pentf - Parallel End-To-End Test Framework
pentf runs end-to-end tests (with or without web browsers, emails, and/or direct HTTP requests) in a highly parallel manner, so that tests bound by client CPU can run while other tests are waiting for an email to arrive or slow external servers to answer.
Tests are written in plain JavaScript, typically using node's built-in assert. You can use any other assertion framework too; a test is simply an async
function which throws an exception to indicate test failure.
Browser tests using puppeteer benefit from special support such as isolation of parallel tests and screenshots of test failures as well as a number of helper functions, for example to wait for text to become visible.
Depending on the environment (you can set up configurations to run the same tests against dev, stage, prod etc.), tests can be skipped, or marked as expected to fail for test driven development where you write tests first before fixing a bug or implementing a feature.
A locking system prevents two tests or the same tests on two different machines from accessing a shared resource, e.g. a test account.
You can review test results in a PDF report.
Installation
npm i --save-dev pentf puppeteer
Usage
pentf can be used as a library (A standalone binary is also planned). Create a script named run
in the directory of your tests, and fill it like this:
#!/usr/bin/env node
require('pentf').main({
rootDir: __dirname,
description: 'Test my cool application',
});
Make the file executable with chmod a+x run
, and from then on type
./run
to execute all tests. You may also want to have a look at the options.
Writing tests
Plop a new .js
file into tests/
. Its name will be the test''s name, and it should have an async run
function, like this:
const assert = require('assert').strict;
const {getMail} = require('pentf/email');
const {newPage, closePage} = require('pentf/browser_utils');
const {fetch} = require('pentf/net_utils');
const {makeRandomEmail} = require('pentf/utils');
async function run(config) {
const email = makeRandomEmail(config, 'pentf_example');
const start = new Date();
const response = await fetch(config, 'https://api.tonie.cloud/v2/users', {
method: 'POST',
headers: {
'Content-Type': 'application/json',
},
body: JSON.stringify({
locale: 'en',
email: email,
password: 'Secret123',
acceptedGeneralTerms: true,
acceptedPrivacyTerms: true,
}),
});
assert.equal(response.status, 201);
assert((await response.json()).jwt);
const mail = await getMail(config, start, email, 'Your Toniecloud confirmation link');
assert(mail);
const page = await newPage(config);
await page.goto('https://meine.tonies.de/');
await closePage(page);
}
module.exports = {
run,
description: 'pentf test example',
skip: config => config.env === 'prod',
expectedToFail: config => (config.env === 'alwaysbroken') ? 'Known to be broken here' : false,
resources: ['toniebox_1234', 'another_resource'],
};
Note that while the above example tests a webpage with puppeteer and uses pentf's has native support for HTTP requests (in net_utils
) and email sending (in email
), tests can be anything – they just have to fail the promise if the test fails.
Have a look in the API documentation for various helper functions.
Creating a test suite
Pentf supports creating multiple test cases in the same file, which is commonly referred to as a suite.
function suite(test, describe) {
test('should do something', async () => {});
test('should do something else', async () => {});
describe('sub feature', () => {
test('should work too', async () => {});
});
}
module.exports = {
suite
}
Specific tests or groups can be focused by appending .only
. Only those defined with that property will run when the current suite is executed.
function suite(test, describe) {
test('I won\'t run', async () => {});
test.only('I will run', async () => {});
describe.only('foo', () => {
test('I will run too', async() => {});
});
}
Test cases or groups can be skipped in a similar way by appending .skip
. Those tests will not be executed during a test run.
function suite(test, describe) {
test('I will run', async () => {});
test.skip('I won\'t run', async () => {});
describe.skip('foo', () => {
test('I won\'t run', async() => {});
});
}
Tips for writing good tests
By their very nature, end-to-end tests can be flaky, i.e. sometimes succeed and sometimes fail when run multiple times. We want the tests to only relay the flakiness of the systems we test, and not introduce any additional flakiness ourselves. Here are a few tips for that:
Use data-testid
attributes in browser tests
Unless otherwise documented, class names and document structures are subject to change. By setting an explicit attribute like data-testid="comment-button"
in the code, the developer and tester set up a stable contract.
Avoid: await page.waitForSelector('h1 > div.main-container form p button.large-button');
Use: await waitForTestId(page, 'comment-button');
Always wait a bit
If the tests run quick and a remote system is slow, the browser UI may not update immediately. If there is high local system load (which is necessary for the tests to run quickly), then even local updates may not be immediate:
Avoid: page.$('foo')
, page.evaluate(() => document.querySelector('foo'))
Use: page.waitForSelector('foo')
Avoid: page.type('#foo', 'bar')
Use: browser_utils.typeSelector(page, '#foo', 'bar')
Make sure you start waiting early
Make sure that an action you are waiting on has not already happend. In particular, await page.waitForNavigation()
calls should probably be replaced by checks for the new page.
Avoid:
await page.press('Enter');
await page.waitForNavigation();
await waitForText(page, 'email sent');
const since = new Date();
await getMail(config, since, email, 'Enter was pressed');
Use:
const since = new Date();
await page.press('Enter');
await waitForText(page, 'email sent');
await getMail(config, since, email, 'Enter was pressed');
Click atomically if the application updates its DOM a lot
If the application rerenders its DOM with JavaScript, you must take special care not to hold onto handles, because they might be invalid (the DOM nodes replaced by other ones) by the time you interact with them again.
Avoid:
const buttonHandle = await page.waitForSelector('button[data-testid="send-email"]');
buttonHandle.click();
Use atomic clicking functions, e.g. from browser_utils
:
await clickTestId(page, 'send-email');
Segregate tests by service
While the ultimate end-to-end test tests all services, it can be very helpful to add a test naming schema so that it's immediately clear which service or application errored. Even at the cost of some redundancy, backend tests e.g. using fetch
(tip: check out the --print-curl
option) instead of a full browser allow anyone to quickly see whether the problem occurs in the backend .
Note that this does not mean that test failures in other projects can be ignored: If a browser-based test often fails because of a certain API endpoint, that API endpoint should get its own test and further investigation.
Use: If suitable, get a test naming scheme, e.g. email_deleted
, email_notification
, sms_notification
. That way, with -f email_
you can run all email tests, and with _notification
you can run all notification tests. Use a negative lookahead like ^(?!email_|carrier-pidgeon_)
to exclude some tests.
assert early and often
When an error occurs, the test should abort immediately and not keep going on. This makes it clear where the error is and avoids confusion. A helpful error message is quick to write and saves a lot of debugging time later.
Avoid:
const id = data.foo.bar.id;
const response = await fetch(`https://example.org/widget/${id}`);
const text = await response.text();
What happens if the ID is not found? Then we will request https://example.org/widget/undefined
!
If the server is down, the text we get back may be an error page.
Use:
const id = data.foo.bar.id;
assert(id, 'ID is not set – unrecognized error in the backend?');
const response = await fetch(`https://example.org/widget/${id}`);
assert.equal(response.status, 200);
const text = await response.text();
Use assert
in strict mode
In strict assertion mode, assert
generates better errors and is generally easier to deal with.
Avoid: const assert = require('assert');
Use: const assert = require('assert').strict;
Skipping tests
If a test should not run within an environment – maybe the tested service is not available in that environment, or you don't want to run a DoS test against prod – you can skip it. Simply export a function skip
that gets called with the pentf configuration object. It returns true or a non-empty string to indicate that the test should be skipped, like this:
module.exports = {
run,
skip: config => (config.env === 'prod') && 'This test could impact customers and is therefore not run against prod',
};
Test-driven development with expectedToFail
If you write the test before a bug is fixed or a new feature is deployed, you can mark the test as expectedToFail
. An expectedToFail
test is still run, but if it fails the pipeline will still be green. If an expectedToFail
test succeeds, a warning is printed, but the test is still seen as successful. It is a good idea to include a ticket number in the output so that everybody can look up the status, like this:
module.exports = {
run,
expectedToFail: config => ['stage', 'prod'].includes(config.env) && 'Not yet rolled out (BUG-1234)',
};
You can also mark a code section instead of a full test with the function expectedToFail
.
Use -E
/--expect-nothing
to disable the expectedToFail special treatment.
Configuration
pentf is designed to be run against different configurations, e.g. local/dev/stage/prod. Create files in the config
subdirectory for each environment, in one of the following formats:
- JSON: A
.json
file with the keys and associated values. (example) - Simple JavaScript: A
.js
file which exports the configuration. (example) - Async JavaScript: A
.js
file which exports an async function being called with the environment name and returning the configuration. (example)
You can also add a programatic configuration for multiple environments by passing a function defaultConfig
to pentf.main
; see pentf's own run for an example.
The keys are up to you; for example you probably want to have a main entry point. pentf claims the following keys:
extends
Inherit from the specified environment. It is common to have a _common
environment (i.e. a file _common.json
or common.
) which all environments inherit from. You can also construct combined environments, e.g. prod backend with a development frontend.external_locking_url
Base URL of the external lockserver to use to avoid test runs on different machines using shared resources (such as test accounts, limited widgets etc.) at the same time (see locking below).email
The base email address used in makeRandomEmail
.imap
If you are using the pentf/email
module to fetch and test emails, configure your imap connection here, like
"imap": {
"user": "user@example.com",
"password": "secret",
"host": "mail.example.com",
"port": 993,
"tls": true
}
rejectUnauthorized
Set to false
to not check the certificate in TLS connections.
Options
-h, --help Show this help message and exit.
-e YOUR_ENVIRONMENTS, --env YOUR_ENVIRONMENTS
The environment to test against. Default is local.
--version Print version of tests and test framework and exit.
Output
-v, --verbose Let tests output diagnostic details
--log-file FILE Write verbose log information to disk. Doesn't affect tty logging.
-q, --quiet Do not output test status
--no-clear-line, --ci
Never clear the current output line (as if output is not a tty)
--print-config Output the effective configuration and exit.
-c, --print-curl Print curl commands for each HTTP request
-I REGEXP, --ignore-errors REGEXP
Do not output error messages matching the regular expression. Example: -I
"\(TOC-[0-9]+\)"
-E, --expect-nothing Ignore expectedToFail attributes on tests
--no-colors Disable colors in stdout
Writing results to disk
-J, --json Write tests results as a JSON file.
--json-file FILE.json
JSON file to write to. Defaults to results.json .
-H, --html Write test results as an HTML file.
--html-file FILE.html
HTML file to write a report to. Defaults to results.html .
--pdf Write test results as a PDF file. (Now enabled by default)
--no-pdf Do not write a PDF report with test results.
--pdf-file FILE.pdf PDF file to write a report to. Defaults to results.pdf .
-M, --markdown Write tests results as a Markdown file.
--markdown-file FILE.md
Markdown file to write a report to. Defaults to results.md .
--load-json INPUT.json
Load test results from JSON (instead of executing tests)
--sentry Enable error reporting via Sentry. By default, this will be activated if the CI
environment variable is set and a SENTRY_DSN is configured.
--no-sentry Disable error reporting via Sentry even if it is configured
--sentry-dsn OVERRIDE_SENTRY_DSN
Override Sentry DSN. By default, the SENTRY_DSN environment variable is used.
Test selection
-f REGEXP, --filter REGEXP
Regular expression to match names of tests to run
-b REGEXP, --filter-body REGEXP
Run only tests whose full code is matched by this regular expression
-l, --list List all tests that would be run and exit
-a, --all, --include-slow-tests
Run tests that take a very long time
--tests-glob TESTSGLOB
Glob pattern to use when searching test files
Email
--keep-emails Keep generated emails instead of deleting them
--email-verbose Log all IMAP commands and responses
puppeteer browser test
-V, --visible Make browser tests visible (i.e. not headless)
--no-screenshots Do not take screenshots of browser failures
--screenshot-directory DIR
Directory to write screenshots to (default: ./screenshots)
-s MS, --slow-mo MS Wait this many milliseconds after every call to the virtual browser
-k, --keep-open Keep browser sessions open in case of failures. Implies -V.
--devtools Start browser with devtools open. Implies -V
--devtools-preserve Configure devtools to preserve logs and network requests upon navigation. Implies
--devtools
--extensions [EXTENSION_DIR [EXTENSION_DIR ...]]
Load unpacked browser extensions
--forward-console Forward browser console logs
-d, --debug Shorthand for "--keep-open --devtools-preserve --forward-console"
--default-timeout MS Default timeout value for various browser functions (default: 30s)
Test runner
-C COUNT, --concurrency COUNT
Maximum number of tests to run in parallel. 0 to run without a pool, sequentially.
Can include *, +, and cpus for the number of CPUs. Defaults to 4+cpus.
-S, --sequential Do not run tests in parallel (same as -C 0)
--fail-fast Abort once a test fails
--print-tasks Output all tasks that the runner would perform, and exit
--exit-zero Terminate with exit code 0 (success) even if tests fail. (Exit codes != 0 are still
emitted in cases of internal crashes)
--repeat COUNT Run the tests the specified number of times
--repeat-flaky COUNT Repeat a failing test until it passes or the specified run count limit is reached
--timeout MS Set a maximum duration for a test case in ms before timing out. (Default: 1h)
--status-interval MS Interval in MS to print a detailed list of the current runner state.
--breadcrumbs Keep track of the last successful browser operation (breadcrumbs). This helps with
debugging test cases that timed out.
Locking
-L, --no-locking Completely disable any locking of resources between tests.
--locking-verbose Output status messages about locking
--list-conflicts Show which tasks conflict on which resources, and exit immediately
--manually-lock RESOURCES
Externally lock the specified comma-separated resources for 60s before the test
--list-locks, --list-external-locks
List (external) locks and exit
--clear-locks, --clear-external-locks
Clear all external locks and exit
--no-external-locking
Disable external locking (via a lockserver)
--external-locking-url URL
Override URL of lockserver
--display-locking-client
Display the locking client ID we would use if we would lock something now
Environment Variables
Pentf supports settings that can be set via an environment variable.
Name | Values | Description |
---|
PENTF_SHOW_CODE_FRAMES | true / false | Enable or disable amending error stacks with a code frame depicting an excerpt of the code surrounding the error location. |
License
MIT. Patches welcome!
Deprecation policy
Sometimes, we have to deprecate or move a legacy name or feature. The pentf deprecation policy is as following:
- For 6 months, a warning is only output if the
PENTF_FUTURE_DEPRECATIONS
environment variable is set. - Deprecation warnings are output all the time, but everything continues to work for 6 more months.
- Afterwards, as long as we can find any usages of the legacy variant, we keep supporting it.
- Finally, once there are no known usages of the legacy variant, we stop support alltogether.
Note that the times only apply if we cannot prove that all usages have been moved.
Currently deprecated
Feature | Replaced by | Deprecation start |
---|
utils.assertEventually | assert_utils.assertEventually | 2020-11-19 |
utils.assertAsyncEventually | assert_utils.assertAsyncEventually | 2020-11-19 |
utils.assertAlways | assert_utils.assertAlways | 2020-11-19 |