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denoland-deno/runtime/js/40_testing.js
2022-01-18 15:02:56 -05:00

894 lines
24 KiB
JavaScript

// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license.
"use strict";
((window) => {
const core = window.Deno.core;
const { setExitHandler } = window.__bootstrap.os;
const { Console, inspectArgs } = window.__bootstrap.console;
const { metrics } = core;
const { serializePermissions } = window.__bootstrap.permissions;
const { assert } = window.__bootstrap.util;
const {
AggregateError,
ArrayPrototypeFilter,
ArrayPrototypePush,
ArrayPrototypeShift,
ArrayPrototypeSome,
DateNow,
Error,
Function,
JSONStringify,
Promise,
TypeError,
StringPrototypeStartsWith,
StringPrototypeEndsWith,
StringPrototypeIncludes,
StringPrototypeSlice,
RegExp,
Number,
RegExpPrototypeTest,
SymbolToStringTag,
} = window.__bootstrap.primordials;
const opSanitizerDelayResolveQueue = [];
// Even if every resource is closed by the end of a test, there can be a delay
// until the pending ops have all finished. This function returns a promise
// that resolves when it's (probably) fine to run the op sanitizer.
//
// This is implemented by adding a macrotask callback that runs after the
// timer macrotasks, so we can guarantee that a currently running interval
// will have an associated op. An additional `setTimeout` of 0 is needed
// before that, though, in order to give time for worker message ops to finish
// (since timeouts of 0 don't queue tasks in the timer queue immediately).
function opSanitizerDelay() {
return new Promise((resolve) => {
setTimeout(() => {
ArrayPrototypePush(opSanitizerDelayResolveQueue, resolve);
}, 0);
});
}
function handleOpSanitizerDelayMacrotask() {
ArrayPrototypeShift(opSanitizerDelayResolveQueue)?.();
return opSanitizerDelayResolveQueue.length === 0;
}
// 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) {
/** @param step {TestStep} */
return async function asyncOpSanitizer(step) {
const pre = metrics();
try {
await fn(step);
} 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 opSanitizerDelay();
}
if (step.shouldSkipSanitizers) {
return;
}
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;
const details = [];
for (const key in post.ops) {
const dispatchedDiff = Number(
post.ops[key]?.opsDispatchedAsync -
(pre.ops[key]?.opsDispatchedAsync ?? 0),
);
const completedDiff = Number(
post.ops[key]?.opsCompletedAsync -
(pre.ops[key]?.opsCompletedAsync ?? 0),
);
if (dispatchedDiff !== completedDiff) {
details.push(`
${key}:
Before:
- dispatched: ${pre.ops[key]?.opsDispatchedAsync ?? 0}
- completed: ${pre.ops[key]?.opsCompletedAsync ?? 0}
After:
- dispatched: ${post.ops[key].opsDispatchedAsync}
- completed: ${post.ops[key].opsCompletedAsync}`);
}
}
const message = `Test case is leaking async ops.
Before:
- dispatched: ${pre.opsDispatchedAsync}
- completed: ${pre.opsCompletedAsync}
After:
- dispatched: ${post.opsDispatchedAsync}
- completed: ${post.opsCompletedAsync}
${details.length > 0 ? "Ops:" + details.join("") : ""}
Make sure to await all promises returned from Deno APIs before
finishing test case.`;
assert(
dispatchedDiff === completedDiff,
message,
);
};
}
// 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,
) {
/** @param step {TestStep} */
return async function resourceSanitizer(step) {
const pre = core.resources();
await fn(step);
if (step.shouldSkipSanitizers) {
return;
}
const post = core.resources();
const preStr = JSONStringify(pre, null, 2);
const postStr = JSONStringify(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(...params) {
setExitHandler((exitCode) => {
assert(
false,
`Test case attempted to exit with exit code: ${exitCode}`,
);
});
try {
await fn(...params);
} catch (err) {
throw err;
} finally {
setExitHandler(null);
}
};
}
function assertTestStepScopes(fn) {
/** @param step {TestStep} */
return async function testStepSanitizer(step) {
preValidation();
// only report waiting after pre-validation
if (step.canStreamReporting()) {
step.reportWait();
}
await fn(createTestContext(step));
postValidation();
function preValidation() {
const runningSteps = getPotentialConflictingRunningSteps();
const runningStepsWithSanitizers = ArrayPrototypeFilter(
runningSteps,
(t) => t.usesSanitizer,
);
if (runningStepsWithSanitizers.length > 0) {
throw new Error(
"Cannot start test step while another test step with sanitizers is running.\n" +
runningStepsWithSanitizers
.map((s) => ` * ${s.getFullName()}`)
.join("\n"),
);
}
if (step.usesSanitizer && runningSteps.length > 0) {
throw new Error(
"Cannot start test step with sanitizers while another test step is running.\n" +
runningSteps.map((s) => ` * ${s.getFullName()}`).join("\n"),
);
}
function getPotentialConflictingRunningSteps() {
/** @type {TestStep[]} */
const results = [];
let childStep = step;
for (const ancestor of step.ancestors()) {
for (const siblingStep of ancestor.children) {
if (siblingStep === childStep) {
continue;
}
if (!siblingStep.finalized) {
ArrayPrototypePush(results, siblingStep);
}
}
childStep = ancestor;
}
return results;
}
}
function postValidation() {
// check for any running steps
if (step.hasRunningChildren) {
throw new Error(
"There were still test steps running after the current scope finished execution. " +
"Ensure all steps are awaited (ex. `await t.step(...)`).",
);
}
// check if an ancestor already completed
for (const ancestor of step.ancestors()) {
if (ancestor.finalized) {
throw new Error(
"Parent scope completed before test step finished execution. " +
"Ensure all steps are awaited (ex. `await t.step(...)`).",
);
}
}
}
};
}
function withPermissions(fn, permissions) {
function pledgePermissions(permissions) {
return core.opSync(
"op_pledge_test_permissions",
serializePermissions(permissions),
);
}
function restorePermissions(token) {
core.opSync("op_restore_test_permissions", token);
}
return async function applyPermissions(...params) {
const token = pledgePermissions(permissions);
try {
await fn(...params);
} finally {
restorePermissions(token);
}
};
}
const tests = [];
// Main test function provided by Deno.
function test(
nameOrFnOrOptions,
optionsOrFn,
maybeFn,
) {
let testDef;
const defaults = {
ignore: false,
only: false,
sanitizeOps: true,
sanitizeResources: true,
sanitizeExit: true,
permissions: null,
};
if (typeof nameOrFnOrOptions === "string") {
if (!nameOrFnOrOptions) {
throw new TypeError("The test name can't be empty");
}
if (typeof optionsOrFn === "function") {
testDef = { fn: optionsOrFn, name: nameOrFnOrOptions, ...defaults };
} else {
if (!maybeFn || typeof maybeFn !== "function") {
throw new TypeError("Missing test function");
}
if (optionsOrFn.fn != undefined) {
throw new TypeError(
"Unexpected 'fn' field in options, test function is already provided as the third argument.",
);
}
if (optionsOrFn.name != undefined) {
throw new TypeError(
"Unexpected 'name' field in options, test name is already provided as the first argument.",
);
}
testDef = {
...defaults,
...optionsOrFn,
fn: maybeFn,
name: nameOrFnOrOptions,
};
}
} else if (typeof nameOrFnOrOptions === "function") {
if (!nameOrFnOrOptions.name) {
throw new TypeError("The test function must have a name");
}
if (optionsOrFn != undefined) {
throw new TypeError("Unexpected second argument to Deno.test()");
}
if (maybeFn != undefined) {
throw new TypeError("Unexpected third argument to Deno.test()");
}
testDef = {
...defaults,
fn: nameOrFnOrOptions,
name: nameOrFnOrOptions.name,
};
} else {
let fn;
let name;
if (typeof optionsOrFn === "function") {
fn = optionsOrFn;
if (nameOrFnOrOptions.fn != undefined) {
throw new TypeError(
"Unexpected 'fn' field in options, test function is already provided as the second argument.",
);
}
name = nameOrFnOrOptions.name ?? fn.name;
} else {
if (
!nameOrFnOrOptions.fn || typeof nameOrFnOrOptions.fn !== "function"
) {
throw new TypeError(
"Expected 'fn' field in the first argument to be a test function.",
);
}
fn = nameOrFnOrOptions.fn;
name = nameOrFnOrOptions.name ?? fn.name;
}
if (!name) {
throw new TypeError("The test name can't be empty");
}
testDef = { ...defaults, ...nameOrFnOrOptions, fn, name };
}
testDef.fn = wrapTestFnWithSanitizers(testDef.fn, testDef);
if (testDef.permissions) {
testDef.fn = withPermissions(
testDef.fn,
testDef.permissions,
);
}
ArrayPrototypePush(tests, testDef);
}
function formatError(error) {
if (error instanceof AggregateError) {
const message = error
.errors
.map((error) =>
inspectArgs([error]).replace(/^(?!\s*$)/gm, " ".repeat(4))
)
.join("\n");
return error.name + "\n" + message + error.stack;
}
return inspectArgs([error]);
}
function createTestFilter(filter) {
return (def) => {
if (filter) {
if (
StringPrototypeStartsWith(filter, "/") &&
StringPrototypeEndsWith(filter, "/")
) {
const regex = new RegExp(
StringPrototypeSlice(filter, 1, filter.length - 1),
);
return RegExpPrototypeTest(regex, def.name);
}
return StringPrototypeIncludes(def.name, filter);
}
return true;
};
}
async function runTest(test, description) {
if (test.ignore) {
return "ignored";
}
const step = new TestStep({
name: test.name,
parent: undefined,
rootTestDescription: description,
sanitizeOps: test.sanitizeOps,
sanitizeResources: test.sanitizeResources,
sanitizeExit: test.sanitizeExit,
});
try {
await test.fn(step);
const failCount = step.failedChildStepsCount();
return failCount === 0 ? "ok" : {
"failed": formatError(
new Error(
`${failCount} test step${failCount === 1 ? "" : "s"} failed.`,
),
),
};
} catch (error) {
return {
"failed": formatError(error),
};
} finally {
step.finalized = true;
// ensure the children report their result
for (const child of step.children) {
child.reportResult();
}
}
}
function getTestOrigin() {
return core.opSync("op_get_test_origin");
}
function reportTestPlan(plan) {
core.opSync("op_dispatch_test_event", {
plan,
});
}
function reportTestConsoleOutput(console) {
core.opSync("op_dispatch_test_event", {
output: { console },
});
}
function reportTestWait(test) {
core.opSync("op_dispatch_test_event", {
wait: test,
});
}
function reportTestResult(test, result, elapsed) {
core.opSync("op_dispatch_test_event", {
result: [test, result, elapsed],
});
}
function reportTestStepWait(testDescription) {
core.opSync("op_dispatch_test_event", {
stepWait: testDescription,
});
}
function reportTestStepResult(testDescription, result, elapsed) {
core.opSync("op_dispatch_test_event", {
stepResult: [testDescription, result, elapsed],
});
}
async function runTests({
filter = null,
shuffle = null,
} = {}) {
core.setMacrotaskCallback(handleOpSanitizerDelayMacrotask);
const origin = getTestOrigin();
const originalConsole = globalThis.console;
globalThis.console = new Console(reportTestConsoleOutput);
const only = ArrayPrototypeFilter(tests, (test) => test.only);
const filtered = ArrayPrototypeFilter(
only.length > 0 ? only : tests,
createTestFilter(filter),
);
reportTestPlan({
origin,
total: filtered.length,
filteredOut: tests.length - filtered.length,
usedOnly: only.length > 0,
});
if (shuffle !== null) {
// http://en.wikipedia.org/wiki/Linear_congruential_generator
const nextInt = (function (state) {
const m = 0x80000000;
const a = 1103515245;
const c = 12345;
return function (max) {
return state = ((a * state + c) % m) % max;
};
}(shuffle));
for (let i = filtered.length - 1; i > 0; i--) {
const j = nextInt(i);
[filtered[i], filtered[j]] = [filtered[j], filtered[i]];
}
}
for (const test of filtered) {
const description = {
origin,
name: test.name,
};
const earlier = DateNow();
reportTestWait(description);
const result = await runTest(test, description);
const elapsed = DateNow() - earlier;
reportTestResult(description, result, elapsed);
}
globalThis.console = originalConsole;
}
/**
* @typedef {{
* fn: (t: TestContext) => void | Promise<void>,
* name: string,
* ignore?: boolean,
* sanitizeOps?: boolean,
* sanitizeResources?: boolean,
* sanitizeExit?: boolean,
* }} TestStepDefinition
*
* @typedef {{
* name: string;
* parent: TestStep | undefined,
* rootTestDescription: { origin: string; name: string };
* sanitizeOps: boolean,
* sanitizeResources: boolean,
* sanitizeExit: boolean,
* }} TestStepParams
*/
class TestStep {
/** @type {TestStepParams} */
#params;
reportedWait = false;
#reportedResult = false;
finalized = false;
elapsed = 0;
/** @type "ok" | "ignored" | "pending" | "failed" */
status = "pending";
error = undefined;
/** @type {TestStep[]} */
children = [];
/** @param params {TestStepParams} */
constructor(params) {
this.#params = params;
}
get name() {
return this.#params.name;
}
get parent() {
return this.#params.parent;
}
get rootTestDescription() {
return this.#params.rootTestDescription;
}
get sanitizerOptions() {
return {
sanitizeResources: this.#params.sanitizeResources,
sanitizeOps: this.#params.sanitizeOps,
sanitizeExit: this.#params.sanitizeExit,
};
}
get usesSanitizer() {
return this.#params.sanitizeResources ||
this.#params.sanitizeOps ||
this.#params.sanitizeExit;
}
/** If a test validation error already occurred then don't bother checking
* the sanitizers as that will create extra noise.
*/
get shouldSkipSanitizers() {
return this.hasRunningChildren || this.parent?.finalized;
}
get hasRunningChildren() {
return ArrayPrototypeSome(
this.children,
/** @param step {TestStep} */
(step) => step.status === "pending",
);
}
failedChildStepsCount() {
return ArrayPrototypeFilter(
this.children,
/** @param step {TestStep} */
(step) => step.status === "failed",
).length;
}
canStreamReporting() {
// there should only ever be one sub step running when running with
// sanitizers, so we can use this to tell if we can stream reporting
return this.selfAndAllAncestorsUseSanitizer() &&
this.children.every((c) => c.usesSanitizer || c.finalized);
}
selfAndAllAncestorsUseSanitizer() {
if (!this.usesSanitizer) {
return false;
}
for (const ancestor of this.ancestors()) {
if (!ancestor.usesSanitizer) {
return false;
}
}
return true;
}
*ancestors() {
let ancestor = this.parent;
while (ancestor) {
yield ancestor;
ancestor = ancestor.parent;
}
}
getFullName() {
if (this.parent) {
return `${this.parent.getFullName()} > ${this.name}`;
} else {
return this.name;
}
}
reportWait() {
if (this.reportedWait || !this.parent) {
return;
}
reportTestStepWait(this.#getTestStepDescription());
this.reportedWait = true;
}
reportResult() {
if (this.#reportedResult || !this.parent) {
return;
}
this.reportWait();
for (const child of this.children) {
child.reportResult();
}
reportTestStepResult(
this.#getTestStepDescription(),
this.#getStepResult(),
this.elapsed,
);
this.#reportedResult = true;
}
#getStepResult() {
switch (this.status) {
case "ok":
return "ok";
case "ignored":
return "ignored";
case "pending":
return {
"pending": this.error && formatError(this.error),
};
case "failed":
return {
"failed": this.error && formatError(this.error),
};
default:
throw new Error(`Unhandled status: ${this.status}`);
}
}
#getTestStepDescription() {
return {
test: this.rootTestDescription,
name: this.name,
level: this.#getLevel(),
};
}
#getLevel() {
let count = 0;
for (const _ of this.ancestors()) {
count++;
}
return count;
}
}
/** @param parentStep {TestStep} */
function createTestContext(parentStep) {
return {
[SymbolToStringTag]: "TestContext",
/**
* @param nameOrTestDefinition {string | TestStepDefinition}
* @param fn {(t: TestContext) => void | Promise<void>}
*/
async step(nameOrTestDefinition, fn) {
if (parentStep.finalized) {
throw new Error(
"Cannot run test step after parent scope has finished execution. " +
"Ensure any `.step(...)` calls are executed before their parent scope completes execution.",
);
}
const definition = getDefinition();
const subStep = new TestStep({
name: definition.name,
parent: parentStep,
rootTestDescription: parentStep.rootTestDescription,
sanitizeOps: getOrDefault(
definition.sanitizeOps,
parentStep.sanitizerOptions.sanitizeOps,
),
sanitizeResources: getOrDefault(
definition.sanitizeResources,
parentStep.sanitizerOptions.sanitizeResources,
),
sanitizeExit: getOrDefault(
definition.sanitizeExit,
parentStep.sanitizerOptions.sanitizeExit,
),
});
ArrayPrototypePush(parentStep.children, subStep);
try {
if (definition.ignore) {
subStep.status = "ignored";
subStep.finalized = true;
if (subStep.canStreamReporting()) {
subStep.reportResult();
}
return false;
}
const testFn = wrapTestFnWithSanitizers(
definition.fn,
subStep.sanitizerOptions,
);
const start = DateNow();
try {
await testFn(subStep);
if (subStep.failedChildStepsCount() > 0) {
subStep.status = "failed";
} else {
subStep.status = "ok";
}
} catch (error) {
subStep.error = formatError(error);
subStep.status = "failed";
}
subStep.elapsed = DateNow() - start;
if (subStep.parent?.finalized) {
// always point this test out as one that was still running
// if the parent step finalized
subStep.status = "pending";
}
subStep.finalized = true;
if (subStep.reportedWait && subStep.canStreamReporting()) {
subStep.reportResult();
}
return subStep.status === "ok";
} finally {
if (parentStep.canStreamReporting()) {
// flush any buffered steps
for (const parentChild of parentStep.children) {
parentChild.reportResult();
}
}
}
/** @returns {TestStepDefinition} */
function getDefinition() {
if (typeof nameOrTestDefinition === "string") {
if (!(fn instanceof Function)) {
throw new TypeError("Expected function for second argument.");
}
return {
name: nameOrTestDefinition,
fn,
};
} else if (typeof nameOrTestDefinition === "object") {
return nameOrTestDefinition;
} else {
throw new TypeError(
"Expected a test definition or name and function.",
);
}
}
},
};
}
/**
* @template T {Function}
* @param testFn {T}
* @param opts {{
* sanitizeOps: boolean,
* sanitizeResources: boolean,
* sanitizeExit: boolean,
* }}
* @returns {T}
*/
function wrapTestFnWithSanitizers(testFn, opts) {
testFn = assertTestStepScopes(testFn);
if (opts.sanitizeOps) {
testFn = assertOps(testFn);
}
if (opts.sanitizeResources) {
testFn = assertResources(testFn);
}
if (opts.sanitizeExit) {
testFn = assertExit(testFn);
}
return testFn;
}
/**
* @template T
* @param value {T | undefined}
* @param defaultValue {T}
* @returns T
*/
function getOrDefault(value, defaultValue) {
return value == null ? defaultValue : value;
}
window.__bootstrap.internals = {
...window.__bootstrap.internals ?? {},
runTests,
};
window.__bootstrap.testing = {
test,
};
})(this);