The project provides all its dependencies as docker containers through a docker-compose configuration.
Because of this, the only actual dependencies are [docker](https://docs.docker.com/get-docker/) and [docker-compose](https://docs.docker.com/compose/install/).
## Setting up the project
The first thing you need to do is fork the repository, and clone it in your local machine.
Then you will have to follow these steps:
* Copy all files with `.local.php.dist` extension from `config/autoload` by removing the dist extension.
For example the `common.local.php.dist` file should be copied as `common.local.php`.
* Copy the file `docker-compose.override.yml.dist` by also removing the `dist` extension.
* Start-up the project by running `docker-compose up`.
This project is structured as a modular application, using [laminas/laminas-config-aggregator](https://github.com/laminas/laminas-config-aggregator) to merge the configuration provided by every module.
All modules are inside the `module` folder, and each one has its own `src`, `test` and `config` folders, with the source code, tests and configuration. They also have their own `ConfigProvider` class, which is consumed by the config aggregator.
This is a simplified version of the project structure:
*`module`: Contains a sub-folder for every module in the project. Modules contain the source code, tests and configurations for every context in the project.
*`public`: Few assets (like `favicon.ico` or `robots.txt`) and the web entry point are stored here. This web entry point is not used when serving the app with openswoole.
The code coverage of unit tests is pretty high, and only components which work closer to the database, like entity repositories, are excluded because of their nature.
* **API tests**: These are E2E tests that spin up an instance of the app with openswoole, and test it from the outside by interacting with the REST API.
Since the app instance is run on a process different from the one running the tests, when a test fails it might not be obvious why. To help debugging that, the app will dump all its logs inside `data/log/api-tests`, where you will find the `shlink.log` and `access.log` files.
* Run `./indocker composer cs:fix` to fix coding styles (some may not be fixable from the CLI)
* Run `./indocker composer stan` to statically analyze the code with [phpstan](https://phpstan.org/). This tool is the closest to "compile" PHP and verify everything would work as expected.
This command runs the same test suite against all supported database engines in parallel. If you just want to run one of them, you can add one of `:sqlite`, `:mysql`, `:maria`, `:postgres`, `:mssql` at the end of the command.
* Run `./indocker composer infect:test` to run both unit and database tests (over sqlite) and then apply mutations to them with [infection](https://infection.github.io/).
**Important!**: Before starting to work on a pull request, make sure you always [open an issue](https://github.com/shlinkio/shlink/issues/new/choose) first.
This is important because any contribution needs to be discussed first. Maybe there's someone else already working on something similar, or there are other considerations to have in mind.
Once everything is clear, to provide a pull request to this project, you should always start by creating a new branch, where you will make all desired changes.
Before your branch can be merged, all the checks described in [Running code checks](#running-code-checks) have to be passing. You can verify that manually by running `./indocker composer ci:parallel`, or wait for the build to be run automatically after the pull request is created.