/*++ Copyright (c) 1999-2001 Microsoft Corporation Module Name : w3isapi.cxx Abstract: IIS Plus ISAPI Handler Author: Wade Hilmo (WadeH) 03-Feb-2000 Project: w3isapi.dll --*/ /************************************************************ * Include Headers ************************************************************/ #include "precomp.hxx" #include "isapi_context.hxx" #include "server_support.hxx" /************************************************************ * Globals ************************************************************/ CHAR g_szClsid[SIZE_CLSID_STRING]; CHAR g_szIsapiHandlerInstance[SIZE_CLSID_STRING]; DWORD g_dwPidW3Core; /************************************************************ * Declarations ************************************************************/ BOOL WINAPI GetServerVariable( HCONN hConn, LPSTR lpszVariableName, LPVOID lpvBuffer, LPDWORD lpdwSize ); BOOL WINAPI WriteClient( HCONN ConnID, LPVOID Buffer, LPDWORD lpdwBytes, DWORD dwReserved ); BOOL WINAPI ReadClient( HCONN ConnID, LPVOID lpvBuffer, LPDWORD lpdwSize ); BOOL WINAPI ServerSupportFunction( HCONN hConn, DWORD dwHSERequest, LPVOID lpvBuffer, LPDWORD lpdwSize, LPDWORD lpdwDataType ); HRESULT ProcessIsapiRequest( IIsapiCore * pIsapiCore, ISAPI_CORE_DATA * pCoreData, DWORD * pHseResult ); HRESULT ProcessIsapiCompletion( VOID * pContext, DWORD cbCompletion, DWORD dwCompletionStatus ); HRESULT InitModule( LPCSTR szClsid, LPCSTR szIsapiHandlerInstance, DWORD dwPidW3Core ); VOID TerminateModule( VOID ); // BUGBUG #undef INET_INFO_KEY #undef INET_INFO_PARAMETERS_KEY // // Configuration parameters registry key. // #define INET_INFO_KEY \ "System\\CurrentControlSet\\Services\\w3svc" #define INET_INFO_PARAMETERS_KEY \ INET_INFO_KEY "\\Parameters" const CHAR g_pszWpRegLocation[] = INET_INFO_PARAMETERS_KEY "\\w3isapi"; DECLARE_DEBUG_PRINTS_OBJECT(); DECLARE_DEBUG_VARIABLE(); DECLARE_PLATFORM_TYPE(); /************************************************************ * Type Definitions ************************************************************/ HRESULT InitModule( LPCSTR szClsid, LPCSTR szIsapiHandlerInstance, DWORD dwPidW3Core ) /*++ Routine Description: Initializes the w3isapi module Arguments: szClsid - In the OOP case, this is the CLSID of the application being hosted. This value may be NULL (ie. in the case of inproc ISAPI). szIsapiHandlerInstance - The instance ID of the ISAPI handler that's initializing this module. dwPidW3Core - The PID of the process containing the core server that's responsible for this module Return Value: HRESULT --*/ { HRESULT hr = NOERROR; CREATE_DEBUG_PRINT_OBJECT("w3isapi"); if (!VALID_DEBUG_PRINT_OBJECT()) { return E_FAIL; } LOAD_DEBUG_FLAGS_FROM_REG_STR( g_pszWpRegLocation, DEBUG_ERROR ); INITIALIZE_PLATFORM_TYPE(); DBGPRINTF(( DBG_CONTEXT, "Initializing w3isapi.dll - CLSID: %s, " "ISAPI Handler: %s, W3Core PID %d.\r\n", szClsid ? szClsid : "NULL", szIsapiHandlerInstance, dwPidW3Core )); // // If g_pDllManager is not NULL at this point, then // this module is being intialized multiple times. This // is an unexpected state. // if ( g_pDllManager != NULL ) { DBGPRINTF(( DBG_CONTEXT, "Warning - w3isapi.dll previously initalized.\r\n" "Previous CLSID: %s, Previous ISAPI Handler: %s, " "Previous W3Core PID: %d.\r\n", g_szClsid, g_szIsapiHandlerInstance, g_dwPidW3Core )); DBG_ASSERT( FALSE && "w3isapi.dll previously initialized." ); } g_pDllManager = new ISAPI_DLL_MANAGER(); if( g_pDllManager == NULL ) { hr = E_OUTOFMEMORY; } hr = ISAPI_CONTEXT::Initialize(); if ( FAILED( hr ) ) { delete g_pDllManager; g_pDllManager = NULL; } hr = ISAPI_DLL::Initialize(); if ( FAILED( hr ) ) { delete g_pDllManager; g_pDllManager = NULL; ISAPI_CONTEXT::Terminate(); } // // If we've successfully initialized, then store // the information from the caller so that we can // debug double initializations. // if ( SUCCEEDED( hr ) ) { if ( szClsid ) { strncpy( g_szClsid, szClsid, SIZE_CLSID_STRING ); g_szClsid[SIZE_CLSID_STRING - 1] = '\0'; } else { strcpy( g_szClsid, "NULL" ); } strncpy( g_szIsapiHandlerInstance, szIsapiHandlerInstance, SIZE_CLSID_STRING ); g_szIsapiHandlerInstance[SIZE_CLSID_STRING - 1] = '\0'; g_dwPidW3Core = dwPidW3Core; } return hr; } VOID TerminateModule( VOID ) /*++ Routine Description: Terminates the w3isapi module Arguments: None Return Value: None --*/ { ISAPI_CONTEXT::Terminate(); DBG_ASSERT( g_pDllManager ); if( g_pDllManager ) { delete g_pDllManager; g_pDllManager = NULL; } ISAPI_DLL::Terminate(); DELETE_DEBUG_PRINT_OBJECT(); } HRESULT ProcessIsapiRequest( IIsapiCore * pIsapiCore, ISAPI_CORE_DATA * pCoreData, DWORD * pHseResult ) /*++ Routine Description: Processes an ISAPI request Arguments: pIsapiCore - The interface that provides connectivity to the core server pCoreData - The core data that describes the request pHseResult - Upon return, contains the return code from the extension's HttpExtensionProc Return Value: HRESULT --*/ { ISAPI_DLL * pIsapiDll = NULL; DWORD dwIsapiReturn = HSE_STATUS_ERROR; ISAPI_CONTEXT * pIsapiContext = NULL; PFN_HTTPEXTENSIONPROC pfnHttpExtensionProc; EXTENSION_CONTROL_BLOCK * pEcb = NULL; HRESULT hr = NO_ERROR; ISAPI_CORE_DATA * pTempCoreData = NULL; DBG_ASSERT( g_pDllManager ); // // This function is only called by w3core.dll // DBG_ASSERT( pIsapiCore ); DBG_ASSERT( pCoreData ); DBG_ASSERT( pHseResult ); // // If this request is running OOP, then make a local copy // and fix up the core data internal pointers. // if ( pCoreData->fIsOop ) { pTempCoreData = (ISAPI_CORE_DATA*) LocalAlloc( LPTR, pCoreData->cbSize ); if ( !pTempCoreData ) { hr = HRESULT_FROM_WIN32( ERROR_NOT_ENOUGH_MEMORY ); goto Failed; } memcpy( pTempCoreData, pCoreData, pCoreData->cbSize ); // // All the extra data begins right at the end of pCoreData, start // pointing there // pTempCoreData->szGatewayImage = (LPWSTR)(pTempCoreData + 1); pTempCoreData->szApplMdPathW = (LPWSTR)((LPSTR)pTempCoreData->szGatewayImage + pTempCoreData->cbGatewayImage); pTempCoreData->szPathTranslatedW = (LPWSTR)((LPSTR)pTempCoreData->szApplMdPathW + pTempCoreData->cbApplMdPathW); pTempCoreData->szPhysicalPath = (LPSTR)pTempCoreData->szPathTranslatedW + pTempCoreData->cbPathTranslatedW; pTempCoreData->szPathInfo = pTempCoreData->szPhysicalPath + pTempCoreData->cbPhysicalPath; pTempCoreData->szMethod = pTempCoreData->szPathInfo + pTempCoreData->cbPathInfo; pTempCoreData->szQueryString = pTempCoreData->szMethod + pTempCoreData->cbMethod; pTempCoreData->szPathTranslated = pTempCoreData->szQueryString + pTempCoreData->cbQueryString; pTempCoreData->szContentType = pTempCoreData->szPathTranslated + pTempCoreData->cbPathTranslated; pTempCoreData->szConnection = pTempCoreData->szContentType + pTempCoreData->cbContentType; pTempCoreData->szUserAgent = pTempCoreData->szConnection + pTempCoreData->cbConnection; pTempCoreData->szCookie = pTempCoreData->szUserAgent + pTempCoreData->cbUserAgent; pTempCoreData->szApplMdPath = pTempCoreData->szCookie + pTempCoreData->cbCookie; if ( pTempCoreData->cbAvailableEntity ) { pTempCoreData->pAvailableEntity = pTempCoreData->szApplMdPath + pTempCoreData->cbApplMdPath; } else { pTempCoreData->pAvailableEntity = NULL; } // // We'll set pCoreData to point to our temp one. This // doesn't leak because the ISAPI_CONTEXT destructor is smart // enough to know it needs to be deleted in the OOP case. // pCoreData = pTempCoreData; } // // Get the entry point for the ISAPI // hr = g_pDllManager->GetIsapi( pCoreData->szGatewayImage, &pIsapiDll, pCoreData->hToken, pCoreData->pSid ); if ( FAILED( hr ) ) { goto Failed; } // // Construct the ISAPI_CONTEXT for this request. Once it's // allocated, it owns the lifetime of the ISAPI_REQUEST. When // the ISAPI_CONTEXT is deallocated, it may release the final // reference. // pIsapiContext = new ISAPI_CONTEXT( pIsapiCore, pCoreData, pIsapiDll ); if ( pIsapiContext == NULL ) { hr = HRESULT_FROM_WIN32( GetLastError () ); goto Failed; } // // Set the ECB // pEcb = pIsapiContext->QueryECB(); // // Set the ECB function pointers // pEcb->GetServerVariable = GetServerVariable; pEcb->WriteClient = WriteClient; pEcb->ReadClient = ReadClient; pEcb->ServerSupportFunction = ServerSupportFunction; // // Get the extension's entry point // pfnHttpExtensionProc = pIsapiDll->QueryHttpExtensionProc(); // // If we are running OOP, set the COM state so that the // extension can CoInitialize/CoUninitialize. // if ( pIsapiContext->QueryIsOop() ) { hr = pIsapiContext->SetComStateForOop(); DBG_ASSERT( SUCCEEDED( hr ) ); } // // Impersonate the authenticated user and call it // if ( !SetThreadToken( NULL, pIsapiContext->QueryToken() ) ) { hr = HRESULT_FROM_WIN32( GetLastError() ); goto Failed; } pIsapiContext->ReferenceIsapiContext(); dwIsapiReturn = pfnHttpExtensionProc( pEcb ); DBG_REQUIRE( RevertToSelf() ); if ( pIsapiContext->QueryIsOop() ) { pIsapiContext->RestoreComStateForOop(); } pIsapiContext->DereferenceIsapiContext(); switch ( dwIsapiReturn ) { case HSE_STATUS_PENDING: // // Don't dereference the ISAPI_CONTEXT. This // will guarantee that it lives on beyond the // return from this function. // break; case HSE_STATUS_SUCCESS_AND_KEEP_CONN: // // Special case of success. The extension wants // to keep the connection open, even though we may // not have detected proper response headers. // // After setting the disconnect mode, fall through. // if ( pIsapiContext->QueryClientKeepConn() ) { pIsapiContext->SetKeepConn( TRUE ); pIsapiCore->SetConnectionClose( FALSE ); } case HSE_STATUS_ERROR: case HSE_STATUS_SUCCESS: default: pIsapiContext->DereferenceIsapiContext(); break; } *pHseResult = dwIsapiReturn; pIsapiDll->DereferenceIsapiDll(); pIsapiDll = NULL; return NO_ERROR; Failed: DBG_ASSERT( FAILED( hr ) ); if ( pIsapiContext ) { pIsapiContext->DereferenceIsapiContext(); pIsapiContext = NULL; } else { // // In OOP case, we're depending on the ISAPI_CONTEXT destructor // to free the copy of the core data and close the impersonation // token. If we weren't able to allocate one, we'll have to // do it here. // if ( pCoreData->fIsOop ) { CloseHandle( pCoreData->hToken ); if ( pTempCoreData ) { LocalFree( pTempCoreData ); pTempCoreData = NULL; } } } if ( pIsapiDll ) { pIsapiDll->DereferenceIsapiDll(); pIsapiDll = NULL; } return hr; } HRESULT ProcessIsapiCompletion( DWORD64 IsaContext, DWORD cbCompletion, DWORD dwCompletionStatus ) /*++ Routine Description: Processes an I/O completion for an ISAPI extension Arguments: IsaContext - The ISAPI_CONTEXT for this completion cbCompletion - The byte count associated with the completion dwCompletionStatus - The result code associated with the completion Return Value: HRESULT --*/ { ISAPI_CONTEXT * pIsapiContext; ASYNC_PENDING IoType; PFN_HSE_IO_COMPLETION pfnCompletion; DWORD cbLastIo; HRESULT hr = NO_ERROR; DBG_REQUIRE( pIsapiContext = reinterpret_cast( IsaContext ) ); pIsapiContext->ReferenceIsapiContext(); // // Magical hand waving: // // If this is a completion for a write, then we need to // restore the original buffer size. This is necessary // to keep from confusing ISAPI extensions that examine // the cbCompletion value in the case where a filter // changed the size of the buffer before the actual // IO occured. // // If this is a completion for an EXEC_URL, then we need // to set the dwCompletionStatus to ERROR_SUCCESS. The // caller of the EXEC_URL should use GET_EXECUTE_URL_STATUS // to see the result of the child URL. // cbLastIo = pIsapiContext->QueryLastAsyncIo(); pIsapiContext->SetLastAsyncIo( 0 ); IoType = pIsapiContext->UninitAsyncIo(); if ( IoType == AsyncWritePending ) { cbCompletion = cbLastIo; } else if ( IoType == AsyncExecPending ) { dwCompletionStatus = ERROR_SUCCESS; } // // If the completion context indicates a completion routine, // then call it. // pfnCompletion = pIsapiContext->QueryPfnIoCompletion(); if ( pfnCompletion ) { // // First, impersonate the client // if ( SetThreadToken( NULL, pIsapiContext->QueryToken() ) ) { pfnCompletion( pIsapiContext->QueryECB(), pIsapiContext->QueryExtensionContext(), cbCompletion, dwCompletionStatus ); DBG_REQUIRE( RevertToSelf() ); } else { hr = HRESULT_FROM_WIN32( GetLastError() ); } } pIsapiContext->DereferenceIsapiContext(); return hr; } BOOL WINAPI GetServerVariable( HCONN hConn, LPSTR lpszVariableName, LPVOID lpvBuffer, LPDWORD lpdwSize ) /*++ Routine Description: Retrieves a server variable Arguments: hConn - The ConnID associated with the request. This value is opaque to the ISAPI that calls into this function, but it can be cast to the ISAPI_CONTEXT associated with the request. lpszVariableName - The name of the variable to retrieve lpvBuffer - Upon return, contains the value of the variable lpdwSize - On entry, contains the size of lpvBuffer, upon return, contains the number of bytes actually needed to contain the value. Return Value: HRESULT --*/ { ISAPI_CONTEXT * pIsapiContext; IIsapiCore * pIsapiCore; HANDLE hCurrentUser; HRESULT hr; pIsapiContext = reinterpret_cast( hConn ); // // Parameter validation // if ( pIsapiContext == NULL || lpszVariableName == NULL || lpdwSize == NULL || ( *lpdwSize != 0 && lpvBuffer == NULL ) ) { SetLastError( ERROR_INVALID_PARAMETER ); return FALSE; } pIsapiCore = pIsapiContext->QueryIsapiCoreInterface(); if ( pIsapiCore == NULL ) { SetLastError( ERROR_INVALID_PARAMETER ); return FALSE; } // // If we are running OOP, then try and get the data // locally from the process. // if ( pIsapiContext->QueryIsOop() ) { SERVER_VARIABLE_INDEX Index; Index = LookupServerVariableIndex( lpszVariableName ); if ( Index != ServerVariableExternal ) { return pIsapiContext->GetOopServerVariableByIndex( Index, lpvBuffer, lpdwSize ); } } // // Call it // pIsapiContext->IsapiDoRevertHack( &hCurrentUser ); hr = pIsapiCore->GetServerVariable( lpszVariableName, *lpdwSize ? (BYTE*)lpvBuffer : NULL, *lpdwSize, lpdwSize ); pIsapiContext->IsapiUndoRevertHack( &hCurrentUser); if ( FAILED( hr ) ) { SetLastError( WIN32_FROM_HRESULT( hr ) ); return FALSE; } return TRUE; } BOOL WINAPI WriteClient( HCONN ConnID, LPVOID Buffer, LPDWORD lpdwBytes, DWORD dwReserved ) /*++ Routine Description: Writes data to the client Arguments: hConn - The ConnID associated with the request. This value is opaque to the ISAPI that calls into this function, but it can be cast to the ISAPI_CONTEXT associated with the request. Buffer - The data to write lpdwBytes - On entry, the number of bytes to write. Upon return, the number of bytes written (or so the docs say) dwReserved - Flags (ie. HSE_IO_SYNC, etc.) Return Value: HRESULT --*/ { ISAPI_CONTEXT * pIsapiContext; IIsapiCore * pIsapiCore; HANDLE hCurrentUser; BOOL fResult; HRESULT hr; pIsapiContext = reinterpret_cast( ConnID ); // // Parameter validation // if ( pIsapiContext == NULL || lpdwBytes == NULL || ( *lpdwBytes != 0 && Buffer == NULL ) ) { SetLastError( ERROR_INVALID_PARAMETER ); return FALSE; } pIsapiCore = pIsapiContext->QueryIsapiCoreInterface(); if ( pIsapiCore == NULL ) { SetLastError( ERROR_INVALID_PARAMETER ); return FALSE; } // // If the user is sending zero bytes, return TRUE here. Yeah, this // will be kind of a bogus thing to do because if the call is async, // we will return successful with no completion ever occuring. // // IIS has done this for as long as sync WriteClient has existed, and // we'd risk breaking legacy code if we change it now. // if ( *lpdwBytes == 0 ) { return TRUE; } // // BUGBUG - Need to map the documented HSE_IO flags to reasonable // UL equivalents and provide a mechanism to pass them. // if ( dwReserved & HSE_IO_ASYNC ) { // // Do an asynchronous write // // Check to make sure that we have a completion // function. // if ( pIsapiContext->QueryPfnIoCompletion() == NULL || pIsapiContext->TryInitAsyncIo( AsyncWritePending ) == FALSE ) { SetLastError( ERROR_INVALID_PARAMETER ); return FALSE; } // // Some extensions depend on the number of bytes reported in the // completion to confirm success. In the case where a send raw // data filter is installed (or if we are using SSL), it's possible // that the number of bytes in the completion is not what the // caller expects. // // We need to save away the number of bytes that they are sending // to protect them from themselves. // pIsapiContext->SetLastAsyncIo( *lpdwBytes ); pIsapiContext->IsapiDoRevertHack( &hCurrentUser ); hr = pIsapiCore->WriteClient( reinterpret_cast( pIsapiContext ), reinterpret_cast( Buffer ), *lpdwBytes, HSE_IO_ASYNC ); pIsapiContext->IsapiUndoRevertHack( &hCurrentUser ); if ( FAILED( hr ) ) { pIsapiContext->SetLastAsyncIo( 0 ); pIsapiContext->UninitAsyncIo(); } } else { // // Do a synchronous write // pIsapiContext->IsapiDoRevertHack( &hCurrentUser ); hr = pIsapiCore->WriteClient( NULL, reinterpret_cast( Buffer ), *lpdwBytes, HSE_IO_SYNC ); pIsapiContext->IsapiUndoRevertHack( &hCurrentUser ); } if ( FAILED( hr ) ) { SetLastError( WIN32_FROM_HRESULT( hr ) ); return FALSE; } return TRUE; } BOOL WINAPI ReadClient( HCONN ConnID, LPVOID lpvBuffer, LPDWORD lpdwSize ) /*++ Routine Description: Reads data from the client Arguments: hConn - The ConnID associated with the request. This value is opaque to the ISAPI that calls into this function, but it can be cast to the ISAPI_CONTEXT associated with the request. lpvBuffer - Upon return, contains the data read lpdwsize - On entry, the size of lpvBuffer. Upon return, the number of bytes read. Return Value: HRESULT --*/ { ISAPI_CONTEXT * pIsapiContext; IIsapiCore * pIsapiCore; HANDLE hCurrentUser; HRESULT hr; pIsapiContext = reinterpret_cast( ConnID ); // // Parameter validation // if ( pIsapiContext == NULL || lpdwSize == NULL || ( *lpdwSize != 0 && lpvBuffer == NULL ) ) { SetLastError( ERROR_INVALID_PARAMETER ); return FALSE; } pIsapiCore = pIsapiContext->QueryIsapiCoreInterface(); if ( pIsapiCore == NULL ) { SetLastError( ERROR_INVALID_PARAMETER ); return FALSE; } pIsapiContext->IsapiDoRevertHack( &hCurrentUser ); hr = pIsapiCore->ReadClient( NULL, reinterpret_cast( lpvBuffer ), *lpdwSize, *lpdwSize, lpdwSize, HSE_IO_SYNC ); pIsapiContext->IsapiUndoRevertHack( &hCurrentUser ); if ( FAILED( hr ) ) { SetLastError( WIN32_FROM_HRESULT( hr ) ); return FALSE; } return TRUE; } BOOL WINAPI ServerSupportFunction( HCONN hConn, DWORD dwHSERequest, LPVOID lpvBuffer, LPDWORD lpdwSize, LPDWORD lpdwDataType ) /*++ Routine Description: Dispatches a ServerSupportFunction command to the appropriate server support function. Arguments: hConn - The ConnID associated with the request. This value is opaque to the ISAPI that calls into this function, but it can be cast to the ISAPI_CONTEXT associated with the request. dwHSERequest - The server support command lpvBuffer - Command-specific data lpdwSize - Command-specific data lpdwDataType - Command-specific data Return Value: HRESULT --*/ { ISAPI_CONTEXT * pIsapiContext; HANDLE hCurrentUser; HRESULT hr = NO_ERROR; pIsapiContext = reinterpret_cast( hConn ); // // Parameter validation // if ( pIsapiContext == NULL ) { SetLastError( ERROR_INVALID_PARAMETER ); return FALSE; } pIsapiContext->ReferenceIsapiContext(); pIsapiContext->IsapiDoRevertHack( &hCurrentUser ); // // Handle the specified command // switch ( dwHSERequest ) { case HSE_REQ_SEND_RESPONSE_HEADER: hr = SSFSendResponseHeader( pIsapiContext, reinterpret_cast( lpvBuffer ), reinterpret_cast( lpdwDataType ) ); break; case HSE_REQ_SEND_RESPONSE_HEADER_EX: hr = SSFSendResponseHeaderEx( pIsapiContext, reinterpret_cast( lpvBuffer ) ); break; case HSE_REQ_MAP_URL_TO_PATH: hr = SSFMapUrlToPath( pIsapiContext, reinterpret_cast( lpvBuffer ), lpdwSize ); break; case HSE_REQ_MAP_URL_TO_PATH_EX: hr = SSFMapUrlToPathEx( pIsapiContext, reinterpret_cast( lpvBuffer ), reinterpret_cast( lpdwDataType ), lpdwSize ); break; case HSE_REQ_MAP_UNICODE_URL_TO_PATH: hr = SSFMapUnicodeUrlToPath( pIsapiContext, reinterpret_cast( lpvBuffer ), lpdwSize ); break; case HSE_REQ_MAP_UNICODE_URL_TO_PATH_EX: hr = SSFMapUnicodeUrlToPathEx( pIsapiContext, reinterpret_cast( lpvBuffer ), reinterpret_cast( lpdwDataType ), lpdwSize ); break; case HSE_REQ_GET_IMPERSONATION_TOKEN: hr = SSFGetImpersonationToken( pIsapiContext, reinterpret_cast( lpvBuffer ) ); break; case HSE_REQ_IS_KEEP_CONN: hr = SSFIsKeepConn( pIsapiContext, reinterpret_cast( lpvBuffer ) ); break; case HSE_REQ_DONE_WITH_SESSION: hr = SSFDoneWithSession( pIsapiContext, reinterpret_cast( lpvBuffer ) ); break; case HSE_REQ_GET_CERT_INFO_EX: hr = SSFGetCertInfoEx( pIsapiContext, reinterpret_cast( lpvBuffer ) ); break; case HSE_REQ_IO_COMPLETION: hr = SSFIoCompletion( pIsapiContext, reinterpret_cast( lpvBuffer ), reinterpret_cast( lpdwDataType ) ); break; case HSE_REQ_ASYNC_READ_CLIENT: hr = SSFAsyncReadClient( pIsapiContext, lpvBuffer, lpdwSize ); break; case HSE_REQ_TRANSMIT_FILE: hr = SSFTransmitFile( pIsapiContext, reinterpret_cast( lpvBuffer ) ); break; case HSE_REQ_SEND_URL: case HSE_REQ_SEND_URL_REDIRECT_RESP: hr = SSFSendRedirect( pIsapiContext, reinterpret_cast( lpvBuffer ) ); break; case HSE_REQ_IS_CONNECTED: hr = SSFIsConnected( pIsapiContext, reinterpret_cast( lpvBuffer ) ); break; case HSE_APPEND_LOG_PARAMETER: hr = SSFAppendLog( pIsapiContext, reinterpret_cast( lpvBuffer ) ); break; case HSE_REQ_EXEC_URL: hr = SSFExecuteUrl( pIsapiContext, reinterpret_cast( lpvBuffer ) ); break; case HSE_REQ_GET_EXEC_URL_STATUS: hr = SSFGetExecuteUrlStatus( pIsapiContext, reinterpret_cast( lpvBuffer ) ); break; case HSE_REQ_SEND_CUSTOM_ERROR: hr = SSFSendCustomError( pIsapiContext, reinterpret_cast( lpvBuffer ) ); break; case HSE_REQ_VECTOR_SEND: hr = SSFVectorSend( pIsapiContext, reinterpret_cast( lpvBuffer ) ); break; case HSE_REQ_GET_CUSTOM_ERROR_PAGE: hr = SSFGetCustomErrorPage( pIsapiContext, reinterpret_cast( lpvBuffer ) ); break; case HSE_REQ_IS_IN_PROCESS: hr = SSFIsInProcess( pIsapiContext, reinterpret_cast( lpvBuffer ) ); break; case HSE_REQ_GET_SSPI_INFO: hr = SSFGetSspiInfo( pIsapiContext, reinterpret_cast( lpvBuffer ), reinterpret_cast( lpdwDataType ) ); break; case HSE_REQ_GET_VIRTUAL_PATH_TOKEN: hr = SSFGetVirtualPathToken( pIsapiContext, reinterpret_cast( lpvBuffer ), reinterpret_cast( lpdwSize ), FALSE ); break; case HSE_REQ_GET_UNICODE_VIRTUAL_PATH_TOKEN: hr = SSFGetVirtualPathToken( pIsapiContext, reinterpret_cast( lpvBuffer ), reinterpret_cast( lpdwSize ), TRUE ); break; default: hr = HRESULT_FROM_WIN32( ERROR_CALL_NOT_IMPLEMENTED ); } pIsapiContext->IsapiUndoRevertHack( &hCurrentUser ); pIsapiContext->DereferenceIsapiContext(); pIsapiContext = NULL; if ( FAILED( hr ) ) { SetLastError( WIN32_FROM_HRESULT( hr ) ); return FALSE; } return TRUE; }