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denoland-deno/runtime/js/40_testing.js
2021-03-12 21:23:59 +01:00

380 lines
10 KiB
JavaScript

// Copyright 2018-2021 the Deno authors. All rights reserved. MIT license.
"use strict";
((window) => {
const core = window.Deno.core;
const colors = window.__bootstrap.colors;
const { setExitHandler, exit } = window.__bootstrap.os;
const { Console, inspectArgs } = window.__bootstrap.console;
const { stdout } = window.__bootstrap.files;
const { metrics } = window.__bootstrap.metrics;
const { assert } = window.__bootstrap.util;
const disabledConsole = new Console(() => {});
function delay(ms) {
return new Promise((resolve) => {
setTimeout(resolve, ms);
});
}
function formatDuration(time = 0) {
const gray = colors.maybeColor(colors.gray);
const italic = colors.maybeColor(colors.italic);
const timeStr = `(${time}ms)`;
return gray(italic(timeStr));
}
// Wrap test function in additional assertion that makes sure
// the test case does not leak async "ops" - ie. number of async
// completed ops after the test is the same as number of dispatched
// ops. Note that "unref" ops are ignored since in nature that are
// optional.
function assertOps(fn) {
return async function asyncOpSanitizer() {
const pre = metrics();
try {
await fn();
} finally {
// Defer until next event loop turn - that way timeouts and intervals
// cleared can actually be removed from resource table, otherwise
// false positives may occur (https://github.com/denoland/deno/issues/4591)
await delay(0);
}
const post = metrics();
// We're checking diff because one might spawn HTTP server in the background
// that will be a pending async op before test starts.
const dispatchedDiff = post.opsDispatchedAsync - pre.opsDispatchedAsync;
const completedDiff = post.opsCompletedAsync - pre.opsCompletedAsync;
assert(
dispatchedDiff === completedDiff,
`Test case is leaking async ops.
Before:
- dispatched: ${pre.opsDispatchedAsync}
- completed: ${pre.opsCompletedAsync}
After:
- dispatched: ${post.opsDispatchedAsync}
- completed: ${post.opsCompletedAsync}
Make sure to await all promises returned from Deno APIs before
finishing test case.`,
);
};
}
// Wrap test function in additional assertion that makes sure
// the test case does not "leak" resources - ie. resource table after
// the test has exactly the same contents as before the test.
function assertResources(
fn,
) {
return async function resourceSanitizer() {
const pre = core.resources();
await fn();
const post = core.resources();
const preStr = JSON.stringify(pre, null, 2);
const postStr = JSON.stringify(post, null, 2);
const msg = `Test case is leaking resources.
Before: ${preStr}
After: ${postStr}
Make sure to close all open resource handles returned from Deno APIs before
finishing test case.`;
assert(preStr === postStr, msg);
};
}
// Wrap test function in additional assertion that makes sure
// that the test case does not accidentally exit prematurely.
function assertExit(fn) {
return async function exitSanitizer() {
setExitHandler((exitCode) => {
assert(
false,
`Test case attempted to exit with exit code: ${exitCode}`,
);
});
try {
await fn();
} catch (err) {
throw err;
} finally {
setExitHandler(null);
}
};
}
const TEST_REGISTRY = [];
// Main test function provided by Deno, as you can see it merely
// creates a new object with "name" and "fn" fields.
function test(
t,
fn,
) {
let testDef;
const defaults = {
ignore: false,
only: false,
sanitizeOps: true,
sanitizeResources: true,
sanitizeExit: true,
};
if (typeof t === "string") {
if (!fn || typeof fn != "function") {
throw new TypeError("Missing test function");
}
if (!t) {
throw new TypeError("The test name can't be empty");
}
testDef = { fn: fn, name: t, ...defaults };
} else {
if (!t.fn) {
throw new TypeError("Missing test function");
}
if (!t.name) {
throw new TypeError("The test name can't be empty");
}
testDef = { ...defaults, ...t };
}
if (testDef.sanitizeOps) {
testDef.fn = assertOps(testDef.fn);
}
if (testDef.sanitizeResources) {
testDef.fn = assertResources(testDef.fn);
}
if (testDef.sanitizeExit) {
testDef.fn = assertExit(testDef.fn);
}
TEST_REGISTRY.push(testDef);
}
const encoder = new TextEncoder();
function log(msg, noNewLine = false) {
if (!noNewLine) {
msg += "\n";
}
// Using `stdout` here because it doesn't force new lines
// compared to `console.log`; `core.print` on the other hand
// is line-buffered and doesn't output message without newline
stdout.writeSync(encoder.encode(msg));
}
function reportToConsole(message) {
const green = colors.maybeColor(colors.green);
const red = colors.maybeColor(colors.red);
const yellow = colors.maybeColor(colors.yellow);
const redFailed = red("FAILED");
const greenOk = green("ok");
const yellowIgnored = yellow("ignored");
if (message.start != null) {
log(`running ${message.start.tests.length} tests`);
} else if (message.testStart != null) {
const { name } = message.testStart;
log(`test ${name} ... `, true);
return;
} else if (message.testEnd != null) {
switch (message.testEnd.status) {
case "passed":
log(`${greenOk} ${formatDuration(message.testEnd.duration)}`);
break;
case "failed":
log(`${redFailed} ${formatDuration(message.testEnd.duration)}`);
break;
case "ignored":
log(`${yellowIgnored} ${formatDuration(message.testEnd.duration)}`);
break;
}
} else if (message.end != null) {
const failures = message.end.results.filter((m) => m.error != null);
if (failures.length > 0) {
log(`\nfailures:\n`);
for (const { name, error } of failures) {
log(name);
log(inspectArgs([error]));
log("");
}
log(`failures:\n`);
for (const { name } of failures) {
log(`\t${name}`);
}
}
log(
`\ntest result: ${message.end.failed ? redFailed : greenOk}. ` +
`${message.end.passed} passed; ${message.end.failed} failed; ` +
`${message.end.ignored} ignored; ${message.end.measured} measured; ` +
`${message.end.filtered} filtered out ` +
`${formatDuration(message.end.duration)}\n`,
);
if (message.end.usedOnly && message.end.failed == 0) {
log(`${redFailed} because the "only" option was used\n`);
}
}
}
// TODO(bartlomieju): already implements AsyncGenerator<RunTestsMessage>, but add as "implements to class"
// TODO(bartlomieju): implements PromiseLike<RunTestsEndResult>
class TestRunner {
#usedOnly = false;
constructor(
tests,
filterFn,
failFast,
) {
this.stats = {
filtered: 0,
ignored: 0,
measured: 0,
passed: 0,
failed: 0,
};
this.filterFn = filterFn;
this.failFast = failFast;
const onlyTests = tests.filter(({ only }) => only);
this.#usedOnly = onlyTests.length > 0;
const unfilteredTests = this.#usedOnly ? onlyTests : tests;
this.testsToRun = unfilteredTests.filter(filterFn);
this.stats.filtered = unfilteredTests.length - this.testsToRun.length;
}
async *[Symbol.asyncIterator]() {
yield { start: { tests: this.testsToRun } };
const results = [];
const suiteStart = +new Date();
for (const test of this.testsToRun) {
const endMessage = {
name: test.name,
duration: 0,
};
yield { testStart: { ...test } };
if (test.ignore) {
endMessage.status = "ignored";
this.stats.ignored++;
} else {
const start = +new Date();
try {
await test.fn();
endMessage.status = "passed";
this.stats.passed++;
} catch (err) {
endMessage.status = "failed";
endMessage.error = err;
this.stats.failed++;
}
endMessage.duration = +new Date() - start;
}
results.push(endMessage);
yield { testEnd: endMessage };
if (this.failFast && endMessage.error != null) {
break;
}
}
const duration = +new Date() - suiteStart;
yield {
end: { ...this.stats, usedOnly: this.#usedOnly, duration, results },
};
}
}
function createFilterFn(
filter,
skip,
) {
return (def) => {
let passes = true;
if (filter) {
if (filter instanceof RegExp) {
passes = passes && filter.test(def.name);
} else if (filter.startsWith("/") && filter.endsWith("/")) {
const filterAsRegex = new RegExp(filter.slice(1, filter.length - 1));
passes = passes && filterAsRegex.test(def.name);
} else {
passes = passes && def.name.includes(filter);
}
}
if (skip) {
if (skip instanceof RegExp) {
passes = passes && !skip.test(def.name);
} else {
passes = passes && !def.name.includes(skip);
}
}
return passes;
};
}
async function runTests({
exitOnFail = true,
failFast = false,
filter = undefined,
skip = undefined,
disableLog = false,
reportToConsole: reportToConsole_ = true,
onMessage = undefined,
} = {}) {
const filterFn = createFilterFn(filter, skip);
const testRunner = new TestRunner(TEST_REGISTRY, filterFn, failFast);
const originalConsole = globalThis.console;
if (disableLog) {
globalThis.console = disabledConsole;
}
let endMsg;
for await (const message of testRunner) {
if (onMessage != null) {
await onMessage(message);
}
if (reportToConsole_) {
reportToConsole(message);
}
if (message.end != null) {
endMsg = message.end;
}
}
if (disableLog) {
globalThis.console = originalConsole;
}
if ((endMsg.failed > 0 || endMsg?.usedOnly) && exitOnFail) {
exit(1);
}
return endMsg;
}
window.__bootstrap.internals = {
...window.__bootstrap.internals ?? {},
reportToConsole,
createFilterFn,
runTests,
};
window.__bootstrap.testing = {
test,
};
})(this);