Mar 11, 2017
It's no secret to people who know me that I am not the most organised person in the world when it comes to my personal life: far too often, things can wait until... well, until I forget about them. As part of a general bit to be more proactive about the things I want to get done in my free time, I had a look at the open-source market for open-source project management software (the people who use Jira at work extensively always seem to be the most organised, but I'm not paying for this experiment to look into my own sloth) and came out wanting to give Taiga a try, with it being a Python application that I'd be able to extend with a minimum of effort if there was some piece of obscura I'd wish to contribute to it. Of course, my compunction towards self-hosting all of the web-based tools I use meant that the second half of the question would be to find a means by which I could easily deploy, upgrade and manage it.
Enter Docker. I'd initially found some Docker images on Docker Hub that worked and in a jovial fit of inattentive, proceeded to use them without quite realising how old they were. Eventually, I noticed that they were last built nineteen months ago, for a project that has a fairly rapid release cadence. Fortunately, the creator of those images had published their Dockerfiles and configuration on GitHub; unfortunately, however, that configuration was itself out of date given recent changes in the supporting libraries for Taiga. The option of looking for other people's Docker containers, of course, did not occur to me, so I endeavoured to update and expand upon the work that had been done previously.
Taiga consists of a frontend application written in Angular.js (I'm not a frontend person - I couldn't tell you if it was Angular 1 or Angular 2) and a backend application based on the Django framework. The database is a PostgreSQL database, nothing really fancy about it.
A half-done transformation
Looking at the code used to generate the Docker images, I noticed that there was a discrepancy between several of the paths used in building the interface between the frontend and backend applications: in the backend application, everything seemed to point towards
/usr/src/app/taiga-back/, whereas in the frontend application, references were made to
/taiga. This dated from the backend application being built around the
python base image, before being changed to
-onbuild variety of the image gives some convenience methods around running
pip install -r requirements.txt without manual intervention, which I can see as a worthwhile bit of effort in terms of making future updates to the image easier. Unfortunately, it does change the path of your application: something that hadn't been fixed up to now. Fortunately, a trival change of the frontend paths to
/usr/src/app/taiga-back solved the issue,
Le temps detruit tout
Some time between the last time the previous author pushed his git repository to GitHub and now, the version of Django used by Taiga changed, introducing some breaking module name changes. The Postgres database backend module changed from
django.db.backends.postgresql, with the new value having to be declared in the settings file that was to be injected into the backend container.
Doing something sensible about data
Taiga allows users to upload files to support the user stories and features catalogued within the tool, putting these files in a subdirectory of the backend application's working directory. Now, if we're to take our containers to be immutable and replacable, this just won't do: the deletion of the container would result in the deletion of all data therein. Given that the Postgres container was set up to store its data on the filesystem of the host, outside of the container, it's a little odd that the backend application didn't have the same consideration taken into account. By declaring the
static directories within the application to be
VOLUMEs in the Dockerfile resolved this issue.
Don't make assumptions about how this will be deployed
In the original repository, the ports and where HTTPS was being used for communication between the front and backend had been hard-coded into the JSON configuration for the frontend application: it was HTTP (rather than HTTPS) on port 8000. Now, if one was to deploy this onto a device running SELinux was the default policy, setting up a reverse proxy to terminate SSL would have been impossible because of the expectation that port 8000 would only be used by
soundd - with anything else trying to bind to that port being told that it can't. To remedy this, I made the port aprotocol being used configurable from environment variables at the time of container instantiation.
The repository put together previously contained, as well as the Dockerfiles for generation of the images, scripts to deploy the images together and have the application work. It did not, however, have any cconsideration how an upgrade could work. With that in mind, I put together a script that would pull the latest versions of the images I'd put together, tear down the existing containers, stand up new ones and run any necessary database migrations. Nothing more complex than the below:
#!/bin/bash if [[ -z "$API_NAME" ]]; then API_NAME="localhost"; fi if [[ -z "$API_PORT" ]]; then API_PORT="8000"; fi if [[ -z "$API_PROTOCOL" ]]; then API_PROTOCOL="http"; fi docker pull lxndryng/taiga-back docker pull lxndryng/taiga-front docker stop taiga-back taiga-front docker rm taiga-back taiga-front docker run -d --name taiga-back -p 127.0.0.1:8000:8000 -e API_NAME=$API_NAME -v /data/taiga-media:/usr/src/app/taiga-back/media --link postgres:postgres lxndryng/taiga-back docker run -d --name taiga-front -p 127.0.0.1:8080:80 -e API_NAME=$API_NAME -e API_PORT=$API_PORT -e API_PROTOCOL=$API_PROTOCOL --link taiga-back:taiga-back --volumes-from taiga-back lxndryng/taiga-front docker run -it --rm -e API_NAME=$API_NAME --link postgres:postgres lxndryng/taiga-back /bin/bash -c "cd /usr/src/app/taiga-back; python manage.py migrate --noinput; python manage.py compilemessages; python manage.py collectstatic --noinput"
The Docker configuration for my spin on the Taiga Docker images can be found here.