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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 "vm/OffThreadPromiseRuntimeState.h"
#include "mozilla/Assertions.h" // MOZ_ASSERT{,_IF}
#include <utility> // mozilla::Swap
#include "jspubtd.h" // js::CurrentThreadCanAccessRuntime
#include "js/AllocPolicy.h" // js::ReportOutOfMemory
#include "js/HeapAPI.h" // JS::shadow::Zone
#include "js/Promise.h" // JS::Dispatchable, JS::DispatchToEventLoopCallback
#include "js/Utility.h" // js_delete, js::AutoEnterOOMUnsafeRegion
#include "threading/ProtectedData.h" // js::UnprotectedData
#include "vm/HelperThreads.h" // js::AutoLockHelperThreadState
#include "vm/JSContext.h" // JSContext
#include "vm/PromiseObject.h" // js::PromiseObject
#include "vm/Realm.h" // js::AutoRealm
#include "vm/Runtime.h" // JSRuntime
#include "vm/Realm-inl.h" // js::AutoRealm::AutoRealm
using JS::Handle;
using js::OffThreadPromiseRuntimeState;
using js::OffThreadPromiseTask;
OffThreadPromiseTask::OffThreadPromiseTask(JSContext* cx,
JS::Handle<PromiseObject*> promise)
: runtime_(cx->runtime()), promise_(cx, promise), registered_(false) {
MOZ_ASSERT(runtime_ == promise_->zone()->runtimeFromMainThread());
MOZ_ASSERT(CurrentThreadCanAccessRuntime(runtime_));
MOZ_ASSERT(cx->runtime()->offThreadPromiseState.ref().initialized());
}
OffThreadPromiseTask::~OffThreadPromiseTask() {
MOZ_ASSERT(CurrentThreadCanAccessRuntime(runtime_));
OffThreadPromiseRuntimeState& state = runtime_->offThreadPromiseState.ref();
MOZ_ASSERT(state.initialized());
if (registered_) {
unregister(state);
}
}
bool OffThreadPromiseTask::init(JSContext* cx) {
MOZ_ASSERT(cx->runtime() == runtime_);
MOZ_ASSERT(CurrentThreadCanAccessRuntime(runtime_));
OffThreadPromiseRuntimeState& state = runtime_->offThreadPromiseState.ref();
MOZ_ASSERT(state.initialized());
AutoLockHelperThreadState lock;
if (!state.live().putNew(this)) {
ReportOutOfMemory(cx);
return false;
}
registered_ = true;
return true;
}
void OffThreadPromiseTask::unregister(OffThreadPromiseRuntimeState& state) {
MOZ_ASSERT(registered_);
AutoLockHelperThreadState lock;
state.live().remove(this);
registered_ = false;
}
void OffThreadPromiseTask::run(JSContext* cx,
MaybeShuttingDown maybeShuttingDown) {
MOZ_ASSERT(cx->runtime() == runtime_);
MOZ_ASSERT(CurrentThreadCanAccessRuntime(runtime_));
MOZ_ASSERT(registered_);
// Remove this task from live_ before calling `resolve`, so that if `resolve`
// itself drains the queue reentrantly, the queue will not think this task is
// yet to be queued and block waiting for it.
//
// The unregister method synchronizes on the helper thread lock and ensures
// that we don't delete the task while the helper thread is still running.
OffThreadPromiseRuntimeState& state = runtime_->offThreadPromiseState.ref();
MOZ_ASSERT(state.initialized());
unregister(state);
if (maybeShuttingDown == JS::Dispatchable::NotShuttingDown) {
// We can't leave a pending exception when returning to the caller so do
// the same thing as Gecko, which is to ignore the error. This should
// only happen due to OOM or interruption.
AutoRealm ar(cx, promise_);
if (!resolve(cx, promise_)) {
cx->clearPendingException();
}
}
js_delete(this);
}
void OffThreadPromiseTask::dispatchResolveAndDestroy() {
AutoLockHelperThreadState lock;
dispatchResolveAndDestroy(lock);
}
void OffThreadPromiseTask::dispatchResolveAndDestroy(
const AutoLockHelperThreadState& lock) {
MOZ_ASSERT(registered_);
OffThreadPromiseRuntimeState& state = runtime_->offThreadPromiseState.ref();
MOZ_ASSERT(state.initialized());
MOZ_ASSERT(state.live().has(this));
// If the dispatch succeeds, then we are guaranteed that run() will be
// called on an active JSContext of runtime_.
if (state.dispatchToEventLoopCallback_(state.dispatchToEventLoopClosure_,
this)) {
return;
}
// The DispatchToEventLoopCallback has rejected this task, indicating that
// shutdown has begun. Count the number of rejected tasks that have called
// dispatchResolveAndDestroy, and when they account for the entire contents of
// live_, notify OffThreadPromiseRuntimeState::shutdown that it is safe to
// destruct them.
state.numCanceled_++;
if (state.numCanceled_ == state.live().count()) {
state.allCanceled().notify_one();
}
}
OffThreadPromiseRuntimeState::OffThreadPromiseRuntimeState()
: dispatchToEventLoopCallback_(nullptr),
dispatchToEventLoopClosure_(nullptr),
numCanceled_(0),
internalDispatchQueueClosed_(false) {}
OffThreadPromiseRuntimeState::~OffThreadPromiseRuntimeState() {
MOZ_ASSERT(live_.refNoCheck().empty());
MOZ_ASSERT(numCanceled_ == 0);
MOZ_ASSERT(internalDispatchQueue_.refNoCheck().empty());
MOZ_ASSERT(!initialized());
}
void OffThreadPromiseRuntimeState::init(
JS::DispatchToEventLoopCallback callback, void* closure) {
MOZ_ASSERT(!initialized());
dispatchToEventLoopCallback_ = callback;
dispatchToEventLoopClosure_ = closure;
MOZ_ASSERT(initialized());
}
/* static */
bool OffThreadPromiseRuntimeState::internalDispatchToEventLoop(
void* closure, JS::Dispatchable* d) {
OffThreadPromiseRuntimeState& state =
*reinterpret_cast<OffThreadPromiseRuntimeState*>(closure);
MOZ_ASSERT(state.usingInternalDispatchQueue());
gHelperThreadLock.assertOwnedByCurrentThread();
if (state.internalDispatchQueueClosed_) {
return false;
}
// The JS API contract is that 'false' means shutdown, so be infallible
// here (like Gecko).
AutoEnterOOMUnsafeRegion noOOM;
if (!state.internalDispatchQueue().pushBack(d)) {
noOOM.crash("internalDispatchToEventLoop");
}
// Wake up internalDrain() if it is waiting for a job to finish.
state.internalDispatchQueueAppended().notify_one();
return true;
}
bool OffThreadPromiseRuntimeState::usingInternalDispatchQueue() const {
return dispatchToEventLoopCallback_ == internalDispatchToEventLoop;
}
void OffThreadPromiseRuntimeState::initInternalDispatchQueue() {
init(internalDispatchToEventLoop, this);
MOZ_ASSERT(usingInternalDispatchQueue());
}
bool OffThreadPromiseRuntimeState::initialized() const {
return !!dispatchToEventLoopCallback_;
}
void OffThreadPromiseRuntimeState::internalDrain(JSContext* cx) {
MOZ_ASSERT(usingInternalDispatchQueue());
for (;;) {
JS::Dispatchable* d;
{
AutoLockHelperThreadState lock;
MOZ_ASSERT(!internalDispatchQueueClosed_);
MOZ_ASSERT_IF(!internalDispatchQueue().empty(), !live().empty());
if (live().empty()) {
return;
}
// There are extant live OffThreadPromiseTasks. If none are in the queue,
// block until one of them finishes and enqueues a dispatchable.
while (internalDispatchQueue().empty()) {
internalDispatchQueueAppended().wait(lock);
}
d = internalDispatchQueue().popCopyFront();
}
// Don't call run() with lock held to avoid deadlock.
d->run(cx, JS::Dispatchable::NotShuttingDown);
}
}
bool OffThreadPromiseRuntimeState::internalHasPending() {
MOZ_ASSERT(usingInternalDispatchQueue());
AutoLockHelperThreadState lock;
MOZ_ASSERT(!internalDispatchQueueClosed_);
MOZ_ASSERT_IF(!internalDispatchQueue().empty(), !live().empty());
return !live().empty();
}
void OffThreadPromiseRuntimeState::shutdown(JSContext* cx) {
if (!initialized()) {
return;
}
AutoLockHelperThreadState lock;
// When the shell is using the internal event loop, we must simulate our
// requirement of the embedding that, before shutdown, all successfully-
// dispatched-to-event-loop tasks have been run.
if (usingInternalDispatchQueue()) {
DispatchableFifo dispatchQueue;
{
std::swap(dispatchQueue, internalDispatchQueue());
MOZ_ASSERT(internalDispatchQueue().empty());
internalDispatchQueueClosed_ = true;
}
// Don't call run() with lock held to avoid deadlock.
AutoUnlockHelperThreadState unlock(lock);
for (JS::Dispatchable* d : dispatchQueue) {
d->run(cx, JS::Dispatchable::ShuttingDown);
}
}
// An OffThreadPromiseTask may only be safely deleted on its JSContext's
// thread (since it contains a PersistentRooted holding its promise), and
// only after it has called dispatchResolveAndDestroy (since that is our
// only indication that its owner is done writing into it).
//
// OffThreadPromiseTasks accepted by the DispatchToEventLoopCallback are
// deleted by their 'run' methods. Only dispatchResolveAndDestroy invokes
// the callback, and the point of the callback is to call 'run' on the
// JSContext's thread, so the conditions above are met.
//
// But although the embedding's DispatchToEventLoopCallback promises to run
// every task it accepts before shutdown, when shutdown does begin it starts
// rejecting tasks; we cannot count on 'run' to clean those up for us.
// Instead, dispatchResolveAndDestroy keeps a count of rejected ('canceled')
// tasks; once that count covers everything in live_, this function itself
// runs only on the JSContext's thread, so we can delete them all here.
while (live().count() != numCanceled_) {
MOZ_ASSERT(numCanceled_ < live().count());
allCanceled().wait(lock);
}
// Now that live_ contains only cancelled tasks, we can just delete
// everything.
for (OffThreadPromiseTaskSet::Range r = live().all(); !r.empty();
r.popFront()) {
OffThreadPromiseTask* task = r.front();
// We don't want 'task' to unregister itself (which would mutate live_ while
// we are iterating over it) so reset its internal registered_ flag.
MOZ_ASSERT(task->registered_);
task->registered_ = false;
js_delete(task);
}
live().clear();
numCanceled_ = 0;
// After shutdown, there should be no OffThreadPromiseTask activity in this
// JSRuntime. Revert to the !initialized() state to catch bugs.
dispatchToEventLoopCallback_ = nullptr;
MOZ_ASSERT(!initialized());
}
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