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denoland-deno/cli/tests/unit/timers_test.ts
Yoshiya Hinosawa 66c5f41c5b
test(cli): refactor the usages of delay (#11098)
This PR refactors the usages of delay utility in js unit testing. The same
utiliy is defined in several places with different names. This PR replaces those
usages with the one provided in std/async/delay.ts to improve the readability
and consistency of test code.
2021-06-25 03:44:14 +02:00

488 lines
12 KiB
TypeScript

// Copyright 2018-2021 the Deno authors. All rights reserved. MIT license.
import {
assert,
assertEquals,
assertNotEquals,
Deferred,
deferred,
delay,
unitTest,
} from "./test_util.ts";
unitTest(async function functionParameterBindingSuccess(): Promise<void> {
const promise = deferred();
let count = 0;
const nullProto = (newCount: number): void => {
count = newCount;
promise.resolve();
};
Reflect.setPrototypeOf(nullProto, null);
setTimeout(nullProto, 500, 1);
await promise;
// count should be reassigned
assertEquals(count, 1);
});
unitTest(async function stringifyAndEvalNonFunctions(): Promise<void> {
// eval can only access global scope
const global = globalThis as unknown as {
globalPromise: ReturnType<typeof deferred>;
globalCount: number;
};
global.globalPromise = deferred();
global.globalCount = 0;
const notAFunction =
"globalThis.globalCount++; globalThis.globalPromise.resolve();" as unknown as () =>
void;
setTimeout(notAFunction, 500);
await global.globalPromise;
// count should be incremented
assertEquals(global.globalCount, 1);
Reflect.deleteProperty(global, "globalPromise");
Reflect.deleteProperty(global, "globalCount");
});
unitTest(async function timeoutSuccess(): Promise<void> {
const promise = deferred();
let count = 0;
setTimeout((): void => {
count++;
promise.resolve();
}, 500);
await promise;
// count should increment
assertEquals(count, 1);
});
unitTest(async function timeoutEvalNoScopeLeak(): Promise<void> {
// eval can only access global scope
const global = globalThis as unknown as {
globalPromise: Deferred<Error>;
};
global.globalPromise = deferred();
setTimeout(
`
try {
console.log(core);
globalThis.globalPromise.reject(new Error("Didn't throw."));
} catch (error) {
globalThis.globalPromise.resolve(error);
}` as unknown as () => void,
0,
);
const error = await global.globalPromise;
assertEquals(error.name, "ReferenceError");
Reflect.deleteProperty(global, "globalPromise");
});
unitTest(async function timeoutArgs(): Promise<void> {
const promise = deferred();
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<void> {
let count = 0;
const id = setTimeout((): void => {
count++;
}, 1);
// Cancelled, count should not increment
clearTimeout(id);
await delay(600);
assertEquals(count, 0);
});
unitTest(async function timeoutCancelMultiple(): Promise<void> {
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 delay(50);
});
unitTest(async function timeoutCancelInvalidSilentFail(): Promise<void> {
// Expect no panic
const promise = deferred();
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<void> {
const promise = deferred();
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 delay(0);
});
unitTest(async function intervalCancelSuccess(): Promise<void> {
let count = 0;
const id = setInterval((): void => {
count++;
}, 1);
clearInterval(id);
await delay(500);
assertEquals(count, 0);
});
unitTest(async function intervalOrdering(): Promise<void> {
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 delay(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 delay(1);
assertEquals(count, 1);
});
unitTest(async function timeoutCallbackThis(): Promise<void> {
const promise = deferred();
const obj = {
foo(): void {
assertEquals(this, window);
promise.resolve();
},
};
setTimeout(obj.foo, 1);
await promise;
});
unitTest(async function timeoutBindThis(): Promise<void> {
const thisCheckPassed = [null, undefined, window, globalThis];
const thisCheckFailed = [
0,
"",
true,
false,
{},
[],
"foo",
(): void => {},
Object.prototype,
];
for (const thisArg of thisCheckPassed) {
const resolvable = deferred();
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<void> {
// 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 delay(100);
const opsDispatched_ = Deno.metrics().opsDispatched;
assert(opsDispatched_ - opsDispatched < 10);
});
unitTest(async function timerBasicMicrotaskOrdering(): Promise<void> {
let s = "";
let count = 0;
const promise = deferred();
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<void> {
let s = "";
const promise = deferred();
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<void> {
const OriginalDate = Date;
const promise = deferred();
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<void> {
const perf = performance;
const short = 5;
const long = 10;
const start = perf.now();
const p = delay(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<void> {
const perf = performance;
const short = 5;
const long = 10;
const start = perf.now();
const p = delay(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;
},
);