- How to Contribute
- Contributor License Agreement
- Getting Code
- Code reviews
- Code Style
- TypeScript guidelines
- Project structure and TypeScript compilation
- API guidelines
- Commit Messages
- Writing Documentation
- Writing TSDoc Comments
- Running New Documentation website locally
- Adding New Dependencies
- Running & Writing Tests
- Public API Coverage
- Debugging Puppeteer
- For Project Maintainers
First of all, thank you for your interest in Puppeteer! We'd love to accept your patches and contributions!
Contributions to this project must be accompanied by a Contributor License Agreement. You (or your employer) retain the copyright to your contribution, this simply gives us permission to use and redistribute your contributions as part of the project. Head over to https://cla.developers.google.com/ to see your current agreements on file or to sign a new one.
You generally only need to submit a CLA once, so if you've already submitted one (even if it was for a different project), you probably don't need to do it again.
- Clone this repository
git clone https://github.com/puppeteer/puppeteer
cd puppeteer
- Install dependencies
npm install
- Run Puppeteer tests locally. For more information about tests, read Running & Writing Tests.
npm run test:unit
All submissions, including submissions by project members, require review. We use GitHub pull requests for this purpose. Consult GitHub Help for more information on using pull requests.
- Coding style is fully defined in
.eslintrc
and we automatically format our code with Prettier. - It's recommended to set-up Prettier into your editor, or you can run
npm run lint:eslint:fix
to automatically format any files. - If you're working in a JS file, code should be annotated with closure annotations.
- If you're working in a TS file, you should explicitly type all variables and return types. You'll get ESLint warnings if you don't so if you're not sure use them as guidelines, and feel free to ask us for help!
To run ESLint, use:
npm run lint:eslint
You can check your code (both JS & TS) type-checks by running:
npm run build:tsc
- Try to avoid the use of
any
when possible. Considerunknown
as a better alternative. You are able to useany
if needbe, but it will generate an ESLint warning.
The code in Puppeteer is split primarily into two folders:
src
contains all source codevendor
contains all dependencies that we've vendored into the codebase. See thevendor/README.md
for details.
We structure these using TypeScript's project references, which lets us treat each folder like a standalone TypeScript project.
Currently Puppeteer ships two bundles; a CommonJS version for Node and an ESM bundle for the browser. Therefore we maintain two tsconfig
files for each project; tsconfig.esm.json
and tsconfig.cjs.json
. At build time we compile twice, once outputting to CJS and another time to output to ESM.
We compile into the lib
directory which is what we publish on the npm repository and it's structured like so:
lib
- cjs
- puppeteer <== the output of compiling `src/tsconfig.cjs.json`
- vendor <== the output of compiling `vendor/tsconfig.cjs.json`
- esm
- puppeteer <== the output of compiling `src/tsconfig.esm.json`
- vendor <== the output of compiling `vendor/tsconfig.esm.json`
We also maintain test/tsconfig.test.json
. This is only used to compile the unit test *.spec.ts
files. When the tests are run, we first compile Puppeteer as normal before running the unit tests against the compiled output. Doing this lets the test run against the compiled code we ship to users so it gives us more confidence in our compiled output being correct.
The root tsconfig.json
exists for the API Extractor; it has to find a tsconfig.json
in the project's root directory. It is not used for anything else.
When authoring new API methods, consider the following:
- Expose as little information as needed. When in doubt, don’t expose new information.
- Methods are used in favor of getters/setters.
- The only exception is namespaces, e.g.
page.keyboard
andpage.coverage
- The only exception is namespaces, e.g.
- All string literals must be small case. This includes event names and option values.
- Avoid adding "sugar" API (API that is trivially implementable in user-space) unless they're very demanded.
Commit messages should follow the Conventional Commits format. This is enforced via npm run lint
.
In particular, breaking changes should clearly be noted as “BREAKING CHANGE:” in the commit message footer. Example:
fix(page): fix page.pizza method
This patch fixes page.pizza so that it works with iframes.
Issues: #123, #234
BREAKING CHANGE: page.pizza now delivers pizza at home by default.
To deliver to a different location, use the "deliver" option:
`page.pizza({deliver: 'work'})`.
All public API should have a descriptive entry in docs/api.md
. There's a documentation linter which makes sure documentation is aligned with the codebase.
To run the documentation linter, use:
npm run doc
To format the documentation markdown and its code snippets, use:
npm run format
Each change to Puppeteer should be thoroughly documented using TSDoc comments. Refer to the API Extractor documentation for information on the exact syntax.
- Every new method needs to have either
@public
or@internal
added as a tag depending on if it is part of the public API. - Keep each line in a comment to no more than 90 characters (ESLint will warn you if you go over this). If you're a VSCode user the Rewrap plugin is highly recommended!
- In the Puppeteer's folder, install all dependencies with
npm i
. - run
npm run generate:docs
which will generate all the.md
files onpuppeteer/website/docs
. - run
npm i
onpuppeteer/website
. - run
npm start
onpuppeteer/website
.
For all dependencies (both installation and development):
- Do not add a dependency if the desired functionality is easily implementable.
- If adding a dependency, it should be well-maintained and trustworthy.
A barrier for introducing new installation dependencies is especially high:
- Do not add installation dependency unless it's critical to project success.
There are additional considerations for dependencies that are environment agonistic. See the vendor/README.md
for details.
- Every feature should be accompanied by a test.
- Every public api event/method should be accompanied by a test.
- Tests should not depend on external services.
- Tests should work on all three platforms: Mac, Linux and Win. This is especially important for screenshot tests.
Puppeteer tests are located in the test
directory and are written using Mocha. See test/README.md
for more details.
Despite being named 'unit', these are integration tests, making sure public API methods and events work as expected.
- To run all tests:
npm run test:unit
- To run a specific test, substitute the
it
withit.only
:
...
it.only('should work', async function({server, page}) {
const response = await page.goto(server.EMPTY_PAGE);
expect(response.ok).toBe(true);
});
- To disable a specific test, substitute the
it
withxit
(mnemonic rule: 'cross it'):
...
// Using "xit" to skip specific test
xit('should work', async function({server, page}) {
const response = await page.goto(server.EMPTY_PAGE);
expect(response.ok).toBe(true);
});
- To run tests in non-headless mode:
HEADLESS=false npm run test:unit
- To run Firefox tests, firstly ensure you have Firefox installed locally (you only need to do this once, not on every test run) and then you can run the tests:
PUPPETEER_PRODUCT=firefox node install.js
PUPPETEER_PRODUCT=firefox npm run test:unit
- To run experimental Chromium MacOS ARM tests, firstly ensure you have correct Chromium version installed locally (you only need to do this once, not on every test run) and then you can run the tests:
PUPPETEER_EXPERIMENTAL_CHROMIUM_MAC_ARM=1 node install.js
PUPPETEER_EXPERIMENTAL_CHROMIUM_MAC_ARM=1 npm run test:unit
- To run tests with custom browser executable:
BINARY=<path-to-executable> npm run test:unit
Every public API method or event should be called at least once in tests. To ensure this, there's a coverage
command which tracks calls to public API and reports back if some methods/events were not called.
Run coverage:
npm run coverage
See Debugging Tips in the readme.
The following steps are needed to update the Chromium version.
- Find a suitable Chromium revision
Not all revisions have builds for all platforms, so we need to find one that does.
To do so, run
utils/check_availability.js -rd
to find the latest suitabledev
Chromium revision (seeutils/check_availability.js -help
for more options). - Update
src/revisions.ts
with the found revision number. - Update
versions.js
with the new Chromium-to-Puppeteer version mapping and updatelastMaintainedChromiumVersion
with the latest stable Chrome version. - Run
npm run test:protocol-revision
. If it fails, updatepackage.json
with the expecteddevtools-protocol
version. - Run
npm run build:tsc
andnpm install
. - Run
npm run test:unit
and ensure that all tests pass. If a test fails, bisect the upstream cause of the failure, and either update the test expectations accordingly (if it was an intended change) or work around the changes in Puppeteer (if it’s not desirable to change Puppeteer’s observable behavior). - Commit and push your changes and open a pull request.
The commit message must contain the version in
Chromium <version> (<revision>)
format to ensure that pptr.dev can parse it correctly, e.g.'feat(chromium): roll to Chromium 90.0.4427.0 (r856583)'
.
Sometimes, performing a Chromium roll causes tests to fail. To figure out the cause, you need to bisect Chromium revisions to figure out the earliest possible revision that changed the behavior. The script in utils/bisect.js
can be helpful here. Given a pattern for one or more unit tests, it will automatically bisect the current range:
node utils/bisect.js --good 686378 --bad 706915 script.js
node utils/bisect.js --unit-test Response.fromCache
By default, it will use the Chromium revision in src/revisions.ts
from the main
branch and from the working tree to determine the range to bisect.
We use release-please to automate releases. When a release should be done, check for the release PR in our pull requests and merge it.