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f5e46c9bf2
This looks like a massive PR, but it's only a move from cli/tests -> tests, and updates of relative paths for files. This is the first step towards aggregate all of the integration test files under tests/, which will lead to a set of integration tests that can run without the CLI binary being built. While we could leave these tests under `cli`, it would require us to keep a more complex directory structure for the various test runners. In addition, we have a lot of complexity to ignore various test files in the `cli` project itself (cargo publish exclusion rules, autotests = false, etc). And finally, the `tests/` folder will eventually house the `test_ffi`, `test_napi` and other testing code, reducing the size of the root repo directory. For easier review, the extremely large and noisy "move" is in the first commit (with no changes -- just a move), while the remainder of the changes to actual files is in the second commit.
197 lines
5.1 KiB
TypeScript
197 lines
5.1 KiB
TypeScript
// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
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import { assertEquals } from "./test_util.ts";
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Deno.test(
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{ permissions: { read: true, run: true, hrtime: true } },
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async function flockFileSync() {
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await runFlockTests({ sync: true });
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},
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);
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Deno.test(
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{ permissions: { read: true, run: true, hrtime: true } },
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async function flockFileAsync() {
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await runFlockTests({ sync: false });
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},
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);
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async function runFlockTests(opts: { sync: boolean }) {
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assertEquals(
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await checkFirstBlocksSecond({
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firstExclusive: true,
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secondExclusive: false,
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sync: opts.sync,
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}),
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true,
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"exclusive blocks shared",
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);
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assertEquals(
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await checkFirstBlocksSecond({
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firstExclusive: false,
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secondExclusive: true,
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sync: opts.sync,
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}),
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true,
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"shared blocks exclusive",
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);
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assertEquals(
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await checkFirstBlocksSecond({
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firstExclusive: true,
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secondExclusive: true,
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sync: opts.sync,
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}),
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true,
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"exclusive blocks exclusive",
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);
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assertEquals(
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await checkFirstBlocksSecond({
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firstExclusive: false,
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secondExclusive: false,
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sync: opts.sync,
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// need to wait for both to enter the lock to prevent the case where the
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// first process enters and exits the lock before the second even enters
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waitBothEnteredLock: true,
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}),
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false,
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"shared does not block shared",
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);
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}
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async function checkFirstBlocksSecond(opts: {
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firstExclusive: boolean;
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secondExclusive: boolean;
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sync: boolean;
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waitBothEnteredLock?: boolean;
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}) {
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const firstProcess = runFlockTestProcess({
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exclusive: opts.firstExclusive,
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sync: opts.sync,
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});
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const secondProcess = runFlockTestProcess({
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exclusive: opts.secondExclusive,
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sync: opts.sync,
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});
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try {
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const sleep = (time: number) => new Promise((r) => setTimeout(r, time));
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await Promise.all([
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firstProcess.waitStartup(),
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secondProcess.waitStartup(),
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]);
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await firstProcess.enterLock();
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await firstProcess.waitEnterLock();
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await secondProcess.enterLock();
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await sleep(100);
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if (!opts.waitBothEnteredLock) {
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await firstProcess.exitLock();
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}
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await secondProcess.waitEnterLock();
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if (opts.waitBothEnteredLock) {
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await firstProcess.exitLock();
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}
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await secondProcess.exitLock();
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// collect the final output
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const firstPsTimes = await firstProcess.getTimes();
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const secondPsTimes = await secondProcess.getTimes();
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return firstPsTimes.exitTime < secondPsTimes.enterTime;
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} finally {
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await firstProcess.close();
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await secondProcess.close();
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}
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}
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function runFlockTestProcess(opts: { exclusive: boolean; sync: boolean }) {
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const path = "tests/testdata/assets/lock_target.txt";
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const scriptText = `
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const { rid } = Deno.openSync("${path}");
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// ready signal
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Deno.stdout.writeSync(new Uint8Array(1));
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// wait for enter lock signal
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Deno.stdin.readSync(new Uint8Array(1));
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// entering signal
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Deno.stdout.writeSync(new Uint8Array(1));
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// lock and record the entry time
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${
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opts.sync
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? `Deno.flockSync(rid, ${opts.exclusive ? "true" : "false"});`
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: `await Deno.flock(rid, ${opts.exclusive ? "true" : "false"});`
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}
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const enterTime = new Date().getTime();
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// entered signal
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Deno.stdout.writeSync(new Uint8Array(1));
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// wait for exit lock signal
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Deno.stdin.readSync(new Uint8Array(1));
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// record the exit time and wait a little bit before releasing
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// the lock so that the enter time of the next process doesn't
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// occur at the same time as this exit time
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const exitTime = new Date().getTime();
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await new Promise(resolve => setTimeout(resolve, 100));
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// release the lock
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${opts.sync ? "Deno.funlockSync(rid);" : "await Deno.funlock(rid);"}
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// exited signal
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Deno.stdout.writeSync(new Uint8Array(1));
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// output the enter and exit time
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console.log(JSON.stringify({ enterTime, exitTime }));
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`;
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const process = new Deno.Command(Deno.execPath(), {
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args: ["eval", "--unstable", scriptText],
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stdin: "piped",
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stdout: "piped",
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stderr: "null",
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}).spawn();
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const waitSignal = async () => {
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const reader = process.stdout.getReader({ mode: "byob" });
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await reader.read(new Uint8Array(1));
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reader.releaseLock();
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};
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const signal = async () => {
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const writer = process.stdin.getWriter();
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await writer.write(new Uint8Array(1));
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writer.releaseLock();
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};
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return {
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async waitStartup() {
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await waitSignal();
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},
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async enterLock() {
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await signal();
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await waitSignal(); // entering signal
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},
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async waitEnterLock() {
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await waitSignal();
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},
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async exitLock() {
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await signal();
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await waitSignal();
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},
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getTimes: async () => {
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const { stdout } = await process.output();
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const text = new TextDecoder().decode(stdout);
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return JSON.parse(text) as {
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enterTime: number;
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exitTime: number;
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};
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},
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close: async () => {
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await process.status;
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await process.stdin.close();
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},
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};
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}
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