Alternative implementation of Mocha (requires no external dependencies for security purposes).
Bmocha's CLI mimics Mocha's CLI for most features:
$ bmocha --help
Usage: bmocha [options] [files]
bmocha debug [options] [files]
bmocha init <path> [options] [files]
Commands:
debug start bmocha with the node.js debugger enabled
init <path> initialize a client-side bmocha setup at <path>
Options:
--allow-uncaught enable uncaught errors to propagate
(default: false)
-A, --async-only require all tests to use a callback or promise
(default: false)
-B, --backend <value> set the NODE_BACKEND environment variable
-b, --bail bail after first test failure (default: false)
--check-leaks check for global variable leaks (default: false)
--chrome <path> chrome binary to use for headless mode
-c, --colors force enabling of colors
-C, --no-colors force disabling of colors
--conditions <string> use custom conditional exports conditions
--config <path> path to config file (default: nearest rc file)
--csp-source <src> add content-security-policy source
(default: 'self')
--delay delay initial execution of root suite
(default: false)
--diff show diff on failure (default: true)
--dry-run report tests without executing them
-e, --env <name=val> set environment variable (can be specified multiple
times)
--exclude <file> a file to ignore
--exit force shutdown of the event loop after test run
(default: false)
--extension <ext> file extension(s) to load and/or watch
(default: js, cjs, mjs)
--fail-zero fail test run if no tests encountered
-f, --fgrep <string> only run tests containing <string>
--file <file> include a file to be ran during the suite
--firefox use firefox instead of chrome for headless mode
--forbid-only fail if exclusive test(s) encountered
(default: false)
--forbid-pending fail if pending test(s) encountered
(default: false)
--full-trace display full stack traces (default: false)
-g, --grep <pattern> only run tests matching <pattern>
-G, --growl enable growl notifications (default: false)
--globals <names> allow the given comma-delimited global <names>
-H, --headless run tests in headless chrome (default: false)
-h, --help output usage information
-i, --invert inverts --grep and --fgrep matches (default: false)
--inline-diffs display actual/expected differences inline (noop)
(default: false)
-j, --jobs <number> number of concurrent jobs for --parallel
(default: number of CPU cores minus 1)
--list-interfaces display available interfaces
--list-reporters display available reporters
-l, --listen serve client-side test files (requires browserify)
(default: false)
-m, --cmd <cmd> set browser command (default: $BROWSER)
--node <path> path to node.js binary (default: process.execPath)
-n, --node-option <arg> node or v8 option (no leading '--')
-o, --open open browser after serving (default: false)
-O, --reporter-options reporter-specific options
--opts <path> path to "mocha.opts" (default: ./test/mocha.opts)
--package <path> path to package.json for config
(default: ./package.json)
-p, --parallel run tests in parallel (noop)
-P, --port <port> port to listen on (default: 8080)
-R, --reporter <name> specify the reporter to use (default: spec)
-r, --require <name> require the given module
--recursive include sub directories (default: false)
--retries <times> set numbers of time to retry a failed test case
(default: 0)
-s, --slow <ms> "slow" test threshold in milliseconds (default: 75)
-S, --sort sort test files (default: false)
--ssl use ssl to listen (default: false)
--ssl-cert <path> path to ssl cert file
--ssl-ignore ignore certificate errors (headless mode only)
(default: false)
--ssl-key <path> path to ssl key file
--swallow swallow errors post-completion to mimic mocha
(default: true)
-t, --timeout <ms> set test-case timeout in milliseconds
(default: 2000)
--timeouts enables timeouts (default: true)
-u, --ui <name> specify user-interface (bdd) (default: bdd)
--valgrind run tests with valgrind enabled
--valgrind-log run tests with valgrind enabled (write to log file)
-V, --version output the version number
-w, --watch watch files in the current working directory
(default: false)
--watch-files <file> list of paths or globs to watch when --watch is set
--watch-ignore <file> list of paths or globs to exclude from watching.
(default: node_modules and .git)
--why display why node continues to run after the suite
has ended (similar to why-is-node-running)
-z, --console use console in browser (default: false)
Environment Variables:
BMOCHA_OPTIONS space-separated list of command-line options
$ bmocha --reporter spec test.js
Because bmocha is more or less a full clone of mocha, the MochaJS docs should be sufficient for any typical use-case. See mochajs.org.
There have been a number of NPM package attacks in the past. The most recent
being an attack on the popular event-stream
library. There are many projects
with financial components to them, cryptocurrency projects in particular.
Mocha pulls in a number of dependencies (23 with dedupes, and an even greater amount of dev dependencies):
$ npm ls
[email protected]
├── [email protected]
├── [email protected]
├─┬ [email protected]
│ └── [email protected]
├── [email protected]
├── [email protected]
├─┬ [email protected]
│ ├── [email protected]
│ ├─┬ [email protected]
│ │ ├── [email protected]
│ │ └── [email protected]
│ ├── [email protected]
│ ├── [email protected]
│ ├─┬ [email protected]
│ │ └── [email protected]
│ └── [email protected]
├── [email protected]
├── [email protected]
├─┬ [email protected]
│ └─┬ [email protected]
│ ├── [email protected]
│ └── [email protected]
├─┬ [email protected]
│ └── [email protected]
└─┬ [email protected]
└── [email protected]
As maintainers of several cryptocurrency projects, we find this attack surface to be far too large for comfort. Although we of course trust the mocha developers, only one of its dependencies need be compromised in order to potentially steal bitcoin or API keys.
As a result, bmocha pulls in zero dependencies: what you see is what you get.
The code is a couple thousand lines, residing in lib/
and bin/
.
If browserify is installed as a global or peer dependency, running tests in headless chrome is as easy as:
$ bmocha -H test.js
Chromium or chrome must be installed in one of the usual locations depending on your OS. If both are installed, bmocha prefers chromium over chrome.
The tests will run in a browserify environment with some extra features:
console.{log,error,info,warn,dir}
andprocess.{stdout,stderr}
will work as expected.process.{exit,abort}
will work as expected.- The
fs
module will work in "read-only" mode. All of the read calls, includingaccess
,exists
,stat
,readdir
, andreadFile
will all work properly (sync and async). As a security measure, they will only be able to access your current working directory and nothing else.
If your chrome binary is somewhere non-standard, you are able to pass the
--chrome
flag.
$ bmocha --chrome="$(which google-chrome-unstable)" test.js
To run the tests in your default non-headless browser:
$ bmocha -o test.js
Will open a browser window and display output in the DOM.
To run with the output written to the console instead:
$ bmocha -oz test.js
To pass a custom browser to open, use -m
instead of -o
:
$ bmocha -m 'chromium %s' test.js
Where %s
is where you want the server's URL to be placed.
For example, to run chromium in app mode:
$ bmocha -m 'chromium --app=%s' test.js
By default, bmocha will start an HTTP server listening on a random port. To specify the port:
$ bmocha -P 8080 -m 'chromium --app=%s' test.js
And finally, to simply start an http server without any browser action, the
-l
flag is available:
$ bmocha -lp 8080 test.js
In the browser, your code may be using workers. To notify bmocha of this, a
global register
call is exposed during test execution.
function createWorker() {
if (process.env.BMOCHA) {
// Usage: register([desired-url-path], [filesystem-path]);
register('/worker.js', [__dirname, 'worker.js']);
}
return new Worker('/worker.js');
}
When createWorker
is called, the bmocha server is notified that it should
compile and serve ${__dirname}/worker.js
as /worker.js
.
Bmocha supports arrow functions in a backwardly compatible way:
describe('Suite', function() {
this.timeout(1000);
it('should skip test', () => {
this.skip();
assert(1 === 0);
});
});
describe('Suite', (self) => {
self.timeout(1000);
it('should skip test', () => {
self.skip();
assert(1 === 0);
});
});
Both styles are valid. Note that the this
style requires at least one outer
function defined as a regular function
expression.
Bmocha also includes out-of-the-box support for ESM:
$ bmocha --experimental-modules ./test.mjs
Since we're building from scratch with zero dependents, we have an opportunity to fix some of the bugs in Mocha.
For example:
describe('Suite', () => {
it('should fail', (cb) => {
cb();
throw new Error('foobar');
});
});
$ mocha test.js
Suite
✓ should fail
1 passing (6ms)
The above passes in mocha and swallows the error. We don't want to interfere with existing mocha tests, but we can output a warning to the programmer:
$ bmocha test.js
Suite
✓ should fail
! swallowed error as per mocha behavior:
Error: foobar
1 passing (4ms)
Likewise, the following tests also pass in mocha without issue:
describe('Suite', () => {
it('should fail (unhandled rejection)', () => {
new Promise((resolve, reject) => {
reject(new Error('foobar'));
});
});
it('should fail (resolve & resolve)', () => {
return new Promise((resolve, reject) => {
resolve(1);
resolve(2);
});
});
it('should fail (resolve & reject)', () => {
return new Promise((resolve, reject) => {
resolve(3);
reject(new Error('foobar'));
});
});
it('should fail (resolve & throw)', () => {
return new Promise((resolve, reject) => {
resolve(4);
throw new Error('foobar');
});
});
});
$ mocha test.js
Suite
✓ should fail (unhandled rejection)
✓ should fail (resolve & resolve)
✓ should fail (resolve & reject)
✓ should fail (resolve & throw)
4 passing (7ms)
Bmocha will report and catch unhandled rejections, multiple resolutions, along with other strange situations:
$ bmocha test.js
Suite
1) should fail (unhandled rejection)
2) should fail (resolve & resolve)
3) should fail (resolve & reject)
4) should fail (resolve & throw)
0 passing (4ms)
4 failing
1) Suite
should fail (unhandled rejection):
Unhandled Error: foobar
reject(new Error('foobar'));
^
at Promise (/home/bmocha/test.js:4:14)
at new Promise (<anonymous>)
at Context.it (/home/bmocha/test.js:3:5)
2) Suite
should fail (resolve & resolve):
Uncaught Error: Multiple resolves detected for number.
2
3) Suite
should fail (resolve & reject):
Uncaught Error: Multiple rejects detected for error.
Error: foobar
at Promise (/home/bmocha/test.js:18:14)
at new Promise (<anonymous>)
at Context.it (/home/bmocha/test.js:16:12)
reject(new Error('foobar'));
^
4) Suite
should fail (resolve & throw):
Uncaught Error: Multiple rejects detected for error.
Error: foobar
at Promise (/home/bmocha/test.js:25:13)
at new Promise (<anonymous>)
at Context.it (/home/bmocha/test.js:23:12)
throw new Error('foobar');
^
Mocha tends to die in very strange ways on uncaught errors. Take for instance:
describe('Suite', () => {
it('should fail (setImmediate)', () => {
setImmediate(() => {
throw new Error('foobar 1');
});
});
it('should not fail (setTimeout)', () => {
setTimeout(() => {
throw new Error('foobar 2');
}, 1);
});
});
$ mocha test.js
Suite
✓ should fail (setImmediate)
1) should fail (setImmediate)
1 passing (5ms)
1 failing
1) Suite
should fail (setImmediate):
Uncaught Error: foobar 1
at Immediate.setImmediate (test.js:4:13)
✓ should not fail (setTimeout)
The garbled output shown above is very confusing and not very user friendly.
In bmocha, the results are as such:
$ bmocha test.js
Suite
1) should fail (setImmediate)
✓ should not fail (setTimeout)
1 passing (5ms)
1 failing
1) Suite
should fail (setImmediate):
Uncaught Error: foobar 1
throw new Error('foobar 1');
^
at Immediate.setImmediate (/home/bmocha/test.js:4:13)
at processImmediate (timers.js:632:19)
An error occurred outside of the test suite:
Uncaught Error: foobar 2
throw new Error('foobar 2');
^
at Timeout.setTimeout [as _onTimeout] (/home/bmocha/test.js:10:13)
at listOnTimeout (timers.js:324:15)
at processTimers (timers.js:268:5)
A note on uncaught errors, unhandled rejections, and multiple resolutions: Mocha does not even handle the latter, but it tends to die strangely on the former two. In fact, it dies almost instantly. Bmocha will attempt to "attach" uncaught errors to the currently running test and reject it. If there is no currently running test, bmocha will buffer the error until the end, at which point it will list all of the uncaught errors. If bmocha is no longer running at all, the error will be output and the process will be exited.
This can lead to differing output on each run if your process has uncaught errors. Running it again, bmocha was able to attach the error to the currently running test:
$ bmocha test.js
Suite
1) should fail (setImmediate)
2) should not fail (setTimeout)
0 passing (4ms)
2 failing
1) Suite
should fail (setImmediate):
Uncaught Error: foobar 1
throw new Error('foobar 1');
^
at Immediate.setImmediate (/home/bmocha/test.js:4:13)
at processImmediate (timers.js:632:19)
2) Suite
should not fail (setTimeout):
Uncaught Error: foobar 2
throw new Error('foobar 2');
^
at Timeout.setTimeout [as _onTimeout] (/home/bmocha/test.js:10:13)
at listOnTimeout (timers.js:324:15)
at processTimers (timers.js:268:5)
Mocha also only warns when explicitly passed a non-existent test. This is a shortcoming in CI situations which may only look at the exit code.
$ mocha test.js non-existent.js || echo 1
Warning: Could not find any test files matching pattern: non-existent.js
Suite
✓ should pass
1 passing (3ms)
Bmocha will fail outright:
$ bmocha test.js non-existent.js || echo 1
File not found: non-existent.js.
1
To explicitly run bmocha as a module:
Mocha accepts a Stream
object for output.
const assert = require('assert');
const {Mocha} = require('bmocha');
const mocha = new Mocha({
stream: process.stdout,
reporter: 'nyan',
fgrep: 'Foobar'
});
const code = await mocha.run(() => {
describe('Foobar', function() {
this.timeout(5000);
it('should check 1 == 1', function() {
this.retries(10);
assert.equal(1, 1);
});
});
});
if (code !== 0)
process.exit(code);
Running in the browser is similar. To output to the DOM, a DOMStream
object
is available:
const {Mocha, DOMStream} = require('bmocha');
const stream = new DOMStream(document.body);
const mocha = new Mocha(stream);
await mocha.run(...);
Likewise, a ConsoleStream
object is available to output to the console:
const {Mocha, ConsoleStream} = require('bmocha');
const stream = new ConsoleStream(console);
const mocha = new Mocha(stream);
await mocha.run(...);
If you contribute code to this project, you are implicitly allowing your code
to be distributed under the MIT license. You are also implicitly verifying that
all code is your original work. </legalese>
- Copyright (c) 2018-2019, Christopher Jeffrey (MIT License).
See LICENSE for more info.