/* ecrypt-sync.h */ /* * Header file for synchronous stream ciphers without authentication * mechanism. * * *** Please only edit parts marked with "[edit]". *** */ #ifndef ECRYPT_SYNC #define ECRYPT_SYNC #include "ecrypt-portable.h" /* ------------------------------------------------------------------------- */ /* Cipher parameters */ /* * The name of your cipher. */ #define ECRYPT_NAME "HC-128" /* [edit] */ #define ECRYPT_PROFILE "SW" /* * Specify which key and IV sizes are supported by your cipher. A user * should be able to enumerate the supported sizes by running the * following code: * * for (i = 0; ECRYPT_KEYSIZE(i) <= ECRYPT_MAXKEYSIZE; ++i) * { * keysize = ECRYPT_KEYSIZE(i); * * ... * } * * All sizes are in bits. */ /* *Remarks: One key size is supported: 128 bits * One IV size is supported: 128 bits * * The other key, IV sizes can also be used in HC-128, * but not recommended: * 1) For any key with size not equal to 128, * the key needs to be concatenated to a 128-bit key * before being used in HC-128. * 2) For any IV with size not equal to 128, * the IV needs to be concatenated to a 128-bit IV * before being used in HC-128 * *Caution: Two keys with different sizes should be independently generated * Two IVs with different sizes should not be used with the same key * *Recommended: 128-bit IV for 128-bit key; */ #define ECRYPT_MAXKEYSIZE 128 /* [edit] */ #define ECRYPT_KEYSIZE(i) (128 + (i)*128) /* [edit] */ #define ECRYPT_MAXIVSIZE 128 /* [edit] */ #define ECRYPT_IVSIZE(i) (128 + (i)*128) /* [edit] */ /* ------------------------------------------------------------------------- */ /* Data structures */ /* * ECRYPT_ctx is the structure containing the representation of the * internal state of your cipher. */ typedef struct { /* * [edit] * * Put here all state variable needed during the encryption process. */ u32 T[1024]; /* P[i] = T[i]; Q[i] = T[1024+i];*/ u32 X[16]; u32 Y[16]; u32 counter1024; /*counter1024 = i mod 1024 at the i-th step */ u32 key[8]; u32 iv[8]; u32 keysize; /* key size in bits */ u32 ivsize; /* iv size in bits*/ } ECRYPT_ctx; /*------------------------------------- Added functions ---------------------------------------*/ void generate_keystream(ECRYPT_ctx* ctx, u32* keystream); void setup_update(ECRYPT_ctx* ctx); /* ------------------------------------------------------------------------- */ /* Mandatory functions */ /* * Key and message independent initialization. This function will be * called once when the program starts (e.g., to build expanded S-box * tables). */ void ECRYPT_init(void); /* * Key setup. It is the user's responsibility to select the values of * keysize and ivsize from the set of supported values specified * above. */ void ECRYPT_keysetup( ECRYPT_ctx* ctx, const u8* key, u32 keysize, /* Key size in bits. */ u32 ivsize); /* IV size in bits. */ /* * IV setup. After having called ECRYPT_keysetup(), the user is * allowed to call ECRYPT_ivsetup() different times in order to * encrypt/decrypt different messages with the same key but different * IV's. */ void ECRYPT_ivsetup( ECRYPT_ctx* ctx, const u8* iv); /* * Encryption/decryption of arbitrary length messages. * * For efficiency reasons, the API provides two types of * encrypt/decrypt functions. The ECRYPT_encrypt_bytes() function * (declared here) encrypts byte strings of arbitrary length, while * the ECRYPT_encrypt_blocks() function (defined later) only accepts * lengths which are multiples of ECRYPT_BLOCKLENGTH. * * The user is allowed to make multiple calls to * ECRYPT_encrypt_blocks() to incrementally encrypt a long message, * but he is NOT allowed to make additional encryption calls once he * has called ECRYPT_encrypt_bytes() (unless he starts a new message * of course). For example, this sequence of calls is acceptable: * * ECRYPT_keysetup(); * * ECRYPT_ivsetup(); * ECRYPT_encrypt_blocks(); * ECRYPT_encrypt_blocks(); * ECRYPT_encrypt_bytes(); * * ECRYPT_ivsetup(); * ECRYPT_encrypt_blocks(); * ECRYPT_encrypt_blocks(); * * ECRYPT_ivsetup(); * ECRYPT_encrypt_bytes(); * * The following sequence is not: * * ECRYPT_keysetup(); * ECRYPT_ivsetup(); * ECRYPT_encrypt_blocks(); * ECRYPT_encrypt_bytes(); * ECRYPT_encrypt_blocks(); */ /* * By default ECRYPT_encrypt_bytes() and ECRYPT_decrypt_bytes() are * defined as macros which redirect the call to a single function * ECRYPT_process_bytes(). If you want to provide separate encryption * and decryption functions, please undef * ECRYPT_HAS_SINGLE_BYTE_FUNCTION. */ #define ECRYPT_HAS_SINGLE_BYTE_FUNCTION /* [edit] */ #ifdef ECRYPT_HAS_SINGLE_BYTE_FUNCTION #define ECRYPT_encrypt_bytes(ctx, plaintext, ciphertext, msglen) \ ECRYPT_process_bytes(0, ctx, plaintext, ciphertext, msglen) #define ECRYPT_decrypt_bytes(ctx, ciphertext, plaintext, msglen) \ ECRYPT_process_bytes(1, ctx, ciphertext, plaintext, msglen) void ECRYPT_process_bytes( int action, /* 0 = encrypt; 1 = decrypt; */ ECRYPT_ctx* ctx, const u8* input, u8* output, u32 msglen); /* Message length in bytes. */ #else void ECRYPT_encrypt_bytes( ECRYPT_ctx* ctx, const u8* plaintext, u8* ciphertext, u32 msglen); /* Message length in bytes. */ void ECRYPT_decrypt_bytes( ECRYPT_ctx* ctx, const u8* ciphertext, u8* plaintext, u32 msglen); /* Message length in bytes. */ #endif /* ------------------------------------------------------------------------- */ /* Optional features */ /* * For testing purposes it can sometimes be useful to have a function * which immediately generates keystream without having to provide it * with a zero plaintext. If your cipher cannot provide this function * (e.g., because it is not strictly a synchronous cipher), please * reset the ECRYPT_GENERATES_KEYSTREAM flag. */ #define ECRYPT_GENERATES_KEYSTREAM #ifdef ECRYPT_GENERATES_KEYSTREAM void ECRYPT_keystream_bytes( ECRYPT_ctx* ctx, u8* keystream, u32 length); /* Length of keystream in bytes. */ #endif /* ------------------------------------------------------------------------- */ /* Optional optimizations */ /* * By default, the functions in this section are implemented using * calls to functions declared above. However, you might want to * implement them differently for performance reasons. */ /* * All-in-one encryption/decryption of (short) packets. * * The default definitions of these functions can be found in * "ecrypt-sync.c". If you want to implement them differently, please * undef the ECRYPT_USES_DEFAULT_ALL_IN_ONE flag. */ #define ECRYPT_USES_DEFAULT_ALL_IN_ONE /* [edit] */ /* * Undef ECRYPT_HAS_SINGLE_PACKET_FUNCTION if you want to provide * separate packet encryption and decryption functions. */ #define ECRYPT_HAS_SINGLE_PACKET_FUNCTION /* [edit] */ #ifdef ECRYPT_HAS_SINGLE_PACKET_FUNCTION #define ECRYPT_encrypt_packet( \ ctx, iv, plaintext, ciphertext, mglen) \ ECRYPT_process_packet(0, \ ctx, iv, plaintext, ciphertext, mglen) #define ECRYPT_decrypt_packet( \ ctx, iv, ciphertext, plaintext, mglen) \ ECRYPT_process_packet(1, \ ctx, iv, ciphertext, plaintext, mglen) void ECRYPT_process_packet( int action, /* 0 = encrypt; 1 = decrypt; */ ECRYPT_ctx* ctx, const u8* iv, const u8* input, u8* output, u32 msglen); #else void ECRYPT_encrypt_packet( ECRYPT_ctx* ctx, const u8* iv, const u8* plaintext, u8* ciphertext, u32 msglen); void ECRYPT_decrypt_packet( ECRYPT_ctx* ctx, const u8* iv, const u8* ciphertext, u8* plaintext, u32 msglen); #endif /* * Encryption/decryption of blocks. * * By default, these functions are defined as macros. If you want to * provide a different implementation, please undef the * ECRYPT_USES_DEFAULT_BLOCK_MACROS flag and implement the functions * declared below. */ #define ECRYPT_BLOCKLENGTH 64 /* [edit] */ #define ECRYPT_USES_DEFAULT_BLOCK_MACROS /* [edit] */ #ifdef ECRYPT_USES_DEFAULT_BLOCK_MACROS #define ECRYPT_encrypt_blocks(ctx, plaintext, ciphertext, blocks) \ ECRYPT_encrypt_bytes(ctx, plaintext, ciphertext, \ (blocks) * ECRYPT_BLOCKLENGTH) #define ECRYPT_decrypt_blocks(ctx, ciphertext, plaintext, blocks) \ ECRYPT_decrypt_bytes(ctx, ciphertext, plaintext, \ (blocks) * ECRYPT_BLOCKLENGTH) #ifdef ECRYPT_GENERATES_KEYSTREAM #define ECRYPT_keystream_blocks(ctx, keystream, blocks) \ ECRYPT_keystream_bytes(ctx, keystream, \ (blocks) * ECRYPT_BLOCKLENGTH) #endif #else /* * Undef ECRYPT_HAS_SINGLE_BLOCK_FUNCTION if you want to provide * separate block encryption and decryption functions. */ #define ECRYPT_HAS_SINGLE_BLOCK_FUNCTION /* [edit] */ #ifdef ECRYPT_HAS_SINGLE_BLOCK_FUNCTION #define ECRYPT_encrypt_blocks(ctx, plaintext, ciphertext, blocks) \ ECRYPT_process_blocks(0, ctx, plaintext, ciphertext, blocks) #define ECRYPT_decrypt_blocks(ctx, ciphertext, plaintext, blocks) \ ECRYPT_process_blocks(1, ctx, ciphertext, plaintext, blocks) void ECRYPT_process_blocks( int action, /* 0 = encrypt; 1 = decrypt; */ ECRYPT_ctx* ctx, const u8* input, u8* output, u32 blocks); /* Message length in blocks. */ #else void ECRYPT_encrypt_blocks( ECRYPT_ctx* ctx, const u8* plaintext, u8* ciphertext, u32 blocks); /* Message length in blocks. */ void ECRYPT_decrypt_blocks( ECRYPT_ctx* ctx, const u8* ciphertext, u8* plaintext, u32 blocks); /* Message length in blocks. */ #endif #ifdef ECRYPT_GENERATES_KEYSTREAM void ECRYPT_keystream_blocks( ECRYPT_ctx* ctx, u8* keystream, u32 blocks); /* Keystream length in blocks. */ #endif #endif /* * If your cipher can be implemented in different ways, you can use * the ECRYPT_VARIANT parameter to allow the user to choose between * them at compile time (e.g., gcc -DECRYPT_VARIANT=3 ...). Please * only use this possibility if you really think it could make a * significant difference and keep the number of variants * (ECRYPT_MAXVARIANT) as small as possible (definitely not more than * 10). Note also that all variants should have exactly the same * external interface (i.e., the same ECRYPT_BLOCKLENGTH, etc.). */ #define ECRYPT_MAXVARIANT 1 /* [edit] */ #ifndef ECRYPT_VARIANT #define ECRYPT_VARIANT 1 #endif #if (ECRYPT_VARIANT > ECRYPT_MAXVARIANT) #error this variant does not exist #endif /* ------------------------------------------------------------------------- */ #endif