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115 lines
3.9 KiB
115 lines
3.9 KiB
# OpenProject development setup via docker
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The quickest way to get started developing OpenProject is to use the docker setup.
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## Setup
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### 1) Checkout the code
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First you will need to checkout the code as usual.
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```
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git clone https://github.com/opf/openproject.git
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```
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This will checkout the dev branch in `openproject`. **Change into that directory.**
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If you have OpenProject checked out already make sure that you do not have a `config/database.yml`
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as that will interfere with the database connection inside of the docker containers.
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### 3) Configure environment
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Copy the env example to `.env`
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```
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cp .env.example .env
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```
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Afterwards, set the environment variables to your liking. `DEV_UID` and `DEV_GID` are required to be set so your project
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directory will not end up with files owned by root.
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### 2) Setup database and install dependencies
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```
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# Start the database. It needs to be running to run migrations and seeders
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docker-compose up -d db
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# Install frontend dependencies
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docker-compose run frontend npm i
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# Install backend dependencies, migrate, and seed
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docker-compose run backend setup
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```
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### 3) Start the stack
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The docker compose file also has the test containers defined. The easiest way to start only the development stack, use
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```
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docker-compose up frontend
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```
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To see the backend logs as well, use
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```
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docker-compose up frontend backend
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```
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This starts only the frontend and backend containers and their dependencies. This excludes the testing containers, which
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are harmless to start as well, but take up system resources and clog your logs while running.
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This process can take quite a long time on the first run where all gems are installed for the first time.
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However, these are cached in a docker volume. Meaning that from the 2nd run onwards it will start a lot quicker.
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Wait until you see `frontend_1 | : Compiled successfully.` and `backend_1 | => Rails 6.0.2.2 application starting in development http://0.0.0.0:3000` in the logs.
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This means both frontend and backend have come up successfully.
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You can now access OpenProject under http://localhost:3000, and via the live-reloaded under http://localhost:4200.
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Again the first request to the server can take some time too.
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But subsequent requests will be a lot faster.
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Changes you make to the code will be picked up automatically.
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No need to restart the containers.
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## Docker
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You can stop the processes via Ctrl + C. You can also run everything in the background by adding the `-d` option as in `bin/compose up -d`. In that case you'll still be able to see the logs using `docker logs` with the respective container name.
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You can see the started containers using `docker ps`.
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### Volumes
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There are volumes for
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* the attachments (`_opdata`)
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* the database (`_pgdata`)
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* the bundle (rubygems) (`_bundle`)
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* the tmp directory (`_tmp`)
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* the test database (`_pgdata-test`)
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* the test tmp directory (`_tmp-test`)
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This means these will stay between runs even if you stop and restart the containers.
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If you want to reset the data you can delete the docker volumes via `docker volume rm`.
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## Running tests
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Start all linked containers and migrate the test database first:
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```
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docker-compose up backend-test
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```
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Afterwards, you can start the tests in the running `backend-test` container:
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```
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docker-compose run backend-test bundle exec rspec
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```
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Tests are ran within Selenium containers, on a small local Selenium grid. You can connect to the containers via VNC if
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you want to see what the browsers are doing. `gvncviewer` on Linux is a good tool for this. Check out the docker-compose
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file to see which port each browser container is exposed on. The password is `secret` for all.
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## Local files
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Running the docker images will change some of your local files in the mounted code directory.
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The file `frontend/npm-shrinkwrap.json` may be modified.
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You can just reset these changes if you want to commit something or pull the latest changes.
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