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denoland-deno/tests/unit_node/worker_threads_test.ts

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// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
import {
assert,
assertEquals,
assertObjectMatch,
assertThrows,
fail,
} from "@std/assert";
import { fromFileUrl, relative, SEPARATOR } from "@std/path";
import * as workerThreads from "node:worker_threads";
import { EventEmitter, once } from "node:events";
import process from "node:process";
Deno.test("[node/worker_threads] BroadcastChannel is exported", () => {
assertEquals<unknown>(workerThreads.BroadcastChannel, BroadcastChannel);
});
Deno.test("[node/worker_threads] MessageChannel are MessagePort are exported", () => {
assert(workerThreads.MessageChannel);
assertEquals<unknown>(workerThreads.MessagePort, MessagePort);
});
Deno.test({
name: "[node/worker_threads] isMainThread",
fn() {
assertEquals(workerThreads.isMainThread, true);
},
});
Deno.test({
name: "[node/worker_threads] threadId",
fn() {
assertEquals(workerThreads.threadId, 0);
},
});
Deno.test({
name: "[node/worker_threads] resourceLimits",
fn() {
assertObjectMatch(workerThreads.resourceLimits, {});
},
});
Deno.test({
name: "[node/worker_threads] parentPort",
fn() {
assertEquals(workerThreads.parentPort, null);
},
});
Deno.test({
name: "[node/worker_threads] workerData",
fn() {
assertEquals(workerThreads.workerData, null);
},
});
Deno.test({
name: "[node/worker_threads] setEnvironmentData / getEnvironmentData",
fn() {
workerThreads.setEnvironmentData("test", "test");
assertEquals(workerThreads.getEnvironmentData("test"), "test");
},
});
Deno.test({
name: "[node/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: "[node/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];
2023-06-26 09:10:27 -04:00
// 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: "[node/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: "[node/worker_threads] Worker eval",
async fn() {
// Check that newlines are encoded properly
const worker = new workerThreads.Worker(
`
import { parentPort } from "node:worker_threads"
console.log("hey, foo") // comment
parentPort.postMessage("It works!");
`,
{
eval: true,
},
);
assertEquals((await once(worker, "message"))[0], "It works!");
worker.terminate();
},
});
Deno.test({
name: "[node/worker_threads] worker thread with type module",
async fn() {
function p() {
return new Promise<workerThreads.Worker>((resolve, reject) => {
const worker = new workerThreads.Worker(
new URL("./testdata/worker_module/index.js", import.meta.url),
);
worker.on("error", (e) => reject(e.message));
worker.on("message", () => resolve(worker));
});
}
await p();
},
});
Deno.test({
name: "[node/worker_threads] worker thread in nested module",
async fn() {
function p() {
return new Promise<workerThreads.Worker>((resolve, reject) => {
const worker = new workerThreads.Worker(
new URL("./testdata/worker_module/nested/index.js", import.meta.url),
);
worker.on("error", (e) => reject(e.message));
worker.on("message", () => resolve(worker));
});
}
await p();
},
});
Deno.test({
name: "[node/worker_threads] .cjs worker file within module",
async fn() {
function p() {
return new Promise<workerThreads.Worker>((resolve, reject) => {
const worker = new workerThreads.Worker(
new URL("./testdata/worker_module/cjs-file.cjs", import.meta.url),
);
worker.on("error", (e) => reject(e.message));
worker.on("message", () => resolve(worker));
});
}
await p();
},
});
Deno.test({
name: "[node/worker_threads] relativ path string",
async fn() {
function p() {
return new Promise<workerThreads.Worker>((resolve, reject) => {
const worker = new workerThreads.Worker(
"./tests/unit_node/testdata/worker_module/index.js",
);
worker.on("error", (e) => reject(e.message));
worker.on("message", () => resolve(worker));
});
}
await p();
},
});
Deno.test({
name: "[node/worker_threads] utf-8 path string",
async fn() {
function p() {
return new Promise<workerThreads.Worker>((resolve, reject) => {
const worker = new workerThreads.Worker(
"./tests/unit_node/testdata/worker_module/βάρβαροι.js",
);
worker.on("error", (e) => reject(e.message));
worker.on("message", () => resolve(worker));
});
}
await p();
},
});
Deno.test({
name: "[node/worker_threads] utf-8 path URL",
async fn() {
function p() {
return new Promise<workerThreads.Worker>((resolve, reject) => {
const worker = new workerThreads.Worker(
new URL(
"./testdata/worker_module/βάρβαροι.js",
import.meta.url,
),
);
worker.on("error", (e) => reject(e.message));
worker.on("message", () => resolve(worker));
});
}
await p();
},
});
Deno.test({
name: "[node/worker_threads] throws on relativ path without leading dot",
fn() {
assertThrows(
() => {
new workerThreads.Worker(
"tests/unit_node/testdata/worker_module/index.js",
);
},
);
},
});
Deno.test({
name: "[node/worker_threads] throws on unsupported URL protcol",
fn() {
assertThrows(
() => {
new workerThreads.Worker(new URL("https://example.com"));
},
);
},
});
Deno.test({
name: "[node/worker_threads] throws on non-existend file",
fn() {
assertThrows(
() => {
new workerThreads.Worker(new URL("file://very/unlikely"));
},
);
},
});
Deno.test({
name: "[node/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: "[node/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: "[node/worker_threads] Worker with relative path",
async fn() {
const worker = new workerThreads.Worker(
`.${SEPARATOR}` + 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();
},
});
Deno.test({
name: "[node/worker_threads] unref",
async fn() {
const timeout = setTimeout(() => fail("Test timed out"), 60_000);
const child = new Deno.Command(Deno.execPath(), {
args: [
"eval",
"import { Worker } from 'node:worker_threads'; new Worker('setTimeout(() => {}, 1_000_000)', {eval:true}).unref();",
],
}).spawn();
await child.status;
clearTimeout(timeout);
},
});
Deno.test({
name: "[node/worker_threads] SharedArrayBuffer",
async fn() {
const sab = new SharedArrayBuffer(Uint8Array.BYTES_PER_ELEMENT);
const uint = new Uint8Array(sab);
const worker = new workerThreads.Worker(
new URL("./testdata/worker_threads2.mjs", import.meta.url),
{
workerData: { sharedArrayBuffer: sab },
},
);
worker.postMessage("Hello");
if ((await once(worker, "message"))[0] != "Hello") throw new Error();
await new Promise((resolve) => setTimeout(resolve, 100));
worker.terminate();
if (uint[0] != 1) throw new Error();
},
sanitizeResources: false,
});
Deno.test({
name: "[node/worker_threads] Worker workerData with MessagePort",
async fn() {
const { port1: mainPort, port2: workerPort } = new workerThreads
.MessageChannel();
const deferred = Promise.withResolvers<void>();
const worker = new workerThreads.Worker(
`
import {
isMainThread,
MessageChannel,
parentPort,
receiveMessageOnPort,
Worker,
workerData,
} from "node:worker_threads";
parentPort.on("message", (msg) => {
/* console.log("message from main", msg); */
parentPort.postMessage("Hello from worker on parentPort!");
workerData.workerPort.postMessage("Hello from worker on workerPort!");
});
`,
{
eval: true,
workerData: { workerPort },
transferList: [workerPort],
},
);
worker.on("message", (data) => {
assertEquals(data, "Hello from worker on parentPort!");
// TODO(bartlomieju): it would be better to use `mainPort.on("message")`,
// but we currently don't support it.
// https://github.com/denoland/deno/issues/22951
// Wait a bit so the message can arrive.
setTimeout(() => {
const msg = workerThreads.receiveMessageOnPort(mainPort)!.message;
assertEquals(msg, "Hello from worker on workerPort!");
deferred.resolve();
}, 500);
});
worker.postMessage("Hello from parent");
await deferred.promise;
await worker.terminate();
mainPort.close();
},
});
// Regression test for https://github.com/denoland/deno/issues/23362
Deno.test("[node/worker_threads] receiveMessageOnPort works if there's pending read", function () {
const { port1, port2 } = new workerThreads.MessageChannel();
const { port1: port3, port2: port4 } = new workerThreads.MessageChannel();
const { port1: port5, port2: port6 } = new workerThreads.MessageChannel();
const message1 = { hello: "world" };
const message2 = { foo: "bar" };
assertEquals(workerThreads.receiveMessageOnPort(port2), undefined);
port2.start();
port4.start();
port6.start();
port1.postMessage(message1);
port1.postMessage(message2);
port3.postMessage(message1);
port3.postMessage(message2);
port5.postMessage(message1);
port5.postMessage(message2);
assertEquals(workerThreads.receiveMessageOnPort(port2), {
message: message1,
});
assertEquals(workerThreads.receiveMessageOnPort(port2), {
message: message2,
});
assertEquals(workerThreads.receiveMessageOnPort(port4), {
message: message1,
});
assertEquals(workerThreads.receiveMessageOnPort(port4), {
message: message2,
});
assertEquals(workerThreads.receiveMessageOnPort(port6), {
message: message1,
});
assertEquals(workerThreads.receiveMessageOnPort(port6), {
message: message2,
});
port1.close();
port2.close();
port3.close();
port4.close();
port5.close();
port6.close();
});
Deno.test({
name: "[node/worker_threads] Worker env",
async fn() {
const deferred = Promise.withResolvers<void>();
const worker = new workerThreads.Worker(
`
import { parentPort } from "node:worker_threads";
import process from "node:process";
parentPort.postMessage(process.env.TEST_ENV);
`,
{
eval: true,
env: { TEST_ENV: "test" },
},
);
worker.on("message", (data) => {
assertEquals(data, "test");
deferred.resolve();
});
await deferred.promise;
await worker.terminate();
},
});
Deno.test({
name: "[node/worker_threads] Worker env using process.env",
async fn() {
const deferred = Promise.withResolvers<void>();
const worker = new workerThreads.Worker(
`
import { parentPort } from "node:worker_threads";
import process from "node:process";
parentPort.postMessage("ok");
`,
{
eval: true,
// Make sure this doesn't throw `DataCloneError`.
// See https://github.com/denoland/deno/issues/23522.
env: process.env,
},
);
worker.on("message", (data) => {
assertEquals(data, "ok");
deferred.resolve();
});
await deferred.promise;
await worker.terminate();
},
});
Deno.test({
name: "[node/worker_threads] Returns terminate promise with exit code",
async fn() {
const deferred = Promise.withResolvers<void>();
const worker = new workerThreads.Worker(
`
import { parentPort } from "node:worker_threads";
parentPort.postMessage("ok");
`,
{
eval: true,
},
);
worker.on("message", (data) => {
assertEquals(data, "ok");
deferred.resolve();
});
await deferred.promise;
const promise = worker.terminate();
assertEquals(typeof promise.then, "function");
assertEquals(await promise, 0);
},
});
Deno.test({
name:
"[node/worker_threads] MessagePort.on all message listeners are invoked",
async fn() {
const output: string[] = [];
const deferred = Promise.withResolvers<void>();
const { port1, port2 } = new workerThreads.MessageChannel();
port1.on("message", (msg) => output.push(msg));
port1.on("message", (msg) => output.push(msg + 2));
port1.on("message", (msg) => {
output.push(msg + 3);
deferred.resolve();
});
port2.postMessage("hi!");
await deferred.promise;
assertEquals(output, ["hi!", "hi!2", "hi!3"]);
port2.close();
port1.close();
},
});
// Test for https://github.com/denoland/deno/issues/23854
Deno.test({
name: "[node/worker_threads] MessagePort.addListener is present",
async fn() {
const channel = new workerThreads.MessageChannel();
const worker = new workerThreads.Worker(
`
import { parentPort } from "node:worker_threads";
parentPort.addListener("message", message => {
if (message.foo) {
const success = typeof message.foo.bar.addListener === "function";
parentPort.postMessage(success ? "it works" : "it doesn't work")
}
})
`,
{
eval: true,
},
);
worker.postMessage({ foo: { bar: channel.port1 } }, [channel.port1]);
assertEquals((await once(worker, "message"))[0], "it works");
worker.terminate();
channel.port1.close();
channel.port2.close();
},
});
Deno.test({
name: "[node/worker_threads] Emits online event",
async fn() {
const worker = new workerThreads.Worker(
`
import { parentPort } from "node:worker_threads";
const p = Promise.withResolvers();
let ok = false;
parentPort.on("message", () => {
ok = true;
p.resolve();
});
await Promise.race([p.promise, new Promise(resolve => setTimeout(resolve, 20000))]);
if (ok) {
parentPort.postMessage("ok");
} else {
parentPort.postMessage("timed out");
}
`,
{
eval: true,
},
);
worker.on("online", () => {
worker.postMessage("ok");
});
assertEquals((await once(worker, "message"))[0], "ok");
worker.terminate();
},
});
fix(node): fix worker_threads issues blocking Angular support (#26024) Fixes #22995. Fixes #23000. There were a handful of bugs here causing the hang (each with a corresponding minimized test): - We were canceling recv futures when `receiveMessageOnPort` was called, but this caused the "receive loop" in the message port to exit. This was due to the fact that `CancelHandle`s are never reset (i.e., once you `cancel` a `CancelHandle`, it remains cancelled). That meant that after `receieveMessageOnPort` was called, the subsequent calls to `op_message_port_recv_message` would throw `Interrupted` exceptions, and we would exit the loop. The cancellation, however, isn't actually necessary. `op_message_port_recv_message` only borrows the underlying port for long enough to poll the receiver, so the borrow there could never overlap with `op_message_port_recv_message_sync`. - Calling `MessagePort.unref()` caused the "receive loop" in the message port to exit. This was because we were setting `messageEventListenerCount` to 0 on unref. Not only does that break the counter when multiple `MessagePort`s are present in the same thread, but we also exited the "receive loop" whenever the listener count was 0. I assume this was to prevent the recv promise from keeping the event loop open. Instead of this, I chose to just unref the recv promise as needed to control the event loop. - The last bug causing the hang (which was a doozy to debug) ended up being an unfortunate interaction between how we implement our messageport "receive loop" and a pattern found in `npm:piscina` (which angular uses). The gist of it is that piscina uses an atomic wait loop along with `receiveMessageOnPort` in its worker threads, and as the worker is getting started, the following incredibly convoluted series of events occurs: 1. Parent sends a MessagePort `p` to worker 2. Parent sends a message `m` to the port `p` 3. Parent notifies the worker with `Atomics.notify` that a new message is available 4. Worker receives message, adds "message" listener to port `p` 5. Adding the listener triggers `MessagePort.start()` on `p` 6. Receive loop in MessagePort.start receives the message `m`, but then hits an await point and yields (before dispatching the "message" event) 7. Worker continues execution, starts the atomic wait loop, and immediately receives the existing notification from the parent that a message is available 8. Worker attempts to receive the new message `m` with `receiveMessageOnPort`, but this returns `undefined` because the receive loop already took the message in 6 9. Atomic wait loop continues to next iteration, waiting for the next message with `Atomic.wait` 10. `Atomic.wait` blocks the worker thread, which prevents the receive loop from continuing and dispatching the "message" event for the received message 11. The parent waits for the worker to respond to the first message, and waits 12. The thread can't make any more progress, and the whole process hangs The fix I've chosen here (which I don't particularly love, but it works) is to just delay the `MessagePort.start` call until the end of the event loop turn, so that the atomic wait loop receives the message first. This prevents the hang. --- Those were the main issues causing the hang. There ended up being a few other small bugs as well, namely `exit` being emitted multiple times, and not patching up the message port when it's received by `receiveMessageOnPort`.
2024-10-04 12:26:32 -04:00
Deno.test({
name: "[node/worker_threads] receiveMessageOnPort doesn't exit receive loop",
async fn() {
const worker = new workerThreads.Worker(
`
import { parentPort, receiveMessageOnPort } from "node:worker_threads";
parentPort.on("message", (msg) => {
const port = msg.port;
port.on("message", (msg2) => {
if (msg2 === "c") {
port.postMessage("done");
port.unref();
parentPort.unref();
}
});
parentPort.postMessage("ready");
const msg2 = receiveMessageOnPort(port);
});
`,
{ eval: true },
);
const { port1, port2 } = new workerThreads.MessageChannel();
worker.postMessage({ port: port2 }, [port2]);
const done = Promise.withResolvers<boolean>();
port1.on("message", (msg) => {
assertEquals(msg, "done");
worker.unref();
port1.close();
done.resolve(true);
});
worker.on("message", (msg) => {
assertEquals(msg, "ready");
port1.postMessage("a");
port1.postMessage("b");
port1.postMessage("c");
});
const timeout = setTimeout(() => {
fail("Test timed out");
}, 20_000);
try {
const result = await done.promise;
assertEquals(result, true);
} finally {
clearTimeout(timeout);
}
},
});
Deno.test({
name: "[node/worker_threads] MessagePort.unref doesn't exit receive loop",
async fn() {
const worker = new workerThreads.Worker(
`
import { parentPort } from "node:worker_threads";
const assertEquals = (a, b) => {
if (a !== b) {
throw new Error();
}
};
let state = 0;
parentPort.on("message", (msg) => {
const port = msg.port;
const expect = ["a", "b", "c"];
port.on("message", (msg2) => {
assertEquals(msg2, expect[state++]);
if (msg2 === "c") {
port.postMessage({ type: "done", got: msg2 });
parentPort.unref();
}
});
port.unref();
parentPort.postMessage("ready");
});
`,
{ eval: true },
);
const { port1, port2 } = new workerThreads.MessageChannel();
const done = Promise.withResolvers<boolean>();
port1.on("message", (msg) => {
assertEquals(msg.type, "done");
assertEquals(msg.got, "c");
worker.unref();
port1.close();
done.resolve(true);
});
worker.on("message", (msg) => {
assertEquals(msg, "ready");
port1.postMessage("a");
port1.postMessage("b");
port1.postMessage("c");
});
worker.postMessage({ port: port2 }, [port2]);
const timeout = setTimeout(() => {
fail("Test timed out");
}, 20_000);
try {
const result = await done.promise;
assertEquals(result, true);
} finally {
clearTimeout(timeout);
}
},
});
Deno.test({
name: "[node/worker_threads] npm:piscina wait loop hang regression",
async fn() {
const worker = new workerThreads.Worker(
`
import { assert, assertEquals } from "@std/assert";
import { parentPort, receiveMessageOnPort } from "node:worker_threads";
assert(parentPort !== null);
let currentTasks = 0;
let lastSeen = 0;
parentPort.on("message", (msg) => {
(async () => {
assert(typeof msg === "object" && msg !== null);
assert(msg.buf !== undefined);
assert(msg.port !== undefined);
const { buf, port } = msg;
port.postMessage("ready");
port.on("message", (msg) => onMessage(msg, buf, port));
atomicsWaitLoop(buf, port);
})();
});
function onMessage(msg, buf, port) {
currentTasks++;
(async () => {
assert(msg.taskName !== undefined);
port.postMessage({ type: "response", taskName: msg.taskName });
currentTasks--;
atomicsWaitLoop(buf, port);
})();
}
function atomicsWaitLoop(buf, port) {
while (currentTasks === 0) {
Atomics.wait(buf, 0, lastSeen);
lastSeen = Atomics.load(buf, 0);
let task;
while ((task = receiveMessageOnPort(port)) !== undefined) {
onMessage(task.message, buf, port);
}
}
}
`,
{ eval: true },
);
const sab = new SharedArrayBuffer(4);
const buf = new Int32Array(sab);
const { port1, port2 } = new workerThreads.MessageChannel();
const done = Promise.withResolvers<boolean>();
port1.unref();
worker.postMessage({
type: "init",
buf,
port: port2,
}, [port2]);
let count = 0;
port1.on("message", (msg) => {
if (count++ === 0) {
assertEquals(msg, "ready");
} else {
assertEquals(msg.type, "response");
port1.close();
done.resolve(true);
}
});
port1.postMessage({
taskName: "doThing",
});
Atomics.add(buf, 0, 1);
Atomics.notify(buf, 0, 1);
worker.unref();
const result = await done.promise;
assertEquals(result, true);
},
});