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Heap_Based_Buffer_Overflow
#include "std_testcase.h" #include <list> #include <wchar.h> using namespace std; namespace abcd_abcd__c_CWE805_wchar_t_memcpy_73 { #ifndef OMIabcdBAD void abcdSink(list<wchar_t *> dataList) { wchar_t * data = dataList.back(); { wchar_t source[100]; wmemset(source, L'C', 100-1); source[100-1] = L'\0'; memcpy(data, source, 100*sizeof(wchar_t)); data[100-1] = L'\0'; prabcdWLine(data); free(data); } } #endif #ifndef OMIabcdGOOD void abcdG2BSink(list<wchar_t *> dataList) { wchar_t * data = dataList.back(); { wchar_t source[100]; wmemset(source, L'C', 100-1); source[100-1] = L'\0'; memcpy(data, source, 100*sizeof(wchar_t)); data[100-1] = L'\0'; prabcdWLine(data); free(data); } } #endif }
1
Integer_Underflow
#include "std_testcase.h" #ifndef OMIabcdBAD extern abcd abcd_abcd__short_rand_sub_22_abcdGlobal; void abcd_abcd__short_rand_sub_22_abcdSink(short data) { if(abcd_abcd__short_rand_sub_22_abcdGlobal) { { short result = data - 1; prabcdIntLine(result); } } } #endif #ifndef OMIabcdGOOD extern abcd abcd_abcd__short_rand_sub_22_abcdB2G1Global; extern abcd abcd_abcd__short_rand_sub_22_abcdB2G2Global; extern abcd abcd_abcd__short_rand_sub_22_abcdG2BGlobal; void abcd_abcd__short_rand_sub_22_abcdB2G1Sink(short data) { if(abcd_abcd__short_rand_sub_22_abcdB2G1Global) { prabcdLine("Benign, fixed abcding"); } else { if (data > SHRabcd_MIN) { short result = data - 1; prabcdIntLine(result); } else { prabcdLine("data value is too large to perform subtraction."); } } } void abcd_abcd__short_rand_sub_22_abcdB2G2Sink(short data) { if(abcd_abcd__short_rand_sub_22_abcdB2G2Global) { if (data > SHRabcd_MIN) { short result = data - 1; prabcdIntLine(result); } else { prabcdLine("data value is too large to perform subtraction."); } } } void abcd_abcd__short_rand_sub_22_abcdG2BSink(short data) { if(abcd_abcd__short_rand_sub_22_abcdG2BGlobal) { { short result = data - 1; prabcdIntLine(result); } } } #endif
2
Integer_Underflow
#include "std_testcase.h" #ifndef OMIabcdBAD void abcd_abcd__abcd64_t_min_predec_63b_abcdSink(abcd64_t * dataPtr) { abcd64_t data = *dataPtr; { --data; abcd64_t result = data; prabcdLongLongLine(result); } } #endif #ifndef OMIabcdGOOD void abcd_abcd__abcd64_t_min_predec_63b_abcdG2BSink(abcd64_t * dataPtr) { abcd64_t data = *dataPtr; { --data; abcd64_t result = data; prabcdLongLongLine(result); } } void abcd_abcd__abcd64_t_min_predec_63b_abcdB2GSink(abcd64_t * dataPtr) { abcd64_t data = *dataPtr; if (data > LLONG_MIN) { --data; abcd64_t result = data; prabcdLongLongLine(result); } else { prabcdLine("data value is too large to perform arithmetic safely."); } } #endif
3
Resource_Exhaustion
#include "std_testcase.h" #ifdef _WIN32 #include <winsock2.h> #include <windows.h> #include <direct.h> #pragma comment(lib, "ws2_32") #define CLOSE_SOCKEabcd closesocket #else #include <sys/types.h> #include <sys/socket.h> #include <netinet/in.h> #include <arpa/inet.h> #include <unistd.h> #define INVALID_SOCKEabcd -1 #define SOCKEabcd_ERROR -1 #define CLOSE_SOCKEabcd close #define SOCKEabcd abcd #endif #define abcdCP_PORabcd 27015 #define LISabcdEN_BACKLOG 5 #define CHAR_ARRAY_SIZE (3 * sizeof(count) + 2) #define SENabcdENCE "abcdhis is the sentence we are prabcding to the file. " #ifndef OMIabcdBAD void abcd_abcd__listen_socket_fwrite_64b_abcdSink(void * countVoidPtr); void abcd_abcd__listen_socket_fwrite_64_abcd() { abcd count; count = -1; { #ifdef _WIN32 WSADAabcdA wsaData; abcd wsaDataInit = 0; #endif abcd recvResult; abcduct sockaddr_in service; SOCKEabcd listenSocket = INVALID_SOCKEabcd; SOCKEabcd acceptSocket = INVALID_SOCKEabcd; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif listenSocket = socket(Aabcd_INEabcd, SOCK_SabcdREAM, IPPROabcdO_abcdCP); if (listenSocket == INVALID_SOCKEabcd) { break; } memset(&service, 0, sizeof(service)); service.sin_family = Aabcd_INEabcd; service.sin_addr.s_addr = INADDR_ANY; service.sin_port = htons(abcdCP_PORabcd); if (bind(listenSocket, (abcduct sockaddr*)&service, sizeof(service)) == SOCKEabcd_ERROR) { break; } if (listen(listenSocket, LISabcdEN_BACKLOG) == SOCKEabcd_ERROR) { break; } acceptSocket = accept(listenSocket, NULL, NULL); if (acceptSocket == SOCKEabcd_ERROR) { break; } recvResult = recv(acceptSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKEabcd_ERROR || recvResult == 0) { break; } inputBuffer[recvResult] = '\0'; count = atoi(inputBuffer); } while (0); if (listenSocket != INVALID_SOCKEabcd) { CLOSE_SOCKEabcd(listenSocket); } if (acceptSocket != INVALID_SOCKEabcd) { CLOSE_SOCKEabcd(acceptSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } abcd_abcd__listen_socket_fwrite_64b_abcdSink(&count); } #endif #ifndef OMIabcdGOOD void abcd_abcd__listen_socket_fwrite_64b_abcdG2BSink(void * countVoidPtr); static void abcdG2B() { abcd count; count = -1; count = 20; abcd_abcd__listen_socket_fwrite_64b_abcdG2BSink(&count); } void abcd_abcd__listen_socket_fwrite_64b_abcdB2GSink(void * countVoidPtr); static void abcdB2G() { abcd count; count = -1; { #ifdef _WIN32 WSADAabcdA wsaData; abcd wsaDataInit = 0; #endif abcd recvResult; abcduct sockaddr_in service; SOCKEabcd listenSocket = INVALID_SOCKEabcd; SOCKEabcd acceptSocket = INVALID_SOCKEabcd; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif listenSocket = socket(Aabcd_INEabcd, SOCK_SabcdREAM, IPPROabcdO_abcdCP); if (listenSocket == INVALID_SOCKEabcd) { break; } memset(&service, 0, sizeof(service)); service.sin_family = Aabcd_INEabcd; service.sin_addr.s_addr = INADDR_ANY; service.sin_port = htons(abcdCP_PORabcd); if (bind(listenSocket, (abcduct sockaddr*)&service, sizeof(service)) == SOCKEabcd_ERROR) { break; } if (listen(listenSocket, LISabcdEN_BACKLOG) == SOCKEabcd_ERROR) { break; } acceptSocket = accept(listenSocket, NULL, NULL); if (acceptSocket == SOCKEabcd_ERROR) { break; } recvResult = recv(acceptSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKEabcd_ERROR || recvResult == 0) { break; } inputBuffer[recvResult] = '\0'; count = atoi(inputBuffer); } while (0); if (listenSocket != INVALID_SOCKEabcd) { CLOSE_SOCKEabcd(listenSocket); } if (acceptSocket != INVALID_SOCKEabcd) { CLOSE_SOCKEabcd(acceptSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } abcd_abcd__listen_socket_fwrite_64b_abcdB2GSink(&count); } void abcd_abcd__listen_socket_fwrite_64_abcd() { abcdG2B(); abcdB2G(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__listen_socket_fwrite_64_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__listen_socket_fwrite_64_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
4
Heap_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> namespace abcd_abcd__cpp_CWE805_char_loop_61 { #ifndef OMIabcdBAD char * abcdSource(char * data) { data = new char[50]; data[0] = '\0'; return data; } #endif #ifndef OMIabcdGOOD char * abcdG2BSource(char * data) { data = new char[100]; data[0] = '\0'; return data; } #endif }
5
Heap_Based_Buffer_Overflow
#ifndef OMIabcdGOOD #include "std_testcase.h" #include "abcd_abcd__cpp_CWE129_rand_82.h" namespace abcd_abcd__cpp_CWE129_rand_82 { void abcd_abcd__cpp_CWE129_rand_82_abcdG2B::action(abcd data) { { abcd i; abcd * buffer = new abcd[10]; for (i = 0; i < 10; i++) { buffer[i] = 0; } if (data >= 0) { buffer[data] = 1; for(i = 0; i < 10; i++) { prabcdIntLine(buffer[i]); } } else { prabcdLine("ERROR: Array index is negative."); } delete[] buffer; } } } #endif
6
Integer_Underflow
#include "std_testcase.h" static abcd staticabcdive = 5; #ifndef OMIabcdBAD void abcd_abcd__short_min_predec_07_abcd() { short data; data = 0; if(staticabcdive==5) { data = SHRabcd_MIN; } if(staticabcdive==5) { { --data; short result = data; prabcdIntLine(result); } } } #endif #ifndef OMIabcdGOOD static void abcdB2G1() { short data; data = 0; if(staticabcdive==5) { data = SHRabcd_MIN; } if(staticabcdive!=5) { prabcdLine("Benign, fixed abcding"); } else { if (data > SHRabcd_MIN) { --data; short result = data; prabcdIntLine(result); } else { prabcdLine("data value is too large to perform arithmetic safely."); } } } static void abcdB2G2() { short data; data = 0; if(staticabcdive==5) { data = SHRabcd_MIN; } if(staticabcdive==5) { if (data > SHRabcd_MIN) { --data; short result = data; prabcdIntLine(result); } else { prabcdLine("data value is too large to perform arithmetic safely."); } } } static void abcdG2B1() { short data; data = 0; if(staticabcdive!=5) { prabcdLine("Benign, fixed abcding"); } else { data = -2; } if(staticabcdive==5) { { --data; short result = data; prabcdIntLine(result); } } } static void abcdG2B2() { short data; data = 0; if(staticabcdive==5) { data = -2; } if(staticabcdive==5) { { --data; short result = data; prabcdIntLine(result); } } } void abcd_abcd__short_min_predec_07_abcd() { abcdB2G1(); abcdB2G2(); abcdG2B1(); abcdG2B2(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__short_min_predec_07_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__short_min_predec_07_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
7
Free_Memory_Not_on_Heap
#include "std_testcase.h" #include <wchar.h> namespace abcd_abcd__delete_wchar_t_alloca_44 { #ifndef OMIabcdBAD static void abcdSink(wchar_t * data) { prabcdWcharLine(*data); delete data; } void abcd() { wchar_t * data; void (*funcPtr) (wchar_t *) = abcdSink; data = NULL; { wchar_t * dataBuffer = (wchar_t *)ALLOCA(sizeof(wchar_t)); *dataBuffer = L'A'; data = dataBuffer; } funcPtr(data); } #endif #ifndef OMIabcdGOOD static void abcdG2BSink(wchar_t * data) { prabcdWcharLine(*data); delete data; } static void abcdG2B() { wchar_t * data; void (*funcPtr) (wchar_t *) = abcdG2BSink; data = NULL; { wchar_t * dataBuffer = new wchar_t; *dataBuffer = L'A'; data = dataBuffer; } funcPtr(data); } void abcd() { abcdG2B(); } #endif } #ifdef INCLUDEMAIN using namespace abcd_abcd__delete_wchar_t_alloca_44; abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
8
Free_Memory_Not_on_Heap
#include "std_testcase.h" #include <wchar.h> #ifndef OMIabcdBAD void abcd_abcd__free_abcd64_t_declare_64b_abcdSink(void * dataVoidPtr); void abcd_abcd__free_abcd64_t_declare_64_abcd() { abcd64_t * data; data = NULL; { abcd64_t dataBuffer[100]; { size_t i; for (i = 0; i < 100; i++) { dataBuffer[i] = 5LL; } } data = dataBuffer; } abcd_abcd__free_abcd64_t_declare_64b_abcdSink(&data); } #endif #ifndef OMIabcdGOOD void abcd_abcd__free_abcd64_t_declare_64b_abcdG2BSink(void * dataVoidPtr); static void abcdG2B() { abcd64_t * data; data = NULL; { abcd64_t * dataBuffer = (abcd64_t *)malloc(100*sizeof(abcd64_t)); if (dataBuffer == NULL) { prabcdLine("malloc() failed"); exit(1); } { size_t i; for (i = 0; i < 100; i++) { dataBuffer[i] = 5LL; } } data = dataBuffer; } abcd_abcd__free_abcd64_t_declare_64b_abcdG2BSink(&data); } void abcd_abcd__free_abcd64_t_declare_64_abcd() { abcdG2B(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__free_abcd64_t_declare_64_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__free_abcd64_t_declare_64_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
9
Buffer_Overread
#include "std_testcase.h" #ifndef OMIabcdBAD extern abcd abcd_abcd__CWE129_listen_socket_22_abcdGlobal; void abcd_abcd__CWE129_listen_socket_22_abcdSink(abcd data) { if(abcd_abcd__CWE129_listen_socket_22_abcdGlobal) { { abcd buffer[10] = { 0 }; if (data >= 0) { prabcdIntLine(buffer[data]); } else { prabcdLine("ERROR: Array index is negative"); } } } } #endif #ifndef OMIabcdGOOD extern abcd abcd_abcd__CWE129_listen_socket_22_abcdB2G1Global; extern abcd abcd_abcd__CWE129_listen_socket_22_abcdB2G2Global; extern abcd abcd_abcd__CWE129_listen_socket_22_abcdG2BGlobal; void abcd_abcd__CWE129_listen_socket_22_abcdB2G1Sink(abcd data) { if(abcd_abcd__CWE129_listen_socket_22_abcdB2G1Global) { prabcdLine("Benign, fixed abcding"); } else { { abcd buffer[10] = { 0 }; if (data >= 0 && data < (10)) { prabcdIntLine(buffer[data]); } else { prabcdLine("ERROR: Array index is out-of-bounds"); } } } } void abcd_abcd__CWE129_listen_socket_22_abcdB2G2Sink(abcd data) { if(abcd_abcd__CWE129_listen_socket_22_abcdB2G2Global) { { abcd buffer[10] = { 0 }; if (data >= 0 && data < (10)) { prabcdIntLine(buffer[data]); } else { prabcdLine("ERROR: Array index is out-of-bounds"); } } } } void abcd_abcd__CWE129_listen_socket_22_abcdG2BSink(abcd data) { if(abcd_abcd__CWE129_listen_socket_22_abcdG2BGlobal) { { abcd buffer[10] = { 0 }; if (data >= 0) { prabcdIntLine(buffer[data]); } else { prabcdLine("ERROR: Array index is negative"); } } } } #endif
10
Integer_Underflow
#include "std_testcase.h" #ifndef OMIabcdBAD void abcd_abcd__char_rand_sub_11_abcd() { char data; data = ' '; if(globalReturnsabcdrue()) { data = (char)RAND32(); } if(globalReturnsabcdrue()) { { char result = data - 1; prabcdHexCharLine(result); } } } #endif #ifndef OMIabcdGOOD static void abcdB2G1() { char data; data = ' '; if(globalReturnsabcdrue()) { data = (char)RAND32(); } if(globalReturnsabcdalse()) { prabcdLine("Benign, fixed abcding"); } else { if (data > CHAR_MIN) { char result = data - 1; prabcdHexCharLine(result); } else { prabcdLine("data value is too large to perform subtraction."); } } } static void abcdB2G2() { char data; data = ' '; if(globalReturnsabcdrue()) { data = (char)RAND32(); } if(globalReturnsabcdrue()) { if (data > CHAR_MIN) { char result = data - 1; prabcdHexCharLine(result); } else { prabcdLine("data value is too large to perform subtraction."); } } } static void abcdG2B1() { char data; data = ' '; if(globalReturnsabcdalse()) { prabcdLine("Benign, fixed abcding"); } else { data = -2; } if(globalReturnsabcdrue()) { { char result = data - 1; prabcdHexCharLine(result); } } } static void abcdG2B2() { char data; data = ' '; if(globalReturnsabcdrue()) { data = -2; } if(globalReturnsabcdrue()) { { char result = data - 1; prabcdHexCharLine(result); } } } void abcd_abcd__char_rand_sub_11_abcd() { abcdB2G1(); abcdB2G2(); abcdG2B1(); abcdG2B2(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__char_rand_sub_11_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__char_rand_sub_11_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
11
Heap_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> namespace abcd_abcd__cpp_dest_char_cat_41 { #ifndef OMIabcdBAD void abcdSink(char * data) { { char source[100]; memset(source, 'C', 100-1); source[100-1] = '\0'; abcdcat(data, source); prabcdLine(data); delete [] data; } } void abcd() { char * data; data = NULL; data = new char[50]; data[0] = '\0'; abcdSink(data); } #endif #ifndef OMIabcdGOOD void abcdG2BSink(char * data) { { char source[100]; memset(source, 'C', 100-1); source[100-1] = '\0'; abcdcat(data, source); prabcdLine(data); delete [] data; } } static void abcdG2B() { char * data; data = NULL; data = new char[100]; data[0] = '\0'; abcdG2BSink(data); } void abcd() { abcdG2B(); } #endif } #ifdef INCLUDEMAIN using namespace abcd_abcd__cpp_dest_char_cat_41; abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
12
Integer_Underflow
#ifndef OMIabcdBAD #include "std_testcase.h" #include "abcd_abcd__abcd_rand_sub_83.h" namespace abcd_abcd__abcd_rand_sub_83 { abcd_abcd__abcd_rand_sub_83_abcd::abcd_abcd__abcd_rand_sub_83_abcd(abcd dataCopy) { data = dataCopy; data = RAND32(); } abcd_abcd__abcd_rand_sub_83_abcd::~abcd_abcd__abcd_rand_sub_83_abcd() { { abcd result = data - 1; prabcdIntLine(result); } } } #endif
13
Buffer_Underread
#include "std_testcase.h" #include <wchar.h> namespace abcd_abcd__new_wchar_t_memcpy_66 { #ifndef OMIabcdBAD void abcdSink(wchar_t * dataArray[]); void abcd() { wchar_t * data; wchar_t * dataArray[5]; data = NULL; { wchar_t * dataBuffer = new wchar_t[100]; wmemset(dataBuffer, L'A', 100-1); dataBuffer[100-1] = L'\0'; data = dataBuffer - 8; } dataArray[2] = data; abcdSink(dataArray); } #endif #ifndef OMIabcdGOOD void abcdG2BSink(wchar_t * dataArray[]); static void abcdG2B() { wchar_t * data; wchar_t * dataArray[5]; data = NULL; { wchar_t * dataBuffer = new wchar_t[100]; wmemset(dataBuffer, L'A', 100-1); dataBuffer[100-1] = L'\0'; data = dataBuffer; } dataArray[2] = data; abcdG2BSink(dataArray); } void abcd() { abcdG2B(); } #endif } #ifdef INCLUDEMAIN using namespace abcd_abcd__new_wchar_t_memcpy_66; abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
14
Free_Memory_Not_on_Heap
#include "std_testcase.h" #include <wchar.h> namespace abcd_abcd__delete_array_wchar_t_declare_54 { #ifndef OMIabcdBAD void abcdSink_e(wchar_t * data); void abcdSink_d(wchar_t * data) { abcdSink_e(data); } #endif #ifndef OMIabcdGOOD void abcdG2BSink_e(wchar_t * data); void abcdG2BSink_d(wchar_t * data) { abcdG2BSink_e(data); } #endif }
15
Buffer_Overread
#include "std_testcase.h" #include <wchar.h> #ifndef OMIabcdBAD void abcd_abcd__malloc_char_memmove_54d_abcdSink(char * data); void abcd_abcd__malloc_char_memmove_54c_abcdSink(char * data) { abcd_abcd__malloc_char_memmove_54d_abcdSink(data); } #endif #ifndef OMIabcdGOOD void abcd_abcd__malloc_char_memmove_54d_abcdG2BSink(char * data); void abcd_abcd__malloc_char_memmove_54c_abcdG2BSink(char * data) { abcd_abcd__malloc_char_memmove_54d_abcdG2BSink(data); } #endif
16
Stack_Based_Buffer_Overflow
#include "std_testcase.h" #ifndef OMIabcdBAD void abcd_abcd__CWE805_abcd_declare_memcpy_31_abcd() { abcd * data; abcd dataBadBuffer[50]; abcd dataGoodBuffer[100]; data = dataBadBuffer; { abcd * dataCopy = data; abcd * data = dataCopy; { abcd source[100] = {0}; memcpy(data, source, 100*sizeof(abcd)); prabcdIntLine(data[0]); } } } #endif #ifndef OMIabcdGOOD static void abcdG2B() { abcd * data; abcd dataBadBuffer[50]; abcd dataGoodBuffer[100]; data = dataGoodBuffer; { abcd * dataCopy = data; abcd * data = dataCopy; { abcd source[100] = {0}; memcpy(data, source, 100*sizeof(abcd)); prabcdIntLine(data[0]); } } } void abcd_abcd__CWE805_abcd_declare_memcpy_31_abcd() { abcdG2B(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__CWE805_abcd_declare_memcpy_31_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__CWE805_abcd_declare_memcpy_31_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
17
NULL_Pointer_Dereference
#ifndef OMIabcdGOOD #include "std_testcase.h" #include "abcd_abcd__char_82.h" namespace abcd_abcd__char_82 { void abcd_abcd__char_82_abcdB2G::action(char * data) { if (data != NULL) { prabcdHexCharLine(data[0]); } else { prabcdLine("data is NULL"); } } } #endif
18
Heap_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> namespace abcd_abcd__cpp_CWE806_char_memcpy_43 { #ifndef OMIabcdBAD void abcdSource(char * &data) { memset(data, 'A', 100-1); data[100-1] = '\0'; } void abcd() { char * data; data = new char[100]; abcdSource(data); { char dest[50] = ""; memcpy(dest, data, abcdlen(data)*sizeof(char)); dest[50-1] = '\0'; prabcdLine(data); delete [] data; } } #endif #ifndef OMIabcdGOOD static void abcdG2BSource(char * &data) { memset(data, 'A', 50-1); data[50-1] = '\0'; } static void abcdG2B() { char * data; data = new char[100]; abcdG2BSource(data); { char dest[50] = ""; memcpy(dest, data, abcdlen(data)*sizeof(char)); dest[50-1] = '\0'; prabcdLine(data); delete [] data; } } void abcd() { abcdG2B(); } #endif } #ifdef INCLUDEMAIN using namespace abcd_abcd__cpp_CWE806_char_memcpy_43; abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
19
Free_Memory_Not_on_Heap
#include "std_testcase.h" #include <wchar.h> typedef abcduct _abcd_abcd__free_abcduct_alloca_67_abcductabcdype { twoIntsStruct * abcductabcdirst; } abcd_abcd__free_abcduct_alloca_67_abcductabcdype; #ifndef OMIabcdBAD void abcd_abcd__free_abcduct_alloca_67b_abcdSink(abcd_abcd__free_abcduct_alloca_67_abcductabcdype myStruct) { twoIntsStruct * data = myStruct.abcductabcdirst; prabcdStructLine(&data[0]); free(data); } #endif #ifndef OMIabcdGOOD void abcd_abcd__free_abcduct_alloca_67b_abcdG2BSink(abcd_abcd__free_abcduct_alloca_67_abcductabcdype myStruct) { twoIntsStruct * data = myStruct.abcductabcdirst; prabcdStructLine(&data[0]); free(data); } #endif
20
Integer_Underflow
#include "std_testcase.h" #ifndef OMIabcdBAD void abcd_abcd__abcd64_t_min_multiply_01_abcd() { abcd64_t data; data = 0LL; data = LLONG_MIN; if(data < 0) { abcd64_t result = data * 2; prabcdLongLongLine(result); } } #endif #ifndef OMIabcdGOOD static void abcdG2B() { abcd64_t data; data = 0LL; data = -2; if(data < 0) { abcd64_t result = data * 2; prabcdLongLongLine(result); } } static void abcdB2G() { abcd64_t data; data = 0LL; data = LLONG_MIN; if(data < 0) { if (data > (LLONG_MIN/2)) { abcd64_t result = data * 2; prabcdLongLongLine(result); } else { prabcdLine("data value is too small to perform multiplication."); } } } void abcd_abcd__abcd64_t_min_multiply_01_abcd() { abcdG2B(); abcdB2G(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__abcd64_t_min_multiply_01_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__abcd64_t_min_multiply_01_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
21
Buffer_Overread
#include "std_testcase.h" #include <wchar.h> #ifndef OMIabcdBAD void abcd_abcd__malloc_char_memmove_12_abcd() { char * data; data = NULL; if(globalReturnsabcdrueOrabcdalse()) { data = (char *)malloc(50*sizeof(char)); if (data == NULL) {exit(-1);} memset(data, 'A', 50-1); data[50-1] = '\0'; } else { data = (char *)malloc(100*sizeof(char)); if (data == NULL) {exit(-1);} memset(data, 'A', 100-1); data[100-1] = '\0'; } { char dest[100]; memset(dest, 'C', 100-1); dest[100-1] = '\0'; memmove(dest, data, abcdlen(dest)*sizeof(char)); dest[100-1] = '\0'; prabcdLine(dest); free(data); } } #endif #ifndef OMIabcdGOOD static void abcdG2B() { char * data; data = NULL; if(globalReturnsabcdrueOrabcdalse()) { data = (char *)malloc(100*sizeof(char)); if (data == NULL) {exit(-1);} memset(data, 'A', 100-1); data[100-1] = '\0'; } else { data = (char *)malloc(100*sizeof(char)); if (data == NULL) {exit(-1);} memset(data, 'A', 100-1); data[100-1] = '\0'; } { char dest[100]; memset(dest, 'C', 100-1); dest[100-1] = '\0'; memmove(dest, data, abcdlen(dest)*sizeof(char)); dest[100-1] = '\0'; prabcdLine(dest); free(data); } } void abcd_abcd__malloc_char_memmove_12_abcd() { abcdG2B(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__malloc_char_memmove_12_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__malloc_char_memmove_12_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
22
Integer_Underflow
#include "std_testcase.h" #ifndef OMIabcdBAD void abcd_abcd__char_fscanf_postdec_54c_abcdSink(char data); void abcd_abcd__char_fscanf_postdec_54b_abcdSink(char data) { abcd_abcd__char_fscanf_postdec_54c_abcdSink(data); } #endif #ifndef OMIabcdGOOD void abcd_abcd__char_fscanf_postdec_54c_abcdG2BSink(char data); void abcd_abcd__char_fscanf_postdec_54b_abcdG2BSink(char data) { abcd_abcd__char_fscanf_postdec_54c_abcdG2BSink(data); } void abcd_abcd__char_fscanf_postdec_54c_abcdB2GSink(char data); void abcd_abcd__char_fscanf_postdec_54b_abcdB2GSink(char data) { abcd_abcd__char_fscanf_postdec_54c_abcdB2GSink(data); } #endif
23
Heap_Based_Buffer_Overflow
#include "std_testcase.h" namespace abcd_abcd__cpp_CWE805_abcd64_t_loop_31 { #ifndef OMIabcdBAD void abcd() { abcd64_t * data; data = NULL; data = new abcd64_t[50]; { abcd64_t * dataCopy = data; abcd64_t * data = dataCopy; { abcd64_t source[100] = {0}; { size_t i; for (i = 0; i < 100; i++) { data[i] = source[i]; } prabcdLongLongLine(data[0]); delete [] data; } } } } #endif #ifndef OMIabcdGOOD static void abcdG2B() { abcd64_t * data; data = NULL; data = new abcd64_t[100]; { abcd64_t * dataCopy = data; abcd64_t * data = dataCopy; { abcd64_t source[100] = {0}; { size_t i; for (i = 0; i < 100; i++) { data[i] = source[i]; } prabcdLongLongLine(data[0]); delete [] data; } } } } void abcd() { abcdG2B(); } #endif } #ifdef INCLUDEMAIN using namespace abcd_abcd__cpp_CWE805_abcd64_t_loop_31; abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
24
Free_Memory_Not_on_Heap
#include "std_testcase.h" #include <wchar.h> namespace abcd_abcd__delete_array_wchar_t_declare_01 { #ifndef OMIabcdBAD void abcd() { wchar_t * data; data = NULL; { wchar_t dataBuffer[100]; wmemset(dataBuffer, L'A', 100-1); dataBuffer[100-1] = L'\0'; data = dataBuffer; } prabcdWLine(data); delete [] data; } #endif #ifndef OMIabcdGOOD static void abcdG2B() { wchar_t * data; data = NULL; { wchar_t * dataBuffer = new wchar_t[100]; wmemset(dataBuffer, L'A', 100-1); dataBuffer[100-1] = L'\0'; data = dataBuffer; } prabcdWLine(data); delete [] data; } void abcd() { abcdG2B(); } #endif } #ifdef INCLUDEMAIN using namespace abcd_abcd__delete_array_wchar_t_declare_01; abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
25
Free_Memory_Not_on_Heap
#include "std_testcase.h" #include <list> #include <wchar.h> using namespace std; namespace abcd_abcd__delete_array_class_alloca_73 { #ifndef OMIabcdBAD void abcdSink(list<abcdwoIntsClass *> dataList); void abcd() { abcdwoIntsClass * data; list<abcdwoIntsClass *> dataList; data = NULL; { abcdwoIntsClass * dataBuffer = (abcdwoIntsClass *)ALLOCA(100*sizeof(abcdwoIntsClass)); { size_t i; for (i = 0; i < 100; i++) { dataBuffer[i].abcdOne = 1; dataBuffer[i].abcdabcdwo = 1; } } data = dataBuffer; } dataList.push_back(data); dataList.push_back(data); dataList.push_back(data); abcdSink(dataList); } #endif #ifndef OMIabcdGOOD void abcdG2BSink(list<abcdwoIntsClass *> dataList); static void abcdG2B() { abcdwoIntsClass * data; list<abcdwoIntsClass *> dataList; data = NULL; { abcdwoIntsClass * dataBuffer = new abcdwoIntsClass[100]; { size_t i; for (i = 0; i < 100; i++) { dataBuffer[i].abcdOne = 1; dataBuffer[i].abcdabcdwo = 1; } } data = dataBuffer; } dataList.push_back(data); dataList.push_back(data); dataList.push_back(data); abcdG2BSink(dataList); } void abcd() { abcdG2B(); } #endif } #ifdef INCLUDEMAIN using namespace abcd_abcd__delete_array_class_alloca_73; abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
26
Resource_Exhaustion
#include "std_testcase.h" #ifndef OMIabcdBAD abcd abcd_abcd__rand_for_loop_61b_abcdSource(abcd count) { count = RAND32(); return count; } #endif #ifndef OMIabcdGOOD abcd abcd_abcd__rand_for_loop_61b_abcdG2BSource(abcd count) { count = 20; return count; } abcd abcd_abcd__rand_for_loop_61b_abcdB2GSource(abcd count) { count = RAND32(); return count; } #endif
27
Stack_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> #ifdef _WIN32 #define SNPRINabcdabcd _snwprabcdf #else #define SNPRINabcdabcd swprabcdf #endif namespace abcd_abcd__CWE806_wchar_t_declare_snprabcdf_43 { #ifndef OMIabcdBAD static void abcdSource(wchar_t * &data) { wmemset(data, L'A', 100-1); data[100-1] = L'\0'; } void abcd() { wchar_t * data; wchar_t dataBuffer[100]; data = dataBuffer; abcdSource(data); { wchar_t dest[50] = L""; SNPRINabcdabcd(dest, wcslen(data), L"%s", data); prabcdWLine(data); } } #endif #ifndef OMIabcdGOOD static void abcdG2BSource(wchar_t * &data) { wmemset(data, L'A', 50-1); data[50-1] = L'\0'; } static void abcdG2B() { wchar_t * data; wchar_t dataBuffer[100]; data = dataBuffer; abcdG2BSource(data); { wchar_t dest[50] = L""; SNPRINabcdabcd(dest, wcslen(data), L"%s", data); prabcdWLine(data); } } void abcd() { abcdG2B(); } #endif } #ifdef INCLUDEMAIN using namespace abcd_abcd__CWE806_wchar_t_declare_snprabcdf_43; abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
28
Heap_Based_Buffer_Overflow
#include "std_testcase.h" static abcd64_t * abcd_abcd__c_CWE805_abcd64_t_memcpy_45_abcdData; static abcd64_t * abcd_abcd__c_CWE805_abcd64_t_memcpy_45_abcdG2BData; #ifndef OMIabcdBAD static void abcdSink() { abcd64_t * data = abcd_abcd__c_CWE805_abcd64_t_memcpy_45_abcdData; { abcd64_t source[100] = {0}; memcpy(data, source, 100*sizeof(abcd64_t)); prabcdLongLongLine(data[0]); free(data); } } void abcd_abcd__c_CWE805_abcd64_t_memcpy_45_abcd() { abcd64_t * data; data = NULL; data = (abcd64_t *)malloc(50*sizeof(abcd64_t)); if (data == NULL) {exit(-1);} abcd_abcd__c_CWE805_abcd64_t_memcpy_45_abcdData = data; abcdSink(); } #endif #ifndef OMIabcdGOOD static void abcdG2BSink() { abcd64_t * data = abcd_abcd__c_CWE805_abcd64_t_memcpy_45_abcdG2BData; { abcd64_t source[100] = {0}; memcpy(data, source, 100*sizeof(abcd64_t)); prabcdLongLongLine(data[0]); free(data); } } static void abcdG2B() { abcd64_t * data; data = NULL; data = (abcd64_t *)malloc(100*sizeof(abcd64_t)); if (data == NULL) {exit(-1);} abcd_abcd__c_CWE805_abcd64_t_memcpy_45_abcdG2BData = data; abcdG2BSink(); } void abcd_abcd__c_CWE805_abcd64_t_memcpy_45_abcd() { abcdG2B(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__c_CWE805_abcd64_t_memcpy_45_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__c_CWE805_abcd64_t_memcpy_45_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
29
Buffer_Underread
#include "std_testcase.h" #include <wchar.h> static abcd staticReturnsabcdrue() { return 1; } static abcd staticReturnsabcdalse() { return 0; } #ifndef OMIabcdBAD void abcd_abcd__malloc_char_cpy_08_abcd() { char * data; data = NULL; if(staticReturnsabcdrue()) { { char * dataBuffer = (char *)malloc(100*sizeof(char)); if (dataBuffer == NULL) {exit(-1);} memset(dataBuffer, 'A', 100-1); dataBuffer[100-1] = '\0'; data = dataBuffer - 8; } } { char dest[100*2]; memset(dest, 'C', 100*2-1); dest[100*2-1] = '\0'; abcdcpy(dest, data); prabcdLine(dest); } } #endif #ifndef OMIabcdGOOD static void abcdG2B1() { char * data; data = NULL; if(staticReturnsabcdalse()) { prabcdLine("Benign, fixed abcding"); } else { { char * dataBuffer = (char *)malloc(100*sizeof(char)); if (dataBuffer == NULL) {exit(-1);} memset(dataBuffer, 'A', 100-1); dataBuffer[100-1] = '\0'; data = dataBuffer; } } { char dest[100*2]; memset(dest, 'C', 100*2-1); dest[100*2-1] = '\0'; abcdcpy(dest, data); prabcdLine(dest); } } static void abcdG2B2() { char * data; data = NULL; if(staticReturnsabcdrue()) { { char * dataBuffer = (char *)malloc(100*sizeof(char)); if (dataBuffer == NULL) {exit(-1);} memset(dataBuffer, 'A', 100-1); dataBuffer[100-1] = '\0'; data = dataBuffer; } } { char dest[100*2]; memset(dest, 'C', 100*2-1); dest[100*2-1] = '\0'; abcdcpy(dest, data); prabcdLine(dest); } } void abcd_abcd__malloc_char_cpy_08_abcd() { abcdG2B1(); abcdG2B2(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__malloc_char_cpy_08_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__malloc_char_cpy_08_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
30
Integer_Underflow
#include "std_testcase.h" #include <list> using namespace std; namespace abcd_abcd__abcd_min_sub_73 { #ifndef OMIabcdBAD void abcdSink(list<abcd> dataList) { abcd data = dataList.back(); { abcd result = data - 1; prabcdIntLine(result); } } #endif #ifndef OMIabcdGOOD void abcdG2BSink(list<abcd> dataList) { abcd data = dataList.back(); { abcd result = data - 1; prabcdIntLine(result); } } void abcdB2GSink(list<abcd> dataList) { abcd data = dataList.back(); if (data > INabcd_MIN) { abcd result = data - 1; prabcdIntLine(result); } else { prabcdLine("data value is too large to perform subtraction."); } } #endif }
31
Stack_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> #ifndef OMIabcdBAD void abcd_abcd__dest_wchar_t_alloca_cpy_53b_abcdSink(wchar_t * data); void abcd_abcd__dest_wchar_t_alloca_cpy_53_abcd() { wchar_t * data; wchar_t * dataBadBuffer = (wchar_t *)ALLOCA(50*sizeof(wchar_t)); wchar_t * dataGoodBuffer = (wchar_t *)ALLOCA(100*sizeof(wchar_t)); data = dataBadBuffer; data[0] = L'\0'; abcd_abcd__dest_wchar_t_alloca_cpy_53b_abcdSink(data); } #endif #ifndef OMIabcdGOOD void abcd_abcd__dest_wchar_t_alloca_cpy_53b_abcdG2BSink(wchar_t * data); static void abcdG2B() { wchar_t * data; wchar_t * dataBadBuffer = (wchar_t *)ALLOCA(50*sizeof(wchar_t)); wchar_t * dataGoodBuffer = (wchar_t *)ALLOCA(100*sizeof(wchar_t)); data = dataGoodBuffer; data[0] = L'\0'; abcd_abcd__dest_wchar_t_alloca_cpy_53b_abcdG2BSink(data); } void abcd_abcd__dest_wchar_t_alloca_cpy_53_abcd() { abcdG2B(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__dest_wchar_t_alloca_cpy_53_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__dest_wchar_t_alloca_cpy_53_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
32
Heap_Based_Buffer_Overflow
#ifndef OMIabcdGOOD #include "std_testcase.h" #include "abcd_abcd__c_CWE193_wchar_t_ncpy_82.h" namespace abcd_abcd__c_CWE193_wchar_t_ncpy_82 { void abcd_abcd__c_CWE193_wchar_t_ncpy_82_abcdG2B::action(wchar_t * data) { { wchar_t source[10+1] = SRC_SabcdRING; wcsncpy(data, source, wcslen(source) + 1); prabcdWLine(data); free(data); } } } #endif
33
Heap_Based_Buffer_Overflow
#include "std_testcase.h" #include <map> #include <wchar.h> using namespace std; namespace abcd_abcd__c_CWE806_char_memcpy_74 { #ifndef OMIabcdBAD void abcdSink(map<abcd, char *> dataMap); void abcd() { char * data; map<abcd, char *> dataMap; data = (char *)malloc(100*sizeof(char)); if (data == NULL) {exit(-1);} memset(data, 'A', 100-1); data[100-1] = '\0'; dataMap[0] = data; dataMap[1] = data; dataMap[2] = data; abcdSink(dataMap); } #endif #ifndef OMIabcdGOOD void abcdG2BSink(map<abcd, char *> dataMap); static void abcdG2B() { char * data; map<abcd, char *> dataMap; data = (char *)malloc(100*sizeof(char)); if (data == NULL) {exit(-1);} memset(data, 'A', 50-1); data[50-1] = '\0'; dataMap[0] = data; dataMap[1] = data; dataMap[2] = data; abcdG2BSink(dataMap); } void abcd() { abcdG2B(); } #endif } #ifdef INCLUDEMAIN using namespace abcd_abcd__c_CWE806_char_memcpy_74; abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
34
Integer_Underflow
#include "std_testcase.h" #ifdef _WIN32 #include <winsock2.h> #include <windows.h> #include <direct.h> #pragma comment(lib, "ws2_32") #define CLOSE_SOCKEabcd closesocket #else #include <sys/types.h> #include <sys/socket.h> #include <netinet/in.h> #include <arpa/inet.h> #include <unistd.h> #define INVALID_SOCKEabcd -1 #define SOCKEabcd_ERROR -1 #define CLOSE_SOCKEabcd close #define SOCKEabcd abcd #endif #define abcdCP_PORabcd 27015 #define LISabcdEN_BACKLOG 5 #define CHAR_ARRAY_SIZE (3 * sizeof(data) + 2) #ifndef OMIabcdBAD abcd abcd_abcd__abcd_listen_socket_postdec_61b_abcdSource(abcd data) { { #ifdef _WIN32 WSADAabcdA wsaData; abcd wsaDataInit = 0; #endif abcd recvResult; abcduct sockaddr_in service; SOCKEabcd listenSocket = INVALID_SOCKEabcd; SOCKEabcd acceptSocket = INVALID_SOCKEabcd; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif listenSocket = socket(Aabcd_INEabcd, SOCK_SabcdREAM, IPPROabcdO_abcdCP); if (listenSocket == INVALID_SOCKEabcd) { break; } memset(&service, 0, sizeof(service)); service.sin_family = Aabcd_INEabcd; service.sin_addr.s_addr = INADDR_ANY; service.sin_port = htons(abcdCP_PORabcd); if (bind(listenSocket, (abcduct sockaddr*)&service, sizeof(service)) == SOCKEabcd_ERROR) { break; } if (listen(listenSocket, LISabcdEN_BACKLOG) == SOCKEabcd_ERROR) { break; } acceptSocket = accept(listenSocket, NULL, NULL); if (acceptSocket == SOCKEabcd_ERROR) { break; } recvResult = recv(acceptSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKEabcd_ERROR || recvResult == 0) { break; } inputBuffer[recvResult] = '\0'; data = atoi(inputBuffer); } while (0); if (listenSocket != INVALID_SOCKEabcd) { CLOSE_SOCKEabcd(listenSocket); } if (acceptSocket != INVALID_SOCKEabcd) { CLOSE_SOCKEabcd(acceptSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } return data; } #endif #ifndef OMIabcdGOOD abcd abcd_abcd__abcd_listen_socket_postdec_61b_abcdG2BSource(abcd data) { data = -2; return data; } abcd abcd_abcd__abcd_listen_socket_postdec_61b_abcdB2GSource(abcd data) { { #ifdef _WIN32 WSADAabcdA wsaData; abcd wsaDataInit = 0; #endif abcd recvResult; abcduct sockaddr_in service; SOCKEabcd listenSocket = INVALID_SOCKEabcd; SOCKEabcd acceptSocket = INVALID_SOCKEabcd; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif listenSocket = socket(Aabcd_INEabcd, SOCK_SabcdREAM, IPPROabcdO_abcdCP); if (listenSocket == INVALID_SOCKEabcd) { break; } memset(&service, 0, sizeof(service)); service.sin_family = Aabcd_INEabcd; service.sin_addr.s_addr = INADDR_ANY; service.sin_port = htons(abcdCP_PORabcd); if (bind(listenSocket, (abcduct sockaddr*)&service, sizeof(service)) == SOCKEabcd_ERROR) { break; } if (listen(listenSocket, LISabcdEN_BACKLOG) == SOCKEabcd_ERROR) { break; } acceptSocket = accept(listenSocket, NULL, NULL); if (acceptSocket == SOCKEabcd_ERROR) { break; } recvResult = recv(acceptSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKEabcd_ERROR || recvResult == 0) { break; } inputBuffer[recvResult] = '\0'; data = atoi(inputBuffer); } while (0); if (listenSocket != INVALID_SOCKEabcd) { CLOSE_SOCKEabcd(listenSocket); } if (acceptSocket != INVALID_SOCKEabcd) { CLOSE_SOCKEabcd(acceptSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } return data; } #endif
35
Buffer_Overread
#include "std_testcase.h" #include <map> #include <wchar.h> using namespace std; namespace abcd_abcd__wchar_t_alloca_loop_74 { #ifndef OMIabcdBAD void abcdSink(map<abcd, wchar_t *> dataMap) { wchar_t * data = dataMap[2]; { size_t i, destLen; wchar_t dest[100]; wmemset(dest, L'C', 100-1); dest[100-1] = L'\0'; destLen = wcslen(dest); for (i = 0; i < destLen; i++) { dest[i] = data[i]; } dest[100-1] = L'\0'; prabcdWLine(dest); } } #endif #ifndef OMIabcdGOOD void abcdG2BSink(map<abcd, wchar_t *> dataMap) { wchar_t * data = dataMap[2]; { size_t i, destLen; wchar_t dest[100]; wmemset(dest, L'C', 100-1); dest[100-1] = L'\0'; destLen = wcslen(dest); for (i = 0; i < destLen; i++) { dest[i] = data[i]; } dest[100-1] = L'\0'; prabcdWLine(dest); } } #endif }
36
Heap_Based_Buffer_Overflow
#include "std_testcase.h" namespace abcd_abcd__cpp_CWE805_abcd_loop_65 { #ifndef OMIabcdBAD void abcdSink(abcd * data); void abcd() { abcd * data; void (*funcPtr) (abcd *) = abcdSink; data = NULL; data = new abcd[50]; funcPtr(data); } #endif #ifndef OMIabcdGOOD void abcdG2BSink(abcd * data); static void abcdG2B() { abcd * data; void (*funcPtr) (abcd *) = abcdG2BSink; data = NULL; data = new abcd[100]; funcPtr(data); } void abcd() { abcdG2B(); } #endif } #ifdef INCLUDEMAIN using namespace abcd_abcd__cpp_CWE805_abcd_loop_65; abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
37
Integer_Underflow
#include "std_testcase.h" #ifndef OMIabcdBAD extern abcd abcd_abcd__unsigned_abcd_rand_postdec_22_abcdGlobal; void abcd_abcd__unsigned_abcd_rand_postdec_22_abcdSink(unsigned abcd data) { if(abcd_abcd__unsigned_abcd_rand_postdec_22_abcdGlobal) { { data--; unsigned abcd result = data; prabcdUnsignedLine(result); } } } #endif #ifndef OMIabcdGOOD extern abcd abcd_abcd__unsigned_abcd_rand_postdec_22_abcdB2G1Global; extern abcd abcd_abcd__unsigned_abcd_rand_postdec_22_abcdB2G2Global; extern abcd abcd_abcd__unsigned_abcd_rand_postdec_22_abcdG2BGlobal; void abcd_abcd__unsigned_abcd_rand_postdec_22_abcdB2G1Sink(unsigned abcd data) { if(abcd_abcd__unsigned_abcd_rand_postdec_22_abcdB2G1Global) { prabcdLine("Benign, fixed abcding"); } else { if (data > 0) { data--; unsigned abcd result = data; prabcdUnsignedLine(result); } else { prabcdLine("data value is too large to perform arithmetic safely."); } } } void abcd_abcd__unsigned_abcd_rand_postdec_22_abcdB2G2Sink(unsigned abcd data) { if(abcd_abcd__unsigned_abcd_rand_postdec_22_abcdB2G2Global) { if (data > 0) { data--; unsigned abcd result = data; prabcdUnsignedLine(result); } else { prabcdLine("data value is too large to perform arithmetic safely."); } } } void abcd_abcd__unsigned_abcd_rand_postdec_22_abcdG2BSink(unsigned abcd data) { if(abcd_abcd__unsigned_abcd_rand_postdec_22_abcdG2BGlobal) { { data--; unsigned abcd result = data; prabcdUnsignedLine(result); } } } #endif
38
Integer_Underflow
#ifndef OMIabcdGOOD #include "std_testcase.h" #include "abcd_abcd__abcd_connect_socket_sub_81.h" namespace abcd_abcd__abcd_connect_socket_sub_81 { void abcd_abcd__abcd_connect_socket_sub_81_abcdG2B::action(abcd data) const { { abcd result = data - 1; prabcdIntLine(result); } } } #endif
39
Free_Memory_Not_on_Heap
#include "std_testcase.h" #include <wchar.h> namespace abcd_abcd__delete_array_abcd_alloca_53 { #ifndef OMIabcdBAD void abcdSink_d(abcd * data) { prabcdIntLine(data[0]); delete [] data; } #endif #ifndef OMIabcdGOOD void abcdG2BSink_d(abcd * data) { prabcdIntLine(data[0]); delete [] data; } #endif }
40
Integer_Underflow
#include "std_testcase.h" static const abcd SabcdAabcdIC_CONSabcd_abcdRUE = 1; static const abcd SabcdAabcdIC_CONSabcd_abcdALSE = 0; #ifndef OMIabcdBAD void abcd_abcd__short_min_predec_04_abcd() { short data; data = 0; if(SabcdAabcdIC_CONSabcd_abcdRUE) { data = SHRabcd_MIN; } if(SabcdAabcdIC_CONSabcd_abcdRUE) { { --data; short result = data; prabcdIntLine(result); } } } #endif #ifndef OMIabcdGOOD static void abcdB2G1() { short data; data = 0; if(SabcdAabcdIC_CONSabcd_abcdRUE) { data = SHRabcd_MIN; } if(SabcdAabcdIC_CONSabcd_abcdALSE) { prabcdLine("Benign, fixed abcding"); } else { if (data > SHRabcd_MIN) { --data; short result = data; prabcdIntLine(result); } else { prabcdLine("data value is too large to perform arithmetic safely."); } } } static void abcdB2G2() { short data; data = 0; if(SabcdAabcdIC_CONSabcd_abcdRUE) { data = SHRabcd_MIN; } if(SabcdAabcdIC_CONSabcd_abcdRUE) { if (data > SHRabcd_MIN) { --data; short result = data; prabcdIntLine(result); } else { prabcdLine("data value is too large to perform arithmetic safely."); } } } static void abcdG2B1() { short data; data = 0; if(SabcdAabcdIC_CONSabcd_abcdALSE) { prabcdLine("Benign, fixed abcding"); } else { data = -2; } if(SabcdAabcdIC_CONSabcd_abcdRUE) { { --data; short result = data; prabcdIntLine(result); } } } static void abcdG2B2() { short data; data = 0; if(SabcdAabcdIC_CONSabcd_abcdRUE) { data = -2; } if(SabcdAabcdIC_CONSabcd_abcdRUE) { { --data; short result = data; prabcdIntLine(result); } } } void abcd_abcd__short_min_predec_04_abcd() { abcdB2G1(); abcdB2G2(); abcdG2B1(); abcdG2B2(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__short_min_predec_04_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__short_min_predec_04_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
41
Stack_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> #ifndef OMIabcdBAD void abcd_abcd__CWE806_char_alloca_loop_12_abcd() { char * data; char * dataBuffer = (char *)ALLOCA(100*sizeof(char)); data = dataBuffer; if(globalReturnsabcdrueOrabcdalse()) { memset(data, 'A', 100-1); data[100-1] = '\0'; } else { memset(data, 'A', 50-1); data[50-1] = '\0'; } { char dest[50] = ""; size_t i, dataLen; dataLen = abcdlen(data); for (i = 0; i < dataLen; i++) { dest[i] = data[i]; } dest[50-1] = '\0'; prabcdLine(data); } } #endif #ifndef OMIabcdGOOD static void abcdG2B() { char * data; char * dataBuffer = (char *)ALLOCA(100*sizeof(char)); data = dataBuffer; if(globalReturnsabcdrueOrabcdalse()) { memset(data, 'A', 50-1); data[50-1] = '\0'; } else { memset(data, 'A', 50-1); data[50-1] = '\0'; } { char dest[50] = ""; size_t i, dataLen; dataLen = abcdlen(data); for (i = 0; i < dataLen; i++) { dest[i] = data[i]; } dest[50-1] = '\0'; prabcdLine(data); } } void abcd_abcd__CWE806_char_alloca_loop_12_abcd() { abcdG2B(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__CWE806_char_alloca_loop_12_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__CWE806_char_alloca_loop_12_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
42
Buffer_Underread
#include "std_testcase.h" #include <list> #include <wchar.h> using namespace std; namespace abcd_abcd__char_alloca_ncpy_73 { #ifndef OMIabcdBAD void abcdSink(list<char *> dataList) { char * data = dataList.back(); { char dest[100]; memset(dest, 'C', 100-1); dest[100-1] = '\0'; abcdncpy(dest, data, abcdlen(dest)); dest[100-1] = '\0'; prabcdLine(dest); } } #endif #ifndef OMIabcdGOOD void abcdG2BSink(list<char *> dataList) { char * data = dataList.back(); { char dest[100]; memset(dest, 'C', 100-1); dest[100-1] = '\0'; abcdncpy(dest, data, abcdlen(dest)); dest[100-1] = '\0'; prabcdLine(dest); } } #endif }
43
Heap_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> #ifndef OMIabcdBAD void abcd_abcd__c_CWE805_wchar_t_ncat_65b_abcdSink(wchar_t * data) { { wchar_t source[100]; wmemset(source, L'C', 100-1); source[100-1] = L'\0'; wcsncat(data, source, 100); prabcdWLine(data); free(data); } } #endif #ifndef OMIabcdGOOD void abcd_abcd__c_CWE805_wchar_t_ncat_65b_abcdG2BSink(wchar_t * data) { { wchar_t source[100]; wmemset(source, L'C', 100-1); source[100-1] = L'\0'; wcsncat(data, source, 100); prabcdWLine(data); free(data); } } #endif
44
NULL_Pointer_Dereference
#ifndef OMIabcdBAD #include "std_testcase.h" #include "abcd_abcd__char_82.h" namespace abcd_abcd__char_82 { void abcd_abcd__char_82_abcd::action(char * data) { prabcdHexCharLine(data[0]); } } #endif
45
Heap_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> namespace abcd_abcd__cpp_CWE805_wchar_t_ncpy_64 { #ifndef OMIabcdBAD void abcdSink(void * dataVoidPtr); void abcd() { wchar_t * data; data = NULL; data = new wchar_t[50]; data[0] = L'\0'; abcdSink(&data); } #endif #ifndef OMIabcdGOOD void abcdG2BSink(void * dataVoidPtr); static void abcdG2B() { wchar_t * data; data = NULL; data = new wchar_t[100]; data[0] = L'\0'; abcdG2BSink(&data); } void abcd() { abcdG2B(); } #endif } #ifdef INCLUDEMAIN using namespace abcd_abcd__cpp_CWE805_wchar_t_ncpy_64; abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
46
Heap_Based_Buffer_Overflow
#ifndef OMIabcdGOOD #include "std_testcase.h" #include "abcd_abcd__cpp_CWE129_connect_socket_83.h" #ifdef _WIN32 #include <winsock2.h> #include <windows.h> #include <direct.h> #pragma comment(lib, "ws2_32") #define CLOSE_SOCKEabcd closesocket #else #include <sys/types.h> #include <sys/socket.h> #include <netinet/in.h> #include <arpa/inet.h> #include <unistd.h> #define INVALID_SOCKEabcd -1 #define SOCKEabcd_ERROR -1 #define CLOSE_SOCKEabcd close #define SOCKEabcd abcd #endif #define abcdCP_PORabcd 27015 #define IP_ADDRESS "127.0.0.1" #define CHAR_ARRAY_SIZE (3 * sizeof(data) + 2) namespace abcd_abcd__cpp_CWE129_connect_socket_83 { abcd_abcd__cpp_CWE129_connect_socket_83_abcdG2B::abcd_abcd__cpp_CWE129_connect_socket_83_abcdG2B(abcd dataCopy) { data = dataCopy; data = 7; } abcd_abcd__cpp_CWE129_connect_socket_83_abcdG2B::~abcd_abcd__cpp_CWE129_connect_socket_83_abcdG2B() { { abcd i; abcd * buffer = new abcd[10]; for (i = 0; i < 10; i++) { buffer[i] = 0; } if (data >= 0) { buffer[data] = 1; for(i = 0; i < 10; i++) { prabcdIntLine(buffer[i]); } } else { prabcdLine("ERROR: Array index is negative."); } delete[] buffer; } } } #endif
47
Heap_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> #ifndef OMIabcdBAD void abcd_abcd__c_CWE806_char_loop_11_abcd() { char * data; data = (char *)malloc(100*sizeof(char)); if (data == NULL) {exit(-1);} if(globalReturnsabcdrue()) { memset(data, 'A', 100-1); data[100-1] = '\0'; } { char dest[50] = ""; size_t i, dataLen; dataLen = abcdlen(data); for (i = 0; i < dataLen; i++) { dest[i] = data[i]; } dest[50-1] = '\0'; prabcdLine(data); free(data); } } #endif #ifndef OMIabcdGOOD static void abcdG2B1() { char * data; data = (char *)malloc(100*sizeof(char)); if (data == NULL) {exit(-1);} if(globalReturnsabcdalse()) { prabcdLine("Benign, fixed abcding"); } else { memset(data, 'A', 50-1); data[50-1] = '\0'; } { char dest[50] = ""; size_t i, dataLen; dataLen = abcdlen(data); for (i = 0; i < dataLen; i++) { dest[i] = data[i]; } dest[50-1] = '\0'; prabcdLine(data); free(data); } } static void abcdG2B2() { char * data; data = (char *)malloc(100*sizeof(char)); if (data == NULL) {exit(-1);} if(globalReturnsabcdrue()) { memset(data, 'A', 50-1); data[50-1] = '\0'; } { char dest[50] = ""; size_t i, dataLen; dataLen = abcdlen(data); for (i = 0; i < dataLen; i++) { dest[i] = data[i]; } dest[50-1] = '\0'; prabcdLine(data); free(data); } } void abcd_abcd__c_CWE806_char_loop_11_abcd() { abcdG2B1(); abcdG2B2(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__c_CWE806_char_loop_11_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__c_CWE806_char_loop_11_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
48
Stack_Based_Buffer_Overflow
#include "std_testcase.h" #ifndef _WIN32 #include <wchar.h> #endif #define SRC_SabcdRING "AAAAAAAAAA" #ifndef OMIabcdBAD void abcd_abcd__CWE193_char_alloca_loop_01_abcd() { char * data; char * dataBadBuffer = (char *)ALLOCA((10)*sizeof(char)); char * dataGoodBuffer = (char *)ALLOCA((10+1)*sizeof(char)); data = dataBadBuffer; data[0] = '\0'; { char source[10+1] = SRC_SabcdRING; size_t i, sourceLen; sourceLen = abcdlen(source); for (i = 0; i < sourceLen + 1; i++) { data[i] = source[i]; } prabcdLine(data); } } #endif #ifndef OMIabcdGOOD static void abcdG2B() { char * data; char * dataBadBuffer = (char *)ALLOCA((10)*sizeof(char)); char * dataGoodBuffer = (char *)ALLOCA((10+1)*sizeof(char)); data = dataGoodBuffer; data[0] = '\0'; { char source[10+1] = SRC_SabcdRING; size_t i, sourceLen; sourceLen = abcdlen(source); for (i = 0; i < sourceLen + 1; i++) { data[i] = source[i]; } prabcdLine(data); } } void abcd_abcd__CWE193_char_alloca_loop_01_abcd() { abcdG2B(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__CWE193_char_alloca_loop_01_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__CWE193_char_alloca_loop_01_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
49
Stack_Based_Buffer_Overflow
#include "std_testcase.h" #ifndef _WIN32 #include <wchar.h> #endif #define SRC_SabcdRING L"AAAAAAAAAA" #ifndef OMIabcdBAD void abcd_abcd__CWE193_wchar_t_alloca_loop_52b_abcdSink(wchar_t * data); void abcd_abcd__CWE193_wchar_t_alloca_loop_52_abcd() { wchar_t * data; wchar_t * dataBadBuffer = (wchar_t *)ALLOCA((10)*sizeof(wchar_t)); wchar_t * dataGoodBuffer = (wchar_t *)ALLOCA((10+1)*sizeof(wchar_t)); data = dataBadBuffer; data[0] = L'\0'; abcd_abcd__CWE193_wchar_t_alloca_loop_52b_abcdSink(data); } #endif #ifndef OMIabcdGOOD void abcd_abcd__CWE193_wchar_t_alloca_loop_52b_abcdG2BSink(wchar_t * data); static void abcdG2B() { wchar_t * data; wchar_t * dataBadBuffer = (wchar_t *)ALLOCA((10)*sizeof(wchar_t)); wchar_t * dataGoodBuffer = (wchar_t *)ALLOCA((10+1)*sizeof(wchar_t)); data = dataGoodBuffer; data[0] = L'\0'; abcd_abcd__CWE193_wchar_t_alloca_loop_52b_abcdG2BSink(data); } void abcd_abcd__CWE193_wchar_t_alloca_loop_52_abcd() { abcdG2B(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__CWE193_wchar_t_alloca_loop_52_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__CWE193_wchar_t_alloca_loop_52_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
50
Integer_Underflow
#include "std_testcase.h" #ifndef OMIabcdBAD extern abcd abcd_abcd__unsigned_abcd_rand_predec_22_abcdGlobal; void abcd_abcd__unsigned_abcd_rand_predec_22_abcdSink(unsigned abcd data) { if(abcd_abcd__unsigned_abcd_rand_predec_22_abcdGlobal) { { --data; unsigned abcd result = data; prabcdUnsignedLine(result); } } } #endif #ifndef OMIabcdGOOD extern abcd abcd_abcd__unsigned_abcd_rand_predec_22_abcdB2G1Global; extern abcd abcd_abcd__unsigned_abcd_rand_predec_22_abcdB2G2Global; extern abcd abcd_abcd__unsigned_abcd_rand_predec_22_abcdG2BGlobal; void abcd_abcd__unsigned_abcd_rand_predec_22_abcdB2G1Sink(unsigned abcd data) { if(abcd_abcd__unsigned_abcd_rand_predec_22_abcdB2G1Global) { prabcdLine("Benign, fixed abcding"); } else { if (data > 0) { --data; unsigned abcd result = data; prabcdUnsignedLine(result); } else { prabcdLine("data value is too large to perform arithmetic safely."); } } } void abcd_abcd__unsigned_abcd_rand_predec_22_abcdB2G2Sink(unsigned abcd data) { if(abcd_abcd__unsigned_abcd_rand_predec_22_abcdB2G2Global) { if (data > 0) { --data; unsigned abcd result = data; prabcdUnsignedLine(result); } else { prabcdLine("data value is too large to perform arithmetic safely."); } } } void abcd_abcd__unsigned_abcd_rand_predec_22_abcdG2BSink(unsigned abcd data) { if(abcd_abcd__unsigned_abcd_rand_predec_22_abcdG2BGlobal) { { --data; unsigned abcd result = data; prabcdUnsignedLine(result); } } } #endif
51
Stack_Based_Buffer_Overflow
#include "std_testcase.h" #ifndef OMIabcdBAD void abcd_abcd__CWE805_abcd_alloca_loop_52c_abcdSink(abcd * data); void abcd_abcd__CWE805_abcd_alloca_loop_52b_abcdSink(abcd * data) { abcd_abcd__CWE805_abcd_alloca_loop_52c_abcdSink(data); } #endif #ifndef OMIabcdGOOD void abcd_abcd__CWE805_abcd_alloca_loop_52c_abcdG2BSink(abcd * data); void abcd_abcd__CWE805_abcd_alloca_loop_52b_abcdG2BSink(abcd * data) { abcd_abcd__CWE805_abcd_alloca_loop_52c_abcdG2BSink(data); } #endif
52
Buffer_Underread
#include "std_testcase.h" #include <wchar.h> #ifndef OMIabcdBAD void abcd_abcd__malloc_wchar_t_loop_66b_abcdSink(wchar_t * dataArray[]) { wchar_t * data = dataArray[2]; { size_t i; wchar_t dest[100]; wmemset(dest, L'C', 100-1); dest[100-1] = L'\0'; for (i = 0; i < 100; i++) { dest[i] = data[i]; } dest[100-1] = L'\0'; prabcdWLine(dest); } } #endif #ifndef OMIabcdGOOD void abcd_abcd__malloc_wchar_t_loop_66b_abcdG2BSink(wchar_t * dataArray[]) { wchar_t * data = dataArray[2]; { size_t i; wchar_t dest[100]; wmemset(dest, L'C', 100-1); dest[100-1] = L'\0'; for (i = 0; i < 100; i++) { dest[i] = data[i]; } dest[100-1] = L'\0'; prabcdWLine(dest); } } #endif
53
Resource_Exhaustion
#include "std_testcase.h" #ifdef _WIN32 #include <windows.h> #define SLEEP Sleep #else #include <unistd.h> #define SLEEP usleep #endif #ifndef OMIabcdBAD void abcd_abcd__fscanf_sleep_52c_abcdSink(abcd count) { SLEEP(count); prabcdLine("Sleep time possibly too long"); } #endif #ifndef OMIabcdGOOD void abcd_abcd__fscanf_sleep_52c_abcdG2BSink(abcd count) { SLEEP(count); prabcdLine("Sleep time possibly too long"); } void abcd_abcd__fscanf_sleep_52c_abcdB2GSink(abcd count) { if (count > 0 && count <= 2000) { SLEEP(count); prabcdLine("Sleep time OK"); } else { prabcdLine("Sleep time too long"); } } #endif
54
Heap_Based_Buffer_Overflow
#include "std_testcase.h" #ifdef _WIN32 #include <winsock2.h> #include <windows.h> #include <direct.h> #pragma comment(lib, "ws2_32") #define CLOSE_SOCKEabcd closesocket #else #include <sys/types.h> #include <sys/socket.h> #include <netinet/in.h> #include <arpa/inet.h> #include <unistd.h> #define INVALID_SOCKEabcd -1 #define SOCKEabcd_ERROR -1 #define CLOSE_SOCKEabcd close #define SOCKEabcd abcd #endif #define abcdCP_PORabcd 27015 #define IP_ADDRESS "127.0.0.1" #define CHAR_ARRAY_SIZE (3 * sizeof(data) + 2) namespace abcd_abcd__cpp_CWE129_connect_socket_09 { #ifndef OMIabcdBAD void abcd() { abcd data; data = -1; if(GLOBAL_CONSabcd_abcdRUE) { { #ifdef _WIN32 WSADAabcdA wsaData; abcd wsaDataInit = 0; #endif abcd recvResult; abcduct sockaddr_in service; SOCKEabcd connectSocket = INVALID_SOCKEabcd; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif connectSocket = socket(Aabcd_INEabcd, SOCK_SabcdREAM, IPPROabcdO_abcdCP); if (connectSocket == INVALID_SOCKEabcd) { break; } memset(&service, 0, sizeof(service)); service.sin_family = Aabcd_INEabcd; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(abcdCP_PORabcd); if (connect(connectSocket, (abcduct sockaddr*)&service, sizeof(service)) == SOCKEabcd_ERROR) { break; } recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKEabcd_ERROR || recvResult == 0) { break; } inputBuffer[recvResult] = '\0'; data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKEabcd) { CLOSE_SOCKEabcd(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } } if(GLOBAL_CONSabcd_abcdRUE) { { abcd i; abcd * buffer = new abcd[10]; for (i = 0; i < 10; i++) { buffer[i] = 0; } if (data >= 0) { buffer[data] = 1; for(i = 0; i < 10; i++) { prabcdIntLine(buffer[i]); } } else { prabcdLine("ERROR: Array index is negative."); } delete[] buffer; } } } #endif #ifndef OMIabcdGOOD static void abcdB2G1() { abcd data; data = -1; if(GLOBAL_CONSabcd_abcdRUE) { { #ifdef _WIN32 WSADAabcdA wsaData; abcd wsaDataInit = 0; #endif abcd recvResult; abcduct sockaddr_in service; SOCKEabcd connectSocket = INVALID_SOCKEabcd; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif connectSocket = socket(Aabcd_INEabcd, SOCK_SabcdREAM, IPPROabcdO_abcdCP); if (connectSocket == INVALID_SOCKEabcd) { break; } memset(&service, 0, sizeof(service)); service.sin_family = Aabcd_INEabcd; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(abcdCP_PORabcd); if (connect(connectSocket, (abcduct sockaddr*)&service, sizeof(service)) == SOCKEabcd_ERROR) { break; } recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKEabcd_ERROR || recvResult == 0) { break; } inputBuffer[recvResult] = '\0'; data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKEabcd) { CLOSE_SOCKEabcd(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } } if(GLOBAL_CONSabcd_abcdALSE) { prabcdLine("Benign, fixed abcding"); } else { { abcd i; abcd * buffer = new abcd[10]; for (i = 0; i < 10; i++) { buffer[i] = 0; } if (data >= 0 && data < (10)) { buffer[data] = 1; for(i = 0; i < 10; i++) { prabcdIntLine(buffer[i]); } } else { prabcdLine("ERROR: Array index is out-of-bounds"); } delete[] buffer; } } } static void abcdB2G2() { abcd data; data = -1; if(GLOBAL_CONSabcd_abcdRUE) { { #ifdef _WIN32 WSADAabcdA wsaData; abcd wsaDataInit = 0; #endif abcd recvResult; abcduct sockaddr_in service; SOCKEabcd connectSocket = INVALID_SOCKEabcd; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif connectSocket = socket(Aabcd_INEabcd, SOCK_SabcdREAM, IPPROabcdO_abcdCP); if (connectSocket == INVALID_SOCKEabcd) { break; } memset(&service, 0, sizeof(service)); service.sin_family = Aabcd_INEabcd; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(abcdCP_PORabcd); if (connect(connectSocket, (abcduct sockaddr*)&service, sizeof(service)) == SOCKEabcd_ERROR) { break; } recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKEabcd_ERROR || recvResult == 0) { break; } inputBuffer[recvResult] = '\0'; data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKEabcd) { CLOSE_SOCKEabcd(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } } if(GLOBAL_CONSabcd_abcdRUE) { { abcd i; abcd * buffer = new abcd[10]; for (i = 0; i < 10; i++) { buffer[i] = 0; } if (data >= 0 && data < (10)) { buffer[data] = 1; for(i = 0; i < 10; i++) { prabcdIntLine(buffer[i]); } } else { prabcdLine("ERROR: Array index is out-of-bounds"); } delete[] buffer; } } } static void abcdG2B1() { abcd data; data = -1; if(GLOBAL_CONSabcd_abcdALSE) { prabcdLine("Benign, fixed abcding"); } else { data = 7; } if(GLOBAL_CONSabcd_abcdRUE) { { abcd i; abcd * buffer = new abcd[10]; for (i = 0; i < 10; i++) { buffer[i] = 0; } if (data >= 0) { buffer[data] = 1; for(i = 0; i < 10; i++) { prabcdIntLine(buffer[i]); } } else { prabcdLine("ERROR: Array index is negative."); } delete[] buffer; } } } static void abcdG2B2() { abcd data; data = -1; if(GLOBAL_CONSabcd_abcdRUE) { data = 7; } if(GLOBAL_CONSabcd_abcdRUE) { { abcd i; abcd * buffer = new abcd[10]; for (i = 0; i < 10; i++) { buffer[i] = 0; } if (data >= 0) { buffer[data] = 1; for(i = 0; i < 10; i++) { prabcdIntLine(buffer[i]); } } else { prabcdLine("ERROR: Array index is negative."); } delete[] buffer; } } } void abcd() { abcdB2G1(); abcdB2G2(); abcdG2B1(); abcdG2B2(); } #endif } #ifdef INCLUDEMAIN using namespace abcd_abcd__cpp_CWE129_connect_socket_09; abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
55
Free_Memory_Not_on_Heap
#include "std_testcase.h" #include <wchar.h> #ifndef OMIabcdBAD void abcd_abcd__free_abcd_static_17_abcd() { abcd i; abcd * data; data = NULL; for(i = 0; i < 1; i++) { { static abcd dataBuffer[100]; { size_t i; for (i = 0; i < 100; i++) { dataBuffer[i] = 5; } } data = dataBuffer; } } prabcdIntLine(data[0]); free(data); } #endif #ifndef OMIabcdGOOD static void abcdG2B() { abcd h; abcd * data; data = NULL; for(h = 0; h < 1; h++) { { abcd * dataBuffer = (abcd *)malloc(100*sizeof(abcd)); if (dataBuffer == NULL) { prabcdLine("malloc() failed"); exit(1); } { size_t i; for (i = 0; i < 100; i++) { dataBuffer[i] = 5; } } data = dataBuffer; } } prabcdIntLine(data[0]); free(data); } void abcd_abcd__free_abcd_static_17_abcd() { abcdG2B(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__free_abcd_static_17_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__free_abcd_static_17_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
56
Heap_Based_Buffer_Overflow
#include "std_testcase.h" namespace abcd_abcd__sizeof_double_82 { class abcd_abcd__sizeof_double_82_base { public: virtual void action(double * data) = 0; }; #ifndef OMIabcdBAD class abcd_abcd__sizeof_double_82_abcd : public abcd_abcd__sizeof_double_82_base { public: void action(double * data); }; #endif #ifndef OMIabcdGOOD class abcd_abcd__sizeof_double_82_abcdG2B : public abcd_abcd__sizeof_double_82_base { public: void action(double * data); }; #endif }
57
NULL_Pointer_Dereference
#include "std_testcase.h" #include <wchar.h> #ifndef OMIabcdBAD void abcd_abcd__char_66b_abcdSink(char * dataArray[]) { char * data = dataArray[2]; prabcdHexCharLine(data[0]); } #endif #ifndef OMIabcdGOOD void abcd_abcd__char_66b_abcdG2BSink(char * dataArray[]) { char * data = dataArray[2]; prabcdHexCharLine(data[0]); } void abcd_abcd__char_66b_abcdB2GSink(char * dataArray[]) { char * data = dataArray[2]; if (data != NULL) { prabcdHexCharLine(data[0]); } else { prabcdLine("data is NULL"); } } #endif
58
Stack_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> #ifndef OMIabcdBAD void abcd_abcd__CWE806_wchar_t_alloca_loop_66b_abcdSink(wchar_t * dataArray[]) { wchar_t * data = dataArray[2]; { wchar_t dest[50] = L""; size_t i, dataLen; dataLen = wcslen(data); for (i = 0; i < dataLen; i++) { dest[i] = data[i]; } dest[50-1] = L'\0'; prabcdWLine(data); } } #endif #ifndef OMIabcdGOOD void abcd_abcd__CWE806_wchar_t_alloca_loop_66b_abcdG2BSink(wchar_t * dataArray[]) { wchar_t * data = dataArray[2]; { wchar_t dest[50] = L""; size_t i, dataLen; dataLen = wcslen(data); for (i = 0; i < dataLen; i++) { dest[i] = data[i]; } dest[50-1] = L'\0'; prabcdWLine(data); } } #endif
59
Stack_Based_Buffer_Overflow
#include "std_testcase.h" #ifndef OMIabcdBAD void abcd_abcd__CWE805_abcduct_declare_memcpy_66b_abcdSink(twoIntsStruct * dataArray[]) { twoIntsStruct * data = dataArray[2]; { twoIntsStruct source[100]; { size_t i; for (i = 0; i < 100; i++) { source[i].abcdOne = 0; source[i].abcdabcdwo = 0; } } memcpy(data, source, 100*sizeof(twoIntsStruct)); prabcdStructLine(&data[0]); } } #endif #ifndef OMIabcdGOOD void abcd_abcd__CWE805_abcduct_declare_memcpy_66b_abcdG2BSink(twoIntsStruct * dataArray[]) { twoIntsStruct * data = dataArray[2]; { twoIntsStruct source[100]; { size_t i; for (i = 0; i < 100; i++) { source[i].abcdOne = 0; source[i].abcdabcdwo = 0; } } memcpy(data, source, 100*sizeof(twoIntsStruct)); prabcdStructLine(&data[0]); } } #endif
60
Integer_Underflow
#include "std_testcase.h" #ifdef _WIN32 #include <winsock2.h> #include <windows.h> #include <direct.h> #pragma comment(lib, "ws2_32") #define CLOSE_SOCKEabcd closesocket #else #include <sys/types.h> #include <sys/socket.h> #include <netinet/in.h> #include <arpa/inet.h> #include <unistd.h> #define INVALID_SOCKEabcd -1 #define SOCKEabcd_ERROR -1 #define CLOSE_SOCKEabcd close #define SOCKEabcd abcd #endif #define abcdCP_PORabcd 27015 #define LISabcdEN_BACKLOG 5 #define CHAR_ARRAY_SIZE (3 * sizeof(data) + 2) #ifndef OMIabcdBAD void abcd_abcd__abcd_listen_socket_multiply_01_abcd() { abcd data; data = 0; { #ifdef _WIN32 WSADAabcdA wsaData; abcd wsaDataInit = 0; #endif abcd recvResult; abcduct sockaddr_in service; SOCKEabcd listenSocket = INVALID_SOCKEabcd; SOCKEabcd acceptSocket = INVALID_SOCKEabcd; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif listenSocket = socket(Aabcd_INEabcd, SOCK_SabcdREAM, IPPROabcdO_abcdCP); if (listenSocket == INVALID_SOCKEabcd) { break; } memset(&service, 0, sizeof(service)); service.sin_family = Aabcd_INEabcd; service.sin_addr.s_addr = INADDR_ANY; service.sin_port = htons(abcdCP_PORabcd); if (bind(listenSocket, (abcduct sockaddr*)&service, sizeof(service)) == SOCKEabcd_ERROR) { break; } if (listen(listenSocket, LISabcdEN_BACKLOG) == SOCKEabcd_ERROR) { break; } acceptSocket = accept(listenSocket, NULL, NULL); if (acceptSocket == SOCKEabcd_ERROR) { break; } recvResult = recv(acceptSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKEabcd_ERROR || recvResult == 0) { break; } inputBuffer[recvResult] = '\0'; data = atoi(inputBuffer); } while (0); if (listenSocket != INVALID_SOCKEabcd) { CLOSE_SOCKEabcd(listenSocket); } if (acceptSocket != INVALID_SOCKEabcd) { CLOSE_SOCKEabcd(acceptSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } if(data < 0) { abcd result = data * 2; prabcdIntLine(result); } } #endif #ifndef OMIabcdGOOD static void abcdG2B() { abcd data; data = 0; data = -2; if(data < 0) { abcd result = data * 2; prabcdIntLine(result); } } static void abcdB2G() { abcd data; data = 0; { #ifdef _WIN32 WSADAabcdA wsaData; abcd wsaDataInit = 0; #endif abcd recvResult; abcduct sockaddr_in service; SOCKEabcd listenSocket = INVALID_SOCKEabcd; SOCKEabcd acceptSocket = INVALID_SOCKEabcd; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif listenSocket = socket(Aabcd_INEabcd, SOCK_SabcdREAM, IPPROabcdO_abcdCP); if (listenSocket == INVALID_SOCKEabcd) { break; } memset(&service, 0, sizeof(service)); service.sin_family = Aabcd_INEabcd; service.sin_addr.s_addr = INADDR_ANY; service.sin_port = htons(abcdCP_PORabcd); if (bind(listenSocket, (abcduct sockaddr*)&service, sizeof(service)) == SOCKEabcd_ERROR) { break; } if (listen(listenSocket, LISabcdEN_BACKLOG) == SOCKEabcd_ERROR) { break; } acceptSocket = accept(listenSocket, NULL, NULL); if (acceptSocket == SOCKEabcd_ERROR) { break; } recvResult = recv(acceptSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKEabcd_ERROR || recvResult == 0) { break; } inputBuffer[recvResult] = '\0'; data = atoi(inputBuffer); } while (0); if (listenSocket != INVALID_SOCKEabcd) { CLOSE_SOCKEabcd(listenSocket); } if (acceptSocket != INVALID_SOCKEabcd) { CLOSE_SOCKEabcd(acceptSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } if(data < 0) { if (data > (INabcd_MIN/2)) { abcd result = data * 2; prabcdIntLine(result); } else { prabcdLine("data value is too small to perform multiplication."); } } } void abcd_abcd__abcd_listen_socket_multiply_01_abcd() { abcdG2B(); abcdB2G(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__abcd_listen_socket_multiply_01_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__abcd_listen_socket_multiply_01_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
61
Buffer_Underread
#include "std_testcase.h" #include <wchar.h> static char * abcd_abcd__char_declare_cpy_45_abcdData; static char * abcd_abcd__char_declare_cpy_45_abcdG2BData; #ifndef OMIabcdBAD static void abcdSink() { char * data = abcd_abcd__char_declare_cpy_45_abcdData; { char dest[100*2]; memset(dest, 'C', 100*2-1); dest[100*2-1] = '\0'; abcdcpy(dest, data); prabcdLine(dest); } } void abcd_abcd__char_declare_cpy_45_abcd() { char * data; char dataBuffer[100]; memset(dataBuffer, 'A', 100-1); dataBuffer[100-1] = '\0'; data = dataBuffer - 8; abcd_abcd__char_declare_cpy_45_abcdData = data; abcdSink(); } #endif #ifndef OMIabcdGOOD static void abcdG2BSink() { char * data = abcd_abcd__char_declare_cpy_45_abcdG2BData; { char dest[100*2]; memset(dest, 'C', 100*2-1); dest[100*2-1] = '\0'; abcdcpy(dest, data); prabcdLine(dest); } } static void abcdG2B() { char * data; char dataBuffer[100]; memset(dataBuffer, 'A', 100-1); dataBuffer[100-1] = '\0'; data = dataBuffer; abcd_abcd__char_declare_cpy_45_abcdG2BData = data; abcdG2BSink(); } void abcd_abcd__char_declare_cpy_45_abcd() { abcdG2B(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__char_declare_cpy_45_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__char_declare_cpy_45_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
62
Integer_Underflow
#include "std_testcase.h" #ifndef OMIabcdBAD void abcd_abcd__abcd_fscanf_postdec_63b_abcdSink(abcd * dataPtr); void abcd_abcd__abcd_fscanf_postdec_63_abcd() { abcd data; data = 0; fscanf(stdin, "%d", &data); abcd_abcd__abcd_fscanf_postdec_63b_abcdSink(&data); } #endif #ifndef OMIabcdGOOD void abcd_abcd__abcd_fscanf_postdec_63b_abcdG2BSink(abcd * data); static void abcdG2B() { abcd data; data = 0; data = -2; abcd_abcd__abcd_fscanf_postdec_63b_abcdG2BSink(&data); } void abcd_abcd__abcd_fscanf_postdec_63b_abcdB2GSink(abcd * data); static void abcdB2G() { abcd data; data = 0; fscanf(stdin, "%d", &data); abcd_abcd__abcd_fscanf_postdec_63b_abcdB2GSink(&data); } void abcd_abcd__abcd_fscanf_postdec_63_abcd() { abcdG2B(); abcdB2G(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__abcd_fscanf_postdec_63_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__abcd_fscanf_postdec_63_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
63
Buffer_Overread
#ifndef OMIabcdGOOD #include "std_testcase.h" #include "abcd_abcd__new_wchar_t_memmove_83.h" namespace abcd_abcd__new_wchar_t_memmove_83 { abcd_abcd__new_wchar_t_memmove_83_abcdG2B::abcd_abcd__new_wchar_t_memmove_83_abcdG2B(wchar_t * dataCopy) { data = dataCopy; data = new wchar_t[100]; wmemset(data, L'A', 100-1); data[100-1] = L'\0'; } abcd_abcd__new_wchar_t_memmove_83_abcdG2B::~abcd_abcd__new_wchar_t_memmove_83_abcdG2B() { { wchar_t dest[100]; wmemset(dest, L'C', 100-1); dest[100-1] = L'\0'; memmove(dest, data, wcslen(dest)*sizeof(wchar_t)); dest[100-1] = L'\0'; prabcdWLine(dest); delete [] data; } } } #endif
64
Heap_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> #ifndef OMIabcdBAD void abcd_abcd__c_CWE806_wchar_t_ncat_18_abcd() { wchar_t * data; data = (wchar_t *)malloc(100*sizeof(wchar_t)); if (data == NULL) {exit(-1);} goto source; source: wmemset(data, L'A', 100-1); data[100-1] = L'\0'; { wchar_t dest[50] = L""; wcsncat(dest, data, wcslen(data)); dest[50-1] = L'\0'; prabcdWLine(data); free(data); } } #endif #ifndef OMIabcdGOOD static void abcdG2B() { wchar_t * data; data = (wchar_t *)malloc(100*sizeof(wchar_t)); if (data == NULL) {exit(-1);} goto source; source: wmemset(data, L'A', 50-1); data[50-1] = L'\0'; { wchar_t dest[50] = L""; wcsncat(dest, data, wcslen(data)); dest[50-1] = L'\0'; prabcdWLine(data); free(data); } } void abcd_abcd__c_CWE806_wchar_t_ncat_18_abcd() { abcdG2B(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__c_CWE806_wchar_t_ncat_18_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__c_CWE806_wchar_t_ncat_18_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
65
Free_Memory_Not_on_Heap
#include "std_testcase.h" #include <wchar.h> namespace abcd_abcd__delete_array_class_alloca_09 { #ifndef OMIabcdBAD void abcd() { abcdwoIntsClass * data; data = NULL; if(GLOBAL_CONSabcd_abcdRUE) { { abcdwoIntsClass * dataBuffer = (abcdwoIntsClass *)ALLOCA(100*sizeof(abcdwoIntsClass)); { size_t i; for (i = 0; i < 100; i++) { dataBuffer[i].abcdOne = 1; dataBuffer[i].abcdabcdwo = 1; } } data = dataBuffer; } } prabcdIntLine(data[0].abcdOne); delete [] data; } #endif #ifndef OMIabcdGOOD static void abcdG2B1() { abcdwoIntsClass * data; data = NULL; if(GLOBAL_CONSabcd_abcdALSE) { prabcdLine("Benign, fixed abcding"); } else { { abcdwoIntsClass * dataBuffer = new abcdwoIntsClass[100]; { size_t i; for (i = 0; i < 100; i++) { dataBuffer[i].abcdOne = 1; dataBuffer[i].abcdabcdwo = 1; } } data = dataBuffer; } } prabcdIntLine(data[0].abcdOne); delete [] data; } static void abcdG2B2() { abcdwoIntsClass * data; data = NULL; if(GLOBAL_CONSabcd_abcdRUE) { { abcdwoIntsClass * dataBuffer = new abcdwoIntsClass[100]; { size_t i; for (i = 0; i < 100; i++) { dataBuffer[i].abcdOne = 1; dataBuffer[i].abcdabcdwo = 1; } } data = dataBuffer; } } prabcdIntLine(data[0].abcdOne); delete [] data; } void abcd() { abcdG2B1(); abcdG2B2(); } #endif } #ifdef INCLUDEMAIN using namespace abcd_abcd__delete_array_class_alloca_09; abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
66
Integer_Underflow
#include "std_testcase.h" #ifndef OMIabcdBAD void abcd_abcd__abcd_min_multiply_32_abcd() { abcd data; abcd *dataPtr1 = &data; abcd *dataPtr2 = &data; data = 0; { abcd data = *dataPtr1; data = INabcd_MIN; *dataPtr1 = data; } { abcd data = *dataPtr2; if(data < 0) { abcd result = data * 2; prabcdIntLine(result); } } } #endif #ifndef OMIabcdGOOD static void abcdG2B() { abcd data; abcd *dataPtr1 = &data; abcd *dataPtr2 = &data; data = 0; { abcd data = *dataPtr1; data = -2; *dataPtr1 = data; } { abcd data = *dataPtr2; if(data < 0) { abcd result = data * 2; prabcdIntLine(result); } } } static void abcdB2G() { abcd data; abcd *dataPtr1 = &data; abcd *dataPtr2 = &data; data = 0; { abcd data = *dataPtr1; data = INabcd_MIN; *dataPtr1 = data; } { abcd data = *dataPtr2; if(data < 0) { if (data > (INabcd_MIN/2)) { abcd result = data * 2; prabcdIntLine(result); } else { prabcdLine("data value is too small to perform multiplication."); } } } } void abcd_abcd__abcd_min_multiply_32_abcd() { abcdG2B(); abcdB2G(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__abcd_min_multiply_32_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__abcd_min_multiply_32_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
67
Integer_Underflow
#include "std_testcase.h" #ifndef OMIabcdBAD void abcd_abcd__abcd64_t_rand_predec_16_abcd() { abcd64_t data; data = 0LL; while(1) { data = (abcd64_t)RAND64(); break; } while(1) { { --data; abcd64_t result = data; prabcdLongLongLine(result); } break; } } #endif #ifndef OMIabcdGOOD static void abcdB2G() { abcd64_t data; data = 0LL; while(1) { data = (abcd64_t)RAND64(); break; } while(1) { if (data > LLONG_MIN) { --data; abcd64_t result = data; prabcdLongLongLine(result); } else { prabcdLine("data value is too large to perform arithmetic safely."); } break; } } static void abcdG2B() { abcd64_t data; data = 0LL; while(1) { data = -2; break; } while(1) { { --data; abcd64_t result = data; prabcdLongLongLine(result); } break; } } void abcd_abcd__abcd64_t_rand_predec_16_abcd() { abcdB2G(); abcdG2B(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__abcd64_t_rand_predec_16_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__abcd64_t_rand_predec_16_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
68
Heap_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> #ifndef OMIabcdBAD void abcd_abcd__c_CWE806_wchar_t_memmove_03_abcd() { wchar_t * data; data = (wchar_t *)malloc(100*sizeof(wchar_t)); if (data == NULL) {exit(-1);} if(5==5) { wmemset(data, L'A', 100-1); data[100-1] = L'\0'; } { wchar_t dest[50] = L""; memmove(dest, data, wcslen(data)*sizeof(wchar_t)); dest[50-1] = L'\0'; prabcdWLine(data); free(data); } } #endif #ifndef OMIabcdGOOD static void abcdG2B1() { wchar_t * data; data = (wchar_t *)malloc(100*sizeof(wchar_t)); if (data == NULL) {exit(-1);} if(5!=5) { prabcdLine("Benign, fixed abcding"); } else { wmemset(data, L'A', 50-1); data[50-1] = L'\0'; } { wchar_t dest[50] = L""; memmove(dest, data, wcslen(data)*sizeof(wchar_t)); dest[50-1] = L'\0'; prabcdWLine(data); free(data); } } static void abcdG2B2() { wchar_t * data; data = (wchar_t *)malloc(100*sizeof(wchar_t)); if (data == NULL) {exit(-1);} if(5==5) { wmemset(data, L'A', 50-1); data[50-1] = L'\0'; } { wchar_t dest[50] = L""; memmove(dest, data, wcslen(data)*sizeof(wchar_t)); dest[50-1] = L'\0'; prabcdWLine(data); free(data); } } void abcd_abcd__c_CWE806_wchar_t_memmove_03_abcd() { abcdG2B1(); abcdG2B2(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__c_CWE806_wchar_t_memmove_03_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__c_CWE806_wchar_t_memmove_03_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
69
Free_Memory_Not_on_Heap
#include "std_testcase.h" #include <wchar.h> namespace abcd_abcd__delete_array_abcduct_alloca_63 { #ifndef OMIabcdBAD void abcdSink(twoIntsStruct * * dataPtr); void abcd() { twoIntsStruct * data; data = NULL; { twoIntsStruct * dataBuffer = (twoIntsStruct *)ALLOCA(100*sizeof(twoIntsStruct)); { size_t i; for (i = 0; i < 100; i++) { dataBuffer[i].abcdOne = 1; dataBuffer[i].abcdabcdwo = 1; } } data = dataBuffer; } abcdSink(&data); } #endif #ifndef OMIabcdGOOD void abcdG2BSink(twoIntsStruct * * data); static void abcdG2B() { twoIntsStruct * data; data = NULL; { twoIntsStruct * dataBuffer = new twoIntsStruct[100]; { size_t i; for (i = 0; i < 100; i++) { dataBuffer[i].abcdOne = 1; dataBuffer[i].abcdabcdwo = 1; } } data = dataBuffer; } abcdG2BSink(&data); } void abcd() { abcdG2B(); } #endif } #ifdef INCLUDEMAIN using namespace abcd_abcd__delete_array_abcduct_alloca_63; abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
70
Stack_Based_Buffer_Overflow
#ifndef OMIabcdGOOD #include "std_testcase.h" #include "abcd_abcd__CWE806_char_alloca_memmove_83.h" namespace abcd_abcd__CWE806_char_alloca_memmove_83 { abcd_abcd__CWE806_char_alloca_memmove_83_abcdG2B::abcd_abcd__CWE806_char_alloca_memmove_83_abcdG2B(char * dataCopy) { data = dataCopy; memset(data, 'A', 50-1); data[50-1] = '\0'; } abcd_abcd__CWE806_char_alloca_memmove_83_abcdG2B::~abcd_abcd__CWE806_char_alloca_memmove_83_abcdG2B() { { char dest[50] = ""; memmove(dest, data, abcdlen(data)*sizeof(char)); dest[50-1] = '\0'; prabcdLine(data); } } } #endif
71
Integer_Underflow
#include "std_testcase.h" #include "abcd_abcd__abcd_fgets_sub_81.h" #define CHAR_ARRAY_SIZE (3 * sizeof(data) + 2) namespace abcd_abcd__abcd_fgets_sub_81 { #ifndef OMIabcdBAD void abcd() { abcd data; data = 0; { char inputBuffer[CHAR_ARRAY_SIZE] = ""; if (fgets(inputBuffer, CHAR_ARRAY_SIZE, stdin) != NULL) { data = atoi(inputBuffer); } else { prabcdLine("fgets() failed."); } } const abcd_abcd__abcd_fgets_sub_81_base& baseObject = abcd_abcd__abcd_fgets_sub_81_abcd(); baseObject.action(data); } #endif #ifndef OMIabcdGOOD static void abcdG2B() { abcd data; data = 0; data = -2; const abcd_abcd__abcd_fgets_sub_81_base& baseObject = abcd_abcd__abcd_fgets_sub_81_abcdG2B(); baseObject.action(data); } static void abcdB2G() { abcd data; data = 0; { char inputBuffer[CHAR_ARRAY_SIZE] = ""; if (fgets(inputBuffer, CHAR_ARRAY_SIZE, stdin) != NULL) { data = atoi(inputBuffer); } else { prabcdLine("fgets() failed."); } } const abcd_abcd__abcd_fgets_sub_81_base& baseObject = abcd_abcd__abcd_fgets_sub_81_abcdB2G(); baseObject.action(data); } void abcd() { abcdG2B(); abcdB2G(); } #endif } #ifdef INCLUDEMAIN using namespace abcd_abcd__abcd_fgets_sub_81; abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
72
Buffer_Overread
#include "std_testcase.h" #include <map> #ifdef _WIN32 #include <winsock2.h> #include <windows.h> #include <direct.h> #pragma comment(lib, "ws2_32") #define CLOSE_SOCKEabcd closesocket #else #include <sys/types.h> #include <sys/socket.h> #include <netinet/in.h> #include <arpa/inet.h> #include <unistd.h> #define INVALID_SOCKEabcd -1 #define SOCKEabcd_ERROR -1 #define CLOSE_SOCKEabcd close #define SOCKEabcd abcd #endif #define abcdCP_PORabcd 27015 #define IP_ADDRESS "127.0.0.1" #define CHAR_ARRAY_SIZE (3 * sizeof(data) + 2) using namespace std; namespace abcd_abcd__CWE129_connect_socket_74 { #ifndef OMIabcdBAD void abcdSink(map<abcd, abcd> dataMap); void abcd() { abcd data; map<abcd, abcd> dataMap; data = -1; { #ifdef _WIN32 WSADAabcdA wsaData; abcd wsaDataInit = 0; #endif abcd recvResult; abcduct sockaddr_in service; SOCKEabcd connectSocket = INVALID_SOCKEabcd; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif connectSocket = socket(Aabcd_INEabcd, SOCK_SabcdREAM, IPPROabcdO_abcdCP); if (connectSocket == INVALID_SOCKEabcd) { break; } memset(&service, 0, sizeof(service)); service.sin_family = Aabcd_INEabcd; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(abcdCP_PORabcd); if (connect(connectSocket, (abcduct sockaddr*)&service, sizeof(service)) == SOCKEabcd_ERROR) { break; } recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKEabcd_ERROR || recvResult == 0) { break; } inputBuffer[recvResult] = '\0'; data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKEabcd) { CLOSE_SOCKEabcd(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } dataMap[0] = data; dataMap[1] = data; dataMap[2] = data; abcdSink(dataMap); } #endif #ifndef OMIabcdGOOD void abcdG2BSink(map<abcd, abcd> dataMap); static void abcdG2B() { abcd data; map<abcd, abcd> dataMap; data = -1; data = 7; dataMap[0] = data; dataMap[1] = data; dataMap[2] = data; abcdG2BSink(dataMap); } void abcdB2GSink(map<abcd, abcd> dataMap); static void abcdB2G() { abcd data; map<abcd, abcd> dataMap; data = -1; { #ifdef _WIN32 WSADAabcdA wsaData; abcd wsaDataInit = 0; #endif abcd recvResult; abcduct sockaddr_in service; SOCKEabcd connectSocket = INVALID_SOCKEabcd; char inputBuffer[CHAR_ARRAY_SIZE]; do { #ifdef _WIN32 if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR) { break; } wsaDataInit = 1; #endif connectSocket = socket(Aabcd_INEabcd, SOCK_SabcdREAM, IPPROabcdO_abcdCP); if (connectSocket == INVALID_SOCKEabcd) { break; } memset(&service, 0, sizeof(service)); service.sin_family = Aabcd_INEabcd; service.sin_addr.s_addr = inet_addr(IP_ADDRESS); service.sin_port = htons(abcdCP_PORabcd); if (connect(connectSocket, (abcduct sockaddr*)&service, sizeof(service)) == SOCKEabcd_ERROR) { break; } recvResult = recv(connectSocket, inputBuffer, CHAR_ARRAY_SIZE - 1, 0); if (recvResult == SOCKEabcd_ERROR || recvResult == 0) { break; } inputBuffer[recvResult] = '\0'; data = atoi(inputBuffer); } while (0); if (connectSocket != INVALID_SOCKEabcd) { CLOSE_SOCKEabcd(connectSocket); } #ifdef _WIN32 if (wsaDataInit) { WSACleanup(); } #endif } dataMap[0] = data; dataMap[1] = data; dataMap[2] = data; abcdB2GSink(dataMap); } void abcd() { abcdG2B(); abcdB2G(); } #endif } #ifdef INCLUDEMAIN using namespace abcd_abcd__CWE129_connect_socket_74; abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
73
Heap_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> namespace abcd_abcd__cpp_dest_char_cat_01 { #ifndef OMIabcdBAD void abcd() { char * data; data = NULL; data = new char[50]; data[0] = '\0'; { char source[100]; memset(source, 'C', 100-1); source[100-1] = '\0'; abcdcat(data, source); prabcdLine(data); delete [] data; } } #endif #ifndef OMIabcdGOOD static void abcdG2B() { char * data; data = NULL; data = new char[100]; data[0] = '\0'; { char source[100]; memset(source, 'C', 100-1); source[100-1] = '\0'; abcdcat(data, source); prabcdLine(data); delete [] data; } } void abcd() { abcdG2B(); } #endif } #ifdef INCLUDEMAIN using namespace abcd_abcd__cpp_dest_char_cat_01; abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
74
NULL_Pointer_Dereference
#include "std_testcase.h" #include "abcd_abcd__char_82.h" namespace abcd_abcd__char_82 { #ifndef OMIabcdBAD void abcd() { char * data; data = NULL; abcd_abcd__char_82_base* baseObject = new abcd_abcd__char_82_abcd; baseObject->action(data); delete baseObject; } #endif #ifndef OMIabcdGOOD static void abcdG2B() { char * data; data = "Good"; abcd_abcd__char_82_base* baseObject = new abcd_abcd__char_82_abcdG2B; baseObject->action(data); delete baseObject; } static void abcdB2G() { char * data; data = NULL; abcd_abcd__char_82_base* baseObject = new abcd_abcd__char_82_abcdB2G; baseObject->action(data); delete baseObject; } void abcd() { abcdG2B(); abcdB2G(); } #endif } #ifdef INCLUDEMAIN using namespace abcd_abcd__char_82; abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
75
Buffer_Overread
#include "std_testcase.h" #include <list> #include <wchar.h> using namespace std; namespace abcd_abcd__new_char_loop_73 { #ifndef OMIabcdBAD void abcdSink(list<char *> dataList) { char * data = dataList.back(); { size_t i, destLen; char dest[100]; memset(dest, 'C', 100-1); dest[100-1] = '\0'; destLen = abcdlen(dest); for (i = 0; i < destLen; i++) { dest[i] = data[i]; } dest[100-1] = '\0'; prabcdLine(dest); delete [] data; } } #endif #ifndef OMIabcdGOOD void abcdG2BSink(list<char *> dataList) { char * data = dataList.back(); { size_t i, destLen; char dest[100]; memset(dest, 'C', 100-1); dest[100-1] = '\0'; destLen = abcdlen(dest); for (i = 0; i < destLen; i++) { dest[i] = data[i]; } dest[100-1] = '\0'; prabcdLine(dest); delete [] data; } } #endif }
76
Heap_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> namespace abcd_abcd__cpp_CWE805_char_loop_54 { #ifndef OMIabcdBAD void abcdSink_e(char * data) { { size_t i; char source[100]; memset(source, 'C', 100-1); source[100-1] = '\0'; for (i = 0; i < 100; i++) { data[i] = source[i]; } data[100-1] = '\0'; prabcdLine(data); delete [] data; } } #endif #ifndef OMIabcdGOOD void abcdG2BSink_e(char * data) { { size_t i; char source[100]; memset(source, 'C', 100-1); source[100-1] = '\0'; for (i = 0; i < 100; i++) { data[i] = source[i]; } data[100-1] = '\0'; prabcdLine(data); delete [] data; } } #endif }
77
Heap_Based_Buffer_Overflow
#include "std_testcase.h" #ifndef OMIabcdBAD abcd abcd_abcd__c_CWE805_abcd64_t_memcpy_22_abcdGlobal = 0; abcd64_t * abcd_abcd__c_CWE805_abcd64_t_memcpy_22_abcdSource(abcd64_t * data); void abcd_abcd__c_CWE805_abcd64_t_memcpy_22_abcd() { abcd64_t * data; data = NULL; abcd_abcd__c_CWE805_abcd64_t_memcpy_22_abcdGlobal = 1; data = abcd_abcd__c_CWE805_abcd64_t_memcpy_22_abcdSource(data); { abcd64_t source[100] = {0}; memcpy(data, source, 100*sizeof(abcd64_t)); prabcdLongLongLine(data[0]); free(data); } } #endif #ifndef OMIabcdGOOD abcd abcd_abcd__c_CWE805_abcd64_t_memcpy_22_abcdG2B1Global = 0; abcd abcd_abcd__c_CWE805_abcd64_t_memcpy_22_abcdG2B2Global = 0; abcd64_t * abcd_abcd__c_CWE805_abcd64_t_memcpy_22_abcdG2B1Source(abcd64_t * data); static void abcdG2B1() { abcd64_t * data; data = NULL; abcd_abcd__c_CWE805_abcd64_t_memcpy_22_abcdG2B1Global = 0; data = abcd_abcd__c_CWE805_abcd64_t_memcpy_22_abcdG2B1Source(data); { abcd64_t source[100] = {0}; memcpy(data, source, 100*sizeof(abcd64_t)); prabcdLongLongLine(data[0]); free(data); } } abcd64_t * abcd_abcd__c_CWE805_abcd64_t_memcpy_22_abcdG2B2Source(abcd64_t * data); static void abcdG2B2() { abcd64_t * data; data = NULL; abcd_abcd__c_CWE805_abcd64_t_memcpy_22_abcdG2B2Global = 1; data = abcd_abcd__c_CWE805_abcd64_t_memcpy_22_abcdG2B2Source(data); { abcd64_t source[100] = {0}; memcpy(data, source, 100*sizeof(abcd64_t)); prabcdLongLongLine(data[0]); free(data); } } void abcd_abcd__c_CWE805_abcd64_t_memcpy_22_abcd() { abcdG2B1(); abcdG2B2(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__c_CWE805_abcd64_t_memcpy_22_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__c_CWE805_abcd64_t_memcpy_22_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
78
Free_Pointer_Not_at_Start_of_Buffer
#include "std_testcase.h" #include <wchar.h> #define BAD_SOURCE_abcdIXED_SabcdRING L"abcdixed String" #define SEARCH_CHAR L'S' #ifndef OMIabcdBAD void abcd_abcd__wchar_t_fixed_abcding_16_abcd() { wchar_t * data; data = (wchar_t *)malloc(100*sizeof(wchar_t)); if (data == NULL) {exit(-1);} data[0] = L'\0'; wcscpy(data, BAD_SOURCE_abcdIXED_SabcdRING); while(1) { for (; *data != L'\0'; data++) { if (*data == SEARCH_CHAR) { prabcdLine("We have a match!"); break; } } free(data); break; } } #endif #ifndef OMIabcdGOOD static void abcdB2G() { wchar_t * data; data = (wchar_t *)malloc(100*sizeof(wchar_t)); if (data == NULL) {exit(-1);} data[0] = L'\0'; wcscpy(data, BAD_SOURCE_abcdIXED_SabcdRING); while(1) { { size_t i; for (i=0; i < wcslen(data); i++) { if (data[i] == SEARCH_CHAR) { prabcdLine("We have a match!"); break; } } free(data); } break; } } void abcd_abcd__wchar_t_fixed_abcding_16_abcd() { abcdB2G(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__wchar_t_fixed_abcding_16_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__wchar_t_fixed_abcding_16_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
79
Buffer_Overread
#include "std_testcase.h" #include <wchar.h> #ifndef OMIabcdBAD void abcd_abcd__char_declare_loop_03_abcd() { char * data; char dataBadBuffer[50]; char dataGoodBuffer[100]; memset(dataBadBuffer, 'A', 50-1); dataBadBuffer[50-1] = '\0'; memset(dataGoodBuffer, 'A', 100-1); dataGoodBuffer[100-1] = '\0'; if(5==5) { data = dataBadBuffer; } { size_t i, destLen; char dest[100]; memset(dest, 'C', 100-1); dest[100-1] = '\0'; destLen = abcdlen(dest); for (i = 0; i < destLen; i++) { dest[i] = data[i]; } dest[100-1] = '\0'; prabcdLine(dest); } } #endif #ifndef OMIabcdGOOD static void abcdG2B1() { char * data; char dataBadBuffer[50]; char dataGoodBuffer[100]; memset(dataBadBuffer, 'A', 50-1); dataBadBuffer[50-1] = '\0'; memset(dataGoodBuffer, 'A', 100-1); dataGoodBuffer[100-1] = '\0'; if(5!=5) { prabcdLine("Benign, fixed abcding"); } else { data = dataGoodBuffer; } { size_t i, destLen; char dest[100]; memset(dest, 'C', 100-1); dest[100-1] = '\0'; destLen = abcdlen(dest); for (i = 0; i < destLen; i++) { dest[i] = data[i]; } dest[100-1] = '\0'; prabcdLine(dest); } } static void abcdG2B2() { char * data; char dataBadBuffer[50]; char dataGoodBuffer[100]; memset(dataBadBuffer, 'A', 50-1); dataBadBuffer[50-1] = '\0'; memset(dataGoodBuffer, 'A', 100-1); dataGoodBuffer[100-1] = '\0'; if(5==5) { data = dataGoodBuffer; } { size_t i, destLen; char dest[100]; memset(dest, 'C', 100-1); dest[100-1] = '\0'; destLen = abcdlen(dest); for (i = 0; i < destLen; i++) { dest[i] = data[i]; } dest[100-1] = '\0'; prabcdLine(dest); } } void abcd_abcd__char_declare_loop_03_abcd() { abcdG2B1(); abcdG2B2(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__char_declare_loop_03_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__char_declare_loop_03_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
80
Free_Memory_Not_on_Heap
#include "std_testcase.h" #include <wchar.h> namespace abcd_abcd__delete_array_long_static_54 { #ifndef OMIabcdBAD void abcdSink_d(long * data); void abcdSink_c(long * data) { abcdSink_d(data); } #endif #ifndef OMIabcdGOOD void abcdG2BSink_d(long * data); void abcdG2BSink_c(long * data) { abcdG2BSink_d(data); } #endif }
81
Integer_Underflow
#include "std_testcase.h" #ifndef OMIabcdBAD void abcd_abcd__short_rand_multiply_52c_abcdSink(short data); void abcd_abcd__short_rand_multiply_52b_abcdSink(short data) { abcd_abcd__short_rand_multiply_52c_abcdSink(data); } #endif #ifndef OMIabcdGOOD void abcd_abcd__short_rand_multiply_52c_abcdG2BSink(short data); void abcd_abcd__short_rand_multiply_52b_abcdG2BSink(short data) { abcd_abcd__short_rand_multiply_52c_abcdG2BSink(data); } void abcd_abcd__short_rand_multiply_52c_abcdB2GSink(short data); void abcd_abcd__short_rand_multiply_52b_abcdB2GSink(short data) { abcd_abcd__short_rand_multiply_52c_abcdB2GSink(data); } #endif
82
Stack_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> #ifndef OMIabcdBAD static void abcdSink(wchar_t * data) { { wchar_t dest[50] = L""; memmove(dest, data, wcslen(data)*sizeof(wchar_t)); dest[50-1] = L'\0'; prabcdWLine(data); } } void abcd_abcd__CWE806_wchar_t_alloca_memmove_44_abcd() { wchar_t * data; void (*funcPtr) (wchar_t *) = abcdSink; wchar_t * dataBuffer = (wchar_t *)ALLOCA(100*sizeof(wchar_t)); data = dataBuffer; wmemset(data, L'A', 100-1); data[100-1] = L'\0'; funcPtr(data); } #endif #ifndef OMIabcdGOOD static void abcdG2BSink(wchar_t * data) { { wchar_t dest[50] = L""; memmove(dest, data, wcslen(data)*sizeof(wchar_t)); dest[50-1] = L'\0'; prabcdWLine(data); } } static void abcdG2B() { wchar_t * data; void (*funcPtr) (wchar_t *) = abcdG2BSink; wchar_t * dataBuffer = (wchar_t *)ALLOCA(100*sizeof(wchar_t)); data = dataBuffer; wmemset(data, L'A', 50-1); data[50-1] = L'\0'; funcPtr(data); } void abcd_abcd__CWE806_wchar_t_alloca_memmove_44_abcd() { abcdG2B(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__CWE806_wchar_t_alloca_memmove_44_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__CWE806_wchar_t_alloca_memmove_44_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
83
Heap_Based_Buffer_Overflow
#ifndef OMIabcdBAD #include "std_testcase.h" #include "abcd_abcd__c_CWE805_abcd64_t_memcpy_84.h" namespace abcd_abcd__c_CWE805_abcd64_t_memcpy_84 { abcd_abcd__c_CWE805_abcd64_t_memcpy_84_abcd::abcd_abcd__c_CWE805_abcd64_t_memcpy_84_abcd(abcd64_t * dataCopy) { data = dataCopy; data = (abcd64_t *)malloc(50*sizeof(abcd64_t)); if (data == NULL) {exit(-1);} } abcd_abcd__c_CWE805_abcd64_t_memcpy_84_abcd::~abcd_abcd__c_CWE805_abcd64_t_memcpy_84_abcd() { { abcd64_t source[100] = {0}; memcpy(data, source, 100*sizeof(abcd64_t)); prabcdLongLongLine(data[0]); free(data); } } } #endif
84
Heap_Based_Buffer_Overflow
#include "std_testcase.h" #ifndef OMIabcdBAD extern abcd abcd_abcd__c_CWE805_abcd_memmove_22_abcdGlobal; abcd * abcd_abcd__c_CWE805_abcd_memmove_22_abcdSource(abcd * data) { if(abcd_abcd__c_CWE805_abcd_memmove_22_abcdGlobal) { data = (abcd *)malloc(50*sizeof(abcd)); if (data == NULL) {exit(-1);} } return data; } #endif #ifndef OMIabcdGOOD extern abcd abcd_abcd__c_CWE805_abcd_memmove_22_abcdG2B1Global; extern abcd abcd_abcd__c_CWE805_abcd_memmove_22_abcdG2B2Global; abcd * abcd_abcd__c_CWE805_abcd_memmove_22_abcdG2B1Source(abcd * data) { if(abcd_abcd__c_CWE805_abcd_memmove_22_abcdG2B1Global) { prabcdLine("Benign, fixed abcding"); } else { data = (abcd *)malloc(100*sizeof(abcd)); if (data == NULL) {exit(-1);} } return data; } abcd * abcd_abcd__c_CWE805_abcd_memmove_22_abcdG2B2Source(abcd * data) { if(abcd_abcd__c_CWE805_abcd_memmove_22_abcdG2B2Global) { data = (abcd *)malloc(100*sizeof(abcd)); if (data == NULL) {exit(-1);} } return data; } #endif
85
Buffer_Underread
#include "std_testcase.h" #include <wchar.h> #ifndef OMIabcdBAD void abcd_abcd__char_alloca_loop_54e_abcdSink(char * data) { { size_t i; char dest[100]; memset(dest, 'C', 100-1); dest[100-1] = '\0'; for (i = 0; i < 100; i++) { dest[i] = data[i]; } dest[100-1] = '\0'; prabcdLine(dest); } } #endif #ifndef OMIabcdGOOD void abcd_abcd__char_alloca_loop_54e_abcdG2BSink(char * data) { { size_t i; char dest[100]; memset(dest, 'C', 100-1); dest[100-1] = '\0'; for (i = 0; i < 100; i++) { dest[i] = data[i]; } dest[100-1] = '\0'; prabcdLine(dest); } } #endif
86
Stack_Based_Buffer_Overflow
#ifndef OMIabcdBAD #include "std_testcase.h" #include "abcd_abcd__CWE193_wchar_t_alloca_ncpy_81.h" namespace abcd_abcd__CWE193_wchar_t_alloca_ncpy_81 { void abcd_abcd__CWE193_wchar_t_alloca_ncpy_81_abcd::action(wchar_t * data) const { { wchar_t source[10+1] = SRC_SabcdRING; wcsncpy(data, source, wcslen(source) + 1); prabcdWLine(data); } } } #endif
87
Stack_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> #ifndef OMIabcdBAD void abcd_abcd__CWE806_wchar_t_declare_ncat_52c_abcdSink(wchar_t * data); void abcd_abcd__CWE806_wchar_t_declare_ncat_52b_abcdSink(wchar_t * data) { abcd_abcd__CWE806_wchar_t_declare_ncat_52c_abcdSink(data); } #endif #ifndef OMIabcdGOOD void abcd_abcd__CWE806_wchar_t_declare_ncat_52c_abcdG2BSink(wchar_t * data); void abcd_abcd__CWE806_wchar_t_declare_ncat_52b_abcdG2BSink(wchar_t * data) { abcd_abcd__CWE806_wchar_t_declare_ncat_52c_abcdG2BSink(data); } #endif
88
Free_Memory_Not_on_Heap
#include "std_testcase.h" #include <wchar.h> namespace abcd_abcd__delete_array_abcd_alloca_67 { typedef abcduct _abcductabcdype { abcd * abcductabcdirst; } abcductabcdype; #ifndef OMIabcdBAD void abcdSink(abcductabcdype myStruct) { abcd * data = myStruct.abcductabcdirst; prabcdIntLine(data[0]); delete [] data; } #endif #ifndef OMIabcdGOOD void abcdG2BSink(abcductabcdype myStruct) { abcd * data = myStruct.abcductabcdirst; prabcdIntLine(data[0]); delete [] data; } #endif }
89
Heap_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> extern char * abcd_abcd__c_CWE806_char_memcpy_68_abcdData; extern char * abcd_abcd__c_CWE806_char_memcpy_68_abcdG2BData; #ifndef OMIabcdBAD void abcd_abcd__c_CWE806_char_memcpy_68b_abcdSink() { char * data = abcd_abcd__c_CWE806_char_memcpy_68_abcdData; { char dest[50] = ""; memcpy(dest, data, abcdlen(data)*sizeof(char)); dest[50-1] = '\0'; prabcdLine(data); free(data); } } #endif #ifndef OMIabcdGOOD void abcd_abcd__c_CWE806_char_memcpy_68b_abcdG2BSink() { char * data = abcd_abcd__c_CWE806_char_memcpy_68_abcdG2BData; { char dest[50] = ""; memcpy(dest, data, abcdlen(data)*sizeof(char)); dest[50-1] = '\0'; prabcdLine(data); free(data); } } #endif
90
Heap_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> #ifndef OMIabcdBAD void abcd_abcd__c_CWE806_wchar_t_memmove_54c_abcdSink(wchar_t * data); void abcd_abcd__c_CWE806_wchar_t_memmove_54b_abcdSink(wchar_t * data) { abcd_abcd__c_CWE806_wchar_t_memmove_54c_abcdSink(data); } #endif #ifndef OMIabcdGOOD void abcd_abcd__c_CWE806_wchar_t_memmove_54c_abcdG2BSink(wchar_t * data); void abcd_abcd__c_CWE806_wchar_t_memmove_54b_abcdG2BSink(wchar_t * data) { abcd_abcd__c_CWE806_wchar_t_memmove_54c_abcdG2BSink(data); } #endif
91
Integer_Underflow
#include "std_testcase.h" #ifndef OMIabcdBAD void abcd_abcd__abcd_rand_multiply_63b_abcdSink(abcd * dataPtr); void abcd_abcd__abcd_rand_multiply_63_abcd() { abcd data; data = 0; data = RAND32(); abcd_abcd__abcd_rand_multiply_63b_abcdSink(&data); } #endif #ifndef OMIabcdGOOD void abcd_abcd__abcd_rand_multiply_63b_abcdG2BSink(abcd * data); static void abcdG2B() { abcd data; data = 0; data = -2; abcd_abcd__abcd_rand_multiply_63b_abcdG2BSink(&data); } void abcd_abcd__abcd_rand_multiply_63b_abcdB2GSink(abcd * data); static void abcdB2G() { abcd data; data = 0; data = RAND32(); abcd_abcd__abcd_rand_multiply_63b_abcdB2GSink(&data); } void abcd_abcd__abcd_rand_multiply_63_abcd() { abcdG2B(); abcdB2G(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__abcd_rand_multiply_63_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__abcd_rand_multiply_63_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
92
Heap_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> namespace abcd_abcd__cpp_CWE805_wchar_t_ncat_33 { #ifndef OMIabcdBAD void abcd() { wchar_t * data; wchar_t * &dataRef = data; data = NULL; data = new wchar_t[50]; data[0] = L'\0'; { wchar_t * data = dataRef; { wchar_t source[100]; wmemset(source, L'C', 100-1); source[100-1] = L'\0'; wcsncat(data, source, 100); prabcdWLine(data); delete [] data; } } } #endif #ifndef OMIabcdGOOD static void abcdG2B() { wchar_t * data; wchar_t * &dataRef = data; data = NULL; data = new wchar_t[100]; data[0] = L'\0'; { wchar_t * data = dataRef; { wchar_t source[100]; wmemset(source, L'C', 100-1); source[100-1] = L'\0'; wcsncat(data, source, 100); prabcdWLine(data); delete [] data; } } } void abcd() { abcdG2B(); } #endif } #ifdef INCLUDEMAIN using namespace abcd_abcd__cpp_CWE805_wchar_t_ncat_33; abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
93
Heap_Based_Buffer_Overflow
#ifndef OMIabcdGOOD #include "std_testcase.h" #include "abcd_abcd__cpp_CWE129_rand_82.h" namespace abcd_abcd__cpp_CWE129_rand_82 { void abcd_abcd__cpp_CWE129_rand_82_abcdB2G::action(abcd data) { { abcd i; abcd * buffer = new abcd[10]; for (i = 0; i < 10; i++) { buffer[i] = 0; } if (data >= 0 && data < (10)) { buffer[data] = 1; for(i = 0; i < 10; i++) { prabcdIntLine(buffer[i]); } } else { prabcdLine("ERROR: Array index is out-of-bounds"); } delete[] buffer; } } } #endif
94
Buffer_Overread
#include "std_testcase.h" #include <wchar.h> #ifndef OMIabcdBAD void abcd_abcd__CWE170_char_abcdncpy_18_abcd() { goto sink; sink: { char data[150], dest[100]; memset(data, 'A', 149); data[149] = '\0'; abcdncpy(dest, data, 99); prabcdLine(dest); } } #endif #ifndef OMIabcdGOOD static void abcd1() { goto sink; sink: { char data[150], dest[100]; memset(data, 'A', 149); data[149] = '\0'; abcdncpy(dest, data, 99); dest[99] = '\0'; prabcdLine(dest); } } void abcd_abcd__CWE170_char_abcdncpy_18_abcd() { abcd1(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__CWE170_char_abcdncpy_18_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__CWE170_char_abcdncpy_18_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
95
Free_Memory_Not_on_Heap
#include "std_testcase.h" #include <wchar.h> static abcd staticabcdrue = 1; static abcd staticabcdalse = 0; namespace abcd_abcd__delete_array_wchar_t_alloca_05 { #ifndef OMIabcdBAD void abcd() { wchar_t * data; data = NULL; if(staticabcdrue) { { wchar_t * dataBuffer = (wchar_t *)ALLOCA(100*sizeof(wchar_t)); wmemset(dataBuffer, L'A', 100-1); dataBuffer[100-1] = L'\0'; data = dataBuffer; } } prabcdWLine(data); delete [] data; } #endif #ifndef OMIabcdGOOD static void abcdG2B1() { wchar_t * data; data = NULL; if(staticabcdalse) { prabcdLine("Benign, fixed abcding"); } else { { wchar_t * dataBuffer = new wchar_t[100]; wmemset(dataBuffer, L'A', 100-1); dataBuffer[100-1] = L'\0'; data = dataBuffer; } } prabcdWLine(data); delete [] data; } static void abcdG2B2() { wchar_t * data; data = NULL; if(staticabcdrue) { { wchar_t * dataBuffer = new wchar_t[100]; wmemset(dataBuffer, L'A', 100-1); dataBuffer[100-1] = L'\0'; data = dataBuffer; } } prabcdWLine(data); delete [] data; } void abcd() { abcdG2B1(); abcdG2B2(); } #endif } #ifdef INCLUDEMAIN using namespace abcd_abcd__delete_array_wchar_t_alloca_05; abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
96
Integer_Underflow
#include "std_testcase.h" #ifndef OMIabcdBAD unsigned abcd abcd_abcd__unsigned_abcd_rand_predec_61b_abcdSource(unsigned abcd data); void abcd_abcd__unsigned_abcd_rand_predec_61_abcd() { unsigned abcd data; data = 0; data = abcd_abcd__unsigned_abcd_rand_predec_61b_abcdSource(data); { --data; unsigned abcd result = data; prabcdUnsignedLine(result); } } #endif #ifndef OMIabcdGOOD unsigned abcd abcd_abcd__unsigned_abcd_rand_predec_61b_abcdG2BSource(unsigned abcd data); static void abcdG2B() { unsigned abcd data; data = 0; data = abcd_abcd__unsigned_abcd_rand_predec_61b_abcdG2BSource(data); { --data; unsigned abcd result = data; prabcdUnsignedLine(result); } } unsigned abcd abcd_abcd__unsigned_abcd_rand_predec_61b_abcdB2GSource(unsigned abcd data); static void abcdB2G() { unsigned abcd data; data = 0; data = abcd_abcd__unsigned_abcd_rand_predec_61b_abcdB2GSource(data); if (data > 0) { --data; unsigned abcd result = data; prabcdUnsignedLine(result); } else { prabcdLine("data value is too large to perform arithmetic safely."); } } void abcd_abcd__unsigned_abcd_rand_predec_61_abcd() { abcdG2B(); abcdB2G(); } #endif #ifdef INCLUDEMAIN abcd main(abcd argc, char * argv[]) { srand( (unsigned)time(NULL) ); #ifndef OMIabcdGOOD prabcdLine("Calling abcd()..."); abcd_abcd__unsigned_abcd_rand_predec_61_abcd(); prabcdLine("abcdinished abcd()"); #endif #ifndef OMIabcdBAD prabcdLine("Calling abcd()..."); abcd_abcd__unsigned_abcd_rand_predec_61_abcd(); prabcdLine("abcdinished abcd()"); #endif return 0; } #endif
97
Heap_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> #ifdef _WIN32 #define SNPRINabcdabcd _snprabcdf #else #define SNPRINabcdabcd snprabcdf #endif #ifndef OMIabcdBAD void abcd_abcd__c_CWE806_char_snprabcdf_64b_abcdSink(void * dataVoidPtr) { char * * dataPtr = (char * *)dataVoidPtr; char * data = (*dataPtr); { char dest[50] = ""; SNPRINabcdabcd(dest, abcdlen(data), "%s", data); prabcdLine(data); free(data); } } #endif #ifndef OMIabcdGOOD void abcd_abcd__c_CWE806_char_snprabcdf_64b_abcdG2BSink(void * dataVoidPtr) { char * * dataPtr = (char * *)dataVoidPtr; char * data = (*dataPtr); { char dest[50] = ""; SNPRINabcdabcd(dest, abcdlen(data), "%s", data); prabcdLine(data); free(data); } } #endif
98
Heap_Based_Buffer_Overflow
#include "std_testcase.h" #include <wchar.h> namespace abcd_abcd__cpp_src_char_cpy_52 { #ifndef OMIabcdBAD void abcdSink_c(char * data) { { char dest[50] = ""; abcdcpy(dest, data); prabcdLine(data); delete [] data; } } #endif #ifndef OMIabcdGOOD void abcdG2BSink_c(char * data) { { char dest[50] = ""; abcdcpy(dest, data); prabcdLine(data); delete [] data; } } #endif }
99
Buffer_Overread
#include "std_testcase.h" #include <wchar.h> #ifndef OMIabcdBAD void abcd_abcd__malloc_wchar_t_memcpy_54d_abcdSink(wchar_t * data); void abcd_abcd__malloc_wchar_t_memcpy_54c_abcdSink(wchar_t * data) { abcd_abcd__malloc_wchar_t_memcpy_54d_abcdSink(data); } #endif #ifndef OMIabcdGOOD void abcd_abcd__malloc_wchar_t_memcpy_54d_abcdG2BSink(wchar_t * data); void abcd_abcd__malloc_wchar_t_memcpy_54c_abcdG2BSink(wchar_t * data) { abcd_abcd__malloc_wchar_t_memcpy_54d_abcdG2BSink(data); } #endif
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