graphql-engine/server/CONTRIBUTING.md

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Contributing

This guide explains how to set up the graphql-engine server for development on your own machine and how to contribute.

Pre-requisites

The last two prerequisites can be installed on Debian with:

$ sudo apt install libpq-dev python3 python3-pip python3-venv

Upgrading npm

If your npm is too old (>= 5.7 required):

$ npm install -g npm@latest   # sudo may be required

or update your nodejs.

Development workflow

You should fork the repo on github and then git clone https://github.com/<your-username>/graphql-engine. After making your changes

Compile

...console assets:

$ cd console
$ npm ci
$ npm run server-build
$ cd ..

...and the server:

$ cd server
$ stack build --fast

Run and test via dev.sh

The dev.sh script in the top-level scripts/ directory is a turnkey solution to build, run, and test graphql-engine using a Docker container to run a Postgres database. Docker is necessary to use dev.sh.

To use dev.sh, first launch a new postgres container with:

$ scripts/dev.sh postgres

Then in a new terminal launch graphql-engine in dev mode with:

$ scripts/dev.sh graphql-engine

The dev.sh will print some helpful information and logs from both services will be printed to screen.

You can run the test suite with:

$ scripts/dev.sh test

This should run in isolation.

Run and test manually

If you want, you can also run the server and test suite manually against a Postgres instance of your choosing.

Run

After building the graphql-engine executable with stack build, the following command can be used to launch a local graphql-engine instance:

stack exec -- graphql-engine \
  --database-url='postgres://<user>:<password>@<host>:<port>/<dbname>' \
  serve --enable-console --console-assets-dir=../console/static/dist

This will launch a server on port 8080, and it will serve the console assets if they were built with npm run server-build as mentioned above.

Test

graphql-engine has two test suites:

  1. A small set of unit tests and integration tests written in Haskell.

  2. An extensive set of end-to-end tests written in Python.

Both sets of tests require a running Postgres database.

Running the Haskell test suite
stack test --fast --test-arguments='--database-url=postgres://<user>:<password>@<host>:<port>/<dbname>'
Running the Python test suite
  1. To run the Python tests, youll need to install the necessary Python dependencies first. It is recommended that you do this in a self-contained Python venv, which is supported by Python 3.3+ out of the box. To create one, run:

    python3 -m venv .python-venv
    

    (The second argument names a directory where the venv sandbox will be created; it can be anything you like, but .python-venv is .gitignored.)

    With the venv created, you can enter into it in your current shell session by running:

    source .python-venv/bin/activate
    

    (Source .python-venv/bin/activate.fish instead if you are using fish as your shell.)

  2. Install the necessary Python dependencies into the sandbox:

    pip3 install -r tests-py/requirements.txt
    
  3. Start an instance of graphql-engine for the test suite to use:

    env EVENT_WEBHOOK_HEADER=MyEnvValue \
        WEBHOOK_FROM_ENV=http://localhost:5592/ \
      stack exec -- graphql-engine \
        --database-url='postgres://<user>:<password>@<host>:<port>/<dbname>' \
        serve --stringify-numeric-types
    

    The environment variables are needed for a couple tests, and the --stringify-numeric-types option is used to avoid the need to do floating-point comparisons.

  4. With the server running, run the test suite:

    cd tests-py
    pytest --hge-urls http://localhost:8080 \
           --pg-urls 'postgres://<user>:<password>@<host>:<port>/<dbname>'
    

This will run all the tests, which can take a couple minutes (especially since some of the tests are slow). You can configure pytest to run only a subset of the tests; see the pytest documentation for more details.

Some other useful points of note:

  • It is recommended to use a separate Postgres database for testing, since the tests will drop and recreate the hdb_catalog schema, and they may fail if certain tables already exist. (Its also useful to be able to just drop and recreate the entire test database if it somehow gets into a bad state.)

  • You can pass the -v or -vv options to pytest to enable more verbose output while running the tests and in test failures. You can also pass the -l option to display the current values of Python local variables in test failures.

Create Pull Request

  • Make sure your commit messages meet the guidelines.
  • Create a pull request from your forked repo to the main repo.
  • Every pull request will automatically build and run the tests.

Code conventions

This helps enforce a uniform style for all committers.

  • Compiler warnings are turned on, make sure your code has no warnings.
  • Use hlint to make sure your code has no warnings.
  • Use stylish-haskell to format your code.