/* * Copyright (C) 2008 Apple Inc. All Rights Reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY APPLE COMPUTER, INC. ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE COMPUTER, INC. OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ #include "config.h" #if ENABLE(WORKERS) #include "WorkerThread.h" #include "DedicatedWorkerContext.h" #include "KURL.h" #include "PlatformString.h" #include "ScriptSourceCode.h" #include "ScriptValue.h" #include "ThreadGlobalData.h" #include #include #if ENABLE(DATABASE) #include "DatabaseTask.h" #include "DatabaseTracker.h" #endif namespace WebCore { static Mutex& threadCountMutex() { AtomicallyInitializedStatic(Mutex&, mutex = *new Mutex); return mutex; } unsigned WorkerThread::m_threadCount = 0; unsigned WorkerThread::workerThreadCount() { MutexLocker lock(threadCountMutex()); return m_threadCount; } struct WorkerThreadStartupData { WTF_MAKE_NONCOPYABLE(WorkerThreadStartupData); WTF_MAKE_FAST_ALLOCATED; public: static PassOwnPtr create(const KURL& scriptURL, const String& userAgent, const String& sourceCode) { return new WorkerThreadStartupData(scriptURL, userAgent, sourceCode); } KURL m_scriptURL; String m_userAgent; String m_sourceCode; private: WorkerThreadStartupData(const KURL& scriptURL, const String& userAgent, const String& sourceCode); }; WorkerThreadStartupData::WorkerThreadStartupData(const KURL& scriptURL, const String& userAgent, const String& sourceCode) : m_scriptURL(scriptURL.copy()) , m_userAgent(userAgent.crossThreadString()) , m_sourceCode(sourceCode.crossThreadString()) { } WorkerThread::WorkerThread(const KURL& scriptURL, const String& userAgent, const String& sourceCode, WorkerLoaderProxy& workerLoaderProxy, WorkerReportingProxy& workerReportingProxy) : m_threadID(0) , m_workerLoaderProxy(workerLoaderProxy) , m_workerReportingProxy(workerReportingProxy) , m_startupData(WorkerThreadStartupData::create(scriptURL, userAgent, sourceCode)) { MutexLocker lock(threadCountMutex()); m_threadCount++; } WorkerThread::~WorkerThread() { MutexLocker lock(threadCountMutex()); ASSERT(m_threadCount > 0); m_threadCount--; } bool WorkerThread::start() { // Mutex protection is necessary to ensure that m_threadID is initialized when the thread starts. MutexLocker lock(m_threadCreationMutex); if (m_threadID) return true; m_threadID = createThread(WorkerThread::workerThreadStart, this, "WebCore: Worker"); return m_threadID; } void* WorkerThread::workerThreadStart(void* thread) { return static_cast(thread)->workerThread(); } void* WorkerThread::workerThread() { { MutexLocker lock(m_threadCreationMutex); m_workerContext = createWorkerContext(m_startupData->m_scriptURL, m_startupData->m_userAgent); if (m_runLoop.terminated()) { // The worker was terminated before the thread had a chance to run. Since the context didn't exist yet, // forbidExecution() couldn't be called from stop(). m_workerContext->script()->forbidExecution(); } } WorkerScriptController* script = m_workerContext->script(); script->evaluate(ScriptSourceCode(m_startupData->m_sourceCode, m_startupData->m_scriptURL)); // Free the startup data to cause its member variable deref's happen on the worker's thread (since // all ref/derefs of these objects are happening on the thread at this point). Note that // WorkerThread::~WorkerThread happens on a different thread where it was created. m_startupData.clear(); runEventLoop(); ThreadIdentifier threadID = m_threadID; ASSERT(m_workerContext->hasOneRef()); // The below assignment will destroy the context, which will in turn notify messaging proxy. // We cannot let any objects survive past thread exit, because no other thread will run GC or otherwise destroy them. m_workerContext = 0; // Clean up WebCore::ThreadGlobalData before WTF::WTFThreadData goes away! threadGlobalData().destroy(); // The thread object may be already destroyed from notification now, don't try to access "this". detachThread(threadID); return 0; } void WorkerThread::runEventLoop() { // Does not return until terminated. m_runLoop.run(m_workerContext.get()); } class WorkerThreadShutdownFinishTask : public ScriptExecutionContext::Task { public: static PassOwnPtr create() { return new WorkerThreadShutdownFinishTask(); } virtual void performTask(ScriptExecutionContext *context) { ASSERT(context->isWorkerContext()); WorkerContext* workerContext = static_cast(context); // It's not safe to call clearScript until all the cleanup tasks posted by functions initiated by WorkerThreadShutdownStartTask have completed. workerContext->clearScript(); workerContext->thread()->runLoop().terminate(); } virtual bool isCleanupTask() const { return true; } }; class WorkerThreadShutdownStartTask : public ScriptExecutionContext::Task { public: static PassOwnPtr create() { return new WorkerThreadShutdownStartTask(); } virtual void performTask(ScriptExecutionContext *context) { ASSERT(context->isWorkerContext()); WorkerContext* workerContext = static_cast(context); #if ENABLE(DATABASE) DatabaseTaskSynchronizer cleanupSync; workerContext->stopDatabases(&cleanupSync); #endif workerContext->stopActiveDOMObjects(); workerContext->notifyObserversOfStop(); // Event listeners would keep DOMWrapperWorld objects alive for too long. Also, they have references to JS objects, // which become dangling once Heap is destroyed. workerContext->removeAllEventListeners(); #if ENABLE(DATABASE) // We wait for the database thread to clean up all its stuff so that we // can do more stringent leak checks as we exit. cleanupSync.waitForTaskCompletion(); #endif // Stick a shutdown command at the end of the queue, so that we deal // with all the cleanup tasks the databases post first. workerContext->postTask(WorkerThreadShutdownFinishTask::create()); } virtual bool isCleanupTask() const { return true; } }; void WorkerThread::stop() { // Mutex protection is necessary because stop() can be called before the context is fully created. MutexLocker lock(m_threadCreationMutex); // Ensure that tasks are being handled by thread event loop. If script execution weren't forbidden, a while(1) loop in JS could keep the thread alive forever. if (m_workerContext) { m_workerContext->script()->scheduleExecutionTermination(); #if ENABLE(DATABASE) DatabaseTracker::tracker().interruptAllDatabasesForContext(m_workerContext.get()); #endif // FIXME: Rudely killing the thread won't work when we allow nested workers, because they will try to post notifications of their destruction. // This can likely use the same mechanism as used for databases above. m_runLoop.postTask(WorkerThreadShutdownStartTask::create()); } else m_runLoop.terminate(); } } // namespace WebCore #endif // ENABLE(WORKERS)