SIA can be used by citizens and interested parties to inform the Amsterdam municipality of problems in public spaces (like noise complaints, broken street lights etc.) These signals (signalen in Dutch) are then followed up on by the appropriate municipal services.
The code for the associated web front-end is available from Amsterdam/signals-frontend.
SIA has replaced MORA and is based on a proof of concept (https://github.com/Amsterdam/sia) which ran on https://vaarwatermeldingen.amsterdam.nl/
Do you want to contribute? Take a look at our contribution guide.
This project is setup such that it can be built and run using Docker with minimal
effort. The root directory therefore contains some Docker prerequisites and documentation.
The actual Django application is present in the /api/app directory. The Django project
structure is documented in /api/README.md.
For in-depth technical documentation see the documentation section.
- Git
- Docker
Pull the relevant images and build the services:
docker-compose pull
docker-compose buildStart the Postgres database and Rabbit MQ services in the background, then run the test suite (we use Pytest as test runner, the tests themselves are Django unittest style):
docker-compose up -d database rabbit
docker-compose run --rm api tox -e pytest -- -n0 -sOur build pipeline checks that the full test suite runs successfully, that the style checks are passed, and that test code coverage is high enough. All these checks can be replicated locally by running Tox.
docker-compose run --rm api toxDuring development make sure that the Tox checks succeed before putting in a pull request, as any failed checks will abort the build pipeline.
Also see the section "Authentication for local development" below.
Assuming no services are running, start the database and queue:
docker-compose up -d database rabbitMigrate the database:
docker-compose run --rm api python manage.py migrateStart the Signals web application:
docker-compose upYou will now have the Signals API running on http://localhost:8000/signals/ . The Django Debug Toolbar is enabled when running with local development settings.
The docker-compose.yml file that is provided mounts the application source in the
running api container, where UWSGI is set up to automatically reload the source.
This means that you can edit the application source on the host system and see the
results reflected in the running application immediately, i.e. without rebuilding
the api service.
The Signals backend authenticates users through an external OpenID Connect
provider. The backend performs a case-insensitive matches through the
USER_ID_FIELD (default: email) to match users. Users need to exist in the
database first before they are allowed to login. Permissions are also handled
in the backend.
The Docker Compose file provides Dex as Identity Provider.
Start Dex with the following command:
docker-compose up -d dexThe data of Dex is persisted on a named volume. The following user is created:
- E-mail: [email protected]
- Password: password
Request an access token through the following URL: http://localhost:5556/auth?response_type=id_token&scope=openid+email+profile&client_id=signals&redirect_uri=http://localhost:3001/manage/incidents&nonce=random-nonce
After login is completed, copy access_token from the URL you are redirected to. You
can use this token to make calls to the API.
Make sure you assign superuser permissions to the default user with:
docker-compose run --rm api python manage.py createsuperuser --username [email protected] --email [email protected]