// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license. // Copyright Joyent and Node contributors. All rights reserved. MIT license. import { core, internals, primordials } from "ext:core/mod.js"; import { op_create_worker, op_host_post_message, op_host_recv_ctrl, op_host_recv_message, op_host_terminate_worker, op_message_port_recv_message_sync, op_worker_threads_filename, } from "ext:core/ops"; import { deserializeJsMessageData, MessageChannel, MessagePort, MessagePortIdSymbol, MessagePortPrototype, MessagePortReceiveMessageOnPortSymbol, nodeWorkerThreadCloseCb, refMessagePort, serializeJsMessageData, unrefPollForMessages, } from "ext:deno_web/13_message_port.js"; import * as webidl from "ext:deno_webidl/00_webidl.js"; import { notImplemented } from "ext:deno_node/_utils.ts"; import { EventEmitter } from "node:events"; import { BroadcastChannel } from "ext:deno_broadcast_channel/01_broadcast_channel.js"; import process from "node:process"; const { JSONParse, JSONStringify, ObjectPrototypeIsPrototypeOf } = primordials; const { Error, ObjectHasOwn, PromiseResolve, SafeSet, Symbol, SymbolFor, SymbolIterator, StringPrototypeTrim, SafeWeakMap, SafeMap, TypeError, } = primordials; const debugWorkerThreads = false; function debugWT(...args) { if (debugWorkerThreads) { // deno-lint-ignore prefer-primordials console.log(...args); } } export interface WorkerOptions { // only for typings argv?: unknown[]; env?: Record; execArgv?: string[]; stdin?: boolean; stdout?: boolean; stderr?: boolean; trackUnmanagedFds?: boolean; resourceLimits?: { maxYoungGenerationSizeMb?: number; maxOldGenerationSizeMb?: number; codeRangeSizeMb?: number; stackSizeMb?: number; }; // deno-lint-ignore prefer-primordials eval?: boolean; transferList?: Transferable[]; workerData?: unknown; name?: string; } const privateWorkerRef = Symbol("privateWorkerRef"); class NodeWorker extends EventEmitter { #id = 0; #name = ""; #refCount = 1; #messagePromise = undefined; #controlPromise = undefined; // "RUNNING" | "CLOSED" | "TERMINATED" // "TERMINATED" means that any controls or messages received will be // discarded. "CLOSED" means that we have received a control // indicating that the worker is no longer running, but there might // still be messages left to receive. #status = "RUNNING"; // https://nodejs.org/api/worker_threads.html#workerthreadid threadId = this.#id; // https://nodejs.org/api/worker_threads.html#workerresourcelimits resourceLimits: Required< NonNullable > = { maxYoungGenerationSizeMb: -1, maxOldGenerationSizeMb: -1, codeRangeSizeMb: -1, stackSizeMb: 4, }; constructor(specifier: URL | string, options?: WorkerOptions) { super(); if ( typeof specifier === "object" && !(specifier.protocol === "data:" || specifier.protocol === "file:") ) { throw new TypeError( "node:worker_threads support only 'file:' and 'data:' URLs", ); } if (options?.eval) { specifier = `data:text/javascript,${specifier}`; } else if ( !(typeof specifier === "object" && specifier.protocol === "data:") ) { // deno-lint-ignore prefer-primordials specifier = specifier.toString(); specifier = op_worker_threads_filename(specifier); } // TODO(bartlomieu): this doesn't match the Node.js behavior, it should be // `[worker {threadId}] {name}` or empty string. let name = StringPrototypeTrim(options?.name ?? ""); if (options?.eval) { name = "[worker eval]"; } this.#name = name; // One of the most common usages will be to pass `process.env` here, // but because `process.env` is a Proxy in Deno, we need to get a plain // object out of it - otherwise we'll run in `DataCloneError`s. // See https://github.com/denoland/deno/issues/23522. let env_ = undefined; if (options?.env) { env_ = JSONParse(JSONStringify(options?.env)); } const serializedWorkerMetadata = serializeJsMessageData({ workerData: options?.workerData, environmentData: environmentData, env: env_, }, options?.transferList ?? []); const id = op_create_worker( { // deno-lint-ignore prefer-primordials specifier: specifier.toString(), hasSourceCode: false, sourceCode: "", permissions: null, name: this.#name, workerType: "module", closeOnIdle: true, }, serializedWorkerMetadata, ); this.#id = id; this.threadId = id; this.#pollControl(); this.#pollMessages(); // https://nodejs.org/api/worker_threads.html#event-online this.emit("online"); } [privateWorkerRef](ref) { if (ref) { this.#refCount++; } else { this.#refCount--; } if (!ref && this.#refCount == 0) { if (this.#controlPromise) { core.unrefOpPromise(this.#controlPromise); } if (this.#messagePromise) { core.unrefOpPromise(this.#messagePromise); } } else if (ref && this.#refCount == 1) { if (this.#controlPromise) { core.refOpPromise(this.#controlPromise); } if (this.#messagePromise) { core.refOpPromise(this.#messagePromise); } } } #handleError(err) { this.emit("error", err); } #pollControl = async () => { while (this.#status === "RUNNING") { this.#controlPromise = op_host_recv_ctrl(this.#id); if (this.#refCount < 1) { core.unrefOpPromise(this.#controlPromise); } const { 0: type, 1: data } = await this.#controlPromise; // If terminate was called then we ignore all messages if (this.#status === "TERMINATED") { return; } switch (type) { case 1: { // TerminalError this.#status = "CLOSED"; } /* falls through */ case 2: { // Error this.#handleError(data); break; } case 3: { // Close debugWT(`Host got "close" message from worker: ${this.#name}`); this.#status = "CLOSED"; return; } default: { throw new Error(`Unknown worker event: "${type}"`); } } } }; #pollMessages = async () => { while (this.#status !== "TERMINATED") { this.#messagePromise = op_host_recv_message(this.#id); if (this.#refCount < 1) { core.unrefOpPromise(this.#messagePromise); } const data = await this.#messagePromise; if (this.#status === "TERMINATED" || data === null) { return; } let message, _transferables; try { const v = deserializeJsMessageData(data); message = v[0]; _transferables = v[1]; } catch (err) { this.emit("messageerror", err); return; } this.emit("message", message); } }; postMessage(message, transferOrOptions = {}) { const prefix = "Failed to execute 'postMessage' on 'MessagePort'"; webidl.requiredArguments(arguments.length, 1, prefix); message = webidl.converters.any(message); let options; if ( webidl.type(transferOrOptions) === "Object" && transferOrOptions !== undefined && transferOrOptions[SymbolIterator] !== undefined ) { const transfer = webidl.converters["sequence"]( transferOrOptions, prefix, "Argument 2", ); options = { transfer }; } else { options = webidl.converters.StructuredSerializeOptions( transferOrOptions, prefix, "Argument 2", ); } const { transfer } = options; const data = serializeJsMessageData(message, transfer); if (this.#status === "RUNNING") { op_host_post_message(this.#id, data); } } // https://nodejs.org/api/worker_threads.html#workerterminate terminate() { if (this.#status !== "TERMINATED") { this.#status = "TERMINATED"; op_host_terminate_worker(this.#id); } this.emit("exit", 0); return PromiseResolve(0); } ref() { this[privateWorkerRef](true); } unref() { this[privateWorkerRef](false); } readonly getHeapSnapshot = () => notImplemented("Worker.prototype.getHeapSnapshot"); // fake performance readonly performance = globalThis.performance; } export let isMainThread; export let resourceLimits; let threadId = 0; let workerData: unknown = null; let environmentData = new SafeMap(); // Like https://github.com/nodejs/node/blob/48655e17e1d84ba5021d7a94b4b88823f7c9c6cf/lib/internal/event_target.js#L611 interface NodeEventTarget extends Pick< EventEmitter, "eventNames" | "listenerCount" | "emit" | "removeAllListeners" > { setMaxListeners(n: number): void; getMaxListeners(): number; // deno-lint-ignore no-explicit-any off(eventName: string, listener: (...args: any[]) => void): NodeEventTarget; // deno-lint-ignore no-explicit-any on(eventName: string, listener: (...args: any[]) => void): NodeEventTarget; // deno-lint-ignore no-explicit-any once(eventName: string, listener: (...args: any[]) => void): NodeEventTarget; addListener: NodeEventTarget["on"]; removeListener: NodeEventTarget["off"]; } type ParentPort = typeof self & NodeEventTarget; // deno-lint-ignore no-explicit-any let parentPort: ParentPort = null as any; internals.__initWorkerThreads = ( runningOnMainThread: boolean, workerId, maybeWorkerMetadata, ) => { isMainThread = runningOnMainThread; defaultExport.isMainThread = isMainThread; // fake resourceLimits resourceLimits = isMainThread ? {} : { maxYoungGenerationSizeMb: 48, maxOldGenerationSizeMb: 2048, codeRangeSizeMb: 0, stackSizeMb: 4, }; defaultExport.resourceLimits = resourceLimits; if (!isMainThread) { const listeners = new SafeWeakMap< // deno-lint-ignore no-explicit-any (...args: any[]) => void, // deno-lint-ignore no-explicit-any (ev: any) => any >(); parentPort = globalThis as ParentPort; threadId = workerId; if (maybeWorkerMetadata) { const { 0: metadata, 1: _ } = maybeWorkerMetadata; workerData = metadata.workerData; environmentData = metadata.environmentData; const env = metadata.env; if (env) { process.env = env; } } defaultExport.workerData = workerData; defaultExport.parentPort = parentPort; defaultExport.threadId = threadId; patchMessagePortIfFound(workerData); parentPort.off = parentPort.removeListener = function ( this: ParentPort, name, listener, ) { this.removeEventListener(name, listeners.get(listener)!); listeners.delete(listener); return this; }; parentPort.on = parentPort.addListener = function ( this: ParentPort, name, listener, ) { // deno-lint-ignore no-explicit-any const _listener = (ev: any) => { const message = ev.data; patchMessagePortIfFound(message); return listener(message); }; listeners.set(listener, _listener); this.addEventListener(name, _listener); return this; }; parentPort.once = function (this: ParentPort, name, listener) { // deno-lint-ignore no-explicit-any const _listener = (ev: any) => listener(ev.data); listeners.set(listener, _listener); this.addEventListener(name, _listener); return this; }; // mocks parentPort.setMaxListeners = () => {}; parentPort.getMaxListeners = () => Infinity; parentPort.eventNames = () => [""]; parentPort.listenerCount = () => 0; parentPort.emit = () => notImplemented("parentPort.emit"); parentPort.removeAllListeners = () => notImplemented("parentPort.removeAllListeners"); parentPort.addEventListener("offline", () => { parentPort.emit("close"); }); parentPort.unref = () => { parentPort[unrefPollForMessages] = true; }; parentPort.ref = () => { parentPort[unrefPollForMessages] = false; }; } }; export function getEnvironmentData(key: unknown) { return environmentData.get(key); } export function setEnvironmentData(key: unknown, value?: unknown) { if (value === undefined) { environmentData.delete(key); } else { environmentData.set(key, value); } } export const SHARE_ENV = SymbolFor("nodejs.worker_threads.SHARE_ENV"); export function markAsUntransferable() { notImplemented("markAsUntransferable"); } export function moveMessagePortToContext() { notImplemented("moveMessagePortToContext"); } /** * @param { MessagePort } port * @returns {object | undefined} */ export function receiveMessageOnPort(port: MessagePort): object | undefined { if (!(ObjectPrototypeIsPrototypeOf(MessagePortPrototype, port))) { const err = new TypeError( 'The "port" argument must be a MessagePort instance', ); err["code"] = "ERR_INVALID_ARG_TYPE"; throw err; } port[MessagePortReceiveMessageOnPortSymbol] = true; const data = op_message_port_recv_message_sync(port[MessagePortIdSymbol]); if (data === null) return undefined; return { message: deserializeJsMessageData(data)[0] }; } class NodeMessageChannel { port1: MessagePort; port2: MessagePort; constructor() { const { port1, port2 } = new MessageChannel(); this.port1 = webMessagePortToNodeMessagePort(port1); this.port2 = webMessagePortToNodeMessagePort(port2); } } const listeners = new SafeWeakMap< // deno-lint-ignore no-explicit-any (...args: any[]) => void, // deno-lint-ignore no-explicit-any (ev: any) => any >(); function webMessagePortToNodeMessagePort(port: MessagePort) { port.on = port.addListener = function (this: MessagePort, name, listener) { // deno-lint-ignore no-explicit-any const _listener = (ev: any) => { patchMessagePortIfFound(ev.data); listener(ev.data); }; if (name == "message") { if (port.onmessage === null) { port.onmessage = _listener; } else { port.addEventListener("message", _listener); } } else if (name == "messageerror") { if (port.onmessageerror === null) { port.onmessageerror = _listener; } else { port.addEventListener("messageerror", _listener); } } else if (name == "close") { port.addEventListener("close", _listener); } else { throw new Error(`Unknown event: "${name}"`); } listeners.set(listener, _listener); return this; }; port.off = port.removeListener = function ( this: MessagePort, name, listener, ) { if (name == "message") { port.removeEventListener("message", listeners.get(listener)!); } else if (name == "messageerror") { port.removeEventListener("messageerror", listeners.get(listener)!); } else if (name == "close") { port.removeEventListener("close", listeners.get(listener)!); } else { throw new Error(`Unknown event: "${name}"`); } listeners.delete(listener); return this; }; port[nodeWorkerThreadCloseCb] = () => { port.dispatchEvent(new Event("close")); }; port.unref = () => { port[refMessagePort](false); }; port.ref = () => { port[refMessagePort](true); }; port.once = (name: string | symbol, listener) => { const fn = (event) => { port.off(name, fn); return listener(event); }; port.on(name, fn); }; return port; } // TODO(@marvinhagemeister): Recursively iterating over all message // properties seems slow. // Maybe there is a way we can patch the prototype of MessagePort _only_ // inside worker_threads? For now correctness is more important than perf. // deno-lint-ignore no-explicit-any function patchMessagePortIfFound(data: any, seen = new SafeSet()) { if (data === null || typeof data !== "object" || seen.has(data)) { return; } seen.add(data); if (ObjectPrototypeIsPrototypeOf(MessagePortPrototype, data)) { webMessagePortToNodeMessagePort(data); } else { for (const obj in data as Record) { if (ObjectHasOwn(data, obj)) { patchMessagePortIfFound(data[obj], seen); } } } } export { BroadcastChannel, MessagePort, NodeMessageChannel as MessageChannel, NodeWorker as Worker, parentPort, threadId, workerData, }; const defaultExport = { markAsUntransferable, moveMessagePortToContext, receiveMessageOnPort, MessagePort, MessageChannel: NodeMessageChannel, BroadcastChannel, Worker: NodeWorker, getEnvironmentData, setEnvironmentData, SHARE_ENV, threadId, workerData, resourceLimits, parentPort, isMainThread, }; export default defaultExport;