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|
/* -*- 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 "mozilla/CycleCollectedJSContext.h"
#include <algorithm>
#include <utility>
#include "js/Debug.h"
#include "js/GCAPI.h"
#include "js/Utility.h"
#include "jsapi.h"
#include "mozilla/ArrayUtils.h"
#include "mozilla/AsyncEventDispatcher.h"
#include "mozilla/AutoRestore.h"
#include "mozilla/CycleCollectedJSRuntime.h"
#include "mozilla/DebuggerOnGCRunnable.h"
#include "mozilla/MemoryReporting.h"
#include "mozilla/ProfilerMarkers.h"
#include "mozilla/Sprintf.h"
#include "mozilla/Telemetry.h"
#include "mozilla/Unused.h"
#include "mozilla/dom/DOMException.h"
#include "mozilla/dom/DOMJSClass.h"
#include "mozilla/dom/FinalizationRegistryBinding.h"
#include "mozilla/dom/PromiseBinding.h"
#include "mozilla/dom/PromiseDebugging.h"
#include "mozilla/dom/PromiseRejectionEvent.h"
#include "mozilla/dom/PromiseRejectionEventBinding.h"
#include "mozilla/dom/RootedDictionary.h"
#include "mozilla/dom/ScriptSettings.h"
#include "mozilla/dom/UserActivation.h"
#include "nsContentUtils.h"
#include "nsCycleCollectionNoteRootCallback.h"
#include "nsCycleCollectionParticipant.h"
#include "nsCycleCollector.h"
#include "nsDOMJSUtils.h"
#include "nsDOMMutationObserver.h"
#include "nsJSUtils.h"
#include "nsPIDOMWindow.h"
#include "nsStringBuffer.h"
#include "nsThread.h"
#include "nsThreadUtils.h"
#include "nsWrapperCache.h"
#include "xpcpublic.h"
using namespace mozilla;
using namespace mozilla::dom;
namespace mozilla {
CycleCollectedJSContext::CycleCollectedJSContext()
: mRuntime(nullptr),
mJSContext(nullptr),
mDoingStableStates(false),
mTargetedMicroTaskRecursionDepth(0),
mMicroTaskLevel(0),
mSuppressionGeneration(0),
mDebuggerRecursionDepth(0),
mMicroTaskRecursionDepth(0),
mFinalizationRegistryCleanup(this) {
MOZ_COUNT_CTOR(CycleCollectedJSContext);
nsCOMPtr<nsIThread> thread = do_GetCurrentThread();
mOwningThread = thread.forget().downcast<nsThread>().take();
MOZ_RELEASE_ASSERT(mOwningThread);
}
CycleCollectedJSContext::~CycleCollectedJSContext() {
MOZ_COUNT_DTOR(CycleCollectedJSContext);
// If the allocation failed, here we are.
if (!mJSContext) {
return;
}
JS::SetHostCleanupFinalizationRegistryCallback(mJSContext, nullptr, nullptr);
JS_SetContextPrivate(mJSContext, nullptr);
mRuntime->SetContext(nullptr);
mRuntime->Shutdown(mJSContext);
// Last chance to process any events.
CleanupIDBTransactions(mBaseRecursionDepth);
MOZ_ASSERT(mPendingIDBTransactions.IsEmpty());
ProcessStableStateQueue();
MOZ_ASSERT(mStableStateEvents.IsEmpty());
// Clear mPendingException first, since it might be cycle collected.
mPendingException = nullptr;
MOZ_ASSERT(mDebuggerMicroTaskQueue.empty());
MOZ_ASSERT(mPendingMicroTaskRunnables.empty());
mUncaughtRejections.reset();
mConsumedRejections.reset();
mAboutToBeNotifiedRejectedPromises.Clear();
mPendingUnhandledRejections.Clear();
mFinalizationRegistryCleanup.Destroy();
JS_DestroyContext(mJSContext);
mJSContext = nullptr;
nsCycleCollector_forgetJSContext();
mozilla::dom::DestroyScriptSettings();
mOwningThread->SetScriptObserver(nullptr);
NS_RELEASE(mOwningThread);
delete mRuntime;
mRuntime = nullptr;
}
nsresult CycleCollectedJSContext::Initialize(JSRuntime* aParentRuntime,
uint32_t aMaxBytes) {
MOZ_ASSERT(!mJSContext);
mozilla::dom::InitScriptSettings();
mJSContext = JS_NewContext(aMaxBytes, aParentRuntime);
if (!mJSContext) {
return NS_ERROR_OUT_OF_MEMORY;
}
mRuntime = CreateRuntime(mJSContext);
mRuntime->SetContext(this);
mOwningThread->SetScriptObserver(this);
// The main thread has a base recursion depth of 0, workers of 1.
mBaseRecursionDepth = RecursionDepth();
NS_GetCurrentThread()->SetCanInvokeJS(true);
JS::SetJobQueue(mJSContext, this);
JS::SetPromiseRejectionTrackerCallback(mJSContext,
PromiseRejectionTrackerCallback, this);
mUncaughtRejections.init(mJSContext,
JS::GCVector<JSObject*, 0, js::SystemAllocPolicy>(
js::SystemAllocPolicy()));
mConsumedRejections.init(mJSContext,
JS::GCVector<JSObject*, 0, js::SystemAllocPolicy>(
js::SystemAllocPolicy()));
mFinalizationRegistryCleanup.Init();
// Cast to PerThreadAtomCache for dom::GetAtomCache(JSContext*).
JS_SetContextPrivate(mJSContext, static_cast<PerThreadAtomCache*>(this));
nsCycleCollector_registerJSContext(this);
return NS_OK;
}
/* static */
CycleCollectedJSContext* CycleCollectedJSContext::GetFor(JSContext* aCx) {
// Cast from void* matching JS_SetContextPrivate.
auto atomCache = static_cast<PerThreadAtomCache*>(JS_GetContextPrivate(aCx));
// Down cast.
return static_cast<CycleCollectedJSContext*>(atomCache);
}
size_t CycleCollectedJSContext::SizeOfExcludingThis(
MallocSizeOf aMallocSizeOf) const {
return 0;
}
class PromiseJobRunnable final : public MicroTaskRunnable {
public:
PromiseJobRunnable(JS::HandleObject aPromise, JS::HandleObject aCallback,
JS::HandleObject aCallbackGlobal,
JS::HandleObject aAllocationSite,
nsIGlobalObject* aIncumbentGlobal)
: mCallback(new PromiseJobCallback(aCallback, aCallbackGlobal,
aAllocationSite, aIncumbentGlobal)),
mPropagateUserInputEventHandling(false) {
MOZ_ASSERT(js::IsFunctionObject(aCallback));
if (aPromise) {
JS::PromiseUserInputEventHandlingState state =
JS::GetPromiseUserInputEventHandlingState(aPromise);
mPropagateUserInputEventHandling =
state ==
JS::PromiseUserInputEventHandlingState::HadUserInteractionAtCreation;
}
}
virtual ~PromiseJobRunnable() = default;
protected:
MOZ_CAN_RUN_SCRIPT
virtual void Run(AutoSlowOperation& aAso) override {
JSObject* callback = mCallback->CallbackPreserveColor();
nsIGlobalObject* global = callback ? xpc::NativeGlobal(callback) : nullptr;
if (global && !global->IsDying()) {
// Propagate the user input event handling bit if needed.
nsCOMPtr<nsPIDOMWindowInner> win = do_QueryInterface(global);
RefPtr<Document> doc;
if (win) {
doc = win->GetExtantDoc();
}
AutoHandlingUserInputStatePusher userInpStatePusher(
mPropagateUserInputEventHandling);
mCallback->Call("promise callback");
aAso.CheckForInterrupt();
}
// Now that mCallback is no longer needed, clear any pointers it contains to
// JS GC things. This removes any storebuffer entries associated with those
// pointers, which can cause problems by taking up memory and by triggering
// minor GCs. This otherwise would not happen until the next minor GC or
// cycle collection.
mCallback->Reset();
}
virtual bool Suppressed() override {
JSObject* callback = mCallback->CallbackPreserveColor();
nsIGlobalObject* global = callback ? xpc::NativeGlobal(callback) : nullptr;
return global && global->IsInSyncOperation();
}
private:
const RefPtr<PromiseJobCallback> mCallback;
bool mPropagateUserInputEventHandling;
};
JSObject* CycleCollectedJSContext::getIncumbentGlobal(JSContext* aCx) {
nsIGlobalObject* global = mozilla::dom::GetIncumbentGlobal();
if (global) {
return global->GetGlobalJSObject();
}
return nullptr;
}
bool CycleCollectedJSContext::enqueuePromiseJob(
JSContext* aCx, JS::HandleObject aPromise, JS::HandleObject aJob,
JS::HandleObject aAllocationSite, JS::HandleObject aIncumbentGlobal) {
MOZ_ASSERT(aCx == Context());
MOZ_ASSERT(Get() == this);
nsIGlobalObject* global = nullptr;
if (aIncumbentGlobal) {
global = xpc::NativeGlobal(aIncumbentGlobal);
}
JS::RootedObject jobGlobal(aCx, JS::CurrentGlobalOrNull(aCx));
RefPtr<PromiseJobRunnable> runnable = new PromiseJobRunnable(
aPromise, aJob, jobGlobal, aAllocationSite, global);
DispatchToMicroTask(runnable.forget());
return true;
}
// Used only by the SpiderMonkey Debugger API, and even then only via
// JS::AutoDebuggerJobQueueInterruption, to ensure that the debuggee's queue is
// not affected; see comments in js/public/Promise.h.
void CycleCollectedJSContext::runJobs(JSContext* aCx) {
MOZ_ASSERT(aCx == Context());
MOZ_ASSERT(Get() == this);
PerformMicroTaskCheckPoint();
}
bool CycleCollectedJSContext::empty() const {
// This is our override of JS::JobQueue::empty. Since that interface is only
// concerned with the ordinary microtask queue, not the debugger microtask
// queue, we only report on the former.
return mPendingMicroTaskRunnables.empty();
}
// Preserve a debuggee's microtask queue while it is interrupted by the
// debugger. See the comments for JS::AutoDebuggerJobQueueInterruption.
class CycleCollectedJSContext::SavedMicroTaskQueue
: public JS::JobQueue::SavedJobQueue {
public:
explicit SavedMicroTaskQueue(CycleCollectedJSContext* ccjs) : ccjs(ccjs) {
ccjs->mDebuggerRecursionDepth++;
ccjs->mPendingMicroTaskRunnables.swap(mQueue);
}
~SavedMicroTaskQueue() {
// The JS Debugger attempts to maintain the invariant that microtasks which
// occur durring debugger operation are completely flushed from the task
// queue before returning control to the debuggee, in order to avoid
// micro-tasks generated during debugging from interfering with regular
// operation.
//
// While the vast majority of microtasks can be reliably flushed,
// synchronous operations (see nsAutoSyncOperation) such as printing and
// alert diaglogs suppress the execution of some microtasks.
//
// When PerformMicroTaskCheckpoint is run while microtasks are suppressed,
// any suppressed microtasks are gathered into a new SuppressedMicroTasks
// runnable, which is enqueued on exit from PerformMicroTaskCheckpoint. As a
// result, AutoDebuggerJobQueueInterruption::runJobs is not able to
// correctly guarantee that the microtask queue is totally empty in the
// presence of sync operations.
//
// Previous versions of this code release-asserted that the queue was empty,
// causing user observable crashes (Bug 1849675). To avoid this, we instead
// choose to move suspended microtasks from the SavedMicroTaskQueue to the
// main microtask queue in this destructor. This means that jobs enqueued
// during synchnronous events under debugger control may produce events
// which run outside the debugger, but this is viewed as strictly
// preferrable to crashing.
MOZ_RELEASE_ASSERT(ccjs->mPendingMicroTaskRunnables.size() <= 1);
MOZ_RELEASE_ASSERT(ccjs->mDebuggerRecursionDepth);
RefPtr<MicroTaskRunnable> maybeSuppressedTasks;
// Handle the case where there is a SuppressedMicroTask still in the queue.
if (!ccjs->mPendingMicroTaskRunnables.empty()) {
maybeSuppressedTasks = ccjs->mPendingMicroTaskRunnables.front();
ccjs->mPendingMicroTaskRunnables.pop_front();
}
MOZ_RELEASE_ASSERT(ccjs->mPendingMicroTaskRunnables.empty());
ccjs->mDebuggerRecursionDepth--;
ccjs->mPendingMicroTaskRunnables.swap(mQueue);
// Re-enqueue the suppressed task now that we've put the original microtask
// queue back.
if (maybeSuppressedTasks) {
ccjs->mPendingMicroTaskRunnables.push_back(maybeSuppressedTasks);
}
}
private:
CycleCollectedJSContext* ccjs;
std::deque<RefPtr<MicroTaskRunnable>> mQueue;
};
js::UniquePtr<JS::JobQueue::SavedJobQueue>
CycleCollectedJSContext::saveJobQueue(JSContext* cx) {
auto saved = js::MakeUnique<SavedMicroTaskQueue>(this);
if (!saved) {
// When MakeUnique's allocation fails, the SavedMicroTaskQueue constructor
// is never called, so mPendingMicroTaskRunnables is still initialized.
JS_ReportOutOfMemory(cx);
return nullptr;
}
return saved;
}
/* static */
void CycleCollectedJSContext::PromiseRejectionTrackerCallback(
JSContext* aCx, bool aMutedErrors, JS::HandleObject aPromise,
JS::PromiseRejectionHandlingState state, void* aData) {
CycleCollectedJSContext* self = static_cast<CycleCollectedJSContext*>(aData);
MOZ_ASSERT(aCx == self->Context());
MOZ_ASSERT(Get() == self);
// TODO: Bug 1549351 - Promise rejection event should not be sent for
// cross-origin scripts
PromiseArray& aboutToBeNotified = self->mAboutToBeNotifiedRejectedPromises;
PromiseHashtable& unhandled = self->mPendingUnhandledRejections;
uint64_t promiseID = JS::GetPromiseID(aPromise);
if (state == JS::PromiseRejectionHandlingState::Unhandled) {
PromiseDebugging::AddUncaughtRejection(aPromise);
if (!aMutedErrors) {
RefPtr<Promise> promise =
Promise::CreateFromExisting(xpc::NativeGlobal(aPromise), aPromise);
aboutToBeNotified.AppendElement(promise);
unhandled.InsertOrUpdate(promiseID, std::move(promise));
}
} else {
PromiseDebugging::AddConsumedRejection(aPromise);
for (size_t i = 0; i < aboutToBeNotified.Length(); i++) {
if (aboutToBeNotified[i] &&
aboutToBeNotified[i]->PromiseObj() == aPromise) {
// To avoid large amounts of memmoves, we don't shrink the vector
// here. Instead, we filter out nullptrs when iterating over the
// vector later.
aboutToBeNotified[i] = nullptr;
DebugOnly<bool> isFound = unhandled.Remove(promiseID);
MOZ_ASSERT(isFound);
return;
}
}
RefPtr<Promise> promise;
unhandled.Remove(promiseID, getter_AddRefs(promise));
if (!promise && !aMutedErrors) {
nsIGlobalObject* global = xpc::NativeGlobal(aPromise);
if (nsCOMPtr<EventTarget> owner = do_QueryInterface(global)) {
RootedDictionary<PromiseRejectionEventInit> init(aCx);
init.mPromise = Promise::CreateFromExisting(global, aPromise);
init.mReason = JS::GetPromiseResult(aPromise);
RefPtr<PromiseRejectionEvent> event =
PromiseRejectionEvent::Constructor(owner, u"rejectionhandled"_ns,
init);
RefPtr<AsyncEventDispatcher> asyncDispatcher =
new AsyncEventDispatcher(owner, event.forget());
asyncDispatcher->PostDOMEvent();
}
}
}
}
already_AddRefed<Exception> CycleCollectedJSContext::GetPendingException()
const {
MOZ_ASSERT(mJSContext);
nsCOMPtr<Exception> out = mPendingException;
return out.forget();
}
void CycleCollectedJSContext::SetPendingException(Exception* aException) {
MOZ_ASSERT(mJSContext);
mPendingException = aException;
}
std::deque<RefPtr<MicroTaskRunnable>>&
CycleCollectedJSContext::GetMicroTaskQueue() {
MOZ_ASSERT(mJSContext);
return mPendingMicroTaskRunnables;
}
std::deque<RefPtr<MicroTaskRunnable>>&
CycleCollectedJSContext::GetDebuggerMicroTaskQueue() {
MOZ_ASSERT(mJSContext);
return mDebuggerMicroTaskQueue;
}
void CycleCollectedJSContext::ProcessStableStateQueue() {
MOZ_ASSERT(mJSContext);
MOZ_RELEASE_ASSERT(!mDoingStableStates);
mDoingStableStates = true;
// When run, one event can add another event to the mStableStateEvents, as
// such you can't use iterators here.
for (uint32_t i = 0; i < mStableStateEvents.Length(); ++i) {
nsCOMPtr<nsIRunnable> event = std::move(mStableStateEvents[i]);
event->Run();
}
mStableStateEvents.Clear();
mDoingStableStates = false;
}
void CycleCollectedJSContext::CleanupIDBTransactions(uint32_t aRecursionDepth) {
MOZ_ASSERT(mJSContext);
MOZ_RELEASE_ASSERT(!mDoingStableStates);
mDoingStableStates = true;
nsTArray<PendingIDBTransactionData> localQueue =
std::move(mPendingIDBTransactions);
localQueue.RemoveLastElements(
localQueue.end() -
std::remove_if(localQueue.begin(), localQueue.end(),
[aRecursionDepth](PendingIDBTransactionData& data) {
if (data.mRecursionDepth != aRecursionDepth) {
return false;
}
{
nsCOMPtr<nsIRunnable> transaction =
std::move(data.mTransaction);
transaction->Run();
}
return true;
}));
// If mPendingIDBTransactions has events in it now, they were added from
// something we called, so they belong at the end of the queue.
localQueue.AppendElements(std::move(mPendingIDBTransactions));
mPendingIDBTransactions = std::move(localQueue);
mDoingStableStates = false;
}
void CycleCollectedJSContext::BeforeProcessTask(bool aMightBlock) {
// If ProcessNextEvent was called during a microtask callback, we
// must process any pending microtasks before blocking in the event loop,
// otherwise we may deadlock until an event enters the queue later.
if (aMightBlock && PerformMicroTaskCheckPoint()) {
// If any microtask was processed, we post a dummy event in order to
// force the ProcessNextEvent call not to block. This is required
// to support nested event loops implemented using a pattern like
// "while (condition) thread.processNextEvent(true)", in case the
// condition is triggered here by a Promise "then" callback.
NS_DispatchToMainThread(new Runnable("BeforeProcessTask"));
}
}
void CycleCollectedJSContext::AfterProcessTask(uint32_t aRecursionDepth) {
MOZ_ASSERT(mJSContext);
// See HTML 6.1.4.2 Processing model
// Step 4.1: Execute microtasks.
PerformMicroTaskCheckPoint();
// Step 4.2 Execute any events that were waiting for a stable state.
ProcessStableStateQueue();
// This should be a fast test so that it won't affect the next task
// processing.
MaybePokeGC();
}
void CycleCollectedJSContext::AfterProcessMicrotasks() {
MOZ_ASSERT(mJSContext);
// Notify unhandled promise rejections:
// https://html.spec.whatwg.org/multipage/webappapis.html#notify-about-rejected-promises
if (mAboutToBeNotifiedRejectedPromises.Length()) {
RefPtr<NotifyUnhandledRejections> runnable = new NotifyUnhandledRejections(
std::move(mAboutToBeNotifiedRejectedPromises));
NS_DispatchToCurrentThread(runnable);
}
// Cleanup Indexed Database transactions:
// https://html.spec.whatwg.org/multipage/webappapis.html#perform-a-microtask-checkpoint
CleanupIDBTransactions(RecursionDepth());
// Clear kept alive objects in JS WeakRef.
// https://whatpr.org/html/4571/webappapis.html#perform-a-microtask-checkpoint
//
// ECMAScript implementations are expected to call ClearKeptObjects when a
// synchronous sequence of ECMAScript execution completes.
//
// https://tc39.es/proposal-weakrefs/#sec-clear-kept-objects
JS::ClearKeptObjects(mJSContext);
}
void CycleCollectedJSContext::MaybePokeGC() {
// Worker-compatible check to see if we want to do an idle-time minor
// GC.
class IdleTimeGCTaskRunnable : public mozilla::IdleRunnable {
public:
using mozilla::IdleRunnable::IdleRunnable;
public:
IdleTimeGCTaskRunnable() : IdleRunnable("IdleTimeGCTask") {}
NS_IMETHOD Run() override {
CycleCollectedJSRuntime* ccrt = CycleCollectedJSRuntime::Get();
if (ccrt) {
ccrt->RunIdleTimeGCTask();
}
return NS_OK;
}
};
if (Runtime()->IsIdleGCTaskNeeded()) {
nsCOMPtr<nsIRunnable> gc_task = new IdleTimeGCTaskRunnable();
NS_DispatchToCurrentThreadQueue(gc_task.forget(), EventQueuePriority::Idle);
Runtime()->SetPendingIdleGCTask();
}
}
uint32_t CycleCollectedJSContext::RecursionDepth() const {
// Debugger interruptions are included in the recursion depth so that debugger
// microtask checkpoints do not run IDB transactions which were initiated
// before the interruption.
return mOwningThread->RecursionDepth() + mDebuggerRecursionDepth;
}
void CycleCollectedJSContext::RunInStableState(
already_AddRefed<nsIRunnable>&& aRunnable) {
MOZ_ASSERT(mJSContext);
mStableStateEvents.AppendElement(std::move(aRunnable));
}
void CycleCollectedJSContext::AddPendingIDBTransaction(
already_AddRefed<nsIRunnable>&& aTransaction) {
MOZ_ASSERT(mJSContext);
PendingIDBTransactionData data;
data.mTransaction = aTransaction;
MOZ_ASSERT(mOwningThread);
data.mRecursionDepth = RecursionDepth();
// There must be an event running to get here.
#ifndef MOZ_WIDGET_COCOA
MOZ_ASSERT(data.mRecursionDepth > mBaseRecursionDepth);
#else
// XXX bug 1261143
// Recursion depth should be greater than mBaseRecursionDepth,
// or the runnable will stay in the queue forever.
if (data.mRecursionDepth <= mBaseRecursionDepth) {
data.mRecursionDepth = mBaseRecursionDepth + 1;
}
#endif
mPendingIDBTransactions.AppendElement(std::move(data));
}
void CycleCollectedJSContext::DispatchToMicroTask(
already_AddRefed<MicroTaskRunnable> aRunnable) {
RefPtr<MicroTaskRunnable> runnable(aRunnable);
MOZ_ASSERT(NS_IsMainThread());
MOZ_ASSERT(runnable);
JS::JobQueueMayNotBeEmpty(Context());
LogMicroTaskRunnable::LogDispatch(runnable.get());
mPendingMicroTaskRunnables.push_back(std::move(runnable));
}
class AsyncMutationHandler final : public mozilla::Runnable {
public:
AsyncMutationHandler() : mozilla::Runnable("AsyncMutationHandler") {}
// MOZ_CAN_RUN_SCRIPT_BOUNDARY until Runnable::Run is MOZ_CAN_RUN_SCRIPT. See
// bug 1535398.
MOZ_CAN_RUN_SCRIPT_BOUNDARY
NS_IMETHOD Run() override {
CycleCollectedJSContext* ccjs = CycleCollectedJSContext::Get();
if (ccjs) {
ccjs->PerformMicroTaskCheckPoint();
}
return NS_OK;
}
};
SuppressedMicroTasks::SuppressedMicroTasks(CycleCollectedJSContext* aContext)
: mContext(aContext),
mSuppressionGeneration(aContext->mSuppressionGeneration) {}
bool SuppressedMicroTasks::Suppressed() {
if (mSuppressionGeneration == mContext->mSuppressionGeneration) {
return true;
}
for (std::deque<RefPtr<MicroTaskRunnable>>::reverse_iterator it =
mSuppressedMicroTaskRunnables.rbegin();
it != mSuppressedMicroTaskRunnables.rend(); ++it) {
mContext->GetMicroTaskQueue().push_front(*it);
}
mContext->mSuppressedMicroTasks = nullptr;
return false;
}
bool CycleCollectedJSContext::PerformMicroTaskCheckPoint(bool aForce) {
if (mPendingMicroTaskRunnables.empty() && mDebuggerMicroTaskQueue.empty()) {
AfterProcessMicrotasks();
// Nothing to do, return early.
return false;
}
uint32_t currentDepth = RecursionDepth();
if (mMicroTaskRecursionDepth >= currentDepth && !aForce) {
// We are already executing microtasks for the current recursion depth.
return false;
}
if (mTargetedMicroTaskRecursionDepth != 0 &&
mTargetedMicroTaskRecursionDepth + mDebuggerRecursionDepth !=
currentDepth) {
return false;
}
if (NS_IsMainThread() && !nsContentUtils::IsSafeToRunScript()) {
// Special case for main thread where DOM mutations may happen when
// it is not safe to run scripts.
nsContentUtils::AddScriptRunner(new AsyncMutationHandler());
return false;
}
mozilla::AutoRestore<uint32_t> restore(mMicroTaskRecursionDepth);
MOZ_ASSERT(aForce ? currentDepth == 0 : currentDepth > 0);
mMicroTaskRecursionDepth = currentDepth;
AUTO_PROFILER_TRACING_MARKER("JS", "Perform microtasks", JS);
bool didProcess = false;
AutoSlowOperation aso;
for (;;) {
RefPtr<MicroTaskRunnable> runnable;
if (!mDebuggerMicroTaskQueue.empty()) {
runnable = std::move(mDebuggerMicroTaskQueue.front());
mDebuggerMicroTaskQueue.pop_front();
} else if (!mPendingMicroTaskRunnables.empty()) {
runnable = std::move(mPendingMicroTaskRunnables.front());
mPendingMicroTaskRunnables.pop_front();
} else {
break;
}
if (runnable->Suppressed()) {
// Microtasks in worker shall never be suppressed.
// Otherwise, mPendingMicroTaskRunnables will be replaced later with
// all suppressed tasks in mDebuggerMicroTaskQueue unexpectedly.
MOZ_ASSERT(NS_IsMainThread());
JS::JobQueueMayNotBeEmpty(Context());
if (runnable != mSuppressedMicroTasks) {
if (!mSuppressedMicroTasks) {
mSuppressedMicroTasks = new SuppressedMicroTasks(this);
}
mSuppressedMicroTasks->mSuppressedMicroTaskRunnables.push_back(
runnable);
}
} else {
if (mPendingMicroTaskRunnables.empty() &&
mDebuggerMicroTaskQueue.empty() && !mSuppressedMicroTasks) {
JS::JobQueueIsEmpty(Context());
}
didProcess = true;
LogMicroTaskRunnable::Run log(runnable.get());
runnable->Run(aso);
runnable = nullptr;
}
}
// Put back the suppressed microtasks so that they will be run later.
// Note, it is possible that we end up keeping these suppressed tasks around
// for some time, but no longer than spinning the event loop nestedly
// (sync XHR, alert, etc.)
if (mSuppressedMicroTasks) {
mPendingMicroTaskRunnables.push_back(mSuppressedMicroTasks);
}
AfterProcessMicrotasks();
return didProcess;
}
void CycleCollectedJSContext::PerformDebuggerMicroTaskCheckpoint() {
// Don't do normal microtask handling checks here, since whoever is calling
// this method is supposed to know what they are doing.
AutoSlowOperation aso;
for (;;) {
// For a debugger microtask checkpoint, we always use the debugger microtask
// queue.
std::deque<RefPtr<MicroTaskRunnable>>* microtaskQueue =
&GetDebuggerMicroTaskQueue();
if (microtaskQueue->empty()) {
break;
}
RefPtr<MicroTaskRunnable> runnable = std::move(microtaskQueue->front());
MOZ_ASSERT(runnable);
LogMicroTaskRunnable::Run log(runnable.get());
// This function can re-enter, so we remove the element before calling.
microtaskQueue->pop_front();
if (mPendingMicroTaskRunnables.empty() && mDebuggerMicroTaskQueue.empty()) {
JS::JobQueueIsEmpty(Context());
}
runnable->Run(aso);
runnable = nullptr;
}
AfterProcessMicrotasks();
}
NS_IMETHODIMP CycleCollectedJSContext::NotifyUnhandledRejections::Run() {
for (size_t i = 0; i < mUnhandledRejections.Length(); ++i) {
CycleCollectedJSContext* cccx = CycleCollectedJSContext::Get();
NS_ENSURE_STATE(cccx);
RefPtr<Promise>& promise = mUnhandledRejections[i];
if (!promise) {
continue;
}
JS::RootingContext* cx = cccx->RootingCx();
JS::RootedObject promiseObj(cx, promise->PromiseObj());
MOZ_ASSERT(JS::IsPromiseObject(promiseObj));
// Only fire unhandledrejection if the promise is still not handled;
uint64_t promiseID = JS::GetPromiseID(promiseObj);
if (!JS::GetPromiseIsHandled(promiseObj)) {
if (nsCOMPtr<EventTarget> target =
do_QueryInterface(promise->GetParentObject())) {
RootedDictionary<PromiseRejectionEventInit> init(cx);
init.mPromise = promise;
init.mReason = JS::GetPromiseResult(promiseObj);
init.mCancelable = true;
RefPtr<PromiseRejectionEvent> event =
PromiseRejectionEvent::Constructor(target, u"unhandledrejection"_ns,
init);
// We don't use the result of dispatching event here to check whether to
// report the Promise to console.
target->DispatchEvent(*event);
}
}
cccx = CycleCollectedJSContext::Get();
NS_ENSURE_STATE(cccx);
if (!JS::GetPromiseIsHandled(promiseObj)) {
DebugOnly<bool> isFound =
cccx->mPendingUnhandledRejections.Remove(promiseID);
MOZ_ASSERT(isFound);
}
// If a rejected promise is being handled in "unhandledrejection" event
// handler, it should be removed from the table in
// PromiseRejectionTrackerCallback.
MOZ_ASSERT(!cccx->mPendingUnhandledRejections.Lookup(promiseID));
}
return NS_OK;
}
nsresult CycleCollectedJSContext::NotifyUnhandledRejections::Cancel() {
CycleCollectedJSContext* cccx = CycleCollectedJSContext::Get();
NS_ENSURE_STATE(cccx);
for (size_t i = 0; i < mUnhandledRejections.Length(); ++i) {
RefPtr<Promise>& promise = mUnhandledRejections[i];
if (!promise) {
continue;
}
JS::RootedObject promiseObj(cccx->RootingCx(), promise->PromiseObj());
cccx->mPendingUnhandledRejections.Remove(JS::GetPromiseID(promiseObj));
}
return NS_OK;
}
class FinalizationRegistryCleanup::CleanupRunnable
: public DiscardableRunnable {
public:
explicit CleanupRunnable(FinalizationRegistryCleanup* aCleanupWork)
: DiscardableRunnable("CleanupRunnable"), mCleanupWork(aCleanupWork) {}
// MOZ_CAN_RUN_SCRIPT_BOUNDARY until Runnable::Run is MOZ_CAN_RUN_SCRIPT. See
// bug 1535398.
MOZ_CAN_RUN_SCRIPT_BOUNDARY
NS_IMETHOD Run() override {
mCleanupWork->DoCleanup();
return NS_OK;
}
private:
FinalizationRegistryCleanup* mCleanupWork;
};
FinalizationRegistryCleanup::FinalizationRegistryCleanup(
CycleCollectedJSContext* aContext)
: mContext(aContext) {}
void FinalizationRegistryCleanup::Destroy() {
// This must happen before the CycleCollectedJSContext destructor calls
// JS_DestroyContext().
mCallbacks.reset();
}
void FinalizationRegistryCleanup::Init() {
JSContext* cx = mContext->Context();
mCallbacks.init(cx);
JS::SetHostCleanupFinalizationRegistryCallback(cx, QueueCallback, this);
}
/* static */
void FinalizationRegistryCleanup::QueueCallback(JSFunction* aDoCleanup,
JSObject* aIncumbentGlobal,
void* aData) {
FinalizationRegistryCleanup* cleanup =
static_cast<FinalizationRegistryCleanup*>(aData);
cleanup->QueueCallback(aDoCleanup, aIncumbentGlobal);
}
void FinalizationRegistryCleanup::QueueCallback(JSFunction* aDoCleanup,
JSObject* aIncumbentGlobal) {
bool firstCallback = mCallbacks.empty();
MOZ_ALWAYS_TRUE(mCallbacks.append(Callback{aDoCleanup, aIncumbentGlobal}));
if (firstCallback) {
RefPtr<CleanupRunnable> cleanup = new CleanupRunnable(this);
NS_DispatchToCurrentThread(cleanup.forget());
}
}
void FinalizationRegistryCleanup::DoCleanup() {
if (mCallbacks.empty()) {
return;
}
JS::RootingContext* cx = mContext->RootingCx();
JS::Rooted<CallbackVector> callbacks(cx);
std::swap(callbacks.get(), mCallbacks.get());
for (const Callback& callback : callbacks) {
JS::ExposeObjectToActiveJS(
JS_GetFunctionObject(callback.mCallbackFunction));
JS::ExposeObjectToActiveJS(callback.mIncumbentGlobal);
JS::RootedObject functionObj(
cx, JS_GetFunctionObject(callback.mCallbackFunction));
JS::RootedObject globalObj(cx, JS::GetNonCCWObjectGlobal(functionObj));
nsIGlobalObject* incumbentGlobal =
xpc::NativeGlobal(callback.mIncumbentGlobal);
if (!incumbentGlobal) {
continue;
}
RefPtr<FinalizationRegistryCleanupCallback> cleanupCallback(
new FinalizationRegistryCleanupCallback(functionObj, globalObj, nullptr,
incumbentGlobal));
nsIGlobalObject* global =
xpc::NativeGlobal(cleanupCallback->CallbackPreserveColor());
if (global) {
cleanupCallback->Call("FinalizationRegistryCleanup::DoCleanup");
}
}
}
void FinalizationRegistryCleanup::Callback::trace(JSTracer* trc) {
JS::TraceRoot(trc, &mCallbackFunction, "mCallbackFunction");
JS::TraceRoot(trc, &mIncumbentGlobal, "mIncumbentGlobal");
}
} // namespace mozilla
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