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/*--
Copyright (c) 1987-1993 Microsoft Corporation
Module Name:
ssptest.c
Abstract:
Test program for the NtLmSsp service.
Author:
28-Jun-1993 (cliffv)
Environment:
User mode only. Contains NT-specific code. Requires ANSI C extensions: slash-slash comments, long external names.
Revision History:
--*/
//
// Common include files.
//
#include <nt.h>
#include <ntrtl.h>
#include <nturtl.h>
#include <windef.h>
#include <winbase.h>
#include <winsvc.h> // Needed for service controller APIs
#include <lmcons.h>
#include <lmerr.h>
#include <lmsname.h>
#include <rpc.h>
#include <stdio.h> // printf
#include <stdlib.h> // strtoul
#include <tstring.h> // NetpAllocWStrFromWStr
#include <security.h> // General definition of a Security Support Provider
#include <ntmsv1_0.h>
#include <ntlmsp.h> // External definition of the NtLmSsp service
BOOLEAN QuietMode = FALSE; // Don't be verbose
// BUGBUG Should be in the SDK?
#define MSV1_0_PACKAGE_NAMEW L"MICROSOFT_AUTHENTICATION_PACKAGE_V1_0"
#define KERBEROS_PACKAGE_NAME "Kerberos"
�VOIDDumpBuffer( PVOID Buffer, DWORD BufferSize )/*++
Routine Description:
Dumps the buffer content on to the debugger output.
Arguments:
Buffer: buffer pointer.
BufferSize: size of the buffer.
Return Value:
none
--*/{#define NUM_CHARS 16
DWORD i, limit; CHAR TextBuffer[NUM_CHARS + 1]; LPBYTE BufferPtr = Buffer;
printf("------------------------------------\n");
//
// Hex dump of the bytes
//
limit = ((BufferSize - 1) / NUM_CHARS + 1) * NUM_CHARS;
for (i = 0; i < limit; i++) {
if (i < BufferSize) {
printf("%02x ", BufferPtr[i]);
if (BufferPtr[i] < 31 ) { TextBuffer[i % NUM_CHARS] = '.'; } else if (BufferPtr[i] == '\0') { TextBuffer[i % NUM_CHARS] = ' '; } else { TextBuffer[i % NUM_CHARS] = (CHAR) BufferPtr[i]; }
} else {
printf(" "); TextBuffer[i % NUM_CHARS] = ' ';
}
if ((i + 1) % NUM_CHARS == 0) { TextBuffer[NUM_CHARS] = 0; printf(" %s\n", TextBuffer); }
}
printf("------------------------------------\n");}
VOIDPrintTime( 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;
LocalTime.HighPart = ConvertTime.HighPart; LocalTime.LowPart = ConvertTime.LowPart;
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 = {0};
/*
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 ); }
}
VOIDPrintStatus( NET_API_STATUS NetStatus )/*++
Routine Description:
Print a net status code.
Arguments:
NetStatus - The net status code to print.
Return Value:
None
--*/{ printf( "Status = %lu 0x%lx", NetStatus, NetStatus );
switch (NetStatus) { case NERR_Success: printf( " NERR_Success" ); break;
case NERR_DCNotFound: printf( " NERR_DCNotFound" ); break;
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 NERR_NetNotStarted: printf( " NERR_NetNotStarted" ); break;
case NERR_WkstaNotStarted: printf( " NERR_WkstaNotStarted" ); break;
case NERR_ServerNotStarted: printf( " NERR_ServerNotStarted" ); break;
case NERR_BrowserNotStarted: printf( " NERR_BrowserNotStarted" ); break;
case NERR_ServiceNotInstalled: printf( " NERR_ServiceNotInstalled" ); break;
case NERR_BadTransactConfig: printf( " NERR_BadTransactConfig" ); 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" );}
VOIDTestLpcRoutine( LPWSTR DomainName, LPWSTR UserName, LPWSTR Password )/*++
Routine Description:
Test base LPC functionality
Arguments:
None
Return Value:
None
--*/{ SECURITY_STATUS SecStatus; CredHandle CredentialHandle1; CredHandle CredentialHandle2; CtxtHandle ClientContextHandle; CtxtHandle ServerContextHandle; TimeStamp Lifetime; ULONG ContextAttributes; ULONG PackageCount,i; PSecPkgInfo PackageInfo; PSecPkgInfo pTmp;
SEC_WINNT_AUTH_IDENTITY AuthIdentity;
SecBufferDesc NegotiateDesc; SecBuffer NegotiateBuffer;
SecBufferDesc ChallengeDesc; SecBuffer ChallengeBuffer;
SecBufferDesc AuthenticateDesc; SecBuffer AuthenticateBuffer;
SecPkgContext_Sizes ContextSizes; SecPkgContext_Lifespan ContextLifespan; UCHAR ContextNamesBuffer[sizeof(SecPkgContext_Names)+UNLEN*sizeof(WCHAR)]; PSecPkgContext_Names ContextNames = (PSecPkgContext_Names) ContextNamesBuffer;
SecBufferDesc SignMessage; SecBuffer SigBuffers[2]; BYTE bDataBuffer[20]; BYTE bSigBuffer[100];
NegotiateBuffer.pvBuffer = NULL; ChallengeBuffer.pvBuffer = NULL; AuthenticateBuffer.pvBuffer = NULL;
SigBuffers[1].pvBuffer = bSigBuffer; SigBuffers[1].cbBuffer = sizeof(bSigBuffer); SigBuffers[1].BufferType = SECBUFFER_TOKEN;
SigBuffers[0].pvBuffer = bDataBuffer; SigBuffers[0].cbBuffer = sizeof(bDataBuffer); SigBuffers[0].BufferType = SECBUFFER_DATA; memset(bDataBuffer,0xeb,sizeof(bDataBuffer));
SignMessage.pBuffers = SigBuffers; SignMessage.cBuffers = 2; SignMessage.ulVersion = 0;
//
// Get info about the security packages.
//
SecStatus = EnumerateSecurityPackages( &PackageCount, &PackageInfo );
if ( SecStatus != STATUS_SUCCESS ) { printf( "EnumerateSecurityPackages failed:" ); PrintStatus( SecStatus ); return; }
if ( !QuietMode ) { printf( "PackageCount: %ld\n", PackageCount ); for ( i= 0; i< PackageCount; i++) { pTmp = (PackageInfo + i); printf( "Name: %ws Comment: %ws\n", pTmp->Name, pTmp->Comment ); printf( "Cap: %ld Version: %ld RPCid: %ld MaxToken: %ld\n\n", pTmp->fCapabilities, pTmp->wVersion, pTmp->wRPCID, pTmp->cbMaxToken ); } }
//
// Get info about the security packages.
//
SecStatus = QuerySecurityPackageInfo( KERBEROS_PACKAGE_NAME, &PackageInfo );
if ( SecStatus != STATUS_SUCCESS ) { printf( "QuerySecurityPackageInfo failed:" ); PrintStatus( SecStatus ); return; }
if ( !QuietMode ) { printf( "Name: %ws Comment: %ws\n", PackageInfo->Name, PackageInfo->Comment ); printf( "Cap: %ld Version: %ld RPCid: %ld MaxToken: %ld\n\n", PackageInfo->fCapabilities, PackageInfo->wVersion, PackageInfo->wRPCID, PackageInfo->cbMaxToken ); }
//
// Acquire a credential handle for the server side
//
SecStatus = AcquireCredentialsHandle( NULL, // New principal
KERBEROS_PACKAGE_NAME, // Package Name
SECPKG_CRED_INBOUND, NULL, NULL, NULL, NULL, &CredentialHandle1, &Lifetime );
if ( SecStatus != STATUS_SUCCESS ) { printf( "AcquireCredentialsHandle failed: "); PrintStatus( SecStatus ); return; }
if ( !QuietMode ) { printf( "CredentialHandle1: 0x%lx 0x%lx ", CredentialHandle1.dwLower, CredentialHandle1.dwUpper ); PrintTime( "Lifetime: ", Lifetime ); }
//
// Acquire a credential handle for the client side
//
RtlZeroMemory( &AuthIdentity, sizeof(AuthIdentity) );#define DO_OEM 1
#ifndef DO_OEM
if ( DomainName != NULL ) { AuthIdentity.Domain = DomainName; AuthIdentity.DomainLength = wcslen(DomainName); } if ( UserName != NULL ) { AuthIdentity.User = UserName; AuthIdentity.UserLength = wcslen(UserName); } if ( Password != NULL ) { AuthIdentity.Password = Password; AuthIdentity.PasswordLength = wcslen(Password); } AuthIdentity.Flags = SEC_WINNT_AUTH_IDENTITY_UNICODE;#else
//
// BUGBUG: memory leak here
//
if ( DomainName != NULL ) { AuthIdentity.Domain = (LPWSTR) NetpAllocStrFromWStr(DomainName); AuthIdentity.DomainLength = wcslen(DomainName); } if ( UserName != NULL ) { AuthIdentity.User = (LPWSTR) NetpAllocStrFromWStr(UserName); AuthIdentity.UserLength = wcslen(UserName); } if ( Password != NULL ) { AuthIdentity.Password = (LPWSTR) NetpAllocStrFromWStr(Password); AuthIdentity.PasswordLength = wcslen(Password); } AuthIdentity.Flags = SEC_WINNT_AUTH_IDENTITY_ANSI;#endif
SecStatus = AcquireCredentialsHandle( NULL, // New principal
KERBEROS_PACKAGE_NAME, // Package Name
SECPKG_CRED_OUTBOUND, NULL, (DomainName == NULL && UserName == NULL && Password == NULL) ? NULL : &AuthIdentity, NULL, NULL, &CredentialHandle2, &Lifetime );
if ( SecStatus != STATUS_SUCCESS ) { printf( "AcquireCredentialsHandle failed: " ); PrintStatus( SecStatus ); return; }
if ( !QuietMode ) { printf( "CredentialHandle2: 0x%lx 0x%lx ", CredentialHandle2.dwLower, CredentialHandle2.dwUpper ); PrintTime( "Lifetime: ", Lifetime ); }
//
// Get the NegotiateMessage (ClientSide)
//
NegotiateDesc.ulVersion = 0; NegotiateDesc.cBuffers = 1; NegotiateDesc.pBuffers = &NegotiateBuffer;
NegotiateBuffer.cbBuffer = PackageInfo->cbMaxToken; NegotiateBuffer.BufferType = SECBUFFER_TOKEN; NegotiateBuffer.pvBuffer = LocalAlloc( 0, NegotiateBuffer.cbBuffer ); if ( NegotiateBuffer.pvBuffer == NULL ) { printf( "Allocate NegotiateMessage failed: 0x%ld\n", GetLastError() ); return; }
SecStatus = InitializeSecurityContext( &CredentialHandle2, NULL, // No Client context yet
"\\\\Frank\\IPC$", // Faked target name
ISC_REQ_SEQUENCE_DETECT, 0, // Reserved 1
SECURITY_NATIVE_DREP, NULL, // No initial input token
0, // Reserved 2
&ClientContextHandle, &NegotiateDesc, &ContextAttributes, &Lifetime );
if ( SecStatus != STATUS_SUCCESS ) { if ( !QuietMode || !NT_SUCCESS(SecStatus) ) { printf( "InitializeSecurityContext (negotiate): " ); PrintStatus( SecStatus ); } if ( !NT_SUCCESS(SecStatus) ) { return; } }
if ( !QuietMode ) { printf( "\n\nNegotiate Message:\n" );
printf( "ClientContextHandle: 0x%lx 0x%lx Attributes: 0x%lx ", ClientContextHandle.dwLower, ClientContextHandle.dwUpper, ContextAttributes ); PrintTime( "Lifetime: ", Lifetime );
DumpBuffer( NegotiateBuffer.pvBuffer, NegotiateBuffer.cbBuffer ); }
//
// Get the ChallengeMessage (ServerSide)
//
NegotiateBuffer.BufferType |= SECBUFFER_READONLY; ChallengeDesc.ulVersion = 0; ChallengeDesc.cBuffers = 1; ChallengeDesc.pBuffers = &ChallengeBuffer;
ChallengeBuffer.cbBuffer = PackageInfo->cbMaxToken; ChallengeBuffer.BufferType = SECBUFFER_TOKEN; ChallengeBuffer.pvBuffer = LocalAlloc( 0, ChallengeBuffer.cbBuffer ); if ( ChallengeBuffer.pvBuffer == NULL ) { printf( "Allocate ChallengeMessage failed: 0x%ld\n", GetLastError() ); return; }
SecStatus = AcceptSecurityContext( &CredentialHandle1, NULL, // No Server context yet
&NegotiateDesc, ISC_REQ_SEQUENCE_DETECT, SECURITY_NATIVE_DREP, &ServerContextHandle, &ChallengeDesc, &ContextAttributes, &Lifetime );
if ( SecStatus != STATUS_SUCCESS ) { if ( !QuietMode || !NT_SUCCESS(SecStatus) ) { printf( "AcceptSecurityContext (Challenge): " ); PrintStatus( SecStatus ); } if ( !NT_SUCCESS(SecStatus) ) { return; } }
if ( !QuietMode ) { printf( "\n\nChallenge Message:\n" );
printf( "ServerContextHandle: 0x%lx 0x%lx Attributes: 0x%lx ", ServerContextHandle.dwLower, ServerContextHandle.dwUpper, ContextAttributes ); PrintTime( "Lifetime: ", Lifetime );
DumpBuffer( ChallengeBuffer.pvBuffer, ChallengeBuffer.cbBuffer ); }
//
// Get the AuthenticateMessage (ClientSide)
//
ChallengeBuffer.BufferType |= SECBUFFER_READONLY; AuthenticateDesc.ulVersion = 0; AuthenticateDesc.cBuffers = 1; AuthenticateDesc.pBuffers = &AuthenticateBuffer;
AuthenticateBuffer.cbBuffer = PackageInfo->cbMaxToken; AuthenticateBuffer.BufferType = SECBUFFER_TOKEN; AuthenticateBuffer.pvBuffer = LocalAlloc( 0, AuthenticateBuffer.cbBuffer ); if ( AuthenticateBuffer.pvBuffer == NULL ) { printf( "Allocate AuthenticateMessage failed: 0x%ld\n", GetLastError() ); return; }
SecStatus = InitializeSecurityContext( NULL, &ClientContextHandle, "\\\\Frank\\IPC$", // Faked target name
0, 0, // Reserved 1
SECURITY_NATIVE_DREP, &ChallengeDesc, 0, // Reserved 2
&ClientContextHandle, &AuthenticateDesc, &ContextAttributes, &Lifetime );
if ( SecStatus != STATUS_SUCCESS ) { printf( "InitializeSecurityContext (Authenticate): " ); PrintStatus( SecStatus ); if ( !NT_SUCCESS(SecStatus) ) { return; } }
if ( !QuietMode ) { printf( "\n\nAuthenticate Message:\n" );
printf( "ClientContextHandle: 0x%lx 0x%lx Attributes: 0x%lx ", ClientContextHandle.dwLower, ClientContextHandle.dwUpper, ContextAttributes ); PrintTime( "Lifetime: ", Lifetime );
DumpBuffer( AuthenticateBuffer.pvBuffer, AuthenticateBuffer.cbBuffer ); }
//
// Finally authenticate the user (ServerSide)
//
AuthenticateBuffer.BufferType |= SECBUFFER_READONLY;
SecStatus = AcceptSecurityContext( NULL, &ServerContextHandle, &AuthenticateDesc, 0, SECURITY_NATIVE_DREP, &ServerContextHandle, NULL, &ContextAttributes, &Lifetime );
if ( SecStatus != STATUS_SUCCESS ) { printf( "AcceptSecurityContext (Challenge): " ); PrintStatus( SecStatus ); if ( !NT_SUCCESS(SecStatus) ) { return; } }
if ( !QuietMode ) { printf( "\n\nFinal Authentication:\n" );
printf( "ServerContextHandle: 0x%lx 0x%lx Attributes: 0x%lx ", ServerContextHandle.dwLower, ServerContextHandle.dwUpper, ContextAttributes ); PrintTime( "Lifetime: ", Lifetime ); printf(" \n" ); }
//
// Query as many attributes as possible
//
SecStatus = QueryContextAttributes( &ClientContextHandle, SECPKG_ATTR_SIZES, &ContextSizes );
if ( SecStatus != STATUS_SUCCESS ) { printf( "QueryContextAttributes (sizes): " ); PrintStatus( SecStatus ); if ( !NT_SUCCESS(SecStatus) ) { return; } }
if ( !QuietMode ) { printf( "QuerySizes: %ld %ld %ld %ld\n", ContextSizes.cbMaxToken, ContextSizes.cbMaxSignature, ContextSizes.cbBlockSize, ContextSizes.cbSecurityTrailer ); }
SecStatus = QueryContextAttributes( &ClientContextHandle, SECPKG_ATTR_NAMES, ContextNamesBuffer );
if ( SecStatus != STATUS_SUCCESS ) { printf( "QueryContextAttributes (names): " ); PrintStatus( SecStatus ); if ( !NT_SUCCESS(SecStatus) ) { return; } }
if ( !QuietMode ) { printf( "QueryNames: %ws\n", ContextNames->sUserName ); }
SecStatus = QueryContextAttributes( &ClientContextHandle, SECPKG_ATTR_LIFESPAN, &ContextLifespan );
if ( SecStatus != STATUS_SUCCESS ) { printf( "QueryContextAttributes (lifespan): " ); PrintStatus( SecStatus ); }
if ( NT_SUCCESS(SecStatus) ) { if ( !QuietMode ) { PrintTime(" Start:", ContextLifespan.tsStart ); PrintTime(" Expiry:", ContextLifespan.tsExpiry ); } }
//
// Get the ChallengeMessage (ServerSide)
//
// Now make a third call to Initialize to check that RPC can
// reauthenticate.
//
AuthenticateBuffer.BufferType = SECBUFFER_TOKEN;
SecStatus = InitializeSecurityContext( NULL, &ClientContextHandle, "\\\\Frank\\IPC$", // Faked target name
0, 0, // Reserved 1
SECURITY_NATIVE_DREP, NULL, 0, // Reserved 2
&ClientContextHandle, &AuthenticateDesc, &ContextAttributes, &Lifetime );
if ( SecStatus != STATUS_SUCCESS ) { printf( "InitializeSecurityContext (Re-Authenticate): " ); PrintStatus( SecStatus ); if ( !NT_SUCCESS(SecStatus) ) { return; } }
//
// Now try to re-authenticate the user (ServerSide)
//
AuthenticateBuffer.BufferType |= SECBUFFER_READONLY;
SecStatus = AcceptSecurityContext( NULL, &ServerContextHandle, &AuthenticateDesc, 0, SECURITY_NATIVE_DREP, &ServerContextHandle, NULL, &ContextAttributes, &Lifetime );
if ( SecStatus != STATUS_SUCCESS ) { printf( "AcceptSecurityContext (Re-authenticate): " ); PrintStatus( SecStatus ); if ( !NT_SUCCESS(SecStatus) ) { return; } }
//
// Impersonate the client (ServerSide)
//
SecStatus = ImpersonateSecurityContext( &ServerContextHandle );
if ( SecStatus != STATUS_SUCCESS ) { printf( "ImpersonateSecurityContext: " ); PrintStatus( SecStatus ); if ( !NT_SUCCESS(SecStatus) ) { return; } }
//
// Do something while impersonating (Access the token)
//
/*
{ NTSTATUS Status; HANDLE TokenHandle = NULL;
//
// Open the token,
//
Status = NtOpenThreadToken( NtCurrentThread(), TOKEN_QUERY, (BOOLEAN) TRUE, // Not really using the impersonation token
&TokenHandle );
if ( !NT_SUCCESS(Status) ) { printf( "Access Thread token while impersonating: " ); PrintStatus( Status ); return; } else { (VOID) NtClose( TokenHandle ); } }*/
//
// RevertToSelf (ServerSide)
//
SecStatus = RevertSecurityContext( &ServerContextHandle );
if ( SecStatus != STATUS_SUCCESS ) { printf( "RevertSecurityContext: " ); PrintStatus( SecStatus ); if ( !NT_SUCCESS(SecStatus) ) { return; } }
//
// Sign a message
//
SecStatus = MakeSignature( &ClientContextHandle, 0, &SignMessage, 0 );
if ( SecStatus != STATUS_SUCCESS ) { printf( "MakeSignature: " ); PrintStatus( SecStatus ); if ( !NT_SUCCESS(SecStatus) ) { return; } }
if ( !QuietMode ) {
printf("\n Signature: \n"); DumpBuffer(SigBuffers[1].pvBuffer,SigBuffers[1].cbBuffer);
}
//
// Verify the signature
//
SecStatus = VerifySignature( &ServerContextHandle, &SignMessage, 0, 0 );
if ( SecStatus != STATUS_SUCCESS ) { printf( "VerifySignature: " ); PrintStatus( SecStatus ); if ( !NT_SUCCESS(SecStatus) ) { return; } }
//
// Sign a message, this time to check if it can detect a change in the
// message
//
SecStatus = MakeSignature( &ClientContextHandle, 0, &SignMessage, 0 );
if ( SecStatus != STATUS_SUCCESS ) { printf( "MakeSignature: " ); PrintStatus( SecStatus ); if ( !NT_SUCCESS(SecStatus) ) { return; } }
if ( !QuietMode ) {
printf("\n Signature: \n"); DumpBuffer(SigBuffers[1].pvBuffer,SigBuffers[1].cbBuffer);
}
//
// Mess up the message to see if VerifySignature works
//
bDataBuffer[10] = 0xec;
//
// Verify the signature
//
SecStatus = VerifySignature( &ServerContextHandle, &SignMessage, 0, 0 );
if ( SecStatus != SEC_E_MESSAGE_ALTERED ) { printf( "VerifySignature: " ); PrintStatus( SecStatus ); if ( !NT_SUCCESS(SecStatus) ) { return; } }
//
// Delete both contexts.
//
SecStatus = DeleteSecurityContext( &ClientContextHandle );
if ( SecStatus != STATUS_SUCCESS ) { printf( "DeleteSecurityContext failed: " ); PrintStatus( SecStatus ); return; }
SecStatus = DeleteSecurityContext( &ServerContextHandle );
if ( SecStatus != STATUS_SUCCESS ) { printf( "DeleteSecurityContext failed: " ); PrintStatus( SecStatus ); return; }
//
// Free both credential handles
//
SecStatus = FreeCredentialsHandle( &CredentialHandle1 );
if ( SecStatus != STATUS_SUCCESS ) { printf( "FreeCredentialsHandle failed: " ); PrintStatus( SecStatus ); return; }
SecStatus = FreeCredentialsHandle( &CredentialHandle2 );
if ( SecStatus != STATUS_SUCCESS ) { printf( "FreeCredentialsHandle failed: " ); PrintStatus( SecStatus ); return; }
//
// Final Cleanup
//
if ( NegotiateBuffer.pvBuffer != NULL ) { (VOID) LocalFree( NegotiateBuffer.pvBuffer ); }
if ( ChallengeBuffer.pvBuffer != NULL ) { (VOID) LocalFree( ChallengeBuffer.pvBuffer ); }
if ( AuthenticateBuffer.pvBuffer != NULL ) { (VOID) LocalFree( AuthenticateBuffer.pvBuffer ); }}
�int __cdeclmain( IN int argc, IN char ** argv )/*++
Routine Description:
Drive the NtLmSsp service
Arguments:
argc - the number of command-line arguments.
argv - an array of pointers to the arguments.
Return Value:
Exit status
--*/{ LPSTR argument; int i; ULONG j; ULONG Iterations;
LPWSTR DomainName = NULL; LPWSTR UserName = NULL; LPWSTR Password = NULL;
enum { NoAction, ConfigureService,#define CONFIG_PARAM "/ConfigureService"
TestLpc,#define TESTLPC_PARAM "/TestLpc"
#define TESTLPC2_PARAM "/TestLpc:"
} Action = NoAction;#define QUIET_PARAM "/Q"
//
// Loop through the arguments handle each in turn
//
for ( i=1; i<argc; i++ ) {
argument = argv[i];
//
// Handle /TestLpc
//
if ( _stricmp( argument, TESTLPC_PARAM ) == 0 ) { if ( Action != NoAction ) { goto Usage; }
Action = TestLpc; Iterations = 1;
//
// Handle /TestLpc:
//
} else if ( _strnicmp( argument, TESTLPC2_PARAM, sizeof(TESTLPC2_PARAM)-1 ) == 0 ){ char *end; if ( Action != NoAction ) { goto Usage; }
Action = TestLpc;
Iterations = strtoul( &argument[sizeof(TESTLPC2_PARAM)-1], &end, 10 );
i++; if ( i < argc ) { argument = argv[i]; DomainName = NetpAllocWStrFromStr( argument );
i++; if ( i < argc ) { argument = argv[i]; UserName = NetpAllocWStrFromStr( argument );
i++; if ( i < argc ) { argument = argv[i]; Password = NetpAllocWStrFromStr( argument ); } } }
} else { //
// Handle all other parameters
//
Usage: fprintf( stderr, "Usage: ssptest [/OPTIONS]\n\n" );
fprintf( stderr, "\n" " " TESTLPC_PARAM "[:<iterations> <DomainName> <UserName> <Password>] - Test basic LPC to NtLmSsp service.\n" " " QUIET_PARAM " - Don't be so verbose\n" "\n" "\n" ); return(1); } }
//
// Perform the action requested
//
switch ( Action ) { case TestLpc: { for ( j=0; j<Iterations ; j++ ) { TestLpcRoutine( DomainName, UserName, Password ); } break; } }
return 0;
}
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