page_title: Compose: Multi-container orchestration for Docker page_description: Introduction and Overview of Compose page_keywords: documentation, docs, docker, compose, orchestration, containers # Docker Compose Compose is a tool for defining and running complex applications with Docker. With Compose, you define a multi-container application in a single file, then spin your application up in a single command which does everything that needs to be done to get it running. Compose is great for development environments, staging servers, and CI. We don't recommend that you use it in production yet. Using Compose is basically a three-step process. First, you define your app's environment with a `Dockerfile` so it can be reproduced anywhere: ```Dockerfile FROM python:2.7 WORKDIR /code ADD requirements.txt /code/ RUN pip install -r requirements.txt ADD . /code CMD python app.py ``` Next, you define the services that make up your app in `docker-compose.yml` so they can be run together in an isolated environment: ```yaml web: build: . links: - db ports: - "8000:8000" db: image: postgres ``` Lastly, run `docker-compose up` and Compose will start and run your entire app. Compose has commands for managing the whole lifecycle of your application: * Start, stop and rebuild services * View the status of running services * Stream the log output of running services * Run a one-off command on a service ## Compose documentation - [Installing Compose](install.md) - [Command line reference](cli.md) - [Yaml file reference](yml.md) - [Compose environment variables](env.md) - [Compose command line completion](completion.md) ## Quick start Let's get started with a walkthrough of getting a simple Python web app running on Compose. It assumes a little knowledge of Python, but the concepts demonstrated here should be understandable even if you're not familiar with Python. ### Installation and set-up First, [install Docker and Compose](install.md). Next, you'll want to make a directory for the project: $ mkdir composetest $ cd composetest Inside this directory, create `app.py`, a simple web app that uses the Flask framework and increments a value in Redis: ```python from flask import Flask from redis import Redis import os app = Flask(__name__) redis = Redis(host='redis', port=6379) @app.route('/') def hello(): redis.incr('hits') return 'Hello World! I have been seen %s times.' % redis.get('hits') if __name__ == "__main__": app.run(host="0.0.0.0", debug=True) ``` Next, define the Python dependencies in a file called `requirements.txt`: flask redis ### Create a Docker image Now, create a Docker image containing all of your app's dependencies. You specify how to build the image using a file called [`Dockerfile`](http://docs.docker.com/reference/builder/): FROM python:2.7 ADD . /code WORKDIR /code RUN pip install -r requirements.txt This tells Docker to include Python, your code, and your Python dependencies in a Docker image. For more information on how to write Dockerfiles, see the [Docker user guide](https://docs.docker.com/userguide/dockerimages/#building-an-image-from-a-dockerfile) and the [Dockerfile reference](http://docs.docker.com/reference/builder/). ### Define services Next, define a set of services using `docker-compose.yml`: web: build: . command: python app.py ports: - "5000:5000" volumes: - .:/code links: - redis redis: image: redis This defines two services: - `web`, which is built from the `Dockerfile` in the current directory. It also says to run the command `python app.py` inside the image, forward the exposed port 5000 on the container to port 5000 on the host machine, connect up the Redis service, and mount the current directory inside the container so we can work on code without having to rebuild the image. - `redis`, which uses the public image [redis](https://registry.hub.docker.com/_/redis/), which gets pulled from the Docker Hub registry. ### Build and run your app with Compose Now, when you run `docker-compose up`, Compose will pull a Redis image, build an image for your code, and start everything up: $ docker-compose up Pulling image redis... Building web... Starting composetest_redis_1... Starting composetest_web_1... redis_1 | [8] 02 Jan 18:43:35.576 # Server started, Redis version 2.8.3 web_1 | * Running on http://0.0.0.0:5000/ The web app should now be listening on port 5000 on your Docker daemon host (if you're using Boot2docker, `boot2docker ip` will tell you its address). If you want to run your services in the background, you can pass the `-d` flag (for daemon mode) to `docker-compose up` and use `docker-compose ps` to see what is currently running: $ docker-compose up -d Starting composetest_redis_1... Starting composetest_web_1... $ docker-compose ps Name Command State Ports ------------------------------------------------------------------- composetest_redis_1 /usr/local/bin/run Up composetest_web_1 /bin/sh -c python app.py Up 5000->5000/tcp The `docker-compose run` command allows you to run one-off commands for your services. For example, to see what environment variables are available to the `web` service: $ docker-compose run web env See `docker-compose --help` to see other available commands. If you started Compose with `docker-compose up -d`, you'll probably want to stop your services once you've finished with them: $ docker-compose stop At this point, you have seen the basics of how Compose works. - Next, try the quick start guide for [Django](django.md), [Rails](rails.md), or [Wordpress](wordpress.md). - See the reference guides for complete details on the [commands](cli.md), the [configuration file](yml.md) and [environment variables](env.md).