dmanuel99/decompiled-mvd · Datasets at Hugging Face

Unnamed: 0 int64 0 56k	source_code stringlengths 55 5.98k	comments stringlengths 2 1.76k	label stringclasses 68 values	dataset_name stringclasses 1 value	file_name stringlengths 208 265	function stringlengths 27 87	decompiled_code stringlengths 68 3.97k	compiler_options stringclasses 1 value
46,000	void CWE190_Integer_Overflow__int_listen_socket_square_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 listenSocket = INVALID_SOCKET; SOCKET acceptSocket = 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 listen socket / listenSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (listenSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = INADDR_ANY; service.sin_port = htons(TCP_PORT); if (bind(listenSocket, (struct sockaddr)&service, sizeof(service)) == SOCKET_ERROR) { break; } if (listen(listenSocket, LISTEN_BACKLOG) == SOCKET_ERROR) { break; } acceptSocket = accept(listenSocket, NULL, NULL); if (acceptSocket == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed / recvResult = recv(acceptSocket, 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 (listenSocket != INVALID_SOCKET) { CLOSE_SOCKET(listenSocket); } if (acceptSocket != INVALID_SOCKET) { CLOSE_SOCKET(acceptSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } / put data in array */ dataArray[2] = data; CWE190_Integer_Overflow__int_listen_socket_square_66b_badSink(dataArray); }	['/* Initialize data /', '/ POTENTIAL FLAW: Read data using a listen socket /', '/ Abort on error or the connection was closed /', '/ 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_1/83540/CWE190_Integer_Overflow__int_listen_socket_square_66a.c	CWE190_Integer_Overflow__int_listen_socket_square_66_bad	void CWE190_Integer_Overflow__int_listen_socket_square_66_bad(void) { int iVar1; undefined auStack_56 [14]; undefined2 uStack_48; undefined2 uStack_46; undefined4 uStack_44; undefined auStack_38 [8]; undefined4 uStack_30; int iStack_18; int iStack_14; int iStack_10; undefined4 uStack_c; uStack_c = 0; iStack_14 = 0xffffffff; iStack_10 = -1; iStack_14 = func_0x00400d40(2,1,6); if (iStack_14 != -1) { func_0x00400c50(&uStack_48,0,0x10); uStack_48 = 2; uStack_44 = 0; uStack_46 = func_0x00400c30(0x6987); iVar1 = func_0x00400cf0(iStack_14,&uStack_48,0x10); if ((((iVar1 != -1) && (iVar1 = func_0x00400ce0(iStack_14,5), iVar1 != -1)) && (iStack_10 = func_0x00400d00(iStack_14,0,0), iStack_10 != -1)) && ((iStack_18 = func_0x00400c00(iStack_10,auStack_56,0xd,0), iStack_18 != -1 && (iStack_18 != 0)))) { auStack_56[iStack_18] = 0; uStack_c = func_0x00400d10(auStack_56); } } if (iStack_14 != -1) { func_0x00400c60(iStack_14); } if (iStack_10 != -1) { func_0x00400c60(iStack_10); } uStack_30 = uStack_c; CWE190_Integer_Overflow__int_listen_socket_square_66b_badSink(auStack_38); return; }	['gcc']
46,001	void CWE190_Integer_Overflow__int_listen_socket_square_66_good() { goodG2B(); goodB2G(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83540/CWE190_Integer_Overflow__int_listen_socket_square_66a.c	CWE190_Integer_Overflow__int_listen_socket_square_66_good	void CWE190_Integer_Overflow__int_listen_socket_square_66_good(void) { goodG2B(); goodB2G(); return; }	['gcc']
46,002	void CWE190_Integer_Overflow__int_listen_socket_square_66b_badSink(int dataArray[]) { /* copy data out of dataArray / int data = dataArray[2]; { / POTENTIAL FLAW: if (datadata) > INT_MAX, this will overflow / int result = data * data; printIntLine(result); } }	['/* copy data out of dataArray /', '/ POTENTIAL FLAW: if (datadata) > INT_MAX, this will overflow /']	['CWE190']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83540/CWE190_Integer_Overflow__int_listen_socket_square_66b.c	CWE190_Integer_Overflow__int_listen_socket_square_66b_badSink	void CWE190_Integer_Overflow__int_listen_socket_square_66b_badSink(long param_1) { printIntLine((int )(param_1 + 8) * (int )(param_1 + 8)); return; }	['gcc']
46,003	void CWE190_Integer_Overflow__int_listen_socket_square_66b_goodG2BSink(int dataArray[]) { int data = dataArray[2]; { /* POTENTIAL FLAW: if (datadata) > INT_MAX, this will overflow / int result = data * data; printIntLine(result); } }	['/* POTENTIAL FLAW: if (datadata) > INT_MAX, this will overflow /']	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83540/CWE190_Integer_Overflow__int_listen_socket_square_66b.c	CWE190_Integer_Overflow__int_listen_socket_square_66b_goodG2BSink	void CWE190_Integer_Overflow__int_listen_socket_square_66b_goodG2BSink(long param_1) { printIntLine((int )(param_1 + 8) * (int )(param_1 + 8)); return; }	['gcc']
46,004	void CWE190_Integer_Overflow__int_listen_socket_square_66b_goodB2GSink(int dataArray[]) { int data = dataArray[2]; /* 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."); } }	['/* 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_1/83540/CWE190_Integer_Overflow__int_listen_socket_square_66b.c	CWE190_Integer_Overflow__int_listen_socket_square_66b_goodB2GSink	void CWE190_Integer_Overflow__int_listen_socket_square_66b_goodB2GSink(long param_1) { int iVar1; iVar1 = (int )(param_1 + 8); if ((iVar1 < -0xb504) \|\| (0xb504 < iVar1)) { printLine(&UNK_00401598); } else { printIntLine(iVar1 * iVar1); } return; }	['gcc']
46,005	void CWE190_Integer_Overflow__int_listen_socket_square_67_bad() { int data; CWE190_Integer_Overflow__int_listen_socket_square_67_structType myStruct; /* Initialize data / data = 0; { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET listenSocket = INVALID_SOCKET; SOCKET acceptSocket = 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 listen socket / listenSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (listenSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = INADDR_ANY; service.sin_port = htons(TCP_PORT); if (bind(listenSocket, (struct sockaddr)&service, sizeof(service)) == SOCKET_ERROR) { break; } if (listen(listenSocket, LISTEN_BACKLOG) == SOCKET_ERROR) { break; } acceptSocket = accept(listenSocket, NULL, NULL); if (acceptSocket == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed / recvResult = recv(acceptSocket, 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 (listenSocket != INVALID_SOCKET) { CLOSE_SOCKET(listenSocket); } if (acceptSocket != INVALID_SOCKET) { CLOSE_SOCKET(acceptSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } myStruct.structFirst = data; CWE190_Integer_Overflow__int_listen_socket_square_67b_badSink(myStruct); }	['/* Initialize data /', '/ POTENTIAL FLAW: Read data using a listen socket /', '/ Abort on error or the connection was closed /', '/ NUL-terminate the string /', '/ Convert to int */']	['CWE190']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83541/CWE190_Integer_Overflow__int_listen_socket_square_67a.c	CWE190_Integer_Overflow__int_listen_socket_square_67_bad	void CWE190_Integer_Overflow__int_listen_socket_square_67_bad(void) { int iVar1; undefined auStack_46 [14]; undefined2 uStack_38; undefined2 uStack_36; undefined4 uStack_34; undefined4 uStack_1c; int iStack_18; int iStack_14; int iStack_10; undefined4 uStack_c; uStack_c = 0; iStack_14 = 0xffffffff; iStack_10 = -1; iStack_14 = func_0x00400d40(2,1,6); if (iStack_14 != -1) { func_0x00400c50(&uStack_38,0,0x10); uStack_38 = 2; uStack_34 = 0; uStack_36 = func_0x00400c30(0x6987); iVar1 = func_0x00400cf0(iStack_14,&uStack_38,0x10); if ((((iVar1 != -1) && (iVar1 = func_0x00400ce0(iStack_14,5), iVar1 != -1)) && (iStack_10 = func_0x00400d00(iStack_14,0,0), iStack_10 != -1)) && ((iStack_18 = func_0x00400c00(iStack_10,auStack_46,0xd,0), iStack_18 != -1 && (iStack_18 != 0)))) { auStack_46[iStack_18] = 0; uStack_c = func_0x00400d10(auStack_46); } } if (iStack_14 != -1) { func_0x00400c60(iStack_14); } if (iStack_10 != -1) { func_0x00400c60(iStack_10); } uStack_1c = uStack_c; CWE190_Integer_Overflow__int_listen_socket_square_67b_badSink(uStack_c); return; }	['gcc']
46,006	void CWE190_Integer_Overflow__int_listen_socket_square_67_good() { goodG2B(); goodB2G(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83541/CWE190_Integer_Overflow__int_listen_socket_square_67a.c	CWE190_Integer_Overflow__int_listen_socket_square_67_good	void CWE190_Integer_Overflow__int_listen_socket_square_67_good(void) { goodG2B(); goodB2G(); return; }	['gcc']
46,007	void CWE190_Integer_Overflow__int_listen_socket_square_67b_badSink(CWE190_Integer_Overflow__int_listen_socket_square_67_structType myStruct) { int data = myStruct.structFirst; { /* POTENTIAL FLAW: if (datadata) > INT_MAX, this will overflow / int result = data * data; printIntLine(result); } }	['/* POTENTIAL FLAW: if (datadata) > INT_MAX, this will overflow /']	['CWE190']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83541/CWE190_Integer_Overflow__int_listen_socket_square_67b.c	CWE190_Integer_Overflow__int_listen_socket_square_67b_badSink	void CWE190_Integer_Overflow__int_listen_socket_square_67b_badSink(int param_1) { printIntLine(param_1 * param_1); return; }	['gcc']
46,008	void CWE190_Integer_Overflow__int_listen_socket_square_67b_goodG2BSink(CWE190_Integer_Overflow__int_listen_socket_square_67_structType myStruct) { int data = myStruct.structFirst; { /* POTENTIAL FLAW: if (datadata) > INT_MAX, this will overflow / int result = data * data; printIntLine(result); } }	['/* POTENTIAL FLAW: if (datadata) > INT_MAX, this will overflow /']	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83541/CWE190_Integer_Overflow__int_listen_socket_square_67b.c	CWE190_Integer_Overflow__int_listen_socket_square_67b_goodG2BSink	void CWE190_Integer_Overflow__int_listen_socket_square_67b_goodG2BSink(int param_1) { printIntLine(param_1 * param_1); return; }	['gcc']
46,009	void CWE190_Integer_Overflow__int_listen_socket_square_67b_goodB2GSink(CWE190_Integer_Overflow__int_listen_socket_square_67_structType myStruct) { int data = myStruct.structFirst; /* 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."); } }	['/* 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_1/83541/CWE190_Integer_Overflow__int_listen_socket_square_67b.c	CWE190_Integer_Overflow__int_listen_socket_square_67b_goodB2GSink	void CWE190_Integer_Overflow__int_listen_socket_square_67b_goodB2GSink(int param_1) { if ((param_1 < -0xb504) \|\| (0xb504 < param_1)) { printLine(&UNK_00401588); } else { printIntLine(param_1 * param_1); } return; }	['gcc']
46,010	void CWE190_Integer_Overflow__int_listen_socket_square_68_bad() { int data; /* Initialize data / data = 0; { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET listenSocket = INVALID_SOCKET; SOCKET acceptSocket = 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 listen socket / listenSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (listenSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = INADDR_ANY; service.sin_port = htons(TCP_PORT); if (bind(listenSocket, (struct sockaddr)&service, sizeof(service)) == SOCKET_ERROR) { break; } if (listen(listenSocket, LISTEN_BACKLOG) == SOCKET_ERROR) { break; } acceptSocket = accept(listenSocket, NULL, NULL); if (acceptSocket == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed / recvResult = recv(acceptSocket, 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 (listenSocket != INVALID_SOCKET) { CLOSE_SOCKET(listenSocket); } if (acceptSocket != INVALID_SOCKET) { CLOSE_SOCKET(acceptSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } CWE190_Integer_Overflow__int_listen_socket_square_68_badData = data; CWE190_Integer_Overflow__int_listen_socket_square_68b_badSink(); }	['/* Initialize data /', '/ POTENTIAL FLAW: Read data using a listen socket /', '/ Abort on error or the connection was closed /', '/ NUL-terminate the string /', '/ Convert to int */']	['CWE190']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83542/CWE190_Integer_Overflow__int_listen_socket_square_68a.c	CWE190_Integer_Overflow__int_listen_socket_square_68_bad	void CWE190_Integer_Overflow__int_listen_socket_square_68_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; undefined4 uStack_c; uStack_c = 0; iStack_14 = 0xffffffff; iStack_10 = -1; iStack_14 = func_0x00400d40(2,1,6); if (iStack_14 != -1) { func_0x00400c50(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = 0; uStack_26 = func_0x00400c30(0x6987); iVar1 = func_0x00400cf0(iStack_14,&uStack_28,0x10); if ((((iVar1 != -1) && (iVar1 = func_0x00400ce0(iStack_14,5), iVar1 != -1)) && (iStack_10 = func_0x00400d00(iStack_14,0,0), iStack_10 != -1)) && ((iStack_18 = func_0x00400c00(iStack_10,auStack_36,0xd,0), iStack_18 != -1 && (iStack_18 != 0)))) { auStack_36[iStack_18] = 0; uStack_c = func_0x00400d10(auStack_36); } } if (iStack_14 != -1) { func_0x00400c60(iStack_14); } if (iStack_10 != -1) { func_0x00400c60(iStack_10); } CWE190_Integer_Overflow__int_listen_socket_square_68_badData = uStack_c; CWE190_Integer_Overflow__int_listen_socket_square_68b_badSink(); return; }	['gcc']
46,011	void CWE190_Integer_Overflow__int_listen_socket_square_68_good() { goodG2B(); goodB2G(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83542/CWE190_Integer_Overflow__int_listen_socket_square_68a.c	CWE190_Integer_Overflow__int_listen_socket_square_68_good	void CWE190_Integer_Overflow__int_listen_socket_square_68_good(void) { goodG2B(); goodB2G(); return; }	['gcc']
46,012	void CWE190_Integer_Overflow__int_listen_socket_square_68b_badSink() { int data = CWE190_Integer_Overflow__int_listen_socket_square_68_badData; { /* POTENTIAL FLAW: if (datadata) > INT_MAX, this will overflow / int result = data * data; printIntLine(result); } }	['/* POTENTIAL FLAW: if (datadata) > INT_MAX, this will overflow /']	['CWE190']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83542/CWE190_Integer_Overflow__int_listen_socket_square_68b.c	CWE190_Integer_Overflow__int_listen_socket_square_68b_badSink	void CWE190_Integer_Overflow__int_listen_socket_square_68b_badSink(void) { printIntLine(CWE190_Integer_Overflow__int_listen_socket_square_68_badData * CWE190_Integer_Overflow__int_listen_socket_square_68_badData); return; }	['gcc']
46,013	void CWE190_Integer_Overflow__int_listen_socket_square_68b_goodG2BSink() { int data = CWE190_Integer_Overflow__int_listen_socket_square_68_goodG2BData; { /* POTENTIAL FLAW: if (datadata) > INT_MAX, this will overflow / int result = data * data; printIntLine(result); } }	['/* POTENTIAL FLAW: if (datadata) > INT_MAX, this will overflow /']	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83542/CWE190_Integer_Overflow__int_listen_socket_square_68b.c	CWE190_Integer_Overflow__int_listen_socket_square_68b_goodG2BSink	void CWE190_Integer_Overflow__int_listen_socket_square_68b_goodG2BSink(void) { printIntLine(CWE190_Integer_Overflow__int_listen_socket_square_68_goodG2BData * CWE190_Integer_Overflow__int_listen_socket_square_68_goodG2BData); return; }	['gcc']
46,014	void CWE190_Integer_Overflow__int_listen_socket_square_68b_goodB2GSink() { int data = CWE190_Integer_Overflow__int_listen_socket_square_68_goodB2GData; /* 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."); } }	['/* 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_1/83542/CWE190_Integer_Overflow__int_listen_socket_square_68b.c	CWE190_Integer_Overflow__int_listen_socket_square_68b_goodB2GSink	void CWE190_Integer_Overflow__int_listen_socket_square_68b_goodB2GSink(void) { if ((CWE190_Integer_Overflow__int_listen_socket_square_68_goodB2GData < -0xb504) \|\| (0xb504 < CWE190_Integer_Overflow__int_listen_socket_square_68_goodB2GData)) { printLine(&UNK_00401598); } else { printIntLine(CWE190_Integer_Overflow__int_listen_socket_square_68_goodB2GData * CWE190_Integer_Overflow__int_listen_socket_square_68_goodB2GData); } return; }	['gcc']
46,015	void CWE191_Integer_Underflow__int_connect_socket_multiply_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 } if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; 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 /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85278/CWE191_Integer_Underflow__int_connect_socket_multiply_01.c	CWE191_Integer_Underflow__int_connect_socket_multiply_01_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_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); } if (iStack_c < 0) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }	['gcc']
46,016	void CWE191_Integer_Underflow__int_connect_socket_multiply_01_good() { goodG2B(); goodB2G(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85278/CWE191_Integer_Underflow__int_connect_socket_multiply_01.c	CWE191_Integer_Underflow__int_connect_socket_multiply_01_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_01_good(void) { goodG2B(); goodB2G(); return; }	['gcc']
46,017	void CWE191_Integer_Underflow__int_connect_socket_multiply_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) { if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; 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 /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85279/CWE191_Integer_Underflow__int_connect_socket_multiply_02.c	CWE191_Integer_Underflow__int_connect_socket_multiply_02_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_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); } if (iStack_c < 0) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }	['gcc']
46,018	void CWE191_Integer_Underflow__int_connect_socket_multiply_02_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85279/CWE191_Integer_Underflow__int_connect_socket_multiply_02.c	CWE191_Integer_Underflow__int_connect_socket_multiply_02_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_02_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }	['gcc']
46,019	void CWE191_Integer_Underflow__int_connect_socket_multiply_03_bad() { int data; /* Initialize data / data = 0; if(5==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(5==5) { if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; 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 /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85280/CWE191_Integer_Underflow__int_connect_socket_multiply_03.c	CWE191_Integer_Underflow__int_connect_socket_multiply_03_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_03_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); } if (iStack_c < 0) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }	['gcc']
46,020	void CWE191_Integer_Underflow__int_connect_socket_multiply_03_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85280/CWE191_Integer_Underflow__int_connect_socket_multiply_03.c	CWE191_Integer_Underflow__int_connect_socket_multiply_03_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_03_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }	['gcc']
46,021	void CWE191_Integer_Underflow__int_connect_socket_multiply_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) { if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; 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 /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85281/CWE191_Integer_Underflow__int_connect_socket_multiply_04.c	CWE191_Integer_Underflow__int_connect_socket_multiply_04_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_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_0040146c); 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 (iStack_c < 0) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }	['gcc']
46,022	void CWE191_Integer_Underflow__int_connect_socket_multiply_04_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85281/CWE191_Integer_Underflow__int_connect_socket_multiply_04.c	CWE191_Integer_Underflow__int_connect_socket_multiply_04_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_04_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }	['gcc']
46,023	void CWE191_Integer_Underflow__int_connect_socket_multiply_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) { if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; 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 /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85282/CWE191_Integer_Underflow__int_connect_socket_multiply_05.c	CWE191_Integer_Underflow__int_connect_socket_multiply_05_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_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_c < 0)) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }	['gcc']
46,024	void CWE191_Integer_Underflow__int_connect_socket_multiply_05_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85282/CWE191_Integer_Underflow__int_connect_socket_multiply_05.c	CWE191_Integer_Underflow__int_connect_socket_multiply_05_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_05_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }	['gcc']
46,025	void CWE191_Integer_Underflow__int_connect_socket_multiply_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) { if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; 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 /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85283/CWE191_Integer_Underflow__int_connect_socket_multiply_06.c	CWE191_Integer_Underflow__int_connect_socket_multiply_06_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_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); } if (iStack_c < 0) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }	['gcc']
46,026	void CWE191_Integer_Underflow__int_connect_socket_multiply_06_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85283/CWE191_Integer_Underflow__int_connect_socket_multiply_06.c	CWE191_Integer_Underflow__int_connect_socket_multiply_06_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_06_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }	['gcc']
46,027	void CWE191_Integer_Underflow__int_connect_socket_multiply_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) { if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; 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 /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85284/CWE191_Integer_Underflow__int_connect_socket_multiply_07.c	CWE191_Integer_Underflow__int_connect_socket_multiply_07_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_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_c < 0)) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }	['gcc']
46,028	void CWE191_Integer_Underflow__int_connect_socket_multiply_07_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85284/CWE191_Integer_Underflow__int_connect_socket_multiply_07.c	CWE191_Integer_Underflow__int_connect_socket_multiply_07_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_07_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }	['gcc']
46,029	void CWE191_Integer_Underflow__int_connect_socket_multiply_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()) { if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; 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 /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85285/CWE191_Integer_Underflow__int_connect_socket_multiply_08.c	CWE191_Integer_Underflow__int_connect_socket_multiply_08_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_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_00401484); 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_c < 0)) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }	['gcc']
46,030	void CWE191_Integer_Underflow__int_connect_socket_multiply_08_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85285/CWE191_Integer_Underflow__int_connect_socket_multiply_08.c	CWE191_Integer_Underflow__int_connect_socket_multiply_08_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_08_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }	['gcc']
46,031	void CWE191_Integer_Underflow__int_connect_socket_multiply_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) { if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; 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 /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85286/CWE191_Integer_Underflow__int_connect_socket_multiply_09.c	CWE191_Integer_Underflow__int_connect_socket_multiply_09_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_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_c < 0)) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }	['gcc']
46,032	void CWE191_Integer_Underflow__int_connect_socket_multiply_09_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85286/CWE191_Integer_Underflow__int_connect_socket_multiply_09.c	CWE191_Integer_Underflow__int_connect_socket_multiply_09_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_09_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }	['gcc']
46,033	void CWE191_Integer_Underflow__int_connect_socket_multiply_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) { if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; 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 /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85287/CWE191_Integer_Underflow__int_connect_socket_multiply_10.c	CWE191_Integer_Underflow__int_connect_socket_multiply_10_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_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_c < 0)) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }	['gcc']
46,034	void CWE191_Integer_Underflow__int_connect_socket_multiply_10_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85287/CWE191_Integer_Underflow__int_connect_socket_multiply_10.c	CWE191_Integer_Underflow__int_connect_socket_multiply_10_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_10_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }	['gcc']
46,035	void CWE191_Integer_Underflow__int_connect_socket_multiply_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()) { if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; 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 /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85288/CWE191_Integer_Underflow__int_connect_socket_multiply_11.c	CWE191_Integer_Underflow__int_connect_socket_multiply_11_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_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_c < 0)) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }	['gcc']
46,036	void CWE191_Integer_Underflow__int_connect_socket_multiply_11_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85288/CWE191_Integer_Underflow__int_connect_socket_multiply_11.c	CWE191_Integer_Underflow__int_connect_socket_multiply_11_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_11_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }	['gcc']
46,037	void CWE191_Integer_Underflow__int_connect_socket_multiply_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 underflow in the sinks / data = -2; } if(globalReturnsTrueOrFalse()) { if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; printIntLine(result); } } else { if(data < 0) /* ensure we won't have an overflow / { / FIX: Add a check to prevent an underflow from occurring / if (data > (INT_MIN/2)) { int result = data 2; printIntLine(result); } else { printLine("data value is too small to perform multiplication."); } } } }	['/* 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 underflow in the sinks /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow /', "/ ensure we won't have an overflow /", '/ FIX: Add a check to prevent an underflow from occurring */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85289/CWE191_Integer_Underflow__int_connect_socket_multiply_12.c	CWE191_Integer_Underflow__int_connect_socket_multiply_12_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_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 < 0) { if (iStack_c < -0x3fffffff) { printLine(&UNK_004014b8); } else { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } } } else if (iStack_c < 0) { iStack_1c = iStack_c * 2; printIntLine(iStack_1c); } return; }	['gcc']
46,038	void CWE191_Integer_Underflow__int_connect_socket_multiply_12_good() { goodB2G(); goodG2B(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85289/CWE191_Integer_Underflow__int_connect_socket_multiply_12.c	CWE191_Integer_Underflow__int_connect_socket_multiply_12_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_12_good(void) { goodB2G(); goodG2B(); return; }	['gcc']
46,039	void CWE191_Integer_Underflow__int_connect_socket_multiply_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) { if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; 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 /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85290/CWE191_Integer_Underflow__int_connect_socket_multiply_13.c	CWE191_Integer_Underflow__int_connect_socket_multiply_13_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_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_c < 0)) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }	['gcc']
46,040	void CWE191_Integer_Underflow__int_connect_socket_multiply_13_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85290/CWE191_Integer_Underflow__int_connect_socket_multiply_13.c	CWE191_Integer_Underflow__int_connect_socket_multiply_13_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_13_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }	['gcc']
46,041	void CWE191_Integer_Underflow__int_connect_socket_multiply_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) { if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; 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 /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85291/CWE191_Integer_Underflow__int_connect_socket_multiply_14.c	CWE191_Integer_Underflow__int_connect_socket_multiply_14_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_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_c < 0)) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }	['gcc']
46,042	void CWE191_Integer_Underflow__int_connect_socket_multiply_14_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85291/CWE191_Integer_Underflow__int_connect_socket_multiply_14.c	CWE191_Integer_Underflow__int_connect_socket_multiply_14_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_14_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }	['gcc']
46,043	void CWE191_Integer_Underflow__int_connect_socket_multiply_15_bad() { int data; /* Initialize data / data = 0; switch(6) { case 6: { #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 } break; default: / INCIDENTAL: CWE 561 Dead Code, the code below will never run / printLine("Benign, fixed string"); break; } switch(7) { case 7: if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; printIntLine(result); } break; default: /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ printLine("Benign, fixed string"); break; } }	['/* 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 /', '/ INCIDENTAL: CWE 561 Dead Code, the code below will never run /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow /', '/ INCIDENTAL: CWE 561 Dead Code, the code below will never run */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85292/CWE191_Integer_Underflow__int_connect_socket_multiply_15.c	CWE191_Integer_Underflow__int_connect_socket_multiply_15_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_15_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_00401454); 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 (iStack_c < 0) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }	['gcc']
46,044	void CWE191_Integer_Underflow__int_connect_socket_multiply_15_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85292/CWE191_Integer_Underflow__int_connect_socket_multiply_15.c	CWE191_Integer_Underflow__int_connect_socket_multiply_15_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_15_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }	['gcc']
46,045	void CWE191_Integer_Underflow__int_connect_socket_multiply_16_bad() { int data; /* Initialize data / data = 0; while(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 } break; } while(1) { if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; printIntLine(result); } break; } }	['/* 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 /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85293/CWE191_Integer_Underflow__int_connect_socket_multiply_16.c	CWE191_Integer_Underflow__int_connect_socket_multiply_16_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_16_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_00401454); 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 (iStack_c < 0) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }	['gcc']
46,046	void CWE191_Integer_Underflow__int_connect_socket_multiply_16_good() { goodB2G(); goodG2B(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85293/CWE191_Integer_Underflow__int_connect_socket_multiply_16.c	CWE191_Integer_Underflow__int_connect_socket_multiply_16_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_16_good(void) { goodB2G(); goodG2B(); return; }	['gcc']
46,047	void CWE191_Integer_Underflow__int_connect_socket_multiply_17_bad() { int i,j; int data; /* Initialize data / data = 0; for(i = 0; i < 1; i++) { { #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 } } for(j = 0; j < 1; j++) { if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; 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 /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85294/CWE191_Integer_Underflow__int_connect_socket_multiply_17.c	CWE191_Integer_Underflow__int_connect_socket_multiply_17_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_17_bad(void) { int iVar1; undefined auStack_46 [14]; undefined2 uStack_38; undefined2 uStack_36; undefined4 uStack_34; int iStack_20; int iStack_1c; int iStack_18; int iStack_14; int iStack_10; int iStack_c; iStack_14 = 0; for (iStack_c = 0; iStack_c < 1; iStack_c = iStack_c + 1) { 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_00401474); 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; iStack_14 = func_0x00400cb0(auStack_46); } } if (iStack_1c != -1) { func_0x00400c20(iStack_1c); } } for (iStack_10 = 0; iStack_10 < 1; iStack_10 = iStack_10 + 1) { if (iStack_14 < 0) { iStack_18 = iStack_14 * 2; printIntLine(iStack_18); } } return; }	['gcc']
46,048	void CWE191_Integer_Underflow__int_connect_socket_multiply_17_good() { goodB2G(); goodG2B(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85294/CWE191_Integer_Underflow__int_connect_socket_multiply_17.c	CWE191_Integer_Underflow__int_connect_socket_multiply_17_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_17_good(void) { goodB2G(); goodG2B(); return; }	['gcc']
46,049	void CWE191_Integer_Underflow__int_connect_socket_multiply_18_bad() { int data; /* Initialize data / data = 0; goto source; source: { #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 } goto sink; sink: if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; 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 /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85295/CWE191_Integer_Underflow__int_connect_socket_multiply_18.c	CWE191_Integer_Underflow__int_connect_socket_multiply_18_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_18_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_00401454); 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 (iStack_c < 0) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }	['gcc']
46,050	void CWE191_Integer_Underflow__int_connect_socket_multiply_18_good() { goodB2G(); goodG2B(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85295/CWE191_Integer_Underflow__int_connect_socket_multiply_18.c	CWE191_Integer_Underflow__int_connect_socket_multiply_18_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_18_good(void) { goodB2G(); goodG2B(); return; }	['gcc']
46,051	void CWE191_Integer_Underflow__int_connect_socket_multiply_21_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 } badStatic = 1; / true */ 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 /', '/ true */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85296/CWE191_Integer_Underflow__int_connect_socket_multiply_21.c	CWE191_Integer_Underflow__int_connect_socket_multiply_21_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_21_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); } badStatic = 1; badSink(uStack_c); return; }	['gcc']
46,052	void CWE191_Integer_Underflow__int_connect_socket_multiply_21_good() { goodB2G1(); goodB2G2(); goodG2B(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85296/CWE191_Integer_Underflow__int_connect_socket_multiply_21.c	CWE191_Integer_Underflow__int_connect_socket_multiply_21_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_21_good(void) { goodB2G1(); goodB2G2(); goodG2B(); return; }	['gcc']
46,053	void CWE191_Integer_Underflow__int_connect_socket_multiply_22_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 } CWE191_Integer_Underflow__int_connect_socket_multiply_22_badGlobal = 1; / true */ CWE191_Integer_Underflow__int_connect_socket_multiply_22_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 /', '/ true */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85297/CWE191_Integer_Underflow__int_connect_socket_multiply_22a.c	CWE191_Integer_Underflow__int_connect_socket_multiply_22_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_22_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); } CWE191_Integer_Underflow__int_connect_socket_multiply_22_badGlobal = 1; CWE191_Integer_Underflow__int_connect_socket_multiply_22_badSink(uStack_c); return; }	['gcc']
46,054	void CWE191_Integer_Underflow__int_connect_socket_multiply_22_good() { goodB2G1(); goodB2G2(); goodG2B(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85297/CWE191_Integer_Underflow__int_connect_socket_multiply_22a.c	CWE191_Integer_Underflow__int_connect_socket_multiply_22_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_22_good(void) { goodB2G1(); goodB2G2(); goodG2B(); return; }	['gcc']
46,055	void CWE191_Integer_Underflow__int_connect_socket_multiply_22_badSink(int data) { if(CWE191_Integer_Underflow__int_connect_socket_multiply_22_badGlobal) { if(data < 0) /* ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; printIntLine(result); } } }	["/* ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85297/CWE191_Integer_Underflow__int_connect_socket_multiply_22b.c	CWE191_Integer_Underflow__int_connect_socket_multiply_22_badSink	void CWE191_Integer_Underflow__int_connect_socket_multiply_22_badSink(int param_1) { if ((CWE191_Integer_Underflow__int_connect_socket_multiply_22_badGlobal != 0) && (param_1 < 0)) { printIntLine(param_1 * 2); } return; }	['gcc']
46,056	void CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodB2G1Sink(int data) { if(CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodB2G1Global) { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run / printLine("Benign, fixed string"); } else { if(data < 0) / ensure we won't have an overflow / { / FIX: Add a check to prevent an underflow from occurring / if (data > (INT_MIN/2)) { int result = data 2; printIntLine(result); } else { printLine("data value is too small to perform multiplication."); } } } }	['/* INCIDENTAL: CWE 561 Dead Code, the code below will never run /', "/ ensure we won't have an overflow /", '/ FIX: Add a check to prevent an underflow from occurring */']	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85297/CWE191_Integer_Underflow__int_connect_socket_multiply_22b.c	CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodB2G1Sink	void CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodB2G1Sink(int param_1) { if (CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodB2G1Global == 0) { if (param_1 < 0) { if (param_1 < -0x3fffffff) { printLine(&UNK_00401670); } else { printIntLine(param_1 * 2); } } } else { printLine(&UNK_00401658); } return; }	['gcc']
46,057	void CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodB2G2Sink(int data) { if(CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodB2G2Global) { if(data < 0) /* ensure we won't have an overflow / { / FIX: Add a check to prevent an underflow from occurring / if (data > (INT_MIN/2)) { int result = data 2; printIntLine(result); } else { printLine("data value is too small to perform multiplication."); } } } }	["/* ensure we won't have an overflow /", '/ FIX: Add a check to prevent an underflow from occurring */']	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85297/CWE191_Integer_Underflow__int_connect_socket_multiply_22b.c	CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodB2G2Sink	void CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodB2G2Sink(int param_1) { if ((CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodB2G2Global != 0) && (param_1 < 0)) { if (param_1 < -0x3fffffff) { printLine(&UNK_00401670); } else { printIntLine(param_1 * 2); } } return; }	['gcc']
46,058	void CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodG2BSink(int data) { if(CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodG2BGlobal) { if(data < 0) /* ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; printIntLine(result); } } }	["/* ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85297/CWE191_Integer_Underflow__int_connect_socket_multiply_22b.c	CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodG2BSink	void CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodG2BSink(int param_1) { if ((CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodG2BGlobal != 0) && (param_1 < 0) ) { printIntLine(param_1 * 2); } return; }	['gcc']
46,059	void CWE191_Integer_Underflow__int_connect_socket_multiply_31_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 } { int dataCopy = data; int data = dataCopy; if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; 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 /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85298/CWE191_Integer_Underflow__int_connect_socket_multiply_31.c	CWE191_Integer_Underflow__int_connect_socket_multiply_31_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_31_bad(void) { int iVar1; undefined auStack_46 [14]; undefined2 uStack_38; undefined2 uStack_36; undefined4 uStack_34; int iStack_20; int iStack_1c; 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_38,0,0x10); uStack_38 = 2; uStack_34 = func_0x00400c60(&UNK_00401454); 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); } iStack_18 = iStack_c; iStack_1c = iStack_c; if (iStack_c < 0) { iStack_20 = iStack_c * 2; printIntLine(iStack_20); } return; }	['gcc']
46,060	void CWE191_Integer_Underflow__int_connect_socket_multiply_31_good() { goodG2B(); goodB2G(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85298/CWE191_Integer_Underflow__int_connect_socket_multiply_31.c	CWE191_Integer_Underflow__int_connect_socket_multiply_31_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_31_good(void) { goodG2B(); goodB2G(); return; }	['gcc']
46,061	void CWE191_Integer_Underflow__int_connect_socket_multiply_32_bad() { int data; int dataPtr1 = &data; int dataPtr2 = &data; /* Initialize data / data = 0; { int data = dataPtr1; { #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 } dataPtr1 = data; } { int data = dataPtr2; if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; 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 /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85299/CWE191_Integer_Underflow__int_connect_socket_multiply_32.c	CWE191_Integer_Underflow__int_connect_socket_multiply_32_bad	/* WARNING: Restarted to delay deadcode elimination for space: stack / void CWE191_Integer_Underflow__int_connect_socket_multiply_32_bad(void) { int iVar1; undefined auStack_56 [14]; undefined2 uStack_48; undefined2 uStack_46; undefined4 uStack_44; int iStack_34; int iStack_30; int iStack_2c; int iStack_28; int iStack_24; int piStack_20; int piStack_18; int iStack_c; piStack_18 = &iStack_34; piStack_20 = &iStack_34; iStack_34 = 0; iStack_c = 0; iStack_24 = 0xffffffff; iStack_24 = func_0x00400cf0(2,1,6); if (iStack_24 != -1) { func_0x00400c10(&uStack_48,0,0x10); uStack_48 = 2; uStack_44 = func_0x00400c60(&UNK_00401474); uStack_46 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_24,&uStack_48,0x10); if (((iVar1 != -1) && (iStack_28 = func_0x00400bc0(iStack_24,auStack_56,0xd,0), iStack_28 != -1) ) && (iStack_28 != 0)) { auStack_56[iStack_28] = 0; iStack_c = func_0x00400cb0(auStack_56); } } if (iStack_24 != -1) { func_0x00400c20(iStack_24); } piStack_18 = iStack_c; iStack_2c = piStack_20; if (iStack_2c < 0) { iStack_30 = iStack_2c 2; printIntLine(iStack_30); } return; }	['gcc']
46,062	void CWE191_Integer_Underflow__int_connect_socket_multiply_32_good() { goodG2B(); goodB2G(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85299/CWE191_Integer_Underflow__int_connect_socket_multiply_32.c	CWE191_Integer_Underflow__int_connect_socket_multiply_32_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_32_good(void) { goodG2B(); goodB2G(); return; }	['gcc']
46,063	void CWE191_Integer_Underflow__int_connect_socket_multiply_34_bad() { int data; CWE191_Integer_Underflow__int_connect_socket_multiply_34_unionType myUnion; /* 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 } myUnion.unionFirst = data; { int data = myUnion.unionSecond; if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; 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 /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85301/CWE191_Integer_Underflow__int_connect_socket_multiply_34.c	CWE191_Integer_Underflow__int_connect_socket_multiply_34_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_34_bad(void) { int iVar1; undefined auStack_46 [14]; undefined2 uStack_38; undefined2 uStack_36; undefined4 uStack_34; int iStack_20; int iStack_1c; 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_38,0,0x10); uStack_38 = 2; uStack_34 = func_0x00400c60(&UNK_00401454); 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); } iStack_20 = iStack_c; iStack_18 = iStack_c; if (iStack_c < 0) { iStack_1c = iStack_c * 2; printIntLine(iStack_1c); } return; }	['gcc']
46,064	void CWE191_Integer_Underflow__int_connect_socket_multiply_34_good() { goodG2B(); goodB2G(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85301/CWE191_Integer_Underflow__int_connect_socket_multiply_34.c	CWE191_Integer_Underflow__int_connect_socket_multiply_34_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_34_good(void) { goodG2B(); goodB2G(); return; }	['gcc']
46,065	void CWE191_Integer_Underflow__int_connect_socket_multiply_41_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 } 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 */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85302/CWE191_Integer_Underflow__int_connect_socket_multiply_41.c	CWE191_Integer_Underflow__int_connect_socket_multiply_41_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_41_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); } badSink(uStack_c); return; }	['gcc']
46,066	void CWE191_Integer_Underflow__int_connect_socket_multiply_41_good() { goodB2G(); goodG2B(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85302/CWE191_Integer_Underflow__int_connect_socket_multiply_41.c	CWE191_Integer_Underflow__int_connect_socket_multiply_41_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_41_good(void) { goodB2G(); goodG2B(); return; }	['gcc']
46,067	void CWE191_Integer_Underflow__int_connect_socket_multiply_42_bad() { int data; /* Initialize data / data = 0; data = badSource(data); if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; printIntLine(result); } }	['/* Initialize data /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85303/CWE191_Integer_Underflow__int_connect_socket_multiply_42.c	CWE191_Integer_Underflow__int_connect_socket_multiply_42_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_42_bad(void) { int iVar1; iVar1 = badSource(0); if (iVar1 < 0) { printIntLine(iVar1 * 2); } return; }	['gcc']
46,068	void CWE191_Integer_Underflow__int_connect_socket_multiply_42_good() { goodB2G(); goodG2B(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85303/CWE191_Integer_Underflow__int_connect_socket_multiply_42.c	CWE191_Integer_Underflow__int_connect_socket_multiply_42_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_42_good(void) { goodB2G(); goodG2B(); return; }	['gcc']
46,069	void CWE191_Integer_Underflow__int_connect_socket_multiply_44_bad() { int data; /* define a function pointer / void (funcPtr) (int) = 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 */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85305/CWE191_Integer_Underflow__int_connect_socket_multiply_44.c	CWE191_Integer_Underflow__int_connect_socket_multiply_44_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_44_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 = 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']
46,070	void CWE191_Integer_Underflow__int_connect_socket_multiply_44_good() { goodG2B(); goodB2G(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85305/CWE191_Integer_Underflow__int_connect_socket_multiply_44.c	CWE191_Integer_Underflow__int_connect_socket_multiply_44_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_44_good(void) { goodG2B(); goodB2G(); return; }	['gcc']
46,071	void CWE191_Integer_Underflow__int_connect_socket_multiply_45_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 } CWE191_Integer_Underflow__int_connect_socket_multiply_45_badData = data; 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 */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85306/CWE191_Integer_Underflow__int_connect_socket_multiply_45.c	CWE191_Integer_Underflow__int_connect_socket_multiply_45_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_45_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); } CWE191_Integer_Underflow__int_connect_socket_multiply_45_badData = uStack_c; badSink(); return; }	['gcc']
46,072	void CWE191_Integer_Underflow__int_connect_socket_multiply_45_good() { goodG2B(); goodB2G(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85306/CWE191_Integer_Underflow__int_connect_socket_multiply_45.c	CWE191_Integer_Underflow__int_connect_socket_multiply_45_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_45_good(void) { goodG2B(); goodB2G(); return; }	['gcc']
46,073	void CWE191_Integer_Underflow__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 } CWE191_Integer_Underflow__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 */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85307/CWE191_Integer_Underflow__int_connect_socket_multiply_51a.c	CWE191_Integer_Underflow__int_connect_socket_multiply_51_bad	void CWE191_Integer_Underflow__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); } CWE191_Integer_Underflow__int_connect_socket_multiply_51b_badSink(uStack_c); return; }	['gcc']
46,074	void CWE191_Integer_Underflow__int_connect_socket_multiply_51_good() { goodG2B(); goodB2G(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85307/CWE191_Integer_Underflow__int_connect_socket_multiply_51a.c	CWE191_Integer_Underflow__int_connect_socket_multiply_51_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_51_good(void) { goodG2B(); goodB2G(); return; }	['gcc']
46,075	void CWE191_Integer_Underflow__int_connect_socket_multiply_51b_badSink(int data) { if(data < 0) /* ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; printIntLine(result); } }	["/* ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85307/CWE191_Integer_Underflow__int_connect_socket_multiply_51b.c	CWE191_Integer_Underflow__int_connect_socket_multiply_51b_badSink	void CWE191_Integer_Underflow__int_connect_socket_multiply_51b_badSink(int param_1) { if (param_1 < 0) { printIntLine(param_1 * 2); } return; }	['gcc']
46,076	void CWE191_Integer_Underflow__int_connect_socket_multiply_51b_goodG2BSink(int data) { if(data < 0) /* ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; printIntLine(result); } }	["/* ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85307/CWE191_Integer_Underflow__int_connect_socket_multiply_51b.c	CWE191_Integer_Underflow__int_connect_socket_multiply_51b_goodG2BSink	void CWE191_Integer_Underflow__int_connect_socket_multiply_51b_goodG2BSink(int param_1) { if (param_1 < 0) { printIntLine(param_1 * 2); } return; }	['gcc']
46,077	void CWE191_Integer_Underflow__int_connect_socket_multiply_51b_goodB2GSink(int data) { if(data < 0) /* ensure we won't have an overflow / { / FIX: Add a check to prevent an underflow from occurring / if (data > (INT_MIN/2)) { int result = data 2; printIntLine(result); } else { printLine("data value is too small to perform multiplication."); } } }	["/* ensure we won't have an overflow /", '/ FIX: Add a check to prevent an underflow from occurring */']	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85307/CWE191_Integer_Underflow__int_connect_socket_multiply_51b.c	CWE191_Integer_Underflow__int_connect_socket_multiply_51b_goodB2GSink	void CWE191_Integer_Underflow__int_connect_socket_multiply_51b_goodB2GSink(int param_1) { if (param_1 < 0) { if (param_1 < -0x3fffffff) { printLine(&UNK_004014d8); } else { printIntLine(param_1 * 2); } } return; }	['gcc']
46,078	void CWE191_Integer_Underflow__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 } CWE191_Integer_Underflow__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 */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85308/CWE191_Integer_Underflow__int_connect_socket_multiply_52a.c	CWE191_Integer_Underflow__int_connect_socket_multiply_52_bad	void CWE191_Integer_Underflow__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); } CWE191_Integer_Underflow__int_connect_socket_multiply_52b_badSink(uStack_c); return; }	['gcc']
46,079	void CWE191_Integer_Underflow__int_connect_socket_multiply_52_good() { goodG2B(); goodB2G(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85308/CWE191_Integer_Underflow__int_connect_socket_multiply_52a.c	CWE191_Integer_Underflow__int_connect_socket_multiply_52_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_52_good(void) { goodG2B(); goodB2G(); return; }	['gcc']
46,080	void CWE191_Integer_Underflow__int_connect_socket_multiply_52b_badSink(int data) { CWE191_Integer_Underflow__int_connect_socket_multiply_52c_badSink(data); }	[]	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85308/CWE191_Integer_Underflow__int_connect_socket_multiply_52b.c	CWE191_Integer_Underflow__int_connect_socket_multiply_52b_badSink	void CWE191_Integer_Underflow__int_connect_socket_multiply_52b_badSink(undefined4 param_1) { CWE191_Integer_Underflow__int_connect_socket_multiply_52c_badSink(param_1); return; }	['gcc']
46,081	void CWE191_Integer_Underflow__int_connect_socket_multiply_52b_goodG2BSink(int data) { CWE191_Integer_Underflow__int_connect_socket_multiply_52c_goodG2BSink(data); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85308/CWE191_Integer_Underflow__int_connect_socket_multiply_52b.c	CWE191_Integer_Underflow__int_connect_socket_multiply_52b_goodG2BSink	void CWE191_Integer_Underflow__int_connect_socket_multiply_52b_goodG2BSink(undefined4 param_1) { CWE191_Integer_Underflow__int_connect_socket_multiply_52c_goodG2BSink(param_1); return; }	['gcc']
46,082	void CWE191_Integer_Underflow__int_connect_socket_multiply_52b_goodB2GSink(int data) { CWE191_Integer_Underflow__int_connect_socket_multiply_52c_goodB2GSink(data); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85308/CWE191_Integer_Underflow__int_connect_socket_multiply_52b.c	CWE191_Integer_Underflow__int_connect_socket_multiply_52b_goodB2GSink	void CWE191_Integer_Underflow__int_connect_socket_multiply_52b_goodB2GSink(undefined4 param_1) { CWE191_Integer_Underflow__int_connect_socket_multiply_52c_goodB2GSink(param_1); return; }	['gcc']
46,083	void CWE191_Integer_Underflow__int_connect_socket_multiply_52c_badSink(int data) { if(data < 0) /* ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; printIntLine(result); } }	["/* ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85308/CWE191_Integer_Underflow__int_connect_socket_multiply_52c.c	CWE191_Integer_Underflow__int_connect_socket_multiply_52c_badSink	void CWE191_Integer_Underflow__int_connect_socket_multiply_52c_badSink(int param_1) { if (param_1 < 0) { printIntLine(param_1 * 2); } return; }	['gcc']
46,084	void CWE191_Integer_Underflow__int_connect_socket_multiply_52c_goodG2BSink(int data) { if(data < 0) /* ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; printIntLine(result); } }	["/* ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85308/CWE191_Integer_Underflow__int_connect_socket_multiply_52c.c	CWE191_Integer_Underflow__int_connect_socket_multiply_52c_goodG2BSink	void CWE191_Integer_Underflow__int_connect_socket_multiply_52c_goodG2BSink(int param_1) { if (param_1 < 0) { printIntLine(param_1 * 2); } return; }	['gcc']
46,085	void CWE191_Integer_Underflow__int_connect_socket_multiply_52c_goodB2GSink(int data) { if(data < 0) /* ensure we won't have an overflow / { / FIX: Add a check to prevent an underflow from occurring / if (data > (INT_MIN/2)) { int result = data 2; printIntLine(result); } else { printLine("data value is too small to perform multiplication."); } } }	["/* ensure we won't have an overflow /", '/ FIX: Add a check to prevent an underflow from occurring */']	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85308/CWE191_Integer_Underflow__int_connect_socket_multiply_52c.c	CWE191_Integer_Underflow__int_connect_socket_multiply_52c_goodB2GSink	void CWE191_Integer_Underflow__int_connect_socket_multiply_52c_goodB2GSink(int param_1) { if (param_1 < 0) { if (param_1 < -0x3fffffff) { printLine(&UNK_00401508); } else { printIntLine(param_1 * 2); } } return; }	['gcc']
46,086	void CWE191_Integer_Underflow__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 } CWE191_Integer_Underflow__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 */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53a.c	CWE191_Integer_Underflow__int_connect_socket_multiply_53_bad	void CWE191_Integer_Underflow__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); } CWE191_Integer_Underflow__int_connect_socket_multiply_53b_badSink(uStack_c); return; }	['gcc']
46,087	void CWE191_Integer_Underflow__int_connect_socket_multiply_53_good() { goodG2B(); goodB2G(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53a.c	CWE191_Integer_Underflow__int_connect_socket_multiply_53_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_53_good(void) { goodG2B(); goodB2G(); return; }	['gcc']
46,088	void CWE191_Integer_Underflow__int_connect_socket_multiply_53b_badSink(int data) { CWE191_Integer_Underflow__int_connect_socket_multiply_53c_badSink(data); }	[]	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53b.c	CWE191_Integer_Underflow__int_connect_socket_multiply_53b_badSink	void CWE191_Integer_Underflow__int_connect_socket_multiply_53b_badSink(undefined4 param_1) { CWE191_Integer_Underflow__int_connect_socket_multiply_53c_badSink(param_1); return; }	['gcc']
46,089	void CWE191_Integer_Underflow__int_connect_socket_multiply_53b_goodG2BSink(int data) { CWE191_Integer_Underflow__int_connect_socket_multiply_53c_goodG2BSink(data); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53b.c	CWE191_Integer_Underflow__int_connect_socket_multiply_53b_goodG2BSink	void CWE191_Integer_Underflow__int_connect_socket_multiply_53b_goodG2BSink(undefined4 param_1) { CWE191_Integer_Underflow__int_connect_socket_multiply_53c_goodG2BSink(param_1); return; }	['gcc']
46,090	void CWE191_Integer_Underflow__int_connect_socket_multiply_53b_goodB2GSink(int data) { CWE191_Integer_Underflow__int_connect_socket_multiply_53c_goodB2GSink(data); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53b.c	CWE191_Integer_Underflow__int_connect_socket_multiply_53b_goodB2GSink	void CWE191_Integer_Underflow__int_connect_socket_multiply_53b_goodB2GSink(undefined4 param_1) { CWE191_Integer_Underflow__int_connect_socket_multiply_53c_goodB2GSink(param_1); return; }	['gcc']
46,091	void CWE191_Integer_Underflow__int_connect_socket_multiply_53c_badSink(int data) { CWE191_Integer_Underflow__int_connect_socket_multiply_53d_badSink(data); }	[]	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53c.c	CWE191_Integer_Underflow__int_connect_socket_multiply_53c_badSink	void CWE191_Integer_Underflow__int_connect_socket_multiply_53c_badSink(undefined4 param_1) { CWE191_Integer_Underflow__int_connect_socket_multiply_53d_badSink(param_1); return; }	['gcc']
46,092	void CWE191_Integer_Underflow__int_connect_socket_multiply_53c_goodG2BSink(int data) { CWE191_Integer_Underflow__int_connect_socket_multiply_53d_goodG2BSink(data); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53c.c	CWE191_Integer_Underflow__int_connect_socket_multiply_53c_goodG2BSink	void CWE191_Integer_Underflow__int_connect_socket_multiply_53c_goodG2BSink(undefined4 param_1) { CWE191_Integer_Underflow__int_connect_socket_multiply_53d_goodG2BSink(param_1); return; }	['gcc']
46,093	void CWE191_Integer_Underflow__int_connect_socket_multiply_53c_goodB2GSink(int data) { CWE191_Integer_Underflow__int_connect_socket_multiply_53d_goodB2GSink(data); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53c.c	CWE191_Integer_Underflow__int_connect_socket_multiply_53c_goodB2GSink	void CWE191_Integer_Underflow__int_connect_socket_multiply_53c_goodB2GSink(undefined4 param_1) { CWE191_Integer_Underflow__int_connect_socket_multiply_53d_goodB2GSink(param_1); return; }	['gcc']
46,094	void CWE191_Integer_Underflow__int_connect_socket_multiply_53d_badSink(int data) { if(data < 0) /* ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; printIntLine(result); } }	["/* ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53d.c	CWE191_Integer_Underflow__int_connect_socket_multiply_53d_badSink	void CWE191_Integer_Underflow__int_connect_socket_multiply_53d_badSink(int param_1) { if (param_1 < 0) { printIntLine(param_1 * 2); } return; }	['gcc']
46,095	void CWE191_Integer_Underflow__int_connect_socket_multiply_53d_goodG2BSink(int data) { if(data < 0) /* ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; printIntLine(result); } }	["/* ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53d.c	CWE191_Integer_Underflow__int_connect_socket_multiply_53d_goodG2BSink	void CWE191_Integer_Underflow__int_connect_socket_multiply_53d_goodG2BSink(int param_1) { if (param_1 < 0) { printIntLine(param_1 * 2); } return; }	['gcc']
46,096	void CWE191_Integer_Underflow__int_connect_socket_multiply_53d_goodB2GSink(int data) { if(data < 0) /* ensure we won't have an overflow / { / FIX: Add a check to prevent an underflow from occurring / if (data > (INT_MIN/2)) { int result = data 2; printIntLine(result); } else { printLine("data value is too small to perform multiplication."); } } }	["/* ensure we won't have an overflow /", '/ FIX: Add a check to prevent an underflow from occurring */']	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53d.c	CWE191_Integer_Underflow__int_connect_socket_multiply_53d_goodB2GSink	void CWE191_Integer_Underflow__int_connect_socket_multiply_53d_goodB2GSink(int param_1) { if (param_1 < 0) { if (param_1 < -0x3fffffff) { printLine(&UNK_00401538); } else { printIntLine(param_1 * 2); } } return; }	['gcc']
46,097	void CWE191_Integer_Underflow__int_connect_socket_multiply_61_bad() { int data; /* Initialize data / data = 0; data = CWE191_Integer_Underflow__int_connect_socket_multiply_61b_badSource(data); if(data < 0) / ensure we won't have an overflow / { / POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow / int result = data 2; printIntLine(result); } }	['/* Initialize data /', "/ ensure we won't have an overflow /", '/ POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85311/CWE191_Integer_Underflow__int_connect_socket_multiply_61a.c	CWE191_Integer_Underflow__int_connect_socket_multiply_61_bad	void CWE191_Integer_Underflow__int_connect_socket_multiply_61_bad(void) { int iVar1; iVar1 = CWE191_Integer_Underflow__int_connect_socket_multiply_61b_badSource(0); if (iVar1 < 0) { printIntLine(iVar1 * 2); } return; }	['gcc']
46,098	void CWE191_Integer_Underflow__int_connect_socket_multiply_61_good() { goodG2B(); goodB2G(); }	[]	null	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85311/CWE191_Integer_Underflow__int_connect_socket_multiply_61a.c	CWE191_Integer_Underflow__int_connect_socket_multiply_61_good	void CWE191_Integer_Underflow__int_connect_socket_multiply_61_good(void) { goodG2B(); goodB2G(); return; }	['gcc']
46,099	int CWE191_Integer_Underflow__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 */']	['CWE191']	mvd	/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85311/CWE191_Integer_Underflow__int_connect_socket_multiply_61b.c	CWE191_Integer_Underflow__int_connect_socket_multiply_61b_badSource	undefined4 CWE191_Integer_Underflow__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']

46,000

void CWE190_Integer_Overflow__int_listen_socket_square_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 listenSocket = INVALID_SOCKET; SOCKET acceptSocket = 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 listen socket */ listenSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (listenSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = INADDR_ANY; service.sin_port = htons(TCP_PORT); if (bind(listenSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } if (listen(listenSocket, LISTEN_BACKLOG) == SOCKET_ERROR) { break; } acceptSocket = accept(listenSocket, NULL, NULL); if (acceptSocket == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed */ recvResult = recv(acceptSocket, 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 (listenSocket != INVALID_SOCKET) { CLOSE_SOCKET(listenSocket); } if (acceptSocket != INVALID_SOCKET) { CLOSE_SOCKET(acceptSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } /* put data in array */ dataArray[2] = data; CWE190_Integer_Overflow__int_listen_socket_square_66b_badSink(dataArray); }

['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a listen socket */', '/* Abort on error or the connection was closed */', '/* 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_1/83540/CWE190_Integer_Overflow__int_listen_socket_square_66a.c

CWE190_Integer_Overflow__int_listen_socket_square_66_bad

void CWE190_Integer_Overflow__int_listen_socket_square_66_bad(void) { int iVar1; undefined auStack_56 [14]; undefined2 uStack_48; undefined2 uStack_46; undefined4 uStack_44; undefined auStack_38 [8]; undefined4 uStack_30; int iStack_18; int iStack_14; int iStack_10; undefined4 uStack_c; uStack_c = 0; iStack_14 = 0xffffffff; iStack_10 = -1; iStack_14 = func_0x00400d40(2,1,6); if (iStack_14 != -1) { func_0x00400c50(&uStack_48,0,0x10); uStack_48 = 2; uStack_44 = 0; uStack_46 = func_0x00400c30(0x6987); iVar1 = func_0x00400cf0(iStack_14,&uStack_48,0x10); if ((((iVar1 != -1) && (iVar1 = func_0x00400ce0(iStack_14,5), iVar1 != -1)) && (iStack_10 = func_0x00400d00(iStack_14,0,0), iStack_10 != -1)) && ((iStack_18 = func_0x00400c00(iStack_10,auStack_56,0xd,0), iStack_18 != -1 && (iStack_18 != 0)))) { auStack_56[iStack_18] = 0; uStack_c = func_0x00400d10(auStack_56); } } if (iStack_14 != -1) { func_0x00400c60(iStack_14); } if (iStack_10 != -1) { func_0x00400c60(iStack_10); } uStack_30 = uStack_c; CWE190_Integer_Overflow__int_listen_socket_square_66b_badSink(auStack_38); return; }

['gcc']

46,001

void CWE190_Integer_Overflow__int_listen_socket_square_66_good() { goodG2B(); goodB2G(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83540/CWE190_Integer_Overflow__int_listen_socket_square_66a.c

CWE190_Integer_Overflow__int_listen_socket_square_66_good

void CWE190_Integer_Overflow__int_listen_socket_square_66_good(void) { goodG2B(); goodB2G(); return; }

['gcc']

46,002

void CWE190_Integer_Overflow__int_listen_socket_square_66b_badSink(int dataArray[]) { /* copy data out of dataArray */ int data = dataArray[2]; { /* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */ int result = data * data; printIntLine(result); } }

['/* copy data out of dataArray */', '/* 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_1/83540/CWE190_Integer_Overflow__int_listen_socket_square_66b.c

CWE190_Integer_Overflow__int_listen_socket_square_66b_badSink

void CWE190_Integer_Overflow__int_listen_socket_square_66b_badSink(long param_1) { printIntLine(*(int *)(param_1 + 8) * *(int *)(param_1 + 8)); return; }

['gcc']

46,003

void CWE190_Integer_Overflow__int_listen_socket_square_66b_goodG2BSink(int dataArray[]) { int data = dataArray[2]; { /* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */ int result = data * data; printIntLine(result); } }

['/* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */']

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83540/CWE190_Integer_Overflow__int_listen_socket_square_66b.c

CWE190_Integer_Overflow__int_listen_socket_square_66b_goodG2BSink

void CWE190_Integer_Overflow__int_listen_socket_square_66b_goodG2BSink(long param_1) { printIntLine(*(int *)(param_1 + 8) * *(int *)(param_1 + 8)); return; }

['gcc']

46,004

void CWE190_Integer_Overflow__int_listen_socket_square_66b_goodB2GSink(int dataArray[]) { int data = dataArray[2]; /* 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."); } }

['/* 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_1/83540/CWE190_Integer_Overflow__int_listen_socket_square_66b.c

CWE190_Integer_Overflow__int_listen_socket_square_66b_goodB2GSink

void CWE190_Integer_Overflow__int_listen_socket_square_66b_goodB2GSink(long param_1) { int iVar1; iVar1 = *(int *)(param_1 + 8); if ((iVar1 < -0xb504) || (0xb504 < iVar1)) { printLine(&UNK_00401598); } else { printIntLine(iVar1 * iVar1); } return; }

['gcc']

46,005

void CWE190_Integer_Overflow__int_listen_socket_square_67_bad() { int data; CWE190_Integer_Overflow__int_listen_socket_square_67_structType myStruct; /* Initialize data */ data = 0; { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET listenSocket = INVALID_SOCKET; SOCKET acceptSocket = 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 listen socket */ listenSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (listenSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = INADDR_ANY; service.sin_port = htons(TCP_PORT); if (bind(listenSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } if (listen(listenSocket, LISTEN_BACKLOG) == SOCKET_ERROR) { break; } acceptSocket = accept(listenSocket, NULL, NULL); if (acceptSocket == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed */ recvResult = recv(acceptSocket, 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 (listenSocket != INVALID_SOCKET) { CLOSE_SOCKET(listenSocket); } if (acceptSocket != INVALID_SOCKET) { CLOSE_SOCKET(acceptSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } myStruct.structFirst = data; CWE190_Integer_Overflow__int_listen_socket_square_67b_badSink(myStruct); }

['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a listen socket */', '/* Abort on error or the connection was closed */', '/* NUL-terminate the string */', '/* Convert to int */']

['CWE190']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83541/CWE190_Integer_Overflow__int_listen_socket_square_67a.c

CWE190_Integer_Overflow__int_listen_socket_square_67_bad

void CWE190_Integer_Overflow__int_listen_socket_square_67_bad(void) { int iVar1; undefined auStack_46 [14]; undefined2 uStack_38; undefined2 uStack_36; undefined4 uStack_34; undefined4 uStack_1c; int iStack_18; int iStack_14; int iStack_10; undefined4 uStack_c; uStack_c = 0; iStack_14 = 0xffffffff; iStack_10 = -1; iStack_14 = func_0x00400d40(2,1,6); if (iStack_14 != -1) { func_0x00400c50(&uStack_38,0,0x10); uStack_38 = 2; uStack_34 = 0; uStack_36 = func_0x00400c30(0x6987); iVar1 = func_0x00400cf0(iStack_14,&uStack_38,0x10); if ((((iVar1 != -1) && (iVar1 = func_0x00400ce0(iStack_14,5), iVar1 != -1)) && (iStack_10 = func_0x00400d00(iStack_14,0,0), iStack_10 != -1)) && ((iStack_18 = func_0x00400c00(iStack_10,auStack_46,0xd,0), iStack_18 != -1 && (iStack_18 != 0)))) { auStack_46[iStack_18] = 0; uStack_c = func_0x00400d10(auStack_46); } } if (iStack_14 != -1) { func_0x00400c60(iStack_14); } if (iStack_10 != -1) { func_0x00400c60(iStack_10); } uStack_1c = uStack_c; CWE190_Integer_Overflow__int_listen_socket_square_67b_badSink(uStack_c); return; }

['gcc']

46,006

void CWE190_Integer_Overflow__int_listen_socket_square_67_good() { goodG2B(); goodB2G(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83541/CWE190_Integer_Overflow__int_listen_socket_square_67a.c

CWE190_Integer_Overflow__int_listen_socket_square_67_good

void CWE190_Integer_Overflow__int_listen_socket_square_67_good(void) { goodG2B(); goodB2G(); return; }

['gcc']

46,007

void CWE190_Integer_Overflow__int_listen_socket_square_67b_badSink(CWE190_Integer_Overflow__int_listen_socket_square_67_structType myStruct) { int data = myStruct.structFirst; { /* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */ int result = data * data; printIntLine(result); } }

['/* 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_1/83541/CWE190_Integer_Overflow__int_listen_socket_square_67b.c

CWE190_Integer_Overflow__int_listen_socket_square_67b_badSink

void CWE190_Integer_Overflow__int_listen_socket_square_67b_badSink(int param_1) { printIntLine(param_1 * param_1); return; }

['gcc']

46,008

void CWE190_Integer_Overflow__int_listen_socket_square_67b_goodG2BSink(CWE190_Integer_Overflow__int_listen_socket_square_67_structType myStruct) { int data = myStruct.structFirst; { /* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */ int result = data * data; printIntLine(result); } }

['/* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */']

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83541/CWE190_Integer_Overflow__int_listen_socket_square_67b.c

CWE190_Integer_Overflow__int_listen_socket_square_67b_goodG2BSink

void CWE190_Integer_Overflow__int_listen_socket_square_67b_goodG2BSink(int param_1) { printIntLine(param_1 * param_1); return; }

['gcc']

46,009

void CWE190_Integer_Overflow__int_listen_socket_square_67b_goodB2GSink(CWE190_Integer_Overflow__int_listen_socket_square_67_structType myStruct) { int data = myStruct.structFirst; /* 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."); } }

['/* 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_1/83541/CWE190_Integer_Overflow__int_listen_socket_square_67b.c

CWE190_Integer_Overflow__int_listen_socket_square_67b_goodB2GSink

void CWE190_Integer_Overflow__int_listen_socket_square_67b_goodB2GSink(int param_1) { if ((param_1 < -0xb504) || (0xb504 < param_1)) { printLine(&UNK_00401588); } else { printIntLine(param_1 * param_1); } return; }

['gcc']

46,010

void CWE190_Integer_Overflow__int_listen_socket_square_68_bad() { int data; /* Initialize data */ data = 0; { #ifdef _WIN32 WSADATA wsaData; int wsaDataInit = 0; #endif int recvResult; struct sockaddr_in service; SOCKET listenSocket = INVALID_SOCKET; SOCKET acceptSocket = 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 listen socket */ listenSocket = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (listenSocket == INVALID_SOCKET) { break; } memset(&service, 0, sizeof(service)); service.sin_family = AF_INET; service.sin_addr.s_addr = INADDR_ANY; service.sin_port = htons(TCP_PORT); if (bind(listenSocket, (struct sockaddr*)&service, sizeof(service)) == SOCKET_ERROR) { break; } if (listen(listenSocket, LISTEN_BACKLOG) == SOCKET_ERROR) { break; } acceptSocket = accept(listenSocket, NULL, NULL); if (acceptSocket == SOCKET_ERROR) { break; } /* Abort on error or the connection was closed */ recvResult = recv(acceptSocket, 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 (listenSocket != INVALID_SOCKET) { CLOSE_SOCKET(listenSocket); } if (acceptSocket != INVALID_SOCKET) { CLOSE_SOCKET(acceptSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } CWE190_Integer_Overflow__int_listen_socket_square_68_badData = data; CWE190_Integer_Overflow__int_listen_socket_square_68b_badSink(); }

['/* Initialize data */', '/* POTENTIAL FLAW: Read data using a listen socket */', '/* Abort on error or the connection was closed */', '/* NUL-terminate the string */', '/* Convert to int */']

['CWE190']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83542/CWE190_Integer_Overflow__int_listen_socket_square_68a.c

CWE190_Integer_Overflow__int_listen_socket_square_68_bad

void CWE190_Integer_Overflow__int_listen_socket_square_68_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; undefined4 uStack_c; uStack_c = 0; iStack_14 = 0xffffffff; iStack_10 = -1; iStack_14 = func_0x00400d40(2,1,6); if (iStack_14 != -1) { func_0x00400c50(&uStack_28,0,0x10); uStack_28 = 2; uStack_24 = 0; uStack_26 = func_0x00400c30(0x6987); iVar1 = func_0x00400cf0(iStack_14,&uStack_28,0x10); if ((((iVar1 != -1) && (iVar1 = func_0x00400ce0(iStack_14,5), iVar1 != -1)) && (iStack_10 = func_0x00400d00(iStack_14,0,0), iStack_10 != -1)) && ((iStack_18 = func_0x00400c00(iStack_10,auStack_36,0xd,0), iStack_18 != -1 && (iStack_18 != 0)))) { auStack_36[iStack_18] = 0; uStack_c = func_0x00400d10(auStack_36); } } if (iStack_14 != -1) { func_0x00400c60(iStack_14); } if (iStack_10 != -1) { func_0x00400c60(iStack_10); } CWE190_Integer_Overflow__int_listen_socket_square_68_badData = uStack_c; CWE190_Integer_Overflow__int_listen_socket_square_68b_badSink(); return; }

['gcc']

46,011

void CWE190_Integer_Overflow__int_listen_socket_square_68_good() { goodG2B(); goodB2G(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83542/CWE190_Integer_Overflow__int_listen_socket_square_68a.c

CWE190_Integer_Overflow__int_listen_socket_square_68_good

void CWE190_Integer_Overflow__int_listen_socket_square_68_good(void) { goodG2B(); goodB2G(); return; }

['gcc']

46,012

void CWE190_Integer_Overflow__int_listen_socket_square_68b_badSink() { int data = CWE190_Integer_Overflow__int_listen_socket_square_68_badData; { /* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */ int result = data * data; printIntLine(result); } }

['/* 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_1/83542/CWE190_Integer_Overflow__int_listen_socket_square_68b.c

CWE190_Integer_Overflow__int_listen_socket_square_68b_badSink

void CWE190_Integer_Overflow__int_listen_socket_square_68b_badSink(void) { printIntLine(CWE190_Integer_Overflow__int_listen_socket_square_68_badData * CWE190_Integer_Overflow__int_listen_socket_square_68_badData); return; }

['gcc']

46,013

void CWE190_Integer_Overflow__int_listen_socket_square_68b_goodG2BSink() { int data = CWE190_Integer_Overflow__int_listen_socket_square_68_goodG2BData; { /* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */ int result = data * data; printIntLine(result); } }

['/* POTENTIAL FLAW: if (data*data) > INT_MAX, this will overflow */']

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/83542/CWE190_Integer_Overflow__int_listen_socket_square_68b.c

CWE190_Integer_Overflow__int_listen_socket_square_68b_goodG2BSink

void CWE190_Integer_Overflow__int_listen_socket_square_68b_goodG2BSink(void) { printIntLine(CWE190_Integer_Overflow__int_listen_socket_square_68_goodG2BData * CWE190_Integer_Overflow__int_listen_socket_square_68_goodG2BData); return; }

['gcc']

46,014

void CWE190_Integer_Overflow__int_listen_socket_square_68b_goodB2GSink() { int data = CWE190_Integer_Overflow__int_listen_socket_square_68_goodB2GData; /* 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."); } }

['/* 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_1/83542/CWE190_Integer_Overflow__int_listen_socket_square_68b.c

CWE190_Integer_Overflow__int_listen_socket_square_68b_goodB2GSink

void CWE190_Integer_Overflow__int_listen_socket_square_68b_goodB2GSink(void) { if ((CWE190_Integer_Overflow__int_listen_socket_square_68_goodB2GData < -0xb504) || (0xb504 < CWE190_Integer_Overflow__int_listen_socket_square_68_goodB2GData)) { printLine(&UNK_00401598); } else { printIntLine(CWE190_Integer_Overflow__int_listen_socket_square_68_goodB2GData * CWE190_Integer_Overflow__int_listen_socket_square_68_goodB2GData); } return; }

['gcc']

46,015

void CWE191_Integer_Underflow__int_connect_socket_multiply_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 } if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; 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 */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85278/CWE191_Integer_Underflow__int_connect_socket_multiply_01.c

CWE191_Integer_Underflow__int_connect_socket_multiply_01_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_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); } if (iStack_c < 0) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }

['gcc']

46,016

void CWE191_Integer_Underflow__int_connect_socket_multiply_01_good() { goodG2B(); goodB2G(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85278/CWE191_Integer_Underflow__int_connect_socket_multiply_01.c

CWE191_Integer_Underflow__int_connect_socket_multiply_01_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_01_good(void) { goodG2B(); goodB2G(); return; }

['gcc']

46,017

void CWE191_Integer_Underflow__int_connect_socket_multiply_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) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; 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 */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85279/CWE191_Integer_Underflow__int_connect_socket_multiply_02.c

CWE191_Integer_Underflow__int_connect_socket_multiply_02_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_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); } if (iStack_c < 0) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }

['gcc']

46,018

void CWE191_Integer_Underflow__int_connect_socket_multiply_02_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85279/CWE191_Integer_Underflow__int_connect_socket_multiply_02.c

CWE191_Integer_Underflow__int_connect_socket_multiply_02_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_02_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }

['gcc']

46,019

void CWE191_Integer_Underflow__int_connect_socket_multiply_03_bad() { int data; /* Initialize data */ data = 0; if(5==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(5==5) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; 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 */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85280/CWE191_Integer_Underflow__int_connect_socket_multiply_03.c

CWE191_Integer_Underflow__int_connect_socket_multiply_03_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_03_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); } if (iStack_c < 0) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }

['gcc']

46,020

void CWE191_Integer_Underflow__int_connect_socket_multiply_03_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85280/CWE191_Integer_Underflow__int_connect_socket_multiply_03.c

CWE191_Integer_Underflow__int_connect_socket_multiply_03_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_03_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }

['gcc']

46,021

void CWE191_Integer_Underflow__int_connect_socket_multiply_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) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; 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 */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85281/CWE191_Integer_Underflow__int_connect_socket_multiply_04.c

CWE191_Integer_Underflow__int_connect_socket_multiply_04_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_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_0040146c); 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 (iStack_c < 0) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }

['gcc']

46,022

void CWE191_Integer_Underflow__int_connect_socket_multiply_04_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85281/CWE191_Integer_Underflow__int_connect_socket_multiply_04.c

CWE191_Integer_Underflow__int_connect_socket_multiply_04_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_04_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }

['gcc']

46,023

void CWE191_Integer_Underflow__int_connect_socket_multiply_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) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; 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 */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85282/CWE191_Integer_Underflow__int_connect_socket_multiply_05.c

CWE191_Integer_Underflow__int_connect_socket_multiply_05_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_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_c < 0)) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }

['gcc']

46,024

void CWE191_Integer_Underflow__int_connect_socket_multiply_05_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85282/CWE191_Integer_Underflow__int_connect_socket_multiply_05.c

CWE191_Integer_Underflow__int_connect_socket_multiply_05_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_05_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }

['gcc']

46,025

void CWE191_Integer_Underflow__int_connect_socket_multiply_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) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; 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 */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85283/CWE191_Integer_Underflow__int_connect_socket_multiply_06.c

CWE191_Integer_Underflow__int_connect_socket_multiply_06_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_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); } if (iStack_c < 0) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }

['gcc']

46,026

void CWE191_Integer_Underflow__int_connect_socket_multiply_06_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85283/CWE191_Integer_Underflow__int_connect_socket_multiply_06.c

CWE191_Integer_Underflow__int_connect_socket_multiply_06_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_06_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }

['gcc']

46,027

void CWE191_Integer_Underflow__int_connect_socket_multiply_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) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; 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 */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85284/CWE191_Integer_Underflow__int_connect_socket_multiply_07.c

CWE191_Integer_Underflow__int_connect_socket_multiply_07_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_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_c < 0)) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }

['gcc']

46,028

void CWE191_Integer_Underflow__int_connect_socket_multiply_07_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85284/CWE191_Integer_Underflow__int_connect_socket_multiply_07.c

CWE191_Integer_Underflow__int_connect_socket_multiply_07_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_07_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }

['gcc']

46,029

void CWE191_Integer_Underflow__int_connect_socket_multiply_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()) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; 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 */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85285/CWE191_Integer_Underflow__int_connect_socket_multiply_08.c

CWE191_Integer_Underflow__int_connect_socket_multiply_08_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_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_00401484); 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_c < 0)) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }

['gcc']

46,030

void CWE191_Integer_Underflow__int_connect_socket_multiply_08_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85285/CWE191_Integer_Underflow__int_connect_socket_multiply_08.c

CWE191_Integer_Underflow__int_connect_socket_multiply_08_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_08_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }

['gcc']

46,031

void CWE191_Integer_Underflow__int_connect_socket_multiply_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) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; 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 */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85286/CWE191_Integer_Underflow__int_connect_socket_multiply_09.c

CWE191_Integer_Underflow__int_connect_socket_multiply_09_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_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_c < 0)) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }

['gcc']

46,032

void CWE191_Integer_Underflow__int_connect_socket_multiply_09_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85286/CWE191_Integer_Underflow__int_connect_socket_multiply_09.c

CWE191_Integer_Underflow__int_connect_socket_multiply_09_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_09_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }

['gcc']

46,033

void CWE191_Integer_Underflow__int_connect_socket_multiply_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) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; 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 */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85287/CWE191_Integer_Underflow__int_connect_socket_multiply_10.c

CWE191_Integer_Underflow__int_connect_socket_multiply_10_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_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_c < 0)) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }

['gcc']

46,034

void CWE191_Integer_Underflow__int_connect_socket_multiply_10_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85287/CWE191_Integer_Underflow__int_connect_socket_multiply_10.c

CWE191_Integer_Underflow__int_connect_socket_multiply_10_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_10_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }

['gcc']

46,035

void CWE191_Integer_Underflow__int_connect_socket_multiply_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()) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; 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 */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85288/CWE191_Integer_Underflow__int_connect_socket_multiply_11.c

CWE191_Integer_Underflow__int_connect_socket_multiply_11_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_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_c < 0)) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }

['gcc']

46,036

void CWE191_Integer_Underflow__int_connect_socket_multiply_11_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85288/CWE191_Integer_Underflow__int_connect_socket_multiply_11.c

CWE191_Integer_Underflow__int_connect_socket_multiply_11_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_11_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }

['gcc']

46,037

void CWE191_Integer_Underflow__int_connect_socket_multiply_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 underflow in the sinks */ data = -2; } if(globalReturnsTrueOrFalse()) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; printIntLine(result); } } else { if(data < 0) /* ensure we won't have an overflow */ { /* FIX: Add a check to prevent an underflow from occurring */ if (data > (INT_MIN/2)) { int result = data * 2; printIntLine(result); } else { printLine("data value is too small to perform multiplication."); } } } }

['/* 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 underflow in the sinks */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */', "/* ensure we won't have an overflow */", '/* FIX: Add a check to prevent an underflow from occurring */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85289/CWE191_Integer_Underflow__int_connect_socket_multiply_12.c

CWE191_Integer_Underflow__int_connect_socket_multiply_12_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_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 < 0) { if (iStack_c < -0x3fffffff) { printLine(&UNK_004014b8); } else { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } } } else if (iStack_c < 0) { iStack_1c = iStack_c * 2; printIntLine(iStack_1c); } return; }

['gcc']

46,038

void CWE191_Integer_Underflow__int_connect_socket_multiply_12_good() { goodB2G(); goodG2B(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85289/CWE191_Integer_Underflow__int_connect_socket_multiply_12.c

CWE191_Integer_Underflow__int_connect_socket_multiply_12_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_12_good(void) { goodB2G(); goodG2B(); return; }

['gcc']

46,039

void CWE191_Integer_Underflow__int_connect_socket_multiply_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) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; 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 */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85290/CWE191_Integer_Underflow__int_connect_socket_multiply_13.c

CWE191_Integer_Underflow__int_connect_socket_multiply_13_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_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_c < 0)) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }

['gcc']

46,040

void CWE191_Integer_Underflow__int_connect_socket_multiply_13_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85290/CWE191_Integer_Underflow__int_connect_socket_multiply_13.c

CWE191_Integer_Underflow__int_connect_socket_multiply_13_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_13_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }

['gcc']

46,041

void CWE191_Integer_Underflow__int_connect_socket_multiply_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) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; 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 */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85291/CWE191_Integer_Underflow__int_connect_socket_multiply_14.c

CWE191_Integer_Underflow__int_connect_socket_multiply_14_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_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_c < 0)) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }

['gcc']

46,042

void CWE191_Integer_Underflow__int_connect_socket_multiply_14_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85291/CWE191_Integer_Underflow__int_connect_socket_multiply_14.c

CWE191_Integer_Underflow__int_connect_socket_multiply_14_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_14_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }

['gcc']

46,043

void CWE191_Integer_Underflow__int_connect_socket_multiply_15_bad() { int data; /* Initialize data */ data = 0; switch(6) { case 6: { #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 } break; default: /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ printLine("Benign, fixed string"); break; } switch(7) { case 7: if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; printIntLine(result); } break; default: /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ printLine("Benign, fixed string"); break; } }

['/* 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 */', '/* INCIDENTAL: CWE 561 Dead Code, the code below will never run */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */', '/* INCIDENTAL: CWE 561 Dead Code, the code below will never run */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85292/CWE191_Integer_Underflow__int_connect_socket_multiply_15.c

CWE191_Integer_Underflow__int_connect_socket_multiply_15_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_15_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_00401454); 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 (iStack_c < 0) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }

['gcc']

46,044

void CWE191_Integer_Underflow__int_connect_socket_multiply_15_good() { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85292/CWE191_Integer_Underflow__int_connect_socket_multiply_15.c

CWE191_Integer_Underflow__int_connect_socket_multiply_15_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_15_good(void) { goodB2G1(); goodB2G2(); goodG2B1(); goodG2B2(); return; }

['gcc']

46,045

void CWE191_Integer_Underflow__int_connect_socket_multiply_16_bad() { int data; /* Initialize data */ data = 0; while(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 } break; } while(1) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; printIntLine(result); } break; } }

['/* 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 */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85293/CWE191_Integer_Underflow__int_connect_socket_multiply_16.c

CWE191_Integer_Underflow__int_connect_socket_multiply_16_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_16_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_00401454); 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 (iStack_c < 0) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }

['gcc']

46,046

void CWE191_Integer_Underflow__int_connect_socket_multiply_16_good() { goodB2G(); goodG2B(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85293/CWE191_Integer_Underflow__int_connect_socket_multiply_16.c

CWE191_Integer_Underflow__int_connect_socket_multiply_16_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_16_good(void) { goodB2G(); goodG2B(); return; }

['gcc']

46,047

void CWE191_Integer_Underflow__int_connect_socket_multiply_17_bad() { int i,j; int data; /* Initialize data */ data = 0; for(i = 0; i < 1; i++) { { #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 } } for(j = 0; j < 1; j++) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; 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 */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85294/CWE191_Integer_Underflow__int_connect_socket_multiply_17.c

CWE191_Integer_Underflow__int_connect_socket_multiply_17_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_17_bad(void) { int iVar1; undefined auStack_46 [14]; undefined2 uStack_38; undefined2 uStack_36; undefined4 uStack_34; int iStack_20; int iStack_1c; int iStack_18; int iStack_14; int iStack_10; int iStack_c; iStack_14 = 0; for (iStack_c = 0; iStack_c < 1; iStack_c = iStack_c + 1) { 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_00401474); 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; iStack_14 = func_0x00400cb0(auStack_46); } } if (iStack_1c != -1) { func_0x00400c20(iStack_1c); } } for (iStack_10 = 0; iStack_10 < 1; iStack_10 = iStack_10 + 1) { if (iStack_14 < 0) { iStack_18 = iStack_14 * 2; printIntLine(iStack_18); } } return; }

['gcc']

46,048

void CWE191_Integer_Underflow__int_connect_socket_multiply_17_good() { goodB2G(); goodG2B(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85294/CWE191_Integer_Underflow__int_connect_socket_multiply_17.c

CWE191_Integer_Underflow__int_connect_socket_multiply_17_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_17_good(void) { goodB2G(); goodG2B(); return; }

['gcc']

46,049

void CWE191_Integer_Underflow__int_connect_socket_multiply_18_bad() { int data; /* Initialize data */ data = 0; goto source; source: { #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 } goto sink; sink: if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; 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 */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85295/CWE191_Integer_Underflow__int_connect_socket_multiply_18.c

CWE191_Integer_Underflow__int_connect_socket_multiply_18_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_18_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_00401454); 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 (iStack_c < 0) { iStack_18 = iStack_c * 2; printIntLine(iStack_18); } return; }

['gcc']

46,050

void CWE191_Integer_Underflow__int_connect_socket_multiply_18_good() { goodB2G(); goodG2B(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85295/CWE191_Integer_Underflow__int_connect_socket_multiply_18.c

CWE191_Integer_Underflow__int_connect_socket_multiply_18_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_18_good(void) { goodB2G(); goodG2B(); return; }

['gcc']

46,051

void CWE191_Integer_Underflow__int_connect_socket_multiply_21_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 } badStatic = 1; /* true */ 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 */', '/* true */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85296/CWE191_Integer_Underflow__int_connect_socket_multiply_21.c

CWE191_Integer_Underflow__int_connect_socket_multiply_21_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_21_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); } badStatic = 1; badSink(uStack_c); return; }

['gcc']

46,052

void CWE191_Integer_Underflow__int_connect_socket_multiply_21_good() { goodB2G1(); goodB2G2(); goodG2B(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85296/CWE191_Integer_Underflow__int_connect_socket_multiply_21.c

CWE191_Integer_Underflow__int_connect_socket_multiply_21_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_21_good(void) { goodB2G1(); goodB2G2(); goodG2B(); return; }

['gcc']

46,053

void CWE191_Integer_Underflow__int_connect_socket_multiply_22_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 } CWE191_Integer_Underflow__int_connect_socket_multiply_22_badGlobal = 1; /* true */ CWE191_Integer_Underflow__int_connect_socket_multiply_22_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 */', '/* true */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85297/CWE191_Integer_Underflow__int_connect_socket_multiply_22a.c

CWE191_Integer_Underflow__int_connect_socket_multiply_22_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_22_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); } CWE191_Integer_Underflow__int_connect_socket_multiply_22_badGlobal = 1; CWE191_Integer_Underflow__int_connect_socket_multiply_22_badSink(uStack_c); return; }

['gcc']

46,054

void CWE191_Integer_Underflow__int_connect_socket_multiply_22_good() { goodB2G1(); goodB2G2(); goodG2B(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85297/CWE191_Integer_Underflow__int_connect_socket_multiply_22a.c

CWE191_Integer_Underflow__int_connect_socket_multiply_22_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_22_good(void) { goodB2G1(); goodB2G2(); goodG2B(); return; }

['gcc']

46,055

void CWE191_Integer_Underflow__int_connect_socket_multiply_22_badSink(int data) { if(CWE191_Integer_Underflow__int_connect_socket_multiply_22_badGlobal) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; printIntLine(result); } } }

["/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85297/CWE191_Integer_Underflow__int_connect_socket_multiply_22b.c

CWE191_Integer_Underflow__int_connect_socket_multiply_22_badSink

void CWE191_Integer_Underflow__int_connect_socket_multiply_22_badSink(int param_1) { if ((CWE191_Integer_Underflow__int_connect_socket_multiply_22_badGlobal != 0) && (param_1 < 0)) { printIntLine(param_1 * 2); } return; }

['gcc']

46,056

void CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodB2G1Sink(int data) { if(CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodB2G1Global) { /* INCIDENTAL: CWE 561 Dead Code, the code below will never run */ printLine("Benign, fixed string"); } else { if(data < 0) /* ensure we won't have an overflow */ { /* FIX: Add a check to prevent an underflow from occurring */ if (data > (INT_MIN/2)) { int result = data * 2; printIntLine(result); } else { printLine("data value is too small to perform multiplication."); } } } }

['/* INCIDENTAL: CWE 561 Dead Code, the code below will never run */', "/* ensure we won't have an overflow */", '/* FIX: Add a check to prevent an underflow from occurring */']

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85297/CWE191_Integer_Underflow__int_connect_socket_multiply_22b.c

CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodB2G1Sink

void CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodB2G1Sink(int param_1) { if (CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodB2G1Global == 0) { if (param_1 < 0) { if (param_1 < -0x3fffffff) { printLine(&UNK_00401670); } else { printIntLine(param_1 * 2); } } } else { printLine(&UNK_00401658); } return; }

['gcc']

46,057

void CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodB2G2Sink(int data) { if(CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodB2G2Global) { if(data < 0) /* ensure we won't have an overflow */ { /* FIX: Add a check to prevent an underflow from occurring */ if (data > (INT_MIN/2)) { int result = data * 2; printIntLine(result); } else { printLine("data value is too small to perform multiplication."); } } } }

["/* ensure we won't have an overflow */", '/* FIX: Add a check to prevent an underflow from occurring */']

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85297/CWE191_Integer_Underflow__int_connect_socket_multiply_22b.c

CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodB2G2Sink

void CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodB2G2Sink(int param_1) { if ((CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodB2G2Global != 0) && (param_1 < 0)) { if (param_1 < -0x3fffffff) { printLine(&UNK_00401670); } else { printIntLine(param_1 * 2); } } return; }

['gcc']

46,058

void CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodG2BSink(int data) { if(CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodG2BGlobal) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; printIntLine(result); } } }

["/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85297/CWE191_Integer_Underflow__int_connect_socket_multiply_22b.c

CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodG2BSink

void CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodG2BSink(int param_1) { if ((CWE191_Integer_Underflow__int_connect_socket_multiply_22_goodG2BGlobal != 0) && (param_1 < 0) ) { printIntLine(param_1 * 2); } return; }

['gcc']

46,059

void CWE191_Integer_Underflow__int_connect_socket_multiply_31_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 } { int dataCopy = data; int data = dataCopy; if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; 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 */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85298/CWE191_Integer_Underflow__int_connect_socket_multiply_31.c

CWE191_Integer_Underflow__int_connect_socket_multiply_31_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_31_bad(void) { int iVar1; undefined auStack_46 [14]; undefined2 uStack_38; undefined2 uStack_36; undefined4 uStack_34; int iStack_20; int iStack_1c; 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_38,0,0x10); uStack_38 = 2; uStack_34 = func_0x00400c60(&UNK_00401454); 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); } iStack_18 = iStack_c; iStack_1c = iStack_c; if (iStack_c < 0) { iStack_20 = iStack_c * 2; printIntLine(iStack_20); } return; }

['gcc']

46,060

void CWE191_Integer_Underflow__int_connect_socket_multiply_31_good() { goodG2B(); goodB2G(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85298/CWE191_Integer_Underflow__int_connect_socket_multiply_31.c

CWE191_Integer_Underflow__int_connect_socket_multiply_31_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_31_good(void) { goodG2B(); goodB2G(); return; }

['gcc']

46,061

void CWE191_Integer_Underflow__int_connect_socket_multiply_32_bad() { int data; int *dataPtr1 = &data; int *dataPtr2 = &data; /* Initialize data */ data = 0; { int data = *dataPtr1; { #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 } *dataPtr1 = data; } { int data = *dataPtr2; if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; 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 */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85299/CWE191_Integer_Underflow__int_connect_socket_multiply_32.c

CWE191_Integer_Underflow__int_connect_socket_multiply_32_bad

/* WARNING: Restarted to delay deadcode elimination for space: stack */ void CWE191_Integer_Underflow__int_connect_socket_multiply_32_bad(void) { int iVar1; undefined auStack_56 [14]; undefined2 uStack_48; undefined2 uStack_46; undefined4 uStack_44; int iStack_34; int iStack_30; int iStack_2c; int iStack_28; int iStack_24; int *piStack_20; int *piStack_18; int iStack_c; piStack_18 = &iStack_34; piStack_20 = &iStack_34; iStack_34 = 0; iStack_c = 0; iStack_24 = 0xffffffff; iStack_24 = func_0x00400cf0(2,1,6); if (iStack_24 != -1) { func_0x00400c10(&uStack_48,0,0x10); uStack_48 = 2; uStack_44 = func_0x00400c60(&UNK_00401474); uStack_46 = func_0x00400bf0(0x6987); iVar1 = func_0x00400cc0(iStack_24,&uStack_48,0x10); if (((iVar1 != -1) && (iStack_28 = func_0x00400bc0(iStack_24,auStack_56,0xd,0), iStack_28 != -1) ) && (iStack_28 != 0)) { auStack_56[iStack_28] = 0; iStack_c = func_0x00400cb0(auStack_56); } } if (iStack_24 != -1) { func_0x00400c20(iStack_24); } *piStack_18 = iStack_c; iStack_2c = *piStack_20; if (iStack_2c < 0) { iStack_30 = iStack_2c * 2; printIntLine(iStack_30); } return; }

['gcc']

46,062

void CWE191_Integer_Underflow__int_connect_socket_multiply_32_good() { goodG2B(); goodB2G(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85299/CWE191_Integer_Underflow__int_connect_socket_multiply_32.c

CWE191_Integer_Underflow__int_connect_socket_multiply_32_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_32_good(void) { goodG2B(); goodB2G(); return; }

['gcc']

46,063

void CWE191_Integer_Underflow__int_connect_socket_multiply_34_bad() { int data; CWE191_Integer_Underflow__int_connect_socket_multiply_34_unionType myUnion; /* 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 } myUnion.unionFirst = data; { int data = myUnion.unionSecond; if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; 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 */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85301/CWE191_Integer_Underflow__int_connect_socket_multiply_34.c

CWE191_Integer_Underflow__int_connect_socket_multiply_34_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_34_bad(void) { int iVar1; undefined auStack_46 [14]; undefined2 uStack_38; undefined2 uStack_36; undefined4 uStack_34; int iStack_20; int iStack_1c; 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_38,0,0x10); uStack_38 = 2; uStack_34 = func_0x00400c60(&UNK_00401454); 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); } iStack_20 = iStack_c; iStack_18 = iStack_c; if (iStack_c < 0) { iStack_1c = iStack_c * 2; printIntLine(iStack_1c); } return; }

['gcc']

46,064

void CWE191_Integer_Underflow__int_connect_socket_multiply_34_good() { goodG2B(); goodB2G(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85301/CWE191_Integer_Underflow__int_connect_socket_multiply_34.c

CWE191_Integer_Underflow__int_connect_socket_multiply_34_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_34_good(void) { goodG2B(); goodB2G(); return; }

['gcc']

46,065

void CWE191_Integer_Underflow__int_connect_socket_multiply_41_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 } 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 */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85302/CWE191_Integer_Underflow__int_connect_socket_multiply_41.c

CWE191_Integer_Underflow__int_connect_socket_multiply_41_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_41_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); } badSink(uStack_c); return; }

['gcc']

46,066

void CWE191_Integer_Underflow__int_connect_socket_multiply_41_good() { goodB2G(); goodG2B(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85302/CWE191_Integer_Underflow__int_connect_socket_multiply_41.c

CWE191_Integer_Underflow__int_connect_socket_multiply_41_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_41_good(void) { goodB2G(); goodG2B(); return; }

['gcc']

46,067

void CWE191_Integer_Underflow__int_connect_socket_multiply_42_bad() { int data; /* Initialize data */ data = 0; data = badSource(data); if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; printIntLine(result); } }

['/* Initialize data */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85303/CWE191_Integer_Underflow__int_connect_socket_multiply_42.c

CWE191_Integer_Underflow__int_connect_socket_multiply_42_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_42_bad(void) { int iVar1; iVar1 = badSource(0); if (iVar1 < 0) { printIntLine(iVar1 * 2); } return; }

['gcc']

46,068

void CWE191_Integer_Underflow__int_connect_socket_multiply_42_good() { goodB2G(); goodG2B(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85303/CWE191_Integer_Underflow__int_connect_socket_multiply_42.c

CWE191_Integer_Underflow__int_connect_socket_multiply_42_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_42_good(void) { goodB2G(); goodG2B(); return; }

['gcc']

46,069

void CWE191_Integer_Underflow__int_connect_socket_multiply_44_bad() { int data; /* define a function pointer */ void (*funcPtr) (int) = 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 */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85305/CWE191_Integer_Underflow__int_connect_socket_multiply_44.c

CWE191_Integer_Underflow__int_connect_socket_multiply_44_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_44_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 = 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']

46,070

void CWE191_Integer_Underflow__int_connect_socket_multiply_44_good() { goodG2B(); goodB2G(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85305/CWE191_Integer_Underflow__int_connect_socket_multiply_44.c

CWE191_Integer_Underflow__int_connect_socket_multiply_44_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_44_good(void) { goodG2B(); goodB2G(); return; }

['gcc']

46,071

void CWE191_Integer_Underflow__int_connect_socket_multiply_45_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 } CWE191_Integer_Underflow__int_connect_socket_multiply_45_badData = data; 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 */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85306/CWE191_Integer_Underflow__int_connect_socket_multiply_45.c

CWE191_Integer_Underflow__int_connect_socket_multiply_45_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_45_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); } CWE191_Integer_Underflow__int_connect_socket_multiply_45_badData = uStack_c; badSink(); return; }

['gcc']

46,072

void CWE191_Integer_Underflow__int_connect_socket_multiply_45_good() { goodG2B(); goodB2G(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85306/CWE191_Integer_Underflow__int_connect_socket_multiply_45.c

CWE191_Integer_Underflow__int_connect_socket_multiply_45_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_45_good(void) { goodG2B(); goodB2G(); return; }

['gcc']

46,073

void CWE191_Integer_Underflow__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 } CWE191_Integer_Underflow__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 */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85307/CWE191_Integer_Underflow__int_connect_socket_multiply_51a.c

CWE191_Integer_Underflow__int_connect_socket_multiply_51_bad

void CWE191_Integer_Underflow__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); } CWE191_Integer_Underflow__int_connect_socket_multiply_51b_badSink(uStack_c); return; }

['gcc']

46,074

void CWE191_Integer_Underflow__int_connect_socket_multiply_51_good() { goodG2B(); goodB2G(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85307/CWE191_Integer_Underflow__int_connect_socket_multiply_51a.c

CWE191_Integer_Underflow__int_connect_socket_multiply_51_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_51_good(void) { goodG2B(); goodB2G(); return; }

['gcc']

46,075

void CWE191_Integer_Underflow__int_connect_socket_multiply_51b_badSink(int data) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; printIntLine(result); } }

["/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85307/CWE191_Integer_Underflow__int_connect_socket_multiply_51b.c

CWE191_Integer_Underflow__int_connect_socket_multiply_51b_badSink

void CWE191_Integer_Underflow__int_connect_socket_multiply_51b_badSink(int param_1) { if (param_1 < 0) { printIntLine(param_1 * 2); } return; }

['gcc']

46,076

void CWE191_Integer_Underflow__int_connect_socket_multiply_51b_goodG2BSink(int data) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; printIntLine(result); } }

["/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85307/CWE191_Integer_Underflow__int_connect_socket_multiply_51b.c

CWE191_Integer_Underflow__int_connect_socket_multiply_51b_goodG2BSink

void CWE191_Integer_Underflow__int_connect_socket_multiply_51b_goodG2BSink(int param_1) { if (param_1 < 0) { printIntLine(param_1 * 2); } return; }

['gcc']

46,077

void CWE191_Integer_Underflow__int_connect_socket_multiply_51b_goodB2GSink(int data) { if(data < 0) /* ensure we won't have an overflow */ { /* FIX: Add a check to prevent an underflow from occurring */ if (data > (INT_MIN/2)) { int result = data * 2; printIntLine(result); } else { printLine("data value is too small to perform multiplication."); } } }

["/* ensure we won't have an overflow */", '/* FIX: Add a check to prevent an underflow from occurring */']

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85307/CWE191_Integer_Underflow__int_connect_socket_multiply_51b.c

CWE191_Integer_Underflow__int_connect_socket_multiply_51b_goodB2GSink

void CWE191_Integer_Underflow__int_connect_socket_multiply_51b_goodB2GSink(int param_1) { if (param_1 < 0) { if (param_1 < -0x3fffffff) { printLine(&UNK_004014d8); } else { printIntLine(param_1 * 2); } } return; }

['gcc']

46,078

void CWE191_Integer_Underflow__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 } CWE191_Integer_Underflow__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 */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85308/CWE191_Integer_Underflow__int_connect_socket_multiply_52a.c

CWE191_Integer_Underflow__int_connect_socket_multiply_52_bad

void CWE191_Integer_Underflow__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); } CWE191_Integer_Underflow__int_connect_socket_multiply_52b_badSink(uStack_c); return; }

['gcc']

46,079

void CWE191_Integer_Underflow__int_connect_socket_multiply_52_good() { goodG2B(); goodB2G(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85308/CWE191_Integer_Underflow__int_connect_socket_multiply_52a.c

CWE191_Integer_Underflow__int_connect_socket_multiply_52_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_52_good(void) { goodG2B(); goodB2G(); return; }

['gcc']

46,080

void CWE191_Integer_Underflow__int_connect_socket_multiply_52b_badSink(int data) { CWE191_Integer_Underflow__int_connect_socket_multiply_52c_badSink(data); }

[]

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85308/CWE191_Integer_Underflow__int_connect_socket_multiply_52b.c

CWE191_Integer_Underflow__int_connect_socket_multiply_52b_badSink

void CWE191_Integer_Underflow__int_connect_socket_multiply_52b_badSink(undefined4 param_1) { CWE191_Integer_Underflow__int_connect_socket_multiply_52c_badSink(param_1); return; }

['gcc']

46,081

void CWE191_Integer_Underflow__int_connect_socket_multiply_52b_goodG2BSink(int data) { CWE191_Integer_Underflow__int_connect_socket_multiply_52c_goodG2BSink(data); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85308/CWE191_Integer_Underflow__int_connect_socket_multiply_52b.c

CWE191_Integer_Underflow__int_connect_socket_multiply_52b_goodG2BSink

void CWE191_Integer_Underflow__int_connect_socket_multiply_52b_goodG2BSink(undefined4 param_1) { CWE191_Integer_Underflow__int_connect_socket_multiply_52c_goodG2BSink(param_1); return; }

['gcc']

46,082

void CWE191_Integer_Underflow__int_connect_socket_multiply_52b_goodB2GSink(int data) { CWE191_Integer_Underflow__int_connect_socket_multiply_52c_goodB2GSink(data); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85308/CWE191_Integer_Underflow__int_connect_socket_multiply_52b.c

CWE191_Integer_Underflow__int_connect_socket_multiply_52b_goodB2GSink

void CWE191_Integer_Underflow__int_connect_socket_multiply_52b_goodB2GSink(undefined4 param_1) { CWE191_Integer_Underflow__int_connect_socket_multiply_52c_goodB2GSink(param_1); return; }

['gcc']

46,083

void CWE191_Integer_Underflow__int_connect_socket_multiply_52c_badSink(int data) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; printIntLine(result); } }

["/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85308/CWE191_Integer_Underflow__int_connect_socket_multiply_52c.c

CWE191_Integer_Underflow__int_connect_socket_multiply_52c_badSink

void CWE191_Integer_Underflow__int_connect_socket_multiply_52c_badSink(int param_1) { if (param_1 < 0) { printIntLine(param_1 * 2); } return; }

['gcc']

46,084

void CWE191_Integer_Underflow__int_connect_socket_multiply_52c_goodG2BSink(int data) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; printIntLine(result); } }

["/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85308/CWE191_Integer_Underflow__int_connect_socket_multiply_52c.c

CWE191_Integer_Underflow__int_connect_socket_multiply_52c_goodG2BSink

void CWE191_Integer_Underflow__int_connect_socket_multiply_52c_goodG2BSink(int param_1) { if (param_1 < 0) { printIntLine(param_1 * 2); } return; }

['gcc']

46,085

void CWE191_Integer_Underflow__int_connect_socket_multiply_52c_goodB2GSink(int data) { if(data < 0) /* ensure we won't have an overflow */ { /* FIX: Add a check to prevent an underflow from occurring */ if (data > (INT_MIN/2)) { int result = data * 2; printIntLine(result); } else { printLine("data value is too small to perform multiplication."); } } }

["/* ensure we won't have an overflow */", '/* FIX: Add a check to prevent an underflow from occurring */']

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85308/CWE191_Integer_Underflow__int_connect_socket_multiply_52c.c

CWE191_Integer_Underflow__int_connect_socket_multiply_52c_goodB2GSink

void CWE191_Integer_Underflow__int_connect_socket_multiply_52c_goodB2GSink(int param_1) { if (param_1 < 0) { if (param_1 < -0x3fffffff) { printLine(&UNK_00401508); } else { printIntLine(param_1 * 2); } } return; }

['gcc']

46,086

void CWE191_Integer_Underflow__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 } CWE191_Integer_Underflow__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 */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53a.c

CWE191_Integer_Underflow__int_connect_socket_multiply_53_bad

void CWE191_Integer_Underflow__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); } CWE191_Integer_Underflow__int_connect_socket_multiply_53b_badSink(uStack_c); return; }

['gcc']

46,087

void CWE191_Integer_Underflow__int_connect_socket_multiply_53_good() { goodG2B(); goodB2G(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53a.c

CWE191_Integer_Underflow__int_connect_socket_multiply_53_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_53_good(void) { goodG2B(); goodB2G(); return; }

['gcc']

46,088

void CWE191_Integer_Underflow__int_connect_socket_multiply_53b_badSink(int data) { CWE191_Integer_Underflow__int_connect_socket_multiply_53c_badSink(data); }

[]

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53b.c

CWE191_Integer_Underflow__int_connect_socket_multiply_53b_badSink

void CWE191_Integer_Underflow__int_connect_socket_multiply_53b_badSink(undefined4 param_1) { CWE191_Integer_Underflow__int_connect_socket_multiply_53c_badSink(param_1); return; }

['gcc']

46,089

void CWE191_Integer_Underflow__int_connect_socket_multiply_53b_goodG2BSink(int data) { CWE191_Integer_Underflow__int_connect_socket_multiply_53c_goodG2BSink(data); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53b.c

CWE191_Integer_Underflow__int_connect_socket_multiply_53b_goodG2BSink

void CWE191_Integer_Underflow__int_connect_socket_multiply_53b_goodG2BSink(undefined4 param_1) { CWE191_Integer_Underflow__int_connect_socket_multiply_53c_goodG2BSink(param_1); return; }

['gcc']

46,090

void CWE191_Integer_Underflow__int_connect_socket_multiply_53b_goodB2GSink(int data) { CWE191_Integer_Underflow__int_connect_socket_multiply_53c_goodB2GSink(data); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53b.c

CWE191_Integer_Underflow__int_connect_socket_multiply_53b_goodB2GSink

void CWE191_Integer_Underflow__int_connect_socket_multiply_53b_goodB2GSink(undefined4 param_1) { CWE191_Integer_Underflow__int_connect_socket_multiply_53c_goodB2GSink(param_1); return; }

['gcc']

46,091

void CWE191_Integer_Underflow__int_connect_socket_multiply_53c_badSink(int data) { CWE191_Integer_Underflow__int_connect_socket_multiply_53d_badSink(data); }

[]

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53c.c

CWE191_Integer_Underflow__int_connect_socket_multiply_53c_badSink

void CWE191_Integer_Underflow__int_connect_socket_multiply_53c_badSink(undefined4 param_1) { CWE191_Integer_Underflow__int_connect_socket_multiply_53d_badSink(param_1); return; }

['gcc']

46,092

void CWE191_Integer_Underflow__int_connect_socket_multiply_53c_goodG2BSink(int data) { CWE191_Integer_Underflow__int_connect_socket_multiply_53d_goodG2BSink(data); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53c.c

CWE191_Integer_Underflow__int_connect_socket_multiply_53c_goodG2BSink

void CWE191_Integer_Underflow__int_connect_socket_multiply_53c_goodG2BSink(undefined4 param_1) { CWE191_Integer_Underflow__int_connect_socket_multiply_53d_goodG2BSink(param_1); return; }

['gcc']

46,093

void CWE191_Integer_Underflow__int_connect_socket_multiply_53c_goodB2GSink(int data) { CWE191_Integer_Underflow__int_connect_socket_multiply_53d_goodB2GSink(data); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53c.c

CWE191_Integer_Underflow__int_connect_socket_multiply_53c_goodB2GSink

void CWE191_Integer_Underflow__int_connect_socket_multiply_53c_goodB2GSink(undefined4 param_1) { CWE191_Integer_Underflow__int_connect_socket_multiply_53d_goodB2GSink(param_1); return; }

['gcc']

46,094

void CWE191_Integer_Underflow__int_connect_socket_multiply_53d_badSink(int data) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; printIntLine(result); } }

["/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53d.c

CWE191_Integer_Underflow__int_connect_socket_multiply_53d_badSink

void CWE191_Integer_Underflow__int_connect_socket_multiply_53d_badSink(int param_1) { if (param_1 < 0) { printIntLine(param_1 * 2); } return; }

['gcc']

46,095

void CWE191_Integer_Underflow__int_connect_socket_multiply_53d_goodG2BSink(int data) { if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; printIntLine(result); } }

["/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53d.c

CWE191_Integer_Underflow__int_connect_socket_multiply_53d_goodG2BSink

void CWE191_Integer_Underflow__int_connect_socket_multiply_53d_goodG2BSink(int param_1) { if (param_1 < 0) { printIntLine(param_1 * 2); } return; }

['gcc']

46,096

void CWE191_Integer_Underflow__int_connect_socket_multiply_53d_goodB2GSink(int data) { if(data < 0) /* ensure we won't have an overflow */ { /* FIX: Add a check to prevent an underflow from occurring */ if (data > (INT_MIN/2)) { int result = data * 2; printIntLine(result); } else { printLine("data value is too small to perform multiplication."); } } }

["/* ensure we won't have an overflow */", '/* FIX: Add a check to prevent an underflow from occurring */']

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85309/CWE191_Integer_Underflow__int_connect_socket_multiply_53d.c

CWE191_Integer_Underflow__int_connect_socket_multiply_53d_goodB2GSink

void CWE191_Integer_Underflow__int_connect_socket_multiply_53d_goodB2GSink(int param_1) { if (param_1 < 0) { if (param_1 < -0x3fffffff) { printLine(&UNK_00401538); } else { printIntLine(param_1 * 2); } } return; }

['gcc']

46,097

void CWE191_Integer_Underflow__int_connect_socket_multiply_61_bad() { int data; /* Initialize data */ data = 0; data = CWE191_Integer_Underflow__int_connect_socket_multiply_61b_badSource(data); if(data < 0) /* ensure we won't have an overflow */ { /* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */ int result = data * 2; printIntLine(result); } }

['/* Initialize data */', "/* ensure we won't have an overflow */", '/* POTENTIAL FLAW: if (data * 2) < INT_MIN, this will underflow */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85311/CWE191_Integer_Underflow__int_connect_socket_multiply_61a.c

CWE191_Integer_Underflow__int_connect_socket_multiply_61_bad

void CWE191_Integer_Underflow__int_connect_socket_multiply_61_bad(void) { int iVar1; iVar1 = CWE191_Integer_Underflow__int_connect_socket_multiply_61b_badSource(0); if (iVar1 < 0) { printIntLine(iVar1 * 2); } return; }

['gcc']

46,098

void CWE191_Integer_Underflow__int_connect_socket_multiply_61_good() { goodG2B(); goodB2G(); }

[]

null

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85311/CWE191_Integer_Underflow__int_connect_socket_multiply_61a.c

CWE191_Integer_Underflow__int_connect_socket_multiply_61_good

void CWE191_Integer_Underflow__int_connect_socket_multiply_61_good(void) { goodG2B(); goodB2G(); return; }

['gcc']

46,099

int CWE191_Integer_Underflow__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 */']

['CWE191']

mvd

/work/xgk011/.cache/huggingface/datasets/downloads/extracted/486fbd3d4a8ebc225e93d9cfb666bef6ac127e67788d52f03aa0e741860aa84a/muVulDeePecker-master/source files/upload_source_1/85311/CWE191_Integer_Underflow__int_connect_socket_multiply_61b.c

CWE191_Integer_Underflow__int_connect_socket_multiply_61b_badSource

undefined4 CWE191_Integer_Underflow__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']