/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* 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 "GMPPlatform.h" #include "GMPStorageChild.h" #include "GMPTimerChild.h" #include "mozilla/Monitor.h" #include "GMPChild.h" #include "mozilla/Mutex.h" #include "base/thread.h" #include "base/time.h" #include "mozilla/ReentrantMonitor.h" #include namespace mozilla::gmp { static MessageLoop* sMainLoop = nullptr; static GMPChild* sChild = nullptr; static bool IsOnChildMainThread() { return sMainLoop && sMainLoop == MessageLoop::current(); } // We just need a refcounted wrapper for GMPTask objects. class GMPRunnable final { public: NS_INLINE_DECL_THREADSAFE_REFCOUNTING(GMPRunnable) explicit GMPRunnable(GMPTask* aTask) : mTask(aTask) { MOZ_ASSERT(mTask); } void Run() { mTask->Run(); mTask->Destroy(); mTask = nullptr; } private: ~GMPRunnable() = default; GMPTask* mTask; }; class GMPSyncRunnable final { public: NS_INLINE_DECL_THREADSAFE_REFCOUNTING(GMPSyncRunnable) GMPSyncRunnable(GMPTask* aTask, MessageLoop* aMessageLoop) : mDone(false), mTask(aTask), mMessageLoop(aMessageLoop), mMonitor("GMPSyncRunnable") { MOZ_ASSERT(mTask); MOZ_ASSERT(mMessageLoop); } void Post() { // We assert here for two reasons. // 1) Nobody should be blocking the main thread. // 2) This prevents deadlocks when doing sync calls to main which if the // main thread tries to do a sync call back to the calling thread. MOZ_ASSERT(!IsOnChildMainThread()); mMessageLoop->PostTask(NewRunnableMethod("gmp::GMPSyncRunnable::Run", this, &GMPSyncRunnable::Run)); MonitorAutoLock lock(mMonitor); while (!mDone) { lock.Wait(); } } void Run() { mTask->Run(); mTask->Destroy(); mTask = nullptr; MonitorAutoLock lock(mMonitor); mDone = true; lock.Notify(); } private: ~GMPSyncRunnable() = default; bool mDone; GMPTask* mTask; MessageLoop* mMessageLoop; Monitor mMonitor MOZ_UNANNOTATED; }; class GMPThreadImpl : public GMPThread { public: GMPThreadImpl(); virtual ~GMPThreadImpl(); // GMPThread void Post(GMPTask* aTask) override; void Join() override; private: Mutex mMutex MOZ_UNANNOTATED; base::Thread mThread; }; GMPErr CreateThread(GMPThread** aThread) { if (!aThread) { return GMPGenericErr; } *aThread = new GMPThreadImpl(); return GMPNoErr; } GMPErr RunOnMainThread(GMPTask* aTask) { if (!aTask || !sMainLoop) { return GMPGenericErr; } RefPtr r = new GMPRunnable(aTask); sMainLoop->PostTask( NewRunnableMethod("gmp::GMPRunnable::Run", r, &GMPRunnable::Run)); return GMPNoErr; } GMPErr SyncRunOnMainThread(GMPTask* aTask) { if (!aTask || !sMainLoop || IsOnChildMainThread()) { return GMPGenericErr; } RefPtr r = new GMPSyncRunnable(aTask, sMainLoop); r->Post(); return GMPNoErr; } class GMPMutexImpl : public GMPMutex { public: GMPMutexImpl(); virtual ~GMPMutexImpl(); // GMPMutex void Acquire() override; void Release() override; void Destroy() override; private: ReentrantMonitor mMonitor MOZ_UNANNOTATED; }; GMPErr CreateMutex(GMPMutex** aMutex) { if (!aMutex) { return GMPGenericErr; } *aMutex = new GMPMutexImpl(); return GMPNoErr; } GMPErr CreateRecord(const char* aRecordName, uint32_t aRecordNameSize, GMPRecord** aOutRecord, GMPRecordClient* aClient) { if (aRecordNameSize > GMP_MAX_RECORD_NAME_SIZE || aRecordNameSize == 0) { NS_WARNING("GMP tried to CreateRecord with too long or 0 record name"); return GMPGenericErr; } GMPStorageChild* storage = sChild->GetGMPStorage(); if (!storage) { return GMPGenericErr; } MOZ_ASSERT(storage); return storage->CreateRecord(nsDependentCString(aRecordName, aRecordNameSize), aOutRecord, aClient); } GMPErr SetTimerOnMainThread(GMPTask* aTask, int64_t aTimeoutMS) { if (!aTask || !sMainLoop || !IsOnChildMainThread()) { return GMPGenericErr; } GMPTimerChild* timers = sChild->GetGMPTimers(); NS_ENSURE_TRUE(timers, GMPGenericErr); return timers->SetTimer(aTask, aTimeoutMS); } GMPErr GetClock(GMPTimestamp* aOutTime) { if (!aOutTime) { return GMPGenericErr; } *aOutTime = base::Time::Now().ToDoubleT() * 1000.0; return GMPNoErr; } void InitPlatformAPI(GMPPlatformAPI& aPlatformAPI, GMPChild* aChild) { if (!sMainLoop) { sMainLoop = MessageLoop::current(); } if (!sChild) { sChild = aChild; } aPlatformAPI.version = 0; aPlatformAPI.createthread = &CreateThread; aPlatformAPI.runonmainthread = &RunOnMainThread; aPlatformAPI.syncrunonmainthread = &SyncRunOnMainThread; aPlatformAPI.createmutex = &CreateMutex; aPlatformAPI.createrecord = &CreateRecord; aPlatformAPI.settimer = &SetTimerOnMainThread; aPlatformAPI.getcurrenttime = &GetClock; } void SendFOGData(ipc::ByteBuf&& buf) { if (sChild) { sChild->SendFOGData(std::move(buf)); } } GMPThreadImpl::GMPThreadImpl() : mMutex("GMPThreadImpl"), mThread("GMPThread") { MOZ_COUNT_CTOR(GMPThread); } GMPThreadImpl::~GMPThreadImpl() { MOZ_COUNT_DTOR(GMPThread); } void GMPThreadImpl::Post(GMPTask* aTask) { MutexAutoLock lock(mMutex); if (!mThread.IsRunning()) { bool started = mThread.Start(); if (!started) { NS_WARNING("Unable to start GMPThread!"); return; } } RefPtr r = new GMPRunnable(aTask); mThread.message_loop()->PostTask( NewRunnableMethod("gmp::GMPRunnable::Run", r.get(), &GMPRunnable::Run)); } void GMPThreadImpl::Join() { { MutexAutoLock lock(mMutex); if (mThread.IsRunning()) { mThread.Stop(); } } delete this; } GMPMutexImpl::GMPMutexImpl() : mMonitor("gmp-mutex") { MOZ_COUNT_CTOR(GMPMutexImpl); } GMPMutexImpl::~GMPMutexImpl() { MOZ_COUNT_DTOR(GMPMutexImpl); } void GMPMutexImpl::Destroy() { delete this; } MOZ_PUSH_IGNORE_THREAD_SAFETY void GMPMutexImpl::Acquire() { mMonitor.Enter(); } void GMPMutexImpl::Release() { mMonitor.Exit(); } MOZ_POP_THREAD_SAFETY GMPTask* NewGMPTask(std::function&& aFunction) { class Task : public GMPTask { public: explicit Task(std::function&& aFunction) : mFunction(std::move(aFunction)) {} void Destroy() override { delete this; } ~Task() override = default; void Run() override { mFunction(); } private: std::function mFunction; }; return new Task(std::move(aFunction)); } } // namespace mozilla::gmp