Public Health Schweiz ===================== Website of the [Swiss Society for Public Health](http://public-health.ch), developed by [datalets,ch](http://datalets.ch) using the open source, [Django](https://www.djangoproject.com/)-based [Wagtail CMS](http://wagtail.io). The frontend is implemented by [moving water](http://www.movingwater.ch/) using [Bootstrap](https://getbootstrap.com) framework. This project is open source under the [MIT License](LICENSE.md). [![Dependency Status](https://dependencyci.com/github/datalets/public-health-ch/badge)](https://dependencyci.com/github/datalets/public-health-ch) ## Development environment An easy way to set up your machine could be to use [Vagrant](https://vagrantup.com), then in the project folder in the terminal type: `vagrant up`. Then when it is ready, follow instructions for *publichealth/static/org/archive-message.html#Database setup*. To set up a full development environment using Docker or native components, follow all these instructions. **Frontend setup** Use the LTS version of node.js (we recommend using [nave.sh](https://gipublichealth/static/org/archive-message.htmlthub.com/isaacs/nave) with `nave use lts`), then: ``` npm install -g yarn grunt-cli yarn install ``` The first command (`..install -g..`) may require `sudo` if you installed node.js as a system package. Afterwards, to compile the frontend, you should be able to run: `grunt` If you are only working on the frontend, you can start a local webserver and work on frontend assets without the backend setup described below. There is a `grunt browser-sync` setup for working with frontend assets. (In a Vagrant shell, use the alias `watch`) **Backend setup** If not using Vagrant: after installing Python 3, from the project folder, deploy system packages (here shown for Ubuntu users) for the development libraries of Python, libJPEG and libPQ (Postgres Client): ``` sudo apt-get install python3-dev libjpeg-dev libpq-dev ``` Create a virtual environment as below: ``` sudo apt-get install python3-venv pyvenv env . env/bin/activate pip install -U pip pip install -r requirements.txt ``` At this point your backup is ready to be deployed. ## Database setup Once your installation is ready, you can get a blank database set up and add a user to login with. If you are using Vagrant, enter the shell of your virtual machine now with `vagrant ssh` Run these commands: ``` ./manage.py migrate ./manage.py createsuperuser ``` You will be asked a few questions to create an administrator account. **Starting up** If you have one installed, also start your local redis server (`service redis start`). After completing setup, you can use: ``` ./manage.py runserver ``` (In a Vagrant shell, just use `djrun`) Now access the admin panel with the user account you created earlier: http://localhost:8000/admin/ ## Troubleshooting Issues with migrating database tables in SQLite during development? Try `./manage.py migrate --fake` Trouble installing packages with npm or yarn? Add IPv6 addresses to your hosts: 2606:4700:10::6814:162e nodejs.org 2606:4700::6810:1823 registry.npmjs.org 2606:4700::6810:1123 registry.yarnpkg.com 2a0a:e5c0:2:10::8c52:790a codeload.github.com ## Production notes Currently the project has two main production deployment strategies: native and Docker Compose, the latter optionally managed by Ansible. Native is currently the default one. To switch to Docker Compose, change the symbolic `Makefile` link to point to `Makefile.docker-compose` or run your make commands as follows: `$ make -f Makefile.docker-compose ` ### Deployment with Ansible and Docker Compose This project supports [Ansible](https://www.ansible.com) and [Docker Compose](https://docs.docker.com/compose/reference/overview/) for automated deployment. To get started, copy `ansible/roles/web/templates/docker-compose.j2` to `/docker-compose.yml` and fill in all `{{ variables }}`. This can also be done automatically in Ansible. To update all roles from [Ansible Galaxy](https://docs.ansible.com/ansible/latest/reference_appendices/galaxy.html) used in our install scripts: ``` ansible-galaxy install `ls ansible/roles -x -I wagtail` --force ``` To check that the scripts and roles are correctly installed, use this command to do a "dry run": ``` ansible-playbook ansible/*.yaml -i ansible/inventories/lagoon --list-tasks ``` If you only want to run a certain set of actions, subset the tags which you see in the output above. For example, to only update the NGINX configuration: ``` ansible-playbook ansible/web.yaml -i ansible/inventories/lagoon --tags "nginx_template_config" ``` To do production deployments, you need to obtain SSH and vault keys from your system administrator (who has followed the Ansible guide to set up a vault..), and place these in a `.keys` folder. To deploy a site: ``` ansible-playbook ansible/*.yaml -i ansible/inventories/lagoon ``` For an update release with a specific version (tag or branch), use (the `-v` parameter showing output of commands): ``` ansible-playbook ansible/site.yaml -i ansible/inventories/lagoon --tags release -v -e gitversion= ``` You can also use the `gitrepo` parameter to use a different fork of the source code. Once the basic system set up, i.e. you have an `ansible` user in the sudoers and docker group, you are ready to run the playbook. ### Production releases Start a release with Ansible, then complete it using `make`, i.e.: ``` ansible-playbook -i ansible/inventories/lagoon --tags release ansible/wagtail.yaml ssh -i .keys/ansible.pem ansible@ "cd && make release" ``` This is already part of the normal release cycle, but if you wish to update the Docker images to the latest versions separately, use: `make upgrade` ### Restoring a data backup For development, it's handy to have access to a copy of the production data. To delete your local database and restore from a file backup, run: ``` rm publichealth-dev.sqlite3 python manage.py migrate python manage.py loaddata publichealth.home.json ``` You might want to `createsuperuser` again at this point.