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Co-authored-by: Tana Berry <tana@goauthentik.io>
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title: 3 ways you (might be) doing containers wrong
description: “Using containers is not a best practice in itself. Here are some mistakes beginners make with containers, and how we set them up correctly at authentik.”
authors:
- name: Jens Langhammer
title: CTO at Authentik Security Inc
url: https://github.com/BeryJu
image_url: https://github.com/BeryJu.png
tags:
- application
- runtime
- SSO
- Docker
- containers
- :latest
- identity provider
- security
- authentication
hide_table_of_contents: false
---
_authentik is an open source Identity Provider that unifies your identity needs into a single platform, replacing Okta, Active Directory, and Auth0. Authentik Security is a [public benefit company](https://github.com/OpenCoreVentures/ocv-public-benefit-company/blob/main/ocv-public-benefit-company-charter.md) building on top of the open source project._
---
There are two ways to judge an application:
1. Does it do what its supposed to do?
2. Is it easy to run?
This post is about the second.
Using containers is not a best practice in itself. As an infrastructure engineer by background, Im pretty opinionated about how to set up containers properly. Doing things the “right” way makes things easier not just for you, but for your users as well.
Below are some common mistakes that I see beginners make with containers:
1. Using one container per application
2. Installing things at runtime
3. Writing logs to files instead of stdout
## Mistake #1: One container per application
There tend to be two mindsets when approaching setting up containers:
- The inexperienced usually think 1 container = 1 application
- The other option is 1 container = 1 service
Your application usually consists of multiple services, and to my mind these should always be separated into their own containers (in keeping with the [Single Responsibility Principle](https://en.wikipedia.org/wiki/Single-responsibility_principle)).
For example, authentik consists of four components (services):
- Server
- Worker
- Database
- Cache
With our deployment, that means you get four different containers because they each run one of those four services.
### Why you should use one container per _service_
At the point where you need to scale, or need High Availability, having different processes in separate containers enables horizontal scaling. Because of how authentik deploys, if we need to handle more traffic we can scale up to 50 servers, rather than having to scale up _everything_. This wouldnt work if all those components were all bundled together.
Additionally, if youre using a container orchestrator (whether thats Kubernetes or something simpler like [Docker Compose](https://goauthentik.io/docs/installation/docker-compose)), if its all bundled together, the orchestrator cant distinguish between components because theyre all in the black box of your container.
Say you want to start up processes in a specific order. This isnt possible if theyre in a single container (unless you rebuild the entire image). If those processes are separate, you can just tell Docker Compose to start them up in the order you want, or you can run specific components on specific servers.
Of course, your application architecture and deployment model need to support this setup, which is why its critical to think about these things when youre starting out. If youre reading this and thinking, I have a small-scale, hobby project, this doesnt apply to me—let me put it this way: you will never regret setting things up the “right” way. Its not going to come back to bite you if your situation changes later. It also gives users who install the application a lot more freedom and flexibility in how _they_ want to run it.
## Mistake #2: Installing things at runtime
Your container image should be complete in itself: it should contain all code and dependencies—everything it needs to run. This is the point of a container—its self contained.
Ive seen people set up their container to download an application from the vendor and install it into the container on startup. While this does work, what happens if you dont have internet access? What if the vendor shut down and that URL now points to a malicious bit of code?
If you have 100 instances downloading files at startup (or end up scaling to that point), this can lead to rate limiting, failed downloads, or your internet connection getting saturated—its just inefficient and causes problems that can be avoided.
### Also, dont use :latest
This leads me to a different but related bad practice: using the `:latest` tag. Its a common pitfall for folks who use containers but dont necessarily build them themselves.
Its easy to get started with the `:latest` tag and its understandable to want the latest version without having to go into files and manually edit everything. But what can happen is that you update and suddenly its pointing to a new version and breaking things.
Ive seen this happen where youre just running something on a local server and your disk is full, so you empty out your Docker images. The next time you pull, its with a new version which now no longer works and youre stuck trying to figure out what version you were on before.
### Instead: Pin your dependencies
You should be pinning your dependencies to a specific version, and updating to newer versions intentionally rather than by default.
The most reliable way to do this is with a process called GitOps:
- In the context of Kubernetes, all the YAML files you deploy with Kubernetes are stored in the central Git repository.
- You have software in your Kubernetes cluster that automatically pulls the files from your Git repo and installs them into the cluster.
- Then you can use a tool like [Dependabot](https://github.com/dependabot) or [Renovate](https://github.com/renovatebot/renovate) to automatically create PRs with a new version (if there is one) so you can test and approve it, and its all captured in your Git history.
GitOps might be a bit excessive if youre only running a small hobby project on a single server, but in any case you should still pin a version.
For a long time, authentik purposefully didnt have a `:latest` tag, because people would use it inadvertently (sometimes not realizing they had an auto-updater running). Suddenly something wouldnt work and there wasnt really a way to downgrade.
We have since added it due to popular request. This is how authentiks version tags work:
- Our version number is 3 digits reflecting the date of the release, so the latest currently is [2023.10.1](https://goauthentik.io/docs/releases/2023.10).
- You can either use 2023.10.1 as the tag, pinning to that specific version
- You can pin to 2023.10, which you means that you always get the latest patch version, or
- You can use 2023, which means you always get the latest version within that year.
The principle is roughly the same with any project using [SemVer](https://semver.org/): you could just lock to v1, which means you get the latest v1 with all minor patches and fixes, without breaking updates. Then you switch to v2 when youre ready.
With this approach you are putting some trust in the developer not to publish any breaking changes with the wrong version number (but youre technically always putting trust in some developer when using someone elses software!).
## Mistake #3: Writing logs to files instead of stdout
This is another issue on the infrastructure side that mainly happens when you put legacy applications into containers. It used to be standard that applications put their log output into a file, and youd probably have a system daemon set up to rotate those files and archive the old ones. This was great when everything ran on the same server without containers.
A lot of software still logs to files by default, but this makes collecting and aggregating your services logs much harder. Docker (and containers in general) expect that you log to standard output so your orchestration platform can route the logs to your monitoring tool of choice.
Docker puts the logs into a JSON file that it can read itself and see the timestamps and which container the log refers to. You can set up log forwarding with both Docker and Kubernetes. If you have a central logging server, the plugin gets the standard output of a container and sends it to that server.
Not logging to `stdout` just makes it harder for everyone, including making it harder to debug: Instead of just running `docker logs` + the name of the container, you need to `exec` into the container, go to find the files, then look at the files to start debugging.
### This bad practice is arguably the easiest one to work around
As an engineer you can easily redirect the logs back from a file into the standard output, but theres no real reason not to do it the “correct” way.
There arent many use cases where theres an advantage to writing your logs directly to a file instead of stdout—in fact the main one is for when youre making the first mistake (having your whole application in one container)! If youre running multiple services in one container, then youll have logs from multiple different processes in one place, which _could_ be easier to work with in a file vs stdout.
Even if you specifically want your logs to exist in a file, by default if you run `docker logs` it just reads a JSON file that it adds the logs to, so youre not losing anything by logging to stdout. You can configure Docker to just put the logs into a plain text file wherever you want to.
Its a little simplistic, but Id encourage you to check out [The Twelve-Factor App](https://12factor.net/) which outlines good practices for making software thats easy to run.
Are you doing containers differently and is it working for you? Let us know in the comments, or send us an email at hello@goauthentik.io!