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denoland-deno/runtime/js/40_testing.js
Bartek Iwańczuk d332bf1132
feat: deno test --trace-ops (#13770)
This commit adds "--trace-ops" flag to "deno test" subcommand.

This flag enables saving of stack traces for async ops, that before were always
saved. While the feature proved to be very useful it comes with a significant performance
hit, it's caused by excessive source mapping of stack frames.
2022-02-25 16:14:46 +01:00

1147 lines
39 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 { serializePermissions } = window.__bootstrap.permissions;
const { assert } = window.__bootstrap.util;
const {
AggregateErrorPrototype,
ArrayPrototypeFilter,
ArrayPrototypeJoin,
ArrayPrototypePush,
ArrayPrototypeShift,
ArrayPrototypeSome,
DateNow,
Error,
FunctionPrototype,
Map,
MapPrototypeHas,
ObjectKeys,
ObjectPrototypeIsPrototypeOf,
Promise,
RegExp,
RegExpPrototypeTest,
SafeArrayIterator,
Set,
StringPrototypeEndsWith,
StringPrototypeIncludes,
StringPrototypeSlice,
StringPrototypeStartsWith,
SymbolToStringTag,
TypeError,
} = 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;
}
// An async operation to $0 was started in this test, but never completed. This is often caused by not $1.
// An async operation to $0 was started in this test, but never completed. Async operations should not complete in a test if they were not started in that test.
// deno-fmt-ignore
const OP_DETAILS = {
"op_blob_read_part": ["read from a Blob or File", "awaiting the result of a Blob or File read"],
"op_broadcast_recv": ["receive a message from a BroadcastChannel", "closing the BroadcastChannel"],
"op_broadcast_send": ["send a message to a BroadcastChannel", "closing the BroadcastChannel"],
"op_chmod_async": ["change the permissions of a file", "awaiting the result of a `Deno.chmod` call"],
"op_chown_async": ["change the owner of a file", "awaiting the result of a `Deno.chown` call"],
"op_copy_file_async": ["copy a file", "awaiting the result of a `Deno.copyFile` call"],
"op_crypto_decrypt": ["decrypt data", "awaiting the result of a `crypto.subtle.decrypt` call"],
"op_crypto_derive_bits": ["derive bits from a key", "awaiting the result of a `crypto.subtle.deriveBits` call"],
"op_crypto_encrypt": ["encrypt data", "awaiting the result of a `crypto.subtle.encrypt` call"],
"op_crypto_generate_key": ["generate a key", "awaiting the result of a `crypto.subtle.generateKey` call"],
"op_crypto_sign_key": ["sign data", "awaiting the result of a `crypto.subtle.sign` call"],
"op_crypto_subtle_digest": ["digest data", "awaiting the result of a `crypto.subtle.digest` call"],
"op_crypto_verify_key": ["verify data", "awaiting the result of a `crypto.subtle.verify` call"],
"op_dgram_recv": ["receive a datagram message", "awaiting the result of `Deno.DatagramConn#receive` call, or not breaking out of a for await loop looping over a `Deno.DatagramConn`"],
"op_dgram_send": ["send a datagram message", "awaiting the result of `Deno.DatagramConn#send` call"],
"op_dns_resolve": ["resolve a DNS name", "awaiting the result of a `Deno.resolveDns` call"],
"op_emit": ["transpile code", "awaiting the result of a `Deno.emit` call"],
"op_fdatasync_async": ["flush pending data operations for a file to disk", "awaiting the result of a `Deno.fdatasync` call"],
"op_fetch_send": ["send a HTTP request", "awaiting the result of a `fetch` call"],
"op_ffi_call_nonblocking": ["do a non blocking ffi call", "awaiting the returned promise"] ,
"op_ffi_call_ptr_nonblocking": ["do a non blocking ffi call", "awaiting the returned promise"],
"op_flock_async": ["lock a file", "awaiting the result of a `Deno.flock` call"],
"op_fs_events_poll": ["get the next file system event", "breaking out of a for await loop looping over `Deno.FsEvents`"],
"op_fstat_async": ["get file metadata", "awaiting the result of a `Deno.File#fstat` call"],
"op_fsync_async": ["flush pending data operations for a file to disk", "awaiting the result of a `Deno.fsync` call"],
"op_ftruncate_async": ["truncate a file", "awaiting the result of a `Deno.ftruncate` call"],
"op_funlock_async": ["unlock a file", "awaiting the result of a `Deno.funlock` call"],
"op_futime_async": ["change file timestamps", "awaiting the result of a `Deno.futime` call"],
"op_http_accept": ["accept a HTTP request", "closing a `Deno.HttpConn`"],
"op_http_read": ["read the body of a HTTP request", "consuming the entire request body"],
"op_http_shutdown": ["shutdown a HTTP connection", "awaiting `Deno.HttpEvent#respondWith`"],
"op_http_upgrade_websocket": ["upgrade a HTTP connection to a WebSocket", "awaiting `Deno.HttpEvent#respondWith`"],
"op_http_write_headers": ["write HTTP response headers", "awaiting `Deno.HttpEvent#respondWith`"],
"op_http_write": ["write HTTP response body", "awaiting `Deno.HttpEvent#respondWith`"],
"op_link_async": ["create a hard link", "awaiting the result of a `Deno.link` call"],
"op_make_temp_dir_async": ["create a temporary directory", "awaiting the result of a `Deno.makeTempDir` call"],
"op_make_temp_file_async": ["create a temporary file", "awaiting the result of a `Deno.makeTempFile` call"],
"op_message_port_recv_message": ["receive a message from a MessagePort", "awaiting the result of not closing a `MessagePort`"],
"op_mkdir_async": ["create a directory", "awaiting the result of a `Deno.mkdir` call"],
"op_net_accept": ["accept a TCP connection", "closing a `Deno.Listener`"],
"op_net_connect": ["connect to a TCP or UDP server", "awaiting a `Deno.connect` call"],
"op_open_async": ["open a file", "awaiting the result of a `Deno.open` call"],
"op_read_dir_async": ["read a directory", "collecting all items in the async iterable returned from a `Deno.readDir` call"],
"op_read_link_async": ["read a symlink", "awaiting the result of a `Deno.readLink` call"],
"op_realpath_async": ["resolve a path", "awaiting the result of a `Deno.realpath` call"],
"op_remove_async": ["remove a file or directory", "awaiting the result of a `Deno.remove` call"],
"op_rename_async": ["rename a file or directory", "awaiting the result of a `Deno.rename` call"],
"op_run_status": ["get the status of a subprocess", "awaiting the result of a `Deno.Process#status` call"],
"op_seek_async": ["seek in a file", "awaiting the result of a `Deno.File#seek` call"],
"op_signal_poll": ["get the next signal", "un-registering a OS signal handler"],
"op_sleep": ["sleep for a duration", "cancelling a `setTimeout` or `setInterval` call"],
"op_stat_async": ["get file metadata", "awaiting the result of a `Deno.stat` call"],
"op_symlink_async": ["create a symlink", "awaiting the result of a `Deno.symlink` call"],
"op_tls_accept": ["accept a TLS connection", "closing a `Deno.TlsListener`"],
"op_tls_connect": ["connect to a TLS server", "awaiting a `Deno.connectTls` call"],
"op_tls_handshake": ["perform a TLS handshake", "awaiting a `Deno.TlsConn#handshake` call"],
"op_tls_start": ["start a TLS connection", "awaiting a `Deno.startTls` call"],
"op_truncate_async": ["truncate a file", "awaiting the result of a `Deno.truncate` call"],
"op_utime_async": ["change file timestamps", "awaiting the result of a `Deno.utime` call"],
"op_webgpu_buffer_get_map_async": ["map a WebGPU buffer", "awaiting the result of a `GPUBuffer#mapAsync` call"],
"op_webgpu_request_adapter": ["request a WebGPU adapter", "awaiting the result of a `navigator.gpu.requestAdapter` call"],
"op_webgpu_request_device": ["request a WebGPU device", "awaiting the result of a `GPUAdapter#requestDevice` call"],
"op_worker_recv_message": ["receive a message from a web worker", "terminating a `Worker`"],
"op_ws_close": ["close a WebSocket", "awaiting until the `close` event is emitted on a `WebSocket`, or the `WebSocketStream#closed` promise resolves"],
"op_ws_create": ["create a WebSocket", "awaiting until the `open` event is emitted on a `WebSocket`, or the result of a `WebSocketStream#connection` promise"],
"op_ws_next_event": ["receive the next message on a WebSocket", "closing a `WebSocket` or `WebSocketStream`"],
"op_ws_send": ["send a message on a WebSocket", "closing a `WebSocket` or `WebSocketStream`"],
};
// 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 = core.metrics();
const preTraces = new Map(core.opCallTraces);
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 = core.metrics();
const postTraces = new Map(core.opCallTraces);
// 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;
if (dispatchedDiff === completedDiff) return;
const details = [];
for (const key in post.ops) {
const preOp = pre.ops[key] ??
{ opsDispatchedAsync: 0, opsCompletedAsync: 0 };
const postOp = post.ops[key];
const dispatchedDiff = postOp.opsDispatchedAsync -
preOp.opsDispatchedAsync;
const completedDiff = postOp.opsCompletedAsync -
preOp.opsCompletedAsync;
if (dispatchedDiff > completedDiff) {
const [name, hint] = OP_DETAILS[key];
const count = dispatchedDiff - completedDiff;
let message = `${count} async operation${
count === 1 ? "" : "s"
} to ${name} ${
count === 1 ? "was" : "were"
} started in this test, but never completed. This is often caused by not ${hint}.`;
const traces = [];
for (const [id, { opName, stack }] of postTraces) {
if (opName !== key) continue;
if (MapPrototypeHas(preTraces, id)) continue;
ArrayPrototypePush(traces, stack);
}
if (traces.length === 1) {
message += " The operation was started here:\n";
message += traces[0];
} else if (traces.length > 1) {
message += " The operations were started here:\n";
message += ArrayPrototypeJoin(traces, "\n\n");
}
ArrayPrototypePush(details, message);
} else if (dispatchedDiff < completedDiff) {
const [name] = OP_DETAILS[key];
const count = completedDiff - dispatchedDiff;
ArrayPrototypePush(
details,
`${count} async operation${count === 1 ? "" : "s"} to ${name} ${
count === 1 ? "was" : "were"
} started before this test, but ${
count === 1 ? "was" : "were"
} completed during the test. Async operations should not complete in a test if they were not started in that test.`,
);
}
}
let msg = `Test case is leaking async ops.
- ${ArrayPrototypeJoin(details, "\n - ")}`;
if (!core.isOpCallTracingEnabled()) {
msg +=
`\n\nTo get more details where ops were leaked, run again with --trace-ops flag.`;
}
throw msg;
};
}
function prettyResourceNames(name) {
switch (name) {
case "fsFile":
return ["A file", "opened", "closed"];
case "fetchRequest":
return ["A fetch request", "started", "finished"];
case "fetchRequestBody":
return ["A fetch request body", "created", "closed"];
case "fetchResponseBody":
return ["A fetch response body", "created", "consumed"];
case "httpClient":
return ["An HTTP client", "created", "closed"];
case "dynamicLibrary":
return ["A dynamic library", "loaded", "unloaded"];
case "httpConn":
return ["An inbound HTTP connection", "accepted", "closed"];
case "httpStream":
return ["An inbound HTTP request", "accepted", "closed"];
case "tcpStream":
return ["A TCP connection", "opened/accepted", "closed"];
case "unixStream":
return ["A Unix connection", "opened/accepted", "closed"];
case "tlsStream":
return ["A TLS connection", "opened/accepted", "closed"];
case "tlsListener":
return ["A TLS listener", "opened", "closed"];
case "unixListener":
return ["A Unix listener", "opened", "closed"];
case "unixDatagram":
return ["A Unix datagram", "opened", "closed"];
case "tcpListener":
return ["A TCP listener", "opened", "closed"];
case "udpSocket":
return ["A UDP socket", "opened", "closed"];
case "timer":
return ["A timer", "started", "fired/cleared"];
case "textDecoder":
return ["A text decoder", "created", "finsihed"];
case "messagePort":
return ["A message port", "created", "closed"];
case "webSocketStream":
return ["A WebSocket", "opened", "closed"];
case "fsEvents":
return ["A file system watcher", "created", "closed"];
case "childStdin":
return ["A child process stdin", "opened", "closed"];
case "childStdout":
return ["A child process stdout", "opened", "closed"];
case "childStderr":
return ["A child process stderr", "opened", "closed"];
case "child":
return ["A child process", "started", "closed"];
case "signal":
return ["A signal listener", "created", "fired/cleared"];
case "stdin":
return ["The stdin pipe", "opened", "closed"];
case "stdout":
return ["The stdout pipe", "opened", "closed"];
case "stderr":
return ["The stderr pipe", "opened", "closed"];
case "compression":
return ["A CompressionStream", "created", "closed"];
default:
return [`A "${name}" resource`, "created", "cleaned up"];
}
}
function resourceCloseHint(name) {
switch (name) {
case "fsFile":
return "Close the file handle by calling `file.close()`.";
case "fetchRequest":
return "Await the promise returned from `fetch()` or abort the fetch with an abort signal.";
case "fetchRequestBody":
return "Terminate the request body `ReadableStream` by closing or erroring it.";
case "fetchResponseBody":
return "Consume or close the response body `ReadableStream`, e.g `await resp.text()` or `await resp.body.cancel()`.";
case "httpClient":
return "Close the HTTP client by calling `httpClient.close()`.";
case "dynamicLibrary":
return "Unload the dynamic library by calling `dynamicLibrary.close()`.";
case "httpConn":
return "Close the inbound HTTP connection by calling `httpConn.close()`.";
case "httpStream":
return "Close the inbound HTTP request by responding with `e.respondWith().` or closing the HTTP connection.";
case "tcpStream":
return "Close the TCP connection by calling `tcpConn.close()`.";
case "unixStream":
return "Close the Unix socket connection by calling `unixConn.close()`.";
case "tlsStream":
return "Close the TLS connection by calling `tlsConn.close()`.";
case "tlsListener":
return "Close the TLS listener by calling `tlsListener.close()`.";
case "unixListener":
return "Close the Unix socket listener by calling `unixListener.close()`.";
case "unixDatagram":
return "Close the Unix datagram socket by calling `unixDatagram.close()`.";
case "tcpListener":
return "Close the TCP listener by calling `tcpListener.close()`.";
case "udpSocket":
return "Close the UDP socket by calling `udpSocket.close()`.";
case "timer":
return "Clear the timer by calling `clearInterval` or `clearTimeout`.";
case "textDecoder":
return "Close the text decoder by calling `textDecoder.decode('')` or `await textDecoderStream.readable.cancel()`.";
case "messagePort":
return "Close the message port by calling `messagePort.close()`.";
case "webSocketStream":
return "Close the WebSocket by calling `webSocket.close()`.";
case "fsEvents":
return "Close the file system watcher by calling `watcher.close()`.";
case "childStdin":
return "Close the child process stdin by calling `proc.stdin.close()`.";
case "childStdout":
return "Close the child process stdout by calling `proc.stdout.close()`.";
case "childStderr":
return "Close the child process stderr by calling `proc.stderr.close()`.";
case "child":
return "Close the child process by calling `proc.kill()` or `proc.close()`.";
case "signal":
return "Clear the signal listener by calling `Deno.removeSignalListener`.";
case "stdin":
return "Close the stdin pipe by calling `Deno.stdin.close()`.";
case "stdout":
return "Close the stdout pipe by calling `Deno.stdout.close()`.";
case "stderr":
return "Close the stderr pipe by calling `Deno.stderr.close()`.";
case "compression":
return "Close the compression stream by calling `await stream.writable.close()`.";
default:
return "Close the resource before the end of the test.";
}
}
// 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 allResources = new Set([
...new SafeArrayIterator(ObjectKeys(pre)),
...new SafeArrayIterator(ObjectKeys(post)),
]);
const details = [];
for (const resource of allResources) {
const preResource = pre[resource];
const postResource = post[resource];
if (preResource === postResource) continue;
if (preResource === undefined) {
const [name, action1, action2] = prettyResourceNames(postResource);
const hint = resourceCloseHint(postResource);
const detail =
`${name} (rid ${resource}) was ${action1} during the test, but not ${action2} during the test. ${hint}`;
details.push(detail);
} else {
const [name, action1, action2] = prettyResourceNames(preResource);
const detail =
`${name} (rid ${resource}) was ${action1} before the test started, but was ${action2} during the test. Do not close resources in a test that were not created during that test.`;
details.push(detail);
}
}
const message = `Test case is leaking ${details.length} resource${
details.length === 1 ? "" : "s"
}:
- ${details.join("\n - ")}
`;
assert(details.length === 0, message);
};
}
// 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(...new SafeArrayIterator(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(...new SafeArrayIterator(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 (ObjectPrototypeIsPrototypeOf(AggregateErrorPrototype, error)) {
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 (!(ObjectPrototypeIsPrototypeOf(FunctionPrototype, fn))) {
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);