( STREAM s ) { uint16 num_updates ; uint16 left , top , right , bottom , width , height ; uint16 cx , cy , bpp , Bpp , compress , bufsize , size ; uint8 * data , * bmpdata ; int i ; logger ( Protocol , Debug , ""%s()"" , __func__ ) ; in_uint16_le ( s , num_updates ) ; for ( i = 0 ; i < num_updates ; i ++ ) { in_uint16_le ( s , left ) ; in_uint16_le ( s , top ) ; in_uint16_le ( s , right ) ; in_uint16_le ( s , bottom ) ; in_uint16_le ( s , width ) ; in_uint16_le ( s , height ) ; in_uint16_le ( s , bpp ) ; Bpp = ( bpp + 7 ) / 8 ; in_uint16_le ( s , compress ) ; in_uint16_le ( s , bufsize ) ; cx = right - left + 1 ; cy = bottom - top + 1 ; logger ( Graphics , Debug , ""process_bitmap_updates(), [%d,%d,%d,%d], [%d,%d], bpp=%d, compression=%d"" , left , top , right , bottom , width , height , Bpp , compress ) ; if ( ! compress ) { int y ; bmpdata = ( uint8 * ) xmalloc ( width * height * Bpp ) ; for ( y = 0 ; y < height ; y ++ ) { in_uint8a ( s , & bmpdata [ ( height - y - 1 ) * ( width * Bpp ) ] , width * Bpp ) ; } ui_paint_bitmap ( left , top , cx , cy , width , height , bmpdata ) ; xfree ( bmpdata ) ; continue ; } if ( compress & 0x400 ) { size = bufsize ; } else { in_uint8s ( s , 2 ) ; in_uint16_le ( s , size ) ; in_uint8s ( s , 4 ) ; } in_uint8p ( s , data , size ) ; bmpdata = ( uint8 * ) xmalloc ( width * height * Bpp ) ; if ( bitmap_decompress ( bmpdata , width , height , data , size , Bpp ) ) { ui_paint_bitmap ( left , top , cx , cy , width , height , bmpdata ) ; } else { logger ( Graphics , Warning , ""process_bitmap_updates(), failed to decompress bitmap"" ) ; } xfree ( bmpdata ) ; } }","void process_bitmap_updates ( STREAM s ) { int i ; uint16 num_updates ; in_uint16_le ( s , num_updates ) ; for ( i = 0 ; i < num_updates ; i ++ ) { process_bitmap_data ( s ) ; } }" 1049,CWE-416 static void snd_usb_mixer_free ( struct usb_mixer_interface * mixer ) { kfree ( mixer -> id_elems ) ; if ( mixer -> urb ) { kfree ( mixer -> urb -> transfer_buffer ) ; usb_free_urb ( mixer -> urb ) ; } usb_free_urb ( mixer -> rc_urb ) ; kfree ( mixer -> rc_setup_packet ) ; kfree ( mixer ) ; },static void snd_usb_mixer_free ( struct usb_mixer_interface * mixer ) { snd_usb_mixer_disconnect ( mixer ) ; kfree ( mixer -> id_elems ) ; if ( mixer -> urb ) { kfree ( mixer -> urb -> transfer_buffer ) ; usb_free_urb ( mixer -> urb ) ; } usb_free_urb ( mixer -> rc_urb ) ; kfree ( mixer -> rc_setup_packet ) ; kfree ( mixer ) ; } 1050,"NVD-CWE-Other static int makeDirDirective ( MaState * state , cchar * key , cchar * value ) { MprPath info ; char * auth , * dirs , * path , * perms , * tok ; cchar * dir , * group , * owner ; int gid , mode , uid ; if ( ! maTokenize ( state , value , ""%S ?*"" , & auth , & dirs ) ) { return MPR_ERR_BAD_SYNTAX ; } uid = gid = 0 ; mode = 0750 ; if ( schr ( auth , ':' ) ) { owner = stok ( auth , "":"" , & tok ) ; if ( owner && * owner ) { if ( snumber ( owner ) ) { uid = ( int ) stoi ( owner ) ; } else if ( smatch ( owner , ""APPWEB"" ) ) { uid = HTTP -> uid ; } else { uid = userToID ( owner ) ; } } group = stok ( tok , "":"" , & perms ) ; if ( group && * group ) { if ( snumber ( group ) ) { gid = ( int ) stoi ( group ) ; } else if ( smatch ( owner , ""APPWEB"" ) ) { gid = HTTP -> gid ; } else { gid = groupToID ( group ) ; } } if ( perms && snumber ( perms ) ) { mode = ( int ) stoiradix ( perms , - 1 , NULL ) ; } else { mode = 0 ; } if ( gid < 0 || uid < 0 ) { return MPR_ERR_BAD_SYNTAX ; } } else { dirs = auth ; auth = 0 ; } tok = dirs ; for ( tok = sclone ( dirs ) ; ( dir = stok ( tok , "","" , & tok ) ) != 0 ; ) { path = httpMakePath ( state -> route , state -> configDir , dir ) ; if ( mprGetPathInfo ( path , & info ) == 0 && info . isDir ) { continue ; } if ( mprMakeDir ( path , mode , uid , gid , 1 ) < 0 ) { return MPR_ERR_BAD_SYNTAX ; } } return 0 ; }","static int makeDirDirective ( MaState * state , cchar * key , cchar * value ) { MprPath info ; char * auth , * dirs , * path , * perms , * tok ; cchar * dir , * group , * owner ; int gid , mode , uid ; if ( ! maTokenize ( state , value , ""%S ?*"" , & auth , & dirs ) ) { return MPR_ERR_BAD_SYNTAX ; } uid = gid = 0 ; mode = 0750 ; if ( schr ( auth , ':' ) ) { owner = ssplit ( auth , "":"" , & tok ) ; if ( owner && * owner ) { if ( snumber ( owner ) ) { uid = ( int ) stoi ( owner ) ; } else if ( smatch ( owner , ""APPWEB"" ) ) { uid = HTTP -> uid ; } else { uid = userToID ( owner ) ; } } group = ssplit ( tok , "":"" , & perms ) ; if ( group && * group ) { if ( snumber ( group ) ) { gid = ( int ) stoi ( group ) ; } else if ( smatch ( owner , ""APPWEB"" ) ) { gid = HTTP -> gid ; } else { gid = groupToID ( group ) ; } } if ( perms && snumber ( perms ) ) { mode = ( int ) stoiradix ( perms , - 1 , NULL ) ; } else { mode = 0 ; } if ( gid < 0 || uid < 0 ) { return MPR_ERR_BAD_SYNTAX ; } } else { dirs = auth ; auth = 0 ; } tok = dirs ; for ( tok = sclone ( dirs ) ; ( dir = stok ( tok , "","" , & tok ) ) != 0 ; ) { path = httpMakePath ( state -> route , state -> configDir , dir ) ; if ( mprGetPathInfo ( path , & info ) == 0 && info . isDir ) { continue ; } if ( mprMakeDir ( path , mode , uid , gid , 1 ) < 0 ) { return MPR_ERR_BAD_SYNTAX ; } } return 0 ; }" 1051,"CWE-310 static noinline int btrfs_mksubvol ( struct path * parent , char * name , int namelen , struct btrfs_root * snap_src , u64 * async_transid , bool readonly , struct btrfs_qgroup_inherit * * inherit ) { struct inode * dir = parent -> dentry -> d_inode ; struct dentry * dentry ; int error ; mutex_lock_nested ( & dir -> i_mutex , I_MUTEX_PARENT ) ; dentry = lookup_one_len ( name , parent -> dentry , namelen ) ; error = PTR_ERR ( dentry ) ; if ( IS_ERR ( dentry ) ) goto out_unlock ; error = - EEXIST ; if ( dentry -> d_inode ) goto out_dput ; error = btrfs_may_create ( dir , dentry ) ; if ( error ) goto out_dput ; down_read ( & BTRFS_I ( dir ) -> root -> fs_info -> subvol_sem ) ; if ( btrfs_root_refs ( & BTRFS_I ( dir ) -> root -> root_item ) == 0 ) goto out_up_read ; if ( snap_src ) { error = create_snapshot ( snap_src , dentry , name , namelen , async_transid , readonly , inherit ) ; } else { error = create_subvol ( BTRFS_I ( dir ) -> root , dentry , name , namelen , async_transid , inherit ) ; } if ( ! error ) fsnotify_mkdir ( dir , dentry ) ; out_up_read : up_read ( & BTRFS_I ( dir ) -> root -> fs_info -> subvol_sem ) ; out_dput : dput ( dentry ) ; out_unlock : mutex_unlock ( & dir -> i_mutex ) ; return error ; }","static noinline int btrfs_mksubvol ( struct path * parent , char * name , int namelen , struct btrfs_root * snap_src , u64 * async_transid , bool readonly , struct btrfs_qgroup_inherit * * inherit ) { struct inode * dir = parent -> dentry -> d_inode ; struct dentry * dentry ; int error ; mutex_lock_nested ( & dir -> i_mutex , I_MUTEX_PARENT ) ; dentry = lookup_one_len ( name , parent -> dentry , namelen ) ; error = PTR_ERR ( dentry ) ; if ( IS_ERR ( dentry ) ) goto out_unlock ; error = - EEXIST ; if ( dentry -> d_inode ) goto out_dput ; error = btrfs_may_create ( dir , dentry ) ; if ( error ) goto out_dput ; error = btrfs_check_dir_item_collision ( BTRFS_I ( dir ) -> root , dir -> i_ino , name , namelen ) ; if ( error ) goto out_dput ; down_read ( & BTRFS_I ( dir ) -> root -> fs_info -> subvol_sem ) ; if ( btrfs_root_refs ( & BTRFS_I ( dir ) -> root -> root_item ) == 0 ) goto out_up_read ; if ( snap_src ) { error = create_snapshot ( snap_src , dentry , name , namelen , async_transid , readonly , inherit ) ; } else { error = create_subvol ( BTRFS_I ( dir ) -> root , dentry , name , namelen , async_transid , inherit ) ; } if ( ! error ) fsnotify_mkdir ( dir , dentry ) ; out_up_read : up_read ( & BTRFS_I ( dir ) -> root -> fs_info -> subvol_sem ) ; out_dput : dput ( dentry ) ; out_unlock : mutex_unlock ( & dir -> i_mutex ) ; return error ; }" 1052,"CWE-119 static void fdct16 ( const int16_t in [ 16 ] , int16_t out [ 16 ] ) { int step1 [ 8 ] ; int step2 [ 8 ] ; int step3 [ 8 ] ; int input [ 8 ] ; int temp1 , temp2 ; input [ 0 ] = in [ 0 ] + in [ 15 ] ; input [ 1 ] = in [ 1 ] + in [ 14 ] ; input [ 2 ] = in [ 2 ] + in [ 13 ] ; input [ 3 ] = in [ 3 ] + in [ 12 ] ; input [ 4 ] = in [ 4 ] + in [ 11 ] ; input [ 5 ] = in [ 5 ] + in [ 10 ] ; input [ 6 ] = in [ 6 ] + in [ 9 ] ; input [ 7 ] = in [ 7 ] + in [ 8 ] ; step1 [ 0 ] = in [ 7 ] - in [ 8 ] ; step1 [ 1 ] = in [ 6 ] - in [ 9 ] ; step1 [ 2 ] = in [ 5 ] - in [ 10 ] ; step1 [ 3 ] = in [ 4 ] - in [ 11 ] ; step1 [ 4 ] = in [ 3 ] - in [ 12 ] ; step1 [ 5 ] = in [ 2 ] - in [ 13 ] ; step1 [ 6 ] = in [ 1 ] - in [ 14 ] ; step1 [ 7 ] = in [ 0 ] - in [ 15 ] ; { int s0 , s1 , s2 , s3 , s4 , s5 , s6 , s7 ; int t0 , t1 , t2 , t3 ; int x0 , x1 , x2 , x3 ; s0 = input [ 0 ] + input [ 7 ] ; s1 = input [ 1 ] + input [ 6 ] ; s2 = input [ 2 ] + input [ 5 ] ; s3 = input [ 3 ] + input [ 4 ] ; s4 = input [ 3 ] - input [ 4 ] ; s5 = input [ 2 ] - input [ 5 ] ; s6 = input [ 1 ] - input [ 6 ] ; s7 = input [ 0 ] - input [ 7 ] ; x0 = s0 + s3 ; x1 = s1 + s2 ; x2 = s1 - s2 ; x3 = s0 - s3 ; t0 = ( x0 + x1 ) * cospi_16_64 ; t1 = ( x0 - x1 ) * cospi_16_64 ; t2 = x3 * cospi_8_64 + x2 * cospi_24_64 ; t3 = x3 * cospi_24_64 - x2 * cospi_8_64 ; out [ 0 ] = fdct_round_shift ( t0 ) ; out [ 4 ] = fdct_round_shift ( t2 ) ; out [ 8 ] = fdct_round_shift ( t1 ) ; out [ 12 ] = fdct_round_shift ( t3 ) ; t0 = ( s6 - s5 ) * cospi_16_64 ; t1 = ( s6 + s5 ) * cospi_16_64 ; t2 = fdct_round_shift ( t0 ) ; t3 = fdct_round_shift ( t1 ) ; x0 = s4 + t2 ; x1 = s4 - t2 ; x2 = s7 - t3 ; x3 = s7 + t3 ; t0 = x0 * cospi_28_64 + x3 * cospi_4_64 ; t1 = x1 * cospi_12_64 + x2 * cospi_20_64 ; t2 = x2 * cospi_12_64 + x1 * - cospi_20_64 ; t3 = x3 * cospi_28_64 + x0 * - cospi_4_64 ; out [ 2 ] = fdct_round_shift ( t0 ) ; out [ 6 ] = fdct_round_shift ( t2 ) ; out [ 10 ] = fdct_round_shift ( t1 ) ; out [ 14 ] = fdct_round_shift ( t3 ) ; } temp1 = ( step1 [ 5 ] - step1 [ 2 ] ) * cospi_16_64 ; temp2 = ( step1 [ 4 ] - step1 [ 3 ] ) * cospi_16_64 ; step2 [ 2 ] = fdct_round_shift ( temp1 ) ; step2 [ 3 ] = fdct_round_shift ( temp2 ) ; temp1 = ( step1 [ 4 ] + step1 [ 3 ] ) * cospi_16_64 ; temp2 = ( step1 [ 5 ] + step1 [ 2 ] ) * cospi_16_64 ; step2 [ 4 ] = fdct_round_shift ( temp1 ) ; step2 [ 5 ] = fdct_round_shift ( temp2 ) ; step3 [ 0 ] = step1 [ 0 ] + step2 [ 3 ] ; step3 [ 1 ] = step1 [ 1 ] + step2 [ 2 ] ; step3 [ 2 ] = step1 [ 1 ] - step2 [ 2 ] ; step3 [ 3 ] = step1 [ 0 ] - step2 [ 3 ] ; step3 [ 4 ] = step1 [ 7 ] - step2 [ 4 ] ; step3 [ 5 ] = step1 [ 6 ] - step2 [ 5 ] ; step3 [ 6 ] = step1 [ 6 ] + step2 [ 5 ] ; step3 [ 7 ] = step1 [ 7 ] + step2 [ 4 ] ; temp1 = step3 [ 1 ] * - cospi_8_64 + step3 [ 6 ] * cospi_24_64 ; temp2 = step3 [ 2 ] * - cospi_24_64 - step3 [ 5 ] * cospi_8_64 ; step2 [ 1 ] = fdct_round_shift ( temp1 ) ; step2 [ 2 ] = fdct_round_shift ( temp2 ) ; temp1 = step3 [ 2 ] * - cospi_8_64 + step3 [ 5 ] * cospi_24_64 ; temp2 = step3 [ 1 ] * cospi_24_64 + step3 [ 6 ] * cospi_8_64 ; step2 [ 5 ] = fdct_round_shift ( temp1 ) ; step2 [ 6 ] = fdct_round_shift ( temp2 ) ; step1 [ 0 ] = step3 [ 0 ] + step2 [ 1 ] ; step1 [ 1 ] = step3 [ 0 ] - step2 [ 1 ] ; step1 [ 2 ] = step3 [ 3 ] - step2 [ 2 ] ; step1 [ 3 ] = step3 [ 3 ] + step2 [ 2 ] ; step1 [ 4 ] = step3 [ 4 ] + step2 [ 5 ] ; step1 [ 5 ] = step3 [ 4 ] - step2 [ 5 ] ; step1 [ 6 ] = step3 [ 7 ] - step2 [ 6 ] ; step1 [ 7 ] = step3 [ 7 ] + step2 [ 6 ] ; temp1 = step1 [ 0 ] * cospi_30_64 + step1 [ 7 ] * cospi_2_64 ; temp2 = step1 [ 1 ] * cospi_14_64 + step1 [ 6 ] * cospi_18_64 ; out [ 1 ] = fdct_round_shift ( temp1 ) ; out [ 9 ] = fdct_round_shift ( temp2 ) ; temp1 = step1 [ 2 ] * cospi_22_64 + step1 [ 5 ] * cospi_10_64 ; temp2 = step1 [ 3 ] * cospi_6_64 + step1 [ 4 ] * cospi_26_64 ; out [ 5 ] = fdct_round_shift ( temp1 ) ; out [ 13 ] = fdct_round_shift ( temp2 ) ; temp1 = step1 [ 3 ] * - cospi_26_64 + step1 [ 4 ] * cospi_6_64 ; temp2 = step1 [ 2 ] * - cospi_10_64 + step1 [ 5 ] * cospi_22_64 ; out [ 3 ] = fdct_round_shift ( temp1 ) ; out [ 11 ] = fdct_round_shift ( temp2 ) ; temp1 = step1 [ 1 ] * - cospi_18_64 + step1 [ 6 ] * cospi_14_64 ; temp2 = step1 [ 0 ] * - cospi_2_64 + step1 [ 7 ] * cospi_30_64 ; out [ 7 ] = fdct_round_shift ( temp1 ) ; out [ 15 ] = fdct_round_shift ( temp2 ) ; }","static void fdct16 ( const tran_low_t in [ 16 ] , tran_low_t out [ 16 ] ) { tran_high_t step1 [ 8 ] ; tran_high_t step2 [ 8 ] ; tran_high_t step3 [ 8 ] ; tran_high_t input [ 8 ] ; tran_high_t temp1 , temp2 ; input [ 0 ] = in [ 0 ] + in [ 15 ] ; input [ 1 ] = in [ 1 ] + in [ 14 ] ; input [ 2 ] = in [ 2 ] + in [ 13 ] ; input [ 3 ] = in [ 3 ] + in [ 12 ] ; input [ 4 ] = in [ 4 ] + in [ 11 ] ; input [ 5 ] = in [ 5 ] + in [ 10 ] ; input [ 6 ] = in [ 6 ] + in [ 9 ] ; input [ 7 ] = in [ 7 ] + in [ 8 ] ; step1 [ 0 ] = in [ 7 ] - in [ 8 ] ; step1 [ 1 ] = in [ 6 ] - in [ 9 ] ; step1 [ 2 ] = in [ 5 ] - in [ 10 ] ; step1 [ 3 ] = in [ 4 ] - in [ 11 ] ; step1 [ 4 ] = in [ 3 ] - in [ 12 ] ; step1 [ 5 ] = in [ 2 ] - in [ 13 ] ; step1 [ 6 ] = in [ 1 ] - in [ 14 ] ; step1 [ 7 ] = in [ 0 ] - in [ 15 ] ; { tran_high_t s0 , s1 , s2 , s3 , s4 , s5 , s6 , s7 ; tran_high_t t0 , t1 , t2 , t3 ; tran_high_t x0 , x1 , x2 , x3 ; s0 = input [ 0 ] + input [ 7 ] ; s1 = input [ 1 ] + input [ 6 ] ; s2 = input [ 2 ] + input [ 5 ] ; s3 = input [ 3 ] + input [ 4 ] ; s4 = input [ 3 ] - input [ 4 ] ; s5 = input [ 2 ] - input [ 5 ] ; s6 = input [ 1 ] - input [ 6 ] ; s7 = input [ 0 ] - input [ 7 ] ; x0 = s0 + s3 ; x1 = s1 + s2 ; x2 = s1 - s2 ; x3 = s0 - s3 ; t0 = ( x0 + x1 ) * cospi_16_64 ; t1 = ( x0 - x1 ) * cospi_16_64 ; t2 = x3 * cospi_8_64 + x2 * cospi_24_64 ; t3 = x3 * cospi_24_64 - x2 * cospi_8_64 ; out [ 0 ] = ( tran_low_t ) fdct_round_shift ( t0 ) ; out [ 4 ] = ( tran_low_t ) fdct_round_shift ( t2 ) ; out [ 8 ] = ( tran_low_t ) fdct_round_shift ( t1 ) ; out [ 12 ] = ( tran_low_t ) fdct_round_shift ( t3 ) ; t0 = ( s6 - s5 ) * cospi_16_64 ; t1 = ( s6 + s5 ) * cospi_16_64 ; t2 = fdct_round_shift ( t0 ) ; t3 = fdct_round_shift ( t1 ) ; x0 = s4 + t2 ; x1 = s4 - t2 ; x2 = s7 - t3 ; x3 = s7 + t3 ; t0 = x0 * cospi_28_64 + x3 * cospi_4_64 ; t1 = x1 * cospi_12_64 + x2 * cospi_20_64 ; t2 = x2 * cospi_12_64 + x1 * - cospi_20_64 ; t3 = x3 * cospi_28_64 + x0 * - cospi_4_64 ; out [ 2 ] = ( tran_low_t ) fdct_round_shift ( t0 ) ; out [ 6 ] = ( tran_low_t ) fdct_round_shift ( t2 ) ; out [ 10 ] = ( tran_low_t ) fdct_round_shift ( t1 ) ; out [ 14 ] = ( tran_low_t ) fdct_round_shift ( t3 ) ; } temp1 = ( step1 [ 5 ] - step1 [ 2 ] ) * cospi_16_64 ; temp2 = ( step1 [ 4 ] - step1 [ 3 ] ) * cospi_16_64 ; step2 [ 2 ] = fdct_round_shift ( temp1 ) ; step2 [ 3 ] = fdct_round_shift ( temp2 ) ; temp1 = ( step1 [ 4 ] + step1 [ 3 ] ) * cospi_16_64 ; temp2 = ( step1 [ 5 ] + step1 [ 2 ] ) * cospi_16_64 ; step2 [ 4 ] = fdct_round_shift ( temp1 ) ; step2 [ 5 ] = fdct_round_shift ( temp2 ) ; step3 [ 0 ] = step1 [ 0 ] + step2 [ 3 ] ; step3 [ 1 ] = step1 [ 1 ] + step2 [ 2 ] ; step3 [ 2 ] = step1 [ 1 ] - step2 [ 2 ] ; step3 [ 3 ] = step1 [ 0 ] - step2 [ 3 ] ; step3 [ 4 ] = step1 [ 7 ] - step2 [ 4 ] ; step3 [ 5 ] = step1 [ 6 ] - step2 [ 5 ] ; step3 [ 6 ] = step1 [ 6 ] + step2 [ 5 ] ; step3 [ 7 ] = step1 [ 7 ] + step2 [ 4 ] ; temp1 = step3 [ 1 ] * - cospi_8_64 + step3 [ 6 ] * cospi_24_64 ; temp2 = step3 [ 2 ] * cospi_24_64 + step3 [ 5 ] * cospi_8_64 ; step2 [ 1 ] = fdct_round_shift ( temp1 ) ; step2 [ 2 ] = fdct_round_shift ( temp2 ) ; temp1 = step3 [ 2 ] * cospi_8_64 - step3 [ 5 ] * cospi_24_64 ; temp2 = step3 [ 1 ] * cospi_24_64 + step3 [ 6 ] * cospi_8_64 ; step2 [ 5 ] = fdct_round_shift ( temp1 ) ; step2 [ 6 ] = fdct_round_shift ( temp2 ) ; step1 [ 0 ] = step3 [ 0 ] + step2 [ 1 ] ; step1 [ 1 ] = step3 [ 0 ] - step2 [ 1 ] ; step1 [ 2 ] = step3 [ 3 ] + step2 [ 2 ] ; step1 [ 3 ] = step3 [ 3 ] - step2 [ 2 ] ; step1 [ 4 ] = step3 [ 4 ] - step2 [ 5 ] ; step1 [ 5 ] = step3 [ 4 ] + step2 [ 5 ] ; step1 [ 6 ] = step3 [ 7 ] - step2 [ 6 ] ; step1 [ 7 ] = step3 [ 7 ] + step2 [ 6 ] ; temp1 = step1 [ 0 ] * cospi_30_64 + step1 [ 7 ] * cospi_2_64 ; temp2 = step1 [ 1 ] * cospi_14_64 + step1 [ 6 ] * cospi_18_64 ; out [ 1 ] = ( tran_low_t ) fdct_round_shift ( temp1 ) ; out [ 9 ] = ( tran_low_t ) fdct_round_shift ( temp2 ) ; temp1 = step1 [ 2 ] * cospi_22_64 + step1 [ 5 ] * cospi_10_64 ; temp2 = step1 [ 3 ] * cospi_6_64 + step1 [ 4 ] * cospi_26_64 ; out [ 5 ] = ( tran_low_t ) fdct_round_shift ( temp1 ) ; out [ 13 ] = ( tran_low_t ) fdct_round_shift ( temp2 ) ; temp1 = step1 [ 3 ] * - cospi_26_64 + step1 [ 4 ] * cospi_6_64 ; temp2 = step1 [ 2 ] * - cospi_10_64 + step1 [ 5 ] * cospi_22_64 ; out [ 3 ] = ( tran_low_t ) fdct_round_shift ( temp1 ) ; out [ 11 ] = ( tran_low_t ) fdct_round_shift ( temp2 ) ; temp1 = step1 [ 1 ] * - cospi_18_64 + step1 [ 6 ] * cospi_14_64 ; temp2 = step1 [ 0 ] * - cospi_2_64 + step1 [ 7 ] * cospi_30_64 ; out [ 7 ] = ( tran_low_t ) fdct_round_shift ( temp1 ) ; out [ 15 ] = ( tran_low_t ) fdct_round_shift ( temp2 ) ; }" 1053,"CWE-20 static void print_maps ( struct pid_info_t * info ) { FILE * maps ; size_t offset ; char device [ 10 ] ; long int inode ; char file [ PATH_MAX ] ; strlcat ( info -> path , ""maps"" , sizeof ( info -> path ) ) ; maps = fopen ( info -> path , ""r"" ) ; if ( ! maps ) goto out ; while ( fscanf ( maps , ""%*x-%*x %*s %zx %s %ld %s\\n"" , & offset , device , & inode , file ) == 4 ) { if ( inode == 0 || ! strcmp ( device , ""00:00"" ) ) continue ; printf ( ""%-9s %5d %10s %4s %9s %18s %9zd %10ld %s\\n"" , info -> cmdline , info -> pid , info -> user , ""mem"" , ""???"" , device , offset , inode , file ) ; } fclose ( maps ) ; out : info -> path [ info -> parent_length ] = '\\0' ; }","static void print_maps ( struct pid_info_t * info ) { FILE * maps ; size_t offset ; char device [ 10 ] ; long int inode ; char file [ 1024 ] ; strlcat ( info -> path , ""maps"" , sizeof ( info -> path ) ) ; maps = fopen ( info -> path , ""r"" ) ; if ( ! maps ) goto out ; while ( fscanf ( maps , ""%*x-%*x %*s %zx %5s %ld %1023s\\n"" , & offset , device , & inode , file ) == 4 ) { if ( inode == 0 || ! strcmp ( device , ""00:00"" ) ) continue ; printf ( ""%-9s %5d %10s %4s %9s %18s %9zd %10ld %s\\n"" , info -> cmdline , info -> pid , info -> user , ""mem"" , ""???"" , device , offset , inode , file ) ; } fclose ( maps ) ; out : info -> path [ info -> parent_length ] = '\\0' ; }" 1054,"CWE-125 int write_output ( void ) { int fd ; struct filter_op * fop ; struct filter_header fh ; size_t ninst , i ; u_char * data ; ninst = compile_tree ( & fop ) ; if ( fop == NULL ) return - E_NOTHANDLED ; fd = open ( EF_GBL_OPTIONS -> output_file , O_CREAT | O_RDWR | O_TRUNC | O_BINARY , 0644 ) ; ON_ERROR ( fd , - 1 , ""Can\'t create file %s"" , EF_GBL_OPTIONS -> output_file ) ; fprintf ( stdout , "" Writing output to \\\'%s\\\' "" , EF_GBL_OPTIONS -> output_file ) ; fflush ( stdout ) ; fh . magic = htons ( EC_FILTER_MAGIC ) ; strncpy ( fh . version , EC_VERSION , sizeof ( fh . version ) ) ; fh . data = sizeof ( fh ) ; data = create_data_segment ( & fh , fop , ninst ) ; write ( fd , & fh , sizeof ( struct filter_header ) ) ; write ( fd , data , fh . code - fh . data ) ; for ( i = 0 ; i <= ninst ; i ++ ) { print_progress_bar ( & fop [ i ] ) ; write ( fd , & fop [ i ] , sizeof ( struct filter_op ) ) ; } close ( fd ) ; fprintf ( stdout , "" done.\\n\\n"" ) ; fprintf ( stdout , "" -> Script encoded into %d instructions.\\n\\n"" , ( int ) ( i - 1 ) ) ; return E_SUCCESS ; }","int write_output ( void ) { int fd ; struct filter_op * fop ; struct filter_header fh ; size_t ninst , i ; u_char * data ; ninst = compile_tree ( & fop ) ; if ( fop == NULL ) return - E_NOTHANDLED ; if ( ninst == 0 ) return - E_INVALID ; fd = open ( EF_GBL_OPTIONS -> output_file , O_CREAT | O_RDWR | O_TRUNC | O_BINARY , 0644 ) ; ON_ERROR ( fd , - 1 , ""Can\'t create file %s"" , EF_GBL_OPTIONS -> output_file ) ; fprintf ( stdout , "" Writing output to \\\'%s\\\' "" , EF_GBL_OPTIONS -> output_file ) ; fflush ( stdout ) ; fh . magic = htons ( EC_FILTER_MAGIC ) ; strncpy ( fh . version , EC_VERSION , sizeof ( fh . version ) ) ; fh . data = sizeof ( fh ) ; data = create_data_segment ( & fh , fop , ninst ) ; write ( fd , & fh , sizeof ( struct filter_header ) ) ; write ( fd , data , fh . code - fh . data ) ; for ( i = 0 ; i <= ninst ; i ++ ) { print_progress_bar ( & fop [ i ] ) ; write ( fd , & fop [ i ] , sizeof ( struct filter_op ) ) ; } close ( fd ) ; fprintf ( stdout , "" done.\\n\\n"" ) ; fprintf ( stdout , "" -> Script encoded into %d instructions.\\n\\n"" , ( int ) ( i - 1 ) ) ; return E_SUCCESS ; }" 1055,"CWE-119 void vp8_pick_intra_mode ( MACROBLOCK * x , int * rate_ ) { int error4x4 , error16x16 = INT_MAX ; int rate , best_rate = 0 , distortion , best_sse ; MB_PREDICTION_MODE mode , best_mode = DC_PRED ; int this_rd ; unsigned int sse ; BLOCK * b = & x -> block [ 0 ] ; MACROBLOCKD * xd = & x -> e_mbd ; xd -> mode_info_context -> mbmi . ref_frame = INTRA_FRAME ; pick_intra_mbuv_mode ( x ) ; for ( mode = DC_PRED ; mode <= TM_PRED ; mode ++ ) { xd -> mode_info_context -> mbmi . mode = mode ; vp8_build_intra_predictors_mby_s ( xd , xd -> dst . y_buffer - xd -> dst . y_stride , xd -> dst . y_buffer - 1 , xd -> dst . y_stride , xd -> predictor , 16 ) ; distortion = vp8_variance16x16 ( * ( b -> base_src ) , b -> src_stride , xd -> predictor , 16 , & sse ) ; rate = x -> mbmode_cost [ xd -> frame_type ] [ mode ] ; this_rd = RDCOST ( x -> rdmult , x -> rddiv , rate , distortion ) ; if ( error16x16 > this_rd ) { error16x16 = this_rd ; best_mode = mode ; best_sse = sse ; best_rate = rate ; } } xd -> mode_info_context -> mbmi . mode = best_mode ; error4x4 = pick_intra4x4mby_modes ( x , & rate , & best_sse ) ; if ( error4x4 < error16x16 ) { xd -> mode_info_context -> mbmi . mode = B_PRED ; best_rate = rate ; } * rate_ = best_rate ; }","void vp8_pick_intra_mode ( MACROBLOCK * x , int * rate_ ) { int error4x4 , error16x16 = INT_MAX ; int rate , best_rate = 0 , distortion , best_sse ; MB_PREDICTION_MODE mode , best_mode = DC_PRED ; int this_rd ; unsigned int sse ; BLOCK * b = & x -> block [ 0 ] ; MACROBLOCKD * xd = & x -> e_mbd ; xd -> mode_info_context -> mbmi . ref_frame = INTRA_FRAME ; pick_intra_mbuv_mode ( x ) ; for ( mode = DC_PRED ; mode <= TM_PRED ; mode ++ ) { xd -> mode_info_context -> mbmi . mode = mode ; vp8_build_intra_predictors_mby_s ( xd , xd -> dst . y_buffer - xd -> dst . y_stride , xd -> dst . y_buffer - 1 , xd -> dst . y_stride , xd -> predictor , 16 ) ; distortion = vpx_variance16x16 ( * ( b -> base_src ) , b -> src_stride , xd -> predictor , 16 , & sse ) ; rate = x -> mbmode_cost [ xd -> frame_type ] [ mode ] ; this_rd = RDCOST ( x -> rdmult , x -> rddiv , rate , distortion ) ; if ( error16x16 > this_rd ) { error16x16 = this_rd ; best_mode = mode ; best_sse = sse ; best_rate = rate ; } } xd -> mode_info_context -> mbmi . mode = best_mode ; error4x4 = pick_intra4x4mby_modes ( x , & rate , & best_sse ) ; if ( error4x4 < error16x16 ) { xd -> mode_info_context -> mbmi . mode = B_PRED ; best_rate = rate ; } * rate_ = best_rate ; }" 1056,"CWE-352 static void _send ( Socket_T S , const char * request , StringBuffer_T data ) { _argument ( data , ""format"" , ""text"" ) ; char * _auth = _getBasicAuthHeader ( ) ; int rv = Socket_print ( S , ""POST %s HTTP/1.0\\r\\n"" ""Content-Type: application/x-www-form-urlencoded\\r\\n"" ""Content-Length: %d\\r\\n"" ""%s"" ""\\r\\n"" ""%s"" , request , StringBuffer_length ( data ) , _auth ? _auth : """" , StringBuffer_toString ( data ) ) ; FREE ( _auth ) ; if ( rv < 0 ) THROW ( IOException , ""Monit: cannot send command to the monit daemon -- %s"" , STRERROR ) ; }","static void _send ( Socket_T S , const char * request , StringBuffer_T data ) { _argument ( data , ""format"" , ""text"" ) ; char * _auth = _getBasicAuthHeader ( ) ; MD_T token ; StringBuffer_append ( data , ""%ssecuritytoken=%s"" , StringBuffer_length ( data ) > 0 ? ""&"" : """" , Util_getToken ( token ) ) ; int rv = Socket_print ( S , ""POST %s HTTP/1.0\\r\\n"" ""Content-Type: application/x-www-form-urlencoded\\r\\n"" ""Cookie: securitytoken=%s\\r\\n"" ""Content-Length: %d\\r\\n"" ""%s"" ""\\r\\n"" ""%s"" , request , token , StringBuffer_length ( data ) , _auth ? _auth : """" , StringBuffer_toString ( data ) ) ; FREE ( _auth ) ; if ( rv < 0 ) THROW ( IOException , ""Monit: cannot send command to the monit daemon -- %s"" , STRERROR ) ; }" 1057,"CWE-617 return ENOMEM ; pos = packet ; if ( ! ( POKE_BYTES ( mcastaddr , sizeof ( mcastaddr ) ) && POKE_BYTES ( & hardware -> h_lladdr , ETHER_ADDR_LEN ) && POKE_UINT16 ( ETHERTYPE_LLDP ) ) ) goto toobig ; if ( ! ( POKE_START_LLDP_TLV ( LLDP_TLV_CHASSIS_ID ) && POKE_UINT8 ( c_id_subtype ) && POKE_BYTES ( c_id , c_id_len ) && POKE_END_LLDP_TLV ) ) goto toobig ; if ( ! ( POKE_START_LLDP_TLV ( LLDP_TLV_PORT_ID ) && POKE_UINT8 ( p_id_subtype ) && POKE_BYTES ( p_id , p_id_len ) && POKE_END_LLDP_TLV ) ) goto toobig ; if ( ! ( POKE_START_LLDP_TLV ( LLDP_TLV_TTL ) && POKE_UINT16 ( shutdown ? 0 : chassis -> c_ttl ) && POKE_END_LLDP_TLV ) ) goto toobig ; if ( shutdown ) goto end ; if ( chassis -> c_name && * chassis -> c_name != '\\0' ) { if ( ! ( POKE_START_LLDP_TLV ( LLDP_TLV_SYSTEM_NAME ) && POKE_BYTES ( chassis -> c_name , strlen ( chassis -> c_name ) ) && POKE_END_LLDP_TLV ) ) goto toobig ; } if ( chassis -> c_descr && * chassis -> c_descr != '\\0' ) { if ( ! ( POKE_START_LLDP_TLV ( LLDP_TLV_SYSTEM_DESCR ) && POKE_BYTES ( chassis -> c_descr , strlen ( chassis -> c_descr ) ) && POKE_END_LLDP_TLV ) ) goto toobig ; } if ( global -> g_config . c_cap_advertise && chassis -> c_cap_available ) { if ( ! ( POKE_START_LLDP_TLV ( LLDP_TLV_SYSTEM_CAP ) && POKE_UINT16 ( chassis -> c_cap_available ) && POKE_UINT16 ( chassis -> c_cap_enabled ) && POKE_END_LLDP_TLV ) ) goto toobig ; } TAILQ_FOREACH ( mgmt , & chassis -> c_mgmt , m_entries ) { proto = lldpd_af_to_lldp_proto ( mgmt -> m_family ) ; assert ( proto != LLDP_MGMT_ADDR_NONE ) ; if ( ! ( POKE_START_LLDP_TLV ( LLDP_TLV_MGMT_ADDR ) && POKE_UINT8 ( mgmt -> m_addrsize + 1 ) && POKE_UINT8 ( proto ) && POKE_BYTES ( & mgmt -> m_addr , mgmt -> m_addrsize ) ) ) goto toobig ; if ( mgmt -> m_iface == 0 ) { if ( ! ( POKE_UINT8 ( LLDP_MGMT_IFACE_UNKNOWN ) && POKE_UINT32 ( 0 ) ) ) goto toobig ; } else { if ( ! ( POKE_UINT8 ( LLDP_MGMT_IFACE_IFINDEX ) && POKE_UINT32 ( mgmt -> m_iface ) ) ) goto toobig ; } if ( ! ( POKE_UINT8 ( 0 ) && POKE_END_LLDP_TLV ) ) goto toobig ; } if ( port -> p_descr && * port -> p_descr != '\\0' ) { if ( ! ( POKE_START_LLDP_TLV ( LLDP_TLV_PORT_DESCR ) && POKE_BYTES ( port -> p_descr , strlen ( port -> p_descr ) ) && POKE_END_LLDP_TLV ) ) goto toobig ; } # ifdef ENABLE_DOT1 if ( port -> p_pvid != 0 ) { if ( ! ( POKE_START_LLDP_TLV ( LLDP_TLV_ORG ) && POKE_BYTES ( dot1 , sizeof ( dot1 ) ) && POKE_UINT8 ( LLDP_TLV_DOT1_PVID ) && POKE_UINT16 ( port -> p_pvid ) && POKE_END_LLDP_TLV ) ) { goto toobig ; } } TAILQ_FOREACH ( ppvid , & port -> p_ppvids , p_entries ) { if ( ! ( POKE_START_LLDP_TLV ( LLDP_TLV_ORG ) && POKE_BYTES ( dot1 , sizeof ( dot1 ) ) && POKE_UINT8 ( LLDP_TLV_DOT1_PPVID ) && POKE_UINT8 ( ppvid -> p_cap_status ) && POKE_UINT16 ( ppvid -> p_ppvid ) && POKE_END_LLDP_TLV ) ) { goto toobig ; }","return ENOMEM ; pos = packet ; if ( ! ( POKE_BYTES ( mcastaddr , sizeof ( mcastaddr ) ) && POKE_BYTES ( & hardware -> h_lladdr , ETHER_ADDR_LEN ) && POKE_UINT16 ( ETHERTYPE_LLDP ) ) ) goto toobig ; if ( ! ( POKE_START_LLDP_TLV ( LLDP_TLV_CHASSIS_ID ) && POKE_UINT8 ( c_id_subtype ) && POKE_BYTES ( c_id , c_id_len ) && POKE_END_LLDP_TLV ) ) goto toobig ; if ( ! ( POKE_START_LLDP_TLV ( LLDP_TLV_PORT_ID ) && POKE_UINT8 ( p_id_subtype ) && POKE_BYTES ( p_id , p_id_len ) && POKE_END_LLDP_TLV ) ) goto toobig ; if ( ! ( POKE_START_LLDP_TLV ( LLDP_TLV_TTL ) && POKE_UINT16 ( shutdown ? 0 : chassis -> c_ttl ) && POKE_END_LLDP_TLV ) ) goto toobig ; if ( shutdown ) goto end ; if ( chassis -> c_name && * chassis -> c_name != '\\0' ) { if ( ! ( POKE_START_LLDP_TLV ( LLDP_TLV_SYSTEM_NAME ) && POKE_BYTES ( chassis -> c_name , strlen ( chassis -> c_name ) ) && POKE_END_LLDP_TLV ) ) goto toobig ; } if ( chassis -> c_descr && * chassis -> c_descr != '\\0' ) { if ( ! ( POKE_START_LLDP_TLV ( LLDP_TLV_SYSTEM_DESCR ) && POKE_BYTES ( chassis -> c_descr , strlen ( chassis -> c_descr ) ) && POKE_END_LLDP_TLV ) ) goto toobig ; } if ( global -> g_config . c_cap_advertise && chassis -> c_cap_available ) { if ( ! ( POKE_START_LLDP_TLV ( LLDP_TLV_SYSTEM_CAP ) && POKE_UINT16 ( chassis -> c_cap_available ) && POKE_UINT16 ( chassis -> c_cap_enabled ) && POKE_END_LLDP_TLV ) ) goto toobig ; } TAILQ_FOREACH ( mgmt , & chassis -> c_mgmt , m_entries ) { proto = lldpd_af_to_lldp_proto ( mgmt -> m_family ) ; if ( proto == LLDP_MGMT_ADDR_NONE ) continue ; if ( ! ( POKE_START_LLDP_TLV ( LLDP_TLV_MGMT_ADDR ) && POKE_UINT8 ( mgmt -> m_addrsize + 1 ) && POKE_UINT8 ( proto ) && POKE_BYTES ( & mgmt -> m_addr , mgmt -> m_addrsize ) ) ) goto toobig ; if ( mgmt -> m_iface == 0 ) { if ( ! ( POKE_UINT8 ( LLDP_MGMT_IFACE_UNKNOWN ) && POKE_UINT32 ( 0 ) ) ) goto toobig ; } else { if ( ! ( POKE_UINT8 ( LLDP_MGMT_IFACE_IFINDEX ) && POKE_UINT32 ( mgmt -> m_iface ) ) ) goto toobig ; } if ( ! ( POKE_UINT8 ( 0 ) && POKE_END_LLDP_TLV ) ) goto toobig ; } if ( port -> p_descr && * port -> p_descr != '\\0' ) { if ( ! ( POKE_START_LLDP_TLV ( LLDP_TLV_PORT_DESCR ) && POKE_BYTES ( port -> p_descr , strlen ( port -> p_descr ) ) && POKE_END_LLDP_TLV ) ) goto toobig ; } # ifdef ENABLE_DOT1 if ( port -> p_pvid != 0 ) { if ( ! ( POKE_START_LLDP_TLV ( LLDP_TLV_ORG ) && POKE_BYTES ( dot1 , sizeof ( dot1 ) ) && POKE_UINT8 ( LLDP_TLV_DOT1_PVID ) && POKE_UINT16 ( port -> p_pvid ) && POKE_END_LLDP_TLV ) ) { goto toobig ; } } TAILQ_FOREACH ( ppvid , & port -> p_ppvids , p_entries ) { if ( ! ( POKE_START_LLDP_TLV ( LLDP_TLV_ORG ) && POKE_BYTES ( dot1 , sizeof ( dot1 ) ) && POKE_UINT8 ( LLDP_TLV_DOT1_PPVID ) && POKE_UINT8 ( ppvid -> p_cap_status ) && POKE_UINT16 ( ppvid -> p_ppvid ) && POKE_END_LLDP_TLV ) ) { goto toobig ; }" 1058,"CWE-399 static void perf_event_interrupt ( struct pt_regs * regs ) { int i ; struct cpu_hw_events * cpuhw = & __get_cpu_var ( cpu_hw_events ) ; struct perf_event * event ; unsigned long val ; int found = 0 ; int nmi ; if ( cpuhw -> n_limited ) freeze_limited_counters ( cpuhw , mfspr ( SPRN_PMC5 ) , mfspr ( SPRN_PMC6 ) ) ; perf_read_regs ( regs ) ; nmi = perf_intr_is_nmi ( regs ) ; if ( nmi ) nmi_enter ( ) ; else irq_enter ( ) ; for ( i = 0 ; i < cpuhw -> n_events ; ++ i ) { event = cpuhw -> event [ i ] ; if ( ! event -> hw . idx || is_limited_pmc ( event -> hw . idx ) ) continue ; val = read_pmc ( event -> hw . idx ) ; if ( ( int ) val < 0 ) { found = 1 ; record_and_restart ( event , val , regs , nmi ) ; } } if ( ! found ) { for ( i = 0 ; i < ppmu -> n_counter ; ++ i ) { if ( is_limited_pmc ( i + 1 ) ) continue ; val = read_pmc ( i + 1 ) ; if ( pmc_overflow ( val ) ) write_pmc ( i + 1 , 0 ) ; } } write_mmcr0 ( cpuhw , cpuhw -> mmcr [ 0 ] ) ; if ( nmi ) nmi_exit ( ) ; else irq_exit ( ) ; }","static void perf_event_interrupt ( struct pt_regs * regs ) { int i ; struct cpu_hw_events * cpuhw = & __get_cpu_var ( cpu_hw_events ) ; struct perf_event * event ; unsigned long val ; int found = 0 ; int nmi ; if ( cpuhw -> n_limited ) freeze_limited_counters ( cpuhw , mfspr ( SPRN_PMC5 ) , mfspr ( SPRN_PMC6 ) ) ; perf_read_regs ( regs ) ; nmi = perf_intr_is_nmi ( regs ) ; if ( nmi ) nmi_enter ( ) ; else irq_enter ( ) ; for ( i = 0 ; i < cpuhw -> n_events ; ++ i ) { event = cpuhw -> event [ i ] ; if ( ! event -> hw . idx || is_limited_pmc ( event -> hw . idx ) ) continue ; val = read_pmc ( event -> hw . idx ) ; if ( ( int ) val < 0 ) { found = 1 ; record_and_restart ( event , val , regs ) ; } } if ( ! found ) { for ( i = 0 ; i < ppmu -> n_counter ; ++ i ) { if ( is_limited_pmc ( i + 1 ) ) continue ; val = read_pmc ( i + 1 ) ; if ( pmc_overflow ( val ) ) write_pmc ( i + 1 , 0 ) ; } } write_mmcr0 ( cpuhw , cpuhw -> mmcr [ 0 ] ) ; if ( nmi ) nmi_exit ( ) ; else irq_exit ( ) ; }" 1059,"CWE-416 static ssize_t bsg_write ( struct file * file , const char __user * buf , size_t count , loff_t * ppos ) { struct bsg_device * bd = file -> private_data ; ssize_t bytes_written ; int ret ; dprintk ( ""%s: write %Zd bytes\\n"" , bd -> name , count ) ; bsg_set_block ( bd , file ) ; bytes_written = 0 ; ret = __bsg_write ( bd , buf , count , & bytes_written , file -> f_mode & FMODE_WRITE ) ; * ppos = bytes_written ; if ( ! bytes_written || err_block_err ( ret ) ) bytes_written = ret ; dprintk ( ""%s: returning %Zd\\n"" , bd -> name , bytes_written ) ; return bytes_written ; }","static ssize_t bsg_write ( struct file * file , const char __user * buf , size_t count , loff_t * ppos ) { struct bsg_device * bd = file -> private_data ; ssize_t bytes_written ; int ret ; dprintk ( ""%s: write %Zd bytes\\n"" , bd -> name , count ) ; if ( unlikely ( segment_eq ( get_fs ( ) , KERNEL_DS ) ) ) return - EINVAL ; bsg_set_block ( bd , file ) ; bytes_written = 0 ; ret = __bsg_write ( bd , buf , count , & bytes_written , file -> f_mode & FMODE_WRITE ) ; * ppos = bytes_written ; if ( ! bytes_written || err_block_err ( ret ) ) bytes_written = ret ; dprintk ( ""%s: returning %Zd\\n"" , bd -> name , bytes_written ) ; return bytes_written ; }" 1060,"CWE-20 SSL_R_WRONG_VERSION_NUMBER ) ; al = SSL_AD_PROTOCOL_VERSION ; goto f_err ; } } if ( rr [ num_recs ] . length > SSL3_BUFFER_get_len ( rbuf ) - SSL3_RT_HEADER_LENGTH ) { al = SSL_AD_RECORD_OVERFLOW ; SSLerr ( SSL_F_SSL3_GET_RECORD , SSL_R_PACKET_LENGTH_TOO_LONG ) ; goto f_err ; } } } if ( rr [ num_recs ] . rec_version == SSL2_VERSION ) { i = rr [ num_recs ] . length + SSL2_RT_HEADER_LENGTH SSL3_RT_HEADER_LENGTH ; } else { i = rr [ num_recs ] . length ; } if ( i > 0 ) { n = ssl3_read_n ( s , i , i , 1 , 0 ) ; if ( n <= 0 ) return ( n ) ; } RECORD_LAYER_set_rstate ( & s -> rlayer , SSL_ST_READ_HEADER ) ; if ( rr [ num_recs ] . rec_version == SSL2_VERSION ) { rr [ num_recs ] . input = & ( RECORD_LAYER_get_packet ( & s -> rlayer ) [ SSL2_RT_HEADER_LENGTH ] ) ; } else { rr [ num_recs ] . input = & ( RECORD_LAYER_get_packet ( & s -> rlayer ) [ SSL3_RT_HEADER_LENGTH ] ) ; } if ( rr [ num_recs ] . length > SSL3_RT_MAX_ENCRYPTED_LENGTH ) { al = SSL_AD_RECORD_OVERFLOW ; SSLerr ( SSL_F_SSL3_GET_RECORD , SSL_R_ENCRYPTED_LENGTH_TOO_LONG ) ; goto f_err ; } rr [ num_recs ] . data = rr [ num_recs ] . input ; rr [ num_recs ] . orig_len = rr [ num_recs ] . length ; rr [ num_recs ] . read = 0 ; num_recs ++ ; RECORD_LAYER_reset_packet_length ( & s -> rlayer ) ; RECORD_LAYER_clear_first_record ( & s -> rlayer ) ; } while ( num_recs < max_recs && rr [ num_recs - 1 ] . type == SSL3_RT_APPLICATION_DATA && SSL_USE_EXPLICIT_IV ( s ) && s -> enc_read_ctx != NULL && ( EVP_CIPHER_flags ( EVP_CIPHER_CTX_cipher ( s -> enc_read_ctx ) ) & EVP_CIPH_FLAG_PIPELINE ) && ssl3_record_app_data_waiting ( s ) ) ; if ( SSL_USE_ETM ( s ) && s -> read_hash ) { unsigned char * mac ; mac_size = EVP_MD_CTX_size ( s -> read_hash ) ; OPENSSL_assert ( mac_size <= EVP_MAX_MD_SIZE ) ; for ( j = 0 ; j < num_recs ; j ++ ) { if ( rr [ j ] . length < mac_size ) { al = SSL_AD_DECODE_ERROR ; SSLerr ( SSL_F_SSL3_GET_RECORD , SSL_R_LENGTH_TOO_SHORT ) ; goto f_err ; } rr [ j ] . length -= mac_size ; mac = rr [ j ] . data + rr [ j ] . length ; i = s -> method -> ssl3_enc -> mac ( s , & rr [ j ] , md , 0 ) ; if ( i < 0 || CRYPTO_memcmp ( md , mac , ( size_t ) mac_size ) != 0 ) { al = SSL_AD_BAD_RECORD_MAC ; SSLerr ( SSL_F_SSL3_GET_RECORD , SSL_R_DECRYPTION_FAILED_OR_BAD_RECORD_MAC ) ; goto f_err ; } } } enc_err = s -> method -> ssl3_enc -> enc ( s , rr , num_recs , 0 ) ; if ( enc_err == 0 ) { al = SSL_AD_DECRYPTION_FAILED ; SSLerr ( SSL_F_SSL3_GET_RECORD , SSL_R_BLOCK_CIPHER_PAD_IS_WRONG ) ; goto f_err ; } # ifdef SSL_DEBUG printf ( ""dec %d\\n"" , rr -> length ) ; { unsigned int z ; for ( z = 0 ; z < rr -> length ; z ++ ) printf ( ""%02X%c"" , rr -> data [ z ] , ( ( z + 1 ) % 16 ) ? ' ' : '\\n' ) ; } printf ( ""\\n"" ) ; # endif if ( ( sess != NULL ) && ( s -> enc_read_ctx != NULL ) && ( EVP_MD_CTX_md ( s -> read_hash ) != NULL ) && ! SSL_USE_ETM ( s ) ) { unsigned char * mac = NULL ; unsigned char mac_tmp [ EVP_MAX_MD_SIZE ] ; mac_size = EVP_MD_CTX_size ( s -> read_hash ) ; OPENSSL_assert ( mac_size <= EVP_MAX_MD_SIZE ) ; for ( j = 0 ; j < num_recs ; j ++ ) { if ( rr [ j ] . orig_len < mac_size || ( EVP_CIPHER_CTX_mode ( s -> enc_read_ctx ) == EVP_CIPH_CBC_MODE && rr [ j ] . orig_len < mac_size + 1 ) ) { al = SSL_AD_DECODE_ERROR ; SSLerr ( SSL_F_SSL3_GET_RECORD , SSL_R_LENGTH_TOO_SHORT ) ; goto f_err ; } if ( EVP_CIPHER_CTX_mode ( s -> enc_read_ctx ) == EVP_CIPH_CBC_MODE ) { mac = mac_tmp ; ssl3_cbc_copy_mac ( mac_tmp , & rr [ j ] , mac_size ) ; rr [ j ] . length -= mac_size ; } else { rr [ j ] . length -= mac_size ; mac = & rr [ j ] . data [ rr [ j ] . length ] ; } i = s -> method -> ssl3_enc -> mac ( s , & rr [ j ] , md , 0 ) ; if ( i < 0 || mac == NULL || CRYPTO_memcmp ( md , mac , ( size_t ) mac_size ) != 0 ) enc_err = - 1 ; if ( rr -> length > SSL3_RT_MAX_COMPRESSED_LENGTH + mac_size ) enc_err = - 1 ; } } if ( enc_err < 0 ) { al = SSL_AD_BAD_RECORD_MAC ; SSLerr ( SSL_F_SSL3_GET_RECORD , SSL_R_DECRYPTION_FAILED_OR_BAD_RECORD_MAC ) ; goto f_err ; } for ( j = 0 ; j < num_recs ; j ++ ) { if ( s -> expand != NULL ) { if ( rr [ j ] . length > SSL3_RT_MAX_COMPRESSED_LENGTH ) { al = SSL_AD_RECORD_OVERFLOW ; SSLerr ( SSL_F_SSL3_GET_RECORD , SSL_R_COMPRESSED_LENGTH_TOO_LONG ) ; goto f_err ; } if ( ! ssl3_do_uncompress ( s , & rr [ j ] ) ) { al = SSL_AD_DECOMPRESSION_FAILURE ; SSLerr ( SSL_F_SSL3_GET_RECORD , SSL_R_BAD_DECOMPRESSION ) ; goto f_err ; } } if ( rr [ j ] . length > SSL3_RT_MAX_PLAIN_LENGTH ) { al = SSL_AD_RECORD_OVERFLOW ; SSLerr ( SSL_F_SSL3_GET_RECORD , SSL_R_DATA_LENGTH_TOO_LONG ) ;","SSL_R_WRONG_VERSION_NUMBER ) ; al = SSL_AD_PROTOCOL_VERSION ; goto f_err ; } } if ( rr [ num_recs ] . length > SSL3_BUFFER_get_len ( rbuf ) - SSL3_RT_HEADER_LENGTH ) { al = SSL_AD_RECORD_OVERFLOW ; SSLerr ( SSL_F_SSL3_GET_RECORD , SSL_R_PACKET_LENGTH_TOO_LONG ) ; goto f_err ; } } } if ( rr [ num_recs ] . rec_version == SSL2_VERSION ) { i = rr [ num_recs ] . length + SSL2_RT_HEADER_LENGTH } else { i = rr [ num_recs ] . length ; } if ( i > 0 ) { n = ssl3_read_n ( s , i , i , 1 , 0 ) ; if ( n <= 0 ) return ( n ) ; } RECORD_LAYER_set_rstate ( & s -> rlayer , SSL_ST_READ_HEADER ) ; if ( rr [ num_recs ] . rec_version == SSL2_VERSION ) { rr [ num_recs ] . input = & ( RECORD_LAYER_get_packet ( & s -> rlayer ) [ SSL2_RT_HEADER_LENGTH ] ) ; } else { rr [ num_recs ] . input = & ( RECORD_LAYER_get_packet ( & s -> rlayer ) [ SSL3_RT_HEADER_LENGTH ] ) ; } if ( rr [ num_recs ] . length > SSL3_RT_MAX_ENCRYPTED_LENGTH ) { al = SSL_AD_RECORD_OVERFLOW ; SSLerr ( SSL_F_SSL3_GET_RECORD , SSL_R_ENCRYPTED_LENGTH_TOO_LONG ) ; goto f_err ; } rr [ num_recs ] . data = rr [ num_recs ] . input ; rr [ num_recs ] . orig_len = rr [ num_recs ] . length ; rr [ num_recs ] . read = 0 ; num_recs ++ ; RECORD_LAYER_reset_packet_length ( & s -> rlayer ) ; RECORD_LAYER_clear_first_record ( & s -> rlayer ) ; } while ( num_recs < max_recs && rr [ num_recs - 1 ] . type == SSL3_RT_APPLICATION_DATA && SSL_USE_EXPLICIT_IV ( s ) && s -> enc_read_ctx != NULL && ( EVP_CIPHER_flags ( EVP_CIPHER_CTX_cipher ( s -> enc_read_ctx ) ) & EVP_CIPH_FLAG_PIPELINE ) && ssl3_record_app_data_waiting ( s ) ) ; if ( SSL_READ_ETM ( s ) && s -> read_hash ) { unsigned char * mac ; mac_size = EVP_MD_CTX_size ( s -> read_hash ) ; OPENSSL_assert ( mac_size <= EVP_MAX_MD_SIZE ) ; for ( j = 0 ; j < num_recs ; j ++ ) { if ( rr [ j ] . length < mac_size ) { al = SSL_AD_DECODE_ERROR ; SSLerr ( SSL_F_SSL3_GET_RECORD , SSL_R_LENGTH_TOO_SHORT ) ; goto f_err ; } rr [ j ] . length -= mac_size ; mac = rr [ j ] . data + rr [ j ] . length ; i = s -> method -> ssl3_enc -> mac ( s , & rr [ j ] , md , 0 ) ; if ( i < 0 || CRYPTO_memcmp ( md , mac , ( size_t ) mac_size ) != 0 ) { al = SSL_AD_BAD_RECORD_MAC ; SSLerr ( SSL_F_SSL3_GET_RECORD , SSL_R_DECRYPTION_FAILED_OR_BAD_RECORD_MAC ) ; goto f_err ; } } } enc_err = s -> method -> ssl3_enc -> enc ( s , rr , num_recs , 0 ) ; if ( enc_err == 0 ) { al = SSL_AD_DECRYPTION_FAILED ; SSLerr ( SSL_F_SSL3_GET_RECORD , SSL_R_BLOCK_CIPHER_PAD_IS_WRONG ) ; goto f_err ; } # ifdef SSL_DEBUG printf ( ""dec %d\\n"" , rr -> length ) ; { unsigned int z ; for ( z = 0 ; z < rr -> length ; z ++ ) printf ( ""%02X%c"" , rr -> data [ z ] , ( ( z + 1 ) % 16 ) ? ' ' : '\\n' ) ; } printf ( ""\\n"" ) ; # endif if ( ( sess != NULL ) && ( s -> enc_read_ctx != NULL ) && ( ! SSL_READ_ETM ( s ) && EVP_MD_CTX_md ( s -> read_hash ) != NULL ) ) { unsigned char * mac = NULL ; unsigned char mac_tmp [ EVP_MAX_MD_SIZE ] ; mac_size = EVP_MD_CTX_size ( s -> read_hash ) ; OPENSSL_assert ( mac_size <= EVP_MAX_MD_SIZE ) ; for ( j = 0 ; j < num_recs ; j ++ ) { if ( rr [ j ] . orig_len < mac_size || ( EVP_CIPHER_CTX_mode ( s -> enc_read_ctx ) == EVP_CIPH_CBC_MODE && rr [ j ] . orig_len < mac_size + 1 ) ) { al = SSL_AD_DECODE_ERROR ; SSLerr ( SSL_F_SSL3_GET_RECORD , SSL_R_LENGTH_TOO_SHORT ) ; goto f_err ; } if ( EVP_CIPHER_CTX_mode ( s -> enc_read_ctx ) == EVP_CIPH_CBC_MODE ) { mac = mac_tmp ; ssl3_cbc_copy_mac ( mac_tmp , & rr [ j ] , mac_size ) ; rr [ j ] . length -= mac_size ; } else { rr [ j ] . length -= mac_size ; mac = & rr [ j ] . data [ rr [ j ] . length ] ; } i = s -> method -> ssl3_enc -> mac ( s , & rr [ j ] , md , 0 ) ; if ( i < 0 || mac == NULL || CRYPTO_memcmp ( md , mac , ( size_t ) mac_size ) != 0 ) enc_err = - 1 ; if ( rr -> length > SSL3_RT_MAX_COMPRESSED_LENGTH + mac_size ) enc_err = - 1 ; } } if ( enc_err < 0 ) { al = SSL_AD_BAD_RECORD_MAC ; SSLerr ( SSL_F_SSL3_GET_RECORD , SSL_R_DECRYPTION_FAILED_OR_BAD_RECORD_MAC ) ; goto f_err ; } for ( j = 0 ; j < num_recs ; j ++ ) { if ( s -> expand != NULL ) { if ( rr [ j ] . length > SSL3_RT_MAX_COMPRESSED_LENGTH ) { al = SSL_AD_RECORD_OVERFLOW ; SSLerr ( SSL_F_SSL3_GET_RECORD , SSL_R_COMPRESSED_LENGTH_TOO_LONG ) ; goto f_err ; } if ( ! ssl3_do_uncompress ( s , & rr [ j ] ) ) { al = SSL_AD_DECOMPRESSION_FAILURE ; SSLerr ( SSL_F_SSL3_GET_RECORD , SSL_R_BAD_DECOMPRESSION ) ; goto f_err ; } } if ( rr [ j ] . length > SSL3_RT_MAX_PLAIN_LENGTH ) { al = SSL_AD_RECORD_OVERFLOW ; SSLerr ( SSL_F_SSL3_GET_RECORD , SSL_R_DATA_LENGTH_TOO_LONG ) ;" 1061,"CWE-264 int lxc_attach ( const char * name , const char * lxcpath , lxc_attach_exec_t exec_function , void * exec_payload , lxc_attach_options_t * options , pid_t * attached_process ) { int ret , status ; pid_t init_pid , pid , attached_pid , expected ; struct lxc_proc_context_info * init_ctx ; char * cwd ; char * new_cwd ; int ipc_sockets [ 2 ] ; int procfd ; signed long personality ; if ( ! options ) options = & attach_static_default_options ; init_pid = lxc_cmd_get_init_pid ( name , lxcpath ) ; if ( init_pid < 0 ) { ERROR ( ""failed to get the init pid"" ) ; return - 1 ; } init_ctx = lxc_proc_get_context_info ( init_pid ) ; if ( ! init_ctx ) { ERROR ( ""failed to get context of the init process, pid = %ld"" , ( long ) init_pid ) ; return - 1 ; } personality = get_personality ( name , lxcpath ) ; if ( init_ctx -> personality < 0 ) { ERROR ( ""Failed to get personality of the container"" ) ; lxc_proc_put_context_info ( init_ctx ) ; return - 1 ; } init_ctx -> personality = personality ; init_ctx -> container = lxc_container_new ( name , lxcpath ) ; if ( ! init_ctx -> container ) return - 1 ; if ( ! fetch_seccomp ( init_ctx -> container , options ) ) WARN ( ""Failed to get seccomp policy"" ) ; if ( ! no_new_privs ( init_ctx -> container , options ) ) WARN ( ""Could not determine whether PR_SET_NO_NEW_PRIVS is set."" ) ; cwd = getcwd ( NULL , 0 ) ; if ( options -> namespaces == - 1 ) { options -> namespaces = lxc_cmd_get_clone_flags ( name , lxcpath ) ; if ( options -> namespaces == - 1 ) { ERROR ( ""failed to automatically determine the "" ""namespaces which the container unshared"" ) ; free ( cwd ) ; lxc_proc_put_context_info ( init_ctx ) ; return - 1 ; } } ret = socketpair ( PF_LOCAL , SOCK_STREAM | SOCK_CLOEXEC , 0 , ipc_sockets ) ; if ( ret < 0 ) { SYSERROR ( ""could not set up required IPC mechanism for attaching"" ) ; free ( cwd ) ; lxc_proc_put_context_info ( init_ctx ) ; return - 1 ; } pid = fork ( ) ; if ( pid < 0 ) { SYSERROR ( ""failed to create first subprocess"" ) ; free ( cwd ) ; lxc_proc_put_context_info ( init_ctx ) ; return - 1 ; } if ( pid ) { pid_t to_cleanup_pid = pid ; close ( ipc_sockets [ 1 ] ) ; free ( cwd ) ; if ( options -> attach_flags & LXC_ATTACH_MOVE_TO_CGROUP ) { if ( ! cgroup_attach ( name , lxcpath , pid ) ) goto cleanup_error ; } status = 0 ; ret = lxc_write_nointr ( ipc_sockets [ 0 ] , & status , sizeof ( status ) ) ; if ( ret <= 0 ) { ERROR ( ""error using IPC to notify attached process for initialization (0)"" ) ; goto cleanup_error ; } ret = lxc_read_nointr_expect ( ipc_sockets [ 0 ] , & attached_pid , sizeof ( attached_pid ) , NULL ) ; if ( ret <= 0 ) { if ( ret != 0 ) ERROR ( ""error using IPC to receive pid of attached process"" ) ; goto cleanup_error ; } if ( options -> stdin_fd == 0 ) { signal ( SIGINT , SIG_IGN ) ; signal ( SIGQUIT , SIG_IGN ) ; } ret = wait_for_pid ( pid ) ; if ( ret < 0 ) goto cleanup_error ; to_cleanup_pid = attached_pid ; status = 0 ; ret = lxc_write_nointr ( ipc_sockets [ 0 ] , & status , sizeof ( status ) ) ; if ( ret <= 0 ) { ERROR ( ""error using IPC to notify attached process for initialization (0)"" ) ; goto cleanup_error ; } expected = 1 ; ret = lxc_read_nointr_expect ( ipc_sockets [ 0 ] , & status , sizeof ( status ) , & expected ) ; if ( ret <= 0 ) { if ( ret != 0 ) ERROR ( ""error using IPC to receive notification from attached process (1)"" ) ; goto cleanup_error ; } status = 2 ; ret = lxc_write_nointr ( ipc_sockets [ 0 ] , & status , sizeof ( status ) ) ; if ( ret <= 0 ) { ERROR ( ""error using IPC to notify attached process for initialization (2)"" ) ; goto cleanup_error ; } shutdown ( ipc_sockets [ 0 ] , SHUT_RDWR ) ; close ( ipc_sockets [ 0 ] ) ; lxc_proc_put_context_info ( init_ctx ) ; * attached_process = attached_pid ; return 0 ; cleanup_error : shutdown ( ipc_sockets [ 0 ] , SHUT_RDWR ) ; close ( ipc_sockets [ 0 ] ) ; if ( to_cleanup_pid ) ( void ) wait_for_pid ( to_cleanup_pid ) ; lxc_proc_put_context_info ( init_ctx ) ; return - 1 ; } close ( ipc_sockets [ 0 ] ) ; expected = 0 ; status = - 1 ; ret = lxc_read_nointr_expect ( ipc_sockets [ 1 ] , & status , sizeof ( status ) , & expected ) ; if ( ret <= 0 ) { ERROR ( ""error communicating with child process"" ) ; shutdown ( ipc_sockets [ 1 ] , SHUT_RDWR ) ; rexit ( - 1 ) ; } if ( ( options -> attach_flags & LXC_ATTACH_MOVE_TO_CGROUP ) && cgns_supported ( ) ) options -> namespaces |= CLONE_NEWCGROUP ; procfd = open ( ""/proc"" , O_DIRECTORY | O_RDONLY ) ; if ( procfd < 0 ) { SYSERROR ( ""Unable to open /proc"" ) ; shutdown ( ipc_sockets [ 1 ] , SHUT_RDWR ) ; rexit ( - 1 ) ; } ret = lxc_attach_to_ns ( init_pid , options -> namespaces ) ; if ( ret < 0 ) { ERROR ( ""failed to enter the namespace"" ) ; shutdown ( ipc_sockets [ 1 ] , SHUT_RDWR ) ; rexit ( - 1 ) ; } if ( options -> initial_cwd ) new_cwd = options -> initial_cwd ; else new_cwd = cwd ; ret = chdir ( new_cwd ) ; if ( ret < 0 ) WARN ( ""could not change directory to \'%s\'"" , new_cwd ) ; free ( cwd ) ; { struct attach_clone_payload payload = { . ipc_socket = ipc_sockets [ 1 ] , . options = options , . init_ctx = init_ctx , . exec_function = exec_function , . exec_payload = exec_payload , . procfd = procfd } ; pid = lxc_clone ( attach_child_main , & payload , CLONE_PARENT ) ; } if ( pid <= 0 ) { SYSERROR ( ""failed to create subprocess"" ) ; shutdown ( ipc_sockets [ 1 ] , SHUT_RDWR ) ; rexit ( - 1 ) ; } ret = lxc_write_nointr ( ipc_sockets [ 1 ] , & pid , sizeof ( pid ) ) ; if ( ret != sizeof ( pid ) ) { ERROR ( ""error using IPC to notify main process of pid of the attached process"" ) ; shutdown ( ipc_sockets [ 1 ] , SHUT_RDWR ) ; rexit ( - 1 ) ; } rexit ( 0 ) ; }","int lxc_attach ( const char * name , const char * lxcpath , lxc_attach_exec_t exec_function , void * exec_payload , lxc_attach_options_t * options , pid_t * attached_process ) { int ret , status ; pid_t init_pid , pid , attached_pid , expected ; struct lxc_proc_context_info * init_ctx ; char * cwd ; char * new_cwd ; int ipc_sockets [ 2 ] ; signed long personality ; if ( ! options ) options = & attach_static_default_options ; init_pid = lxc_cmd_get_init_pid ( name , lxcpath ) ; if ( init_pid < 0 ) { ERROR ( ""failed to get the init pid"" ) ; return - 1 ; } init_ctx = lxc_proc_get_context_info ( init_pid ) ; if ( ! init_ctx ) { ERROR ( ""failed to get context of the init process, pid = %ld"" , ( long ) init_pid ) ; return - 1 ; } personality = get_personality ( name , lxcpath ) ; if ( init_ctx -> personality < 0 ) { ERROR ( ""Failed to get personality of the container"" ) ; lxc_proc_put_context_info ( init_ctx ) ; return - 1 ; } init_ctx -> personality = personality ; init_ctx -> container = lxc_container_new ( name , lxcpath ) ; if ( ! init_ctx -> container ) return - 1 ; if ( ! fetch_seccomp ( init_ctx -> container , options ) ) WARN ( ""Failed to get seccomp policy"" ) ; if ( ! no_new_privs ( init_ctx -> container , options ) ) WARN ( ""Could not determine whether PR_SET_NO_NEW_PRIVS is set."" ) ; cwd = getcwd ( NULL , 0 ) ; if ( options -> namespaces == - 1 ) { options -> namespaces = lxc_cmd_get_clone_flags ( name , lxcpath ) ; if ( options -> namespaces == - 1 ) { ERROR ( ""failed to automatically determine the "" ""namespaces which the container unshared"" ) ; free ( cwd ) ; lxc_proc_put_context_info ( init_ctx ) ; return - 1 ; } } ret = socketpair ( PF_LOCAL , SOCK_STREAM | SOCK_CLOEXEC , 0 , ipc_sockets ) ; if ( ret < 0 ) { SYSERROR ( ""could not set up required IPC mechanism for attaching"" ) ; free ( cwd ) ; lxc_proc_put_context_info ( init_ctx ) ; return - 1 ; } pid = fork ( ) ; if ( pid < 0 ) { SYSERROR ( ""failed to create first subprocess"" ) ; free ( cwd ) ; lxc_proc_put_context_info ( init_ctx ) ; return - 1 ; } if ( pid ) { int procfd = - 1 ; pid_t to_cleanup_pid = pid ; close ( ipc_sockets [ 1 ] ) ; free ( cwd ) ; if ( options -> attach_flags & LXC_ATTACH_MOVE_TO_CGROUP ) { if ( ! cgroup_attach ( name , lxcpath , pid ) ) goto cleanup_error ; } procfd = open ( ""/proc"" , O_DIRECTORY | O_RDONLY | O_CLOEXEC ) ; if ( procfd < 0 ) { SYSERROR ( ""Unable to open /proc."" ) ; goto cleanup_error ; } status = 0 ; ret = lxc_write_nointr ( ipc_sockets [ 0 ] , & status , sizeof ( status ) ) ; if ( ret <= 0 ) { ERROR ( ""error using IPC to notify attached process for initialization (0)"" ) ; goto cleanup_error ; } ret = lxc_read_nointr_expect ( ipc_sockets [ 0 ] , & attached_pid , sizeof ( attached_pid ) , NULL ) ; if ( ret <= 0 ) { if ( ret != 0 ) ERROR ( ""error using IPC to receive pid of attached process"" ) ; goto cleanup_error ; } if ( options -> stdin_fd == 0 ) { signal ( SIGINT , SIG_IGN ) ; signal ( SIGQUIT , SIG_IGN ) ; } ret = wait_for_pid ( pid ) ; if ( ret < 0 ) goto cleanup_error ; to_cleanup_pid = attached_pid ; status = 0 ; ret = lxc_write_nointr ( ipc_sockets [ 0 ] , & status , sizeof ( status ) ) ; if ( ret <= 0 ) { ERROR ( ""error using IPC to notify attached process for initialization (0)"" ) ; goto cleanup_error ; } expected = 1 ; ret = lxc_read_nointr_expect ( ipc_sockets [ 0 ] , & status , sizeof ( status ) , & expected ) ; if ( ret <= 0 ) { if ( ret != 0 ) ERROR ( ""error using IPC to receive notification "" ""from attached process (1)"" ) ; goto cleanup_error ; } status = 2 ; ret = lxc_write_nointr ( ipc_sockets [ 0 ] , & status , sizeof ( status ) ) ; if ( ret <= 0 ) { ERROR ( ""Error using IPC to notify attached process for "" ""initialization (2): %s."" , strerror ( errno ) ) ; goto cleanup_error ; } expected = 3 ; ret = lxc_read_nointr_expect ( ipc_sockets [ 0 ] , & status , sizeof ( status ) , & expected ) ; if ( ret <= 0 ) { ERROR ( ""Error using IPC for the child to tell us to open LSM fd (3): %s."" , strerror ( errno ) ) ; goto cleanup_error ; } if ( ( options -> namespaces & CLONE_NEWNS ) && ( options -> attach_flags & LXC_ATTACH_LSM ) && init_ctx -> lsm_label ) { int on_exec , labelfd ; on_exec = options -> attach_flags & LXC_ATTACH_LSM_EXEC ? 1 : 0 ; labelfd = lsm_openat ( procfd , attached_pid , on_exec ) ; if ( labelfd < 0 ) goto cleanup_error ; ret = lxc_abstract_unix_send_fd ( ipc_sockets [ 0 ] , labelfd , NULL , 0 ) ; if ( ret <= 0 ) { ERROR ( ""Error using IPC to send child LSM fd (4): %s."" , strerror ( errno ) ) ; goto cleanup_error ; } } shutdown ( ipc_sockets [ 0 ] , SHUT_RDWR ) ; close ( ipc_sockets [ 0 ] ) ; lxc_proc_put_context_info ( init_ctx ) ; * attached_process = attached_pid ; return 0 ; cleanup_error : if ( procfd >= 0 ) close ( procfd ) ; shutdown ( ipc_sockets [ 0 ] , SHUT_RDWR ) ; close ( ipc_sockets [ 0 ] ) ; if ( to_cleanup_pid ) ( void ) wait_for_pid ( to_cleanup_pid ) ; lxc_proc_put_context_info ( init_ctx ) ; return - 1 ; } close ( ipc_sockets [ 0 ] ) ; expected = 0 ; status = - 1 ; ret = lxc_read_nointr_expect ( ipc_sockets [ 1 ] , & status , sizeof ( status ) , & expected ) ; if ( ret <= 0 ) { ERROR ( ""error communicating with child process"" ) ; shutdown ( ipc_sockets [ 1 ] , SHUT_RDWR ) ; rexit ( - 1 ) ; } if ( ( options -> attach_flags & LXC_ATTACH_MOVE_TO_CGROUP ) && cgns_supported ( ) ) options -> namespaces |= CLONE_NEWCGROUP ; ret = lxc_attach_to_ns ( init_pid , options -> namespaces ) ; if ( ret < 0 ) { ERROR ( ""failed to enter the namespace"" ) ; shutdown ( ipc_sockets [ 1 ] , SHUT_RDWR ) ; rexit ( - 1 ) ; } if ( options -> initial_cwd ) new_cwd = options -> initial_cwd ; else new_cwd = cwd ; ret = chdir ( new_cwd ) ; if ( ret < 0 ) WARN ( ""could not change directory to \'%s\'"" , new_cwd ) ; free ( cwd ) ; { struct attach_clone_payload payload = { . ipc_socket = ipc_sockets [ 1 ] , . options = options , . init_ctx = init_ctx , . exec_function = exec_function , . exec_payload = exec_payload , } ; pid = lxc_clone ( attach_child_main , & payload , CLONE_PARENT ) ; } if ( pid <= 0 ) { SYSERROR ( ""failed to create subprocess"" ) ; shutdown ( ipc_sockets [ 1 ] , SHUT_RDWR ) ; rexit ( - 1 ) ; } ret = lxc_write_nointr ( ipc_sockets [ 1 ] , & pid , sizeof ( pid ) ) ; if ( ret != sizeof ( pid ) ) { ERROR ( ""error using IPC to notify main process of pid of the attached process"" ) ; shutdown ( ipc_sockets [ 1 ] , SHUT_RDWR ) ; rexit ( - 1 ) ; } rexit ( 0 ) ; }" 1062,"CWE-399 static void perf_output_wakeup ( struct perf_output_handle * handle ) { atomic_set ( & handle -> rb -> poll , POLL_IN ) ; if ( handle -> nmi ) { handle -> event -> pending_wakeup = 1 ; irq_work_queue ( & handle -> event -> pending ) ; } else perf_event_wakeup ( handle -> event ) ; }","static void perf_output_wakeup ( struct perf_output_handle * handle ) { atomic_set ( & handle -> rb -> poll , POLL_IN ) ; handle -> event -> pending_wakeup = 1 ; irq_work_queue ( & handle -> event -> pending ) ; }" 1063,"CWE-119 static void find_next_key_frame ( VP9_COMP * cpi , FIRSTPASS_STATS * this_frame ) { int i , j ; RATE_CONTROL * const rc = & cpi -> rc ; struct twopass_rc * const twopass = & cpi -> twopass ; const FIRSTPASS_STATS first_frame = * this_frame ; const FIRSTPASS_STATS * start_position = twopass -> stats_in ; FIRSTPASS_STATS next_frame ; FIRSTPASS_STATS last_frame ; double decay_accumulator = 1.0 ; double zero_motion_accumulator = 1.0 ; double boost_score = 0.0 ; double kf_mod_err = 0.0 ; double kf_group_err = 0.0 ; double recent_loop_decay [ 8 ] = { 1.0 , 1.0 , 1.0 , 1.0 , 1.0 , 1.0 , 1.0 , 1.0 } ; vp9_zero ( next_frame ) ; cpi -> common . frame_type = KEY_FRAME ; rc -> this_key_frame_forced = rc -> next_key_frame_forced ; rc -> source_alt_ref_active = 0 ; rc -> frames_till_gf_update_due = 0 ; rc -> frames_to_key = 1 ; twopass -> kf_group_bits = 0 ; twopass -> kf_group_error_left = 0 ; kf_mod_err = calculate_modified_err ( cpi , this_frame ) ; i = 0 ; while ( twopass -> stats_in < twopass -> stats_in_end ) { kf_group_err += calculate_modified_err ( cpi , this_frame ) ; last_frame = * this_frame ; input_stats ( twopass , this_frame ) ; if ( cpi -> oxcf . auto_key && lookup_next_frame_stats ( twopass , & next_frame ) != EOF ) { double loop_decay_rate ; if ( test_candidate_kf ( twopass , & last_frame , this_frame , & next_frame ) ) break ; loop_decay_rate = get_prediction_decay_rate ( & cpi -> common , & next_frame ) ; recent_loop_decay [ i % 8 ] = loop_decay_rate ; decay_accumulator = 1.0 ; for ( j = 0 ; j < 8 ; ++ j ) decay_accumulator *= recent_loop_decay [ j ] ; if ( detect_transition_to_still ( twopass , i , cpi -> key_frame_frequency - i , loop_decay_rate , decay_accumulator ) ) break ; if ( rc -> frames_to_key >= 2 * ( int ) cpi -> key_frame_frequency ) break ; } else { } } if ( cpi -> oxcf . auto_key && rc -> frames_to_key > ( int ) cpi -> key_frame_frequency ) { FIRSTPASS_STATS tmp_frame = first_frame ; rc -> frames_to_key /= 2 ; reset_fpf_position ( twopass , start_position ) ; kf_group_err = 0 ; for ( i = 0 ; i < rc -> frames_to_key ; ++ i ) { kf_group_err += calculate_modified_err ( cpi , & tmp_frame ) ; input_stats ( twopass , & tmp_frame ) ; } rc -> next_key_frame_forced = 1 ; } else if ( twopass -> stats_in == twopass -> stats_in_end ) { rc -> next_key_frame_forced = 1 ; } else { rc -> next_key_frame_forced = 0 ; } if ( twopass -> stats_in >= twopass -> stats_in_end ) { kf_group_err += calculate_modified_err ( cpi , this_frame ) ; } if ( twopass -> bits_left > 0 && twopass -> modified_error_left > 0.0 ) { const int max_bits = frame_max_bits ( rc , & cpi -> oxcf ) ; int64_t max_grp_bits ; twopass -> kf_group_bits = ( int64_t ) ( twopass -> bits_left * ( kf_group_err / twopass -> modified_error_left ) ) ; max_grp_bits = ( int64_t ) max_bits * ( int64_t ) rc -> frames_to_key ; if ( twopass -> kf_group_bits > max_grp_bits ) twopass -> kf_group_bits = max_grp_bits ; } else { twopass -> kf_group_bits = 0 ; } reset_fpf_position ( twopass , start_position ) ; decay_accumulator = 1.0 ; boost_score = 0.0 ; for ( i = 0 ; i < rc -> frames_to_key ; ++ i ) { if ( EOF == input_stats ( twopass , & next_frame ) ) break ; if ( ( next_frame . pcnt_inter - next_frame . pcnt_motion ) < zero_motion_accumulator ) { zero_motion_accumulator = ( next_frame . pcnt_inter - next_frame . pcnt_motion ) ; } if ( i <= ( rc -> max_gf_interval * 2 ) ) { double r ; if ( next_frame . intra_error > twopass -> kf_intra_err_min ) r = ( IIKFACTOR2 * next_frame . intra_error / DOUBLE_DIVIDE_CHECK ( next_frame . coded_error ) ) ; else r = ( IIKFACTOR2 * twopass -> kf_intra_err_min / DOUBLE_DIVIDE_CHECK ( next_frame . coded_error ) ) ; if ( r > RMAX ) r = RMAX ; if ( ! detect_flash ( twopass , 0 ) ) { const double loop_decay_rate = get_prediction_decay_rate ( & cpi -> common , & next_frame ) ; decay_accumulator *= loop_decay_rate ; decay_accumulator = MAX ( decay_accumulator , MIN_DECAY_FACTOR ) ; } boost_score += ( decay_accumulator * r ) ; } } { FIRSTPASS_STATS sectionstats ; zero_stats ( & sectionstats ) ; reset_fpf_position ( twopass , start_position ) ; for ( i = 0 ; i < rc -> frames_to_key ; ++ i ) { input_stats ( twopass , & next_frame ) ; accumulate_stats ( & sectionstats , & next_frame ) ; } avg_stats ( & sectionstats ) ; twopass -> section_intra_rating = ( int ) ( sectionstats . intra_error / DOUBLE_DIVIDE_CHECK ( sectionstats . coded_error ) ) ; } reset_fpf_position ( twopass , start_position ) ; if ( 1 ) { int kf_boost = ( int ) boost_score ; int allocation_chunks ; if ( kf_boost < ( rc -> frames_to_key * 3 ) ) kf_boost = ( rc -> frames_to_key * 3 ) ; if ( kf_boost < MIN_KF_BOOST ) kf_boost = MIN_KF_BOOST ; rc -> kf_boost = kf_boost ; twopass -> kf_zeromotion_pct = ( int ) ( zero_motion_accumulator * 100.0 ) ; if ( zero_motion_accumulator >= 0.99 ) { allocation_chunks = ( ( rc -> frames_to_key - 1 ) * 10 ) + kf_boost ; } else { allocation_chunks = ( ( rc -> frames_to_key - 1 ) * 100 ) + kf_boost ; } if ( kf_boost > 1028 ) { const int divisor = kf_boost >> 10 ; kf_boost /= divisor ; allocation_chunks /= divisor ; } twopass -> kf_group_bits = MAX ( 0 , twopass -> kf_group_bits ) ; twopass -> kf_bits = ( int ) ( ( double ) kf_boost * ( ( double ) twopass -> kf_group_bits / allocation_chunks ) ) ; if ( kf_mod_err < kf_group_err / rc -> frames_to_key ) { double alt_kf_grp_bits = ( ( double ) twopass -> bits_left * ( kf_mod_err * ( double ) rc -> frames_to_key ) / DOUBLE_DIVIDE_CHECK ( twopass -> modified_error_left ) ) ; const int alt_kf_bits = ( int ) ( ( double ) kf_boost * ( alt_kf_grp_bits / ( double ) allocation_chunks ) ) ; if ( twopass -> kf_bits > alt_kf_bits ) twopass -> kf_bits = alt_kf_bits ; } else { const int alt_kf_bits = ( int ) ( ( double ) twopass -> bits_left * ( kf_mod_err / DOUBLE_DIVIDE_CHECK ( twopass -> modified_error_left ) ) ) ; if ( alt_kf_bits > twopass -> kf_bits ) twopass -> kf_bits = alt_kf_bits ; } twopass -> kf_group_bits -= twopass -> kf_bits ; vp9_rc_set_frame_target ( cpi , twopass -> kf_bits ) ; } twopass -> kf_group_error_left = ( int ) ( kf_group_err - kf_mod_err ) ; twopass -> modified_error_left -= kf_group_err ; }","static void find_next_key_frame ( VP9_COMP * cpi , FIRSTPASS_STATS * this_frame ) { int i , j ; RATE_CONTROL * const rc = & cpi -> rc ; TWO_PASS * const twopass = & cpi -> twopass ; GF_GROUP * const gf_group = & twopass -> gf_group ; const VP9EncoderConfig * const oxcf = & cpi -> oxcf ; const FIRSTPASS_STATS first_frame = * this_frame ; const FIRSTPASS_STATS * const start_position = twopass -> stats_in ; FIRSTPASS_STATS next_frame ; FIRSTPASS_STATS last_frame ; int kf_bits = 0 ; int loop_decay_counter = 0 ; double decay_accumulator = 1.0 ; double av_decay_accumulator = 0.0 ; double zero_motion_accumulator = 1.0 ; double boost_score = 0.0 ; double kf_mod_err = 0.0 ; double kf_group_err = 0.0 ; double recent_loop_decay [ 8 ] = { 1.0 , 1.0 , 1.0 , 1.0 , 1.0 , 1.0 , 1.0 , 1.0 } ; vp9_zero ( next_frame ) ; cpi -> common . frame_type = KEY_FRAME ; vp9_zero ( * gf_group ) ; rc -> this_key_frame_forced = rc -> next_key_frame_forced ; rc -> source_alt_ref_active = 0 ; cpi -> multi_arf_last_grp_enabled = 0 ; rc -> frames_till_gf_update_due = 0 ; rc -> frames_to_key = 1 ; twopass -> kf_group_bits = 0 ; twopass -> kf_group_error_left = 0 ; kf_mod_err = calculate_modified_err ( cpi , twopass , oxcf , this_frame ) ; i = 0 ; while ( twopass -> stats_in < twopass -> stats_in_end && rc -> frames_to_key < cpi -> oxcf . key_freq ) { kf_group_err += calculate_modified_err ( cpi , twopass , oxcf , this_frame ) ; last_frame = * this_frame ; input_stats ( twopass , this_frame ) ; if ( cpi -> oxcf . auto_key && twopass -> stats_in < twopass -> stats_in_end ) { double loop_decay_rate ; if ( test_candidate_kf ( twopass , & last_frame , this_frame , twopass -> stats_in ) ) break ; loop_decay_rate = get_prediction_decay_rate ( cpi , twopass -> stats_in ) ; recent_loop_decay [ i % 8 ] = loop_decay_rate ; decay_accumulator = 1.0 ; for ( j = 0 ; j < 8 ; ++ j ) decay_accumulator *= recent_loop_decay [ j ] ; if ( detect_transition_to_still ( cpi , i , cpi -> oxcf . key_freq - i , loop_decay_rate , decay_accumulator ) ) break ; + rc -> frames_to_key ; if ( rc -> frames_to_key >= 2 * cpi -> oxcf . key_freq ) break ; } else { + rc -> frames_to_key ; } + i ; } if ( cpi -> oxcf . auto_key && rc -> frames_to_key > cpi -> oxcf . key_freq ) { FIRSTPASS_STATS tmp_frame = first_frame ; rc -> frames_to_key /= 2 ; reset_fpf_position ( twopass , start_position ) ; kf_group_err = 0.0 ; for ( i = 0 ; i < rc -> frames_to_key ; ++ i ) { kf_group_err += calculate_modified_err ( cpi , twopass , oxcf , & tmp_frame ) ; input_stats ( twopass , & tmp_frame ) ; } rc -> next_key_frame_forced = 1 ; } else if ( twopass -> stats_in == twopass -> stats_in_end || rc -> frames_to_key >= cpi -> oxcf . key_freq ) { rc -> next_key_frame_forced = 1 ; } else { rc -> next_key_frame_forced = 0 ; } if ( is_two_pass_svc ( cpi ) && cpi -> svc . number_temporal_layers > 1 ) { int count = ( 1 << ( cpi -> svc . number_temporal_layers - 1 ) ) - 1 ; int new_frame_to_key = ( rc -> frames_to_key + count ) & ( ~ count ) ; int j ; for ( j = 0 ; j < new_frame_to_key - rc -> frames_to_key ; ++ j ) { if ( EOF == input_stats ( twopass , this_frame ) ) break ; kf_group_err += calculate_modified_err ( cpi , twopass , oxcf , this_frame ) ; } rc -> frames_to_key = new_frame_to_key ; } if ( twopass -> stats_in >= twopass -> stats_in_end ) { kf_group_err += calculate_modified_err ( cpi , twopass , oxcf , this_frame ) ; } if ( twopass -> bits_left > 0 && twopass -> modified_error_left > 0.0 ) { const int max_bits = frame_max_bits ( rc , & cpi -> oxcf ) ; int64_t max_grp_bits ; twopass -> kf_group_bits = ( int64_t ) ( twopass -> bits_left * ( kf_group_err / twopass -> modified_error_left ) ) ; max_grp_bits = ( int64_t ) max_bits * ( int64_t ) rc -> frames_to_key ; if ( twopass -> kf_group_bits > max_grp_bits ) twopass -> kf_group_bits = max_grp_bits ; } else { twopass -> kf_group_bits = 0 ; } twopass -> kf_group_bits = MAX ( 0 , twopass -> kf_group_bits ) ; reset_fpf_position ( twopass , start_position ) ; decay_accumulator = 1.0 ; boost_score = 0.0 ; for ( i = 0 ; i < ( rc -> frames_to_key - 1 ) ; ++ i ) { if ( EOF == input_stats ( twopass , & next_frame ) ) break ; zero_motion_accumulator = MIN ( zero_motion_accumulator , get_zero_motion_factor ( cpi , & next_frame ) ) ; if ( ( i <= rc -> max_gf_interval ) || ( ( i <= ( rc -> max_gf_interval * 4 ) ) && ( decay_accumulator > 0.5 ) ) ) { const double frame_boost = calc_frame_boost ( cpi , this_frame , 0 , KF_MAX_BOOST ) ; if ( ! detect_flash ( twopass , 0 ) ) { const double loop_decay_rate = get_prediction_decay_rate ( cpi , & next_frame ) ; decay_accumulator *= loop_decay_rate ; decay_accumulator = MAX ( decay_accumulator , MIN_DECAY_FACTOR ) ; av_decay_accumulator += decay_accumulator ; ++ loop_decay_counter ; } boost_score += ( decay_accumulator * frame_boost ) ; } } av_decay_accumulator /= ( double ) loop_decay_counter ; reset_fpf_position ( twopass , start_position ) ; twopass -> kf_zeromotion_pct = ( int ) ( zero_motion_accumulator * 100.0 ) ; twopass -> section_intra_rating = calculate_section_intra_ratio ( start_position , twopass -> stats_in_end , rc -> frames_to_key ) ; rc -> kf_boost = ( int ) ( av_decay_accumulator * boost_score ) ; rc -> kf_boost = MAX ( rc -> kf_boost , ( rc -> frames_to_key * 3 ) ) ; rc -> kf_boost = MAX ( rc -> kf_boost , MIN_KF_BOOST ) ; kf_bits = calculate_boost_bits ( ( rc -> frames_to_key - 1 ) , rc -> kf_boost , twopass -> kf_group_bits ) ; if ( twopass -> kf_group_bits ) { twopass -> kfgroup_inter_fraction = ( double ) ( twopass -> kf_group_bits - kf_bits ) / ( double ) twopass -> kf_group_bits ; } else { twopass -> kfgroup_inter_fraction = 1.0 ; } twopass -> kf_group_bits -= kf_bits ; gf_group -> bit_allocation [ 0 ] = kf_bits ; gf_group -> update_type [ 0 ] = KF_UPDATE ; gf_group -> rf_level [ 0 ] = KF_STD ; twopass -> kf_group_error_left = ( int ) ( kf_group_err - kf_mod_err ) ; twopass -> modified_error_left -= kf_group_err ; if ( oxcf -> resize_mode == RESIZE_DYNAMIC ) { cpi -> rc . next_frame_size_selector = UNSCALED ; } }" 1064,"CWE-119 static int key_notify_policy_flush ( const struct km_event * c ) { struct sk_buff * skb_out ; struct sadb_msg * hdr ; skb_out = alloc_skb ( sizeof ( struct sadb_msg ) + 16 , GFP_ATOMIC ) ; if ( ! skb_out ) return - ENOBUFS ; hdr = ( struct sadb_msg * ) skb_put ( skb_out , sizeof ( struct sadb_msg ) ) ; hdr -> sadb_msg_type = SADB_X_SPDFLUSH ; hdr -> sadb_msg_seq = c -> seq ; hdr -> sadb_msg_pid = c -> portid ; hdr -> sadb_msg_version = PF_KEY_V2 ; hdr -> sadb_msg_errno = ( uint8_t ) 0 ; hdr -> sadb_msg_satype = SADB_SATYPE_UNSPEC ; hdr -> sadb_msg_len = ( sizeof ( struct sadb_msg ) / sizeof ( uint64_t ) ) ; pfkey_broadcast ( skb_out , GFP_ATOMIC , BROADCAST_ALL , NULL , c -> net ) ; return 0 ; }","static int key_notify_policy_flush ( const struct km_event * c ) { struct sk_buff * skb_out ; struct sadb_msg * hdr ; skb_out = alloc_skb ( sizeof ( struct sadb_msg ) + 16 , GFP_ATOMIC ) ; if ( ! skb_out ) return - ENOBUFS ; hdr = ( struct sadb_msg * ) skb_put ( skb_out , sizeof ( struct sadb_msg ) ) ; hdr -> sadb_msg_type = SADB_X_SPDFLUSH ; hdr -> sadb_msg_seq = c -> seq ; hdr -> sadb_msg_pid = c -> portid ; hdr -> sadb_msg_version = PF_KEY_V2 ; hdr -> sadb_msg_errno = ( uint8_t ) 0 ; hdr -> sadb_msg_satype = SADB_SATYPE_UNSPEC ; hdr -> sadb_msg_len = ( sizeof ( struct sadb_msg ) / sizeof ( uint64_t ) ) ; hdr -> sadb_msg_reserved = 0 ; pfkey_broadcast ( skb_out , GFP_ATOMIC , BROADCAST_ALL , NULL , c -> net ) ; return 0 ; }" 1065,"CWE-119 void vp9_write_prob_diff_update ( vp9_writer * w , vp9_prob newp , vp9_prob oldp ) { const int delp = remap_prob ( newp , oldp ) ; encode_term_subexp ( w , delp ) ; }","void vp9_write_prob_diff_update ( vpx_writer * w , vpx_prob newp , vpx_prob oldp ) { const int delp = remap_prob ( newp , oldp ) ; encode_term_subexp ( w , delp ) ; }" 1066,"CWE-362 static void flush_end_io ( struct request * flush_rq , int error ) { struct request_queue * q = flush_rq -> q ; struct list_head * running ; bool queued = false ; struct request * rq , * n ; unsigned long flags = 0 ; struct blk_flush_queue * fq = blk_get_flush_queue ( q , flush_rq -> mq_ctx ) ; if ( q -> mq_ops ) { spin_lock_irqsave ( & fq -> mq_flush_lock , flags ) ; flush_rq -> tag = - 1 ; } running = & fq -> flush_queue [ fq -> flush_running_idx ] ; BUG_ON ( fq -> flush_pending_idx == fq -> flush_running_idx ) ; fq -> flush_running_idx ^= 1 ; if ( ! q -> mq_ops ) elv_completed_request ( q , flush_rq ) ; list_for_each_entry_safe ( rq , n , running , flush . list ) { unsigned int seq = blk_flush_cur_seq ( rq ) ; BUG_ON ( seq != REQ_FSEQ_PREFLUSH && seq != REQ_FSEQ_POSTFLUSH ) ; queued |= blk_flush_complete_seq ( rq , fq , seq , error ) ; } if ( queued || fq -> flush_queue_delayed ) { WARN_ON ( q -> mq_ops ) ; blk_run_queue_async ( q ) ; } fq -> flush_queue_delayed = 0 ; if ( q -> mq_ops ) spin_unlock_irqrestore ( & fq -> mq_flush_lock , flags ) ; }","static void flush_end_io ( struct request * flush_rq , int error ) { struct request_queue * q = flush_rq -> q ; struct list_head * running ; bool queued = false ; struct request * rq , * n ; unsigned long flags = 0 ; struct blk_flush_queue * fq = blk_get_flush_queue ( q , flush_rq -> mq_ctx ) ; if ( q -> mq_ops ) { struct blk_mq_hw_ctx * hctx ; spin_lock_irqsave ( & fq -> mq_flush_lock , flags ) ; hctx = q -> mq_ops -> map_queue ( q , flush_rq -> mq_ctx -> cpu ) ; blk_mq_tag_set_rq ( hctx , flush_rq -> tag , fq -> orig_rq ) ; flush_rq -> tag = - 1 ; } running = & fq -> flush_queue [ fq -> flush_running_idx ] ; BUG_ON ( fq -> flush_pending_idx == fq -> flush_running_idx ) ; fq -> flush_running_idx ^= 1 ; if ( ! q -> mq_ops ) elv_completed_request ( q , flush_rq ) ; list_for_each_entry_safe ( rq , n , running , flush . list ) { unsigned int seq = blk_flush_cur_seq ( rq ) ; BUG_ON ( seq != REQ_FSEQ_PREFLUSH && seq != REQ_FSEQ_POSTFLUSH ) ; queued |= blk_flush_complete_seq ( rq , fq , seq , error ) ; } if ( queued || fq -> flush_queue_delayed ) { WARN_ON ( q -> mq_ops ) ; blk_run_queue_async ( q ) ; } fq -> flush_queue_delayed = 0 ; if ( q -> mq_ops ) spin_unlock_irqrestore ( & fq -> mq_flush_lock , flags ) ; }" 1067,"CWE-119 static void scsi_read_complete ( void * opaque , int ret ) { SCSIDiskReq * r = ( SCSIDiskReq * ) opaque ; SCSIDiskState * s = DO_UPCAST ( SCSIDiskState , qdev , r -> req . dev ) ; int n ; if ( r -> req . aiocb != NULL ) { r -> req . aiocb = NULL ; bdrv_acct_done ( s -> bs , & r -> acct ) ; } if ( ret ) { if ( scsi_handle_rw_error ( r , - ret , SCSI_REQ_STATUS_RETRY_READ ) ) { return ; } } DPRINTF ( ""Data ready tag=0x%x len=%zd\\n"" , r -> req . tag , r -> iov . iov_len ) ; n = r -> iov . iov_len / 512 ; r -> sector += n ; r -> sector_count -= n ; scsi_req_data ( & r -> req , r -> iov . iov_len ) ; }","static void scsi_read_complete ( void * opaque , int ret ) { SCSIDiskReq * r = ( SCSIDiskReq * ) opaque ; SCSIDiskState * s = DO_UPCAST ( SCSIDiskState , qdev , r -> req . dev ) ; int n ; if ( r -> req . aiocb != NULL ) { r -> req . aiocb = NULL ; bdrv_acct_done ( s -> bs , & r -> acct ) ; } if ( ret ) { if ( scsi_handle_rw_error ( r , - ret , SCSI_REQ_STATUS_RETRY_READ ) ) { return ; } } DPRINTF ( ""Data ready tag=0x%x len=%zd\\n"" , r -> req . tag , r -> qiov . size ) ; n = r -> qiov . size / 512 ; r -> sector += n ; r -> sector_count -= n ; scsi_req_data ( & r -> req , r -> qiov . size ) ; }" 1068,"CWE-22 int main ( int argc , char * argv [ ] ) { struct mschm_decompressor * chmd ; struct mschmd_header * chm ; struct mschmd_file * file , * * f ; unsigned int numf , i ; setbuf ( stdout , NULL ) ; setbuf ( stderr , NULL ) ; user_umask = umask ( 0 ) ; umask ( user_umask ) ; MSPACK_SYS_SELFTEST ( i ) ; if ( i ) return 0 ; if ( ( chmd = mspack_create_chm_decompressor ( NULL ) ) ) { for ( argv ++ ; * argv ; argv ++ ) { printf ( ""%s\\n"" , * argv ) ; if ( ( chm = chmd -> open ( chmd , * argv ) ) ) { for ( numf = 0 , file = chm -> files ; file ; file = file -> next ) numf ++ ; if ( ( f = ( struct mschmd_file * * ) calloc ( numf , sizeof ( struct mschmd_file * ) ) ) ) { for ( i = 0 , file = chm -> files ; file ; file = file -> next ) f [ i ++ ] = file ; qsort ( f , numf , sizeof ( struct mschmd_file * ) , & sortfunc ) ; for ( i = 0 ; i < numf ; i ++ ) { char * outname = create_output_name ( ( unsigned char * ) f [ i ] -> filename , NULL , 0 , 1 , 0 ) ; printf ( ""Extracting %s\\n"" , outname ) ; ensure_filepath ( outname ) ; if ( chmd -> extract ( chmd , f [ i ] , outname ) ) { printf ( ""%s: extract error on \\""%s\\"": %s\\n"" , * argv , f [ i ] -> filename , ERROR ( chmd ) ) ; } free ( outname ) ; } free ( f ) ; } chmd -> close ( chmd , chm ) ; } else { printf ( ""%s: can\'t open -- %s\\n"" , * argv , ERROR ( chmd ) ) ; } } mspack_destroy_chm_decompressor ( chmd ) ; } return 0 ; }","int main ( int argc , char * argv [ ] ) { struct mschm_decompressor * chmd ; struct mschmd_header * chm ; struct mschmd_file * file , * * f ; unsigned int numf , i ; setbuf ( stdout , NULL ) ; setbuf ( stderr , NULL ) ; user_umask = umask ( 0 ) ; umask ( user_umask ) ; MSPACK_SYS_SELFTEST ( i ) ; if ( i ) return 0 ; if ( ( chmd = mspack_create_chm_decompressor ( NULL ) ) ) { for ( argv ++ ; * argv ; argv ++ ) { printf ( ""%s\\n"" , * argv ) ; if ( ( chm = chmd -> open ( chmd , * argv ) ) ) { for ( numf = 0 , file = chm -> files ; file ; file = file -> next ) numf ++ ; if ( ( f = ( struct mschmd_file * * ) calloc ( numf , sizeof ( struct mschmd_file * ) ) ) ) { for ( i = 0 , file = chm -> files ; file ; file = file -> next ) f [ i ++ ] = file ; qsort ( f , numf , sizeof ( struct mschmd_file * ) , & sortfunc ) ; for ( i = 0 ; i < numf ; i ++ ) { char * outname = create_output_name ( f [ i ] -> filename ) ; printf ( ""Extracting %s\\n"" , outname ) ; ensure_filepath ( outname ) ; if ( chmd -> extract ( chmd , f [ i ] , outname ) ) { printf ( ""%s: extract error on \\""%s\\"": %s\\n"" , * argv , f [ i ] -> filename , ERROR ( chmd ) ) ; } free ( outname ) ; } free ( f ) ; } chmd -> close ( chmd , chm ) ; } else { printf ( ""%s: can\'t open -- %s\\n"" , * argv , ERROR ( chmd ) ) ; } } mspack_destroy_chm_decompressor ( chmd ) ; } return 0 ; }" 1069,"CWE-362 static ssize_t ocfs2_direct_IO ( struct kiocb * iocb , struct iov_iter * iter ) { struct file * file = iocb -> ki_filp ; struct inode * inode = file -> f_mapping -> host ; struct ocfs2_super * osb = OCFS2_SB ( inode -> i_sb ) ; get_block_t * get_block ; if ( OCFS2_I ( inode ) -> ip_dyn_features & OCFS2_INLINE_DATA_FL ) return 0 ; if ( iocb -> ki_pos + iter -> count > i_size_read ( inode ) && ! ocfs2_supports_append_dio ( osb ) ) return 0 ; if ( iov_iter_rw ( iter ) == READ ) get_block = ocfs2_get_block ; else get_block = ocfs2_dio_get_block ; return __blockdev_direct_IO ( iocb , inode , inode -> i_sb -> s_bdev , iter , get_block , ocfs2_dio_end_io , NULL , 0 ) ; }","static ssize_t ocfs2_direct_IO ( struct kiocb * iocb , struct iov_iter * iter ) { struct file * file = iocb -> ki_filp ; struct inode * inode = file -> f_mapping -> host ; struct ocfs2_super * osb = OCFS2_SB ( inode -> i_sb ) ; get_block_t * get_block ; if ( OCFS2_I ( inode ) -> ip_dyn_features & OCFS2_INLINE_DATA_FL ) return 0 ; if ( iocb -> ki_pos + iter -> count > i_size_read ( inode ) && ! ocfs2_supports_append_dio ( osb ) ) return 0 ; if ( iov_iter_rw ( iter ) == READ ) get_block = ocfs2_lock_get_block ; else get_block = ocfs2_dio_wr_get_block ; return __blockdev_direct_IO ( iocb , inode , inode -> i_sb -> s_bdev , iter , get_block , ocfs2_dio_end_io , NULL , 0 ) ; }" 1070,"CWE-119 static MagickPixelPacket * * AcquirePixelThreadSet ( const Image * image ) { MagickPixelPacket * * pixels ; register ssize_t i , j ; size_t number_threads ; number_threads = ( size_t ) GetMagickResourceLimit ( ThreadResource ) ; pixels = ( MagickPixelPacket * * ) AcquireQuantumMemory ( number_threads , sizeof ( * pixels ) ) ; if ( pixels == ( MagickPixelPacket * * ) NULL ) return ( ( MagickPixelPacket * * ) NULL ) ; ( void ) memset ( pixels , 0 , number_threads * sizeof ( * pixels ) ) ; for ( i = 0 ; i < ( ssize_t ) number_threads ; i ++ ) { pixels [ i ] = ( MagickPixelPacket * ) AcquireQuantumMemory ( image -> columns , sizeof ( * * pixels ) ) ; if ( pixels [ i ] == ( MagickPixelPacket * ) NULL ) return ( DestroyPixelThreadSet ( pixels ) ) ; for ( j = 0 ; j < ( ssize_t ) image -> columns ; j ++ ) GetMagickPixelPacket ( image , & pixels [ i ] [ j ] ) ; } return ( pixels ) ; }","static MagickPixelPacket * * AcquirePixelThreadSet ( const Image * images ) { const Image * next ; MagickPixelPacket * * pixels ; register ssize_t i , j ; size_t columns , number_threads ; number_threads = ( size_t ) GetMagickResourceLimit ( ThreadResource ) ; pixels = ( MagickPixelPacket * * ) AcquireQuantumMemory ( number_threads , sizeof ( * pixels ) ) ; if ( pixels == ( MagickPixelPacket * * ) NULL ) return ( ( MagickPixelPacket * * ) NULL ) ; ( void ) memset ( pixels , 0 , number_threads * sizeof ( * pixels ) ) ; columns = images -> columns ; for ( next = images ; next != ( Image * ) NULL ; next = next -> next ) columns = MagickMax ( next -> columns , columns ) ; for ( i = 0 ; i < ( ssize_t ) number_threads ; i ++ ) { pixels [ i ] = ( MagickPixelPacket * ) AcquireQuantumMemory ( columns , sizeof ( * * pixels ) ) ; if ( pixels [ i ] == ( MagickPixelPacket * ) NULL ) return ( DestroyPixelThreadSet ( pixels ) ) ; for ( j = 0 ; j < ( ssize_t ) columns ; j ++ ) GetMagickPixelPacket ( images , & pixels [ i ] [ j ] ) ; } return ( pixels ) ; }" 1071,"CWE-264 static bool new_idmap_permitted ( struct user_namespace * ns , int cap_setid , struct uid_gid_map * new_map ) { if ( ( new_map -> nr_extents == 1 ) && ( new_map -> extent [ 0 ] . count == 1 ) ) { u32 id = new_map -> extent [ 0 ] . lower_first ; if ( cap_setid == CAP_SETUID ) { kuid_t uid = make_kuid ( ns -> parent , id ) ; if ( uid_eq ( uid , current_fsuid ( ) ) ) return true ; } else if ( cap_setid == CAP_SETGID ) { kgid_t gid = make_kgid ( ns -> parent , id ) ; if ( gid_eq ( gid , current_fsgid ( ) ) ) return true ; } } if ( ! cap_valid ( cap_setid ) ) return true ; if ( ns_capable ( ns -> parent , cap_setid ) ) return true ; return false ; }","static bool new_idmap_permitted ( const struct file * file , struct user_namespace * ns , int cap_setid , struct uid_gid_map * new_map ) { if ( ( new_map -> nr_extents == 1 ) && ( new_map -> extent [ 0 ] . count == 1 ) ) { u32 id = new_map -> extent [ 0 ] . lower_first ; if ( cap_setid == CAP_SETUID ) { kuid_t uid = make_kuid ( ns -> parent , id ) ; if ( uid_eq ( uid , current_fsuid ( ) ) ) return true ; } else if ( cap_setid == CAP_SETGID ) { kgid_t gid = make_kgid ( ns -> parent , id ) ; if ( gid_eq ( gid , current_fsgid ( ) ) ) return true ; } } if ( ! cap_valid ( cap_setid ) ) return true ; if ( ns_capable ( ns -> parent , cap_setid ) && file_ns_capable ( file , ns -> parent , cap_setid ) ) return true ; return false ; }" 1072,"CWE-388 static int cp2112_gpio_direction_input ( struct gpio_chip * chip , unsigned offset ) { struct cp2112_device * dev = gpiochip_get_data ( chip ) ; struct hid_device * hdev = dev -> hdev ; u8 * buf = dev -> in_out_buffer ; int ret ; mutex_lock ( & dev -> lock ) ; ret = hid_hw_raw_request ( hdev , CP2112_GPIO_CONFIG , buf , CP2112_GPIO_CONFIG_LENGTH , HID_FEATURE_REPORT , HID_REQ_GET_REPORT ) ; if ( ret != CP2112_GPIO_CONFIG_LENGTH ) { hid_err ( hdev , ""error requesting GPIO config: %d\\n"" , ret ) ; goto exit ; } buf [ 1 ] &= ~ ( 1 << offset ) ; buf [ 2 ] = gpio_push_pull ; ret = hid_hw_raw_request ( hdev , CP2112_GPIO_CONFIG , buf , CP2112_GPIO_CONFIG_LENGTH , HID_FEATURE_REPORT , HID_REQ_SET_REPORT ) ; if ( ret < 0 ) { hid_err ( hdev , ""error setting GPIO config: %d\\n"" , ret ) ; goto exit ; } ret = 0 ; exit : mutex_unlock ( & dev -> lock ) ; return ret <= 0 ? ret : - EIO ; }","static int cp2112_gpio_direction_input ( struct gpio_chip * chip , unsigned offset ) { struct cp2112_device * dev = gpiochip_get_data ( chip ) ; struct hid_device * hdev = dev -> hdev ; u8 * buf = dev -> in_out_buffer ; int ret ; mutex_lock ( & dev -> lock ) ; ret = hid_hw_raw_request ( hdev , CP2112_GPIO_CONFIG , buf , CP2112_GPIO_CONFIG_LENGTH , HID_FEATURE_REPORT , HID_REQ_GET_REPORT ) ; if ( ret != CP2112_GPIO_CONFIG_LENGTH ) { hid_err ( hdev , ""error requesting GPIO config: %d\\n"" , ret ) ; goto exit ; } buf [ 1 ] &= ~ ( 1 << offset ) ; buf [ 2 ] = gpio_push_pull ; ret = hid_hw_raw_request ( hdev , CP2112_GPIO_CONFIG , buf , CP2112_GPIO_CONFIG_LENGTH , HID_FEATURE_REPORT , HID_REQ_SET_REPORT ) ; if ( ret < 0 ) { hid_err ( hdev , ""error setting GPIO config: %d\\n"" , ret ) ; goto exit ; } ret = 0 ; exit : mutex_unlock ( & dev -> lock ) ; return ret < 0 ? ret : - EIO ; }" 1073,"CWE-362 if ( ! S_ISREG ( inode -> i_mode ) ) return - EINVAL ; if ( IS_I_VERSION ( inode ) && attr -> ia_size != inode -> i_size ) inode_inc_iversion ( inode ) ; if ( ext4_should_order_data ( inode ) && ( attr -> ia_size < inode -> i_size ) ) { error = ext4_begin_ordered_truncate ( inode , attr -> ia_size ) ; if ( error ) goto err_out ; } if ( attr -> ia_size != inode -> i_size ) { handle = ext4_journal_start ( inode , EXT4_HT_INODE , 3 ) ; if ( IS_ERR ( handle ) ) { error = PTR_ERR ( handle ) ; goto err_out ; } if ( ext4_handle_valid ( handle ) && shrink ) { error = ext4_orphan_add ( handle , inode ) ; orphan = 1 ; } if ( ! shrink ) { inode -> i_mtime = ext4_current_time ( inode ) ; inode -> i_ctime = inode -> i_mtime ; } down_write ( & EXT4_I ( inode ) -> i_data_sem ) ; EXT4_I ( inode ) -> i_disksize = attr -> ia_size ; rc = ext4_mark_inode_dirty ( handle , inode ) ; if ( ! error ) error = rc ; if ( ! error ) i_size_write ( inode , attr -> ia_size ) ; up_write ( & EXT4_I ( inode ) -> i_data_sem ) ; ext4_journal_stop ( handle ) ; if ( error ) { if ( orphan ) ext4_orphan_del ( NULL , inode ) ; goto err_out ; } } if ( ! shrink ) pagecache_isize_extended ( inode , oldsize , inode -> i_size ) ; if ( orphan ) { if ( ! ext4_should_journal_data ( inode ) ) { ext4_inode_block_unlocked_dio ( inode ) ; inode_dio_wait ( inode ) ; ext4_inode_resume_unlocked_dio ( inode ) ; } else ext4_wait_for_tail_page_commit ( inode ) ; } truncate_pagecache ( inode , inode -> i_size ) ; if ( shrink ) ext4_truncate ( inode ) ; } if ( ! rc ) { setattr_copy ( inode , attr ) ; mark_inode_dirty ( inode ) ; } if ( orphan && inode -> i_nlink ) ext4_orphan_del ( NULL , inode ) ; if ( ! rc && ( ia_valid & ATTR_MODE ) ) rc = posix_acl_chmod ( inode , inode -> i_mode ) ; err_out : ext4_std_error ( inode -> i_sb , error ) ; if ( ! error ) error = rc ; return error ; }","if ( ! S_ISREG ( inode -> i_mode ) ) return - EINVAL ; if ( IS_I_VERSION ( inode ) && attr -> ia_size != inode -> i_size ) inode_inc_iversion ( inode ) ; if ( ext4_should_order_data ( inode ) && ( attr -> ia_size < inode -> i_size ) ) { error = ext4_begin_ordered_truncate ( inode , attr -> ia_size ) ; if ( error ) goto err_out ; } if ( attr -> ia_size != inode -> i_size ) { handle = ext4_journal_start ( inode , EXT4_HT_INODE , 3 ) ; if ( IS_ERR ( handle ) ) { error = PTR_ERR ( handle ) ; goto err_out ; } if ( ext4_handle_valid ( handle ) && shrink ) { error = ext4_orphan_add ( handle , inode ) ; orphan = 1 ; } if ( ! shrink ) { inode -> i_mtime = ext4_current_time ( inode ) ; inode -> i_ctime = inode -> i_mtime ; } down_write ( & EXT4_I ( inode ) -> i_data_sem ) ; EXT4_I ( inode ) -> i_disksize = attr -> ia_size ; rc = ext4_mark_inode_dirty ( handle , inode ) ; if ( ! error ) error = rc ; if ( ! error ) i_size_write ( inode , attr -> ia_size ) ; up_write ( & EXT4_I ( inode ) -> i_data_sem ) ; ext4_journal_stop ( handle ) ; if ( error ) { if ( orphan ) ext4_orphan_del ( NULL , inode ) ; goto err_out ; } } if ( ! shrink ) pagecache_isize_extended ( inode , oldsize , inode -> i_size ) ; if ( orphan ) { if ( ! ext4_should_journal_data ( inode ) ) { ext4_inode_block_unlocked_dio ( inode ) ; inode_dio_wait ( inode ) ; ext4_inode_resume_unlocked_dio ( inode ) ; } else ext4_wait_for_tail_page_commit ( inode ) ; } down_write ( & EXT4_I ( inode ) -> i_mmap_sem ) ; truncate_pagecache ( inode , inode -> i_size ) ; if ( shrink ) ext4_truncate ( inode ) ; up_write ( & EXT4_I ( inode ) -> i_mmap_sem ) ; } if ( ! rc ) { setattr_copy ( inode , attr ) ; mark_inode_dirty ( inode ) ; } if ( orphan && inode -> i_nlink ) ext4_orphan_del ( NULL , inode ) ; if ( ! rc && ( ia_valid & ATTR_MODE ) ) rc = posix_acl_chmod ( inode , inode -> i_mode ) ; err_out : ext4_std_error ( inode -> i_sb , error ) ; if ( ! error ) error = rc ; return error ; }" 1074,"CWE-119 static int update_fragments ( vpx_codec_alg_priv_t * ctx , const uint8_t * data , unsigned int data_sz , vpx_codec_err_t * res ) { * res = VPX_CODEC_OK ; if ( ctx -> fragments . count == 0 ) { vpx_memset ( ( void * ) ctx -> fragments . ptrs , 0 , sizeof ( ctx -> fragments . ptrs ) ) ; vpx_memset ( ctx -> fragments . sizes , 0 , sizeof ( ctx -> fragments . sizes ) ) ; } if ( ctx -> fragments . enabled && ! ( data == NULL && data_sz == 0 ) ) { ctx -> fragments . ptrs [ ctx -> fragments . count ] = data ; ctx -> fragments . sizes [ ctx -> fragments . count ] = data_sz ; ctx -> fragments . count ++ ; if ( ctx -> fragments . count > ( 1 << EIGHT_PARTITION ) + 1 ) { ctx -> fragments . count = 0 ; * res = VPX_CODEC_INVALID_PARAM ; return - 1 ; } return 0 ; } if ( ! ctx -> fragments . enabled ) { ctx -> fragments . ptrs [ 0 ] = data ; ctx -> fragments . sizes [ 0 ] = data_sz ; ctx -> fragments . count = 1 ; } return 1 ; }","static int update_fragments ( vpx_codec_alg_priv_t * ctx , const uint8_t * data , unsigned int data_sz , vpx_codec_err_t * res ) { * res = VPX_CODEC_OK ; if ( ctx -> fragments . count == 0 ) { memset ( ( void * ) ctx -> fragments . ptrs , 0 , sizeof ( ctx -> fragments . ptrs ) ) ; memset ( ctx -> fragments . sizes , 0 , sizeof ( ctx -> fragments . sizes ) ) ; } if ( ctx -> fragments . enabled && ! ( data == NULL && data_sz == 0 ) ) { ctx -> fragments . ptrs [ ctx -> fragments . count ] = data ; ctx -> fragments . sizes [ ctx -> fragments . count ] = data_sz ; ctx -> fragments . count ++ ; if ( ctx -> fragments . count > ( 1 << EIGHT_PARTITION ) + 1 ) { ctx -> fragments . count = 0 ; * res = VPX_CODEC_INVALID_PARAM ; return - 1 ; } return 0 ; } if ( ! ctx -> fragments . enabled && ( data == NULL && data_sz == 0 ) ) { return 0 ; } if ( ! ctx -> fragments . enabled ) { ctx -> fragments . ptrs [ 0 ] = data ; ctx -> fragments . sizes [ 0 ] = data_sz ; ctx -> fragments . count = 1 ; } return 1 ; }" 1075,"CWE-125 if ( TYPE ( ch ) == DOUBLESTAR ) break ; if ( TYPE ( ch ) == vfpdef || TYPE ( ch ) == tfpdef ) nposargs ++ ; if ( TYPE ( ch ) == EQUAL ) nposdefaults ++ ; } for ( ; i < NCH ( n ) ; ++ i ) { ch = CHILD ( n , i ) ; if ( TYPE ( ch ) == DOUBLESTAR ) break ; if ( TYPE ( ch ) == tfpdef || TYPE ( ch ) == vfpdef ) nkwonlyargs ++ ; } posargs = ( nposargs ? _Py_asdl_seq_new ( nposargs , c -> c_arena ) : NULL ) ; if ( ! posargs && nposargs ) return NULL ; kwonlyargs = ( nkwonlyargs ? _Py_asdl_seq_new ( nkwonlyargs , c -> c_arena ) : NULL ) ; if ( ! kwonlyargs && nkwonlyargs ) return NULL ; posdefaults = ( nposdefaults ? _Py_asdl_seq_new ( nposdefaults , c -> c_arena ) : NULL ) ; if ( ! posdefaults && nposdefaults ) return NULL ; kwdefaults = ( nkwonlyargs ? _Py_asdl_seq_new ( nkwonlyargs , c -> c_arena ) : NULL ) ; if ( ! kwdefaults && nkwonlyargs ) return NULL ; i = 0 ; j = 0 ; k = 0 ; while ( i < NCH ( n ) ) { ch = CHILD ( n , i ) ; switch ( TYPE ( ch ) ) { case tfpdef : case vfpdef : if ( i + 1 < NCH ( n ) && TYPE ( CHILD ( n , i + 1 ) ) == EQUAL ) { expr_ty expression = ast_for_expr ( c , CHILD ( n , i + 2 ) ) ; if ( ! expression ) return NULL ; assert ( posdefaults != NULL ) ; asdl_seq_SET ( posdefaults , j ++ , expression ) ; i += 2 ; found_default = 1 ; } else if ( found_default ) { ast_error ( c , n , ""non-default argument follows default argument"" ) ; return NULL ; } arg = ast_for_arg ( c , ch ) ; if ( ! arg ) return NULL ; asdl_seq_SET ( posargs , k ++ , arg ) ; i += 2 ; break ; case STAR : if ( i + 1 >= NCH ( n ) || ( i + 2 == NCH ( n ) && TYPE ( CHILD ( n , i + 1 ) ) == COMMA ) ) { ast_error ( c , CHILD ( n , i ) , ""named arguments must follow bare *"" ) ; return NULL ; } ch = CHILD ( n , i + 1 ) ; if ( TYPE ( ch ) == COMMA ) { int res = 0 ; i += 2 ; res = handle_keywordonly_args ( c , n , i , kwonlyargs , kwdefaults ) ; if ( res == - 1 ) return NULL ; i = res ; } else { vararg = ast_for_arg ( c , ch ) ; if ( ! vararg ) return NULL ; i += 3 ; if ( i < NCH ( n ) && ( TYPE ( CHILD ( n , i ) ) == tfpdef || TYPE ( CHILD ( n , i ) ) == vfpdef ) ) { int res = 0 ; res = handle_keywordonly_args ( c , n , i , kwonlyargs , kwdefaults ) ; if ( res == - 1 ) return NULL ; i = res ; } } break ; case DOUBLESTAR : ch = CHILD ( n , i + 1 ) ; assert ( TYPE ( ch ) == tfpdef || TYPE ( ch ) == vfpdef ) ; kwarg = ast_for_arg ( c , ch ) ; if ( ! kwarg ) return NULL ; i += 3 ; break ; default : PyErr_Format ( PyExc_SystemError , ""unexpected node in varargslist: %d @ %d"" , TYPE ( ch ) , i ) ; return NULL ; } } return arguments ( posargs , vararg , kwonlyargs , kwdefaults , kwarg , posdefaults , c -> c_arena ) ; }","if ( TYPE ( ch ) == DOUBLESTAR ) break ; if ( TYPE ( ch ) == vfpdef || TYPE ( ch ) == tfpdef ) nposargs ++ ; if ( TYPE ( ch ) == EQUAL ) nposdefaults ++ ; } for ( ; i < NCH ( n ) ; ++ i ) { ch = CHILD ( n , i ) ; if ( TYPE ( ch ) == DOUBLESTAR ) break ; if ( TYPE ( ch ) == tfpdef || TYPE ( ch ) == vfpdef ) nkwonlyargs ++ ; } posargs = ( nposargs ? _Py_asdl_seq_new ( nposargs , c -> c_arena ) : NULL ) ; if ( ! posargs && nposargs ) return NULL ; kwonlyargs = ( nkwonlyargs ? _Py_asdl_seq_new ( nkwonlyargs , c -> c_arena ) : NULL ) ; if ( ! kwonlyargs && nkwonlyargs ) return NULL ; posdefaults = ( nposdefaults ? _Py_asdl_seq_new ( nposdefaults , c -> c_arena ) : NULL ) ; if ( ! posdefaults && nposdefaults ) return NULL ; kwdefaults = ( nkwonlyargs ? _Py_asdl_seq_new ( nkwonlyargs , c -> c_arena ) : NULL ) ; if ( ! kwdefaults && nkwonlyargs ) return NULL ; i = 0 ; j = 0 ; k = 0 ; while ( i < NCH ( n ) ) { ch = CHILD ( n , i ) ; switch ( TYPE ( ch ) ) { case tfpdef : case vfpdef : if ( i + 1 < NCH ( n ) && TYPE ( CHILD ( n , i + 1 ) ) == EQUAL ) { expr_ty expression = ast_for_expr ( c , CHILD ( n , i + 2 ) ) ; if ( ! expression ) return NULL ; assert ( posdefaults != NULL ) ; asdl_seq_SET ( posdefaults , j ++ , expression ) ; i += 2 ; found_default = 1 ; } else if ( found_default ) { ast_error ( c , n , ""non-default argument follows default argument"" ) ; return NULL ; } arg = ast_for_arg ( c , ch ) ; if ( ! arg ) return NULL ; asdl_seq_SET ( posargs , k ++ , arg ) ; i += 1 ; if ( i < NCH ( n ) && TYPE ( CHILD ( n , i ) ) == COMMA ) i += 1 ; break ; case STAR : if ( i + 1 >= NCH ( n ) || ( i + 2 == NCH ( n ) && ( TYPE ( CHILD ( n , i + 1 ) ) == COMMA || TYPE ( CHILD ( n , i + 1 ) ) == TYPE_COMMENT ) ) ) { ast_error ( c , CHILD ( n , i ) , ""named arguments must follow bare *"" ) ; return NULL ; } ch = CHILD ( n , i + 1 ) ; if ( TYPE ( ch ) == COMMA ) { int res = 0 ; i += 2 ; if ( i < NCH ( n ) && TYPE ( CHILD ( n , i ) ) == TYPE_COMMENT ) { ast_error ( c , CHILD ( n , i ) , ""bare * has associated type comment"" ) ; return NULL ; } res = handle_keywordonly_args ( c , n , i , kwonlyargs , kwdefaults ) ; if ( res == - 1 ) return NULL ; i = res ; } else { vararg = ast_for_arg ( c , ch ) ; if ( ! vararg ) return NULL ; i += 2 ; if ( i < NCH ( n ) && TYPE ( CHILD ( n , i ) ) == COMMA ) i += 1 ; if ( i < NCH ( n ) && TYPE ( CHILD ( n , i ) ) == TYPE_COMMENT ) { vararg -> type_comment = NEW_TYPE_COMMENT ( CHILD ( n , i ) ) ; if ( ! vararg -> type_comment ) return NULL ; i += 1 ; } if ( i < NCH ( n ) && ( TYPE ( CHILD ( n , i ) ) == tfpdef || TYPE ( CHILD ( n , i ) ) == vfpdef ) ) { int res = 0 ; res = handle_keywordonly_args ( c , n , i , kwonlyargs , kwdefaults ) ; if ( res == - 1 ) return NULL ; i = res ; } } break ; case DOUBLESTAR : ch = CHILD ( n , i + 1 ) ; assert ( TYPE ( ch ) == tfpdef || TYPE ( ch ) == vfpdef ) ; kwarg = ast_for_arg ( c , ch ) ; if ( ! kwarg ) return NULL ; i += 2 ; if ( TYPE ( CHILD ( n , i ) ) == COMMA ) i += 1 ; break ; case TYPE_COMMENT : assert ( i ) ; if ( kwarg ) arg = kwarg ; arg -> type_comment = NEW_TYPE_COMMENT ( ch ) ; if ( ! arg -> type_comment ) return NULL ; i += 1 ; break ; default : PyErr_Format ( PyExc_SystemError , ""unexpected node in varargslist: %d @ %d"" , TYPE ( ch ) , i ) ; return NULL ; } } return arguments ( posargs , vararg , kwonlyargs , kwdefaults , kwarg , posdefaults , c -> c_arena ) ; }" 1076,"CWE-310 static void test_iterators ( ) { json_t * object , * foo , * bar , * baz ; void * iter ; if ( json_object_iter ( NULL ) ) fail ( ""able to iterate over NULL"" ) ; if ( json_object_iter_next ( NULL , NULL ) ) fail ( ""able to increment an iterator on a NULL object"" ) ; object = json_object ( ) ; foo = json_string ( ""foo"" ) ; bar = json_string ( ""bar"" ) ; baz = json_string ( ""baz"" ) ; if ( ! object || ! foo || ! bar || ! bar ) fail ( ""unable to create values"" ) ; if ( json_object_iter_next ( object , NULL ) ) fail ( ""able to increment a NULL iterator"" ) ; if ( json_object_set ( object , ""a"" , foo ) || json_object_set ( object , ""b"" , bar ) || json_object_set ( object , ""c"" , baz ) ) fail ( ""unable to populate object"" ) ; iter = json_object_iter ( object ) ; if ( ! iter ) fail ( ""unable to get iterator"" ) ; if ( strcmp ( json_object_iter_key ( iter ) , ""a"" ) ) fail ( ""iterating failed: wrong key"" ) ; if ( json_object_iter_value ( iter ) != foo ) fail ( ""iterating failed: wrong value"" ) ; iter = json_object_iter_next ( object , iter ) ; if ( ! iter ) fail ( ""unable to increment iterator"" ) ; if ( strcmp ( json_object_iter_key ( iter ) , ""b"" ) ) fail ( ""iterating failed: wrong key"" ) ; if ( json_object_iter_value ( iter ) != bar ) fail ( ""iterating failed: wrong value"" ) ; iter = json_object_iter_next ( object , iter ) ; if ( ! iter ) fail ( ""unable to increment iterator"" ) ; if ( strcmp ( json_object_iter_key ( iter ) , ""c"" ) ) fail ( ""iterating failed: wrong key"" ) ; if ( json_object_iter_value ( iter ) != baz ) fail ( ""iterating failed: wrong value"" ) ; if ( json_object_iter_next ( object , iter ) != NULL ) fail ( ""able to iterate over the end"" ) ; if ( json_object_iter_at ( object , ""foo"" ) ) fail ( ""json_object_iter_at() succeeds for non-existent key"" ) ; iter = json_object_iter_at ( object , ""b"" ) ; if ( ! iter ) fail ( ""json_object_iter_at() fails for an existing key"" ) ; if ( strcmp ( json_object_iter_key ( iter ) , ""b"" ) ) fail ( ""iterating failed: wrong key"" ) ; if ( json_object_iter_value ( iter ) != bar ) fail ( ""iterating failed: wrong value"" ) ; iter = json_object_iter_next ( object , iter ) ; if ( ! iter ) fail ( ""unable to increment iterator"" ) ; if ( strcmp ( json_object_iter_key ( iter ) , ""c"" ) ) fail ( ""iterating failed: wrong key"" ) ; if ( json_object_iter_value ( iter ) != baz ) fail ( ""iterating failed: wrong value"" ) ; if ( json_object_iter_set ( object , iter , bar ) ) fail ( ""unable to set value at iterator"" ) ; if ( strcmp ( json_object_iter_key ( iter ) , ""c"" ) ) fail ( ""json_object_iter_key() fails after json_object_iter_set()"" ) ; if ( json_object_iter_value ( iter ) != bar ) fail ( ""json_object_iter_value() fails after json_object_iter_set()"" ) ; if ( json_object_get ( object , ""c"" ) != bar ) fail ( ""json_object_get() fails after json_object_iter_set()"" ) ; json_decref ( object ) ; json_decref ( foo ) ; json_decref ( bar ) ; json_decref ( baz ) ; }","static void test_iterators ( ) { int i ; json_t * object , * foo , * bar , * baz ; const char * iter_keys [ 3 ] ; int have_key [ 3 ] = { 0 , 0 , 0 } ; json_t * iter_values [ 3 ] ; void * iter ; if ( json_object_iter ( NULL ) ) fail ( ""able to iterate over NULL"" ) ; if ( json_object_iter_next ( NULL , NULL ) ) fail ( ""able to increment an iterator on a NULL object"" ) ; object = json_object ( ) ; foo = json_string ( ""foo"" ) ; bar = json_string ( ""bar"" ) ; baz = json_string ( ""baz"" ) ; if ( ! object || ! foo || ! bar || ! bar ) fail ( ""unable to create values"" ) ; if ( json_object_iter_next ( object , NULL ) ) fail ( ""able to increment a NULL iterator"" ) ; if ( json_object_set ( object , ""a"" , foo ) || json_object_set ( object , ""b"" , bar ) || json_object_set ( object , ""c"" , baz ) ) fail ( ""unable to populate object"" ) ; iter = json_object_iter ( object ) ; if ( ! iter ) fail ( ""unable to get iterator"" ) ; iter_keys [ 0 ] = json_object_iter_key ( iter ) ; iter_values [ 0 ] = json_object_iter_value ( iter ) ; iter = json_object_iter_next ( object , iter ) ; if ( ! iter ) fail ( ""unable to increment iterator"" ) ; iter_keys [ 1 ] = json_object_iter_key ( iter ) ; iter_values [ 1 ] = json_object_iter_value ( iter ) ; iter = json_object_iter_next ( object , iter ) ; if ( ! iter ) fail ( ""unable to increment iterator"" ) ; iter_keys [ 2 ] = json_object_iter_key ( iter ) ; iter_values [ 2 ] = json_object_iter_value ( iter ) ; if ( json_object_iter_next ( object , iter ) != NULL ) fail ( ""able to iterate over the end"" ) ; for ( i = 0 ; i < 3 ; i ++ ) { if ( strcmp ( iter_keys [ i ] , ""a"" ) == 0 ) { if ( iter_values [ i ] != foo ) fail ( ""wrong value for iter key a"" ) ; else have_key [ 0 ] = 1 ; } else if ( strcmp ( iter_keys [ i ] , ""b"" ) == 0 ) { if ( iter_values [ i ] != bar ) fail ( ""wrong value for iter key b"" ) ; else have_key [ 1 ] = 1 ; } else if ( strcmp ( iter_keys [ i ] , ""c"" ) == 0 ) { if ( iter_values [ i ] != baz ) fail ( ""wrong value for iter key c"" ) ; else have_key [ 2 ] = 1 ; } } for ( i = 0 ; i < 3 ; i ++ ) { if ( ! have_key [ i ] ) fail ( ""a key wasn\'t iterated over"" ) ; } if ( json_object_iter_at ( object , ""foo"" ) ) fail ( ""json_object_iter_at() succeeds for non-existent key"" ) ; iter = json_object_iter_at ( object , ""b"" ) ; if ( ! iter ) fail ( ""json_object_iter_at() fails for an existing key"" ) ; if ( strcmp ( json_object_iter_key ( iter ) , ""b"" ) ) fail ( ""iterating failed: wrong key"" ) ; if ( json_object_iter_value ( iter ) != bar ) fail ( ""iterating failed: wrong value"" ) ; if ( json_object_iter_set ( object , iter , baz ) ) fail ( ""unable to set value at iterator"" ) ; if ( strcmp ( json_object_iter_key ( iter ) , ""b"" ) ) fail ( ""json_object_iter_key() fails after json_object_iter_set()"" ) ; if ( json_object_iter_value ( iter ) != baz ) fail ( ""json_object_iter_value() fails after json_object_iter_set()"" ) ; if ( json_object_get ( object , ""b"" ) != baz ) fail ( ""json_object_get() fails after json_object_iter_set()"" ) ; json_decref ( object ) ; json_decref ( foo ) ; json_decref ( bar ) ; json_decref ( baz ) ; }" 1077,"CWE-119 static int http_read_header ( URLContext * h , int * new_location ) { HTTPContext * s = h -> priv_data ; char line [ MAX_URL_SIZE ] ; int err = 0 ; s -> chunksize = - 1 ; for ( ; ; ) { if ( ( err = http_get_line ( s , line , sizeof ( line ) ) ) < 0 ) return err ; av_log ( h , AV_LOG_TRACE , ""header=\'%s\'\\n"" , line ) ; err = process_line ( h , line , s -> line_count , new_location ) ; if ( err < 0 ) return err ; if ( err == 0 ) break ; s -> line_count ++ ; } if ( s -> seekable == - 1 && s -> is_mediagateway && s -> filesize == 2000000000 ) h -> is_streamed = 1 ; cookie_string ( s -> cookie_dict , & s -> cookies ) ; av_dict_free ( & s -> cookie_dict ) ; return err ; }","static int http_read_header ( URLContext * h , int * new_location ) { HTTPContext * s = h -> priv_data ; char line [ MAX_URL_SIZE ] ; int err = 0 ; s -> chunksize = UINT64_MAX ; for ( ; ; ) { if ( ( err = http_get_line ( s , line , sizeof ( line ) ) ) < 0 ) return err ; av_log ( h , AV_LOG_TRACE , ""header=\'%s\'\\n"" , line ) ; err = process_line ( h , line , s -> line_count , new_location ) ; if ( err < 0 ) return err ; if ( err == 0 ) break ; s -> line_count ++ ; } if ( s -> seekable == - 1 && s -> is_mediagateway && s -> filesize == 2000000000 ) h -> is_streamed = 1 ; cookie_string ( s -> cookie_dict , & s -> cookies ) ; av_dict_free ( & s -> cookie_dict ) ; return err ; }" 1078,"CWE-362 int ip_build_and_send_pkt ( struct sk_buff * skb , struct sock * sk , __be32 saddr , __be32 daddr , struct ip_options * opt ) { struct inet_sock * inet = inet_sk ( sk ) ; struct rtable * rt = skb_rtable ( skb ) ; struct iphdr * iph ; skb_push ( skb , sizeof ( struct iphdr ) + ( opt ? opt -> optlen : 0 ) ) ; skb_reset_network_header ( skb ) ; iph = ip_hdr ( skb ) ; iph -> version = 4 ; iph -> ihl = 5 ; iph -> tos = inet -> tos ; if ( ip_dont_fragment ( sk , & rt -> dst ) ) iph -> frag_off = htons ( IP_DF ) ; else iph -> frag_off = 0 ; iph -> ttl = ip_select_ttl ( inet , & rt -> dst ) ; iph -> daddr = rt -> rt_dst ; iph -> saddr = rt -> rt_src ; iph -> protocol = sk -> sk_protocol ; ip_select_ident ( iph , & rt -> dst , sk ) ; if ( opt && opt -> optlen ) { iph -> ihl += opt -> optlen >> 2 ; ip_options_build ( skb , opt , daddr , rt , 0 ) ; } skb -> priority = sk -> sk_priority ; skb -> mark = sk -> sk_mark ; return ip_local_out ( skb ) ; }","int ip_build_and_send_pkt ( struct sk_buff * skb , struct sock * sk , __be32 saddr , __be32 daddr , struct ip_options_rcu * opt ) { struct inet_sock * inet = inet_sk ( sk ) ; struct rtable * rt = skb_rtable ( skb ) ; struct iphdr * iph ; skb_push ( skb , sizeof ( struct iphdr ) + ( opt ? opt -> opt . optlen : 0 ) ) ; skb_reset_network_header ( skb ) ; iph = ip_hdr ( skb ) ; iph -> version = 4 ; iph -> ihl = 5 ; iph -> tos = inet -> tos ; if ( ip_dont_fragment ( sk , & rt -> dst ) ) iph -> frag_off = htons ( IP_DF ) ; else iph -> frag_off = 0 ; iph -> ttl = ip_select_ttl ( inet , & rt -> dst ) ; iph -> daddr = rt -> rt_dst ; iph -> saddr = rt -> rt_src ; iph -> protocol = sk -> sk_protocol ; ip_select_ident ( iph , & rt -> dst , sk ) ; if ( opt && opt -> opt . optlen ) { iph -> ihl += opt -> opt . optlen >> 2 ; ip_options_build ( skb , & opt -> opt , daddr , rt , 0 ) ; } skb -> priority = sk -> sk_priority ; skb -> mark = sk -> sk_mark ; return ip_local_out ( skb ) ; }" 1079,"CWE-119 static void oz_usb_handle_ep_data ( struct oz_usb_ctx * usb_ctx , struct oz_usb_hdr * usb_hdr , int len ) { struct oz_data * data_hdr = ( struct oz_data * ) usb_hdr ; switch ( data_hdr -> format ) { case OZ_DATA_F_MULTIPLE_FIXED : { struct oz_multiple_fixed * body = ( struct oz_multiple_fixed * ) data_hdr ; u8 * data = body -> data ; int n ; if ( ! body -> unit_size ) break ; n = ( len - sizeof ( struct oz_multiple_fixed ) + 1 ) / body -> unit_size ; while ( n -- ) { oz_hcd_data_ind ( usb_ctx -> hport , body -> endpoint , data , body -> unit_size ) ; data += body -> unit_size ; } } break ; case OZ_DATA_F_ISOC_FIXED : { struct oz_isoc_fixed * body = ( struct oz_isoc_fixed * ) data_hdr ; int data_len = len - sizeof ( struct oz_isoc_fixed ) + 1 ; int unit_size = body -> unit_size ; u8 * data = body -> data ; int count ; int i ; if ( ! unit_size ) break ; count = data_len / unit_size ; for ( i = 0 ; i < count ; i ++ ) { oz_hcd_data_ind ( usb_ctx -> hport , body -> endpoint , data , unit_size ) ; data += unit_size ; } } break ; } }","static void oz_usb_handle_ep_data ( struct oz_usb_ctx * usb_ctx , struct oz_usb_hdr * usb_hdr , int len ) { struct oz_data * data_hdr = ( struct oz_data * ) usb_hdr ; switch ( data_hdr -> format ) { case OZ_DATA_F_MULTIPLE_FIXED : { struct oz_multiple_fixed * body = ( struct oz_multiple_fixed * ) data_hdr ; u8 * data = body -> data ; unsigned int n ; if ( ! body -> unit_size || len < sizeof ( struct oz_multiple_fixed ) - 1 ) break ; n = ( len - ( sizeof ( struct oz_multiple_fixed ) - 1 ) ) / body -> unit_size ; while ( n -- ) { oz_hcd_data_ind ( usb_ctx -> hport , body -> endpoint , data , body -> unit_size ) ; data += body -> unit_size ; } } break ; case OZ_DATA_F_ISOC_FIXED : { struct oz_isoc_fixed * body = ( struct oz_isoc_fixed * ) data_hdr ; int data_len = len - sizeof ( struct oz_isoc_fixed ) + 1 ; int unit_size = body -> unit_size ; u8 * data = body -> data ; int count ; int i ; if ( ! unit_size ) break ; count = data_len / unit_size ; for ( i = 0 ; i < count ; i ++ ) { oz_hcd_data_ind ( usb_ctx -> hport , body -> endpoint , data , unit_size ) ; data += unit_size ; } } break ; } }" 1080,"CWE-416 int __ext4_journal_stop ( const char * where , unsigned int line , handle_t * handle ) { struct super_block * sb ; int err ; int rc ; if ( ! ext4_handle_valid ( handle ) ) { ext4_put_nojournal ( handle ) ; return 0 ; } if ( ! handle -> h_transaction ) { err = jbd2_journal_stop ( handle ) ; return handle -> h_err ? handle -> h_err : err ; } sb = handle -> h_transaction -> t_journal -> j_private ; err = handle -> h_err ; rc = jbd2_journal_stop ( handle ) ; if ( ! err ) err = rc ; if ( err ) __ext4_std_error ( sb , where , line , err ) ; return err ; }","int __ext4_journal_stop ( const char * where , unsigned int line , handle_t * handle ) { struct super_block * sb ; int err ; int rc ; if ( ! ext4_handle_valid ( handle ) ) { ext4_put_nojournal ( handle ) ; return 0 ; } err = handle -> h_err ; if ( ! handle -> h_transaction ) { rc = jbd2_journal_stop ( handle ) ; return err ? err : rc ; } sb = handle -> h_transaction -> t_journal -> j_private ; rc = jbd2_journal_stop ( handle ) ; if ( ! err ) err = rc ; if ( err ) __ext4_std_error ( sb , where , line , err ) ; return err ; }" 1081,"CWE-119 image -> filename ) ; break ; } colormap = ( unsigned char * ) NULL ; if ( number_colormaps != 0 ) { colormap = ( unsigned char * ) AcquireQuantumMemory ( number_colormaps , 3 * map_length * sizeof ( * colormap ) ) ; if ( colormap == ( unsigned char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; p = colormap ; for ( i = 0 ; i < ( ssize_t ) number_colormaps ; i ++ ) for ( x = 0 ; x < ( ssize_t ) map_length ; x ++ ) * p ++ = ( unsigned char ) ScaleShortToQuantum ( ReadBlobLSBShort ( image ) ) ; } if ( ( flags & 0x08 ) != 0 ) { char * comment ; size_t length ; length = ReadBlobLSBShort ( image ) ; if ( length != 0 ) { comment = ( char * ) AcquireQuantumMemory ( length , sizeof ( * comment ) ) ; if ( comment == ( char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; count = ReadBlob ( image , length - 1 , ( unsigned char * ) comment ) ; comment [ length - 1 ] = '\\0' ; ( void ) SetImageProperty ( image , ""comment"" , comment , exception ) ; comment = DestroyString ( comment ) ; if ( ( length & 0x01 ) == 0 ) ( void ) ReadBlobByte ( image ) ; } } if ( ( image_info -> ping != MagickFalse ) && ( image_info -> number_scenes != 0 ) ) if ( image -> scene >= ( image_info -> scene + image_info -> number_scenes - 1 ) ) break ; status = SetImageExtent ( image , image -> columns , image -> rows , exception ) ; if ( status == MagickFalse ) return ( DestroyImageList ( image ) ) ; if ( image -> alpha_trait != UndefinedPixelTrait ) number_planes ++ ; number_pixels = ( MagickSizeType ) image -> columns * image -> rows ; number_planes_filled = ( number_planes % 2 == 0 ) ? number_planes : number_planes + 1 ; if ( ( number_pixels * number_planes_filled ) != ( size_t ) ( number_pixels * number_planes_filled ) ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; pixel_info = AcquireVirtualMemory ( image -> columns , image -> rows * number_planes_filled * sizeof ( * pixels ) ) ; if ( pixel_info == ( MemoryInfo * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; pixel_info_length = image -> columns * image -> rows * number_planes_filled ; pixels = ( unsigned char * ) GetVirtualMemoryBlob ( pixel_info ) ; if ( ( flags & 0x01 ) && ! ( flags & 0x02 ) ) { ssize_t j ; p = pixels ; for ( i = 0 ; i < ( ssize_t ) number_pixels ; i ++ ) { if ( image -> alpha_trait == UndefinedPixelTrait ) for ( j = 0 ; j < ( ssize_t ) number_planes ; j ++ ) * p ++ = background_color [ j ] ; else { for ( j = 0 ; j < ( ssize_t ) ( number_planes - 1 ) ; j ++ ) * p ++ = background_color [ j ] ; * p ++ = 0 ; } } } plane = 0 ; x = 0 ; y = 0 ; opcode = ReadBlobByte ( image ) ; do { switch ( opcode & 0x3f ) { case SkipLinesOp : { operand = ReadBlobByte ( image ) ; if ( opcode & 0x40 ) operand = ReadBlobLSBSignedShort ( image ) ; x = 0 ; y += operand ; break ; } case SetColorOp : { operand = ReadBlobByte ( image ) ; plane = ( unsigned char ) operand ; if ( plane == 255 ) plane = ( unsigned char ) ( number_planes - 1 ) ; x = 0 ; break ; } case SkipPixelsOp : { operand = ReadBlobByte ( image ) ; if ( opcode & 0x40 ) operand = ReadBlobLSBSignedShort ( image ) ;","image -> filename ) ; break ; } colormap = ( unsigned char * ) NULL ; if ( number_colormaps != 0 ) { colormap = ( unsigned char * ) AcquireQuantumMemory ( number_colormaps , 3 * map_length * sizeof ( * colormap ) ) ; if ( colormap == ( unsigned char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; p = colormap ; for ( i = 0 ; i < ( ssize_t ) number_colormaps ; i ++ ) for ( x = 0 ; x < ( ssize_t ) map_length ; x ++ ) * p ++ = ( unsigned char ) ScaleShortToQuantum ( ReadBlobLSBShort ( image ) ) ; } if ( ( flags & 0x08 ) != 0 ) { char * comment ; size_t length ; length = ReadBlobLSBShort ( image ) ; if ( length != 0 ) { comment = ( char * ) AcquireQuantumMemory ( length , sizeof ( * comment ) ) ; if ( comment == ( char * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; count = ReadBlob ( image , length - 1 , ( unsigned char * ) comment ) ; comment [ length - 1 ] = '\\0' ; ( void ) SetImageProperty ( image , ""comment"" , comment , exception ) ; comment = DestroyString ( comment ) ; if ( ( length & 0x01 ) == 0 ) ( void ) ReadBlobByte ( image ) ; } } if ( ( image_info -> ping != MagickFalse ) && ( image_info -> number_scenes != 0 ) ) if ( image -> scene >= ( image_info -> scene + image_info -> number_scenes - 1 ) ) break ; status = SetImageExtent ( image , image -> columns , image -> rows , exception ) ; if ( status == MagickFalse ) return ( DestroyImageList ( image ) ) ; if ( image -> alpha_trait != UndefinedPixelTrait ) number_planes ++ ; number_pixels = ( MagickSizeType ) image -> columns * image -> rows ; number_planes_filled = ( number_planes % 2 == 0 ) ? number_planes : number_planes + 1 ; if ( ( number_pixels * number_planes_filled ) != ( size_t ) ( number_pixels * number_planes_filled ) ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; pixel_info = AcquireVirtualMemory ( image -> columns , image -> rows * MagickMax ( number_planes_filled , 4 ) * sizeof ( * pixels ) ) ; if ( pixel_info == ( MemoryInfo * ) NULL ) ThrowReaderException ( ResourceLimitError , ""MemoryAllocationFailed"" ) ; pixel_info_length = image -> columns * image -> rows * MagickMax ( number_planes_filled , 4 ) ; pixels = ( unsigned char * ) GetVirtualMemoryBlob ( pixel_info ) ; if ( ( flags & 0x01 ) && ! ( flags & 0x02 ) ) { ssize_t j ; p = pixels ; for ( i = 0 ; i < ( ssize_t ) number_pixels ; i ++ ) { if ( image -> alpha_trait == UndefinedPixelTrait ) for ( j = 0 ; j < ( ssize_t ) number_planes ; j ++ ) * p ++ = background_color [ j ] ; else { for ( j = 0 ; j < ( ssize_t ) ( number_planes - 1 ) ; j ++ ) * p ++ = background_color [ j ] ; * p ++ = 0 ; } } } plane = 0 ; x = 0 ; y = 0 ; opcode = ReadBlobByte ( image ) ; do { switch ( opcode & 0x3f ) { case SkipLinesOp : { operand = ReadBlobByte ( image ) ; if ( opcode & 0x40 ) operand = ReadBlobLSBSignedShort ( image ) ; x = 0 ; y += operand ; break ; } case SetColorOp : { operand = ReadBlobByte ( image ) ; plane = ( unsigned char ) operand ; if ( plane == 255 ) plane = ( unsigned char ) ( number_planes - 1 ) ; x = 0 ; break ; } case SkipPixelsOp : { operand = ReadBlobByte ( image ) ; if ( opcode & 0x40 ) operand = ReadBlobLSBSignedShort ( image ) ;" 1082,"CWE-119 void vp9_rc_postencode_update_drop_frame ( VP9_COMP * cpi ) { update_buffer_level ( cpi , 0 ) ; cpi -> common . last_frame_type = cpi -> common . frame_type ; cpi -> rc . frames_since_key ++ ; cpi -> rc . frames_to_key -- ; }","void vp9_rc_postencode_update_drop_frame ( VP9_COMP * cpi ) { update_buffer_level ( cpi , 0 ) ; cpi -> rc . frames_since_key ++ ; cpi -> rc . frames_to_key -- ; cpi -> rc . rc_2_frame = 0 ; cpi -> rc . rc_1_frame = 0 ; }" 1083,"CWE-269 void virtio_config_writew ( VirtIODevice * vdev , uint32_t addr , uint32_t data ) { VirtioDeviceClass * k = VIRTIO_DEVICE_GET_CLASS ( vdev ) ; uint16_t val = data ; if ( addr > ( vdev -> config_len - sizeof ( val ) ) ) return ; stw_p ( vdev -> config + addr , val ) ; if ( k -> set_config ) { k -> set_config ( vdev , vdev -> config ) ; } }","void virtio_config_writew ( VirtIODevice * vdev , uint32_t addr , uint32_t data ) { VirtioDeviceClass * k = VIRTIO_DEVICE_GET_CLASS ( vdev ) ; uint16_t val = data ; if ( addr + sizeof ( val ) > vdev -> config_len ) { return ; } stw_p ( vdev -> config + addr , val ) ; if ( k -> set_config ) { k -> set_config ( vdev , vdev -> config ) ; } }" 1084,"CWE-416 static void smp_task_timedout ( struct timer_list * t ) { struct sas_task_slow * slow = from_timer ( slow , t , timer ) ; struct sas_task * task = slow -> task ; unsigned long flags ; spin_lock_irqsave ( & task -> task_state_lock , flags ) ; if ( ! ( task -> task_state_flags & SAS_TASK_STATE_DONE ) ) task -> task_state_flags |= SAS_TASK_STATE_ABORTED ; spin_unlock_irqrestore ( & task -> task_state_lock , flags ) ; complete ( & task -> slow_task -> completion ) ; } ","static void smp_task_timedout ( struct timer_list * t ) { struct sas_task_slow * slow = from_timer ( slow , t , timer ) ; struct sas_task * task = slow -> task ; unsigned long flags ; spin_lock_irqsave ( & task -> task_state_lock , flags ) ; if ( ! ( task -> task_state_flags & SAS_TASK_STATE_DONE ) ) { task -> task_state_flags |= SAS_TASK_STATE_ABORTED ; complete ( & task -> slow_task -> completion ) ; } spin_unlock_irqrestore ( & task -> task_state_lock , flags ) ; }" 1085,"CWE-399 void serveloop ( GArray * servers ) { struct sockaddr_storage addrin ; socklen_t addrinlen = sizeof ( addrin ) ; int i ; int max ; fd_set mset ; fd_set rset ; max = 0 ; FD_ZERO ( & mset ) ; for ( i = 0 ; i < servers -> len ; i ++ ) { int sock ; if ( ( sock = ( g_array_index ( servers , SERVER , i ) ) . socket ) >= 0 ) { FD_SET ( sock , & mset ) ; max = sock > max ? sock : max ; } } for ( i = 0 ; i < modernsocks -> len ; i ++ ) { int sock = g_array_index ( modernsocks , int , i ) ; FD_SET ( sock , & mset ) ; max = sock > max ? sock : max ; } for ( ; ; ) { if ( is_sighup_caught ) { int n ; GError * gerror = NULL ; msg ( LOG_INFO , ""reconfiguration request received"" ) ; is_sighup_caught = 0 ; n = append_new_servers ( servers , & gerror ) ; if ( n == - 1 ) msg ( LOG_ERR , ""failed to append new servers: %s"" , gerror -> message ) ; for ( i = servers -> len - n ; i < servers -> len ; ++ i ) { const SERVER server = g_array_index ( servers , SERVER , i ) ; if ( server . socket >= 0 ) { FD_SET ( server . socket , & mset ) ; max = server . socket > max ? server . socket : max ; } msg ( LOG_INFO , ""reconfigured new server: %s"" , server . servename ) ; } } memcpy ( & rset , & mset , sizeof ( fd_set ) ) ; if ( select ( max + 1 , & rset , NULL , NULL , NULL ) > 0 ) { int net ; DEBUG ( ""accept, "" ) ; for ( i = 0 ; i < modernsocks -> len ; i ++ ) { int sock = g_array_index ( modernsocks , int , i ) ; if ( ! FD_ISSET ( sock , & rset ) ) { continue ; } CLIENT * client ; if ( ( net = accept ( sock , ( struct sockaddr * ) & addrin , & addrinlen ) ) < 0 ) { err_nonfatal ( ""accept: %m"" ) ; continue ; } client = negotiate ( net , NULL , servers , NEG_INIT | NEG_MODERN ) ; if ( ! client ) { close ( net ) ; continue ; } handle_connection ( servers , net , client -> server , client ) ; } for ( i = 0 ; i < servers -> len ; i ++ ) { SERVER * serve ; serve = & ( g_array_index ( servers , SERVER , i ) ) ; if ( serve -> socket < 0 ) { continue ; } if ( FD_ISSET ( serve -> socket , & rset ) ) { if ( ( net = accept ( serve -> socket , ( struct sockaddr * ) & addrin , & addrinlen ) ) < 0 ) { err_nonfatal ( ""accept: %m"" ) ; continue ; } handle_connection ( servers , net , serve , NULL ) ; } } } } }","void serveloop ( GArray * servers ) { struct sockaddr_storage addrin ; socklen_t addrinlen = sizeof ( addrin ) ; int i ; int max ; fd_set mset ; fd_set rset ; max = 0 ; FD_ZERO ( & mset ) ; for ( i = 0 ; i < servers -> len ; i ++ ) { int sock ; if ( ( sock = ( g_array_index ( servers , SERVER , i ) ) . socket ) >= 0 ) { FD_SET ( sock , & mset ) ; max = sock > max ? sock : max ; } } for ( i = 0 ; i < modernsocks -> len ; i ++ ) { int sock = g_array_index ( modernsocks , int , i ) ; FD_SET ( sock , & mset ) ; max = sock > max ? sock : max ; } for ( ; ; ) { if ( is_sighup_caught ) { int n ; GError * gerror = NULL ; msg ( LOG_INFO , ""reconfiguration request received"" ) ; is_sighup_caught = 0 ; n = append_new_servers ( servers , & gerror ) ; if ( n == - 1 ) msg ( LOG_ERR , ""failed to append new servers: %s"" , gerror -> message ) ; for ( i = servers -> len - n ; i < servers -> len ; ++ i ) { const SERVER server = g_array_index ( servers , SERVER , i ) ; if ( server . socket >= 0 ) { FD_SET ( server . socket , & mset ) ; max = server . socket > max ? server . socket : max ; } msg ( LOG_INFO , ""reconfigured new server: %s"" , server . servename ) ; } } memcpy ( & rset , & mset , sizeof ( fd_set ) ) ; if ( select ( max + 1 , & rset , NULL , NULL , NULL ) > 0 ) { DEBUG ( ""accept, "" ) ; for ( i = 0 ; i < modernsocks -> len ; i ++ ) { int sock = g_array_index ( modernsocks , int , i ) ; if ( ! FD_ISSET ( sock , & rset ) ) { continue ; } handle_modern_connection ( servers , sock ) ; } for ( i = 0 ; i < servers -> len ; i ++ ) { int net ; SERVER * serve ; serve = & ( g_array_index ( servers , SERVER , i ) ) ; if ( serve -> socket < 0 ) { continue ; } if ( FD_ISSET ( serve -> socket , & rset ) ) { if ( ( net = accept ( serve -> socket , ( struct sockaddr * ) & addrin , & addrinlen ) ) < 0 ) { err_nonfatal ( ""accept: %m"" ) ; continue ; } handle_connection ( servers , net , serve , NULL ) ; } } } } }" 1086,"CWE-287 static int netlink_sendmsg ( struct kiocb * kiocb , struct socket * sock , struct msghdr * msg , size_t len ) { struct sock_iocb * siocb = kiocb_to_siocb ( kiocb ) ; struct sock * sk = sock -> sk ; struct netlink_sock * nlk = nlk_sk ( sk ) ; struct sockaddr_nl * addr = msg -> msg_name ; u32 dst_pid ; u32 dst_group ; struct sk_buff * skb ; int err ; struct scm_cookie scm ; if ( msg -> msg_flags & MSG_OOB ) return - EOPNOTSUPP ; if ( NULL == siocb -> scm ) siocb -> scm = & scm ; err = scm_send ( sock , msg , siocb -> scm ) ; if ( err < 0 ) return err ; if ( msg -> msg_namelen ) { err = - EINVAL ; if ( addr -> nl_family != AF_NETLINK ) goto out ; dst_pid = addr -> nl_pid ; dst_group = ffs ( addr -> nl_groups ) ; err = - EPERM ; if ( dst_group && ! netlink_capable ( sock , NL_NONROOT_SEND ) ) goto out ; } else { dst_pid = nlk -> dst_pid ; dst_group = nlk -> dst_group ; } if ( ! nlk -> pid ) { err = netlink_autobind ( sock ) ; if ( err ) goto out ; } err = - EMSGSIZE ; if ( len > sk -> sk_sndbuf - 32 ) goto out ; err = - ENOBUFS ; skb = alloc_skb ( len , GFP_KERNEL ) ; if ( skb == NULL ) goto out ; NETLINK_CB ( skb ) . pid = nlk -> pid ; NETLINK_CB ( skb ) . dst_group = dst_group ; memcpy ( NETLINK_CREDS ( skb ) , & siocb -> scm -> creds , sizeof ( struct ucred ) ) ; err = - EFAULT ; if ( memcpy_fromiovec ( skb_put ( skb , len ) , msg -> msg_iov , len ) ) { kfree_skb ( skb ) ; goto out ; } err = security_netlink_send ( sk , skb ) ; if ( err ) { kfree_skb ( skb ) ; goto out ; } if ( dst_group ) { atomic_inc ( & skb -> users ) ; netlink_broadcast ( sk , skb , dst_pid , dst_group , GFP_KERNEL ) ; } err = netlink_unicast ( sk , skb , dst_pid , msg -> msg_flags & MSG_DONTWAIT ) ; out : scm_destroy ( siocb -> scm ) ; return err ; }","static int netlink_sendmsg ( struct kiocb * kiocb , struct socket * sock , struct msghdr * msg , size_t len ) { struct sock_iocb * siocb = kiocb_to_siocb ( kiocb ) ; struct sock * sk = sock -> sk ; struct netlink_sock * nlk = nlk_sk ( sk ) ; struct sockaddr_nl * addr = msg -> msg_name ; u32 dst_pid ; u32 dst_group ; struct sk_buff * skb ; int err ; struct scm_cookie scm ; if ( msg -> msg_flags & MSG_OOB ) return - EOPNOTSUPP ; if ( NULL == siocb -> scm ) siocb -> scm = & scm ; err = scm_send ( sock , msg , siocb -> scm , true ) ; if ( err < 0 ) return err ; if ( msg -> msg_namelen ) { err = - EINVAL ; if ( addr -> nl_family != AF_NETLINK ) goto out ; dst_pid = addr -> nl_pid ; dst_group = ffs ( addr -> nl_groups ) ; err = - EPERM ; if ( dst_group && ! netlink_capable ( sock , NL_NONROOT_SEND ) ) goto out ; } else { dst_pid = nlk -> dst_pid ; dst_group = nlk -> dst_group ; } if ( ! nlk -> pid ) { err = netlink_autobind ( sock ) ; if ( err ) goto out ; } err = - EMSGSIZE ; if ( len > sk -> sk_sndbuf - 32 ) goto out ; err = - ENOBUFS ; skb = alloc_skb ( len , GFP_KERNEL ) ; if ( skb == NULL ) goto out ; NETLINK_CB ( skb ) . pid = nlk -> pid ; NETLINK_CB ( skb ) . dst_group = dst_group ; memcpy ( NETLINK_CREDS ( skb ) , & siocb -> scm -> creds , sizeof ( struct ucred ) ) ; err = - EFAULT ; if ( memcpy_fromiovec ( skb_put ( skb , len ) , msg -> msg_iov , len ) ) { kfree_skb ( skb ) ; goto out ; } err = security_netlink_send ( sk , skb ) ; if ( err ) { kfree_skb ( skb ) ; goto out ; } if ( dst_group ) { atomic_inc ( & skb -> users ) ; netlink_broadcast ( sk , skb , dst_pid , dst_group , GFP_KERNEL ) ; } err = netlink_unicast ( sk , skb , dst_pid , msg -> msg_flags & MSG_DONTWAIT ) ; out : scm_destroy ( siocb -> scm ) ; return err ; }" 1087,"CWE-400 static int attach_recursive_mnt ( struct mount * source_mnt , struct mount * dest_mnt , struct mountpoint * dest_mp , struct path * parent_path ) { HLIST_HEAD ( tree_list ) ; struct mount * child , * p ; struct hlist_node * n ; int err ; if ( IS_MNT_SHARED ( dest_mnt ) ) { err = invent_group_ids ( source_mnt , true ) ; if ( err ) goto out ; err = propagate_mnt ( dest_mnt , dest_mp , source_mnt , & tree_list ) ; lock_mount_hash ( ) ; if ( err ) goto out_cleanup_ids ; for ( p = source_mnt ; p ; p = next_mnt ( p , source_mnt ) ) set_mnt_shared ( p ) ; } else { lock_mount_hash ( ) ; } if ( parent_path ) { detach_mnt ( source_mnt , parent_path ) ; attach_mnt ( source_mnt , dest_mnt , dest_mp ) ; touch_mnt_namespace ( source_mnt -> mnt_ns ) ; } else { mnt_set_mountpoint ( dest_mnt , dest_mp , source_mnt ) ; commit_tree ( source_mnt , NULL ) ; } hlist_for_each_entry_safe ( child , n , & tree_list , mnt_hash ) { struct mount * q ; hlist_del_init ( & child -> mnt_hash ) ; q = __lookup_mnt_last ( & child -> mnt_parent -> mnt , child -> mnt_mountpoint ) ; commit_tree ( child , q ) ; } unlock_mount_hash ( ) ; return 0 ; out_cleanup_ids : while ( ! hlist_empty ( & tree_list ) ) { child = hlist_entry ( tree_list . first , struct mount , mnt_hash ) ; umount_tree ( child , UMOUNT_SYNC ) ; } unlock_mount_hash ( ) ; cleanup_group_ids ( source_mnt , NULL ) ; out : return err ; }","static int attach_recursive_mnt ( struct mount * source_mnt , struct mount * dest_mnt , struct mountpoint * dest_mp , struct path * parent_path ) { HLIST_HEAD ( tree_list ) ; struct mnt_namespace * ns = dest_mnt -> mnt_ns ; struct mount * child , * p ; struct hlist_node * n ; int err ; if ( ! parent_path ) { err = count_mounts ( ns , source_mnt ) ; if ( err ) goto out ; } if ( IS_MNT_SHARED ( dest_mnt ) ) { err = invent_group_ids ( source_mnt , true ) ; if ( err ) goto out ; err = propagate_mnt ( dest_mnt , dest_mp , source_mnt , & tree_list ) ; lock_mount_hash ( ) ; if ( err ) goto out_cleanup_ids ; for ( p = source_mnt ; p ; p = next_mnt ( p , source_mnt ) ) set_mnt_shared ( p ) ; } else { lock_mount_hash ( ) ; } if ( parent_path ) { detach_mnt ( source_mnt , parent_path ) ; attach_mnt ( source_mnt , dest_mnt , dest_mp ) ; touch_mnt_namespace ( source_mnt -> mnt_ns ) ; } else { mnt_set_mountpoint ( dest_mnt , dest_mp , source_mnt ) ; commit_tree ( source_mnt , NULL ) ; } hlist_for_each_entry_safe ( child , n , & tree_list , mnt_hash ) { struct mount * q ; hlist_del_init ( & child -> mnt_hash ) ; q = __lookup_mnt_last ( & child -> mnt_parent -> mnt , child -> mnt_mountpoint ) ; commit_tree ( child , q ) ; } unlock_mount_hash ( ) ; return 0 ; out_cleanup_ids : while ( ! hlist_empty ( & tree_list ) ) { child = hlist_entry ( tree_list . first , struct mount , mnt_hash ) ; child -> mnt_parent -> mnt_ns -> pending_mounts = 0 ; umount_tree ( child , UMOUNT_SYNC ) ; } unlock_mount_hash ( ) ; cleanup_group_ids ( source_mnt , NULL ) ; out : ns -> pending_mounts = 0 ; return err ; }" 1088,"CWE-20 error = udpInvokeRxCallback ( interface , pseudoHeader , header , buffer , offset , ancillary ) ; return error ; } if ( socket -> receiveQueue == NULL ) { p = netBufferAlloc ( sizeof ( SocketQueueItem ) + length ) ; if ( p != NULL ) { queueItem = netBufferAt ( p , 0 ) ; queueItem -> buffer = p ; socket -> receiveQueue = queueItem ; } else { queueItem = NULL ; } } else { queueItem = socket -> receiveQueue ; for ( i = 1 ; queueItem -> next ; i ++ ) { queueItem = queueItem -> next ; } if ( i >= UDP_RX_QUEUE_SIZE ) { MIB2_INC_COUNTER32 ( ifGroup . ifTable [ interface -> index ] . ifInDiscards , 1 ) ; IF_MIB_INC_COUNTER32 ( ifTable [ interface -> index ] . ifInDiscards , 1 ) ; return ERROR_RECEIVE_QUEUE_FULL ; } p = netBufferAlloc ( sizeof ( SocketQueueItem ) + length ) ; if ( p != NULL ) { queueItem -> next = netBufferAt ( p , 0 ) ; queueItem = queueItem -> next ; queueItem -> buffer = p ; } else { queueItem = NULL ; } } if ( queueItem == NULL ) { MIB2_INC_COUNTER32 ( ifGroup . ifTable [ interface -> index ] . ifInDiscards , 1 ) ; IF_MIB_INC_COUNTER32 ( ifTable [ interface -> index ] . ifInDiscards , 1 ) ; return ERROR_OUT_OF_MEMORY ; } queueItem -> next = NULL ; queueItem -> srcPort = ntohs ( header -> srcPort ) ; # if ( IPV4_SUPPORT == ENABLED ) if ( pseudoHeader -> length == sizeof ( Ipv4PseudoHeader ) ) { queueItem -> srcIpAddr . length = sizeof ( Ipv4Addr ) ; queueItem -> srcIpAddr . ipv4Addr = pseudoHeader -> ipv4Data . srcAddr ; queueItem -> destIpAddr . length = sizeof ( Ipv4Addr ) ; queueItem -> destIpAddr . ipv4Addr = pseudoHeader -> ipv4Data . destAddr ; } # endif # if ( IPV6_SUPPORT == ENABLED ) if ( pseudoHeader -> length == sizeof ( Ipv6PseudoHeader ) ) { queueItem -> srcIpAddr . length = sizeof ( Ipv6Addr ) ; queueItem -> srcIpAddr . ipv6Addr = pseudoHeader -> ipv6Data . srcAddr ; queueItem -> destIpAddr . length = sizeof ( Ipv6Addr ) ; queueItem -> destIpAddr . ipv6Addr = pseudoHeader -> ipv6Data . destAddr ; } # endif queueItem -> offset = sizeof ( SocketQueueItem ) ; netBufferCopy ( queueItem -> buffer , queueItem -> offset , buffer , offset , length ) ; queueItem -> ancillary = * ancillary ; udpUpdateEvents ( socket ) ; MIB2_INC_COUNTER32 ( udpGroup . udpInDatagrams , 1 ) ; UDP_MIB_INC_COUNTER32 ( udpInDatagrams , 1 ) ; UDP_MIB_INC_COUNTER64 ( udpHCInDatagrams , 1 ) ; return NO_ERROR ; }","error = udpInvokeRxCallback ( interface , pseudoHeader , header , buffer , offset , ancillary ) ; return error ; } if ( socket -> receiveQueue == NULL ) { p = netBufferAlloc ( sizeof ( SocketQueueItem ) + length ) ; if ( p != NULL ) { queueItem = netBufferAt ( p , 0 ) ; queueItem -> buffer = p ; socket -> receiveQueue = queueItem ; } else { queueItem = NULL ; } } else { queueItem = socket -> receiveQueue ; for ( i = 1 ; queueItem -> next ; i ++ ) { queueItem = queueItem -> next ; } if ( i >= UDP_RX_QUEUE_SIZE ) { MIB2_INC_COUNTER32 ( ifGroup . ifTable [ interface -> index ] . ifInDiscards , 1 ) ; IF_MIB_INC_COUNTER32 ( ifTable [ interface -> index ] . ifInDiscards , 1 ) ; return ERROR_RECEIVE_QUEUE_FULL ; } p = netBufferAlloc ( sizeof ( SocketQueueItem ) + length ) ; if ( p != NULL ) { queueItem -> next = netBufferAt ( p , 0 ) ; queueItem = queueItem -> next ; queueItem -> buffer = p ; } else { queueItem = NULL ; } } if ( queueItem == NULL ) { MIB2_INC_COUNTER32 ( ifGroup . ifTable [ interface -> index ] . ifInDiscards , 1 ) ; IF_MIB_INC_COUNTER32 ( ifTable [ interface -> index ] . ifInDiscards , 1 ) ; return ERROR_OUT_OF_MEMORY ; } queueItem -> next = NULL ; queueItem -> interface = interface ; queueItem -> srcPort = ntohs ( header -> srcPort ) ; # if ( IPV4_SUPPORT == ENABLED ) if ( pseudoHeader -> length == sizeof ( Ipv4PseudoHeader ) ) { queueItem -> srcIpAddr . length = sizeof ( Ipv4Addr ) ; queueItem -> srcIpAddr . ipv4Addr = pseudoHeader -> ipv4Data . srcAddr ; queueItem -> destIpAddr . length = sizeof ( Ipv4Addr ) ; queueItem -> destIpAddr . ipv4Addr = pseudoHeader -> ipv4Data . destAddr ; } # endif # if ( IPV6_SUPPORT == ENABLED ) if ( pseudoHeader -> length == sizeof ( Ipv6PseudoHeader ) ) { queueItem -> srcIpAddr . length = sizeof ( Ipv6Addr ) ; queueItem -> srcIpAddr . ipv6Addr = pseudoHeader -> ipv6Data . srcAddr ; queueItem -> destIpAddr . length = sizeof ( Ipv6Addr ) ; queueItem -> destIpAddr . ipv6Addr = pseudoHeader -> ipv6Data . destAddr ; } # endif queueItem -> offset = sizeof ( SocketQueueItem ) ; netBufferCopy ( queueItem -> buffer , queueItem -> offset , buffer , offset , length ) ; queueItem -> ancillary = * ancillary ; udpUpdateEvents ( socket ) ; MIB2_INC_COUNTER32 ( udpGroup . udpInDatagrams , 1 ) ; UDP_MIB_INC_COUNTER32 ( udpInDatagrams , 1 ) ; UDP_MIB_INC_COUNTER64 ( udpHCInDatagrams , 1 ) ; return NO_ERROR ; }" 1089,"CWE-119 vpx_codec_err_t vpx_codec_destroy ( vpx_codec_ctx_t * ctx ) { vpx_codec_err_t res ; if ( ! ctx ) res = VPX_CODEC_INVALID_PARAM ; else if ( ! ctx -> iface || ! ctx -> priv ) res = VPX_CODEC_ERROR ; else { if ( ctx -> priv -> alg_priv ) ctx -> iface -> destroy ( ctx -> priv -> alg_priv ) ; ctx -> iface = NULL ; ctx -> name = NULL ; ctx -> priv = NULL ; res = VPX_CODEC_OK ; } return SAVE_STATUS ( ctx , res ) ; }","vpx_codec_err_t vpx_codec_destroy ( vpx_codec_ctx_t * ctx ) { vpx_codec_err_t res ; if ( ! ctx ) res = VPX_CODEC_INVALID_PARAM ; else if ( ! ctx -> iface || ! ctx -> priv ) res = VPX_CODEC_ERROR ; else { ctx -> iface -> destroy ( ( vpx_codec_alg_priv_t * ) ctx -> priv ) ; ctx -> iface = NULL ; ctx -> name = NULL ; ctx -> priv = NULL ; res = VPX_CODEC_OK ; } return SAVE_STATUS ( ctx , res ) ; }" 1090,"CWE-189 static int do_check ( struct bpf_verifier_env * env ) { struct bpf_verifier_state * state ; struct bpf_insn * insns = env -> prog -> insnsi ; struct bpf_reg_state * regs ; int insn_cnt = env -> prog -> len , i ; int insn_processed = 0 ; bool do_print_state = false ; env -> prev_linfo = NULL ; state = kzalloc ( sizeof ( struct bpf_verifier_state ) , GFP_KERNEL ) ; if ( ! state ) return - ENOMEM ; state -> curframe = 0 ; state -> frame [ 0 ] = kzalloc ( sizeof ( struct bpf_func_state ) , GFP_KERNEL ) ; if ( ! state -> frame [ 0 ] ) { kfree ( state ) ; return - ENOMEM ; } env -> cur_state = state ; init_func_state ( env , state -> frame [ 0 ] , BPF_MAIN_FUNC , 0 , 0 ) ; for ( ; ; ) { struct bpf_insn * insn ; u8 class ; int err ; if ( env -> insn_idx >= insn_cnt ) { verbose ( env , ""invalid insn idx %d insn_cnt %d\\n"" , env -> insn_idx , insn_cnt ) ; return - EFAULT ; } insn = & insns [ env -> insn_idx ] ; class = BPF_CLASS ( insn -> code ) ; if ( ++ insn_processed > BPF_COMPLEXITY_LIMIT_INSNS ) { verbose ( env , ""BPF program is too large. Processed %d insn\\n"" , insn_processed ) ; return - E2BIG ; } err = is_state_visited ( env , env -> insn_idx ) ; if ( err < 0 ) return err ; if ( err == 1 ) { if ( env -> log . level ) { if ( do_print_state ) verbose ( env , ""\\nfrom %d to %d: safe\\n"" , env -> prev_insn_idx , env -> insn_idx ) ; else verbose ( env , ""%d: safe\\n"" , env -> insn_idx ) ; } goto process_bpf_exit ; } if ( signal_pending ( current ) ) return - EAGAIN ; if ( need_resched ( ) ) cond_resched ( ) ; if ( env -> log . level > 1 || ( env -> log . level && do_print_state ) ) { if ( env -> log . level > 1 ) verbose ( env , ""%d:"" , env -> insn_idx ) ; else verbose ( env , ""\\nfrom %d to %d:"" , env -> prev_insn_idx , env -> insn_idx ) ; print_verifier_state ( env , state -> frame [ state -> curframe ] ) ; do_print_state = false ; } if ( env -> log . level ) { const struct bpf_insn_cbs cbs = { . cb_print = verbose , . private_data = env , } ; verbose_linfo ( env , env -> insn_idx , ""; "" ) ; verbose ( env , ""%d: "" , env -> insn_idx ) ; print_bpf_insn ( & cbs , insn , env -> allow_ptr_leaks ) ; } if ( bpf_prog_is_dev_bound ( env -> prog -> aux ) ) { err = bpf_prog_offload_verify_insn ( env , env -> insn_idx , env -> prev_insn_idx ) ; if ( err ) return err ; } regs = cur_regs ( env ) ; env -> insn_aux_data [ env -> insn_idx ] . seen = true ; if ( class == BPF_ALU || class == BPF_ALU64 ) { err = check_alu_op ( env , insn ) ; if ( err ) return err ; } else if ( class == BPF_LDX ) { enum bpf_reg_type * prev_src_type , src_reg_type ; err = check_reg_arg ( env , insn -> src_reg , SRC_OP ) ; if ( err ) return err ; err = check_reg_arg ( env , insn -> dst_reg , DST_OP_NO_MARK ) ; if ( err ) return err ; src_reg_type = regs [ insn -> src_reg ] . type ; err = check_mem_access ( env , env -> insn_idx , insn -> src_reg , insn -> off , BPF_SIZE ( insn -> code ) , BPF_READ , insn -> dst_reg , false ) ; if ( err ) return err ; prev_src_type = & env -> insn_aux_data [ env -> insn_idx ] . ptr_type ; if ( * prev_src_type == NOT_INIT ) { * prev_src_type = src_reg_type ; } else if ( reg_type_mismatch ( src_reg_type , * prev_src_type ) ) { verbose ( env , ""same insn cannot be used with different pointers\\n"" ) ; return - EINVAL ; } } else if ( class == BPF_STX ) { enum bpf_reg_type * prev_dst_type , dst_reg_type ; if ( BPF_MODE ( insn -> code ) == BPF_XADD ) { err = check_xadd ( env , env -> insn_idx , insn ) ; if ( err )","static int do_check ( struct bpf_verifier_env * env ) { struct bpf_verifier_state * state ; struct bpf_insn * insns = env -> prog -> insnsi ; struct bpf_reg_state * regs ; int insn_cnt = env -> prog -> len , i ; int insn_processed = 0 ; bool do_print_state = false ; env -> prev_linfo = NULL ; state = kzalloc ( sizeof ( struct bpf_verifier_state ) , GFP_KERNEL ) ; if ( ! state ) return - ENOMEM ; state -> curframe = 0 ; state -> speculative = false ; state -> frame [ 0 ] = kzalloc ( sizeof ( struct bpf_func_state ) , GFP_KERNEL ) ; if ( ! state -> frame [ 0 ] ) { kfree ( state ) ; return - ENOMEM ; } env -> cur_state = state ; init_func_state ( env , state -> frame [ 0 ] , BPF_MAIN_FUNC , 0 , 0 ) ; for ( ; ; ) { struct bpf_insn * insn ; u8 class ; int err ; if ( env -> insn_idx >= insn_cnt ) { verbose ( env , ""invalid insn idx %d insn_cnt %d\\n"" , env -> insn_idx , insn_cnt ) ; return - EFAULT ; } insn = & insns [ env -> insn_idx ] ; class = BPF_CLASS ( insn -> code ) ; if ( ++ insn_processed > BPF_COMPLEXITY_LIMIT_INSNS ) { verbose ( env , ""BPF program is too large. Processed %d insn\\n"" , insn_processed ) ; return - E2BIG ; } err = is_state_visited ( env , env -> insn_idx ) ; if ( err < 0 ) return err ; if ( err == 1 ) { if ( env -> log . level ) { if ( do_print_state ) verbose ( env , ""\\nfrom %d to %d%s: safe\\n"" , env -> prev_insn_idx , env -> insn_idx , env -> cur_state -> speculative ? "" (speculative execution)"" : """" ) ; else verbose ( env , ""%d: safe\\n"" , env -> insn_idx ) ; } goto process_bpf_exit ; } if ( signal_pending ( current ) ) return - EAGAIN ; if ( need_resched ( ) ) cond_resched ( ) ; if ( env -> log . level > 1 || ( env -> log . level && do_print_state ) ) { if ( env -> log . level > 1 ) verbose ( env , ""%d:"" , env -> insn_idx ) ; else verbose ( env , ""\\nfrom %d to %d%s:"" , env -> prev_insn_idx , env -> insn_idx , env -> cur_state -> speculative ? "" (speculative execution)"" : """" ) ; print_verifier_state ( env , state -> frame [ state -> curframe ] ) ; do_print_state = false ; } if ( env -> log . level ) { const struct bpf_insn_cbs cbs = { . cb_print = verbose , . private_data = env , } ; verbose_linfo ( env , env -> insn_idx , ""; "" ) ; verbose ( env , ""%d: "" , env -> insn_idx ) ; print_bpf_insn ( & cbs , insn , env -> allow_ptr_leaks ) ; } if ( bpf_prog_is_dev_bound ( env -> prog -> aux ) ) { err = bpf_prog_offload_verify_insn ( env , env -> insn_idx , env -> prev_insn_idx ) ; if ( err ) return err ; } regs = cur_regs ( env ) ; env -> insn_aux_data [ env -> insn_idx ] . seen = true ; if ( class == BPF_ALU || class == BPF_ALU64 ) { err = check_alu_op ( env , insn ) ; if ( err ) return err ; } else if ( class == BPF_LDX ) { enum bpf_reg_type * prev_src_type , src_reg_type ; err = check_reg_arg ( env , insn -> src_reg , SRC_OP ) ; if ( err ) return err ; err = check_reg_arg ( env , insn -> dst_reg , DST_OP_NO_MARK ) ; if ( err ) return err ; src_reg_type = regs [ insn -> src_reg ] . type ; err = check_mem_access ( env , env -> insn_idx , insn -> src_reg , insn -> off , BPF_SIZE ( insn -> code ) , BPF_READ , insn -> dst_reg , false ) ; if ( err ) return err ; prev_src_type = & env -> insn_aux_data [ env -> insn_idx ] . ptr_type ; if ( * prev_src_type == NOT_INIT ) { * prev_src_type = src_reg_type ; } else if ( reg_type_mismatch ( src_reg_type , * prev_src_type ) ) { verbose ( env , ""same insn cannot be used with different pointers\\n"" ) ; return - EINVAL ; } } else if ( class == BPF_STX ) { enum bpf_reg_type * prev_dst_type , dst_reg_type ; if ( BPF_MODE ( insn -> code ) == BPF_XADD ) { err = check_xadd ( env , env -> insn_idx , insn ) ; if ( err )" 1091,"CWE-269 uint32_t virtio_config_readw ( VirtIODevice * vdev , uint32_t addr ) { VirtioDeviceClass * k = VIRTIO_DEVICE_GET_CLASS ( vdev ) ; uint16_t val ; k -> get_config ( vdev , vdev -> config ) ; if ( addr > ( vdev -> config_len - sizeof ( val ) ) ) return ( uint32_t ) - 1 ; val = lduw_p ( vdev -> config + addr ) ; return val ; }","uint32_t virtio_config_readw ( VirtIODevice * vdev , uint32_t addr ) { VirtioDeviceClass * k = VIRTIO_DEVICE_GET_CLASS ( vdev ) ; uint16_t val ; if ( addr + sizeof ( val ) > vdev -> config_len ) { return ( uint32_t ) - 1 ; } k -> get_config ( vdev , vdev -> config ) ; val = lduw_p ( vdev -> config + addr ) ; return val ; }" 1092,"CWE-415 static int gemsafe_get_cert_len ( sc_card_t * card ) { int r ; u8 ibuf [ GEMSAFE_MAX_OBJLEN ] ; u8 * iptr ; struct sc_path path ; struct sc_file * file ; size_t objlen , certlen ; unsigned int ind , i = 0 ; sc_format_path ( GEMSAFE_PATH , & path ) ; r = sc_select_file ( card , & path , & file ) ; if ( r != SC_SUCCESS || ! file ) return SC_ERROR_INTERNAL ; r = sc_read_binary ( card , 0 , ibuf , GEMSAFE_READ_QUANTUM , 0 ) ; if ( r < 0 ) return SC_ERROR_INTERNAL ; objlen = ( ( ( size_t ) ibuf [ 0 ] ) << 8 ) | ibuf [ 1 ] ; sc_log ( card -> ctx , ""Stored object is of size: %"" SC_FORMAT_LEN_SIZE_T ""u"" , objlen ) ; if ( objlen < 1 || objlen > GEMSAFE_MAX_OBJLEN ) { sc_log ( card -> ctx , ""Invalid object size: %"" SC_FORMAT_LEN_SIZE_T ""u"" , objlen ) ; return SC_ERROR_INTERNAL ; } ind = 2 ; while ( ibuf [ ind ] == 0x01 ) { if ( ibuf [ ind + 1 ] == 0xFE ) { gemsafe_prkeys [ i ] . ref = ibuf [ ind + 4 ] ; sc_log ( card -> ctx , ""Key container %d is allocated and uses key_ref %d"" , i + 1 , gemsafe_prkeys [ i ] . ref ) ; ind += 9 ; } else { gemsafe_prkeys [ i ] . label = NULL ; gemsafe_cert [ i ] . label = NULL ; sc_log ( card -> ctx , ""Key container %d is unallocated"" , i + 1 ) ; ind += 8 ; } i ++ ; } for ( ; i < gemsafe_cert_max ; i ++ ) { gemsafe_prkeys [ i ] . label = NULL ; gemsafe_cert [ i ] . label = NULL ; } iptr = ibuf + GEMSAFE_READ_QUANTUM ; while ( ( size_t ) ( iptr - ibuf ) < objlen ) { r = sc_read_binary ( card , iptr - ibuf , iptr , MIN ( GEMSAFE_READ_QUANTUM , objlen - ( iptr - ibuf ) ) , 0 ) ; if ( r < 0 ) { sc_log ( card -> ctx , ""Could not read cert object"" ) ; return SC_ERROR_INTERNAL ; } iptr += GEMSAFE_READ_QUANTUM ; } i = 0 ; while ( ind < objlen - 1 ) { if ( ibuf [ ind ] == 0x30 && ibuf [ ind + 1 ] == 0x82 ) { while ( i < gemsafe_cert_max && gemsafe_cert [ i ] . label == NULL ) i ++ ; if ( i == gemsafe_cert_max ) { sc_log ( card -> ctx , ""Warning: Found orphaned certificate at offset %d"" , ind ) ; return SC_SUCCESS ; } if ( ind + 3 >= sizeof ibuf ) return SC_ERROR_INVALID_DATA ; certlen = ( ( ( ( size_t ) ibuf [ ind + 2 ] ) << 8 ) | ibuf [ ind + 3 ] ) + 4 ; sc_log ( card -> ctx , ""Found certificate of key container %d at offset %d, len %"" SC_FORMAT_LEN_SIZE_T ""u"" , i + 1 , ind , certlen ) ; gemsafe_cert [ i ] . index = ind ; gemsafe_cert [ i ] . count = certlen ; ind += certlen ; i ++ ; } else ind ++ ; }","static int gemsafe_get_cert_len ( sc_card_t * card ) { int r ; u8 ibuf [ GEMSAFE_MAX_OBJLEN ] ; u8 * iptr ; struct sc_path path ; struct sc_file * file ; size_t objlen , certlen ; unsigned int ind , i = 0 ; sc_format_path ( GEMSAFE_PATH , & path ) ; r = sc_select_file ( card , & path , & file ) ; if ( r != SC_SUCCESS || ! file ) return SC_ERROR_INTERNAL ; r = sc_read_binary ( card , 0 , ibuf , GEMSAFE_READ_QUANTUM , 0 ) ; if ( r < 0 ) return SC_ERROR_INTERNAL ; objlen = ( ( ( size_t ) ibuf [ 0 ] ) << 8 ) | ibuf [ 1 ] ; sc_log ( card -> ctx , ""Stored object is of size: %"" SC_FORMAT_LEN_SIZE_T ""u"" , objlen ) ; if ( objlen < 1 || objlen > GEMSAFE_MAX_OBJLEN ) { sc_log ( card -> ctx , ""Invalid object size: %"" SC_FORMAT_LEN_SIZE_T ""u"" , objlen ) ; return SC_ERROR_INTERNAL ; } ind = 2 ; while ( ibuf [ ind ] == 0x01 && i < gemsafe_cert_max ) { if ( ibuf [ ind + 1 ] == 0xFE ) { gemsafe_prkeys [ i ] . ref = ibuf [ ind + 4 ] ; sc_log ( card -> ctx , ""Key container %d is allocated and uses key_ref %d"" , i + 1 , gemsafe_prkeys [ i ] . ref ) ; ind += 9 ; } else { gemsafe_prkeys [ i ] . label = NULL ; gemsafe_cert [ i ] . label = NULL ; sc_log ( card -> ctx , ""Key container %d is unallocated"" , i + 1 ) ; ind += 8 ; } i ++ ; } for ( ; i < gemsafe_cert_max ; i ++ ) { gemsafe_prkeys [ i ] . label = NULL ; gemsafe_cert [ i ] . label = NULL ; } iptr = ibuf + GEMSAFE_READ_QUANTUM ; while ( ( size_t ) ( iptr - ibuf ) < objlen ) { r = sc_read_binary ( card , iptr - ibuf , iptr , MIN ( GEMSAFE_READ_QUANTUM , objlen - ( iptr - ibuf ) ) , 0 ) ; if ( r < 0 ) { sc_log ( card -> ctx , ""Could not read cert object"" ) ; return SC_ERROR_INTERNAL ; } iptr += GEMSAFE_READ_QUANTUM ; } i = 0 ; while ( ind < objlen - 1 ) { if ( ibuf [ ind ] == 0x30 && ibuf [ ind + 1 ] == 0x82 ) { while ( i < gemsafe_cert_max && gemsafe_cert [ i ] . label == NULL ) i ++ ; if ( i == gemsafe_cert_max ) { sc_log ( card -> ctx , ""Warning: Found orphaned certificate at offset %d"" , ind ) ; return SC_SUCCESS ; } if ( ind + 3 >= sizeof ibuf ) return SC_ERROR_INVALID_DATA ; certlen = ( ( ( ( size_t ) ibuf [ ind + 2 ] ) << 8 ) | ibuf [ ind + 3 ] ) + 4 ; sc_log ( card -> ctx , ""Found certificate of key container %d at offset %d, len %"" SC_FORMAT_LEN_SIZE_T ""u"" , i + 1 , ind , certlen ) ; gemsafe_cert [ i ] . index = ind ; gemsafe_cert [ i ] . count = certlen ; ind += certlen ; i ++ ; } else ind ++ ; }" 1093,"CWE-190 SQLITE_PRIVATE int sqlite3VdbeSorterWrite ( const VdbeCursor * pCsr , Mem * pVal ) { VdbeSorter * pSorter ; int rc = SQLITE_OK ; SorterRecord * pNew ; int bFlush ; int nReq ; int nPMA ; int t ; assert ( pCsr -> eCurType == CURTYPE_SORTER ) ; pSorter = pCsr -> uc . pSorter ; getVarint32 ( ( const u8 * ) & pVal -> z [ 1 ] , t ) ; if ( t > 0 && t < 10 && t != 7 ) { pSorter -> typeMask &= SORTER_TYPE_INTEGER ; } else if ( t > 10 && ( t & 0x01 ) ) { pSorter -> typeMask &= SORTER_TYPE_TEXT ; } else { pSorter -> typeMask = 0 ; } assert ( pSorter ) ; nReq = pVal -> n + sizeof ( SorterRecord ) ; nPMA = pVal -> n + sqlite3VarintLen ( pVal -> n ) ; if ( pSorter -> mxPmaSize ) { if ( pSorter -> list . aMemory ) { bFlush = pSorter -> iMemory && ( pSorter -> iMemory + nReq ) > pSorter -> mxPmaSize ; } else { bFlush = ( ( pSorter -> list . szPMA > pSorter -> mxPmaSize ) || ( pSorter -> list . szPMA > pSorter -> mnPmaSize && sqlite3HeapNearlyFull ( ) ) ) ; } if ( bFlush ) { rc = vdbeSorterFlushPMA ( pSorter ) ; pSorter -> list . szPMA = 0 ; pSorter -> iMemory = 0 ; assert ( rc != SQLITE_OK || pSorter -> list . pList == 0 ) ; } } pSorter -> list . szPMA += nPMA ; if ( nPMA > pSorter -> mxKeysize ) { pSorter -> mxKeysize = nPMA ; } if ( pSorter -> list . aMemory ) { int nMin = pSorter -> iMemory + nReq ; if ( nMin > pSorter -> nMemory ) { u8 * aNew ; int iListOff = ( u8 * ) pSorter -> list . pList - pSorter -> list . aMemory ; int nNew = pSorter -> nMemory * 2 ; while ( nNew < nMin ) nNew = nNew * 2 ; if ( nNew > pSorter -> mxPmaSize ) nNew = pSorter -> mxPmaSize ; if ( nNew < nMin ) nNew = nMin ; aNew = sqlite3Realloc ( pSorter -> list . aMemory , nNew ) ; if ( ! aNew ) return SQLITE_NOMEM_BKPT ; pSorter -> list . pList = ( SorterRecord * ) & aNew [ iListOff ] ; pSorter -> list . aMemory = aNew ; pSorter -> nMemory = nNew ; } pNew = ( SorterRecord * ) & pSorter -> list . aMemory [ pSorter -> iMemory ] ; pSorter -> iMemory += ROUND8 ( nReq ) ; if ( pSorter -> list . pList ) { pNew -> u . iNext = ( int ) ( ( u8 * ) ( pSorter -> list . pList ) - pSorter -> list . aMemory ) ; } } else { pNew = ( SorterRecord * ) sqlite3Malloc ( nReq ) ; if ( pNew == 0 ) { return SQLITE_NOMEM_BKPT ; } pNew -> u . pNext = pSorter -> list . pList ; } memcpy ( SRVAL ( pNew ) , pVal -> z , pVal -> n ) ; pNew -> nVal = pVal -> n ; pSorter -> list . pList = pNew ; return rc ; }","SQLITE_PRIVATE int sqlite3VdbeSorterWrite ( const VdbeCursor * pCsr , Mem * pVal ) { VdbeSorter * pSorter ; int rc = SQLITE_OK ; SorterRecord * pNew ; int bFlush ; int nReq ; int nPMA ; int t ; assert ( pCsr -> eCurType == CURTYPE_SORTER ) ; pSorter = pCsr -> uc . pSorter ; getVarint32 ( ( const u8 * ) & pVal -> z [ 1 ] , t ) ; if ( t > 0 && t < 10 && t != 7 ) { pSorter -> typeMask &= SORTER_TYPE_INTEGER ; } else if ( t > 10 && ( t & 0x01 ) ) { pSorter -> typeMask &= SORTER_TYPE_TEXT ; } else { pSorter -> typeMask = 0 ; } assert ( pSorter ) ; nReq = pVal -> n + sizeof ( SorterRecord ) ; nPMA = pVal -> n + sqlite3VarintLen ( pVal -> n ) ; if ( pSorter -> mxPmaSize ) { if ( pSorter -> list . aMemory ) { bFlush = pSorter -> iMemory && ( pSorter -> iMemory + nReq ) > pSorter -> mxPmaSize ; } else { bFlush = ( ( pSorter -> list . szPMA > pSorter -> mxPmaSize ) || ( pSorter -> list . szPMA > pSorter -> mnPmaSize && sqlite3HeapNearlyFull ( ) ) ) ; } if ( bFlush ) { rc = vdbeSorterFlushPMA ( pSorter ) ; pSorter -> list . szPMA = 0 ; pSorter -> iMemory = 0 ; assert ( rc != SQLITE_OK || pSorter -> list . pList == 0 ) ; } } pSorter -> list . szPMA += nPMA ; if ( nPMA > pSorter -> mxKeysize ) { pSorter -> mxKeysize = nPMA ; } if ( pSorter -> list . aMemory ) { int nMin = pSorter -> iMemory + nReq ; if ( nMin > pSorter -> nMemory ) { u8 * aNew ; int iListOff = ( u8 * ) pSorter -> list . pList - pSorter -> list . aMemory ; sqlite3_int64 nNew = 2 * ( sqlite3_int64 ) pSorter -> nMemory ; while ( nNew < nMin ) nNew = nNew * 2 ; if ( nNew > pSorter -> mxPmaSize ) nNew = pSorter -> mxPmaSize ; if ( nNew < nMin ) nNew = nMin ; aNew = sqlite3Realloc ( pSorter -> list . aMemory , nNew ) ; if ( ! aNew ) return SQLITE_NOMEM_BKPT ; pSorter -> list . pList = ( SorterRecord * ) & aNew [ iListOff ] ; pSorter -> list . aMemory = aNew ; pSorter -> nMemory = nNew ; } pNew = ( SorterRecord * ) & pSorter -> list . aMemory [ pSorter -> iMemory ] ; pSorter -> iMemory += ROUND8 ( nReq ) ; if ( pSorter -> list . pList ) { pNew -> u . iNext = ( int ) ( ( u8 * ) ( pSorter -> list . pList ) - pSorter -> list . aMemory ) ; } } else { pNew = ( SorterRecord * ) sqlite3Malloc ( nReq ) ; if ( pNew == 0 ) { return SQLITE_NOMEM_BKPT ; } pNew -> u . pNext = pSorter -> list . pList ; } memcpy ( SRVAL ( pNew ) , pVal -> z , pVal -> n ) ; pNew -> nVal = pVal -> n ; pSorter -> list . pList = pNew ; return rc ; }" 1094,"CWE-416 static int xfrm_dump_policy_done ( struct netlink_callback * cb ) { struct xfrm_policy_walk * walk = ( struct xfrm_policy_walk * ) & cb -> args [ 1 ] ; struct net * net = sock_net ( cb -> skb -> sk ) ; xfrm_policy_walk_done ( walk , net ) ; return 0 ; }","static int xfrm_dump_policy_done ( struct netlink_callback * cb ) { struct xfrm_policy_walk * walk = ( struct xfrm_policy_walk * ) cb -> args ; struct net * net = sock_net ( cb -> skb -> sk ) ; xfrm_policy_walk_done ( walk , net ) ; return 0 ; }" 1095,"CWE-119 int vp8_hex_search ( MACROBLOCK * x , BLOCK * b , BLOCKD * d , int_mv * ref_mv , int_mv * best_mv , int search_param , int sad_per_bit , const vp8_variance_fn_ptr_t * vfp , int * mvsadcost [ 2 ] , int * mvcost [ 2 ] , int_mv * center_mv ) { MV hex [ 6 ] = { { - 1 , - 2 } , { 1 , - 2 } , { 2 , 0 } , { 1 , 2 } , { - 1 , 2 } , { - 2 , 0 } } ; MV neighbors [ 4 ] = { { 0 , - 1 } , { - 1 , 0 } , { 1 , 0 } , { 0 , 1 } } ; int i , j ; unsigned char * what = ( * ( b -> base_src ) + b -> src ) ; int what_stride = b -> src_stride ; int pre_stride = x -> e_mbd . pre . y_stride ; unsigned char * base_pre = x -> e_mbd . pre . y_buffer ; int in_what_stride = pre_stride ; int br , bc ; int_mv this_mv ; unsigned int bestsad ; unsigned int thissad ; unsigned char * base_offset ; unsigned char * this_offset ; int k = - 1 ; int all_in ; int best_site = - 1 ; int hex_range = 127 ; int dia_range = 8 ; int_mv fcenter_mv ; fcenter_mv . as_mv . row = center_mv -> as_mv . row >> 3 ; fcenter_mv . as_mv . col = center_mv -> as_mv . col >> 3 ; vp8_clamp_mv ( ref_mv , x -> mv_col_min , x -> mv_col_max , x -> mv_row_min , x -> mv_row_max ) ; br = ref_mv -> as_mv . row ; bc = ref_mv -> as_mv . col ; base_offset = ( unsigned char * ) ( base_pre + d -> offset ) ; this_offset = base_offset + ( br * ( pre_stride ) ) + bc ; this_mv . as_mv . row = br ; this_mv . as_mv . col = bc ; bestsad = vfp -> sdf ( what , what_stride , this_offset , in_what_stride , UINT_MAX ) # if CONFIG_MULTI_RES_ENCODING if ( search_param >= 6 ) goto cal_neighbors ; else if ( search_param >= 5 ) hex_range = 4 ; else if ( search_param >= 4 ) hex_range = 6 ; else if ( search_param >= 3 ) hex_range = 15 ; else if ( search_param >= 2 ) hex_range = 31 ; else if ( search_param >= 1 ) hex_range = 63 ; dia_range = 8 ; # endif CHECK_BOUNDS ( 2 ) if ( all_in ) { for ( i = 0 ; i < 6 ; i ++ ) { this_mv . as_mv . row = br + hex [ i ] . row ; this_mv . as_mv . col = bc + hex [ i ] . col ; this_offset = base_offset + ( this_mv . as_mv . row * in_what_stride ) + this_mv . as_mv . col ; thissad = vfp -> sdf ( what , what_stride , this_offset , in_what_stride , bestsad ) ; CHECK_BETTER } } else { for ( i = 0 ; i < 6 ; i ++ ) { this_mv . as_mv . row = br + hex [ i ] . row ; this_mv . as_mv . col = bc + hex [ i ] . col ; CHECK_POINT this_offset = base_offset + ( this_mv . as_mv . row * in_what_stride ) + this_mv . as_mv . col ; thissad = vfp -> sdf ( what , what_stride , this_offset , in_what_stride , bestsad ) ; CHECK_BETTER } } if ( best_site == - 1 ) goto cal_neighbors ; else { br += hex [ best_site ] . row ; bc += hex [ best_site ] . col ; k = best_site ; } for ( j = 1 ; j < hex_range ; j ++ ) { best_site = - 1 ; CHECK_BOUNDS ( 2 ) if ( all_in ) { for ( i = 0 ; i < 3 ; i ++ ) { this_mv . as_mv . row = br + next_chkpts [ k ] [ i ] . row ; this_mv . as_mv . col = bc + next_chkpts [ k ] [ i ] . col ; this_offset = base_offset + ( this_mv . as_mv . row * ( in_what_stride ) ) + this_mv . as_mv . col ; thissad = vfp -> sdf ( what , what_stride , this_offset , in_what_stride , bestsad ) ; CHECK_BETTER } } else { for ( i = 0 ; i < 3 ; i ++ ) { this_mv . as_mv . row = br + next_chkpts [ k ] [ i ] . row ; this_mv . as_mv . col = bc + next_chkpts [ k ] [ i ] . col ; CHECK_POINT this_offset = base_offset + ( this_mv . as_mv . row * ( in_what_stride ) ) + this_mv . as_mv . col ; thissad = vfp -> sdf ( what , what_stride , this_offset , in_what_stride , bestsad ) ; CHECK_BETTER } } if ( best_site == - 1 ) break ; else { br += next_chkpts [ k ] [ best_site ] . row ; bc += next_chkpts [ k ] [ best_site ] . col ; k += 5 + best_site ; if ( k >= 12 ) k -= 12 ; else if ( k >= 6 ) k -= 6 ; } } cal_neighbors : for ( j = 0 ; j < dia_range ; j ++ ) { best_site = - 1 ; CHECK_BOUNDS ( 1 ) if ( all_in ) { for ( i = 0 ; i < 4 ; i ++ ) { this_mv . as_mv . row = br + neighbors [ i ] . row ; this_mv . as_mv . col = bc + neighbors [ i ] . col ; this_offset = base_offset + ( this_mv . as_mv . row * ( in_what_stride ) ) + this_mv . as_mv . col ; thissad = vfp -> sdf ( what , what_stride , this_offset , in_what_stride , bestsad ) ; CHECK_BETTER } } else { for ( i = 0 ; i < 4 ; i ++ ) { this_mv . as_mv . row = br + neighbors [ i ] . row ; this_mv . as_mv . col = bc + neighbors [ i ] . col ; CHECK_POINT this_offset = base_offset + ( this_mv . as_mv . row * ( in_what_stride ) ) + this_mv . as_mv . col ; thissad = vfp -> sdf ( what , what_stride , this_offset , in_what_stride , bestsad ) ; CHECK_BETTER } } if ( best_site == - 1 ) break ; else { br += neighbors [ best_site ] . row ; bc += neighbors [ best_site ] . col ; } } best_mv -> as_mv . row = br ; best_mv -> as_mv . col = bc ; return bestsad ; }","int vp8_hex_search ( MACROBLOCK * x , BLOCK * b , BLOCKD * d , int_mv * ref_mv , int_mv * best_mv , int search_param , int sad_per_bit , const vp8_variance_fn_ptr_t * vfp , int * mvsadcost [ 2 ] , int * mvcost [ 2 ] , int_mv * center_mv ) { MV hex [ 6 ] = { { - 1 , - 2 } , { 1 , - 2 } , { 2 , 0 } , { 1 , 2 } , { - 1 , 2 } , { - 2 , 0 } } ; MV neighbors [ 4 ] = { { 0 , - 1 } , { - 1 , 0 } , { 1 , 0 } , { 0 , 1 } } ; int i , j ; unsigned char * what = ( * ( b -> base_src ) + b -> src ) ; int what_stride = b -> src_stride ; int pre_stride = x -> e_mbd . pre . y_stride ; unsigned char * base_pre = x -> e_mbd . pre . y_buffer ; int in_what_stride = pre_stride ; int br , bc ; int_mv this_mv ; unsigned int bestsad ; unsigned int thissad ; unsigned char * base_offset ; unsigned char * this_offset ; int k = - 1 ; int all_in ; int best_site = - 1 ; int hex_range = 127 ; int dia_range = 8 ; int_mv fcenter_mv ; fcenter_mv . as_mv . row = center_mv -> as_mv . row >> 3 ; fcenter_mv . as_mv . col = center_mv -> as_mv . col >> 3 ; ( void ) mvcost ; vp8_clamp_mv ( ref_mv , x -> mv_col_min , x -> mv_col_max , x -> mv_row_min , x -> mv_row_max ) ; br = ref_mv -> as_mv . row ; bc = ref_mv -> as_mv . col ; base_offset = ( unsigned char * ) ( base_pre + d -> offset ) ; this_offset = base_offset + ( br * ( pre_stride ) ) + bc ; this_mv . as_mv . row = br ; this_mv . as_mv . col = bc ; bestsad = vfp -> sdf ( what , what_stride , this_offset , in_what_stride ) mvsad_err_cost ( & this_mv , & fcenter_mv , mvsadcost , sad_per_bit ) ; # if CONFIG_MULTI_RES_ENCODING if ( search_param >= 6 ) goto cal_neighbors ; else if ( search_param >= 5 ) hex_range = 4 ; else if ( search_param >= 4 ) hex_range = 6 ; else if ( search_param >= 3 ) hex_range = 15 ; else if ( search_param >= 2 ) hex_range = 31 ; else if ( search_param >= 1 ) hex_range = 63 ; dia_range = 8 ; # else ( void ) search_param ; # endif CHECK_BOUNDS ( 2 ) if ( all_in ) { for ( i = 0 ; i < 6 ; i ++ ) { this_mv . as_mv . row = br + hex [ i ] . row ; this_mv . as_mv . col = bc + hex [ i ] . col ; this_offset = base_offset + ( this_mv . as_mv . row * in_what_stride ) + this_mv . as_mv . col ; thissad = vfp -> sdf ( what , what_stride , this_offset , in_what_stride ) ; CHECK_BETTER } } else { for ( i = 0 ; i < 6 ; i ++ ) { this_mv . as_mv . row = br + hex [ i ] . row ; this_mv . as_mv . col = bc + hex [ i ] . col ; CHECK_POINT this_offset = base_offset + ( this_mv . as_mv . row * in_what_stride ) + this_mv . as_mv . col ; thissad = vfp -> sdf ( what , what_stride , this_offset , in_what_stride ) ; CHECK_BETTER } } if ( best_site == - 1 ) goto cal_neighbors ; else { br += hex [ best_site ] . row ; bc += hex [ best_site ] . col ; k = best_site ; } for ( j = 1 ; j < hex_range ; j ++ ) { best_site = - 1 ; CHECK_BOUNDS ( 2 ) if ( all_in ) { for ( i = 0 ; i < 3 ; i ++ ) { this_mv . as_mv . row = br + next_chkpts [ k ] [ i ] . row ; this_mv . as_mv . col = bc + next_chkpts [ k ] [ i ] . col ; this_offset = base_offset + ( this_mv . as_mv . row * ( in_what_stride ) ) + this_mv . as_mv . col ; thissad = vfp -> sdf ( what , what_stride , this_offset , in_what_stride ) ; CHECK_BETTER } } else { for ( i = 0 ; i < 3 ; i ++ ) { this_mv . as_mv . row = br + next_chkpts [ k ] [ i ] . row ; this_mv . as_mv . col = bc + next_chkpts [ k ] [ i ] . col ; CHECK_POINT this_offset = base_offset + ( this_mv . as_mv . row * ( in_what_stride ) ) + this_mv . as_mv . col ; thissad = vfp -> sdf ( what , what_stride , this_offset , in_what_stride ) ; CHECK_BETTER } } if ( best_site == - 1 ) break ; else { br += next_chkpts [ k ] [ best_site ] . row ; bc += next_chkpts [ k ] [ best_site ] . col ; k += 5 + best_site ; if ( k >= 12 ) k -= 12 ; else if ( k >= 6 ) k -= 6 ; } } cal_neighbors : for ( j = 0 ; j < dia_range ; j ++ ) { best_site = - 1 ; CHECK_BOUNDS ( 1 ) if ( all_in ) { for ( i = 0 ; i < 4 ; i ++ ) { this_mv . as_mv . row = br + neighbors [ i ] . row ; this_mv . as_mv . col = bc + neighbors [ i ] . col ; this_offset = base_offset + ( this_mv . as_mv . row * ( in_what_stride ) ) + this_mv . as_mv . col ; thissad = vfp -> sdf ( what , what_stride , this_offset , in_what_stride ) ; CHECK_BETTER } } else { for ( i = 0 ; i < 4 ; i ++ ) { this_mv . as_mv . row = br + neighbors [ i ] . row ; this_mv . as_mv . col = bc + neighbors [ i ] . col ; CHECK_POINT this_offset = base_offset + ( this_mv . as_mv . row * ( in_what_stride ) ) + this_mv . as_mv . col ; thissad = vfp -> sdf ( what , what_stride , this_offset , in_what_stride ) ; CHECK_BETTER } } if ( best_site == - 1 ) break ; else { br += neighbors [ best_site ] . row ; bc += neighbors [ best_site ] . col ; } } best_mv -> as_mv . row = br ; best_mv -> as_mv . col = bc ; return bestsad ; }" 1096,CWE-400 static void __xen_evtchn_do_upcall ( void ) { struct vcpu_info * vcpu_info = __this_cpu_read ( xen_vcpu ) ; int cpu = smp_processor_id ( ) ; read_lock ( & evtchn_rwlock ) ; do { vcpu_info -> evtchn_upcall_pending = 0 ; xen_evtchn_handle_events ( cpu ) ; BUG_ON ( ! irqs_disabled ( ) ) ; virt_rmb ( ) ; } while ( vcpu_info -> evtchn_upcall_pending ) ; read_unlock ( & evtchn_rwlock ) ; },"static void __xen_evtchn_do_upcall ( void ) { struct vcpu_info * vcpu_info = __this_cpu_read ( xen_vcpu ) ; int cpu = smp_processor_id ( ) ; struct evtchn_loop_ctrl ctrl = { 0 } ; read_lock ( & evtchn_rwlock ) ; do { vcpu_info -> evtchn_upcall_pending = 0 ; xen_evtchn_handle_events ( cpu , & ctrl ) ; BUG_ON ( ! irqs_disabled ( ) ) ; virt_rmb ( ) ; } while ( vcpu_info -> evtchn_upcall_pending ) ; read_unlock ( & evtchn_rwlock ) ; __this_cpu_inc ( irq_epoch ) ; }" 1097,"CWE-20 int vp9_alloc_context_buffers ( VP9_COMMON * cm , int width , int height ) { int new_mi_size ; vp9_set_mb_mi ( cm , width , height ) ; new_mi_size = cm -> mi_stride * calc_mi_size ( cm -> mi_rows ) ; if ( cm -> mi_alloc_size < new_mi_size ) { cm -> free_mi ( cm ) ; if ( cm -> alloc_mi ( cm , new_mi_size ) ) goto fail ; } if ( cm -> seg_map_alloc_size < cm -> mi_rows * cm -> mi_cols ) { free_seg_map ( cm ) ; if ( alloc_seg_map ( cm , cm -> mi_rows * cm -> mi_cols ) ) goto fail ; } if ( cm -> above_context_alloc_cols < cm -> mi_cols ) { vpx_free ( cm -> above_context ) ; cm -> above_context = ( ENTROPY_CONTEXT * ) vpx_calloc ( 2 * mi_cols_aligned_to_sb ( cm -> mi_cols ) * MAX_MB_PLANE , sizeof ( * cm -> above_context ) ) ; if ( ! cm -> above_context ) goto fail ; vpx_free ( cm -> above_seg_context ) ; cm -> above_seg_context = ( PARTITION_CONTEXT * ) vpx_calloc ( mi_cols_aligned_to_sb ( cm -> mi_cols ) , sizeof ( * cm -> above_seg_context ) ) ; if ( ! cm -> above_seg_context ) goto fail ; cm -> above_context_alloc_cols = cm -> mi_cols ; } return 0 ; fail : vp9_free_context_buffers ( cm ) ; return 1 ; }","int vp9_alloc_context_buffers ( VP9_COMMON * cm , int width , int height ) { int new_mi_size ; vp9_set_mb_mi ( cm , width , height ) ; new_mi_size = cm -> mi_stride * calc_mi_size ( cm -> mi_rows ) ; if ( cm -> mi_alloc_size < new_mi_size ) { cm -> free_mi ( cm ) ; if ( cm -> alloc_mi ( cm , new_mi_size ) ) goto fail ; } if ( cm -> seg_map_alloc_size < cm -> mi_rows * cm -> mi_cols ) { free_seg_map ( cm ) ; if ( alloc_seg_map ( cm , cm -> mi_rows * cm -> mi_cols ) ) goto fail ; } if ( cm -> above_context_alloc_cols < cm -> mi_cols ) { vpx_free ( cm -> above_context ) ; cm -> above_context = ( ENTROPY_CONTEXT * ) vpx_calloc ( 2 * mi_cols_aligned_to_sb ( cm -> mi_cols ) * MAX_MB_PLANE , sizeof ( * cm -> above_context ) ) ; if ( ! cm -> above_context ) goto fail ; vpx_free ( cm -> above_seg_context ) ; cm -> above_seg_context = ( PARTITION_CONTEXT * ) vpx_calloc ( mi_cols_aligned_to_sb ( cm -> mi_cols ) , sizeof ( * cm -> above_seg_context ) ) ; if ( ! cm -> above_seg_context ) goto fail ; cm -> above_context_alloc_cols = cm -> mi_cols ; } return 0 ; fail : vp9_set_mb_mi ( cm , 0 , 0 ) ; vp9_free_context_buffers ( cm ) ; return 1 ; }" 1098,CWE-20 static void settings_init ( void ) { settings . use_cas = true ; settings . access = 0700 ; settings . port = 11211 ; settings . udpport = 11211 ; settings . inter = NULL ; settings . maxbytes = 64 * 1024 * 1024 ; settings . maxconns = 1024 ; settings . verbose = 0 ; settings . oldest_live = 0 ; settings . oldest_cas = 0 ; settings . evict_to_free = 1 ; settings . socketpath = NULL ; settings . factor = 1.25 ; settings . chunk_size = 48 ; settings . num_threads = 4 ; settings . num_threads_per_udp = 0 ; settings . prefix_delimiter = ':' ; settings . detail_enabled = 0 ; settings . reqs_per_event = 20 ; settings . backlog = 1024 ; settings . binding_protocol = negotiating_prot ; settings . item_size_max = 1024 * 1024 ; settings . slab_page_size = 1024 * 1024 ; settings . slab_chunk_size_max = settings . slab_page_size / 2 ; settings . sasl = false ; settings . maxconns_fast = true ; settings . lru_crawler = false ; settings . lru_crawler_sleep = 100 ; settings . lru_crawler_tocrawl = 0 ; settings . lru_maintainer_thread = false ; settings . lru_segmented = true ; settings . hot_lru_pct = 20 ; settings . warm_lru_pct = 40 ; settings . hot_max_factor = 0.2 ; settings . warm_max_factor = 2.0 ; settings . inline_ascii_response = false ; settings . temp_lru = false ; settings . temporary_ttl = 61 ; settings . idle_timeout = 0 ; settings . hashpower_init = 0 ; settings . slab_reassign = true ; settings . slab_automove = 1 ; settings . slab_automove_ratio = 0.8 ; settings . slab_automove_window = 30 ; settings . shutdown_command = false ; settings . tail_repair_time = TAIL_REPAIR_TIME_DEFAULT ; settings . flush_enabled = true ; settings . dump_enabled = true ; settings . crawls_persleep = 1000 ; settings . logger_watcher_buf_size = LOGGER_WATCHER_BUF_SIZE ; settings . logger_buf_size = LOGGER_BUF_SIZE ; settings . drop_privileges = true ; # ifdef MEMCACHED_DEBUG settings . relaxed_privileges = false ;,static void settings_init ( void ) { settings . use_cas = true ; settings . access = 0700 ; settings . port = 11211 ; settings . udpport = 0 ; settings . inter = NULL ; settings . maxbytes = 64 * 1024 * 1024 ; settings . maxconns = 1024 ; settings . verbose = 0 ; settings . oldest_live = 0 ; settings . oldest_cas = 0 ; settings . evict_to_free = 1 ; settings . socketpath = NULL ; settings . factor = 1.25 ; settings . chunk_size = 48 ; settings . num_threads = 4 ; settings . num_threads_per_udp = 0 ; settings . prefix_delimiter = ':' ; settings . detail_enabled = 0 ; settings . reqs_per_event = 20 ; settings . backlog = 1024 ; settings . binding_protocol = negotiating_prot ; settings . item_size_max = 1024 * 1024 ; settings . slab_page_size = 1024 * 1024 ; settings . slab_chunk_size_max = settings . slab_page_size / 2 ; settings . sasl = false ; settings . maxconns_fast = true ; settings . lru_crawler = false ; settings . lru_crawler_sleep = 100 ; settings . lru_crawler_tocrawl = 0 ; settings . lru_maintainer_thread = false ; settings . lru_segmented = true ; settings . hot_lru_pct = 20 ; settings . warm_lru_pct = 40 ; settings . hot_max_factor = 0.2 ; settings . warm_max_factor = 2.0 ; settings . inline_ascii_response = false ; settings . temp_lru = false ; settings . temporary_ttl = 61 ; settings . idle_timeout = 0 ; settings . hashpower_init = 0 ; settings . slab_reassign = true ; settings . slab_automove = 1 ; settings . slab_automove_ratio = 0.8 ; settings . slab_automove_window = 30 ; settings . shutdown_command = false ; settings . tail_repair_time = TAIL_REPAIR_TIME_DEFAULT ; settings . flush_enabled = true ; settings . dump_enabled = true ; settings . crawls_persleep = 1000 ; settings . logger_watcher_buf_size = LOGGER_WATCHER_BUF_SIZE ; settings . logger_buf_size = LOGGER_BUF_SIZE ; settings . drop_privileges = true ; # ifdef MEMCACHED_DEBUG settings . relaxed_privileges = false ; 1099,"CWE-755 static int codeCompare ( Parse * pParse , Expr * pLeft , Expr * pRight , int opcode , int in1 , int in2 , int dest , int jumpIfNull , int isCommuted ) { int p5 ; int addr ; CollSeq * p4 ; if ( isCommuted ) { p4 = sqlite3BinaryCompareCollSeq ( pParse , pRight , pLeft ) ; } else { p4 = sqlite3BinaryCompareCollSeq ( pParse , pLeft , pRight ) ; } p5 = binaryCompareP5 ( pLeft , pRight , jumpIfNull ) ; addr = sqlite3VdbeAddOp4 ( pParse -> pVdbe , opcode , in2 , dest , in1 , ( void * ) p4 , P4_COLLSEQ ) ; sqlite3VdbeChangeP5 ( pParse -> pVdbe , ( u8 ) p5 ) ; return addr ; }","static int codeCompare ( Parse * pParse , Expr * pLeft , Expr * pRight , int opcode , int in1 , int in2 , int dest , int jumpIfNull , int isCommuted ) { int p5 ; int addr ; CollSeq * p4 ; if ( pParse -> nErr ) return 0 ; if ( isCommuted ) { p4 = sqlite3BinaryCompareCollSeq ( pParse , pRight , pLeft ) ; } else { p4 = sqlite3BinaryCompareCollSeq ( pParse , pLeft , pRight ) ; } p5 = binaryCompareP5 ( pLeft , pRight , jumpIfNull ) ; addr = sqlite3VdbeAddOp4 ( pParse -> pVdbe , opcode , in2 , dest , in1 , ( void * ) p4 , P4_COLLSEQ ) ; sqlite3VdbeChangeP5 ( pParse -> pVdbe , ( u8 ) p5 ) ; return addr ; }" 1100,"CWE-119 static void write_ref_frames ( const VP9_COMP * cpi , vp9_writer * w ) { const VP9_COMMON * const cm = & cpi -> common ; const MACROBLOCKD * const xd = & cpi -> mb . e_mbd ; const MB_MODE_INFO * const mbmi = & xd -> mi [ 0 ] -> mbmi ; const int is_compound = has_second_ref ( mbmi ) ; const int segment_id = mbmi -> segment_id ; if ( vp9_segfeature_active ( & cm -> seg , segment_id , SEG_LVL_REF_FRAME ) ) { assert ( ! is_compound ) ; assert ( mbmi -> ref_frame [ 0 ] == vp9_get_segdata ( & cm -> seg , segment_id , SEG_LVL_REF_FRAME ) ) ; } else { if ( cm -> reference_mode == REFERENCE_MODE_SELECT ) { vp9_write ( w , is_compound , vp9_get_reference_mode_prob ( cm , xd ) ) ; } else { assert ( ! is_compound == ( cm -> reference_mode == SINGLE_REFERENCE ) ) ; } if ( is_compound ) { vp9_write ( w , mbmi -> ref_frame [ 0 ] == GOLDEN_FRAME , vp9_get_pred_prob_comp_ref_p ( cm , xd ) ) ; } else { const int bit0 = mbmi -> ref_frame [ 0 ] != LAST_FRAME ; vp9_write ( w , bit0 , vp9_get_pred_prob_single_ref_p1 ( cm , xd ) ) ; if ( bit0 ) { const int bit1 = mbmi -> ref_frame [ 0 ] != GOLDEN_FRAME ; vp9_write ( w , bit1 , vp9_get_pred_prob_single_ref_p2 ( cm , xd ) ) ; } } } }","static void write_ref_frames ( const VP9_COMMON * cm , const MACROBLOCKD * xd , vpx_writer * w ) { const MB_MODE_INFO * const mbmi = & xd -> mi [ 0 ] -> mbmi ; const int is_compound = has_second_ref ( mbmi ) ; const int segment_id = mbmi -> segment_id ; if ( segfeature_active ( & cm -> seg , segment_id , SEG_LVL_REF_FRAME ) ) { assert ( ! is_compound ) ; assert ( mbmi -> ref_frame [ 0 ] == get_segdata ( & cm -> seg , segment_id , SEG_LVL_REF_FRAME ) ) ; } else { if ( cm -> reference_mode == REFERENCE_MODE_SELECT ) { vpx_write ( w , is_compound , vp9_get_reference_mode_prob ( cm , xd ) ) ; } else { assert ( ! is_compound == ( cm -> reference_mode == SINGLE_REFERENCE ) ) ; } if ( is_compound ) { vpx_write ( w , mbmi -> ref_frame [ 0 ] == GOLDEN_FRAME , vp9_get_pred_prob_comp_ref_p ( cm , xd ) ) ; } else { const int bit0 = mbmi -> ref_frame [ 0 ] != LAST_FRAME ; vpx_write ( w , bit0 , vp9_get_pred_prob_single_ref_p1 ( cm , xd ) ) ; if ( bit0 ) { const int bit1 = mbmi -> ref_frame [ 0 ] != GOLDEN_FRAME ; vpx_write ( w , bit1 , vp9_get_pred_prob_single_ref_p2 ( cm , xd ) ) ; } } } }" 1101,"CWE-295 int main_configure ( char * arg1 , char * arg2 ) { int cmdline_status ; cmdline_status = options_cmdline ( arg1 , arg2 ) ; if ( cmdline_status ) return cmdline_status ; options_apply ( ) ; str_canary_init ( ) ; log_open ( SINK_SYSLOG ) ; if ( bind_ports ( ) ) return 1 ; # ifdef HAVE_CHROOT if ( change_root ( ) ) return 1 ; # endif if ( drop_privileges ( 1 ) ) return 1 ; if ( log_open ( SINK_OUTFILE ) ) return 1 ; # ifndef USE_FORK num_clients = 0 ; # endif log_flush ( LOG_MODE_CONFIGURED ) ; return 0 ; }","int main_configure ( char * arg1 , char * arg2 ) { int cmdline_status ; log_flush ( LOG_MODE_BUFFER ) ; cmdline_status = options_cmdline ( arg1 , arg2 ) ; if ( cmdline_status ) { log_flush ( LOG_MODE_ERROR ) ; return cmdline_status ; } options_free ( 1 ) ; options_apply ( ) ; str_canary_init ( ) ; log_open ( SINK_SYSLOG ) ; if ( bind_ports ( ) ) { unbind_ports ( ) ; options_free ( 1 ) ; options_defaults ( ) ; options_apply ( ) ; log_flush ( LOG_MODE_ERROR ) ; return 1 ; } # ifdef HAVE_CHROOT if ( change_root ( ) ) { log_flush ( LOG_MODE_ERROR ) ; return 1 ; } # endif if ( drop_privileges ( 1 ) ) { log_flush ( LOG_MODE_ERROR ) ; return 1 ; } if ( log_open ( SINK_OUTFILE ) ) { log_flush ( LOG_MODE_ERROR ) ; return 1 ; } # ifndef USE_FORK num_clients = 0 ; # endif log_flush ( LOG_MODE_CONFIGURED ) ; return 0 ; }" 1102,"CWE-119 static vpx_codec_err_t vp8_peek_si_internal ( const uint8_t * data , unsigned int data_sz , vpx_codec_stream_info_t * si , vp8_decrypt_cb * decrypt_cb , void * decrypt_state ) { vpx_codec_err_t res = VPX_CODEC_OK ; if ( data + data_sz <= data ) { res = VPX_CODEC_INVALID_PARAM ; } else { uint8_t clear_buffer [ 10 ] ; const uint8_t * clear = data ; if ( decrypt_cb ) { int n = data_sz > 10 ? 10 : data_sz ; decrypt_cb ( decrypt_state , data , clear_buffer , n ) ; clear = clear_buffer ; } si -> is_kf = 0 ; if ( data_sz >= 10 && ! ( clear [ 0 ] & 0x01 ) ) { si -> is_kf = 1 ; if ( clear [ 3 ] != 0x9d || clear [ 4 ] != 0x01 || clear [ 5 ] != 0x2a ) res = VPX_CODEC_UNSUP_BITSTREAM ; si -> w = ( clear [ 6 ] | ( clear [ 7 ] << 8 ) ) & 0x3fff ; si -> h = ( clear [ 8 ] | ( clear [ 9 ] << 8 ) ) & 0x3fff ; if ( ! ( si -> h | si -> w ) ) res = VPX_CODEC_UNSUP_BITSTREAM ; } else { res = VPX_CODEC_UNSUP_BITSTREAM ; } } return res ; }","static vpx_codec_err_t vp8_peek_si_internal ( const uint8_t * data , unsigned int data_sz , vpx_codec_stream_info_t * si , vpx_decrypt_cb decrypt_cb , void * decrypt_state ) { vpx_codec_err_t res = VPX_CODEC_OK ; if ( data + data_sz <= data ) { res = VPX_CODEC_INVALID_PARAM ; } else { uint8_t clear_buffer [ 10 ] ; const uint8_t * clear = data ; if ( decrypt_cb ) { int n = MIN ( sizeof ( clear_buffer ) , data_sz ) ; decrypt_cb ( decrypt_state , data , clear_buffer , n ) ; clear = clear_buffer ; } si -> is_kf = 0 ; if ( data_sz >= 10 && ! ( clear [ 0 ] & 0x01 ) ) { si -> is_kf = 1 ; if ( clear [ 3 ] != 0x9d || clear [ 4 ] != 0x01 || clear [ 5 ] != 0x2a ) return VPX_CODEC_UNSUP_BITSTREAM ; si -> w = ( clear [ 6 ] | ( clear [ 7 ] << 8 ) ) & 0x3fff ; si -> h = ( clear [ 8 ] | ( clear [ 9 ] << 8 ) ) & 0x3fff ; if ( ! ( si -> h | si -> w ) ) res = VPX_CODEC_UNSUP_BITSTREAM ; } else { res = VPX_CODEC_UNSUP_BITSTREAM ; } } return res ; }" 1103,"CWE-416 int hns_nic_net_xmit_hw ( struct net_device * ndev , struct sk_buff * skb , struct hns_nic_ring_data * ring_data ) { struct hns_nic_priv * priv = netdev_priv ( ndev ) ; struct hnae_ring * ring = ring_data -> ring ; struct device * dev = ring_to_dev ( ring ) ; struct netdev_queue * dev_queue ; struct skb_frag_struct * frag ; int buf_num ; int seg_num ; dma_addr_t dma ; int size , next_to_use ; int i ; switch ( priv -> ops . maybe_stop_tx ( & skb , & buf_num , ring ) ) { case - EBUSY : ring -> stats . tx_busy ++ ; goto out_net_tx_busy ; case - ENOMEM : ring -> stats . sw_err_cnt ++ ; netdev_err ( ndev , ""no memory to xmit!\\n"" ) ; goto out_err_tx_ok ; default : break ; } seg_num = skb_shinfo ( skb ) -> nr_frags + 1 ; next_to_use = ring -> next_to_use ; size = skb_headlen ( skb ) ; dma = dma_map_single ( dev , skb -> data , size , DMA_TO_DEVICE ) ; if ( dma_mapping_error ( dev , dma ) ) { netdev_err ( ndev , ""TX head DMA map failed\\n"" ) ; ring -> stats . sw_err_cnt ++ ; goto out_err_tx_ok ; } priv -> ops . fill_desc ( ring , skb , size , dma , seg_num == 1 ? 1 : 0 , buf_num , DESC_TYPE_SKB , ndev -> mtu ) ; for ( i = 1 ; i < seg_num ; i ++ ) { frag = & skb_shinfo ( skb ) -> frags [ i - 1 ] ; size = skb_frag_size ( frag ) ; dma = skb_frag_dma_map ( dev , frag , 0 , size , DMA_TO_DEVICE ) ; if ( dma_mapping_error ( dev , dma ) ) { netdev_err ( ndev , ""TX frag(%d) DMA map failed\\n"" , i ) ; ring -> stats . sw_err_cnt ++ ; goto out_map_frag_fail ; } priv -> ops . fill_desc ( ring , skb_frag_page ( frag ) , size , dma , seg_num - 1 == i ? 1 : 0 , buf_num , DESC_TYPE_PAGE , ndev -> mtu ) ; } dev_queue = netdev_get_tx_queue ( ndev , skb -> queue_mapping ) ; netdev_tx_sent_queue ( dev_queue , skb -> len ) ; wmb ( ) ; assert ( skb -> queue_mapping < priv -> ae_handle -> q_num ) ; hnae_queue_xmit ( priv -> ae_handle -> qs [ skb -> queue_mapping ] , buf_num ) ; ring -> stats . tx_pkts ++ ; ring -> stats . tx_bytes += skb -> len ; return NETDEV_TX_OK ; out_map_frag_fail : while ( ring -> next_to_use != next_to_use ) { unfill_desc ( ring ) ; if ( ring -> next_to_use != next_to_use ) dma_unmap_page ( dev , ring -> desc_cb [ ring -> next_to_use ] . dma , ring -> desc_cb [ ring -> next_to_use ] . length , DMA_TO_DEVICE ) ; else dma_unmap_single ( dev , ring -> desc_cb [ next_to_use ] . dma , ring -> desc_cb [ next_to_use ] . length , DMA_TO_DEVICE ) ; } out_err_tx_ok : dev_kfree_skb_any ( skb ) ; return NETDEV_TX_OK ; out_net_tx_busy : netif_stop_subqueue ( ndev , skb -> queue_mapping ) ; smp_mb ( ) ; return NETDEV_TX_BUSY ; }","netdev_tx_t hns_nic_net_xmit_hw ( struct net_device * ndev , struct sk_buff * skb , struct hns_nic_ring_data * ring_data ) { struct hns_nic_priv * priv = netdev_priv ( ndev ) ; struct hnae_ring * ring = ring_data -> ring ; struct device * dev = ring_to_dev ( ring ) ; struct netdev_queue * dev_queue ; struct skb_frag_struct * frag ; int buf_num ; int seg_num ; dma_addr_t dma ; int size , next_to_use ; int i ; switch ( priv -> ops . maybe_stop_tx ( & skb , & buf_num , ring ) ) { case - EBUSY : ring -> stats . tx_busy ++ ; goto out_net_tx_busy ; case - ENOMEM : ring -> stats . sw_err_cnt ++ ; netdev_err ( ndev , ""no memory to xmit!\\n"" ) ; goto out_err_tx_ok ; default : break ; } seg_num = skb_shinfo ( skb ) -> nr_frags + 1 ; next_to_use = ring -> next_to_use ; size = skb_headlen ( skb ) ; dma = dma_map_single ( dev , skb -> data , size , DMA_TO_DEVICE ) ; if ( dma_mapping_error ( dev , dma ) ) { netdev_err ( ndev , ""TX head DMA map failed\\n"" ) ; ring -> stats . sw_err_cnt ++ ; goto out_err_tx_ok ; } priv -> ops . fill_desc ( ring , skb , size , dma , seg_num == 1 ? 1 : 0 , buf_num , DESC_TYPE_SKB , ndev -> mtu ) ; for ( i = 1 ; i < seg_num ; i ++ ) { frag = & skb_shinfo ( skb ) -> frags [ i - 1 ] ; size = skb_frag_size ( frag ) ; dma = skb_frag_dma_map ( dev , frag , 0 , size , DMA_TO_DEVICE ) ; if ( dma_mapping_error ( dev , dma ) ) { netdev_err ( ndev , ""TX frag(%d) DMA map failed\\n"" , i ) ; ring -> stats . sw_err_cnt ++ ; goto out_map_frag_fail ; } priv -> ops . fill_desc ( ring , skb_frag_page ( frag ) , size , dma , seg_num - 1 == i ? 1 : 0 , buf_num , DESC_TYPE_PAGE , ndev -> mtu ) ; } dev_queue = netdev_get_tx_queue ( ndev , skb -> queue_mapping ) ; netdev_tx_sent_queue ( dev_queue , skb -> len ) ; netif_trans_update ( ndev ) ; ndev -> stats . tx_bytes += skb -> len ; ndev -> stats . tx_packets ++ ; wmb ( ) ; assert ( skb -> queue_mapping < priv -> ae_handle -> q_num ) ; hnae_queue_xmit ( priv -> ae_handle -> qs [ skb -> queue_mapping ] , buf_num ) ; ring -> stats . tx_pkts ++ ; ring -> stats . tx_bytes += skb -> len ; return NETDEV_TX_OK ; out_map_frag_fail : while ( ring -> next_to_use != next_to_use ) { unfill_desc ( ring ) ; if ( ring -> next_to_use != next_to_use ) dma_unmap_page ( dev , ring -> desc_cb [ ring -> next_to_use ] . dma , ring -> desc_cb [ ring -> next_to_use ] . length , DMA_TO_DEVICE ) ; else dma_unmap_single ( dev , ring -> desc_cb [ next_to_use ] . dma , ring -> desc_cb [ next_to_use ] . length , DMA_TO_DEVICE ) ; } out_err_tx_ok : dev_kfree_skb_any ( skb ) ; return NETDEV_TX_OK ; out_net_tx_busy : netif_stop_subqueue ( ndev , skb -> queue_mapping ) ; smp_mb ( ) ; return NETDEV_TX_BUSY ; }" 1104,"CWE-787 static void nsc_decode ( NSC_CONTEXT * context ) { UINT16 x ; UINT16 y ; UINT16 rw = ROUND_UP_TO ( context -> width , 8 ) ; BYTE shift = context -> ColorLossLevel - 1 ; BYTE * bmpdata = context -> BitmapData ; for ( y = 0 ; y < context -> height ; y ++ ) { const BYTE * yplane ; const BYTE * coplane ; const BYTE * cgplane ; const BYTE * aplane = context -> priv -> PlaneBuffers [ 3 ] + y * context -> width ; if ( context -> ChromaSubsamplingLevel ) { yplane = context -> priv -> PlaneBuffers [ 0 ] + y * rw ; coplane = context -> priv -> PlaneBuffers [ 1 ] + ( y >> 1 ) * ( rw >> 1 ) ; cgplane = context -> priv -> PlaneBuffers [ 2 ] + ( y >> 1 ) * ( rw >> 1 ) ; } else { yplane = context -> priv -> PlaneBuffers [ 0 ] + y * context -> width ; coplane = context -> priv -> PlaneBuffers [ 1 ] + y * context -> width ; cgplane = context -> priv -> PlaneBuffers [ 2 ] + y * context -> width ; } for ( x = 0 ; x < context -> width ; x ++ ) { INT16 y_val = ( INT16 ) * yplane ; INT16 co_val = ( INT16 ) ( INT8 ) ( * coplane << shift ) ; INT16 cg_val = ( INT16 ) ( INT8 ) ( * cgplane << shift ) ; INT16 r_val = y_val + co_val - cg_val ; INT16 g_val = y_val + cg_val ; INT16 b_val = y_val - co_val - cg_val ; * bmpdata ++ = MINMAX ( b_val , 0 , 0xFF ) ; * bmpdata ++ = MINMAX ( g_val , 0 , 0xFF ) ; * bmpdata ++ = MINMAX ( r_val , 0 , 0xFF ) ; * bmpdata ++ = * aplane ; yplane ++ ; coplane += ( context -> ChromaSubsamplingLevel ? x % 2 : 1 ) ; cgplane += ( context -> ChromaSubsamplingLevel ? x % 2 : 1 ) ; aplane ++ ; } } }","static BOOL nsc_decode ( NSC_CONTEXT * context ) { UINT16 x ; UINT16 y ; UINT16 rw ; BYTE shift ; BYTE * bmpdata ; size_t pos = 0 ; if ( ! context ) return FALSE ; rw = ROUND_UP_TO ( context -> width , 8 ) ; shift = context -> ColorLossLevel - 1 ; bmpdata = context -> BitmapData ; if ( ! bmpdata ) return FALSE ; for ( y = 0 ; y < context -> height ; y ++ ) { const BYTE * yplane ; const BYTE * coplane ; const BYTE * cgplane ; const BYTE * aplane = context -> priv -> PlaneBuffers [ 3 ] + y * context -> width ; if ( context -> ChromaSubsamplingLevel ) { yplane = context -> priv -> PlaneBuffers [ 0 ] + y * rw ; coplane = context -> priv -> PlaneBuffers [ 1 ] + ( y >> 1 ) * ( rw >> 1 ) ; cgplane = context -> priv -> PlaneBuffers [ 2 ] + ( y >> 1 ) * ( rw >> 1 ) ; } else { yplane = context -> priv -> PlaneBuffers [ 0 ] + y * context -> width ; coplane = context -> priv -> PlaneBuffers [ 1 ] + y * context -> width ; cgplane = context -> priv -> PlaneBuffers [ 2 ] + y * context -> width ; } for ( x = 0 ; x < context -> width ; x ++ ) { INT16 y_val = ( INT16 ) * yplane ; INT16 co_val = ( INT16 ) ( INT8 ) ( * coplane << shift ) ; INT16 cg_val = ( INT16 ) ( INT8 ) ( * cgplane << shift ) ; INT16 r_val = y_val + co_val - cg_val ; INT16 g_val = y_val + cg_val ; INT16 b_val = y_val - co_val - cg_val ; if ( pos + 4 > context -> BitmapDataLength ) return FALSE ; pos += 4 ; * bmpdata ++ = MINMAX ( b_val , 0 , 0xFF ) ; * bmpdata ++ = MINMAX ( g_val , 0 , 0xFF ) ; * bmpdata ++ = MINMAX ( r_val , 0 , 0xFF ) ; * bmpdata ++ = * aplane ; yplane ++ ; coplane += ( context -> ChromaSubsamplingLevel ? x % 2 : 1 ) ; cgplane += ( context -> ChromaSubsamplingLevel ? x % 2 : 1 ) ; aplane ++ ; } } return TRUE ; }" 1105,"CWE-119 static void encode_mv_component ( vp9_writer * w , int comp , const nmv_component * mvcomp , int usehp ) { int offset ; const int sign = comp < 0 ; const int mag = sign ? - comp : comp ; const int mv_class = vp9_get_mv_class ( mag - 1 , & offset ) ; const int d = offset >> 3 ; const int fr = ( offset >> 1 ) & 3 ; const int hp = offset & 1 ; assert ( comp != 0 ) ; vp9_write ( w , sign , mvcomp -> sign ) ; vp9_write_token ( w , vp9_mv_class_tree , mvcomp -> classes , & mv_class_encodings [ mv_class ] ) ; if ( mv_class == MV_CLASS_0 ) { vp9_write_token ( w , vp9_mv_class0_tree , mvcomp -> class0 , & mv_class0_encodings [ d ] ) ; } else { int i ; const int n = mv_class + CLASS0_BITS - 1 ; for ( i = 0 ; i < n ; ++ i ) vp9_write ( w , ( d >> i ) & 1 , mvcomp -> bits [ i ] ) ; } vp9_write_token ( w , vp9_mv_fp_tree , mv_class == MV_CLASS_0 ? mvcomp -> class0_fp [ d ] : mvcomp -> fp , & mv_fp_encodings [ fr ] ) ; if ( usehp ) vp9_write ( w , hp , mv_class == MV_CLASS_0 ? mvcomp -> class0_hp : mvcomp -> hp ) ; }","static void encode_mv_component ( vpx_writer * w , int comp , const nmv_component * mvcomp , int usehp ) { int offset ; const int sign = comp < 0 ; const int mag = sign ? - comp : comp ; const int mv_class = vp9_get_mv_class ( mag - 1 , & offset ) ; const int d = offset >> 3 ; const int fr = ( offset >> 1 ) & 3 ; const int hp = offset & 1 ; assert ( comp != 0 ) ; vpx_write ( w , sign , mvcomp -> sign ) ; vp9_write_token ( w , vp9_mv_class_tree , mvcomp -> classes , & mv_class_encodings [ mv_class ] ) ; if ( mv_class == MV_CLASS_0 ) { vp9_write_token ( w , vp9_mv_class0_tree , mvcomp -> class0 , & mv_class0_encodings [ d ] ) ; } else { int i ; const int n = mv_class + CLASS0_BITS - 1 ; for ( i = 0 ; i < n ; ++ i ) vpx_write ( w , ( d >> i ) & 1 , mvcomp -> bits [ i ] ) ; } vp9_write_token ( w , vp9_mv_fp_tree , mv_class == MV_CLASS_0 ? mvcomp -> class0_fp [ d ] : mvcomp -> fp , & mv_fp_encodings [ fr ] ) ; if ( usehp ) vpx_write ( w , hp , mv_class == MV_CLASS_0 ? mvcomp -> class0_hp : mvcomp -> hp ) ; }" 1106,"CWE-476 static GF_AV1Config * AV1_DuplicateConfig ( GF_AV1Config const * const cfg ) { u32 i = 0 ; GF_AV1Config * out = gf_malloc ( sizeof ( GF_AV1Config ) ) ; out -> marker = cfg -> marker ; out -> version = cfg -> version ; out -> seq_profile = cfg -> seq_profile ; out -> seq_level_idx_0 = cfg -> seq_level_idx_0 ; out -> seq_tier_0 = cfg -> seq_tier_0 ; out -> high_bitdepth = cfg -> high_bitdepth ; out -> twelve_bit = cfg -> twelve_bit ; out -> monochrome = cfg -> monochrome ; out -> chroma_subsampling_x = cfg -> chroma_subsampling_x ; out -> chroma_subsampling_y = cfg -> chroma_subsampling_y ; out -> chroma_sample_position = cfg -> chroma_sample_position ; out -> initial_presentation_delay_present = cfg -> initial_presentation_delay_present ; out -> initial_presentation_delay_minus_one = cfg -> initial_presentation_delay_minus_one ; out -> obu_array = gf_list_new ( ) ; for ( i = 0 ; i < gf_list_count ( cfg -> obu_array ) ; ++ i ) { GF_AV1_OBUArrayEntry * dst = gf_malloc ( sizeof ( GF_AV1_OBUArrayEntry ) ) , * src = gf_list_get ( cfg -> obu_array , i ) ; dst -> obu_length = src -> obu_length ; dst -> obu_type = src -> obu_type ; dst -> obu = gf_malloc ( ( size_t ) dst -> obu_length ) ; memcpy ( dst -> obu , src -> obu , ( size_t ) src -> obu_length ) ; gf_list_add ( out -> obu_array , dst ) ; } return out ; }","static GF_AV1Config * AV1_DuplicateConfig ( GF_AV1Config const * const cfg ) { u32 i = 0 ; GF_AV1Config * out = gf_malloc ( sizeof ( GF_AV1Config ) ) ; out -> marker = cfg -> marker ; out -> version = cfg -> version ; out -> seq_profile = cfg -> seq_profile ; out -> seq_level_idx_0 = cfg -> seq_level_idx_0 ; out -> seq_tier_0 = cfg -> seq_tier_0 ; out -> high_bitdepth = cfg -> high_bitdepth ; out -> twelve_bit = cfg -> twelve_bit ; out -> monochrome = cfg -> monochrome ; out -> chroma_subsampling_x = cfg -> chroma_subsampling_x ; out -> chroma_subsampling_y = cfg -> chroma_subsampling_y ; out -> chroma_sample_position = cfg -> chroma_sample_position ; out -> initial_presentation_delay_present = cfg -> initial_presentation_delay_present ; out -> initial_presentation_delay_minus_one = cfg -> initial_presentation_delay_minus_one ; out -> obu_array = gf_list_new ( ) ; for ( i = 0 ; i < gf_list_count ( cfg -> obu_array ) ; ++ i ) { GF_AV1_OBUArrayEntry * dst = gf_malloc ( sizeof ( GF_AV1_OBUArrayEntry ) ) , * src = gf_list_get ( cfg -> obu_array , i ) ; dst -> obu_length = src -> obu_length ; dst -> obu_type = src -> obu_type ; dst -> obu = gf_malloc ( ( size_t ) dst -> obu_length ) ; memcpy ( dst -> obu , src -> obu , ( size_t ) src -> obu_length ) ; gf_list_add ( out -> obu_array , dst ) ; } return out ; }" 1107,"CWE-20 int handle ( int s , unsigned char * data , int len , struct sockaddr_in * s_in ) { char buf [ 2048 ] ; unsigned short * cmd = ( unsigned short * ) buf ; int plen ; struct in_addr * addr = & s_in -> sin_addr ; unsigned short * pid = ( unsigned short * ) data ; if ( len == S_HELLO_LEN && memcmp ( data , ""sorbo"" , 5 ) == 0 ) { unsigned short * id = ( unsigned short * ) ( data + 5 ) ; int x = 2 + 4 + 2 ; * cmd = htons ( S_CMD_INET_CHECK ) ; memcpy ( cmd + 1 , addr , 4 ) ; memcpy ( cmd + 1 + 2 , id , 2 ) ; printf ( ""Inet check by %s %d\\n"" , inet_ntoa ( * addr ) , ntohs ( * id ) ) ; if ( send ( s , buf , x , 0 ) != x ) return 1 ; return 0 ; } * cmd ++ = htons ( S_CMD_PACKET ) ; * cmd ++ = * pid ; plen = len - 2 ; last_id = ntohs ( * pid ) ; if ( last_id > 20000 ) wrap = 1 ; if ( wrap && last_id < 100 ) { wrap = 0 ; memset ( ids , 0 , sizeof ( ids ) ) ; } printf ( ""Got packet %d %d"" , last_id , plen ) ; if ( is_dup ( last_id ) ) { printf ( "" (DUP)\\n"" ) ; return 0 ; } printf ( ""\\n"" ) ; * cmd ++ = htons ( plen ) ; memcpy ( cmd , data + 2 , plen ) ; plen += 2 + 2 + 2 ; assert ( plen <= ( int ) sizeof ( buf ) ) ; if ( send ( s , buf , plen , 0 ) != plen ) return 1 ; return 0 ; }","int handle ( int s , unsigned char * data , int len , struct sockaddr_in * s_in ) { char buf [ 2048 ] ; unsigned short * cmd = ( unsigned short * ) buf ; int plen ; struct in_addr * addr = & s_in -> sin_addr ; unsigned short * pid = ( unsigned short * ) data ; if ( len == S_HELLO_LEN && memcmp ( data , ""sorbo"" , 5 ) == 0 ) { unsigned short * id = ( unsigned short * ) ( data + 5 ) ; int x = 2 + 4 + 2 ; * cmd = htons ( S_CMD_INET_CHECK ) ; memcpy ( cmd + 1 , addr , 4 ) ; memcpy ( cmd + 1 + 2 , id , 2 ) ; printf ( ""Inet check by %s %d\\n"" , inet_ntoa ( * addr ) , ntohs ( * id ) ) ; if ( send ( s , buf , x , 0 ) != x ) return 1 ; return 0 ; } * cmd ++ = htons ( S_CMD_PACKET ) ; * cmd ++ = * pid ; plen = len - 2 ; if ( plen < 0 ) return 0 ; last_id = ntohs ( * pid ) ; if ( last_id > 20000 ) wrap = 1 ; if ( wrap && last_id < 100 ) { wrap = 0 ; memset ( ids , 0 , sizeof ( ids ) ) ; } printf ( ""Got packet %d %d"" , last_id , plen ) ; if ( is_dup ( last_id ) ) { printf ( "" (DUP)\\n"" ) ; return 0 ; } printf ( ""\\n"" ) ; * cmd ++ = htons ( plen ) ; memcpy ( cmd , data + 2 , plen ) ; plen += 2 + 2 + 2 ; assert ( plen <= ( int ) sizeof ( buf ) ) ; if ( send ( s , buf , plen , 0 ) != plen ) return 1 ; return 0 ; }" 1108,"CWE-119 void impeg2d_dec_pnb_mb_params ( dec_state_t * ps_dec ) { stream_t * ps_stream = & ps_dec -> s_bit_stream ; UWORD16 u2_mb_addr_incr ; UWORD16 u2_total_len ; UWORD16 u2_len ; UWORD16 u2_mb_type ; UWORD32 u4_next_word ; const dec_mb_params_t * ps_dec_mb_params ; if ( impeg2d_bit_stream_nxt ( ps_stream , 1 ) == 1 ) { impeg2d_bit_stream_flush ( ps_stream , 1 ) ; } else { u2_mb_addr_incr = impeg2d_get_mb_addr_incr ( ps_stream ) ; if ( ps_dec -> u2_first_mb ) { ps_dec -> u2_mb_x = u2_mb_addr_incr - 1 ; ps_dec -> u2_mb_x = MIN ( ps_dec -> u2_mb_x , ( ps_dec -> u2_num_horiz_mb - 1 ) ) ; u2_mb_addr_incr = 1 ; ps_dec -> u2_first_mb = 0 ; } else { if ( ps_dec -> u2_is_mpeg2 && ( ( ps_dec -> u2_mb_x + u2_mb_addr_incr ) > ps_dec -> u2_num_horiz_mb ) ) { u2_mb_addr_incr = ps_dec -> u2_num_horiz_mb - ps_dec -> u2_mb_x ; } impeg2d_dec_skip_mbs ( ps_dec , ( UWORD16 ) ( u2_mb_addr_incr - 1 ) ) ; } } u4_next_word = ( UWORD16 ) impeg2d_bit_stream_nxt ( ps_stream , 16 ) ; { u2_mb_type = ps_dec -> pu2_mb_type [ BITS ( ( UWORD16 ) u4_next_word , 15 , 10 ) ] ; u2_len = BITS ( u2_mb_type , 15 , 8 ) ; u2_total_len = u2_len ; u4_next_word = ( UWORD16 ) LSW ( ( UWORD16 ) u4_next_word << u2_len ) ; } { WORD32 i4_motion_type = ps_dec -> u2_motion_type ; if ( ( u2_mb_type & MB_FORW_OR_BACK ) && ps_dec -> u2_read_motion_type ) { ps_dec -> u2_motion_type = BITS ( ( UWORD16 ) u4_next_word , 15 , 14 ) ; u2_total_len += MB_MOTION_TYPE_LEN ; u4_next_word = ( UWORD16 ) LSW ( ( UWORD16 ) u4_next_word << MB_MOTION_TYPE_LEN ) ; i4_motion_type = ps_dec -> u2_motion_type ; } if ( ( u2_mb_type & MB_FORW_OR_BACK ) && ( ( i4_motion_type == 0 ) || ( i4_motion_type == 3 ) || ( i4_motion_type == 4 ) || ( i4_motion_type >= 7 ) ) ) { i4_motion_type = 1 ; } } { if ( ( u2_mb_type & MB_CODED ) && ps_dec -> u2_read_dct_type ) { ps_dec -> u2_field_dct = BIT ( ( UWORD16 ) u4_next_word , 15 ) ; u2_total_len += MB_DCT_TYPE_LEN ; u4_next_word = ( UWORD16 ) LSW ( ( UWORD16 ) u4_next_word << MB_DCT_TYPE_LEN ) ; } } if ( u2_mb_type & MB_QUANT ) { UWORD16 u2_quant_scale_code ; u2_quant_scale_code = BITS ( ( UWORD16 ) u4_next_word , 15 , 11 ) ; ps_dec -> u1_quant_scale = ( ps_dec -> u2_q_scale_type ) ? gau1_impeg2_non_linear_quant_scale [ u2_quant_scale_code ] : ( u2_quant_scale_code << 1 ) ; u2_total_len += MB_QUANT_SCALE_CODE_LEN ; } impeg2d_bit_stream_flush ( ps_stream , u2_total_len ) ; ps_dec -> u2_coded_mb = ( UWORD16 ) ( u2_mb_type & MB_CODED ) ; if ( u2_mb_type & MB_BIDRECT ) { UWORD16 u2_index = ( ps_dec -> u2_motion_type ) ; ps_dec -> u2_prev_intra_mb = 0 ; ps_dec -> e_mb_pred = BIDIRECT ; ps_dec_mb_params = & ps_dec -> ps_func_bi_direct [ u2_index ] ; ps_dec -> s_mb_type = ps_dec_mb_params -> s_mb_type ; ps_dec_mb_params -> pf_func_mb_params ( ps_dec ) ; } else if ( u2_mb_type & MB_FORW_OR_BACK ) { UWORD16 u2_refPic = ! ( u2_mb_type & MB_MV_FORW ) ; UWORD16 u2_index = ( ps_dec -> u2_motion_type ) ; ps_dec -> u2_prev_intra_mb = 0 ; ps_dec -> e_mb_pred = ( e_pred_direction_t ) u2_refPic ; ps_dec_mb_params = & ps_dec -> ps_func_forw_or_back [ u2_index ] ; ps_dec -> s_mb_type = ps_dec_mb_params -> s_mb_type ; ps_dec_mb_params -> pf_func_mb_params ( ps_dec ) ; } else if ( u2_mb_type & MB_TYPE_INTRA ) { ps_dec -> u2_prev_intra_mb = 1 ; impeg2d_dec_intra_mb ( ps_dec ) ; } else { ps_dec -> u2_prev_intra_mb = 0 ; ps_dec -> e_mb_pred = FORW ; ps_dec -> u2_motion_type = 0 ; impeg2d_dec_0mv_coded_mb ( ps_dec ) ; } if ( ( u2_mb_type & MB_TYPE_INTRA ) ) { ps_dec -> u2_cbp = 0x3f ; ps_dec -> u2_prev_intra_mb = 1 ; } else { ps_dec -> u2_prev_intra_mb = 0 ; ps_dec -> u2_def_dc_pred [ Y_LUMA ] = 128 << ps_dec -> u2_intra_dc_precision ; ps_dec -> u2_def_dc_pred [ U_CHROMA ] = 128 << ps_dec -> u2_intra_dc_precision ; ps_dec -> u2_def_dc_pred [ V_CHROMA ] = 128 << ps_dec -> u2_intra_dc_precision ; if ( ( ps_dec -> u2_coded_mb ) ) { UWORD16 cbpValue ; cbpValue = gau2_impeg2d_cbp_code [ impeg2d_bit_stream_nxt ( ps_stream , MB_CBP_LEN ) ] ; ps_dec -> u2_cbp = cbpValue & 0xFF ; impeg2d_bit_stream_flush ( ps_stream , ( cbpValue >> 8 ) & 0x0FF ) ; } else { ps_dec -> u2_cbp = 0 ; } } }","WORD32 impeg2d_dec_pnb_mb_params ( dec_state_t * ps_dec ) { stream_t * ps_stream = & ps_dec -> s_bit_stream ; UWORD16 u2_mb_addr_incr ; UWORD16 u2_total_len ; UWORD16 u2_len ; UWORD16 u2_mb_type ; UWORD32 u4_next_word ; const dec_mb_params_t * ps_dec_mb_params ; if ( impeg2d_bit_stream_nxt ( ps_stream , 1 ) == 1 ) { impeg2d_bit_stream_flush ( ps_stream , 1 ) ; } else { u2_mb_addr_incr = impeg2d_get_mb_addr_incr ( ps_stream ) ; if ( ps_dec -> u2_first_mb ) { ps_dec -> u2_mb_x = u2_mb_addr_incr - 1 ; ps_dec -> u2_mb_x = MIN ( ps_dec -> u2_mb_x , ( ps_dec -> u2_num_horiz_mb - 1 ) ) ; u2_mb_addr_incr = 1 ; ps_dec -> u2_first_mb = 0 ; } else { if ( ps_dec -> u2_is_mpeg2 && ( ( ps_dec -> u2_mb_x + u2_mb_addr_incr ) > ps_dec -> u2_num_horiz_mb ) ) { u2_mb_addr_incr = ps_dec -> u2_num_horiz_mb - ps_dec -> u2_mb_x ; } impeg2d_dec_skip_mbs ( ps_dec , ( UWORD16 ) ( u2_mb_addr_incr - 1 ) ) ; } } u4_next_word = ( UWORD16 ) impeg2d_bit_stream_nxt ( ps_stream , 16 ) ; { u2_mb_type = ps_dec -> pu2_mb_type [ BITS ( ( UWORD16 ) u4_next_word , 15 , 10 ) ] ; u2_len = BITS ( u2_mb_type , 15 , 8 ) ; u2_total_len = u2_len ; u4_next_word = ( UWORD16 ) LSW ( ( UWORD16 ) u4_next_word << u2_len ) ; } { WORD32 i4_motion_type = ps_dec -> u2_motion_type ; if ( ( u2_mb_type & MB_FORW_OR_BACK ) && ps_dec -> u2_read_motion_type ) { ps_dec -> u2_motion_type = BITS ( ( UWORD16 ) u4_next_word , 15 , 14 ) ; u2_total_len += MB_MOTION_TYPE_LEN ; u4_next_word = ( UWORD16 ) LSW ( ( UWORD16 ) u4_next_word << MB_MOTION_TYPE_LEN ) ; i4_motion_type = ps_dec -> u2_motion_type ; } if ( ( u2_mb_type & MB_FORW_OR_BACK ) && ( ( i4_motion_type == 0 ) || ( i4_motion_type == 3 ) || ( i4_motion_type == 4 ) || ( i4_motion_type >= 7 ) ) ) { i4_motion_type = 1 ; } } { if ( ( u2_mb_type & MB_CODED ) && ps_dec -> u2_read_dct_type ) { ps_dec -> u2_field_dct = BIT ( ( UWORD16 ) u4_next_word , 15 ) ; u2_total_len += MB_DCT_TYPE_LEN ; u4_next_word = ( UWORD16 ) LSW ( ( UWORD16 ) u4_next_word << MB_DCT_TYPE_LEN ) ; } } if ( u2_mb_type & MB_QUANT ) { UWORD16 u2_quant_scale_code ; u2_quant_scale_code = BITS ( ( UWORD16 ) u4_next_word , 15 , 11 ) ; ps_dec -> u1_quant_scale = ( ps_dec -> u2_q_scale_type ) ? gau1_impeg2_non_linear_quant_scale [ u2_quant_scale_code ] : ( u2_quant_scale_code << 1 ) ; u2_total_len += MB_QUANT_SCALE_CODE_LEN ; } impeg2d_bit_stream_flush ( ps_stream , u2_total_len ) ; ps_dec -> u2_coded_mb = ( UWORD16 ) ( u2_mb_type & MB_CODED ) ; if ( u2_mb_type & MB_BIDRECT ) { UWORD16 u2_index = ( ps_dec -> u2_motion_type ) ; ps_dec -> u2_prev_intra_mb = 0 ; ps_dec -> e_mb_pred = BIDIRECT ; ps_dec_mb_params = & ps_dec -> ps_func_bi_direct [ u2_index ] ; ps_dec -> s_mb_type = ps_dec_mb_params -> s_mb_type ; if ( NULL == ps_dec_mb_params -> pf_func_mb_params ) return - 1 ; ps_dec_mb_params -> pf_func_mb_params ( ps_dec ) ; } else if ( u2_mb_type & MB_FORW_OR_BACK ) { UWORD16 u2_refPic = ! ( u2_mb_type & MB_MV_FORW ) ; UWORD16 u2_index = ( ps_dec -> u2_motion_type ) ; ps_dec -> u2_prev_intra_mb = 0 ; ps_dec -> e_mb_pred = ( e_pred_direction_t ) u2_refPic ; ps_dec_mb_params = & ps_dec -> ps_func_forw_or_back [ u2_index ] ; ps_dec -> s_mb_type = ps_dec_mb_params -> s_mb_type ; if ( NULL == ps_dec_mb_params -> pf_func_mb_params ) return - 1 ; ps_dec_mb_params -> pf_func_mb_params ( ps_dec ) ; } else if ( u2_mb_type & MB_TYPE_INTRA ) { ps_dec -> u2_prev_intra_mb = 1 ; impeg2d_dec_intra_mb ( ps_dec ) ; } else { ps_dec -> u2_prev_intra_mb = 0 ; ps_dec -> e_mb_pred = FORW ; ps_dec -> u2_motion_type = 0 ; impeg2d_dec_0mv_coded_mb ( ps_dec ) ; } if ( ( u2_mb_type & MB_TYPE_INTRA ) ) { ps_dec -> u2_cbp = 0x3f ; ps_dec -> u2_prev_intra_mb = 1 ; } else { ps_dec -> u2_prev_intra_mb = 0 ; ps_dec -> u2_def_dc_pred [ Y_LUMA ] = 128 << ps_dec -> u2_intra_dc_precision ; ps_dec -> u2_def_dc_pred [ U_CHROMA ] = 128 << ps_dec -> u2_intra_dc_precision ; ps_dec -> u2_def_dc_pred [ V_CHROMA ] = 128 << ps_dec -> u2_intra_dc_precision ; if ( ( ps_dec -> u2_coded_mb ) ) { UWORD16 cbpValue ; cbpValue = gau2_impeg2d_cbp_code [ impeg2d_bit_stream_nxt ( ps_stream , MB_CBP_LEN ) ] ; ps_dec -> u2_cbp = cbpValue & 0xFF ; impeg2d_bit_stream_flush ( ps_stream , ( cbpValue >> 8 ) & 0x0FF ) ; } else { ps_dec -> u2_cbp = 0 ; } } return 0 ; }" 1109,"CWE-119 static int zerocopy_sg_from_iovec ( struct sk_buff * skb , const struct iovec * from , int offset , size_t count ) { int len = iov_length ( from , count ) - offset ; int copy = skb_headlen ( skb ) ; int size , offset1 = 0 ; int i = 0 ; while ( count && ( offset >= from -> iov_len ) ) { offset -= from -> iov_len ; - count ; } while ( count && ( copy > 0 ) ) { size = min_t ( unsigned int , copy , from -> iov_len - offset ) ; if ( copy_from_user ( skb -> data + offset1 , from -> iov_base + offset , size ) ) return - EFAULT ; if ( copy > size ) { - count ; offset = 0 ; } else offset += size ; copy -= size ; offset1 += size ; } if ( len == offset1 ) return 0 ; while ( count -- ) { struct page * page [ MAX_SKB_FRAGS ] ; int num_pages ; unsigned long base ; unsigned long truesize ; len = from -> iov_len - offset ; if ( ! len ) { offset = 0 ; continue ; } base = ( unsigned long ) from -> iov_base + offset ; size = ( ( base & ~ PAGE_MASK ) + len + ~ PAGE_MASK ) >> PAGE_SHIFT ; num_pages = get_user_pages_fast ( base , size , 0 , & page [ i ] ) ; if ( ( num_pages != size ) || ( num_pages > MAX_SKB_FRAGS - skb_shinfo ( skb ) -> nr_frags ) ) { for ( i = 0 ; i < num_pages ; i ++ ) put_page ( page [ i ] ) ; return - EFAULT ; } truesize = size * PAGE_SIZE ; skb -> data_len += len ; skb -> len += len ; skb -> truesize += truesize ; atomic_add ( truesize , & skb -> sk -> sk_wmem_alloc ) ; while ( len ) { int off = base & ~ PAGE_MASK ; int size = min_t ( int , len , PAGE_SIZE - off ) ; __skb_fill_page_desc ( skb , i , page [ i ] , off , size ) ; skb_shinfo ( skb ) -> nr_frags ++ ; base += size ; len -= size ; i ++ ; } offset = 0 ; } return 0 ; }","static int zerocopy_sg_from_iovec ( struct sk_buff * skb , const struct iovec * from , int offset , size_t count ) { int len = iov_length ( from , count ) - offset ; int copy = skb_headlen ( skb ) ; int size , offset1 = 0 ; int i = 0 ; while ( count && ( offset >= from -> iov_len ) ) { offset -= from -> iov_len ; + from ; } while ( count && ( copy > 0 ) ) { size = min_t ( unsigned int , copy , from -> iov_len - offset ) ; if ( copy_from_user ( skb -> data + offset1 , from -> iov_base + offset , size ) ) return - EFAULT ; if ( copy > size ) { + from ; offset = 0 ; } else offset += size ; copy -= size ; offset1 += size ; } if ( len == offset1 ) return 0 ; while ( count -- ) { struct page * page [ MAX_SKB_FRAGS ] ; int num_pages ; unsigned long base ; unsigned long truesize ; len = from -> iov_len - offset ; if ( ! len ) { offset = 0 ; + from ; continue ; } base = ( unsigned long ) from -> iov_base + offset ; size = ( ( base & ~ PAGE_MASK ) + len + ~ PAGE_MASK ) >> PAGE_SHIFT ; if ( i + size > MAX_SKB_FRAGS ) return - EMSGSIZE ; num_pages = get_user_pages_fast ( base , size , 0 , & page [ i ] ) ; if ( num_pages != size ) { for ( i = 0 ; i < num_pages ; i ++ ) put_page ( page [ i ] ) ; return - EFAULT ; } truesize = size * PAGE_SIZE ; skb -> data_len += len ; skb -> len += len ; skb -> truesize += truesize ; atomic_add ( truesize , & skb -> sk -> sk_wmem_alloc ) ; while ( len ) { int off = base & ~ PAGE_MASK ; int size = min_t ( int , len , PAGE_SIZE - off ) ; __skb_fill_page_desc ( skb , i , page [ i ] , off , size ) ; skb_shinfo ( skb ) -> nr_frags ++ ; base += size ; len -= size ; i ++ ; } offset = 0 ; + from ; } return 0 ; }" 1110,"CWE-362 static void audit_log_execve_info ( struct audit_context * context , struct audit_buffer * * ab ) { int i , len ; size_t len_sent = 0 ; const char __user * p ; char * buf ; p = ( const char __user * ) current -> mm -> arg_start ; audit_log_format ( * ab , ""argc=%d"" , context -> execve . argc ) ; buf = kmalloc ( MAX_EXECVE_AUDIT_LEN + 1 , GFP_KERNEL ) ; if ( ! buf ) { audit_panic ( ""out of memory for argv string"" ) ; return ; } for ( i = 0 ; i < context -> execve . argc ; i ++ ) { len = audit_log_single_execve_arg ( context , ab , i , & len_sent , p , buf ) ; if ( len <= 0 ) break ; p += len ; } kfree ( buf ) ; }","static void audit_log_execve_info ( struct audit_context * context , struct audit_buffer * * ab ) { long len_max ; long len_rem ; long len_full ; long len_buf ; long len_abuf ; long len_tmp ; bool require_data ; bool encode ; unsigned int iter ; unsigned int arg ; char * buf_head ; char * buf ; const char __user * p = ( const char __user * ) current -> mm -> arg_start ; char abuf [ 96 ] ; WARN_ON_ONCE ( MAX_EXECVE_AUDIT_LEN > 7500 ) ; len_max = MAX_EXECVE_AUDIT_LEN ; buf_head = kmalloc ( MAX_EXECVE_AUDIT_LEN + 1 , GFP_KERNEL ) ; if ( ! buf_head ) { audit_panic ( ""out of memory for argv string"" ) ; return ; } buf = buf_head ; audit_log_format ( * ab , ""argc=%d"" , context -> execve . argc ) ; len_rem = len_max ; len_buf = 0 ; len_full = 0 ; require_data = true ; encode = false ; iter = 0 ; arg = 0 ; do { if ( len_full == 0 ) len_full = strnlen_user ( p , MAX_ARG_STRLEN ) - 1 ; if ( require_data ) { if ( buf != buf_head ) { memmove ( buf_head , buf , len_buf ) ; buf = buf_head ; } len_tmp = strncpy_from_user ( & buf_head [ len_buf ] , p , len_max - len_buf ) ; if ( len_tmp == - EFAULT ) { send_sig ( SIGKILL , current , 0 ) ; goto out ; } else if ( len_tmp == ( len_max - len_buf ) ) { require_data = true ; encode = true ; len_full = len_full * 2 ; p += len_tmp ; } else { require_data = false ; if ( ! encode ) encode = audit_string_contains_control ( buf , len_tmp ) ; if ( len_full < len_max ) len_full = ( encode ? len_tmp * 2 : len_tmp ) ; p += len_tmp + 1 ; } len_buf += len_tmp ; buf_head [ len_buf ] = '\\0' ; len_abuf = ( encode ? len_buf * 2 : len_buf + 2 ) ; } if ( len_buf > 0 ) { if ( ( sizeof ( abuf ) + 8 ) > len_rem ) { len_rem = len_max ; audit_log_end ( * ab ) ; * ab = audit_log_start ( context , GFP_KERNEL , AUDIT_EXECVE ) ; if ( ! * ab ) goto out ; } len_tmp = 0 ; if ( require_data || ( iter > 0 ) || ( ( len_abuf + sizeof ( abuf ) ) > len_rem ) ) { if ( iter == 0 ) { len_tmp += snprintf ( & abuf [ len_tmp ] , sizeof ( abuf ) - len_tmp , "" a%d_len=%lu"" , arg , len_full ) ; } len_tmp += snprintf ( & abuf [ len_tmp ] , sizeof ( abuf ) - len_tmp , "" a%d[%d]="" , arg , iter ++ ) ; } else len_tmp += snprintf ( & abuf [ len_tmp ] , sizeof ( abuf ) - len_tmp , "" a%d="" , arg ) ; WARN_ON ( len_tmp >= sizeof ( abuf ) ) ; abuf [ sizeof ( abuf ) - 1 ] = '\\0' ; audit_log_format ( * ab , ""%s"" , abuf ) ; len_rem -= len_tmp ; len_tmp = len_buf ; if ( encode ) { if ( len_abuf > len_rem ) len_tmp = len_rem / 2 ; audit_log_n_hex ( * ab , buf , len_tmp ) ; len_rem -= len_tmp * 2 ; len_abuf -= len_tmp * 2 ; } else { if ( len_abuf > len_rem ) len_tmp = len_rem - 2 ; audit_log_n_string ( * ab , buf , len_tmp ) ; len_rem -= len_tmp + 2 ; len_abuf -= len_tmp ; } len_buf -= len_tmp ; buf += len_tmp ; } if ( ( len_buf == 0 ) && ! require_data ) { arg ++ ; iter = 0 ; len_full = 0 ; require_data = true ; encode = false ; } } while ( arg < context -> execve . argc ) ; out : kfree ( buf_head ) ; }" 1111,"CWE-125 PyObject * ast2obj_alias ( void * _o ) { alias_ty o = ( alias_ty ) _o ; PyObject * result = NULL , * value = NULL ; if ( ! o ) { Py_INCREF ( Py_None ) ; return Py_None ; } result = PyType_GenericNew ( alias_type , NULL , NULL ) ; if ( ! result ) return NULL ; value = ast2obj_identifier ( o -> name ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_name , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; value = ast2obj_identifier ( o -> asname ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_asname , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; return result ; failed : Py_XDECREF ( value ) ; Py_XDECREF ( result ) ; return NULL ; }","PyObject * ast2obj_alias ( void * _o ) { alias_ty o = ( alias_ty ) _o ; PyObject * result = NULL , * value = NULL ; if ( ! o ) { Py_RETURN_NONE ; } result = PyType_GenericNew ( alias_type , NULL , NULL ) ; if ( ! result ) return NULL ; value = ast2obj_identifier ( o -> name ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_name , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; value = ast2obj_identifier ( o -> asname ) ; if ( ! value ) goto failed ; if ( _PyObject_SetAttrId ( result , & PyId_asname , value ) == - 1 ) goto failed ; Py_DECREF ( value ) ; return result ; failed : Py_XDECREF ( value ) ; Py_XDECREF ( result ) ; return NULL ; }" 1112,"CWE-125 static void l2tp_proto_ver_print ( netdissect_options * ndo , const uint16_t * dat ) { ND_PRINT ( ( ndo , ""%u.%u"" , ( EXTRACT_16BITS ( dat ) >> 8 ) , ( EXTRACT_16BITS ( dat ) & 0xff ) ) ) ; }","static void l2tp_proto_ver_print ( netdissect_options * ndo , const uint16_t * dat , u_int length ) { if ( length < 2 ) { ND_PRINT ( ( ndo , ""AVP too short"" ) ) ; return ; } ND_PRINT ( ( ndo , ""%u.%u"" , ( EXTRACT_16BITS ( dat ) >> 8 ) , ( EXTRACT_16BITS ( dat ) & 0xff ) ) ) ; }" 1113,"CWE-20 static int on_header_cb ( nghttp2_session * ngh2 , const nghttp2_frame * frame , const uint8_t * name , size_t namelen , const uint8_t * value , size_t valuelen , uint8_t flags , void * userp ) { h2_session * session = ( h2_session * ) userp ; h2_stream * stream ; apr_status_t status ; ( void ) flags ; stream = get_stream ( session , frame -> hd . stream_id ) ; if ( ! stream ) { ap_log_cerror ( APLOG_MARK , APLOG_ERR , 0 , session -> c , APLOGNO ( 02920 ) ""h2_session: stream(%ld-%d): on_header unknown stream"" , session -> id , ( int ) frame -> hd . stream_id ) ; return NGHTTP2_ERR_TEMPORAL_CALLBACK_FAILURE ; } status = h2_stream_add_header ( stream , ( const char * ) name , namelen , ( const char * ) value , valuelen ) ; if ( status != APR_SUCCESS && ! h2_stream_is_ready ( stream ) ) { return NGHTTP2_ERR_TEMPORAL_CALLBACK_FAILURE ; } return 0 ; }","static int on_header_cb ( nghttp2_session * ngh2 , const nghttp2_frame * frame , const uint8_t * name , size_t namelen , const uint8_t * value , size_t valuelen , uint8_t flags , void * userp ) { h2_session * session = ( h2_session * ) userp ; h2_stream * stream ; apr_status_t status ; ( void ) flags ; stream = get_stream ( session , frame -> hd . stream_id ) ; if ( ! stream ) { ap_log_cerror ( APLOG_MARK , APLOG_DEBUG , 0 , session -> c , APLOGNO ( 02920 ) ""h2_session: stream(%ld-%d): on_header unknown stream"" , session -> id , ( int ) frame -> hd . stream_id ) ; return NGHTTP2_ERR_TEMPORAL_CALLBACK_FAILURE ; } status = h2_stream_add_header ( stream , ( const char * ) name , namelen , ( const char * ) value , valuelen ) ; if ( status == APR_ECONNRESET ) { ap_log_cerror ( APLOG_MARK , APLOG_TRACE1 , status , session -> c , ""h2-stream(%ld-%d): on_header, reset stream"" , session -> id , stream -> id ) ; nghttp2_submit_rst_stream ( ngh2 , NGHTTP2_FLAG_NONE , stream -> id , NGHTTP2_INTERNAL_ERROR ) ; } else if ( status != APR_SUCCESS && ! h2_stream_is_ready ( stream ) ) { return NGHTTP2_ERR_TEMPORAL_CALLBACK_FAILURE ; } return 0 ; }" 1114,"CWE-119 static vpx_codec_err_t parse_options ( SvcContext * svc_ctx , const char * options ) { char * input_string ; char * option_name ; char * option_value ; char * input_ptr ; int is_keyframe_qaunt_set = 0 ; vpx_codec_err_t res = VPX_CODEC_OK ; if ( options == NULL ) return VPX_CODEC_OK ; input_string = strdup ( options ) ; option_name = strtok_r ( input_string , ""="" , & input_ptr ) ; while ( option_name != NULL ) { option_value = strtok_r ( NULL , "" "" , & input_ptr ) ; if ( option_value == NULL ) { svc_log ( svc_ctx , SVC_LOG_ERROR , ""option missing value: %s\\n"" , option_name ) ; res = VPX_CODEC_INVALID_PARAM ; break ; } if ( strcmp ( ""encoding-mode"" , option_name ) == 0 ) { res = set_option_encoding_mode ( svc_ctx , option_value ) ; if ( res != VPX_CODEC_OK ) break ; } else if ( strcmp ( ""layers"" , option_name ) == 0 ) { svc_ctx -> spatial_layers = atoi ( option_value ) ; } else if ( strcmp ( ""scale-factors"" , option_name ) == 0 ) { res = parse_scale_factors ( svc_ctx , option_value ) ; if ( res != VPX_CODEC_OK ) break ; } else if ( strcmp ( ""quantizers"" , option_name ) == 0 ) { res = parse_quantizer_values ( svc_ctx , option_value , 0 ) ; if ( res != VPX_CODEC_OK ) break ; if ( ! is_keyframe_qaunt_set ) { SvcInternal * const si = get_svc_internal ( svc_ctx ) ; memcpy ( get_svc_internal ( svc_ctx ) -> quantizer_keyframe , si -> quantizer , sizeof ( si -> quantizer ) ) ; } } else if ( strcmp ( ""quantizers-keyframe"" , option_name ) == 0 ) { res = parse_quantizer_values ( svc_ctx , option_value , 1 ) ; if ( res != VPX_CODEC_OK ) break ; is_keyframe_qaunt_set = 1 ; } else { svc_log ( svc_ctx , SVC_LOG_ERROR , ""invalid option: %s\\n"" , option_name ) ; res = VPX_CODEC_INVALID_PARAM ; break ; } option_name = strtok_r ( NULL , ""="" , & input_ptr ) ; } free ( input_string ) ; return res ; }","static vpx_codec_err_t parse_options ( SvcContext * svc_ctx , const char * options ) { char * input_string ; char * option_name ; char * option_value ; char * input_ptr ; SvcInternal_t * const si = get_svc_internal ( svc_ctx ) ; vpx_codec_err_t res = VPX_CODEC_OK ; int i , alt_ref_enabled = 0 ; if ( options == NULL ) return VPX_CODEC_OK ; input_string = strdup ( options ) ; option_name = strtok_r ( input_string , ""="" , & input_ptr ) ; while ( option_name != NULL ) { option_value = strtok_r ( NULL , "" "" , & input_ptr ) ; if ( option_value == NULL ) { svc_log ( svc_ctx , SVC_LOG_ERROR , ""option missing value: %s\\n"" , option_name ) ; res = VPX_CODEC_INVALID_PARAM ; break ; } if ( strcmp ( ""spatial-layers"" , option_name ) == 0 ) { svc_ctx -> spatial_layers = atoi ( option_value ) ; } else if ( strcmp ( ""temporal-layers"" , option_name ) == 0 ) { svc_ctx -> temporal_layers = atoi ( option_value ) ; } else if ( strcmp ( ""scale-factors"" , option_name ) == 0 ) { res = parse_layer_options_from_string ( svc_ctx , SCALE_FACTOR , option_value , si -> svc_params . scaling_factor_num , si -> svc_params . scaling_factor_den ) ; if ( res != VPX_CODEC_OK ) break ; } else if ( strcmp ( ""max-quantizers"" , option_name ) == 0 ) { res = parse_layer_options_from_string ( svc_ctx , QUANTIZER , option_value , si -> svc_params . max_quantizers , NULL ) ; if ( res != VPX_CODEC_OK ) break ; } else if ( strcmp ( ""min-quantizers"" , option_name ) == 0 ) { res = parse_layer_options_from_string ( svc_ctx , QUANTIZER , option_value , si -> svc_params . min_quantizers , NULL ) ; if ( res != VPX_CODEC_OK ) break ; } else if ( strcmp ( ""auto-alt-refs"" , option_name ) == 0 ) { res = parse_layer_options_from_string ( svc_ctx , AUTO_ALT_REF , option_value , si -> enable_auto_alt_ref , NULL ) ; if ( res != VPX_CODEC_OK ) break ; } else if ( strcmp ( ""bitrates"" , option_name ) == 0 ) { res = parse_layer_options_from_string ( svc_ctx , BITRATE , option_value , si -> bitrates , NULL ) ; if ( res != VPX_CODEC_OK ) break ; } else if ( strcmp ( ""multi-frame-contexts"" , option_name ) == 0 ) { si -> use_multiple_frame_contexts = atoi ( option_value ) ; } else { svc_log ( svc_ctx , SVC_LOG_ERROR , ""invalid option: %s\\n"" , option_name ) ; res = VPX_CODEC_INVALID_PARAM ; break ; } option_name = strtok_r ( NULL , ""="" , & input_ptr ) ; } free ( input_string ) ; for ( i = 0 ; i < svc_ctx -> spatial_layers ; ++ i ) { if ( si -> svc_params . max_quantizers [ i ] > MAX_QUANTIZER || si -> svc_params . max_quantizers [ i ] < 0 || si -> svc_params . min_quantizers [ i ] > si -> svc_params . max_quantizers [ i ] || si -> svc_params . min_quantizers [ i ] < 0 ) res = VPX_CODEC_INVALID_PARAM ; } if ( si -> use_multiple_frame_contexts && ( svc_ctx -> spatial_layers > 3 || svc_ctx -> spatial_layers * svc_ctx -> temporal_layers > 4 ) ) res = VPX_CODEC_INVALID_PARAM ; for ( i = 0 ; i < svc_ctx -> spatial_layers ; ++ i ) alt_ref_enabled += si -> enable_auto_alt_ref [ i ] ; if ( alt_ref_enabled > REF_FRAMES - svc_ctx -> spatial_layers ) { svc_log ( svc_ctx , SVC_LOG_ERROR , ""svc: auto alt ref: Maxinum %d(REF_FRAMES - layers) layers could"" ""enabled auto alt reference frame, but % layers are enabled\\n"" , REF_FRAMES - svc_ctx -> spatial_layers , alt_ref_enabled ) ; res = VPX_CODEC_INVALID_PARAM ; } return res ; }" 1115,"CWE-119 static copyFunc pickCopyFunc ( TIFF * in , TIFF * out , uint16 bitspersample , uint16 samplesperpixel ) { uint16 shortv ; uint32 w , l , tw , tl ; int bychunk ; ( void ) TIFFGetField ( in , TIFFTAG_PLANARCONFIG , & shortv ) ; if ( shortv != config && bitspersample != 8 && samplesperpixel > 1 ) { fprintf ( stderr , ""%s: Cannot handle different planar configuration w/ bits/sample != 8\\n"" , TIFFFileName ( in ) ) ; return ( NULL ) ; } TIFFGetField ( in , TIFFTAG_IMAGEWIDTH , & w ) ; TIFFGetField ( in , TIFFTAG_IMAGELENGTH , & l ) ; if ( ! ( TIFFIsTiled ( out ) || TIFFIsTiled ( in ) ) ) { uint32 irps = ( uint32 ) - 1L ; TIFFGetField ( in , TIFFTAG_ROWSPERSTRIP , & irps ) ; bychunk = ! bias && ( rowsperstrip == irps ) ; } else { if ( bias ) { fprintf ( stderr , ""%s: Cannot handle tiled configuration w/bias image\\n"" , TIFFFileName ( in ) ) ; return ( NULL ) ; } if ( TIFFIsTiled ( out ) ) { if ( ! TIFFGetField ( in , TIFFTAG_TILEWIDTH , & tw ) ) tw = w ; if ( ! TIFFGetField ( in , TIFFTAG_TILELENGTH , & tl ) ) tl = l ; bychunk = ( tw == tilewidth && tl == tilelength ) ; } else { TIFFGetField ( in , TIFFTAG_TILEWIDTH , & tw ) ; TIFFGetField ( in , TIFFTAG_TILELENGTH , & tl ) ; bychunk = ( tw == w && tl == rowsperstrip ) ; } } # define T 1 # define F 0 # define pack ( a , b , c , d , e ) ( ( long ) ( ( ( a ) << 11 ) | ( ( b ) << 3 ) | ( ( c ) << 2 ) | ( ( d ) << 1 ) | ( e ) ) ) switch ( pack ( shortv , config , TIFFIsTiled ( in ) , TIFFIsTiled ( out ) , bychunk ) ) { case pack ( PLANARCONFIG_CONTIG , PLANARCONFIG_CONTIG , F , T , F ) : case pack ( PLANARCONFIG_CONTIG , PLANARCONFIG_CONTIG , F , T , T ) : return cpContigStrips2ContigTiles ; case pack ( PLANARCONFIG_CONTIG , PLANARCONFIG_SEPARATE , F , T , F ) : case pack ( PLANARCONFIG_CONTIG , PLANARCONFIG_SEPARATE , F , T , T ) : return cpContigStrips2SeparateTiles ; case pack ( PLANARCONFIG_SEPARATE , PLANARCONFIG_CONTIG , F , T , F ) : case pack ( PLANARCONFIG_SEPARATE , PLANARCONFIG_CONTIG , F , T , T ) : return cpSeparateStrips2ContigTiles ; case pack ( PLANARCONFIG_SEPARATE , PLANARCONFIG_SEPARATE , F , T , F ) : case pack ( PLANARCONFIG_SEPARATE , PLANARCONFIG_SEPARATE , F , T , T ) : return cpSeparateStrips2SeparateTiles ; case pack ( PLANARCONFIG_CONTIG , PLANARCONFIG_CONTIG , T , T , F ) : case pack ( PLANARCONFIG_CONTIG , PLANARCONFIG_CONTIG , T , T , T ) : return cpContigTiles2ContigTiles ;","static copyFunc pickCopyFunc ( TIFF * in , TIFF * out , uint16 bitspersample , uint16 samplesperpixel ) { uint16 shortv ; uint32 w , l , tw , tl ; int bychunk ; ( void ) TIFFGetFieldDefaulted ( in , TIFFTAG_PLANARCONFIG , & shortv ) ; if ( shortv != config && bitspersample != 8 && samplesperpixel > 1 ) { fprintf ( stderr , ""%s: Cannot handle different planar configuration w/ bits/sample != 8\\n"" , TIFFFileName ( in ) ) ; return ( NULL ) ; } TIFFGetField ( in , TIFFTAG_IMAGEWIDTH , & w ) ; TIFFGetField ( in , TIFFTAG_IMAGELENGTH , & l ) ; if ( ! ( TIFFIsTiled ( out ) || TIFFIsTiled ( in ) ) ) { uint32 irps = ( uint32 ) - 1L ; TIFFGetField ( in , TIFFTAG_ROWSPERSTRIP , & irps ) ; bychunk = ! bias && ( rowsperstrip == irps ) ; } else { if ( bias ) { fprintf ( stderr , ""%s: Cannot handle tiled configuration w/bias image\\n"" , TIFFFileName ( in ) ) ; return ( NULL ) ; } if ( TIFFIsTiled ( out ) ) { if ( ! TIFFGetField ( in , TIFFTAG_TILEWIDTH , & tw ) ) tw = w ; if ( ! TIFFGetField ( in , TIFFTAG_TILELENGTH , & tl ) ) tl = l ; bychunk = ( tw == tilewidth && tl == tilelength ) ; } else { TIFFGetField ( in , TIFFTAG_TILEWIDTH , & tw ) ; TIFFGetField ( in , TIFFTAG_TILELENGTH , & tl ) ; bychunk = ( tw == w && tl == rowsperstrip ) ; } } # define T 1 # define F 0 # define pack ( a , b , c , d , e ) ( ( long ) ( ( ( a ) << 11 ) | ( ( b ) << 3 ) | ( ( c ) << 2 ) | ( ( d ) << 1 ) | ( e ) ) ) switch ( pack ( shortv , config , TIFFIsTiled ( in ) , TIFFIsTiled ( out ) , bychunk ) ) { case pack ( PLANARCONFIG_CONTIG , PLANARCONFIG_CONTIG , F , T , F ) : case pack ( PLANARCONFIG_CONTIG , PLANARCONFIG_CONTIG , F , T , T ) : return cpContigStrips2ContigTiles ; case pack ( PLANARCONFIG_CONTIG , PLANARCONFIG_SEPARATE , F , T , F ) : case pack ( PLANARCONFIG_CONTIG , PLANARCONFIG_SEPARATE , F , T , T ) : return cpContigStrips2SeparateTiles ; case pack ( PLANARCONFIG_SEPARATE , PLANARCONFIG_CONTIG , F , T , F ) : case pack ( PLANARCONFIG_SEPARATE , PLANARCONFIG_CONTIG , F , T , T ) : return cpSeparateStrips2ContigTiles ; case pack ( PLANARCONFIG_SEPARATE , PLANARCONFIG_SEPARATE , F , T , F ) : case pack ( PLANARCONFIG_SEPARATE , PLANARCONFIG_SEPARATE , F , T , T ) : return cpSeparateStrips2SeparateTiles ; case pack ( PLANARCONFIG_CONTIG , PLANARCONFIG_CONTIG , T , T , F ) : case pack ( PLANARCONFIG_CONTIG , PLANARCONFIG_CONTIG , T , T , T ) : return cpContigTiles2ContigTiles ;" 1116,"CWE-119 static PixelChannels * * AcquirePixelThreadSet ( const Image * images ) { const Image * next ; PixelChannels * * pixels ; register ssize_t i ; size_t columns , number_threads ; number_threads = ( size_t ) GetMagickResourceLimit ( ThreadResource ) ; pixels = ( PixelChannels * * ) AcquireQuantumMemory ( number_threads , sizeof ( * pixels ) ) ; if ( pixels == ( PixelChannels * * ) NULL ) return ( ( PixelChannels * * ) NULL ) ; ( void ) memset ( pixels , 0 , number_threads * sizeof ( * pixels ) ) ; columns = images -> columns ; for ( next = images ; next != ( Image * ) NULL ; next = next -> next ) columns = MagickMax ( next -> columns , columns ) ; for ( i = 0 ; i < ( ssize_t ) number_threads ; i ++ ) { register ssize_t j ; pixels [ i ] = ( PixelChannels * ) AcquireQuantumMemory ( columns , sizeof ( * * pixels ) ) ; if ( pixels [ i ] == ( PixelChannels * ) NULL ) return ( DestroyPixelThreadSet ( pixels ) ) ; for ( j = 0 ; j < ( ssize_t ) columns ; j ++ ) { register ssize_t k ; for ( k = 0 ; k < MaxPixelChannels ; k ++ ) pixels [ i ] [ j ] . channel [ k ] = 0.0 ; } } return ( pixels ) ; }","static PixelChannels * * AcquirePixelThreadSet ( const Image * images ) { const Image * next ; PixelChannels * * pixels ; register ssize_t i ; size_t columns , rows ; rows = MagickMax ( GetImageListLength ( images ) , ( size_t ) GetMagickResourceLimit ( ThreadResource ) ) ; pixels = ( PixelChannels * * ) AcquireQuantumMemory ( rows , sizeof ( * pixels ) ) ; if ( pixels == ( PixelChannels * * ) NULL ) return ( ( PixelChannels * * ) NULL ) ; columns = MaxPixelChannels ; for ( next = images ; next != ( Image * ) NULL ; next = next -> next ) columns = MagickMax ( next -> columns , columns ) ; for ( i = 0 ; i < ( ssize_t ) rows ; i ++ ) { register ssize_t j ; pixels [ i ] = ( PixelChannels * ) AcquireQuantumMemory ( columns , sizeof ( * * pixels ) ) ; if ( pixels [ i ] == ( PixelChannels * ) NULL ) return ( DestroyPixelThreadSet ( pixels ) ) ; for ( j = 0 ; j < ( ssize_t ) columns ; j ++ ) { register ssize_t k ; for ( k = 0 ; k < MaxPixelChannels ; k ++ ) pixels [ i ] [ j ] . channel [ k ] = 0.0 ; } } return ( pixels ) ; }" 1117,"NVD-CWE-Other static void * bpf_any_get ( void * raw , enum bpf_type type ) { switch ( type ) { case BPF_TYPE_PROG : atomic_inc ( & ( ( struct bpf_prog * ) raw ) -> aux -> refcnt ) ; break ; case BPF_TYPE_MAP : bpf_map_inc ( raw , true ) ; break ; default : WARN_ON_ONCE ( 1 ) ; break ; } return raw ; }","static void * bpf_any_get ( void * raw , enum bpf_type type ) { switch ( type ) { case BPF_TYPE_PROG : raw = bpf_prog_inc ( raw ) ; break ; case BPF_TYPE_MAP : raw = bpf_map_inc ( raw , true ) ; break ; default : WARN_ON_ONCE ( 1 ) ; break ; } return raw ; }"