As an open-source project, anyone can contribute to the development of @craftgate/craftgate
. If you decide to do so, please be aware of the guidelines outlined below.
@craftgate/craftgate
is written in TypeScript, which can be considered as a superset of JavaScript, so in order to contribute to the project, some familiarity with type systems and overall JavaScript knowledge is welcome.
This project uses ava as its test runner, which in turn uses yargs-parser to parse command-line arguments.
This dependency enforces an unnecessary Node.js version limitation which can be limiting for some people. In the future we might consider switching to a different test runner if this turns into an unmanageable issue.
- Node.js v10+
The project has a straightforward folder structure; the source files are located under the src/, sample integrations are located under samples/, and tests are located under test/. Any build or test/coverage artifacts are placed under untracked folder such as:
dist/
: Build artifacts.nyc_output
andcoverage
: Coverage results
As outlined in the README, the bulk of the project is split into the following categories:
- Adapters: Located under the src/adapter folder, these are classes that are responsible for managing a certain domain
- Libraries and Utilities: Located under src/lib, these are utility functions and libraries that can be used project-wide
- Enumerations and Domain Objects: Located under src/model, these are enumerations, constants and domain object models that can be used by request and response classes
- Requests: Located under src/request, these are type definitions for request formats. Note that these are only
type
definitions, so they don't enforce or validate any request data, and only serve as type hints - Response: Located under src/response, these are type definitions for response formats. Note that these are only
type
definitions, so they don't enforce or validate any response data, and only serve as type hints - Module Globals: Located under src/, these files define global classes for the project, as well as the export the root module for Common-JS compatibility
This project contains an ESLint configuration that includes recommended settings for both JavaScript and TypeScript, arbitrary prettier
settings that are built on JavaScript conventions, as well some import ordering rules.
We use husky to automatically run the linter as a pre-push Git hook to ensure that the code style is maintained throughout the project.
Hint: Most IDEs have built-in or plugin support for automatically fixing the code style upon save as per the project's ESLint configuration
You can manually run the linter using the following command:
$ npm run lint:check
And if there are any issues you can also try to fix them automatically, which will probably work most of the time:
$ npm run lint:fix
As a payment systems client, it's important to have a high test coverage. In addition to tests that test crucial parts of the libraries and utilities, we also have tests with mock HTTP clients for request/response formats, which act as contract tests.
We try to be as backwards-compatible as possible with older Node.js versions, and to ensure this we run a runtime checker on the CI pipeline. We currently go as back as 4.x, so you might have to think twice when adding a new library or using certain Node.js APIs.
To avoid any unexpected issues that might be introduced by an automatically updated dependency version, we refrain from using caret versioning (e.g. ^1.0.14
) and instead use specific versions (e.g. 1.0.14
). When adding a dependency, aside from making sure it's compatible with Node 4.x, please make sure to use the specific version number.