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denoland-deno/cli/js/web/streams/internals.ts

2436 lines
73 KiB
TypeScript

// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license.
// This code closely follows the WHATWG Stream Specification
// See: https://streams.spec.whatwg.org/
//
// There are some parts that are not fully implemented, and there are some
// comments which point to steps of the specification that are not implemented.
//
/* eslint-disable @typescript-eslint/no-explicit-any,require-await */
import { ReadableByteStreamControllerImpl } from "./readable_byte_stream_controller.ts";
import { ReadableStreamDefaultControllerImpl } from "./readable_stream_default_controller.ts";
import { ReadableStreamDefaultReaderImpl } from "./readable_stream_default_reader.ts";
import { ReadableStreamImpl } from "./readable_stream.ts";
import * as sym from "./symbols.ts";
import { TransformStreamImpl } from "./transform_stream.ts";
import { TransformStreamDefaultControllerImpl } from "./transform_stream_default_controller.ts";
import { WritableStreamDefaultControllerImpl } from "./writable_stream_default_controller.ts";
import { WritableStreamDefaultWriterImpl } from "./writable_stream_default_writer.ts";
import { WritableStreamImpl } from "./writable_stream.ts";
import { AbortSignalImpl } from "../abort_signal.ts";
import { DOMExceptionImpl as DOMException } from "../dom_exception.ts";
import { cloneValue } from "../util.ts";
import { assert, AssertionError } from "../../util.ts";
export type AbortAlgorithm = (reason?: any) => PromiseLike<void>;
export interface AbortRequest {
promise: Deferred<void>;
reason?: any;
wasAlreadyErroring: boolean;
}
export interface BufferQueueItem extends Pair<ArrayBuffer | SharedArrayBuffer> {
offset: number;
}
export type CancelAlgorithm = (reason?: any) => PromiseLike<void>;
export type CloseAlgorithm = () => PromiseLike<void>;
type Container<R = any> = {
[sym.queue]: Array<Pair<R> | BufferQueueItem>;
[sym.queueTotalSize]: number;
};
export type FlushAlgorithm = () => Promise<void>;
export type Pair<R> = { value: R; size: number };
export type PullAlgorithm = () => PromiseLike<void>;
export type SizeAlgorithm<T> = (chunk: T) => number;
export type StartAlgorithm = () => void | PromiseLike<void>;
export type TransformAlgorithm<I> = (chunk: I) => Promise<void>;
export type WriteAlgorithm<W> = (chunk: W) => Promise<void>;
export interface Deferred<T> {
promise: Promise<T>;
resolve?: (value?: T | PromiseLike<T>) => void;
reject?: (reason?: any) => void;
}
export interface ReadableStreamGenericReader<R = any>
extends ReadableStreamReader<R> {
[sym.closedPromise]: Deferred<void>;
[sym.forAuthorCode]: boolean;
[sym.ownerReadableStream]: ReadableStreamImpl<R>;
[sym.readRequests]: Array<Deferred<ReadableStreamReadResult<R>>>;
}
export interface ReadableStreamAsyncIterator<T = any> extends AsyncIterator<T> {
[sym.asyncIteratorReader]: ReadableStreamDefaultReaderImpl<T>;
[sym.preventCancel]: boolean;
return(value?: any | PromiseLike<any>): Promise<IteratorResult<T, any>>;
}
export function acquireReadableStreamDefaultReader<T>(
stream: ReadableStreamImpl<T>,
forAuthorCode = false
): ReadableStreamDefaultReaderImpl<T> {
const reader = new ReadableStreamDefaultReaderImpl(stream);
reader[sym.forAuthorCode] = forAuthorCode;
return reader;
}
export function acquireWritableStreamDefaultWriter<W>(
stream: WritableStreamImpl<W>
): WritableStreamDefaultWriterImpl<W> {
return new WritableStreamDefaultWriterImpl(stream);
}
export function call<F extends (...args: any[]) => any>(
fn: F,
v: ThisType<F>,
args: Parameters<F>
): ReturnType<F> {
return Function.prototype.apply.call(fn, v, args);
}
function createAlgorithmFromUnderlyingMethod<
O extends UnderlyingByteSource | UnderlyingSource | Transformer,
P extends keyof O
>(
underlyingObject: O,
methodName: P,
algoArgCount: 0,
...extraArgs: any[]
): () => Promise<void>;
function createAlgorithmFromUnderlyingMethod<
O extends UnderlyingByteSource | UnderlyingSource | Transformer,
P extends keyof O
>(
underlyingObject: O,
methodName: P,
algoArgCount: 1,
...extraArgs: any[]
): (arg: any) => Promise<void>;
function createAlgorithmFromUnderlyingMethod<
O extends UnderlyingByteSource | UnderlyingSource | Transformer,
P extends keyof O
>(
underlyingObject: O,
methodName: P,
algoArgCount: 0 | 1,
...extraArgs: any[]
): (() => Promise<void>) | ((arg: any) => Promise<void>) {
const method = underlyingObject[methodName];
if (method) {
if (!isCallable(method)) {
throw new TypeError("method is not callable");
}
if (algoArgCount === 0) {
return async (): Promise<void> =>
call(method, underlyingObject, extraArgs as any);
} else {
return async (arg: any): Promise<void> => {
const fullArgs = [arg, ...extraArgs];
return call(method, underlyingObject, fullArgs as any);
};
}
}
return async (): Promise<void> => undefined;
}
function createReadableStream<T>(
startAlgorithm: StartAlgorithm,
pullAlgorithm: PullAlgorithm,
cancelAlgorithm: CancelAlgorithm,
highWaterMark = 1,
sizeAlgorithm: SizeAlgorithm<T> = (): number => 1
): ReadableStreamImpl<T> {
highWaterMark = validateAndNormalizeHighWaterMark(highWaterMark);
const stream: ReadableStreamImpl<T> = Object.create(
ReadableStreamImpl.prototype
);
initializeReadableStream(stream);
const controller: ReadableStreamDefaultControllerImpl<T> = Object.create(
ReadableStreamDefaultControllerImpl.prototype
);
setUpReadableStreamDefaultController(
stream,
controller,
startAlgorithm,
pullAlgorithm,
cancelAlgorithm,
highWaterMark,
sizeAlgorithm
);
return stream;
}
function createWritableStream<W>(
startAlgorithm: StartAlgorithm,
writeAlgorithm: WriteAlgorithm<W>,
closeAlgorithm: CloseAlgorithm,
abortAlgorithm: AbortAlgorithm,
highWaterMark = 1,
sizeAlgorithm: SizeAlgorithm<W> = (): number => 1
): WritableStreamImpl<W> {
highWaterMark = validateAndNormalizeHighWaterMark(highWaterMark);
const stream = Object.create(WritableStreamImpl.prototype);
initializeWritableStream(stream);
const controller = Object.create(
WritableStreamDefaultControllerImpl.prototype
);
setUpWritableStreamDefaultController(
stream,
controller,
startAlgorithm,
writeAlgorithm,
closeAlgorithm,
abortAlgorithm,
highWaterMark,
sizeAlgorithm
);
return stream;
}
export function dequeueValue<R>(container: Container<R>): R {
assert(sym.queue in container && sym.queueTotalSize in container);
assert(container[sym.queue].length);
const pair = container[sym.queue].shift()!;
container[sym.queueTotalSize] -= pair.size;
if (container[sym.queueTotalSize] <= 0) {
container[sym.queueTotalSize] = 0;
}
return pair.value as R;
}
function enqueueValueWithSize<R>(
container: Container<R>,
value: R,
size: number
): void {
assert(sym.queue in container && sym.queueTotalSize in container);
size = Number(size);
if (!isFiniteNonNegativeNumber(size)) {
throw new RangeError("size must be a finite non-negative number.");
}
container[sym.queue].push({ value, size });
container[sym.queueTotalSize] += size;
}
/** Non-spec mechanism to "unwrap" a promise and store it to be resolved
* later. */
export function getDeferred<T>(): Required<Deferred<T>> {
let resolve: (value?: T | PromiseLike<T>) => void;
let reject: (reason?: any) => void;
const promise = new Promise<T>((res, rej) => {
resolve = res;
reject = rej;
});
return { promise, resolve: resolve!, reject: reject! };
}
export function initializeReadableStream<R>(
stream: ReadableStreamImpl<R>
): void {
stream[sym.state] = "readable";
stream[sym.reader] = stream[sym.storedError] = undefined;
stream[sym.disturbed] = false;
}
export function initializeTransformStream<I, O>(
stream: TransformStreamImpl<I, O>,
startPromise: Promise<void>,
writableHighWaterMark: number,
writableSizeAlgorithm: SizeAlgorithm<I>,
readableHighWaterMark: number,
readableSizeAlgorithm: SizeAlgorithm<O>
): void {
const startAlgorithm = (): Promise<void> => startPromise;
const writeAlgorithm = (chunk: any): Promise<void> =>
transformStreamDefaultSinkWriteAlgorithm(stream, chunk);
const abortAlgorithm = (reason: any): Promise<void> =>
transformStreamDefaultSinkAbortAlgorithm(stream, reason);
const closeAlgorithm = (): Promise<void> =>
transformStreamDefaultSinkCloseAlgorithm(stream);
stream[sym.writable] = createWritableStream(
startAlgorithm,
writeAlgorithm,
closeAlgorithm,
abortAlgorithm,
writableHighWaterMark,
writableSizeAlgorithm
);
const pullAlgorithm = (): PromiseLike<void> =>
transformStreamDefaultSourcePullAlgorithm(stream);
const cancelAlgorithm = (reason: any): Promise<void> => {
transformStreamErrorWritableAndUnblockWrite(stream, reason);
return Promise.resolve(undefined);
};
stream[sym.readable] = createReadableStream(
startAlgorithm,
pullAlgorithm,
cancelAlgorithm,
readableHighWaterMark,
readableSizeAlgorithm
);
stream[sym.backpressure] = stream[sym.backpressureChangePromise] = undefined;
transformStreamSetBackpressure(stream, true);
Object.defineProperty(stream, sym.transformStreamController, {
value: undefined,
configurable: true,
});
}
export function initializeWritableStream<W>(
stream: WritableStreamImpl<W>
): void {
stream[sym.state] = "writable";
stream[sym.storedError] = stream[sym.writer] = stream[
sym.writableStreamController
] = stream[sym.inFlightWriteRequest] = stream[sym.closeRequest] = stream[
sym.inFlightCloseRequest
] = stream[sym.pendingAbortRequest] = undefined;
stream[sym.writeRequests] = [];
stream[sym.backpressure] = false;
}
export function invokeOrNoop<O extends Record<string, any>, P extends keyof O>(
o: O,
p: P,
...args: Parameters<O[P]>
): ReturnType<O[P]> | undefined {
assert(o);
const method = o[p];
if (!method) {
return undefined;
}
return call(method, o, args);
}
function isCallable(value: unknown): value is (...args: any) => any {
return typeof value === "function";
}
export function isDetachedBuffer(value: object): boolean {
return sym.isFakeDetached in value;
}
function isFiniteNonNegativeNumber(v: unknown): v is number {
return Number.isFinite(v) && (v as number) >= 0;
}
export function isReadableByteStreamController(
x: unknown
): x is ReadableByteStreamControllerImpl {
return typeof x !== "object" ||
x === null ||
!(sym.controlledReadableByteStream in x)
? false
: true;
}
export function isReadableStream(x: unknown): x is ReadableStreamImpl {
return typeof x !== "object" ||
x === null ||
!(sym.readableStreamController in x)
? false
: true;
}
export function isReadableStreamAsyncIterator(
x: unknown
): x is ReadableStreamAsyncIterator<any> {
if (typeof x !== "object" || x === null) {
return false;
}
if (!(sym.asyncIteratorReader in x)) {
return false;
}
return true;
}
export function isReadableStreamDefaultController(
x: unknown
): x is ReadableStreamDefaultControllerImpl {
return typeof x !== "object" ||
x === null ||
!(sym.controlledReadableStream in x)
? false
: true;
}
export function isReadableStreamDefaultReader<T>(
x: unknown
): x is ReadableStreamDefaultReaderImpl<T> {
return typeof x !== "object" || x === null || !(sym.readRequests in x)
? false
: true;
}
export function isReadableStreamLocked(stream: ReadableStreamImpl): boolean {
assert(isReadableStream(stream));
return stream[sym.reader] ? true : false;
}
export function isReadableStreamDisturbed(stream: ReadableStream): boolean {
assert(isReadableStream(stream));
return stream[sym.disturbed] ? true : false;
}
export function isTransformStream(
x: unknown
): x is TransformStreamImpl<any, any> {
return typeof x !== "object" ||
x === null ||
!(sym.transformStreamController in x)
? false
: true;
}
export function isTransformStreamDefaultController(
x: unknown
): x is TransformStreamDefaultControllerImpl<any, any> {
return typeof x !== "object" ||
x === null ||
!(sym.controlledTransformStream in x)
? false
: true;
}
export function isUnderlyingByteSource(
underlyingSource: UnderlyingByteSource | UnderlyingSource
): underlyingSource is UnderlyingByteSource {
const { type } = underlyingSource;
const typeString = String(type);
return typeString === "bytes";
}
export function isWritableStream(x: unknown): x is WritableStreamImpl {
return typeof x !== "object" ||
x === null ||
!(sym.writableStreamController in x)
? false
: true;
}
export function isWritableStreamDefaultController(
x: unknown
): x is WritableStreamDefaultControllerImpl<any> {
return typeof x !== "object" ||
x === null ||
!(sym.controlledWritableStream in x)
? false
: true;
}
export function isWritableStreamDefaultWriter(
x: unknown
): x is WritableStreamDefaultWriterImpl<any> {
return typeof x !== "object" || x === null || !(sym.ownerWritableStream in x)
? false
: true;
}
export function isWritableStreamLocked(stream: WritableStreamImpl): boolean {
assert(isWritableStream(stream));
if (stream[sym.writer] === undefined) {
return false;
}
return true;
}
export function makeSizeAlgorithmFromSizeFunction<T>(
size: QueuingStrategySizeCallback<T> | undefined
): SizeAlgorithm<T> {
if (size === undefined) {
return (): number => 1;
}
if (typeof size !== "function") {
throw new TypeError("size must be callable.");
}
return (chunk: T): number => {
return size.call(undefined, chunk);
};
}
function peekQueueValue<T>(container: Container<T>): T | "close" {
assert(sym.queue in container && sym.queueTotalSize in container);
assert(container[sym.queue].length);
const [pair] = container[sym.queue];
return pair.value as T;
}
function readableByteStreamControllerShouldCallPull(
controller: ReadableByteStreamControllerImpl
): boolean {
const stream = controller[sym.controlledReadableByteStream];
if (
stream[sym.state] !== "readable" ||
controller[sym.closeRequested] ||
!controller[sym.started]
) {
return false;
}
if (
readableStreamHasDefaultReader(stream) &&
readableStreamGetNumReadRequests(stream) > 0
) {
return true;
}
// 3.13.25.6 If ! ReadableStreamHasBYOBReader(stream) is true and !
// ReadableStreamGetNumReadIntoRequests(stream) > 0, return true.
const desiredSize = readableByteStreamControllerGetDesiredSize(controller);
assert(desiredSize !== null);
if (desiredSize > 0) {
return true;
}
return false;
}
export function readableByteStreamControllerCallPullIfNeeded(
controller: ReadableByteStreamControllerImpl
): void {
const shouldPull = readableByteStreamControllerShouldCallPull(controller);
if (!shouldPull) {
return;
}
if (controller[sym.pulling]) {
controller[sym.pullAgain] = true;
return;
}
assert(controller[sym.pullAgain] === false);
controller[sym.pulling] = true;
const pullPromise = controller[sym.pullAlgorithm]();
setPromiseIsHandledToTrue(
pullPromise.then(
() => {
controller[sym.pulling] = false;
if (controller[sym.pullAgain]) {
controller[sym.pullAgain] = false;
readableByteStreamControllerCallPullIfNeeded(controller);
}
},
(e) => {
readableByteStreamControllerError(controller, e);
}
)
);
}
export function readableByteStreamControllerClearAlgorithms(
controller: ReadableByteStreamControllerImpl
): void {
(controller as any)[sym.pullAlgorithm] = undefined;
(controller as any)[sym.cancelAlgorithm] = undefined;
}
export function readableByteStreamControllerClose(
controller: ReadableByteStreamControllerImpl
): void {
const stream = controller[sym.controlledReadableByteStream];
if (controller[sym.closeRequested] || stream[sym.state] !== "readable") {
return;
}
if (controller[sym.queueTotalSize] > 0) {
controller[sym.closeRequested] = true;
return;
}
// 3.13.6.4 If controller.[[pendingPullIntos]] is not empty, (BYOB Support)
readableByteStreamControllerClearAlgorithms(controller);
readableStreamClose(stream);
}
export function readableByteStreamControllerEnqueue(
controller: ReadableByteStreamControllerImpl,
chunk: ArrayBufferView
): void {
const stream = controller[sym.controlledReadableByteStream];
if (controller[sym.closeRequested] || stream[sym.state] !== "readable") {
return;
}
const { buffer, byteOffset, byteLength } = chunk;
const transferredBuffer = transferArrayBuffer(buffer);
if (readableStreamHasDefaultReader(stream)) {
if (readableStreamGetNumReadRequests(stream) === 0) {
readableByteStreamControllerEnqueueChunkToQueue(
controller,
transferredBuffer,
byteOffset,
byteLength
);
} else {
assert(controller[sym.queue].length === 0);
const transferredView = new Uint8Array(
transferredBuffer,
byteOffset,
byteLength
);
readableStreamFulfillReadRequest(stream, transferredView, false);
}
// 3.13.9.8 Otherwise, if ! ReadableStreamHasBYOBReader(stream) is true
} else {
assert(!isReadableStreamLocked(stream));
readableByteStreamControllerEnqueueChunkToQueue(
controller,
transferredBuffer,
byteOffset,
byteLength
);
}
readableByteStreamControllerCallPullIfNeeded(controller);
}
function readableByteStreamControllerEnqueueChunkToQueue(
controller: ReadableByteStreamControllerImpl,
buffer: ArrayBuffer | SharedArrayBuffer,
byteOffset: number,
byteLength: number
): void {
controller[sym.queue].push({
value: buffer,
offset: byteOffset,
size: byteLength,
});
controller[sym.queueTotalSize] += byteLength;
}
export function readableByteStreamControllerError(
controller: ReadableByteStreamControllerImpl,
e: any
): void {
const stream = controller[sym.controlledReadableByteStream];
if (stream[sym.state] !== "readable") {
return;
}
// 3.13.11.3 Perform ! ReadableByteStreamControllerClearPendingPullIntos(controller).
resetQueue(controller);
readableByteStreamControllerClearAlgorithms(controller);
readableStreamError(stream, e);
}
export function readableByteStreamControllerGetDesiredSize(
controller: ReadableByteStreamControllerImpl
): number | null {
const stream = controller[sym.controlledReadableByteStream];
const state = stream[sym.state];
if (state === "errored") {
return null;
}
if (state === "closed") {
return 0;
}
return controller[sym.strategyHWM] - controller[sym.queueTotalSize];
}
export function readableByteStreamControllerHandleQueueDrain(
controller: ReadableByteStreamControllerImpl
): void {
assert(
controller[sym.controlledReadableByteStream][sym.state] === "readable"
);
if (controller[sym.queueTotalSize] === 0 && controller[sym.closeRequested]) {
readableByteStreamControllerClearAlgorithms(controller);
readableStreamClose(controller[sym.controlledReadableByteStream]);
} else {
readableByteStreamControllerCallPullIfNeeded(controller);
}
}
export function readableStreamAddReadRequest<R>(
stream: ReadableStreamImpl<R>
): Promise<ReadableStreamReadResult<R>> {
assert(isReadableStreamDefaultReader(stream[sym.reader]));
assert(stream[sym.state] === "readable");
const promise = getDeferred<ReadableStreamReadResult<R>>();
stream[sym.reader]![sym.readRequests].push(promise);
return promise.promise;
}
export function readableStreamCancel<T>(
stream: ReadableStreamImpl<T>,
reason: any
): Promise<void> {
stream[sym.disturbed] = true;
if (stream[sym.state] === "closed") {
return Promise.resolve();
}
if (stream[sym.state] === "errored") {
return Promise.reject(stream[sym.storedError]);
}
readableStreamClose(stream);
return stream[sym.readableStreamController]![sym.cancelSteps](reason).then(
() => undefined
) as Promise<void>;
}
export function readableStreamClose<T>(stream: ReadableStreamImpl<T>): void {
assert(stream[sym.state] === "readable");
stream[sym.state] = "closed";
const reader = stream[sym.reader];
if (!reader) {
return;
}
if (isReadableStreamDefaultReader<T>(reader)) {
for (const readRequest of reader[sym.readRequests]) {
assert(readRequest.resolve);
readRequest.resolve(
readableStreamCreateReadResult<T>(
undefined,
true,
reader[sym.forAuthorCode]
)
);
}
reader[sym.readRequests] = [];
}
const resolve = reader[sym.closedPromise].resolve;
assert(resolve);
resolve();
}
export function readableStreamCreateReadResult<T>(
value: T | undefined,
done: boolean,
forAuthorCode: boolean
): ReadableStreamReadResult<T> {
const prototype = forAuthorCode ? Object.prototype : null;
assert(typeof done === "boolean");
const obj: ReadableStreamReadResult<T> = Object.create(prototype);
Object.defineProperties(obj, {
value: { value, writable: true, enumerable: true, configurable: true },
done: { value: done, writable: true, enumerable: true, configurable: true },
});
return obj;
}
export function readableStreamDefaultControllerCallPullIfNeeded<T>(
controller: ReadableStreamDefaultControllerImpl<T>
): void {
const shouldPull = readableStreamDefaultControllerShouldCallPull(controller);
if (!shouldPull) {
return;
}
if (controller[sym.pulling]) {
controller[sym.pullAgain] = true;
return;
}
assert(controller[sym.pullAgain] === false);
controller[sym.pulling] = true;
const pullPromise = controller[sym.pullAlgorithm]();
pullPromise.then(
() => {
controller[sym.pulling] = false;
if (controller[sym.pullAgain]) {
controller[sym.pullAgain] = false;
readableStreamDefaultControllerCallPullIfNeeded(controller);
}
},
(e) => {
readableStreamDefaultControllerError(controller, e);
}
);
}
export function readableStreamDefaultControllerCanCloseOrEnqueue<T>(
controller: ReadableStreamDefaultControllerImpl<T>
): boolean {
const state = controller[sym.controlledReadableStream][sym.state];
if (!controller[sym.closeRequested] && state === "readable") {
return true;
}
return false;
}
export function readableStreamDefaultControllerClearAlgorithms<T>(
controller: ReadableStreamDefaultControllerImpl<T>
): void {
(controller as any)[sym.pullAlgorithm] = undefined;
(controller as any)[sym.cancelAlgorithm] = undefined;
(controller as any)[sym.strategySizeAlgorithm] = undefined;
}
export function readableStreamDefaultControllerClose<T>(
controller: ReadableStreamDefaultControllerImpl<T>
): void {
if (!readableStreamDefaultControllerCanCloseOrEnqueue(controller)) {
return;
}
const stream = controller[sym.controlledReadableStream];
controller[sym.closeRequested] = true;
if (controller[sym.queue].length === 0) {
readableStreamDefaultControllerClearAlgorithms(controller);
readableStreamClose(stream);
}
}
export function readableStreamDefaultControllerEnqueue<T>(
controller: ReadableStreamDefaultControllerImpl<T>,
chunk: T
): void {
if (!readableStreamDefaultControllerCanCloseOrEnqueue(controller)) {
return;
}
const stream = controller[sym.controlledReadableStream];
if (
isReadableStreamLocked(stream) &&
readableStreamGetNumReadRequests(stream) > 0
) {
readableStreamFulfillReadRequest(stream, chunk, false);
} else {
try {
const chunkSize = controller[sym.strategySizeAlgorithm](chunk);
enqueueValueWithSize(controller, chunk, chunkSize);
} catch (err) {
readableStreamDefaultControllerError(controller, err);
throw err;
}
}
readableStreamDefaultControllerCallPullIfNeeded(controller);
}
export function readableStreamDefaultControllerGetDesiredSize<T>(
controller: ReadableStreamDefaultControllerImpl<T>
): number | null {
const stream = controller[sym.controlledReadableStream];
const state = stream[sym.state];
if (state === "errored") {
return null;
}
if (state === "closed") {
return 0;
}
return controller[sym.strategyHWM] - controller[sym.queueTotalSize];
}
export function readableStreamDefaultControllerError<T>(
controller: ReadableStreamDefaultControllerImpl<T>,
e: any
): void {
const stream = controller[sym.controlledReadableStream];
if (stream[sym.state] !== "readable") {
return;
}
resetQueue(controller);
readableStreamDefaultControllerClearAlgorithms(controller);
readableStreamError(stream, e);
}
function readableStreamDefaultControllerHasBackpressure<T>(
controller: ReadableStreamDefaultControllerImpl<T>
): boolean {
return readableStreamDefaultControllerShouldCallPull(controller)
? true
: false;
}
function readableStreamDefaultControllerShouldCallPull<T>(
controller: ReadableStreamDefaultControllerImpl<T>
): boolean {
const stream = controller[sym.controlledReadableStream];
if (
!readableStreamDefaultControllerCanCloseOrEnqueue(controller) ||
controller[sym.started] === false
) {
return false;
}
if (
isReadableStreamLocked(stream) &&
readableStreamGetNumReadRequests(stream) > 0
) {
return true;
}
const desiredSize = readableStreamDefaultControllerGetDesiredSize(controller);
assert(desiredSize !== null);
if (desiredSize > 0) {
return true;
}
return false;
}
export function readableStreamDefaultReaderRead<R>(
reader: ReadableStreamDefaultReaderImpl<R>
): Promise<ReadableStreamReadResult<R>> {
const stream = reader[sym.ownerReadableStream];
assert(stream);
stream[sym.disturbed] = true;
if (stream[sym.state] === "closed") {
return Promise.resolve(
readableStreamCreateReadResult<R>(
undefined,
true,
reader[sym.forAuthorCode]
)
);
}
if (stream[sym.state] === "errored") {
return Promise.reject(stream[sym.storedError]);
}
assert(stream[sym.state] === "readable");
return (stream[
sym.readableStreamController
] as ReadableStreamDefaultControllerImpl)[sym.pullSteps]();
}
export function readableStreamError(stream: ReadableStreamImpl, e: any): void {
assert(isReadableStream(stream));
assert(stream[sym.state] === "readable");
stream[sym.state] = "errored";
stream[sym.storedError] = e;
const reader = stream[sym.reader];
if (reader === undefined) {
return;
}
if (isReadableStreamDefaultReader(reader)) {
for (const readRequest of reader[sym.readRequests]) {
assert(readRequest.reject);
readRequest.reject(e);
readRequest.reject = undefined;
readRequest.resolve = undefined;
}
reader[sym.readRequests] = [];
}
// 3.5.6.8 Otherwise, support BYOB Reader
reader[sym.closedPromise].reject!(e);
reader[sym.closedPromise].reject = undefined;
reader[sym.closedPromise].resolve = undefined;
setPromiseIsHandledToTrue(reader[sym.closedPromise].promise);
}
export function readableStreamFulfillReadRequest<R>(
stream: ReadableStreamImpl<R>,
chunk: R,
done: boolean
): void {
const reader = stream[sym.reader]!;
const readRequest = reader[sym.readRequests].shift()!;
assert(readRequest.resolve);
readRequest.resolve(
readableStreamCreateReadResult(chunk, done, reader[sym.forAuthorCode])
);
}
export function readableStreamGetNumReadRequests(
stream: ReadableStreamImpl
): number {
return stream[sym.reader]?.[sym.readRequests].length ?? 0;
}
export function readableStreamHasDefaultReader(
stream: ReadableStreamImpl
): boolean {
const reader = stream[sym.reader];
return reader === undefined || !isReadableStreamDefaultReader(reader)
? false
: true;
}
export function readableStreamPipeTo<T>(
source: ReadableStreamImpl<T>,
dest: WritableStreamImpl<T>,
preventClose: boolean,
preventAbort: boolean,
preventCancel: boolean,
signal: AbortSignalImpl | undefined
): Promise<void> {
assert(isReadableStream(source));
assert(isWritableStream(dest));
assert(
typeof preventClose === "boolean" &&
typeof preventAbort === "boolean" &&
typeof preventCancel === "boolean"
);
assert(signal === undefined || signal instanceof AbortSignalImpl);
assert(!isReadableStreamLocked(source));
assert(!isWritableStreamLocked(dest));
const reader = acquireReadableStreamDefaultReader(source);
const writer = acquireWritableStreamDefaultWriter(dest);
source[sym.disturbed] = true;
let shuttingDown = false;
const promise = getDeferred<void>();
let abortAlgorithm: () => void;
if (signal) {
abortAlgorithm = (): void => {
const error = new DOMException("Abort signal received.", "AbortSignal");
const actions: Array<() => Promise<void>> = [];
if (!preventAbort) {
actions.push(() => {
if (dest[sym.state] === "writable") {
return writableStreamAbort(dest, error);
} else {
return Promise.resolve(undefined);
}
});
}
if (!preventCancel) {
actions.push(() => {
if (source[sym.state] === "readable") {
return readableStreamCancel(source, error);
} else {
return Promise.resolve(undefined);
}
});
}
shutdownWithAction(
() => Promise.all(actions.map((action) => action())),
true,
error
);
};
if (signal.aborted) {
abortAlgorithm();
return promise.promise;
}
signal.addEventListener("abort", abortAlgorithm);
}
let currentWrite = Promise.resolve();
// At this point, the spec becomes non-specific and vague. Most of the rest
// of this code is based on the reference implementation that is part of the
// specification. This is why the functions are only scoped to this function
// to ensure they don't leak into the spec compliant parts.
function isOrBecomesClosed(
stream: ReadableStreamImpl | WritableStreamImpl,
promise: Promise<void>,
action: () => void
): void {
if (stream[sym.state] === "closed") {
action();
} else {
setPromiseIsHandledToTrue(promise.then(action));
}
}
function isOrBecomesErrored(
stream: ReadableStreamImpl | WritableStreamImpl,
promise: Promise<void>,
action: (error: any) => void
): void {
if (stream[sym.state] === "errored") {
action(stream[sym.storedError]);
} else {
setPromiseIsHandledToTrue(promise.catch((error) => action(error)));
}
}
function finalize(isError?: boolean, error?: any): void {
writableStreamDefaultWriterRelease(writer);
readableStreamReaderGenericRelease(reader);
if (signal) {
signal.removeEventListener("abort", abortAlgorithm);
}
if (isError) {
promise.reject(error);
} else {
promise.resolve();
}
}
function waitForWritesToFinish(): Promise<void> {
const oldCurrentWrite = currentWrite;
return currentWrite.then(() =>
oldCurrentWrite !== currentWrite ? waitForWritesToFinish() : undefined
);
}
function shutdownWithAction(
action: () => Promise<any>,
originalIsError?: boolean,
originalError?: any
): void {
function doTheRest(): void {
setPromiseIsHandledToTrue(
action().then(
() => finalize(originalIsError, originalError),
(newError) => finalize(true, newError)
)
);
}
if (shuttingDown) {
return;
}
shuttingDown = true;
if (
dest[sym.state] === "writable" &&
writableStreamCloseQueuedOrInFlight(dest) === false
) {
setPromiseIsHandledToTrue(waitForWritesToFinish().then(doTheRest));
} else {
doTheRest();
}
}
function shutdown(isError: boolean, error?: any): void {
if (shuttingDown) {
return;
}
shuttingDown = true;
if (
dest[sym.state] === "writable" &&
!writableStreamCloseQueuedOrInFlight(dest)
) {
setPromiseIsHandledToTrue(
waitForWritesToFinish().then(() => finalize(isError, error))
);
}
finalize(isError, error);
}
function pipeStep(): Promise<boolean> {
if (shuttingDown) {
return Promise.resolve(true);
}
return writer[sym.readyPromise].promise.then(() => {
return readableStreamDefaultReaderRead(reader).then(({ value, done }) => {
if (done === true) {
return true;
}
currentWrite = writableStreamDefaultWriterWrite(
writer,
value!
).then(undefined, () => {});
return false;
});
});
}
function pipeLoop(): Promise<void> {
return new Promise((resolveLoop, rejectLoop) => {
function next(done: boolean): void {
if (done) {
resolveLoop(undefined);
} else {
setPromiseIsHandledToTrue(pipeStep().then(next, rejectLoop));
}
}
next(false);
});
}
isOrBecomesErrored(
source,
reader[sym.closedPromise].promise,
(storedError) => {
if (!preventAbort) {
shutdownWithAction(
() => writableStreamAbort(dest, storedError),
true,
storedError
);
} else {
shutdown(true, storedError);
}
}
);
isOrBecomesErrored(dest, writer[sym.closedPromise].promise, (storedError) => {
if (!preventCancel) {
shutdownWithAction(
() => readableStreamCancel(source, storedError),
true,
storedError
);
} else {
shutdown(true, storedError);
}
});
isOrBecomesClosed(source, reader[sym.closedPromise].promise, () => {
if (!preventClose) {
shutdownWithAction(() =>
writableStreamDefaultWriterCloseWithErrorPropagation(writer)
);
}
});
if (
writableStreamCloseQueuedOrInFlight(dest) ||
dest[sym.state] === "closed"
) {
const destClosed = new TypeError(
"The destination writable stream closed before all data could be piped to it."
);
if (!preventCancel) {
shutdownWithAction(
() => readableStreamCancel(source, destClosed),
true,
destClosed
);
} else {
shutdown(true, destClosed);
}
}
setPromiseIsHandledToTrue(pipeLoop());
return promise.promise;
}
export function readableStreamReaderGenericCancel<R = any>(
reader: ReadableStreamGenericReader<R>,
reason: any
): Promise<void> {
const stream = reader[sym.ownerReadableStream];
assert(stream);
return readableStreamCancel(stream, reason);
}
export function readableStreamReaderGenericInitialize<R = any>(
reader: ReadableStreamGenericReader<R>,
stream: ReadableStreamImpl<R>
): void {
reader[sym.forAuthorCode] = true;
reader[sym.ownerReadableStream] = stream;
stream[sym.reader] = reader;
if (stream[sym.state] === "readable") {
reader[sym.closedPromise] = getDeferred();
} else if (stream[sym.state] === "closed") {
reader[sym.closedPromise] = { promise: Promise.resolve() };
} else {
assert(stream[sym.state] === "errored");
reader[sym.closedPromise] = {
promise: Promise.reject(stream[sym.storedError]),
};
setPromiseIsHandledToTrue(reader[sym.closedPromise].promise);
}
}
export function readableStreamReaderGenericRelease<R = any>(
reader: ReadableStreamGenericReader<R>
): void {
assert(reader[sym.ownerReadableStream]);
assert(reader[sym.ownerReadableStream][sym.reader] === reader);
const closedPromise = reader[sym.closedPromise];
if (reader[sym.ownerReadableStream][sym.state] === "readable") {
assert(closedPromise.reject);
closedPromise.reject(new TypeError("ReadableStream state is readable."));
} else {
closedPromise.promise = Promise.reject(new TypeError("Reading is closed."));
delete closedPromise.reject;
delete closedPromise.resolve;
}
setPromiseIsHandledToTrue(closedPromise.promise);
reader[sym.ownerReadableStream][sym.reader] = undefined;
(reader as any)[sym.ownerReadableStream] = undefined;
}
export function readableStreamTee<T>(
stream: ReadableStreamImpl<T>,
cloneForBranch2: boolean
): [ReadableStreamImpl<T>, ReadableStreamImpl<T>] {
assert(isReadableStream(stream));
assert(typeof cloneForBranch2 === "boolean");
const reader = acquireReadableStreamDefaultReader(stream);
let reading = false;
let canceled1 = false;
let canceled2 = false;
let reason1: any = undefined;
let reason2: any = undefined;
/* eslint-disable prefer-const */
let branch1: ReadableStreamImpl<T>;
let branch2: ReadableStreamImpl<T>;
/* eslint-enable prefer-const */
const cancelPromise = getDeferred<void>();
const pullAlgorithm = (): PromiseLike<void> => {
if (reading) {
return Promise.resolve();
}
reading = true;
const readPromise = readableStreamDefaultReaderRead(reader).then(
(result) => {
reading = false;
assert(typeof result === "object");
const { done } = result;
assert(typeof done === "boolean");
if (done) {
if (!canceled1) {
readableStreamDefaultControllerClose(
branch1[
sym.readableStreamController
] as ReadableStreamDefaultControllerImpl
);
}
if (!canceled2) {
readableStreamDefaultControllerClose(
branch2[
sym.readableStreamController
] as ReadableStreamDefaultControllerImpl
);
}
return;
}
const { value } = result;
const value1 = value!;
let value2 = value!;
if (!canceled2 && cloneForBranch2) {
value2 = cloneValue(value2);
}
if (!canceled1) {
readableStreamDefaultControllerEnqueue(
branch1[
sym.readableStreamController
] as ReadableStreamDefaultControllerImpl,
value1
);
}
if (!canceled2) {
readableStreamDefaultControllerEnqueue(
branch2[
sym.readableStreamController
] as ReadableStreamDefaultControllerImpl,
value2
);
}
}
);
setPromiseIsHandledToTrue(readPromise);
return Promise.resolve();
};
const cancel1Algorithm = (reason?: any): PromiseLike<void> => {
canceled1 = true;
reason1 = reason;
if (canceled2) {
const compositeReason = [reason1, reason2];
const cancelResult = readableStreamCancel(stream, compositeReason);
cancelPromise.resolve(cancelResult);
}
return cancelPromise.promise;
};
const cancel2Algorithm = (reason?: any): PromiseLike<void> => {
canceled2 = true;
reason2 = reason;
if (canceled1) {
const compositeReason = [reason1, reason2];
const cancelResult = readableStreamCancel(stream, compositeReason);
cancelPromise.resolve(cancelResult);
}
return cancelPromise.promise;
};
const startAlgorithm = (): void => undefined;
branch1 = createReadableStream(
startAlgorithm,
pullAlgorithm,
cancel1Algorithm
);
branch2 = createReadableStream(
startAlgorithm,
pullAlgorithm,
cancel2Algorithm
);
setPromiseIsHandledToTrue(
reader[sym.closedPromise].promise.catch((r) => {
readableStreamDefaultControllerError(
branch1[
sym.readableStreamController
] as ReadableStreamDefaultControllerImpl,
r
);
readableStreamDefaultControllerError(
branch2[
sym.readableStreamController
] as ReadableStreamDefaultControllerImpl,
r
);
})
);
return [branch1, branch2];
}
export function resetQueue<R>(container: Container<R>): void {
assert(sym.queue in container && sym.queueTotalSize in container);
container[sym.queue] = [];
container[sym.queueTotalSize] = 0;
}
/** An internal function which provides a function name for some generated
* functions, so stack traces are a bit more readable. */
export function setFunctionName(fn: Function, value: string): void {
Object.defineProperty(fn, "name", { value, configurable: true });
}
/** An internal function which mimics the behavior of setting the promise to
* handled in JavaScript. In this situation, an assertion failure, which
* shouldn't happen will get thrown, instead of swallowed. */
export function setPromiseIsHandledToTrue(promise: PromiseLike<unknown>): void {
promise.then(undefined, (e) => {
if (e && e instanceof AssertionError) {
queueMicrotask(() => {
throw e;
});
}
});
}
function setUpReadableByteStreamController(
stream: ReadableStreamImpl,
controller: ReadableByteStreamControllerImpl,
startAlgorithm: StartAlgorithm,
pullAlgorithm: PullAlgorithm,
cancelAlgorithm: CancelAlgorithm,
highWaterMark: number,
autoAllocateChunkSize: number | undefined
): void {
assert(stream[sym.readableStreamController] === undefined);
if (autoAllocateChunkSize !== undefined) {
assert(Number.isInteger(autoAllocateChunkSize));
assert(autoAllocateChunkSize >= 0);
}
controller[sym.controlledReadableByteStream] = stream;
controller[sym.pulling] = controller[sym.pullAgain] = false;
controller[sym.byobRequest] = undefined;
controller[sym.queue] = [];
controller[sym.queueTotalSize] = 0;
controller[sym.closeRequested] = controller[sym.started] = false;
controller[sym.strategyHWM] = validateAndNormalizeHighWaterMark(
highWaterMark
);
controller[sym.pullAlgorithm] = pullAlgorithm;
controller[sym.cancelAlgorithm] = cancelAlgorithm;
controller[sym.autoAllocateChunkSize] = autoAllocateChunkSize;
// 3.13.26.12 Set controller.[[pendingPullIntos]] to a new empty List.
stream[sym.readableStreamController] = controller;
const startResult = startAlgorithm();
const startPromise = Promise.resolve(startResult);
setPromiseIsHandledToTrue(
startPromise.then(
() => {
controller[sym.started] = true;
assert(!controller[sym.pulling]);
assert(!controller[sym.pullAgain]);
readableByteStreamControllerCallPullIfNeeded(controller);
},
(r) => {
readableByteStreamControllerError(controller, r);
}
)
);
}
export function setUpReadableByteStreamControllerFromUnderlyingSource(
stream: ReadableStreamImpl,
underlyingByteSource: UnderlyingByteSource,
highWaterMark: number
): void {
assert(underlyingByteSource);
const controller: ReadableByteStreamControllerImpl = Object.create(
ReadableByteStreamControllerImpl.prototype
);
const startAlgorithm: StartAlgorithm = () => {
return invokeOrNoop(underlyingByteSource, "start", controller);
};
const pullAlgorithm = createAlgorithmFromUnderlyingMethod(
underlyingByteSource,
"pull",
0,
controller
);
setFunctionName(pullAlgorithm, "[[pullAlgorithm]]");
const cancelAlgorithm = createAlgorithmFromUnderlyingMethod(
underlyingByteSource,
"cancel",
1
);
setFunctionName(cancelAlgorithm, "[[cancelAlgorithm]]");
// 3.13.27.6 Let autoAllocateChunkSize be ? GetV(underlyingByteSource, "autoAllocateChunkSize").
const autoAllocateChunkSize = undefined;
setUpReadableByteStreamController(
stream,
controller,
startAlgorithm,
pullAlgorithm,
cancelAlgorithm,
highWaterMark,
autoAllocateChunkSize
);
}
function setUpReadableStreamDefaultController<T>(
stream: ReadableStreamImpl<T>,
controller: ReadableStreamDefaultControllerImpl<T>,
startAlgorithm: StartAlgorithm,
pullAlgorithm: PullAlgorithm,
cancelAlgorithm: CancelAlgorithm,
highWaterMark: number,
sizeAlgorithm: SizeAlgorithm<T>
): void {
assert(stream[sym.readableStreamController] === undefined);
controller[sym.controlledReadableStream] = stream;
controller[sym.queue] = [];
controller[sym.queueTotalSize] = 0;
controller[sym.started] = controller[sym.closeRequested] = controller[
sym.pullAgain
] = controller[sym.pulling] = false;
controller[sym.strategySizeAlgorithm] = sizeAlgorithm;
controller[sym.strategyHWM] = highWaterMark;
controller[sym.pullAlgorithm] = pullAlgorithm;
controller[sym.cancelAlgorithm] = cancelAlgorithm;
stream[sym.readableStreamController] = controller;
const startResult = startAlgorithm();
const startPromise = Promise.resolve(startResult);
setPromiseIsHandledToTrue(
startPromise.then(
() => {
controller[sym.started] = true;
assert(controller[sym.pulling] === false);
assert(controller[sym.pullAgain] === false);
readableStreamDefaultControllerCallPullIfNeeded(controller);
},
(r) => {
readableStreamDefaultControllerError(controller, r);
}
)
);
}
export function setUpReadableStreamDefaultControllerFromUnderlyingSource<T>(
stream: ReadableStreamImpl<T>,
underlyingSource: UnderlyingSource<T>,
highWaterMark: number,
sizeAlgorithm: SizeAlgorithm<T>
): void {
assert(underlyingSource);
const controller: ReadableStreamDefaultControllerImpl<T> = Object.create(
ReadableStreamDefaultControllerImpl.prototype
);
const startAlgorithm: StartAlgorithm = (): void | PromiseLike<void> =>
invokeOrNoop(underlyingSource, "start", controller);
const pullAlgorithm: PullAlgorithm = createAlgorithmFromUnderlyingMethod(
underlyingSource,
"pull",
0,
controller
);
setFunctionName(pullAlgorithm, "[[pullAlgorithm]]");
const cancelAlgorithm: CancelAlgorithm = createAlgorithmFromUnderlyingMethod(
underlyingSource,
"cancel",
1
);
setFunctionName(cancelAlgorithm, "[[cancelAlgorithm]]");
setUpReadableStreamDefaultController(
stream,
controller,
startAlgorithm,
pullAlgorithm,
cancelAlgorithm,
highWaterMark,
sizeAlgorithm
);
}
function setUpTransformStreamDefaultController<I, O>(
stream: TransformStreamImpl<I, O>,
controller: TransformStreamDefaultControllerImpl<I, O>,
transformAlgorithm: TransformAlgorithm<I>,
flushAlgorithm: FlushAlgorithm
): void {
assert(isTransformStream(stream));
assert(stream[sym.transformStreamController] === undefined);
controller[sym.controlledTransformStream] = stream;
stream[sym.transformStreamController] = controller;
controller[sym.transformAlgorithm] = transformAlgorithm;
controller[sym.flushAlgorithm] = flushAlgorithm;
}
export function setUpTransformStreamDefaultControllerFromTransformer<I, O>(
stream: TransformStreamImpl<I, O>,
transformer: Transformer<I, O>
): void {
assert(transformer);
const controller = Object.create(
TransformStreamDefaultControllerImpl.prototype
) as TransformStreamDefaultControllerImpl<I, O>;
let transformAlgorithm: TransformAlgorithm<I> = (chunk) => {
try {
transformStreamDefaultControllerEnqueue(
controller,
// it defaults to no tranformation, so I is assumed to be O
(chunk as unknown) as O
);
} catch (e) {
return Promise.reject(e);
}
return Promise.resolve();
};
const transformMethod = transformer.transform;
if (transformMethod) {
if (typeof transformMethod !== "function") {
throw new TypeError("tranformer.transform must be callable.");
}
transformAlgorithm = async (chunk): Promise<void> =>
call(transformMethod, transformer, [chunk, controller]);
}
const flushAlgorithm = createAlgorithmFromUnderlyingMethod(
transformer,
"flush",
0,
controller
);
setUpTransformStreamDefaultController(
stream,
controller,
transformAlgorithm,
flushAlgorithm
);
}
function setUpWritableStreamDefaultController<W>(
stream: WritableStreamImpl<W>,
controller: WritableStreamDefaultControllerImpl<W>,
startAlgorithm: StartAlgorithm,
writeAlgorithm: WriteAlgorithm<W>,
closeAlgorithm: CloseAlgorithm,
abortAlgorithm: AbortAlgorithm,
highWaterMark: number,
sizeAlgorithm: SizeAlgorithm<W>
): void {
assert(isWritableStream(stream));
assert(stream[sym.writableStreamController] === undefined);
controller[sym.controlledWritableStream] = stream;
stream[sym.writableStreamController] = controller;
controller[sym.queue] = [];
controller[sym.queueTotalSize] = 0;
controller[sym.started] = false;
controller[sym.strategySizeAlgorithm] = sizeAlgorithm;
controller[sym.strategyHWM] = highWaterMark;
controller[sym.writeAlgorithm] = writeAlgorithm;
controller[sym.closeAlgorithm] = closeAlgorithm;
controller[sym.abortAlgorithm] = abortAlgorithm;
const backpressure = writableStreamDefaultControllerGetBackpressure(
controller
);
writableStreamUpdateBackpressure(stream, backpressure);
const startResult = startAlgorithm();
const startPromise = Promise.resolve(startResult);
setPromiseIsHandledToTrue(
startPromise.then(
() => {
assert(
stream[sym.state] === "writable" || stream[sym.state] === "erroring"
);
controller[sym.started] = true;
writableStreamDefaultControllerAdvanceQueueIfNeeded(controller);
},
(r) => {
assert(
stream[sym.state] === "writable" || stream[sym.state] === "erroring"
);
controller[sym.started] = true;
writableStreamDealWithRejection(stream, r);
}
)
);
}
export function setUpWritableStreamDefaultControllerFromUnderlyingSink<W>(
stream: WritableStreamImpl<W>,
underlyingSink: UnderlyingSink<W>,
highWaterMark: number,
sizeAlgorithm: SizeAlgorithm<W>
): void {
assert(underlyingSink);
const controller = Object.create(
WritableStreamDefaultControllerImpl.prototype
);
const startAlgorithm = (): void | PromiseLike<void> => {
return invokeOrNoop(underlyingSink, "start", controller);
};
const writeAlgorithm = createAlgorithmFromUnderlyingMethod(
underlyingSink,
"write",
1,
controller
);
setFunctionName(writeAlgorithm, "[[writeAlgorithm]]");
const closeAlgorithm = createAlgorithmFromUnderlyingMethod(
underlyingSink,
"close",
0
);
setFunctionName(closeAlgorithm, "[[closeAlgorithm]]");
const abortAlgorithm = createAlgorithmFromUnderlyingMethod(
underlyingSink,
"abort",
1
);
setFunctionName(abortAlgorithm, "[[abortAlgorithm]]");
setUpWritableStreamDefaultController(
stream,
controller,
startAlgorithm,
writeAlgorithm,
closeAlgorithm,
abortAlgorithm,
highWaterMark,
sizeAlgorithm
);
}
function transformStreamDefaultControllerClearAlgorithms<I, O>(
controller: TransformStreamDefaultControllerImpl<I, O>
): void {
(controller as any)[sym.transformAlgorithm] = undefined;
(controller as any)[sym.flushAlgorithm] = undefined;
}
export function transformStreamDefaultControllerEnqueue<I, O>(
controller: TransformStreamDefaultControllerImpl<I, O>,
chunk: O
): void {
const stream = controller[sym.controlledTransformStream];
const readableController = stream[sym.readable][
sym.readableStreamController
] as ReadableStreamDefaultControllerImpl<O>;
if (!readableStreamDefaultControllerCanCloseOrEnqueue(readableController)) {
throw new TypeError(
"TransformStream's readable controller cannot be closed or enqueued."
);
}
try {
readableStreamDefaultControllerEnqueue(readableController, chunk);
} catch (e) {
transformStreamErrorWritableAndUnblockWrite(stream, e);
throw stream[sym.readable][sym.storedError];
}
const backpressure = readableStreamDefaultControllerHasBackpressure(
readableController
);
if (backpressure) {
transformStreamSetBackpressure(stream, true);
}
}
export function transformStreamDefaultControllerError<I, O>(
controller: TransformStreamDefaultControllerImpl<I, O>,
e: any
): void {
transformStreamError(controller[sym.controlledTransformStream], e);
}
function transformStreamDefaultControllerPerformTransform<I, O>(
controller: TransformStreamDefaultControllerImpl<I, O>,
chunk: I
): Promise<void> {
const transformPromise = controller[sym.transformAlgorithm](chunk);
return transformPromise.then(undefined, (r) => {
transformStreamError(controller[sym.controlledTransformStream], r);
throw r;
});
}
function transformStreamDefaultSinkAbortAlgorithm<I, O>(
stream: TransformStreamImpl<I, O>,
reason: any
): Promise<void> {
transformStreamError(stream, reason);
return Promise.resolve(undefined);
}
function transformStreamDefaultSinkCloseAlgorithm<I, O>(
stream: TransformStreamImpl<I, O>
): Promise<void> {
const readable = stream[sym.readable];
const controller = stream[sym.transformStreamController];
const flushPromise = controller[sym.flushAlgorithm]();
transformStreamDefaultControllerClearAlgorithms(controller);
return flushPromise.then(
() => {
if (readable[sym.state] === "errored") {
throw readable[sym.storedError];
}
const readableController = readable[
sym.readableStreamController
] as ReadableStreamDefaultControllerImpl<O>;
if (
readableStreamDefaultControllerCanCloseOrEnqueue(readableController)
) {
readableStreamDefaultControllerClose(readableController);
}
},
(r) => {
transformStreamError(stream, r);
throw readable[sym.storedError];
}
);
}
function transformStreamDefaultSinkWriteAlgorithm<I, O>(
stream: TransformStreamImpl<I, O>,
chunk: I
): Promise<void> {
assert(stream[sym.writable][sym.state] === "writable");
const controller = stream[sym.transformStreamController];
if (stream[sym.backpressure]) {
const backpressureChangePromise = stream[sym.backpressureChangePromise];
assert(backpressureChangePromise);
return backpressureChangePromise.promise.then(() => {
const writable = stream[sym.writable];
const state = writable[sym.state];
if (state === "erroring") {
throw writable[sym.storedError];
}
assert(state === "writable");
return transformStreamDefaultControllerPerformTransform(
controller,
chunk
);
});
}
return transformStreamDefaultControllerPerformTransform(controller, chunk);
}
function transformStreamDefaultSourcePullAlgorithm<I, O>(
stream: TransformStreamImpl<I, O>
): Promise<void> {
assert(stream[sym.backpressure] === true);
assert(stream[sym.backpressureChangePromise] !== undefined);
transformStreamSetBackpressure(stream, false);
return stream[sym.backpressureChangePromise]!.promise;
}
function transformStreamError<I, O>(
stream: TransformStreamImpl<I, O>,
e: any
): void {
readableStreamDefaultControllerError(
stream[sym.readable][
sym.readableStreamController
] as ReadableStreamDefaultControllerImpl<O>,
e
);
transformStreamErrorWritableAndUnblockWrite(stream, e);
}
export function transformStreamDefaultControllerTerminate<I, O>(
controller: TransformStreamDefaultControllerImpl<I, O>
): void {
const stream = controller[sym.controlledTransformStream];
const readableController = stream[sym.readable][
sym.readableStreamController
] as ReadableStreamDefaultControllerImpl<O>;
readableStreamDefaultControllerClose(readableController);
const error = new TypeError("TransformStream is closed.");
transformStreamErrorWritableAndUnblockWrite(stream, error);
}
function transformStreamErrorWritableAndUnblockWrite<I, O>(
stream: TransformStreamImpl<I, O>,
e: any
): void {
transformStreamDefaultControllerClearAlgorithms(
stream[sym.transformStreamController]
);
writableStreamDefaultControllerErrorIfNeeded(
stream[sym.writable][sym.writableStreamController]!,
e
);
if (stream[sym.backpressure]) {
transformStreamSetBackpressure(stream, false);
}
}
function transformStreamSetBackpressure<I, O>(
stream: TransformStreamImpl<I, O>,
backpressure: boolean
): void {
assert(stream[sym.backpressure] !== backpressure);
if (stream[sym.backpressureChangePromise] !== undefined) {
stream[sym.backpressureChangePromise]!.resolve!(undefined);
}
stream[sym.backpressureChangePromise] = getDeferred<void>();
stream[sym.backpressure] = backpressure;
}
function transferArrayBuffer(buffer: ArrayBuffer): ArrayBuffer {
assert(!isDetachedBuffer(buffer));
const transferredIshVersion = buffer.slice(0);
Object.defineProperty(buffer, "byteLength", {
get(): number {
return 0;
},
});
(buffer as any)[sym.isFakeDetached] = true;
return transferredIshVersion;
}
export function validateAndNormalizeHighWaterMark(
highWaterMark: number
): number {
highWaterMark = Number(highWaterMark);
if (Number.isNaN(highWaterMark) || highWaterMark < 0) {
throw new RangeError(
`highWaterMark must be a positive number or Infinity. Received: ${highWaterMark}.`
);
}
return highWaterMark;
}
export function writableStreamAbort<W>(
stream: WritableStreamImpl<W>,
reason: any
): Promise<void> {
const state = stream[sym.state];
if (state === "closed" || state === "errored") {
return Promise.resolve(undefined);
}
if (stream[sym.pendingAbortRequest]) {
return stream[sym.pendingAbortRequest]!.promise.promise;
}
assert(state === "writable" || state === "erroring");
let wasAlreadyErroring = false;
if (state === "erroring") {
wasAlreadyErroring = true;
reason = undefined;
}
const promise = getDeferred<void>();
stream[sym.pendingAbortRequest] = { promise, reason, wasAlreadyErroring };
if (wasAlreadyErroring === false) {
writableStreamStartErroring(stream, reason);
}
return promise.promise;
}
function writableStreamAddWriteRequest<W>(
stream: WritableStreamImpl<W>
): Promise<void> {
assert(isWritableStream(stream));
assert(stream[sym.state] === "writable");
const promise = getDeferred<void>();
stream[sym.writeRequests].push(promise);
return promise.promise;
}
export function writableStreamClose<W>(
stream: WritableStreamImpl<W>
): Promise<void> {
const state = stream[sym.state];
if (state === "closed" || state === "errored") {
return Promise.reject(
new TypeError("Cannot close an already closed or errored WritableStream.")
);
}
assert(!writableStreamCloseQueuedOrInFlight(stream));
const promise = getDeferred<void>();
stream[sym.closeRequest] = promise;
const writer = stream[sym.writer];
if (writer && stream[sym.backpressure] && state === "writable") {
writer[sym.readyPromise].resolve!();
writer[sym.readyPromise].resolve = undefined;
writer[sym.readyPromise].reject = undefined;
}
writableStreamDefaultControllerClose(stream[sym.writableStreamController]!);
return promise.promise;
}
export function writableStreamCloseQueuedOrInFlight<W>(
stream: WritableStreamImpl<W>
): boolean {
if (
stream[sym.closeRequest] === undefined &&
stream[sym.inFlightCloseRequest] === undefined
) {
return false;
}
return true;
}
function writableStreamDealWithRejection<W>(
stream: WritableStreamImpl<W>,
error: any
): void {
const state = stream[sym.state];
if (state === "writable") {
writableStreamStartErroring(stream, error);
return;
}
assert(state === "erroring");
writableStreamFinishErroring(stream);
}
function writableStreamDefaultControllerAdvanceQueueIfNeeded<W>(
controller: WritableStreamDefaultControllerImpl<W>
): void {
const stream = controller[sym.controlledWritableStream];
if (!controller[sym.started]) {
return;
}
if (stream[sym.inFlightWriteRequest]) {
return;
}
const state = stream[sym.state];
assert(state !== "closed" && state !== "errored");
if (state === "erroring") {
writableStreamFinishErroring(stream);
return;
}
if (!controller[sym.queue].length) {
return;
}
const writeRecord = peekQueueValue(controller);
if (writeRecord === "close") {
writableStreamDefaultControllerProcessClose(controller);
} else {
writableStreamDefaultControllerProcessWrite(controller, writeRecord.chunk);
}
}
export function writableStreamDefaultControllerClearAlgorithms<W>(
controller: WritableStreamDefaultControllerImpl<W>
): void {
(controller as any)[sym.writeAlgorithm] = undefined;
(controller as any)[sym.closeAlgorithm] = undefined;
(controller as any)[sym.abortAlgorithm] = undefined;
(controller as any)[sym.strategySizeAlgorithm] = undefined;
}
function writableStreamDefaultControllerClose<W>(
controller: WritableStreamDefaultControllerImpl<W>
): void {
enqueueValueWithSize(controller, "close", 0);
writableStreamDefaultControllerAdvanceQueueIfNeeded(controller);
}
export function writableStreamDefaultControllerError<W>(
controller: WritableStreamDefaultControllerImpl<W>,
error: any
): void {
const stream = controller[sym.controlledWritableStream];
assert(stream[sym.state] === "writable");
writableStreamDefaultControllerClearAlgorithms(controller);
writableStreamStartErroring(stream, error);
}
function writableStreamDefaultControllerErrorIfNeeded<W>(
controller: WritableStreamDefaultControllerImpl<W>,
error: any
): void {
if (controller[sym.controlledWritableStream][sym.state] === "writable") {
writableStreamDefaultControllerError(controller, error);
}
}
function writableStreamDefaultControllerGetBackpressure<W>(
controller: WritableStreamDefaultControllerImpl<W>
): boolean {
const desiredSize = writableStreamDefaultControllerGetDesiredSize(controller);
return desiredSize <= 0;
}
function writableStreamDefaultControllerGetChunkSize<W>(
controller: WritableStreamDefaultControllerImpl<W>,
chunk: W
): number {
let returnValue: number;
try {
returnValue = controller[sym.strategySizeAlgorithm](chunk);
} catch (e) {
writableStreamDefaultControllerErrorIfNeeded(controller, e);
return 1;
}
return returnValue;
}
function writableStreamDefaultControllerGetDesiredSize<W>(
controller: WritableStreamDefaultControllerImpl<W>
): number {
return controller[sym.strategyHWM] - controller[sym.queueTotalSize];
}
function writableStreamDefaultControllerProcessClose<W>(
controller: WritableStreamDefaultControllerImpl<W>
): void {
const stream = controller[sym.controlledWritableStream];
writableStreamMarkCloseRequestInFlight(stream);
dequeueValue(controller);
assert(controller[sym.queue].length === 0);
const sinkClosePromise = controller[sym.closeAlgorithm]();
writableStreamDefaultControllerClearAlgorithms(controller);
setPromiseIsHandledToTrue(
sinkClosePromise.then(
() => {
writableStreamFinishInFlightClose(stream);
},
(reason) => {
writableStreamFinishInFlightCloseWithError(stream, reason);
}
)
);
}
function writableStreamDefaultControllerProcessWrite<W>(
controller: WritableStreamDefaultControllerImpl<W>,
chunk: W
): void {
const stream = controller[sym.controlledWritableStream];
writableStreamMarkFirstWriteRequestInFlight(stream);
const sinkWritePromise = controller[sym.writeAlgorithm](chunk);
setPromiseIsHandledToTrue(
sinkWritePromise.then(
() => {
writableStreamFinishInFlightWrite(stream);
const state = stream[sym.state];
assert(state === "writable" || state === "erroring");
dequeueValue(controller);
if (
!writableStreamCloseQueuedOrInFlight(stream) &&
state === "writable"
) {
const backpressure = writableStreamDefaultControllerGetBackpressure(
controller
);
writableStreamUpdateBackpressure(stream, backpressure);
}
writableStreamDefaultControllerAdvanceQueueIfNeeded(controller);
},
(reason) => {
if (stream[sym.state] === "writable") {
writableStreamDefaultControllerClearAlgorithms(controller);
}
writableStreamFinishInFlightWriteWithError(stream, reason);
}
)
);
}
function writableStreamDefaultControllerWrite<W>(
controller: WritableStreamDefaultControllerImpl<W>,
chunk: W,
chunkSize: number
): void {
const writeRecord = { chunk };
try {
enqueueValueWithSize(controller, writeRecord, chunkSize);
} catch (e) {
writableStreamDefaultControllerErrorIfNeeded(controller, e);
return;
}
const stream = controller[sym.controlledWritableStream];
if (
!writableStreamCloseQueuedOrInFlight(stream) &&
stream[sym.state] === "writable"
) {
const backpressure = writableStreamDefaultControllerGetBackpressure(
controller
);
writableStreamUpdateBackpressure(stream, backpressure);
}
writableStreamDefaultControllerAdvanceQueueIfNeeded(controller);
}
export function writableStreamDefaultWriterAbort<W>(
writer: WritableStreamDefaultWriterImpl<W>,
reason: any
): Promise<void> {
const stream = writer[sym.ownerWritableStream];
assert(stream);
return writableStreamAbort(stream, reason);
}
export function writableStreamDefaultWriterClose<W>(
writer: WritableStreamDefaultWriterImpl<W>
): Promise<void> {
const stream = writer[sym.ownerWritableStream];
assert(stream);
return writableStreamClose(stream);
}
function writableStreamDefaultWriterCloseWithErrorPropagation<W>(
writer: WritableStreamDefaultWriterImpl<W>
): Promise<void> {
const stream = writer[sym.ownerWritableStream];
assert(stream);
const state = stream[sym.state];
if (writableStreamCloseQueuedOrInFlight(stream) || state === "closed") {
return Promise.resolve();
}
if (state === "errored") {
return Promise.reject(stream[sym.storedError]);
}
assert(state === "writable" || state === "erroring");
return writableStreamDefaultWriterClose(writer);
}
function writableStreamDefaultWriterEnsureClosePromiseRejected<W>(
writer: WritableStreamDefaultWriterImpl<W>,
error: any
): void {
if (writer[sym.closedPromise].reject) {
writer[sym.closedPromise].reject!(error);
} else {
writer[sym.closedPromise] = {
promise: Promise.reject(error),
};
}
setPromiseIsHandledToTrue(writer[sym.closedPromise].promise);
}
function writableStreamDefaultWriterEnsureReadyPromiseRejected<W>(
writer: WritableStreamDefaultWriterImpl<W>,
error: any
): void {
if (writer[sym.readyPromise].reject) {
writer[sym.readyPromise].reject!(error);
writer[sym.readyPromise].reject = undefined;
writer[sym.readyPromise].resolve = undefined;
} else {
writer[sym.readyPromise] = {
promise: Promise.reject(error),
};
}
setPromiseIsHandledToTrue(writer[sym.readyPromise].promise);
}
export function writableStreamDefaultWriterWrite<W>(
writer: WritableStreamDefaultWriterImpl<W>,
chunk: W
): Promise<void> {
const stream = writer[sym.ownerWritableStream];
assert(stream);
const controller = stream[sym.writableStreamController];
assert(controller);
const chunkSize = writableStreamDefaultControllerGetChunkSize(
controller,
chunk
);
if (stream !== writer[sym.ownerWritableStream]) {
return Promise.reject("Writer has incorrect WritableStream.");
}
const state = stream[sym.state];
if (state === "errored") {
return Promise.reject(stream[sym.storedError]);
}
if (writableStreamCloseQueuedOrInFlight(stream) || state === "closed") {
return Promise.reject(new TypeError("The stream is closed or closing."));
}
if (state === "erroring") {
return Promise.reject(stream[sym.storedError]);
}
assert(state === "writable");
const promise = writableStreamAddWriteRequest(stream);
writableStreamDefaultControllerWrite(controller, chunk, chunkSize);
return promise;
}
export function writableStreamDefaultWriterGetDesiredSize<W>(
writer: WritableStreamDefaultWriterImpl<W>
): number | null {
const stream = writer[sym.ownerWritableStream];
const state = stream[sym.state];
if (state === "errored" || state === "erroring") {
return null;
}
if (state === "closed") {
return 0;
}
return writableStreamDefaultControllerGetDesiredSize(
stream[sym.writableStreamController]!
);
}
export function writableStreamDefaultWriterRelease<W>(
writer: WritableStreamDefaultWriterImpl<W>
): void {
const stream = writer[sym.ownerWritableStream];
assert(stream);
assert(stream[sym.writer] === writer);
const releasedError = new TypeError(
"Writer was released and can no longer be used to monitor the stream's closedness."
);
writableStreamDefaultWriterEnsureReadyPromiseRejected(writer, releasedError);
writableStreamDefaultWriterEnsureClosePromiseRejected(writer, releasedError);
stream[sym.writer] = undefined;
(writer as any)[sym.ownerWritableStream] = undefined;
}
function writableStreamFinishErroring<W>(stream: WritableStreamImpl<W>): void {
assert(stream[sym.state] === "erroring");
assert(!writableStreamHasOperationMarkedInFlight(stream));
stream[sym.state] = "errored";
stream[sym.writableStreamController]![sym.errorSteps]();
const storedError = stream[sym.storedError];
for (const writeRequest of stream[sym.writeRequests]) {
assert(writeRequest.reject);
writeRequest.reject(storedError);
}
stream[sym.writeRequests] = [];
if (!stream[sym.pendingAbortRequest]) {
writableStreamRejectCloseAndClosedPromiseIfNeeded(stream);
return;
}
const abortRequest = stream[sym.pendingAbortRequest];
assert(abortRequest);
stream[sym.pendingAbortRequest] = undefined;
if (abortRequest.wasAlreadyErroring) {
assert(abortRequest.promise.reject);
abortRequest.promise.reject(storedError);
writableStreamRejectCloseAndClosedPromiseIfNeeded(stream);
return;
}
const promise = stream[sym.writableStreamController]![sym.abortSteps](
abortRequest.reason
);
setPromiseIsHandledToTrue(
promise.then(
() => {
assert(abortRequest.promise.resolve);
abortRequest.promise.resolve();
writableStreamRejectCloseAndClosedPromiseIfNeeded(stream);
},
(reason) => {
assert(abortRequest.promise.reject);
abortRequest.promise.reject(reason);
writableStreamRejectCloseAndClosedPromiseIfNeeded(stream);
}
)
);
}
function writableStreamFinishInFlightClose<W>(
stream: WritableStreamImpl<W>
): void {
assert(stream[sym.inFlightCloseRequest]);
stream[sym.inFlightCloseRequest]?.resolve!();
stream[sym.inFlightCloseRequest] = undefined;
const state = stream[sym.state];
assert(state === "writable" || state === "erroring");
if (state === "erroring") {
stream[sym.storedError] = undefined;
if (stream[sym.pendingAbortRequest]) {
stream[sym.pendingAbortRequest]!.promise.resolve!();
stream[sym.pendingAbortRequest] = undefined;
}
}
stream[sym.state] = "closed";
const writer = stream[sym.writer];
if (writer) {
writer[sym.closedPromise].resolve!();
}
assert(stream[sym.pendingAbortRequest] === undefined);
assert(stream[sym.storedError] === undefined);
}
function writableStreamFinishInFlightCloseWithError<W>(
stream: WritableStreamImpl<W>,
error: any
): void {
assert(stream[sym.inFlightCloseRequest]);
stream[sym.inFlightCloseRequest]?.reject!(error);
stream[sym.inFlightCloseRequest] = undefined;
assert(stream[sym.state] === "writable" || stream[sym.state] === "erroring");
if (stream[sym.pendingAbortRequest]) {
stream[sym.pendingAbortRequest]?.promise.reject!(error);
stream[sym.pendingAbortRequest] = undefined;
}
writableStreamDealWithRejection(stream, error);
}
function writableStreamFinishInFlightWrite<W>(
stream: WritableStreamImpl<W>
): void {
assert(stream[sym.inFlightWriteRequest]);
stream[sym.inFlightWriteRequest]!.resolve();
stream[sym.inFlightWriteRequest] = undefined;
}
function writableStreamFinishInFlightWriteWithError<W>(
stream: WritableStreamImpl<W>,
error: any
): void {
assert(stream[sym.inFlightWriteRequest]);
stream[sym.inFlightWriteRequest]!.reject!(error);
stream[sym.inFlightWriteRequest] = undefined;
assert(stream[sym.state] === "writable" || stream[sym.state] === "erroring");
writableStreamDealWithRejection(stream, error);
}
function writableStreamHasOperationMarkedInFlight<W>(
stream: WritableStreamImpl<W>
): boolean {
if (
stream[sym.inFlightWriteRequest] === undefined &&
stream[sym.inFlightCloseRequest] === undefined
) {
return false;
}
return true;
}
function writableStreamMarkCloseRequestInFlight<W>(
stream: WritableStreamImpl<W>
): void {
assert(stream[sym.inFlightCloseRequest] === undefined);
assert(stream[sym.closeRequest] !== undefined);
stream[sym.inFlightCloseRequest] = stream[sym.closeRequest];
stream[sym.closeRequest] = undefined;
}
function writableStreamMarkFirstWriteRequestInFlight<W>(
stream: WritableStreamImpl<W>
): void {
assert(stream[sym.inFlightWriteRequest] === undefined);
assert(stream[sym.writeRequests].length);
const writeRequest = stream[sym.writeRequests].shift();
stream[sym.inFlightWriteRequest] = writeRequest;
}
function writableStreamRejectCloseAndClosedPromiseIfNeeded<W>(
stream: WritableStreamImpl<W>
): void {
assert(stream[sym.state] === "errored");
if (stream[sym.closeRequest]) {
assert(stream[sym.inFlightCloseRequest] === undefined);
stream[sym.closeRequest]!.reject!(stream[sym.storedError]);
stream[sym.closeRequest] = undefined;
}
const writer = stream[sym.writer];
if (writer) {
writer[sym.closedPromise].reject!(stream[sym.storedError]);
setPromiseIsHandledToTrue(writer[sym.closedPromise].promise);
}
}
function writableStreamStartErroring<W>(
stream: WritableStreamImpl<W>,
reason: any
): void {
assert(stream[sym.storedError] === undefined);
assert(stream[sym.state] === "writable");
const controller = stream[sym.writableStreamController];
assert(controller);
stream[sym.state] = "erroring";
stream[sym.storedError] = reason;
const writer = stream[sym.writer];
if (writer) {
writableStreamDefaultWriterEnsureReadyPromiseRejected(writer, reason);
}
if (
!writableStreamHasOperationMarkedInFlight(stream) &&
controller[sym.started]
) {
writableStreamFinishErroring(stream);
}
}
function writableStreamUpdateBackpressure<W>(
stream: WritableStreamImpl<W>,
backpressure: boolean
): void {
assert(stream[sym.state] === "writable");
assert(!writableStreamCloseQueuedOrInFlight(stream));
const writer = stream[sym.writer];
if (writer && backpressure !== stream[sym.backpressure]) {
if (backpressure) {
writer[sym.readyPromise] = getDeferred();
} else {
assert(backpressure === false);
writer[sym.readyPromise].resolve!();
writer[sym.readyPromise].resolve = undefined;
writer[sym.readyPromise].reject = undefined;
}
}
stream[sym.backpressure] = backpressure;
}
/* eslint-enable */