/* -*- 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 "nsThreadManager.h" #include "nsThread.h" #include "nsThreadUtils.h" #include "nsIClassInfoImpl.h" #include "nsTArray.h" #include "nsAutoPtr.h" #include "nsCycleCollectorUtils.h" using namespace mozilla; #ifdef XP_WIN #include DWORD gTLSThreadIDIndex = TlsAlloc(); #elif defined(NS_TLS) NS_TLS mozilla::threads::ID gTLSThreadID = mozilla::threads::Generic; #endif typedef nsTArray< nsRefPtr > nsThreadArray; //----------------------------------------------------------------------------- static void ReleaseObject(void *data) { static_cast(data)->Release(); } static PLDHashOperator AppendAndRemoveThread(PRThread *key, nsRefPtr &thread, void *arg) { nsThreadArray *threads = static_cast(arg); threads->AppendElement(thread); return PL_DHASH_REMOVE; } //----------------------------------------------------------------------------- nsThreadManager nsThreadManager::sInstance; // statically allocated instance NS_IMETHODIMP_(nsrefcnt) nsThreadManager::AddRef() { return 2; } NS_IMETHODIMP_(nsrefcnt) nsThreadManager::Release() { return 1; } NS_IMPL_CLASSINFO(nsThreadManager, NULL, nsIClassInfo::THREADSAFE | nsIClassInfo::SINGLETON, NS_THREADMANAGER_CID) NS_IMPL_QUERY_INTERFACE1_CI(nsThreadManager, nsIThreadManager) NS_IMPL_CI_INTERFACE_GETTER1(nsThreadManager, nsIThreadManager) //----------------------------------------------------------------------------- nsresult nsThreadManager::Init() { mThreadsByPRThread.Init(); if (PR_NewThreadPrivateIndex(&mCurThreadIndex, ReleaseObject) == PR_FAILURE) return NS_ERROR_FAILURE; mLock = new Mutex("nsThreadManager.mLock"); // Setup "main" thread mMainThread = new nsThread(nsThread::MAIN_THREAD, 0); if (!mMainThread) return NS_ERROR_OUT_OF_MEMORY; nsresult rv = mMainThread->InitCurrentThread(); if (NS_FAILED(rv)) { mMainThread = nullptr; return rv; } // We need to keep a pointer to the current thread, so we can satisfy // GetIsMainThread calls that occur post-Shutdown. mMainThread->GetPRThread(&mMainPRThread); #ifdef XP_WIN TlsSetValue(gTLSThreadIDIndex, (void*) mozilla::threads::Main); #elif defined(NS_TLS) gTLSThreadID = mozilla::threads::Main; #endif mInitialized = true; return NS_OK; } void nsThreadManager::Shutdown() { MOZ_ASSERT(NS_IsMainThread(), "shutdown not called from main thread"); // Prevent further access to the thread manager (no more new threads!) // // XXX What happens if shutdown happens before NewThread completes? // Fortunately, NewThread is only called on the main thread for now. // mInitialized = false; // Empty the main thread event queue before we begin shutting down threads. NS_ProcessPendingEvents(mMainThread); // We gather the threads from the hashtable into a list, so that we avoid // holding the hashtable lock while calling nsIThread::Shutdown. nsThreadArray threads; { MutexAutoLock lock(*mLock); mThreadsByPRThread.Enumerate(AppendAndRemoveThread, &threads); } // It's tempting to walk the list of threads here and tell them each to stop // accepting new events, but that could lead to badness if one of those // threads is stuck waiting for a response from another thread. To do it // right, we'd need some way to interrupt the threads. // // Instead, we process events on the current thread while waiting for threads // to shutdown. This means that we have to preserve a mostly functioning // world until such time as the threads exit. // Shutdown all threads that require it (join with threads that we created). for (uint32_t i = 0; i < threads.Length(); ++i) { nsThread *thread = threads[i]; if (thread->ShutdownRequired()) thread->Shutdown(); } // In case there are any more events somehow... NS_ProcessPendingEvents(mMainThread); // There are no more background threads at this point. // Clear the table of threads. { MutexAutoLock lock(*mLock); mThreadsByPRThread.Clear(); } // Normally thread shutdown clears the observer for the thread, but since the // main thread is special we do it manually here after we're sure all events // have been processed. mMainThread->SetObserver(nullptr); mMainThread->ClearObservers(); // Release main thread object. mMainThread = nullptr; mLock = nullptr; // Remove the TLS entry for the main thread. PR_SetThreadPrivate(mCurThreadIndex, nullptr); } void nsThreadManager::RegisterCurrentThread(nsThread *thread) { MOZ_ASSERT(thread->GetPRThread() == PR_GetCurrentThread(), "bad thread"); MutexAutoLock lock(*mLock); ++mCurrentNumberOfThreads; if (mCurrentNumberOfThreads > mHighestNumberOfThreads) { mHighestNumberOfThreads = mCurrentNumberOfThreads; } mThreadsByPRThread.Put(thread->GetPRThread(), thread); // XXX check OOM? NS_ADDREF(thread); // for TLS entry PR_SetThreadPrivate(mCurThreadIndex, thread); } void nsThreadManager::UnregisterCurrentThread(nsThread *thread) { MOZ_ASSERT(thread->GetPRThread() == PR_GetCurrentThread(), "bad thread"); MutexAutoLock lock(*mLock); --mCurrentNumberOfThreads; mThreadsByPRThread.Remove(thread->GetPRThread()); PR_SetThreadPrivate(mCurThreadIndex, nullptr); // Ref-count balanced via ReleaseObject } nsThread * nsThreadManager::GetCurrentThread() { // read thread local storage void *data = PR_GetThreadPrivate(mCurThreadIndex); if (data) return static_cast(data); if (!mInitialized) { return nullptr; } // OK, that's fine. We'll dynamically create one :-) nsRefPtr thread = new nsThread(nsThread::NOT_MAIN_THREAD, 0); if (!thread || NS_FAILED(thread->InitCurrentThread())) return nullptr; return thread.get(); // reference held in TLS } NS_IMETHODIMP nsThreadManager::NewThread(uint32_t creationFlags, uint32_t stackSize, nsIThread **result) { // No new threads during Shutdown NS_ENSURE_TRUE(mInitialized, NS_ERROR_NOT_INITIALIZED); nsThread *thr = new nsThread(nsThread::NOT_MAIN_THREAD, stackSize); if (!thr) return NS_ERROR_OUT_OF_MEMORY; NS_ADDREF(thr); nsresult rv = thr->Init(); if (NS_FAILED(rv)) { NS_RELEASE(thr); return rv; } // At this point, we expect that the thread has been registered in mThread; // however, it is possible that it could have also been replaced by now, so // we cannot really assert that it was added. *result = thr; return NS_OK; } NS_IMETHODIMP nsThreadManager::GetThreadFromPRThread(PRThread *thread, nsIThread **result) { // Keep this functioning during Shutdown NS_ENSURE_TRUE(mMainThread, NS_ERROR_NOT_INITIALIZED); NS_ENSURE_ARG_POINTER(thread); nsRefPtr temp; { MutexAutoLock lock(*mLock); mThreadsByPRThread.Get(thread, getter_AddRefs(temp)); } NS_IF_ADDREF(*result = temp); return NS_OK; } NS_IMETHODIMP nsThreadManager::GetMainThread(nsIThread **result) { // Keep this functioning during Shutdown NS_ENSURE_TRUE(mMainThread, NS_ERROR_NOT_INITIALIZED); NS_ADDREF(*result = mMainThread); return NS_OK; } NS_IMETHODIMP nsThreadManager::GetCurrentThread(nsIThread **result) { // Keep this functioning during Shutdown NS_ENSURE_TRUE(mMainThread, NS_ERROR_NOT_INITIALIZED); *result = GetCurrentThread(); if (!*result) return NS_ERROR_OUT_OF_MEMORY; NS_ADDREF(*result); return NS_OK; } NS_IMETHODIMP nsThreadManager::GetIsMainThread(bool *result) { // This method may be called post-Shutdown *result = (PR_GetCurrentThread() == mMainPRThread); return NS_OK; } NS_IMETHODIMP nsThreadManager::GetIsCycleCollectorThread(bool *result) { *result = bool(NS_IsCycleCollectorThread()); return NS_OK; } uint32_t nsThreadManager::GetHighestNumberOfThreads() { MutexAutoLock lock(*mLock); return mHighestNumberOfThreads; }