#include "priv.h" #include "schedule.h" // debug stuff for tracking critical section owners..... #ifdef DEBUG #define DECLARE_CRITICAL_SECTION(x) CRITICAL_SECTION x; \ DWORD dwThread##x; #define STATIC_DECLARE_CRITICAL_SECTION(x) static CRITICAL_SECTION x; \ static DWORD dwThread##x; #define STATIC_INIT_CRITICAL_SECTION(c,x) CRITICAL_SECTION c::x = {0}; \ DWORD c::dwThread##x; #define ASSERT_CRITICAL_SECTION(x) ASSERT( dwThread##x == GetCurrentThreadId() ); #define OBJECT_ASSERT_CRITICAL_SECTION(o,x) ASSERT( o->dwThread##x == GetCurrentThreadId() ); #define ENTER_CRITICAL_SECTION(x) EnterCriticalSection(&x); \ dwThread##x = GetCurrentThreadId(); #define OBJECT_ENTER_CRITICAL_SECTION(o,x) EnterCriticalSection(&o->x); \ o->dwThread##x = GetCurrentThreadId(); #define LEAVE_CRITICAL_SECTION(x) ASSERT_CRITICAL_SECTION(x); \ LeaveCriticalSection(&x); #define OBJECT_LEAVE_CRITICAL_SECTION(o,x) OBJECT_ASSERT_CRITICAL_SECTION(o,x); \ LeaveCriticalSection(&o->x); #else #define DECLARE_CRITICAL_SECTION(x) CRITICAL_SECTION x; #define STATIC_DECLARE_CRITICAL_SECTION(x) static CRITICAL_SECTION x; #define STATIC_INIT_CRITICAL_SECTION(c,x) CRITICAL_SECTION c::x = {0}; #define ASSERT_CRITICAL_SECTION(x) #define OBJECT_ASSERT_CRITICAL_SECTION(o,x) #define ENTER_CRITICAL_SECTION(x) EnterCriticalSection(&x); #define OBJECT_ENTER_CRITICAL_SECTION(o,x) EnterCriticalSection(&o->x); #define LEAVE_CRITICAL_SECTION(x) LeaveCriticalSection(&x); #define OBJECT_LEAVE_CRITICAL_SECTION(o,x) LeaveCriticalSection(&o->x); #endif #define TF_SCHEDULER 0x20 // struct to hold the details for each task that is to be executed.... struct TaskNode { LPRUNNABLETASK pTask; TASKOWNERID toid; DWORD dwPriority; DWORD_PTR dwLParam; BOOL fSuspended; }; class CShellTaskScheduler : public IShellTaskScheduler2 { public: CShellTaskScheduler( HRESULT * pHr ); ~CShellTaskScheduler(); STDMETHOD (QueryInterface) (REFIID riid, LPVOID * ppvObj ); STDMETHOD_(ULONG, AddRef)( void ); STDMETHOD_(ULONG,Release)( void ); STDMETHOD (AddTask)(IRunnableTask * pTask, REFTASKOWNERID rtoid, DWORD_PTR lParam, DWORD dwPriority ); STDMETHOD (RemoveTasks)( REFTASKOWNERID rtoid, DWORD_PTR dwLParam, BOOL fWaitIfRunning ); STDMETHOD (Status)( DWORD dwStatus, DWORD dwThreadTimeout ); STDMETHOD_(UINT, CountTasks)(REFTASKOWNERID rtoid); STDMETHOD (AddTask2)(IRunnableTask * pTask, REFTASKOWNERID rtoid, DWORD_PTR lParam, DWORD dwPriority, DWORD grfFlags); STDMETHOD (MoveTask)(REFTASKOWNERID rtoid, DWORD_PTR dwLParam, DWORD dwPriority, DWORD grfFlags ); protected: // data held by a task scheduler to refer to the current worker that it has.... struct WorkerData { BOOL Init(CShellTaskScheduler *pts); // this (pThis) is used to pass the controlling // object back and forth to the thread, so that threads can be moved // back and forth from objects as they need them. CShellTaskScheduler * pThis; #ifdef DEBUG DWORD dwThreadID; #endif }; friend UINT CShellTaskScheduler_ThreadProc( LPVOID pParam ); friend int CALLBACK ListDestroyCallback( LPVOID p, LPVOID pData ); VOID _KillScheduler( BOOL bKillCurTask ); BOOL _WakeScheduler( void ); BOOL _RemoveTasksFromList( REFTASKOWNERID rtoid, DWORD_PTR dwLParam ); // create a worker thread data block that can be associated with a task scheduler.... WorkerData * FetchWorker( void ); // from a worker thread, let go of the scheduler it is associated... static BOOL ReleaseWorker( WorkerData * pThread ); /***********PERINSTANCE DATA ************/ DECLARE_CRITICAL_SECTION( m_csListLock ) HDPA m_hTaskList; WorkerData * m_pWorkerThread; // the currently running task... TaskNode * m_pRunning; // a semaphore that counts, so that all waiters canbe released... HANDLE m_hCurTaskEnded; DWORD m_dwStatus; int m_iSignalCurTask; // - tell the thread to signal when the // current task is finished if non-zero // the other thread will signal the // handle as many times as this variable // holds. BOOL m_fEmptyQueueAndSleep; // - tell the thread to empty itself and // go to sleep (usually it is dying.... int m_iGoToSleep; // - tell the tread to go to sleep without emptying the queue long m_cRef; #ifdef DEBUG void AssertForNoOneWaiting( void ) { // no one should be queued for waiting ASSERT( m_iSignalCurTask == 0 ); // release the semaphore by zero to get the current count.... LONG lPrevCount = 0; ReleaseSemaphore( m_hCurTaskEnded, 0, &lPrevCount ); ASSERT( lPrevCount == 0 ); }; #endif void IWantToKnowWhenCurTaskDone( void ) { m_iSignalCurTask ++; }; }; // private messages sent to the scheduler thread... #define WM_SCH_WAKEUP WM_USER + 0x600 #define WM_SCH_TERMINATE WM_USER + 0x601 STDAPI CShellTaskScheduler_CreateInstance(IUnknown* pUnkOuter, IUnknown** ppunk, LPCOBJECTINFO poi) { if ( pUnkOuter ) { return CLASS_E_NOAGGREGATION; } HRESULT hr = NOERROR; CShellTaskScheduler * pScheduler = new CShellTaskScheduler( & hr ); if ( !pScheduler ) { return E_OUTOFMEMORY; } if ( FAILED( hr )) { delete pScheduler; return hr; } *ppunk = SAFECAST(pScheduler, IShellTaskScheduler *); return NOERROR; } // Global ExplorerTaskScheduler object that is used by multiple components. IShellTaskScheduler * g_pTaskScheduler = NULL; // This is the class factory routine for creating the one and only ExplorerTaskScheduler object. // We have a static object (g_pTaskScheduler) that everyone who wants to use it shares. STDAPI CSharedTaskScheduler_CreateInstance(IUnknown* pUnkOuter, IUnknown** ppunk, LPCOBJECTINFO poi) { HRESULT hr = NOERROR; if (pUnkOuter) return CLASS_E_NOAGGREGATION; ENTERCRITICAL; if (g_pTaskScheduler) { g_pTaskScheduler->AddRef(); } else { hr = CShellTaskScheduler_CreateInstance(NULL, (LPUNKNOWN*)&g_pTaskScheduler, NULL); if (SUCCEEDED(hr)) { // set timeout to be 1 minute..... g_pTaskScheduler->Status( ITSSFLAG_KILL_ON_DESTROY, 1 * 60 * 1000 ); // keep an additional ref for us.. g_pTaskScheduler->AddRef(); } } *ppunk = SAFECAST(g_pTaskScheduler, IShellTaskScheduler*); LEAVECRITICAL; return hr; } STDAPI SHIsThereASystemScheduler( void ) { return ( g_pTaskScheduler ? S_OK : S_FALSE ); } // use CoCreateInstance - thread pool removes need for global scheduler STDAPI SHGetSystemScheduler( LPSHELLTASKSCHEDULER * ppScheduler ) { if ( !ppScheduler ) { return E_INVALIDARG; } return CSharedTaskScheduler_CreateInstance(NULL, (IUnknown **)ppScheduler, NULL ); } // use CoCreateInstance - thread pool removes need for global scheduler STDAPI SHFreeSystemScheduler( void ) { TraceMsg(TF_SCHEDULER, "SHfss: g_pTaskSched=%x", g_pTaskScheduler); IShellTaskScheduler * pSched; ENTERCRITICAL; pSched = g_pTaskScheduler; g_pTaskScheduler = NULL; LEAVECRITICAL; if ( pSched ) { // assume the scheduler is empty.... pSched->RemoveTasks( TOID_NULL, ITSAT_DEFAULT_LPARAM, FALSE ); pSched->Release(); } return NOERROR; } #ifdef DEBUG STDAPI_(void) SHValidateEmptySystemScheduler() { if ( g_pTaskScheduler ) { ASSERT( g_pTaskScheduler->CountTasks( TOID_NULL ) == 0 ); } } #endif int InsertInPriorityOrder( HDPA hTaskList, TaskNode * pNewNode, BOOL fBefore ); int CALLBACK ListDestroyCallback( LPVOID p, LPVOID pData ) { ASSERT( p != NULL ); if ( ! p ) { TraceMsg( TF_ERROR, "ListDestroyCallback() - p is NULL!" ); return TRUE; } CShellTaskScheduler * pThis = (CShellTaskScheduler *) pData; ASSERT( pThis ); if ( ! pThis ) { TraceMsg( TF_ERROR, "ListDestroyCallback() - pThis is NULL!" ); return TRUE; } TaskNode * pNode = (TaskNode *) p; ASSERT( pNode != NULL ); ASSERT( pNode->pTask != NULL ); #ifdef DEBUG if ( pThis->m_pWorkerThread ) { // notify the thread that we are emptying the list from here, so remove these // items from its mem track list } #endif // if it is suspended, kill it. If it is not suspended, then it has // probably never been started.. if ( pNode->fSuspended ) { pNode->pTask->Kill( pThis->m_dwStatus == ITSSFLAG_COMPLETE_ON_DESTROY ); } pNode->pTask->Release(); delete pNode; return TRUE; } STDMETHODIMP CShellTaskScheduler::QueryInterface( REFIID riid, LPVOID * ppvObj ) { static const QITAB qit[] = { QITABENT(CShellTaskScheduler, IShellTaskScheduler), QITABENT(CShellTaskScheduler, IShellTaskScheduler2), { 0 }, }; return QISearch(this, qit, riid, ppvObj); } STDMETHODIMP_ (ULONG) CShellTaskScheduler::AddRef() { InterlockedIncrement( &m_cRef ); return m_cRef; } STDMETHODIMP_ (ULONG) CShellTaskScheduler::Release() { if (0 == m_cRef) { AssertMsg(0, TEXT("CShellTaskScheduler::Release called too many times!")); return 0; } if (InterlockedDecrement( &m_cRef ) == 0) { delete this; return 0; } return m_cRef; } CShellTaskScheduler::CShellTaskScheduler( HRESULT * pHr) : m_cRef(1) { InitializeCriticalSection( &m_csListLock ); ASSERT(m_pWorkerThread == NULL); ASSERT(m_pRunning == NULL); m_dwStatus = ITSSFLAG_COMPLETE_ON_DESTROY; // grow queue by five each time... m_hTaskList = DPA_Create( 5 ); if ( !m_hTaskList ) { *pHr = E_OUTOFMEMORY; } m_hCurTaskEnded = CreateSemaphoreWrap( NULL, 0, 0xffff, NULL ); if ( !m_hCurTaskEnded ) { *pHr = E_FAIL; } DllAddRef(); } CShellTaskScheduler::~CShellTaskScheduler() { // if we don't have a tasklist and semaphore (constructor failure), we can't have a workerthread ASSERT((m_hTaskList && m_hCurTaskEnded) || !m_pWorkerThread); // but if we have a task list... if ( m_hTaskList ) { EnterCriticalSection( &m_csListLock ); // if we have a background worker thread, then it MUST be doing something as we // are now in the crit section so it can't go away if ( m_pWorkerThread ) { // we tell the object we need to know when it has done with its stuff.... // we reuse the event we already have... m_fEmptyQueueAndSleep = TRUE; #ifdef DEBUG AssertForNoOneWaiting(); #endif IWantToKnowWhenCurTaskDone(); // tell the cur task to go away..... TraceMsg(TF_SCHEDULER, "(%x)csts.dtor: call _KillScheduler", GetCurrentThreadId()); _KillScheduler( m_dwStatus == ITSSFLAG_KILL_ON_DESTROY ); // free the thread. At this point there is always LeaveCriticalSection( &m_csListLock ); TraceMsg(TF_SCHEDULER, "csts.dtor: call u.WFSMT(m_hCurTaskEnded=%x)", m_hCurTaskEnded); DWORD dwRes = SHWaitForSendMessageThread(m_hCurTaskEnded, INFINITE); ASSERT(dwRes == WAIT_OBJECT_0); TraceMsg(TF_SCHEDULER, "csts.dtor: u.WFSMT() done"); ASSERT( !m_pWorkerThread ); } else { LeaveCriticalSection( &m_csListLock ); } // empty the list incase it is not empty (it should be) DPA_EnumCallback( m_hTaskList, ListDestroyCallback, this ); DPA_DeleteAllPtrs( m_hTaskList ); DPA_Destroy( m_hTaskList ); m_hTaskList = NULL; } if ( m_hCurTaskEnded ) CloseHandle( m_hCurTaskEnded ); DeleteCriticalSection( &m_csListLock ); DllRelease(); } STDMETHODIMP CShellTaskScheduler::AddTask( IRunnableTask * pTask, REFTASKOWNERID rtoid, DWORD_PTR dwLParam, DWORD dwPriority ) { return AddTask2(pTask, rtoid, dwLParam, dwPriority, ITSSFLAG_TASK_PLACEINBACK); } STDMETHODIMP CShellTaskScheduler::AddTask2( IRunnableTask * pTask, REFTASKOWNERID rtoid, DWORD_PTR dwLParam, DWORD dwPriority, DWORD grfFlags ) { if ( !pTask ) return E_INVALIDARG; HRESULT hr = E_OUTOFMEMORY; // assume failure TaskNode * pNewNode = new TaskNode; if ( pNewNode ) { pNewNode->pTask = pTask; pTask->AddRef(); pNewNode->toid = rtoid; pNewNode->dwPriority = dwPriority; pNewNode->dwLParam = dwLParam; pNewNode->fSuspended = FALSE; EnterCriticalSection( &m_csListLock ); int iPos = -1; if (grfFlags & ITSSFLAG_TASK_PLACEINFRONT) { iPos = InsertInPriorityOrder( m_hTaskList, pNewNode, TRUE ); } else if (grfFlags & ITSSFLAG_TASK_PLACEINBACK) { iPos = InsertInPriorityOrder( m_hTaskList, pNewNode, FALSE ); } if ( iPos != -1 && m_pRunning ) { if ( m_pRunning->dwPriority < dwPriority ) { // try to suspend the current task. If this works, the task will // return to the scheduler with E_PENDING. It will then be added // suspended in the queue to be Resumed later.... m_pRunning->pTask->Suspend(); } } BOOL bRes = FALSE; if ( iPos != -1 ) { // get a worker thread and awaken it... // we do this in the crit section because we need to test m_pWorkerThread and // to save us from releasing and grabbing it again... bRes = _WakeScheduler(); #ifdef DEBUG if ( bRes && m_pWorkerThread ) { // // We are putting this memory block in a linked list and it will most likely be freed // from the background thread. Remove it from the per-thread memory list to avoid // detecting it as a memory leak. // // WARNING - WARNING - WARNING: // We cannot... // assume that when pTask is Released it will be deleted, so move it // to the other thread's memory list. // // This will be incorrect some of the time and we don't want to investigate // fake leaks. -BryanSt //transfer_to_thread_memlist( m_pWorkerThread->dwThreadID, pNewNode->pTask ); } #endif } LeaveCriticalSection( &m_csListLock ); // we failed to add it to the list if ( iPos == -1 ) { // we failed to add it to the list, must have been a memory failure... pTask->Release(); // for the AddRef above delete pNewNode; goto Leave; } hr = bRes ? NOERROR : E_FAIL; } Leave: return hr; } STDMETHODIMP CShellTaskScheduler::RemoveTasks( REFTASKOWNERID rtoid, DWORD_PTR dwLParam, BOOL fWaitIfRunning ) { BOOL fRemoveAll = IsEqualGUID( TOID_NULL, rtoid ); BOOL fAllItems = (dwLParam == ITSAT_DEFAULT_LPARAM ); BOOL fWaitOnHandle = FALSE; // note, this ignores the current EnterCriticalSection( &m_csListLock ); _RemoveTasksFromList( rtoid, dwLParam ); if ( m_pRunning && ( fWaitIfRunning || m_dwStatus == ITSSFLAG_KILL_ON_DESTROY )) { // kill the current task ... if (( fRemoveAll || IsEqualGUID( rtoid, m_pRunning->toid )) && ( fAllItems || dwLParam == m_pRunning->dwLParam )) { ASSERT( m_pRunning->pTask ); if ( m_dwStatus == ITSSFLAG_KILL_ON_DESTROY ) { m_pRunning->pTask->Kill( fWaitIfRunning ); } // definitive support for waiting until they are done... // (note, only do it is there is a task running, otherwise we'll sit // on a handle that will never fire) if ( fWaitIfRunning ) { IWantToKnowWhenCurTaskDone(); // don't use this directly outside of the cirtical section because it can change... ASSERT ( m_iSignalCurTask ); fWaitOnHandle = TRUE; m_iGoToSleep++; } } } LeaveCriticalSection( &m_csListLock ); // now wait if we need to...... if ( fWaitOnHandle ) { DWORD dwRes = SHWaitForSendMessageThread(m_hCurTaskEnded, INFINITE); ASSERT(dwRes == WAIT_OBJECT_0); EnterCriticalSection( &m_csListLock ); // Remove tasks that might have been added while the last task was finishing _RemoveTasksFromList( rtoid, dwLParam ); m_iGoToSleep--; // See if we need to wake the thread now. if ( m_iGoToSleep == 0 && DPA_GetPtrCount( m_hTaskList ) > 0 ) _WakeScheduler(); LeaveCriticalSection( &m_csListLock ); } return NOERROR; } BOOL CShellTaskScheduler::_RemoveTasksFromList( REFTASKOWNERID rtoid, DWORD_PTR dwLParam ) { // assumes that we are already holding the critical section BOOL fRemoveAll = IsEqualGUID( TOID_NULL, rtoid ); BOOL fAllItems = (dwLParam == ITSAT_DEFAULT_LPARAM ); int iIndex = 0; do { TaskNode * pNode = (TaskNode *) DPA_GetPtr( m_hTaskList, iIndex ); if ( !pNode ) { break; } ASSERT( pNode ); ASSERT( pNode->pTask ); if (( fRemoveAll || IsEqualGUID( pNode->toid, rtoid )) && ( fAllItems || dwLParam == pNode->dwLParam )) { // remove it DPA_DeletePtr( m_hTaskList, iIndex ); if ( pNode->fSuspended ) { // kill it just incase.... pNode->pTask->Kill( FALSE ); } pNode->pTask->Release(); delete pNode; } else { iIndex ++; } } while ( TRUE ); return TRUE; } // // CShellTaskScheduler::MoveTask // STDMETHODIMP CShellTaskScheduler::MoveTask( REFTASKOWNERID rtoid, DWORD_PTR dwLParam, DWORD dwPriority, DWORD grfFlags ) { int iInsert; int iIndex; BOOL fMoveAll = IsEqualGUID( TOID_NULL, rtoid ); BOOL fAllItems = (dwLParam == ITSAT_DEFAULT_LPARAM ); BOOL bMatch = FALSE ; int iIndexStart; int iIndexInc; EnterCriticalSection( &m_csListLock ); // Init direction of search if (grfFlags & ITSSFLAG_TASK_PLACEINFRONT) { iIndexStart = 0; iInsert = DPA_GetPtrCount( m_hTaskList ); iIndexInc = 1; } else if (grfFlags & ITSSFLAG_TASK_PLACEINBACK) { iIndexStart = iInsert = DPA_GetPtrCount( m_hTaskList ); iIndexInc = -1; } // Find insert point (based on priority) iIndex = 0; do { TaskNode * pNode = (TaskNode *) DPA_GetPtr( m_hTaskList, iIndex ); if ( !pNode ) { break; } if (grfFlags & ITSSFLAG_TASK_PLACEINFRONT) { if (pNode->dwPriority <= dwPriority) { iInsert = iIndex; break; } } else if (grfFlags & ITSSFLAG_TASK_PLACEINBACK) { if (pNode->dwPriority > dwPriority) { iInsert = iIndex; } else { break; } } iIndex++; } while (TRUE); // Now try and locate any items. iIndex = iIndexStart; do { TaskNode * pNode = (TaskNode *) DPA_GetPtr( m_hTaskList, iIndex ); if ( !pNode ) { break; } if (( fMoveAll || IsEqualGUID( pNode->toid, rtoid )) && ( fAllItems || dwLParam == pNode->dwLParam )) { bMatch = TRUE; // Can we move this node? if ( iIndex != iInsert ) { int iPos = DPA_InsertPtr( m_hTaskList, iInsert, pNode ); if (iPos != -1) { if ( iIndex > iInsert ) { DPA_DeletePtr( m_hTaskList, iIndex + 1); // Will have shifted one } else { DPA_DeletePtr( m_hTaskList, iIndex); } } } } iIndex += iIndexInc; } while ( !bMatch ); LeaveCriticalSection( &m_csListLock ); return (bMatch ? S_OK : S_FALSE); } BOOL CShellTaskScheduler::_WakeScheduler( ) { // assume we are in the object's critsection..... if ( NULL == m_pWorkerThread ) { // we need a worker quick .... m_pWorkerThread = FetchWorker(); } return ( NULL != m_pWorkerThread ); } VOID CShellTaskScheduler::_KillScheduler( BOOL bKillCurTask ) { // assumes that we are already holding the critical section if ( m_pRunning != NULL && bKillCurTask ) { ASSERT( m_pRunning->pTask ); // tell the currently running task that it should die // quickly, because we are a separate thread than the // one that is running the task, it can be notified m_pRunning->pTask->Kill( FALSE ); } } UINT CShellTaskScheduler_ThreadProc( LPVOID pParam ) { // make sure we have a message QUEUE // BOGUS - why do we need this? MSG msg; PeekMessage( &msg, NULL, 0, 0, PM_NOREMOVE ); ASSERT( pParam ); HRESULT hrInit = SHCoInitialize(); CShellTaskScheduler::WorkerData * pWorker = (CShellTaskScheduler::WorkerData *) pParam; DWORD dwRes = 0; TraceMsg(TF_SCHEDULER, "(?%x)ShellTaskScheduler::Thread Started", GetCurrentThreadId()); #ifdef DEBUG pWorker->dwThreadID = GetCurrentThreadId(); #endif // figure out who we are attatched to (where the queue is we get tasks from) CShellTaskScheduler * pThis = pWorker->pThis; // we must always have a valid parent object at this point.... ASSERT( pThis && IS_VALID_WRITE_PTR( pThis, CShellTaskScheduler )); do { MSG msg; HRESULT hr = NOERROR; TaskNode * pTask = NULL; OBJECT_ENTER_CRITICAL_SECTION( pThis, m_csListLock ); // this means we are being told to quit... if ( pThis->m_fEmptyQueueAndSleep ) { // we are being told to empty the queue ..... DPA_EnumCallback( pThis->m_hTaskList, ListDestroyCallback, pThis ); DPA_DeleteAllPtrs( pThis->m_hTaskList ); } else if ( !pThis->m_iGoToSleep ) { // get the first item... pTask = (TaskNode *) DPA_GetPtr( pThis->m_hTaskList, 0 ); } if ( pTask ) { // remove from the list... DPA_DeletePtr( pThis->m_hTaskList, 0 ); } pThis->m_pRunning = pTask; OBJECT_LEAVE_CRITICAL_SECTION( pThis, m_csListLock ); if ( pTask == NULL ) { // cache the scheduler pointer, as we need it to leave the crit section CShellTaskScheduler * pScheduler = pThis; // queue is empty, go back on the thread pool..... // we are about to enter a deep deep sleep/coma, so remove us from the object.... OBJECT_ENTER_CRITICAL_SECTION( pScheduler, m_csListLock ); HANDLE hSleep = pThis->m_fEmptyQueueAndSleep ? pThis->m_hCurTaskEnded : NULL; BOOL fEmptyAndLeave = pThis->m_fEmptyQueueAndSleep; // make sure they didn't just add something to the queue, or have we been asked to go to sleep if ( pThis->m_iGoToSleep || DPA_GetPtrCount( pThis->m_hTaskList ) == 0) { if ( CShellTaskScheduler::ReleaseWorker( pWorker )) { pThis = NULL; } } OBJECT_LEAVE_CRITICAL_SECTION( pScheduler, m_csListLock ); if ( pThis && !fEmptyAndLeave ) { // they must have added something at the last moment... continue; } // we are being emptied, tell them we are no longer attatched.... if ( hSleep ) { ReleaseSemaphore( hSleep, 1, NULL); } break; } else { #ifndef DEBUG //__try { #endif if ( pTask->fSuspended ) { pTask->fSuspended = FALSE; hr = pTask->pTask->Resume(); } else { // run the task... hr = pTask->pTask->Run( ); } #ifndef DEBUG } //__except( EXCEPTION_EXECUTE_HANDLER ) // { // ignore it.... and pray we are fine... //} // __endexcept #endif BOOL fEmptyQueue; OBJECT_ENTER_CRITICAL_SECTION( pThis, m_csListLock ); { pThis->m_pRunning = NULL; // check to see if we have been asked to notify them // on completion.... // NOTE: the NOT clause is needed so that we release ourselves // NOTE: and signal them at the right point, if we do it here, // NOTE: they leave us stranded, delete the crit section and // NOTE: we fault. if ( pThis->m_iSignalCurTask && !pThis->m_fEmptyQueueAndSleep ) { LONG lPrevCount = 0; // release all those that are waiting. (we are using a semaphore // because we are a free threaded object and God knows how many // threads are waiting, and he passed on the information in the // iSignalCurTask variable ReleaseSemaphore( pThis->m_hCurTaskEnded, pThis->m_iSignalCurTask, &lPrevCount ); // reset the count. pThis->m_iSignalCurTask = 0; } fEmptyQueue = pThis->m_fEmptyQueueAndSleep; } OBJECT_LEAVE_CRITICAL_SECTION( pThis, m_csListLock ); if ( hr != E_PENDING || fEmptyQueue ) { ULONG cRef = pTask->pTask->Release(); delete pTask; pTask = NULL; } // empty the message queue... while( PeekMessage( &msg, NULL, 0, 0, PM_REMOVE )) { { #ifdef DEBUG if (msg.message == WM_ENDSESSION) TraceMsg(TF_SCHEDULER, "(?%x)csts.tp: peek #2 got WM_ENDESSION", GetCurrentThreadId()); #endif TranslateMessage( &msg ); DispatchMessage( &msg ); } } ASSERT( pThis && IS_VALID_WRITE_PTR( pThis, CShellTaskScheduler )); // the task must have been suspended because a higher priority // task has been added to the queue..... (this only works if the // task supports the Suspend() method). if ( hr == E_PENDING && pTask && !fEmptyQueue ) { // put the task on the Suspended Queue .... pTask->fSuspended = TRUE; OBJECT_ENTER_CRITICAL_SECTION( pThis, m_csListLock ); int iIndex = InsertInPriorityOrder( pThis->m_hTaskList, pTask, TRUE ); OBJECT_LEAVE_CRITICAL_SECTION( pThis, m_csListLock ); if ( iIndex == -1 ) { // we are so low on memory, kill it... pTask->pTask->Kill( FALSE ); pTask->pTask->Release(); delete pTask; } pTask = NULL; } } } while ( TRUE ); TraceMsg(TF_SCHEDULER, "(?%x)ShellTaskScheduler::Thread Ended", GetCurrentThreadId()); SHCoUninitialize(hrInit); return 0; } STDMETHODIMP CShellTaskScheduler::Status( DWORD dwStatus, DWORD dwThreadTimeout ) { m_dwStatus = dwStatus & ITSSFLAG_FLAGS_MASK; if ( dwThreadTimeout != ITSS_THREAD_TIMEOUT_NO_CHANGE ) { /* * We don't support thread termination or pool timeout any more if ( dwStatus & ITSSFLAG_THREAD_TERMINATE_TIMEOUT ) { m_dwThreadRlsKillTimeout = dwThreadTimeout; } else if ( dwStatus & ITSSFLAG_THREAD_POOL_TIMEOUT ) { CShellTaskScheduler::s_dwComaTimeout = dwThreadTimeout; } */ } return NOERROR; } STDMETHODIMP_(UINT) CShellTaskScheduler::CountTasks(REFTASKOWNERID rtoid) { UINT iMatch = 0; BOOL fMatchAll = IsEqualGUID( TOID_NULL, rtoid ); ENTER_CRITICAL_SECTION( m_csListLock ); if ( fMatchAll ) { iMatch = DPA_GetPtrCount( m_hTaskList ); } else { int iIndex = 0; do { TaskNode * pNode = (TaskNode * )DPA_GetPtr( m_hTaskList, iIndex ++ ); if ( !pNode ) { break; } if ( IsEqualGUID( pNode->toid, rtoid )) { iMatch ++; } } while ( TRUE ); } if ( m_pRunning ) { if ( fMatchAll || IsEqualGUID( rtoid, m_pRunning->toid )) { iMatch ++; } } LEAVE_CRITICAL_SECTION( m_csListLock ); return iMatch; } //////////////////////////////////////////////////////////////////////////////////// int InsertInPriorityOrder( HDPA hTaskList, TaskNode * pNewNode, BOOL fStart ) { // routine assumes that we are thread safe, therfore grab the crit-section // prior to calling this function int iPos = -1; int iIndex = 0; do { TaskNode * pNode = (TaskNode *) DPA_GetPtr( hTaskList, iIndex ); if ( !pNode ) { break; } // the fStart allows us to either add it before other tasks of the same // priority or after. if ((( pNode->dwPriority < pNewNode->dwPriority ) && !fStart ) || (( pNode->dwPriority <= pNewNode->dwPriority ) && fStart )) { iPos = DPA_InsertPtr( hTaskList, iIndex, pNewNode ); break; } iIndex ++; } while ( TRUE ); if ( iPos == -1 ) { // add item to end of list... iPos = DPA_AppendPtr( hTaskList, pNewNode ); } return iPos; } CShellTaskScheduler::WorkerData * CShellTaskScheduler::FetchWorker() { WorkerData * pWorker = new WorkerData; if ( pWorker ) { // call to Shlwapi thread pool if ( pWorker->Init(this) && SHQueueUserWorkItem( (LPTHREAD_START_ROUTINE)CShellTaskScheduler_ThreadProc, pWorker, 0, (DWORD_PTR)NULL, (DWORD_PTR *)NULL, "browseui.dll", TPS_LONGEXECTIME | TPS_DEMANDTHREAD ) ) { return pWorker; } else delete pWorker; } return NULL; } // used by main thread proc to release its link the the task scheduler because it // has run out of things to do.... BOOL CShellTaskScheduler::ReleaseWorker( WorkerData * pWorker ) { ASSERT( pWorker && IS_VALID_WRITE_PTR( pWorker, WorkerData )); CShellTaskScheduler * pThis = pWorker->pThis; OBJECT_ASSERT_CRITICAL_SECTION( pThis, m_csListLock ); ASSERT( pWorker && IS_VALID_WRITE_PTR( pWorker, CShellTaskScheduler::WorkerData )); if ( DPA_GetPtrCount( pThis->m_hTaskList ) > 0 ) { // something was added to the queue at the last minute.... return FALSE; } // we assume we have entered the critsection of pThis pThis->m_pWorkerThread = NULL; pWorker->pThis = NULL; delete pWorker; return TRUE; } /////////////////////////////////////////////////////////////////////////////////////////////////////////// BOOL CShellTaskScheduler::WorkerData::Init(CShellTaskScheduler *pts) { pThis = pts; return TRUE; }