6.4 KiB
Docker Compose
Intro
Compose is a tool for defining and running multi-container Docker applications. With Compose, you use a YAML file to configure your application’s services. Then, with a single command, you create and start all the services from your configuration.
Installation
Install Option 1 (recommended):
You can install docker-compose using our docker-compose image via a run script. You can simply run the following commands on your system and you should have a functional install that you can call from anywhere as docker-compose
:
sudo curl -L --fail https://raw.githubusercontent.com/linuxserver/docker-docker-compose/master/run.sh -o /usr/local/bin/docker-compose
sudo chmod +x /usr/local/bin/docker-compose
In order to update the local image, you can run the following commands:
docker pull linuxserver/docker-compose:"${DOCKER_COMPOSE_IMAGE_TAG:-latest}"
docker image prune -f
To use the slimmer and more lightweight alpine based image, you can set an env var DOCKER_COMPOSE_IMAGE_TAG=alpine
in your respective .profile
. Alternatively you can set that var to a versioned image tag like version-1.27.4
or version-alpine-1.27.4
to pin it to a specific docker-compose version.
Install Option 2:
We also publish binaries for docker-compose in this repo. There are two versions, one for glibc based systems like Ubuntu and Debian, and one for musl based systems like Alpine. The latter are marked with the alpine
tag. Each version contains binaries for amd64
, armhf
and arm64
. You can pull these binaries into your system via the following commands to have a functional docker-compose install:
sudo curl -L --fail https://github.com/linuxserver/docker-docker-compose/releases/download/1.27.4-ls17/docker-compose-amd64 -o /usr/local/bin/docker-compose
sudo chmod +x /usr/local/bin/docker-compose
Single service Usage
Here's a basic example for deploying a Linuxserver container with docker-compose:
version: "2.1"
services:
heimdall:
image: linuxserver/heimdall
container_name: heimdall
volumes:
- /home/user/appdata/heimdall:/config
environment:
- PUID: 1000
- PGID: 1000
- TZ=Europe/London
ports:
- 80:80
- 443:443
restart: unless-stopped
If you save the above snippet in a file named docker-compose.yml
, you can simply run docker-compose up -d
from within the same folder and the heimdall image will be automatically pulled, and a container will be created and started. up
means bring the services up, and -d
means do it in the background.
If you want to do it from a different folder or if you named the yaml file differently, ie. heimdall.yml
, then you can define it in the command with -f
: docker-compose -f /path/to/heimdall.yml up -d
To bring down the services, simply do docker-compose down
or docker-compose -f /path/to/heimdall.yml down
and all containers defined by the yml will be stopped and destroyed.
Multiple Service Usage
You can have multiple services managed by a single compose yaml. Copy the contents below the services:
line in any of our readme yaml samples into the same yaml file and the docker-compose up/down
commands will apply to all services at once.
Let's say you have the following in a yaml file named docker-compose.yml
:
version: "2.1"
services:
heimdall:
image: linuxserver/heimdall
container_name: heimdall
volumes:
- /home/user/appdata/heimdall:/config
environment:
- PUID: 1000
- PGID: 1000
- TZ=Europe/London
ports:
- 80:80
- 443:443
restart: unless-stopped
nginx:
image: linuxserver/nginx
container_name: nginx
environment:
- PUID=1000
- PGID=1000
- TZ=Europe/London
volumes:
- /home/user/appdata/nginx:/config
ports:
- 81:80
- 444:443
restart: unless-stopped
mariadb:
image: linuxserver/mariadb
container_name: mariadb
environment:
- PUID=1000
- PGID=1000
- MYSQL_ROOT_PASSWORD=ROOT_ACCESS_PASSWORD
- TZ=Europe/London
volumes:
- /home/user/appdata/mariadb:/config
ports:
- 3306:3306
restart: unless-stopped
You now have 3 services defined in there: heimdall
, nginx
and mariadb
. When you do a docker-compose up -d
, it will first download the images for all three if they don't exist if they exist, they are not updated
and it will create all three containers and start them. docker-compose down
will bring all three services down and destroy the containers persistent data will remain
.
Updates
If you want to update the images and recreate the containers with the same vars, it's extremely easy with docker-compose. First we tell it to update all images via docker-compose pull
. Then we issue docker-compose up -d
and it will automatically recreate the containers as necessary
based on the updated images. If a container's image is already the latest and there was no update, it remains untouched.
Similarly, if you edit the contents of the yaml file and re-issue docker-compose up -d
, only the containers affected by the changes to the yaml file will be recreated, others will be untouched.
Defining the containers running on your server as code is a core tenet of a "Devops" approach to the world. Constructing elaborate docker run
commands and then forgetting which variables you passed is a thing of the past when using docker-compose
.
Tips & Tricks
docker-compose
expects a docker-compose.yml
file in the current directory and if one isn't present it will complain. In order to improve your quality of life we suggest the use of bash aliases.
Create the file ~/.bash_aliases
and populate with the following content:
alias dcp='docker-compose -f /opt/docker-compose.yml '
alias dcpull='docker-compose -f /opt/docker-compose.yml pull'
alias dclogs='docker-compose -f /opt/docker-compose.yml logs -tf --tail="50" '
alias dtail='docker logs -tf --tail="50" "$@"'
You'll need to add the following to your ~/.bashrc
file in order for the aliases file to be picked up:
if [ -f ~/.bash_aliases ]; then
. ~/.bash_aliases
fi
Once configured, log out and the log in again. Now you can type dcpull
or dcp up -d
to manage your entire fleet of containers at once. It's like magic.