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windows-server-2003/ds/security/protocols/digest/testc/test.cpp

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// Test.cpp : Defines the entry point for the console application. This code uses SASL calling convention
//
#include "testglobal.h"
#include <stdio.h> // printf
#include <security.h> // General definition of a Security Support Provider
#define AUTH_USERNAME "test1"
#define AUTH_USERNAME_W L"test1"
#define AUTH_NONCE "9b38dce631309cc25a653ebaad5b18ee01c8bf385260b26db0574a302be4c11367"
#define AUTH_URI_W L"imap/elwood.innosoft.com"
#define AUTH_NC "0000000b"
#define AUTH_NC1 "00000001"
#define AUTH_NC2 "00000002"
#define AUTH_NC3 "00000003"
#define AUTH_NC4 "00000004"
#define AUTHDATA_USERNAME L"test1"
// #define AUTHDATA_DOMAIN L"kdamour2w.damourlan.nttest.microsoft.com"
// #define AUTHDATA_DOMAIN L"damourlan"
#define AUTHDATA_DOMAIN L"damourlan"
#define AUTHDATA_PASSWORD L"test1"
#define STR_BUF_SIZE 4000
char g_czTestPasswd[257];
BOOLEAN QuietMode = FALSE; // Don't be verbose
// Prototypes
void PrintStatus(SECURITY_STATUS NetStatus);
void PrintTime(LPSTR Comment,TimeStamp ConvertTime);
void ISCRETFlags(ULONG ulFlags);
void ASCRETFlags(ULONG ulFlags);
VOID BinToHex(
LPBYTE pSrc,
UINT cSrc,
LPSTR pDst
);
int __cdecl
main(int argc, char* argv[])
{
BOOL bPass = TRUE;
SECURITY_STATUS Status = STATUS_SUCCESS;
char cTemp[STR_BUF_SIZE]; // temp buffer for scratch data
char cTemp2[STR_BUF_SIZE]; // temp buffer for scratch data
char cTemp3[STR_BUF_SIZE]; // temp buffer for scratch data
char cTempPadding[STR_BUF_SIZE]; // temp buffer for scratch data
char cOutputTemp[STR_BUF_SIZE];
char szOutSecBuf[STR_BUF_SIZE];
char szChallenge[STR_BUF_SIZE];
char szISCChallengeResponse[STR_BUF_SIZE]; // Output buffer from ISC
char szASCChallengeResponse[STR_BUF_SIZE]; // Output buffer from ASC
char szASCResponseAuth[STR_BUF_SIZE]; // Output buffer from ASC
// SSPI Interface tests
ULONG PackageCount = 0;
int i = 0;
PSecPkgInfo pPackageInfo = NULL;
PSecPkgInfo pPackageTmp = NULL;
SECURITY_STATUS TmpStatus = STATUS_SUCCESS;
CredHandle ServerCred;
CredHandle ClientCred;
TimeStamp Lifetime;
BOOL bServerCred = FALSE;
BOOL bClientCred = FALSE;
PBYTE pTemp = NULL;
ULONG ulTemp = 0;
int j = 0;
SecPkgContext_StreamSizes StreamSizes;
ULONG ClientContextReqFlags = ISC_REQ_INTEGRITY | ISC_REQ_CONFIDENTIALITY | ISC_REQ_REPLAY_DETECT | ISC_REQ_CONNECTION;
ULONG ServerContextReqFlags = ASC_REQ_INTEGRITY | ASC_REQ_CONFIDENTIALITY;
ULONG ClientContextRetFlags = 0;
ULONG ServerContextRetFlags = 0;
ULONG TargetDataRep = 0;
CtxtHandle OldContextHandle;
CtxtHandle ServerCtxtHandle;
CtxtHandle ClientCtxtHandle;
SecBufferDesc InputBuffers;
SecBufferDesc OutputBuffers;
SecBuffer TempTokensIn[10];
SecBuffer TempTokensOut[6];
PCHAR pcPtr = NULL;
int iLen = 0;
UNICODE_STRING ustrUsername;
UNICODE_STRING ustrPassword;
UNICODE_STRING ustrDomain;
STRING strTemp;
STRING strChallenge;
STRING strMethod;
STRING strHEntity;
STRING strOutBuffer;
ULONG ulMessSeqNo = 0;
ULONG ulQOP = 0;
SEC_WINNT_AUTH_IDENTITY_W AuthData;
printf("Begining TESTC...\n");
ZeroMemory(&ClientCred, sizeof(CredHandle));
ZeroMemory(&ServerCred, sizeof(CredHandle));
ZeroMemory(&OldContextHandle, sizeof(CtxtHandle));
ZeroMemory(&ServerCtxtHandle, sizeof(CtxtHandle));
ZeroMemory(&ClientCtxtHandle, sizeof(CtxtHandle));
ZeroMemory(&ustrUsername, sizeof(ustrUsername));
ZeroMemory(&ustrPassword, sizeof(ustrPassword));
ZeroMemory(&ustrDomain, sizeof(ustrDomain));
ZeroMemory(&strTemp, sizeof(strTemp));
ZeroMemory(&StreamSizes, sizeof(StreamSizes));
// Pull out any command line args
if (argc > 1)
{
for (i = 1; i < argc; i++)
{
pcPtr = argv[i];
if (*pcPtr == '-')
{
iLen = strlen(pcPtr);
if (iLen >= 2)
{
switch (*(pcPtr + 1))
{
case 'u':
Status = RtlCreateUnicodeStringFromAsciiz(&ustrUsername, (pcPtr + 2));
break;
case 'd':
Status = RtlCreateUnicodeStringFromAsciiz(&ustrDomain, (pcPtr + 2));
break;
case 'p':
Status = RtlCreateUnicodeStringFromAsciiz(&ustrPassword, (pcPtr + 2));
break;
case '?':
default:
printf("Usage: %s -uUsername -pPassword -ddomain\n", argv[0]);
return(-1);
break;
}
}
}
}
}
//
// Get info about the security packages.
//
Status = EnumerateSecurityPackages( &PackageCount, &pPackageInfo );
TmpStatus = GetLastError();
if (!NT_SUCCESS(Status)) {
printf( "EnumerateSecurityPackages failed: 0x%x", Status);
PrintStatus( Status );
bPass = FALSE;
goto CleanUp;
}
if ( !QuietMode ) {
printf( "PackageCount: %ld\n", PackageCount );
for ( i= 0; i< (int)PackageCount; i++)
{
pPackageTmp = (pPackageInfo + i);
printf( "Name: %ws Comment: %ws\n", pPackageTmp->Name, pPackageTmp->Comment );
printf( "Cap: %ld Version: %ld RPCid: %ld MaxToken: %ld\n\n",
pPackageTmp->fCapabilities,
pPackageTmp->wVersion,
pPackageTmp->wRPCID,
pPackageTmp->cbMaxToken );
}
}
//
// Get info about the security packages.
//
Status = QuerySecurityPackageInfo( WDIGEST_SP_NAME, &pPackageInfo );
TmpStatus = GetLastError();
if (!NT_SUCCESS(Status)) {
printf( "QuerySecurityPackageInfo failed: " );
PrintStatus( Status );
bPass = FALSE;
goto CleanUp;
}
if ( !QuietMode ) {
printf( "Name: %ws Comment: %ws\n", pPackageInfo->Name, pPackageInfo->Comment );
printf( "Cap: %ld Version: %ld RPCid: %ld MaxToken: %ld\n\n",
pPackageInfo->fCapabilities,
pPackageInfo->wVersion,
pPackageInfo->wRPCID,
pPackageInfo->cbMaxToken );
}
//
// Acquire a credential handle for the server side
//
printf("Server AcquireCredentialHandle\n");
Status = AcquireCredentialsHandle(
NULL, // New principal
WDIGEST_SP_NAME, // Package Name
SECPKG_CRED_INBOUND,
NULL,
NULL,
NULL,
NULL,
&ServerCred,
&Lifetime );
if (!NT_SUCCESS(Status)) {
printf( "AcquireCredentialsHandle failed: ");
printf( "FAILED: AcquireCredentialsHandle failed: status 0x%x\n", Status);
PrintStatus( Status );
bPass = FALSE;
ZeroMemory(&ServerCred, sizeof(CredHandle));
goto CleanUp;
}
bServerCred = TRUE;
//
// Acquire a credential handle for the client side
//
printf("Client AcquireCredentialHandle\n");
if (ustrUsername.Length || ustrPassword.Length || ustrDomain.Length)
{
printf("ACH Using supplied credentials\n");
printf(" Username %wZ Domain %wZ Password %wZ\n",
&ustrUsername, &ustrDomain, &ustrPassword);
ZeroMemory(&AuthData, sizeof(SEC_WINNT_AUTH_IDENTITY_W));
AuthData.Domain = ustrDomain.Buffer;
AuthData.DomainLength = ustrDomain.Length / sizeof(WCHAR);
AuthData.Password = ustrPassword.Buffer;
AuthData.PasswordLength = ustrPassword.Length / sizeof(WCHAR);
AuthData.User = ustrUsername.Buffer;
AuthData.UserLength = ustrUsername.Length / sizeof(WCHAR);
AuthData.Flags = SEC_WINNT_AUTH_IDENTITY_UNICODE;
Status = AcquireCredentialsHandle(
NULL, // AUTH_USERNAME_W, // get the creds for user digest
WDIGEST_SP_NAME, // Package Name
SECPKG_CRED_OUTBOUND,
NULL,
&AuthData, // Make NULL not to use any AuthData for cred
NULL,
NULL,
&ClientCred,
&Lifetime );
}
else
{
printf("ACH Using default credentials\n");
Status = AcquireCredentialsHandle(
NULL, // AUTH_USERNAME_W, // get the creds for user digest
WDIGEST_SP_NAME, // Package Name
SECPKG_CRED_OUTBOUND,
NULL,
NULL,
NULL,
NULL,
&ClientCred,
&Lifetime );
}
if (!NT_SUCCESS(Status)) {
printf( "AcquireCredentialsHandle failed: for user %s: ", AUTH_USERNAME);
PrintStatus( Status );
// bPass = FALSE;
// ZeroMemory(&ClientCred, sizeof(CredHandle));
// goto CleanUp;
}
else
bClientCred = TRUE;
if ( !QuietMode ) {
printf( "ClientCred: 0x%lx 0x%lx ",
ClientCred.dwLower, ClientCred.dwUpper );
printf( "ServerCred: 0x%lx 0x%lx ",
ServerCred.dwLower, ServerCred.dwUpper );
PrintTime( "Lifetime: ", Lifetime );
}
// Big time - call Accept with no parameters to get a challenge
StringAllocate(&strChallenge, 0);
StringCharDuplicate(&strMethod, "GET");
StringAllocate(&strHEntity, 0);
StringAllocate(&strOutBuffer, 4000);
ZeroMemory(TempTokensIn, sizeof(TempTokensIn));
ZeroMemory(TempTokensOut, sizeof(TempTokensOut));
ZeroMemory(&InputBuffers, sizeof(SecBufferDesc));
ZeroMemory(&OutputBuffers, sizeof(SecBufferDesc));
// SASL first calls ISC with no-input
InputBuffers.ulVersion = SECBUFFER_VERSION;
InputBuffers.cBuffers = 1;
InputBuffers.pBuffers = TempTokensIn;
TempTokensIn[0].BufferType = SECBUFFER_TOKEN;
TempTokensIn[0].cbBuffer = 1; // no data passed in
TempTokensIn[0].pvBuffer = cTemp;
OutputBuffers.ulVersion = SECBUFFER_VERSION;
OutputBuffers.cBuffers = 1;
OutputBuffers.pBuffers = TempTokensOut;
TempTokensOut[0].BufferType = SECBUFFER_TOKEN;
TempTokensOut[0].cbBuffer = strOutBuffer.MaximumLength; // use any space here
TempTokensOut[0].pvBuffer = strOutBuffer.Buffer;
Status = InitializeSecurityContext(&ClientCred,
NULL,
AUTH_URI_W,
ClientContextReqFlags,
NULL,
SECURITY_NATIVE_DREP,
NULL, // &InputBuffers, MSDN allows NULL for 1st call
NULL,
&ClientCtxtHandle,
&OutputBuffers,
&ClientContextRetFlags,
&Lifetime);
if (!NT_SUCCESS(Status))
{
printf("InitializeSecurityContext SASL 1st call returned: ");
PrintStatus( Status );
bPass = FALSE;
goto CleanUp;
}
printf("ISC Context Flags Req 0x%lx Ret 0x%lx\n", ClientContextReqFlags, ClientContextRetFlags);
ISCRETFlags(ClientContextRetFlags);
printf("InitializeSecurityContext SASL 1st call Output buffer size %d\n",
TempTokensOut[0].cbBuffer );
InputBuffers.ulVersion = SECBUFFER_VERSION;
InputBuffers.cBuffers = 1;
InputBuffers.pBuffers = TempTokensIn;
TempTokensIn[0].BufferType = SECBUFFER_TOKEN;
TempTokensIn[0].cbBuffer = strChallenge.Length + 1; // for NULL
TempTokensIn[0].pvBuffer = strChallenge.Buffer;
OutputBuffers.ulVersion = SECBUFFER_VERSION;
OutputBuffers.cBuffers = 1;
OutputBuffers.pBuffers = TempTokensOut;
TempTokensOut[0].BufferType = SECBUFFER_TOKEN;
TempTokensOut[0].cbBuffer = strOutBuffer.MaximumLength; // use any space here
TempTokensOut[0].pvBuffer = strOutBuffer.Buffer;
Status = AcceptSecurityContext(
&ServerCred,
NULL,
&InputBuffers,
ServerContextReqFlags,
TargetDataRep,
&ServerCtxtHandle,
&OutputBuffers,
&ServerContextRetFlags,
&Lifetime);
if (Status != SEC_I_CONTINUE_NEEDED) // Indicates that this is the challenge
{
printf("SpAcceptLsaModeContext FAILED 0x%x\n", Status);
PrintStatus( Status );
bPass = FALSE;
goto CleanUp;
}
ZeroMemory(cOutputTemp, STR_BUF_SIZE); // contains the output buffer
ZeroMemory(szChallenge, STR_BUF_SIZE); // contains the output buffer
strncpy(cOutputTemp, (char *)OutputBuffers.pBuffers[0].pvBuffer, OutputBuffers.pBuffers[0].cbBuffer);
cOutputTemp[OutputBuffers.pBuffers[0].cbBuffer] = '\0';
strncpy(szChallenge, (char *)OutputBuffers.pBuffers[0].pvBuffer, OutputBuffers.pBuffers[0].cbBuffer);
szChallenge[OutputBuffers.pBuffers[0].cbBuffer] = '\0';
printf("ASC Context Flags Req 0x%lx Ret 0x%lx\n", ServerContextReqFlags, ServerContextRetFlags);
ASCRETFlags(ServerContextRetFlags);
printf("Challenge Output Buffer is:\n%s\n\n", cOutputTemp);
printf("Now call the SSPI InitializeSecCtxt to generate the ChallengeResponse\n");
sprintf(cTemp, "username=\"%s\",%s,uri=\"%S\",nc=%0.8x",
AUTH_USERNAME,
szChallenge,
AUTH_URI_W,
1);
InputBuffers.ulVersion = SECBUFFER_VERSION;
InputBuffers.cBuffers = 1;
InputBuffers.pBuffers = TempTokensIn;
TempTokensIn[0].BufferType = SECBUFFER_TOKEN;
TempTokensIn[0].cbBuffer = strlen(cTemp) + 1; // for NULL
TempTokensIn[0].pvBuffer = cTemp;
OutputBuffers.ulVersion = SECBUFFER_VERSION;
OutputBuffers.cBuffers = 1;
OutputBuffers.pBuffers = TempTokensOut;
TempTokensOut[0].BufferType = SECBUFFER_TOKEN;
TempTokensOut[0].cbBuffer = strOutBuffer.MaximumLength; // use any space here
TempTokensOut[0].pvBuffer = strOutBuffer.Buffer;
Status = InitializeSecurityContext(&ClientCred,
&ClientCtxtHandle,
AUTH_URI_W,
ClientContextReqFlags,
NULL,
SECURITY_NATIVE_DREP,
&InputBuffers,
NULL,
&ClientCtxtHandle,
&OutputBuffers,
&ClientContextRetFlags,
&Lifetime);
if (Status != SEC_I_CONTINUE_NEEDED) // Indicates that this is the challengeresponse - wait for mutual auth
{
printf("SpAcceptLsaModeContext FAILED 0x%x\n", Status);
PrintStatus( Status );
bPass = FALSE;
goto CleanUp;
}
printf("InitializeSecurityContext SUCCEEDED with Context Handle (0x%x,0x%x)\n",
ClientCtxtHandle.dwLower, ClientCtxtHandle.dwUpper );
printf("ISC Context Flags Req 0x%lx Ret 0x%lx\n", ClientContextReqFlags, ClientContextRetFlags);
ISCRETFlags(ClientContextRetFlags);
ZeroMemory(cOutputTemp, STR_BUF_SIZE); // contains the output buffer
ZeroMemory(szChallenge, STR_BUF_SIZE); // contains the output buffer
strncpy(cOutputTemp, (char *)OutputBuffers.pBuffers[0].pvBuffer, OutputBuffers.pBuffers[0].cbBuffer);
cOutputTemp[OutputBuffers.pBuffers[0].cbBuffer] = '\0';
strncpy(szISCChallengeResponse, (char *)OutputBuffers.pBuffers[0].pvBuffer, OutputBuffers.pBuffers[0].cbBuffer);
szISCChallengeResponse[OutputBuffers.pBuffers[0].cbBuffer] = '\0';
printf("ISC: Challenge Response Output Buffer is\n%s\n\n", szISCChallengeResponse);
InputBuffers.ulVersion = SECBUFFER_VERSION;
InputBuffers.cBuffers = 1;
InputBuffers.pBuffers = TempTokensIn;
TempTokensIn[0].BufferType = SECBUFFER_TOKEN;
TempTokensIn[0].cbBuffer = strlen(cOutputTemp) + 1; // for NULL
TempTokensIn[0].pvBuffer = cOutputTemp;
OutputBuffers.ulVersion = SECBUFFER_VERSION;
OutputBuffers.cBuffers = 1;
OutputBuffers.pBuffers = TempTokensOut;
TempTokensOut[0].BufferType = SECBUFFER_TOKEN;
TempTokensOut[0].cbBuffer = strOutBuffer.MaximumLength; // use any space here
TempTokensOut[0].pvBuffer = strOutBuffer.Buffer;
printf("Calling the AcceptSC with a ChallengeResponse (should talk to the DC)!\n");
Status = AcceptSecurityContext(
&ServerCred,
&ServerCtxtHandle,
&InputBuffers,
ServerContextReqFlags,
TargetDataRep,
&ServerCtxtHandle,
&OutputBuffers,
&ServerContextRetFlags,
&Lifetime);
if (!NT_SUCCESS(Status))
{
printf("AcceptSecurityContext 2nd Call: ");
PrintStatus( Status );
bPass = FALSE;
goto CleanUp;
}
strcpy(szASCChallengeResponse, (char *)InputBuffers.pBuffers[0].pvBuffer);
ZeroMemory(cOutputTemp, STR_BUF_SIZE); // contains the output buffer
ZeroMemory(szASCResponseAuth, STR_BUF_SIZE); // contains the output buffer
strncpy(cOutputTemp, (char *)OutputBuffers.pBuffers[0].pvBuffer, OutputBuffers.pBuffers[0].cbBuffer);
cOutputTemp[OutputBuffers.pBuffers[0].cbBuffer] = '\0';
strncpy(szASCResponseAuth, (char *)OutputBuffers.pBuffers[0].pvBuffer, OutputBuffers.pBuffers[0].cbBuffer);
szASCResponseAuth[OutputBuffers.pBuffers[0].cbBuffer] = '\0';
printf("ASC has accepted the Challenge Resposne and generated rspauth for mutual auth back to client\n");
printf("ASC Context Flags Req 0x%lx Ret 0x%lx\n", ServerContextReqFlags, ServerContextRetFlags);
ASCRETFlags(ServerContextRetFlags);
printf("ASC: Response Auth Output Buffer is\n%s\n\n", szASCResponseAuth);
printf("Now have a valid Security Context handle from ASC\n\n");
InputBuffers.ulVersion = SECBUFFER_VERSION;
InputBuffers.cBuffers = 1;
InputBuffers.pBuffers = TempTokensIn;
TempTokensIn[0].BufferType = SECBUFFER_TOKEN;
TempTokensIn[0].cbBuffer = strlen(cOutputTemp) + 1; // for NULL
TempTokensIn[0].pvBuffer = cOutputTemp;
OutputBuffers.ulVersion = SECBUFFER_VERSION;
OutputBuffers.cBuffers = 1;
OutputBuffers.pBuffers = TempTokensOut;
TempTokensOut[0].BufferType = SECBUFFER_TOKEN;
TempTokensOut[0].cbBuffer = strOutBuffer.MaximumLength; // use any space here
TempTokensOut[0].pvBuffer = strOutBuffer.Buffer;
Status = InitializeSecurityContext(&ClientCred,
&ClientCtxtHandle,
AUTH_URI_W,
ClientContextReqFlags,
NULL,
SECURITY_NATIVE_DREP,
&InputBuffers,
NULL,
&ClientCtxtHandle,
&OutputBuffers,
&ClientContextRetFlags,
&Lifetime);
if (!NT_SUCCESS(Status))
{
printf("InitializeSecurityContext on Response Auth FAILED: ");
PrintStatus( Status );
bPass = FALSE;
goto CleanUp;
}
printf("InitializeSecurityContext SUCCEEDED with Context Handle (0x%x,0x%x)\n",
ClientCtxtHandle.dwLower, ClientCtxtHandle.dwUpper );
printf("ISC Context Flags Req 0x%lx Ret 0x%lx\n", ClientContextReqFlags, ClientContextRetFlags);
ISCRETFlags(ClientContextRetFlags);
ZeroMemory(cOutputTemp, STR_BUF_SIZE); // contains the output buffer
strncpy(cOutputTemp, (char *)OutputBuffers.pBuffers[0].pvBuffer, OutputBuffers.pBuffers[0].cbBuffer);
cOutputTemp[OutputBuffers.pBuffers[0].cbBuffer] = '\0';
printf("\nISC: Mutual auth Output Buffer is\n%s\n\n", cOutputTemp);
printf("Now have a valid Security Context handle from ISC and ASC\n\n");
// Now get some info on the securitycontexts
Status = QueryContextAttributes(&ServerCtxtHandle, SECPKG_ATTR_STREAM_SIZES, &StreamSizes);
if (!NT_SUCCESS(Status))
{
printf("FAILED: QueryContextAttributes SECPKG_ATTR_STREAM_SIZES error: status 0x%x\n", Status);
PrintStatus( Status );
}
else
{
printf("Server Context Stream Sizes: MaxBuf %lu Blocksize %lu Trailer %lu\n",
StreamSizes.cbMaximumMessage, StreamSizes.cbBlockSize,
StreamSizes.cbTrailer);
}
Status = QueryContextAttributes(&ClientCtxtHandle, SECPKG_ATTR_STREAM_SIZES, &StreamSizes);
if (!NT_SUCCESS(Status))
{
printf("FAILED: QueryContextAttributes SECPKG_ATTR_STREAM_SIZES error: status 0x%x\n", Status);
PrintStatus( Status );
}
else
{
printf("Client Context Stream Sizes: MaxBuf %lu Blocksize %lu Trailer %lu\n",
StreamSizes.cbMaximumMessage, StreamSizes.cbBlockSize,
StreamSizes.cbTrailer);
}
// Now have authenticated connection
// Try MakeSignature and VerifySignature
for (i = 0; i < 9; i++)
{
printf("Loop %d\n", i);
ZeroMemory(cTemp, sizeof(cTemp));
strcpy(cTemp, AUTH_NONCE); // Create message to sign
InputBuffers.ulVersion = SECBUFFER_VERSION;
InputBuffers.cBuffers = 5;
InputBuffers.pBuffers = TempTokensIn;
TempTokensIn[0].BufferType = SECBUFFER_TOKEN;
TempTokensIn[0].cbBuffer = 0;
TempTokensIn[0].pvBuffer = NULL;
TempTokensIn[1].BufferType = SECBUFFER_DATA; // select some data to sign
TempTokensIn[1].cbBuffer = 10;
TempTokensIn[1].pvBuffer = cTemp;
TempTokensIn[2].BufferType = SECBUFFER_PADDING;
TempTokensIn[2].cbBuffer = STR_BUF_SIZE; // for NULL
TempTokensIn[2].pvBuffer = cTempPadding;
TempTokensIn[3].BufferType = SECBUFFER_DATA; // select some data to sign
TempTokensIn[3].cbBuffer = 5; // for NULL use i to test non-blocksize buffers
TempTokensIn[3].pvBuffer = cTemp + 10;
TempTokensIn[4].BufferType = SECBUFFER_DATA; // select some data to sign
// TempTokensIn[4].cbBuffer = strlen(AUTH_NONCE) + 1 -2 - 12 - i; // for NULL use i to test non-blocksize buffers
TempTokensIn[4].cbBuffer = 40 + 1 -10 - 5 - i; // for NULL use i to test non-blocksize buffers
TempTokensIn[4].pvBuffer = cTemp + 10 + 5;
if (TempTokensIn[1].cbBuffer)
{
printf("Input Message to process is %d bytes in SecBuffer 1\n", TempTokensIn[1].cbBuffer);
BinToHex((PBYTE)TempTokensIn[1].pvBuffer, TempTokensIn[1].cbBuffer, cTemp2);
printf("Message: %s\n", cTemp2);
}
if (TempTokensIn[3].cbBuffer)
{
printf("Input Message to process is %d bytes in SecBuffer 3\n", TempTokensIn[3].cbBuffer);
BinToHex((PBYTE)TempTokensIn[3].pvBuffer, TempTokensIn[3].cbBuffer, cTemp2);
printf("Message: %s\n", cTemp2);
}
if (TempTokensIn[4].cbBuffer)
{
printf("Input Message to process is %d bytes in SecBuffer 4\n", TempTokensIn[4].cbBuffer);
BinToHex((PBYTE)TempTokensIn[4].pvBuffer, TempTokensIn[4].cbBuffer, cTemp2);
printf("Message: %s\n", cTemp2);
}
Status = EncryptMessage(&ClientCtxtHandle,
ulQOP,
&InputBuffers,
0);
if (!NT_SUCCESS(Status))
{
printf("TestCredAPI: EncryptMessage FAILED: ");
PrintStatus( Status );
bPass = FALSE;
goto CleanUp;
}
// put all of the parts together
pTemp = (PBYTE)&cTemp3[0];
ulTemp = 0;
j = 1;
memcpy(pTemp, (PBYTE)TempTokensIn[j].pvBuffer, TempTokensIn[j].cbBuffer);
pTemp = pTemp + TempTokensIn[j].cbBuffer;
ulTemp = ulTemp + TempTokensIn[j].cbBuffer;
j = 3;
memcpy(pTemp, (PBYTE)TempTokensIn[j].pvBuffer, TempTokensIn[j].cbBuffer);
pTemp = pTemp + TempTokensIn[j].cbBuffer;
ulTemp = ulTemp + TempTokensIn[j].cbBuffer;
j = 4;
memcpy(pTemp, (PBYTE)TempTokensIn[j].pvBuffer, TempTokensIn[j].cbBuffer);
pTemp = pTemp + TempTokensIn[j].cbBuffer;
ulTemp = ulTemp + TempTokensIn[j].cbBuffer;
memcpy(pTemp, (PBYTE)TempTokensIn[2].pvBuffer, TempTokensIn[2].cbBuffer); // signature bytes
pTemp = pTemp + TempTokensIn[2].cbBuffer;
ulTemp = ulTemp + TempTokensIn[2].cbBuffer;
// You now send Output buffer to Server - in this case the buffer is szOutSecBuf
printf("Now verify that the message is Authenticate\n");
InputBuffers.ulVersion = SECBUFFER_VERSION;
InputBuffers.cBuffers = 2;
InputBuffers.pBuffers = TempTokensIn;
TempTokensIn[0].BufferType = SECBUFFER_STREAM;
TempTokensIn[0].cbBuffer = ulTemp;
TempTokensIn[0].pvBuffer = cTemp3;
TempTokensIn[1].BufferType = SECBUFFER_DATA;
TempTokensIn[1].cbBuffer = 0;
TempTokensIn[1].pvBuffer = NULL;
Status = DecryptMessage(&ServerCtxtHandle,
&InputBuffers,
ulMessSeqNo,
&ulQOP);
if (!NT_SUCCESS(Status))
{
printf("TestCredAPI: DecryptMessage Call FAILED :");
PrintStatus( Status );
bPass = FALSE;
goto CleanUp;
}
printf("Now have a authenticated message under context 0x%x\n", ServerCtxtHandle);
printf("Processed (verify/unseal) is %d bytes\n", TempTokensIn[1].cbBuffer);
if (TempTokensIn[1].cbBuffer)
{
BinToHex((PBYTE)TempTokensIn[1].pvBuffer, TempTokensIn[1].cbBuffer, cTemp2);
printf("Message: %s\n", cTemp2);
}
}
CleanUp:
printf("Leaving test program\n");
if (pPackageInfo)
{
FreeContextBuffer(pPackageInfo);
}
printf("About to call deletesecuritycontext\n");
//
// Free the security context handle
//
if (ServerCtxtHandle.dwLower || ServerCtxtHandle.dwUpper)
{
Status = DeleteSecurityContext(&ServerCtxtHandle);
if (!NT_SUCCESS(Status))
{
printf("ERROR: DeleteSecurityContext ServerCtxtHandle failed: ");
PrintStatus(Status);
}
}
if (ClientCtxtHandle.dwLower || ClientCtxtHandle.dwUpper)
{
Status = DeleteSecurityContext(&ClientCtxtHandle);
if (!NT_SUCCESS(Status))
{
printf("ERROR: DeleteSecurityContext ClientCtxtHandle failed: ");
PrintStatus(Status);
}
}
//
// Free the credential handles
//
printf("Now calling to Free the ServerCred\n");
if (bServerCred)
{
Status = FreeCredentialsHandle( &ServerCred );
if (!NT_SUCCESS(Status))
{
printf( "FreeCredentialsHandle failed for ServerCred: " );
PrintStatus(Status);
}
}
printf("Now calling to Free the ServerCred\n");
if (bClientCred)
{
Status = FreeCredentialsHandle(&ClientCred);
if (!NT_SUCCESS(Status))
{
printf( "FreeCredentialsHandle failed for ClientCred: " );
PrintStatus( Status );
}
}
StringFree(&strChallenge);
StringFree(&strMethod);
StringFree(&strHEntity);
StringFree(&strOutBuffer);
if (bPass != TRUE)
printf("FAILED test run with one or more tests failing.\n");
else
printf("All tests passed.\n");
return 0;
}
void
PrintStatus(
SECURITY_STATUS NetStatus
)
/*++
Routine Description:
Print a net status code.
Arguments:
NetStatus - The net status code to print.
Return Value:
None
--*/
{
printf( "Status = 0x%lx",NetStatus );
switch (NetStatus) {
case ERROR_LOGON_FAILURE:
printf( " ERROR_LOGON_FAILURE" );
break;
case ERROR_ACCESS_DENIED:
printf( " ERROR_ACCESS_DENIED" );
break;
case ERROR_NOT_SUPPORTED:
printf( " ERROR_NOT_SUPPORTED" );
break;
case ERROR_NO_LOGON_SERVERS:
printf( " ERROR_NO_LOGON_SERVERS" );
break;
case ERROR_NO_SUCH_DOMAIN:
printf( " ERROR_NO_SUCH_DOMAIN" );
break;
case ERROR_NO_TRUST_LSA_SECRET:
printf( " ERROR_NO_TRUST_LSA_SECRET" );
break;
case ERROR_NO_TRUST_SAM_ACCOUNT:
printf( " ERROR_NO_TRUST_SAM_ACCOUNT" );
break;
case ERROR_DOMAIN_TRUST_INCONSISTENT:
printf( " ERROR_DOMAIN_TRUST_INCONSISTENT" );
break;
case ERROR_BAD_NETPATH:
printf( " ERROR_BAD_NETPATH" );
break;
case ERROR_FILE_NOT_FOUND:
printf( " ERROR_FILE_NOT_FOUND" );
break;
case SEC_E_NO_SPM:
printf( " SEC_E_NO_SPM" );
break;
case SEC_E_BAD_PKGID:
printf( " SEC_E_BAD_PKGID" ); break;
case SEC_E_NOT_OWNER:
printf( " SEC_E_NOT_OWNER" ); break;
case SEC_E_CANNOT_INSTALL:
printf( " SEC_E_CANNOT_INSTALL" ); break;
case SEC_E_INVALID_TOKEN:
printf( " SEC_E_INVALID_TOKEN" ); break;
case SEC_E_CANNOT_PACK:
printf( " SEC_E_CANNOT_PACK" ); break;
case SEC_E_QOP_NOT_SUPPORTED:
printf( " SEC_E_QOP_NOT_SUPPORTED" ); break;
case SEC_E_NO_IMPERSONATION:
printf( " SEC_E_NO_IMPERSONATION" ); break;
case SEC_E_LOGON_DENIED:
printf( " SEC_E_LOGON_DENIED" ); break;
case SEC_E_UNKNOWN_CREDENTIALS:
printf( " SEC_E_UNKNOWN_CREDENTIALS" ); break;
case SEC_E_NO_CREDENTIALS:
printf( " SEC_E_NO_CREDENTIALS" ); break;
case SEC_E_MESSAGE_ALTERED:
printf( " SEC_E_MESSAGE_ALTERED" ); break;
case SEC_E_OUT_OF_SEQUENCE:
printf( " SEC_E_OUT_OF_SEQUENCE" ); break;
case SEC_E_INSUFFICIENT_MEMORY:
printf( " SEC_E_INSUFFICIENT_MEMORY" ); break;
case SEC_E_INVALID_HANDLE:
printf( " SEC_E_INVALID_HANDLE" ); break;
case SEC_E_NOT_SUPPORTED:
printf( " SEC_E_NOT_SUPPORTED" ); break;
case SEC_I_CONTINUE_NEEDED:
printf( " SEC_I_CONTINUE_NEEDED" ); break;
}
printf( "\n" );
}
void
PrintTime(
LPSTR Comment,
TimeStamp ConvertTime
)
/*++
Routine Description:
Print the specified time
Arguments:
Comment - Comment to print in front of the time
Time - Local time to print
Return Value:
None
--*/
{
LARGE_INTEGER LocalTime;
NTSTATUS Status;
LocalTime.HighPart = ConvertTime.HighPart;
LocalTime.LowPart = ConvertTime.LowPart;
Status = RtlSystemTimeToLocalTime( &ConvertTime, &LocalTime );
if (!NT_SUCCESS( Status )) {
printf( "Can't convert time from GMT to Local time\n" );
LocalTime = ConvertTime;
}
printf( "%s", Comment );
//
// If the time is infinite,
// just say so.
//
if ( LocalTime.HighPart == 0x7FFFFFFF && LocalTime.LowPart == 0xFFFFFFFF ) {
printf( "Infinite\n" );
//
// Otherwise print it more clearly
//
} else {
TIME_FIELDS TimeFields;
RtlTimeToTimeFields( &LocalTime, &TimeFields );
printf( "%ld/%ld/%ld %ld:%2.2ld:%2.2ld\n",
TimeFields.Month,
TimeFields.Day,
TimeFields.Year,
TimeFields.Hour,
TimeFields.Minute,
TimeFields.Second );
}
}
// Support Routines
//+-------------------------------------------------------------------------
//
// Function: StringAllocate
//
// Synopsis: Allocates cb chars to STRING Buffer
//
// Arguments: pString - pointer to String to allocate memory to
//
// Returns: STATUS_SUCCESS - Normal completion
//
// Requires:
//
// Effects: allocates memory and sets STRING sizes
//
// Notes: Must call StringFree() to release memory
//
//--------------------------------------------------------------------------
NTSTATUS
StringAllocate(
IN PSTRING pString,
IN USHORT cb
)
{
// DebugLog((DEB_TRACE, "NTDigest:Entering StringAllocate\n"));
NTSTATUS Status = STATUS_SUCCESS;
cb = cb + 1; // Add in extra room for the terminating NULL
if (ARGUMENT_PRESENT(pString))
{
pString->Length = 0;
pString->Buffer = (char *)DigestAllocateMemory((ULONG)(cb * sizeof(CHAR)));
if (pString->Buffer)
{
pString->MaximumLength = cb;
}
else
{
pString->MaximumLength = 0;
Status = STATUS_NO_MEMORY;
goto CleanUp;
}
}
else
{
Status = STATUS_INVALID_PARAMETER;
goto CleanUp;
}
CleanUp:
// DebugLog((DEB_TRACE, "NTDigest: Leaving StringAllocate\n"));
return(Status);
}
//+-------------------------------------------------------------------------
//
// Function: StringFree
//
// Synopsis: Clears a String and releases the memory
//
// Arguments: pString - pointer to String to clear
//
// Returns: SEC_E_OK - released memory succeeded
//
// Requires:
//
// Effects: de-allocates memory with LsaFunctions.AllocateLsaHeap
//
// Notes:
//
//--------------------------------------------------------------------------
NTSTATUS
StringFree(
IN PSTRING pString
)
{
// DebugLog((DEB_TRACE, "NTDigest:Entering StringFree\n"));
NTSTATUS Status = STATUS_SUCCESS;
if (ARGUMENT_PRESENT(pString) &&
(pString->Buffer != NULL))
{
DigestFreeMemory(pString->Buffer);
pString->Length = 0;
pString->MaximumLength = 0;
pString->Buffer = NULL;
}
// DebugLog((DEB_TRACE, "NTDigest: Leaving StringFree\n"));
return(Status);
}
//+-------------------------------------------------------------------------
//
// Function: StringCharDuplicate
//
// Synopsis: Duplicates a NULL terminated char. If the source string buffer is
// NULL the destionation will be too.
//
// Arguments: Destination - Receives a copy of the source NULL Term char *
// czSource - String to copy
//
// Returns: SEC_E_OK - the copy succeeded
// SEC_E_INSUFFICIENT_MEMORY - the call to allocate
// memory failed.
//
// Requires:
//
// Effects: allocates memory with LsaFunctions.AllocateLsaHeap
//
// Notes:
//
//
//--------------------------------------------------------------------------
NTSTATUS
StringCharDuplicate(
OUT PSTRING DestinationString,
IN OPTIONAL char *czSource
)
{
// DebugLog((DEB_TRACE, "NTDigest: Entering StringCharDuplicate\n"));
NTSTATUS Status = STATUS_SUCCESS;
USHORT cbSourceCz = 0;
DestinationString->Buffer = NULL;
DestinationString->Length = 0;
DestinationString->MaximumLength = 0;
if ((ARGUMENT_PRESENT(czSource)) &&
((cbSourceCz = strlen(czSource)) != 0))
{
DestinationString->Buffer = (LPSTR) DigestAllocateMemory(cbSourceCz + sizeof(CHAR));
if (DestinationString->Buffer != NULL)
{
DestinationString->Length = cbSourceCz;
DestinationString->MaximumLength = cbSourceCz + sizeof(CHAR);
RtlCopyMemory(
DestinationString->Buffer,
czSource,
cbSourceCz
);
DestinationString->Buffer[cbSourceCz/sizeof(CHAR)] = '\0';
}
else
{
Status = STATUS_NO_MEMORY;
// DebugLog((DEB_ERROR, "NTDigest: StringCharDuplicate, DigestAllocateMemory returns NULL\n"));
goto CleanUp;
}
}
CleanUp:
// DebugLog((DEB_TRACE, "NTDigest: Leaving StringCharDuplicate\n"));
return(Status);
}
//+-------------------------------------------------------------------------
//
// Function: DigestAllocateMemory
//
// Synopsis: Allocate memory in either lsa mode or user mode
//
// Effects: Allocated chunk is zeroed out
//
// Arguments:
//
// Requires:
//
// Returns:
//
// Notes:
//
//
//--------------------------------------------------------------------------
PVOID
DigestAllocateMemory(
IN ULONG BufferSize
)
{
PVOID Buffer = NULL;
// DebugLog((DEB_TRACE, "Entering DigestAllocateMemory\n"));
Buffer = LocalAlloc(LPTR, BufferSize);
// DebugLog((DEB_TRACE, "Leaving DigestAllocateMemory\n"));
return Buffer;
}
//+-------------------------------------------------------------------------
//
// Function: NtLmFree
//
// Synopsis: Free memory in either lsa mode or user mode
//
// Effects:
//
// Arguments:
//
// Requires:
//
// Returns:
//
// Notes:
//
//
//--------------------------------------------------------------------------
VOID
DigestFreeMemory(
IN PVOID Buffer
)
{
// DebugLog((DEB_TRACE, "Entering DigestFreeMemory\n"));
LocalFree(Buffer);
// DebugLog((DEB_TRACE, "Leaving DigestFreeMemory\n"));
}
VOID
BinToHex(
LPBYTE pSrc,
UINT cSrc,
LPSTR pDst
)
{
#define TOHEX(a) ((a)>=10 ? 'a'+(a)-10 : '0'+(a))
for ( UINT x = 0, y = 0 ; x < cSrc ; ++x )
{
UINT v;
v = pSrc[x]>>4;
pDst[y++] = TOHEX( v );
v = pSrc[x]&0x0f;
pDst[y++] = TOHEX( v );
}
pDst[y] = '\0';
}
VOID
ISCRETFlags( ULONG ulFlags)
{
printf("ISC Ret Flag (0x%x):", ulFlags);
if (ulFlags & ISC_RET_DELEGATE)
{
printf(" Delegate");
}
if (ulFlags & ISC_RET_MUTUAL_AUTH)
{
printf(" Mutual_Auth");
}
if (ulFlags & ISC_RET_REPLAY_DETECT)
{
printf(" Replay_Detect");
}
if (ulFlags & ISC_RET_SEQUENCE_DETECT)
{
printf(" Seq_Detect");
}
if (ulFlags & ISC_RET_CONFIDENTIALITY)
{
printf(" Confident");
}
if (ulFlags & ISC_RET_ALLOCATED_MEMORY)
{
printf(" Alloc_Mem");
}
if (ulFlags & ISC_RET_CONNECTION)
{
printf(" Connection");
}
if (ulFlags & ISC_RET_INTEGRITY)
{
printf(" Integrity");
}
printf("\n");
}
VOID
ASCRETFlags( ULONG ulFlags)
{
printf("ASC Ret Flag (0x%x):", ulFlags);
if (ulFlags & ASC_RET_DELEGATE)
{
printf(" Delegate");
}
if (ulFlags & ASC_RET_MUTUAL_AUTH)
{
printf(" Mutual_Auth");
}
if (ulFlags & ASC_RET_REPLAY_DETECT)
{
printf(" Replay_Detect");
}
if (ulFlags & ASC_RET_SEQUENCE_DETECT)
{
printf(" Seq_Detect");
}
if (ulFlags & ASC_RET_CONFIDENTIALITY)
{
printf(" Confident");
}
if (ulFlags & ASC_RET_ALLOCATED_MEMORY)
{
printf(" Alloc_Mem");
}
if (ulFlags & ASC_RET_CONNECTION)
{
printf(" Connection");
}
if (ulFlags & ASC_RET_INTEGRITY)
{
printf(" Integrity");
}
printf("\n");
}