// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license. import { assert, assertEquals, assertObjectMatch, } from "../../../test_util/std/testing/asserts.ts"; import { fromFileUrl, relative } from "../../../test_util/std/path/mod.ts"; import * as workerThreads from "node:worker_threads"; import { EventEmitter, once } from "node:events"; Deno.test("[node/worker_threads] BroadcastChannel is exported", () => { assertEquals(workerThreads.BroadcastChannel, BroadcastChannel); }); Deno.test("[node/worker_threads] MessageChannel are MessagePort are exported", () => { assertEquals(workerThreads.MessageChannel, MessageChannel); assertEquals(workerThreads.MessagePort, MessagePort); }); Deno.test({ name: "[worker_threads] isMainThread", fn() { assertEquals(workerThreads.isMainThread, true); }, }); Deno.test({ name: "[worker_threads] threadId", fn() { assertEquals(workerThreads.threadId, 0); }, }); Deno.test({ name: "[worker_threads] resourceLimits", fn() { assertObjectMatch(workerThreads.resourceLimits, {}); }, }); Deno.test({ name: "[worker_threads] parentPort", fn() { assertEquals(workerThreads.parentPort, null); }, }); Deno.test({ name: "[worker_threads] workerData", fn() { assertEquals(workerThreads.workerData, null); }, }); Deno.test({ name: "[worker_threads] setEnvironmentData / getEnvironmentData", fn() { workerThreads.setEnvironmentData("test", "test"); assertEquals(workerThreads.getEnvironmentData("test"), "test"); }, }); Deno.test({ name: "[worker_threads] Worker threadId", async fn() { const worker = new workerThreads.Worker( new URL("./testdata/worker_threads.mjs", import.meta.url), ); worker.postMessage("Hello, how are you my thread?"); await once(worker, "message"); const message = await once(worker, "message"); assertEquals(message[0].threadId, 1); worker.terminate(); const worker1 = new workerThreads.Worker( new URL("./testdata/worker_threads.mjs", import.meta.url), ); worker1.postMessage("Hello, how are you my thread?"); await once(worker1, "message"); assertEquals((await once(worker1, "message"))[0].threadId, 2); worker1.terminate(); }, }); Deno.test({ name: "[worker_threads] Worker basics", async fn() { workerThreads.setEnvironmentData("test", "test"); workerThreads.setEnvironmentData(1, { test: "random", random: "test", }); const { port1 } = new MessageChannel(); const worker = new workerThreads.Worker( new URL("./testdata/worker_threads.mjs", import.meta.url), { workerData: ["hey", true, false, 2, port1], // deno-lint-ignore no-explicit-any transferList: [port1 as any], }, ); worker.postMessage("Hello, how are you my thread?"); assertEquals((await once(worker, "message"))[0], "I'm fine!"); const data = (await once(worker, "message"))[0]; // data.threadId can be 1 when this test is run individually if (data.threadId === 1) data.threadId = 3; assertObjectMatch(data, { isMainThread: false, threadId: 3, workerData: ["hey", true, false, 2], envData: ["test", { test: "random", random: "test" }], }); worker.terminate(); }, sanitizeResources: false, }); Deno.test({ name: "[worker_threads] Worker eval", async fn() { const worker = new workerThreads.Worker( ` import { parentPort } from "node:worker_threads"; parentPort.postMessage("It works!"); `, { eval: true, }, ); assertEquals((await once(worker, "message"))[0], "It works!"); worker.terminate(); }, }); Deno.test({ name: "[worker_threads] worker thread with type module", fn() { const worker = new workerThreads.Worker( new URL("./testdata/worker_module/index.js", import.meta.url), ); worker.terminate(); }, }); Deno.test({ name: "[worker_threads] inheritances", async fn() { const worker = new workerThreads.Worker( ` import { EventEmitter } from "node:events"; import { parentPort } from "node:worker_threads"; parentPort.postMessage(parentPort instanceof EventTarget); await new Promise(resolve => setTimeout(resolve, 100)); parentPort.postMessage(parentPort instanceof EventEmitter); `, { eval: true, }, ); assertEquals((await once(worker, "message"))[0], true); assertEquals((await once(worker, "message"))[0], false); assert(worker instanceof EventEmitter); assert(!(worker instanceof EventTarget)); worker.terminate(); }, }); Deno.test({ name: "[worker_threads] Worker workerData", async fn() { const worker = new workerThreads.Worker( new URL("./testdata/worker_threads.mjs", import.meta.url), { workerData: null, }, ); worker.postMessage("Hello, how are you my thread?"); await once(worker, "message"); assertEquals((await once(worker, "message"))[0].workerData, null); worker.terminate(); const worker1 = new workerThreads.Worker( new URL("./testdata/worker_threads.mjs", import.meta.url), ); worker1.postMessage("Hello, how are you my thread?"); await once(worker1, "message"); assertEquals((await once(worker1, "message"))[0].workerData, undefined); worker1.terminate(); }, }); Deno.test({ name: "[worker_threads] Worker with relative path", async fn() { const worker = new workerThreads.Worker(relative( Deno.cwd(), fromFileUrl(new URL("./testdata/worker_threads.mjs", import.meta.url)), )); worker.postMessage("Hello, how are you my thread?"); assertEquals((await once(worker, "message"))[0], "I'm fine!"); worker.terminate(); }, });