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|
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
* vim: set ts=8 sts=4 et sw=4 tw=99:
* 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 "builtin/Promise.h"
#include "mozilla/Atomics.h"
#include "mozilla/TimeStamp.h"
#include "jscntxt.h"
#include "jsexn.h"
#include "jsiter.h"
#include "gc/Heap.h"
#include "js/Debug.h"
#include "vm/AsyncFunction.h"
#include "vm/AsyncIteration.h"
#include "jsobjinlines.h"
#include "vm/NativeObject-inl.h"
using namespace js;
static double
MillisecondsSinceStartup()
{
auto now = mozilla::TimeStamp::Now();
bool ignored;
return (now - mozilla::TimeStamp::ProcessCreation(ignored)).ToMilliseconds();
}
enum PromiseHandler {
PromiseHandlerIdentity = 0,
PromiseHandlerThrower,
PromiseHandlerAsyncFunctionAwaitFulfilled,
PromiseHandlerAsyncFunctionAwaitRejected,
PromiseHandlerAsyncGeneratorAwaitFulfilled,
PromiseHandlerAsyncGeneratorAwaitRejected,
// Async Iteration proposal 6.1.1.2.1.
// Async iterator handlers take the resolved value and create new iterator
// objects. To do so it needs to forward whether the iterator is done. In
// spec, this is achieved via the [[Done]] internal slot. We enumerate both
// true and false cases here.
PromiseHandlerAsyncIteratorValueUnwrapDone,
PromiseHandlerAsyncIteratorValueUnwrapNotDone,
};
enum ResolutionMode {
ResolveMode,
RejectMode
};
enum ResolveFunctionSlots {
ResolveFunctionSlot_Promise = 0,
ResolveFunctionSlot_RejectFunction,
};
enum RejectFunctionSlots {
RejectFunctionSlot_Promise = 0,
RejectFunctionSlot_ResolveFunction,
};
enum PromiseAllResolveElementFunctionSlots {
PromiseAllResolveElementFunctionSlot_Data = 0,
PromiseAllResolveElementFunctionSlot_ElementIndex,
};
enum ReactionJobSlots {
ReactionJobSlot_ReactionRecord = 0,
};
enum ThenableJobSlots {
ThenableJobSlot_Handler = 0,
ThenableJobSlot_JobData,
};
enum ThenableJobDataIndices {
ThenableJobDataIndex_Promise = 0,
ThenableJobDataIndex_Thenable,
ThenableJobDataLength,
};
enum PromiseAllDataHolderSlots {
PromiseAllDataHolderSlot_Promise = 0,
PromiseAllDataHolderSlot_RemainingElements,
PromiseAllDataHolderSlot_ValuesArray,
PromiseAllDataHolderSlot_ResolveFunction,
PromiseAllDataHolderSlots,
};
class PromiseAllDataHolder : public NativeObject
{
public:
static const Class class_;
JSObject* promiseObj() { return &getFixedSlot(PromiseAllDataHolderSlot_Promise).toObject(); }
JSObject* resolveObj() {
return &getFixedSlot(PromiseAllDataHolderSlot_ResolveFunction).toObject();
}
Value valuesArray() { return getFixedSlot(PromiseAllDataHolderSlot_ValuesArray); }
int32_t remainingCount() {
return getFixedSlot(PromiseAllDataHolderSlot_RemainingElements).toInt32();
}
int32_t increaseRemainingCount() {
int32_t remainingCount = getFixedSlot(PromiseAllDataHolderSlot_RemainingElements).toInt32();
remainingCount++;
setFixedSlot(PromiseAllDataHolderSlot_RemainingElements, Int32Value(remainingCount));
return remainingCount;
}
int32_t decreaseRemainingCount() {
int32_t remainingCount = getFixedSlot(PromiseAllDataHolderSlot_RemainingElements).toInt32();
remainingCount--;
setFixedSlot(PromiseAllDataHolderSlot_RemainingElements, Int32Value(remainingCount));
return remainingCount;
}
};
const Class PromiseAllDataHolder::class_ = {
"PromiseAllDataHolder",
JSCLASS_HAS_RESERVED_SLOTS(PromiseAllDataHolderSlots)
};
static PromiseAllDataHolder*
NewPromiseAllDataHolder(JSContext* cx, HandleObject resultPromise, HandleValue valuesArray,
HandleObject resolve)
{
Rooted<PromiseAllDataHolder*> dataHolder(cx, NewObjectWithClassProto<PromiseAllDataHolder>(cx));
if (!dataHolder)
return nullptr;
assertSameCompartment(cx, resultPromise);
assertSameCompartment(cx, valuesArray);
assertSameCompartment(cx, resolve);
dataHolder->setFixedSlot(PromiseAllDataHolderSlot_Promise, ObjectValue(*resultPromise));
dataHolder->setFixedSlot(PromiseAllDataHolderSlot_RemainingElements, Int32Value(1));
dataHolder->setFixedSlot(PromiseAllDataHolderSlot_ValuesArray, valuesArray);
dataHolder->setFixedSlot(PromiseAllDataHolderSlot_ResolveFunction, ObjectValue(*resolve));
return dataHolder;
}
/**
* Wrapper for GetAndClearException that handles cases where no exception is
* pending, but an error occurred. This can be the case if an OOM was
* encountered while throwing the error.
*/
static bool
MaybeGetAndClearException(JSContext* cx, MutableHandleValue rval)
{
if (!cx->isExceptionPending())
return false;
return GetAndClearException(cx, rval);
}
static MOZ_MUST_USE bool RunResolutionFunction(JSContext *cx, HandleObject resolutionFun,
HandleValue result, ResolutionMode mode,
HandleObject promiseObj);
// ES2016, 25.4.1.1.1, Steps 1.a-b.
// Extracting all of this internal spec algorithm into a helper function would
// be tedious, so the check in step 1 and the entirety of step 2 aren't
// included.
static bool
AbruptRejectPromise(JSContext *cx, CallArgs& args, HandleObject promiseObj, HandleObject reject)
{
// Step 1.a.
RootedValue reason(cx);
if (!MaybeGetAndClearException(cx, &reason))
return false;
if (!RunResolutionFunction(cx, reject, reason, RejectMode, promiseObj))
return false;
// Step 1.b.
args.rval().setObject(*promiseObj);
return true;
}
enum ReactionRecordSlots {
ReactionRecordSlot_Promise = 0,
ReactionRecordSlot_OnFulfilled,
ReactionRecordSlot_OnRejected,
ReactionRecordSlot_Resolve,
ReactionRecordSlot_Reject,
ReactionRecordSlot_IncumbentGlobalObject,
ReactionRecordSlot_Flags,
ReactionRecordSlot_HandlerArg,
ReactionRecordSlot_Generator,
ReactionRecordSlots,
};
#define REACTION_FLAG_RESOLVED 0x1
#define REACTION_FLAG_FULFILLED 0x2
#define REACTION_FLAG_IGNORE_DEFAULT_RESOLUTION 0x4
#define REACTION_FLAG_ASYNC_FUNCTION_AWAIT 0x8
#define REACTION_FLAG_ASYNC_GENERATOR_AWAIT 0x10
// ES2016, 25.4.1.2.
class PromiseReactionRecord : public NativeObject
{
public:
static const Class class_;
JSObject* promise() { return getFixedSlot(ReactionRecordSlot_Promise).toObjectOrNull(); }
int32_t flags() { return getFixedSlot(ReactionRecordSlot_Flags).toInt32(); }
JS::PromiseState targetState() {
int32_t flags = this->flags();
if (!(flags & REACTION_FLAG_RESOLVED))
return JS::PromiseState::Pending;
return flags & REACTION_FLAG_FULFILLED
? JS::PromiseState::Fulfilled
: JS::PromiseState::Rejected;
}
void setTargetState(JS::PromiseState state) {
int32_t flags = this->flags();
MOZ_ASSERT(!(flags & REACTION_FLAG_RESOLVED));
MOZ_ASSERT(state != JS::PromiseState::Pending, "Can't revert a reaction to pending.");
flags |= REACTION_FLAG_RESOLVED;
if (state == JS::PromiseState::Fulfilled)
flags |= REACTION_FLAG_FULFILLED;
setFixedSlot(ReactionRecordSlot_Flags, Int32Value(flags));
}
void setIsAsyncFunctionAwait() {
int32_t flags = this->flags();
flags |= REACTION_FLAG_ASYNC_FUNCTION_AWAIT;
setFixedSlot(ReactionRecordSlot_Flags, Int32Value(flags));
}
bool isAsyncFunctionAwait() {
int32_t flags = this->flags();
return flags & REACTION_FLAG_ASYNC_FUNCTION_AWAIT;
}
void setIsAsyncGeneratorAwait(Handle<AsyncGeneratorObject*> asyncGenObj) {
int32_t flags = this->flags();
flags |= REACTION_FLAG_ASYNC_GENERATOR_AWAIT;
setFixedSlot(ReactionRecordSlot_Flags, Int32Value(flags));
setFixedSlot(ReactionRecordSlot_Generator, ObjectValue(*asyncGenObj));
}
bool isAsyncGeneratorAwait() {
int32_t flags = this->flags();
return flags & REACTION_FLAG_ASYNC_GENERATOR_AWAIT;
}
AsyncGeneratorObject* asyncGenerator() {
MOZ_ASSERT(isAsyncGeneratorAwait());
return &getFixedSlot(ReactionRecordSlot_Generator).toObject()
.as<AsyncGeneratorObject>();
}
Value handler() {
MOZ_ASSERT(targetState() != JS::PromiseState::Pending);
uint32_t slot = targetState() == JS::PromiseState::Fulfilled
? ReactionRecordSlot_OnFulfilled
: ReactionRecordSlot_OnRejected;
return getFixedSlot(slot);
}
Value handlerArg() {
MOZ_ASSERT(targetState() != JS::PromiseState::Pending);
return getFixedSlot(ReactionRecordSlot_HandlerArg);
}
void setHandlerArg(Value& arg) {
MOZ_ASSERT(targetState() == JS::PromiseState::Pending);
setFixedSlot(ReactionRecordSlot_HandlerArg, arg);
}
JSObject* incumbentGlobalObject() {
return getFixedSlot(ReactionRecordSlot_IncumbentGlobalObject).toObjectOrNull();
}
};
const Class PromiseReactionRecord::class_ = {
"PromiseReactionRecord",
JSCLASS_HAS_RESERVED_SLOTS(ReactionRecordSlots)
};
static void
AddPromiseFlags(PromiseObject& promise, int32_t flag)
{
int32_t flags = promise.getFixedSlot(PromiseSlot_Flags).toInt32();
promise.setFixedSlot(PromiseSlot_Flags, Int32Value(flags | flag));
}
static bool
PromiseHasAnyFlag(PromiseObject& promise, int32_t flag)
{
return promise.getFixedSlot(PromiseSlot_Flags).toInt32() & flag;
}
static bool ResolvePromiseFunction(JSContext* cx, unsigned argc, Value* vp);
static bool RejectPromiseFunction(JSContext* cx, unsigned argc, Value* vp);
// ES2016, 25.4.1.3.
static MOZ_MUST_USE bool
CreateResolvingFunctions(JSContext* cx, HandleValue promise,
MutableHandleValue resolveVal,
MutableHandleValue rejectVal)
{
RootedAtom funName(cx, cx->names().empty);
RootedFunction resolve(cx, NewNativeFunction(cx, ResolvePromiseFunction, 1, funName,
gc::AllocKind::FUNCTION_EXTENDED, GenericObject));
if (!resolve)
return false;
RootedFunction reject(cx, NewNativeFunction(cx, RejectPromiseFunction, 1, funName,
gc::AllocKind::FUNCTION_EXTENDED, GenericObject));
if (!reject)
return false;
resolve->setExtendedSlot(ResolveFunctionSlot_Promise, promise);
resolve->setExtendedSlot(ResolveFunctionSlot_RejectFunction, ObjectValue(*reject));
reject->setExtendedSlot(RejectFunctionSlot_Promise, promise);
reject->setExtendedSlot(RejectFunctionSlot_ResolveFunction, ObjectValue(*resolve));
resolveVal.setObject(*resolve);
rejectVal.setObject(*reject);
return true;
}
static void ClearResolutionFunctionSlots(JSFunction* resolutionFun);
static MOZ_MUST_USE bool RejectMaybeWrappedPromise(JSContext *cx, HandleObject promiseObj,
HandleValue reason);
// ES2016, 25.4.1.3.1.
static bool
RejectPromiseFunction(JSContext* cx, unsigned argc, Value* vp)
{
CallArgs args = CallArgsFromVp(argc, vp);
RootedFunction reject(cx, &args.callee().as<JSFunction>());
RootedValue reasonVal(cx, args.get(0));
// Steps 1-2.
RootedValue promiseVal(cx, reject->getExtendedSlot(RejectFunctionSlot_Promise));
// Steps 3-4.
// If the Promise isn't available anymore, it has been resolved and the
// reference to it removed to make it eligible for collection.
if (promiseVal.isUndefined()) {
args.rval().setUndefined();
return true;
}
// Step 5.
// Here, we only remove the Promise reference from the resolution
// functions. Actually marking it as fulfilled/rejected happens later.
ClearResolutionFunctionSlots(reject);
RootedObject promise(cx, &promiseVal.toObject());
// In some cases the Promise reference on the resolution function won't
// have been removed during resolution, so we need to check that here,
// too.
if (promise->is<PromiseObject>() &&
promise->as<PromiseObject>().state() != JS::PromiseState::Pending)
{
return true;
}
// Step 6.
if (!RejectMaybeWrappedPromise(cx, promise, reasonVal))
return false;
args.rval().setUndefined();
return true;
}
static MOZ_MUST_USE bool FulfillMaybeWrappedPromise(JSContext *cx, HandleObject promiseObj,
HandleValue value_);
static MOZ_MUST_USE bool EnqueuePromiseResolveThenableJob(JSContext* cx,
HandleValue promiseToResolve,
HandleValue thenable,
HandleValue thenVal);
// ES2016, 25.4.1.3.2, steps 6-13.
static MOZ_MUST_USE bool
ResolvePromiseInternal(JSContext* cx, HandleObject promise, HandleValue resolutionVal)
{
// Step 7 (reordered).
if (!resolutionVal.isObject())
return FulfillMaybeWrappedPromise(cx, promise, resolutionVal);
RootedObject resolution(cx, &resolutionVal.toObject());
// Step 6.
if (resolution == promise) {
// Step 6.a.
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr,
JSMSG_CANNOT_RESOLVE_PROMISE_WITH_ITSELF);
RootedValue selfResolutionError(cx);
MOZ_ALWAYS_TRUE(GetAndClearException(cx, &selfResolutionError));
// Step 6.b.
return RejectMaybeWrappedPromise(cx, promise, selfResolutionError);
}
// Step 8.
RootedValue thenVal(cx);
bool status = GetProperty(cx, resolution, resolution, cx->names().then, &thenVal);
// Step 9.
if (!status) {
RootedValue error(cx);
if (!MaybeGetAndClearException(cx, &error))
return false;
return RejectMaybeWrappedPromise(cx, promise, error);
}
// Step 10 (implicit).
// Step 11.
if (!IsCallable(thenVal))
return FulfillMaybeWrappedPromise(cx, promise, resolutionVal);
// Step 12.
RootedValue promiseVal(cx, ObjectValue(*promise));
if (!EnqueuePromiseResolveThenableJob(cx, promiseVal, resolutionVal, thenVal))
return false;
// Step 13.
return true;
}
// ES2016, 25.4.1.3.2.
static bool
ResolvePromiseFunction(JSContext* cx, unsigned argc, Value* vp)
{
CallArgs args = CallArgsFromVp(argc, vp);
RootedFunction resolve(cx, &args.callee().as<JSFunction>());
RootedValue resolutionVal(cx, args.get(0));
// Steps 3-4 (reordered).
// We use the reference to the reject function as a signal for whether
// the resolve or reject function was already called, at which point
// the references on each of the functions are cleared.
if (!resolve->getExtendedSlot(ResolveFunctionSlot_RejectFunction).isObject()) {
args.rval().setUndefined();
return true;
}
// Steps 1-2 (reordered).
RootedObject promise(cx, &resolve->getExtendedSlot(ResolveFunctionSlot_Promise).toObject());
// Step 5.
// Here, we only remove the Promise reference from the resolution
// functions. Actually marking it as fulfilled/rejected happens later.
ClearResolutionFunctionSlots(resolve);
// In some cases the Promise reference on the resolution function won't
// have been removed during resolution, so we need to check that here,
// too.
if (promise->is<PromiseObject>() &&
promise->as<PromiseObject>().state() != JS::PromiseState::Pending)
{
return true;
}
// Steps 6-13.
if (!ResolvePromiseInternal(cx, promise, resolutionVal))
return false;
args.rval().setUndefined();
return true;
}
static bool PromiseReactionJob(JSContext* cx, unsigned argc, Value* vp);
/**
* Tells the embedding to enqueue a Promise reaction job, based on
* three parameters:
* reactionObj - The reaction record.
* handlerArg_ - The first and only argument to pass to the handler invoked by
* the job. This will be stored on the reaction record.
* targetState - The PromiseState this reaction job targets. This decides
* whether the onFulfilled or onRejected handler is called.
*/
MOZ_MUST_USE static bool
EnqueuePromiseReactionJob(JSContext* cx, HandleObject reactionObj,
HandleValue handlerArg_, JS::PromiseState targetState)
{
// The reaction might have been stored on a Promise from another
// compartment, which means it would've been wrapped in a CCW.
// To properly handle that case here, unwrap it and enter its
// compartment, where the job creation should take place anyway.
Rooted<PromiseReactionRecord*> reaction(cx);
RootedValue handlerArg(cx, handlerArg_);
mozilla::Maybe<AutoCompartment> ac;
if (!IsProxy(reactionObj)) {
MOZ_RELEASE_ASSERT(reactionObj->is<PromiseReactionRecord>());
reaction = &reactionObj->as<PromiseReactionRecord>();
} else {
if (JS_IsDeadWrapper(UncheckedUnwrap(reactionObj))) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_DEAD_OBJECT);
return false;
}
reaction = &UncheckedUnwrap(reactionObj)->as<PromiseReactionRecord>();
MOZ_RELEASE_ASSERT(reaction->is<PromiseReactionRecord>());
ac.emplace(cx, reaction);
if (!reaction->compartment()->wrap(cx, &handlerArg))
return false;
}
// Must not enqueue a reaction job more than once.
MOZ_ASSERT(reaction->targetState() == JS::PromiseState::Pending);
assertSameCompartment(cx, handlerArg);
reaction->setHandlerArg(handlerArg.get());
RootedValue reactionVal(cx, ObjectValue(*reaction));
reaction->setTargetState(targetState);
RootedValue handler(cx, reaction->handler());
// If we have a handler callback, we enter that handler's compartment so
// that the promise reaction job function is created in that compartment.
// That guarantees that the embedding ends up with the right entry global.
// This is relevant for some html APIs like fetch that derive information
// from said global.
mozilla::Maybe<AutoCompartment> ac2;
if (handler.isObject()) {
RootedObject handlerObj(cx, &handler.toObject());
// The unwrapping has to be unchecked because we specifically want to
// be able to use handlers with wrappers that would only allow calls.
// E.g., it's ok to have a handler from a chrome compartment in a
// reaction to a content compartment's Promise instance.
handlerObj = UncheckedUnwrap(handlerObj);
MOZ_ASSERT(handlerObj);
ac2.emplace(cx, handlerObj);
// We need to wrap the reaction to store it on the job function.
if (!cx->compartment()->wrap(cx, &reactionVal))
return false;
}
// Create the JS function to call when the job is triggered.
RootedAtom funName(cx, cx->names().empty);
RootedFunction job(cx, NewNativeFunction(cx, PromiseReactionJob, 0, funName,
gc::AllocKind::FUNCTION_EXTENDED, GenericObject));
if (!job)
return false;
// Store the reaction on the reaction job.
job->setExtendedSlot(ReactionJobSlot_ReactionRecord, reactionVal);
// When using JS::AddPromiseReactions, no actual promise is created, so we
// might not have one here.
// Additionally, we might have an object here that isn't an instance of
// Promise. This can happen if content overrides the value of
// Promise[@@species] (or invokes Promise#then on a Promise subclass
// instance with a non-default @@species value on the constructor) with a
// function that returns objects that're not Promise (subclass) instances.
// In that case, we just pretend we didn't have an object in the first
// place.
// If after all this we do have an object, wrap it in case we entered the
// handler's compartment above, because we should pass objects from a
// single compartment to the enqueuePromiseJob callback.
RootedObject promise(cx, reaction->promise());
if (promise && promise->is<PromiseObject>()) {
if (!cx->compartment()->wrap(cx, &promise))
return false;
}
// Using objectFromIncumbentGlobal, we can derive the incumbent global by
// unwrapping and then getting the global. This is very convoluted, but
// much better than having to store the original global as a private value
// because we couldn't wrap it to store it as a normal JS value.
RootedObject global(cx);
RootedObject objectFromIncumbentGlobal(cx, reaction->incumbentGlobalObject());
if (objectFromIncumbentGlobal) {
objectFromIncumbentGlobal = CheckedUnwrap(objectFromIncumbentGlobal);
MOZ_ASSERT(objectFromIncumbentGlobal);
global = &objectFromIncumbentGlobal->global();
}
// Note: the global we pass here might be from a different compartment
// than job and promise. While it's somewhat unusual to pass objects
// from multiple compartments, in this case we specifically need the
// global to be unwrapped because wrapping and unwrapping aren't
// necessarily symmetric for globals.
return cx->runtime()->enqueuePromiseJob(cx, job, promise, global);
}
static MOZ_MUST_USE bool TriggerPromiseReactions(JSContext* cx, HandleValue reactionsVal,
JS::PromiseState state, HandleValue valueOrReason);
// ES2016, Commoned-out implementation of 25.4.1.4. and 25.4.1.7.
static MOZ_MUST_USE bool
ResolvePromise(JSContext* cx, Handle<PromiseObject*> promise, HandleValue valueOrReason,
JS::PromiseState state)
{
// Step 1.
MOZ_ASSERT(promise->state() == JS::PromiseState::Pending);
MOZ_ASSERT(state == JS::PromiseState::Fulfilled || state == JS::PromiseState::Rejected);
// Step 2.
// We only have one list of reactions for both resolution types. So
// instead of getting the right list of reactions, we determine the
// resolution type to retrieve the right information from the
// reaction records.
RootedValue reactionsVal(cx, promise->getFixedSlot(PromiseSlot_ReactionsOrResult));
// Steps 3-5.
// The same slot is used for the reactions list and the result, so setting
// the result also removes the reactions list.
promise->setFixedSlot(PromiseSlot_ReactionsOrResult, valueOrReason);
// Step 6.
int32_t flags = promise->getFixedSlot(PromiseSlot_Flags).toInt32();
flags |= PROMISE_FLAG_RESOLVED;
if (state == JS::PromiseState::Fulfilled)
flags |= PROMISE_FLAG_FULFILLED;
promise->setFixedSlot(PromiseSlot_Flags, Int32Value(flags));
// Also null out the resolve/reject functions so they can be GC'd.
promise->setFixedSlot(PromiseSlot_RejectFunction, UndefinedValue());
// Now that everything else is done, do the things the debugger needs.
// Step 7 of RejectPromise implemented in onSettled.
PromiseObject::onSettled(cx, promise);
// Step 7 of FulfillPromise.
// Step 8 of RejectPromise.
if (reactionsVal.isObject())
return TriggerPromiseReactions(cx, reactionsVal, state, valueOrReason);
return true;
}
// ES2016, 25.4.1.4.
static MOZ_MUST_USE bool
FulfillMaybeWrappedPromise(JSContext *cx, HandleObject promiseObj, HandleValue value_)
{
Rooted<PromiseObject*> promise(cx);
RootedValue value(cx, value_);
mozilla::Maybe<AutoCompartment> ac;
if (!IsProxy(promiseObj)) {
promise = &promiseObj->as<PromiseObject>();
} else {
if (JS_IsDeadWrapper(UncheckedUnwrap(promiseObj))) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_DEAD_OBJECT);
return false;
}
promise = &UncheckedUnwrap(promiseObj)->as<PromiseObject>();
ac.emplace(cx, promise);
if (!promise->compartment()->wrap(cx, &value))
return false;
}
MOZ_ASSERT(promise->state() == JS::PromiseState::Pending);
return ResolvePromise(cx, promise, value, JS::PromiseState::Fulfilled);
}
static bool GetCapabilitiesExecutor(JSContext* cx, unsigned argc, Value* vp);
static bool PromiseConstructor(JSContext* cx, unsigned argc, Value* vp);
static MOZ_MUST_USE PromiseObject* CreatePromiseObjectInternal(JSContext* cx,
HandleObject proto = nullptr,
bool protoIsWrapped = false,
bool informDebugger = true);
enum GetCapabilitiesExecutorSlots {
GetCapabilitiesExecutorSlots_Resolve,
GetCapabilitiesExecutorSlots_Reject
};
static MOZ_MUST_USE PromiseObject*
CreatePromiseObjectWithoutResolutionFunctions(JSContext* cx)
{
Rooted<PromiseObject*> promise(cx, CreatePromiseObjectInternal(cx));
if (!promise)
return nullptr;
AddPromiseFlags(*promise, PROMISE_FLAG_DEFAULT_RESOLVE_FUNCTION |
PROMISE_FLAG_DEFAULT_REJECT_FUNCTION);
return promise;
}
// ES2016, 25.4.1.5.
static MOZ_MUST_USE bool
NewPromiseCapability(JSContext* cx, HandleObject C, MutableHandleObject promise,
MutableHandleObject resolve, MutableHandleObject reject,
bool canOmitResolutionFunctions)
{
RootedValue cVal(cx, ObjectValue(*C));
// Steps 1-2.
if (!IsConstructor(C)) {
ReportValueError(cx, JSMSG_NOT_CONSTRUCTOR, -1, cVal, nullptr);
return false;
}
// If we'd call the original Promise constructor and know that the
// resolve/reject functions won't ever escape to content, we can skip
// creating and calling the executor function and instead return a Promise
// marked as having default resolve/reject functions.
//
// This can't be used in Promise.all and Promise.race because we have to
// pass the reject (and resolve, in the race case) function to thenables
// in the list passed to all/race, which (potentially) means exposing them
// to content.
if (canOmitResolutionFunctions && IsNativeFunction(cVal, PromiseConstructor)) {
promise.set(CreatePromiseObjectWithoutResolutionFunctions(cx));
if (!promise)
return false;
return true;
}
// Step 3 (omitted).
// Step 4.
RootedAtom funName(cx, cx->names().empty);
RootedFunction executor(cx, NewNativeFunction(cx, GetCapabilitiesExecutor, 2, funName,
gc::AllocKind::FUNCTION_EXTENDED, GenericObject));
if (!executor)
return false;
// Step 5 (omitted).
// Step 6.
FixedConstructArgs<1> cargs(cx);
cargs[0].setObject(*executor);
if (!Construct(cx, cVal, cargs, cVal, promise))
return false;
// Step 7.
RootedValue resolveVal(cx, executor->getExtendedSlot(GetCapabilitiesExecutorSlots_Resolve));
if (!IsCallable(resolveVal)) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr,
JSMSG_PROMISE_RESOLVE_FUNCTION_NOT_CALLABLE);
return false;
}
// Step 8.
RootedValue rejectVal(cx, executor->getExtendedSlot(GetCapabilitiesExecutorSlots_Reject));
if (!IsCallable(rejectVal)) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr,
JSMSG_PROMISE_REJECT_FUNCTION_NOT_CALLABLE);
return false;
}
// Step 9 (well, the equivalent for all of promiseCapabilities' fields.)
resolve.set(&resolveVal.toObject());
reject.set(&rejectVal.toObject());
// Step 10.
return true;
}
// ES2016, 25.4.1.5.1.
static bool
GetCapabilitiesExecutor(JSContext* cx, unsigned argc, Value* vp)
{
CallArgs args = CallArgsFromVp(argc, vp);
RootedFunction F(cx, &args.callee().as<JSFunction>());
// Steps 1-2 (implicit).
// Steps 3-4.
if (!F->getExtendedSlot(GetCapabilitiesExecutorSlots_Resolve).isUndefined() ||
!F->getExtendedSlot(GetCapabilitiesExecutorSlots_Reject).isUndefined())
{
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr,
JSMSG_PROMISE_CAPABILITY_HAS_SOMETHING_ALREADY);
return false;
}
// Step 5.
F->setExtendedSlot(GetCapabilitiesExecutorSlots_Resolve, args.get(0));
// Step 6.
F->setExtendedSlot(GetCapabilitiesExecutorSlots_Reject, args.get(1));
// Step 7.
args.rval().setUndefined();
return true;
}
// ES2016, 25.4.1.7.
static MOZ_MUST_USE bool
RejectMaybeWrappedPromise(JSContext *cx, HandleObject promiseObj, HandleValue reason_)
{
Rooted<PromiseObject*> promise(cx);
RootedValue reason(cx, reason_);
mozilla::Maybe<AutoCompartment> ac;
if (!IsProxy(promiseObj)) {
promise = &promiseObj->as<PromiseObject>();
} else {
if (JS_IsDeadWrapper(UncheckedUnwrap(promiseObj))) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_DEAD_OBJECT);
return false;
}
promise = &UncheckedUnwrap(promiseObj)->as<PromiseObject>();
ac.emplace(cx, promise);
// The rejection reason might've been created in a compartment with higher
// privileges than the Promise's. In that case, object-type rejection
// values might be wrapped into a wrapper that throws whenever the
// Promise's reaction handler wants to do anything useful with it. To
// avoid that situation, we synthesize a generic error that doesn't
// expose any privileged information but can safely be used in the
// rejection handler.
if (!promise->compartment()->wrap(cx, &reason))
return false;
if (reason.isObject() && !CheckedUnwrap(&reason.toObject())) {
// Async stacks are only properly adopted if there's at least one
// interpreter frame active right now. If a thenable job with a
// throwing `then` function got us here, that'll not be the case,
// so we add one by throwing the error from self-hosted code.
if (!GetInternalError(cx, JSMSG_PROMISE_ERROR_IN_WRAPPED_REJECTION_REASON, &reason))
return false;
}
}
MOZ_ASSERT(promise->state() == JS::PromiseState::Pending);
return ResolvePromise(cx, promise, reason, JS::PromiseState::Rejected);
}
// ES2016, 25.4.1.8.
static MOZ_MUST_USE bool
TriggerPromiseReactions(JSContext* cx, HandleValue reactionsVal, JS::PromiseState state,
HandleValue valueOrReason)
{
RootedObject reactions(cx, &reactionsVal.toObject());
RootedObject reaction(cx);
if (reactions->is<PromiseReactionRecord>() || IsWrapper(reactions))
return EnqueuePromiseReactionJob(cx, reactions, valueOrReason, state);
RootedNativeObject reactionsList(cx, &reactions->as<NativeObject>());
size_t reactionsCount = reactionsList->getDenseInitializedLength();
MOZ_ASSERT(reactionsCount > 1, "Reactions list should be created lazily");
for (size_t i = 0; i < reactionsCount; i++) {
reaction = &reactionsList->getDenseElement(i).toObject();
if (!EnqueuePromiseReactionJob(cx, reaction, valueOrReason, state))
return false;
}
return true;
}
static MOZ_MUST_USE bool
AsyncFunctionAwaitPromiseReactionJob(JSContext* cx, Handle<PromiseReactionRecord*> reaction,
MutableHandleValue rval)
{
MOZ_ASSERT(reaction->isAsyncFunctionAwait());
RootedValue handlerVal(cx, reaction->handler());
RootedValue argument(cx, reaction->handlerArg());
Rooted<PromiseObject*> resultPromise(cx, &reaction->promise()->as<PromiseObject>());
RootedValue generatorVal(cx, resultPromise->getFixedSlot(PromiseSlot_AwaitGenerator));
int32_t handlerNum = int32_t(handlerVal.toNumber());
MOZ_ASSERT(handlerNum == PromiseHandlerAsyncFunctionAwaitFulfilled ||
handlerNum == PromiseHandlerAsyncFunctionAwaitRejected);
// Await's handlers don't return a value, nor throw exception.
// They fail only on OOM.
if (handlerNum == PromiseHandlerAsyncFunctionAwaitFulfilled) {
if (!AsyncFunctionAwaitedFulfilled(cx, resultPromise, generatorVal, argument))
return false;
} else {
if (!AsyncFunctionAwaitedRejected(cx, resultPromise, generatorVal, argument))
return false;
}
rval.setUndefined();
return true;
}
static MOZ_MUST_USE bool
AsyncGeneratorAwaitPromiseReactionJob(JSContext* cx, Handle<PromiseReactionRecord*> reaction,
MutableHandleValue rval)
{
MOZ_ASSERT(reaction->isAsyncGeneratorAwait());
RootedValue handlerVal(cx, reaction->handler());
RootedValue argument(cx, reaction->handlerArg());
Rooted<AsyncGeneratorObject*> asyncGenObj(cx, reaction->asyncGenerator());
int32_t handlerNum = int32_t(handlerVal.toNumber());
MOZ_ASSERT(handlerNum == PromiseHandlerAsyncGeneratorAwaitFulfilled ||
handlerNum == PromiseHandlerAsyncGeneratorAwaitRejected);
// Await's handlers don't return a value, nor throw exception.
// They fail only on OOM.
if (handlerNum == PromiseHandlerAsyncGeneratorAwaitFulfilled) {
if (!AsyncGeneratorAwaitedFulfilled(cx, asyncGenObj, argument))
return false;
} else {
if (!AsyncGeneratorAwaitedRejected(cx, asyncGenObj, argument))
return false;
}
rval.setUndefined();
return true;
}
// ES2016, 25.4.2.1.
/**
* Callback triggering the fulfill/reject reaction for a resolved Promise,
* to be invoked by the embedding during its processing of the Promise job
* queue.
*
* See http://www.ecma-international.org/ecma-262/7.0/index.html#sec-jobs-and-job-queues
*
* A PromiseReactionJob is set as the native function of an extended
* JSFunction object, with all information required for the job's
* execution stored in in a reaction record in its first extended slot.
*/
static bool
PromiseReactionJob(JSContext* cx, unsigned argc, Value* vp)
{
CallArgs args = CallArgsFromVp(argc, vp);
RootedFunction job(cx, &args.callee().as<JSFunction>());
RootedObject reactionObj(cx, &job->getExtendedSlot(ReactionJobSlot_ReactionRecord).toObject());
// To ensure that the embedding ends up with the right entry global, we're
// guaranteeing that the reaction job function gets created in the same
// compartment as the handler function. That's not necessarily the global
// that the job was triggered from, though.
// We can find the triggering global via the job's reaction record. To go
// back, we check if the reaction is a wrapper and if so, unwrap it and
// enter its compartment.
mozilla::Maybe<AutoCompartment> ac;
if (!IsProxy(reactionObj)) {
MOZ_RELEASE_ASSERT(reactionObj->is<PromiseReactionRecord>());
} else {
reactionObj = UncheckedUnwrap(reactionObj);
if (JS_IsDeadWrapper(reactionObj)) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_DEAD_OBJECT);
return false;
}
MOZ_RELEASE_ASSERT(reactionObj->is<PromiseReactionRecord>());
ac.emplace(cx, reactionObj);
}
// Steps 1-2.
Rooted<PromiseReactionRecord*> reaction(cx, &reactionObj->as<PromiseReactionRecord>());
if (reaction->isAsyncFunctionAwait())
return AsyncFunctionAwaitPromiseReactionJob(cx, reaction, args.rval());
if (reaction->isAsyncGeneratorAwait())
return AsyncGeneratorAwaitPromiseReactionJob(cx, reaction, args.rval());
// Step 3.
RootedValue handlerVal(cx, reaction->handler());
RootedValue argument(cx, reaction->handlerArg());
RootedValue handlerResult(cx);
ResolutionMode resolutionMode = ResolveMode;
// Steps 4-6.
if (handlerVal.isNumber()) {
int32_t handlerNum = int32_t(handlerVal.toNumber());
// Step 4.
if (handlerNum == PromiseHandlerIdentity) {
handlerResult = argument;
} else if (handlerNum == PromiseHandlerThrower) {
// Step 5.
resolutionMode = RejectMode;
handlerResult = argument;
} else {
MOZ_ASSERT(handlerNum == PromiseHandlerAsyncIteratorValueUnwrapDone ||
handlerNum == PromiseHandlerAsyncIteratorValueUnwrapNotDone);
bool done = handlerNum == PromiseHandlerAsyncIteratorValueUnwrapDone;
// Async Iteration proposal 6.1.1.2.1 step 1.
RootedObject resultObj(cx, CreateIterResultObject(cx, argument, done));
if (!resultObj)
return false;
handlerResult = ObjectValue(*resultObj);
}
} else {
// Step 6.
FixedInvokeArgs<1> args2(cx);
args2[0].set(argument);
if (!Call(cx, handlerVal, UndefinedHandleValue, args2, &handlerResult)) {
resolutionMode = RejectMode;
if (!MaybeGetAndClearException(cx, &handlerResult))
return false;
}
}
// Steps 7-9.
size_t hookSlot = resolutionMode == RejectMode
? ReactionRecordSlot_Reject
: ReactionRecordSlot_Resolve;
RootedObject callee(cx, reaction->getFixedSlot(hookSlot).toObjectOrNull());
RootedObject promiseObj(cx, reaction->promise());
if (!RunResolutionFunction(cx, callee, handlerResult, resolutionMode, promiseObj))
return false;
args.rval().setUndefined();
return true;
}
// ES2016, 25.4.2.2.
/**
* Callback for resolving a thenable, to be invoked by the embedding during
* its processing of the Promise job queue.
*
* See http://www.ecma-international.org/ecma-262/7.0/index.html#sec-jobs-and-job-queues
*
* A PromiseResolveThenableJob is set as the native function of an extended
* JSFunction object, with all information required for the job's
* execution stored in the function's extended slots.
*
* Usage of the function's extended slots is as follows:
* ThenableJobSlot_Handler: The handler to use as the Promise reaction.
* This can be PromiseHandlerIdentity,
* PromiseHandlerThrower, or a callable. In the
* latter case, it's guaranteed to be an object
* from the same compartment as the
* PromiseReactionJob.
* ThenableJobSlot_JobData: JobData - a, potentially CCW-wrapped, dense list
* containing data required for proper execution of
* the reaction.
*
* The JobData list has the following entries:
* ThenableJobDataSlot_Promise: The Promise to resolve using the given
* thenable.
* ThenableJobDataSlot_Thenable: The thenable to use as the receiver when
* calling the `then` function.
*/
static bool
PromiseResolveThenableJob(JSContext* cx, unsigned argc, Value* vp)
{
CallArgs args = CallArgsFromVp(argc, vp);
RootedFunction job(cx, &args.callee().as<JSFunction>());
RootedValue then(cx, job->getExtendedSlot(ThenableJobSlot_Handler));
MOZ_ASSERT(!IsWrapper(&then.toObject()));
RootedNativeObject jobArgs(cx, &job->getExtendedSlot(ThenableJobSlot_JobData)
.toObject().as<NativeObject>());
RootedValue promise(cx, jobArgs->getDenseElement(ThenableJobDataIndex_Promise));
RootedValue thenable(cx, jobArgs->getDenseElement(ThenableJobDataIndex_Thenable));
// Step 1.
RootedValue resolveVal(cx);
RootedValue rejectVal(cx);
if (!CreateResolvingFunctions(cx, promise, &resolveVal, &rejectVal))
return false;
// Step 2.
FixedInvokeArgs<2> args2(cx);
args2[0].set(resolveVal);
args2[1].set(rejectVal);
RootedValue rval(cx);
// In difference to the usual pattern, we return immediately on success.
if (Call(cx, then, thenable, args2, &rval))
return true;
if (!MaybeGetAndClearException(cx, &rval))
return false;
FixedInvokeArgs<1> rejectArgs(cx);
rejectArgs[0].set(rval);
return Call(cx, rejectVal, UndefinedHandleValue, rejectArgs, &rval);
}
/**
* Tells the embedding to enqueue a Promise resolve thenable job, based on
* three parameters:
* promiseToResolve_ - The promise to resolve, obviously.
* thenable_ - The thenable to resolve the Promise with.
* thenVal - The `then` function to invoke with the `thenable` as the receiver.
*/
static MOZ_MUST_USE bool
EnqueuePromiseResolveThenableJob(JSContext* cx, HandleValue promiseToResolve_,
HandleValue thenable_, HandleValue thenVal)
{
// Need to re-root these to enable wrapping them below.
RootedValue promiseToResolve(cx, promiseToResolve_);
RootedValue thenable(cx, thenable_);
// We enter the `then` callable's compartment so that the job function is
// created in that compartment.
// That guarantees that the embedding ends up with the right entry global.
// This is relevant for some html APIs like fetch that derive information
// from said global.
RootedObject then(cx, CheckedUnwrap(&thenVal.toObject()));
AutoCompartment ac(cx, then);
RootedAtom funName(cx, cx->names().empty);
RootedFunction job(cx, NewNativeFunction(cx, PromiseResolveThenableJob, 0, funName,
gc::AllocKind::FUNCTION_EXTENDED, GenericObject));
if (!job)
return false;
// Store the `then` function on the callback.
job->setExtendedSlot(ThenableJobSlot_Handler, ObjectValue(*then));
// Create a dense array to hold the data needed for the reaction job to
// work.
// See the doc comment for PromiseResolveThenableJob for the layout.
RootedArrayObject data(cx, NewDenseFullyAllocatedArray(cx, ThenableJobDataLength));
if (!data ||
data->ensureDenseElements(cx, 0, ThenableJobDataLength) != DenseElementResult::Success)
{
return false;
}
// Wrap and set the `promiseToResolve` argument.
if (!cx->compartment()->wrap(cx, &promiseToResolve))
return false;
data->setDenseElement(ThenableJobDataIndex_Promise, promiseToResolve);
// At this point the promise is guaranteed to be wrapped into the job's
// compartment.
RootedObject promise(cx, &promiseToResolve.toObject());
// Wrap and set the `thenable` argument.
MOZ_ASSERT(thenable.isObject());
if (!cx->compartment()->wrap(cx, &thenable))
return false;
data->setDenseElement(ThenableJobDataIndex_Thenable, thenable);
// Store the data array on the reaction job.
job->setExtendedSlot(ThenableJobSlot_JobData, ObjectValue(*data));
RootedObject incumbentGlobal(cx, cx->runtime()->getIncumbentGlobal(cx));
return cx->runtime()->enqueuePromiseJob(cx, job, promise, incumbentGlobal);
}
static MOZ_MUST_USE bool
AddPromiseReaction(JSContext* cx, Handle<PromiseObject*> promise, HandleValue onFulfilled,
HandleValue onRejected, HandleObject dependentPromise,
HandleObject resolve, HandleObject reject, HandleObject incumbentGlobal);
static MOZ_MUST_USE bool
AddPromiseReaction(JSContext* cx, Handle<PromiseObject*> promise,
Handle<PromiseReactionRecord*> reaction);
static MOZ_MUST_USE bool BlockOnPromise(JSContext* cx, HandleValue promise,
HandleObject blockedPromise,
HandleValue onFulfilled, HandleValue onRejected);
static JSFunction*
GetResolveFunctionFromReject(JSFunction* reject)
{
MOZ_ASSERT(reject->maybeNative() == RejectPromiseFunction);
Value resolveFunVal = reject->getExtendedSlot(RejectFunctionSlot_ResolveFunction);
MOZ_ASSERT(IsNativeFunction(resolveFunVal, ResolvePromiseFunction));
return &resolveFunVal.toObject().as<JSFunction>();
}
static JSFunction*
GetRejectFunctionFromResolve(JSFunction* resolve)
{
MOZ_ASSERT(resolve->maybeNative() == ResolvePromiseFunction);
Value rejectFunVal = resolve->getExtendedSlot(ResolveFunctionSlot_RejectFunction);
MOZ_ASSERT(IsNativeFunction(rejectFunVal, RejectPromiseFunction));
return &rejectFunVal.toObject().as<JSFunction>();
}
static JSFunction*
GetResolveFunctionFromPromise(PromiseObject* promise)
{
Value rejectFunVal = promise->getFixedSlot(PromiseSlot_RejectFunction);
if (rejectFunVal.isUndefined())
return nullptr;
JSObject* rejectFunObj = &rejectFunVal.toObject();
// We can safely unwrap it because all we want is to get the resolve
// function.
if (IsWrapper(rejectFunObj))
rejectFunObj = UncheckedUnwrap(rejectFunObj);
if (!rejectFunObj->is<JSFunction>())
return nullptr;
JSFunction* rejectFun = &rejectFunObj->as<JSFunction>();
// Only the original RejectPromiseFunction has a reference to the resolve
// function.
if (rejectFun->maybeNative() != &RejectPromiseFunction)
return nullptr;
return GetResolveFunctionFromReject(rejectFun);
}
static void
ClearResolutionFunctionSlots(JSFunction* resolutionFun)
{
JSFunction* resolve;
JSFunction* reject;
if (resolutionFun->maybeNative() == ResolvePromiseFunction) {
resolve = resolutionFun;
reject = GetRejectFunctionFromResolve(resolutionFun);
} else {
resolve = GetResolveFunctionFromReject(resolutionFun);
reject = resolutionFun;
}
resolve->setExtendedSlot(ResolveFunctionSlot_Promise, UndefinedValue());
resolve->setExtendedSlot(ResolveFunctionSlot_RejectFunction, UndefinedValue());
reject->setExtendedSlot(RejectFunctionSlot_Promise, UndefinedValue());
reject->setExtendedSlot(RejectFunctionSlot_ResolveFunction, UndefinedValue());
}
// ES2016, 25.4.3.1. steps 3-7.
static MOZ_MUST_USE PromiseObject*
CreatePromiseObjectInternal(JSContext* cx, HandleObject proto /* = nullptr */,
bool protoIsWrapped /* = false */, bool informDebugger /* = true */)
{
// Step 3.
Rooted<PromiseObject*> promise(cx);
// Enter the unwrapped proto's compartment, if that's different from
// the current one.
// All state stored in a Promise's fixed slots must be created in the
// same compartment, so we get all of that out of the way here.
// (Except for the resolution functions, which are created below.)
mozilla::Maybe<AutoCompartment> ac;
if (protoIsWrapped)
ac.emplace(cx, proto);
promise = NewObjectWithClassProto<PromiseObject>(cx, proto);
if (!promise)
return nullptr;
// Step 4.
promise->setFixedSlot(PromiseSlot_Flags, Int32Value(0));
// Steps 5-6.
// Omitted, we allocate our single list of reaction records lazily.
// Step 7.
// Implicit, the handled flag is unset by default.
// Store an allocation stack so we can later figure out what the
// control flow was for some unexpected results. Frightfully expensive,
// but oh well.
RootedObject stack(cx);
if (cx->options().asyncStack() || cx->compartment()->isDebuggee()) {
if (!JS::CaptureCurrentStack(cx, &stack, JS::StackCapture(JS::AllFrames())))
return nullptr;
}
promise->setFixedSlot(PromiseSlot_AllocationSite, ObjectOrNullValue(stack));
promise->setFixedSlot(PromiseSlot_AllocationTime, DoubleValue(MillisecondsSinceStartup()));
// Let the Debugger know about this Promise.
if (informDebugger)
JS::dbg::onNewPromise(cx, promise);
return promise;
}
// ES2016, 25.4.3.1.
static bool
PromiseConstructor(JSContext* cx, unsigned argc, Value* vp)
{
CallArgs args = CallArgsFromVp(argc, vp);
// Step 1.
if (!ThrowIfNotConstructing(cx, args, "Promise"))
return false;
// Step 2.
RootedValue executorVal(cx, args.get(0));
if (!IsCallable(executorVal))
return ReportIsNotFunction(cx, executorVal);
RootedObject executor(cx, &executorVal.toObject());
// Steps 3-10.
RootedObject newTarget(cx, &args.newTarget().toObject());
RootedObject originalNewTarget(cx, newTarget);
bool needsWrapping = false;
// If the constructor is called via an Xray wrapper, then the newTarget
// hasn't been unwrapped. We want that because, while the actual instance
// should be created in the target compartment, the constructor's code
// should run in the wrapper's compartment.
//
// This is so that the resolve and reject callbacks get created in the
// wrapper's compartment, which is required for code in that compartment
// to freely interact with it, and, e.g., pass objects as arguments, which
// it wouldn't be able to if the callbacks were themselves wrapped in Xray
// wrappers.
//
// At the same time, just creating the Promise itself in the wrapper's
// compartment wouldn't be helpful: if the wrapper forbids interactions
// with objects except for specific actions, such as calling them, then
// the code we want to expose it to can't actually treat it as a Promise:
// calling .then on it would throw, for example.
//
// Another scenario where it's important to create the Promise in a
// different compartment from the resolution functions is when we want to
// give non-privileged code a Promise resolved with the result of a
// Promise from privileged code; as a return value of a JS-implemented
// API, say. If the resolution functions were unprivileged, then resolving
// with a privileged Promise would cause `resolve` to attempt accessing
// .then on the passed Promise, which would throw an exception, so we'd
// just end up with a rejected Promise. Really, we want to chain the two
// Promises, with the unprivileged one resolved with the resolution of the
// privileged one.
if (IsWrapper(newTarget)) {
newTarget = CheckedUnwrap(newTarget);
MOZ_ASSERT(newTarget);
MOZ_ASSERT(newTarget != originalNewTarget);
{
AutoCompartment ac(cx, newTarget);
RootedObject promiseCtor(cx);
if (!GetBuiltinConstructor(cx, JSProto_Promise, &promiseCtor))
return false;
// Promise subclasses don't get the special Xray treatment, so
// we only need to do the complex wrapping and unwrapping scheme
// described above for instances of Promise itself.
if (newTarget == promiseCtor)
needsWrapping = true;
}
}
RootedObject proto(cx);
if (!GetPrototypeFromConstructor(cx, needsWrapping ? newTarget : originalNewTarget, &proto))
return false;
if (needsWrapping && !cx->compartment()->wrap(cx, &proto))
return false;
Rooted<PromiseObject*> promise(cx, PromiseObject::create(cx, executor, proto, needsWrapping));
if (!promise)
return false;
// Step 11.
args.rval().setObject(*promise);
if (needsWrapping)
return cx->compartment()->wrap(cx, args.rval());
return true;
}
// ES2016, 25.4.3.1. steps 3-11.
/* static */ PromiseObject*
PromiseObject::create(JSContext* cx, HandleObject executor, HandleObject proto /* = nullptr */,
bool needsWrapping /* = false */)
{
MOZ_ASSERT(executor->isCallable());
RootedObject usedProto(cx, proto);
// If the proto is wrapped, that means the current function is running
// with a different compartment active from the one the Promise instance
// is to be created in.
// See the comment in PromiseConstructor for details.
if (needsWrapping) {
MOZ_ASSERT(proto);
usedProto = CheckedUnwrap(proto);
if (!usedProto)
return nullptr;
}
// Steps 3-7.
Rooted<PromiseObject*> promise(cx, CreatePromiseObjectInternal(cx, usedProto, needsWrapping,
false));
if (!promise)
return nullptr;
RootedValue promiseVal(cx, ObjectValue(*promise));
if (needsWrapping && !cx->compartment()->wrap(cx, &promiseVal))
return nullptr;
// Step 8.
// The resolving functions are created in the compartment active when the
// (maybe wrapped) Promise constructor was called. They contain checks and
// can unwrap the Promise if required.
RootedValue resolveVal(cx);
RootedValue rejectVal(cx);
if (!CreateResolvingFunctions(cx, promiseVal, &resolveVal, &rejectVal))
return nullptr;
// Need to wrap the resolution functions before storing them on the Promise.
if (needsWrapping) {
AutoCompartment ac(cx, promise);
RootedValue wrappedRejectVal(cx, rejectVal);
if (!cx->compartment()->wrap(cx, &wrappedRejectVal))
return nullptr;
promise->setFixedSlot(PromiseSlot_RejectFunction, wrappedRejectVal);
} else {
promise->setFixedSlot(PromiseSlot_RejectFunction, rejectVal);
}
// Step 9.
bool success;
{
FixedInvokeArgs<2> args(cx);
args[0].set(resolveVal);
args[1].set(rejectVal);
RootedValue calleeOrRval(cx, ObjectValue(*executor));
success = Call(cx, calleeOrRval, UndefinedHandleValue, args, &calleeOrRval);
}
// Step 10.
if (!success) {
RootedValue exceptionVal(cx);
if (!MaybeGetAndClearException(cx, &exceptionVal))
return nullptr;
FixedInvokeArgs<1> args(cx);
args[0].set(exceptionVal);
// |rejectVal| is unused after this, so we can safely write to it.
if (!Call(cx, rejectVal, UndefinedHandleValue, args, &rejectVal))
return nullptr;
}
// Let the Debugger know about this Promise.
JS::dbg::onNewPromise(cx, promise);
// Step 11.
return promise;
}
// ES2016, 25.4.3.1. skipping creation of resolution functions and executor
// function invocation.
/* static */ PromiseObject*
PromiseObject::createSkippingExecutor(JSContext* cx)
{
return CreatePromiseObjectWithoutResolutionFunctions(cx);
}
static MOZ_MUST_USE bool PerformPromiseAll(JSContext *cx, JS::ForOfIterator& iterator,
HandleObject C, HandleObject promiseObj,
HandleObject resolve, HandleObject reject,
bool* done);
// ES2016, 25.4.4.1.
static bool
Promise_static_all(JSContext* cx, unsigned argc, Value* vp)
{
CallArgs args = CallArgsFromVp(argc, vp);
RootedValue iterable(cx, args.get(0));
// Step 2 (reordered).
RootedValue CVal(cx, args.thisv());
if (!CVal.isObject()) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_NOT_NONNULL_OBJECT,
"Receiver of Promise.all call");
return false;
}
// Step 1.
RootedObject C(cx, &CVal.toObject());
// Step 3.
RootedObject resultPromise(cx);
RootedObject resolve(cx);
RootedObject reject(cx);
if (!NewPromiseCapability(cx, C, &resultPromise, &resolve, &reject, false))
return false;
// Steps 4-5.
JS::ForOfIterator iter(cx);
if (!iter.init(iterable, JS::ForOfIterator::AllowNonIterable))
return AbruptRejectPromise(cx, args, resultPromise, reject);
if (!iter.valueIsIterable()) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_NOT_ITERABLE,
"Argument of Promise.all");
return AbruptRejectPromise(cx, args, resultPromise, reject);
}
// Step 6 (implicit).
// Step 7.
bool done;
bool result = PerformPromiseAll(cx, iter, C, resultPromise, resolve, reject, &done);
// Step 8.
if (!result) {
// Step 8.a.
if (!done)
iter.closeThrow();
// Step 8.b.
return AbruptRejectPromise(cx, args, resultPromise, reject);
}
// Step 9.
args.rval().setObject(*resultPromise);
return true;
}
static MOZ_MUST_USE bool PerformPromiseThen(JSContext* cx, Handle<PromiseObject*> promise,
HandleValue onFulfilled_, HandleValue onRejected_,
HandleObject resultPromise,
HandleObject resolve, HandleObject reject);
static bool PromiseAllResolveElementFunction(JSContext* cx, unsigned argc, Value* vp);
// Unforgeable version of ES2016, 25.4.4.1.
MOZ_MUST_USE JSObject*
js::GetWaitForAllPromise(JSContext* cx, const JS::AutoObjectVector& promises)
{
#ifdef DEBUG
for (size_t i = 0, len = promises.length(); i < len; i++) {
JSObject* obj = promises[i];
assertSameCompartment(cx, obj);
MOZ_ASSERT(UncheckedUnwrap(obj)->is<PromiseObject>());
}
#endif
// Step 1.
RootedObject C(cx, GlobalObject::getOrCreatePromiseConstructor(cx, cx->global()));
if (!C)
return nullptr;
// Step 2 (omitted).
// Step 3.
RootedObject resultPromise(cx);
RootedObject resolve(cx);
RootedObject reject(cx);
if (!NewPromiseCapability(cx, C, &resultPromise, &resolve, &reject, false))
return nullptr;
// Steps 4-6 (omitted).
// Step 7.
// Implemented as an inlined, simplied version of ES2016 25.4.4.1.1, PerformPromiseAll.
{
uint32_t promiseCount = promises.length();
// Sub-steps 1-2 (omitted).
// Sub-step 3.
RootedNativeObject valuesArray(cx, NewDenseFullyAllocatedArray(cx, promiseCount));
if (!valuesArray)
return nullptr;
if (valuesArray->ensureDenseElements(cx, 0, promiseCount) != DenseElementResult::Success)
return nullptr;
// Sub-step 4.
// Create our data holder that holds all the things shared across
// every step of the iterator. In particular, this holds the
// remainingElementsCount (as an integer reserved slot), the array of
// values, and the resolve function from our PromiseCapability.
RootedValue valuesArrayVal(cx, ObjectValue(*valuesArray));
Rooted<PromiseAllDataHolder*> dataHolder(cx, NewPromiseAllDataHolder(cx, resultPromise,
valuesArrayVal,
resolve));
if (!dataHolder)
return nullptr;
RootedValue dataHolderVal(cx, ObjectValue(*dataHolder));
// Sub-step 5 (inline in loop-header below).
// Sub-step 6.
for (uint32_t index = 0; index < promiseCount; index++) {
// Steps a-c (omitted).
// Step d (implemented after the loop).
// Steps e-g (omitted).
// Step h.
valuesArray->setDenseElement(index, UndefinedHandleValue);
// Step i, vastly simplified.
RootedObject nextPromiseObj(cx, promises[index]);
// Step j.
RootedFunction resolveFunc(cx, NewNativeFunction(cx, PromiseAllResolveElementFunction,
1, nullptr,
gc::AllocKind::FUNCTION_EXTENDED,
GenericObject));
if (!resolveFunc)
return nullptr;
// Steps k-o.
resolveFunc->setExtendedSlot(PromiseAllResolveElementFunctionSlot_Data, dataHolderVal);
resolveFunc->setExtendedSlot(PromiseAllResolveElementFunctionSlot_ElementIndex,
Int32Value(index));
// Step p.
dataHolder->increaseRemainingCount();
// Step q, very roughly.
RootedValue resolveFunVal(cx, ObjectValue(*resolveFunc));
RootedValue rejectFunVal(cx, ObjectValue(*reject));
Rooted<PromiseObject*> nextPromise(cx);
// GetWaitForAllPromise is used internally only and must not
// trigger content-observable effects when registering a reaction.
// It's also meant to work on wrapped Promises, potentially from
// compartments with principals inaccessible from the current
// compartment. To make that work, it unwraps promises with
// UncheckedUnwrap,
nextPromise = &UncheckedUnwrap(nextPromiseObj)->as<PromiseObject>();
if (!PerformPromiseThen(cx, nextPromise, resolveFunVal, rejectFunVal,
resultPromise, nullptr, nullptr))
{
return nullptr;
}
// Step r (inline in loop-header).
}
// Sub-step d.i (implicit).
// Sub-step d.ii.
int32_t remainingCount = dataHolder->decreaseRemainingCount();
// Sub-step d.iii-iv.
if (remainingCount == 0) {
RootedValue valuesArrayVal(cx, ObjectValue(*valuesArray));
if (!ResolvePromiseInternal(cx, resultPromise, valuesArrayVal))
return nullptr;
}
}
// Step 8 (omitted).
// Step 9.
return resultPromise;
}
static MOZ_MUST_USE bool
RunResolutionFunction(JSContext *cx, HandleObject resolutionFun, HandleValue result,
ResolutionMode mode, HandleObject promiseObj)
{
// The absence of a resolve/reject function can mean that, as an
// optimization, those weren't created. In that case, a flag is set on
// the Promise object. There are also reactions where the Promise
// itself is missing. For those, there's nothing left to do here.
assertSameCompartment(cx, resolutionFun);
assertSameCompartment(cx, result);
assertSameCompartment(cx, promiseObj);
if (resolutionFun) {
RootedValue calleeOrRval(cx, ObjectValue(*resolutionFun));
FixedInvokeArgs<1> resolveArgs(cx);
resolveArgs[0].set(result);
return Call(cx, calleeOrRval, UndefinedHandleValue, resolveArgs, &calleeOrRval);
}
if (!promiseObj)
return true;
Rooted<PromiseObject*> promise(cx, &promiseObj->as<PromiseObject>());
if (promise->state() != JS::PromiseState::Pending)
return true;
if (mode == ResolveMode) {
if (!PromiseHasAnyFlag(*promise, PROMISE_FLAG_DEFAULT_RESOLVE_FUNCTION))
return true;
return ResolvePromiseInternal(cx, promise, result);
}
if (!PromiseHasAnyFlag(*promise, PROMISE_FLAG_DEFAULT_REJECT_FUNCTION))
return true;
return RejectMaybeWrappedPromise(cx, promiseObj, result);
}
// ES2016, 25.4.4.1.1.
static MOZ_MUST_USE bool
PerformPromiseAll(JSContext *cx, JS::ForOfIterator& iterator, HandleObject C,
HandleObject promiseObj, HandleObject resolve, HandleObject reject,
bool* done)
{
*done = false;
RootedObject unwrappedPromiseObj(cx);
if (IsWrapper(promiseObj)) {
unwrappedPromiseObj = CheckedUnwrap(promiseObj);
MOZ_ASSERT(unwrappedPromiseObj);
}
// Step 1.
MOZ_ASSERT(C->isConstructor());
RootedValue CVal(cx, ObjectValue(*C));
// Step 2 (omitted).
// Step 3.
// We have to be very careful about which compartments we create things in
// here. In particular, we have to maintain the invariant that anything
// stored in a reserved slot is same-compartment with the object whose
// reserved slot it's in. But we want to create the values array in the
// Promise's compartment, because that array can get exposed to
// code that has access to the Promise (in particular code from
// that compartment), and that should work, even if the Promise
// compartment is less-privileged than our caller compartment.
//
// So the plan is as follows: Create the values array in the promise
// compartment. Create the PromiseAllResolveElement function
// and the data holder in our current compartment. Store a
// cross-compartment wrapper to the values array in the holder. This
// should be OK because the only things we hand the
// PromiseAllResolveElement function to are the "then" calls we do and in
// the case when the Promise's compartment is not the current compartment
// those are happening over Xrays anyway, which means they get the
// canonical "then" function and content can't see our
// PromiseAllResolveElement.
RootedObject valuesArray(cx);
if (unwrappedPromiseObj) {
JSAutoCompartment ac(cx, unwrappedPromiseObj);
valuesArray = NewDenseFullyAllocatedArray(cx, 0);
} else {
valuesArray = NewDenseFullyAllocatedArray(cx, 0);
}
if (!valuesArray)
return false;
RootedValue valuesArrayVal(cx, ObjectValue(*valuesArray));
if (!cx->compartment()->wrap(cx, &valuesArrayVal))
return false;
// Step 4.
// Create our data holder that holds all the things shared across
// every step of the iterator. In particular, this holds the
// remainingElementsCount (as an integer reserved slot), the array of
// values, and the resolve function from our PromiseCapability.
Rooted<PromiseAllDataHolder*> dataHolder(cx, NewPromiseAllDataHolder(cx, promiseObj,
valuesArrayVal, resolve));
if (!dataHolder)
return false;
RootedValue dataHolderVal(cx, ObjectValue(*dataHolder));
// Step 5.
uint32_t index = 0;
// Step 6.
RootedValue nextValue(cx);
RootedId indexId(cx);
RootedValue rejectFunVal(cx, ObjectValue(*reject));
while (true) {
// Steps a-c, e-g.
if (!iterator.next(&nextValue, done)) {
// Steps b, f.
*done = true;
// Steps c, g.
return false;
}
// Step d.
if (*done) {
// Step d.i (implicit).
// Step d.ii.
int32_t remainingCount = dataHolder->decreaseRemainingCount();
// Steps d.iii-iv.
if (remainingCount == 0) {
return RunResolutionFunction(cx, resolve, valuesArrayVal, ResolveMode,
promiseObj);
}
// We're all set for now!
return true;
}
// Step h.
{ // Scope for the JSAutoCompartment we need to work with valuesArray. We
// mostly do this for performance; we could go ahead and do the define via
// a cross-compartment proxy instead...
JSAutoCompartment ac(cx, valuesArray);
indexId = INT_TO_JSID(index);
if (!DefineProperty(cx, valuesArray, indexId, UndefinedHandleValue))
return false;
}
// Step i.
// Sadly, because someone could have overridden
// "resolve" on the canonical Promise constructor.
RootedValue nextPromise(cx);
RootedValue staticResolve(cx);
if (!GetProperty(cx, CVal, cx->names().resolve, &staticResolve))
return false;
FixedInvokeArgs<1> resolveArgs(cx);
resolveArgs[0].set(nextValue);
if (!Call(cx, staticResolve, CVal, resolveArgs, &nextPromise))
return false;
// Step j.
RootedFunction resolveFunc(cx, NewNativeFunction(cx, PromiseAllResolveElementFunction,
1, nullptr,
gc::AllocKind::FUNCTION_EXTENDED,
GenericObject));
if (!resolveFunc)
return false;
// Steps k,m,n.
resolveFunc->setExtendedSlot(PromiseAllResolveElementFunctionSlot_Data, dataHolderVal);
// Step l.
resolveFunc->setExtendedSlot(PromiseAllResolveElementFunctionSlot_ElementIndex,
Int32Value(index));
// Steps o-p.
dataHolder->increaseRemainingCount();
// Step q.
RootedValue resolveFunVal(cx, ObjectValue(*resolveFunc));
if (!BlockOnPromise(cx, nextPromise, promiseObj, resolveFunVal, rejectFunVal))
return false;
// Step r.
index++;
MOZ_ASSERT(index > 0);
}
}
// ES2016, 25.4.4.1.2.
static bool
PromiseAllResolveElementFunction(JSContext* cx, unsigned argc, Value* vp)
{
CallArgs args = CallArgsFromVp(argc, vp);
RootedFunction resolve(cx, &args.callee().as<JSFunction>());
RootedValue xVal(cx, args.get(0));
// Step 1.
RootedValue dataVal(cx, resolve->getExtendedSlot(PromiseAllResolveElementFunctionSlot_Data));
// Step 2.
// We use the existence of the data holder as a signal for whether the
// Promise was already resolved. Upon resolution, it's reset to
// `undefined`.
if (dataVal.isUndefined()) {
args.rval().setUndefined();
return true;
}
Rooted<PromiseAllDataHolder*> data(cx, &dataVal.toObject().as<PromiseAllDataHolder>());
// Step 3.
resolve->setExtendedSlot(PromiseAllResolveElementFunctionSlot_Data, UndefinedValue());
// Step 4.
int32_t index = resolve->getExtendedSlot(PromiseAllResolveElementFunctionSlot_ElementIndex)
.toInt32();
// Step 5.
RootedValue valuesVal(cx, data->valuesArray());
RootedObject valuesObj(cx, &valuesVal.toObject());
bool valuesListIsWrapped = false;
if (IsWrapper(valuesObj)) {
valuesListIsWrapped = true;
// See comment for PerformPromiseAll, step 3 for why we unwrap here.
valuesObj = UncheckedUnwrap(valuesObj);
}
RootedNativeObject values(cx, &valuesObj->as<NativeObject>());
// Step 6 (moved under step 10).
// Step 7 (moved to step 9).
// Step 8.
// The index is guaranteed to be initialized to `undefined`.
if (valuesListIsWrapped) {
AutoCompartment ac(cx, values);
if (!cx->compartment()->wrap(cx, &xVal))
return false;
}
values->setDenseElement(index, xVal);
// Steps 7,9.
uint32_t remainingCount = data->decreaseRemainingCount();
// Step 10.
if (remainingCount == 0) {
// Step 10.a. (Omitted, happened in PerformPromiseAll.)
// Step 10.b.
// Step 6 (Adapted to work with PromiseAllDataHolder's layout).
RootedObject resolveAllFun(cx, data->resolveObj());
RootedObject promiseObj(cx, data->promiseObj());
if (!RunResolutionFunction(cx, resolveAllFun, valuesVal, ResolveMode, promiseObj))
return false;
}
// Step 11.
args.rval().setUndefined();
return true;
}
static MOZ_MUST_USE bool PerformPromiseRace(JSContext *cx, JS::ForOfIterator& iterator,
HandleObject C, HandleObject promiseObj,
HandleObject resolve, HandleObject reject,
bool* done);
// ES2016, 25.4.4.3.
static bool
Promise_static_race(JSContext* cx, unsigned argc, Value* vp)
{
CallArgs args = CallArgsFromVp(argc, vp);
RootedValue iterable(cx, args.get(0));
// Step 2 (reordered).
RootedValue CVal(cx, args.thisv());
if (!CVal.isObject()) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_NOT_NONNULL_OBJECT,
"Receiver of Promise.race call");
return false;
}
// Step 1.
RootedObject C(cx, &CVal.toObject());
// Step 3.
RootedObject resultPromise(cx);
RootedObject resolve(cx);
RootedObject reject(cx);
if (!NewPromiseCapability(cx, C, &resultPromise, &resolve, &reject, false))
return false;
// Steps 4-5.
JS::ForOfIterator iter(cx);
if (!iter.init(iterable, JS::ForOfIterator::AllowNonIterable))
return AbruptRejectPromise(cx, args, resultPromise, reject);
if (!iter.valueIsIterable()) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_NOT_ITERABLE,
"Argument of Promise.race");
return AbruptRejectPromise(cx, args, resultPromise, reject);
}
// Step 6 (implicit).
// Step 7.
bool done;
bool result = PerformPromiseRace(cx, iter, C, resultPromise, resolve, reject, &done);
// Step 8.
if (!result) {
// Step 8.a.
if (!done)
iter.closeThrow();
// Step 8.b.
return AbruptRejectPromise(cx, args, resultPromise, reject);
}
// Step 9.
args.rval().setObject(*resultPromise);
return true;
}
// ES2016, 25.4.4.3.1.
static MOZ_MUST_USE bool
PerformPromiseRace(JSContext *cx, JS::ForOfIterator& iterator, HandleObject C,
HandleObject promiseObj, HandleObject resolve, HandleObject reject,
bool* done)
{
*done = false;
MOZ_ASSERT(C->isConstructor());
RootedValue CVal(cx, ObjectValue(*C));
RootedValue nextValue(cx);
RootedValue resolveFunVal(cx, ObjectValue(*resolve));
RootedValue rejectFunVal(cx, ObjectValue(*reject));
while (true) {
// Steps a-c, e-g.
if (!iterator.next(&nextValue, done)) {
// Steps b, f.
*done = true;
// Steps c, g.
return false;
}
// Step d.
if (*done) {
// Step d.i (implicit).
// Step d.ii.
return true;
}
// Step h.
// Sadly, because someone could have overridden
// "resolve" on the canonical Promise constructor.
RootedValue nextPromise(cx);
RootedValue staticResolve(cx);
if (!GetProperty(cx, CVal, cx->names().resolve, &staticResolve))
return false;
FixedInvokeArgs<1> resolveArgs(cx);
resolveArgs[0].set(nextValue);
if (!Call(cx, staticResolve, CVal, resolveArgs, &nextPromise))
return false;
// Step i.
if (!BlockOnPromise(cx, nextPromise, promiseObj, resolveFunVal, rejectFunVal))
return false;
}
MOZ_ASSERT_UNREACHABLE("Shouldn't reach the end of PerformPromiseRace");
}
// ES2016, Sub-steps of 25.4.4.4 and 25.4.4.5.
static MOZ_MUST_USE JSObject*
CommonStaticResolveRejectImpl(JSContext* cx, HandleValue thisVal, HandleValue argVal,
ResolutionMode mode)
{
// Steps 1-2.
if (!thisVal.isObject()) {
const char* msg = mode == ResolveMode
? "Receiver of Promise.resolve call"
: "Receiver of Promise.reject call";
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_NOT_NONNULL_OBJECT, msg);
return nullptr;
}
RootedObject C(cx, &thisVal.toObject());
// Step 3 of Resolve.
if (mode == ResolveMode && argVal.isObject()) {
RootedObject xObj(cx, &argVal.toObject());
bool isPromise = false;
if (xObj->is<PromiseObject>()) {
isPromise = true;
} else if (IsWrapper(xObj)) {
// Treat instances of Promise from other compartments as Promises
// here, too.
// It's important to do the GetProperty for the `constructor`
// below through the wrapper, because wrappers can change the
// outcome, so instead of unwrapping and then performing the
// GetProperty, just check here and then operate on the original
// object again.
RootedObject unwrappedObject(cx, CheckedUnwrap(xObj));
if (unwrappedObject && unwrappedObject->is<PromiseObject>())
isPromise = true;
}
if (isPromise) {
RootedValue ctorVal(cx);
if (!GetProperty(cx, xObj, xObj, cx->names().constructor, &ctorVal))
return nullptr;
if (ctorVal == thisVal)
return xObj;
}
}
// Step 4 of Resolve, 3 of Reject.
RootedObject promise(cx);
RootedObject resolveFun(cx);
RootedObject rejectFun(cx);
if (!NewPromiseCapability(cx, C, &promise, &resolveFun, &rejectFun, true))
return nullptr;
// Step 5 of Resolve, 4 of Reject.
if (!RunResolutionFunction(cx, mode == ResolveMode ? resolveFun : rejectFun, argVal, mode,
promise))
{
return nullptr;
}
// Step 6 of Resolve, 4 of Reject.
return promise;
}
MOZ_MUST_USE JSObject*
js::PromiseResolve(JSContext* cx, HandleObject constructor, HandleValue value)
{
RootedValue C(cx, ObjectValue(*constructor));
return CommonStaticResolveRejectImpl(cx, C, value, ResolveMode);
}
/**
* ES2016, 25.4.4.4, Promise.reject.
*/
bool
js::Promise_reject(JSContext* cx, unsigned argc, Value* vp)
{
CallArgs args = CallArgsFromVp(argc, vp);
RootedValue thisVal(cx, args.thisv());
RootedValue argVal(cx, args.get(0));
JSObject* result = CommonStaticResolveRejectImpl(cx, thisVal, argVal, RejectMode);
if (!result)
return false;
args.rval().setObject(*result);
return true;
}
/**
* Unforgeable version of ES2016, 25.4.4.4, Promise.reject.
*/
/* static */ JSObject*
PromiseObject::unforgeableReject(JSContext* cx, HandleValue value)
{
RootedObject promiseCtor(cx, JS::GetPromiseConstructor(cx));
if (!promiseCtor)
return nullptr;
RootedValue cVal(cx, ObjectValue(*promiseCtor));
return CommonStaticResolveRejectImpl(cx, cVal, value, RejectMode);
}
/**
* ES2016, 25.4.4.5, Promise.resolve.
*/
bool
js::Promise_static_resolve(JSContext* cx, unsigned argc, Value* vp)
{
CallArgs args = CallArgsFromVp(argc, vp);
RootedValue thisVal(cx, args.thisv());
RootedValue argVal(cx, args.get(0));
JSObject* result = CommonStaticResolveRejectImpl(cx, thisVal, argVal, ResolveMode);
if (!result)
return false;
args.rval().setObject(*result);
return true;
}
/**
* Unforgeable version of ES2016, 25.4.4.5, Promise.resolve.
*/
/* static */ JSObject*
PromiseObject::unforgeableResolve(JSContext* cx, HandleValue value)
{
RootedObject promiseCtor(cx, JS::GetPromiseConstructor(cx));
if (!promiseCtor)
return nullptr;
RootedValue cVal(cx, ObjectValue(*promiseCtor));
return CommonStaticResolveRejectImpl(cx, cVal, value, ResolveMode);
}
// ES2016, 25.4.4.6, implemented in Promise.js.
// ES2016, 25.4.5.1, implemented in Promise.js.
static PromiseReactionRecord*
NewReactionRecord(JSContext* cx, HandleObject resultPromise, HandleValue onFulfilled,
HandleValue onRejected, HandleObject resolve, HandleObject reject,
HandleObject incumbentGlobalObject)
{
// Either of the following conditions must be met:
// * resultPromise is a PromiseObject
// * resolve and reject are callable
// except for Async Generator, there resultPromise can be nullptr.
MOZ_ASSERT_IF(resultPromise && !resultPromise->is<PromiseObject>(), resolve);
MOZ_ASSERT_IF(resultPromise && !resultPromise->is<PromiseObject>(), IsCallable(resolve));
MOZ_ASSERT_IF(resultPromise && !resultPromise->is<PromiseObject>(), reject);
MOZ_ASSERT_IF(resultPromise && !resultPromise->is<PromiseObject>(), IsCallable(reject));
Rooted<PromiseReactionRecord*> reaction(cx, NewObjectWithClassProto<PromiseReactionRecord>(cx));
if (!reaction)
return nullptr;
assertSameCompartment(cx, resultPromise);
assertSameCompartment(cx, onFulfilled);
assertSameCompartment(cx, onRejected);
assertSameCompartment(cx, resolve);
assertSameCompartment(cx, reject);
assertSameCompartment(cx, incumbentGlobalObject);
reaction->setFixedSlot(ReactionRecordSlot_Promise, ObjectOrNullValue(resultPromise));
reaction->setFixedSlot(ReactionRecordSlot_Flags, Int32Value(0));
reaction->setFixedSlot(ReactionRecordSlot_OnFulfilled, onFulfilled);
reaction->setFixedSlot(ReactionRecordSlot_OnRejected, onRejected);
reaction->setFixedSlot(ReactionRecordSlot_Resolve, ObjectOrNullValue(resolve));
reaction->setFixedSlot(ReactionRecordSlot_Reject, ObjectOrNullValue(reject));
reaction->setFixedSlot(ReactionRecordSlot_IncumbentGlobalObject,
ObjectOrNullValue(incumbentGlobalObject));
return reaction;
}
// ES2016, 25.4.5.3., steps 3-5.
MOZ_MUST_USE bool
js::OriginalPromiseThen(JSContext* cx, Handle<PromiseObject*> promise,
HandleValue onFulfilled, HandleValue onRejected,
MutableHandleObject dependent, bool createDependent)
{
RootedObject promiseObj(cx, promise);
if (promise->compartment() != cx->compartment()) {
if (!cx->compartment()->wrap(cx, &promiseObj))
return false;
}
RootedObject resultPromise(cx);
RootedObject resolve(cx);
RootedObject reject(cx);
if (createDependent) {
// Step 3.
RootedValue ctorVal(cx);
if (!SpeciesConstructor(cx, promiseObj, JSProto_Promise, &ctorVal))
return false;
RootedObject C(cx, &ctorVal.toObject());
// Step 4.
if (!NewPromiseCapability(cx, C, &resultPromise, &resolve, &reject, true))
return false;
}
// Step 5.
if (!PerformPromiseThen(cx, promise, onFulfilled, onRejected, resultPromise, resolve, reject))
return false;
dependent.set(resultPromise);
return true;
}
static MOZ_MUST_USE bool PerformPromiseThenWithReaction(JSContext* cx,
Handle<PromiseObject*> promise,
Handle<PromiseReactionRecord*> reaction);
// Some async/await functions are implemented here instead of
// js/src/builtin/AsyncFunction.cpp, to call Promise internal functions.
// Async Functions proposal 1.1.8 and 1.2.14 step 1.
MOZ_MUST_USE PromiseObject*
js::CreatePromiseObjectForAsync(JSContext* cx, HandleValue generatorVal)
{
// Step 1.
Rooted<PromiseObject*> promise(cx, CreatePromiseObjectWithoutResolutionFunctions(cx));
if (!promise)
return nullptr;
AddPromiseFlags(*promise, PROMISE_FLAG_ASYNC);
promise->setFixedSlot(PromiseSlot_AwaitGenerator, generatorVal);
return promise;
}
// Async Functions proposal 2.2 steps 3.f, 3.g.
MOZ_MUST_USE bool
js::AsyncFunctionThrown(JSContext* cx, Handle<PromiseObject*> resultPromise)
{
// Step 3.f.
RootedValue exc(cx);
if (!MaybeGetAndClearException(cx, &exc))
return false;
if (!RejectMaybeWrappedPromise(cx, resultPromise, exc))
return false;
// Step 3.g.
return true;
}
// Async Functions proposal 2.2 steps 3.d-e, 3.g.
MOZ_MUST_USE bool
js::AsyncFunctionReturned(JSContext* cx, Handle<PromiseObject*> resultPromise, HandleValue value)
{
// Steps 3.d-e.
if (!ResolvePromiseInternal(cx, resultPromise, value))
return false;
// Step 3.g.
return true;
}
// Async Functions proposal 2.3 steps 2-8.
MOZ_MUST_USE bool
js::AsyncFunctionAwait(JSContext* cx, Handle<PromiseObject*> resultPromise, HandleValue value)
{
// Step 2.
Rooted<PromiseObject*> promise(cx, CreatePromiseObjectWithoutResolutionFunctions(cx));
if (!promise)
return false;
// Steps 3.
if (!ResolvePromiseInternal(cx, promise, value))
return false;
// Steps 4-5.
RootedValue onFulfilled(cx, Int32Value(PromiseHandlerAsyncFunctionAwaitFulfilled));
RootedValue onRejected(cx, Int32Value(PromiseHandlerAsyncFunctionAwaitRejected));
RootedObject incumbentGlobal(cx);
if (!GetObjectFromIncumbentGlobal(cx, &incumbentGlobal))
return false;
// Steps 6-7.
Rooted<PromiseReactionRecord*> reaction(cx, NewReactionRecord(cx, resultPromise,
onFulfilled, onRejected,
nullptr, nullptr,
incumbentGlobal));
if (!reaction)
return false;
reaction->setIsAsyncFunctionAwait();
// Step 8.
return PerformPromiseThenWithReaction(cx, promise, reaction);
}
// Async Iteration proposal 5.1 steps 2-9.
MOZ_MUST_USE bool
js::AsyncGeneratorAwait(JSContext* cx, Handle<AsyncGeneratorObject*> asyncGenObj,
HandleValue value)
{
// Step 2.
Rooted<PromiseObject*> promise(cx, CreatePromiseObjectWithoutResolutionFunctions(cx));
if (!promise)
return false;
// Steps 3.
if (!ResolvePromiseInternal(cx, promise, value))
return false;
// Steps 4-5.
RootedValue onFulfilled(cx, Int32Value(PromiseHandlerAsyncGeneratorAwaitFulfilled));
RootedValue onRejected(cx, Int32Value(PromiseHandlerAsyncGeneratorAwaitRejected));
RootedObject incumbentGlobal(cx);
if (!GetObjectFromIncumbentGlobal(cx, &incumbentGlobal))
return false;
// Step 6 (skipped).
// Steps 7-8.
Rooted<PromiseReactionRecord*> reaction(cx, NewReactionRecord(cx, nullptr,
onFulfilled, onRejected,
nullptr, nullptr,
incumbentGlobal));
if (!reaction)
return false;
reaction->setIsAsyncGeneratorAwait(asyncGenObj);
// Step 9.
return PerformPromiseThenWithReaction(cx, promise, reaction);
}
// Async Iteration proposal 6.1.3.2.1 %AsyncFromSyncIteratorPrototype%.next
// Async Iteration proposal 6.1.3.2.2 %AsyncFromSyncIteratorPrototype%.return
// Async Iteration proposal 6.1.3.2.3 %AsyncFromSyncIteratorPrototype%.throw
bool
js::AsyncFromSyncIteratorMethod(JSContext* cx, CallArgs& args, CompletionKind completionKind)
{
// Step 1.
RootedValue thisVal(cx, args.thisv());
// Step 2.
RootedObject resultPromise(cx, CreatePromiseObjectWithoutResolutionFunctions(cx));
if (!resultPromise)
return false;
// Step 3.
if (!thisVal.isObject() || !thisVal.toObject().is<AsyncFromSyncIteratorObject>()) {
// Step 3.a.
RootedValue badGeneratorError(cx);
if (!GetTypeError(cx, JSMSG_NOT_AN_ASYNC_ITERATOR, &badGeneratorError))
return false;
// Step 3.b.
if (!RejectMaybeWrappedPromise(cx, resultPromise, badGeneratorError))
return false;
// Step 3.c.
args.rval().setObject(*resultPromise);
return true;
}
Rooted<AsyncFromSyncIteratorObject*> asyncIter(
cx, &thisVal.toObject().as<AsyncFromSyncIteratorObject>());
// Step 4.
RootedObject iter(cx, asyncIter->iterator());
RootedValue resultVal(cx);
RootedValue func(cx);
if (completionKind == CompletionKind::Normal) {
// 6.1.3.2.1 steps 5-6 (partially).
if (!GetProperty(cx, iter, iter, cx->names().next, &func))
return AbruptRejectPromise(cx, args, resultPromise, nullptr);
} else if (completionKind == CompletionKind::Return) {
// 6.1.3.2.2 steps 5-6.
if (!GetProperty(cx, iter, iter, cx->names().return_, &func))
return AbruptRejectPromise(cx, args, resultPromise, nullptr);
// Step 7.
if (func.isNullOrUndefined()) {
// Step 7.a.
RootedObject resultObj(cx, CreateIterResultObject(cx, args.get(0), true));
if (!resultObj)
return AbruptRejectPromise(cx, args, resultPromise, nullptr);
RootedValue resultVal(cx, ObjectValue(*resultObj));
// Step 7.b.
if (!ResolvePromiseInternal(cx, resultPromise, resultVal))
return AbruptRejectPromise(cx, args, resultPromise, nullptr);
// Step 7.c.
args.rval().setObject(*resultPromise);
return true;
}
} else {
// 6.1.3.2.3 steps 5-6.
MOZ_ASSERT(completionKind == CompletionKind::Throw);
if (!GetProperty(cx, iter, iter, cx->names().throw_, &func))
return AbruptRejectPromise(cx, args, resultPromise, nullptr);
// Step 7.
if (func.isNullOrUndefined()) {
// Step 7.a.
if (!RejectMaybeWrappedPromise(cx, resultPromise, args.get(0)))
return AbruptRejectPromise(cx, args, resultPromise, nullptr);
// Step 7.b.
args.rval().setObject(*resultPromise);
return true;
}
}
// 6.1.3.2.1 steps 5-6 (partially).
// 6.1.3.2.2, 6.1.3.2.3 steps 8-9.
RootedValue iterVal(cx, ObjectValue(*iter));
FixedInvokeArgs<1> args2(cx);
args2[0].set(args.get(0));
if (!js::Call(cx, func, iterVal, args2, &resultVal))
return AbruptRejectPromise(cx, args, resultPromise, nullptr);
// 6.1.3.2.1 steps 5-6 (partially).
// 6.1.3.2.2, 6.1.3.2.3 steps 10.
if (!resultVal.isObject()) {
CheckIsObjectKind kind;
switch (completionKind) {
case CompletionKind::Normal:
kind = CheckIsObjectKind::IteratorNext;
break;
case CompletionKind::Throw:
kind = CheckIsObjectKind::IteratorThrow;
break;
case CompletionKind::Return:
kind = CheckIsObjectKind::IteratorReturn;
break;
}
MOZ_ALWAYS_FALSE(ThrowCheckIsObject(cx, kind));
return AbruptRejectPromise(cx, args, resultPromise, nullptr);
}
RootedObject resultObj(cx, &resultVal.toObject());
// Following step numbers are for 6.1.3.2.1.
// For 6.1.3.2.2 and 6.1.3.2.3, steps 7-16 corresponds to steps 11-20.
// Steps 7-8.
RootedValue value(cx);
if (!GetProperty(cx, resultObj, resultObj, cx->names().value, &value))
return AbruptRejectPromise(cx, args, resultPromise, nullptr);
// Steps 9-10.
RootedValue doneVal(cx);
if (!GetProperty(cx, resultObj, resultObj, cx->names().done, &doneVal))
return AbruptRejectPromise(cx, args, resultPromise, nullptr);
bool done = ToBoolean(doneVal);
// Step 11.
Rooted<PromiseObject*> promise(cx, CreatePromiseObjectWithoutResolutionFunctions(cx));
if (!promise)
return false;
// Step 12.
if (!ResolvePromiseInternal(cx, promise, value))
return false;
// Steps 13-14.
RootedValue onFulfilled(cx, Int32Value(done
? PromiseHandlerAsyncIteratorValueUnwrapDone
: PromiseHandlerAsyncIteratorValueUnwrapNotDone));
RootedObject incumbentGlobal(cx);
if (!GetObjectFromIncumbentGlobal(cx, &incumbentGlobal))
return false;
// Step 15.
Rooted<PromiseReactionRecord*> reaction(cx, NewReactionRecord(cx, resultPromise, onFulfilled,
UndefinedHandleValue,
nullptr, nullptr,
incumbentGlobal));
if (!reaction)
return false;
if (!PerformPromiseThenWithReaction(cx, promise, reaction))
return false;
// Step 16.
args.rval().setObject(*resultPromise);
return true;
}
// Async Iteration proposal 6.4.3.3.
MOZ_MUST_USE bool
js::AsyncGeneratorResolve(JSContext* cx, Handle<AsyncGeneratorObject*> asyncGenObj,
HandleValue value, bool done)
{
// Step 1 (implicit).
// Steps 2-3.
MOZ_ASSERT(!asyncGenObj->isQueueEmpty());
// Step 4.
Rooted<AsyncGeneratorRequest*> request(
cx, AsyncGeneratorObject::dequeueRequest(cx, asyncGenObj));
if (!request)
return false;
// Step 5.
RootedObject resultPromise(cx, request->promise());
// Step 6.
Rooted<PromiseObject*> promise(cx, CreatePromiseObjectWithoutResolutionFunctions(cx));
if (!promise)
return false;
// Step 7.
if (!ResolvePromiseInternal(cx, promise, value))
return false;
// Steps 8-9.
RootedValue onFulfilled(cx, Int32Value(done
? PromiseHandlerAsyncIteratorValueUnwrapDone
: PromiseHandlerAsyncIteratorValueUnwrapNotDone));
RootedObject incumbentGlobal(cx);
if (!GetObjectFromIncumbentGlobal(cx, &incumbentGlobal))
return false;
// Step 10.
Rooted<PromiseReactionRecord*> reaction(cx, NewReactionRecord(cx, resultPromise, onFulfilled,
UndefinedHandleValue,
nullptr, nullptr,
incumbentGlobal));
if (!reaction)
return false;
if (!PerformPromiseThenWithReaction(cx, promise, reaction))
return false;
// Step 11.
if (!AsyncGeneratorResumeNext(cx, asyncGenObj))
return false;
// Step 12.
return true;
}
// Async Iteration proposal 6.4.3.4.
MOZ_MUST_USE bool
js::AsyncGeneratorReject(JSContext* cx, Handle<AsyncGeneratorObject*> asyncGenObj,
HandleValue exception)
{
// Step 1 (implicit).
// Steps 2-3.
MOZ_ASSERT(!asyncGenObj->isQueueEmpty());
// Step 4.
Rooted<AsyncGeneratorRequest*> request(
cx, AsyncGeneratorObject::dequeueRequest(cx, asyncGenObj));
if (!request)
return false;
// Step 5.
RootedObject resultPromise(cx, request->promise());
// Step 6.
if (!RejectMaybeWrappedPromise(cx, resultPromise, exception))
return false;
// Step 7.
if (!AsyncGeneratorResumeNext(cx, asyncGenObj))
return false;
// Step 8.
return true;
}
// Async Iteration proposal 6.4.3.6.
MOZ_MUST_USE bool
js::AsyncGeneratorEnqueue(JSContext* cx, HandleValue asyncGenVal,
CompletionKind completionKind, HandleValue completionValue,
MutableHandleValue result)
{
// Step 1 (implicit).
// Step 2.
RootedObject resultPromise(cx, CreatePromiseObjectWithoutResolutionFunctions(cx));
if (!resultPromise)
return false;
// Step 3.
if (!asyncGenVal.isObject() || !asyncGenVal.toObject().is<AsyncGeneratorObject>()) {
// Step 3.a.
RootedValue badGeneratorError(cx);
if (!GetTypeError(cx, JSMSG_NOT_AN_ASYNC_GENERATOR, &badGeneratorError))
return false;
// Step 3.b.
if (!RejectMaybeWrappedPromise(cx, resultPromise, badGeneratorError))
return false;
// Step 3.c.
result.setObject(*resultPromise);
return true;
}
Rooted<AsyncGeneratorObject*> asyncGenObj(
cx, &asyncGenVal.toObject().as<AsyncGeneratorObject>());
// Step 5 (reordered).
Rooted<AsyncGeneratorRequest*> request(
cx, AsyncGeneratorRequest::create(cx, completionKind, completionValue, resultPromise));
if (!request)
return false;
// Steps 4, 6.
if (!AsyncGeneratorObject::enqueueRequest(cx, asyncGenObj, request))
return false;
// Step 7.
if (!asyncGenObj->isExecuting()) {
// Step 8.
if (!AsyncGeneratorResumeNext(cx, asyncGenObj))
return false;
}
// Step 9.
result.setObject(*resultPromise);
return true;
}
// ES2016, 25.4.5.3.
bool
js::Promise_then(JSContext* cx, unsigned argc, Value* vp)
{
CallArgs args = CallArgsFromVp(argc, vp);
// Step 1.
RootedValue promiseVal(cx, args.thisv());
RootedValue onFulfilled(cx, args.get(0));
RootedValue onRejected(cx, args.get(1));
// Step 2.
if (!promiseVal.isObject()) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_NOT_NONNULL_OBJECT,
"Receiver of Promise.prototype.then call");
return false;
}
RootedObject promiseObj(cx, &promiseVal.toObject());
Rooted<PromiseObject*> promise(cx);
bool isPromise = promiseObj->is<PromiseObject>();
if (isPromise) {
promise = &promiseObj->as<PromiseObject>();
} else {
RootedObject unwrappedPromiseObj(cx, CheckedUnwrap(promiseObj));
if (!unwrappedPromiseObj) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_UNWRAP_DENIED);
return false;
}
if (!unwrappedPromiseObj->is<PromiseObject>()) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_INCOMPATIBLE_PROTO,
"Promise", "then", "value");
return false;
}
promise = &unwrappedPromiseObj->as<PromiseObject>();
}
// Steps 3-5.
RootedObject resultPromise(cx);
if (!OriginalPromiseThen(cx, promise, onFulfilled, onRejected, &resultPromise, true))
return false;
args.rval().setObject(*resultPromise);
return true;
}
// ES2016, 25.4.5.3.1.
static MOZ_MUST_USE bool
PerformPromiseThen(JSContext* cx, Handle<PromiseObject*> promise, HandleValue onFulfilled_,
HandleValue onRejected_, HandleObject resultPromise,
HandleObject resolve, HandleObject reject)
{
// Step 1 (implicit).
// Step 2 (implicit).
// Step 3.
RootedValue onFulfilled(cx, onFulfilled_);
if (!IsCallable(onFulfilled))
onFulfilled = Int32Value(PromiseHandlerIdentity);
// Step 4.
RootedValue onRejected(cx, onRejected_);
if (!IsCallable(onRejected))
onRejected = Int32Value(PromiseHandlerThrower);
RootedObject incumbentGlobal(cx);
if (!GetObjectFromIncumbentGlobal(cx, &incumbentGlobal))
return false;
// Step 7.
Rooted<PromiseReactionRecord*> reaction(cx, NewReactionRecord(cx, resultPromise,
onFulfilled, onRejected,
resolve, reject,
incumbentGlobal));
if (!reaction)
return false;
return PerformPromiseThenWithReaction(cx, promise, reaction);
}
static MOZ_MUST_USE bool
PerformPromiseThenWithReaction(JSContext* cx, Handle<PromiseObject*> promise,
Handle<PromiseReactionRecord*> reaction)
{
JS::PromiseState state = promise->state();
int32_t flags = promise->getFixedSlot(PromiseSlot_Flags).toInt32();
if (state == JS::PromiseState::Pending) {
// Steps 5,6 (reordered).
// Instead of creating separate reaction records for fulfillment and
// rejection, we create a combined record. All places we use the record
// can handle that.
if (!AddPromiseReaction(cx, promise, reaction))
return false;
}
// Steps 8,9.
else {
// Step 9.a.
MOZ_ASSERT_IF(state != JS::PromiseState::Fulfilled, state == JS::PromiseState::Rejected);
// Step 8.a. / 9.b.
RootedValue valueOrReason(cx, promise->getFixedSlot(PromiseSlot_ReactionsOrResult));
// We might be operating on a promise from another compartment. In
// that case, we need to wrap the result/reason value before using it.
if (!cx->compartment()->wrap(cx, &valueOrReason))
return false;
// Step 9.c.
if (state == JS::PromiseState::Rejected && !(flags & PROMISE_FLAG_HANDLED))
cx->runtime()->removeUnhandledRejectedPromise(cx, promise);
// Step 8.b. / 9.d.
if (!EnqueuePromiseReactionJob(cx, reaction, valueOrReason, state))
return false;
}
// Step 10.
promise->setFixedSlot(PromiseSlot_Flags, Int32Value(flags | PROMISE_FLAG_HANDLED));
// Step 11.
return true;
}
/**
* Calls |promise.then| with the provided hooks and adds |blockedPromise| to
* its list of dependent promises. Used by |Promise.all| and |Promise.race|.
*
* If |promise.then| is the original |Promise.prototype.then| function and
* the call to |promise.then| would use the original |Promise| constructor to
* create the resulting promise, this function skips the call to |promise.then|
* and thus creating a new promise that would not be observable by content.
*/
static MOZ_MUST_USE bool
BlockOnPromise(JSContext* cx, HandleValue promiseVal, HandleObject blockedPromise_,
HandleValue onFulfilled, HandleValue onRejected)
{
RootedValue thenVal(cx);
if (!GetProperty(cx, promiseVal, cx->names().then, &thenVal))
return false;
RootedObject promiseObj(cx);
if (promiseVal.isObject())
promiseObj = &promiseVal.toObject();
if (promiseObj && promiseObj->is<PromiseObject>() && IsNativeFunction(thenVal, Promise_then)) {
// |promise| is an unwrapped Promise, and |then| is the original
// |Promise.prototype.then|, inline it here.
// 25.4.5.3., step 3.
RootedObject PromiseCtor(cx);
if (!GetBuiltinConstructor(cx, JSProto_Promise, &PromiseCtor))
return false;
RootedValue PromiseCtorVal(cx, ObjectValue(*PromiseCtor));
RootedValue CVal(cx);
if (!SpeciesConstructor(cx, promiseObj, PromiseCtorVal, &CVal))
return false;
RootedObject C(cx, &CVal.toObject());
RootedObject resultPromise(cx, blockedPromise_);
RootedObject resolveFun(cx);
RootedObject rejectFun(cx);
// By default, the blocked promise is added as an extra entry to the
// rejected promises list.
bool addToDependent = true;
if (C == PromiseCtor && resultPromise->is<PromiseObject>()) {
addToDependent = false;
} else {
// 25.4.5.3., step 4.
if (!NewPromiseCapability(cx, C, &resultPromise, &resolveFun, &rejectFun, true))
return false;
}
// 25.4.5.3., step 5.
Rooted<PromiseObject*> promise(cx, &promiseObj->as<PromiseObject>());
if (!PerformPromiseThen(cx, promise, onFulfilled, onRejected, resultPromise,
resolveFun, rejectFun))
{
return false;
}
if (!addToDependent)
return true;
} else {
// Optimization failed, do the normal call.
RootedValue rval(cx);
if (!Call(cx, thenVal, promiseVal, onFulfilled, onRejected, &rval))
return false;
}
// In case the value to depend on isn't an object at all, there's nothing
// more to do here: we can only add reactions to Promise objects
// (potentially after unwrapping them), and non-object values can't be
// Promise objects. This can happen if Promise.all is called on an object
// with a `resolve` method that returns primitives.
if (!promiseObj)
return true;
// The object created by the |promise.then| call or the inlined version
// of it above is visible to content (either because |promise.then| was
// overridden by content and could leak it, or because a constructor
// other than the original value of |Promise| was used to create it).
// To have both that object and |blockedPromise| show up as dependent
// promises in the debugger, add a dummy reaction to the list of reject
// reactions that contains |blockedPromise|, but otherwise does nothing.
RootedObject unwrappedPromiseObj(cx, promiseObj);
RootedObject blockedPromise(cx, blockedPromise_);
mozilla::Maybe<AutoCompartment> ac;
if (IsProxy(promiseObj)) {
unwrappedPromiseObj = CheckedUnwrap(promiseObj);
if (!unwrappedPromiseObj) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_OBJECT_ACCESS_DENIED);
return false;
}
if (JS_IsDeadWrapper(unwrappedPromiseObj)) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_DEAD_OBJECT);
return false;
}
ac.emplace(cx, unwrappedPromiseObj);
if (!cx->compartment()->wrap(cx, &blockedPromise))
return false;
}
// If either the object to depend on or the object that gets blocked isn't
// a, maybe-wrapped, Promise instance, we ignore it. All this does is lose
// some small amount of debug information in scenarios that are highly
// unlikely to occur in useful code.
if (!unwrappedPromiseObj->is<PromiseObject>())
return true;
if (!blockedPromise_->is<PromiseObject>())
return true;
Rooted<PromiseObject*> promise(cx, &unwrappedPromiseObj->as<PromiseObject>());
return AddPromiseReaction(cx, promise, UndefinedHandleValue, UndefinedHandleValue,
blockedPromise, nullptr, nullptr, nullptr);
}
static MOZ_MUST_USE bool
AddPromiseReaction(JSContext* cx, Handle<PromiseObject*> promise,
Handle<PromiseReactionRecord*> reaction)
{
RootedValue reactionVal(cx, ObjectValue(*reaction));
// The code that creates Promise reactions can handle wrapped Promises,
// unwrapping them as needed. That means that the `promise` and `reaction`
// objects we have here aren't necessarily from the same compartment. In
// order to store the reaction on the promise, we have to ensure that it
// is properly wrapped.
mozilla::Maybe<AutoCompartment> ac;
if (promise->compartment() != cx->compartment()) {
ac.emplace(cx, promise);
if (!cx->compartment()->wrap(cx, &reactionVal))
return false;
}
// 25.4.5.3.1 steps 7.a,b.
RootedValue reactionsVal(cx, promise->getFixedSlot(PromiseSlot_ReactionsOrResult));
RootedNativeObject reactions(cx);
if (reactionsVal.isUndefined()) {
// If no reactions existed so far, just store the reaction record directly.
promise->setFixedSlot(PromiseSlot_ReactionsOrResult, reactionVal);
return true;
}
RootedObject reactionsObj(cx, &reactionsVal.toObject());
// If only a single reaction exists, it's stored directly instead of in a
// list. In that case, `reactionsObj` might be a wrapper, which we can
// always safely unwrap.
if (IsProxy(reactionsObj)) {
reactionsObj = UncheckedUnwrap(reactionsObj);
if (JS_IsDeadWrapper(reactionsObj)) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_DEAD_OBJECT);
return false;
}
MOZ_ASSERT(reactionsObj->is<PromiseReactionRecord>());
}
if (reactionsObj->is<PromiseReactionRecord>()) {
// If a single reaction existed so far, create a list and store the
// old and the new reaction in it.
reactions = NewDenseFullyAllocatedArray(cx, 2);
if (!reactions)
return false;
if (reactions->ensureDenseElements(cx, 0, 2) != DenseElementResult::Success)
return false;
reactions->setDenseElement(0, reactionsVal);
reactions->setDenseElement(1, reactionVal);
promise->setFixedSlot(PromiseSlot_ReactionsOrResult, ObjectValue(*reactions));
} else {
// Otherwise, just store the new reaction.
reactions = &reactionsObj->as<NativeObject>();
uint32_t len = reactions->getDenseInitializedLength();
if (reactions->ensureDenseElements(cx, 0, len + 1) != DenseElementResult::Success)
return false;
reactions->setDenseElement(len, reactionVal);
}
return true;
}
static MOZ_MUST_USE bool
AddPromiseReaction(JSContext* cx, Handle<PromiseObject*> promise, HandleValue onFulfilled,
HandleValue onRejected, HandleObject dependentPromise,
HandleObject resolve, HandleObject reject, HandleObject incumbentGlobal)
{
if (promise->state() != JS::PromiseState::Pending)
return true;
Rooted<PromiseReactionRecord*> reaction(cx, NewReactionRecord(cx, dependentPromise,
onFulfilled, onRejected,
resolve, reject,
incumbentGlobal));
if (!reaction)
return false;
return AddPromiseReaction(cx, promise, reaction);
}
namespace {
// Generator used by PromiseObject::getID.
mozilla::Atomic<uint64_t> gIDGenerator(0);
} // namespace
double
PromiseObject::lifetime()
{
return MillisecondsSinceStartup() - allocationTime();
}
uint64_t
PromiseObject::getID()
{
Value idVal(getFixedSlot(PromiseSlot_Id));
if (idVal.isUndefined()) {
idVal.setDouble(++gIDGenerator);
setFixedSlot(PromiseSlot_Id, idVal);
}
return uint64_t(idVal.toNumber());
}
/**
* Returns all promises that directly depend on this one. That means those
* created by calling `then` on this promise, or the promise returned by
* `Promise.all(iterable)` or `Promise.race(iterable)`, with this promise
* being a member of the passed-in `iterable`.
*
* Per spec, we should have separate lists of reaction records for the
* fulfill and reject cases. As an optimization, we have only one of those,
* containing the required data for both cases. So we just walk that list
* and extract the dependent promises from all reaction records.
*/
bool
PromiseObject::dependentPromises(JSContext* cx, MutableHandle<GCVector<Value>> values)
{
if (state() != JS::PromiseState::Pending)
return true;
RootedValue reactionsVal(cx, getFixedSlot(PromiseSlot_ReactionsOrResult));
// If no reactions are pending, we don't have list and are done.
if (reactionsVal.isNullOrUndefined())
return true;
RootedNativeObject reactions(cx, &reactionsVal.toObject().as<NativeObject>());
// If only a single reaction is pending, it's stored directly.
if (reactions->is<PromiseReactionRecord>()) {
// Not all reactions have a Promise on them.
RootedObject promiseObj(cx, reactions->as<PromiseReactionRecord>().promise());
if (!promiseObj)
return true;
if (!values.growBy(1))
return false;
values[0].setObject(*promiseObj);
return true;
}
uint32_t len = reactions->getDenseInitializedLength();
MOZ_ASSERT(len >= 2);
size_t valuesIndex = 0;
Rooted<PromiseReactionRecord*> reaction(cx);
for (size_t i = 0; i < len; i++) {
reaction = &reactions->getDenseElement(i).toObject().as<PromiseReactionRecord>();
// Not all reactions have a Promise on them.
RootedObject promiseObj(cx, reaction->promise());
if (!promiseObj)
continue;
if (!values.growBy(1))
return false;
values[valuesIndex++].setObject(*promiseObj);
}
return true;
}
/* static */ bool
PromiseObject::resolve(JSContext* cx, Handle<PromiseObject*> promise, HandleValue resolutionValue)
{
MOZ_ASSERT(!PromiseHasAnyFlag(*promise, PROMISE_FLAG_ASYNC));
if (promise->state() != JS::PromiseState::Pending)
return true;
if (PromiseHasAnyFlag(*promise, PROMISE_FLAG_DEFAULT_RESOLVE_FUNCTION))
return ResolvePromiseInternal(cx, promise, resolutionValue);
RootedObject resolveFun(cx, GetResolveFunctionFromPromise(promise));
RootedValue funVal(cx, ObjectValue(*resolveFun));
// For xray'd Promises, the resolve fun may have been created in another
// compartment. For the call below to work in that case, wrap the
// function into the current compartment.
if (!cx->compartment()->wrap(cx, &funVal))
return false;
FixedInvokeArgs<1> args(cx);
args[0].set(resolutionValue);
RootedValue dummy(cx);
return Call(cx, funVal, UndefinedHandleValue, args, &dummy);
}
/* static */ bool
PromiseObject::reject(JSContext* cx, Handle<PromiseObject*> promise, HandleValue rejectionValue)
{
MOZ_ASSERT(!PromiseHasAnyFlag(*promise, PROMISE_FLAG_ASYNC));
if (promise->state() != JS::PromiseState::Pending)
return true;
if (PromiseHasAnyFlag(*promise, PROMISE_FLAG_DEFAULT_REJECT_FUNCTION))
return RejectMaybeWrappedPromise(cx, promise, rejectionValue);
RootedValue funVal(cx, promise->getFixedSlot(PromiseSlot_RejectFunction));
MOZ_ASSERT(IsCallable(funVal));
FixedInvokeArgs<1> args(cx);
args[0].set(rejectionValue);
RootedValue dummy(cx);
return Call(cx, funVal, UndefinedHandleValue, args, &dummy);
}
/* static */ void
PromiseObject::onSettled(JSContext* cx, Handle<PromiseObject*> promise)
{
RootedObject stack(cx);
if (cx->options().asyncStack() || cx->compartment()->isDebuggee()) {
if (!JS::CaptureCurrentStack(cx, &stack, JS::StackCapture(JS::AllFrames()))) {
cx->clearPendingException();
return;
}
}
promise->setFixedSlot(PromiseSlot_ResolutionSite, ObjectOrNullValue(stack));
promise->setFixedSlot(PromiseSlot_ResolutionTime, DoubleValue(MillisecondsSinceStartup()));
if (promise->state() == JS::PromiseState::Rejected && promise->isUnhandled())
cx->runtime()->addUnhandledRejectedPromise(cx, promise);
JS::dbg::onPromiseSettled(cx, promise);
}
PromiseTask::PromiseTask(JSContext* cx, Handle<PromiseObject*> promise)
: runtime_(cx),
promise_(cx, promise)
{}
PromiseTask::~PromiseTask()
{
MOZ_ASSERT(CurrentThreadCanAccessZone(promise_->zone()));
}
void
PromiseTask::finish(JSContext* cx)
{
MOZ_ASSERT(cx == runtime_);
{
// 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.
AutoCompartment ac(cx, promise_);
if (!finishPromise(cx, promise_))
cx->clearPendingException();
}
js_delete(this);
}
void
PromiseTask::cancel(JSContext* cx)
{
MOZ_ASSERT(cx == runtime_);
js_delete(this);
}
bool
PromiseTask::executeAndFinish(JSContext* cx)
{
MOZ_ASSERT(!CanUseExtraThreads());
execute();
return finishPromise(cx, promise_);
}
static JSObject*
CreatePromisePrototype(JSContext* cx, JSProtoKey key)
{
return GlobalObject::createBlankPrototype(cx, cx->global(), &PromiseObject::protoClass_);
}
static const JSFunctionSpec promise_methods[] = {
JS_SELF_HOSTED_FN("catch", "Promise_catch", 1, 0),
JS_FN("then", Promise_then, 2, 0),
JS_SELF_HOSTED_FN("finally", "Promise_finally", 1, 0),
JS_FS_END
};
static const JSPropertySpec promise_properties[] = {
JS_STRING_SYM_PS(toStringTag, "Promise", JSPROP_READONLY),
JS_PS_END
};
static const JSFunctionSpec promise_static_methods[] = {
JS_FN("all", Promise_static_all, 1, 0),
JS_FN("race", Promise_static_race, 1, 0),
JS_FN("reject", Promise_reject, 1, 0),
JS_FN("resolve", Promise_static_resolve, 1, 0),
JS_FS_END
};
static const JSPropertySpec promise_static_properties[] = {
JS_SELF_HOSTED_SYM_GET(species, "Promise_static_get_species", 0),
JS_PS_END
};
static const ClassSpec PromiseObjectClassSpec = {
GenericCreateConstructor<PromiseConstructor, 1, gc::AllocKind::FUNCTION>,
CreatePromisePrototype,
promise_static_methods,
promise_static_properties,
promise_methods,
promise_properties
};
const Class PromiseObject::class_ = {
"Promise",
JSCLASS_HAS_RESERVED_SLOTS(RESERVED_SLOTS) | JSCLASS_HAS_CACHED_PROTO(JSProto_Promise) |
JSCLASS_HAS_XRAYED_CONSTRUCTOR,
JS_NULL_CLASS_OPS,
&PromiseObjectClassSpec
};
static const ClassSpec PromiseObjectProtoClassSpec = {
DELEGATED_CLASSSPEC(PromiseObject::class_.spec),
nullptr,
nullptr,
nullptr,
nullptr,
nullptr,
nullptr,
ClassSpec::IsDelegated
};
const Class PromiseObject::protoClass_ = {
"PromiseProto",
JSCLASS_HAS_CACHED_PROTO(JSProto_Promise),
JS_NULL_CLASS_OPS,
&PromiseObjectProtoClassSpec
};
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