зеркало из https://github.com/mozilla/gecko-dev.git
566 строки
24 KiB
C++
566 строки
24 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
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* vim: set ts=8 sts=4 et sw=4 tw=99:
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifndef js_Promise_h
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#define js_Promise_h
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#include "mozilla/Attributes.h"
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#include "mozilla/GuardObjects.h"
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#include "jspubtd.h"
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#include "js/RootingAPI.h"
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#include "js/TypeDecls.h"
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#include "js/UniquePtr.h"
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namespace JS {
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class JS_PUBLIC_API AutoDebuggerJobQueueInterruption;
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/**
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* Abstract base class for an ECMAScript Job Queue:
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* https://www.ecma-international.org/ecma-262/9.0/index.html#sec-jobs-and-job-queues
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*
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* SpiderMonkey doesn't schedule Promise resolution jobs itself; instead, the
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* embedding can provide an instance of this class SpiderMonkey can use to do
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* that scheduling.
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*
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* The JavaScript shell includes a simple implementation adequate for running
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* tests. Browsers need to augment job handling to meet their own additional
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* requirements, so they can provide their own implementation.
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*/
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class JS_PUBLIC_API JobQueue {
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public:
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virtual ~JobQueue() = default;
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/**
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* Ask the embedding for the incumbent global.
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*
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* SpiderMonkey doesn't itself have a notion of incumbent globals as defined
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* by the HTML spec, so we need the embedding to provide this. See
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* dom/script/ScriptSettings.h for details.
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*/
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virtual JSObject* getIncumbentGlobal(JSContext* cx) = 0;
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/**
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* Enqueue a reaction job `job` for `promise`, which was allocated at
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* `allocationSite`. Provide `incumbentGlobal` as the incumbent global for
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* the reaction job's execution.
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*/
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virtual bool enqueuePromiseJob(JSContext* cx, JS::HandleObject promise,
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JS::HandleObject job,
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JS::HandleObject allocationSite,
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JS::HandleObject incumbentGlobal) = 0;
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/**
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* Run all jobs in the queue. Running one job may enqueue others; continue to
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* run jobs until the queue is empty.
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*
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* Calling this method at the wrong time can break the web. The HTML spec
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* indicates exactly when the job queue should be drained (in HTML jargon,
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* when it should "perform a microtask checkpoint"), and doing so at other
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* times can incompatibly change the semantics of programs that use promises
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* or other microtask-based features.
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*
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* This method is called only via AutoDebuggerJobQueueInterruption, used by
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* the Debugger API implementation to ensure that the debuggee's job queue is
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* protected from the debugger's own activity. See the comments on
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* AutoDebuggerJobQueueInterruption.
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*/
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virtual void runJobs(JSContext* cx) = 0;
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/**
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* Return true if the job queue is empty, false otherwise.
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*/
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virtual bool empty() const = 0;
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protected:
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friend class AutoDebuggerJobQueueInterruption;
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/**
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* A saved job queue, represented however the JobQueue implementation pleases.
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* Use AutoDebuggerJobQueueInterruption rather than trying to construct one of
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* these directly; see documentation there.
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*
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* Destructing an instance of this class should assert that the current queue
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* is empty, and then restore the queue the instance captured.
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*/
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class SavedJobQueue {
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public:
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virtual ~SavedJobQueue() = default;
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};
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/**
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* Capture this JobQueue's current job queue as a SavedJobQueue and return it,
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* leaving the JobQueue's job queue empty. Destroying the returned object
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* should assert that this JobQueue's current job queue is empty, and restore
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* the original queue.
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*
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* On OOM, this should call JS_ReportOutOfMemory on the given JSContext,
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* and return a null UniquePtr.
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*/
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virtual js::UniquePtr<SavedJobQueue> saveJobQueue(JSContext*) = 0;
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};
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/**
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* Tell SpiderMonkey to use `queue` to schedule promise reactions.
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*
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* SpiderMonkey does not take ownership of the queue; it is the embedding's
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* responsibility to clean it up after the runtime is destroyed.
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*/
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extern JS_PUBLIC_API void SetJobQueue(JSContext* cx, JobQueue* queue);
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/**
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* [SMDOC] Protecting the debuggee's job/microtask queue from debugger activity.
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*
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* When the JavaScript debugger interrupts the execution of some debuggee code
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* (for a breakpoint, for example), the debuggee's execution must be paused
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* while the developer takes time to look at it. During this interruption, other
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* tabs should remain active and usable. If the debuggee shares a main thread
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* with non-debuggee tabs, that means that the thread will have to process
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* non-debuggee HTML tasks and microtasks as usual, even as the debuggee's are
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* on hold until the debugger lets it continue execution. (Letting debuggee
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* microtasks run during the interruption would mean that, from the debuggee's
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* point of view, their side effects would take place wherever the breakpoint
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* was set - in general, not a place other code should ever run, and a violation
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* of the run-to-completion rule.)
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*
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* This means that, even though the timing and ordering of microtasks is
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* carefully specified by the standard - and important to preserve for
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* compatibility and predictability - debugger use may, correctly, have the
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* effect of reordering microtasks. During the interruption, microtasks enqueued
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* by non-debuggee tabs must run immediately alongside their HTML tasks as
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* usual, whereas any debuggee microtasks that were in the queue when the
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* interruption began must wait for the debuggee to be continued - and thus run
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* after microtasks enqueued after they were.
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*
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* Fortunately, this reordering is visible olny at the global level: when
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* implemented correctly, it is not detectable by an individual debuggee. Note
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* that a debuggee should generally be a complete unit of similar-origin related
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* browsing contexts. Since non-debuggee activity falls outside that unit, it
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* should never be visible to the debuggee (except via mechanisms that are
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* already asynchronous, like events), so the debuggee should be unable to
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* detect non-debuggee microtasks running when they normally would not. As long
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* as behavior *visible to the debuggee* is unaffected by the interruption, we
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* have respected the spirit of the rule.
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*
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* Of course, even as we accept the general principle that interrupting the
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* debuggee should have as little detectable effect as possible, we still permit
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* the developer to do things like evaluate expressions at the console that have
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* arbitrary effects on the debuggee's state—effects that could never occur
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* naturally at that point in the program. But since these are explicitly
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* requested by the developer, who presumably knows what they're doing, we
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* support this as best we can. If the developer evaluates an expression in the
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* console that resolves a promise, it seems most natural for the promise's
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* reaction microtasks to run immediately, within the interruption. This is an
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* 'unnatural' time for the microtasks to run, but no more unnatural than the
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* evaluation that triggered them.
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*
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* So the overall behavior we need is as follows:
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*
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* - When the debugger interrupts a debuggee, the debuggee's microtask queue
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* must be saved.
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*
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* - When debuggee execution resumes, the debuggee's microtask queue must be
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* restored exactly as it was when the interruption occurred.
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*
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* - Non-debuggee task and microtask execution must take place normally during
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* the interruption.
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*
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* Since each HTML task begins with an empty microtask queue, and it should not
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* be possible for a task to mix debuggee and non-debuggee code, interrupting a
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* debuggee should always find a microtask queue containing exclusively debuggee
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* microtasks, if any. So saving and restoring the microtask queue should affect
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* only the debuggee, not any non-debuggee content.
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*
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* AutoDebuggerJobQueueInterruption
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* --------------------------------
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*
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* AutoDebuggerJobQueueInterruption is an RAII class, meant for use by the
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* Debugger API implementation, that takes care of saving and restoring the
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* queue.
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*
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* Constructing and initializing an instance of AutoDebuggerJobQueueInterruption
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* sets aside the given JSContext's job queue, leaving the JSContext's queue
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* empty. When the AutoDebuggerJobQueueInterruption instance is destroyed, it
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* asserts that the JSContext's current job queue (holding jobs enqueued while
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* the AutoDebuggerJobQueueInterruption was alive) is empty, and restores the
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* saved queue to the JSContext.
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*
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* Since the Debugger API's behavior is up to us, we can specify that Debugger
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* hooks begin execution with an empty job queue, and that we drain the queue
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* after each hook function has run. This drain will be visible to debugger
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* hooks, and makes hook calls resemble HTML tasks, with their own automatic
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* microtask checkpoint. But, the drain will be invisible to the debuggee, as
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* its queue is preserved across the hook invocation.
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*
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* To protect the debuggee's job queue, Debugger takes care to invoke callback
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* functions only within the scope of an AutoDebuggerJobQueueInterruption
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* instance.
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*
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* Why not let the hook functions themselves take care of this?
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* ------------------------------------------------------------
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*
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* Certainly, we could leave responsibility for saving and restoring the job
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* queue to the Debugger hook functions themselves.
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*
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* In fact, early versions of this change tried making the devtools server save
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* and restore the queue explicitly, but because hooks are set and changed in
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* numerous places, it was hard to be confident that every case had been
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* covered, and it seemed that future changes could easily introduce new holes.
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*
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* Later versions of this change modified the accessor properties on the
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* Debugger objects' prototypes to automatically protect the job queue when
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* calling hooks, but the effect was essentially a monkeypatch applied to an API
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* we defined and control, which doesn't make sense.
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*
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* In the end, since promises have become such a pervasive part of JavaScript
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* programming, almost any imaginable use of Debugger would need to provide some
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* kind of protection for the debuggee's job queue, so it makes sense to simply
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* handle it once, carefully, in the implementation of Debugger itself.
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*/
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class MOZ_RAII JS_PUBLIC_API AutoDebuggerJobQueueInterruption {
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public:
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explicit AutoDebuggerJobQueueInterruption(
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MOZ_GUARD_OBJECT_NOTIFIER_ONLY_PARAM);
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~AutoDebuggerJobQueueInterruption();
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bool init(JSContext* cx);
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bool initialized() const { return !!saved; }
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/**
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* Drain the job queue. (In HTML terminology, perform a microtask checkpoint.)
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*
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* To make Debugger hook calls more like HTML tasks or ECMAScript jobs,
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* Debugger promises that each hook begins execution with a clean microtask
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* queue, and that a microtask checkpoint (queue drain) takes place after each
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* hook returns, successfully or otherwise.
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*
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* To ensure these debugger-introduced microtask checkpoints serve only the
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* hook's microtasks, and never affect the debuggee's, the Debugger API
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* implementation uses only this method to perform the checkpoints, thereby
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* statically ensuring that an AutoDebuggerJobQueueInterruption is in scope to
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* protect the debuggee.
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*
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* SavedJobQueue implementations are required to assert that the queue is
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* empty before restoring the debuggee's queue. If the Debugger API ever fails
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* to perform a microtask checkpoint after calling a hook, that assertion will
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* fail, catching the mistake.
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*/
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void runJobs();
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private:
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MOZ_DECL_USE_GUARD_OBJECT_NOTIFIER;
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JSContext* cx;
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js::UniquePtr<JobQueue::SavedJobQueue> saved;
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};
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enum class PromiseRejectionHandlingState { Unhandled, Handled };
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typedef void (*PromiseRejectionTrackerCallback)(
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JSContext* cx, bool mutedErrors, JS::HandleObject promise,
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JS::PromiseRejectionHandlingState state, void* data);
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/**
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* Sets the callback that's invoked whenever a Promise is rejected without
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* a rejection handler, and when a Promise that was previously rejected
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* without a handler gets a handler attached.
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*/
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extern JS_PUBLIC_API void SetPromiseRejectionTrackerCallback(
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JSContext* cx, PromiseRejectionTrackerCallback callback,
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void* data = nullptr);
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/**
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* Inform the runtime that the job queue is empty and the embedding is going to
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* execute its last promise job. The runtime may now choose to skip creating
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* promise jobs for asynchronous execution and instead continue execution
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* synchronously. More specifically, this optimization is used to skip the
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* standard job queuing behavior for `await` operations in async functions.
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*
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* This function may be called before executing the last job in the job queue.
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* When it was called, JobQueueMayNotBeEmpty must be called in order to restore
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* the default job queuing behavior before the embedding enqueues its next job
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* into the job queue.
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*/
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extern JS_PUBLIC_API void JobQueueIsEmpty(JSContext* cx);
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/**
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* Inform the runtime that job queue is no longer empty. The runtime can now no
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* longer skip creating promise jobs for asynchronous execution, because
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* pending jobs in the job queue must be executed first to preserve the FIFO
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* (first in - first out) property of the queue. This effectively undoes
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* JobQueueIsEmpty and re-enables the standard job queuing behavior.
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*
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* This function must be called whenever enqueuing a job to the job queue when
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* JobQueueIsEmpty was called previously.
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*/
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extern JS_PUBLIC_API void JobQueueMayNotBeEmpty(JSContext* cx);
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/**
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* Returns a new instance of the Promise builtin class in the current
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* compartment, with the right slot layout.
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*
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* The `executor` can be a `nullptr`. In that case, the only way to resolve or
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* reject the returned promise is via the `JS::ResolvePromise` and
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* `JS::RejectPromise` JSAPI functions.
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*
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* If a `proto` is passed, that gets set as the instance's [[Prototype]]
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* instead of the original value of `Promise.prototype`.
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*/
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extern JS_PUBLIC_API JSObject* NewPromiseObject(
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JSContext* cx, JS::HandleObject executor, JS::HandleObject proto = nullptr);
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/**
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* Returns true if the given object is an unwrapped PromiseObject, false
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* otherwise.
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*/
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extern JS_PUBLIC_API bool IsPromiseObject(JS::HandleObject obj);
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/**
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* Returns the current compartment's original Promise constructor.
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*/
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extern JS_PUBLIC_API JSObject* GetPromiseConstructor(JSContext* cx);
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/**
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* Returns the current compartment's original Promise.prototype.
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*/
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extern JS_PUBLIC_API JSObject* GetPromisePrototype(JSContext* cx);
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// Keep this in sync with the PROMISE_STATE defines in SelfHostingDefines.h.
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enum class PromiseState { Pending, Fulfilled, Rejected };
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/**
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* Returns the given Promise's state as a JS::PromiseState enum value.
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*
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* Returns JS::PromiseState::Pending if the given object is a wrapper that
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* can't safely be unwrapped.
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*/
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extern JS_PUBLIC_API PromiseState GetPromiseState(JS::HandleObject promise);
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/**
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* Returns the given Promise's process-unique ID.
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*/
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JS_PUBLIC_API uint64_t GetPromiseID(JS::HandleObject promise);
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/**
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* Returns the given Promise's result: either the resolution value for
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* fulfilled promises, or the rejection reason for rejected ones.
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*/
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extern JS_PUBLIC_API JS::Value GetPromiseResult(JS::HandleObject promise);
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/**
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* Returns whether the given promise's rejection is already handled or not.
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*
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* The caller must check the given promise is rejected before checking it's
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* handled or not.
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*/
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extern JS_PUBLIC_API bool GetPromiseIsHandled(JS::HandleObject promise);
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/**
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* Returns a js::SavedFrame linked list of the stack that lead to the given
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* Promise's allocation.
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*/
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extern JS_PUBLIC_API JSObject* GetPromiseAllocationSite(
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JS::HandleObject promise);
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extern JS_PUBLIC_API JSObject* GetPromiseResolutionSite(
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JS::HandleObject promise);
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#ifdef DEBUG
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extern JS_PUBLIC_API void DumpPromiseAllocationSite(JSContext* cx,
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JS::HandleObject promise);
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extern JS_PUBLIC_API void DumpPromiseResolutionSite(JSContext* cx,
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JS::HandleObject promise);
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#endif
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/**
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* Calls the current compartment's original Promise.resolve on the original
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* Promise constructor, with `resolutionValue` passed as an argument.
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*/
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extern JS_PUBLIC_API JSObject* CallOriginalPromiseResolve(
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JSContext* cx, JS::HandleValue resolutionValue);
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/**
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* Calls the current compartment's original Promise.reject on the original
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* Promise constructor, with `resolutionValue` passed as an argument.
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*/
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extern JS_PUBLIC_API JSObject* CallOriginalPromiseReject(
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JSContext* cx, JS::HandleValue rejectionValue);
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/**
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* Resolves the given Promise with the given `resolutionValue`.
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*
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* Calls the `resolve` function that was passed to the executor function when
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* the Promise was created.
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*/
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extern JS_PUBLIC_API bool ResolvePromise(JSContext* cx,
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JS::HandleObject promiseObj,
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JS::HandleValue resolutionValue);
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/**
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* Rejects the given `promise` with the given `rejectionValue`.
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*
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* Calls the `reject` function that was passed to the executor function when
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* the Promise was created.
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*/
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extern JS_PUBLIC_API bool RejectPromise(JSContext* cx,
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JS::HandleObject promiseObj,
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JS::HandleValue rejectionValue);
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/**
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* Calls the current compartment's original Promise.prototype.then on the
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* given `promise`, with `onResolve` and `onReject` passed as arguments.
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*
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* Throws a TypeError if `promise` isn't a Promise (or possibly a different
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* error if it's a security wrapper or dead object proxy).
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*
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* Asserts that `onFulfilled` and `onRejected` are each either callable or
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* null.
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*/
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extern JS_PUBLIC_API JSObject* CallOriginalPromiseThen(
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JSContext* cx, JS::HandleObject promise, JS::HandleObject onFulfilled,
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JS::HandleObject onRejected);
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/**
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* Unforgeable, optimized version of the JS builtin Promise.prototype.then.
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*
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* Takes a Promise instance and `onResolve`, `onReject` callables to enqueue
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* as reactions for that promise. In difference to Promise.prototype.then,
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* this doesn't create and return a new Promise instance.
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*
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* Throws a TypeError if `promise` isn't a Promise (or possibly a different
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* error if it's a security wrapper or dead object proxy).
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*
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* Asserts that `onFulfilled` and `onRejected` are each either callable or
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* null.
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*/
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extern JS_PUBLIC_API bool AddPromiseReactions(JSContext* cx,
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JS::HandleObject promise,
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JS::HandleObject onFulfilled,
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JS::HandleObject onRejected);
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// This enum specifies whether a promise is expected to keep track of
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// information that is useful for embedders to implement user activation
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// behavior handling as specified in the HTML spec:
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// https://html.spec.whatwg.org/multipage/interaction.html#triggered-by-user-activation
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// By default, promises created by SpiderMonkey do not make any attempt to keep
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// track of information about whether an activation behavior was being processed
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// when the original promise in a promise chain was created. If the embedder
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// sets either of the HadUserInteractionAtCreation or
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// DidntHaveUserInteractionAtCreation flags on a promise after creating it,
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// SpiderMonkey will propagate that flag to newly created promises when
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// processing Promise#then and will make it possible to query this flag off of a
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// promise further down the chain later using the
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// GetPromiseUserInputEventHandlingState() API.
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enum class PromiseUserInputEventHandlingState {
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// Don't keep track of this state (default for all promises)
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DontCare,
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// Keep track of this state, the original promise in the chain was created
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// while an activation behavior was being processed.
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HadUserInteractionAtCreation,
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// Keep track of this state, the original promise in the chain was created
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// while an activation behavior was not being processed.
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DidntHaveUserInteractionAtCreation
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};
|
|
|
|
/**
|
|
* Returns the given Promise's activation behavior state flag per above as a
|
|
* JS::PromiseUserInputEventHandlingState value. All promises are created with
|
|
* the DontCare state by default.
|
|
*
|
|
* Returns JS::PromiseUserInputEventHandlingState::DontCare if the given object
|
|
* is a wrapper that can't safely be unwrapped.
|
|
*/
|
|
extern JS_PUBLIC_API PromiseUserInputEventHandlingState
|
|
GetPromiseUserInputEventHandlingState(JS::HandleObject promise);
|
|
|
|
/**
|
|
* Sets the given Promise's activation behavior state flag per above as a
|
|
* JS::PromiseUserInputEventHandlingState value.
|
|
*
|
|
* Returns false if the given object is a wrapper that can't safely be
|
|
* unwrapped.
|
|
*/
|
|
extern JS_PUBLIC_API bool SetPromiseUserInputEventHandlingState(
|
|
JS::HandleObject promise, JS::PromiseUserInputEventHandlingState state);
|
|
|
|
/**
|
|
* Unforgeable version of the JS builtin Promise.all.
|
|
*
|
|
* Takes a HandleObjectVector of Promise objects and returns a promise that's
|
|
* resolved with an array of resolution values when all those promises have
|
|
* been resolved, or rejected with the rejection value of the first rejected
|
|
* promise.
|
|
*
|
|
* Asserts that all objects in the `promises` vector are, maybe wrapped,
|
|
* instances of `Promise` or a subclass of `Promise`.
|
|
*/
|
|
extern JS_PUBLIC_API JSObject* GetWaitForAllPromise(
|
|
JSContext* cx, JS::HandleObjectVector promises);
|
|
|
|
/**
|
|
* The Dispatchable interface allows the embedding to call SpiderMonkey
|
|
* on a JSContext thread when requested via DispatchToEventLoopCallback.
|
|
*/
|
|
class JS_PUBLIC_API Dispatchable {
|
|
protected:
|
|
// Dispatchables are created and destroyed by SpiderMonkey.
|
|
Dispatchable() = default;
|
|
virtual ~Dispatchable() = default;
|
|
|
|
public:
|
|
// ShuttingDown indicates that SpiderMonkey should abort async tasks to
|
|
// expedite shutdown.
|
|
enum MaybeShuttingDown { NotShuttingDown, ShuttingDown };
|
|
|
|
// Called by the embedding after DispatchToEventLoopCallback succeeds.
|
|
virtual void run(JSContext* cx, MaybeShuttingDown maybeShuttingDown) = 0;
|
|
};
|
|
|
|
/**
|
|
* Callback to dispatch a JS::Dispatchable to a JSContext's thread's event loop.
|
|
*
|
|
* The DispatchToEventLoopCallback set on a particular JSContext must accept
|
|
* JS::Dispatchable instances and arrange for their `run` methods to be called
|
|
* eventually on the JSContext's thread. This is used for cross-thread dispatch,
|
|
* so the callback itself must be safe to call from any thread.
|
|
*
|
|
* If the callback returns `true`, it must eventually run the given
|
|
* Dispatchable; otherwise, SpiderMonkey may leak memory or hang.
|
|
*
|
|
* The callback may return `false` to indicate that the JSContext's thread is
|
|
* shutting down and is no longer accepting runnables. Shutting down is a
|
|
* one-way transition: once the callback has rejected a runnable, it must reject
|
|
* all subsequently submitted runnables as well.
|
|
*
|
|
* To establish a DispatchToEventLoopCallback, the embedding may either call
|
|
* InitDispatchToEventLoop to provide its own, or call js::UseInternalJobQueues
|
|
* to select a default implementation built into SpiderMonkey. This latter
|
|
* depends on the embedding to call js::RunJobs on the JavaScript thread to
|
|
* process queued Dispatchables at appropriate times.
|
|
*/
|
|
|
|
typedef bool (*DispatchToEventLoopCallback)(void* closure,
|
|
Dispatchable* dispatchable);
|
|
|
|
extern JS_PUBLIC_API void InitDispatchToEventLoop(
|
|
JSContext* cx, DispatchToEventLoopCallback callback, void* closure);
|
|
|
|
/**
|
|
* When a JSRuntime is destroyed it implicitly cancels all async tasks in
|
|
* progress, releasing any roots held by the task. However, this is not soon
|
|
* enough for cycle collection, which needs to have roots dropped earlier so
|
|
* that the cycle collector can transitively remove roots for a future GC. For
|
|
* these and other cases, the set of pending async tasks can be canceled
|
|
* with this call earlier than JSRuntime destruction.
|
|
*/
|
|
|
|
extern JS_PUBLIC_API void ShutdownAsyncTasks(JSContext* cx);
|
|
|
|
} // namespace JS
|
|
|
|
#endif // js_Promise_h
|