Datasets:
dmanuel99
/
decompiled-mvd

Dataset card Data Studio Files
xet
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1
Unnamed: 0
int64
0
56k
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stringlengths
55
5.98k
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2
1.76k
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68 values
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1 value
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45,200
void CWE190_Integer_Overflow__int_connect_socket_multiply_45_good() { goodG2B(); goodB2G(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83050/CWE190_Integer_Overflow__int_connect_socket_multiply_45.c
CWE190_Integer_Overflow__int_connect_socket_multiply_45_good
void CWE190_Integer_Overflow__int_connect_socket_multiply_45_good(void) { goodG2B(); goodB2G(); return; }
['gcc']
45,201
void CWE190_Integer_Overflow__int_connect_socket_multiply_51_bad() { int data; /* Initialize data */ data = 0; { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } CWE190_Integer_Overflow__int_connect_socket_multiply_51b_badSink(data); }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83051/CWE190_Integer_Overflow__int_connect_socket_multiply_51a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_51_bad
void CWE190_Integer_Overflow__int_connect_socket_multiply_51_bad(void) { int iVar1; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; int iStack_14; int iStack_10; undefined4 uStack_c; uStack_c = 0; iStack_10 = 0xffffffff; iStack_10 = func_0x00400cf0(2,1,6); if (iStack_10 != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_00401464); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_10,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_14 = func_0x00400bc0(iStack_10,auStack_36,0xd,0), iStack_14 != -1) ) && (iStack_14 != 0)) { auStack_36[iStack_14] = 0; uStack_c = func_0x00400cb0(auStack_36); } } if (iStack_10 != -1) { func_0x00400c20(iStack_10); } CWE190_Integer_Overflow__int_connect_socket_multiply_51b_badSink(uStack_c); return; }
['gcc']
45,202
void CWE190_Integer_Overflow__int_connect_socket_multiply_51_good() { goodG2B(); goodB2G(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83051/CWE190_Integer_Overflow__int_connect_socket_multiply_51a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_51_good
void CWE190_Integer_Overflow__int_connect_socket_multiply_51_good(void) { goodG2B(); goodB2G(); return; }
['gcc']
45,203
void CWE190_Integer_Overflow__int_connect_socket_multiply_51b_badSink(int data) { if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
["/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83051/CWE190_Integer_Overflow__int_connect_socket_multiply_51b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_51b_badSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_51b_badSink(int param_1) { if (0 < param_1) { printIntLine(param_1 * 2); } return; }
['gcc']
45,204
void CWE190_Integer_Overflow__int_connect_socket_multiply_51b_goodG2BSink(int data) { if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
["/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83051/CWE190_Integer_Overflow__int_connect_socket_multiply_51b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_51b_goodG2BSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_51b_goodG2BSink(int param_1) { if (0 < param_1) { printIntLine(param_1 * 2); } return; }
['gcc']
45,205
void CWE190_Integer_Overflow__int_connect_socket_multiply_51b_goodB2GSink(int data) { if(data > 0) /* ensure we won't have an underflow */ { /* FIX: Add a check to prevent an overflow from occurring */ if (data < (INT_MAX/2)) { int result = data * 2; printIntLine(result); } else { printLine("data value is too large to perform arithmetic safely."); } } }
["/* ensure we won't have an underflow */", '/* FIX: Add a check to prevent an overflow from occurring */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83051/CWE190_Integer_Overflow__int_connect_socket_multiply_51b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_51b_goodB2GSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_51b_goodB2GSink(int param_1) { if (0 < param_1) { if (param_1 < 0x3fffffff) { printIntLine(param_1 * 2); } else { printLine(&UNK_004014d8); } } return; }
['gcc']
45,206
void CWE190_Integer_Overflow__int_connect_socket_multiply_52_bad() { int data; /* Initialize data */ data = 0; { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } CWE190_Integer_Overflow__int_connect_socket_multiply_52b_badSink(data); }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83052/CWE190_Integer_Overflow__int_connect_socket_multiply_52a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_52_bad
void CWE190_Integer_Overflow__int_connect_socket_multiply_52_bad(void) { int iVar1; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; int iStack_14; int iStack_10; undefined4 uStack_c; uStack_c = 0; iStack_10 = 0xffffffff; iStack_10 = func_0x00400cf0(2,1,6); if (iStack_10 != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_00401474); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_10,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_14 = func_0x00400bc0(iStack_10,auStack_36,0xd,0), iStack_14 != -1) ) && (iStack_14 != 0)) { auStack_36[iStack_14] = 0; uStack_c = func_0x00400cb0(auStack_36); } } if (iStack_10 != -1) { func_0x00400c20(iStack_10); } CWE190_Integer_Overflow__int_connect_socket_multiply_52b_badSink(uStack_c); return; }
['gcc']
45,207
void CWE190_Integer_Overflow__int_connect_socket_multiply_52_good() { goodG2B(); goodB2G(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83052/CWE190_Integer_Overflow__int_connect_socket_multiply_52a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_52_good
void CWE190_Integer_Overflow__int_connect_socket_multiply_52_good(void) { goodG2B(); goodB2G(); return; }
['gcc']
45,208
void CWE190_Integer_Overflow__int_connect_socket_multiply_52b_badSink(int data) { CWE190_Integer_Overflow__int_connect_socket_multiply_52c_badSink(data); }
[]
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83052/CWE190_Integer_Overflow__int_connect_socket_multiply_52b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_52b_badSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_52b_badSink(undefined4 param_1) { CWE190_Integer_Overflow__int_connect_socket_multiply_52c_badSink(param_1); return; }
['gcc']
45,209
void CWE190_Integer_Overflow__int_connect_socket_multiply_52b_goodG2BSink(int data) { CWE190_Integer_Overflow__int_connect_socket_multiply_52c_goodG2BSink(data); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83052/CWE190_Integer_Overflow__int_connect_socket_multiply_52b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_52b_goodG2BSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_52b_goodG2BSink(undefined4 param_1) { CWE190_Integer_Overflow__int_connect_socket_multiply_52c_goodG2BSink(param_1); return; }
['gcc']
45,210
void CWE190_Integer_Overflow__int_connect_socket_multiply_52b_goodB2GSink(int data) { CWE190_Integer_Overflow__int_connect_socket_multiply_52c_goodB2GSink(data); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83052/CWE190_Integer_Overflow__int_connect_socket_multiply_52b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_52b_goodB2GSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_52b_goodB2GSink(undefined4 param_1) { CWE190_Integer_Overflow__int_connect_socket_multiply_52c_goodB2GSink(param_1); return; }
['gcc']
45,211
void CWE190_Integer_Overflow__int_connect_socket_multiply_52c_badSink(int data) { if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
["/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83052/CWE190_Integer_Overflow__int_connect_socket_multiply_52c.c
CWE190_Integer_Overflow__int_connect_socket_multiply_52c_badSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_52c_badSink(int param_1) { if (0 < param_1) { printIntLine(param_1 * 2); } return; }
['gcc']
45,212
void CWE190_Integer_Overflow__int_connect_socket_multiply_52c_goodG2BSink(int data) { if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
["/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83052/CWE190_Integer_Overflow__int_connect_socket_multiply_52c.c
CWE190_Integer_Overflow__int_connect_socket_multiply_52c_goodG2BSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_52c_goodG2BSink(int param_1) { if (0 < param_1) { printIntLine(param_1 * 2); } return; }
['gcc']
45,213
void CWE190_Integer_Overflow__int_connect_socket_multiply_52c_goodB2GSink(int data) { if(data > 0) /* ensure we won't have an underflow */ { /* FIX: Add a check to prevent an overflow from occurring */ if (data < (INT_MAX/2)) { int result = data * 2; printIntLine(result); } else { printLine("data value is too large to perform arithmetic safely."); } } }
["/* ensure we won't have an underflow */", '/* FIX: Add a check to prevent an overflow from occurring */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83052/CWE190_Integer_Overflow__int_connect_socket_multiply_52c.c
CWE190_Integer_Overflow__int_connect_socket_multiply_52c_goodB2GSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_52c_goodB2GSink(int param_1) { if (0 < param_1) { if (param_1 < 0x3fffffff) { printIntLine(param_1 * 2); } else { printLine(&UNK_00401508); } } return; }
['gcc']
45,214
void CWE190_Integer_Overflow__int_connect_socket_multiply_53_bad() { int data; /* Initialize data */ data = 0; { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } CWE190_Integer_Overflow__int_connect_socket_multiply_53b_badSink(data); }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83053/CWE190_Integer_Overflow__int_connect_socket_multiply_53a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_53_bad
void CWE190_Integer_Overflow__int_connect_socket_multiply_53_bad(void) { int iVar1; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; int iStack_14; int iStack_10; undefined4 uStack_c; uStack_c = 0; iStack_10 = 0xffffffff; iStack_10 = func_0x00400cf0(2,1,6); if (iStack_10 != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_00401494); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_10,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_14 = func_0x00400bc0(iStack_10,auStack_36,0xd,0), iStack_14 != -1) ) && (iStack_14 != 0)) { auStack_36[iStack_14] = 0; uStack_c = func_0x00400cb0(auStack_36); } } if (iStack_10 != -1) { func_0x00400c20(iStack_10); } CWE190_Integer_Overflow__int_connect_socket_multiply_53b_badSink(uStack_c); return; }
['gcc']
45,215
void CWE190_Integer_Overflow__int_connect_socket_multiply_53_good() { goodG2B(); goodB2G(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83053/CWE190_Integer_Overflow__int_connect_socket_multiply_53a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_53_good
void CWE190_Integer_Overflow__int_connect_socket_multiply_53_good(void) { goodG2B(); goodB2G(); return; }
['gcc']
45,216
void CWE190_Integer_Overflow__int_connect_socket_multiply_53b_badSink(int data) { CWE190_Integer_Overflow__int_connect_socket_multiply_53c_badSink(data); }
[]
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83053/CWE190_Integer_Overflow__int_connect_socket_multiply_53b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_53b_badSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_53b_badSink(undefined4 param_1) { CWE190_Integer_Overflow__int_connect_socket_multiply_53c_badSink(param_1); return; }
['gcc']
45,217
void CWE190_Integer_Overflow__int_connect_socket_multiply_53b_goodG2BSink(int data) { CWE190_Integer_Overflow__int_connect_socket_multiply_53c_goodG2BSink(data); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83053/CWE190_Integer_Overflow__int_connect_socket_multiply_53b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_53b_goodG2BSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_53b_goodG2BSink(undefined4 param_1) { CWE190_Integer_Overflow__int_connect_socket_multiply_53c_goodG2BSink(param_1); return; }
['gcc']
45,218
void CWE190_Integer_Overflow__int_connect_socket_multiply_53b_goodB2GSink(int data) { CWE190_Integer_Overflow__int_connect_socket_multiply_53c_goodB2GSink(data); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83053/CWE190_Integer_Overflow__int_connect_socket_multiply_53b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_53b_goodB2GSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_53b_goodB2GSink(undefined4 param_1) { CWE190_Integer_Overflow__int_connect_socket_multiply_53c_goodB2GSink(param_1); return; }
['gcc']
45,219
void CWE190_Integer_Overflow__int_connect_socket_multiply_53c_badSink(int data) { CWE190_Integer_Overflow__int_connect_socket_multiply_53d_badSink(data); }
[]
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83053/CWE190_Integer_Overflow__int_connect_socket_multiply_53c.c
CWE190_Integer_Overflow__int_connect_socket_multiply_53c_badSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_53c_badSink(undefined4 param_1) { CWE190_Integer_Overflow__int_connect_socket_multiply_53d_badSink(param_1); return; }
['gcc']
45,220
void CWE190_Integer_Overflow__int_connect_socket_multiply_53c_goodG2BSink(int data) { CWE190_Integer_Overflow__int_connect_socket_multiply_53d_goodG2BSink(data); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83053/CWE190_Integer_Overflow__int_connect_socket_multiply_53c.c
CWE190_Integer_Overflow__int_connect_socket_multiply_53c_goodG2BSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_53c_goodG2BSink(undefined4 param_1) { CWE190_Integer_Overflow__int_connect_socket_multiply_53d_goodG2BSink(param_1); return; }
['gcc']
45,221
void CWE190_Integer_Overflow__int_connect_socket_multiply_53c_goodB2GSink(int data) { CWE190_Integer_Overflow__int_connect_socket_multiply_53d_goodB2GSink(data); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83053/CWE190_Integer_Overflow__int_connect_socket_multiply_53c.c
CWE190_Integer_Overflow__int_connect_socket_multiply_53c_goodB2GSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_53c_goodB2GSink(undefined4 param_1) { CWE190_Integer_Overflow__int_connect_socket_multiply_53d_goodB2GSink(param_1); return; }
['gcc']
45,222
void CWE190_Integer_Overflow__int_connect_socket_multiply_53d_badSink(int data) { if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
["/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83053/CWE190_Integer_Overflow__int_connect_socket_multiply_53d.c
CWE190_Integer_Overflow__int_connect_socket_multiply_53d_badSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_53d_badSink(int param_1) { if (0 < param_1) { printIntLine(param_1 * 2); } return; }
['gcc']
45,223
void CWE190_Integer_Overflow__int_connect_socket_multiply_53d_goodG2BSink(int data) { if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
["/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83053/CWE190_Integer_Overflow__int_connect_socket_multiply_53d.c
CWE190_Integer_Overflow__int_connect_socket_multiply_53d_goodG2BSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_53d_goodG2BSink(int param_1) { if (0 < param_1) { printIntLine(param_1 * 2); } return; }
['gcc']
45,224
void CWE190_Integer_Overflow__int_connect_socket_multiply_53d_goodB2GSink(int data) { if(data > 0) /* ensure we won't have an underflow */ { /* FIX: Add a check to prevent an overflow from occurring */ if (data < (INT_MAX/2)) { int result = data * 2; printIntLine(result); } else { printLine("data value is too large to perform arithmetic safely."); } } }
["/* ensure we won't have an underflow */", '/* FIX: Add a check to prevent an overflow from occurring */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83053/CWE190_Integer_Overflow__int_connect_socket_multiply_53d.c
CWE190_Integer_Overflow__int_connect_socket_multiply_53d_goodB2GSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_53d_goodB2GSink(int param_1) { if (0 < param_1) { if (param_1 < 0x3fffffff) { printIntLine(param_1 * 2); } else { printLine(&UNK_00401538); } } return; }
['gcc']
45,225
void CWE190_Integer_Overflow__int_connect_socket_multiply_54_bad() { int data; /* Initialize data */ data = 0; { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } CWE190_Integer_Overflow__int_connect_socket_multiply_54b_badSink(data); }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83054/CWE190_Integer_Overflow__int_connect_socket_multiply_54a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_54_bad
void CWE190_Integer_Overflow__int_connect_socket_multiply_54_bad(void) { int iVar1; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; int iStack_14; int iStack_10; undefined4 uStack_c; uStack_c = 0; iStack_10 = 0xffffffff; iStack_10 = func_0x00400cf0(2,1,6); if (iStack_10 != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_004014a4); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_10,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_14 = func_0x00400bc0(iStack_10,auStack_36,0xd,0), iStack_14 != -1) ) && (iStack_14 != 0)) { auStack_36[iStack_14] = 0; uStack_c = func_0x00400cb0(auStack_36); } } if (iStack_10 != -1) { func_0x00400c20(iStack_10); } CWE190_Integer_Overflow__int_connect_socket_multiply_54b_badSink(uStack_c); return; }
['gcc']
45,226
void CWE190_Integer_Overflow__int_connect_socket_multiply_54_good() { goodG2B(); goodB2G(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83054/CWE190_Integer_Overflow__int_connect_socket_multiply_54a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_54_good
void CWE190_Integer_Overflow__int_connect_socket_multiply_54_good(void) { goodG2B(); goodB2G(); return; }
['gcc']
45,227
void CWE190_Integer_Overflow__int_connect_socket_multiply_54b_badSink(int data) { CWE190_Integer_Overflow__int_connect_socket_multiply_54c_badSink(data); }
[]
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83054/CWE190_Integer_Overflow__int_connect_socket_multiply_54b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_54b_badSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_54b_badSink(undefined4 param_1) { CWE190_Integer_Overflow__int_connect_socket_multiply_54c_badSink(param_1); return; }
['gcc']
45,228
void CWE190_Integer_Overflow__int_connect_socket_multiply_54b_goodG2BSink(int data) { CWE190_Integer_Overflow__int_connect_socket_multiply_54c_goodG2BSink(data); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83054/CWE190_Integer_Overflow__int_connect_socket_multiply_54b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_54b_goodG2BSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_54b_goodG2BSink(undefined4 param_1) { CWE190_Integer_Overflow__int_connect_socket_multiply_54c_goodG2BSink(param_1); return; }
['gcc']
45,229
void CWE190_Integer_Overflow__int_connect_socket_multiply_54b_goodB2GSink(int data) { CWE190_Integer_Overflow__int_connect_socket_multiply_54c_goodB2GSink(data); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83054/CWE190_Integer_Overflow__int_connect_socket_multiply_54b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_54b_goodB2GSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_54b_goodB2GSink(undefined4 param_1) { CWE190_Integer_Overflow__int_connect_socket_multiply_54c_goodB2GSink(param_1); return; }
['gcc']
45,230
void CWE190_Integer_Overflow__int_connect_socket_multiply_54c_badSink(int data) { CWE190_Integer_Overflow__int_connect_socket_multiply_54d_badSink(data); }
[]
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83054/CWE190_Integer_Overflow__int_connect_socket_multiply_54c.c
CWE190_Integer_Overflow__int_connect_socket_multiply_54c_badSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_54c_badSink(undefined4 param_1) { CWE190_Integer_Overflow__int_connect_socket_multiply_54d_badSink(param_1); return; }
['gcc']
45,231
void CWE190_Integer_Overflow__int_connect_socket_multiply_54c_goodG2BSink(int data) { CWE190_Integer_Overflow__int_connect_socket_multiply_54d_goodG2BSink(data); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83054/CWE190_Integer_Overflow__int_connect_socket_multiply_54c.c
CWE190_Integer_Overflow__int_connect_socket_multiply_54c_goodG2BSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_54c_goodG2BSink(undefined4 param_1) { CWE190_Integer_Overflow__int_connect_socket_multiply_54d_goodG2BSink(param_1); return; }
['gcc']
45,232
void CWE190_Integer_Overflow__int_connect_socket_multiply_54c_goodB2GSink(int data) { CWE190_Integer_Overflow__int_connect_socket_multiply_54d_goodB2GSink(data); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83054/CWE190_Integer_Overflow__int_connect_socket_multiply_54c.c
CWE190_Integer_Overflow__int_connect_socket_multiply_54c_goodB2GSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_54c_goodB2GSink(undefined4 param_1) { CWE190_Integer_Overflow__int_connect_socket_multiply_54d_goodB2GSink(param_1); return; }
['gcc']
45,233
void CWE190_Integer_Overflow__int_connect_socket_multiply_54d_badSink(int data) { CWE190_Integer_Overflow__int_connect_socket_multiply_54e_badSink(data); }
[]
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83054/CWE190_Integer_Overflow__int_connect_socket_multiply_54d.c
CWE190_Integer_Overflow__int_connect_socket_multiply_54d_badSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_54d_badSink(undefined4 param_1) { CWE190_Integer_Overflow__int_connect_socket_multiply_54e_badSink(param_1); return; }
['gcc']
45,234
void CWE190_Integer_Overflow__int_connect_socket_multiply_54d_goodG2BSink(int data) { CWE190_Integer_Overflow__int_connect_socket_multiply_54e_goodG2BSink(data); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83054/CWE190_Integer_Overflow__int_connect_socket_multiply_54d.c
CWE190_Integer_Overflow__int_connect_socket_multiply_54d_goodG2BSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_54d_goodG2BSink(undefined4 param_1) { CWE190_Integer_Overflow__int_connect_socket_multiply_54e_goodG2BSink(param_1); return; }
['gcc']
45,235
void CWE190_Integer_Overflow__int_connect_socket_multiply_54d_goodB2GSink(int data) { CWE190_Integer_Overflow__int_connect_socket_multiply_54e_goodB2GSink(data); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83054/CWE190_Integer_Overflow__int_connect_socket_multiply_54d.c
CWE190_Integer_Overflow__int_connect_socket_multiply_54d_goodB2GSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_54d_goodB2GSink(undefined4 param_1) { CWE190_Integer_Overflow__int_connect_socket_multiply_54e_goodB2GSink(param_1); return; }
['gcc']
45,236
void CWE190_Integer_Overflow__int_connect_socket_multiply_54e_badSink(int data) { if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
["/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83054/CWE190_Integer_Overflow__int_connect_socket_multiply_54e.c
CWE190_Integer_Overflow__int_connect_socket_multiply_54e_badSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_54e_badSink(int param_1) { if (0 < param_1) { printIntLine(param_1 * 2); } return; }
['gcc']
45,237
void CWE190_Integer_Overflow__int_connect_socket_multiply_54e_goodG2BSink(int data) { if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
["/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83054/CWE190_Integer_Overflow__int_connect_socket_multiply_54e.c
CWE190_Integer_Overflow__int_connect_socket_multiply_54e_goodG2BSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_54e_goodG2BSink(int param_1) { if (0 < param_1) { printIntLine(param_1 * 2); } return; }
['gcc']
45,238
void CWE190_Integer_Overflow__int_connect_socket_multiply_54e_goodB2GSink(int data) { if(data > 0) /* ensure we won't have an underflow */ { /* FIX: Add a check to prevent an overflow from occurring */ if (data < (INT_MAX/2)) { int result = data * 2; printIntLine(result); } else { printLine("data value is too large to perform arithmetic safely."); } } }
["/* ensure we won't have an underflow */", '/* FIX: Add a check to prevent an overflow from occurring */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83054/CWE190_Integer_Overflow__int_connect_socket_multiply_54e.c
CWE190_Integer_Overflow__int_connect_socket_multiply_54e_goodB2GSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_54e_goodB2GSink(int param_1) { if (0 < param_1) { if (param_1 < 0x3fffffff) { printIntLine(param_1 * 2); } else { printLine(&UNK_00401568); } } return; }
['gcc']
45,239
void CWE190_Integer_Overflow__int_connect_socket_multiply_61_bad() { int data; /* Initialize data */ data = 0; data = CWE190_Integer_Overflow__int_connect_socket_multiply_61b_badSource(data); if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
['/* Initialize data */', "/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83055/CWE190_Integer_Overflow__int_connect_socket_multiply_61a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_61_bad
void CWE190_Integer_Overflow__int_connect_socket_multiply_61_bad(void) { int iVar1; iVar1 = CWE190_Integer_Overflow__int_connect_socket_multiply_61b_badSource(0); if (0 < iVar1) { printIntLine(iVar1 * 2); } return; }
['gcc']
45,240
void CWE190_Integer_Overflow__int_connect_socket_multiply_61_good() { goodG2B(); goodB2G(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83055/CWE190_Integer_Overflow__int_connect_socket_multiply_61a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_61_good
void CWE190_Integer_Overflow__int_connect_socket_multiply_61_good(void) { goodG2B(); goodB2G(); return; }
['gcc']
45,241
int CWE190_Integer_Overflow__int_connect_socket_multiply_61b_badSource(int data) { { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } return data; }
['/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83055/CWE190_Integer_Overflow__int_connect_socket_multiply_61b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_61b_badSource
undefined4 CWE190_Integer_Overflow__int_connect_socket_multiply_61b_badSource(undefined4 param_1) { int iVar1; undefined4 uStack_3c; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; int iStack_10; int iStack_c; iStack_c = 0xffffffff; iStack_c = func_0x00400cf0(2,1,6); uStack_3c = param_1; if (iStack_c != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_00401464); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_c,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_10 = func_0x00400bc0(iStack_c,auStack_36,0xd,0), iStack_10 != -1)) && (iStack_10 != 0)) { auStack_36[iStack_10] = 0; uStack_3c = func_0x00400cb0(auStack_36); } } if (iStack_c != -1) { func_0x00400c20(iStack_c); } return uStack_3c; }
['gcc']
45,242
int CWE190_Integer_Overflow__int_connect_socket_multiply_61b_goodG2BSource(int data) { /* FIX: Use a small, non-zero value that will not cause an integer overflow in the sinks */ data = 2; return data; }
['/* FIX: Use a small, non-zero value that will not cause an integer overflow in the sinks */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83055/CWE190_Integer_Overflow__int_connect_socket_multiply_61b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_61b_goodG2BSource
undefined4 CWE190_Integer_Overflow__int_connect_socket_multiply_61b_goodG2BSource(void) { return 2; }
['gcc']
45,243
int CWE190_Integer_Overflow__int_connect_socket_multiply_61b_goodB2GSource(int data) { { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } return data; }
['/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83055/CWE190_Integer_Overflow__int_connect_socket_multiply_61b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_61b_goodB2GSource
undefined4 CWE190_Integer_Overflow__int_connect_socket_multiply_61b_goodB2GSource(undefined4 param_1) { int iVar1; undefined4 uStack_3c; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; int iStack_10; int iStack_c; iStack_c = 0xffffffff; iStack_c = func_0x00400cf0(2,1,6); uStack_3c = param_1; if (iStack_c != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_004014e4); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_c,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_10 = func_0x00400bc0(iStack_c,auStack_36,0xd,0), iStack_10 != -1)) && (iStack_10 != 0)) { auStack_36[iStack_10] = 0; uStack_3c = func_0x00400cb0(auStack_36); } } if (iStack_c != -1) { func_0x00400c20(iStack_c); } return uStack_3c; }
['gcc']
45,244
void CWE190_Integer_Overflow__int_connect_socket_multiply_63_bad() { int data; /* Initialize data */ data = 0; { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } CWE190_Integer_Overflow__int_connect_socket_multiply_63b_badSink(&data); }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83057/CWE190_Integer_Overflow__int_connect_socket_multiply_63a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_63_bad
void CWE190_Integer_Overflow__int_connect_socket_multiply_63_bad(void) { int iVar1; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; undefined4 uStack_14; int iStack_10; int iStack_c; uStack_14 = 0; iStack_c = 0xffffffff; iStack_c = func_0x00400cf0(2,1,6); if (iStack_c != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_00401474); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_c,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_10 = func_0x00400bc0(iStack_c,auStack_36,0xd,0), iStack_10 != -1)) && (iStack_10 != 0)) { auStack_36[iStack_10] = 0; uStack_14 = func_0x00400cb0(auStack_36); } } if (iStack_c != -1) { func_0x00400c20(iStack_c); } CWE190_Integer_Overflow__int_connect_socket_multiply_63b_badSink(&uStack_14); return; }
['gcc']
45,245
void CWE190_Integer_Overflow__int_connect_socket_multiply_63_good() { goodG2B(); goodB2G(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83057/CWE190_Integer_Overflow__int_connect_socket_multiply_63a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_63_good
void CWE190_Integer_Overflow__int_connect_socket_multiply_63_good(void) { goodG2B(); goodB2G(); return; }
['gcc']
45,246
void CWE190_Integer_Overflow__int_connect_socket_multiply_63b_badSink(int * dataPtr) { int data = *dataPtr; if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
["/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83057/CWE190_Integer_Overflow__int_connect_socket_multiply_63b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_63b_badSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_63b_badSink(int *param_1) { if (0 < *param_1) { printIntLine(*param_1 * 2); } return; }
['gcc']
45,247
void CWE190_Integer_Overflow__int_connect_socket_multiply_63b_goodG2BSink(int * dataPtr) { int data = *dataPtr; if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
["/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83057/CWE190_Integer_Overflow__int_connect_socket_multiply_63b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_63b_goodG2BSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_63b_goodG2BSink(int *param_1) { if (0 < *param_1) { printIntLine(*param_1 * 2); } return; }
['gcc']
45,248
void CWE190_Integer_Overflow__int_connect_socket_multiply_63b_goodB2GSink(int * dataPtr) { int data = *dataPtr; if(data > 0) /* ensure we won't have an underflow */ { /* FIX: Add a check to prevent an overflow from occurring */ if (data < (INT_MAX/2)) { int result = data * 2; printIntLine(result); } else { printLine("data value is too large to perform arithmetic safely."); } } }
["/* ensure we won't have an underflow */", '/* FIX: Add a check to prevent an overflow from occurring */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83057/CWE190_Integer_Overflow__int_connect_socket_multiply_63b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_63b_goodB2GSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_63b_goodB2GSink(int *param_1) { int iVar1; iVar1 = *param_1; if (0 < iVar1) { if (iVar1 < 0x3fffffff) { printIntLine(iVar1 * 2); } else { printLine(&UNK_004014f8); } } return; }
['gcc']
45,249
void CWE190_Integer_Overflow__int_connect_socket_multiply_64_bad() { int data; /* Initialize data */ data = 0; { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } CWE190_Integer_Overflow__int_connect_socket_multiply_64b_badSink(&data); }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83058/CWE190_Integer_Overflow__int_connect_socket_multiply_64a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_64_bad
void CWE190_Integer_Overflow__int_connect_socket_multiply_64_bad(void) { int iVar1; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; undefined4 uStack_14; int iStack_10; int iStack_c; uStack_14 = 0; iStack_c = 0xffffffff; iStack_c = func_0x00400cf0(2,1,6); if (iStack_c != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_00401474); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_c,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_10 = func_0x00400bc0(iStack_c,auStack_36,0xd,0), iStack_10 != -1)) && (iStack_10 != 0)) { auStack_36[iStack_10] = 0; uStack_14 = func_0x00400cb0(auStack_36); } } if (iStack_c != -1) { func_0x00400c20(iStack_c); } CWE190_Integer_Overflow__int_connect_socket_multiply_64b_badSink(&uStack_14); return; }
['gcc']
45,250
void CWE190_Integer_Overflow__int_connect_socket_multiply_64_good() { goodG2B(); goodB2G(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83058/CWE190_Integer_Overflow__int_connect_socket_multiply_64a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_64_good
void CWE190_Integer_Overflow__int_connect_socket_multiply_64_good(void) { goodG2B(); goodB2G(); return; }
['gcc']
45,251
void CWE190_Integer_Overflow__int_connect_socket_multiply_64b_badSink(void * dataVoidPtr) { /* cast void pointer to a pointer of the appropriate type */ int * dataPtr = (int *)dataVoidPtr; /* dereference dataPtr into data */ int data = (*dataPtr); if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
['/* cast void pointer to a pointer of the appropriate type */', '/* dereference dataPtr into data */', "/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83058/CWE190_Integer_Overflow__int_connect_socket_multiply_64b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_64b_badSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_64b_badSink(int *param_1) { if (0 < *param_1) { printIntLine(*param_1 * 2); } return; }
['gcc']
45,252
void CWE190_Integer_Overflow__int_connect_socket_multiply_64b_goodG2BSink(void * dataVoidPtr) { /* cast void pointer to a pointer of the appropriate type */ int * dataPtr = (int *)dataVoidPtr; /* dereference dataPtr into data */ int data = (*dataPtr); if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
['/* cast void pointer to a pointer of the appropriate type */', '/* dereference dataPtr into data */', "/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83058/CWE190_Integer_Overflow__int_connect_socket_multiply_64b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_64b_goodG2BSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_64b_goodG2BSink(int *param_1) { if (0 < *param_1) { printIntLine(*param_1 * 2); } return; }
['gcc']
45,253
void CWE190_Integer_Overflow__int_connect_socket_multiply_64b_goodB2GSink(void * dataVoidPtr) { /* cast void pointer to a pointer of the appropriate type */ int * dataPtr = (int *)dataVoidPtr; /* dereference dataPtr into data */ int data = (*dataPtr); if(data > 0) /* ensure we won't have an underflow */ { /* FIX: Add a check to prevent an overflow from occurring */ if (data < (INT_MAX/2)) { int result = data * 2; printIntLine(result); } else { printLine("data value is too large to perform arithmetic safely."); } } }
['/* cast void pointer to a pointer of the appropriate type */', '/* dereference dataPtr into data */', "/* ensure we won't have an underflow */", '/* FIX: Add a check to prevent an overflow from occurring */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83058/CWE190_Integer_Overflow__int_connect_socket_multiply_64b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_64b_goodB2GSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_64b_goodB2GSink(int *param_1) { int iVar1; iVar1 = *param_1; if (0 < iVar1) { if (iVar1 < 0x3fffffff) { printIntLine(iVar1 * 2); } else { printLine(&UNK_00401508); } } return; }
['gcc']
45,254
void CWE190_Integer_Overflow__int_connect_socket_multiply_65_bad() { int data; /* define a function pointer */ void (*funcPtr) (int) = CWE190_Integer_Overflow__int_connect_socket_multiply_65b_badSink; /* Initialize data */ data = 0; { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } /* use the function pointer */ funcPtr(data); }
['/* define a function pointer */', '/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */', '/* use the function pointer */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83059/CWE190_Integer_Overflow__int_connect_socket_multiply_65a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_65_bad
void CWE190_Integer_Overflow__int_connect_socket_multiply_65_bad(void) { int iVar1; undefined auStack_46 [14]; undefined2 uStack_38; undefined2 uStack_36; undefined4 uStack_34; int iStack_20; int iStack_1c; code *pcStack_18; undefined4 uStack_c; pcStack_18 = CWE190_Integer_Overflow__int_connect_socket_multiply_65b_badSink; uStack_c = 0; iStack_1c = 0xffffffff; iStack_1c = func_0x00400cf0(2,1,6); if (iStack_1c != -1) { func_0x00400c10(&uStack_38,0,0x10); uStack_38 = 2; uStack_34 = func_0x00400c60(&UNK_00401464); uStack_36 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_1c,&uStack_38,0x10); if (((iVar1 != -1) && (iStack_20 = func_0x00400bc0(iStack_1c,auStack_46,0xd,0), iStack_20 != -1) ) && (iStack_20 != 0)) { auStack_46[iStack_20] = 0; uStack_c = func_0x00400cb0(auStack_46); } } if (iStack_1c != -1) { func_0x00400c20(iStack_1c); } (*pcStack_18)(uStack_c); return; }
['gcc']
45,255
void CWE190_Integer_Overflow__int_connect_socket_multiply_65_good() { goodG2B(); goodB2G(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83059/CWE190_Integer_Overflow__int_connect_socket_multiply_65a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_65_good
void CWE190_Integer_Overflow__int_connect_socket_multiply_65_good(void) { goodG2B(); goodB2G(); return; }
['gcc']
45,256
void CWE190_Integer_Overflow__int_connect_socket_multiply_65b_badSink(int data) { if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
["/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83059/CWE190_Integer_Overflow__int_connect_socket_multiply_65b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_65b_badSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_65b_badSink(int param_1) { if (0 < param_1) { printIntLine(param_1 * 2); } return; }
['gcc']
45,257
void CWE190_Integer_Overflow__int_connect_socket_multiply_65b_goodG2BSink(int data) { if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
["/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83059/CWE190_Integer_Overflow__int_connect_socket_multiply_65b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_65b_goodG2BSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_65b_goodG2BSink(int param_1) { if (0 < param_1) { printIntLine(param_1 * 2); } return; }
['gcc']
45,258
void CWE190_Integer_Overflow__int_connect_socket_multiply_65b_goodB2GSink(int data) { if(data > 0) /* ensure we won't have an underflow */ { /* FIX: Add a check to prevent an overflow from occurring */ if (data < (INT_MAX/2)) { int result = data * 2; printIntLine(result); } else { printLine("data value is too large to perform arithmetic safely."); } } }
["/* ensure we won't have an underflow */", '/* FIX: Add a check to prevent an overflow from occurring */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83059/CWE190_Integer_Overflow__int_connect_socket_multiply_65b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_65b_goodB2GSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_65b_goodB2GSink(int param_1) { if (0 < param_1) { if (param_1 < 0x3fffffff) { printIntLine(param_1 * 2); } else { printLine(&UNK_004014f8); } } return; }
['gcc']
45,259
void CWE190_Integer_Overflow__int_connect_socket_multiply_66_bad() { int data; int dataArray[5]; /* Initialize data */ data = 0; { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } /* put data in array */ dataArray[2] = data; CWE190_Integer_Overflow__int_connect_socket_multiply_66b_badSink(dataArray); }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */', '/* put data in array */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83060/CWE190_Integer_Overflow__int_connect_socket_multiply_66a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_66_bad
void CWE190_Integer_Overflow__int_connect_socket_multiply_66_bad(void) { int iVar1; undefined auStack_46 [14]; undefined2 uStack_38; undefined2 uStack_36; undefined4 uStack_34; undefined auStack_28 [8]; undefined4 uStack_20; int iStack_14; int iStack_10; undefined4 uStack_c; uStack_c = 0; iStack_10 = 0xffffffff; iStack_10 = func_0x00400cf0(2,1,6); if (iStack_10 != -1) { func_0x00400c10(&uStack_38,0,0x10); uStack_38 = 2; uStack_34 = func_0x00400c60(&UNK_00401474); uStack_36 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_10,&uStack_38,0x10); if (((iVar1 != -1) && (iStack_14 = func_0x00400bc0(iStack_10,auStack_46,0xd,0), iStack_14 != -1) ) && (iStack_14 != 0)) { auStack_46[iStack_14] = 0; uStack_c = func_0x00400cb0(auStack_46); } } if (iStack_10 != -1) { func_0x00400c20(iStack_10); } uStack_20 = uStack_c; CWE190_Integer_Overflow__int_connect_socket_multiply_66b_badSink(auStack_28); return; }
['gcc']
45,260
void CWE190_Integer_Overflow__int_connect_socket_multiply_66_good() { goodG2B(); goodB2G(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83060/CWE190_Integer_Overflow__int_connect_socket_multiply_66a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_66_good
void CWE190_Integer_Overflow__int_connect_socket_multiply_66_good(void) { goodG2B(); goodB2G(); return; }
['gcc']
45,261
void CWE190_Integer_Overflow__int_connect_socket_multiply_66b_badSink(int dataArray[]) { /* copy data out of dataArray */ int data = dataArray[2]; if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
['/* copy data out of dataArray */', "/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83060/CWE190_Integer_Overflow__int_connect_socket_multiply_66b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_66b_badSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_66b_badSink(long param_1) { if (0 < *(int *)(param_1 + 8)) { printIntLine(*(int *)(param_1 + 8) * 2); } return; }
['gcc']
45,262
void CWE190_Integer_Overflow__int_connect_socket_multiply_66b_goodG2BSink(int dataArray[]) { int data = dataArray[2]; if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
["/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83060/CWE190_Integer_Overflow__int_connect_socket_multiply_66b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_66b_goodG2BSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_66b_goodG2BSink(long param_1) { if (0 < *(int *)(param_1 + 8)) { printIntLine(*(int *)(param_1 + 8) * 2); } return; }
['gcc']
45,263
void CWE190_Integer_Overflow__int_connect_socket_multiply_66b_goodB2GSink(int dataArray[]) { int data = dataArray[2]; if(data > 0) /* ensure we won't have an underflow */ { /* FIX: Add a check to prevent an overflow from occurring */ if (data < (INT_MAX/2)) { int result = data * 2; printIntLine(result); } else { printLine("data value is too large to perform arithmetic safely."); } } }
["/* ensure we won't have an underflow */", '/* FIX: Add a check to prevent an overflow from occurring */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83060/CWE190_Integer_Overflow__int_connect_socket_multiply_66b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_66b_goodB2GSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_66b_goodB2GSink(long param_1) { int iVar1; iVar1 = *(int *)(param_1 + 8); if (0 < iVar1) { if (iVar1 < 0x3fffffff) { printIntLine(iVar1 * 2); } else { printLine(&UNK_00401508); } } return; }
['gcc']
45,264
void CWE190_Integer_Overflow__int_connect_socket_multiply_67_bad() { int data; CWE190_Integer_Overflow__int_connect_socket_multiply_67_structType myStruct; /* Initialize data */ data = 0; { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } myStruct.structFirst = data; CWE190_Integer_Overflow__int_connect_socket_multiply_67b_badSink(myStruct); }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83061/CWE190_Integer_Overflow__int_connect_socket_multiply_67a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_67_bad
void CWE190_Integer_Overflow__int_connect_socket_multiply_67_bad(void) { int iVar1; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; undefined4 uStack_18; int iStack_14; int iStack_10; undefined4 uStack_c; uStack_c = 0; iStack_10 = 0xffffffff; iStack_10 = func_0x00400cf0(2,1,6); if (iStack_10 != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_00401474); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_10,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_14 = func_0x00400bc0(iStack_10,auStack_36,0xd,0), iStack_14 != -1) ) && (iStack_14 != 0)) { auStack_36[iStack_14] = 0; uStack_c = func_0x00400cb0(auStack_36); } } if (iStack_10 != -1) { func_0x00400c20(iStack_10); } uStack_18 = uStack_c; CWE190_Integer_Overflow__int_connect_socket_multiply_67b_badSink(uStack_c); return; }
['gcc']
45,265
void CWE190_Integer_Overflow__int_connect_socket_multiply_67_good() { goodG2B(); goodB2G(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83061/CWE190_Integer_Overflow__int_connect_socket_multiply_67a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_67_good
void CWE190_Integer_Overflow__int_connect_socket_multiply_67_good(void) { goodG2B(); goodB2G(); return; }
['gcc']
45,266
void CWE190_Integer_Overflow__int_connect_socket_multiply_67b_badSink(CWE190_Integer_Overflow__int_connect_socket_multiply_67_structType myStruct) { int data = myStruct.structFirst; if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
["/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83061/CWE190_Integer_Overflow__int_connect_socket_multiply_67b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_67b_badSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_67b_badSink(int param_1) { if (0 < param_1) { printIntLine(param_1 * 2); } return; }
['gcc']
45,267
void CWE190_Integer_Overflow__int_connect_socket_multiply_67b_goodG2BSink(CWE190_Integer_Overflow__int_connect_socket_multiply_67_structType myStruct) { int data = myStruct.structFirst; if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
["/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83061/CWE190_Integer_Overflow__int_connect_socket_multiply_67b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_67b_goodG2BSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_67b_goodG2BSink(int param_1) { if (0 < param_1) { printIntLine(param_1 * 2); } return; }
['gcc']
45,268
void CWE190_Integer_Overflow__int_connect_socket_multiply_67b_goodB2GSink(CWE190_Integer_Overflow__int_connect_socket_multiply_67_structType myStruct) { int data = myStruct.structFirst; if(data > 0) /* ensure we won't have an underflow */ { /* FIX: Add a check to prevent an overflow from occurring */ if (data < (INT_MAX/2)) { int result = data * 2; printIntLine(result); } else { printLine("data value is too large to perform arithmetic safely."); } } }
["/* ensure we won't have an underflow */", '/* FIX: Add a check to prevent an overflow from occurring */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83061/CWE190_Integer_Overflow__int_connect_socket_multiply_67b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_67b_goodB2GSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_67b_goodB2GSink(int param_1) { if (0 < param_1) { if (param_1 < 0x3fffffff) { printIntLine(param_1 * 2); } else { printLine(&UNK_004014f8); } } return; }
['gcc']
45,269
void CWE190_Integer_Overflow__int_connect_socket_multiply_68_bad() { int data; /* Initialize data */ data = 0; { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } CWE190_Integer_Overflow__int_connect_socket_multiply_68_badData = data; CWE190_Integer_Overflow__int_connect_socket_multiply_68b_badSink(); }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83062/CWE190_Integer_Overflow__int_connect_socket_multiply_68a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_68_bad
void CWE190_Integer_Overflow__int_connect_socket_multiply_68_bad(void) { int iVar1; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; int iStack_14; int iStack_10; undefined4 uStack_c; uStack_c = 0; iStack_10 = 0xffffffff; iStack_10 = func_0x00400cf0(2,1,6); if (iStack_10 != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_00401474); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_10,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_14 = func_0x00400bc0(iStack_10,auStack_36,0xd,0), iStack_14 != -1) ) && (iStack_14 != 0)) { auStack_36[iStack_14] = 0; uStack_c = func_0x00400cb0(auStack_36); } } if (iStack_10 != -1) { func_0x00400c20(iStack_10); } CWE190_Integer_Overflow__int_connect_socket_multiply_68_badData = uStack_c; CWE190_Integer_Overflow__int_connect_socket_multiply_68b_badSink(); return; }
['gcc']
45,270
void CWE190_Integer_Overflow__int_connect_socket_multiply_68_good() { goodG2B(); goodB2G(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83062/CWE190_Integer_Overflow__int_connect_socket_multiply_68a.c
CWE190_Integer_Overflow__int_connect_socket_multiply_68_good
void CWE190_Integer_Overflow__int_connect_socket_multiply_68_good(void) { goodG2B(); goodB2G(); return; }
['gcc']
45,271
void CWE190_Integer_Overflow__int_connect_socket_multiply_68b_badSink() { int data = CWE190_Integer_Overflow__int_connect_socket_multiply_68_badData; if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
["/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83062/CWE190_Integer_Overflow__int_connect_socket_multiply_68b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_68b_badSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_68b_badSink(void) { if (0 < CWE190_Integer_Overflow__int_connect_socket_multiply_68_badData) { printIntLine(CWE190_Integer_Overflow__int_connect_socket_multiply_68_badData * 2); } return; }
['gcc']
45,272
void CWE190_Integer_Overflow__int_connect_socket_multiply_68b_goodG2BSink() { int data = CWE190_Integer_Overflow__int_connect_socket_multiply_68_goodG2BData; if(data > 0) /* ensure we won't have an underflow */ { /* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */ int result = data * 2; printIntLine(result); } }
["/* ensure we won't have an underflow */", '/* POTENTIAL FLAW: if (data*2) > INT_MAX, this will overflow */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83062/CWE190_Integer_Overflow__int_connect_socket_multiply_68b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_68b_goodG2BSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_68b_goodG2BSink(void) { if (0 < CWE190_Integer_Overflow__int_connect_socket_multiply_68_goodG2BData) { printIntLine(CWE190_Integer_Overflow__int_connect_socket_multiply_68_goodG2BData * 2); } return; }
['gcc']
45,273
void CWE190_Integer_Overflow__int_connect_socket_multiply_68b_goodB2GSink() { int data = CWE190_Integer_Overflow__int_connect_socket_multiply_68_goodB2GData; if(data > 0) /* ensure we won't have an underflow */ { /* FIX: Add a check to prevent an overflow from occurring */ if (data < (INT_MAX/2)) { int result = data * 2; printIntLine(result); } else { printLine("data value is too large to perform arithmetic safely."); } } }
["/* ensure we won't have an underflow */", '/* FIX: Add a check to prevent an overflow from occurring */']
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83062/CWE190_Integer_Overflow__int_connect_socket_multiply_68b.c
CWE190_Integer_Overflow__int_connect_socket_multiply_68b_goodB2GSink
void CWE190_Integer_Overflow__int_connect_socket_multiply_68b_goodB2GSink(void) { if (0 < CWE190_Integer_Overflow__int_connect_socket_multiply_68_goodB2GData) { if (CWE190_Integer_Overflow__int_connect_socket_multiply_68_goodB2GData < 0x3fffffff) { printIntLine(CWE190_Integer_Overflow__int_connect_socket_multiply_68_goodB2GData * 2); } else { printLine(&UNK_004014f8); } } return; }
['gcc']
45,274
void CWE190_Integer_Overflow__int_connect_socket_square_01_bad() { int data; /* Initialize data */ data = 0; { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } { /* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */ int result = data * data; printIntLine(result); } }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */', '/* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83070/CWE190_Integer_Overflow__int_connect_socket_square_01.c
CWE190_Integer_Overflow__int_connect_socket_square_01_bad
void CWE190_Integer_Overflow__int_connect_socket_square_01_bad(void) { int iVar1; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; int iStack_18; int iStack_14; int iStack_10; int iStack_c; iStack_c = 0; iStack_10 = 0xffffffff; iStack_10 = func_0x00400cf0(2,1,6); if (iStack_10 != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_00401444); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_10,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_14 = func_0x00400bc0(iStack_10,auStack_36,0xd,0), iStack_14 != -1) ) && (iStack_14 != 0)) { auStack_36[iStack_14] = 0; iStack_c = func_0x00400cb0(auStack_36); } } if (iStack_10 != -1) { func_0x00400c20(iStack_10); } iStack_18 = iStack_c * iStack_c; printIntLine(iStack_18); return; }
['gcc']
45,275
void CWE190_Integer_Overflow__int_connect_socket_square_01_good() { goodG2B(); goodB2G(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83070/CWE190_Integer_Overflow__int_connect_socket_square_01.c
CWE190_Integer_Overflow__int_connect_socket_square_01_good
void CWE190_Integer_Overflow__int_connect_socket_square_01_good(void) { goodG2B(); goodB2G(); return; }
['gcc']
45,276
void CWE190_Integer_Overflow__int_connect_socket_square_02_bad() { int data; /* Initialize data */ data = 0; if(1) { { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } } if(1) { { /* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */ int result = data * data; printIntLine(result); } } }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */', '/* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83071/CWE190_Integer_Overflow__int_connect_socket_square_02.c
CWE190_Integer_Overflow__int_connect_socket_square_02_bad
void CWE190_Integer_Overflow__int_connect_socket_square_02_bad(void) { int iVar1; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; int iStack_18; int iStack_14; int iStack_10; int iStack_c; iStack_c = 0; iStack_10 = 0xffffffff; iStack_10 = func_0x00400cf0(2,1,6); if (iStack_10 != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_00401444); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_10,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_14 = func_0x00400bc0(iStack_10,auStack_36,0xd,0), iStack_14 != -1) ) && (iStack_14 != 0)) { auStack_36[iStack_14] = 0; iStack_c = func_0x00400cb0(auStack_36); } } if (iStack_10 != -1) { func_0x00400c20(iStack_10); } iStack_18 = iStack_c * iStack_c; printIntLine(iStack_18); return; }
['gcc']
45,277
void CWE190_Integer_Overflow__int_connect_socket_square_02_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83071/CWE190_Integer_Overflow__int_connect_socket_square_02.c
CWE190_Integer_Overflow__int_connect_socket_square_02_good
void CWE190_Integer_Overflow__int_connect_socket_square_02_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }
['gcc']
45,278
void CWE190_Integer_Overflow__int_connect_socket_square_03_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83072/CWE190_Integer_Overflow__int_connect_socket_square_03.c
CWE190_Integer_Overflow__int_connect_socket_square_03_good
void CWE190_Integer_Overflow__int_connect_socket_square_03_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }
['gcc']
45,279
void CWE190_Integer_Overflow__int_connect_socket_square_04_bad() { int data; /* Initialize data */ data = 0; if(STATIC_CONST_TRUE) { { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } } if(STATIC_CONST_TRUE) { { /* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */ int result = data * data; printIntLine(result); } } }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */', '/* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83073/CWE190_Integer_Overflow__int_connect_socket_square_04.c
CWE190_Integer_Overflow__int_connect_socket_square_04_bad
void CWE190_Integer_Overflow__int_connect_socket_square_04_bad(void) { int iVar1; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; int iStack_18; int iStack_14; int iStack_10; int iStack_c; iStack_c = 0; iStack_10 = 0xffffffff; iStack_10 = func_0x00400cf0(2,1,6); if (iStack_10 != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_0040145c); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_10,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_14 = func_0x00400bc0(iStack_10,auStack_36,0xd,0), iStack_14 != -1) ) && (iStack_14 != 0)) { auStack_36[iStack_14] = 0; iStack_c = func_0x00400cb0(auStack_36); } } if (iStack_10 != -1) { func_0x00400c20(iStack_10); } iStack_18 = iStack_c * iStack_c; printIntLine(iStack_18); return; }
['gcc']
45,280
void CWE190_Integer_Overflow__int_connect_socket_square_04_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83073/CWE190_Integer_Overflow__int_connect_socket_square_04.c
CWE190_Integer_Overflow__int_connect_socket_square_04_good
void CWE190_Integer_Overflow__int_connect_socket_square_04_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }
['gcc']
45,281
void CWE190_Integer_Overflow__int_connect_socket_square_05_bad() { int data; /* Initialize data */ data = 0; if(staticTrue) { { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } } if(staticTrue) { { /* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */ int result = data * data; printIntLine(result); } } }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */', '/* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83074/CWE190_Integer_Overflow__int_connect_socket_square_05.c
CWE190_Integer_Overflow__int_connect_socket_square_05_bad
void CWE190_Integer_Overflow__int_connect_socket_square_05_bad(void) { int iVar1; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; int iStack_18; int iStack_14; int iStack_10; int iStack_c; iStack_c = 0; if (staticTrue != 0) { iStack_10 = 0xffffffff; iStack_10 = func_0x00400cf0(2,1,6); if (iStack_10 != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_00401464); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_10,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_14 = func_0x00400bc0(iStack_10,auStack_36,0xd,0), iStack_14 != -1)) && (iStack_14 != 0)) { auStack_36[iStack_14] = 0; iStack_c = func_0x00400cb0(auStack_36); } } if (iStack_10 != -1) { func_0x00400c20(iStack_10); } } if (staticTrue != 0) { iStack_18 = iStack_c * iStack_c; printIntLine(iStack_18); } return; }
['gcc']
45,282
void CWE190_Integer_Overflow__int_connect_socket_square_05_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83074/CWE190_Integer_Overflow__int_connect_socket_square_05.c
CWE190_Integer_Overflow__int_connect_socket_square_05_good
void CWE190_Integer_Overflow__int_connect_socket_square_05_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }
['gcc']
45,283
void CWE190_Integer_Overflow__int_connect_socket_square_06_bad() { int data; /* Initialize data */ data = 0; if(STATIC_CONST_FIVE==5) { { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } } if(STATIC_CONST_FIVE==5) { { /* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */ int result = data * data; printIntLine(result); } } }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */', '/* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83075/CWE190_Integer_Overflow__int_connect_socket_square_06.c
CWE190_Integer_Overflow__int_connect_socket_square_06_bad
void CWE190_Integer_Overflow__int_connect_socket_square_06_bad(void) { int iVar1; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; int iStack_18; int iStack_14; int iStack_10; int iStack_c; iStack_c = 0; iStack_10 = 0xffffffff; iStack_10 = func_0x00400cf0(2,1,6); if (iStack_10 != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_00401468); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_10,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_14 = func_0x00400bc0(iStack_10,auStack_36,0xd,0), iStack_14 != -1) ) && (iStack_14 != 0)) { auStack_36[iStack_14] = 0; iStack_c = func_0x00400cb0(auStack_36); } } if (iStack_10 != -1) { func_0x00400c20(iStack_10); } iStack_18 = iStack_c * iStack_c; printIntLine(iStack_18); return; }
['gcc']
45,284
void CWE190_Integer_Overflow__int_connect_socket_square_06_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83075/CWE190_Integer_Overflow__int_connect_socket_square_06.c
CWE190_Integer_Overflow__int_connect_socket_square_06_good
void CWE190_Integer_Overflow__int_connect_socket_square_06_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }
['gcc']
45,285
void CWE190_Integer_Overflow__int_connect_socket_square_07_bad() { int data; /* Initialize data */ data = 0; if(staticFive==5) { { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } } if(staticFive==5) { { /* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */ int result = data * data; printIntLine(result); } } }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */', '/* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83076/CWE190_Integer_Overflow__int_connect_socket_square_07.c
CWE190_Integer_Overflow__int_connect_socket_square_07_bad
void CWE190_Integer_Overflow__int_connect_socket_square_07_bad(void) { int iVar1; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; int iStack_18; int iStack_14; int iStack_10; int iStack_c; iStack_c = 0; if (staticFive == 5) { iStack_10 = 0xffffffff; iStack_10 = func_0x00400cf0(2,1,6); if (iStack_10 != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_00401464); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_10,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_14 = func_0x00400bc0(iStack_10,auStack_36,0xd,0), iStack_14 != -1)) && (iStack_14 != 0)) { auStack_36[iStack_14] = 0; iStack_c = func_0x00400cb0(auStack_36); } } if (iStack_10 != -1) { func_0x00400c20(iStack_10); } } if (staticFive == 5) { iStack_18 = iStack_c * iStack_c; printIntLine(iStack_18); } return; }
['gcc']
45,286
void CWE190_Integer_Overflow__int_connect_socket_square_07_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83076/CWE190_Integer_Overflow__int_connect_socket_square_07.c
CWE190_Integer_Overflow__int_connect_socket_square_07_good
void CWE190_Integer_Overflow__int_connect_socket_square_07_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }
['gcc']
45,287
void CWE190_Integer_Overflow__int_connect_socket_square_08_bad() { int data; /* Initialize data */ data = 0; if(staticReturnsTrue()) { { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } } if(staticReturnsTrue()) { { /* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */ int result = data * data; printIntLine(result); } } }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */', '/* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83077/CWE190_Integer_Overflow__int_connect_socket_square_08.c
CWE190_Integer_Overflow__int_connect_socket_square_08_bad
void CWE190_Integer_Overflow__int_connect_socket_square_08_bad(void) { int iVar1; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; int iStack_18; int iStack_14; int iStack_10; int iStack_c; iStack_c = 0; iVar1 = staticReturnsTrue(); if (iVar1 != 0) { iStack_10 = 0xffffffff; iStack_10 = func_0x00400cf0(2,1,6); if (iStack_10 != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_00401474); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_10,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_14 = func_0x00400bc0(iStack_10,auStack_36,0xd,0), iStack_14 != -1)) && (iStack_14 != 0)) { auStack_36[iStack_14] = 0; iStack_c = func_0x00400cb0(auStack_36); } } if (iStack_10 != -1) { func_0x00400c20(iStack_10); } } iVar1 = staticReturnsTrue(); if (iVar1 != 0) { iStack_18 = iStack_c * iStack_c; printIntLine(iStack_18); } return; }
['gcc']
45,288
void CWE190_Integer_Overflow__int_connect_socket_square_08_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83077/CWE190_Integer_Overflow__int_connect_socket_square_08.c
CWE190_Integer_Overflow__int_connect_socket_square_08_good
void CWE190_Integer_Overflow__int_connect_socket_square_08_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }
['gcc']
45,289
void CWE190_Integer_Overflow__int_connect_socket_square_09_bad() { int data; /* Initialize data */ data = 0; if(GLOBAL_CONST_TRUE) { { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } } if(GLOBAL_CONST_TRUE) { { /* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */ int result = data * data; printIntLine(result); } } }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */', '/* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83078/CWE190_Integer_Overflow__int_connect_socket_square_09.c
CWE190_Integer_Overflow__int_connect_socket_square_09_bad
void CWE190_Integer_Overflow__int_connect_socket_square_09_bad(void) { int iVar1; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; int iStack_18; int iStack_14; int iStack_10; int iStack_c; iStack_c = 0; if (GLOBAL_CONST_TRUE != 0) { iStack_10 = 0xffffffff; iStack_10 = func_0x00400cf0(2,1,6); if (iStack_10 != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_00401464); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_10,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_14 = func_0x00400bc0(iStack_10,auStack_36,0xd,0), iStack_14 != -1)) && (iStack_14 != 0)) { auStack_36[iStack_14] = 0; iStack_c = func_0x00400cb0(auStack_36); } } if (iStack_10 != -1) { func_0x00400c20(iStack_10); } } if (GLOBAL_CONST_TRUE != 0) { iStack_18 = iStack_c * iStack_c; printIntLine(iStack_18); } return; }
['gcc']
45,290
void CWE190_Integer_Overflow__int_connect_socket_square_09_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83078/CWE190_Integer_Overflow__int_connect_socket_square_09.c
CWE190_Integer_Overflow__int_connect_socket_square_09_good
void CWE190_Integer_Overflow__int_connect_socket_square_09_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }
['gcc']
45,291
void CWE190_Integer_Overflow__int_connect_socket_square_10_bad() { int data; /* Initialize data */ data = 0; if(globalTrue) { { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } } if(globalTrue) { { /* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */ int result = data * data; printIntLine(result); } } }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */', '/* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83079/CWE190_Integer_Overflow__int_connect_socket_square_10.c
CWE190_Integer_Overflow__int_connect_socket_square_10_bad
void CWE190_Integer_Overflow__int_connect_socket_square_10_bad(void) { int iVar1; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; int iStack_18; int iStack_14; int iStack_10; int iStack_c; iStack_c = 0; if (globalTrue != 0) { iStack_10 = 0xffffffff; iStack_10 = func_0x00400cf0(2,1,6); if (iStack_10 != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_00401464); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_10,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_14 = func_0x00400bc0(iStack_10,auStack_36,0xd,0), iStack_14 != -1)) && (iStack_14 != 0)) { auStack_36[iStack_14] = 0; iStack_c = func_0x00400cb0(auStack_36); } } if (iStack_10 != -1) { func_0x00400c20(iStack_10); } } if (globalTrue != 0) { iStack_18 = iStack_c * iStack_c; printIntLine(iStack_18); } return; }
['gcc']
45,292
void CWE190_Integer_Overflow__int_connect_socket_square_10_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83079/CWE190_Integer_Overflow__int_connect_socket_square_10.c
CWE190_Integer_Overflow__int_connect_socket_square_10_good
void CWE190_Integer_Overflow__int_connect_socket_square_10_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }
['gcc']
45,293
void CWE190_Integer_Overflow__int_connect_socket_square_11_bad() { int data; /* Initialize data */ data = 0; if(globalReturnsTrue()) { { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } } if(globalReturnsTrue()) { { /* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */ int result = data * data; printIntLine(result); } } }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */', '/* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83080/CWE190_Integer_Overflow__int_connect_socket_square_11.c
CWE190_Integer_Overflow__int_connect_socket_square_11_bad
void CWE190_Integer_Overflow__int_connect_socket_square_11_bad(void) { int iVar1; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; int iStack_18; int iStack_14; int iStack_10; int iStack_c; iStack_c = 0; iVar1 = globalReturnsTrue(); if (iVar1 != 0) { iStack_10 = 0xffffffff; iStack_10 = func_0x00400cf0(2,1,6); if (iStack_10 != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_00401464); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_10,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_14 = func_0x00400bc0(iStack_10,auStack_36,0xd,0), iStack_14 != -1)) && (iStack_14 != 0)) { auStack_36[iStack_14] = 0; iStack_c = func_0x00400cb0(auStack_36); } } if (iStack_10 != -1) { func_0x00400c20(iStack_10); } } iVar1 = globalReturnsTrue(); if (iVar1 != 0) { iStack_18 = iStack_c * iStack_c; printIntLine(iStack_18); } return; }
['gcc']
45,294
void CWE190_Integer_Overflow__int_connect_socket_square_11_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83080/CWE190_Integer_Overflow__int_connect_socket_square_11.c
CWE190_Integer_Overflow__int_connect_socket_square_11_good
void CWE190_Integer_Overflow__int_connect_socket_square_11_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }
['gcc']
45,295
void CWE190_Integer_Overflow__int_connect_socket_square_12_bad() { int data; /* Initialize data */ data = 0; if(globalReturnsTrueOrFalse()) { { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } } else { /* FIX: Use a small, non-zero value that will not cause an integer overflow in the sinks */ data = 2; } if(globalReturnsTrueOrFalse()) { { /* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */ int result = data * data; printIntLine(result); } } else { /* FIX: Add a check to prevent an overflow from occurring */ if (abs((long)data) <= (long)sqrt((double)INT_MAX)) { int result = data * data; printIntLine(result); } else { printLine("data value is too large to perform arithmetic safely."); } } }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */', '/* FIX: Use a small, non-zero value that will not cause an integer overflow in the sinks */', '/* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */', '/* FIX: Add a check to prevent an overflow from occurring */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83081/CWE190_Integer_Overflow__int_connect_socket_square_12.c
CWE190_Integer_Overflow__int_connect_socket_square_12_bad
void CWE190_Integer_Overflow__int_connect_socket_square_12_bad(void) { int iVar1; undefined auStack_46 [14]; undefined2 uStack_38; undefined2 uStack_36; undefined4 uStack_34; int iStack_1c; int iStack_18; int iStack_14; int iStack_10; int iStack_c; iStack_c = 0; iVar1 = globalReturnsTrueOrFalse(); if (iVar1 == 0) { iStack_c = 2; } else { iStack_10 = 0xffffffff; iStack_10 = func_0x00400cf0(2,1,6); if (iStack_10 != -1) { func_0x00400c10(&uStack_38,0,0x10); uStack_38 = 2; uStack_34 = func_0x00400c60(&UNK_004014a8); uStack_36 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_10,&uStack_38,0x10); if (((iVar1 != -1) && (iStack_14 = func_0x00400bc0(iStack_10,auStack_46,0xd,0), iStack_14 != -1)) && (iStack_14 != 0)) { auStack_46[iStack_14] = 0; iStack_c = func_0x00400cb0(auStack_46); } } if (iStack_10 != -1) { func_0x00400c20(iStack_10); } } iVar1 = globalReturnsTrueOrFalse(); if (iVar1 == 0) { if ((iStack_c < -0xb504) || (0xb504 < iStack_c)) { printLine(&UNK_004014b8); } else { iStack_18 = iStack_c * iStack_c; printIntLine(iStack_18); } } else { iStack_1c = iStack_c * iStack_c; printIntLine(iStack_1c); } return; }
['gcc']
45,296
void CWE190_Integer_Overflow__int_connect_socket_square_12_good() { goodB2G(); goodG2B(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83081/CWE190_Integer_Overflow__int_connect_socket_square_12.c
CWE190_Integer_Overflow__int_connect_socket_square_12_good
void CWE190_Integer_Overflow__int_connect_socket_square_12_good(void) { goodB2G(); goodG2B(); return; }
['gcc']
45,297
void CWE190_Integer_Overflow__int_connect_socket_square_13_bad() { int data; /* Initialize data */ data = 0; if(GLOBAL_CONST_FIVE==5) { { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } } if(GLOBAL_CONST_FIVE==5) { { /* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */ int result = data * data; printIntLine(result); } } }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */', '/* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83082/CWE190_Integer_Overflow__int_connect_socket_square_13.c
CWE190_Integer_Overflow__int_connect_socket_square_13_bad
void CWE190_Integer_Overflow__int_connect_socket_square_13_bad(void) { int iVar1; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; int iStack_18; int iStack_14; int iStack_10; int iStack_c; iStack_c = 0; if (GLOBAL_CONST_FIVE == 5) { iStack_10 = 0xffffffff; iStack_10 = func_0x00400cf0(2,1,6); if (iStack_10 != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_00401464); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_10,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_14 = func_0x00400bc0(iStack_10,auStack_36,0xd,0), iStack_14 != -1)) && (iStack_14 != 0)) { auStack_36[iStack_14] = 0; iStack_c = func_0x00400cb0(auStack_36); } } if (iStack_10 != -1) { func_0x00400c20(iStack_10); } } if (GLOBAL_CONST_FIVE == 5) { iStack_18 = iStack_c * iStack_c; printIntLine(iStack_18); } return; }
['gcc']
45,298
void CWE190_Integer_Overflow__int_connect_socket_square_13_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }
[]
null
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83082/CWE190_Integer_Overflow__int_connect_socket_square_13.c
CWE190_Integer_Overflow__int_connect_socket_square_13_good
void CWE190_Integer_Overflow__int_connect_socket_square_13_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }
['gcc']
45,299
void CWE190_Integer_Overflow__int_connect_socket_square_14_bad() { int data; /* Initialize data */ data = 0; if(globalFive==5) { { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET connectSocket = INVALID_SOCKET; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif /* POTENTIAL FLAW: Read data using a connect socket */ connectSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connectSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(TCP_PORT); if (connect(connectSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed, make sure to recv one * less char than is in the recv_buf in order to append a terminator */ recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKET_ERROR || recvResult == 0) { break; } /* NUL-terminate the string */ inputBuffer[recvResult] = '\0'; /* Convert to int */ data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKET) { CLOSE_SOCKET(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } } if(globalFive==5) { { /* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */ int result = data * data; printIntLine(result); } } }
['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a connect socket */', '/* Abort on error or the connection was closed, make sure to recv one\r\n * less char than is in the recv_buf in order to append a terminator */', '/* NUL-terminate the string */', '/* Convert to int */', '/* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */']
['CWE190']
mvd
/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83083/CWE190_Integer_Overflow__int_connect_socket_square_14.c
CWE190_Integer_Overflow__int_connect_socket_square_14_bad
void CWE190_Integer_Overflow__int_connect_socket_square_14_bad(void) { int iVar1; undefined auStack_36 [14]; undefined2 uStack_28; undefined2 uStack_26; undefined4 uStack_24; int iStack_18; int iStack_14; int iStack_10; int iStack_c; iStack_c = 0; if (globalFive == 5) { iStack_10 = 0xffffffff; iStack_10 = func_0x00400cf0(2,1,6); if (iStack_10 != -1) { func_0x00400c10(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = func_0x00400c60(&UNK_00401464); uStack_26 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_10,&uStack_28,0x10); if (((iVar1 != -1) && (iStack_14 = func_0x00400bc0(iStack_10,auStack_36,0xd,0), iStack_14 != -1)) && (iStack_14 != 0)) { auStack_36[iStack_14] = 0; iStack_c = func_0x00400cb0(auStack_36); } } if (iStack_10 != -1) { func_0x00400c20(iStack_10); } } if (globalFive == 5) { iStack_18 = iStack_c * iStack_c; printIntLine(iStack_18); } return; }
['gcc']