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Contributing to hyperswitch

🎉 First off, thanks for taking the time to contribute! We are so happy to have you! 🎉

There are opportunities to contribute to hyperswitch at any level. It doesn't matter if you are just getting started with Rust or are the most weathered expert, we can use your help.

No contribution is too small and all contributions are valued.

This guide will help you get started. Do not let this guide intimidate you. It should be considered a map to help you navigate the process.

You can also get help with contributing on our Discord server, Slack workspace, or Discussions space. Please join us!

Table of Contents

Code of Conduct

The hyperswitch project adheres to the Rust Code of Conduct. This describes the minimum behavior expected from all contributors.

Contributing in Issues

For any issue, there are fundamentally three ways an individual can contribute:

  1. By opening the issue for discussion: For instance, if you believe that you have discovered a bug in hyperswitch, creating a new issue in the juspay/hyperswitch issue tracker is the way to report it.

  2. By helping to triage the issue: This can be done by providing supporting details (a test case that demonstrates a bug), providing suggestions on how to address the issue, or ensuring that the issue is tagged correctly.

  3. By helping to resolve the issue: Typically this is done either in the form of demonstrating that the issue reported is not a problem after all, or more often, by opening a Pull Request that changes some bit of something in hyperswitch in a concrete and reviewable manner.

Anybody can participate in any stage of contribution. We urge you to participate in the discussion around bugs and participate in reviewing PRs.

Asking for General Help

If you have reviewed existing documentation and still have questions or are having problems, you can open a discussion asking for help.

In exchange for receiving help, we ask that you contribute back a documentation PR that helps others avoid the problems that you encountered.

Submitting a Bug Report

When opening a new issue in the hyperswitch issue tracker, you will be presented with a basic template that should be filled in. If you believe that you have uncovered a bug, please fill out this form, following the template to the best of your ability. Do not worry if you cannot answer every detail, just fill in what you can.

The two most important pieces of information we need in order to properly evaluate the report is a description of the behavior you are seeing and a simple test case we can use to recreate the problem on our own. If we cannot recreate the issue, it becomes impossible for us to fix.

See How to create a Minimal, Complete, and Verifiable example.

Triaging a Bug Report

Once an issue has been opened, it is not uncommon for there to be discussion around it. Some contributors may have differing opinions about the issue, including whether the behavior being seen is a bug or a feature. This discussion is part of the process and should be kept focused, helpful, and professional.

Short, clipped responses — that provide neither additional context nor supporting detail — are not helpful or professional. To many, such responses are simply annoying and unfriendly.

Contributors are encouraged to help one another make forward progress as much as possible, empowering one another to solve issues collaboratively. If you choose to comment on an issue that you feel either is not a problem that needs to be fixed, or if you encounter information in an issue that you feel is incorrect, explain why you feel that way with additional supporting context, and be willing to be convinced that you may be wrong. By doing so, we can often reach the correct outcome much faster.

Resolving a Bug Report

In the majority of cases, issues are resolved by opening a Pull Request. The process for opening and reviewing a Pull Request is similar to that of opening and triaging issues, but carries with it a necessary review and approval workflow that ensures that the proposed changes meet the minimal quality and functional guidelines of the hyperswitch project.

Pull Requests

Pull Requests are the way concrete changes are made to the code, documentation, and dependencies in the hyperswitch repository.

Even tiny pull requests (e.g., one character pull request fixing a typo in API documentation) are greatly appreciated. Before making a large change, it is usually a good idea to first open an issue describing the change to solicit feedback and guidance. This will increase the likelihood of the PR getting merged.

Cargo Commands

Due to the extensive use of features in hyperswitch, you will often need to add extra arguments to many common cargo commands. This section lists some commonly needed commands.

Some commands just need the --all-features argument:

cargo check --all-features
cargo clippy --all-features
cargo test --all-features

The cargo fmt command requires the nightly toolchain, as we use a few of the unstable features:

cargo +nightly fmt

Commits

It is a recommended best practice to keep your changes as logically grouped as possible within individual commits. There is no limit to the number of commits any single Pull Request may have, and many contributors find it easier to review changes that are split across multiple commits.

That said, if you have a number of commits that are "checkpoints" and don't represent a single logical change, please squash those together.

Note that multiple commits often get squashed when they are landed (see the notes about commit squashing).

Commit message guidelines

Each commit message consists of a header, an optional body, and an optional footer.

<header>
<BLANK LINE>
<optional body>
<BLANK LINE>
<optional footer>

The header is mandatory and must conform to the commit message header format.

The body is optional. When the body is present it must be at least 20 characters long and must conform to the commit message body format.

The footer is optional. The commit message footer format describes what the footer is used for and the structure it must have.

Commit message header
<type>(<scope>): <short summary>
│         │             │
│         │             └── Summary in present tense.
|         |                 Not capitalized.
|         |                 No period at the end.
│         │
│         └── Commit Scope: crate name | changelog | config | migrations
|                           | openapi | postman
│
└── Commit Type: build | chore | ci | docs | feat | fix | perf | refactor | test

The <type> and <summary> fields are mandatory, the (<scope>) field is optional.

<type> must be one of the following:

  • build: Changes that affect the build system or external dependencies (example scopes: deps, dev-deps, metadata)
  • chore: Changes such as fixing formatting or addressing warnings or lints, or other maintenance changes
  • ci: Changes to our CI configuration files and scripts (examples: workflows, dependabot, renovate)
  • docs: Documentation only changes
  • feat: A new feature
  • fix: A bug fix
  • perf: A code change that improves performance
  • refactor: A code change that neither fixes a bug nor adds a feature
  • test: Adding missing tests or correcting existing tests

<scope> should be the name of the crate affected (as perceived by the person reading the changelog generated from commit messages). The scope can be more specific if the changes are targeted towards the main crate in the repository (router).

The following is the list of supported scopes:

  • masking
  • router
  • router_derive
  • router_env

There are currently a few exceptions to the "use crate name" rule:

  • changelog: Used for updating the release notes in the CHANGELOG.md file. Commonly used with the docs commit type (e.g. docs(changelog): generate release notes for v0.4.0 release).
  • config: Used for changes which affect the configuration files of any of the services.
  • migrations: Used for changes to the database migration scripts.
  • openapi: Used for changes to the OpenAPI specification file.
  • postman: Used for changes to the Postman collection file.
  • none/empty string: Useful for test and refactor changes that are done across all crates (e.g. test: add missing unit tests) and for docs changes that are not related to a specific crate (e.g. docs: fix typo in tutorial).

Use the <summary> field to provide a succinct description of the change:

  • Use the imperative, present tense: "change" not "changed" nor "changes".
  • Don't capitalize the first letter.
  • No period (.) at the end.
Commit message body

Just as in the summary, use the imperative, present tense: "fix" not "fixed" nor "fixes".

Explain the motivation for the change in the commit message body. This commit message should explain why you are making the change. You can include a comparison of the previous behavior with the new behavior in order to illustrate the impact of the change.

Commit message footer

The footer can contain information about breaking changes and deprecations and is also the place to reference GitHub issues, Jira tickets, and other PRs that this commit closes or is related to. For example:

BREAKING CHANGE: <breaking change summary>
<BLANK LINE>
<breaking change description + migration instructions>
<BLANK LINE>
<BLANK LINE>
Fixes #<issue number>

or

DEPRECATED: <what is deprecated>
<BLANK LINE>
<deprecation description + recommended update path>
<BLANK LINE>
<BLANK LINE>
Closes #<PR number>

Breaking Change section should start with the phrase "BREAKING CHANGE: " followed by a summary of the breaking change, a blank line, and a detailed description of the breaking change that also includes migration instructions.

Similarly, a Deprecation section should start with "DEPRECATED: " followed by a short description of what is deprecated, a blank line, and a detailed description of the deprecation that also mentions the recommended update path.

If the commit reverts a previous commit, it should begin with revert:, followed by the header of the reverted commit. The content of the commit message body should contain:

  • Information about the SHA of the commit being reverted in the following format: This reverts commit <SHA>.
  • A clear description of the reason for reverting the commit message.

Sample commit messages:

  1. feat(router): add 3ds support to payments core flow
    
    
    Implement Redirection flow support. This can be used by any flow that
    requires redirection.
    
    Fixes #123
    
  2. chore: run formatter
    
  3. fix(config): fix binary name displayed in help message
    

Adapted from the Angular Commit Message convention.

Opening the Pull Request

From within GitHub, opening a new Pull Request will present you with a template that should be filled out. Please try to do your best at filling out the details, but feel free to skip parts if you're not sure what to put.

Discuss and update

You will probably get feedback or requests for changes to your Pull Request. This is a big part of the submission process so don't be discouraged! Some contributors may sign off on the Pull Request right away, others may have more detailed comments or feedback. This is a necessary part of the process in order to evaluate whether the changes are correct and necessary.

Any community member can review a PR and you might get conflicting feedback. Keep an eye out for comments from code owners to provide guidance on conflicting feedback.

Once the PR is open, do not rebase the commits. See Commit Squashing for more details.

Commit Squashing

In most cases, do not squash commits that you add to your Pull Request during the review process. When the commits in your Pull Request land, they may be squashed into one commit per logical change. Metadata will be added to the commit message (including links to the Pull Request, links to relevant issues, and the names of the reviewers). The commit history of your Pull Request, however, will stay intact on the Pull Request page.

Reviewing Pull Requests

Any hyperswitch community member is welcome to review any pull request.

All hyperswitch contributors who choose to review and provide feedback on Pull Requests have a responsibility to both the project and the individual making the contribution. Reviews and feedback must be helpful, insightful, and geared towards improving the contribution as opposed to simply blocking it. If there are reasons why you feel the PR should not land, explain what those are. Do not expect to be able to block a Pull Request from advancing simply because you say "No" without giving an explanation. Be open to having your mind changed. Be open to working with the contributor to make the Pull Request better.

Reviews that are dismissive or disrespectful of the contributor or any other reviewers are strictly counter to the Code of Conduct.

When reviewing a Pull Request, the primary goals are for the codebase to improve and for the person submitting the request to succeed. Even if a Pull Request does not land, the submitters should come away from the experience feeling like their effort was not wasted or unappreciated. Every Pull Request from a new contributor is an opportunity to grow the community.

Review a bit at a time

Do not overwhelm new contributors.

It is tempting to micro-optimize and make everything about relative performance, perfect grammar, or exact style matches. Do not succumb to that temptation.

Focus first on the most significant aspects of the change:

  1. Does this change make sense for hyperswitch?
  2. Does this change make hyperswitch better, even if only incrementally?
  3. Are there clear bugs or larger scale issues that need attending to?
  4. Is the commit message readable and correct? If it contains a breaking change is it clear enough?

Note that only incremental improvement is needed to land a PR. This means that the PR does not need to be perfect, only better than the status quo. Follow up PRs may be opened to continue iterating.

When changes are necessary, request them, do not demand them, and do not assume that the submitter already knows how to add a test or run a benchmark.

Specific performance optimization techniques, coding styles and conventions change over time. The first impression you give to a new contributor never does.

Nits (requests for small changes that are not essential) are fine, but try to avoid stalling the Pull Request. Most nits can typically be fixed by the hyperswitch collaborator landing the Pull Request but they can also be an opportunity for the contributor to learn a bit more about the project.

It is always good to clearly indicate nits when you comment: e.g. Nit: change foo() to bar(). But this is not blocking.

If your comments were addressed but were not folded automatically after new commits or if they proved to be mistaken, please, hide them with the appropriate reason to keep the conversation flow concise and relevant.

Be aware of the person behind the code

Be aware that how you communicate requests and reviews in your feedback can have a significant impact on the success of the Pull Request. Yes, we may land a particular change that makes hyperswitch better, but the individual might just not want to have anything to do with hyperswitch ever again. The goal is not just having good code.

Abandoned or Stalled Pull Requests

If a Pull Request appears to be abandoned or stalled, it is polite to first check with the contributor to see if they intend to continue the work before checking if they would mind if you took it over (especially if it just has nits left). When doing so, it is courteous to give the original contributor credit for the work they started (either by preserving their name and email address in the commit log, or by using an Author: meta-data tag in the commit.

Adapted from the Node.js contributing guide.

Keeping track of issues and PRs

The hyperswitch GitHub repository has a lot of issues and PRs to keep track of. This section explains the meaning of various labels, as well as our GitHub project. The section is primarily targeted at maintainers. Most contributors aren't able to set these labels.

Area

The area label describes the area relevant to this issue or PR.

  • A-CI-CD: This issue/PR concerns our CI/CD setup.
  • A-connector-compatibility: This issue/PR concerns connector compatibility code.
  • A-connector-integration: This issue/PR concerns connector integrations.
  • A-core: This issue/PR concerns the core flows.
  • A-dependencies: The issue/PR concerns one or more of our dependencies.
  • A-drainer: The issue/PR concerns the drainer code.
  • A-errors: The issue/PR concerns error messages, error structure or error logging.
  • A-framework: The issue/PR concerns code to interact with other systems or services such as database, Redis, connector APIs, etc.
  • A-infra: This issue/PR concerns deployments, Dockerfiles, Docker Compose files, etc.
  • A-macros: This issue/PR concerns the router_derive crate.
  • A-payment-methods: This issue/PR concerns the integration of new or existing payment methods.
  • A-process-tracker: This issue/PR concerns the process tracker code.

Category

  • C-bug: This issue is a bug report or this PR is a bug fix.
  • C-doc: This issue/PR concerns changes to the documentation.
  • C-feature: This issue is a feature request or this PR adds new features.
  • C-refactor: This issue/PR concerns a refactor of existing behavior.
  • C-tracking-issue: This is a tracking issue for a proposal or for a category of bugs.

Calls for participation

  • E-easy: This is easy, ranging from quick documentation fixes to stuff you can do after getting a basic idea about our product.
  • E-medium: This is not E-easy or E-hard.
  • E-hard: This either involves very tricky code, is something we don't know how to solve, or is difficult for some other reason.

Metadata

The metadata label describes additional metadata that are important for sandbox or production deployments of our application.

  • M-api-contract-changes: This PR involves API contract changes.
  • M-configuration-changes: This PR involves configuration changes.
  • M-database-changes: This PR involves database schema changes.

Priority

  • P-low: This is a low priority issue.
  • P-medium: This is not P-low or P-high.
  • P-high: This is a high priority issue and must be addressed quickly.

RFCs

  • RFC-in-progress: This RFC involves active discussion regarding substantial design changes.
  • RFC-resolved: This RFC has been resolved.

Status

The status label provides information about the status of the issue or PR.

  • S-awaiting-triage: This issue or PR is relatively new and has not been addressed yet.
  • S-blocked: This issue or PR is blocked on something else, or other implementation work.
  • S-design: This issue or PR involves a problem without an obvious solution; or the proposed solution raises other questions.
  • S-in-progress: The implementation relevant to this issue/PR is underway.
  • S-invalid: This is an invalid issue.
  • S-needs-conflict-resolution: This PR requires merge conflicts to be resolved by the author.
  • S-needs-reproduction-steps: This behavior hasn't been reproduced by the team.
  • S-unactionable: There is not enough information to act on this problem.
  • S-unassigned: This issue has no one assigned to address it.
  • S-waiting-on-author: This PR is incomplete or the author needs to address review comments.
  • S-waiting-on-reporter: Awaiting response from the issue author.
  • S-waiting-on-review: This PR has been implemented and needs to be reviewed.
  • S-wont-fix: The proposal in this issue was rejected and will not be implemented.

Any label not listed here is not in active use.