From f58982f14aad6628edcbca8680c1ce675c30b5ad Mon Sep 17 00:00:00 2001 From: James M Snell Date: Wed, 16 Jun 2021 12:44:22 -0700 Subject: [PATCH] stream: implement WHATWG streams Experimental implementation of the WHATWG streams standard. Signed-off-by: James M Snell --- doc/api/index.md | 1 + doc/api/whatwg_streams.md | 569 ++++ lib/internal/errors.js | 4 +- lib/internal/streams/_whatwg.js | 1195 +++++++ lib/internal/streams/whatwg.js | 3347 +++++++++++++++++++ lib/stream.js | 8 + lib/stream/whatwg.js | 33 + node.gyp | 2 + src/node_buffer.cc | 61 + test/parallel/test-whatwg-readablestream.js | 776 +++++ tools/doc/type-parser.mjs | 27 + 11 files changed, 6021 insertions(+), 2 deletions(-) create mode 100644 doc/api/whatwg_streams.md create mode 100644 lib/internal/streams/_whatwg.js create mode 100644 lib/internal/streams/whatwg.js create mode 100644 lib/stream/whatwg.js create mode 100644 test/parallel/test-whatwg-readablestream.js diff --git a/doc/api/index.md b/doc/api/index.md index 71c415afaa673a..957c5d55b3008b 100644 --- a/doc/api/index.md +++ b/doc/api/index.md @@ -64,6 +64,7 @@ * [VM](vm.md) * [WASI](wasi.md) * [Web Crypto API](webcrypto.md) +* [WHATWG Streams](whatwg_streams.md) * [Worker threads](worker_threads.md) * [Zlib](zlib.md) diff --git a/doc/api/whatwg_streams.md b/doc/api/whatwg_streams.md new file mode 100644 index 00000000000000..0a8bf84e18c531 --- /dev/null +++ b/doc/api/whatwg_streams.md @@ -0,0 +1,569 @@ +# WHATWG Streams + +> Stability: 1 - Experimental + +An implementation of the [WHATWG Streams Standard][]. + +```mjs +import { + ReadableStream, + WritableStream, + TransformStream, +} from 'node:stream/whatwg'; +``` + +```cjs +const { + ReadableStream, + WritableStream, + TransformStream, +} = require('stream/whatwg'); +``` + +## Overview + +## API + +### Class: `ReadableStream` + + +#### `new ReadableStream([underlyingSource [, strategy]])` + + +* `underlyingSource` {Object} + * `start` {Function} + * `controller` {ReadableStreamDefaultController|ReadableByteStreamController} + * Returns: `undefined` or a promise fulfilled with `undefined`. + * `pull` {Function} + * `controller` {ReadableStreamDefaultController|ReadableByteStreamController} + * Returns: A promise fulfilled with `undefined`. + * `cancel` {Function} + * `reason` {any} + * Returns: A promise fulfilled with `undefined`. + * `type` {string} Must be `'bytes'` or `undefined`. + * `autoAllocateChunkSize` {number} +* `strategy` {Object} + * `highWaterMark` {number} + * `size` {Function} + * `chunk` {any} + * Returns: {number} + +#### `readableStream.locked` + + +* Type: {boolean} + +#### `readableStream.cancel([reason])` + + +* `reason` {any} +* Returns: A promise fulfilled with `undefined`. + +#### `readableStream.getReader([options])` + + +* `options` {Object} + * `mode` {string} `'byob'` or `undefined` +* Returns: {ReadableStreamDefaultReader|ReadableStreamBYOBReader} + +#### `readableStream.pipeThrough(transform[, options])` + + +* `transform` {Object} + * `readable` {ReadableStream} + * `writable` {WritableStream} +* `options` {Object} + * `preventAbort` {boolean} + * `preventCancel` {boolean} + * `preventClose` {boolean} + * `signal` {AbortSignal} +* Returns: {ReadableStream} + +#### `readableStream.pipeTo(destination, options)` + + +* `destination` {WritableStream} +* `options` {Object} + * `preventAbort` {boolean} + * `preventCancel` {boolean} + * `preventClose` {boolean} + * `signal` {AbortSignal} +* Returns: A promise fulfilled with `undefined` + +#### `readableStream.tee()` + + +* Returns: {ReadableStream[]} + +#### Async Iteration + +TBD + +#### Cloning with postMessage() + +TBD + +### Class: `ReadableStreamDefaultReader` + + +#### `new ReadableStreamDefaultReader(stream)` + + +* `stream` {ReadableStream} + +#### `readableStreamDefaultReader.cancel([reason])` + + +* `reason` {any} + +#### `readableStreamDefaultReader.closed` + + +* Type: {Promise} Fulfilled with `undefined` when the reader is closed. + +#### `readableStreamDefaultReader.read()` + + +* Returns: A promise fulfilled with an object: + * `value` {ArrayBuffer} + * `done` {boolean} + +#### `readableStreamDefaultReader.releaseLock()` + + +### Class: `ReadableStreamBYOBReader` + + +#### `new ReadableStreamBYOBReader(stream)` + + +* `stream` {ReadableStream} + +#### `readableStreamBYOBReader.cancel([reason])` + + +* `reason` {any} + +#### `readableStreamBYOBReader.closed` + + +* Type: {Promise} Fulfilled with `undefined` when the reader is closed. + +#### `readableStreamBYOBReader.read(view)` + + +* `view` {Buffer|TypedArray|DataView} +* Returns: A promise fulfilled with an object: + * `value` {ArrayBuffer} + * `done` {boolean} + +#### `readableStreamBYOBReader.releaseLock()` + + +### Class: `ReadableStreamDefaultController` + + +#### `readableStreamDefaultController.close()` + + +#### `readableStreamDefaultController.desiredSize` + + +* Type: {number} + +#### `readableStreamDefaultController.enqueue(chunk)` + + +* `chunk` {any} + +#### `readableStreamDefaultController.error(error)` + + +* `error` {any} + +### Class: `ReadableByteStreamController` + + +#### `readableByteStreamController.byobRequest` + + +* Type: {ReadableStreamBYOBRequest} + +#### `readableByteStreamController.close()` + + +#### `readableByteStreamController.desiredSize` + + +* Type: {number} + +#### `readableByteStreamController.enqueue(chunk)` + + +* `chunk`: {Buffer|TypedArray|DataView} + +#### `readableByteStreamController.error(error)` + + +* `error` {any} + +### Class: `ReadableStreamBYOBRequest` + + +#### `readableStreamBYOBRequest.respond(bytesWritten)` + + +* `bytesWritten` {number} + +#### `readableStreamBYOBRequest.respondWithNewView(view)` + + +* `view` {Buffer|TypedArray|DataView} + +#### `readableStreamBYOBRequest.view` + + +* Type: {Buffer|TypedArray|DataView} + +### Class: `WritableStream` + + +#### `new WritableStream([underlyingSink[, strategy]])` + + +* `underlyingSink` {Object} + * `start` {Function} + * `controller` {WritableStreamDefaultController} + * Returns: `undefined` or a promise fulfilled with `undefined`. + * `write` {Function} + * `chunk` {any} + * `controller` {WritableStreamDefaultController} + * Returns: A promise fulfilled with `undefined`. + * `close` {Function} + * Returns: A promise fulfilled with `undefined`. + * `abort` {Function} + * `reason` {any} + * Returns: A promise fulfilled with `undefined`. + * `type` {any} +* `strategy` {Object} + * `highWaterMark` {number} + * `size` {Function} + * `chunk` {any} + * Returns: {number} + +#### `writableStream.abort([reason])` + + +* `reason` {any} +* Returns: A promise fulfilled with `undefined`. + +#### `writableStream.close()` + + +* Returns: A promise fulfilled with `undefined`. + +#### `writableStream.getWriter()` + + +* Returns: {WritableStreamDefaultWriter} + +#### `writableStream.locked` + + +* Type: {boolean} + +### Class: `WritableStreamDefaultWriter` + + +#### `new WritableStreamDefaultWriter(stream)` + + +* `stream` {WritableStream} + +#### `writableStreamDefaultWriter.abort([reason])` + + +* `reason` {any} +* Returns: A promise fulfilled with `undefined`. + +#### `writableStreamDefaultWriter.close()` + + +* Returns: A promise fulfilled with `undefined`. + +#### `writableStreamDefaultWriter.closed` + + +* Type: A promise that is fulfilled with `undefined` when the + writer is closed. + +#### `writableStreamDefaultWriter.desiredSize` + + +* Type: {number} + +#### `writableStreamDefaultWriter.ready` + + +* type: A promise that is fulfilled with `undefined` when the + writer is ready to be used. + +#### `writableStreamDefaultWriter.releaseLock()` + + +#### `writableStreamDefaultWriter.write([chunk])` + + +* `chunk`: {any} +* Returns: A promise fulfilled with `undefined`. + +### Class: `WritableStreamDefaultController` + + +#### `writableStreamDefaultController.error(error)` + + +* `error` {any} + +### Class: `TransformStream` + + +#### `new TransformStream([transformer[, writableStrategy[, readableStrategy]]])` + + +* `transformer` {Object} + * `start` {Function} + * `controller` {TransformStreamDefaultController} + * Returns: `undefined` or a promise fulfilled with `undefined` + * `transform` {Function} + * `chunk` {any} + * `controller` {TransformStreamDefaultController} + * Returns: A promise fulfilled with `undefined`. + * `flush` {Function} + * `controller` {TransformStreamDefaultController} + * Returns: A promise fulfilled with `undefined`. + * `readableType` {any} + * `writableType` {any} +* `writableStrategy` {Object} + * `highWaterMark` {number} + * `size` {Function} + * `chunk` {any} + * Returns: {number} +* `readableStrategy` {Object} + * `highWaterMark` {number} + * `size` {Function} + * `chunk` {any} + * Returns: {number} + +#### `transformStream.readable` + + +* Type: {ReadableStream} + +#### `transformStream.writable` + + +* Type: {WritableStream} + +### Class: `TransformStreamDefaultController` + + +#### `transformStreamDefaultController.desiredSize` + + +* Type: {number} + +#### `transformStreamDefaultController.enqueue([chunk])` + + +* `chunk` {any} + +#### `transformStreamDefaultController.error([reason])` + + +* `reason` {any} + +#### `transformStreamDefaultController.terminate()` + + +### Class: `ByteLengthQueuingStrategy` + + +#### `new ByteLengthQueuingStrategy(options)` + + +* `options` {Object} + * `highWaterMark` {number} + +#### `byteLengthQueuingStrategy.highWaterMark` + + +* Type: {number} + +#### `byteLengthQueuingStrategy.size` + + +* Type: {Function} + * `chunk` {any} + * Returns: {number} + +### Class: `CountQueuingStrategy` + + +#### `new CountQueuingStrategy(options)` + + +* `options` {Object} + * `highWaterMark` {number} + +#### `countQueuingStrategy.highWaterMark` + + +* Type: {number} + +#### `countQueuingStrategy.size` + + +* Type: {Function} + * `chunk` {any} + * Returns: {number} + +[WHATWG Streams Standard]: https://streams.spec.whatwg.org/ diff --git a/lib/internal/errors.js b/lib/internal/errors.js index 13b56311d370b8..7fe1e083c4dfda 100644 --- a/lib/internal/errors.js +++ b/lib/internal/errors.js @@ -1256,8 +1256,8 @@ E('ERR_INVALID_RETURN_VALUE', (input, name, value) => { } return `Expected ${input} to be returned from the "${name}"` + ` function but got ${type}.`; -}, TypeError); -E('ERR_INVALID_STATE', 'Invalid state: %s', Error); +}, TypeError, RangeError); +E('ERR_INVALID_STATE', 'Invalid state: %s', Error, TypeError); E('ERR_INVALID_SYNC_FORK_INPUT', 'Asynchronous forks do not support ' + 'Buffer, TypedArray, DataView or string input: %s', diff --git a/lib/internal/streams/_whatwg.js b/lib/internal/streams/_whatwg.js new file mode 100644 index 00000000000000..262c7c5a814e04 --- /dev/null +++ b/lib/internal/streams/_whatwg.js @@ -0,0 +1,1195 @@ +'use strict'; + +const { + FunctionPrototypeBind, + MathMin, + NumberIsNaN, + ObjectSetPrototypeOf, + PromisePrototypeThen, + PromiseReject, + PromiseResolve, + Symbol, +} = primordials; + +const { + validateAbortSignal, + validateBoolean, + validateFunction, + validateInteger, + validateNumber, + validateObject, +} = require('internal/validators'); + +const { + detachArrayBuffer +} = internalBinding('buffer'); + +const { + createDeferredPromise, +} = require('internal/util'); + +const { + codes: { + ERR_INVALID_ARG_TYPE, + ERR_INVALID_ARG_VALUE, + ERR_INVALID_RETURN_VALUE, + ERR_INVALID_STATE, + }, +} = require('internal/errors'); + +const kCancel = Symbol('kCancel'); +const kCanCloseOrEnqueue = Symbol('kCanCloseOrEnqueue'); +const kChunk = Symbol('kChunk'); +const kClose = Symbol('kClose'); +const kDefaultRead = Symbol('kDefaultRead'); +const kEnqueue = Symbol('kEnqueue'); +const kFulfillReadRequest = Symbol('kFulfillReadRequest'); +const kInvalidate = Symbol('kInvalidate'); +const kNumReadRequests = Symbol('kNumReadRequests'); +const kNumReadIntoRequests = Symbol('kNumReadIntoRequests'); +const kMaybePull = Symbol('kMaybePull'); +const kPullInto = Symbol('kPullInto'); +const kShouldPull = Symbol('kShouldPull'); +const kState = Symbol('kState'); +const kOnError = Symbol('kOnError'); + +function validateHighWaterMark(value, name) { + validateNumber(value, name); + if (value < 0 || NumberIsNaN(value)) + throw new ERR_INVALID_ARG_VALUE.RangeError(name, value); +} + +function transferArrayBuffer(buffer) { + const res = detachArrayBuffer(buffer); + if (res === undefined) + throw new ERR_INVALID_ARG_VALUE('buffer', 'ArrayBuffer', buffer); + return res; +} + +class ReadableStreamDefaultController { + constructor() { + throw new TypeError('Illegal constructor'); + } + + get [kCanCloseOrEnqueue]() { + const { + closeRequested, + stream, + } = this[kState]; + return !closeRequested && stream[kState].state === 'readable'; + } + + get [kShouldPull]() { + const { + started, + stream, + } = this[kState]; + return (this[kCanCloseOrEnqueue] && started) && + ((stream.locked && stream[kNumReadRequests] > 0) || this.desiredSize > 0); + } + + [kCancel](reason) { + const state = this[kState]; + state.queue = []; + state.queueTotalSize = 0; + const result = PromiseResolve(state.cancelAlgorithm(reason)); + state.cancelAlgorithm = undefined; + state.pullAlgorithm = undefined; + state.sizeAlgorithm = undefined; + return result; + } + + [kMaybePull]() { + if (!this[kShouldPull]) + return; + + const state = this[kState]; + + if (state.pulling) { + state.pullAgain = true; + return; + } + + state.pulling = true; + + PromisePrototypeThen( + PromiseResolve(state.pullAlgorithm(this)), + () => { + state.pulling = false; + if (state.pullAgain) { + state.pullAgain = false; + this[kMaybePull](); + } + }, + (reason) => this.error(reason)); + } + + get desiredSize() { + const { + stream, + highWaterMark, + queueTotalSize, + } = this[kState]; + switch (stream[kState].state) { + case 'errored': return null; + case 'closed': return 0; + default: return highWaterMark - queueTotalSize; + } + } + + [kClose]() { + if (!this[kCanCloseOrEnqueue]) + return; + const state = this[kState]; + state.closeRequested = true; + if (!state.queue.length) { + state.cancelAlgorithm = undefined; + state.pullAlgorithm = undefined; + state.sizeAlgorithm = undefined; + state.stream[kClose](); + } + } + + close() { + if (!this[kCanCloseOrEnqueue]) + throw new ERR_INVALID_STATE.TypeError('Controller is closed'); + this[kClose](); + } + + [kEnqueue](chunk) { + if (!this[kCanCloseOrEnqueue]) + return; + + const state = this[kState]; + if (state.stream.locked && state.stream[kNumReadRequests] > 0) { + state.stream[kFulfillReadRequest](chunk, false); + } else { + try { + const chunkSize = state.sizeAlgorithm?.(chunk) | 0; + if (typeof chunkSize !== 'number' || chunkSize < 0) { + throw new ERR_INVALID_RETURN_VALUE.RangeError( + 'a positive number', 'size', chunkSize); + } + if (chunkSize === Infinity) { + throw new ERR_INVALID_RETURN_VALUE.RangeError( + 'a finite number', 'size', chunkSize); + } + state.queue.push({ value: chunk, size: chunkSize }); + queue.queueTotalSize += chunkSize; + } catch (error) { + this.error(error); + return; + } + } + this[kMaybePull](); + } + + enqueue(chunk) { + if (!this[kCanCloseOrEnqueue]) + throw new ERR_INVALID_STATE.TypeError('Controller is closed'); + this[kEnqueue](chunk); + } + + error(reason) { + const state = this[kState]; + const stream = state.stream; + if (stream[kState].state !== 'readable') + return; + state.queue = []; + state.queueTotalSize = 0; + state.cancelAlgorithm = undefined; + state.pullAlgorithm = undefined; + state.sizeAlgorithm = undefined; + stream[kOnError](reason); + } +} + +class InternalReadableStreamDefaultController { + constructor(stream, source, highWaterMark, sizeAlgorithm) { + const { + cancel: cancelAlgorithm = async () => {}, + pull: pullAlgorithm = async () => {}, + start: startAlgorithm = () => {}, + } = { ...source }; + + validateFunction(cancelAlgorithm, 'source.cancel'); + validateFunction(pullAlgorithm, 'source.pull'); + validateFunction(startAlgorithm, 'source.start'); + + this[kState] = { + cancelAlgorithm, + closeRequested: false, + highWaterMark, + pullAgain: false, + pullAlgorithm, + pulling: false, + queue: [], + queueTotalSize: 0, + sizeAlgorithm, + started: false, + stream, + }; + + // The startAlgorithm may or may not return a Promise. + // We wrap the result in a Promise.resolve() per the + // spec to make sure that the timing is always consistent. + PromisePrototypeThen( + PromiseResolve(startAlgorithm(this)), + () => { + this[kState].started = true; + this[kMaybePull](); + }, + (reason) => this.error(reason)); + } +} + +InternalReadableStreamDefaultController.prototype.constructor = + ReadableStreamDefaultController; +ObjectSetPrototypeOf( + InternalReadableStreamDefaultController.prototype, + ReadableStreamDefaultController.prototype); + +class ReadableByteStreamController { + constructor() { + throw new TypeError('Illegal constructor'); + } + + get [kCanCloseOrEnqueue]() { + const { + closeRequested, + stream, + } = this[kState]; + return !closeRequested && stream[kState].state === 'readable'; + } + + get [kShouldPull]() { + const { + started, + stream, + } = this[kState]; + return (this[kCanCloseOrEnqueue] && started) && + (stream[kNumReadRequests] > 0 || + stream[kNumReadIntoRequests] > 0 || + this.desiredSize > 0); + } + + [kCancel](reason) { + const state = this[kState]; + state.queue = []; + state.queueTotalSize = 0; + const result = PromiseResolve(state.cancelAlgorithm(reason)); + state.cancelAlgorithm = undefined; + state.pullAlgorithm = undefined; + return result; + } + + [kMaybePull]() { + if (!this[kShouldPull]) + return; + + const state = this[kState]; + + if (state.pulling) { + state.pullAgain = true; + return; + } + + state.pulling = true; + + PromisePrototypeThen( + PromiseResolve(state.pullAlgorithm(this)), + () => { + state.pulling = false; + if (state.pullAgain) { + state.pullAgain = false; + this[kMaybePull](); + } + }, + (reason) => this.error(reason)); + } + + get byobRequest() { + if (this[kState].byobRequest === null && + this[kState].pendingPullIntos.length) { + const desc = this[kState].pendingPullIntos[0]; + const view = new Uint8Array( + desc.buffer, + desc.byteOffset + desc.filled, + desc.byteLength - desc.filled); + this[kState].byobRequest = new InternalReadableBYOBRequest(this, view); + } + return this[kState].byobRequest; + } + + get desiredSize() { + const { + stream, + highWaterMark, + queueTotalSize, + } = this[kState]; + switch (stream[kState].state) { + case 'errored': return null; + case 'closed': return 0; + default: return highWaterMark - queueTotalSize; + } + } + + [kClose]() { + const { + closeRequested, + stream, + queueTotalSize, + pendingPullIntos, + } = this[kState]; + if (closeRequested || stream[kState].state !== 'readable') + return; + + if (queueTotalSize > 0) { + this[kState].closeRequested = true; + return; + } + + if (pendingPullIntos.length) { + const desc = pendingPullIntos[0]; + if (desc.filled) { + const e = new ERR_INVALID_STATE.TypeError('Closing with pending data'); + this.error(e); + throw e; + } + } + + this[kState].cancelAlgorithm = undefined; + this[kState].pullAlgorithm = undefined; + stream[kClose](); + } + + close() { + const { + closeRequested, + stream, + } = this[kState]; + if (closeRequested) + throw new ERR_INVALID_STATE.TypeError('Controller is closed'); + if (stream[kState].state !== 'readable') + throw new ERR_INVALID_STATE.TypeError('Stream is not readable'); + this[kClose](); + } + + [kEnqueue](chunk) { + const state = this[kState]; + const { + closeRequested, + pendingPullIntos, + stream, + } = state; + if (closeRequested || stream[kState].state !== 'readable') + return; + + const { + buffer = chunk, + byteOffset = 0, + byteLength + } = chunk; + + const transferedBuffer = transferArrayBuffer(buffer); + + if (pendingPullIntos.length) { + const desc = pendingPullIntos[0]; + desc.buffer = transferArrayBuffer(desc.buffer); + } + + if (state.byobRequest !== null) { + state.byobRequest[kInvalidate](); + state.byobRequest = null; + } + + if (stream[kState].reader instanceof ReadableStreamDefaultReader) { + if (stream[kNumReadRequests] > 0) { + if (state.queue.length) + throw new ERR_INVALID_STATE('Queue should be empty'); + const view = new Uint8Array(transferedBuffer, byteOffset, byteLength); + stream[kFulfillReadRequest](view, false); + } else { + state.queue = { + buffer, + byteOffset, + byteLength, + }; + state.queueTotalSize += byteLength; // - byteOffset?? + } + } else if (stream[kState].reader instanceof ReadableStreamBYOBReader) { + state.queue = { + buffer, + byteOffset, + byteLength, + }; + state.queueTotalSize += byteLength; // - byteOffset?? + this[kPullInto](); + } else { + if (stream.locked) + throw new ERR_INVALID_STATE('Failed to enqueue data'); + state.queue = { + buffer, + byteOffset, + byteLength, + }; + state.queueTotalSize += byteLength; // - byteOffset?? + } + this[kMaybePull](); + } + + [kPullInto]() { + const { + closeRequested, + pendingPullIntos, + stream, + } = this[kState]; + if (closeRequested) + throw new ERR_INVALID_STATE('Controller is closed'); + while (pendingPullIntos.length) { + if (this[kState].queueTotalSize === 0) + return; + const desc = pendingPullIntos[0]; + if (doPullInto(desc)) { + shiftPending(); + commit(desc); + } + } + + function commit(desc) { + const streamState = stream[kState].state; + if (streamState === 'errored') + throw new ERR_INVALID_STATE('Stream is in the errored state'); + let done = false; + if (streamState === 'closed') { + desc.filled = 0; + done = true; + } + const buffer = transferArrayBuffer(desc.buffer); + const view = new Uint8Array(buffer, desc.byteOffset, desc.byteLength); + stream[kFulfillReadRequest](view, done); + } + + function shiftPending() { + if (this[kState].byobRequest !== null) + throw new ERR_INVALID_STATE('Pending read request'); + return pendingPullIntos.shift(); + } + + function doPullInto(desc) { + const { + buffer, + byteLength, + byteOffset, + elementSize, + filled, + } = desc; + const state = this[kState]; + let currentAlignedBytes = filled - (filled % elementSize); + let maxBytesToCopy = + MathMin(state.queueTotalSize, byteLength - filled) + let maxBytesFilled = filled + maxBytesToCopy; + let maxAlignedBytes = maxBytesfilled - (maxBytesFilled % elementSize); + let totalBytesToCopyRemaining = maxBytesToCopy; + let ready = false; + if (maxAlignedBytes > currentAlignedBytes) { + totalBytesToCopyRemaining = maxAlignedBytes - filled; + ready = true; + } + while (totalBytesToCopyRemaining > 0) { + const head = state.queue[0]; + const bytesToCopy = MathMin(totalBytesToCopyRemaining, head.byteLength); + const destStart = byteOffset + desc.filled; + for (let n = 0; n < bytesToCopy; n++) + buffer[destStart + n] = head[head.byteOffset + n]; + if (head.byteLength === bytesToCopy) { + state.queue.shift(); + } else { + head.byteOffset += bytesToCopy; + head.byteLength -= bytesToCopy; + } + state.queueTotalSize -= bytesToCopy; + desc.filled += bytesToCopy; + totalBytesToCopyRemaining -= bytesToCopy; + } + // TODO: assert queueTotalSize is 0 + // assert desc.filled > 0 + // assert desc.filed < elementSize + return ready; + } + } + + enqueue(chunk) { + if ((chunk?.byteLength | 0) === 0 || + (chunk?.buffer?.byteLength | 0) === 0) + throw new ERR_INVALID_ARG_VALUE.TypeError('chunk', chunk); + const { + closeRequested, + stream, + } = this[kState]; + if (closeRequested) + throw new ERR_INVALID_STATE.TypeError('Controller is closed'); + if (stream[kState].state !== 'readable') + throw new ERR_INVALID_STATE.TypeError('Stream is not readable'); + this[kEnqueue](chunk); + } + + error(reason) { + const state = this[kState]; + const stream = state.stream; + if (stream[kState].state !== 'readable') + return; + + if (state.byobRequest !== null) { + state.byobRequest.controller = undefined; + state.byobRequest.view = null; + state.byobRequest = null; + } + + state.pendingPullIntos = []; + + state.queue = []; + state.queueTotalSize = 0; + state.cancelAlgorithm = undefined; + state.pullAlgorithm = undefined; + stream[kOnError](reason); + } +} + +class InternalReadableByteStreamController { + constructor(stream, source, highWaterMark) { + const { + cancel: cancelAlgorithm = async () => {}, + pull: pullAlgorithm = async () => {}, + start: startAlgorithm = () => {}, + autoAllocateChunkSize, + } = { ...source }; + + validateFunction(cancelAlgorithm, 'source.cancel'); + validateFunction(pullAlgorithm, 'source.pull'); + validateFunction(startAlgorithm, 'source.start'); + + if (autoAllocateChunkSize === 0) { + throw new ERR_INVALID_ARG_VALUE.TypeError( + 'source.autoAllocateChunkSize', + autoAllocateChunkSize); + } else if (autoAllocateChunkSize !== undefined) { + validateInteger(autoAllocateChunkSize, 'source.autoAllocateChunkSize', 1); + } + + this[kState] = { + autoAllocateChunkSize, + cancelAlgorithm, + closeRequested: false, + byobRequest: null, + highWaterMark, + pendingPullIntos: [], + pullAgain: false, + pullAlgorithm, + pulling: false, + queue: [], + queueTotalSize: 0, + started: false, + stream, + }; + + // The startAlgorithm may or may not return a Promise. + // We wrap the result in a Promise.resolve() per the + // spec to make sure that the timing is always consistent. + PromisePrototypeThen( + PromiseResolve(startAlgorithm(this)), + () => { + this[kState].started = true; + this[kMaybePull](); + }, + (reason) => this.error(reason)); + } +} + +InternalReadableByteStreamController.prototype.constructor = + ReadableByteStreamController; +ObjectSetPrototypeOf( + InternalReadableByteStreamController.prototype, + ReadableByteStreamController.prototype); + +class ReadableStreamDefaultReader { + constructor(stream) { + const { promise, resolve, reject } = createDeferredPromise(); + this[kState] = { + close: { + promise, + resolve, + reject, + }, + readRequests: [], + stream, + }; + switch (stream[kState].state) { + case 'closed': + resolve(); + break; + case 'errored': + reject(stream[kState].storedError); + // Prevents the unhandled rejection failure. + PromisePrototypeThen(promise, () => {}, () => {}); + break; + } + } + + get [kNumReadRequests]() { + return this[kState].readRequests.length; + } + + get [kNumReadIntoRequests]() { return 0; } + + [kClose]() { + const state = this[kState]; + state.close.resolve?.(); + for (let n = 0; n < state.readRequests.length; n++) + state.readRequests[n]?.close(); + state.readRequests = []; + } + + [kOnError](reason) { + const state = this[kState]; + state.close.reject?.(reason); + for (let n = 0; n < state.readRequests.length; n++) + state.readRequests[n]?.error(reason); + state.readRequests = []; + } + + async cancel(reason) { + const { + stream, + } = this[kState]; + if (stream === undefined) { + throw new ERR_INVALID_STATE.TypeError( + 'Cannot cancel without a stream'); + } + await stream[kCancel](reason); + } + + read() { + const { + stream, + readRequests, + } = this[kState]; + + if (stream === undefined) { + return PromiseReject(new ERR_INVALID_STATE.TypeError( + 'There is no ReadableStream')); + } + + const req = new ReadableStreamDefaultRequest(); + stream[kState].disturbed = true; + + switch (stream[kState].state) { + case 'closed': + req.close(); + break; + case 'errored': + req.error(stream[kState].storedError); + break; + default: + readRequests.push(req); + stream[kState].controller[kMaybePull](); + } + + return req.promise; + } + + get closed() { return this[kState].close.promise; } + + releaseLock() { + const { + stream, + readRequests, + } = this[kState]; + if (stream === undefined) + return; + if (readRequests.length) { + throw new ERR_INVALID_STATE.TypeError( + 'Cannot release the lock with pending read requests'); + } + + if (stream[kState].state === 'readable') { + this[kState].close.reject( + new ERR_INVALID_STATE.TypeError('Unable to release the lock')); + } else { + this[kState].close.promise = + PromiseReject( + new ERR_INVALID_STATE.TypeError('Unable to release the lock')); + this[kState].close.resolve = undefined; + this[kState].close.reject = undefined; + } + + PromisePrototypeThen(this[kState].close.promise, () => {}, () => {}); + stream[kState].reader = undefined; + this[kState].stream = undefined; + } +} + +class ReadableStreamDefaultRequest { + constructor() { + this[kState] = createDeferredPromise(); + } + + get promise() { return this[kState].promise; } + + push(value) { + this[kState].resolve({ value, done: false }); + } + + close() { + this[kState].resolve({ value: undefined, done: true }); + } + + error(reason) { + this[kState].reject(reason); + } +}; + +class ReadableStreamBYOBReader { + constructor(stream) { + if (!(stream[kState].controller instanceof ReadableByteStreamController)) { + throw new ERR_INVALID_STATE.TypeError( + 'This ReadableStream does not support the byob reader'); + } + const { promise, resolve, reject } = createDeferredPromise(); + this[kState] = { + close: { + promise, + resolve, + reject, + }, + readIntoRequests: [], + stream, + }; + switch (stream[kState].state) { + case 'closed': + resolve(); + break; + case 'errored': + reject(stream[kState].storedError); + // Prevents the unhandled rejection failure. + PromisePrototypeThen(promise, () => {}, () => {}); + break; + } + } + + get [kNumReadRequests]() { return 0; } + + get [kNumReadIntoRequests]() { + return this[kState].readIntoRequests.length; + } + + [kClose]() { + const state = this[kState]; + state.close.resolve?.(); + } + + [kOnError](reason) { + const state = this[kState]; + state.close.reject?.(reason); + for (let n = 0; n < state.readIntoRequests.length; n++) + state.readIntoRequests[n]?.[kOnError](reason); + state.readIntoRequests = []; + } + + async cancel(reason) { + const { + stream, + } = this[kState]; + if (stream === undefined) { + throw new ERR_INVALID_STATE.TypeError( + 'Cannot cancel without a stream'); + } + await stream[kCancel](reason); + } + + get closed() { return this[kState].close.promise; } + + read(view) { + if (view?.byteLength | 0 === 0 || view?.buffer?.byteLength | 0 === 0) { + return PromiseReject( + new ERR_INVALID_ARG_TYPE('view', 'ArrayBufferView', view)); + } + // TODO(@jasnell): Supposed to check if the buffer is detached + const { + stream, + } = this[kState]; + if (stream === undefined) { + return PromiseReject( + new ERR_INVALID_STATE.TypeError('There is no ReadableStream')); + } + const req = new InternalReadableBYOBRequest( + stream[kState].controller, + view); + + stream[kState].disturbed = true; + + switch (stream[kState].state) { + case 'errored': + req[kError](stream[kState].storedError); + break; + default: + try { + const { + controller, + } = stream[kState]; + const ctor = view.constructor || DataView; + const elementSize = ctor.BYTES_PER_ELEMENT || 1; + const { + buffer, + byteOffset, + byteLength, + } = view; + const transferedBuffer = transferArrayBuffer(buffer); + const desc = { + buffer: transferedBuffer, + byteOffset, + byteLength, + filled: 0, + elementSize, + ctor, + type: 'byob', + }; + if (controller[kState].pendingPullIntos.length) { + controller[kState].pendingPullIntos.push(desc); + this[kState].readIntoRequests.push(req); + break; + } + if (stream[kState].state === 'closed') { + req[kClose](new ctor(transferedBuffer, byteOffset, 0)); + break; + } + if (controller[kState].queueTotalSize) { + + } + controller[kState].pendingPullIntos.push(desc); + this[kState].readIntoRequests.push(req); + controller[kMaybePull](); + } catch (error) { + req[kError](error); + } + } + + return req[kState].promise; + } + + releaseLock() { + const { + stream, + readIntoRequests, + } = this[kState]; + if (stream === undefined) + return; + if (readIntoRequests.length) { + throw new ERR_INVALID_STATE.TypeError( + 'Cannot release the lock with pending read requests'); + } + + if (stream[kState].state === 'readable') { + this[kState].close.reject( + new ERR_INVALID_STATE.TypeError('Unable to release the lock')); + } else { + this[kState].close.promise = + PromiseReject( + new ERR_INVALID_STATE.TypeError('Unable to release the lock')); + this[kState].close.resolve = undefined; + this[kState].close.reject = undefined; + } + + PromisePrototypeThen(this[kState].close.promise, () => {}, () => {}); + stream[kState].reader = undefined; + this[kState].stream = undefined; + } +} + +class ReadableStreamBYOBRequest { + constructor() { + throw new TypeError('Illegal constructor'); + } + + [kInvalidate]() { + this[kState] = { + controller: undefined, + view: undefined, + }; + } + + [kChunk](value) { + this[kState].resolve({ value, done: false }); + } + + [kClose](value) { + this[kState].resolve({ value, done: true }); + } + + [kError](reason) { + this[kState].reject(reason); + } + + get view() { return this[kState].view; } + + respond(bytesWritten) {} + + respondWithNewView(view) {} +} + +class InternalReadableBYOBRequest { + constructor(controller, view) { + this[kState] = { + controller, + view, + ...createDeferredPromise(), + }; + } +}; + +InternalReadableBYOBRequest.prototype.constructor = + ReadableStreamBYOBRequest; +ObjectSetPrototypeOf( + InternalReadableBYOBRequest.prototype, + ReadableStreamBYOBRequest.prototype); + +class ReadableStream { + constructor(source = null, strategy = null) { + const { + type, + } = { ...source }; + + this[kState] = { + controller: undefined, + disturbed: false, + highWaterMark: 0, + reader: undefined, + sizeAlgorithm: undefined, + state: 'readable', + storedError: undefined, + }; + + if (type === 'bytes') { + const { + highWaterMark = 0, + size, + } = { ...strategy }; + if (size !== undefined) + throw new ERR_INVALID_ARG_VALUE.RangeError('source.type', type); + validateHighWaterMark(highWaterMark, 'strategy.highWaterMark'); + this[kState].highWaterMark = highWaterMark; + this[kState].controller = + new InternalReadableByteStreamController( + this, + source, + highWaterMark); + } else if (type === undefined) { + const { + highWaterMark = 1, + size = (new CountQueuingStrategy({ highWaterMark })).size, + } = { ...strategy }; + validateHighWaterMark(highWaterMark, 'strategy.highWaterMark'); + validateFunction(size, 'strategy.size'); + this[kState].highWaterMark = highWaterMark; + this[kState].sizeAlgorithm = size; + this[kState].controller = + new InternalReadableStreamDefaultController( + this, + source, + highWaterMark, + size); + } else { + throw new ERR_INVALID_ARG_VALUE.RangeError('source.type', type); + } + } + + [kFulfillReadRequest](chunk, done) {} + + [kDefaultRead](request) {} + + get [kNumReadRequests]() { + return this[kState].reader?.[kNumReadRequests] | 0; + } + + get [kNumReadIntoRequests]() { + return this[kState].reader?.[kNumReadIntoRequests] | 0; + } + + async [kCancel](reason) { + const state = this[kState]; + state.disturbed = true; + switch (state.state) { + case 'closed': return; + case 'errored': throw state.storedError; + default: + this[kClose](); + await state.controller[kCancel](reason); + } + } + + [kClose]() { + const state = this[kState]; + state.closed = true; + state.reader?.[kClose](); + } + + [kOnError](reason) { + const state = this[kState]; + state.state = 'errored'; + state.storedError = reason; + state.reader?.[kOnError](reason); + // TODO(@jasnell): Implement reader konerror + } + + get locked() { return this[kState].reader !== undefined; } + + async cancel(reason) { + if (this.locked) { + throw new ERR_INVALID_ARG_VALUE.TypeError( + 'Cannot cancel a locked stream'); + } + await this[kCancel](reason); + } + + getReader(options = {}) { + if (this.locked) { + throw new ERR_INVALID_STATE.TypeError( + 'The ReadableStream is already locked'); + } + validateObject(options, 'options'); + const { + mode + } = options; + if (mode !== undefined && mode !== 'byob') + throw new ERR_INVALID_ARG_VALUE.TypeError('options.mode', mode); + const reader = mode === 'byob' ? + new ReadableStreamBYOBReader(this) : + new ReadableStreamDefaultReader(this); + this[kState].reader = reader; + return reader; + } + + pipeThrough(transform, options = {}) { + if (this.locked) { + throw new ERR_INVALID_STATE.TypeError( + 'The ReadableStream is already locked'); + } + validateObject(transform, 'transform'); + const { + writable, + readable, + } = transform; + if (!(writable instanceof WritableStream)) { + throw new ERR_INVALID_ARG_TYPE( + 'transform.writable', + 'WritableStream', + writable); + } + if (!(readable instanceof ReadableStream)) { + throw new ERR_INVALID_ARG_TYPE( + 'transform.readable', + 'ReadableStream', + readable); + } + if (writable.locked) { + throw new ERR_INVALID_STATE.TypeError( + 'Cannot pipeThrough to a locked WritableStream'); + } + + PromisePrototypeThen( + this.pipeTo(writable, options), + () => {}, + () => {}); + + return readable; + } + + async pipeTo(destination, options = {}) { + if (this.locked) { + throw new ERR_INVALID_STATE.TypeError( + 'The ReadableStream is already locked'); + } + if (!(destination instanceof WritableStream)) { + throw new ERR_INVALID_ARG_TYPE( + 'destination', + 'WritableStream', + destination); + } + if (destination.locked) { + throw new ERR_INVALID_STATE.TypeError( + 'Cannot pipeTo a locked WritableStream'); + } + + const { + preventAbort = false, + preventCancel = false, + preventClose = false, + signal, + } = options; + validateBoolean(preventAbort, 'options.preventAbort'); + validateBoolean(preventCancel, 'options.preventCancel'); + validateBoolean(preventClose, 'options.preventClose'); + if (signal !== undefined) + validateAbortSignal(signal, 'options.signal'); + + // TODO(@jasnell): Implement the actual pipeTo algorithm + } + + tee() { + // TODO(@jasnell): Implement the tee algorithm + } + + // TODO(@jasnell): Add async interable +} + +class WritableStreamDefaultController {} + +class WritableStreamDefaultWriter {} + +class WritableStream {} + +class TransformStream {} + +class TransformStreamDefaultController {} + +class BaseQueuingStrategy { + constructor(options) { + validateObject(options, 'options'); + const { + highWaterMark, + } = options; + validateHighWaterMark(highWaterMark, 'options.highWaterMark'); + this[kState] = { + highWaterMark, + }; + // Allow the size function to be destructured from this but still work. + this.size = FunctionPrototypeBind(this.size, this); + } + + get highWaterMark() { return this[kState].highWaterMark; } +} + +class ByteLengthQueuingStrategy extends BaseQueuingStrategy { + size(chunk) { return chunk?.byteLength; } +} + +class CountQueuingStrategy extends BaseQueuingStrategy { + size() { return 1; } +} + +module.exports = { + kState, // Exported for testing purposes only + ByteLengthQueuingStrategy, + CountQueuingStrategy, + ReadableByteStreamController, + ReadableStream, + ReadableStreamBYOBReader, + ReadableStreamBYOBRequest, + ReadableStreamDefaultController, + ReadableStreamDefaultReader, + TransformStream, + TransformStreamDefaultController, + WritableStream, + WritableStreamDefaultController, + WritableStreamDefaultWriter, +}; diff --git a/lib/internal/streams/whatwg.js b/lib/internal/streams/whatwg.js new file mode 100644 index 00000000000000..f06acffa67fb2c --- /dev/null +++ b/lib/internal/streams/whatwg.js @@ -0,0 +1,3347 @@ +'use strict'; + +const { + ArrayBuffer, + DataView, + FunctionPrototypeBind, + FunctionPrototypeCall, + MathMax, + MathMin, + NumberIsNaN, + ObjectSetPrototypeOf, + PromisePrototypeCatch, + PromisePrototypeThen, + PromiseResolve, + PromiseReject, + PromiseAll, + Symbol, + SymbolToStringTag, + Uint8Array, +} = primordials; + +const { + AbortError, + codes: { + ERR_INVALID_ARG_VALUE, + ERR_INVALID_ARG_TYPE, + ERR_INVALID_STATE, + }, +} = require('internal/errors'); + +const { + copyArrayBuffer, + detachArrayBuffer +} = internalBinding('buffer'); + +const { + isArrayBufferView, + isDataView, +} = require('util/types'); + +const { + createDeferredPromise, + emitExperimentalWarning, +} = require('internal/util'); + +const { + serialize, + deserialize, +} = require('v8'); + +const { + validateAbortSignal, + validateBoolean, + validateObject, +} = require('internal/validators'); + +const { + getPromiseDetails, + kPending, +} = internalBinding('util'); + +const assert = require('internal/assert'); + +emitExperimentalWarning('stream/whatwg'); + +const kAbort = Symbol('kAbort'); +const kCancel = Symbol('kCancel'); +const kClose = Symbol('kClose'); +const kCloseSentinel = Symbol('kCloseSentinel'); +const kChunk = Symbol('kChunk'); +const kError = Symbol('kError'); +const kPull = Symbol('kPull'); +const kState = Symbol('kState'); + +function extractHighWaterMark(value, defaultHWM) { + if (value === undefined) return defaultHWM; + if (typeof value !== 'number' || + NumberIsNaN(value) || + value < 0) + throw new ERR_INVALID_ARG_VALUE.RangeError('strategy.highWaterMark', value); + return value; +} + +function extractSizeAlgorithm(size) { + if (size === undefined) return () => 1; + if (typeof size !== 'function') + throw new ERR_INVALID_ARG_VALUE('strategy.size', size); + return size; +} + +class ReadableStream { + constructor(source = null, strategy = {}) { + this[kState] = { + disturbed: false, + state: 'readable', + storedError: undefined, + stream: undefined, + }; + // The spec requires handling of the strategy first + // here. Specifically, if getting the size and + // highWaterMark from the strategy fail, that has + // to trigger a throw before getting the details + // from the source. So be sure to keep these in + // this order. + const { + size, + highWaterMark, + } = { ...strategy }; + const { + type, + } = { ...source }; + + if (type === 'bytes') { + if (size !== undefined) + throw new ERR_INVALID_ARG_VALUE('strategy.size', size); + setupReadableByteStreamControllerFromSource( + this, + source, + extractHighWaterMark(highWaterMark, 0)); + return; + } + + if (type !== undefined) + throw new ERR_INVALID_ARG_VALUE('source.type', type); + setupReadableStreamDefaultControllerFromSource( + this, + source, + extractHighWaterMark(highWaterMark, 1), + extractSizeAlgorithm(size)); + } + + get locked() { + return isReadableStreamLocked(this); + } + + cancel(reason) { + if (isReadableStreamLocked(this)) { + return PromiseReject( + new ERR_INVALID_STATE.TypeError('ReadableStream is locked')); + } + return readableStreamCancel(this, reason); + } + + getReader(options = {}) { + validateObject(options, 'options'); + const { + mode, + } = options; + if (mode === undefined) { + return new ReadableStreamDefaultReader(this); + } + if (mode !== 'byob') + throw new ERR_INVALID_ARG_VALUE('options.mode', mode); + return new ReadableStreamBYOBReader(this); + } + + pipeThrough(transform, options = {}) { + const { + readable, + writable, + } = { ...transform }; + if (!isReadableStream(readable)) { + throw new ERR_INVALID_ARG_TYPE( + 'transform.readable', + 'ReadableStream', + readable); + } + if (!isWritableStream(writable)) { + throw new ERR_INVALID_ARG_TYPE( + 'transform.writable', + 'WritableStream', + writable); + } + if (isReadableStreamLocked(this)) + throw new ERR_INVALID_STATE('The ReadableStream is locked'); + if (isWritableStreamLocked(writable)) + throw new ERR_INVALID_STATE('The WritableStream is locked'); + const { + signal, + preventClose = false, + preventAbort = false, + preventCancel = false, + } = options; + validateBoolean(preventAbort, 'options.preventAbort'); + validateBoolean(preventClose, 'options.preventClose'); + validateBoolean(preventCancel, 'options.preventCancel'); + if (signal !== undefined) + validateAbortSignal(signal, 'options.signal'); + + const promise = readableStreamPipeTo( + this, + writable, + preventClose, + preventAbort, + preventCancel, + signal); + setPromiseHandled(promise); + + return readable; + } + + pipeTo(destination, options = {}) { + if (!isWritableStream(destination)) { + throw new ERR_INVALID_ARG_TYPE( + 'transform.writable', + 'WritableStream', + destination); + } + if (isReadableStreamLocked(this)) + throw new ERR_INVALID_STATE('The ReadableStream is locked'); + if (isWritableStreamLocked(destination)) + throw new ERR_INVALID_STATE('The WritableStream is locked'); + const { + signal, + preventClose = false, + preventAbort = false, + preventCancel = false, + } = options; + validateBoolean(preventAbort, 'options.preventAbort'); + validateBoolean(preventClose, 'options.preventClose'); + validateBoolean(preventCancel, 'options.preventCancel'); + if (signal !== undefined) + validateAbortSignal(signal, 'options.signal'); + + return readableStreamPipeTo( + this, + destination, + preventClose, + preventAbort, + preventCancel, + signal); + } + + tee() { + return readableStreamTee(this, false); + } + + // TODO(@jasnell): Implement async iterators + + get [SymbolToStringTag]() { return 'ReadableStream'; } +} + +class ReadableStreamBYOBRequest { + constructor() { + throw new TypeError('Illegal constructor'); + } + + get view() { return this[kState].view; } + + respond(bytesWritten) { + const { + view, + controller, + } = this[kState]; + if (controller === undefined) + throw new ERR_INVALID_STATE('This request is not bound to a controller'); + // Supposed to assert here that the view's buffer is not + // detached, but there's no API available to use to check that. + assert(view.byteLength || view.buffer.byteLength); + readableByteStreamControllerRespond(controller, bytesWritten); + } + + respondWithNewView(view) { + const { + controller, + } = this[kState]; + // Supposed to assert here that the view's buffer is not + // detached, but there's no API available to use to check that. + readableByteStreamControllerRespondWithNewView(controller, view); + } +} + +class InternalReadableStreamBYOBRequest { + constructor(controller, view) { + this[kState] = { + controller, + view, + }; + } +} + +class DefaultReadRequest { + constructor() { + this[kState] = createDeferredPromise(); + } + + [kChunk](value) { + this[kState].resolve?.({ value, done: false }); + } + + [kClose]() { + this[kState].resolve?.({ value: undefined, done: true }); + } + + [kError](error) { + this[kState].reject?.(error); + } + + get promise() { return this[kState].promise; } +} + +class ReadIntoRequest { + constructor() { + this[kState] = createDeferredPromise(); + } + + [kChunk](value) { + this[kState].resolve?.({ value, done: false }); + } + + [kClose](value) { + this[kState].resolve?.({ value, done: true }); + } + + [kError](error) { + this[kState].reject?.(error); + } + + get promise() { return this[kState].promise; } +} + +class ReadableStreamDefaultReader { + constructor(stream) { + if (!isReadableStream(stream)) + throw new ERR_INVALID_ARG_TYPE('stream', 'ReadableStream', stream); + this[kState] = { + readRequests: [], + stream: undefined, + close: { + promise: undefined, + resolve: undefined, + reject: undefined, + }, + }; + setupReadableStreamDefaultReader(this, stream); + } + + read() { + if (this[kState].stream === undefined) { + return PromiseReject( + new ERR_INVALID_STATE.TypeError( + 'The reader is not attached to a stream')); + } + const readRequest = new DefaultReadRequest(); + readableStreamDefaultReaderRead(this, readRequest); + return readRequest.promise; + } + + releaseLock() { + if (this[kState].stream === undefined) + return; + if (this[kState].readRequests.length) { + throw new ERR_INVALID_STATE.TypeError( + 'Cannot release with pending read requests'); + } + readableStreamReaderGenericRelease(this); + } + + get closed() { return this[kState].close.promise; } + + cancel(reason) { + if (this[kState].stream === undefined) { + throw new ERR_INVALID_STATE.TypeError( + 'The reader is not attached to a stream'); + } + return readableStreamReaderGenericCancel(this, reason); + } + + get [SymbolToStringTag]() { return 'ReadableStreamDefaultReader'; } +} + +class ReadableStreamBYOBReader { + constructor(stream) { + if (!isReadableStream(stream)) + throw new ERR_INVALID_ARG_TYPE('stream', 'ReadableStream', stream); + this[kState] = { + requestIntoRequests: [], + close: { + promise: undefined, + resolve: undefined, + reject: undefined, + }, + }; + setupReadableStreamBYOBReader(this, stream); + } + + read(view) { + if (!isArrayBufferView(view)) { + return PromiseReject( + new ERR_INVALID_ARG_TYPE( + 'view', + [ + 'Buffer', + 'TypedArray', + 'DataView' + ], + view)); + } + if (view.byteLength === 0 || view.buffer.byteLength === 0) { + return PromiseReject( + new ERR_INVALID_ARG_VALUE('View cannot be zero length')); + } + // Supposed to assert here that the view's buffer is not + // detached, but there's no API available to use to check that. + if (this[kState].stream === undefined) { + return PromiseReject( + new ERR_INVALID_STATE('The reader is not attached to a stream')); + } + const readIntoRequest = new ReadIntoRequest(); + readableStreamBYOBReaderRead(this, view, readIntoRequest); + return readIntoRequest.promise; + } + + releaseLock() { + if (this[kState].stream === undefined) + return; + if (this[kState].readIntoRequests.length) { + throw new ERR_INVALID_STATE.TypeError( + 'Cannot release with pending read requests'); + } + readableStreamReaderGenericRelease(this); + } + + get closed() { return this[kState].close.promise; } + + cancel(reason) { + if (this[kState].stream === undefined) { + throw new ERR_INVALID_STATE.TypeError( + 'The reader is not attached to a stream'); + } + return readableStreamReaderGenericCancel(this, reason); + } + + get [SymbolToStringTag]() { return 'ReadableStreamBYOBReader'; } +} + +class ReadableStreamDefaultController { + constructor() { + throw new TypeError('Illegal constructor'); + } + + get desiredSize() { + return readableStreamDefaultControllerGetDesiredSize(this); + } + + close() { + if (!readableStreamDefaultControllerCanCloseOrEnqueue(this)) + throw new ERR_INVALID_STATE('Controller is already closed'); + readableStreamDefaultControllerClose(this); + } + + enqueue(chunk) { + if (!readableStreamDefaultControllerCanCloseOrEnqueue(this)) + throw new ERR_INVALID_STATE('Controller is already closed'); + readableStreamDefaultControllerEnqueue(this, chunk); + } + + error(error) { + readableStreamDefaultControllerError(this, error); + } + + [kCancel](reason) { + return readableStreamDefaultControllerCancelSteps(this, reason); + } + + [kPull](readRequest) { + readableStreamDefaultControllerPullSteps(this, readRequest); + } + + get [SymbolToStringTag]() { return 'ReadableStreamDefaultController'; } +} + +class InternalReadableStreamDefaultController { + constructor() { + this[kState] = {}; + } +} + +class ReadableByteStreamController { + constructor() { + throw new TypeError('Illegal constructor'); + } + + get byobRequest() { + if (this[kState].byobRequest === null && + this[kState].pendingPullIntos.length) { + const { + buffer, + byteOffset, + bytesFilled, + byteLength, + } = this[kState].pendingPullIntos[0]; + const view = + new Uint8Array( + buffer, + byteOffset + bytesFilled, + byteLength - bytesFilled); + this[kState].byobRequest = + new InternalReadableStreamBYOBRequest(this, view); + } + return this[kState].byobRequest; + } + + get desiredSize() { + return readableByteStreamControllerGetDesiredSize(this); + } + + close() { + if (this[kState].closeRequested) + throw new ERR_INVALID_STATE.TypeError('Controller is already closed'); + if (this[kState].stream[kState].state !== 'readable') + throw new ERR_INVALID_STATE.TypeError('ReadableStream is already closed'); + readableByteStreamControllerClose(this); + } + + enqueue(chunk) { + if (!isArrayBufferView(chunk)) { + throw new ERR_INVALID_ARG_TYPE( + 'chunk', + [ + 'Buffer', + 'TypedArray', + 'DataView', + ], + chunk); + } + if (chunk.byteLength === 0 || chunk.buffer.byteLength === 0) { + throw new ERR_INVALID_ARG_VALUE( + 'chunk', + chunk, + 'cannot be zero length'); + } + if (this[kState].closeRequested) + throw new ERR_INVALID_STATE.TypeError('Controller is already closed'); + if (this[kState].stream[kState].state !== 'readable') + throw new ERR_INVALID_STATE.TypeError('ReadableStream is already closed'); + readableByteStreamControllerEnqueue(this, chunk); + } + + error(error) { + readableByteStreamControllerError(this, error); + } + + [kCancel](reason) { + return readableByteStreamControllerCancelSteps(this, reason); + } + + [kPull](readRequest) { + readableByteStreamControllerPullSteps(this, readRequest); + } + + get [SymbolToStringTag]() { return 'ReadableByteStreamController'; } +} + +class InternalReadableByteStreamController { + constructor() { + this[kState] = {}; + } +} + +class WritableStream { + constructor(sink = null, strategy = {}) { + const { + type, + } = { ...sink }; + if (type !== undefined) + throw new ERR_INVALID_ARG_VALUE.RangeError(type, 'type'); + + this[kState] = { + close: createDeferredPromise(), + closeRequest: { + promise: undefined, + resolve: undefined, + reject: undefined, + }, + inFlightWriteRequest: { + promise: undefined, + resolve: undefined, + reject: undefined, + }, + inFlightCloseRequest: { + promise: undefined, + resolve: undefined, + reject: undefined, + }, + pendingAbortRequest: { + abort: { + promise: undefined, + resolve: undefined, + reject: undefined, + }, + reason: undefined, + wasAlreadyErroring: false, + }, + backpressure: false, + controller: undefined, + state: 'writable', + storedError: undefined, + writeRequests: [], + writer: undefined, + }; + + const { + highWaterMark, + size, + } = { ...strategy }; + + setupWritableStreamDefaultControllerFromSink( + this, + sink, + extractHighWaterMark(highWaterMark, 1), + extractSizeAlgorithm(size)); + } + + get locked() { return isWritableStreamLocked(this); } + + abort(reason) { + if (isWritableStreamLocked(this)) + return PromiseReject(new ERR_INVALID_STATE('WritableStream is locked')); + return writableStreamAbort(this, reason); + } + + close() { + if (isWritableStreamLocked(this)) + return PromiseReject(new ERR_INVALID_STATE('WritableStream is locked')); + if (writableStreamCloseQueuedOrInFlight(this)) { + return PromiseReject( + new ERR_INVALID_STATE('Failure closing WritableStream')); + } + return writableStreamClose(this); + } + + getWriter() { + return new WritableStreamDefaultWriter(this); + } + + get [SymbolToStringTag]() { return 'WritableStream'; } +} + +class WritableStreamDefaultWriter { + constructor(stream) { + if (!isWritableStream(stream)) + throw new ERR_INVALID_ARG_TYPE('stream', 'WritableStream', stream); + this[kState] = { + close: { + promise: undefined, + resolve: undefined, + reject: undefined, + }, + ready: { + promise: undefined, + resolve: undefined, + reject: undefined, + } + }; + setupWritableStreamDefaultWriter(this, stream); + } + + get closed() { return this[kState].close.promise; } + + get desiredSize() { + if (this[kState].stream === undefined) + throw new ERR_INVALID_STATE('Writer is not bound to a WritableStream'); + return writableStreamDefaultWriterGetDesiredSize(this); + } + + get ready() { return this[kState].ready.promise; } + + abort(reason) { + if (this[kState].stream === undefined) { + return PromiseReject( + new ERR_INVALID_STATE('Writer is not bound to a WritableStream')); + } + return writableStreamDefaultWriterAbort(this, reason); + } + + close() { + const { + stream, + } = this[kState]; + if (stream === undefined) { + return PromiseReject( + new ERR_INVALID_STATE('Writer is not bound to a WritableStream')); + } + if (writableStreamCloseQueuedOrInFlight(stream)) { + return PromiseReject( + new ERR_INVALID_STATE('Failure to close WritableStream')); + } + return writableStreamDefaultWriterClose(this); + } + + releaseLock() { + const { + stream, + } = this[kState]; + if (stream === undefined) + return; + assert(stream[kState].writer !== undefined); + writableStreamDefaultWriterRelease(this); + } + + write(chunk) { + if (this[kState].stream === undefined) { + return PromiseReject( + new ERR_INVALID_STATE('Writer is not bound to a WritableStream')); + } + return writableStreamDefaultWriterWrite(this, chunk); + } + + get [SymbolToStringTag]() { return 'WritableStreamDefaultWriter'; } +} + +class WritableStreamDefaultController { + constructor() { + throw new TypeError('Illegal constructor'); + } + + [kAbort](reason) { + const result = this[kState].abortAlgorithm(reason); + writableStreamDefaultControllerClearAlgorithms(this); + return result; + } + + [kError]() { + resetQueue(this); + } + + error(error) { + if (this[State].stream[kState].state !== 'writable') + return; + writableStreamDefaultControllerError(this, error); + } +} + +class InternalWritableStreamDefaultController {} + +class TransformStream { + constructor( + transformer = null, + writableStrategy = {}, + readableStrategy = {}) { + + const { + readableType, + writableType, + start, + } = { ...transformer }; + + if (readableType !== undefined) + throw new ERR_INVALID_ARG_VALUE('transformer.readableType', readableType); + if (writableType !== undefined) + throw new ERR_INVALID_ARG_VALUE('transformer.writableType', writableType); + + const { + highWaterMark: readableHighWaterMark, + size: readableSize, + } = { ...readableStrategy }; + + const { + highWaterMark: writableHighWaterMark, + size: writableSize, + } = { ...writableStrategy }; + + const actualReadableHighWaterMark = + extractHighWaterMark(readableHighWaterMark, 0); + const actualReadableSize = extractSizeAlgorithm(readableSize); + + const actualWritableHighWaterMark = + extractHighWaterMark(writableHighWaterMark, 1); + const actualWritableSize = extractSizeAlgorithm(writableSize); + + const startPromise = createDeferredPromise(); + + initializeTransformStream( + this, + startPromise, + actualWritableHighWaterMark, + actualWritableSize, + actualReadableHighWaterMark, + actualReadableSize); + + setupTransformStreamDefaultControllerFromTransformer(this, transformer); + + if (start !== undefined) { + startPromise.resolve( + FunctionPrototypeCall( + transformer, + this[kState].controller)); + } else { + startPromise.resolve(); + } + } + + get readable() { return this[kState].readable; } + + get writable() { return this[kState].writable; } + + get [SymbolToStringTag]() { return 'TransformStream'; } +} + +class TransformStreamDefaultController { + constructor() { + throw new TypeError('Illegal constructor'); + } + + get desiredSize() { + const { + stream, + } = this[kState]; + const { + readable, + } = stream[kState]; + const { + controller: readableController, + } = readable[kState]; + return readableStreamDefaultControllerGetDesiredSize(readableController); + } + + enqueue(chunk) { + transformStreamDefaultControllerEnqueue(this, chunk); + } + + error(reason) { + transformStreamDefaultControllerError(this, reason); + } + + terminate() { + transformStreamDefaultControllerTerminate(this); + } + + get [SymbolToStringTag]() { return 'TransformStream'; } +} + +class InternalTransformStreamDefaultController {} + +class ByteLengthQueuingStrategy { + constructor(init = {}) { + validateObject(init, 'init'); + const { + highWaterMark + } = init; + if (typeof highWaterMark !== 'number') { + throw new ERR_INVALID_ARG_TYPE( + 'init.highWaterMark', + 'number', + highWaterMark); + } + this[kState] = { + highWaterMark, + } + this.size = + FunctionPrototypeBind( + ByteLengthQueuingStrategy.prototype.size, + this); + } + + get highWaterMark() { + return this[kState].highWaterMark; + } + + size(chunk) { return chunk?.byteLength | 0; } + + get [SymbolToStringTag]() { return 'ByteLengthQueuingStrategy'; } +} + +class CountQueuingStrategy { + constructor(init = {}) { + validateObject(init, 'init'); + const { + highWaterMark + } = init; + if (typeof highWaterMark !== 'number') { + throw new ERR_INVALID_ARG_TYPE( + 'init.highWaterMark', + 'number', + highWaterMark); + } + this[kState] = { + highWaterMark, + } + this.size = + FunctionPrototypeBind( + CountQueuingStrategy.prototype.size, + this); + } + + get highWaterMark() { + return this[kState].highWaterMark; + } + + size() { return 1; } + + get [SymbolToStringTag]() { return 'CountQueuingStrategy'; } +} + +internalExtend( + InternalReadableByteStreamController, + ReadableByteStreamController); + +internalExtend( + InternalReadableStreamDefaultController, + ReadableStreamDefaultController); + +internalExtend( + InternalReadableStreamBYOBRequest, + ReadableStreamBYOBRequest); + +internalExtend( + InternalWritableStreamDefaultController, + WritableStreamDefaultController); + +function isReadableStream(value) { + return value[kState] !== undefined && + value[SymbolToStringTag] === 'ReadableStream'; +} + +function isWritableStream(value) { + return value[kState] !== undefined && + value[SymbolToStringTag] === 'WritableStream'; +} + +function isTransformStream(value) { + return value[kState] !== undefined && + value[SymbolToStringTag] === 'TransformStream'; +} + +function isReadableByteStreamController(value) { + return value[kState] !== undefined && + value[SymbolToStringTag] === 'ReadableByteStreamController'; +} + +function internalExtend(ctor, actual) { + ctor.prototype.constructor = actual; + ObjectSetPrototypeOf(ctor.prototype, actual.prototype); +} + +function transferArrayBuffer(buffer) { + const res = detachArrayBuffer(buffer); + if (res === undefined) + throw new ERR_INVALID_ARG_VALUE('buffer', 'ArrayBuffer', buffer); + return res; +} + +function setPromiseHandled(promise) { + // Alternatively, we could use the native API + // MarkAsHandled, but this avoids the extra boundary cross + // and is hopefully faster at the cost of an extra Promise + // allocation. + PromisePrototypeThen(promise, () => {}, () => {}); +} + +function dequeueValue(controller) { + assert(controller[kState].queue !== undefined); + assert(controller[kState].queueTotalSize); + assert(controller[kState].queue.length); + const { + value, + size, + } = controller[kState].queue.shift(); + controller[kState].queueTotalSize = + MathMax(0, controller[kState].queueTotalSize - size) + return value; +} + +function resetQueue(controller) { + assert(controller[kState].queue !== undefined); + assert(controller[kState].queueTotalSize !== undefined); + controller[kState].queue = []; + controller[kState].queueTotalSize = 0; +} + +function peekQueueValue(controller) { + assert(controller[kState].queue !== undefined); + assert(controller[kState].queueTotalSize); + return controller[kState].queue[0].value; +} + +function enqueueValueWithSize(controller, value, size) { + assert(controller[kState].queue !== undefined); + assert(controller[kState].queueTotalSize !== undefined); + if (typeof size !== 'number' || + size < 0 || + size === Infinity) { + throw new ERR_INVALID_ARG_VALUE.RangeError('size', size); + } + controller[kState].queue.push({ value, size }); + controller[kState].queueTotalSize += size; +} + +// ---- ReadableStream Implementation + +function readableStreamPipeTo( + source, + dest, + preventClose, + preventAbort, + preventCancel, + signal) { + + const reader = new ReadableStreamDefaultReader(source); + const writer = new WritableStreamDefaultWriter(dest); + + source[kState].disturbed = true; + + let shuttingDown = false; + + const promise = createDeferredPromise(); + + function finalize(error) { + writableStreamDefaultWriterRelease(writer); + readableStreamReaderGenericRelease(reader); + if (signal !== undefined) + signal.removeEventListener('abort', abortAlgorithm); + if (error !== undefined) + promise.reject(error); + else + promise.resolve(); + } + + function shutdownWithAnAction(action, originalError) { + if (shuttingDown) return; + shuttingDown = true; + if (dest[kState].state === 'writable' && + !writableStreamCloseQueuedOrInFlight(dest)) { + // TODO: If any chunks have been read but but not yet written, write them to dest + // Wait until every chunk that has been read has been written + } + PromisePrototypeThen(action, finalize, finalize); + } + + function shutdown(error) { + if (shuttingDown) return; + shuttingDown = true; + if (dest[kState].state === 'writable' && + !writableStreamCloseQueuedOrInFlight(dest)) { + // TODO: if any chunks have been read but not yet written writen them to dest + // Wait until every chunk that has been read has been written + } + finalize(error); + } + + function abortAlgorithm() { + const error = new AbortError(); + const actions = []; + if (!preventAbort) { + if (dest[kState].state === 'writable') + actions.push(writableStreamAbort(dest, error)); + else + actions.push(PromiseResolve()); + } + if (!preventCancel) { + if (source[kState].state === 'readable') + actions.push(readableStreamCancel(source, error)); + else + actions.push(PromiseResolve()); + } + shutdownWithAnAction(PromiseAll(actions), error); + } + + // The streams spec requires that the public API must not + // be used when interacting with the reader and writer, + // so we bypass those here by duplicating in a separate + // function that we can be sure is not modified. + function read() { + const readRequest = new DefaultReadRequest(); + readableStreamDefaultReaderReader(reader, readRequest); + return readRequest.promise; + } + + function write(chunk) { + return writableStreamDefaultWriterWrite(writer, chunk); + } + + function watchErrored(stream, action) { + if (stream[kState].state === 'errored') + action(stream[kState].storedError); + else + PromisePrototypeCatch(stream[kState].close.promise, action); + } + + function watchClosed(stream, action) { + if (stream[kState].state === 'closed') + action(stream[kState].storedError); + else + PromisePrototypeThen(stream[kState].close.promise, action); + } + + async function step() { + if (shuttingDown) + return true; + await writer[kState].ready.promise; + const { value, done } = await read(); + await write(value); + return done; + } + + async function run() { + // Run until step resolves as true + while (!await step()) {} + } + + if (signal !== undefined) { + if (signal.aborted) { + abortAlgorithm(); + return promise.promise; + } + signal.addEventListener('abort', abortAlgorithm, { once: true }); + } + + setPromiseHandled(run()); + + watchErrored(source, (error) => { + if (!preventAbort) + shutdownWithAnAction(writableStreamAbort(dest, error), error); + else + shutdown(error); + }); + + watchErrored(dest, (error) => { + if (!preventCancel) + shutdownWithAnAction(readableStreamCancel(dest, error), error); + else + shutdown(error); + }); + + watchClosed(source, () => { + if (!preventClose) { + shutdownWithAnAction( + writableStreamDefaultWriterCloseWithErrorPropagation(writer)); + } else { + shutdown(); + } + }); + + if (writableStreamCloseQueuedOrInFlight(dest) || + dest[kState].state === 'closed') { + const error = new ERR_INVALID_STATE.TypeError( + 'Destination WritableStream is closed'); + if (!preventCancel) + shutdownWithAnAction(readableStreamCancel(source, error), error); + else + shutdown(error); + } + + return promise.promise; +} + +function readableStreamTee(stream, cloneForBranch2) { + const reader = new ReadableStreamDefaultReader(stream); + let reading = false; + let canceled1 = false; + let canceled2 = false; + let reason1 = undefined; + let reason2 = undefined; + let branch1 = undefined; + let branch2 = undefined; + let cancelPromise = createDeferredPromise(); + + async function pullAlgorithm() { + if (reading) return; + reading = true; + const readRequest = { + [kChunk](value) { + queueMicrotask(() => { + reading = false; + const value1 = value; + const value2 = value; + if (!canceled2 && cloneForBranch2) { + // Structured Clone + value2 = deserialize(serialize(value2)); + } + if (!canceled1) { + readableStreamDefaultControllerEnqueue( + branch1[kState].controller, + value1); + } + if (!canceled2) { + readableStreamDefaultControllerEnqueue( + branch2[kState].controller, + value2); + } + }); + }, + [kClose]() { + reading = false; + if (!canceled1) + readableStreamDefaultControllerClose(branch1[kState].controller); + if (!canceled2) + readableStreamDefaultControllerClose(branch2[kState].controller); + if (!canceled1 || !canceled2) + cancelPromise.resolve(); + }, + [kError]() { + reading = false; + }, + }; + readableStreamDefaultReaderRead(reader, readRequest); + } + + function cancel1Algorithm(reason) { + canceled1 = true; + reason1 = reason; + if (canceled2) { + const compositeReason = [reason1, reason2]; + cancelPromise.resolve(readableStreamCancel(stream, compositeReason)); + } + return cancelPromise.promise; + } + + function cancel2Algorithm(reason) { + canceled2 = true; + reason2 = reason; + if (canceled1) { + const compositeReason = [reason1, reason2]; + cancelPromise.resolve(readableStreamCancel(stream, compositeReason)); + } + return cancelPromise.promise; + } + + branch1 = new ReadableStream({ + start: nonOpStart, + pull: pullAlgorithm, + cancel: cancel1Algorithm, + }); + + branch2 = new ReadableStream({ + start: nonOpStart, + pull: pullAlgorithm, + cancel: cancel2Algorithm, + }); + + PromisePrototypeCatch( + reader[kState].close.promise, + (error) => { + readableStreamDefaultControllerError(branch1[kState].controller, error); + readableStreamDefaultControllerError(branch2[kState].controller, error); + }); + + return [branch1, branch2]; +} + +function readableByteStreamControllerConvertPullIntoDescriptor(desc) { + const { + buffer, + bytesFilled, + byteLength, + byteOffset, + ctor, + elementSize, + } = desc; + assert(bytesFilled <= byteLength); + assert(bytesFilled % elementSize === 0); + const transferedBuffer = transferArrayBuffer(buffer); + return new ctor(transferedBuffer, byteOffset, bytesFilled / elementSize); +} + +function isReadableStreamLocked(stream) { + return stream[kState].reader !== undefined; +} + +function readableStreamCancel(stream, reason) { + stream[kState].disturbed = true; + switch (stream[kState].state) { + case 'closed': + return PromiseResolve(); + case 'errored': + return PromiseReject(stream[kState].storedError); + } + readableStreamClose(stream); + const { + reader, + } = stream[kState]; + if (reader !== undefined && readableStreamHasBYOBReader(stream)) { + for (let n = 0; n < reader[kState].readIntoRequests.length; n++) + readIntoRequests[n][kClose](); + reader[kState].readIntoRequests = []; + } + + try { + return PromisePrototypeThen( + PromiseResolve(stream[kState].controller[kCancel](reason))); + } catch (error) { + return PromiseReject(error); + } +} + +function readableStreamClose(stream) { + assert(stream[kState].state === 'readable'); + stream[kState].state = 'closed'; + + const { + reader, + } = stream[kState]; + + if (reader === undefined) + return; + + reader[kState].close.resolve(); + + if (readableStreamHasDefaultReader(stream)) { + for (let n = 0; n < reader[kState].readRequests.length; n++) + reader[kState].readRequests[n][kClose](); + reader[kState].readRequests = []; + } +} + +function readableStreamError(stream, error) { + assert(stream[kState].state === 'readable'); + stream[kState].state = 'errored'; + stream[kState].storedError = error; + + const { + reader + } = stream[kState]; + + if (reader === undefined) + return; + + reader[kState].close.reject(error); + setPromiseHandled(reader[kState].close.promise); + + if (readableStreamHasDefaultReader(stream)) { + for (let n = 0; n < reader[kState].readRequests.length; n++) + reader[kState].readRequests[n][kError](error); + reader[kState].readRequests = []; + } else { + assert(readableStreamHasBYOBReader(stream)); + for (let n = 0; n < reader[kState].readIntoRequests.length; n++) + reader[kState].readIntoRequests[n][kError](error); + reader[kState].readIntoRequests = []; + } +} + +function readableStreamHasDefaultReader(stream) { + const { + reader, + } = stream[kState]; + + if (reader === undefined) + return false; + + return reader[kState] !== undefined && + reader[SymbolToStringTag] === 'ReadableStreamDefaultReader'; +} + +function readableStreamGetNumReadRequests(stream) { + assert(readableStreamHasDefaultReader(stream)); + return stream[kState].reader[kState].readRequests.length; +} + +function readableStreamHasBYOBReader(stream) { + const { + reader, + } = stream[kState]; + + if (reader === undefined) + return false; + + return reader[kState] !== undefined && + reader[SymbolToStringTag] === 'ReadableStreamBYOBReader'; +} + +function readableStreamGetNumReadIntoRequests(stream) { + assert(readableStreamHasBYOBReader(stream)); + return stream[kState].reader[kState].readIntoRequests.length; +} + +function readableStreamFulfillReadRequest(stream, chunk, done) { + assert(readableStreamHasDefaultReader(stream)); + const { + reader, + } = stream[kState]; + assert(reader[kState].readRequests.length); + const readRequest = reader[kState].readRequests.shift(); + if (done) + readRequest[kClose](); + else + readRequest[kChunk](chunk); +} + +function readableStreamFulfillReadIntoRequest(stream, chunk, done) { + assert(readableStreamHasBYOBReader(stream)); + const { + reader, + } = stream[kState]; + assert(reader[kState].readIntoRequests.length); + const readIntoRequest = reader[kState].readIntoRequests.shift(); + if (done) + readIntoRequest[kClose](chunk); + else + readIntoRequest[kChunk](chunk); +} + +function readableStreamAddReadRequest(stream, readRequest) { + assert(readableStreamHasDefaultReader(stream)); + assert(stream[kState].state === 'readable'); + stream[kState].reader[kState].readRequests.push(readRequest); +} + +function readableStreamAddReadIntoRequest(stream, readIntoRequest) { + assert(readableStreamHasBYOBReader(stream)); + assert(stream[kState].state !== 'errored'); + stream[kState].reader[kState].readIntoRequests.push(readIntoRequest); +} + +function readableStreamReaderGenericCancel(reader, reason) { + const { + stream, + } = reader[kState]; + assert(stream !== undefined); + return readableStreamCancel(stream, reason); +} + +function readableStreamReaderGenericInitialize(reader, stream) { + reader[kState].stream = stream; + stream[kState].reader = reader; + switch (stream[kState].state) { + case 'readable': + reader[kState].close = createDeferredPromise(); + break; + case 'closed': + reader[kState].close = { + promise: PromiseResolve(), + resolve: undefined, + reject: undefined, + }; + break; + case 'errored': + reader[kState].close = { + promise: PromiseReject(stream[kState].storedError), + resolve: undefined, + reject: undefined, + }; + setPromiseHandled(reader[kState].close.promise); + break; + } +} + +function readableStreamReaderGenericRelease(reader) { + const { + stream, + } = reader[kState]; + assert(stream !== undefined); + assert(stream[kState].reader === reader); + + if (stream[kState].state === 'readable') { + reader[kState].close.reject?.( + new ERR_INVALID_STATE.TypeError('Reader released')); + } else { + reader[kState].close = { + promise: PromiseReject( + new ERR_INVALID_STATE.TypeError('Reader released')), + resolve: undefined, + reject: undefined, + }; + } + setPromiseHandled(reader[kState].close.promise); + stream[kState].reader = undefined; + reader[kState].stream = undefined; +} + +function readableStreamBYOBReaderRead(reader, view, readIntoRequest) { + const { + stream, + } = reader[kState]; + assert(stream !== undefined); + stream[kState].disturbed = true; + if (stream[kState].state === 'errored') { + readIntoRequest[kError](stream[kState].storedError); + return; + } + readableByteStreamControllerPullInto(controller, view, readIntoRequest); +} + +function readableStreamDefaultReaderRead(reader, readRequest) { + const { + stream, + } = reader[kState]; + assert(stream !== undefined); + stream[kState].disturbed = true; + switch (stream[kState].state) { + case 'closed': + readRequest[kClose](); + break; + case 'errored': + readRequest[kError](stream[kState].storedError); + break; + case 'readable': + stream[kState].controller[kPull](readRequest); + } +} + +function setupReadableStreamBYOBReader(reader, stream) { + if (isReadableStreamLocked(stream)) + throw new ERR_INVALID_STATE('ReadableStream is locked'); + const { + controller, + } = stream[kState]; + if (!isReadableByteStreamController(controller)) + throw new ERR_INVALID_ARG_VALUE('reader', reader, 'must be a byte stream'); + readableStreamReaderGenericInitialize(reader, stream); + reader[kState].readIntoRequests = []; +} + +function setupReadableStreamDefaultReader(reader, stream) { + if (isReadableStreamLocked(stream)) + throw new ERR_INVALID_STATE('ReadableStream is locked'); + readableStreamReaderGenericInitialize(reader, stream); + reader[kState].readRequests = []; +} + +function readableStreamDefaultControllerClose(controller) { + if (!readableStreamDefaultControllerCanCloseOrEnqueue(controller)) + return; + controller[kState].closeRequested = true; + if (!controller[kState].queue.length) { + readableStreamDefaultControllerClearAlgorithms(controller); + readableStreamClose(controller[kState].stream); + } +} + +function readableStreamDefaultControllerEnqueue(controller, chunk) { + if (!readableStreamDefaultControllerCanCloseOrEnqueue(controller)) + return; + + const { + stream, + } = controller[kState]; + + if (isReadableStreamLocked(stream) && + readableStreamGetNumReadRequests(stream)) { + readableStreamFulfillReadRequest(stream, chunk, false); + } else { + try { + const chunkSize = controller[kState].sizeAlgorithm(chunk); + enqueueValueWithSize(controller, chunk, chunkSize); + } catch (error) { + readableStreamDefaultControllerError(controller, error); + return; + } + } + readableStreamDefaultControllerCallPullIfNeeded(controller); +} + +function readableStreamDefaultControllerHasBackpressure(controller) { + return !readableStreamDefaultControllerShouldCallPull(controller); +} + +function readableStreamDefaultControllerCanCloseOrEnqueue(controller) { + const { + stream, + } = controller[kState]; + return !controller[kState].closeRequested && + stream[kState].state === 'readable'; +} + +function readableStreamDefaultControllerGetDesiredSize(controller) { + const { + stream, + highWaterMark, + queueTotalSize, + } = controller[kState]; + switch (stream[kState].stream) { + case 'errored': return null; + case 'closed': return 0; + default: + return highWaterMark - queueTotalSize; + } +} + +function readableStreamDefaultControllerShouldCallPull(controller) { + const { + stream, + } = controller[kState]; + if (!readableStreamDefaultControllerCanCloseOrEnqueue(controller) || + !controller[kState].started) + return false; + + if (isReadableStreamLocked(stream) && + readableStreamGetNumReadRequests(stream)) { + return true; + } + + const desiredSize = readableStreamDefaultControllerGetDesiredSize(controller); + assert(desiredSize !== null); + + return desiredSize > 0; +} + +function readableStreamDefaultControllerCallPullIfNeeded(controller) { + if (!readableStreamDefaultControllerShouldCallPull(controller)) + return; + if (controller[kState].pulling) { + controller[kState].pullAgain = true; + return; + } + assert(!controller[kState].pullAgain); + controller[kState].pulling = true; + PromisePrototypeThen( + PromiseResolve(controller[kState].pullAlgorithm()), + () => { + controller[kState].pulling = false; + if (controller[kState].pullAgain) { + controller[kState].pullAgain = false; + readableStreamDefaultControllerCallPullIfNeeded(controller); + } + }, + (error) => readableStreamDefaultControllerError(controller, error)); +} + +function readableStreamDefaultControllerClearAlgorithms(controller) { + controller[kState].pullAlgorithm = undefined; + controller[kState].cancelAlgorithm = undefined; + controller[kState].sizeAlgorithm = undefined; +} + +function readableStreamDefaultControllerError(controller, error) { + const { + stream, + } = controller[kState]; + if (stream[kState].state === 'readable') { + resetQueue(controller); + readableStreamDefaultControllerClearAlgorithms(controller); + readableStreamError(stream, error); + } +} + +function readableStreamDefaultControllerCancelSteps(controller, reason) { + resetQueue(controller); + const result = controller[kState].cancelAlgorithm(reason); + readableStreamDefaultControllerClearAlgorithms(controller); + return result; +} + +function readableStreamDefaultControllerPullSteps(controller, readRequest) { + const { + stream, + queue, + } = controller[kState]; + if (queue.length) { + const chunk = dequeueValue(controller); + if (controller[kState].closeRequested && !queue.length) { + readableStreamDefaultControllerClearAlgorithms(controller); + readableStreamClose(stream); + } else { + readableStreamDefaultControllerCallPullIfNeeded(controller); + } + readRequest[kChunk](chunk); + return; + } + readableStreamAddReadRequest(stream, readRequest); + readableStreamDefaultControllerCallPullIfNeeded(controller); +} + +function setupReadableStreamDefaultController( + stream, + controller, + startAlgorithm, + pullAlgorithm, + cancelAlgorithm, + highWaterMark, + sizeAlgorithm) { + assert(stream[kState].controller === undefined); + controller[kState] = { + cancelAlgorithm, + closeRequested: false, + highWaterMark, + pullAgain: false, + pullAlgorithm, + pulling: false, + queue: [], + queueTotalSize: 0, + started: false, + sizeAlgorithm, + stream, + }; + stream[kState].controller = controller; + + PromisePrototypeThen( + PromiseResolve(startAlgorithm()), + () => { + controller[kState].started = true; + assert(!controller[kState].pulling); + assert(!controller[kState].pullAgain); + readableStreamDefaultControllerCallPullIfNeeded(controller); + }, + (error) => readableStreamDefaultControllerError(controller, error)); +} + +function setupReadableStreamDefaultControllerFromSource( + stream, + source, + highWaterMark, + sizeAlgorithm) { + const controller = new InternalReadableStreamDefaultController(); + const { + start, + pull, + cancel, + } = { ...source }; + const startAlgorithm = start ? + FunctionPrototypeBind(start, source, controller) : + nonOpStart; + const pullAlgorithm = pull ? + FunctionPrototypeBind(pull, source, controller) : + nonOpPull; + const cancelAlgorithm = cancel ? + FunctionPrototypeBind(cancel, source) : + nonOpCancel; + setupReadableStreamDefaultController( + stream, + controller, + startAlgorithm, + pullAlgorithm, + cancelAlgorithm, + highWaterMark, + sizeAlgorithm); +} + +function readableByteStreamControllerClose(controller) { + const { + closeRequested, + pendingPullIntos, + queueTotalSize, + stream, + } = controller[kState]; + + if (closeRequested || stream[kState].state !== 'readable') + return; + + if (queueTotalSize) { + controller[kState].closeRequested = true; + return; + } + + if (pendingPullIntos.length) { + const firstPendingPullInto = pendingPullIntos[0]; + if (firstPendingPullInto.bytesFilled > 0) { + const error = new ERR_INVALID_STATE.TypeError('Partial read'); + readableByteStreamControllerError(controller, error); + throw error; + } + } + + readableByteStreamControllerClearAlgorithms(controller); + readableStreamClose(stream); +} + +function readableByteStreamControllerCommitPullIntoDescriptor(stream, desc) { + assert(stream[kState].state !== 'errored'); + let done = false; + if (stream[kState].state === 'closed') { + desc.bytesFilled = 0; + done = true; + } + + const filledView = + readableByteStreamControllerConvertPullIntoDescriptor(desc); + + if (desc.type === 'default') + readableStreamFulfillReadRequest(stream, filledView, done); + else { + assert(desc.type === 'byob'); + readableStreamFulfillReadIntoRequest(stream, filledView, done); + } +} + +function readableByteStreamControllerInvalidateBYOBRequest(controller) { + if (controller[kState].byobRequest === null) + return; + controller[kState].byobRequest[kState].controller = undefined; + controller[kState].byobRequest[kState].view = null; + controller[kState].byobRequest = null; +} + +function readableByteStreamControllerClearAlgorithms(controller) { + controller[kState].pullAlgorithm = undefined; + controller[kState].cancelAlgorithm = undefined; +} + +function readableByteStreamControllerClearPendingPullIntos(controller) { + readableByteStreamControllerInvalidateBYOBRequest(controller); + controller[kState].pendingPullIntos = []; +} + +function readableByteStreamControllerGetDesiredSize(controller) { + const { + stream, + highWaterMark, + queueTotalSize, + } = controller[kState]; + switch (stream[kState].state) { + case 'errored': return null; + case 'closed': return 0; + default: return highWaterMark - queueTotalSize; + } +} + +function readableByteStreamControllerShouldCallPull(controller) { + const { + stream, + } = controller[kState]; + if (stream[kState].state !== 'readable' || + controller[kState].closeRequested || + !controller[kState].started) { + return false; + } + if (readableStreamHasDefaultReader(stream) && + readableStreamGetNumReadRequests(stream) > 0) { + return true; + } + + if (readableStreamHasBYOBReader(stream) && + readableStreamGetNumReadIntoRequests(stream) > 0) { + return true; + } + + const desiredSize = readableByteStreamControllerGetDesiredSize(controller); + assert(desiredSize !== null); + + return desiredSize > 0; +} + +function readableByteStreamControllerHandleQueueDrain(controller) { + const { + closeRequested, + queueTotalSize, + stream, + } = controller[kState]; + assert(stream[kState].state === 'readable'); + if (!queueTotalSize && closeRequested) { + readableByteStreamControllerClearAlgorithms(controller); + readableStreamClose(stream); + return; + } + readableByteStreamControllerCallPullIfNeeded(controller); +} + +function readableByteStreamControllerPullInto( + controller, + view, + readIntoRequest) { + const { + closeRequested, + stream, + pendingPullIntos, + } = controller[kState]; + let elementSize = 1; + let ctor = DataView; + if (isArrayBufferView(view) && !isDataView(view)) { + elementSize = view.constructor.BYTES_PER_ELEMENT; + ctor = view.constructor; + } + const { + buffer, + byteOffset, + byteLength, + } = view; + try { + const transferedBuffer = transferArrayBuffer(buffer); + } catch (error) { + readIntoRequest[kError](error); + return; + } + const desc = { + buffer: transferedBuffer, + byteOffset, + byteLength, + bytesFilled: 0, + elementSize, + ctor, + type: 'byob', + }; + if (pendingPullIntos.length) { + pendingPullIntos.push(desc); + readableStreamAddReadIntoRequest(stream, readIntoRequest); + return; + } + if (stream[kState].state === 'closed') { + const emptyView = new ctor(desc.buffer, byteOffset, 0); + readIntoRequest[kClose](emptyView); + return; + } + if (controller[kState].queueTotalSize.length) { + if (readableByteStreamControllerFillPullIntoDescriptorFromQueue( + controller, + desc)) { + const filledView = + readableByteStreamControllerConvertPullIntoDescriptor(desc); + readableByteStreamControllerHandleQueueDrain(controller); + readIntoRequest[kChunk](filledView); + return; + } + if (closeRequested) { + const error = new ERR_INVALID_STATE('ReadableStream closed'); + readableByteStreamControllerError(controller, error); + readIntoRequest[kError](error); + return; + } + } + pendingPullIntos.push(desc); + readableStreamAddReadIntoRequest(stream, readIntoRequest); + readableByteStreamControllerCallPullIfNeeded(controller); +} + +function readableByteStreamControllerRespondInternal(controller, bytesWritten) { + const { + stream, + pendingPullIntos, + } = controller[kState]; + const desc = pendingPullIntos[0]; + // TODO(@jasnell): Assert can transfer array buffer(desc.buffer) + readableByteStreamControllerInvalidateBYOBRequest(controller); + + if (stream[kState].state === 'closed') { + assert(bytesWritten === 0); + readableByteStreamControllerRespondInClosedState(controller, desc); + } else { + assert(stream[kState].state === 'readable'); + assert(bytesWritten > 0); + readableByteStreamControllerRespondInReadableState( + controller, + bytesWritten, + desc); + } + readableByteStreamControllerCallPullIfNeeded(controller); +} + +function readableByteStreamControllerRespond(controller, bytesWritten) { + const { + pendingPullIntos, + stream, + } = controller[kState]; + assert(pendingPullIntos.length); + const desc = pendingPullIntos[0]; + + if (stream[kState].state === 'closed') { + if (bytesWritten !== 0) + throw new ERR_INVALID_ARG_VALUE('bytesWritten', bytesWritten); + } else { + assert(stream[kState].state === 'readable'); + + if (bytesWritten === 0) + throw new ERR_INVALID_ARG_VALUE('bytesWritten', bytesWritten); + + if (desc.bytesFilled + bytesWritten > desc.byteLength) + throw new ERR_INVALID_ARG_VALUE.RangeError('bytesWritten', bytesWritten); + } + + desc.buffer = transferArrayBuffer(desc.buffer); + + readableByteStreamControllerRespondInternal(controller, bytesWritten); +} + +function readableByteStreamControllerRespondInClosedState(controller, desc) { + assert(desc.bytesFilled === 0); + const { + stream, + } = controller[kState]; + if (readableStreamHasBYOBReader(stream)) { + while (readableStreamGetNumReadRequests(stream) > 0) { + readableByteStreamControllerCommitPullIntoDescriptor( + stream, + readableByteStreamControllerShiftPendingPullInto(controller)); + } + } +} + +function readableByteStreamControllerFillHeadPullIntoDescriptor( + controller, + size, + desc) { + const { + pendingPullIntos, + byobRequest, + } = controller[kState]; + assert(!pendingPullIntos.length || pendingPullIntos[0] === desc); + assert(byobRequest === null); + desc.bytesFilled += size; +} + +function readableByteStreamControllerEnqueue(controller, chunk) { + const { + closeRequested, + pendingPullIntos, + queue, + stream, + } = controller[kState]; + + if (closeRequested || stream[kState].state !== 'readable') + return; + + const { + buffer, + byteOffset, + byteLength, + } = chunk; + + // Supposed to assert here that the buffer is not + // detached, but there's no API available to use to check that. + + const transferedBuffer = transferArrayBuffer(buffer); + + if (pendingPullIntos.length) { + const firstPendingPullInto = pendingPullIntos[0]; + // Supposed to assert here that the firstPendingPullInto's buffer is not + // detached, but there's no API available to use to check that. + firstPendingPullInto.buffer = + transferArrayBuffer(firstPendingPullInto.buffer); + } + + readableByteStreamControllerInvalidateBYOBRequest(controller); + + if (readableStreamHasDefaultReader(stream)) { + if (readableStreamGetNumReadRequests(stream)) { + readableByteStreamControllerEnqueueChunkToQueue( + controller, + transferedBuffer, + byteOffset, + byteLength); + } else { + assert(!queue.length); + const transferedView = + new Uint8Array(transferedBuffer, byteOffset, byteLength); + readableStreamFulfillReadRequest(stream, transferedView, false); + } + } else if (readableStreamHasBYOBReader(stream)) { + readableByteStreamControllerEnqueueChunkToQueue( + controller, + transferedBuffer, + byteOffset, + byteLength); + readableByteStreamControllerProcessPullIntoDescriptorsUsingQueue( + controller); + } else { + assert(!isReadableStreamLocked(stream)); + readableByteStreamControllerEnqueueChunkToQueue( + controller, + transferedBuffer, + byteOffset, + byteLength); + } + readableByteStreamControllerCallPullIfNeeded(constroller); +} + +function readableByteStreamControllerEnqueueChunkToQueue( + controller, + buffer, + byteOffset, + byteLength) { + controller[kState].queue.push({ + buffer, + byteOffset, + byteLength, + }); + controller[kState].queueTotalSize += byteLength; +} + +function readableByteStreamControllerFillPullIntoDescriptorFromQueue( + controller, + desc) { + const { + buffer, + byteLength, + byteOffset, + bytesFilled, + elementSize, + } = desc; + let currentAlignedBytes = bytesFilled - (bytesFilled % elementSize); + let maxBytesToCopy = MathMin( + controller[kState].queueTotalSize, + byteLength - bytesFilled); + let maxBytesFilled = bytesFilled + maxBytesToCopy; + let maxAlignedBytes = maxBytesFilled - (maxBytesFilled % elementSize); + let totalBytesToCopyRemaining = maxBytesToCopy; + let ready = false; + if (maxAlignedBytes > currentAlignedBytes) { + totalBytesToCopyRemaining = maxAlignedBytes - bytesFilled; + ready = true; + } + const { + queue, + } = controller[kState]; + + while (totalBytesToCopyRemaining) { + const headOfQueue = queue[0]; + let bytesToCopy = MathMin( + totalBytesToCopyRemaining, + headOfQueue.byteLength); + let destStart = byteOffset + desc.bytesFilled; + copyArrayBuffer( + buffer, + destStart, + headOfQueue.buffer, + headOfQueue.byteOffset, + bytesToCopy); + if (headOfQueue.byteLength === bytesToCopy) { + queue.shift(); + } else { + headOfQueue.byteOffset += bytesToCopy; + headOfQueue.byteLength -= bytesToCopy; + } + controller[kState].queueTotalSize -= bytesToCopy; + readableByteStreamControllerFillHeadPullIntoDescriptor( + controller, + bytesToCopy, + desc); + totalBytesToCopyRemaining -= bytesToCopy; + } + + if (!ready) { + assert(controller[kState].queueTotalSize === 0); + assert(desc.bytesFilled > 0); + assert(desc.bytesFilled < elementSize); + } + return ready; +} + +function readableByteStreamControllerProcessPullIntoDescriptorsUsingQueue( + controller) { + const { + closeRequested, + pendingPullIntos, + stream, + } = controller[kState]; + assert(!closeRequested); + while (pendingPullIntos.length) { + if (controller[kState].queueTotalSize === 0) + return; + const desc = pendingPullIntos[0]; + if (readableByteStreamControllerFillPullIntoDescriptorFromQueue( + controller, + desc)) { + readableByteStreamControllerShiftPendingPullInto(controller); + readableByteStreamControllerCommitPullIntoDescriptor(stream, desc); + } + } +} + +function readableByteStreamControllerRespondInReadableState( + controller, + bytesWritten, + desc) { + const { + buffer, + bytesFilled, + byteLength, + } = desc; + assert(bytesFilled + bytesWritten <= byteLength); + readableByteStreamControllerFillHeadPullIntoDescriptor( + controller, + bytesWritten, + desc); + + if (desc.bytesFilled < desc.elementSize) + return; + + readableByteStreamControllerShiftPendingPullInto(controller); + + let remainderSize = desc.bytesFilled % desc.elementSize; + + if (remainderSize) { + const end = desc.byteOffset + desc.bytesFilled; + const remainder = buffer.slice(end - remainderSize, remainderSize); + readableByteStreamControllerEnqueueChunkToQueue( + controller, + remainder, + 0, + remainder.byteLength); + } + desc.bytesFilled -= remainderSize; + readableByteStreamControllerCommitPullIntoDescriptor(stream, desc); + readableByteStreamControllerProcessPullIntoDescriptorsUsingQueue(controller); +} + +function readableByteStreamControllerRespondWithNewView(controller, view) { + const { + stream, + pendingPullIntos, + } = controller[kState]; + assert(pendingPullIntos.length); + // Supposed to assert here that the view's buffer is not + // detached, but there's no API available to use to check that. + const desc = pendingPullIntos[0]; + assert(stream[kState].state !== 'errored'); + + if (!isArrayBufferView(view)) { + throw new ERR_INVALID_ARG_TYPE( + 'view', + [ + 'Buffer', + 'TypedArray', + 'DataView', + ], + view); + } + if (view.byteLength === 0 || view.buffer.byteLength === 0) { + throw new ERR_INVALID_ARG_VALUE( + 'view', + view, + 'cannot be zero length'); + } + + const { + buffer, + byteOffset, + byteLength, + bytesFilled, + } = desc; + + if (byteOffset + bytesFilled !== view.byteOffset) + throw new ERR_INVALID_ARG_VALUE.RangeError('view', view); + + if (buffer.byteLength !== view.buffer.byteLength) + throw new ERR_INVALID_ARG_VALUE.RangeError('view', view); + + if (bytesFilled + view.byteLength > byteLength) + throw new ERR_INVALID_ARG_VALUE.RangeError('view', view); + + desc.buffer = transferArrayBuffer(view.buffer); + + readableByteStreamControllerRespondInternal(controller, view.byteLength); +} + +function readableByteStreamControllerShiftPendingPullInto(controller) { + assert(controller[kState].byobRequest === null); + return controller[kState].pendingPullIntos.shift(); +} + +function readableByteStreamControllerCallPullIfNeeded(controller) { + if (!readableByteStreamControllerShouldCallPull(controller)) + return; + if (controller[kState].pulling) { + controller[kState].pullAgain = true; + return; + } + assert(!controller[kState].pullAgain); + controller[kState].pulling = true; + PromisePrototypeThen( + PromiseResolve(controller[kState].pullAlgorithm()), + () => { + controller[kState].pulling = false; + if (controller[kState].pullAgain) { + controller[kState].pullAgain = false; + readableByteStreamControllerCallPullIfNeeded(controller); + } + }, + (error) => readableByteStreamControllerError(controller, error)); +} + +function readableByteStreamControllerError(controller, error) { + const { + stream, + } = controller[kState]; + if (stream[kState].state !== 'readable') + return; + readableByteStreamControllerClearPendingPullIntos(controller); + resetQueue(controller); + readableByteStreamControllerClearAlgorithms(controller); + readableStreamError(stream, error); +} + +function readableByteStreamControllerCancelSteps(controller, reason) { + readableByteStreamControllerClearPendingPullIntos(controller); + resetQueue(controller); + const result = controller[kState].cancelAlgorithm(reason); + readableByteStreamControllerClearAlgorithms(controller); + return result; +} + +function readableByteStreamControllerPullSteps(controller, readRequest) { + const { + pendingPullIntos, + queue, + queueTotalSize, + stream, + } = controller[kState]; + assert(readableStreamHasDefaultReader(stream)); + if (queueTotalSize) { + assert(!readableStreamGetNumReadRequests(stream)); + const { + buffer, + byteOffset, + byteLength, + } = queue.shift(); + controller[kState].queueTotalSize -= byteLength; + readableByteStreamControllerHandleQueueDrain(controller); + const view = new Uint8Array(buffer, byteOffset, byteLength); + readRequest[kChunk](view); + return; + } + const { + autoAllocateChunkSize, + } = controller[kState]; + if (autoAllocateChunkSize !== undefined) { + try { + const buffer = new ArrayBuffer(autoAllocateChunkSize); + pendingPullIntos.push({ + buffer, + byteOffset: 0, + byteLength: autoAllocateChunkSize, + bytesFilled: 0, + elementSize: 1, + ctor: Uint8Array, + type: 'default', + }); + } catch (error) { + readRequest[kError](error); + return; + } + } + readableStreamAddReadRequest(stream, readRequest); + readableByteStreamControllerCallPullIfNeeded(controller); +} + +function setupReadableByteStreamController( + stream, + controller, + startAlgorithm, + pullAlgorithm, + cancelAlgorithm, + highWaterMark, + autoAllocateChunkSize) { + assert(stream[kState].controller === undefined); + if (autoAllocateChunkSize !== undefined) { + assert(Number.isInteger(autoAllocateChunkSize)); + assert(autoAllocateChunkSize > 0); + } + controller[kState] = { + byobRequest: null, + closeRequested: false, + pullAgain: false, + pulling: false, + started: false, + stream, + queue: [], + queueTotalSize: 0, + highWaterMark, + pullAlgorithm, + cancelAlgorithm, + autoAllocateChunkSize, + pendingPullIntos: [], + }; + stream[kState].controller = controller; + + PromisePrototypeThen( + PromiseResolve(startAlgorithm()), + () => { + controller[kState].started = true; + assert(!controller[kState].pulling); + assert(!controller[kState].pullAgain); + readableByteStreamControllerCallPullIfNeeded(controller); + }, + (error) => readableByteStreamControllerError(controller, error)); +} + +function setupReadableByteStreamControllerFromSource( + stream, + source, + highWaterMark) { + const controller = new InternalReadableByteStreamController(); + const { + start, + pull, + cancel, + autoAllocateChunkSize, + } = { ...source }; + let startAlgorithm = start ? + FunctionPrototypeBind(start, source, controller) : + nonOpStart; + let pullAlgorithm = pull ? + FunctionPrototypeBind(pull, source, controller) : + nonOpPull; + let cancelAlgorithm = cancel ? + FunctionPrototypeBind(cancel, source) : + nonOpCancel; + if (autoAllocateChunkSize === 0) { + throw new ERR_INVALID_ARG_VALUE( + 'source.autoAllocateChunkSize', + autoAllocateChunkSize); + } + setupReadableByteStreamController( + stream, + controller, + startAlgorithm, + pullAlgorithm, + cancelAlgorithm, + highWaterMark, + autoAllocateChunkSize); +} + +function nonOpStart() {} +async function nonOpPull() {} +async function nonOpCancel() {} +async function nonOpWrite() {} + +// ---- WritableStream Implementation + +function isPromisePending(promise) { + if (promise === undefined) return false; + const { 0: state } = getPromiseDetails(promise); + return state === kPending; +} + +function isWritableStreamLocked(stream) { + return stream[kState].writer !== undefined; +} + +function setupWritableStreamDefaultWriter(writer, stream) { + if (isWritableStreamLocked(stream)) + throw new ERR_INVALID_STATE.TypeError('WritableStream is locked'); + write[kState].stream = stream; + stream[kState].writer = writer; + switch (stream[kState].state) { + case 'writable': + if (!writableStreamCloseQueuedOrInFlight(stream) && + stream[kState].backpressure) { + writer[kState].ready = createDeferredPromise(); + } else { + writer[kState].ready = { + promise: PromiseResolve(), + resolve: undefined, + reject: undefined, + }; + } + setClosedPromiseToNewPromise(); + break; + case 'erroring': + writer[kState].ready = { + promise: ProjectReject(stream[kState].storedError), + resolve: undefined, + reject: undefined, + }; + setPromiseHandled(writer[kState].ready.promise); + setClosedPromiseToNewPromise(); + break; + case 'closed': + writer[kState].ready = { + promise: ProjectResolve(), + resolve: undefined, + reject: undefined, + }; + writer[kState].close = { + promise: ProjectResolve(), + resolve: undefined, + reject: undefined, + }; + break; + default: + writer[kState].ready = { + promise: ProjectReject(stream[kState].storedError), + resolve: undefined, + reject: undefined, + }; + writer[kState].close = { + promise: ProjectReject(stream[kState].storedError), + resolve: undefined, + reject: undefined, + }; + setPromiseHandled(writer[kState].ready.promise); + setPromiseHandled(writer[kState].close.promise); + } + + function setClosedPromiseToNewPromise() { + writer[kState].closed = createDeferredPromise(); + } +} + +function writableStreamAbort(stream, reason) { + const { + state, + } = stream[kState]; + if (state === 'closed' || state === 'errored') + return PromiseResolve(); + + if (stream[kState].pendingAbortRequest.abort.promise !== undefined) + return stream[kState].pendingAbortRequest.abort.promise; + + assert(state === 'writable' || state === 'erroring'); + + let wasAlreadyErroring = false; + if (state === 'erroring') { + wasAlreadyErroring = true; + reason = undefined; + } + + stream[kState].pendingAbortRequest = { + abort: createDeferredPromise(), + reason, + wasAlreadyErroring, + }; + + if (!wasAlreadyErroring) + writableStreamStartErroring(stream, reason); + + return stream[kState].pendingAbortRequest.abort.promise; +} + +function writableStreamClose(stream) { + const { + state, + writer, + backpressure, + controller, + } = stream[kState]; + if (state === 'closed' || state === 'errored') + return PromiseReject(new ERR_INVALID_STATE('WritableStream is closed')); + assert(state === 'writable' || state === 'erroring'); + assert(!writableStreamCloseQueuedOrInFlight(stream)); + stream[kState].closeRequest = createDeferredPromise(); + if (writer !== undefined && backpressure && state === 'writable') + writer[kState].ready.resolve?.(); + writableStreamDefaultControllerClose(controller); + return stream[kState].closeRequest.promise; +} + +function writableStreamUpdateBackpressure(stream, backpressure) { + assert(stream[kState].state === 'writable'); + assert(!writableStreamCloseQueuedOrInFlight(stream)); + const { + writer, + } = this[kState]; + if (writer !== undefined && stream[kState].backpressure !== backpressure) { + if (backpressure) { + writer[kState].ready = createDeferredPromise(); + } else { + writer[kState].ready.resolve?.(); + } + } + stream[kState].backpressure = backpressure; +} + +function writableStreamStartErroring(stream, reason) { + assert(stream[kState].storedError === undefined); + assert(stream[kState].state === 'writable'); + const { + controller, + writer, + } = stream[kStream]; + assert(controller !== undefined); + stream[kState].state = 'erroring'; + stream[kState].storedError = reason; + if (writer !== undefined) + writableStreamDefaultWriterEnsureReadyPromiseRejected(writer, reason); + if (!writableStreamHasOperationMarkedInFlight(stream) && + controller[kState].started) { + writableStreamFinishErroring(stream); + } +} + +function writableStreamRejectCloseAndClosedPromiseIfNeeded(stream) { + assert(stream[kState].stream === 'errored'); + if (stream[kState].closeRequest.promise !== undefined) { + assert(stream[kState].inFlightCloseRequest.promise === undefined); + stream[kState].closeRequest.reject?.(stream[kState].storedError); + stream[kState].closeRequest = { + promise: undefined, + reject: undefined, + resolve: undefined, + }; + } + const { + writer, + } = stream[kState]; + if (writer !== undefined) { + write[kState].close.reject?.(stream[kState].storedError); + setPromiseHandled(write(kState).close.promise); + } +} + +function writableStreamMarkFirstWriteRequestInFlight(stream) { + assert(stream[kState].inFlightWriteRequest.promise === undefined); + assert(stream[kState].writeRequests.length); + const writeRequest = stream[kState].writeRequests.shift(); + stream[kState].inFlightWriteRequest = writeRequest; +} + +function writableStreamMarkCloseRequestInFlight(stream) { + assert(stream[kState].inFlightWriteRequest.promise === undefined); + assert(stream[kState].closeRequest.promise !== undefined); + stream[kState].inFlightWriteRequest = stream[kState].closeRequest; + stream[kState].closeRequest = { + promise: undefined, + resolve: undefined, + reject: undefined, + }; +} + +function writableStreamHasOperationMarkedInFlight(stream) { + const { + inFlightWriteRequest, + inFlightCloseRequest, + } = stream[kState]; + if (inFlightWriteRequest.promise === undefined && + inFlightCloseRequest.promise === undefined) { + return false; + } + return true; +} + +function writableStreamFinishInFlightWriteWithError(stream, error) { + assert(stream[kState].inFlightWriteRequest.promise !== undefined); + stream[kState].inFlightWriteRequest.reject?.(error); + stream[kState].inFlightWriteRequest = { + promise: undefined, + resolve: undefined, + reject: undefined, + }; + assert(stream[kState].state === 'writable' || + stream[kState].state === 'erroring'); + writableStreamDealWithRejection(stream, error); +} + +function writableStreamFinishInFlightWrite(stream) { + assert(stream[kState].inFlightWriteRequest.promise !== undefined); + stream[kState].inFlightWriteRequest.resolve?.(); + stream[kState].inFlightWriteRequest = { + promise: undefined, + resolve: undefined, + reject: undefined, + }; +} + +function writableStreamFinishInFlightCloseWithError(stream, error) { + assert(stream[kState].inFlightCloseRequest.promise !== undefined); + stream[kState].inFlightCloseRequest.reject?.(error); + stream[kState].inFlightCloseRequest = { + promise: undefined, + resolve: undefined, + reject: undefined, + }; + assert(stream[kState].state === 'writable' || + stream[kState].state === 'erroring'); + if (stream[kState].pendingAbortRequest.abort.promise !== undefined) { + stream[kState].pendingAbortRequest.abort.reject?.(error); + stream[kState].pendingAbortRequest = { + abort: { + promise: undefined, + resolve: undefined, + reject: undefined, + }, + reason: undefined, + wasAlreadyErroring: false, + }; + } + writableStreamDealWithRejection(stream, error); +} + +function writableStreamFinishInFlightClose(stream) { + assert(stream[kState].inFlightCloseRequest.promise !== undefined); + stream[kState].inFlightCloseRequest.resolve?.(); + stream[kState].inFlightCloseRequest = { + promise: undefined, + resolve: undefined, + reject: undefined, + }; + if (stream[kState].state === 'erroring') { + stream[kState].storedError = undefined; + if (stream[kState].pendingAbortRequest.abort.promise !== undefined) { + state[kState].pendingAbortRequest.abort.resolve?.(); + state[kState].pendingAbortRequest = { + abort: { + promise: undefined, + resolve: undefined, + reject: undefined, + }, + reason: undefined, + wasAlreadyErroring: false, + }; + } + } + stream[kState].state = 'closed'; + if (stream[kState].writer !== undefined) + stream[kState].writer[kState].close.resolve?.(); + assert(stream[kState].pendingAbortRequest.abort.promise === undefined); + assert(stream[kState].storedError === undefined); +} + +function writableStreamFinishErroring(stream) { + assert(stream[kState].state === 'erroring'); + assert(!writableStreamHasOperationMarkedInFlight(stream)); + stream[kState].state = 'errored'; + stream[kState].controller[kError](); + const storedError = stream[kState].storedError; + for (let n = 0; n < stream[kState].writeRequests.length; n++) + stream[kState].writeRequests[n].reject?.(storedError); + stream[kState].writeRequests = []; + + if (stream[kState].pendingAbortRequest.abort.promise === undefined) { + writableStreamRejectCloseAndClosedPromiseIfNeeded(stream); + return; + } + + const abortRequest = stream[kState].pendingAbortRequest; + stream[kState].pendingAbortRequest = { + abort: { + promise: undefined, + resolve: undefined, + reject: undefined, + }, + reason: undefined, + wasAlreadyErroring: false, + }; + if (abortRequest.wasAlreadyErroring) { + abortRequest.abort.reject?.(storedError); + writableStreamRejectCloseAndClosedPromiseIfNeeded(stream); + return; + } + PromisePrototypeThen( + PromiseResolve(stream[kState].controller[kAbort](abortRequest.reason)), + () => { + abortRequest.abort.resolve?.(); + writableStreamRejectCloseAndClosedPromiseIfNeeded(stream); + }, + (error) => { + abortRequest.abort.reject?.(error); + writableStreamRejectCloseAndClosedPromiseIfNeeded(stream); + }); +} + +function writableStreamDealWithRejection(stream, error) { + const { + state, + } = stream[kState]; + if (state === 'writable') { + writableStreamStartErroring(stream, error); + return; + } + + assert(state === 'erroring'); + writableStreamFinishErroring(stream); +} + +function writableStreamCloseQueuedOrInFlight(stream) { + if (stream[kState].close.promise === undefined && + stream[kState].inFlightCloseRequest.promise === undefined) { + return false; + } + return true; +} + +function writableStreamAddWriteRequest(stream) { + assert(!isWritableStreamLocked(stream)); + assert(stream[kState].state === 'writable'); + const { + promise, + resolve, + reject, + } = createDeferredPromise(); + stream[kState].writeRequests.push({ + promise, + resolve, + reject, + }); + return promise; +} + +function writableStreamDefaultWriterWrite(writer, chunk) { + const { + stream, + } = writer[kState]; + assert(stream !== undefined); + const { + controller, + } = stream[kState]; + const chunkSize = writableStreamDefaultControllerGetChunkSize( + controller, + chunk); + if (stream !== writer[kState].stream) { + return PromiseReject( + new ERR_INVALID_STATE.TypeError('Mismatched WritableStreams')); + } + const { + state, + } = stream[kState]; + + if (state === 'errored') + return PromiseReject(stream[kState].storedError); + + if (writableStreamCloseQueuedOrInFlight(stream) || state === 'closed') { + return PromiseReject( + new ERR_INVALID_STATE.TypeError('WritableStream is closed')); + } + + if (state === 'erroring') + return PromiseReject(stream[kState].storedError); + + assert(state === 'writable'); + + const promise = writableStreamAddWriteRequest(stream); + writableStreamDefaultControllerWrite(controller, chunk, chunkSize); + return promise; +} + +function writableStreamDefaultWriterRelease(writer) { + const { + stream, + } = writer[kState].stream; + assert(stream !== undefined); + assert(stream[kState].writer === writer); + const releasedError = + new ERR_INVALID_STATE.TypeError('Writer has been released'); + writableStreamDefaultWriterEnsureReadyPromiseRejected(writer, releasedError); + writableStreamDefaultWriterEnsureClosedPromiseRejected(writer, releadedError); + stream[kState].writer = undefined; + writer[kState].stream = undefined; +} + +function writableStreamDefaultWriterGetDesiredSize(writer) { + const { + stream, + } = writer[kState]; + switch (stream[kState].stream) { + case 'erroror': + // Fall through + case 'erroring': + return null; + case 'closed': + return 0; + } + return writableStreamDefaultControllerGetDesiredSize( + stream[kState].controller); +} + +function writableStreamDefaultWriterEnsureReadyPromiseRejected(writer, error) { + if (isPromisePending(writer[kState].ready.promise)) { + writer[kState].ready.reject?.(error); + } else { + writer[kState].ready = { + promise: PromiseReject(error), + resolve: undefined, + reject: undefined, + }; + } + setPromiseHandled(writer[kState].ready.promise); +} + +function writableStreamDefaultWriterEnsureClosedPromiseRejected(writer, error) { + if (isPromisePending(writer[kState].close.promise)) { + writer[kState].close.reject?.(error); + } else { + writer[kState].close = { + promise: PromiseReject(error), + resolve: undefined, + reject: undefined, + }; + } + setPromiseHandled(writer[kState].close.promise); +} + +function writableStreamDefaultWriterCloseWithErrorPropagation(writer) { + const { + stream, + } = writer[kState]; + assert(stream !== undefined); + const { + state, + } = stream[kState]; + if (writableStreamCloseQueuedOrInFlight(stream) || state === 'closed') + return PromiseResolve(); + + if (state === 'errored') + return PromiseReject(stream[kState].storedError); + + assert(state === 'writable' || state === 'erroring'); + + writableStreamDefaultWriterClose(writer); +} + +function writableStreamDefaultWriterClose(writer) { + const { + stream, + } = writer[kState]; + assert(stream !== undefined); + writableStreamClose(stream); +} + +function writableStreamDefaultWriterAbort(writer, reason) { + const { + stream, + } = writer[kState]; + assert(stream !== undefined); + writableStreamDefaultWriterAbort(stream, reason); +} + +function writableStreamDefaultControllerWrite(controller, chunk, chunkSize) { + try { + enqueueValueWithSize(controller, chunk, chunkSize); + } catch (error) { + writableStreamDefaultControllerErrorIfNeeded(controller, error); + return; + } + const { + stream, + } = controller[kState]; + if (!writableStreamCloseQueuedOrInFlight(stream) && + stream[kState].state === 'writable') { + writableStreamUpdateBackpressure( + stream, + writableStreamDefaultControllerGetBackpressure(controller)); + } + writableStreamDefaultControllerAdvanceQueueIfNeeded(controller); +} + +function writableStreamDefaultControllerProcessWrite(controller, chunk) { + const { + stream, + writeAlgorithm, + } = controller[kState]; + writableStreamMarkFirstWriteRequestInFlight(stream); + + PromisePrototypeThen( + PromiseResolve(writeAlgorithm(chunk, controller)), + () => { + writableStreamFinishInFlightWrite(stream); + const { + state, + } = stream[kState]; + assert(state === 'writable' || state === 'erroring'); + dequeueValue(controller); + if (!writableStreamCloseQueuedOrInFlight(stream) && + state === 'writable') { + writableStreamUpdateBackpressure( + stream, + writableStreamDefaultControllerGetBackpressure(controller)); + } + writableStreamDefaultControllerAdvanceQueueIfNeeded(controller); + }, + (error) => { + if (stream[kState].state === 'writable') + writableStreamDefaultControllerClearAlgorithms(controller); + writableStreamFinishInFlightWriteWithError(stream, error); + }); + +} + +function writableStreamDefaultControllerProcessClose(controller) { + const { + closeAlgorithm, + queue, + stream, + } = controller[kState]; + writableStreamMarkCloseRequestInFlight(stream); + dequeueValue(controller); + assert(!queue.length); + const sinkClosePromise = closeAlgorithm(); + writableStreamDefaultControllerClearAlgorithms(controller); + PromisePrototypeThen( + PromiseResolve(sinkClosePromise), + () => writableStreamFinishInFlightClose(stream), + (error) => writableStreamFinishInFlightCloseWithError(stream, error)); +} + +function writableStreamDefaultControllerGetDesiredSize(controller) { + const { + highWaterMark, + queueTotalSize, + } = controller[kState]; + return highWaterMark - queueTotalSize; +} + +function writableStreamDefaultControllerGetChunkSize(controller, chunk) { + try { + return controller[kState].sizeAlgorithm(chunk); + } catch (error) { + writableStreamDefaultControllerAdvanceQueueIfNeeded(controller, error); + return 1; + } +} + +function writableStreamDefaultControllerErrorIfNeeded(controller, error) { + const { + stream, + } = controller[kState]; + if (stream[kState].state === 'writable') + writableStreamDefaultControllerError(controller, error); +} + +function writableStreamDefaultControllerError(controller, error) { + const { + stream, + } = controller[kState]; + assert(stream[kState].state === 'writable'); + writableStreamDefaultControllerClearAlgorithms(controller); + writableStreamStartErroring(stream, error); +} + +function writableStreamDefaultControllerClose(controller) { + enqueueValueWithSize(controller, kCloseSentinel, 0); + writableStreamDefaultControllerAdvanceQueueIfNeeded(controller); +} + +function writableStreamDefaultControllerClearAlgorithms(controller) { + controller[kState].writeAlgorithm = undefined; + controller[kState].closeAlgorithm = undefined; + controller[kState].abortAlgorithm = undefined; + controller[kState].sizeAlgorithm = undefined; +} + +function writableStreamDefaultControllerGetBackpressure(controller) { + return writableStreamDefaultControllerGetDesiredSize(controller) <= 0; +} + +function writableStreamDefaultControllerAdvanceQueueIfNeeded(controller) { + const { + queue, + started, + stream, + } = controller[kState]; + if (started || stream[kState].inFlightWriteRequest.promise !== undefined) + return; + + if (stream[kState].state === 'erroring') { + writableStreamFinishErroring(stream); + return; + } + + if (!queue.length) + return; + + const value = peekQueueValue(controller); + if (value === kCloseSentinel) + writableStreamDefaultControllerProcessClose(controller); + else + writableStreamDefaultControllerProcessWrite(controller, value); +} + +function setupWritableStreamDefaultControllerFromSink( + stream, + sink, + highWaterMark, + sizeAlgorithm) { + const controller = new InternalWritableStreamDefaultController(); + const { + start, + write, + close, + abort, + } = { ...sink }; + const startAlgorithm = start ? + FunctionPrototypeBind(start, sink, controller) : + nonOpStart; + const writeAlgorithm = write ? + FunctionPrototypeBind(write, sink) : + nonOpWrite; + const closeAlgorithm = close ? + FunctionPrototypeBind(close, sink) : nonOpCancel; + const abortAlgorithm = abort ? + FunctionPrototypeBind(abort, sink) : nonOpCancel; + setupWritableStreamDefaultController( + stream, + controller, + startAlgorithm, + writeAlgorithm, + closeAlgorithm, + abortAlgorithm, + highWaterMark, + sizeAlgorithm); +} + +function setupWritableStreamDefaultController( + stream, + controller, + startAlgorithm, + writeAlgorithm, + closeAlgorithm, + abortAlgorithm, + highWaterMark, + sizeAlgorithm) { + assert(isWritableStream(stream)); + assert(stream[kState].controller === undefined); + controller[kState] = { + abortAlgorithm, + closeAlgorithm, + highWaterMark, + queue: [], + queueTotalSize: 0, + sizeAlgorithm, + started: false, + stream, + writeAlgorithm, + }; + stream[kState].controller = controller; + + writableStreamUpdateBackpressure( + stream, + writableStreamDefaultControllerGetBackpressure(controller)); + + PromisePrototypeThen( + PromiseResolve(startAlgorithm()), + () => { + assert(stream[kState].state === 'writable' || + stream[kState].state === 'erroring'); + controller[kState].started = true; + writableStreamDefaultControllerAdvanceQueueIfNeeded(controller); + }, + (error) => { + assert(stream[kState].state === 'writable' || + stream[kState].state === 'erroring'); + controller[kState].started = true; + writableStreamDealWithRejection(stream, error); + }); +} + +// ---- TransformStream Implementation + +async function defaultTransformAlgorithm(chunk) { + transformStreamDefaultControllerEnqueue(this, chunk); +} + +async function nonOpFlush() {} + +function initializeTransformStream( + stream, + startPromise, + writableHighWaterMark, + writableSizeAlgorithm, + readableHighWaterMark, + readableSizeAlgorithm) { + + const writable = new WritableStream({ + start() { return startPromise.promise; }, + write(chunk) { + return transformStreamDefaultSinkWriteAlgorithm(stream, chunk); + }, + abort(reason) { + return transformStreamDefaultSinkAbortAlgorithm(stream, chunk); + }, + close() { + return transformStreamDefaultSinkCloseAlgorithm(stream); + }, + }, { + highWaterMark: writableHighWaterMark, + size: writableSizeAlgorithm, + }); + + const readable = new ReadableStream({ + pull() { + return transformStreamDefaultSourcePullAlgorithm(stream); + }, + cancel(reason) { + transformStreamErrorWritableAndUnblockWrite(stream, reason); + return PromiseResolve(); + }, + }, { + highWaterMark: readableHighWaterMark, + size: readableSizeAlgorithm, + }); + + stream[kState] = { + readable, + writable, + controller: undefined, + backpressure: undefined, + backpressureChange: { + promise: undefined, + resolve: undefined, + reject: undefined, + } + }; + + transformStreamSetBackpressure(stream, true); +} + +function transformStreamError(stream, error) { + const { + readable, + } = stream[kState]; + const { + controller: readableController, + } = readable[kState]; + readableStreamDefaultControllerError(readableController, error); + transformStreamErrorWritableAndUnblockWrite(stream, error); +} + +function transformStreamErrorWritableAndUnblockWrite(stream, error) { + const { + controller, + } = stream[kState]; + transformStreamDefaultControllerClearAlgorithms(controller); + writableStreamDefaultControllerErrorIfNeeded(controller, error); + if (stream[kState].backpressure) + transformStreamSetBackpressure(stream, false); +} + +function transformStreamSetBackpressure(stream, backpressure) { + assert(stream[kState].backpressure !== backpressure); + if (stream[kState].backpressureChange.promise !== undefined) + stream[kState].backpressureChange.resolve?.(); + stream[kState].backpressureChange = createDeferredPromise(); + stream[kState].backpressure = backpressure; +} + +function setupTransformStreamDefaultController( + stream, + controller, + transformAlgorithm, + flushAlgorithm) { + assert(isTransformStream(stream)); + assert(stream[kState].controller === undefined); + controller[kState] = { + stream, + transformAlgorithm, + flushAlgorithm, + }; + stream[kState].controller = controller; +} + +function setupTransformStreamDefaultControllerFromTransformer( + stream, + transformer) { + const controller = new InternalTransformStreamDefaultController(); + const { + transform = FunctionPrototypeBind(defaultTransformAlgorithm, controller), + flush = nonOpFlush, + } = { ...transformer }; + setupTransformStreamDefaultController(stream, controller, transform, flush); +} + +function transformStreamDefaultControllerClearAlgorithms(controller) { + controller[kState].transformAlgorithm = undefined; + controller[kState].flushAlgorithm = undefined; +} + +function transformStreamDefaultControllerEnqueue(controller, chunk) { + const { + stream, + readable, + } = controller[kState]; + const { + controller: readableController, + } = readable[kState]; + if (!readableStreamDefaultControllerCanCloseOrEnqueue(readableController)) + throw new ERR_INVALID_STATE.TypeError('Unable to enqueue'); + try { + readableStreamDefaultControllerEnqueue(readableController, chunk); + } catch (error) { + transformStreamErrorWritableAndUnblockWrite(stream, error); + throw readable[kState].storedError; + } + const backpressure = + readableStreamDefaultControllerHasBackpressure(readableController); + if (backpressure !== stream[kState].backpressure) { + assert(backpressure); + transformStreamSetBackpressure(stream, true); + } +} + +function transformStreamDefaultControllerError(controller, error) { + transformStreamError(controller[kState].stream, error); +} + +function transformStreamDefaultControllerPerformTransform(controller, chunk) { + const transformPromise = + PromiseResolve(controller[kState].transformAlgorithm(chunk)); + return PromisePrototypeCatch(transformPromise, (error) => { + transformStreamError(controller[kState].stream, error); + throw error; + }); +} + +function transformStreamDefaultControllerTerminate(controller) { + const { + stream, + readable, + } = controller[kState]; + assert(readable !== undefined); + const { + controller: readableController, + } = readable[kState]; + readableStreamDefaultControllerClose(readableController); + transformStreamErrorWritableAndUnblockWrite( + stream, + new ERR_INVALID_STATE('TransformStream has been terminated')); +} + +function transformStreamDefaultSinkWriteAlgorithm(stream, chunk) { + const { + writable, + controller, + } = stream[kState]; + assert(writable[kState].state === 'writable'); + if (stream[kState].backpressure) { + const backpressureChange = stream[kState].backpressureChange.promise; + return PromisePrototypeThen(backpressureChange, () => { + const { + writable, + } = stream[kState].writable; + if (writable[kState].state === 'erroring') + throw writable[kState].storedError; + assert(writable[kState].state === 'writable'); + return transformStreamDefaultControllerPerformTransform( + controller, + chunk); + }); + } + transformStreamDefaultControllerPerformTransform(controller, chunk); +} + +function transformStreamDefaultSinkAbortAlgorithm(stream, reason) { + transformStreamError(stream, reason); + return PromiseResolve(); +} + +function transformStreamDefaultSinkCloseAlgorithm(stream) { + const { + readable, + controller, + } = stream[kState]; + + const flushPromise = PromiseResolve(controller[kState].flushAlgorithm()); + transformStreamDefaultControllerClearAlgorithms(controller); + return PromisePrototypeThen(flushPromise, + () => { + if (readable[kState].state === 'errored') + throw readable[kState].storedError; + readableStreamDefaultControllerClose(readable[kState].controller); + }, + (error) => { + transformStreamError(stream, error); + throw readable[kState].storedError; + }); +} + +function transformStreamDefaultSourcePullAlgorithm(stream) { + assert(stream[kState].backpressure); + assert(stream[kState].backpressureChange.promise !== undefined); + transformStreamSetBackpressure(stream, false); + return stream[kState].backpressureChange.promise; +} + +module.exports = { + kState, // Exported for testing purposes only + ReadableStream, + ReadableStreamDefaultReader, + ReadableStreamBYOBReader, + ReadableStreamBYOBRequest, + ReadableByteStreamController, + ReadableStreamDefaultController, + TransformStream, + TransformStreamDefaultController, + WritableStream, + WritableStreamDefaultWriter, + WritableStreamDefaultController, + ByteLengthQueuingStrategy, + CountQueuingStrategy, +}; diff --git a/lib/stream.js b/lib/stream.js index 16a2370232e360..6d42cd0340c5b9 100644 --- a/lib/stream.js +++ b/lib/stream.js @@ -56,6 +56,14 @@ ObjectDefineProperty(Stream, 'promises', { } }); +ObjectDefineProperty(Stream, 'whatwg', { + configurable: true, + enumerable: true, + get() { + return require('stream/whatwg');; + } +}); + ObjectDefineProperty(pipeline, customPromisify, { enumerable: true, get() { diff --git a/lib/stream/whatwg.js b/lib/stream/whatwg.js new file mode 100644 index 00000000000000..9efbbfe9f03b6e --- /dev/null +++ b/lib/stream/whatwg.js @@ -0,0 +1,33 @@ +'use strict'; + +const { + ReadableStream, + ReadableStreamDefaultReader, + ReadableStreamBYOBReader, + ReadableStreamBYOBRequest, + ReadableByteStreamController, + ReadableStreamDefaultController, + TransformStream, + TransformStreamDefaultController, + WritableStream, + WritableStreamDefaultWriter, + WritableStreamDefaultController, + ByteLengthQueuingStrategy, + CountQueuingStrategy, +} = require('internal/streams/whatwg'); + +module.exports = { + ReadableStream, + ReadableStreamDefaultReader, + ReadableStreamBYOBReader, + ReadableStreamBYOBRequest, + ReadableByteStreamController, + ReadableStreamDefaultController, + TransformStream, + TransformStreamDefaultController, + WritableStream, + WritableStreamDefaultWriter, + WritableStreamDefaultController, + ByteLengthQueuingStrategy, + CountQueuingStrategy, +}; diff --git a/node.gyp b/node.gyp index 3f674c978d2788..faaec9331f65c6 100644 --- a/node.gyp +++ b/node.gyp @@ -80,6 +80,7 @@ 'lib/repl.js', 'lib/stream.js', 'lib/stream/promises.js', + 'lib/stream/whatwg.js', 'lib/_stream_readable.js', 'lib/_stream_writable.js', 'lib/_stream_duplex.js', @@ -272,6 +273,7 @@ 'lib/internal/streams/pipeline.js', 'lib/internal/streams/end-of-stream.js', 'lib/internal/streams/utils.js', + 'lib/internal/streams/whatwg.js', 'deps/v8/tools/splaytree.mjs', 'deps/v8/tools/codemap.mjs', 'deps/v8/tools/consarray.mjs', diff --git a/src/node_buffer.cc b/src/node_buffer.cc index e816ba131644ad..29c43ee2a81b12 100644 --- a/src/node_buffer.cc +++ b/src/node_buffer.cc @@ -67,6 +67,7 @@ using v8::MaybeLocal; using v8::Nothing; using v8::Number; using v8::Object; +using v8::SharedArrayBuffer; using v8::String; using v8::Uint32; using v8::Uint32Array; @@ -1158,6 +1159,60 @@ void GetZeroFillToggle(const FunctionCallbackInfo& args) { args.GetReturnValue().Set(Uint32Array::New(ab, 0, 1)); } +void DetachArrayBuffer(const FunctionCallbackInfo& args) { + Environment* env = Environment::GetCurrent(args); + if (args[0]->IsArrayBuffer()) { + Local buf = args[0].As(); + if (buf->IsDetachable()) { + std::shared_ptr store = buf->GetBackingStore(); + buf->Detach(); + args.GetReturnValue().Set(ArrayBuffer::New(env->isolate(), store)); + } + } +} + +void CopyArrayBuffer(const FunctionCallbackInfo& args) { + // args[0] == Destination ArrayBuffer + // args[1] == Destination ArrayBuffer Offset + // args[2] == Source ArrayBuffer + // args[3] == Source ArrayBuffer Offset + // args[4] == bytesToCopy + + CHECK(args[0]->IsArrayBuffer() || args[0]->IsSharedArrayBuffer()); + CHECK(args[1]->IsUint32()); + CHECK(args[2]->IsArrayBuffer() || args[2]->IsSharedArrayBuffer()); + CHECK(args[3]->IsUint32()); + CHECK(args[4]->IsUint32()); + + std::shared_ptr destination; + std::shared_ptr source; + + if (args[0]->IsArrayBuffer()) { + destination = args[0].As()->GetBackingStore(); + } else if (args[0]->IsSharedArrayBuffer()) { + destination = args[0].As()->GetBackingStore(); + } + + if (args[2]->IsArrayBuffer()) { + source = args[2].As()->GetBackingStore(); + } else if (args[0]->IsSharedArrayBuffer()) { + source = args[2].As()->GetBackingStore(); + } + + uint32_t destination_offset = args[1].As()->Value(); + uint32_t source_offset = args[3].As()->Value(); + size_t bytes_to_copy = args[4].As()->Value(); + + CHECK(destination->ByteLength() - destination_offset >= bytes_to_copy); + CHECK(source->ByteLength() - source_offset >= bytes_to_copy); + + uint8_t* dest = + static_cast(destination->Data()) + destination_offset; + uint8_t* src = + static_cast(source->Data()) + source_offset; + memcpy(dest, src, bytes_to_copy); +} + void Initialize(Local target, Local unused, Local context, @@ -1176,6 +1231,9 @@ void Initialize(Local target, env->SetMethodNoSideEffect(target, "indexOfNumber", IndexOfNumber); env->SetMethodNoSideEffect(target, "indexOfString", IndexOfString); + env->SetMethod(target, "detachArrayBuffer", DetachArrayBuffer); + env->SetMethod(target, "copyArrayBuffer", CopyArrayBuffer); + env->SetMethod(target, "swap16", Swap16); env->SetMethod(target, "swap32", Swap32); env->SetMethod(target, "swap64", Swap64); @@ -1251,6 +1309,9 @@ void RegisterExternalReferences(ExternalReferenceRegistry* registry) { registry->Register(StringWrite); registry->Register(GetZeroFillToggle); + registry->Register(DetachArrayBuffer); + registry->Register(CopyArrayBuffer); + Blob::RegisterExternalReferences(registry); FixedSizeBlobCopyJob::RegisterExternalReferences(registry); } diff --git a/test/parallel/test-whatwg-readablestream.js b/test/parallel/test-whatwg-readablestream.js new file mode 100644 index 00000000000000..05ecc0c7e7e39c --- /dev/null +++ b/test/parallel/test-whatwg-readablestream.js @@ -0,0 +1,776 @@ +// Flags: --expose-internals --no-warnings +'use strict'; + +const common = require('../common'); +const assert = require('assert'); +const { + isPromise, +} = require('util/types'); +const { + setImmediate: delay +} = require('timers/promises'); + +const { + ByteLengthQueuingStrategy, + CountQueuingStrategy, + ReadableStream, + ReadableStreamDefaultReader, + ReadableStreamDefaultController, + ReadableByteStreamController +} = require('stream/whatwg'); + +const { + kState +} = require('internal/streams/whatwg'); + +{ + const r = new ReadableStream(); + assert.strictEqual(typeof r.locked, 'boolean'); + assert.strictEqual(typeof r.cancel, 'function'); + assert.strictEqual(typeof r.getReader, 'function'); + assert.strictEqual(typeof r.pipeThrough, 'function'); + assert.strictEqual(typeof r.pipeTo, 'function'); + assert.strictEqual(typeof r.tee, 'function'); + + ['', null, 'asdf'].forEach((mode) => { + assert.throws(() => r.getReader({ mode }), { + code: 'ERR_INVALID_ARG_VALUE', + }); + }); + + [1, null, 'asdf'].forEach((options) => { + assert.throws(() => r.getReader(options), { + code: 'ERR_INVALID_ARG_TYPE', + }); + }); + + assert(!r.locked); + r.getReader(); + assert(r.locked); +} + +{ + const source = { + start: common.mustCall((controller) => { + assert(controller instanceof ReadableStreamDefaultController); + }), + pull: common.mustCall((controller) => { + assert(controller instanceof ReadableStreamDefaultController); + }), + cancel: common.mustNotCall(), + }; + + new ReadableStream(source); +} + +{ + const source = { + start: common.mustCall(async (controller) => { + assert(controller instanceof ReadableStreamDefaultController); + }), + pull: common.mustCall(async (controller) => { + assert(controller instanceof ReadableStreamDefaultController); + }), + cancel: common.mustNotCall(), + }; + + new ReadableStream(source); +} + +{ + const source = { + start: common.mustCall((controller) => { + assert(controller instanceof ReadableByteStreamController); + }), + pull: common.mustNotCall(), + cancel: common.mustNotCall(), + type: 'bytes', + }; + + new ReadableStream(source); +} + +{ + const source = { + start: common.mustCall(async (controller) => { + assert(controller instanceof ReadableByteStreamController); + }), + pull: common.mustNotCall(), + cancel: common.mustNotCall(), + type: 'bytes', + }; + + const r = new ReadableStream(source); +} + +{ + const source = { + start: common.mustCall(async (controller) => { + assert(controller instanceof ReadableByteStreamController); + }), + pull: common.mustCall(async (controller) => { + assert(controller instanceof ReadableByteStreamController); + }), + cancel: common.mustNotCall(), + type: 'bytes', + }; + + new ReadableStream(source, { highWaterMark: 10 }); +} + +{ + // These are silly but they should all work per spec + new ReadableStream(1); + new ReadableStream('hello'); + new ReadableStream(false); + new ReadableStream([]); + new ReadableStream(1, 1); + new ReadableStream(1, 'hello'); + new ReadableStream(1, false); + new ReadableStream(1, []); +} + +['a', {}, false].forEach((size) => { + assert.throws(() => { + new ReadableStream({}, { size }); + }, { + code: 'ERR_INVALID_ARG_VALUE', + }); +}); + +['a', {}, false].forEach((highWaterMark) => { + assert.throws(() => { + new ReadableStream({}, { highWaterMark }); + }, { + code: 'ERR_INVALID_ARG_VALUE', + }); + + assert.throws(() => { + new ReadableStream({ type: 'bytes' }, { highWaterMark }); + }, { + code: 'ERR_INVALID_ARG_VALUE', + }); +}); + +[-1, NaN].forEach((highWaterMark) => { + assert.throws(() => { + new ReadableStream({}, { highWaterMark }); + }, { + code: 'ERR_INVALID_ARG_VALUE', + }); + + assert.throws(() => { + new ReadableStream({ type: 'bytes' }, { highWaterMark }); + }, { + code: 'ERR_INVALID_ARG_VALUE', + }); +}); + +{ + new ReadableStream({}, new ByteLengthQueuingStrategy({ highWaterMark: 1 })); + new ReadableStream({}, new CountQueuingStrategy({ highWaterMark: 1 })); +} + +{ + const strategy = new ByteLengthQueuingStrategy({ highWaterMark: 1 }); + assert.strictEqual(strategy.highWaterMark, 1); + assert.strictEqual(strategy.size(new ArrayBuffer(10)), 10); + + const { size } = strategy; + assert.strictEqual(size(new ArrayBuffer(10)), 10); +} + +{ + const strategy = new CountQueuingStrategy({ highWaterMark: 1 }); + assert.strictEqual(strategy.highWaterMark, 1); + assert.strictEqual(strategy.size(new ArrayBuffer(10)), 1); + + const { size } = strategy; + assert.strictEqual(size(new ArrayBuffer(10)), 1); +} + +assert.throws(() => { + new ReadableStream({ + start() { throw new Error('boom'); } + }) +}, /boom/); + +{ + const r = new ReadableStream({ + async start() { + throw new Error('boom'); + } + }); + + setImmediate(() => { + assert.strictEqual(r[kState].state, 'errored'); + assert.match(r[kState].storedError?.message, /boom/); + }); +} + +{ + const data = Buffer.from('hello'); + const r = new ReadableStream({ + start(controller) { + controller.enqueue(data); + controller.close(); + }, + }); + + (async function read() { + const reader = r.getReader(); + let res = await reader.read(); + if (res.done) return; + const buf = Buffer.from(res.value); + assert.strictEqual(buf.toString(), data.toString()); + res = await reader.read(); + assert(res.done); + })().then(common.mustCall()); +} + +{ + const r = new ReadableStream({ + start(controller) { + controller.close(); + }, + }); + + (async function read() { + const reader = r.getReader(); + const res = await reader.read(); + assert(res.done); + })().then(common.mustCall()); +} + +assert.throws(() => { + new ReadableStream({ + get start() { throw new Error('boom1'); } + }, { + get size() { throw new Error('boom2'); } + }); +}, /boom2/); + +{ + const stream = new ReadableStream(); + const reader = stream.getReader(); + + assert(stream.locked); + assert.strictEqual(reader[kState].stream, stream); + assert.strictEqual(stream[kState].reader, reader); + + assert.throws(() => stream.getReader(), { + code: 'ERR_INVALID_STATE', + }); + + assert(reader instanceof ReadableStreamDefaultReader); + + assert(isPromise(reader.closed)); + assert.strictEqual(typeof reader.cancel, 'function'); + assert.strictEqual(typeof reader.read, 'function'); + assert.strictEqual(typeof reader.releaseLock, 'function'); + + const read1 = reader.read(); + const read2 = reader.read(); + + // The stream is empty so the read will never settle. + read1.then( + common.mustNotCall(), + common.mustNotCall() + ); + + // The stream is empty so the read will never settle. + read2.then( + common.mustNotCall(), + common.mustNotCall() + ); + + assert.notStrictEqual(read1, read2); + + assert.strictEqual(reader[kState].readRequests.length, 2); + + delay().then(common.mustCall()); + + assert.throws(() => reader.releaseLock(), { + code: 'ERR_INVALID_STATE', + }); + assert(stream.locked); +} + +{ + const stream = new ReadableStream(); + const reader = stream.getReader(); + const closedBefore = reader.closed; + assert(stream.locked); + reader.releaseLock(); + assert(!stream.locked); + const closedAfter = reader.closed; + + assert.strictEqual(closedBefore, closedAfter); + + assert.rejects(reader.read(), { + code: 'ERR_INVALID_STATE', + }); + + assert.rejects(closedBefore, { + code: 'ERR_INVALID_STATE', + }); +} + +{ + const stream = new ReadableStream({ + start(controller) { + controller.enqueue(Buffer.from('hello')); + } + }); + + const reader = stream.getReader(); + + assert.rejects(stream.cancel(), { + code: 'ERR_INVALID_STATE', + }); + + reader.cancel(); + + reader.read().then(common.mustCall(({ value, done }) => { + assert.strictEqual(value, undefined); + assert(done); + })); +} + +{ + const stream = new ReadableStream({ + start(controller) { + controller.close(); + } + }); + assert(!stream.locked); + + const cancel1 = stream.cancel(); + const cancel2 = stream.cancel(); + + assert.notStrictEqual(cancel1, cancel2); + + Promise.all([cancel1, cancel2]).then(common.mustCall((res) => { + assert.deepStrictEqual(res, [undefined, undefined]); + })); +} + +{ + const stream = new ReadableStream({ + start(controller) { + controller.close(); + } + }); + + stream.getReader().releaseLock(); + stream.getReader().releaseLock(); + stream.getReader(); +} + +{ + const stream = new ReadableStream({ + start(controller) { + controller.close(); + } + }); + + stream.getReader(); + + assert.throws(() => stream.getReader(), { + code: 'ERR_INVALID_STATE', + }); +} + +{ + const stream = new ReadableStream({ + start(controller) { + controller.close(); + }, + }); + + const reader = stream.getReader(); + + reader.closed.then(common.mustCall()); + + reader.read().then(common.mustCall(({ value, done }) => { + assert.strictEqual(value, undefined); + assert(done); + reader.read().then(common.mustCall(({ value, done }) => { + assert.strictEqual(value, undefined); + assert(done); + })); + })); +} + +{ + const stream = new ReadableStream({ + start(controller) { + controller.close(); + }, + }); + + const reader = stream.getReader(); + + const closedBefore = reader.closed; + reader.releaseLock(); + const closedAfter = reader.closed; + assert.notStrictEqual(closedBefore, closedAfter); + + closedBefore.then(common.mustCall()); + assert.rejects(closedAfter, { + code: 'ERR_INVALID_STATE', + }); +} + +{ + let c; + const stream = new ReadableStream({ + start(controller) { + c = controller; + }, + }); + + const reader = stream.getReader(); + c.close(); + + const closedBefore = reader.closed; + reader.releaseLock(); + const closedAfter = reader.closed; + assert.notStrictEqual(closedBefore, closedAfter); + + closedBefore.then(common.mustCall()); + assert.rejects(closedAfter, { + code: 'ERR_INVALID_STATE', + }); +} + +{ + const stream = new ReadableStream({ + start(controller) { + controller.close(); + }, + }); + + const reader = stream.getReader(); + + const cancel1 = reader.cancel(); + const cancel2 = reader.cancel(); + const closed = reader.closed; + + assert.notStrictEqual(cancel1, cancel2); + assert.notStrictEqual(cancel1, closed); + assert.notStrictEqual(cancel2, closed); + + Promise.all([cancel1, cancel2]).then(common.mustCall((res) => { + assert.deepStrictEqual(res, [undefined, undefined]); + })); +} + +{ + let c; + const stream = new ReadableStream({ + start(controller) { + c = controller; + }, + }); + + const reader = stream.getReader(); + c.close(); + + const cancel1 = reader.cancel(); + const cancel2 = reader.cancel(); + const closed = reader.closed; + + assert.notStrictEqual(cancel1, cancel2); + assert.notStrictEqual(cancel1, closed); + assert.notStrictEqual(cancel2, closed); + + Promise.all([cancel1, cancel2]).then(common.mustCall((res) => { + assert.deepStrictEqual(res, [undefined, undefined]); + })); +} + +{ + const stream = new ReadableStream(); + const cancel1 = stream.cancel(); + const cancel2 = stream.cancel(); + assert.notStrictEqual(cancel1, cancel2); + + Promise.all([cancel1, cancel2]).then(common.mustCall((res) => { + assert.deepStrictEqual(res, [undefined, undefined]); + })); + + stream.getReader().read().then(common.mustCall(({ value, done }) => { + assert.strictEqual(value, undefined); + assert(done); + })); +} + +{ + const error = new Error('boom'); + const stream = new ReadableStream({ + start(controller) { + controller.error(error); + } + }); + stream.getReader().releaseLock(); + const reader = stream.getReader(); + assert.rejects(reader.closed, error); + assert.rejects(reader.read(), error); + assert.rejects(reader.read(), error); +} + +{ + const error = new Error('boom'); + const stream = new ReadableStream({ + start(controller) { + controller.error(error); + } + }); + const reader = stream.getReader(); + const cancel1 = reader.cancel(); + const cancel2 = reader.cancel(); + assert.notStrictEqual(cancel1, cancel2); + assert.rejects(cancel1, error); + assert.rejects(cancel2, error); +} + +{ + const error = new Error('boom'); + const stream = new ReadableStream({ + async start(controller) { + throw error; + } + }); + stream.getReader().releaseLock(); + const reader = stream.getReader(); + assert.rejects(reader.closed, error); + assert.rejects(reader.read(), error); + assert.rejects(reader.read(), error); +} + +{ + const buf1 = Buffer.from('hello'); + const buf2 = Buffer.from('there'); + let doClose; + const stream = new ReadableStream({ + start(controller) { + controller.enqueue(buf1); + controller.enqueue(buf2); + doClose = controller.close.bind(controller); + } + }); + const reader = stream.getReader(); + doClose(); + reader.read().then(common.mustCall(({ value, done }) => { + assert.deepStrictEqual(value, buf1); + assert(!done); + reader.read().then(common.mustCall(({ value, done }) => { + assert.deepStrictEqual(value, buf2); + assert(!done); + reader.read().then(common.mustCall(({ value, done }) => { + assert.strictEqual(value, undefined); + assert(done); + })); + })); + })); +} + +{ + const buf1 = Buffer.from('hello'); + const buf2 = Buffer.from('there'); + const stream = new ReadableStream({ + start(controller) { + controller.enqueue(buf1); + controller.enqueue(buf2); + } + }); + const reader = stream.getReader(); + reader.read().then(common.mustCall(({ value, done }) => { + assert.deepStrictEqual(value, buf1); + assert(!done); + reader.read().then(common.mustCall(({ value, done }) => { + assert.deepStrictEqual(value, buf2); + assert(!done); + reader.read().then(common.mustNotCall()); + delay().then(common.mustCall()); + })); + })); +} + +{ + const stream = new ReadableStream({ + start(controller) { + controller.enqueue('a'); + controller.enqueue('b'); + controller.close(); + } + }); + + const { 0: s1, 1: s2 } = stream.tee(); + + assert(s1 instanceof ReadableStream); + assert(s2 instanceof ReadableStream); + + async function read(stream) { + const reader = stream.getReader(); + assert.deepStrictEqual( + await reader.read(), { value: 'a', done: false }); + assert.deepStrictEqual( + await reader.read(), { value: 'b', done: false }); + assert.deepStrictEqual( + await reader.read(), { value: undefined, done: true }); + } + + Promise.all([ + read(s1), + read(s2) + ]).then(common.mustCall()); +} + +{ + const error = new Error('boom'); + const stream = new ReadableStream({ + start(controller) { + controller.enqueue('a'); + controller.enqueue('b'); + }, + pull() { throw error; } + }); + + const { 0: s1, 1: s2 } = stream.tee(); + + assert(stream.locked); + + assert(s1 instanceof ReadableStream); + assert(s2 instanceof ReadableStream); + + const reader1 = s1.getReader(); + const reader2 = s2.getReader(); + + const closed1 = reader1.closed; + const closed2 = reader2.closed; + + assert.notStrictEqual(closed1, closed2); + + assert.rejects(closed1, error); + assert.rejects(closed2, error); +} + +{ + const stream = new ReadableStream({ + start(controller) { + controller.enqueue('a'); + controller.enqueue('b'); + controller.close(); + } + }); + + const { 0: s1, 1: s2 } = stream.tee(); + + assert(s1 instanceof ReadableStream); + assert(s2 instanceof ReadableStream); + + s2.cancel(); + + async function read(stream, canceled = false) { + const reader = stream.getReader(); + if (!canceled) { + assert.deepStrictEqual( + await reader.read(), { value: 'a', done: false }); + assert.deepStrictEqual( + await reader.read(), { value: 'b', done: false }); + } + assert.deepStrictEqual( + await reader.read(), { value: undefined, done: true }); + } + + Promise.all([ + read(s1), + read(s2, true) + ]).then(common.mustCall()); +} + +{ + const error1 = new Error('boom1'); + const error2 = new Error('boom2'); + + const stream = new ReadableStream({ + cancel(reason) { + assert.deepStrictEqual(reason, [error1, error2]); + } + }); + + const { 0: s1, 1: s2 } = stream.tee(); + s1.cancel(error1); + s2.cancel(error2); +} + +{ + const error1 = new Error('boom1'); + const error2 = new Error('boom2'); + + const stream = new ReadableStream({ + cancel(reason) { + assert.deepStrictEqual(reason, [error1, error2]); + } + }); + + const { 0: s1, 1: s2 } = stream.tee(); + s2.cancel(error2); + s1.cancel(error1); +} + +{ + const error = new Error('boom1'); + + const stream = new ReadableStream({ + cancel() { + throw error; + } + }); + + const { 0: s1, 1: s2 } = stream.tee(); + + assert.rejects(s1.cancel(), error); + assert.rejects(s2.cancel(), error); +} + +{ + const error = new Error('boom1'); + let c; + const stream = new ReadableStream({ + start(controller) { + c = controller; + } + }); + + const { 0: s1, 1: s2 } = stream.tee(); + c.error(error); + + assert.rejects(s1.cancel(), error); + assert.rejects(s2.cancel(), error); +} + +{ + const error = new Error('boom1'); + let c; + const stream = new ReadableStream({ + start(controller) { + c = controller; + } + }); + + const { 0: s1, 1: s2 } = stream.tee(); + + const reader1 = s1.getReader(); + const reader2 = s2.getReader(); + + assert.rejects(reader1.closed, error); + assert.rejects(reader2.closed, error); + + assert.rejects(reader1.read(), error); + assert.rejects(reader2.read(), error); + + setImmediate(() => c.error(error)); +} diff --git a/tools/doc/type-parser.mjs b/tools/doc/type-parser.mjs index c2586a43254ecb..6c9e35efcfa9f4 100644 --- a/tools/doc/type-parser.mjs +++ b/tools/doc/type-parser.mjs @@ -226,6 +226,33 @@ const customTypesMap = { 'X509Certificate': 'crypto.html#crypto_class_x509certificate', 'zlib options': 'zlib.html#zlib_class_options', + + 'ReadableStream': + 'whatwg_stream.html#whatwg_stream_class_readablestream', + 'ReadableStreamDefaultReader': + 'whatwg_stream.html#whatwg_stream_class_readablestreamdefaultreader', + 'ReadableStreamBYOBReader': + 'whatwg_stream.html#whatwg_stream_class_readablestreambyobreader', + 'ReadableStreamDefaultController': + 'whatwg_stream.html#whatwg_stream_class_readablestreamdefaultcontroller', + 'ReadableByteStreamController': + 'whatwg_stream.html#whatwg_stream_class_readablebytestreamcontroller', + 'ReadableStreamBYOBRequest': + 'whatwg_stream.html#whatwg_stream_class_readablestreambyobrequest', + 'WritableStream': + 'whatwg_stream.html#whatwg_stream_class_writablestream', + 'WritableStreamDefaultWriter': + 'whatwg_stream.html#whatwg_stream_class_writablestreamdefaultwriter', + 'WritableStreamDefaultController': + 'whatwg_stream.html#whatwg_stream_class_writablestreamdefaultcontroller', + 'TransformStream': + 'whatwg_stream.html#whatwg_stream_class_transformstream', + 'TransformStreamDefaultController': + 'whatwg_stream.html#whatwg_stream_class_transformstreamdefaultcontroller', + 'ByteLengthQueuingStrategy': + 'whatwg_stream.html#whatwg_stream_class_bytelengthqueuingstrategy', + 'CountQueuingStrategy': + 'whatwg_stream.html#whatwg_stream_class_countqueuingstrategy', }; const arrayPart = /(?:\[])+$/;