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denoland-deno/ext/web/03_abort_signal.js

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// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
// @ts-check
/// <reference path="../../core/internal.d.ts" />
import * as webidl from "ext:deno_webidl/00_webidl.js";
import { assert } from "ext:deno_web/00_infra.js";
import {
defineEventHandler,
Event,
EventTarget,
listenerCount,
setIsTrusted,
} from "ext:deno_web/02_event.js";
const primordials = globalThis.__bootstrap.primordials;
const {
ArrayPrototypeEvery,
ArrayPrototypePush,
SafeArrayIterator,
SafeSet,
SafeSetIterator,
SafeWeakRef,
SafeWeakSet,
SetPrototypeAdd,
SetPrototypeDelete,
Symbol,
TypeError,
WeakRefPrototypeDeref,
WeakSetPrototypeAdd,
WeakSetPrototypeHas,
} = primordials;
import { refTimer, setTimeout, unrefTimer } from "ext:deno_web/02_timers.js";
// Since WeakSet is not a iterable, WeakRefSet class is provided to store and
// iterate objects.
// To create an AsyncIterable using GeneratorFunction in the internal code,
// there are many primordial considerations, so we simply implement the
// toArray method.
class WeakRefSet {
#weakSet = new SafeWeakSet();
#refs = [];
add(value) {
if (WeakSetPrototypeHas(this.#weakSet, value)) {
return;
}
WeakSetPrototypeAdd(this.#weakSet, value);
ArrayPrototypePush(this.#refs, new SafeWeakRef(value));
}
has(value) {
return WeakSetPrototypeHas(this.#weakSet, value);
}
toArray() {
const ret = [];
for (let i = 0; i < this.#refs.length; ++i) {
const value = WeakRefPrototypeDeref(this.#refs[i]);
if (value !== undefined) {
ArrayPrototypePush(ret, value);
}
}
return ret;
}
}
const add = Symbol("[[add]]");
const signalAbort = Symbol("[[signalAbort]]");
const remove = Symbol("[[remove]]");
const abortReason = Symbol("[[abortReason]]");
const abortAlgos = Symbol("[[abortAlgos]]");
const dependent = Symbol("[[dependent]]");
const sourceSignals = Symbol("[[sourceSignals]]");
const dependentSignals = Symbol("[[dependentSignals]]");
const signal = Symbol("[[signal]]");
const timerId = Symbol("[[timerId]]");
const illegalConstructorKey = Symbol("illegalConstructorKey");
class AbortSignal extends EventTarget {
static any(signals) {
const prefix = "Failed to call 'AbortSignal.any'";
webidl.requiredArguments(arguments.length, 1, prefix);
return createDependentAbortSignal(signals, prefix);
}
static abort(reason = undefined) {
if (reason !== undefined) {
reason = webidl.converters.any(reason);
}
const signal = new AbortSignal(illegalConstructorKey);
signal[signalAbort](reason);
return signal;
}
static timeout(millis) {
const prefix = "Failed to call 'AbortSignal.timeout'";
webidl.requiredArguments(arguments.length, 1, prefix);
millis = webidl.converters["unsigned long long"](
millis,
prefix,
"Argument 1",
{
enforceRange: true,
},
);
const signal = new AbortSignal(illegalConstructorKey);
signal[timerId] = setTimeout(
() => {
signal[timerId] = null;
signal[signalAbort](
new DOMException("Signal timed out.", "TimeoutError"),
);
},
millis,
);
unrefTimer(signal[timerId]);
return signal;
}
[add](algorithm) {
if (this.aborted) {
return;
}
this[abortAlgos] ??= new SafeSet();
SetPrototypeAdd(this[abortAlgos], algorithm);
}
[signalAbort](
reason = new DOMException("The signal has been aborted", "AbortError"),
) {
if (this.aborted) {
return;
}
this[abortReason] = reason;
const algos = this[abortAlgos];
this[abortAlgos] = null;
const event = new Event("abort");
setIsTrusted(event, true);
super.dispatchEvent(event);
if (algos !== null) {
for (const algorithm of new SafeSetIterator(algos)) {
algorithm();
}
}
if (this[dependentSignals] !== null) {
const dependentSignalArray = this[dependentSignals].toArray();
for (let i = 0; i < dependentSignalArray.length; ++i) {
const dependentSignal = dependentSignalArray[i];
dependentSignal[signalAbort](reason);
}
}
}
[remove](algorithm) {
this[abortAlgos] && SetPrototypeDelete(this[abortAlgos], algorithm);
}
constructor(key = null) {
if (key !== illegalConstructorKey) {
throw new TypeError("Illegal constructor.");
}
super();
this[abortReason] = undefined;
this[abortAlgos] = null;
this[dependent] = false;
this[sourceSignals] = null;
this[dependentSignals] = null;
this[timerId] = null;
this[webidl.brand] = webidl.brand;
}
get aborted() {
webidl.assertBranded(this, AbortSignalPrototype);
return this[abortReason] !== undefined;
}
get reason() {
webidl.assertBranded(this, AbortSignalPrototype);
return this[abortReason];
}
throwIfAborted() {
webidl.assertBranded(this, AbortSignalPrototype);
if (this[abortReason] !== undefined) {
throw this[abortReason];
}
}
2023-06-26 09:10:27 -04:00
// `addEventListener` and `removeEventListener` have to be overridden in
// order to have the timer block the event loop while there are listeners.
// `[add]` and `[remove]` don't ref and unref the timer because they can
// only be used by Deno internals, which use it to essentially cancel async
// ops which would block the event loop.
addEventListener(...args) {
super.addEventListener(...new SafeArrayIterator(args));
if (listenerCount(this, "abort") > 0) {
if (this[timerId] !== null) {
refTimer(this[timerId]);
} else if (this[sourceSignals] !== null) {
const sourceSignalArray = this[sourceSignals].toArray();
for (let i = 0; i < sourceSignalArray.length; ++i) {
const sourceSignal = sourceSignalArray[i];
if (sourceSignal[timerId] !== null) {
refTimer(sourceSignal[timerId]);
}
}
}
}
}
removeEventListener(...args) {
super.removeEventListener(...new SafeArrayIterator(args));
if (listenerCount(this, "abort") === 0) {
if (this[timerId] !== null) {
unrefTimer(this[timerId]);
} else if (this[sourceSignals] !== null) {
const sourceSignalArray = this[sourceSignals].toArray();
for (let i = 0; i < sourceSignalArray.length; ++i) {
const sourceSignal = sourceSignalArray[i];
if (sourceSignal[timerId] !== null) {
// Check that all dependent signals of the timer signal do not have listeners
if (
ArrayPrototypeEvery(
sourceSignal[dependentSignals].toArray(),
(dependentSignal) =>
dependentSignal === this ||
listenerCount(dependentSignal, "abort") === 0,
)
) {
unrefTimer(sourceSignal[timerId]);
}
}
}
}
}
}
}
defineEventHandler(AbortSignal.prototype, "abort");
webidl.configureInterface(AbortSignal);
const AbortSignalPrototype = AbortSignal.prototype;
class AbortController {
[signal] = new AbortSignal(illegalConstructorKey);
constructor() {
this[webidl.brand] = webidl.brand;
}
get signal() {
webidl.assertBranded(this, AbortControllerPrototype);
return this[signal];
}
abort(reason) {
webidl.assertBranded(this, AbortControllerPrototype);
this[signal][signalAbort](reason);
}
}
webidl.configureInterface(AbortController);
const AbortControllerPrototype = AbortController.prototype;
webidl.converters.AbortSignal = webidl.createInterfaceConverter(
"AbortSignal",
AbortSignal.prototype,
);
webidl.converters["sequence<AbortSignal>"] = webidl.createSequenceConverter(
webidl.converters.AbortSignal,
);
function newSignal() {
return new AbortSignal(illegalConstructorKey);
}
function createDependentAbortSignal(signals, prefix) {
signals = webidl.converters["sequence<AbortSignal>"](
signals,
prefix,
"Argument 1",
);
const resultSignal = new AbortSignal(illegalConstructorKey);
for (let i = 0; i < signals.length; ++i) {
const signal = signals[i];
if (signal[abortReason] !== undefined) {
resultSignal[abortReason] = signal[abortReason];
return resultSignal;
}
}
resultSignal[dependent] = true;
resultSignal[sourceSignals] = new WeakRefSet();
for (let i = 0; i < signals.length; ++i) {
const signal = signals[i];
if (!signal[dependent]) {
signal[dependentSignals] ??= new WeakRefSet();
resultSignal[sourceSignals].add(signal);
signal[dependentSignals].add(resultSignal);
} else {
const sourceSignalArray = signal[sourceSignals].toArray();
for (let j = 0; j < sourceSignalArray.length; ++j) {
const sourceSignal = sourceSignalArray[j];
assert(sourceSignal[abortReason] === undefined);
assert(!sourceSignal[dependent]);
if (resultSignal[sourceSignals].has(sourceSignal)) {
continue;
}
resultSignal[sourceSignals].add(sourceSignal);
sourceSignal[dependentSignals].add(resultSignal);
}
}
}
return resultSignal;
}
export {
AbortController,
AbortSignal,
AbortSignalPrototype,
add,
createDependentAbortSignal,
newSignal,
remove,
signalAbort,
timerId,
};