/**************************************************************************** ** ** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtCore module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the Technology Preview License Agreement accompanying ** this package. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qthread.h" #include "qplatformdefs.h" #include #include #include "qthreadstorage.h" #include "qthread_p.h" #include #include #include #include // You only find these enumerations on Symbian^3 onwards, so we need to provide our own // to remain compatible with older releases. They won't be called by pre-Sym^3 SDKs. // HALData::ENumCpus #define QT_HALData_ENumCpus 119 QT_BEGIN_NAMESPACE #ifndef QT_NO_THREAD enum { ThreadPriorityResetFlag = 0x80000000 }; // Utility functions for getting, setting and clearing thread specific data. static QThreadData *get_thread_data() { return reinterpret_cast(Dll::Tls()); } static void set_thread_data(QThreadData *data) { qt_symbian_throwIfError(Dll::SetTls(data)); } static void clear_thread_data() { Dll::FreeTls(); } static void init_symbian_thread_handle(RThread &thread) { thread = RThread(); TThreadId threadId = thread.Id(); qt_symbian_throwIfError(thread.Open(threadId, EOwnerProcess)); } QThreadData *QThreadData::current() { QThreadData *data = get_thread_data(); if (!data) { void *a; if (QInternal::activateCallbacks(QInternal::AdoptCurrentThread, &a)) { QThread *adopted = static_cast(a); Q_ASSERT(adopted); data = QThreadData::get2(adopted); set_thread_data(data); adopted->d_func()->running = true; adopted->d_func()->finished = false; static_cast(adopted)->init(); } else { data = new QThreadData; QT_TRY { set_thread_data(data); data->thread = new QAdoptedThread(data); } QT_CATCH(...) { clear_thread_data(); data->deref(); data = 0; QT_RETHROW; } data->deref(); } data->isAdopted = true; data->threadId = QThread::currentThreadId(); if (!QCoreApplicationPrivate::theMainThread) QCoreApplicationPrivate::theMainThread = data->thread; } return data; } class QCAdoptedThreadMonitor : public CActive { public: QCAdoptedThreadMonitor(QThread *thread) : CActive(EPriorityStandard), data(QThreadData::get2(thread)) { CActiveScheduler::Add(this); data->symbian_thread_handle.Logon(iStatus); SetActive(); } ~QCAdoptedThreadMonitor() { Cancel(); } void DoCancel() { data->symbian_thread_handle.LogonCancel(iStatus); } void RunL(); private: QThreadData* data; }; class QCAddAdoptedThread : public CActive { public: QCAddAdoptedThread() : CActive(EPriorityStandard) { CActiveScheduler::Add(this); } void ConstructL() { User::LeaveIfError(monitorThread.Open(RThread().Id())); start(); } ~QCAddAdoptedThread() { Cancel(); monitorThread.Close(); } void DoCancel() { User::RequestComplete(stat, KErrCancel); } void start() { iStatus = KRequestPending; SetActive(); stat = &iStatus; } void RunL() { if (iStatus.Int() != KErrNone) return; QMutexLocker adoptedThreadMonitorMutexlock(&adoptedThreadMonitorMutex); for (int i=threadsToAdd.size()-1; i>=0; i--) { // Create an active object to monitor the thread new (ELeave) QCAdoptedThreadMonitor(threadsToAdd[i]); count++; threadsToAdd.pop_back(); } start(); } static void add(QThread *thread) { QMutexLocker adoptedThreadMonitorMutexlock(&adoptedThreadMonitorMutex); if (!adoptedThreadAdder) { RThread monitorThread; qt_symbian_throwIfError(monitorThread.Create(KNullDesC(), &monitorThreadFunc, 1024, &User::Allocator(), 0)); TRequestStatus started; monitorThread.Rendezvous(started); monitorThread.Resume(); User::WaitForRequest(started); monitorThread.Close(); } if (RThread().Id() == adoptedThreadAdder->monitorThread.Id()) return; adoptedThreadAdder->threadsToAdd.push_back(thread); if (adoptedThreadAdder->stat) { adoptedThreadAdder->monitorThread.RequestComplete(adoptedThreadAdder->stat, KErrNone); } } static void monitorThreadFuncL() { CActiveScheduler* scheduler = new (ELeave) CActiveScheduler(); CleanupStack::PushL(scheduler); CActiveScheduler::Install(scheduler); adoptedThreadAdder = new(ELeave) QCAddAdoptedThread(); CleanupStack::PushL(adoptedThreadAdder); adoptedThreadAdder->ConstructL(); QCAddAdoptedThread *adder = adoptedThreadAdder; RThread::Rendezvous(KErrNone); CActiveScheduler::Start(); CleanupStack::PopAndDestroy(adder); CleanupStack::PopAndDestroy(scheduler); } static int monitorThreadFunc(void *) { _LIT(KMonitorThreadName, "adoptedMonitorThread"); RThread::RenameMe(KMonitorThreadName()); CTrapCleanup* cleanup = CTrapCleanup::New(); TRAPD(ret, monitorThreadFuncL()); delete cleanup; return ret; } static void threadDied() { QMutexLocker adoptedThreadMonitorMutexlock(&adoptedThreadMonitorMutex); if (adoptedThreadAdder) { adoptedThreadAdder->count--; if (adoptedThreadAdder->count <= 0 && adoptedThreadAdder->threadsToAdd.size() == 0) { CActiveScheduler::Stop(); adoptedThreadAdder = 0; } } } private: QVector threadsToAdd; RThread monitorThread; static QMutex adoptedThreadMonitorMutex; static QCAddAdoptedThread *adoptedThreadAdder; int count; TRequestStatus *stat; }; QMutex QCAddAdoptedThread::adoptedThreadMonitorMutex; QCAddAdoptedThread* QCAddAdoptedThread::adoptedThreadAdder = 0; void QCAdoptedThreadMonitor::RunL() { if (data->isAdopted) { QThread *thread = data->thread; Q_ASSERT(thread); QThreadPrivate *thread_p = static_cast(QObjectPrivate::get(thread)); Q_ASSERT(!thread_p->finished); thread_p->finish(thread); } data->deref(); QCAddAdoptedThread::threadDied(); delete this; } void QAdoptedThread::init() { Q_D(QThread); d->thread_id = RThread().Id(); // type operator to TUint init_symbian_thread_handle(d->data->symbian_thread_handle); QCAddAdoptedThread::add(this); } /* QThreadPrivate */ #if defined(Q_C_CALLBACKS) extern "C" { #endif typedef void*(*QtThreadCallback)(void*); #if defined(Q_C_CALLBACKS) } #endif #endif // QT_NO_THREAD void QThreadPrivate::createEventDispatcher(QThreadData *data) { data->eventDispatcher = new QEventDispatcherSymbian; data->eventDispatcher->startingUp(); } #ifndef QT_NO_THREAD void *QThreadPrivate::start(void *arg) { QThread *thr = reinterpret_cast(arg); QThreadData *data = QThreadData::get2(thr); // do we need to reset the thread priority? if (int(thr->d_func()->priority) & ThreadPriorityResetFlag) { thr->setPriority(QThread::Priority(thr->d_func()->priority & ~ThreadPriorityResetFlag)); } // On symbian, threads other than the main thread are non critical by default // This means a worker thread can crash without crashing the application - to // use this feature, we would need to use RThread::Logon in the main thread // to catch abnormal thread exit and emit the finished signal. // For the sake of cross platform consistency, we set the thread as process critical // - advanced users who want the symbian behaviour can change the critical // attribute of the thread again once the app gains control in run() User::SetCritical(User::EProcessCritical); data->threadId = QThread::currentThreadId(); set_thread_data(data); { QMutexLocker locker(&thr->d_func()->mutex); data->quitNow = thr->d_func()->exited; } // ### TODO: allow the user to create a custom event dispatcher createEventDispatcher(data); emit thr->started(); thr->run(); QThreadPrivate::finish(arg); return 0; } void QThreadPrivate::finish(void *arg, bool lockAnyway, bool closeNativeHandle) { QThread *thr = reinterpret_cast(arg); QThreadPrivate *d = thr->d_func(); QMutexLocker locker(lockAnyway ? &d->mutex : 0); d->isInFinish = true; d->priority = QThread::InheritPriority; bool terminated = d->terminated; void *data = &d->data->tls; locker.unlock(); if (terminated) emit thr->terminated(); emit thr->finished(); QCoreApplication::sendPostedEvents(0, QEvent::DeferredDelete); QThreadStorageData::finish((void **)data); locker.relock(); d->terminated = false; QAbstractEventDispatcher *eventDispatcher = d->data->eventDispatcher; if (eventDispatcher) { d->data->eventDispatcher = 0; locker.unlock(); eventDispatcher->closingDown(); delete eventDispatcher; locker.relock(); } d->thread_id = 0; if (closeNativeHandle) d->data->symbian_thread_handle.Close(); d->running = false; d->finished = true; d->isInFinish = false; d->thread_done.wakeAll(); } /************************************************************************** ** QThread *************************************************************************/ Qt::HANDLE QThread::currentThreadId() { return (Qt::HANDLE) (TUint) RThread().Id(); } int QThread::idealThreadCount() { int cores = 1; if (QSysInfo::symbianVersion() >= QSysInfo::SV_SF_3) { TInt inumcpus; TInt err; err = HAL::Get((HALData::TAttribute)QT_HALData_ENumCpus, inumcpus); if (err == KErrNone) { cores = qMax(inumcpus, 1); } } return cores; } void QThread::yieldCurrentThread() { sched_yield(); } /* \internal helper function to do thread sleeps */ static void thread_sleep(unsigned long remaining, unsigned long scale) { // maximum Symbian wait is 2^31 microseconds unsigned long maxWait = KMaxTInt / scale; do { unsigned long waitTime = qMin(maxWait, remaining); remaining -= waitTime; User::AfterHighRes(waitTime * scale); } while (remaining); } void QThread::sleep(unsigned long secs) { thread_sleep(secs, 1000000ul); } void QThread::msleep(unsigned long msecs) { thread_sleep(msecs, 1000ul); } void QThread::usleep(unsigned long usecs) { thread_sleep(usecs, 1ul); } TThreadPriority calculateSymbianPriority(QThread::Priority priority) { // Both Qt & Symbian use limited enums; this matches the mapping previously done through conversion to Posix granularity TThreadPriority symPriority; switch (priority) { case QThread::IdlePriority: symPriority = EPriorityMuchLess; break; case QThread::LowestPriority: case QThread::LowPriority: symPriority = EPriorityLess; break; case QThread::NormalPriority: symPriority = EPriorityNormal; break; case QThread::HighPriority: symPriority = EPriorityMore; break; case QThread::HighestPriority: case QThread::TimeCriticalPriority: symPriority = EPriorityMuchMore; break; case QThread::InheritPriority: default: symPriority = RThread().Priority(); break; } return symPriority; } void QThread::start(Priority priority) { Q_D(QThread); QMutexLocker locker(&d->mutex); if (d->isInFinish) d->thread_done.wait(locker.mutex()); if (d->running) return; d->running = true; d->finished = false; d->terminated = false; d->returnCode = 0; d->exited = false; d->priority = priority; if (d->stackSize == 0) // The default stack size on Symbian is very small, making even basic // operations like file I/O fail, so we increase it by default. d->stackSize = 0x14000; // Maximum stack size on Symbian. int code = d->data->symbian_thread_handle.Create(KNullDesC, (TThreadFunction) QThreadPrivate::start, d->stackSize, NULL, this); if (code == KErrNone) { d->thread_id = d->data->symbian_thread_handle.Id(); TThreadPriority symPriority = calculateSymbianPriority(priority); d->data->symbian_thread_handle.SetPriority(symPriority); d->data->symbian_thread_handle.Resume(); } else { qWarning("QThread::start: Thread creation error: %s", qPrintable(QSystemError(code, QSystemError::NativeError).toString())); d->running = false; d->finished = false; d->thread_id = 0; d->data->symbian_thread_handle.Close(); } } void QThread::terminate() { Q_D(QThread); QMutexLocker locker(&d->mutex); if (!d->thread_id) return; if (!d->running) return; if (!d->terminationEnabled) { d->terminatePending = true; return; } d->terminated = true; // "false, false" meaning: // 1. lockAnyway = false. Don't lock the mutex because it's already locked // (see above). // 2. closeNativeSymbianHandle = false. We don't want to close the thread handle, // because we need it here to terminate the thread. QThreadPrivate::finish(this, false, false); d->data->symbian_thread_handle.Terminate(KErrNone); d->data->symbian_thread_handle.Close(); } bool QThread::wait(unsigned long time) { Q_D(QThread); QMutexLocker locker(&d->mutex); if (d->thread_id == (TUint) RThread().Id()) { qWarning("QThread::wait: Thread tried to wait on itself"); return false; } if (d->finished || !d->running) return true; while (d->running) { // Check if thread still exists. Needed because kernel will kill it without notification // before global statics are deleted at application exit. if (d->data->symbian_thread_handle.Handle() && d->data->symbian_thread_handle.ExitType() != EExitPending) { // Cannot call finish here as wait is typically called from another thread. // It won't be necessary anyway, as we should never get here under normal operations; // all QThreads are EProcessCritical and therefore cannot normally exit // undetected (i.e. panic) as long as all thread control is via QThread. return true; } if (!d->thread_done.wait(locker.mutex(), time)) return false; } return true; } void QThread::setTerminationEnabled(bool enabled) { QThread *thr = currentThread(); Q_ASSERT_X(thr != 0, "QThread::setTerminationEnabled()", "Current thread was not started with QThread."); QThreadPrivate *d = thr->d_func(); QMutexLocker locker(&d->mutex); d->terminationEnabled = enabled; if (enabled && d->terminatePending) { d->terminated = true; // "false" meaning: // - lockAnyway = false. Don't lock the mutex because it's already locked // (see above). QThreadPrivate::finish(thr, false); locker.unlock(); // don't leave the mutex locked! User::Exit(0); // may be some other cleanup required? what if AS or cleanup stack? } } void QThread::setPriority(Priority priority) { Q_D(QThread); QMutexLocker locker(&d->mutex); if (!d->running) { qWarning("QThread::setPriority: Cannot set priority, thread is not running"); return; } d->priority = priority; // copied from start() with a few modifications: TThreadPriority symPriority = calculateSymbianPriority(priority); d->data->symbian_thread_handle.SetPriority(symPriority); } #endif // QT_NO_THREAD QT_END_NAMESPACE