// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license. import { assert, assertEquals, assertNotEquals, createResolvable, unitTest, } from "./test_util.ts"; function waitForMs(ms: number): Promise { return new Promise((resolve: () => void): number => setTimeout(resolve, ms)); } unitTest(async function timeoutSuccess(): Promise { const promise = createResolvable(); let count = 0; setTimeout((): void => { count++; promise.resolve(); }, 500); await promise; // count should increment assertEquals(count, 1); }); unitTest(async function timeoutArgs(): Promise { const promise = createResolvable(); const arg = 1; setTimeout( (a, b, c): void => { assertEquals(a, arg); assertEquals(b, arg.toString()); assertEquals(c, [arg]); promise.resolve(); }, 10, arg, arg.toString(), [arg], ); await promise; }); unitTest(async function timeoutCancelSuccess(): Promise { let count = 0; const id = setTimeout((): void => { count++; }, 1); // Cancelled, count should not increment clearTimeout(id); await waitForMs(600); assertEquals(count, 0); }); unitTest(async function timeoutCancelMultiple(): Promise { function uncalled(): never { throw new Error("This function should not be called."); } // Set timers and cancel them in the same order. const t1 = setTimeout(uncalled, 10); const t2 = setTimeout(uncalled, 10); const t3 = setTimeout(uncalled, 10); clearTimeout(t1); clearTimeout(t2); clearTimeout(t3); // Set timers and cancel them in reverse order. const t4 = setTimeout(uncalled, 20); const t5 = setTimeout(uncalled, 20); const t6 = setTimeout(uncalled, 20); clearTimeout(t6); clearTimeout(t5); clearTimeout(t4); // Sleep until we're certain that the cancelled timers aren't gonna fire. await waitForMs(50); }); unitTest(async function timeoutCancelInvalidSilentFail(): Promise { // Expect no panic const promise = createResolvable(); let count = 0; const id = setTimeout((): void => { count++; // Should have no effect clearTimeout(id); promise.resolve(); }, 500); await promise; assertEquals(count, 1); // Should silently fail (no panic) clearTimeout(2147483647); }); unitTest(async function intervalSuccess(): Promise { const promise = createResolvable(); let count = 0; const id = setInterval((): void => { count++; clearInterval(id); promise.resolve(); }, 100); await promise; // Clear interval clearInterval(id); // count should increment twice assertEquals(count, 1); // Similar false async leaking alarm. // Force next round of polling. await waitForMs(0); }); unitTest(async function intervalCancelSuccess(): Promise { let count = 0; const id = setInterval((): void => { count++; }, 1); clearInterval(id); await waitForMs(500); assertEquals(count, 0); }); unitTest(async function intervalOrdering(): Promise { const timers: number[] = []; let timeouts = 0; function onTimeout(): void { ++timeouts; for (let i = 1; i < timers.length; i++) { clearTimeout(timers[i]); } } for (let i = 0; i < 10; i++) { timers[i] = setTimeout(onTimeout, 1); } await waitForMs(500); assertEquals(timeouts, 1); }); unitTest(function intervalCancelInvalidSilentFail(): void { // Should silently fail (no panic) clearInterval(2147483647); }); unitTest(async function fireCallbackImmediatelyWhenDelayOverMaxValue(): Promise< void > { let count = 0; setTimeout((): void => { count++; }, 2 ** 31); await waitForMs(1); assertEquals(count, 1); }); unitTest(async function timeoutCallbackThis(): Promise { const promise = createResolvable(); const obj = { foo(): void { assertEquals(this, window); promise.resolve(); }, }; setTimeout(obj.foo, 1); await promise; }); unitTest(async function timeoutBindThis(): Promise { const thisCheckPassed = [null, undefined, window, globalThis]; const thisCheckFailed = [ 0, "", true, false, {}, [], "foo", (): void => {}, Object.prototype, ]; for (const thisArg of thisCheckPassed) { const resolvable = createResolvable(); let hasThrown = 0; try { setTimeout.call(thisArg, () => resolvable.resolve(), 1); hasThrown = 1; } catch (err) { if (err instanceof TypeError) { hasThrown = 2; } else { hasThrown = 3; } } await resolvable; assertEquals(hasThrown, 1); } for (const thisArg of thisCheckFailed) { let hasThrown = 0; try { setTimeout.call(thisArg, () => {}, 1); hasThrown = 1; } catch (err) { if (err instanceof TypeError) { hasThrown = 2; } else { hasThrown = 3; } } assertEquals(hasThrown, 2); } }); unitTest(function clearTimeoutShouldConvertToNumber(): void { let called = false; const obj = { valueOf(): number { called = true; return 1; }, }; clearTimeout((obj as unknown) as number); assert(called); }); unitTest(function setTimeoutShouldThrowWithBigint(): void { let hasThrown = 0; try { setTimeout((): void => {}, (1n as unknown) as number); hasThrown = 1; } catch (err) { if (err instanceof TypeError) { hasThrown = 2; } else { hasThrown = 3; } } assertEquals(hasThrown, 2); }); unitTest(function clearTimeoutShouldThrowWithBigint(): void { let hasThrown = 0; try { clearTimeout((1n as unknown) as number); hasThrown = 1; } catch (err) { if (err instanceof TypeError) { hasThrown = 2; } else { hasThrown = 3; } } assertEquals(hasThrown, 2); }); unitTest(function testFunctionName(): void { assertEquals(clearTimeout.name, "clearTimeout"); assertEquals(clearInterval.name, "clearInterval"); }); unitTest(function testFunctionParamsLength(): void { assertEquals(setTimeout.length, 1); assertEquals(setInterval.length, 1); assertEquals(clearTimeout.length, 0); assertEquals(clearInterval.length, 0); }); unitTest(function clearTimeoutAndClearIntervalNotBeEquals(): void { assertNotEquals(clearTimeout, clearInterval); }); unitTest(async function timerMaxCpuBug(): Promise { // There was a bug where clearing a timeout would cause Deno to use 100% CPU. clearTimeout(setTimeout(() => {}, 1000)); // We can check this by counting how many ops have triggered in the interim. // Certainly less than 10 ops should have been dispatched in next 100 ms. const { opsDispatched } = Deno.metrics(); await waitForMs(100); const opsDispatched_ = Deno.metrics().opsDispatched; assert(opsDispatched_ - opsDispatched < 10); }); unitTest(async function timerBasicMicrotaskOrdering(): Promise { let s = ""; let count = 0; const promise = createResolvable(); setTimeout(() => { Promise.resolve().then(() => { count++; s += "de"; if (count === 2) { promise.resolve(); } }); }); setTimeout(() => { count++; s += "no"; if (count === 2) { promise.resolve(); } }); await promise; assertEquals(s, "deno"); }); unitTest(async function timerNestedMicrotaskOrdering(): Promise { let s = ""; const promise = createResolvable(); s += "0"; setTimeout(() => { s += "4"; setTimeout(() => (s += "A")); Promise.resolve() .then(() => { setTimeout(() => { s += "B"; promise.resolve(); }); }) .then(() => { s += "5"; }); }); setTimeout(() => (s += "6")); Promise.resolve().then(() => (s += "2")); Promise.resolve().then(() => setTimeout(() => { s += "7"; Promise.resolve() .then(() => (s += "8")) .then(() => { s += "9"; }); }) ); Promise.resolve().then(() => Promise.resolve().then(() => (s += "3"))); s += "1"; await promise; assertEquals(s, "0123456789AB"); }); unitTest(function testQueueMicrotask() { assertEquals(typeof queueMicrotask, "function"); }); unitTest(async function timerIgnoresDateOverride(): Promise { const OriginalDate = Date; const promise = createResolvable(); let hasThrown = 0; try { const overrideCalled: () => number = () => { promise.reject("global Date override used over original Date object"); return 0; }; const DateOverride = (): void => { overrideCalled(); }; globalThis.Date = DateOverride as DateConstructor; globalThis.Date.now = overrideCalled; globalThis.Date.UTC = overrideCalled; globalThis.Date.parse = overrideCalled; queueMicrotask(promise.resolve); await promise; hasThrown = 1; } catch (err) { if (typeof err === "string") { assertEquals(err, "global Date override used over original Date object"); hasThrown = 2; } else if (err instanceof TypeError) { hasThrown = 3; } else { hasThrown = 4; } } finally { globalThis.Date = OriginalDate; } assertEquals(hasThrown, 1); }); unitTest({ perms: { hrtime: true } }, function sleepSync(): void { const start = performance.now(); Deno.sleepSync(10); const after = performance.now(); assert(after - start >= 10); }); unitTest( { perms: { hrtime: true } }, async function sleepSyncShorterPromise(): Promise { const perf = performance; const short = 5; const long = 10; const start = perf.now(); const p = sleepAsync(short).then(() => { const after = perf.now(); // pending promises should resolve after the main thread comes out of sleep assert(after - start >= long); }); Deno.sleepSync(long); await p; }, ); unitTest( { perms: { hrtime: true } }, async function sleepSyncLongerPromise(): Promise { const perf = performance; const short = 5; const long = 10; const start = perf.now(); const p = sleepAsync(long).then(() => { const after = perf.now(); // sleeping for less than the duration of a promise should have no impact // on the resolution of that promise assert(after - start >= long); }); Deno.sleepSync(short); await p; }, ); function sleepAsync(delay: number): Promise { return new Promise((resolve) => { setTimeout(() => resolve(), delay); }); }