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What is Docker Compose?

If your Docker application includes more than one container (for example, a webserver and database running in separate containers), building, running, and connecting the containers from separate Dockerfiles is cumbersome and time-consuming. Docker Compose solves this problem by allowing you to use a YAML file to define multi-container apps . You can configure as many containers as you want, how they should be built and connected, and where data should be stored. When the YAML file is complete, you can run a single command to build, run, and configure all of the containers.

This guide will explain how the docker-compose.yml file is organized, and show how to use it to create several basic app configurations.

Note
Generally the containers in an application built using Docker Compose will all run on the same host. Managing containers running on different hosts usually requires an additional tool, such as Docker Swarm or Kubernetes .

Before You Begin

Install Docker CE

You will need a Linode with Docker CE installed to follow along with the steps in this guide.

To install Docker CE (Community Edition), follow the instructions within one of the guides below:

To see installation instructions for other Linux distributions or operating systems like Mac or Windows, reference Docker’s official documentation here: Install Docker Engine

Install Docker Compose

Docker Compose is available in plugin and standalone variants. However, Docker’s official documentation prioritizes the plugin. Further, the plugin has a straightforward installation and works well with past Docker Compose commands.

These steps thus show how to install the Docker Compose plugin. If you are interested in installing the standalone Docker Compose application, follow Docker’s official installation guide .

Note

Many tutorials retain the Docker Compose standalone command format, which looks like the following:

docker-compose [command]

Be sure to replace this with the plugin’s command format when using this installation method. This typically just means replacing the hyphen with a space, as in:

docker compose [command]
  1. Enable the Docker repository for your system’s package manager. The repository is typically already enabled after you have installed the Docker engine. Follow our relevant guide on installing Docker to enable the repository on your system.

  2. Update your package manager, and install the Docker Compose plugin.

    • On Debian and Ubuntu systems, use the following commands:
    sudo apt update
    sudo apt install docker-compose-plugin
    • On CentOS, Fedora, and other RPM-based distributions, use the following commands:
    sudo yum update
    sudo yum install docker-compose-plugin

Basic Usage

This section will review an example Docker Compose file taken from the Docker official documentation .

  1. Open docker-compose.yml in a text editor and add the following content:

    File: docker-compose.yml
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    version: '3'
    
    services:
       db:
         image: mysql:5.7
         volumes:
           - db_data:/var/lib/mysql
         restart: always
         environment:
           MYSQL_ROOT_PASSWORD: somewordpress
           MYSQL_DATABASE: wordpress
           MYSQL_USER: wordpress
           MYSQL_PASSWORD: wordpress
    
       wordpress:
         depends_on:
           - db
         image: wordpress:latest
         ports:
           - "8000:80"
         restart: always
         environment:
           WORDPRESS_DB_HOST: db:3306
           WORDPRESS_DB_USER: wordpress
           WORDPRESS_DB_PASSWORD: wordpress
    volumes:
        db_data:
  2. Save the file and run Docker Compose from the same directory:

    docker-compose up -d
    

    This will build and run the db and wordpress containers. Just as when running a single container with docker run, the -d flag starts the containers in detached mode.

  3. You now have a WordPress container and MySQL container running on your host. Navigate to 192.0.8.1:8000/wordpress in a web browser to see your newly installed WordPress application. You can also use docker ps to further explore the resulting configuration:

    docker ps
    
  4. Stop and remove the containers:

    docker-compose down
    

Compose File Syntax

A docker-compose.yml file is organized into four sections:

DirectiveUse
versionSpecifies the Compose file syntax version. This guide will use Version 3 throughout.
servicesIn Docker a service is the name for a “Container in production” . This section defines the containers that will be started as a part of the Docker Compose instance.
networksThis section is used to configure networking for your application. You can change the settings of the default network, connect to an external network, or define app-specific networks.
volumesMounts a linked path on the host machine that can be used by the container.

Most of this guide will focus on setting up containers using the services section. Here are some of the common directives used to set up and configure containers:

DirectiveUse
imageSets the image that will be used to build the container. Using this directive assumes that the specified image already exists either on the host or on Docker Hub .
buildThis directive can be used instead of image. Specifies the location of the Dockerfile that will be used to build this container.
dbIn the case of the example Dockercompose file, db is a variable for the container you are about to define.
restartTells the container to restart if the system restarts.
volumesMounts a linked path on the host machine that can be used by the container
environmentDefine environment variables to be passed in to the Docker run command.
depends_onSets a service as a dependency for the current block-defined container
portMaps a port from the container to the host in the following manner: host:container
linksLink this service to any other services in the Docker Compose file by specifying their names here.

Many other configuration directives are available. See the Compose File reference for details.

Important
The example docker-compose.yml above uses the environment directive to store MySQL user passwords directly in the YAML file to be imported into the container as environment variables. This is not recommended for sensitive information in production environments. Instead, sensitive information can be stored in a separate .env file (which is not checked into version control or made public) and accessed from within docker-compose.yml by using the env_file directive.

Build an Application from Scratch

Create a docker-compose.yml file one section at a time to illustrate the steps of building a multi-container application.

Define a Simple Service:

  1. Create a new docker-compose.yml in a text editor and add the following content:

    File: docker-compose.yml
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    version: '3'
    
    services:
      distro:
        image: alpine
        restart: always
        container_name: Alpine_Distro
        entrypoint: tail -f /dev/null

    Each entry in the services section will create a separate container when docker-compose is run. At this point, the section contains a single container based on the official Alpine distribution:

    • The restart directive is used to indicate that the container should always restart (after a crash or system reboot, for example).
    • The container_name directive is used to override the randomly generated container name and replace it with a name that is easier to remember and work with.
    • Docker containers exit by default if no process is running on them. tail -f is an ongoing process, so it will run indefinitely and prevent the container from stopping. The default entrypoint is overridden to keep the container running.
  2. Bring up your container:

    docker-compose up -d
    
  3. Check the status of your container:

     docker ps
    

    The output should resemble the following:

    CONTAINER ID        IMAGE               COMMAND               CREATED             STATUS              PORTS               NAMES
    967013c36a27        alpine              "tail -f /dev/null"   3 seconds ago       Up 2 seconds                            Alpine_Distro
  4. Bring down the container:

     docker-compose down
    

Add Additional Services

From here you can begin to build an ecosystem of containers. You can define how they work together and communicate.

  1. Reopen docker-compos.yml and add the database service below:

    File: docker-compose.yml
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    version: '3'
    
    services:
      distro:
        image: alpine
        container_name: Alpine_Distro
        restart: always
        entrypoint: tail -f /dev/null
    
      database:
        image: postgres:latest
        container_name: postgres_db
        volumes:
          - ../dumps:/tmp/
        ports:
          - "5432:5432"

    There are now two services defined:

    • Distro
    • Database

    The Distro service is the same as before. The Database server contains the instructions for a postgres container, and the directives: volumes: - ../dumps:/tmp and ports:-"5432:5432", the first directive maps the containerd /dumps folder to our local /tmp folder. The second directive maps the containers ports to the local host’s ports.

  2. Check the running containers:

    docker ps
    

    This command shows the status of the containers, the port mapping, the names, and the last command running on them. It’s important to note that the postgres container reads “docker-entrypoint…” under commands. The Postgres Docker Entrypoint script is the last thing that launches when the container starts.

    CONTAINER ID        IMAGE               COMMAND                  CREATED              STATUS              PORTS                    NAMES
    ecc37246f6ef        postgres:latest     "docker-entrypoint..."   About a minute ago   Up About a minute   0.0.0.0:5432->5432/tcp   postgres_db
    35dab3e712d6        alpine              "tail -f /dev/null"      About a minute ago   Up About a minute                            Alpine_Distro
  3. Bring down both containers:

     docker-compose down
    

Add an nginx Service

  1. Add an nginx container so that your application will be able to serve websites:

    File: docker-compose.yml
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    version: '3'
    
    services:
      distro:
        image: alpine
        container_name: Alpine_Distro
        restart: always
        entrypoint: tail -f /dev/null
    
      database:
        image: postgres:latest
        container_name: postgres_db
        volumes:
          - ../dumps:/tmp/
        ports:
          - "5432:5432"
      web:
        image: nginx:latest
        container_name: nginx
        volumes:
          - ./mysite.template:/etc/nginx/conf.d/mysite.template
        ports:
          - "8080:80"
        environment:
          - NGINX_HOST=example.com
          - NGINX_port=80
        links:
          - database:db
          - distro

    This docker-compose file contains some new directives: environment and links. The first directive sets runtime level options within the container. links creates a dependency network between the containers. The nginx container depends on the other two to execute. In addition, the corresponding containers will be reachable at a hostname indicated by the alias. In this case, pinging db from the web container will reach the database service. While you do not need the links directive for the containers to talk with each other, links can serve as a failsafe when starting the docker-compose application.

  2. Start Docker Compose and check the container status:

     docker-compose up -d
     docker ps
    

    The output should be similar to:

    CONTAINER ID        IMAGE               COMMAND                  CREATED             STATUS              PORTS                    NAMES
    55d573674e49        nginx:latest        "nginx -g 'daemon ..."   3 minutes ago       Up 3 minutes        0.0.0.0:8080->80/tcp     nginx
    ad9e48b2b82a        alpine              "tail -f /dev/null"      3 minutes ago       Up 3 minutes                                 Alpine_Distro
    736cf2f2239e        postgres:latest     "docker-entrypoint..."   3 minutes ago       Up 3 minutes        0.0.0.0:5432->5432/tcp   postgres_db
  3. Test nginx by navigating to your Linode’s public IP address, port 8080 in a browser (for example 192.0.2.0:8080). You should see the default nginx landing page displayed.

Persistent Data Storage

Storing PostgreSQL data directly inside a container is not recommended. Docker containers are intended to be treated as ephemeral: your application’s containers are built from scratch when running docker-compose up and destroyed when running docker-compose down. In addition, any unexpected crash or restart on your system will cause any data stored in a container to be lost.

For these reasons it is important to set up a persistent volume on the host that the database containers will use to store their data.

  1. Add a volumes section to docker-compose.yml and edit the database service to refer to the volume:

    File: docker-compose.yml
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    version: '3'
    
    services:
      distro:
        image: alpine
        container_name: Alpine_Distro
        restart: always
        entrypoint: tail -f /dev/null
    
      database:
        image: postgres:latest
        container_name: postgres_db
        volumes:
          - data:/var/lib/postgresql
        ports:
          - "5432:5432"
      web:
        image: nginx:latest
        container_name: nginx
        volumes:
          - ./mysite.template:/etc/nginx/conf.d/mysite.template
        ports:
          - "8080:80"
        environment:
          - NGINX_HOST=example.com
          - NGINX_port=80
        links:
          - database:db
          - distro
    volumes:
      data:
        external: true
  2. external: true tells Docker Compose to use a pre-existing external data volume. If no volume named data is present, starting the application will cause an error. Create the volume:

    docker volume create --name=data
    
  3. Start the application as before:

    docker-compose up -d
    

Next Steps

Docker Compose is a powerful tool for orchestrating sets of containers that can work together. Things like an app or a development environment can utilize Docker-compose. The result is a modular and configurable environment that can be deployed anywhere.

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