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denoland-deno/cli/js/40_testing.js

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JavaScript

// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
const core = globalThis.Deno.core;
const ops = core.ops;
import { setExitHandler } from "ext:runtime/30_os.js";
import { Console } from "ext:deno_console/01_console.js";
import { serializePermissions } from "ext:runtime/10_permissions.js";
import { setTimeout } from "ext:deno_web/02_timers.js";
import { assert } from "ext:deno_web/00_infra.js";
const primordials = globalThis.__bootstrap.primordials;
const {
ArrayPrototypeFilter,
ArrayPrototypeJoin,
ArrayPrototypePush,
ArrayPrototypeShift,
DateNow,
Error,
FunctionPrototype,
Map,
MapPrototypeGet,
MapPrototypeHas,
MapPrototypeSet,
MathCeil,
ObjectKeys,
ObjectPrototypeIsPrototypeOf,
Promise,
SafeArrayIterator,
Set,
StringPrototypeReplaceAll,
SymbolToStringTag,
TypeError,
} = primordials;
const opSanitizerDelayResolveQueue = [];
let hasSetOpSanitizerDelayMacrotask = false;
// 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
// all ready async ops resolve, and the timer macrotask. Using just a macrotask
// callback without delaying is sufficient, because when the macrotask callback
// runs after async op dispatch, we know that all async ops that can currently
// return `Poll::Ready` have done so, and have been dispatched to JS.
//
// Worker ops are an exception to this, because there is no way for the user to
// await shutdown of the worker from the thread calling `worker.terminate()`.
// Because of this, we give extra leeway for worker ops to complete, by waiting
// for a whole millisecond if there are pending worker ops.
function opSanitizerDelay(hasPendingWorkerOps) {
if (!hasSetOpSanitizerDelayMacrotask) {
core.setMacrotaskCallback(handleOpSanitizerDelayMacrotask);
hasSetOpSanitizerDelayMacrotask = true;
}
const p = new Promise((resolve) => {
// Schedule an async op to complete immediately to ensure the macrotask is
// run. We rely on the fact that enqueueing the resolver callback during the
// timeout callback will mean that the resolver gets called in the same
// event loop tick as the timeout callback.
setTimeout(() => {
ArrayPrototypePush(opSanitizerDelayResolveQueue, resolve);
}, hasPendingWorkerOps ? 1 : 0);
});
return p;
}
function handleOpSanitizerDelayMacrotask() {
const resolve = ArrayPrototypeShift(opSanitizerDelayResolveQueue);
if (resolve) {
resolve();
return opSanitizerDelayResolveQueue.length === 0;
}
return undefined; // we performed no work, so can skip microtasks checkpoint
}
// 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_net_recv_udp": ["receive a datagram message via UDP", "awaiting the result of `Deno.DatagramConn#receive` call, or not breaking out of a for await loop looping over a `Deno.DatagramConn`"],
"op_net_recv_unixpacket": ["receive a datagram message via Unixpacket", "awaiting the result of `Deno.DatagramConn#receive` call, or not breaking out of a for await loop looping over a `Deno.DatagramConn`"],
"op_net_send_udp": ["send a datagram message via UDP", "awaiting the result of `Deno.DatagramConn#send` call"],
"op_net_send_unixpacket": ["send a datagram message via Unixpacket", "awaiting the result of `Deno.DatagramConn#send` call"],
"op_dns_resolve": ["resolve a DNS name", "awaiting the result of a `Deno.resolveDns` 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_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_tcp": ["accept a TCP stream", "closing a `Deno.Listener`"],
"op_net_accept_unix": ["accept a Unix stream", "closing a `Deno.Listener`"],
"op_net_connect_tcp": ["connect to a TCP server", "awaiting a `Deno.connect` call"],
"op_net_connect_unix": ["connect to a Unix 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_net_accept_tls": ["accept a TLS stream", "closing a `Deno.TlsListener`"],
"op_net_connect_tls": ["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_host_recv_message": ["receive a message from a web worker", "terminating a `Worker`"],
"op_host_recv_ctrl": ["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_text": ["send a message on a WebSocket", "closing a `WebSocket` or `WebSocketStream`"],
"op_ws_send_binary": ["send a message on a WebSocket", "closing a `WebSocket` or `WebSocketStream`"],
"op_ws_send_binary_ab": ["send a message on a WebSocket", "closing a `WebSocket` or `WebSocketStream`"],
"op_ws_send_ping": ["send a message on a WebSocket", "closing a `WebSocket` or `WebSocketStream`"],
"op_ws_send_pong": ["send a message on a WebSocket", "closing a `WebSocket` or `WebSocketStream`"],
};
let opIdHostRecvMessage = -1;
let opIdHostRecvCtrl = -1;
let opNames = null;
function populateOpNames() {
opNames = core.ops.op_op_names();
opIdHostRecvMessage = opNames.indexOf("op_host_recv_message");
opIdHostRecvCtrl = opNames.indexOf("op_host_recv_ctrl");
}
// 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 desc {TestDescription | TestStepDescription} */
return async function asyncOpSanitizer(desc) {
if (opNames === null) populateOpNames();
const res = core.ops.op_test_op_sanitizer_collect(
desc.id,
false,
opIdHostRecvMessage,
opIdHostRecvCtrl,
);
if (res !== 0) {
await opSanitizerDelay(res === 2);
core.ops.op_test_op_sanitizer_collect(
desc.id,
true,
opIdHostRecvMessage,
opIdHostRecvCtrl,
);
}
const preTraces = new Map(core.opCallTraces);
let postTraces;
let report = null;
try {
const innerResult = await fn(desc);
if (innerResult) return innerResult;
} finally {
let res = core.ops.op_test_op_sanitizer_finish(
desc.id,
false,
opIdHostRecvMessage,
opIdHostRecvCtrl,
);
if (res === 1 || res === 2) {
await opSanitizerDelay(res === 2);
res = core.ops.op_test_op_sanitizer_finish(
desc.id,
true,
opIdHostRecvMessage,
opIdHostRecvCtrl,
);
}
postTraces = new Map(core.opCallTraces);
if (res === 3) {
report = core.ops.op_test_op_sanitizer_report(desc.id);
}
}
if (report === null) return null;
const details = [];
for (const opReport of report) {
const opName = opNames[opReport.id];
const diff = opReport.diff;
if (diff > 0) {
const [name, hint] = OP_DETAILS[opName] || [opName, null];
const count = diff;
let message = `${count} async operation${
count === 1 ? "" : "s"
} to ${name} ${
count === 1 ? "was" : "were"
} started in this test, but never completed.`;
if (hint) {
message += ` This is often caused by not ${hint}.`;
}
const traces = [];
for (const [id, { opName: traceOpName, stack }] of postTraces) {
if (traceOpName !== opName) continue;
if (MapPrototypeHas(preTraces, id)) continue;
ArrayPrototypePush(traces, stack);
}
if (traces.length === 1) {
message += " The operation was started here:\n";
message += traces[0];
} else if (traces.length > 1) {
message += " The operations were started here:\n";
message += ArrayPrototypeJoin(traces, "\n\n");
}
ArrayPrototypePush(details, message);
} else if (diff < 0) {
const [name, hint] = OP_DETAILS[opName] || [opName, null];
const count = -diff;
let message = `${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.`;
if (hint) {
message += ` This is often caused by not ${hint}.`;
}
const traces = [];
for (const [id, { opName: traceOpName, stack }] of preTraces) {
if (opName !== traceOpName) continue;
if (MapPrototypeHas(postTraces, 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 {
throw new Error("unreachable");
}
}
return { failed: { leakedOps: [details, core.isOpCallTracingEnabled()] } };
};
}
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 "fetchResponse":
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", "finished"];
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 "fetchResponse":
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()` or `await child.stdout.cancel()`.";
case "childStderr":
return "Close the child process stderr by calling `proc.stderr.close()` or `await child.stderr.cancel()`.";
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 desc {TestDescription | TestStepDescription} */
return async function resourceSanitizer(desc) {
const pre = core.resources();
const innerResult = await fn(desc);
if (innerResult) return innerResult;
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. ${hint}`;
ArrayPrototypePush(details, detail);
} else {
const [name, action1, action2] = prettyResourceNames(preResource);
const detail =
`${name} (rid ${resource}) was ${action1} before the test started, but was ${action2} during the test. Do not close resources in a test that were not created during that test.`;
ArrayPrototypePush(details, detail);
}
}
if (details.length == 0) {
return null;
}
return { failed: { leakedResources: details } };
};
}
// Wrap test function in additional assertion that makes sure
// that the test case does not accidentally exit prematurely.
function assertExit(fn, isTest) {
return async function exitSanitizer(...params) {
setExitHandler((exitCode) => {
assert(
false,
`${
isTest ? "Test case" : "Bench"
} attempted to exit with exit code: ${exitCode}`,
);
});
try {
const innerResult = await fn(...new SafeArrayIterator(params));
if (innerResult) return innerResult;
} finally {
setExitHandler(null);
}
};
}
function wrapOuter(fn, desc) {
return async function outerWrapped() {
try {
if (desc.ignore) {
return "ignored";
}
return await fn(desc) ?? "ok";
} catch (error) {
return { failed: { jsError: core.destructureError(error) } };
} finally {
const state = MapPrototypeGet(testStates, desc.id);
for (const childDesc of state.children) {
stepReportResult(childDesc, { failed: "incomplete" }, 0);
}
state.completed = true;
}
};
}
function wrapInner(fn) {
/** @param desc {TestDescription | TestStepDescription} */
return async function innerWrapped(desc) {
function getRunningStepDescs() {
const results = [];
let childDesc = desc;
while (childDesc.parent != null) {
const state = MapPrototypeGet(testStates, childDesc.parent.id);
for (const siblingDesc of state.children) {
if (siblingDesc.id == childDesc.id) {
continue;
}
const siblingState = MapPrototypeGet(testStates, siblingDesc.id);
if (!siblingState.completed) {
ArrayPrototypePush(results, siblingDesc);
}
}
childDesc = childDesc.parent;
}
return results;
}
const runningStepDescs = getRunningStepDescs();
const runningStepDescsWithSanitizers = ArrayPrototypeFilter(
runningStepDescs,
(d) => usesSanitizer(d),
);
if (runningStepDescsWithSanitizers.length > 0) {
return {
failed: {
overlapsWithSanitizers: runningStepDescsWithSanitizers.map(
getFullName,
),
},
};
}
if (usesSanitizer(desc) && runningStepDescs.length > 0) {
return {
failed: { hasSanitizersAndOverlaps: runningStepDescs.map(getFullName) },
};
}
await fn(MapPrototypeGet(testStates, desc.id).context);
let failedSteps = 0;
for (const childDesc of MapPrototypeGet(testStates, desc.id).children) {
const state = MapPrototypeGet(testStates, childDesc.id);
if (!state.completed) {
return { failed: "incompleteSteps" };
}
if (state.failed) {
failedSteps++;
}
}
return failedSteps == 0 ? null : { failed: { failedSteps } };
};
}
function pledgePermissions(permissions) {
return ops.op_pledge_test_permissions(
serializePermissions(permissions),
);
}
function restorePermissions(token) {
ops.op_restore_test_permissions(token);
}
function withPermissions(fn, permissions) {
return async function applyPermissions(...params) {
const token = pledgePermissions(permissions);
try {
return await fn(...new SafeArrayIterator(params));
} finally {
restorePermissions(token);
}
};
}
const ESCAPE_ASCII_CHARS = [
["\b", "\\b"],
["\f", "\\f"],
["\t", "\\t"],
["\n", "\\n"],
["\r", "\\r"],
["\v", "\\v"],
];
/**
* @param {string} name
* @returns {string}
*/
function escapeName(name) {
// Check if we need to escape a character
for (let i = 0; i < name.length; i++) {
const ch = name.charCodeAt(i);
if (ch <= 13 && ch >= 8) {
// Slow path: We do need to escape it
for (const [escape, replaceWith] of ESCAPE_ASCII_CHARS) {
name = StringPrototypeReplaceAll(name, escape, replaceWith);
}
return name;
}
}
// We didn't need to escape anything, return original string
return name;
}
/**
* @typedef {{
* id: number,
* name: string,
* fn: TestFunction
* origin: string,
* location: TestLocation,
* ignore: boolean,
* only: boolean.
* sanitizeOps: boolean,
* sanitizeResources: boolean,
* sanitizeExit: boolean,
* permissions: PermissionOptions,
* }} TestDescription
*
* @typedef {{
* id: number,
* name: string,
* fn: TestFunction
* origin: string,
* location: TestLocation,
* ignore: boolean,
* level: number,
* parent: TestDescription | TestStepDescription,
* rootId: number,
* rootName: String,
* sanitizeOps: boolean,
* sanitizeResources: boolean,
* sanitizeExit: boolean,
* }} TestStepDescription
*
* @typedef {{
* context: TestContext,
* children: TestStepDescription[],
* completed: boolean,
* }} TestState
*
* @typedef {{
* context: TestContext,
* children: TestStepDescription[],
* completed: boolean,
* failed: boolean,
* }} TestStepState
*
* @typedef {{
* id: number,
* name: string,
* fn: BenchFunction
* origin: string,
* ignore: boolean,
* only: boolean.
* sanitizeExit: boolean,
* permissions: PermissionOptions,
* }} BenchDescription
*/
/** @type {Map<number, TestState | TestStepState>} */
const testStates = new Map();
/** @type {number | null} */
let currentBenchId = null;
// These local variables are used to track time measurements at
// `BenchContext::{start,end}` calls. They are global instead of using a state
// map to minimise the overhead of assigning them.
/** @type {number | null} */
let currentBenchUserExplicitStart = null;
/** @type {number | null} */
let currentBenchUserExplicitEnd = null;
const registerTestIdRetBuf = new Uint32Array(1);
const registerTestIdRetBufU8 = new Uint8Array(registerTestIdRetBuf.buffer);
function testInner(
nameOrFnOrOptions,
optionsOrFn,
maybeFn,
overrides = {},
) {
if (typeof ops.op_register_test != "function") {
return;
}
let testDesc;
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") {
testDesc = { 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.",
);
}
testDesc = {
...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()");
}
testDesc = {
...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");
}
testDesc = { ...defaults, ...nameOrFnOrOptions, fn, name };
}
testDesc = { ...testDesc, ...overrides };
// Delete this prop in case the user passed it. It's used to detect steps.
delete testDesc.parent;
testDesc.location = core.currentUserCallSite();
testDesc.fn = wrapTest(testDesc);
testDesc.name = escapeName(testDesc.name);
const origin = ops.op_register_test(
testDesc.fn,
testDesc.name,
testDesc.ignore,
testDesc.only,
testDesc.location.fileName,
testDesc.location.lineNumber,
testDesc.location.columnNumber,
registerTestIdRetBufU8,
);
testDesc.id = registerTestIdRetBuf[0];
testDesc.origin = origin;
MapPrototypeSet(testStates, testDesc.id, {
context: createTestContext(testDesc),
children: [],
completed: false,
});
}
// Main test function provided by Deno.
function test(
nameOrFnOrOptions,
optionsOrFn,
maybeFn,
) {
return testInner(nameOrFnOrOptions, optionsOrFn, maybeFn);
}
test.ignore = function (nameOrFnOrOptions, optionsOrFn, maybeFn) {
return testInner(nameOrFnOrOptions, optionsOrFn, maybeFn, { ignore: true });
};
test.only = function (
nameOrFnOrOptions,
optionsOrFn,
maybeFn,
) {
return testInner(nameOrFnOrOptions, optionsOrFn, maybeFn, { only: true });
};
let registeredWarmupBench = false;
// Main bench function provided by Deno.
function bench(
nameOrFnOrOptions,
optionsOrFn,
maybeFn,
) {
if (typeof ops.op_register_bench != "function") {
return;
}
if (!registeredWarmupBench) {
registeredWarmupBench = true;
const warmupBenchDesc = {
name: "<warmup>",
fn: function warmup() {},
async: false,
ignore: false,
baseline: false,
only: false,
sanitizeExit: true,
permissions: null,
warmup: true,
};
warmupBenchDesc.fn = wrapBenchmark(warmupBenchDesc);
const { id, origin } = ops.op_register_bench(warmupBenchDesc);
warmupBenchDesc.id = id;
warmupBenchDesc.origin = origin;
}
let benchDesc;
const defaults = {
ignore: false,
baseline: false,
only: false,
sanitizeExit: true,
permissions: null,
};
if (typeof nameOrFnOrOptions === "string") {
if (!nameOrFnOrOptions) {
throw new TypeError("The bench name can't be empty");
}
if (typeof optionsOrFn === "function") {
benchDesc = { fn: optionsOrFn, name: nameOrFnOrOptions, ...defaults };
} else {
if (!maybeFn || typeof maybeFn !== "function") {
throw new TypeError("Missing bench function");
}
if (optionsOrFn.fn != undefined) {
throw new TypeError(
"Unexpected 'fn' field in options, bench function is already provided as the third argument.",
);
}
if (optionsOrFn.name != undefined) {
throw new TypeError(
"Unexpected 'name' field in options, bench name is already provided as the first argument.",
);
}
benchDesc = {
...defaults,
...optionsOrFn,
fn: maybeFn,
name: nameOrFnOrOptions,
};
}
} else if (typeof nameOrFnOrOptions === "function") {
if (!nameOrFnOrOptions.name) {
throw new TypeError("The bench function must have a name");
}
if (optionsOrFn != undefined) {
throw new TypeError("Unexpected second argument to Deno.bench()");
}
if (maybeFn != undefined) {
throw new TypeError("Unexpected third argument to Deno.bench()");
}
benchDesc = {
...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, bench 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 bench function.",
);
}
fn = nameOrFnOrOptions.fn;
name = nameOrFnOrOptions.name ?? fn.name;
}
if (!name) {
throw new TypeError("The bench name can't be empty");
}
benchDesc = { ...defaults, ...nameOrFnOrOptions, fn, name };
}
const AsyncFunction = (async () => {}).constructor;
benchDesc.async = AsyncFunction === benchDesc.fn.constructor;
benchDesc.fn = wrapBenchmark(benchDesc);
benchDesc.warmup = false;
benchDesc.name = escapeName(benchDesc.name);
const { id, origin } = ops.op_register_bench(benchDesc);
benchDesc.id = id;
benchDesc.origin = origin;
}
function compareMeasurements(a, b) {
if (a > b) return 1;
if (a < b) return -1;
return 0;
}
function benchStats(n, highPrecision, usedExplicitTimers, avg, min, max, all) {
return {
n,
min,
max,
p75: all[MathCeil(n * (75 / 100)) - 1],
p99: all[MathCeil(n * (99 / 100)) - 1],
p995: all[MathCeil(n * (99.5 / 100)) - 1],
p999: all[MathCeil(n * (99.9 / 100)) - 1],
avg: !highPrecision ? (avg / n) : MathCeil(avg / n),
highPrecision,
usedExplicitTimers,
};
}
async function benchMeasure(timeBudget, fn, async, context) {
let n = 0;
let avg = 0;
let wavg = 0;
let usedExplicitTimers = false;
const all = [];
let min = Infinity;
let max = -Infinity;
const lowPrecisionThresholdInNs = 1e4;
// warmup step
let c = 0;
let iterations = 20;
let budget = 10 * 1e6;
if (!async) {
while (budget > 0 || iterations-- > 0) {
const t1 = benchNow();
fn(context);
const t2 = benchNow();
const totalTime = t2 - t1;
if (currentBenchUserExplicitStart !== null) {
currentBenchUserExplicitStart = null;
usedExplicitTimers = true;
}
if (currentBenchUserExplicitEnd !== null) {
currentBenchUserExplicitEnd = null;
usedExplicitTimers = true;
}
c++;
wavg += totalTime;
budget -= totalTime;
}
} else {
while (budget > 0 || iterations-- > 0) {
const t1 = benchNow();
await fn(context);
const t2 = benchNow();
const totalTime = t2 - t1;
if (currentBenchUserExplicitStart !== null) {
currentBenchUserExplicitStart = null;
usedExplicitTimers = true;
}
if (currentBenchUserExplicitEnd !== null) {
currentBenchUserExplicitEnd = null;
usedExplicitTimers = true;
}
c++;
wavg += totalTime;
budget -= totalTime;
}
}
wavg /= c;
// measure step
if (wavg > lowPrecisionThresholdInNs) {
let iterations = 10;
let budget = timeBudget * 1e6;
if (!async) {
while (budget > 0 || iterations-- > 0) {
const t1 = benchNow();
fn(context);
const t2 = benchNow();
const totalTime = t2 - t1;
let measuredTime = totalTime;
if (currentBenchUserExplicitStart !== null) {
measuredTime -= currentBenchUserExplicitStart - t1;
currentBenchUserExplicitStart = null;
}
if (currentBenchUserExplicitEnd !== null) {
measuredTime -= t2 - currentBenchUserExplicitEnd;
currentBenchUserExplicitEnd = null;
}
n++;
avg += measuredTime;
budget -= totalTime;
ArrayPrototypePush(all, measuredTime);
if (measuredTime < min) min = measuredTime;
if (measuredTime > max) max = measuredTime;
}
} else {
while (budget > 0 || iterations-- > 0) {
const t1 = benchNow();
await fn(context);
const t2 = benchNow();
const totalTime = t2 - t1;
let measuredTime = totalTime;
if (currentBenchUserExplicitStart !== null) {
measuredTime -= currentBenchUserExplicitStart - t1;
currentBenchUserExplicitStart = null;
}
if (currentBenchUserExplicitEnd !== null) {
measuredTime -= t2 - currentBenchUserExplicitEnd;
currentBenchUserExplicitEnd = null;
}
n++;
avg += measuredTime;
budget -= totalTime;
ArrayPrototypePush(all, measuredTime);
if (measuredTime < min) min = measuredTime;
if (measuredTime > max) max = measuredTime;
}
}
} else {
context.start = function start() {};
context.end = function end() {};
let iterations = 10;
let budget = timeBudget * 1e6;
if (!async) {
while (budget > 0 || iterations-- > 0) {
const t1 = benchNow();
for (let c = 0; c < lowPrecisionThresholdInNs; c++) {
fn(context);
}
const iterationTime = (benchNow() - t1) / lowPrecisionThresholdInNs;
n++;
avg += iterationTime;
ArrayPrototypePush(all, iterationTime);
if (iterationTime < min) min = iterationTime;
if (iterationTime > max) max = iterationTime;
budget -= iterationTime * lowPrecisionThresholdInNs;
}
} else {
while (budget > 0 || iterations-- > 0) {
const t1 = benchNow();
for (let c = 0; c < lowPrecisionThresholdInNs; c++) {
await fn(context);
currentBenchUserExplicitStart = null;
currentBenchUserExplicitEnd = null;
}
const iterationTime = (benchNow() - t1) / lowPrecisionThresholdInNs;
n++;
avg += iterationTime;
ArrayPrototypePush(all, iterationTime);
if (iterationTime < min) min = iterationTime;
if (iterationTime > max) max = iterationTime;
budget -= iterationTime * lowPrecisionThresholdInNs;
}
}
}
all.sort(compareMeasurements);
return benchStats(
n,
wavg > lowPrecisionThresholdInNs,
usedExplicitTimers,
avg,
min,
max,
all,
);
}
/** @param desc {BenchDescription} */
function createBenchContext(desc) {
return {
[SymbolToStringTag]: "BenchContext",
name: desc.name,
origin: desc.origin,
start() {
if (currentBenchId !== desc.id) {
throw new TypeError(
"The benchmark which this context belongs to is not being executed.",
);
}
if (currentBenchUserExplicitStart != null) {
throw new TypeError("BenchContext::start() has already been invoked.");
}
currentBenchUserExplicitStart = benchNow();
},
end() {
const end = benchNow();
if (currentBenchId !== desc.id) {
throw new TypeError(
"The benchmark which this context belongs to is not being executed.",
);
}
if (currentBenchUserExplicitEnd != null) {
throw new TypeError("BenchContext::end() has already been invoked.");
}
currentBenchUserExplicitEnd = end;
},
};
}
/** Wrap a user benchmark function in one which returns a structured result. */
function wrapBenchmark(desc) {
const fn = desc.fn;
return async function outerWrapped() {
let token = null;
const originalConsole = globalThis.console;
currentBenchId = desc.id;
try {
globalThis.console = new Console((s) => {
ops.op_dispatch_bench_event({ output: s });
});
if (desc.permissions) {
token = pledgePermissions(desc.permissions);
}
if (desc.sanitizeExit) {
setExitHandler((exitCode) => {
assert(
false,
`Bench attempted to exit with exit code: ${exitCode}`,
);
});
}
const benchTimeInMs = 500;
const context = createBenchContext(desc);
const stats = await benchMeasure(benchTimeInMs, fn, desc.async, context);
return { ok: stats };
} catch (error) {
return { failed: core.destructureError(error) };
} finally {
globalThis.console = originalConsole;
currentBenchId = null;
currentBenchUserExplicitStart = null;
currentBenchUserExplicitEnd = null;
if (bench.sanitizeExit) setExitHandler(null);
if (token !== null) restorePermissions(token);
}
};
}
function benchNow() {
return ops.op_bench_now();
}
function getFullName(desc) {
if ("parent" in desc) {
return `${getFullName(desc.parent)} ... ${desc.name}`;
}
return desc.name;
}
function usesSanitizer(desc) {
return desc.sanitizeResources || desc.sanitizeOps || desc.sanitizeExit;
}
function stepReportResult(desc, result, elapsed) {
const state = MapPrototypeGet(testStates, desc.id);
for (const childDesc of state.children) {
stepReportResult(childDesc, { failed: "incomplete" }, 0);
}
if (result === "ok") {
ops.op_test_event_step_result_ok(desc.id, elapsed);
} else if (result === "ignored") {
ops.op_test_event_step_result_ignored(desc.id, elapsed);
} else {
ops.op_test_event_step_result_failed(desc.id, result.failed, elapsed);
}
}
/** @param desc {TestDescription | TestStepDescription} */
function createTestContext(desc) {
let parent;
let level;
let rootId;
let rootName;
if ("parent" in desc) {
parent = MapPrototypeGet(testStates, desc.parent.id).context;
level = desc.level;
rootId = desc.rootId;
rootName = desc.rootName;
} else {
parent = undefined;
level = 0;
rootId = desc.id;
rootName = desc.name;
}
return {
[SymbolToStringTag]: "TestContext",
/**
* The current test name.
*/
name: desc.name,
/**
* Parent test context.
*/
parent,
/**
* File Uri of the test code.
*/
origin: desc.origin,
/**
* @param nameOrFnOrOptions {string | TestStepDefinition | ((t: TestContext) => void | Promise<void>)}
* @param maybeFn {((t: TestContext) => void | Promise<void>) | undefined}
*/
async step(nameOrFnOrOptions, maybeFn) {
if (MapPrototypeGet(testStates, desc.id).completed) {
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.",
);
}
let stepDesc;
if (typeof nameOrFnOrOptions === "string") {
if (!(ObjectPrototypeIsPrototypeOf(FunctionPrototype, maybeFn))) {
throw new TypeError("Expected function for second argument.");
}
stepDesc = {
name: nameOrFnOrOptions,
fn: maybeFn,
};
} else if (typeof nameOrFnOrOptions === "function") {
if (!nameOrFnOrOptions.name) {
throw new TypeError("The step function must have a name.");
}
if (maybeFn != undefined) {
throw new TypeError(
"Unexpected second argument to TestContext.step()",
);
}
stepDesc = {
name: nameOrFnOrOptions.name,
fn: nameOrFnOrOptions,
};
} else if (typeof nameOrFnOrOptions === "object") {
stepDesc = nameOrFnOrOptions;
} else {
throw new TypeError(
"Expected a test definition or name and function.",
);
}
stepDesc.ignore ??= false;
stepDesc.sanitizeOps ??= desc.sanitizeOps;
stepDesc.sanitizeResources ??= desc.sanitizeResources;
stepDesc.sanitizeExit ??= desc.sanitizeExit;
stepDesc.location = core.currentUserCallSite();
stepDesc.level = level + 1;
stepDesc.parent = desc;
stepDesc.rootId = rootId;
stepDesc.name = escapeName(stepDesc.name);
stepDesc.rootName = escapeName(rootName);
stepDesc.fn = wrapTest(stepDesc);
const id = ops.op_register_test_step(
stepDesc.name,
stepDesc.location.fileName,
stepDesc.location.lineNumber,
stepDesc.location.columnNumber,
stepDesc.level,
stepDesc.parent.id,
stepDesc.rootId,
stepDesc.rootName,
);
stepDesc.id = id;
stepDesc.origin = desc.origin;
const state = {
context: createTestContext(stepDesc),
children: [],
failed: false,
completed: false,
};
MapPrototypeSet(testStates, stepDesc.id, state);
ArrayPrototypePush(
MapPrototypeGet(testStates, stepDesc.parent.id).children,
stepDesc,
);
ops.op_test_event_step_wait(stepDesc.id);
const earlier = DateNow();
const result = await stepDesc.fn(stepDesc);
const elapsed = DateNow() - earlier;
state.failed = !!result.failed;
stepReportResult(stepDesc, result, elapsed);
return result == "ok";
},
};
}
/**
* Wrap a user test function in one which returns a structured result.
* @template T {Function}
* @param testFn {T}
* @param desc {TestDescription | TestStepDescription}
* @returns {T}
*/
function wrapTest(desc) {
let testFn = wrapInner(desc.fn);
if (desc.sanitizeOps) {
testFn = assertOps(testFn);
}
if (desc.sanitizeResources) {
testFn = assertResources(testFn);
}
if (desc.sanitizeExit) {
testFn = assertExit(testFn, true);
}
if (!("parent" in desc) && desc.permissions) {
testFn = withPermissions(testFn, desc.permissions);
}
return wrapOuter(testFn, desc);
}
import { denoNs } from "ext:runtime/90_deno_ns.js";
denoNs.bench = bench;
denoNs.test = test;