1
0
Fork 0
mirror of https://github.com/denoland/deno.git synced 2024-12-20 22:34:46 -05:00
denoland-deno/tests/wpt/wpt.ts

851 lines
24 KiB
TypeScript
Raw Normal View History

#!/usr/bin/env -S deno run --allow-write --allow-read --allow-net --allow-env --allow-run --config=tests/config/deno.json
// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
// deno-lint-ignore-file no-console
// This script is used to run WPT tests for Deno.
import {
runSingleTest,
runWithTestUtil,
TestCaseResult,
TestResult,
} from "./runner/runner.ts";
import {
assert,
autoConfig,
cargoBuild,
checkPy3Available,
escapeLoneSurrogates,
Expectation,
EXPECTATION_PATH,
generateRunInfo,
getExpectation,
getExpectFailForCase,
getManifest,
inspectBrk,
json,
ManifestFolder,
ManifestTestOptions,
ManifestTestVariation,
noIgnore,
quiet,
rest,
runGitDiff,
runPy,
updateManifest,
wptreport,
} from "./runner/utils.ts";
import { pooledMap } from "@std/async/pool";
import { blue, bold, green, red, yellow } from "@std/fmt/colors";
import { writeAll, writeAllSync } from "@std/io/write-all";
import { saveExpectation } from "./runner/utils.ts";
class TestFilter {
filter?: string[];
constructor(filter?: string[]) {
this.filter = filter;
}
matches(path: string): boolean {
if (this.filter === undefined || this.filter.length == 0) {
return true;
}
for (const filter of this.filter) {
if (filter.startsWith("/")) {
if (path.startsWith(filter)) {
return true;
}
} else {
if (path.substring(1).startsWith(filter)) {
return true;
}
}
}
return false;
}
}
const command = Deno.args[0];
switch (command) {
case "setup":
await checkPy3Available();
await updateManifest();
await setup();
break;
case "run":
await checkPy3Available();
await cargoBuild();
await run();
break;
case "update":
await cargoBuild();
await update();
break;
default:
console.log(`Possible commands:
setup
Validate that your environment is configured correctly, or help you configure it.
run
Run all tests like specified in \`expectation.json\`.
update
Update the \`expectation.json\` to match the current reality.
More details at https://docs.deno.com/runtime/manual/references/contributing/web_platform_tests
`);
break;
}
async function setup() {
2021-06-14 14:57:02 -04:00
const hostsPath = Deno.build.os == "windows"
? `${Deno.env.get("SystemRoot")}\\System32\\drivers\\etc\\hosts`
: "/etc/hosts";
// TODO(lucacsonato): use this when 1.7.1 is released.
// const records = await Deno.resolveDns("web-platform.test", "A");
// const etcHostsConfigured = records[0] == "127.0.0.1";
2021-06-14 14:57:02 -04:00
const hostsFile = await Deno.readTextFile(hostsPath);
const etcHostsConfigured = hostsFile.includes("web-platform.test");
if (etcHostsConfigured) {
2021-06-14 14:57:02 -04:00
console.log(hostsPath + " is already configured.");
} else {
const autoConfigure = autoConfig ||
confirm(
2021-06-14 14:57:02 -04:00
`The WPT require certain entries to be present in your ${hostsPath} file. Should these be configured automatically?`,
);
if (autoConfigure) {
const { success, stdout } = await runPy(["wpt", "make-hosts-file"], {
stdout: "piped",
}).output();
assert(success, "wpt make-hosts-file should not fail");
const entries = new TextDecoder().decode(stdout);
const file = await Deno.open(hostsPath, { append: true }).catch((err) => {
if (err instanceof Deno.errors.PermissionDenied) {
throw new Error(
`Failed to open ${hostsPath} (permission error). Please run this command again with sudo, or configure the entries manually.`,
);
} else {
throw err;
}
});
await writeAll(
file,
new TextEncoder().encode(
"\n\n# Configured for Web Platform Tests (Deno)\n" + entries,
),
);
2021-06-14 14:57:02 -04:00
console.log(`Updated ${hostsPath}`);
} else {
2021-06-14 14:57:02 -04:00
console.log(`Please configure the ${hostsPath} entries manually.`);
if (Deno.build.os == "windows") {
console.log("To do this run the following command in PowerShell:");
console.log("");
console.log(" cd tests/wpt/suite/");
console.log(
" python.exe wpt make-hosts-file | Out-File $env:SystemRoot\\System32\\drivers\\etc\\hosts -Encoding ascii -Append",
);
console.log("");
} else {
console.log("To do this run the following command in your shell:");
console.log("");
console.log(" cd tests/wpt/suite/");
console.log(
" python3 ./wpt make-hosts-file | sudo tee -a /etc/hosts",
);
console.log("");
}
}
}
console.log(green("Setup complete!"));
}
interface TestToRun {
path: string;
url: URL;
options: ManifestTestOptions;
expectation: boolean | string[];
}
function getTestTimeout(test: TestToRun) {
if (Deno.env.get("CI")) {
// Don't give expected failures the full time
if (test.expectation === false) {
return { long: 60_000, default: 10_000 };
}
return { long: 4 * 60_000, default: 4 * 60_000 };
}
return { long: 60_000, default: 10_000 };
}
async function run() {
const startTime = new Date().getTime();
assert(Array.isArray(rest), "filter must be array");
2021-05-09 10:32:30 -04:00
const expectation = getExpectation();
const filter = new TestFilter(rest);
2021-05-09 10:32:30 -04:00
const tests = discoverTestsToRun(
filter,
2021-05-09 10:32:30 -04:00
expectation,
);
assertAllExpectationsHaveTests(expectation, tests, filter);
const cores = navigator.hardwareConcurrency;
console.log(`Going to run ${tests.length} test files on ${cores} cores.`);
const results = await runWithTestUtil(false, async () => {
const results: { test: TestToRun; result: TestResult }[] = [];
const inParallel = !(cores === 1 || tests.length === 1);
// ideally we would parallelize all tests, but we ran into some flakiness
// on the CI, so here we're partitioning based on the start of the test path
const partitionedTests = partitionTests(tests);
const iter = pooledMap(cores, partitionedTests, async (tests) => {
for (const test of tests) {
if (!inParallel) {
console.log(`${blue("-".repeat(40))}\n${bold(test.path)}\n`);
}
const result = await runSingleTest(
test.url,
test.options,
inParallel ? () => {} : createReportTestCase(test.expectation),
inspectBrk,
getTestTimeout(test),
);
results.push({ test, result });
if (inParallel) {
console.log(`${blue("-".repeat(40))}\n${bold(test.path)}\n`);
}
reportVariation(result, test.expectation);
}
});
for await (const _ of iter) {
// ignore
}
return results;
});
const endTime = new Date().getTime();
if (json) {
const minifiedResults = [];
for (const result of results) {
const minified = {
file: result.test.path,
name:
Object.fromEntries(result.test.options.script_metadata ?? []).title ??
null,
cases: result.result.cases.map((case_) => ({
name: case_.name,
passed: case_.passed,
})),
};
minifiedResults.push(minified);
}
2024-06-02 16:47:47 -04:00
await Deno.writeTextFile(json, JSON.stringify(minifiedResults) + "\n");
}
if (wptreport) {
const report = await generateWptReport(results, startTime, endTime);
2024-06-02 16:47:47 -04:00
await Deno.writeTextFile(wptreport, JSON.stringify(report) + "\n");
}
const newExpectations = newExpectation(results);
const tmp = Deno.makeTempFileSync();
saveExpectation(newExpectations, tmp);
const code = reportFinal(results, endTime - startTime);
// Run git diff to see what changed
await runGitDiff([EXPECTATION_PATH, tmp]);
Deno.removeSync(tmp);
Deno.exit(code);
}
async function generateWptReport(
results: { test: TestToRun; result: TestResult }[],
startTime: number,
endTime: number,
) {
const runInfo = await generateRunInfo();
const reportResults = [];
for (const { test, result } of results) {
const status = result.status !== 0
? "CRASH"
: result.harnessStatus?.status === 0
? "OK"
: "ERROR";
let message;
if (result.harnessStatus === null && result.status === 0) {
// If the only error is the event loop running out of tasks, using stderr
// as the message won't help.
message = "Event loop run out of tasks.";
} else {
message = result.harnessStatus?.message ?? (result.stderr.trim() || null);
}
const reportResult = {
test: test.url.pathname + test.url.search + test.url.hash,
subtests: result.cases.map((case_) => {
let expected = undefined;
if (!case_.passed) {
if (typeof test.expectation === "boolean") {
expected = test.expectation ? "PASS" : "FAIL";
} else if (Array.isArray(test.expectation)) {
expected = test.expectation.includes(case_.name) ? "FAIL" : "PASS";
} else {
expected = "PASS";
}
}
return {
name: escapeLoneSurrogates(case_.name),
status: case_.passed ? "PASS" : "FAIL",
message: escapeLoneSurrogates(case_.message),
expected,
known_intermittent: [],
};
}),
status,
message: escapeLoneSurrogates(message),
duration: result.duration,
expected: status === "OK" ? undefined : "OK",
"known_intermittent": [],
};
reportResults.push(reportResult);
}
return {
"run_info": runInfo,
"time_start": startTime,
"time_end": endTime,
"results": reportResults,
};
}
2021-05-09 10:32:30 -04:00
// Check that all expectations in the expectations file have a test that will be
// run.
function assertAllExpectationsHaveTests(
expectation: Expectation,
testsToRun: TestToRun[],
filter: TestFilter,
2021-05-09 10:32:30 -04:00
): void {
const tests = new Set(testsToRun.map((t) => t.path));
const missingTests: string[] = [];
function walk(parentExpectation: Expectation, parent: string) {
for (const [key, expectation] of Object.entries(parentExpectation)) {
2021-05-09 10:32:30 -04:00
const path = `${parent}/${key}`;
if (!filter.matches(path)) continue;
if (
(typeof expectation == "boolean" || Array.isArray(expectation)) &&
key !== "ignore"
) {
2021-05-09 10:32:30 -04:00
if (!tests.has(path)) {
missingTests.push(path);
}
} else {
walk(expectation, path);
}
}
}
walk(expectation, "");
if (missingTests.length > 0) {
console.log(
red(
"Following tests are missing in manifest, but are present in expectations:",
),
);
console.log("");
console.log(missingTests.join("\n"));
Deno.exit(1);
}
}
async function update() {
assert(Array.isArray(rest), "filter must be array");
const startTime = new Date().getTime();
const filter = new TestFilter(rest);
const tests = discoverTestsToRun(filter, true);
console.log(`Going to run ${tests.length} test files.`);
const results = await runWithTestUtil(false, async () => {
const results = [];
for (const test of tests) {
console.log(`${blue("-".repeat(40))}\n${bold(test.path)}\n`);
const result = await runSingleTest(
test.url,
test.options,
json ? () => {} : createReportTestCase(test.expectation),
inspectBrk,
{ long: 60_000, default: 10_000 },
);
results.push({ test, result });
reportVariation(result, test.expectation);
}
return results;
});
const endTime = new Date().getTime();
if (json) {
2024-06-02 16:47:47 -04:00
await Deno.writeTextFile(json, JSON.stringify(results) + "\n");
}
const newExpectations = newExpectation(results);
saveExpectation(newExpectations);
reportFinal(results, endTime - startTime);
console.log(blue("Updated expectation.json to match reality."));
Deno.exit(0);
}
function newExpectation(
results: { test: TestToRun; result: TestResult }[],
): Expectation {
const resultTests: Record<
string,
{ passed: string[]; failed: string[]; testSucceeded: boolean }
> = {};
for (const { test, result } of results) {
2021-05-09 10:32:30 -04:00
if (!resultTests[test.path]) {
resultTests[test.path] = {
passed: [],
failed: [],
testSucceeded: result.status === 0 && result.harnessStatus !== null,
};
}
for (const case_ of result.cases) {
if (case_.passed) {
2021-05-09 10:32:30 -04:00
resultTests[test.path].passed.push(case_.name);
} else {
2021-05-09 10:32:30 -04:00
resultTests[test.path].failed.push(case_.name);
}
}
}
const currentExpectation = getExpectation();
for (const [path, result] of Object.entries(resultTests)) {
const { passed, failed, testSucceeded } = result;
let finalExpectation: boolean | string[];
if (failed.length == 0 && testSucceeded) {
finalExpectation = true;
} else if (failed.length > 0 && passed.length > 0 && testSucceeded) {
finalExpectation = failed;
} else {
finalExpectation = false;
}
insertExpectation(
path.slice(1).split("/"),
currentExpectation,
finalExpectation,
);
}
return currentExpectation;
}
function insertExpectation(
segments: string[],
currentExpectation: Expectation,
finalExpectation: boolean | string[],
) {
const segment = segments.shift();
assert(segment, "segments array must never be empty");
if (segments.length > 0) {
if (
2024-06-02 16:47:47 -04:00
currentExpectation[segment] === undefined ||
Array.isArray(currentExpectation[segment]) ||
typeof currentExpectation[segment] === "boolean"
) {
currentExpectation[segment] = {};
}
insertExpectation(
segments,
currentExpectation[segment] as Expectation,
finalExpectation,
);
} else {
2024-06-02 16:47:47 -04:00
if (
currentExpectation[segment] === undefined ||
Array.isArray(currentExpectation[segment]) ||
typeof currentExpectation[segment] === "boolean" ||
(currentExpectation[segment] as { ignore: boolean })?.ignore !== true
) {
currentExpectation[segment] = finalExpectation;
}
}
}
function reportFinal(
results: { test: TestToRun; result: TestResult }[],
duration: number,
): number {
const finalTotalCount = results.length;
let finalFailedCount = 0;
const finalFailed: [string, TestCaseResult][] = [];
let finalExpectedFailedAndFailedCount = 0;
const finalExpectedFailedButPassedTests: [string, TestCaseResult][] = [];
const finalExpectedFailedButPassedFiles: string[] = [];
const finalFailedFiles: string[] = [];
for (const { test, result } of results) {
const {
failed,
failedCount,
expectedFailedButPassed,
expectedFailedAndFailedCount,
} = analyzeTestResult(
result,
test.expectation,
);
if (result.status !== 0 || result.harnessStatus === null) {
if (test.expectation === false) {
finalExpectedFailedAndFailedCount += 1;
} else {
finalFailedCount += 1;
finalFailedFiles.push(test.path);
}
} else if (failedCount > 0) {
finalFailedCount += 1;
for (const case_ of failed) {
finalFailed.push([test.path, case_]);
}
for (const case_ of expectedFailedButPassed) {
finalExpectedFailedButPassedTests.push([test.path, case_]);
}
} else if (
test.expectation === false &&
expectedFailedAndFailedCount != result.cases.length
) {
finalExpectedFailedButPassedFiles.push(test.path);
}
}
const finalPassedCount = finalTotalCount - finalFailedCount;
console.log(bold(blue("=".repeat(40))));
if (finalFailed.length > 0) {
console.log(`\nfailures:\n`);
}
for (const result of finalFailed) {
console.log(
` ${JSON.stringify(`${result[0]} - ${result[1].name}`)}`,
);
}
if (finalFailedFiles.length > 0) {
console.log(`\nfile failures:\n`);
}
for (const result of finalFailedFiles) {
console.log(
` ${JSON.stringify(result)}`,
);
}
if (finalExpectedFailedButPassedTests.length > 0) {
console.log(`\nexpected test failures that passed:\n`);
}
for (const result of finalExpectedFailedButPassedTests) {
console.log(
` ${JSON.stringify(`${result[0]} - ${result[1].name}`)}`,
);
}
if (finalExpectedFailedButPassedFiles.length > 0) {
console.log(`\nexpected file failures that passed:\n`);
}
for (const result of finalExpectedFailedButPassedFiles) {
console.log(` ${JSON.stringify(result)}`);
}
const failed = (finalFailedCount > 0) ||
(finalExpectedFailedButPassedFiles.length > 0);
console.log(
`\nfinal result: ${
failed ? red("failed") : green("ok")
}. ${finalPassedCount} passed; ${finalFailedCount} failed; ${finalExpectedFailedAndFailedCount} expected failure; total ${finalTotalCount} (${duration}ms)\n`,
);
// We ignore the exit code of the test run because the CI job reports the
// results to WPT.fyi, and we still want to report failure.
if (Deno.args.includes("--exit-zero")) {
return 0;
}
return failed ? 1 : 0;
}
function analyzeTestResult(
result: TestResult,
expectation: boolean | string[],
): {
failed: TestCaseResult[];
failedCount: number;
passedCount: number;
totalCount: number;
expectedFailedButPassed: TestCaseResult[];
expectedFailedButPassedCount: number;
expectedFailedAndFailedCount: number;
} {
const failed = result.cases.filter(
(t) => !getExpectFailForCase(expectation, t.name) && !t.passed,
);
const expectedFailedButPassed = result.cases.filter(
(t) => getExpectFailForCase(expectation, t.name) && t.passed,
);
const expectedFailedButPassedCount = expectedFailedButPassed.length;
const failedCount = failed.length + expectedFailedButPassedCount;
const expectedFailedAndFailedCount = result.cases.filter(
(t) => getExpectFailForCase(expectation, t.name) && !t.passed,
).length;
const totalCount = result.cases.length;
const passedCount = totalCount - failedCount - expectedFailedAndFailedCount;
return {
failed,
failedCount,
passedCount,
totalCount,
expectedFailedButPassed,
expectedFailedButPassedCount,
expectedFailedAndFailedCount,
};
}
function reportVariation(result: TestResult, expectation: boolean | string[]) {
if (result.status !== 0 || result.harnessStatus === null) {
if (result.stderr) {
console.log(`test stderr:\n${result.stderr}\n`);
}
const expectFail = expectation === false;
const failReason = result.status !== 0
? "runner failed during test"
: "the event loop run out of tasks during the test";
console.log(
`\nfile result: ${
expectFail ? yellow("failed (expected)") : red("failed")
}. ${failReason} (${formatDuration(result.duration)})\n`,
);
return;
}
const {
failed,
failedCount,
passedCount,
totalCount,
expectedFailedButPassed,
expectedFailedButPassedCount,
expectedFailedAndFailedCount,
} = analyzeTestResult(result, expectation);
if (failed.length > 0) {
console.log(`\nfailures:`);
}
for (const result of failed) {
console.log(`\n${result.name}\n${result.message}\n${result.stack}`);
}
if (failedCount > 0) {
console.log(`\nfailures:\n`);
}
for (const result of failed) {
console.log(` ${JSON.stringify(result.name)}`);
}
if (expectedFailedButPassedCount > 0) {
console.log(`\nexpected failures that passed:\n`);
}
for (const result of expectedFailedButPassed) {
console.log(` ${JSON.stringify(result.name)}`);
}
if (result.stderr) {
console.log("\ntest stderr:\n" + result.stderr);
}
console.log(
`\nfile result: ${
failedCount > 0 ? red("failed") : green("ok")
}. ${passedCount} passed; ${failedCount} failed; ${expectedFailedAndFailedCount} expected failure; total ${totalCount} (${
formatDuration(result.duration)
})\n`,
);
}
function createReportTestCase(expectation: boolean | string[]) {
return function reportTestCase({ name, status }: TestCaseResult) {
const expectFail = getExpectFailForCase(expectation, name);
let simpleMessage = `test ${name} ... `;
switch (status) {
case 0:
if (expectFail) {
simpleMessage += red("ok (expected fail)");
} else {
simpleMessage += green("ok");
if (quiet) {
// don't print `ok` tests if --quiet is enabled
return;
}
}
break;
case 1:
if (expectFail) {
simpleMessage += yellow("failed (expected)");
} else {
simpleMessage += red("failed");
}
break;
case 2:
if (expectFail) {
simpleMessage += yellow("failed (expected)");
} else {
simpleMessage += red("failed (timeout)");
}
break;
case 3:
if (expectFail) {
simpleMessage += yellow("failed (expected)");
} else {
simpleMessage += red("failed (incomplete)");
}
break;
}
writeAllSync(Deno.stdout, new TextEncoder().encode(simpleMessage + "\n"));
};
}
function discoverTestsToRun(
filter: TestFilter,
expectation: Expectation | string[] | boolean = getExpectation(),
): TestToRun[] {
const manifestFolder = getManifest().items.testharness;
const testsToRun: TestToRun[] = [];
function walk(
parentFolder: ManifestFolder,
parentExpectation: Expectation | string[] | boolean,
prefix: string,
) {
for (const [key, entry] of Object.entries(parentFolder)) {
if (Array.isArray(entry)) {
for (
const [path, options] of entry.slice(
1,
) as ManifestTestVariation[]
) {
// Test keys ending with ".html" include their own html boilerplate.
// Test keys ending with ".js" will have the necessary boilerplate generated and
// the manifest path will contain the full path to the generated html test file.
// See: https://web-platform-tests.org/writing-tests/testharness.html
if (!key.endsWith(".html") && !key.endsWith(".js")) continue;
const testHtmlPath = path ?? `${prefix}/${key}`;
const url = new URL(testHtmlPath, "http://web-platform.test:8000");
if (!url.pathname.endsWith(".html")) {
continue;
}
// These tests require an HTTP2 compatible server.
if (url.pathname.includes(".h2.")) {
continue;
}
// Streaming fetch requests need a server that supports chunked
// encoding, which the WPT test server does not. Unfortunately this
// also disables some useful fetch tests.
if (url.pathname.includes("request-upload")) {
continue;
}
2021-05-09 10:32:30 -04:00
const finalPath = url.pathname + url.search;
const split = finalPath.split("/");
const finalKey = split[split.length - 1];
const expectation = Array.isArray(parentExpectation) ||
typeof parentExpectation == "boolean"
? parentExpectation
: parentExpectation[finalKey];
if (expectation === undefined) continue;
if (typeof expectation === "object") {
if (typeof expectation.ignore !== "undefined") {
assert(
typeof expectation.ignore === "boolean",
"test entry's `ignore` key must be a boolean",
);
if (expectation.ignore === true && !noIgnore) continue;
}
}
if (!noIgnore) {
assert(
Array.isArray(expectation) || typeof expectation == "boolean",
"test entry must not have a folder expectation",
);
}
2021-05-09 10:32:30 -04:00
if (!filter.matches(finalPath)) continue;
testsToRun.push({
2021-05-09 10:32:30 -04:00
path: finalPath,
url,
options,
expectation,
});
}
} else {
2021-05-09 10:32:30 -04:00
const expectation = Array.isArray(parentExpectation) ||
typeof parentExpectation == "boolean"
? parentExpectation
: parentExpectation[key];
if (expectation === undefined) continue;
walk(entry, expectation, `${prefix}/${key}`);
}
}
}
walk(manifestFolder, expectation, "");
return testsToRun;
}
function partitionTests(tests: TestToRun[]): TestToRun[][] {
const testsByKey: { [key: string]: TestToRun[] } = {};
for (const test of tests) {
// Run all WebCryptoAPI tests in parallel
if (test.path.includes("/WebCryptoAPI")) {
testsByKey[test.path] = [test];
continue;
}
// Paths looks like: /fetch/corb/img-html-correctly-labeled.sub-ref.html
const key = test.path.split("/")[1];
if (!(key in testsByKey)) {
testsByKey[key] = [];
}
testsByKey[key].push(test);
}
return Object.values(testsByKey);
}
function formatDuration(duration: number): string {
if (duration >= 5000) {
return red(`${duration}ms`);
} else if (duration >= 1000) {
return yellow(`${duration}ms`);
} else {
return `${duration}ms`;
}
}