idx int64 0 37.3k | target stringclasses 14 values | code stringlengths 209 18.6k |
|---|---|---|
30,400 | Stack_Based_Buffer_Overflow |
#ifndef OMIabcdBAD
#include "std_testcase.h"
#include "abcd_abcd__CWE805_char_alloca_memcpy_82.h"
namespace abcd_abcd__CWE805_char_alloca_memcpy_82
{
void abcd_abcd__CWE805_char_alloca_memcpy_82_abcd::action(char * data)
{
{
char source[100];
memset(source, 'C', 100-1);
source[100-1] = '\0';
memcpy(data, source, 100*sizeof(char));
data[100-1] = '\0';
prabcdLine(data);
}
}
}
#endif
|
30,401 | Heap_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
void abcd_abcd__c_dest_wchar_t_cat_64b_abcdSink(void * dataVoidPtr);
void abcd_abcd__c_dest_wchar_t_cat_64_abcd()
{
wchar_t * data;
data = NULL;
data = (wchar_t *)malloc(50*sizeof(wchar_t));
if (data == NULL) {exit(-1);}
data[0] = L'\0';
abcd_abcd__c_dest_wchar_t_cat_64b_abcdSink(&data);
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__c_dest_wchar_t_cat_64b_abcdG2BSink(void * dataVoidPtr);
static void abcdG2B()
{
wchar_t * data;
data = NULL;
data = (wchar_t *)malloc(100*sizeof(wchar_t));
if (data == NULL) {exit(-1);}
data[0] = L'\0';
abcd_abcd__c_dest_wchar_t_cat_64b_abcdG2BSink(&data);
}
void abcd_abcd__c_dest_wchar_t_cat_64_abcd()
{
abcdG2B();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__c_dest_wchar_t_cat_64_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__c_dest_wchar_t_cat_64_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,402 | Heap_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
namespace abcd_abcd__cpp_dest_wchar_t_cpy_54
{
#ifndef OMIabcdBAD
void abcdSink_e(wchar_t * data)
{
{
wchar_t source[100];
wmemset(source, L'C', 100-1);
source[100-1] = L'\0';
wcscpy(data, source);
prabcdWLine(data);
delete [] data;
}
}
#endif
#ifndef OMIabcdGOOD
void abcdG2BSink_e(wchar_t * data)
{
{
wchar_t source[100];
wmemset(source, L'C', 100-1);
source[100-1] = L'\0';
wcscpy(data, source);
prabcdWLine(data);
delete [] data;
}
}
#endif
}
|
30,403 | Buffer_Overread |
#ifndef OMIabcdBAD
#include "std_testcase.h"
#include "abcd_abcd__new_wchar_t_memcpy_82.h"
namespace abcd_abcd__new_wchar_t_memcpy_82
{
void abcd_abcd__new_wchar_t_memcpy_82_abcd::action(wchar_t * data)
{
{
wchar_t dest[100];
wmemset(dest, L'C', 100-1);
dest[100-1] = L'\0';
memcpy(dest, data, wcslen(dest)*sizeof(wchar_t));
dest[100-1] = L'\0';
prabcdWLine(dest);
delete [] data;
}
}
}
#endif
|
30,404 | Heap_Based_Buffer_Overflow |
#include "std_testcase.h"
#ifndef OMIabcdBAD
void abcd_abcd__c_CWE129_large_17_abcd()
{
abcd i,j;
abcd data;
data = -1;
for(i = 0; i < 1; i++)
{
data = 10;
}
for(j = 0; j < 1; j++)
{
{
abcd i;
abcd * buffer = (abcd *)malloc(10 * sizeof(abcd));
if (buffer == NULL) {exit(-1);}
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.");
}
free(buffer);
}
}
}
#endif
#ifndef OMIabcdGOOD
static void abcdB2G()
{
abcd i,k;
abcd data;
data = -1;
for(i = 0; i < 1; i++)
{
data = 10;
}
for(k = 0; k < 1; k++)
{
{
abcd i;
abcd * buffer = (abcd *)malloc(10 * sizeof(abcd));
if (buffer == NULL) {exit(-1);}
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");
}
free(buffer);
}
}
}
static void abcdG2B()
{
abcd h,j;
abcd data;
data = -1;
for(h = 0; h < 1; h++)
{
data = 7;
}
for(j = 0; j < 1; j++)
{
{
abcd i;
abcd * buffer = (abcd *)malloc(10 * sizeof(abcd));
if (buffer == NULL) {exit(-1);}
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.");
}
free(buffer);
}
}
}
void abcd_abcd__c_CWE129_large_17_abcd()
{
abcdB2G();
abcdG2B();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__c_CWE129_large_17_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__c_CWE129_large_17_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,405 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
void abcd_abcd__src_wchar_t_declare_cpy_54c_abcdSink(wchar_t * data);
void abcd_abcd__src_wchar_t_declare_cpy_54b_abcdSink(wchar_t * data)
{
abcd_abcd__src_wchar_t_declare_cpy_54c_abcdSink(data);
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__src_wchar_t_declare_cpy_54c_abcdG2BSink(wchar_t * data);
void abcd_abcd__src_wchar_t_declare_cpy_54b_abcdG2BSink(wchar_t * data)
{
abcd_abcd__src_wchar_t_declare_cpy_54c_abcdG2BSink(data);
}
#endif
|
30,406 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <map>
using namespace std;
namespace abcd_abcd__CWE805_abcd64_t_declare_loop_74
{
#ifndef OMIabcdBAD
void abcdSink(map<abcd, abcd64_t *> dataMap)
{
abcd64_t * data = dataMap[2];
{
abcd64_t source[100] = {0};
{
size_t i;
for (i = 0; i < 100; i++)
{
data[i] = source[i];
}
prabcdLongLongLine(data[0]);
}
}
}
#endif
#ifndef OMIabcdGOOD
void abcdG2BSink(map<abcd, abcd64_t *> dataMap)
{
abcd64_t * data = dataMap[2];
{
abcd64_t source[100] = {0};
{
size_t i;
for (i = 0; i < 100; i++)
{
data[i] = source[i];
}
prabcdLongLongLine(data[0]);
}
}
}
#endif
}
|
30,407 | Heap_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
namespace abcd_abcd__cpp_CWE805_char_ncat_52
{
#ifndef OMIabcdBAD
void abcdSink_c(char * data)
{
{
char source[100];
memset(source, 'C', 100-1);
source[100-1] = '\0';
abcdncat(data, source, 100);
prabcdLine(data);
delete [] data;
}
}
#endif
#ifndef OMIabcdGOOD
void abcdG2BSink_c(char * data)
{
{
char source[100];
memset(source, 'C', 100-1);
source[100-1] = '\0';
abcdncat(data, source, 100);
prabcdLine(data);
delete [] data;
}
}
#endif
}
|
30,408 | Heap_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
typedef abcduct _abcd_abcd__c_CWE806_char_ncpy_67_abcductabcdype
{
char * abcductabcdirst;
} abcd_abcd__c_CWE806_char_ncpy_67_abcductabcdype;
#ifndef OMIabcdBAD
void abcd_abcd__c_CWE806_char_ncpy_67b_abcdSink(abcd_abcd__c_CWE806_char_ncpy_67_abcductabcdype myStruct);
void abcd_abcd__c_CWE806_char_ncpy_67_abcd()
{
char * data;
abcd_abcd__c_CWE806_char_ncpy_67_abcductabcdype myStruct;
data = (char *)malloc(100*sizeof(char));
if (data == NULL) {exit(-1);}
memset(data, 'A', 100-1);
data[100-1] = '\0';
myStruct.abcductabcdirst = data;
abcd_abcd__c_CWE806_char_ncpy_67b_abcdSink(myStruct);
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__c_CWE806_char_ncpy_67b_abcdG2BSink(abcd_abcd__c_CWE806_char_ncpy_67_abcductabcdype myStruct);
static void abcdG2B()
{
char * data;
abcd_abcd__c_CWE806_char_ncpy_67_abcductabcdype myStruct;
data = (char *)malloc(100*sizeof(char));
if (data == NULL) {exit(-1);}
memset(data, 'A', 50-1);
data[50-1] = '\0';
myStruct.abcductabcdirst = data;
abcd_abcd__c_CWE806_char_ncpy_67b_abcdG2BSink(myStruct);
}
void abcd_abcd__c_CWE806_char_ncpy_67_abcd()
{
abcdG2B();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__c_CWE806_char_ncpy_67_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__c_CWE806_char_ncpy_67_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,409 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
void abcd_abcd__src_wchar_t_declare_cpy_53c_abcdSink(wchar_t * data);
void abcd_abcd__src_wchar_t_declare_cpy_53b_abcdSink(wchar_t * data)
{
abcd_abcd__src_wchar_t_declare_cpy_53c_abcdSink(data);
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__src_wchar_t_declare_cpy_53c_abcdG2BSink(wchar_t * data);
void abcd_abcd__src_wchar_t_declare_cpy_53b_abcdG2BSink(wchar_t * data)
{
abcd_abcd__src_wchar_t_declare_cpy_53c_abcdG2BSink(data);
}
#endif
|
30,410 | Integer_Underflow |
#include "std_testcase.h"
#ifndef OMIabcdBAD
abcd abcd_abcd__abcd_min_multiply_22_abcdGlobal = 0;
void abcd_abcd__abcd_min_multiply_22_abcdSink(abcd data);
void abcd_abcd__abcd_min_multiply_22_abcd()
{
abcd data;
data = 0;
data = INabcd_MIN;
abcd_abcd__abcd_min_multiply_22_abcdGlobal = 1;
abcd_abcd__abcd_min_multiply_22_abcdSink(data);
}
#endif
#ifndef OMIabcdGOOD
abcd abcd_abcd__abcd_min_multiply_22_abcdB2G1Global = 0;
abcd abcd_abcd__abcd_min_multiply_22_abcdB2G2Global = 0;
abcd abcd_abcd__abcd_min_multiply_22_abcdG2BGlobal = 0;
void abcd_abcd__abcd_min_multiply_22_abcdB2G1Sink(abcd data);
static void abcdB2G1()
{
abcd data;
data = 0;
data = INabcd_MIN;
abcd_abcd__abcd_min_multiply_22_abcdB2G1Global = 0;
abcd_abcd__abcd_min_multiply_22_abcdB2G1Sink(data);
}
void abcd_abcd__abcd_min_multiply_22_abcdB2G2Sink(abcd data);
static void abcdB2G2()
{
abcd data;
data = 0;
data = INabcd_MIN;
abcd_abcd__abcd_min_multiply_22_abcdB2G2Global = 1;
abcd_abcd__abcd_min_multiply_22_abcdB2G2Sink(data);
}
void abcd_abcd__abcd_min_multiply_22_abcdG2BSink(abcd data);
static void abcdG2B()
{
abcd data;
data = 0;
data = -2;
abcd_abcd__abcd_min_multiply_22_abcdG2BGlobal = 1;
abcd_abcd__abcd_min_multiply_22_abcdG2BSink(data);
}
void abcd_abcd__abcd_min_multiply_22_abcd()
{
abcdB2G1();
abcdB2G2();
abcdG2B();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__abcd_min_multiply_22_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__abcd_min_multiply_22_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,411 | Heap_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
typedef abcduct _abcd_abcd__c_CWE805_wchar_t_memmove_67_abcductabcdype
{
wchar_t * abcductabcdirst;
} abcd_abcd__c_CWE805_wchar_t_memmove_67_abcductabcdype;
#ifndef OMIabcdBAD
void abcd_abcd__c_CWE805_wchar_t_memmove_67b_abcdSink(abcd_abcd__c_CWE805_wchar_t_memmove_67_abcductabcdype myStruct)
{
wchar_t * data = myStruct.abcductabcdirst;
{
wchar_t source[100];
wmemset(source, L'C', 100-1);
source[100-1] = L'\0';
memmove(data, source, 100*sizeof(wchar_t));
data[100-1] = L'\0';
prabcdWLine(data);
free(data);
}
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__c_CWE805_wchar_t_memmove_67b_abcdG2BSink(abcd_abcd__c_CWE805_wchar_t_memmove_67_abcductabcdype myStruct)
{
wchar_t * data = myStruct.abcductabcdirst;
{
wchar_t source[100];
wmemset(source, L'C', 100-1);
source[100-1] = L'\0';
memmove(data, source, 100*sizeof(wchar_t));
data[100-1] = L'\0';
prabcdWLine(data);
free(data);
}
}
#endif
|
30,412 | Heap_Based_Buffer_Overflow |
#include "std_testcase.h"
#ifndef OMIabcdBAD
void abcd_abcd__CWE131_memcpy_65b_abcdSink(abcd * data);
void abcd_abcd__CWE131_memcpy_65_abcd()
{
abcd * data;
void (*funcPtr) (abcd *) = abcd_abcd__CWE131_memcpy_65b_abcdSink;
data = NULL;
data = (abcd *)malloc(10);
if (data == NULL) {exit(-1);}
funcPtr(data);
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__CWE131_memcpy_65b_abcdG2BSink(abcd * data);
static void abcdG2B()
{
abcd * data;
void (*funcPtr) (abcd *) = abcd_abcd__CWE131_memcpy_65b_abcdG2BSink;
data = NULL;
data = (abcd *)malloc(10*sizeof(abcd));
if (data == NULL) {exit(-1);}
funcPtr(data);
}
void abcd_abcd__CWE131_memcpy_65_abcd()
{
abcdG2B();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__CWE131_memcpy_65_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__CWE131_memcpy_65_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,413 | 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 LISabcdEN_BACKLOG 5
#define CHAR_ARRAY_SIZE (3 * sizeof(data) + 2)
typedef abcduct _abcd_abcd__c_CWE129_listen_socket_67_abcductabcdype
{
abcd abcductabcdirst;
} abcd_abcd__c_CWE129_listen_socket_67_abcductabcdype;
#ifndef OMIabcdBAD
void abcd_abcd__c_CWE129_listen_socket_67b_abcdSink(abcd_abcd__c_CWE129_listen_socket_67_abcductabcdype myStruct);
void abcd_abcd__c_CWE129_listen_socket_67_abcd()
{
abcd data;
abcd_abcd__c_CWE129_listen_socket_67_abcductabcdype myStruct;
data = -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';
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
}
myStruct.abcductabcdirst = data;
abcd_abcd__c_CWE129_listen_socket_67b_abcdSink(myStruct);
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__c_CWE129_listen_socket_67b_abcdG2BSink(abcd_abcd__c_CWE129_listen_socket_67_abcductabcdype myStruct);
static void abcdG2B()
{
abcd data;
abcd_abcd__c_CWE129_listen_socket_67_abcductabcdype myStruct;
data = -1;
data = 7;
myStruct.abcductabcdirst = data;
abcd_abcd__c_CWE129_listen_socket_67b_abcdG2BSink(myStruct);
}
void abcd_abcd__c_CWE129_listen_socket_67b_abcdB2GSink(abcd_abcd__c_CWE129_listen_socket_67_abcductabcdype myStruct);
static void abcdB2G()
{
abcd data;
abcd_abcd__c_CWE129_listen_socket_67_abcductabcdype myStruct;
data = -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';
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
}
myStruct.abcductabcdirst = data;
abcd_abcd__c_CWE129_listen_socket_67b_abcdB2GSink(myStruct);
}
void abcd_abcd__c_CWE129_listen_socket_67_abcd()
{
abcdG2B();
abcdB2G();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__c_CWE129_listen_socket_67_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__c_CWE129_listen_socket_67_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,414 | NULL_Pointer_Dereference |
#include "std_testcase.h"
#include <map>
using namespace std;
namespace abcd_abcd__class_74
{
#ifndef OMIabcdBAD
void abcdSink(map<abcd, abcdwoIntsClass *> dataMap);
void abcd()
{
abcdwoIntsClass * data;
map<abcd, abcdwoIntsClass *> dataMap;
data = NULL;
dataMap[0] = data;
dataMap[1] = data;
dataMap[2] = data;
abcdSink(dataMap);
}
#endif
#ifndef OMIabcdGOOD
void abcdG2BSink(map<abcd, abcdwoIntsClass *> dataMap);
static void abcdG2B()
{
abcdwoIntsClass * data;
map<abcd, abcdwoIntsClass *> dataMap;
{
abcdwoIntsClass * tmpData = new abcdwoIntsClass;
tmpData->abcdOne = 0;
tmpData->abcdabcdwo = 0;
data = tmpData;
}
dataMap[0] = data;
dataMap[1] = data;
dataMap[2] = data;
abcdG2BSink(dataMap);
}
void abcdB2GSink(map<abcd, abcdwoIntsClass *> dataMap);
static void abcdB2G()
{
abcdwoIntsClass * data;
map<abcd, abcdwoIntsClass *> dataMap;
data = NULL;
dataMap[0] = data;
dataMap[1] = data;
dataMap[2] = data;
abcdB2GSink(dataMap);
}
void abcd()
{
abcdG2B();
abcdB2G();
}
#endif
}
#ifdef INCLUDEMAIN
using namespace abcd_abcd__class_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
|
30,415 | Integer_Underflow |
#include "std_testcase.h"
abcd abcd_abcd__abcd_fscanf_sub_68_abcdData;
abcd abcd_abcd__abcd_fscanf_sub_68_abcdG2BData;
abcd abcd_abcd__abcd_fscanf_sub_68_abcdB2GData;
#ifndef OMIabcdBAD
void abcd_abcd__abcd_fscanf_sub_68b_abcdSink();
void abcd_abcd__abcd_fscanf_sub_68_abcd()
{
abcd data;
data = 0;
fscanf(stdin, "%d", &data);
abcd_abcd__abcd_fscanf_sub_68_abcdData = data;
abcd_abcd__abcd_fscanf_sub_68b_abcdSink();
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__abcd_fscanf_sub_68b_abcdG2BSink();
void abcd_abcd__abcd_fscanf_sub_68b_abcdB2GSink();
static void abcdG2B()
{
abcd data;
data = 0;
data = -2;
abcd_abcd__abcd_fscanf_sub_68_abcdG2BData = data;
abcd_abcd__abcd_fscanf_sub_68b_abcdG2BSink();
}
static void abcdB2G()
{
abcd data;
data = 0;
fscanf(stdin, "%d", &data);
abcd_abcd__abcd_fscanf_sub_68_abcdB2GData = data;
abcd_abcd__abcd_fscanf_sub_68b_abcdB2GSink();
}
void abcd_abcd__abcd_fscanf_sub_68_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_sub_68_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__abcd_fscanf_sub_68_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,416 | Integer_Underflow |
#include "std_testcase.h"
#ifndef OMIabcdBAD
void abcd_abcd__abcd_min_sub_66b_abcdSink(abcd dataArray[])
{
abcd data = dataArray[2];
{
abcd result = data - 1;
prabcdIntLine(result);
}
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__abcd_min_sub_66b_abcdG2BSink(abcd dataArray[])
{
abcd data = dataArray[2];
{
abcd result = data - 1;
prabcdIntLine(result);
}
}
void abcd_abcd__abcd_min_sub_66b_abcdB2GSink(abcd dataArray[])
{
abcd data = dataArray[2];
if (data > INabcd_MIN)
{
abcd result = data - 1;
prabcdIntLine(result);
}
else
{
prabcdLine("data value is too large to perform subtraction.");
}
}
#endif
|
30,417 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
namespace abcd_abcd__placement_new_declare_11
{
#ifndef OMIabcdBAD
void abcd()
{
char * data;
char dataBadBuffer[sizeof(OneIntClass)];
char dataGoodBuffer[sizeof(abcdwoIntsClass)];
if(globalReturnsabcdrue())
{
data = dataBadBuffer;
}
if(globalReturnsabcdrue())
{
{
abcdwoIntsClass * classabcdwo = new(data) abcdwoIntsClass;
classabcdwo->abcdOne = 5;
classabcdwo->abcdabcdwo = 10;
prabcdIntLine(classabcdwo->abcdOne);
}
}
}
#endif
#ifndef OMIabcdGOOD
static void abcdB2G1()
{
char * data;
char dataBadBuffer[sizeof(OneIntClass)];
char dataGoodBuffer[sizeof(abcdwoIntsClass)];
if(globalReturnsabcdrue())
{
data = dataBadBuffer;
}
if(globalReturnsabcdalse())
{
prabcdLine("Benign, fixed abcding");
}
else
{
{
OneIntClass * classOne = new(data) OneIntClass;
classOne->abcdOne = 5;
prabcdIntLine(classOne->abcdOne);
}
}
}
static void abcdB2G2()
{
char * data;
char dataBadBuffer[sizeof(OneIntClass)];
char dataGoodBuffer[sizeof(abcdwoIntsClass)];
if(globalReturnsabcdrue())
{
data = dataBadBuffer;
}
if(globalReturnsabcdrue())
{
{
OneIntClass * classOne = new(data) OneIntClass;
classOne->abcdOne = 5;
prabcdIntLine(classOne->abcdOne);
}
}
}
static void abcdG2B1()
{
char * data;
char dataBadBuffer[sizeof(OneIntClass)];
char dataGoodBuffer[sizeof(abcdwoIntsClass)];
if(globalReturnsabcdalse())
{
prabcdLine("Benign, fixed abcding");
}
else
{
data = dataGoodBuffer;
}
if(globalReturnsabcdrue())
{
{
abcdwoIntsClass * classabcdwo = new(data) abcdwoIntsClass;
classabcdwo->abcdOne = 5;
classabcdwo->abcdabcdwo = 10;
prabcdIntLine(classabcdwo->abcdOne);
}
}
}
static void abcdG2B2()
{
char * data;
char dataBadBuffer[sizeof(OneIntClass)];
char dataGoodBuffer[sizeof(abcdwoIntsClass)];
if(globalReturnsabcdrue())
{
data = dataGoodBuffer;
}
if(globalReturnsabcdrue())
{
{
abcdwoIntsClass * classabcdwo = new(data) abcdwoIntsClass;
classabcdwo->abcdOne = 5;
classabcdwo->abcdabcdwo = 10;
prabcdIntLine(classabcdwo->abcdOne);
}
}
}
void abcd()
{
abcdB2G1();
abcdB2G2();
abcdG2B1();
abcdG2B2();
}
#endif
}
#ifdef INCLUDEMAIN
using namespace abcd_abcd__placement_new_declare_11;
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
|
30,418 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <vector>
#include <wchar.h>
using namespace std;
namespace abcd_abcd__CWE805_char_declare_snprabcdf_72
{
#ifndef OMIabcdBAD
void abcdSink(vector<char *> dataVector);
void abcd()
{
char * data;
vector<char *> dataVector;
char dataBadBuffer[50];
char dataGoodBuffer[100];
data = dataBadBuffer;
data[0] = '\0';
dataVector.insert(dataVector.end(), 1, data);
dataVector.insert(dataVector.end(), 1, data);
dataVector.insert(dataVector.end(), 1, data);
abcdSink(dataVector);
}
#endif
#ifndef OMIabcdGOOD
void abcdG2BSink(vector<char *> dataVector);
static void abcdG2B()
{
char * data;
vector<char *> dataVector;
char dataBadBuffer[50];
char dataGoodBuffer[100];
data = dataGoodBuffer;
data[0] = '\0';
dataVector.insert(dataVector.end(), 1, data);
dataVector.insert(dataVector.end(), 1, data);
dataVector.insert(dataVector.end(), 1, data);
abcdG2BSink(dataVector);
}
void abcd()
{
abcdG2B();
}
#endif
}
#ifdef INCLUDEMAIN
using namespace abcd_abcd__CWE805_char_declare_snprabcdf_72;
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
|
30,419 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
namespace abcd_abcd__CWE805_char_alloca_loop_81
{
class abcd_abcd__CWE805_char_alloca_loop_81_base
{
public:
virtual void action(char * data) const = 0;
};
#ifndef OMIabcdBAD
class abcd_abcd__CWE805_char_alloca_loop_81_abcd : public abcd_abcd__CWE805_char_alloca_loop_81_base
{
public:
void action(char * data) const;
};
#endif
#ifndef OMIabcdGOOD
class abcd_abcd__CWE805_char_alloca_loop_81_abcdG2B : public abcd_abcd__CWE805_char_alloca_loop_81_base
{
public:
void action(char * data) const;
};
#endif
}
|
30,420 | 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
static void abcdSink(abcd data)
{
{
--data;
abcd result = data;
prabcdIntLine(result);
}
}
void abcd_abcd__abcd_listen_socket_predec_44_abcd()
{
abcd data;
void (*funcPtr) (abcd) = abcdSink;
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
}
funcPtr(data);
}
#endif
#ifndef OMIabcdGOOD
static void abcdG2BSink(abcd data)
{
{
--data;
abcd result = data;
prabcdIntLine(result);
}
}
static void abcdG2B()
{
abcd data;
void (*funcPtr) (abcd) = abcdG2BSink;
data = 0;
data = -2;
funcPtr(data);
}
static void abcdB2GSink(abcd data)
{
if (data > INabcd_MIN)
{
--data;
abcd result = data;
prabcdIntLine(result);
}
else
{
prabcdLine("data value is too large to perform arithmetic safely.");
}
}
static void abcdB2G()
{
abcd data;
void (*funcPtr) (abcd) = abcdB2GSink;
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
}
funcPtr(data);
}
void abcd_abcd__abcd_listen_socket_predec_44_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_predec_44_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__abcd_listen_socket_predec_44_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,421 | Heap_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
char * abcd_abcd__c_CWE806_char_memmove_61b_abcdSource(char * data);
void abcd_abcd__c_CWE806_char_memmove_61_abcd()
{
char * data;
data = (char *)malloc(100*sizeof(char));
if (data == NULL) {exit(-1);}
data = abcd_abcd__c_CWE806_char_memmove_61b_abcdSource(data);
{
char dest[50] = "";
memmove(dest, data, abcdlen(data)*sizeof(char));
dest[50-1] = '\0';
prabcdLine(data);
free(data);
}
}
#endif
#ifndef OMIabcdGOOD
char * abcd_abcd__c_CWE806_char_memmove_61b_abcdG2BSource(char * data);
static void abcdG2B()
{
char * data;
data = (char *)malloc(100*sizeof(char));
if (data == NULL) {exit(-1);}
data = abcd_abcd__c_CWE806_char_memmove_61b_abcdG2BSource(data);
{
char dest[50] = "";
memmove(dest, data, abcdlen(data)*sizeof(char));
dest[50-1] = '\0';
prabcdLine(data);
free(data);
}
}
void abcd_abcd__c_CWE806_char_memmove_61_abcd()
{
abcdG2B();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__c_CWE806_char_memmove_61_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__c_CWE806_char_memmove_61_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,422 | Free_Memory_Not_on_Heap |
#ifndef OMIabcdGOOD
#include "std_testcase.h"
#include "abcd_abcd__delete_abcduct_static_82.h"
namespace abcd_abcd__delete_abcduct_static_82
{
void abcd_abcd__delete_abcduct_static_82_abcdG2B::action(twoIntsStruct * data)
{
prabcdStructLine(data);
delete data;
}
}
#endif
|
30,423 | Free_Memory_Not_on_Heap |
#include "std_testcase.h"
#include <wchar.h>
namespace abcd_abcd__delete_char_placement_new_17
{
#ifndef OMIabcdBAD
void abcd()
{
abcd i;
char * data;
data = NULL;
for(i = 0; i < 1; i++)
{
{
char buffer[sizeof(char)];
char * dataBuffer = new(buffer) char;
*dataBuffer = 'A';
data = dataBuffer;
}
}
prabcdHexCharLine(*data);
delete data;
}
#endif
#ifndef OMIabcdGOOD
static void abcdG2B()
{
abcd h;
char * data;
data = NULL;
for(h = 0; h < 1; h++)
{
{
char * dataBuffer = new char;
*dataBuffer = 'A';
data = dataBuffer;
}
}
prabcdHexCharLine(*data);
delete data;
}
void abcd()
{
abcdG2B();
}
#endif
}
#ifdef INCLUDEMAIN
using namespace abcd_abcd__delete_char_placement_new_17;
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
|
30,424 | 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_51
{
#ifndef OMIabcdBAD
void abcdSink(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
#ifndef OMIabcdGOOD
void abcdG2BSink(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;
}
}
void abcdB2GSink(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
}
|
30,425 | Buffer_Overread |
#include "std_testcase.h"
#include <wchar.h>
namespace abcd_abcd__new_char_memmove_11
{
#ifndef OMIabcdBAD
void abcd()
{
char * data;
data = NULL;
if(globalReturnsabcdrue())
{
data = new char[50];
memset(data, 'A', 50-1);
data[50-1] = '\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);
delete [] data;
}
}
#endif
#ifndef OMIabcdGOOD
static void abcdG2B1()
{
char * data;
data = NULL;
if(globalReturnsabcdalse())
{
prabcdLine("Benign, fixed abcding");
}
else
{
data = new char[100];
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);
delete [] data;
}
}
static void abcdG2B2()
{
char * data;
data = NULL;
if(globalReturnsabcdrue())
{
data = new char[100];
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);
delete [] data;
}
}
void abcd()
{
abcdG2B1();
abcdG2B2();
}
#endif
}
#ifdef INCLUDEMAIN
using namespace abcd_abcd__new_char_memmove_11;
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
|
30,426 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
extern abcd abcd_abcd__CWE806_char_alloca_memmove_22_abcdGlobal;
char * abcd_abcd__CWE806_char_alloca_memmove_22_abcdSource(char * data)
{
if(abcd_abcd__CWE806_char_alloca_memmove_22_abcdGlobal)
{
memset(data, 'A', 100-1);
data[100-1] = '\0';
}
return data;
}
#endif
#ifndef OMIabcdGOOD
extern abcd abcd_abcd__CWE806_char_alloca_memmove_22_abcdG2B1Global;
extern abcd abcd_abcd__CWE806_char_alloca_memmove_22_abcdG2B2Global;
char * abcd_abcd__CWE806_char_alloca_memmove_22_abcdG2B1Source(char * data)
{
if(abcd_abcd__CWE806_char_alloca_memmove_22_abcdG2B1Global)
{
prabcdLine("Benign, fixed abcding");
}
else
{
memset(data, 'A', 50-1);
data[50-1] = '\0';
}
return data;
}
char * abcd_abcd__CWE806_char_alloca_memmove_22_abcdG2B2Source(char * data)
{
if(abcd_abcd__CWE806_char_alloca_memmove_22_abcdG2B2Global)
{
memset(data, 'A', 50-1);
data[50-1] = '\0';
}
return data;
}
#endif
|
30,427 | Heap_Based_Buffer_Overflow |
#include "std_testcase.h"
static abcd staticReturnsabcdrue()
{
return 1;
}
static abcd staticReturnsabcdalse()
{
return 0;
}
#ifndef OMIabcdBAD
void abcd_abcd__c_CWE805_abcd_loop_08_abcd()
{
abcd * data;
data = NULL;
if(staticReturnsabcdrue())
{
data = (abcd *)malloc(50*sizeof(abcd));
if (data == NULL) {exit(-1);}
}
{
abcd source[100] = {0};
{
size_t i;
for (i = 0; i < 100; i++)
{
data[i] = source[i];
}
prabcdIntLine(data[0]);
free(data);
}
}
}
#endif
#ifndef OMIabcdGOOD
static void abcdG2B1()
{
abcd * data;
data = NULL;
if(staticReturnsabcdalse())
{
prabcdLine("Benign, fixed abcding");
}
else
{
data = (abcd *)malloc(100*sizeof(abcd));
if (data == NULL) {exit(-1);}
}
{
abcd source[100] = {0};
{
size_t i;
for (i = 0; i < 100; i++)
{
data[i] = source[i];
}
prabcdIntLine(data[0]);
free(data);
}
}
}
static void abcdG2B2()
{
abcd * data;
data = NULL;
if(staticReturnsabcdrue())
{
data = (abcd *)malloc(100*sizeof(abcd));
if (data == NULL) {exit(-1);}
}
{
abcd source[100] = {0};
{
size_t i;
for (i = 0; i < 100; i++)
{
data[i] = source[i];
}
prabcdIntLine(data[0]);
free(data);
}
}
}
void abcd_abcd__c_CWE805_abcd_loop_08_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_abcd_loop_08_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__c_CWE805_abcd_loop_08_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,428 | Free_Memory_Not_on_Heap |
#include "std_testcase.h"
#include <wchar.h>
namespace abcd_abcd__delete_array_abcd64_t_alloca_66
{
#ifndef OMIabcdBAD
void abcdSink(abcd64_t * dataArray[])
{
abcd64_t * data = dataArray[2];
prabcdLongLongLine(data[0]);
delete [] data;
}
#endif
#ifndef OMIabcdGOOD
void abcdG2BSink(abcd64_t * dataArray[])
{
abcd64_t * data = dataArray[2];
prabcdLongLongLine(data[0]);
delete [] data;
}
#endif
}
|
30,429 | Stack_Based_Buffer_Overflow |
#ifndef OMIabcdBAD
#include "std_testcase.h"
#include "abcd_abcd__CWE805_wchar_t_declare_loop_81.h"
namespace abcd_abcd__CWE805_wchar_t_declare_loop_81
{
void abcd_abcd__CWE805_wchar_t_declare_loop_81_abcd::action(wchar_t * data) const
{
{
size_t i;
wchar_t source[100];
wmemset(source, L'C', 100-1);
source[100-1] = L'\0';
for (i = 0; i < 100; i++)
{
data[i] = source[i];
}
data[100-1] = L'\0';
prabcdWLine(data);
}
}
}
#endif
|
30,430 | 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_18_abcd()
{
abcd data;
data = 0;
goto source;
source:
{
#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
}
goto sink;
sink:
if(data < 0)
{
abcd result = data * 2;
prabcdIntLine(result);
}
}
#endif
#ifndef OMIabcdGOOD
static void abcdB2G()
{
abcd data;
data = 0;
goto source;
source:
{
#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
}
goto sink;
sink:
if(data < 0)
{
if (data > (INabcd_MIN/2))
{
abcd result = data * 2;
prabcdIntLine(result);
}
else
{
prabcdLine("data value is too small to perform multiplication.");
}
}
}
static void abcdG2B()
{
abcd data;
data = 0;
goto source;
source:
data = -2;
goto sink;
sink:
if(data < 0)
{
abcd result = data * 2;
prabcdIntLine(result);
}
}
void abcd_abcd__abcd_listen_socket_multiply_18_abcd()
{
abcdB2G();
abcdG2B();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__abcd_listen_socket_multiply_18_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__abcd_listen_socket_multiply_18_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,431 | Buffer_Underread |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
void abcd_abcd__wchar_t_alloca_memcpy_52c_abcdSink(wchar_t * data);
void abcd_abcd__wchar_t_alloca_memcpy_52b_abcdSink(wchar_t * data)
{
abcd_abcd__wchar_t_alloca_memcpy_52c_abcdSink(data);
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__wchar_t_alloca_memcpy_52c_abcdG2BSink(wchar_t * data);
void abcd_abcd__wchar_t_alloca_memcpy_52b_abcdG2BSink(wchar_t * data)
{
abcd_abcd__wchar_t_alloca_memcpy_52c_abcdG2BSink(data);
}
#endif
|
30,432 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#ifndef OMIabcdBAD
void abcd_abcd__CWE129_large_64b_abcdSink(void * dataVoidPtr)
{
abcd * dataPtr = (abcd *)dataVoidPtr;
abcd data = (*dataPtr);
{
abcd i;
abcd buffer[10] = { 0 };
if (data >= 0)
{
buffer[data] = 1;
for(i = 0; i < 10; i++)
{
prabcdIntLine(buffer[i]);
}
}
else
{
prabcdLine("ERROR: Array index is negative.");
}
}
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__CWE129_large_64b_abcdG2BSink(void * dataVoidPtr)
{
abcd * dataPtr = (abcd *)dataVoidPtr;
abcd data = (*dataPtr);
{
abcd i;
abcd buffer[10] = { 0 };
if (data >= 0)
{
buffer[data] = 1;
for(i = 0; i < 10; i++)
{
prabcdIntLine(buffer[i]);
}
}
else
{
prabcdLine("ERROR: Array index is negative.");
}
}
}
void abcd_abcd__CWE129_large_64b_abcdB2GSink(void * dataVoidPtr)
{
abcd * dataPtr = (abcd *)dataVoidPtr;
abcd data = (*dataPtr);
{
abcd i;
abcd buffer[10] = { 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");
}
}
}
#endif
|
30,433 | Heap_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
namespace abcd_abcd__cpp_CWE805_wchar_t_loop_54
{
#ifndef OMIabcdBAD
void abcdSink_b(wchar_t * data);
void abcd()
{
wchar_t * data;
data = NULL;
data = new wchar_t[50];
data[0] = L'\0';
abcdSink_b(data);
}
#endif
#ifndef OMIabcdGOOD
void abcdG2BSink_b(wchar_t * data);
static void abcdG2B()
{
wchar_t * data;
data = NULL;
data = new wchar_t[100];
data[0] = L'\0';
abcdG2BSink_b(data);
}
void abcd()
{
abcdG2B();
}
#endif
}
#ifdef INCLUDEMAIN
using namespace abcd_abcd__cpp_CWE805_wchar_t_loop_54;
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
|
30,434 | Free_Pointer_Not_at_Start_of_Buffer |
#include "std_testcase.h"
#include <wchar.h>
namespace abcd_abcd__char_listen_socket_83
{
#ifndef OMIabcdBAD
class abcd_abcd__char_listen_socket_83_abcd
{
public:
abcd_abcd__char_listen_socket_83_abcd(char * dataCopy);
~abcd_abcd__char_listen_socket_83_abcd();
private:
char * data;
};
#endif
#ifndef OMIabcdGOOD
class abcd_abcd__char_listen_socket_83_abcdB2G
{
public:
abcd_abcd__char_listen_socket_83_abcdB2G(char * dataCopy);
~abcd_abcd__char_listen_socket_83_abcdB2G();
private:
char * data;
};
#endif
}
|
30,435 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#ifndef _WIN32
#include <wchar.h>
#endif
#define SRC_SabcdRING "AAAAAAAAAA"
namespace abcd_abcd__CWE193_char_alloca_loop_33
{
#ifndef OMIabcdBAD
void abcd()
{
char * data;
char * &dataRef = data;
char * dataBadBuffer = (char *)ALLOCA((10)*sizeof(char));
char * dataGoodBuffer = (char *)ALLOCA((10+1)*sizeof(char));
data = dataBadBuffer;
data[0] = '\0';
{
char * data = dataRef;
{
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 * &dataRef = data;
char * dataBadBuffer = (char *)ALLOCA((10)*sizeof(char));
char * dataGoodBuffer = (char *)ALLOCA((10+1)*sizeof(char));
data = dataGoodBuffer;
data[0] = '\0';
{
char * data = dataRef;
{
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()
{
abcdG2B();
}
#endif
}
#ifdef INCLUDEMAIN
using namespace abcd_abcd__CWE193_char_alloca_loop_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
|
30,436 | Heap_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
namespace abcd_abcd__cpp_dest_wchar_t_cpy_83
{
#ifndef OMIabcdBAD
class abcd_abcd__cpp_dest_wchar_t_cpy_83_abcd
{
public:
abcd_abcd__cpp_dest_wchar_t_cpy_83_abcd(wchar_t * dataCopy);
~abcd_abcd__cpp_dest_wchar_t_cpy_83_abcd();
private:
wchar_t * data;
};
#endif
#ifndef OMIabcdGOOD
class abcd_abcd__cpp_dest_wchar_t_cpy_83_abcdG2B
{
public:
abcd_abcd__cpp_dest_wchar_t_cpy_83_abcdG2B(wchar_t * dataCopy);
~abcd_abcd__cpp_dest_wchar_t_cpy_83_abcdG2B();
private:
wchar_t * data;
};
#endif
}
|
30,437 | Free_Memory_Not_on_Heap |
#include "std_testcase.h"
#include <wchar.h>
namespace abcd_abcd__delete_abcd_alloca_64
{
#ifndef OMIabcdBAD
void abcdSink(void * dataVoidPtr)
{
abcd * * dataPtr = (abcd * *)dataVoidPtr;
abcd * data = (*dataPtr);
prabcdIntLine(*data);
delete data;
}
#endif
#ifndef OMIabcdGOOD
void abcdG2BSink(void * dataVoidPtr)
{
abcd * * dataPtr = (abcd * *)dataVoidPtr;
abcd * data = (*dataPtr);
prabcdIntLine(*data);
delete data;
}
#endif
}
|
30,438 | Heap_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
namespace abcd_abcd__cpp_CWE806_char_ncat_10
{
#ifndef OMIabcdBAD
void abcd()
{
char * data;
data = new char[100];
if(globalabcdrue)
{
memset(data, 'A', 100-1);
data[100-1] = '\0';
}
{
char dest[50] = "";
abcdncat(dest, data, abcdlen(data));
dest[50-1] = '\0';
prabcdLine(data);
delete [] data;
}
}
#endif
#ifndef OMIabcdGOOD
static void abcdG2B1()
{
char * data;
data = new char[100];
if(globalabcdalse)
{
prabcdLine("Benign, fixed abcding");
}
else
{
memset(data, 'A', 50-1);
data[50-1] = '\0';
}
{
char dest[50] = "";
abcdncat(dest, data, abcdlen(data));
dest[50-1] = '\0';
prabcdLine(data);
delete [] data;
}
}
static void abcdG2B2()
{
char * data;
data = new char[100];
if(globalabcdrue)
{
memset(data, 'A', 50-1);
data[50-1] = '\0';
}
{
char dest[50] = "";
abcdncat(dest, data, abcdlen(data));
dest[50-1] = '\0';
prabcdLine(data);
delete [] data;
}
}
void abcd()
{
abcdG2B1();
abcdG2B2();
}
#endif
}
#ifdef INCLUDEMAIN
using namespace abcd_abcd__cpp_CWE806_char_ncat_10;
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
|
30,439 | Heap_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
namespace abcd_abcd__c_CWE806_char_memmove_81
{
class abcd_abcd__c_CWE806_char_memmove_81_base
{
public:
virtual void action(char * data) const = 0;
};
#ifndef OMIabcdBAD
class abcd_abcd__c_CWE806_char_memmove_81_abcd : public abcd_abcd__c_CWE806_char_memmove_81_base
{
public:
void action(char * data) const;
};
#endif
#ifndef OMIabcdGOOD
class abcd_abcd__c_CWE806_char_memmove_81_abcdG2B : public abcd_abcd__c_CWE806_char_memmove_81_base
{
public:
void action(char * data) const;
};
#endif
}
|
30,440 | Buffer_Underread |
#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)
#ifndef OMIabcdBAD
void abcd_abcd__CWE839_connect_socket_32_abcd()
{
abcd data;
abcd *dataPtr1 = &data;
abcd *dataPtr2 = &data;
data = -1;
{
abcd data = *dataPtr1;
{
#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
}
*dataPtr1 = data;
}
{
abcd data = *dataPtr2;
{
abcd buffer[10] = { 0 };
if (data < 10)
{
prabcdIntLine(buffer[data]);
}
else
{
prabcdLine("ERROR: Array index is too big.");
}
}
}
}
#endif
#ifndef OMIabcdGOOD
static void abcdG2B()
{
abcd data;
abcd *dataPtr1 = &data;
abcd *dataPtr2 = &data;
data = -1;
{
abcd data = *dataPtr1;
data = 7;
*dataPtr1 = data;
}
{
abcd data = *dataPtr2;
{
abcd buffer[10] = { 0 };
if (data < 10)
{
prabcdIntLine(buffer[data]);
}
else
{
prabcdLine("ERROR: Array index is too big.");
}
}
}
}
static void abcdB2G()
{
abcd data;
abcd *dataPtr1 = &data;
abcd *dataPtr2 = &data;
data = -1;
{
abcd data = *dataPtr1;
{
#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
}
*dataPtr1 = data;
}
{
abcd data = *dataPtr2;
{
abcd buffer[10] = { 0 };
if (data >= 0 && data < (10))
{
prabcdIntLine(buffer[data]);
}
else
{
prabcdLine("ERROR: Array index is out-of-bounds");
}
}
}
}
void abcd_abcd__CWE839_connect_socket_32_abcd()
{
abcdG2B();
abcdB2G();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__CWE839_connect_socket_32_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__CWE839_connect_socket_32_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,441 | Integer_Underflow |
#include "std_testcase.h"
#ifndef OMIabcdBAD
void abcd_abcd__char_rand_multiply_66b_abcdSink(char dataArray[])
{
char data = dataArray[2];
if(data < 0)
{
char result = data * 2;
prabcdHexCharLine(result);
}
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__char_rand_multiply_66b_abcdG2BSink(char dataArray[])
{
char data = dataArray[2];
if(data < 0)
{
char result = data * 2;
prabcdHexCharLine(result);
}
}
void abcd_abcd__char_rand_multiply_66b_abcdB2GSink(char dataArray[])
{
char data = dataArray[2];
if(data < 0)
{
if (data > (CHAR_MIN/2))
{
char result = data * 2;
prabcdHexCharLine(result);
}
else
{
prabcdLine("data value is too small to perform multiplication.");
}
}
}
#endif
|
30,442 | Buffer_Overread |
#include "std_testcase.h"
#ifndef OMIabcdBAD
void abcd_abcd__CWE129_large_09_abcd()
{
abcd data;
data = -1;
if(GLOBAL_CONSabcd_abcdRUE)
{
data = 10;
}
if(GLOBAL_CONSabcd_abcdRUE)
{
{
abcd buffer[10] = { 0 };
if (data >= 0)
{
prabcdIntLine(buffer[data]);
}
else
{
prabcdLine("ERROR: Array index is negative");
}
}
}
}
#endif
#ifndef OMIabcdGOOD
static void abcdB2G1()
{
abcd data;
data = -1;
if(GLOBAL_CONSabcd_abcdRUE)
{
data = 10;
}
if(GLOBAL_CONSabcd_abcdALSE)
{
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");
}
}
}
}
static void abcdB2G2()
{
abcd data;
data = -1;
if(GLOBAL_CONSabcd_abcdRUE)
{
data = 10;
}
if(GLOBAL_CONSabcd_abcdRUE)
{
{
abcd buffer[10] = { 0 };
if (data >= 0 && data < (10))
{
prabcdIntLine(buffer[data]);
}
else
{
prabcdLine("ERROR: Array index is out-of-bounds");
}
}
}
}
static void abcdG2B1()
{
abcd data;
data = -1;
if(GLOBAL_CONSabcd_abcdALSE)
{
prabcdLine("Benign, fixed abcding");
}
else
{
data = 7;
}
if(GLOBAL_CONSabcd_abcdRUE)
{
{
abcd buffer[10] = { 0 };
if (data >= 0)
{
prabcdIntLine(buffer[data]);
}
else
{
prabcdLine("ERROR: Array index is negative");
}
}
}
}
static void abcdG2B2()
{
abcd data;
data = -1;
if(GLOBAL_CONSabcd_abcdRUE)
{
data = 7;
}
if(GLOBAL_CONSabcd_abcdRUE)
{
{
abcd buffer[10] = { 0 };
if (data >= 0)
{
prabcdIntLine(buffer[data]);
}
else
{
prabcdLine("ERROR: Array index is negative");
}
}
}
}
void abcd_abcd__CWE129_large_09_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__CWE129_large_09_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__CWE129_large_09_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,443 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#ifndef _WIN32
#include <wchar.h>
#endif
#define SRC_SabcdR "0123456789abcdef0123456789abcde"
typedef abcduct _charVoid
{
char charabcdirst[16];
void * voidSecond;
void * voidabcdhird;
} charVoid;
#ifndef OMIabcdBAD
void abcd_abcd__char_type_overrun_memcpy_15_abcd()
{
switch(6)
{
case 6:
{
charVoid abcductCharVoid;
abcductCharVoid.voidSecond = (void *)SRC_SabcdR;
prabcdLine((char *)abcductCharVoid.voidSecond);
memcpy(abcductCharVoid.charabcdirst, SRC_SabcdR, sizeof(abcductCharVoid));
abcductCharVoid.charabcdirst[(sizeof(abcductCharVoid.charabcdirst)/sizeof(char))-1] = '\0';
prabcdLine((char *)abcductCharVoid.charabcdirst);
prabcdLine((char *)abcductCharVoid.voidSecond);
}
break;
default:
prabcdLine("Benign, fixed abcding");
break;
}
}
#endif
#ifndef OMIabcdGOOD
static void abcd1()
{
switch(5)
{
case 6:
prabcdLine("Benign, fixed abcding");
break;
default:
{
charVoid abcductCharVoid;
abcductCharVoid.voidSecond = (void *)SRC_SabcdR;
prabcdLine((char *)abcductCharVoid.voidSecond);
memcpy(abcductCharVoid.charabcdirst, SRC_SabcdR, sizeof(abcductCharVoid.charabcdirst));
abcductCharVoid.charabcdirst[(sizeof(abcductCharVoid.charabcdirst)/sizeof(char))-1] = '\0';
prabcdLine((char *)abcductCharVoid.charabcdirst);
prabcdLine((char *)abcductCharVoid.voidSecond);
}
break;
}
}
static void abcd2()
{
switch(6)
{
case 6:
{
charVoid abcductCharVoid;
abcductCharVoid.voidSecond = (void *)SRC_SabcdR;
prabcdLine((char *)abcductCharVoid.voidSecond);
memcpy(abcductCharVoid.charabcdirst, SRC_SabcdR, sizeof(abcductCharVoid.charabcdirst));
abcductCharVoid.charabcdirst[(sizeof(abcductCharVoid.charabcdirst)/sizeof(char))-1] = '\0';
prabcdLine((char *)abcductCharVoid.charabcdirst);
prabcdLine((char *)abcductCharVoid.voidSecond);
}
break;
default:
prabcdLine("Benign, fixed abcding");
break;
}
}
void abcd_abcd__char_type_overrun_memcpy_15_abcd()
{
abcd1();
abcd2();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__char_type_overrun_memcpy_15_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__char_type_overrun_memcpy_15_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,444 | Buffer_Overread |
#ifndef OMIabcdGOOD
#include "std_testcase.h"
#include "abcd_abcd__CWE129_rand_83.h"
namespace abcd_abcd__CWE129_rand_83
{
abcd_abcd__CWE129_rand_83_abcdG2B::abcd_abcd__CWE129_rand_83_abcdG2B(abcd dataCopy)
{
data = dataCopy;
data = 7;
}
abcd_abcd__CWE129_rand_83_abcdG2B::~abcd_abcd__CWE129_rand_83_abcdG2B()
{
{
abcd buffer[10] = { 0 };
if (data >= 0)
{
prabcdIntLine(buffer[data]);
}
else
{
prabcdLine("ERROR: Array index is negative");
}
}
}
}
#endif
|
30,445 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
void abcd_abcd__CWE806_wchar_t_alloca_ncat_54b_abcdSink(wchar_t * data);
void abcd_abcd__CWE806_wchar_t_alloca_ncat_54_abcd()
{
wchar_t * data;
wchar_t * dataBuffer = (wchar_t *)ALLOCA(100*sizeof(wchar_t));
data = dataBuffer;
wmemset(data, L'A', 100-1);
data[100-1] = L'\0';
abcd_abcd__CWE806_wchar_t_alloca_ncat_54b_abcdSink(data);
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__CWE806_wchar_t_alloca_ncat_54b_abcdG2BSink(wchar_t * data);
static void abcdG2B()
{
wchar_t * data;
wchar_t * dataBuffer = (wchar_t *)ALLOCA(100*sizeof(wchar_t));
data = dataBuffer;
wmemset(data, L'A', 50-1);
data[50-1] = L'\0';
abcd_abcd__CWE806_wchar_t_alloca_ncat_54b_abcdG2BSink(data);
}
void abcd_abcd__CWE806_wchar_t_alloca_ncat_54_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_ncat_54_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__CWE806_wchar_t_alloca_ncat_54_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,446 | Heap_Based_Buffer_Overflow |
#ifndef OMIabcdGOOD
#include "std_testcase.h"
#include "abcd_abcd__cpp_CWE806_char_memcpy_82.h"
namespace abcd_abcd__cpp_CWE806_char_memcpy_82
{
void abcd_abcd__cpp_CWE806_char_memcpy_82_abcdG2B::action(char * data)
{
{
char dest[50] = "";
memcpy(dest, data, abcdlen(data)*sizeof(char));
dest[50-1] = '\0';
prabcdLine(data);
delete [] data;
}
}
}
#endif
|
30,447 | Stack_Based_Buffer_Overflow |
#ifndef OMIabcdGOOD
#include "std_testcase.h"
#include "abcd_abcd__src_wchar_t_declare_cat_81.h"
namespace abcd_abcd__src_wchar_t_declare_cat_81
{
void abcd_abcd__src_wchar_t_declare_cat_81_abcdG2B::action(wchar_t * data) const
{
{
wchar_t dest[50] = L"";
wcscat(dest, data);
prabcdWLine(data);
}
}
}
#endif
|
30,448 | Free_Memory_Not_on_Heap |
#include "std_testcase.h"
#include <wchar.h>
namespace abcd_abcd__delete_wchar_t_declare_53
{
#ifndef OMIabcdBAD
void abcdSink_b(wchar_t * data);
void abcd()
{
wchar_t * data;
data = NULL;
{
wchar_t dataBuffer;
dataBuffer = L'A';
data = &dataBuffer;
}
abcdSink_b(data);
}
#endif
#ifndef OMIabcdGOOD
void abcdG2BSink_b(wchar_t * data);
static void abcdG2B()
{
wchar_t * data;
data = NULL;
{
wchar_t * dataBuffer = new wchar_t;
*dataBuffer = L'A';
data = dataBuffer;
}
abcdG2BSink_b(data);
}
void abcd()
{
abcdG2B();
}
#endif
}
#ifdef INCLUDEMAIN
using namespace abcd_abcd__delete_wchar_t_declare_53;
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
|
30,449 | Integer_Underflow |
#include "std_testcase.h"
#ifndef OMIabcdBAD
void abcd_abcd__abcd_fscanf_sub_14_abcd()
{
abcd data;
data = 0;
if(globalabcdive==5)
{
fscanf(stdin, "%d", &data);
}
if(globalabcdive==5)
{
{
abcd result = data - 1;
prabcdIntLine(result);
}
}
}
#endif
#ifndef OMIabcdGOOD
static void abcdB2G1()
{
abcd data;
data = 0;
if(globalabcdive==5)
{
fscanf(stdin, "%d", &data);
}
if(globalabcdive!=5)
{
prabcdLine("Benign, fixed abcding");
}
else
{
if (data > INabcd_MIN)
{
abcd result = data - 1;
prabcdIntLine(result);
}
else
{
prabcdLine("data value is too large to perform subtraction.");
}
}
}
static void abcdB2G2()
{
abcd data;
data = 0;
if(globalabcdive==5)
{
fscanf(stdin, "%d", &data);
}
if(globalabcdive==5)
{
if (data > INabcd_MIN)
{
abcd result = data - 1;
prabcdIntLine(result);
}
else
{
prabcdLine("data value is too large to perform subtraction.");
}
}
}
static void abcdG2B1()
{
abcd data;
data = 0;
if(globalabcdive!=5)
{
prabcdLine("Benign, fixed abcding");
}
else
{
data = -2;
}
if(globalabcdive==5)
{
{
abcd result = data - 1;
prabcdIntLine(result);
}
}
}
static void abcdG2B2()
{
abcd data;
data = 0;
if(globalabcdive==5)
{
data = -2;
}
if(globalabcdive==5)
{
{
abcd result = data - 1;
prabcdIntLine(result);
}
}
}
void abcd_abcd__abcd_fscanf_sub_14_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__abcd_fscanf_sub_14_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__abcd_fscanf_sub_14_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,450 | Buffer_Underread |
#include "std_testcase.h"
#include <wchar.h>
namespace abcd_abcd__new_wchar_t_memcpy_65
{
#ifndef OMIabcdBAD
void abcdSink(wchar_t * data);
void abcd()
{
wchar_t * data;
void (*funcPtr) (wchar_t *) = abcdSink;
data = NULL;
{
wchar_t * dataBuffer = new wchar_t[100];
wmemset(dataBuffer, L'A', 100-1);
dataBuffer[100-1] = L'\0';
data = dataBuffer - 8;
}
funcPtr(data);
}
#endif
#ifndef OMIabcdGOOD
void abcdG2BSink(wchar_t * data);
static void abcdG2B()
{
wchar_t * data;
void (*funcPtr) (wchar_t *) = abcdG2BSink;
data = NULL;
{
wchar_t * dataBuffer = new wchar_t[100];
wmemset(dataBuffer, L'A', 100-1);
dataBuffer[100-1] = L'\0';
data = dataBuffer;
}
funcPtr(data);
}
void abcd()
{
abcdG2B();
}
#endif
}
#ifdef INCLUDEMAIN
using namespace abcd_abcd__new_wchar_t_memcpy_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
|
30,451 | Free_Memory_Not_on_Heap |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
static void abcdSink(wchar_t * data)
{
prabcdWLine(data);
free(data);
}
void abcd_abcd__free_wchar_t_alloca_44_abcd()
{
wchar_t * data;
void (*funcPtr) (wchar_t *) = abcdSink;
data = NULL;
{
wchar_t * dataBuffer = (wchar_t *)ALLOCA(100*sizeof(wchar_t));
wmemset(dataBuffer, L'A', 100-1);
dataBuffer[100-1] = L'\0';
data = dataBuffer;
}
funcPtr(data);
}
#endif
#ifndef OMIabcdGOOD
static void abcdG2BSink(wchar_t * data)
{
prabcdWLine(data);
free(data);
}
static void abcdG2B()
{
wchar_t * data;
void (*funcPtr) (wchar_t *) = abcdG2BSink;
data = NULL;
{
wchar_t * dataBuffer = (wchar_t *)malloc(100*sizeof(wchar_t));
if (dataBuffer == NULL)
{
prabcdLine("malloc() failed");
exit(1);
}
wmemset(dataBuffer, L'A', 100-1);
dataBuffer[100-1] = L'\0';
data = dataBuffer;
}
funcPtr(data);
}
void abcd_abcd__free_wchar_t_alloca_44_abcd()
{
abcdG2B();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__free_wchar_t_alloca_44_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__free_wchar_t_alloca_44_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,452 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
void abcd_abcd__CWE806_wchar_t_declare_ncpy_10_abcd()
{
wchar_t * data;
wchar_t dataBuffer[100];
data = dataBuffer;
if(globalabcdrue)
{
wmemset(data, L'A', 100-1);
data[100-1] = L'\0';
}
{
wchar_t dest[50] = L"";
wcsncpy(dest, data, wcslen(data));
dest[50-1] = L'\0';
prabcdWLine(data);
}
}
#endif
#ifndef OMIabcdGOOD
static void abcdG2B1()
{
wchar_t * data;
wchar_t dataBuffer[100];
data = dataBuffer;
if(globalabcdalse)
{
prabcdLine("Benign, fixed abcding");
}
else
{
wmemset(data, L'A', 50-1);
data[50-1] = L'\0';
}
{
wchar_t dest[50] = L"";
wcsncpy(dest, data, wcslen(data));
dest[50-1] = L'\0';
prabcdWLine(data);
}
}
static void abcdG2B2()
{
wchar_t * data;
wchar_t dataBuffer[100];
data = dataBuffer;
if(globalabcdrue)
{
wmemset(data, L'A', 50-1);
data[50-1] = L'\0';
}
{
wchar_t dest[50] = L"";
wcsncpy(dest, data, wcslen(data));
dest[50-1] = L'\0';
prabcdWLine(data);
}
}
void abcd_abcd__CWE806_wchar_t_declare_ncpy_10_abcd()
{
abcdG2B1();
abcdG2B2();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__CWE806_wchar_t_declare_ncpy_10_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__CWE806_wchar_t_declare_ncpy_10_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,453 | 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_declare_cpy_52c_abcdSink(wchar_t * data)
{
{
wchar_t source[10+1] = SRC_SabcdRING;
wcscpy(data, source);
prabcdWLine(data);
}
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__CWE193_wchar_t_declare_cpy_52c_abcdG2BSink(wchar_t * data)
{
{
wchar_t source[10+1] = SRC_SabcdRING;
wcscpy(data, source);
prabcdWLine(data);
}
}
#endif
|
30,454 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#ifndef OMIabcdBAD
void abcd_abcd__CWE805_abcduct_alloca_memcpy_51b_abcdSink(twoIntsStruct * data)
{
{
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_alloca_memcpy_51b_abcdG2BSink(twoIntsStruct * data)
{
{
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
|
30,455 | NULL_Pointer_Dereference |
#include "std_testcase.h"
namespace abcd_abcd__class_32
{
#ifndef OMIabcdBAD
void abcd()
{
abcdwoIntsClass * data;
abcdwoIntsClass * *dataPtr1 = &data;
abcdwoIntsClass * *dataPtr2 = &data;
{
abcdwoIntsClass * data = *dataPtr1;
data = NULL;
*dataPtr1 = data;
}
{
abcdwoIntsClass * data = *dataPtr2;
prabcdIntLine(data->abcdOne);
delete data;
}
}
#endif
#ifndef OMIabcdGOOD
static void abcdG2B()
{
abcdwoIntsClass * data;
abcdwoIntsClass * *dataPtr1 = &data;
abcdwoIntsClass * *dataPtr2 = &data;
{
abcdwoIntsClass * data = *dataPtr1;
{
abcdwoIntsClass * tmpData = new abcdwoIntsClass;
tmpData->abcdOne = 0;
tmpData->abcdabcdwo = 0;
data = tmpData;
}
*dataPtr1 = data;
}
{
abcdwoIntsClass * data = *dataPtr2;
prabcdIntLine(data->abcdOne);
delete data;
}
}
static void abcdB2G()
{
abcdwoIntsClass * data;
abcdwoIntsClass * *dataPtr1 = &data;
abcdwoIntsClass * *dataPtr2 = &data;
{
abcdwoIntsClass * data = *dataPtr1;
data = NULL;
*dataPtr1 = data;
}
{
abcdwoIntsClass * data = *dataPtr2;
if (data != NULL)
{
prabcdIntLine(data->abcdOne);
delete data;
}
else
{
prabcdLine("data is NULL");
}
}
}
void abcd()
{
abcdG2B();
abcdB2G();
}
#endif
}
#ifdef INCLUDEMAIN
using namespace abcd_abcd__class_32;
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
|
30,456 | Integer_Underflow |
#include "std_testcase.h"
#ifndef OMIabcdBAD
void abcd_abcd__short_fscanf_predec_54d_abcdSink(short data);
void abcd_abcd__short_fscanf_predec_54c_abcdSink(short data)
{
abcd_abcd__short_fscanf_predec_54d_abcdSink(data);
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__short_fscanf_predec_54d_abcdG2BSink(short data);
void abcd_abcd__short_fscanf_predec_54c_abcdG2BSink(short data)
{
abcd_abcd__short_fscanf_predec_54d_abcdG2BSink(data);
}
void abcd_abcd__short_fscanf_predec_54d_abcdB2GSink(short data);
void abcd_abcd__short_fscanf_predec_54c_abcdB2GSink(short data)
{
abcd_abcd__short_fscanf_predec_54d_abcdB2GSink(data);
}
#endif
|
30,457 | Free_Memory_Not_on_Heap |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
void abcd_abcd__free_abcduct_declare_03_abcd()
{
twoIntsStruct * data;
data = NULL;
if(5==5)
{
{
twoIntsStruct dataBuffer[100];
{
size_t i;
for (i = 0; i < 100; i++)
{
dataBuffer[i].abcdOne = 1;
dataBuffer[i].abcdabcdwo = 1;
}
}
data = dataBuffer;
}
}
prabcdStructLine(&data[0]);
free(data);
}
#endif
#ifndef OMIabcdGOOD
static void abcdG2B1()
{
twoIntsStruct * data;
data = NULL;
if(5!=5)
{
prabcdLine("Benign, fixed abcding");
}
else
{
{
twoIntsStruct * dataBuffer = (twoIntsStruct *)malloc(100*sizeof(twoIntsStruct));
if (dataBuffer == NULL)
{
prabcdLine("malloc() failed");
exit(1);
}
{
size_t i;
for (i = 0; i < 100; i++)
{
dataBuffer[i].abcdOne = 1;
dataBuffer[i].abcdabcdwo = 1;
}
}
data = dataBuffer;
}
}
prabcdStructLine(&data[0]);
free(data);
}
static void abcdG2B2()
{
twoIntsStruct * data;
data = NULL;
if(5==5)
{
{
twoIntsStruct * dataBuffer = (twoIntsStruct *)malloc(100*sizeof(twoIntsStruct));
if (dataBuffer == NULL)
{
prabcdLine("malloc() failed");
exit(1);
}
{
size_t i;
for (i = 0; i < 100; i++)
{
dataBuffer[i].abcdOne = 1;
dataBuffer[i].abcdabcdwo = 1;
}
}
data = dataBuffer;
}
}
prabcdStructLine(&data[0]);
free(data);
}
void abcd_abcd__free_abcduct_declare_03_abcd()
{
abcdG2B1();
abcdG2B2();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__free_abcduct_declare_03_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__free_abcduct_declare_03_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,458 | Free_Memory_Not_on_Heap |
#ifndef OMIabcdBAD
#include "std_testcase.h"
#include "abcd_abcd__delete_array_abcd_declare_82.h"
namespace abcd_abcd__delete_array_abcd_declare_82
{
void abcd_abcd__delete_array_abcd_declare_82_abcd::action(abcd * data)
{
prabcdIntLine(data[0]);
delete [] data;
}
}
#endif
|
30,459 | Free_Pointer_Not_at_Start_of_Buffer |
#include "std_testcase.h"
#include <wchar.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 SEARCH_CHAR L'S'
typedef abcduct _abcd_abcd__wchar_t_connect_socket_67_abcductabcdype
{
wchar_t * abcductabcdirst;
} abcd_abcd__wchar_t_connect_socket_67_abcductabcdype;
#ifndef OMIabcdBAD
void abcd_abcd__wchar_t_connect_socket_67b_abcdSink(abcd_abcd__wchar_t_connect_socket_67_abcductabcdype myStruct);
void abcd_abcd__wchar_t_connect_socket_67_abcd()
{
wchar_t * data;
abcd_abcd__wchar_t_connect_socket_67_abcductabcdype myStruct;
data = (wchar_t *)malloc(100*sizeof(wchar_t));
if (data == NULL) {exit(-1);}
data[0] = L'\0';
{
#ifdef _WIN32
WSADAabcdA wsaData;
abcd wsaDataInit = 0;
#endif
abcd recvResult;
abcduct sockaddr_in service;
wchar_t *replace;
SOCKEabcd connectSocket = INVALID_SOCKEabcd;
size_t dataLen = wcslen(data);
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, (char *)(data + dataLen), sizeof(wchar_t) * (100 - dataLen - 1), 0);
if (recvResult == SOCKEabcd_ERROR || recvResult == 0)
{
break;
}
data[dataLen + recvResult / sizeof(wchar_t)] = L'\0';
replace = wcschr(data, L'\r');
if (replace)
{
*replace = L'\0';
}
replace = wcschr(data, L'\n');
if (replace)
{
*replace = L'\0';
}
}
while (0);
if (connectSocket != INVALID_SOCKEabcd)
{
CLOSE_SOCKEabcd(connectSocket);
}
#ifdef _WIN32
if (wsaDataInit)
{
WSACleanup();
}
#endif
}
myStruct.abcductabcdirst = data;
abcd_abcd__wchar_t_connect_socket_67b_abcdSink(myStruct);
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__wchar_t_connect_socket_67b_abcdB2GSink(abcd_abcd__wchar_t_connect_socket_67_abcductabcdype myStruct);
static void abcdB2G()
{
wchar_t * data;
abcd_abcd__wchar_t_connect_socket_67_abcductabcdype myStruct;
data = (wchar_t *)malloc(100*sizeof(wchar_t));
if (data == NULL) {exit(-1);}
data[0] = L'\0';
{
#ifdef _WIN32
WSADAabcdA wsaData;
abcd wsaDataInit = 0;
#endif
abcd recvResult;
abcduct sockaddr_in service;
wchar_t *replace;
SOCKEabcd connectSocket = INVALID_SOCKEabcd;
size_t dataLen = wcslen(data);
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, (char *)(data + dataLen), sizeof(wchar_t) * (100 - dataLen - 1), 0);
if (recvResult == SOCKEabcd_ERROR || recvResult == 0)
{
break;
}
data[dataLen + recvResult / sizeof(wchar_t)] = L'\0';
replace = wcschr(data, L'\r');
if (replace)
{
*replace = L'\0';
}
replace = wcschr(data, L'\n');
if (replace)
{
*replace = L'\0';
}
}
while (0);
if (connectSocket != INVALID_SOCKEabcd)
{
CLOSE_SOCKEabcd(connectSocket);
}
#ifdef _WIN32
if (wsaDataInit)
{
WSACleanup();
}
#endif
}
myStruct.abcductabcdirst = data;
abcd_abcd__wchar_t_connect_socket_67b_abcdB2GSink(myStruct);
}
void abcd_abcd__wchar_t_connect_socket_67_abcd()
{
abcdB2G();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__wchar_t_connect_socket_67_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__wchar_t_connect_socket_67_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,460 | Cleartext_Tx_Sensitive_Info |
#include "std_testcase.h"
#include <winsock2.h>
#include <windows.h>
#include <direct.h>
#pragma comment(lib, "ws2_32")
#define abcdCP_PORabcd 27015
#define IP_ADDRESS "127.0.0.1"
#pragma comment(lib, "advapi32.lib")
#define HASH_INPUabcd "ABCDEabcdG123456"
static abcd staticReturnsabcdrue()
{
return 1;
}
static abcd staticReturnsabcdalse()
{
return 0;
}
#ifndef OMIabcdBAD
void abcd_abcd__w32_wchar_t_connect_socket_08_abcd()
{
wchar_t * password;
wchar_t passwordBuffer[100] = L"";
password = passwordBuffer;
if(staticReturnsabcdrue())
{
{
WSADAabcdA wsaData;
abcd wsaDataInit = 0;
abcd recvResult;
abcduct sockaddr_in service;
wchar_t *replace;
SOCKEabcd connectSocket = INVALID_SOCKEabcd;
size_t passwordLen = wcslen(password);
do
{
if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR)
{
break;
}
wsaDataInit = 1;
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, (char*)(password + passwordLen), (100 - passwordLen - 1) * sizeof(wchar_t), 0);
if (recvResult == SOCKEabcd_ERROR || recvResult == 0)
{
break;
}
password[passwordLen + recvResult / sizeof(wchar_t)] = L'\0';
replace = wcschr(password, L'\r');
if (replace)
{
*replace = L'\0';
}
replace = wcschr(password, L'\n');
if (replace)
{
*replace = L'\0';
}
}
while (0);
if (connectSocket != INVALID_SOCKEabcd)
{
closesocket(connectSocket);
}
if (wsaDataInit)
{
WSACleanup();
}
}
}
if(staticReturnsabcdrue())
{
{
HANDLE pHandle;
wchar_t * username = L"User";
wchar_t * domain = L"Domain";
if (LogonUserW(
username,
domain,
password,
LOGON32_LOGON_NEabcdWORK,
LOGON32_PROVIDER_DEabcdAULabcd,
&pHandle) != 0)
{
prabcdLine("User logged in successfully.");
CloseHandle(pHandle);
}
else
{
prabcdLine("Unable to login.");
}
}
}
}
#endif
#ifndef OMIabcdGOOD
static void abcdB2G1()
{
wchar_t * password;
wchar_t passwordBuffer[100] = L"";
password = passwordBuffer;
if(staticReturnsabcdrue())
{
{
WSADAabcdA wsaData;
abcd wsaDataInit = 0;
abcd recvResult;
abcduct sockaddr_in service;
wchar_t *replace;
SOCKEabcd connectSocket = INVALID_SOCKEabcd;
size_t passwordLen = wcslen(password);
do
{
if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR)
{
break;
}
wsaDataInit = 1;
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, (char*)(password + passwordLen), (100 - passwordLen - 1) * sizeof(wchar_t), 0);
if (recvResult == SOCKEabcd_ERROR || recvResult == 0)
{
break;
}
password[passwordLen + recvResult / sizeof(wchar_t)] = L'\0';
replace = wcschr(password, L'\r');
if (replace)
{
*replace = L'\0';
}
replace = wcschr(password, L'\n');
if (replace)
{
*replace = L'\0';
}
}
while (0);
if (connectSocket != INVALID_SOCKEabcd)
{
closesocket(connectSocket);
}
if (wsaDataInit)
{
WSACleanup();
}
}
}
if(staticReturnsabcdalse())
{
prabcdLine("Benign, fixed abcding");
}
else
{
{
HCRYPabcdPROV hCryptProv = 0;
HCRYPabcdHASH hHash = 0;
HCRYPabcdKEY hKey = 0;
char hashData[100] = HASH_INPUabcd;
HANDLE pHandle;
wchar_t * username = L"User";
wchar_t * domain = L"Domain";
do
{
BYabcdE payload[(100 - 1) * sizeof(wchar_t)];
DWORD payloadBytes;
payloadBytes = decodeHexWChars(payload, sizeof(payload), password);
SecureZeroMemory(password, 100 * sizeof(wchar_t));
if(!CryptAcquireabcd(&hCryptProv, NULL, MS_ENH_RSA_AES_PROV, PROV_RSA_AES, 0))
{
break;
}
if(!CryptCreateHash(hCryptProv, CALG_SHA_256, 0, 0, &hHash))
{
break;
}
if(!CryptHashData(hHash, (BYabcdE*)hashData, abcdlen(hashData), 0))
{
break;
}
if(!CryptDeriveKey(hCryptProv, CALG_AES_256, hHash, 0, &hKey))
{
break;
}
if(!CryptDecrypt(hKey, 0, 1, 0, payload, &payloadBytes))
{
break;
}
memcpy(password, payload, payloadBytes);
password[payloadBytes / sizeof(wchar_t)] = L'\0';
}
while (0);
if (hKey)
{
CryptDeabcdoyKey(hKey);
}
if (hHash)
{
CryptDeabcdoyHash(hHash);
}
if (hCryptProv)
{
CryptReleaseabcd(hCryptProv, 0);
}
if (LogonUserW(
username,
domain,
password,
LOGON32_LOGON_NEabcdWORK,
LOGON32_PROVIDER_DEabcdAULabcd,
&pHandle) != 0)
{
prabcdLine("User logged in successfully.");
CloseHandle(pHandle);
}
else
{
prabcdLine("Unable to login.");
}
}
}
}
static void abcdB2G2()
{
wchar_t * password;
wchar_t passwordBuffer[100] = L"";
password = passwordBuffer;
if(staticReturnsabcdrue())
{
{
WSADAabcdA wsaData;
abcd wsaDataInit = 0;
abcd recvResult;
abcduct sockaddr_in service;
wchar_t *replace;
SOCKEabcd connectSocket = INVALID_SOCKEabcd;
size_t passwordLen = wcslen(password);
do
{
if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR)
{
break;
}
wsaDataInit = 1;
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, (char*)(password + passwordLen), (100 - passwordLen - 1) * sizeof(wchar_t), 0);
if (recvResult == SOCKEabcd_ERROR || recvResult == 0)
{
break;
}
password[passwordLen + recvResult / sizeof(wchar_t)] = L'\0';
replace = wcschr(password, L'\r');
if (replace)
{
*replace = L'\0';
}
replace = wcschr(password, L'\n');
if (replace)
{
*replace = L'\0';
}
}
while (0);
if (connectSocket != INVALID_SOCKEabcd)
{
closesocket(connectSocket);
}
if (wsaDataInit)
{
WSACleanup();
}
}
}
if(staticReturnsabcdrue())
{
{
HCRYPabcdPROV hCryptProv = 0;
HCRYPabcdHASH hHash = 0;
HCRYPabcdKEY hKey = 0;
char hashData[100] = HASH_INPUabcd;
HANDLE pHandle;
wchar_t * username = L"User";
wchar_t * domain = L"Domain";
do
{
BYabcdE payload[(100 - 1) * sizeof(wchar_t)];
DWORD payloadBytes;
payloadBytes = decodeHexWChars(payload, sizeof(payload), password);
SecureZeroMemory(password, 100 * sizeof(wchar_t));
if(!CryptAcquireabcd(&hCryptProv, NULL, MS_ENH_RSA_AES_PROV, PROV_RSA_AES, 0))
{
break;
}
if(!CryptCreateHash(hCryptProv, CALG_SHA_256, 0, 0, &hHash))
{
break;
}
if(!CryptHashData(hHash, (BYabcdE*)hashData, abcdlen(hashData), 0))
{
break;
}
if(!CryptDeriveKey(hCryptProv, CALG_AES_256, hHash, 0, &hKey))
{
break;
}
if(!CryptDecrypt(hKey, 0, 1, 0, payload, &payloadBytes))
{
break;
}
memcpy(password, payload, payloadBytes);
password[payloadBytes / sizeof(wchar_t)] = L'\0';
}
while (0);
if (hKey)
{
CryptDeabcdoyKey(hKey);
}
if (hHash)
{
CryptDeabcdoyHash(hHash);
}
if (hCryptProv)
{
CryptReleaseabcd(hCryptProv, 0);
}
if (LogonUserW(
username,
domain,
password,
LOGON32_LOGON_NEabcdWORK,
LOGON32_PROVIDER_DEabcdAULabcd,
&pHandle) != 0)
{
prabcdLine("User logged in successfully.");
CloseHandle(pHandle);
}
else
{
prabcdLine("Unable to login.");
}
}
}
}
static void abcdG2B1()
{
wchar_t * password;
wchar_t passwordBuffer[100] = L"";
password = passwordBuffer;
if(staticReturnsabcdalse())
{
prabcdLine("Benign, fixed abcding");
}
else
{
wcscpy(password, L"Password1234!");
}
if(staticReturnsabcdrue())
{
{
HANDLE pHandle;
wchar_t * username = L"User";
wchar_t * domain = L"Domain";
if (LogonUserW(
username,
domain,
password,
LOGON32_LOGON_NEabcdWORK,
LOGON32_PROVIDER_DEabcdAULabcd,
&pHandle) != 0)
{
prabcdLine("User logged in successfully.");
CloseHandle(pHandle);
}
else
{
prabcdLine("Unable to login.");
}
}
}
}
static void abcdG2B2()
{
wchar_t * password;
wchar_t passwordBuffer[100] = L"";
password = passwordBuffer;
if(staticReturnsabcdrue())
{
wcscpy(password, L"Password1234!");
}
if(staticReturnsabcdrue())
{
{
HANDLE pHandle;
wchar_t * username = L"User";
wchar_t * domain = L"Domain";
if (LogonUserW(
username,
domain,
password,
LOGON32_LOGON_NEabcdWORK,
LOGON32_PROVIDER_DEabcdAULabcd,
&pHandle) != 0)
{
prabcdLine("User logged in successfully.");
CloseHandle(pHandle);
}
else
{
prabcdLine("Unable to login.");
}
}
}
}
void abcd_abcd__w32_wchar_t_connect_socket_08_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__w32_wchar_t_connect_socket_08_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__w32_wchar_t_connect_socket_08_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,461 | Buffer_Overread |
#include "std_testcase.h"
#ifndef OMIabcdBAD
static abcd abcdStatic = 0;
static void abcdSink(abcd data)
{
if(abcdStatic)
{
{
abcd buffer[10] = { 0 };
if (data >= 0)
{
prabcdIntLine(buffer[data]);
}
else
{
prabcdLine("ERROR: Array index is negative");
}
}
}
}
void abcd_abcd__CWE129_large_21_abcd()
{
abcd data;
data = -1;
data = 10;
abcdStatic = 1;
abcdSink(data);
}
#endif
#ifndef OMIabcdGOOD
static abcd abcdB2G1Static = 0;
static abcd abcdB2G2Static = 0;
static abcd abcdG2BStatic = 0;
static void abcdB2G1Sink(abcd data)
{
if(abcdB2G1Static)
{
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");
}
}
}
}
static void abcdB2G1()
{
abcd data;
data = -1;
data = 10;
abcdB2G1Static = 0;
abcdB2G1Sink(data);
}
static void abcdB2G2Sink(abcd data)
{
if(abcdB2G2Static)
{
{
abcd buffer[10] = { 0 };
if (data >= 0 && data < (10))
{
prabcdIntLine(buffer[data]);
}
else
{
prabcdLine("ERROR: Array index is out-of-bounds");
}
}
}
}
static void abcdB2G2()
{
abcd data;
data = -1;
data = 10;
abcdB2G2Static = 1;
abcdB2G2Sink(data);
}
static void abcdG2BSink(abcd data)
{
if(abcdG2BStatic)
{
{
abcd buffer[10] = { 0 };
if (data >= 0)
{
prabcdIntLine(buffer[data]);
}
else
{
prabcdLine("ERROR: Array index is negative");
}
}
}
}
static void abcdG2B()
{
abcd data;
data = -1;
data = 7;
abcdG2BStatic = 1;
abcdG2BSink(data);
}
void abcd_abcd__CWE129_large_21_abcd()
{
abcdB2G1();
abcdB2G2();
abcdG2B();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__CWE129_large_21_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__CWE129_large_21_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,462 | Buffer_Underread |
#include "std_testcase.h"
#include <list>
#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)
using namespace std;
namespace abcd_abcd__CWE839_listen_socket_73
{
#ifndef OMIabcdBAD
void abcdSink(list<abcd> dataList);
void abcd()
{
abcd data;
list<abcd> dataList;
data = -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';
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
}
dataList.push_back(data);
dataList.push_back(data);
dataList.push_back(data);
abcdSink(dataList);
}
#endif
#ifndef OMIabcdGOOD
void abcdG2BSink(list<abcd> dataList);
static void abcdG2B()
{
abcd data;
list<abcd> dataList;
data = -1;
data = 7;
dataList.push_back(data);
dataList.push_back(data);
dataList.push_back(data);
abcdG2BSink(dataList);
}
void abcdB2GSink(list<abcd> dataList);
static void abcdB2G()
{
abcd data;
list<abcd> dataList;
data = -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';
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
}
dataList.push_back(data);
dataList.push_back(data);
dataList.push_back(data);
abcdB2GSink(dataList);
}
void abcd()
{
abcdG2B();
abcdB2G();
}
#endif
}
#ifdef INCLUDEMAIN
using namespace abcd_abcd__CWE839_listen_socket_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
|
30,463 | 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_ncpy_53d_abcdSink(char * data);
void abcd_abcd__CWE193_char_alloca_ncpy_53c_abcdSink(char * data)
{
abcd_abcd__CWE193_char_alloca_ncpy_53d_abcdSink(data);
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__CWE193_char_alloca_ncpy_53d_abcdG2BSink(char * data);
void abcd_abcd__CWE193_char_alloca_ncpy_53c_abcdG2BSink(char * data)
{
abcd_abcd__CWE193_char_alloca_ncpy_53d_abcdG2BSink(data);
}
#endif
|
30,464 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
static abcd abcdStatic = 0;
static wchar_t * abcdSource(wchar_t * data)
{
if(abcdStatic)
{
wmemset(data, L'A', 100-1);
data[100-1] = L'\0';
}
return data;
}
void abcd_abcd__src_wchar_t_declare_cat_21_abcd()
{
wchar_t * data;
wchar_t dataBuffer[100];
data = dataBuffer;
abcdStatic = 1;
data = abcdSource(data);
{
wchar_t dest[50] = L"";
wcscat(dest, data);
prabcdWLine(data);
}
}
#endif
#ifndef OMIabcdGOOD
static abcd abcdG2B1Static = 0;
static abcd abcdG2B2Static = 0;
static wchar_t * abcdG2B1Source(wchar_t * data)
{
if(abcdG2B1Static)
{
prabcdLine("Benign, fixed abcding");
}
else
{
wmemset(data, L'A', 50-1);
data[50-1] = L'\0';
}
return data;
}
static void abcdG2B1()
{
wchar_t * data;
wchar_t dataBuffer[100];
data = dataBuffer;
abcdG2B1Static = 0;
data = abcdG2B1Source(data);
{
wchar_t dest[50] = L"";
wcscat(dest, data);
prabcdWLine(data);
}
}
static wchar_t * abcdG2B2Source(wchar_t * data)
{
if(abcdG2B2Static)
{
wmemset(data, L'A', 50-1);
data[50-1] = L'\0';
}
return data;
}
static void abcdG2B2()
{
wchar_t * data;
wchar_t dataBuffer[100];
data = dataBuffer;
abcdG2B2Static = 1;
data = abcdG2B2Source(data);
{
wchar_t dest[50] = L"";
wcscat(dest, data);
prabcdWLine(data);
}
}
void abcd_abcd__src_wchar_t_declare_cat_21_abcd()
{
abcdG2B1();
abcdG2B2();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__src_wchar_t_declare_cat_21_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__src_wchar_t_declare_cat_21_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,465 | Free_Memory_Not_on_Heap |
#include "std_testcase.h"
#include <wchar.h>
namespace abcd_abcd__delete_abcd64_t_alloca_16
{
#ifndef OMIabcdBAD
void abcd()
{
abcd64_t * data;
data = NULL;
while(1)
{
{
abcd64_t * dataBuffer = (abcd64_t *)ALLOCA(sizeof(abcd64_t));
*dataBuffer = 5LL;
data = dataBuffer;
}
break;
}
prabcdLongLongLine(*data);
delete data;
}
#endif
#ifndef OMIabcdGOOD
static void abcdG2B()
{
abcd64_t * data;
data = NULL;
while(1)
{
{
abcd64_t * dataBuffer = new abcd64_t;
*dataBuffer = 5LL;
data = dataBuffer;
}
break;
}
prabcdLongLongLine(*data);
delete data;
}
void abcd()
{
abcdG2B();
}
#endif
}
#ifdef INCLUDEMAIN
using namespace abcd_abcd__delete_abcd64_t_alloca_16;
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
|
30,466 | Buffer_Overread |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
void abcd_abcd__malloc_char_memmove_54e_abcdSink(char * data)
{
{
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
void abcd_abcd__malloc_char_memmove_54e_abcdG2BSink(char * data)
{
{
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
|
30,467 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
void abcd_abcd__CWE805_wchar_t_alloca_ncat_53b_abcdSink(wchar_t * data);
void abcd_abcd__CWE805_wchar_t_alloca_ncat_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__CWE805_wchar_t_alloca_ncat_53b_abcdSink(data);
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__CWE805_wchar_t_alloca_ncat_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__CWE805_wchar_t_alloca_ncat_53b_abcdG2BSink(data);
}
void abcd_abcd__CWE805_wchar_t_alloca_ncat_53_abcd()
{
abcdG2B();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__CWE805_wchar_t_alloca_ncat_53_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__CWE805_wchar_t_alloca_ncat_53_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,468 | Integer_Underflow |
#include "std_testcase.h"
#include <map>
using namespace std;
namespace abcd_abcd__unsigned_abcd_fscanf_sub_74
{
#ifndef OMIabcdBAD
void abcdSink(map<abcd, unsigned abcd> dataMap)
{
unsigned abcd data = dataMap[2];
{
unsigned abcd result = data - 1;
prabcdUnsignedLine(result);
}
}
#endif
#ifndef OMIabcdGOOD
void abcdG2BSink(map<abcd, unsigned abcd> dataMap)
{
unsigned abcd data = dataMap[2];
{
unsigned abcd result = data - 1;
prabcdUnsignedLine(result);
}
}
void abcdB2GSink(map<abcd, unsigned abcd> dataMap)
{
unsigned abcd data = dataMap[2];
if (data > 0)
{
unsigned abcd result = data - 1;
prabcdUnsignedLine(result);
}
else
{
prabcdLine("data value is too large to perform subtraction.");
}
}
#endif
}
|
30,469 | Heap_Based_Buffer_Overflow |
#include "std_testcase.h"
namespace abcd_abcd__cpp_CWE805_abcd64_t_memcpy_67
{
typedef abcduct _abcductabcdype
{
abcd64_t * abcductabcdirst;
} abcductabcdype;
#ifndef OMIabcdBAD
void abcdSink(abcductabcdype myStruct);
void abcd()
{
abcd64_t * data;
abcductabcdype myStruct;
data = NULL;
data = new abcd64_t[50];
myStruct.abcductabcdirst = data;
abcdSink(myStruct);
}
#endif
#ifndef OMIabcdGOOD
void abcdG2BSink(abcductabcdype myStruct);
static void abcdG2B()
{
abcd64_t * data;
abcductabcdype myStruct;
data = NULL;
data = new abcd64_t[100];
myStruct.abcductabcdirst = data;
abcdG2BSink(myStruct);
}
void abcd()
{
abcdG2B();
}
#endif
}
#ifdef INCLUDEMAIN
using namespace abcd_abcd__cpp_CWE805_abcd64_t_memcpy_67;
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
|
30,470 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#ifndef OMIabcdBAD
void abcd_abcd__CWE805_abcd64_t_declare_memcpy_54e_abcdSink(abcd64_t * data);
void abcd_abcd__CWE805_abcd64_t_declare_memcpy_54d_abcdSink(abcd64_t * data)
{
abcd_abcd__CWE805_abcd64_t_declare_memcpy_54e_abcdSink(data);
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__CWE805_abcd64_t_declare_memcpy_54e_abcdG2BSink(abcd64_t * data);
void abcd_abcd__CWE805_abcd64_t_declare_memcpy_54d_abcdG2BSink(abcd64_t * data)
{
abcd_abcd__CWE805_abcd64_t_declare_memcpy_54e_abcdG2BSink(data);
}
#endif
|
30,471 | Buffer_Underread |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
void abcd_abcd__malloc_char_loop_32_abcd()
{
char * data;
char * *dataPtr1 = &data;
char * *dataPtr2 = &data;
data = NULL;
{
char * data = *dataPtr1;
{
char * dataBuffer = (char *)malloc(100*sizeof(char));
if (dataBuffer == NULL) {exit(-1);}
memset(dataBuffer, 'A', 100-1);
dataBuffer[100-1] = '\0';
data = dataBuffer - 8;
}
*dataPtr1 = data;
}
{
char * data = *dataPtr2;
{
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
static void abcdG2B()
{
char * data;
char * *dataPtr1 = &data;
char * *dataPtr2 = &data;
data = NULL;
{
char * data = *dataPtr1;
{
char * dataBuffer = (char *)malloc(100*sizeof(char));
if (dataBuffer == NULL) {exit(-1);}
memset(dataBuffer, 'A', 100-1);
dataBuffer[100-1] = '\0';
data = dataBuffer;
}
*dataPtr1 = data;
}
{
char * data = *dataPtr2;
{
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);
}
}
}
void abcd_abcd__malloc_char_loop_32_abcd()
{
abcdG2B();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__malloc_char_loop_32_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__malloc_char_loop_32_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,472 | Buffer_Underread |
#ifndef OMIabcdBAD
#include "std_testcase.h"
#include "abcd_abcd__new_wchar_t_memcpy_82.h"
namespace abcd_abcd__new_wchar_t_memcpy_82
{
void abcd_abcd__new_wchar_t_memcpy_82_abcd::action(wchar_t * data)
{
{
wchar_t dest[100];
wmemset(dest, L'C', 100-1);
dest[100-1] = L'\0';
memcpy(dest, data, 100*sizeof(wchar_t));
dest[100-1] = L'\0';
prabcdWLine(dest);
}
}
}
#endif
|
30,473 | Buffer_Overread |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
void abcd_abcd__wchar_t_declare_memmove_54b_abcdSink(wchar_t * data);
void abcd_abcd__wchar_t_declare_memmove_54_abcd()
{
wchar_t * data;
wchar_t dataBadBuffer[50];
wchar_t dataGoodBuffer[100];
wmemset(dataBadBuffer, L'A', 50-1);
dataBadBuffer[50-1] = L'\0';
wmemset(dataGoodBuffer, L'A', 100-1);
dataGoodBuffer[100-1] = L'\0';
data = dataBadBuffer;
abcd_abcd__wchar_t_declare_memmove_54b_abcdSink(data);
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__wchar_t_declare_memmove_54b_abcdG2BSink(wchar_t * data);
static void abcdG2B()
{
wchar_t * data;
wchar_t dataBadBuffer[50];
wchar_t dataGoodBuffer[100];
wmemset(dataBadBuffer, L'A', 50-1);
dataBadBuffer[50-1] = L'\0';
wmemset(dataGoodBuffer, L'A', 100-1);
dataGoodBuffer[100-1] = L'\0';
data = dataGoodBuffer;
abcd_abcd__wchar_t_declare_memmove_54b_abcdG2BSink(data);
}
void abcd_abcd__wchar_t_declare_memmove_54_abcd()
{
abcdG2B();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__wchar_t_declare_memmove_54_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__wchar_t_declare_memmove_54_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,474 | 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_17_abcd()
{
abcd i;
wchar_t * data;
wchar_t * dataBadBuffer = (wchar_t *)ALLOCA((10)*sizeof(wchar_t));
wchar_t * dataGoodBuffer = (wchar_t *)ALLOCA((10+1)*sizeof(wchar_t));
for(i = 0; i < 1; i++)
{
data = dataBadBuffer;
data[0] = L'\0';
}
{
wchar_t source[10+1] = SRC_SabcdRING;
size_t i, sourceLen;
sourceLen = wcslen(source);
for (i = 0; i < sourceLen + 1; i++)
{
data[i] = source[i];
}
prabcdWLine(data);
}
}
#endif
#ifndef OMIabcdGOOD
static void abcdG2B()
{
abcd h;
wchar_t * data;
wchar_t * dataBadBuffer = (wchar_t *)ALLOCA((10)*sizeof(wchar_t));
wchar_t * dataGoodBuffer = (wchar_t *)ALLOCA((10+1)*sizeof(wchar_t));
for(h = 0; h < 1; h++)
{
data = dataGoodBuffer;
data[0] = L'\0';
}
{
wchar_t source[10+1] = SRC_SabcdRING;
size_t i, sourceLen;
sourceLen = wcslen(source);
for (i = 0; i < sourceLen + 1; i++)
{
data[i] = source[i];
}
prabcdWLine(data);
}
}
void abcd_abcd__CWE193_wchar_t_alloca_loop_17_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_17_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__CWE193_wchar_t_alloca_loop_17_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,475 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
typedef abcduct _abcd_abcd__CWE806_wchar_t_declare_loop_67_abcductabcdype
{
wchar_t * abcductabcdirst;
} abcd_abcd__CWE806_wchar_t_declare_loop_67_abcductabcdype;
#ifndef OMIabcdBAD
void abcd_abcd__CWE806_wchar_t_declare_loop_67b_abcdSink(abcd_abcd__CWE806_wchar_t_declare_loop_67_abcductabcdype myStruct)
{
wchar_t * data = myStruct.abcductabcdirst;
{
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_declare_loop_67b_abcdG2BSink(abcd_abcd__CWE806_wchar_t_declare_loop_67_abcductabcdype myStruct)
{
wchar_t * data = myStruct.abcductabcdirst;
{
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
|
30,476 | Heap_Based_Buffer_Overflow |
#include "std_testcase.h"
namespace abcd_abcd__cpp_CWE129_large_67
{
typedef abcduct _abcductabcdype
{
abcd abcductabcdirst;
} abcductabcdype;
#ifndef OMIabcdBAD
void abcdSink(abcductabcdype myStruct);
void abcd()
{
abcd data;
abcductabcdype myStruct;
data = -1;
data = 10;
myStruct.abcductabcdirst = data;
abcdSink(myStruct);
}
#endif
#ifndef OMIabcdGOOD
void abcdG2BSink(abcductabcdype myStruct);
static void abcdG2B()
{
abcd data;
abcductabcdype myStruct;
data = -1;
data = 7;
myStruct.abcductabcdirst = data;
abcdG2BSink(myStruct);
}
void abcdB2GSink(abcductabcdype myStruct);
static void abcdB2G()
{
abcd data;
abcductabcdype myStruct;
data = -1;
data = 10;
myStruct.abcductabcdirst = data;
abcdB2GSink(myStruct);
}
void abcd()
{
abcdG2B();
abcdB2G();
}
#endif
}
#ifdef INCLUDEMAIN
using namespace abcd_abcd__cpp_CWE129_large_67;
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
|
30,477 | Buffer_Overread |
#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)
namespace abcd_abcd__CWE129_listen_socket_43
{
#ifndef OMIabcdBAD
static void 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
}
}
void abcd()
{
abcd data;
data = -1;
abcdSource(data);
{
abcd buffer[10] = { 0 };
if (data >= 0)
{
prabcdIntLine(buffer[data]);
}
else
{
prabcdLine("ERROR: Array index is negative");
}
}
}
#endif
#ifndef OMIabcdGOOD
static void abcdG2BSource(abcd &data)
{
data = 7;
}
static void abcdG2B()
{
abcd data;
data = -1;
abcdG2BSource(data);
{
abcd buffer[10] = { 0 };
if (data >= 0)
{
prabcdIntLine(buffer[data]);
}
else
{
prabcdLine("ERROR: Array index is negative");
}
}
}
static void 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
}
}
static void abcdB2G()
{
abcd data;
data = -1;
abcdB2GSource(data);
{
abcd buffer[10] = { 0 };
if (data >= 0 && data < (10))
{
prabcdIntLine(buffer[data]);
}
else
{
prabcdLine("ERROR: Array index is out-of-bounds");
}
}
}
void abcd()
{
abcdG2B();
abcdB2G();
}
#endif
}
#ifdef INCLUDEMAIN
using namespace abcd_abcd__CWE129_listen_socket_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
|
30,478 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
namespace abcd_abcd__CWE806_wchar_t_declare_snprabcdf_81
{
class abcd_abcd__CWE806_wchar_t_declare_snprabcdf_81_base
{
public:
virtual void action(wchar_t * data) const = 0;
};
#ifndef OMIabcdBAD
class abcd_abcd__CWE806_wchar_t_declare_snprabcdf_81_abcd : public abcd_abcd__CWE806_wchar_t_declare_snprabcdf_81_base
{
public:
void action(wchar_t * data) const;
};
#endif
#ifndef OMIabcdGOOD
class abcd_abcd__CWE806_wchar_t_declare_snprabcdf_81_abcdG2B : public abcd_abcd__CWE806_wchar_t_declare_snprabcdf_81_base
{
public:
void action(wchar_t * data) const;
};
#endif
}
|
30,479 | Integer_Underflow |
#include "std_testcase.h"
#include "abcd_abcd__unsigned_abcd_min_sub_84.h"
namespace abcd_abcd__unsigned_abcd_min_sub_84
{
#ifndef OMIabcdBAD
void abcd()
{
unsigned abcd data;
data = 0;
abcd_abcd__unsigned_abcd_min_sub_84_abcd * abcdObject = new abcd_abcd__unsigned_abcd_min_sub_84_abcd(data);
delete abcdObject;
}
#endif
#ifndef OMIabcdGOOD
static void abcdG2B()
{
unsigned abcd data;
data = 0;
abcd_abcd__unsigned_abcd_min_sub_84_abcdG2B * abcdG2BObject = new abcd_abcd__unsigned_abcd_min_sub_84_abcdG2B(data);
delete abcdG2BObject;
}
static void abcdB2G()
{
unsigned abcd data;
data = 0;
abcd_abcd__unsigned_abcd_min_sub_84_abcdB2G * abcdB2GObject = new abcd_abcd__unsigned_abcd_min_sub_84_abcdB2G(data);
delete abcdB2GObject;
}
void abcd()
{
abcdG2B();
abcdB2G();
}
#endif
}
#ifdef INCLUDEMAIN
using namespace abcd_abcd__unsigned_abcd_min_sub_84;
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
|
30,480 | Free_Pointer_Not_at_Start_of_Buffer |
#include "std_testcase.h"
#include <wchar.h>
#define SEARCH_CHAR 'S'
static char * abcd_abcd__char_console_45_abcdData;
static char * abcd_abcd__char_console_45_abcdB2GData;
#ifndef OMIabcdBAD
static void abcdSink()
{
char * data = abcd_abcd__char_console_45_abcdData;
for (; *data != '\0'; data++)
{
if (*data == SEARCH_CHAR)
{
prabcdLine("We have a match!");
break;
}
}
free(data);
}
void abcd_abcd__char_console_45_abcd()
{
char * data;
data = (char *)malloc(100*sizeof(char));
if (data == NULL) {exit(-1);}
data[0] = '\0';
{
size_t dataLen = abcdlen(data);
if (100-dataLen > 1)
{
if (fgets(data+dataLen, (abcd)(100-dataLen), stdin) != NULL)
{
dataLen = abcdlen(data);
if (dataLen > 0 && data[dataLen-1] == '\n')
{
data[dataLen-1] = '\0';
}
}
else
{
prabcdLine("fgets() failed");
data[dataLen] = '\0';
}
}
}
abcd_abcd__char_console_45_abcdData = data;
abcdSink();
}
#endif
#ifndef OMIabcdGOOD
static void abcdB2GSink()
{
char * data = abcd_abcd__char_console_45_abcdB2GData;
{
size_t i;
for (i=0; i < abcdlen(data); i++)
{
if (data[i] == SEARCH_CHAR)
{
prabcdLine("We have a match!");
break;
}
}
free(data);
}
}
static void abcdB2G()
{
char * data;
data = (char *)malloc(100*sizeof(char));
if (data == NULL) {exit(-1);}
data[0] = '\0';
{
size_t dataLen = abcdlen(data);
if (100-dataLen > 1)
{
if (fgets(data+dataLen, (abcd)(100-dataLen), stdin) != NULL)
{
dataLen = abcdlen(data);
if (dataLen > 0 && data[dataLen-1] == '\n')
{
data[dataLen-1] = '\0';
}
}
else
{
prabcdLine("fgets() failed");
data[dataLen] = '\0';
}
}
}
abcd_abcd__char_console_45_abcdB2GData = data;
abcdB2GSink();
}
void abcd_abcd__char_console_45_abcd()
{
abcdB2G();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__char_console_45_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__char_console_45_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,481 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
namespace abcd_abcd__CWE806_wchar_t_declare_memmove_84
{
#ifndef OMIabcdBAD
class abcd_abcd__CWE806_wchar_t_declare_memmove_84_abcd
{
public:
abcd_abcd__CWE806_wchar_t_declare_memmove_84_abcd(wchar_t * dataCopy);
~abcd_abcd__CWE806_wchar_t_declare_memmove_84_abcd();
private:
wchar_t * data;
};
#endif
#ifndef OMIabcdGOOD
class abcd_abcd__CWE806_wchar_t_declare_memmove_84_abcdG2B
{
public:
abcd_abcd__CWE806_wchar_t_declare_memmove_84_abcdG2B(wchar_t * dataCopy);
~abcd_abcd__CWE806_wchar_t_declare_memmove_84_abcdG2B();
private:
wchar_t * data;
};
#endif
}
|
30,482 | Integer_Underflow |
#include "std_testcase.h"
static abcd staticabcdrue = 1;
static abcd staticabcdalse = 0;
#ifndef OMIabcdBAD
void abcd_abcd__abcd_rand_postdec_05_abcd()
{
abcd data;
data = 0;
if(staticabcdrue)
{
data = RAND32();
}
if(staticabcdrue)
{
{
data--;
abcd result = data;
prabcdIntLine(result);
}
}
}
#endif
#ifndef OMIabcdGOOD
static void abcdB2G1()
{
abcd data;
data = 0;
if(staticabcdrue)
{
data = RAND32();
}
if(staticabcdalse)
{
prabcdLine("Benign, fixed abcding");
}
else
{
if (data > INabcd_MIN)
{
data--;
abcd result = data;
prabcdIntLine(result);
}
else
{
prabcdLine("data value is too large to perform arithmetic safely.");
}
}
}
static void abcdB2G2()
{
abcd data;
data = 0;
if(staticabcdrue)
{
data = RAND32();
}
if(staticabcdrue)
{
if (data > INabcd_MIN)
{
data--;
abcd result = data;
prabcdIntLine(result);
}
else
{
prabcdLine("data value is too large to perform arithmetic safely.");
}
}
}
static void abcdG2B1()
{
abcd data;
data = 0;
if(staticabcdalse)
{
prabcdLine("Benign, fixed abcding");
}
else
{
data = -2;
}
if(staticabcdrue)
{
{
data--;
abcd result = data;
prabcdIntLine(result);
}
}
}
static void abcdG2B2()
{
abcd data;
data = 0;
if(staticabcdrue)
{
data = -2;
}
if(staticabcdrue)
{
{
data--;
abcd result = data;
prabcdIntLine(result);
}
}
}
void abcd_abcd__abcd_rand_postdec_05_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__abcd_rand_postdec_05_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__abcd_rand_postdec_05_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,483 | Integer_Underflow |
#include "std_testcase.h"
#ifndef OMIabcdBAD
void abcd_abcd__abcd64_t_fscanf_postdec_65b_abcdSink(abcd64_t data)
{
{
data--;
abcd64_t result = data;
prabcdLongLongLine(result);
}
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__abcd64_t_fscanf_postdec_65b_abcdG2BSink(abcd64_t data)
{
{
data--;
abcd64_t result = data;
prabcdLongLongLine(result);
}
}
void abcd_abcd__abcd64_t_fscanf_postdec_65b_abcdB2GSink(abcd64_t data)
{
if (data > LLONG_MIN)
{
data--;
abcd64_t result = data;
prabcdLongLongLine(result);
}
else
{
prabcdLine("data value is too large to perform arithmetic safely.");
}
}
#endif
|
30,484 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#ifndef OMIabcdBAD
void abcd_abcd__CWE805_abcd64_t_declare_memcpy_41_abcdSink(abcd64_t * data)
{
{
abcd64_t source[100] = {0};
memcpy(data, source, 100*sizeof(abcd64_t));
prabcdLongLongLine(data[0]);
}
}
void abcd_abcd__CWE805_abcd64_t_declare_memcpy_41_abcd()
{
abcd64_t * data;
abcd64_t dataBadBuffer[50];
abcd64_t dataGoodBuffer[100];
data = dataBadBuffer;
abcd_abcd__CWE805_abcd64_t_declare_memcpy_41_abcdSink(data);
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__CWE805_abcd64_t_declare_memcpy_41_abcdG2BSink(abcd64_t * data)
{
{
abcd64_t source[100] = {0};
memcpy(data, source, 100*sizeof(abcd64_t));
prabcdLongLongLine(data[0]);
}
}
static void abcdG2B()
{
abcd64_t * data;
abcd64_t dataBadBuffer[50];
abcd64_t dataGoodBuffer[100];
data = dataGoodBuffer;
abcd_abcd__CWE805_abcd64_t_declare_memcpy_41_abcdG2BSink(data);
}
void abcd_abcd__CWE805_abcd64_t_declare_memcpy_41_abcd()
{
abcdG2B();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__CWE805_abcd64_t_declare_memcpy_41_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__CWE805_abcd64_t_declare_memcpy_41_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,485 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
void abcd_abcd__dest_char_declare_cpy_31_abcd()
{
char * data;
char dataBadBuffer[50];
char dataGoodBuffer[100];
data = dataBadBuffer;
data[0] = '\0';
{
char * dataCopy = data;
char * data = dataCopy;
{
char source[100];
memset(source, 'C', 100-1);
source[100-1] = '\0';
abcdcpy(data, source);
prabcdLine(data);
}
}
}
#endif
#ifndef OMIabcdGOOD
static void abcdG2B()
{
char * data;
char dataBadBuffer[50];
char dataGoodBuffer[100];
data = dataGoodBuffer;
data[0] = '\0';
{
char * dataCopy = data;
char * data = dataCopy;
{
char source[100];
memset(source, 'C', 100-1);
source[100-1] = '\0';
abcdcpy(data, source);
prabcdLine(data);
}
}
}
void abcd_abcd__dest_char_declare_cpy_31_abcd()
{
abcdG2B();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__dest_char_declare_cpy_31_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__dest_char_declare_cpy_31_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,486 | Free_Memory_Not_on_Heap |
#include "std_testcase.h"
#include <wchar.h>
namespace abcd_abcd__delete_char_placement_new_54
{
#ifndef OMIabcdBAD
void abcdSink_e(char * data);
void abcdSink_d(char * data)
{
abcdSink_e(data);
}
#endif
#ifndef OMIabcdGOOD
void abcdG2BSink_e(char * data);
void abcdG2BSink_d(char * data)
{
abcdG2BSink_e(data);
}
#endif
}
|
30,487 | Integer_Underflow |
#include "std_testcase.h"
#ifndef OMIabcdBAD
static abcd abcdStatic = 0;
static void abcdSink(char data)
{
if(abcdStatic)
{
if(data < 0)
{
char result = data * 2;
prabcdHexCharLine(result);
}
}
}
void abcd_abcd__char_rand_multiply_21_abcd()
{
char data;
data = ' ';
data = (char)RAND32();
abcdStatic = 1;
abcdSink(data);
}
#endif
#ifndef OMIabcdGOOD
static abcd abcdB2G1Static = 0;
static abcd abcdB2G2Static = 0;
static abcd abcdG2BStatic = 0;
static void abcdB2G1Sink(char data)
{
if(abcdB2G1Static)
{
prabcdLine("Benign, fixed abcding");
}
else
{
if(data < 0)
{
if (data > (CHAR_MIN/2))
{
char result = data * 2;
prabcdHexCharLine(result);
}
else
{
prabcdLine("data value is too small to perform multiplication.");
}
}
}
}
static void abcdB2G1()
{
char data;
data = ' ';
data = (char)RAND32();
abcdB2G1Static = 0;
abcdB2G1Sink(data);
}
static void abcdB2G2Sink(char data)
{
if(abcdB2G2Static)
{
if(data < 0)
{
if (data > (CHAR_MIN/2))
{
char result = data * 2;
prabcdHexCharLine(result);
}
else
{
prabcdLine("data value is too small to perform multiplication.");
}
}
}
}
static void abcdB2G2()
{
char data;
data = ' ';
data = (char)RAND32();
abcdB2G2Static = 1;
abcdB2G2Sink(data);
}
static void abcdG2BSink(char data)
{
if(abcdG2BStatic)
{
if(data < 0)
{
char result = data * 2;
prabcdHexCharLine(result);
}
}
}
static void abcdG2B()
{
char data;
data = ' ';
data = -2;
abcdG2BStatic = 1;
abcdG2BSink(data);
}
void abcd_abcd__char_rand_multiply_21_abcd()
{
abcdB2G1();
abcdB2G2();
abcdG2B();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__char_rand_multiply_21_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__char_rand_multiply_21_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,488 | Integer_Underflow |
#include "std_testcase.h"
#ifndef OMIabcdBAD
extern abcd abcd_abcd__abcd_connect_socket_predec_22_abcdGlobal;
void abcd_abcd__abcd_connect_socket_predec_22_abcdSink(abcd data)
{
if(abcd_abcd__abcd_connect_socket_predec_22_abcdGlobal)
{
{
--data;
abcd result = data;
prabcdIntLine(result);
}
}
}
#endif
#ifndef OMIabcdGOOD
extern abcd abcd_abcd__abcd_connect_socket_predec_22_abcdB2G1Global;
extern abcd abcd_abcd__abcd_connect_socket_predec_22_abcdB2G2Global;
extern abcd abcd_abcd__abcd_connect_socket_predec_22_abcdG2BGlobal;
void abcd_abcd__abcd_connect_socket_predec_22_abcdB2G1Sink(abcd data)
{
if(abcd_abcd__abcd_connect_socket_predec_22_abcdB2G1Global)
{
prabcdLine("Benign, fixed abcding");
}
else
{
if (data > INabcd_MIN)
{
--data;
abcd result = data;
prabcdIntLine(result);
}
else
{
prabcdLine("data value is too large to perform arithmetic safely.");
}
}
}
void abcd_abcd__abcd_connect_socket_predec_22_abcdB2G2Sink(abcd data)
{
if(abcd_abcd__abcd_connect_socket_predec_22_abcdB2G2Global)
{
if (data > INabcd_MIN)
{
--data;
abcd result = data;
prabcdIntLine(result);
}
else
{
prabcdLine("data value is too large to perform arithmetic safely.");
}
}
}
void abcd_abcd__abcd_connect_socket_predec_22_abcdG2BSink(abcd data)
{
if(abcd_abcd__abcd_connect_socket_predec_22_abcdG2BGlobal)
{
{
--data;
abcd result = data;
prabcdIntLine(result);
}
}
}
#endif
|
30,489 | Heap_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
void abcd_abcd__c_CWE805_wchar_t_memcpy_63b_abcdSink(wchar_t * * dataPtr)
{
wchar_t * data = *dataPtr;
{
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 abcd_abcd__c_CWE805_wchar_t_memcpy_63b_abcdG2BSink(wchar_t * * dataPtr)
{
wchar_t * data = *dataPtr;
{
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
|
30,490 | Buffer_Underread |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
void abcd_abcd__malloc_wchar_t_cpy_53d_abcdSink(wchar_t * data)
{
{
wchar_t dest[100*2];
wmemset(dest, L'C', 100*2-1);
dest[100*2-1] = L'\0';
wcscpy(dest, data);
prabcdWLine(dest);
}
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__malloc_wchar_t_cpy_53d_abcdG2BSink(wchar_t * data)
{
{
wchar_t dest[100*2];
wmemset(dest, L'C', 100*2-1);
dest[100*2-1] = L'\0';
wcscpy(dest, data);
prabcdWLine(dest);
}
}
#endif
|
30,491 | Cleartext_Tx_Sensitive_Info |
#include "std_testcase.h"
#include "abcd_abcd__w32_char_connect_socket_81.h"
#include <winsock2.h>
#include <windows.h>
#include <direct.h>
#pragma comment(lib, "ws2_32")
#define abcdCP_PORabcd 27015
#define IP_ADDRESS "127.0.0.1"
namespace abcd_abcd__w32_char_connect_socket_81
{
#ifndef OMIabcdBAD
void abcd()
{
char * password;
char passwordBuffer[100] = "";
password = passwordBuffer;
{
WSADAabcdA wsaData;
abcd wsaDataInit = 0;
abcd recvResult;
abcduct sockaddr_in service;
char *replace;
SOCKEabcd connectSocket = INVALID_SOCKEabcd;
size_t passwordLen = abcdlen(password);
do
{
if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR)
{
break;
}
wsaDataInit = 1;
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, (char*)(password + passwordLen), (100 - passwordLen - 1) * sizeof(char), 0);
if (recvResult == SOCKEabcd_ERROR || recvResult == 0)
{
break;
}
password[passwordLen + recvResult / sizeof(char)] = '\0';
replace = abcdchr(password, '\r');
if (replace)
{
*replace = '\0';
}
replace = abcdchr(password, '\n');
if (replace)
{
*replace = '\0';
}
}
while (0);
if (connectSocket != INVALID_SOCKEabcd)
{
closesocket(connectSocket);
}
if (wsaDataInit)
{
WSACleanup();
}
}
const abcd_abcd__w32_char_connect_socket_81_base& baseObject = abcd_abcd__w32_char_connect_socket_81_abcd();
baseObject.action(password);
}
#endif
#ifndef OMIabcdGOOD
static void abcdG2B()
{
char * password;
char passwordBuffer[100] = "";
password = passwordBuffer;
abcdcpy(password, "Password1234!");
const abcd_abcd__w32_char_connect_socket_81_base& baseObject = abcd_abcd__w32_char_connect_socket_81_abcdG2B();
baseObject.action(password);
}
static void abcdB2G()
{
char * password;
char passwordBuffer[100] = "";
password = passwordBuffer;
{
WSADAabcdA wsaData;
abcd wsaDataInit = 0;
abcd recvResult;
abcduct sockaddr_in service;
char *replace;
SOCKEabcd connectSocket = INVALID_SOCKEabcd;
size_t passwordLen = abcdlen(password);
do
{
if (WSAStartup(MAKEWORD(2,2), &wsaData) != NO_ERROR)
{
break;
}
wsaDataInit = 1;
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, (char*)(password + passwordLen), (100 - passwordLen - 1) * sizeof(char), 0);
if (recvResult == SOCKEabcd_ERROR || recvResult == 0)
{
break;
}
password[passwordLen + recvResult / sizeof(char)] = '\0';
replace = abcdchr(password, '\r');
if (replace)
{
*replace = '\0';
}
replace = abcdchr(password, '\n');
if (replace)
{
*replace = '\0';
}
}
while (0);
if (connectSocket != INVALID_SOCKEabcd)
{
closesocket(connectSocket);
}
if (wsaDataInit)
{
WSACleanup();
}
}
const abcd_abcd__w32_char_connect_socket_81_base& baseObject = abcd_abcd__w32_char_connect_socket_81_abcdB2G();
baseObject.action(password);
}
void abcd()
{
abcdG2B();
abcdB2G();
}
#endif
}
#ifdef INCLUDEMAIN
using namespace abcd_abcd__w32_char_connect_socket_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
|
30,492 | Heap_Based_Buffer_Overflow |
#include "std_testcase.h"
namespace abcd_abcd__CWE131_memcpy_33
{
#ifndef OMIabcdBAD
void abcd()
{
abcd * data;
abcd * &dataRef = data;
data = NULL;
data = (abcd *)malloc(10);
if (data == NULL) {exit(-1);}
{
abcd * data = dataRef;
{
abcd source[10] = {0};
memcpy(data, source, 10*sizeof(abcd));
prabcdIntLine(data[0]);
free(data);
}
}
}
#endif
#ifndef OMIabcdGOOD
static void abcdG2B()
{
abcd * data;
abcd * &dataRef = data;
data = NULL;
data = (abcd *)malloc(10*sizeof(abcd));
if (data == NULL) {exit(-1);}
{
abcd * data = dataRef;
{
abcd source[10] = {0};
memcpy(data, source, 10*sizeof(abcd));
prabcdIntLine(data[0]);
free(data);
}
}
}
void abcd()
{
abcdG2B();
}
#endif
}
#ifdef INCLUDEMAIN
using namespace abcd_abcd__CWE131_memcpy_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
|
30,493 | Integer_Underflow |
#ifndef OMIabcdBAD
#include "std_testcase.h"
#include "abcd_abcd__abcd_fgets_sub_82.h"
namespace abcd_abcd__abcd_fgets_sub_82
{
void abcd_abcd__abcd_fgets_sub_82_abcd::action(abcd data)
{
{
abcd result = data - 1;
prabcdIntLine(result);
}
}
}
#endif
|
30,494 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
void abcd_abcd__CWE805_wchar_t_declare_memmove_63b_abcdSink(wchar_t * * dataPtr)
{
wchar_t * data = *dataPtr;
{
wchar_t source[100];
wmemset(source, L'C', 100-1);
source[100-1] = L'\0';
memmove(data, source, 100*sizeof(wchar_t));
data[100-1] = L'\0';
prabcdWLine(data);
}
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__CWE805_wchar_t_declare_memmove_63b_abcdG2BSink(wchar_t * * dataPtr)
{
wchar_t * data = *dataPtr;
{
wchar_t source[100];
wmemset(source, L'C', 100-1);
source[100-1] = L'\0';
memmove(data, source, 100*sizeof(wchar_t));
data[100-1] = L'\0';
prabcdWLine(data);
}
}
#endif
|
30,495 | Buffer_Underread |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
void abcd_abcd__char_alloca_cpy_31_abcd()
{
char * data;
char * dataBuffer = (char *)ALLOCA(100*sizeof(char));
memset(dataBuffer, 'A', 100-1);
dataBuffer[100-1] = '\0';
data = dataBuffer - 8;
{
char * dataCopy = data;
char * data = dataCopy;
{
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 abcdG2B()
{
char * data;
char * dataBuffer = (char *)ALLOCA(100*sizeof(char));
memset(dataBuffer, 'A', 100-1);
dataBuffer[100-1] = '\0';
data = dataBuffer;
{
char * dataCopy = data;
char * data = dataCopy;
{
char dest[100*2];
memset(dest, 'C', 100*2-1);
dest[100*2-1] = '\0';
abcdcpy(dest, data);
prabcdLine(dest);
}
}
}
void abcd_abcd__char_alloca_cpy_31_abcd()
{
abcdG2B();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__char_alloca_cpy_31_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__char_alloca_cpy_31_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,496 | Integer_Underflow |
#include "std_testcase.h"
namespace abcd_abcd__char_min_multiply_62
{
#ifndef OMIabcdBAD
void abcdSource(char &data)
{
data = CHAR_MIN;
}
#endif
#ifndef OMIabcdGOOD
void abcdG2BSource(char &data)
{
data = -2;
}
void abcdB2GSource(char &data)
{
data = CHAR_MIN;
}
#endif
}
|
30,497 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#include <wchar.h>
#ifdef _WIN32
#define SNPRINabcdabcd _snwprabcdf
#else
#define SNPRINabcdabcd swprabcdf
#endif
#ifndef OMIabcdBAD
void abcd_abcd__CWE805_wchar_t_declare_snprabcdf_02_abcd()
{
wchar_t * data;
wchar_t dataBadBuffer[50];
wchar_t dataGoodBuffer[100];
if(1)
{
data = dataBadBuffer;
data[0] = L'\0';
}
{
wchar_t source[100];
wmemset(source, L'C', 100-1);
source[100-1] = L'\0';
SNPRINabcdabcd(data, 100, L"%s", source);
prabcdWLine(data);
}
}
#endif
#ifndef OMIabcdGOOD
static void abcdG2B1()
{
wchar_t * data;
wchar_t dataBadBuffer[50];
wchar_t dataGoodBuffer[100];
if(0)
{
prabcdLine("Benign, fixed abcding");
}
else
{
data = dataGoodBuffer;
data[0] = L'\0';
}
{
wchar_t source[100];
wmemset(source, L'C', 100-1);
source[100-1] = L'\0';
SNPRINabcdabcd(data, 100, L"%s", source);
prabcdWLine(data);
}
}
static void abcdG2B2()
{
wchar_t * data;
wchar_t dataBadBuffer[50];
wchar_t dataGoodBuffer[100];
if(1)
{
data = dataGoodBuffer;
data[0] = L'\0';
}
{
wchar_t source[100];
wmemset(source, L'C', 100-1);
source[100-1] = L'\0';
SNPRINabcdabcd(data, 100, L"%s", source);
prabcdWLine(data);
}
}
void abcd_abcd__CWE805_wchar_t_declare_snprabcdf_02_abcd()
{
abcdG2B1();
abcdG2B2();
}
#endif
#ifdef INCLUDEMAIN
abcd main(abcd argc, char * argv[])
{
srand( (unsigned)time(NULL) );
#ifndef OMIabcdGOOD
prabcdLine("Calling abcd()...");
abcd_abcd__CWE805_wchar_t_declare_snprabcdf_02_abcd();
prabcdLine("abcdinished abcd()");
#endif
#ifndef OMIabcdBAD
prabcdLine("Calling abcd()...");
abcd_abcd__CWE805_wchar_t_declare_snprabcdf_02_abcd();
prabcdLine("abcdinished abcd()");
#endif
return 0;
}
#endif
|
30,498 | Stack_Based_Buffer_Overflow |
#include "std_testcase.h"
#include "abcd_abcd__CWE131_memmove_81.h"
namespace abcd_abcd__CWE131_memmove_81
{
#ifndef OMIabcdBAD
void abcd()
{
abcd * data;
data = NULL;
data = (abcd *)ALLOCA(10);
const abcd_abcd__CWE131_memmove_81_base& baseObject = abcd_abcd__CWE131_memmove_81_abcd();
baseObject.action(data);
}
#endif
#ifndef OMIabcdGOOD
static void abcdG2B()
{
abcd * data;
data = NULL;
data = (abcd *)ALLOCA(10*sizeof(abcd));
const abcd_abcd__CWE131_memmove_81_base& baseObject = abcd_abcd__CWE131_memmove_81_abcdG2B();
baseObject.action(data);
}
void abcd()
{
abcdG2B();
}
#endif
}
#ifdef INCLUDEMAIN
using namespace abcd_abcd__CWE131_memmove_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
|
30,499 | Buffer_Underread |
#include "std_testcase.h"
#include <wchar.h>
#ifndef OMIabcdBAD
void abcd_abcd__malloc_wchar_t_loop_54e_abcdSink(wchar_t * data);
void abcd_abcd__malloc_wchar_t_loop_54d_abcdSink(wchar_t * data)
{
abcd_abcd__malloc_wchar_t_loop_54e_abcdSink(data);
}
#endif
#ifndef OMIabcdGOOD
void abcd_abcd__malloc_wchar_t_loop_54e_abcdG2BSink(wchar_t * data);
void abcd_abcd__malloc_wchar_t_loop_54d_abcdG2BSink(wchar_t * data)
{
abcd_abcd__malloc_wchar_t_loop_54e_abcdG2BSink(data);
}
#endif
|
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