/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* 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 "nsThreadUtils.h" #include "chrome/common/ipc_message.h" // for IPC::Message #include "LeakRefPtr.h" #include "mozilla/Attributes.h" #include "mozilla/Likely.h" #include "mozilla/TimeStamp.h" #include "nsComponentManagerUtils.h" #include "nsExceptionHandler.h" #include "nsITimer.h" #include "nsTimerImpl.h" #include "prsystem.h" #ifdef MOZILLA_INTERNAL_API # include "nsThreadManager.h" #else # include "nsIThreadManager.h" # include "nsServiceManagerUtils.h" # include "nsXPCOMCIDInternal.h" #endif #ifdef XP_WIN # include #elif defined(XP_MACOSX) # include #endif #if defined(ANDROID) # include #endif static mozilla::LazyLogModule sEventDispatchAndRunLog("events"); #ifdef LOG1 # undef LOG1 #endif #define LOG1(args) \ MOZ_LOG(sEventDispatchAndRunLog, mozilla::LogLevel::Error, args) #define LOG1_ENABLED() \ MOZ_LOG_TEST(sEventDispatchAndRunLog, mozilla::LogLevel::Error) using namespace mozilla; NS_IMPL_ISUPPORTS(TailDispatchingTarget, nsIEventTarget, nsISerialEventTarget) #ifndef XPCOM_GLUE_AVOID_NSPR NS_IMPL_ISUPPORTS(IdlePeriod, nsIIdlePeriod) NS_IMETHODIMP IdlePeriod::GetIdlePeriodHint(TimeStamp* aIdleDeadline) { *aIdleDeadline = TimeStamp(); return NS_OK; } // NS_IMPL_NAMED_* relies on the mName field, which is not present on // release or beta. Instead, fall back to using "Runnable" for all // runnables. # ifndef MOZ_COLLECTING_RUNNABLE_TELEMETRY NS_IMPL_ISUPPORTS(Runnable, nsIRunnable) # else NS_IMPL_NAMED_ADDREF(Runnable, mName) NS_IMPL_NAMED_RELEASE(Runnable, mName) NS_IMPL_QUERY_INTERFACE(Runnable, nsIRunnable, nsINamed) # endif NS_IMETHODIMP Runnable::Run() { // Do nothing return NS_OK; } # ifdef MOZ_COLLECTING_RUNNABLE_TELEMETRY NS_IMETHODIMP Runnable::GetName(nsACString& aName) { if (mName) { aName.AssignASCII(mName); } else { aName.Truncate(); } return NS_OK; } # endif NS_IMPL_ISUPPORTS_INHERITED(DiscardableRunnable, Runnable, nsIDiscardableRunnable) NS_IMPL_ISUPPORTS_INHERITED(CancelableRunnable, DiscardableRunnable, nsICancelableRunnable) void CancelableRunnable::OnDiscard() { // Tasks that implement Cancel() can be safely cleaned up if it turns out // that the task will not run. (void)NS_WARN_IF(NS_FAILED(Cancel())); } NS_IMPL_ISUPPORTS_INHERITED(IdleRunnable, DiscardableRunnable, nsIIdleRunnable) NS_IMPL_ISUPPORTS_INHERITED(CancelableIdleRunnable, CancelableRunnable, nsIIdleRunnable) NS_IMPL_ISUPPORTS_INHERITED(PrioritizableRunnable, Runnable, nsIRunnablePriority) PrioritizableRunnable::PrioritizableRunnable( already_AddRefed&& aRunnable, uint32_t aPriority) // Real runnable name is managed by overridding the GetName function. : Runnable("PrioritizableRunnable"), mRunnable(std::move(aRunnable)), mPriority(aPriority) { # if DEBUG nsCOMPtr runnablePrio = do_QueryInterface(mRunnable); MOZ_ASSERT(!runnablePrio); # endif } # ifdef MOZ_COLLECTING_RUNNABLE_TELEMETRY NS_IMETHODIMP PrioritizableRunnable::GetName(nsACString& aName) { // Try to get a name from the underlying runnable. nsCOMPtr named = do_QueryInterface(mRunnable); if (named) { named->GetName(aName); } return NS_OK; } # endif NS_IMETHODIMP PrioritizableRunnable::Run() { MOZ_RELEASE_ASSERT(NS_IsMainThread()); return mRunnable->Run(); } NS_IMETHODIMP PrioritizableRunnable::GetPriority(uint32_t* aPriority) { *aPriority = mPriority; return NS_OK; } already_AddRefed mozilla::CreateMediumHighRunnable( already_AddRefed&& aRunnable) { nsCOMPtr runnable = new PrioritizableRunnable( std::move(aRunnable), nsIRunnablePriority::PRIORITY_MEDIUMHIGH); return runnable.forget(); } #endif // XPCOM_GLUE_AVOID_NSPR //----------------------------------------------------------------------------- nsresult NS_NewNamedThread(const nsACString& aName, nsIThread** aResult, nsIRunnable* aInitialEvent, uint32_t aStackSize) { nsCOMPtr event = aInitialEvent; return NS_NewNamedThread(aName, aResult, event.forget(), aStackSize); } nsresult NS_NewNamedThread(const nsACString& aName, nsIThread** aResult, already_AddRefed aInitialEvent, uint32_t aStackSize) { nsCOMPtr event = std::move(aInitialEvent); nsCOMPtr thread; #ifdef MOZILLA_INTERNAL_API nsresult rv = nsThreadManager::get().nsThreadManager::NewNamedThread( aName, aStackSize, getter_AddRefs(thread)); #else nsresult rv; nsCOMPtr mgr = do_GetService(NS_THREADMANAGER_CONTRACTID, &rv); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } rv = mgr->NewNamedThread(aName, aStackSize, getter_AddRefs(thread)); #endif if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } if (event) { rv = thread->Dispatch(event.forget(), NS_DISPATCH_NORMAL); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } } *aResult = nullptr; thread.swap(*aResult); return NS_OK; } nsresult NS_GetCurrentThread(nsIThread** aResult) { #ifdef MOZILLA_INTERNAL_API return nsThreadManager::get().nsThreadManager::GetCurrentThread(aResult); #else nsresult rv; nsCOMPtr mgr = do_GetService(NS_THREADMANAGER_CONTRACTID, &rv); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } return mgr->GetCurrentThread(aResult); #endif } nsresult NS_GetMainThread(nsIThread** aResult) { #ifdef MOZILLA_INTERNAL_API return nsThreadManager::get().nsThreadManager::GetMainThread(aResult); #else nsresult rv; nsCOMPtr mgr = do_GetService(NS_THREADMANAGER_CONTRACTID, &rv); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } return mgr->GetMainThread(aResult); #endif } nsresult NS_DispatchToCurrentThread(already_AddRefed&& aEvent) { nsresult rv; nsCOMPtr event(aEvent); #ifdef MOZILLA_INTERNAL_API nsIEventTarget* thread = GetCurrentEventTarget(); if (!thread) { return NS_ERROR_UNEXPECTED; } #else nsCOMPtr thread; rv = NS_GetCurrentThread(getter_AddRefs(thread)); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } #endif // To keep us from leaking the runnable if dispatch method fails, // we grab the reference on failures and release it. nsIRunnable* temp = event.get(); rv = thread->Dispatch(event.forget(), NS_DISPATCH_NORMAL); if (NS_WARN_IF(NS_FAILED(rv))) { // Dispatch() leaked the reference to the event, but due to caller's // assumptions, we shouldn't leak here. And given we are on the same // thread as the dispatch target, it's mostly safe to do it here. NS_RELEASE(temp); } return rv; } // It is common to call NS_DispatchToCurrentThread with a newly // allocated runnable with a refcount of zero. To keep us from leaking // the runnable if the dispatch method fails, we take a death grip. nsresult NS_DispatchToCurrentThread(nsIRunnable* aEvent) { nsCOMPtr event(aEvent); return NS_DispatchToCurrentThread(event.forget()); } nsresult NS_DispatchToMainThread(already_AddRefed&& aEvent, uint32_t aDispatchFlags) { LeakRefPtr event(std::move(aEvent)); nsCOMPtr thread; nsresult rv = NS_GetMainThread(getter_AddRefs(thread)); if (NS_WARN_IF(NS_FAILED(rv))) { NS_ASSERTION(false, "Failed NS_DispatchToMainThread() in shutdown; leaking"); // NOTE: if you stop leaking here, adjust Promise::MaybeReportRejected(), // which assumes a leak here, or split into leaks and no-leaks versions return rv; } return thread->Dispatch(event.take(), aDispatchFlags); } // In the case of failure with a newly allocated runnable with a // refcount of zero, we intentionally leak the runnable, because it is // likely that the runnable is being dispatched to the main thread // because it owns main thread only objects, so it is not safe to // release them here. nsresult NS_DispatchToMainThread(nsIRunnable* aEvent, uint32_t aDispatchFlags) { nsCOMPtr event(aEvent); return NS_DispatchToMainThread(event.forget(), aDispatchFlags); } nsresult NS_DelayedDispatchToCurrentThread( already_AddRefed&& aEvent, uint32_t aDelayMs) { nsCOMPtr event(aEvent); #ifdef MOZILLA_INTERNAL_API nsIEventTarget* thread = GetCurrentEventTarget(); if (!thread) { return NS_ERROR_UNEXPECTED; } #else nsresult rv; nsCOMPtr thread; rv = NS_GetCurrentThread(getter_AddRefs(thread)); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } #endif return thread->DelayedDispatch(event.forget(), aDelayMs); } nsresult NS_DispatchToThreadQueue(already_AddRefed&& aEvent, nsIThread* aThread, EventQueuePriority aQueue) { nsresult rv; nsCOMPtr event(aEvent); NS_ENSURE_TRUE(event, NS_ERROR_INVALID_ARG); if (!aThread) { return NS_ERROR_UNEXPECTED; } // To keep us from leaking the runnable if dispatch method fails, // we grab the reference on failures and release it. nsIRunnable* temp = event.get(); rv = aThread->DispatchToQueue(event.forget(), aQueue); if (NS_WARN_IF(NS_FAILED(rv))) { // Dispatch() leaked the reference to the event, but due to caller's // assumptions, we shouldn't leak here. And given we are on the same // thread as the dispatch target, it's mostly safe to do it here. NS_RELEASE(temp); } return rv; } nsresult NS_DispatchToCurrentThreadQueue(already_AddRefed&& aEvent, EventQueuePriority aQueue) { return NS_DispatchToThreadQueue(std::move(aEvent), NS_GetCurrentThread(), aQueue); } extern nsresult NS_DispatchToMainThreadQueue( already_AddRefed&& aEvent, EventQueuePriority aQueue) { nsCOMPtr mainThread; nsresult rv = NS_GetMainThread(getter_AddRefs(mainThread)); if (NS_SUCCEEDED(rv)) { return NS_DispatchToThreadQueue(std::move(aEvent), mainThread, aQueue); } return rv; } class IdleRunnableWrapper final : public Runnable, public nsIDiscardableRunnable, public nsIIdleRunnable { public: explicit IdleRunnableWrapper(already_AddRefed&& aEvent) : Runnable("IdleRunnableWrapper"), mRunnable(std::move(aEvent)), mDiscardable(do_QueryInterface(mRunnable)) {} NS_DECL_ISUPPORTS_INHERITED NS_IMETHOD Run() override { if (!mRunnable) { return NS_OK; } CancelTimer(); // Don't clear mDiscardable because that would cause QueryInterface to // change behavior during the lifetime of an instance. nsCOMPtr runnable = std::move(mRunnable); return runnable->Run(); } // nsIDiscardableRunnable void OnDiscard() override { if (!mRunnable) { // Run() was already called from TimedOut(). return; } mDiscardable->OnDiscard(); mRunnable = nullptr; } static void TimedOut(nsITimer* aTimer, void* aClosure) { RefPtr runnable = static_cast(aClosure); LogRunnable::Run log(runnable); runnable->Run(); runnable = nullptr; } void SetTimer(uint32_t aDelay, nsIEventTarget* aTarget) override { MOZ_ASSERT(aTarget); MOZ_ASSERT(!mTimer); NS_NewTimerWithFuncCallback(getter_AddRefs(mTimer), TimedOut, this, aDelay, nsITimer::TYPE_ONE_SHOT, "IdleRunnableWrapper::SetTimer", aTarget); } #ifdef MOZ_COLLECTING_RUNNABLE_TELEMETRY NS_IMETHOD GetName(nsACString& aName) override { aName.AssignLiteral("IdleRunnableWrapper"); if (nsCOMPtr named = do_QueryInterface(mRunnable)) { nsAutoCString name; named->GetName(name); if (!name.IsEmpty()) { aName.AppendLiteral(" for "); aName.Append(name); } } return NS_OK; } #endif private: ~IdleRunnableWrapper() { CancelTimer(); } void CancelTimer() { if (mTimer) { mTimer->Cancel(); } } nsCOMPtr mTimer; nsCOMPtr mRunnable; nsCOMPtr mDiscardable; }; NS_IMPL_ADDREF_INHERITED(IdleRunnableWrapper, Runnable) NS_IMPL_RELEASE_INHERITED(IdleRunnableWrapper, Runnable) NS_INTERFACE_MAP_BEGIN(IdleRunnableWrapper) NS_INTERFACE_MAP_ENTRY(nsIIdleRunnable) NS_INTERFACE_MAP_ENTRY_CONDITIONAL(nsIDiscardableRunnable, mDiscardable) NS_INTERFACE_MAP_END_INHERITING(Runnable) extern nsresult NS_DispatchToThreadQueue(already_AddRefed&& aEvent, uint32_t aTimeout, nsIThread* aThread, EventQueuePriority aQueue) { nsCOMPtr event(std::move(aEvent)); NS_ENSURE_TRUE(event, NS_ERROR_INVALID_ARG); MOZ_ASSERT(aQueue == EventQueuePriority::Idle || aQueue == EventQueuePriority::DeferredTimers); // XXX Using current thread for now as the nsIEventTarget. nsIEventTarget* target = mozilla::GetCurrentEventTarget(); if (!target) { return NS_ERROR_UNEXPECTED; } nsCOMPtr idleEvent = do_QueryInterface(event); if (!idleEvent) { idleEvent = new IdleRunnableWrapper(event.forget()); event = do_QueryInterface(idleEvent); MOZ_DIAGNOSTIC_ASSERT(event); } idleEvent->SetTimer(aTimeout, target); nsresult rv = NS_DispatchToThreadQueue(event.forget(), aThread, aQueue); if (NS_SUCCEEDED(rv)) { // This is intended to bind with the "DISP" log made from inside // NS_DispatchToThreadQueue for the `event`. There is no possibly to inject // another "DISP" for a different event on this thread. LOG1(("TIMEOUT %u", aTimeout)); } return rv; } extern nsresult NS_DispatchToCurrentThreadQueue( already_AddRefed&& aEvent, uint32_t aTimeout, EventQueuePriority aQueue) { return NS_DispatchToThreadQueue(std::move(aEvent), aTimeout, NS_GetCurrentThread(), aQueue); } #ifndef XPCOM_GLUE_AVOID_NSPR nsresult NS_ProcessPendingEvents(nsIThread* aThread, PRIntervalTime aTimeout) { nsresult rv = NS_OK; # ifdef MOZILLA_INTERNAL_API if (!aThread) { aThread = NS_GetCurrentThread(); if (NS_WARN_IF(!aThread)) { return NS_ERROR_UNEXPECTED; } } # else nsCOMPtr current; if (!aThread) { rv = NS_GetCurrentThread(getter_AddRefs(current)); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } aThread = current.get(); } # endif PRIntervalTime start = PR_IntervalNow(); for (;;) { bool processedEvent; rv = aThread->ProcessNextEvent(false, &processedEvent); if (NS_FAILED(rv) || !processedEvent) { break; } if (PR_IntervalNow() - start > aTimeout) { break; } } return rv; } #endif // XPCOM_GLUE_AVOID_NSPR inline bool hasPendingEvents(nsIThread* aThread) { bool val; return NS_SUCCEEDED(aThread->HasPendingEvents(&val)) && val; } bool NS_HasPendingEvents(nsIThread* aThread) { if (!aThread) { #ifndef MOZILLA_INTERNAL_API nsCOMPtr current; NS_GetCurrentThread(getter_AddRefs(current)); return hasPendingEvents(current); #else aThread = NS_GetCurrentThread(); if (NS_WARN_IF(!aThread)) { return false; } #endif } return hasPendingEvents(aThread); } bool NS_ProcessNextEvent(nsIThread* aThread, bool aMayWait) { #ifdef MOZILLA_INTERNAL_API if (!aThread) { aThread = NS_GetCurrentThread(); if (NS_WARN_IF(!aThread)) { return false; } } #else nsCOMPtr current; if (!aThread) { NS_GetCurrentThread(getter_AddRefs(current)); if (NS_WARN_IF(!current)) { return false; } aThread = current.get(); } #endif bool val; return NS_SUCCEEDED(aThread->ProcessNextEvent(aMayWait, &val)) && val; } void NS_SetCurrentThreadName(const char* aName) { #if defined(ANDROID) // Workaround for Bug 1541216 - PR_SetCurrentThreadName() Fails to set the // thread name on Android. prctl(PR_SET_NAME, reinterpret_cast(aName)); #else PR_SetCurrentThreadName(aName); #endif CrashReporter::SetCurrentThreadName(aName); } #ifdef MOZILLA_INTERNAL_API nsIThread* NS_GetCurrentThread() { return nsThreadManager::get().GetCurrentThread(); } nsIThread* NS_GetCurrentThreadNoCreate() { if (nsThreadManager::get().IsNSThread()) { return NS_GetCurrentThread(); } return nullptr; } #endif // nsThreadPoolNaming nsCString nsThreadPoolNaming::GetNextThreadName(const nsACString& aPoolName) { nsCString name(aPoolName); name.AppendLiteral(" #"); name.AppendInt(++mCounter, 10); // The counter is declared as atomic return name; } nsresult NS_DispatchBackgroundTask(already_AddRefed aEvent, uint32_t aDispatchFlags) { nsCOMPtr event(aEvent); return nsThreadManager::get().DispatchToBackgroundThread(event, aDispatchFlags); } // nsAutoLowPriorityIO nsAutoLowPriorityIO::nsAutoLowPriorityIO() { #if defined(XP_WIN) lowIOPrioritySet = SetThreadPriority(GetCurrentThread(), THREAD_MODE_BACKGROUND_BEGIN); #elif defined(XP_MACOSX) oldPriority = getiopolicy_np(IOPOL_TYPE_DISK, IOPOL_SCOPE_THREAD); lowIOPrioritySet = oldPriority != -1 && setiopolicy_np(IOPOL_TYPE_DISK, IOPOL_SCOPE_THREAD, IOPOL_THROTTLE) != -1; #else lowIOPrioritySet = false; #endif } nsAutoLowPriorityIO::~nsAutoLowPriorityIO() { #if defined(XP_WIN) if (MOZ_LIKELY(lowIOPrioritySet)) { // On Windows the old thread priority is automatically restored SetThreadPriority(GetCurrentThread(), THREAD_MODE_BACKGROUND_END); } #elif defined(XP_MACOSX) if (MOZ_LIKELY(lowIOPrioritySet)) { setiopolicy_np(IOPOL_TYPE_DISK, IOPOL_SCOPE_THREAD, oldPriority); } #endif } namespace mozilla { nsIEventTarget* GetCurrentEventTarget() { nsCOMPtr thread; nsresult rv = NS_GetCurrentThread(getter_AddRefs(thread)); if (NS_FAILED(rv)) { return nullptr; } return thread->EventTarget(); } nsIEventTarget* GetMainThreadEventTarget() { return GetMainThreadSerialEventTarget(); } nsISerialEventTarget* GetCurrentSerialEventTarget() { if (nsISerialEventTarget* current = SerialEventTargetGuard::GetCurrentSerialEventTarget()) { return current; } nsCOMPtr thread; nsresult rv = NS_GetCurrentThread(getter_AddRefs(thread)); if (NS_FAILED(rv)) { return nullptr; } return thread->SerialEventTarget(); } nsISerialEventTarget* GetMainThreadSerialEventTarget() { return static_cast(nsThreadManager::get().GetMainThreadWeak()); } size_t GetNumberOfProcessors() { #if defined(XP_LINUX) && defined(MOZ_SANDBOX) static const PRInt32 procs = PR_GetNumberOfProcessors(); #else PRInt32 procs = PR_GetNumberOfProcessors(); #endif MOZ_ASSERT(procs > 0); return static_cast(procs); } template void LogTaskBase::LogDispatch(T* aEvent) { LOG1(("DISP %p", aEvent)); } template void LogTaskBase::LogDispatch(T* aEvent, void* aContext) { LOG1(("DISP %p (%p)", aEvent, aContext)); } template <> void LogTaskBase::LogDispatchWithPid(IPC::Message* aEvent, int32_t aPid) { if (aEvent->seqno() && aPid > 0) { LOG1(("SEND %p %d %d", aEvent, aEvent->seqno(), aPid)); } } template LogTaskBase::Run::Run(T* aEvent, bool aWillRunAgain) : mWillRunAgain(aWillRunAgain) { // Logging address of this RAII so that we can use it to identify the DONE log // while not keeping any ref to the event that could be invalid at the dtor // time. LOG1(("EXEC %p %p", aEvent, this)); } template LogTaskBase::Run::Run(T* aEvent, void* aContext, bool aWillRunAgain) : mWillRunAgain(aWillRunAgain) { LOG1(("EXEC %p (%p) %p", aEvent, aContext, this)); } template <> LogTaskBase::Run::Run(nsIRunnable* aEvent, bool aWillRunAgain) : mWillRunAgain(aWillRunAgain) { if (!LOG1_ENABLED()) { return; } nsCOMPtr named(do_QueryInterface(aEvent)); if (!named) { LOG1(("EXEC %p %p", aEvent, this)); return; } nsAutoCString name; named->GetName(name); LOG1(("EXEC %p %p [%s]", aEvent, this, name.BeginReading())); } template <> LogTaskBase::Run::Run(Task* aTask, bool aWillRunAgain) : mWillRunAgain(aWillRunAgain) { if (!LOG1_ENABLED()) { return; } nsAutoCString name; if (!aTask->GetName(name)) { LOG1(("EXEC %p %p", aTask, this)); return; } LOG1(("EXEC %p %p [%s]", aTask, this, name.BeginReading())); } template <> LogTaskBase::Run::Run(IPC::Message* aMessage, bool aWillRunAgain) : mWillRunAgain(aWillRunAgain) { LOG1(("RECV %p %p %d [%s]", aMessage, this, aMessage->seqno(), aMessage->name())); } template <> LogTaskBase::Run::Run(nsTimerImpl* aEvent, bool aWillRunAgain) : mWillRunAgain(aWillRunAgain) { // The name of the timer will be logged when running it on the target thread. // Logging it here (on the `Timer` thread) would be redundant. LOG1(("EXEC %p %p [nsTimerImpl]", aEvent, this)); } template LogTaskBase::Run::~Run() { LOG1((mWillRunAgain ? "INTERRUPTED %p" : "DONE %p", this)); } template class LogTaskBase; template class LogTaskBase; template class LogTaskBase; template class LogTaskBase; template class LogTaskBase; template class LogTaskBase; template class LogTaskBase; MOZ_THREAD_LOCAL(nsISerialEventTarget*) SerialEventTargetGuard::sCurrentThreadTLS; void SerialEventTargetGuard::InitTLS() { MOZ_ASSERT(NS_IsMainThread()); if (!sCurrentThreadTLS.init()) { MOZ_CRASH(); } } DelayedRunnable::DelayedRunnable(already_AddRefed aTarget, already_AddRefed aRunnable, uint32_t aDelay) : mozilla::Runnable("DelayedRunnable"), mTarget(aTarget), mWrappedRunnable(aRunnable), mDelayedFrom(TimeStamp::NowLoRes()), mDelay(aDelay) {} nsresult DelayedRunnable::Init() { return NS_NewTimerWithCallback(getter_AddRefs(mTimer), this, mDelay, nsITimer::TYPE_ONE_SHOT, mTarget); } NS_IMETHODIMP DelayedRunnable::Run() { MOZ_ASSERT(mTimer, "DelayedRunnable without Init?"); // Already ran? if (!mWrappedRunnable) { return NS_OK; } // Are we too early? if ((mozilla::TimeStamp::NowLoRes() - mDelayedFrom).ToMilliseconds() < mDelay) { return NS_OK; // Let the nsITimer run us. } mTimer->Cancel(); return DoRun(); } NS_IMETHODIMP DelayedRunnable::Notify(nsITimer* aTimer) { // If we already ran, the timer should have been canceled. MOZ_ASSERT(mWrappedRunnable); MOZ_ASSERT(aTimer == mTimer); return DoRun(); } nsresult DelayedRunnable::DoRun() { nsCOMPtr r = std::move(mWrappedRunnable); return r->Run(); } NS_IMPL_ISUPPORTS_INHERITED(DelayedRunnable, Runnable, nsITimerCallback) } // namespace mozilla bool nsIEventTarget::IsOnCurrentThread() { if (mThread) { return mThread == PR_GetCurrentThread(); } return IsOnCurrentThreadInfallible(); } extern "C" { // These functions use the C language linkage because they're exposed to Rust // via the xpcom/rust/moz_task crate, which wraps them in safe Rust functions // that enable Rust code to get/create threads and dispatch runnables on them. nsresult NS_GetCurrentThreadEventTarget(nsIEventTarget** aResult) { nsCOMPtr target = mozilla::GetCurrentEventTarget(); if (!target) { return NS_ERROR_UNEXPECTED; } target.forget(aResult); return NS_OK; } nsresult NS_GetMainThreadEventTarget(nsIEventTarget** aResult) { nsCOMPtr target = mozilla::GetMainThreadEventTarget(); if (!target) { return NS_ERROR_UNEXPECTED; } target.forget(aResult); return NS_OK; } // NS_NewNamedThread's aStackSize parameter has the default argument // nsIThreadManager::DEFAULT_STACK_SIZE, but we can't omit default arguments // when calling a C++ function from Rust, and we can't access // nsIThreadManager::DEFAULT_STACK_SIZE in Rust to pass it explicitly, // since it is defined in a %{C++ ... %} block within nsIThreadManager.idl. // So we indirect through this function. nsresult NS_NewNamedThreadWithDefaultStackSize(const nsACString& aName, nsIThread** aResult, nsIRunnable* aEvent) { return NS_NewNamedThread(aName, aResult, aEvent); } bool NS_IsCurrentThread(nsIEventTarget* aThread) { return aThread->IsOnCurrentThread(); } nsresult NS_DispatchBackgroundTask(nsIRunnable* aEvent, uint32_t aDispatchFlags) { return nsThreadManager::get().DispatchToBackgroundThread(aEvent, aDispatchFlags); } nsresult NS_CreateBackgroundTaskQueue(const char* aName, nsISerialEventTarget** aTarget) { nsCOMPtr target = nsThreadManager::get().CreateBackgroundTaskQueue(aName); if (!target) { return NS_ERROR_FAILURE; } target.forget(aTarget); return NS_OK; } } // extern "C"