/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim:set ts=2 sw=2 sts=2 et cindent: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "nsIClassInfoImpl.h" #include "nsThreadPool.h" #include "nsThreadManager.h" #include "nsThread.h" #include "nsMemory.h" #include "nsAutoPtr.h" #include "prinrval.h" #include "prlog.h" using namespace mozilla; #ifdef PR_LOGGING static PRLogModuleInfo * GetThreadPoolLog() { static PRLogModuleInfo *sLog; if (!sLog) sLog = PR_NewLogModule("nsThreadPool"); return sLog; } #endif #ifdef LOG #undef LOG #endif #define LOG(args) PR_LOG(GetThreadPoolLog(), PR_LOG_DEBUG, args) // DESIGN: // o Allocate anonymous threads. // o Use nsThreadPool::Run as the main routine for each thread. // o Each thread waits on the event queue's monitor, checking for // pending events and rescheduling itself as an idle thread. #define DEFAULT_THREAD_LIMIT 4 #define DEFAULT_IDLE_THREAD_LIMIT 1 #define DEFAULT_IDLE_THREAD_TIMEOUT PR_SecondsToInterval(60) NS_IMPL_ADDREF(nsThreadPool) NS_IMPL_RELEASE(nsThreadPool) NS_IMPL_CLASSINFO(nsThreadPool, nullptr, nsIClassInfo::THREADSAFE, NS_THREADPOOL_CID) NS_IMPL_QUERY_INTERFACE_CI(nsThreadPool, nsIThreadPool, nsIEventTarget, nsIRunnable) NS_IMPL_CI_INTERFACE_GETTER(nsThreadPool, nsIThreadPool, nsIEventTarget) nsThreadPool::nsThreadPool() : mThreadLimit(DEFAULT_THREAD_LIMIT) , mIdleThreadLimit(DEFAULT_IDLE_THREAD_LIMIT) , mIdleThreadTimeout(DEFAULT_IDLE_THREAD_TIMEOUT) , mIdleCount(0) , mStackSize(nsIThreadManager::DEFAULT_STACK_SIZE) , mShutdown(false) { } nsThreadPool::~nsThreadPool() { // Threads keep a reference to the nsThreadPool until they return from Run() // after removing themselves from mThreads. MOZ_ASSERT(mThreads.IsEmpty()); } nsresult nsThreadPool::PutEvent(nsIRunnable *event) { // Avoid spawning a new thread while holding the event queue lock... bool spawnThread = false; uint32_t stackSize = 0; { ReentrantMonitorAutoEnter mon(mEvents.GetReentrantMonitor()); LOG(("THRD-P(%p) put [%d %d %d]\n", this, mIdleCount, mThreads.Count(), mThreadLimit)); MOZ_ASSERT(mIdleCount <= (uint32_t) mThreads.Count(), "oops"); // Make sure we have a thread to service this event. if (mIdleCount == 0 && mThreads.Count() < (int32_t) mThreadLimit) spawnThread = true; mEvents.PutEvent(event); stackSize = mStackSize; } LOG(("THRD-P(%p) put [spawn=%d]\n", this, spawnThread)); if (!spawnThread) return NS_OK; nsCOMPtr thread; nsThreadManager::get()->NewThread(0, stackSize, getter_AddRefs(thread)); if (NS_WARN_IF(!thread)) return NS_ERROR_UNEXPECTED; bool killThread = false; { ReentrantMonitorAutoEnter mon(mEvents.GetReentrantMonitor()); if (mThreads.Count() < (int32_t) mThreadLimit) { mThreads.AppendObject(thread); } else { killThread = true; // okay, we don't need this thread anymore } } LOG(("THRD-P(%p) put [%p kill=%d]\n", this, thread.get(), killThread)); if (killThread) { // Pending events are processed on the current thread during // nsIThread::Shutdown() execution, so if nsThreadPool::Dispatch() is called // under caller's lock then deadlock could occur. This happens e.g. in case // of nsStreamCopier. To prevent this situation, dispatch a shutdown event // to the current thread instead of calling nsIThread::Shutdown() directly. nsRefPtr r = NS_NewRunnableMethod(thread, &nsIThread::Shutdown); NS_DispatchToCurrentThread(r); } else { thread->Dispatch(this, NS_DISPATCH_NORMAL); } return NS_OK; } void nsThreadPool::ShutdownThread(nsIThread *thread) { LOG(("THRD-P(%p) shutdown async [%p]\n", this, thread)); // This method is responsible for calling Shutdown on |thread|. This must be // done from some other thread, so we use the main thread of the application. MOZ_ASSERT(!NS_IsMainThread(), "wrong thread"); nsRefPtr r = NS_NewRunnableMethod(thread, &nsIThread::Shutdown); NS_DispatchToMainThread(r); } NS_IMETHODIMP nsThreadPool::Run() { LOG(("THRD-P(%p) enter\n", this)); mThreadNaming.SetThreadPoolName(mName); nsCOMPtr current; nsThreadManager::get()->GetCurrentThread(getter_AddRefs(current)); bool shutdownThreadOnExit = false; bool exitThread = false; bool wasIdle = false; PRIntervalTime idleSince; nsCOMPtr listener; { ReentrantMonitorAutoEnter mon(mEvents.GetReentrantMonitor()); listener = mListener; } if (listener) { listener->OnThreadCreated(); } do { nsCOMPtr event; { ReentrantMonitorAutoEnter mon(mEvents.GetReentrantMonitor()); if (!mEvents.GetPendingEvent(getter_AddRefs(event))) { PRIntervalTime now = PR_IntervalNow(); PRIntervalTime timeout = PR_MillisecondsToInterval(mIdleThreadTimeout); // If we are shutting down, then don't keep any idle threads if (mShutdown) { exitThread = true; } else { if (wasIdle) { // if too many idle threads or idle for too long, then bail. if (mIdleCount > mIdleThreadLimit || (now - idleSince) >= timeout) exitThread = true; } else { // if would be too many idle threads... if (mIdleCount == mIdleThreadLimit) { exitThread = true; } else { ++mIdleCount; idleSince = now; wasIdle = true; } } } if (exitThread) { if (wasIdle) --mIdleCount; shutdownThreadOnExit = mThreads.RemoveObject(current); } else { PRIntervalTime delta = timeout - (now - idleSince); LOG(("THRD-P(%p) waiting [%d]\n", this, delta)); mon.Wait(delta); } } else if (wasIdle) { wasIdle = false; --mIdleCount; } } if (event) { LOG(("THRD-P(%p) running [%p]\n", this, event.get())); event->Run(); } } while (!exitThread); if (listener) { listener->OnThreadShuttingDown(); } if (shutdownThreadOnExit) { ShutdownThread(current); } LOG(("THRD-P(%p) leave\n", this)); return NS_OK; } NS_IMETHODIMP nsThreadPool::Dispatch(nsIRunnable *event, uint32_t flags) { LOG(("THRD-P(%p) dispatch [%p %x]\n", this, event, flags)); if (NS_WARN_IF(mShutdown)) return NS_ERROR_NOT_AVAILABLE; if (flags & DISPATCH_SYNC) { nsCOMPtr thread; nsThreadManager::get()->GetCurrentThread(getter_AddRefs(thread)); if (NS_WARN_IF(!thread)) return NS_ERROR_NOT_AVAILABLE; nsRefPtr wrapper = new nsThreadSyncDispatch(thread, event); PutEvent(wrapper); while (wrapper->IsPending()) NS_ProcessNextEvent(thread); } else { NS_ASSERTION(flags == NS_DISPATCH_NORMAL, "unexpected dispatch flags"); PutEvent(event); } return NS_OK; } NS_IMETHODIMP nsThreadPool::IsOnCurrentThread(bool *result) { ReentrantMonitorAutoEnter mon(mEvents.GetReentrantMonitor()); nsIThread* thread = NS_GetCurrentThread(); for (uint32_t i = 0; i < static_cast(mThreads.Count()); ++i) { if (mThreads[i] == thread) { *result = true; return NS_OK; } } *result = false; return NS_OK; } NS_IMETHODIMP nsThreadPool::Shutdown() { nsCOMArray threads; nsCOMPtr listener; { ReentrantMonitorAutoEnter mon(mEvents.GetReentrantMonitor()); mShutdown = true; mon.NotifyAll(); threads.AppendObjects(mThreads); mThreads.Clear(); // Swap in a null listener so that we release the listener at the end of // this method. The listener will be kept alive as long as the other threads // that were created when it was set. mListener.swap(listener); } // It's important that we shutdown the threads while outside the event queue // monitor. Otherwise, we could end up dead-locking. for (int32_t i = 0; i < threads.Count(); ++i) threads[i]->Shutdown(); return NS_OK; } NS_IMETHODIMP nsThreadPool::GetThreadLimit(uint32_t *value) { *value = mThreadLimit; return NS_OK; } NS_IMETHODIMP nsThreadPool::SetThreadLimit(uint32_t value) { ReentrantMonitorAutoEnter mon(mEvents.GetReentrantMonitor()); mThreadLimit = value; if (mIdleThreadLimit > mThreadLimit) mIdleThreadLimit = mThreadLimit; if (static_cast(mThreads.Count()) > mThreadLimit) { mon.NotifyAll(); // wake up threads so they observe this change } return NS_OK; } NS_IMETHODIMP nsThreadPool::GetIdleThreadLimit(uint32_t *value) { *value = mIdleThreadLimit; return NS_OK; } NS_IMETHODIMP nsThreadPool::SetIdleThreadLimit(uint32_t value) { ReentrantMonitorAutoEnter mon(mEvents.GetReentrantMonitor()); mIdleThreadLimit = value; if (mIdleThreadLimit > mThreadLimit) mIdleThreadLimit = mThreadLimit; // Do we need to kill some idle threads? if (mIdleCount > mIdleThreadLimit) { mon.NotifyAll(); // wake up threads so they observe this change } return NS_OK; } NS_IMETHODIMP nsThreadPool::GetIdleThreadTimeout(uint32_t *value) { *value = mIdleThreadTimeout; return NS_OK; } NS_IMETHODIMP nsThreadPool::SetIdleThreadTimeout(uint32_t value) { ReentrantMonitorAutoEnter mon(mEvents.GetReentrantMonitor()); uint32_t oldTimeout = mIdleThreadTimeout; mIdleThreadTimeout = value; // Do we need to notify any idle threads that their sleep time has shortened? if (mIdleThreadTimeout < oldTimeout && mIdleCount > 0) { mon.NotifyAll(); // wake up threads so they observe this change } return NS_OK; } NS_IMETHODIMP nsThreadPool::GetThreadStackSize(uint32_t* value) { ReentrantMonitorAutoEnter mon(mEvents.GetReentrantMonitor()); *value = mStackSize; return NS_OK; } NS_IMETHODIMP nsThreadPool::SetThreadStackSize(uint32_t value) { ReentrantMonitorAutoEnter mon(mEvents.GetReentrantMonitor()); mStackSize = value; return NS_OK; } NS_IMETHODIMP nsThreadPool::GetListener(nsIThreadPoolListener** aListener) { ReentrantMonitorAutoEnter mon(mEvents.GetReentrantMonitor()); NS_IF_ADDREF(*aListener = mListener); return NS_OK; } NS_IMETHODIMP nsThreadPool::SetListener(nsIThreadPoolListener* aListener) { nsCOMPtr swappedListener(aListener); { ReentrantMonitorAutoEnter mon(mEvents.GetReentrantMonitor()); mListener.swap(swappedListener); } return NS_OK; } NS_IMETHODIMP nsThreadPool::SetName(const nsACString& aName) { { ReentrantMonitorAutoEnter mon(mEvents.GetReentrantMonitor()); if (mThreads.Count()) return NS_ERROR_NOT_AVAILABLE; } mName = aName; return NS_OK; }