/*++ Copyright (C) 1999-2001 Microsoft Corporation Module Name: ADAPTHRD.CPP Abstract: History: --*/ #include "precomp.h" #include #include #include #include #include "ntreg.h" #include "adapthrd.h" // IMPORTANT!!!! // This code MUST be revisited to do the following: // A>>>>> Exception Handling around the outside calls // B>>>>> Use a named mutex around the calls // C>>>>> Make the calls on another thread // D>>>>> Place and handle registry entries that indicate a bad DLL! //////////////////////////////////////////////////////////////////////////////////////////// // // CAdapThreadRequest // //////////////////////////////////////////////////////////////////////////////////////////// CAdapThreadRequest::CAdapThreadRequest( void ) : m_hWhenDone( NULL ), m_hrReturn( WBEM_S_NO_ERROR ) //////////////////////////////////////////////////////////////////////////////////////////// // // Constructor // //////////////////////////////////////////////////////////////////////////////////////////// { } CAdapThreadRequest::~CAdapThreadRequest( void ) //////////////////////////////////////////////////////////////////////////////////////////// // // Destructor // //////////////////////////////////////////////////////////////////////////////////////////// { if ( NULL != m_hWhenDone ) { CloseHandle( m_hWhenDone ); } } HRESULT CAdapThreadRequest::EventLogError( void ) { return 0; } //////////////////////////////////////////////////////////////////////////////////////////// // // CAdapThread // //////////////////////////////////////////////////////////////////////////////////////////// CAdapThread::CAdapThread( CAdapPerfLib* pPerfLib ) : m_pPerfLib( pPerfLib ), m_hEventQuit( NULL ), m_hSemReqPending( NULL ), m_hThread( NULL ), m_fOk( FALSE ) //////////////////////////////////////////////////////////////////////////////////////////// // // Constructor // //////////////////////////////////////////////////////////////////////////////////////////// { // Initialize the control members // ============================== Init(); } CAdapThread::~CAdapThread() //////////////////////////////////////////////////////////////////////////////////////////// // // Destructor // //////////////////////////////////////////////////////////////////////////////////////////// { if ( NULL != m_hThread ) { Shutdown(); } Clear(); // Clean up the queue // ================== while ( m_RequestQueue.Size() > 0 ) { CAdapThreadRequest* pRequest = (CAdapThreadRequest*) m_RequestQueue.GetAt( 0 ); if ( NULL != pRequest ) { pRequest->Release(); } m_RequestQueue.RemoveAt( 0 ); } } BOOL CAdapThread::Init( void ) //////////////////////////////////////////////////////////////////////////////////////////// // // Initializes the control variables // //////////////////////////////////////////////////////////////////////////////////////////// { if ( !m_fOk ) { if ( ( m_hEventQuit = CreateEvent( NULL, TRUE, FALSE, NULL ) ) != NULL ) { if ( ( m_hSemReqPending = CreateSemaphore( NULL, 0, 0x7FFFFFFF, NULL ) ) != NULL ) { if ( ( m_hThreadReady = CreateEvent( NULL, TRUE, FALSE, NULL ) ) != NULL ) { m_fOk = TRUE; } } } } if ( !m_fOk ) { ERRORTRACE( ( LOG_WMIADAP, "CAdapThread::Init() failed.\n" ) ); } return m_fOk; } BOOL CAdapThread::Clear( BOOL fClose ) //////////////////////////////////////////////////////////////////////////////////////////// // // Clears the control variables and thread variables // //////////////////////////////////////////////////////////////////////////////////////////// { CInCritSec ics(&m_cs); // Don't close the handles unless we've been told to. m_fOk = FALSE; if ( NULL != m_hEventQuit ) { if ( fClose ) { CloseHandle( m_hEventQuit ); } m_hEventQuit = NULL; } if ( NULL != m_hSemReqPending ) { if ( fClose ) { CloseHandle( m_hSemReqPending ); } m_hSemReqPending = NULL; } if ( NULL != m_hThread ) { if ( fClose ) { CloseHandle( m_hThread ); } m_hThread = NULL; } m_dwThreadId = 0; return TRUE; } HRESULT CAdapThread::Enqueue( CAdapThreadRequest* pRequest ) //////////////////////////////////////////////////////////////////////////////////////////// // // Add a request to the request queue // //////////////////////////////////////////////////////////////////////////////////////////// { HRESULT hr = WBEM_NO_ERROR; // Ensure that the thread has started // ================================== hr = Begin(); if ( SUCCEEDED( hr ) ) { // We will use a new one for EVERY operation HANDLE hEventDone = CreateEvent( NULL, TRUE, FALSE, NULL ); if ( NULL != hEventDone ) { // Let the request know about the new event handle // =========================================== pRequest->SetWhenDoneHandle( hEventDone ); // Auto-lock the queue // =================== CInCritSec ics( &m_cs ); try { // Add the request to the queue // ============================ m_RequestQueue.Add( (void*) pRequest ); pRequest->AddRef(); ReleaseSemaphore( m_hSemReqPending, 1, NULL ); } catch(...) { hr = WBEM_E_OUT_OF_MEMORY; } } else { hr = WBEM_E_OUT_OF_MEMORY; } } return TRUE; } HRESULT CAdapThread::Begin( void ) //////////////////////////////////////////////////////////////////////////////////////////// // // If the thread has not already started, then intializes the control variables, and starts // the thread. // //////////////////////////////////////////////////////////////////////////////////////////// { HRESULT hr = WBEM_S_NO_ERROR; // Verify that the thread does not already exist // ============================================= if ( NULL == m_hThread ) { // Coping will enter and exit the critical section CInCritSec ics( &m_cs ); // Double check the thread handle here in case somebody fixed us up while we were // waiting on the critical section. if ( NULL == m_hThread ) { // Initialize the control variables // ================================ if ( Init() ) { // Makes sure the pending event semaphore is signalled once for each entry in the queue // ==================================================================================== if ( m_RequestQueue.Size() > 0 ) { ReleaseSemaphore( m_hSemReqPending, m_RequestQueue.Size(), NULL ); } // Start the thread // ================ m_hThread = (HANDLE) _beginthreadex( NULL, 0, CAdapThread::ThreadProc, (void*) this, 0, (unsigned int *) &m_dwThreadId ); if ( NULL == m_hThread ) { hr = WBEM_E_FAILED; } else { if ( WAIT_OBJECT_0 != WaitForSingleObject( m_hThreadReady, 60000 ) ) { hr = WBEM_E_FAILED; ERRORTRACE( ( LOG_WMIADAP, "Worker thread for %S could not be verified.\n", (LPCWSTR)m_pPerfLib->GetServiceName() ) ); SetEvent( m_hEventQuit ); } else { DEBUGTRACE( ( LOG_WMIADAP, "Worker thread for %S is 0x%x\n", (LPCWSTR)m_pPerfLib->GetServiceName(), m_dwThreadId ) ); } } } else { hr = WBEM_E_FAILED; } } // IF NULL == m_hThread } if ( FAILED( hr ) ) { ERRORTRACE( ( LOG_WMIADAP, "CAdapThread::Begin() failed: %X.\n", hr ) ); } return hr; } unsigned CAdapThread::ThreadProc( void * pVoid ) //////////////////////////////////////////////////////////////////////////////////////////// // // This is the static entry point fo the worker thread. It addref's the thread's perflib // (see comment below) and then calls the objects processing method. // //////////////////////////////////////////////////////////////////////////////////////////// { unsigned uRet; try { // The calling object // ================== CAdapThread* pThis = (CAdapThread*) pVoid; // The perflib to be processed // =========================== CAdapPerfLib* pPerfLib = pThis->m_pPerfLib; // In an attempt to avoid circular references, we are addrefing the performance library wrapper // instead of the thread object. The thread object will be destructed by the perflib wrapper // only after the final reference is released. This thread is dependent on the perflib, but is // by the thread wrapper. As a result, when the thread has completed processing, if we indicate // that we are finished with the perflib by releasing the perflib wrapper, then the thread wrapper // may destroyed at the same time. Note the use of auto-release. if ( NULL != pPerfLib ) pPerfLib->AddRef(); CAdapReleaseMe arm( pPerfLib ); // Call the processing method // ========================== uRet = pThis->RealEntry(); } catch(...) { // We have been betrayed... try to write something to the error log // ======================================================================= CriticalFailADAPTrace( "An unhandled exception has been thrown in a worker thread." ); uRet = ERROR_OUTOFMEMORY; } return uRet; } unsigned CAdapThread::RealEntry( void ) //////////////////////////////////////////////////////////////////////////////////////////// // // This is the method that contains the loop that processes the requests. While there // are requests in the queue and the thread has not been instructed to terminate, then // grab a request and execute it. When the request has completed, then signal the completion // event to tell the originating thread that the request has been satisfied. // //////////////////////////////////////////////////////////////////////////////////////////// { HANDLE ahEvents[2]; // Use local copies of these in case we have some timing issue in which we get destructed // on another thread, but for some reason this guy keeps going. HANDLE hPending = m_hSemReqPending, hQuit = m_hEventQuit; ahEvents[0] = hPending; ahEvents[1] = hQuit; DWORD dwWait = 0; DWORD dwReturn = 0; // Signal that everything is OK and we are ready to rock! // ====================================================== if ( SetEvent( m_hThreadReady ) ) { // If the m_hEventQuit event is signaled, or if it runs into a bizarre error, // exit loop, otherwise continue as long as there is requests in the queue // ========================================================================== while ( ( dwWait = WaitForMultipleObjects( 2, ahEvents, FALSE, INFINITE ) ) == WAIT_OBJECT_0 ) { // Check for the quit event, since if both events are signalled, we'll let this // guy take precedence if ( WaitForSingleObject( hQuit, 0 ) == WAIT_OBJECT_0 ) { break; } // Get the next request from of the FIFO queue // =========================================== m_cs.Enter(); CAdapThreadRequest* pRequest = (CAdapThreadRequest*) m_RequestQueue.GetAt( 0 ); CAdapReleaseMe armRequest( pRequest ); m_RequestQueue.RemoveAt( 0 ); m_cs.Leave(); // Execute it // ========== dwReturn = pRequest->Execute( m_pPerfLib ); // Fire the completion event // ========================== if ( NULL != pRequest->GetWhenDoneHandle() ) { SetEvent( pRequest->GetWhenDoneHandle() ); } } DEBUGTRACE( ( LOG_WMIADAP, "Thread 0x%x for %S is terminating\n", m_dwThreadId, (LPCWSTR)m_pPerfLib->GetServiceName() ) ); // If the exit condition is not due to a signaled m_hEventQuit, then evaluate error // ================================================================================ if ( WAIT_FAILED == dwWait ) { dwReturn = GetLastError(); } } if ( ERROR_SUCCESS != dwReturn ) { ERRORTRACE( ( LOG_WMIADAP, "CAdapThread::RealEntry() for %S failed: %X.\n", (LPCWSTR)m_pPerfLib->GetServiceName(), dwReturn ) ); } return dwReturn; } HRESULT CAdapThread::Shutdown( DWORD dwTimeout ) //////////////////////////////////////////////////////////////////////////////////////////// // // Performs a gentle shutdown of the thread by signaling the exit event. // //////////////////////////////////////////////////////////////////////////////////////////// { HRESULT hr = WBEM_NO_ERROR; // Make sure that we are not killing ourself // ========================================= if ( ( NULL != m_hThread ) && ( GetCurrentThreadId() != m_dwThreadId ) ) { SetEvent( m_hEventQuit ); DWORD dwWait = WaitForSingleObject( m_hThread, dwTimeout ); switch ( dwWait ) { case WAIT_OBJECT_0: { m_hThread = NULL; hr = WBEM_S_NO_ERROR; }break; case WAIT_TIMEOUT: { hr = WBEM_E_FAILED; }break; default: { hr = WBEM_E_FAILED; } } if ( FAILED( hr ) ) { ERRORTRACE( ( LOG_WMIADAP, "CAdapThread::Shutdown() failed.\n" ) ); } } else { hr = WBEM_S_FALSE; } return hr; } HRESULT CAdapThread::Reset( void ) //////////////////////////////////////////////////////////////////////////////////////////// // // This function will be called if a thread apparently got eaten, in which case, we're // not sure if it will come back or not. So, we will clear our member data (not close anything) // and kick off a new processing thread. Please note that this could leak handles, but then again, // it looks like somebody ate a thread, so there are other potential problems afoot here. // //////////////////////////////////////////////////////////////////////////////////////////// { HRESULT hr = WBEM_S_NO_ERROR; // Signal the quit event so if the thread that is executing ever returns it will know to drop // out. Clear can then rid us of the appropriate handles so we can start all over again. SetEvent( m_hEventQuit ); // Scoping will enter and exit the critical section, so if anyone tries to enqueue any requests // while we are executing, we don't step all over each other. CInCritSec ics( &m_cs ); // Clear shouldn't close the handles Clear( FALSE ); if ( Init() ) { hr = Begin(); } else { hr = WBEM_E_FAILED; } if ( FAILED( hr ) ) { ERRORTRACE( ( LOG_WMIADAP, "CAdapThread::Reset() failed: %X.\n", hr ) ); } return hr; }