////////////////////////////////////////////////////////////////////////////// // // Copyright (c) 1999-2001 Microsoft Corporation // // Module Name: // TaskManager.cpp // // Description: // Task Manager implementation. // // Documentation: // Yes. // // Maintained By: // Galen Barbee (GalenB) 22-NOV-1999 // ////////////////////////////////////////////////////////////////////////////// #include "pch.h" #include "TaskManager.h" DEFINE_THISCLASS( "CTaskManager" ) #define THISCLASS CTaskManager #define LPTHISCLASS CTaskManager * // // Define this to cause the Task Manager to do all tasks synchonously. // //#define SYNCHRONOUS_TASKING //**************************************************************************** // // Constructor / Destructor // //**************************************************************************** ////////////////////////////////////////////////////////////////////////////// //++ // // HRESULT // CTaskManager::S_HrCreateInstance( // IUnknown ** ppunkOut // ) // //-- ////////////////////////////////////////////////////////////////////////////// HRESULT CTaskManager::S_HrCreateInstance( IUnknown ** ppunkOut ) { TraceFunc( "" ); Assert( ppunkOut != NULL ); HRESULT hr; IServiceProvider * psp; // Don't wrap - this can fail with E_POINTER. hr = CServiceManager::S_HrGetManagerPointer( &psp ); if ( SUCCEEDED( hr ) ) { hr = THR( psp->TypeSafeQS( CLSID_TaskManager, IUnknown, ppunkOut ) ); psp->Release(); } // if: service manager exists else if ( hr == E_POINTER ) { // // This happens when the Service Manager is first started. // CTaskManager * ptm = new CTaskManager(); if ( ptm != NULL ) { TraceMoveToMemoryList( ptm, g_GlobalMemoryList ); hr = THR( ptm->Init() ); if ( SUCCEEDED( hr ) ) { hr = THR( ptm->TypeSafeQI( IUnknown, ppunkOut ) ); } // if: success ptm->Release(); } // if: got object else { hr = E_OUTOFMEMORY; } } // if: service manager doesn't exist else { THR( hr ); } // else: HRETURN( hr ); } //*** S_HrCreateInstance() ////////////////////////////////////////////////////////////////////////////// //++ // // CTaskManager::CTaskManager( void ) // // Description: // Default constructor. // // Arguments: // None. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// CTaskManager::CTaskManager( void ) : m_cRef( 1 ) { TraceFunc( "" ); InterlockedIncrement( &g_cObjects ); TraceFuncExit(); } //*** CTaskManager::CTaskManager() ////////////////////////////////////////////////////////////////////////////// //++ // // STDMETHODIMP // CTaskManager::Init( void ) // // Description: // Initialize the instance. // // Arguments: // None. // // Return Values: // S_OK - Successful. // //-- ////////////////////////////////////////////////////////////////////////////// STDMETHODIMP CTaskManager::Init( void ) { TraceFunc( "" ); HRETURN( S_OK ); } //*** CTaskManager::Init() ////////////////////////////////////////////////////////////////////////////// //++ // // CTaskManager::~CTaskManager( void ) // // Description: // Destructor. // // Arguments: // None. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// CTaskManager::~CTaskManager( void ) { TraceFunc( "" ); InterlockedDecrement( &g_cObjects ); TraceFuncExit(); } //*** CTaskManager::~CTaskManager() //**************************************************************************** // // IUnknown // //**************************************************************************** ////////////////////////////////////////////////////////////////////////////// //++ // // STDMETHODIMP // CTaskManager::[IUnknown] QueryInterface( // REFIID riidIn, // LPVOID * ppvOut // ) // // Description: // Query for an interface on the object. // // Arguments: // riidIn // ppvOut // // Return Values: // S_OK Interface returned successfully. // E_NOINTERFACE Unknown interface. // //-- ////////////////////////////////////////////////////////////////////////////// STDMETHODIMP CTaskManager::QueryInterface( REFIID riidIn, LPVOID * ppvOut ) { TraceQIFunc( riidIn, ppvOut ); HRESULT hr = E_NOINTERFACE; if ( IsEqualIID( riidIn, IID_IUnknown ) ) { // // Technically, we shouldn't do this. This is just for a demo. // *ppvOut = static_cast< ITaskManager * >( this ); hr = S_OK; } // if: IUnknown else if ( IsEqualIID( riidIn, IID_ITaskManager ) ) { *ppvOut = TraceInterface( __THISCLASS__, ITaskManager, this , 0 ); // TraceMoveToMemoryList( *ppvOut, g_GlobalMemoryList ); hr = S_OK; } // else if: ITaskManager if ( SUCCEEDED( hr ) ) { ((IUnknown *) *ppvOut)->AddRef(); } // if: success QIRETURN_IGNORESTDMARSHALLING( hr, riidIn ); } //*** CTaskManager::QueryInterface() ////////////////////////////////////////////////////////////////////////////// //++ // // STDMETHODIMP_( ULONG ) // CTaskManager::[IUnknown] AddRef( void ) // // Description: // Add a reference to the object. // // Arguments: // None. // // Return Values: // Count of references. // //-- ////////////////////////////////////////////////////////////////////////////// STDMETHODIMP_( ULONG ) CTaskManager::AddRef( void ) { TraceFunc( "[IUnknown]" ); InterlockedIncrement( &m_cRef ); RETURN( m_cRef ); } //*** CTaskManager::AddRef() ////////////////////////////////////////////////////////////////////////////// //++ // // STDMETHODIMP_( ULONG ) // CTaskManager::[IUnknown] Release( void ) // // Description: // Decrement the reference count on the object. // // Arguments: // None. // // Returns: // New reference count. // //-- ////////////////////////////////////////////////////////////////////////////// STDMETHODIMP_( ULONG ) CTaskManager::Release( void ) { TraceFunc( "[IUnknown]" ); InterlockedDecrement( &m_cRef ); if ( m_cRef ) RETURN( m_cRef ); TraceDo( delete this ); RETURN( 0 ); } //*** CTaskManager::Release() //**************************************************************************** // // ITaskManager // //**************************************************************************** ////////////////////////////////////////////////////////////////////////////// //++ // // STDMETHODIMP // CTaskManager::[ITaskManager] SubmitTask( // IDoTask * pTask // ) // // Description: // Execute a task. // // Arguments: // pTask - The task to execute. // // Return Values: // S_OK - Successful. // Other HRESULTs. // //-- ////////////////////////////////////////////////////////////////////////////// STDMETHODIMP CTaskManager::SubmitTask( IDoTask * pTask ) { TraceFunc1( "[ITaskManager] pTask = %#x", pTask ); BOOL fResult; HRESULT hr; #if defined( SYNCHRONOUS_TASKING ) // // Don't wrap. The "return value" is meaningless since it normally // would not make it back here. The "return value" of doing the task // should have been submitted thru the Notification Manager. // pTask->BeginTask(); // // Fake it as if the task was submitted successfully. // hr = S_OK; goto Cleanup; #else IStream * pstm; // don't free! (unless QueueUserWorkItem fails) TraceMemoryDelete( pTask, FALSE ); // About to be handed to another thread. hr = THR( CoMarshalInterThreadInterfaceInStream( IID_IDoTask, pTask, &pstm ) ); if ( FAILED( hr ) ) goto Cleanup; fResult = QueueUserWorkItem( S_BeginTask, pstm, WT_EXECUTELONGFUNCTION ); if ( fResult != FALSE ) { hr = S_OK; } // if: success else { hr = THR( HRESULT_FROM_WIN32( GetLastError() ) ); pstm->Release(); } // else: // // Don't free the stream. It will be freed by S_BeginTask. // #endif Cleanup: HRETURN( hr ); } //*** CTaskManager::SubmitTask() ////////////////////////////////////////////////////////////////////////////// //++ // // STDMETHODIMP // CTaskManager::[ITaskManager] CreateTask( // REFCLSID clsidTaskIn, // CLSID of the task to create // IUnknown ** ppUnkOut // Pointer to interface specified by riidIn // ) // // Description: // The purpose of this is to create the task in our process and/or our // apartment. // // Arguments: // clsidTaskIn - CLSID of the task to create. // ppUnkOut - IUnknown interface. // // Return Values: // // //-- ////////////////////////////////////////////////////////////////////////////// STDMETHODIMP CTaskManager::CreateTask( REFIID clsidTaskIn, // CLSID of the task to create IUnknown ** ppUnkOut // IUnknown interface ) { TraceFunc( "[ITaskManager] clsidTaskIn, ppvOut" ); HRESULT hr; // // TODO: gpease 27-NOV-1999 // Maybe implement a list of "spent" tasks in order to // reuse tasks that have been completed and reduce heap // thrashing.(????) // hr = THR( HrCoCreateInternalInstance( clsidTaskIn , NULL , CLSCTX_INPROC_SERVER, IID_IUnknown , reinterpret_cast< void ** >( ppUnkOut ) ) ); HRETURN( hr ); } //*** CTaskManager::CreateTask() //**************************************************************************** // // Private Methods // //**************************************************************************** ////////////////////////////////////////////////////////////////////////////// //++ // // DWORD // WINAPI // CTaskManager::S_BeginTask( // LPVOID pParam // ) // // Description: // Thread task to begin the task. // // Arguments: // pParam - Parameter for the task. // // Return Values: // Ignored. // //-- ////////////////////////////////////////////////////////////////////////////// DWORD WINAPI CTaskManager::S_BeginTask( LPVOID pParam ) { TraceFunc1( "pParam = %#x", pParam ); Assert( pParam != NULL ); HRESULT hr; IDoTask * pTask = NULL; IStream * pstm = reinterpret_cast< IStream * >( pParam ); TraceMemoryAddPunk( pTask ); hr = STHR( CoInitializeEx( NULL, COINIT_APARTMENTTHREADED | COINIT_DISABLE_OLE1DDE ) ); if ( FAILED( hr ) ) goto Bail; hr = THR( CoUnmarshalInterface( pstm, TypeSafeParams( IDoTask, &pTask ) ) ); if ( FAILED( hr ) ) goto Cleanup; pTask->BeginTask(); Cleanup: if ( pTask != NULL ) { pTask->Release(); // AddRef'ed in SubmitTask } if ( pstm != NULL ) { pstm->Release(); } CoUninitialize(); Bail: FRETURN( hr ); return hr; } //*** CTaskManager::S_BeginTask()