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Contributing Guide

We'd love your help!

Development Quick Start

To get the project started quickly, you can follow these steps. For more detailed instructions, see development below.

git clone https://github.com/open-telemetry/opentelemetry-js.git
cd opentelemetry-js
npm install
npm run compile
npm test

Report a bug or requesting feature

Reporting bugs is an important contribution. Please make sure to include:

  • expected and actual behavior.
  • Node version that application is running.
  • OpenTelemetry version that application is using.
  • if possible - repro application and steps to reproduce.

How to contribute

Before you start

Please read project contribution guide for general practices for OpenTelemetry project.

Conventional commit

The Conventional Commits specification is a lightweight convention on top of commit messages. It provides an easy set of rules for creating an explicit commit history; which makes it easier to write automated tools on top of. This convention dovetails with SemVer, by describing the features, fixes, and breaking changes made in commit messages. You can see examples here. We use commitlint and husky to prevent bad commit message. For example, you want to submit the following commit message git commit -s -am "my bad commit". You will receive the following error :

✖   type must be one of [ci, feat, fix, docs, style, refactor, perf, test, revert, chore] [type-enum]

Here an example that will pass the verification: git commit -s -am "chore(opentelemetry-core): update deps"

Changelog

An entry into CHANGELOG.md or experimental/CHANGELOG.md is required for the following reasons:

  • Changes made to the behaviour of the component
  • Changes to the configuration
  • Changes to default settings
  • New components being added

It is reasonable to omit an entry to the changelog under these circuimstances:

  • Updating test to remove flakiness or improve coverage
  • Updates to the CI/CD process

If there is some uncertainty with regards to if a changelog entry is needed, the recommendation is to create an entry to in the event that the change is important to the project consumers. If a change does not require a changelog entry, the label "Skip Changelog" may be applied. Pull requests with the dependencies label will be skipped by the changelog CI check. If the change affects the overall project and not any individual package, it should usually go in the main changelog. Changelog entries should be in the following format:

* feat(subject): pull request title here #{pull request number} @{author github handle}

Subject should describe the area of the project that was changed as descriptively as is possible in a short space. For example, this may be the package name if a single package was updated or just metrics if both the metrics API and SDK are affected.

Fork

In the interest of keeping this repository clean and manageable, you should work from a fork. To create a fork, click the 'Fork' button at the top of the repository, then clone the fork locally using git clone [email protected]:USERNAME/opentelemetry-js.git.

You should also add this repository as an "upstream" repo to your local copy, in order to keep it up to date. You can add this as a remote like so:

git remote add upstream https://github.com/open-telemetry/opentelemetry-js.git

#verify that the upstream exists
git remote -v

To update your fork, fetch the upstream repo's branches and commits, then merge your main with upstream's main:

git fetch upstream
git checkout main
git merge upstream/main

Remember to always work in a branch of your local copy, as you might otherwise have to contend with conflicts in main.

Please also see GitHub workflow section of general project contributing guide.

Development

Tools used

  • NPM
  • TypeScript
  • lerna to manage dependencies, compilations, and links between packages. Most lerna commands should be run by calling the provided npm scripts.
  • MochaJS for tests
  • eslint

Most of the commands needed for development are accessed as npm scripts. It is recommended that you use the provided npm scripts instead of using lerna run in most cases.

Install dependencies

This will install all dependencies for the root project and all modules managed by lerna. By default, a postinstall script will run lerna bootstrap automatically after an install. This can be avoided using the --ignore-scripts option if desired.

npm install

Compile modules

All modules are managed as a composite typescript project using Project References. This means that a breaking change in one module will be reflected in compilations of its dependent modules automatically.

DO NOT use lerna to compile all modules unless you know what you are doing because this will cause a new typescript process to be spawned for every module in the project.

# Build all modules
npm run compile

# Remove compiled output
npm run clean

These commands can also be run for specific packages instead of the whole project, which can speed up compilations while developing.

NOTE: To run commands in specific packages (compile, lint, etc), please ensure you are using at least 7.x version of npm.

# Build a single module and all of its dependencies
cd packages/opentelemetry-module-name
npm run compile

Finally, builds can be run continuously as files change using the watch npm script.

# Build all modules
npm run watch

# Build a single module and all of its dependencies
cd packages/opentelemetry-module-name
npm run watch

Running tests

Similar to compilations, tests can be run from the root to run all tests or from a single module to run only the tests for that module.

# Test all modules
npm test

# Test a single module
cd packages/opentelemetry-module-name
npm test

To run the unit tests continuously in watch mode while developing, use:

# Run test in watch mode
npm run tdd

Linting

This project uses eslint to lint source code. Just like tests and compilation, linting can be done for all packages or only a single package.

# Lint all modules
npm run lint

# Lint a single module
cd packages/opentelemetry-module-name
npm run lint

There is also a script which will automatically fix many linting errors.

# Lint all modules, fixing errors
npm run lint:fix

# Lint a single module, fixing errors
cd packages/opentelemetry-module-name
npm run lint:fix

Generating docs

We use typedoc to generate the api documentation.

To generate the docs, use:

# Generate docs in the root 'docs' directory
npm run docs

The document will be available under docs path.

Adding a package

To add a new package, copy packages/template to your new package directory and modify the package.json file to reflect your desired package settings. If the package will not support browser, the karma.conf and tsconifg.esm.json files may be deleted. If the package will support es5 targets, the reference to tsconfig.base.json in tsconfig.json should be changed to tsconfig.es5.json.

After adding the package, run npm install from the root of the project. This will update the tsconfig.json project references automatically and install all dependencies in your new package. For packages supporting browser, file tsconfig.esm.json needs to be manually updated to include reference to ES modules build.

Guidelines for Pull Requests

  • Typically we try to turn around reviews within one to two business days.
  • It is generally expected that a maintainer (@open-telemetry/javascript-maintainers) should review and merge every PR.
    • If a change has met the requirements listed below, an approver may also merge the pull request.
  • Most PRs should be merged in one to two weeks.
  • If a PR is taking longer than 30 days, please ping the approvers (@open-telemetry/javascript-approvers) as it may have been lost
  • Dependency upgrades and Security fixes: This PR is small and/or low-risk and can be merged with only maintainer reviews.
  • If your patch is not getting reviewed or you need a specific person to review it, you can @username or @open-telemetry/javascript-approvers a reviewer asking for a review in the pull request.
  • API changes, breaking changes, or large changes will be subject to more scrutiny and may require more reviewers. These PRs should only be merged by maintainers.
  • Changes to existing plugins and exporters will typically require the approval of the original plugin/exporter author.

General Merge Requirements

  • All requirements are at the discretion of the maintainers.
    • Maintainers may merge pull requests which have not strictly met these requirements.
    • Maintainers may close, block, or put on hold pull requests even if they have strictly met these requirements.
  • No “changes requested” reviews.
  • No unresolved conversations.
  • 3 approvals, including the approvals of at least 2 maintainers
    • A pull request opened by an approver may be merged with only the 2 maintainer reviews.
    • Small (simple typo, URL, update docs, or grammatical fix) or high-priority changes may be merged more quickly or with fewer reviewers at the discretion of the maintainers. This is typically indicated with the express label.
  • For plugins, exporters, and propagators approval of the original code module author is preferred but not required.
  • New or changed functionality is tested by unit tests.
  • New or changed functionality is documented.
  • Substantial changes should not be merged within 24 hours of opening in order to allow reviewers from all time zones to have a chance to review.

If all of the above requirements are met and there are no unresolved discussions, a pull request may be merged by either a maintainer or an approver.

Generating CHANGELOG documentation

  • Generate and export your Github access token: export GITHUB_AUTH=<your_token>
  • npm run changelog to generate CHANGELOG documentation in your terminal (see RELEASING.md for more details).

Platform conditional exports

Universal packages are packages that can be used in both web browsers and Node.js environment. These packages may be implemented on top of different platform APIs to achieve the same goal. Like accessing the global reference, we have different preferred ways to do it:

  • In Node.js, we access the global reference with globalThis or global:
/// packages/opentelemetry-core/src/platform/node/globalThis.ts
export const _globalThis = typeof globalThis === 'object' ? globalThis : global;
  • In web browser, we access the global reference with the following definition:
/// packages/opentelemetry-core/src/platform/browser/globalThis.ts
export const _globalThis: typeof globalThis =
  typeof globalThis === 'object' ? globalThis :
  typeof self === 'object' ? self :
  typeof window === 'object' ? window :
  typeof global === 'object' ? global :
  {} as typeof globalThis;

Even though the implementation may differ, the exported names must be aligned. It can be confusing if exported names present in one environment but not in the others.