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Try Docker Compose
This tutorial is designed to introduce the key concepts of Docker Compose whilst building a simple Python web application. The application uses the Flask framework and maintains a hit counter in
Redis.
The concepts demonstrated here should be understandable even if you’re not familiar with Python.
Prerequisites
You need to have Docker Engine and Docker Compose on your machine. You can either:
Install Docker Engine and Docker Compose as standalone binaries
Install Docker Desktop which includes both Docker Engine and Docker Compose
You don’t need to install Python or Redis, as both are provided by Docker images.
Step 1: Define the application dependencies
Create a directory for the project:
$ mkdir composetest
$ cd composetest
Create a file called app.py in your project directory and paste the following code in:
import time
import redis
from flask import Flask
app = Flask(__name__)
cache = redis.Redis(host='redis', port=6379)
def get_hit_count():
retries = 5
while True:
try:
return cache.incr('hits')
except redis.exceptions.ConnectionError as exc:
if retries == 0:
raise exc
retries -= 1
time.sleep(0.5)
@app.route('/')
def hello():
count = get_hit_count()
return 'Hello World! I have been seen {} times.\n'.format(count)
In this example, redis is the hostname of the redis container on the
application’s network. We use the default port for Redis, 6379.
Handling transient errors
Note the way the get_hit_count function is written. This basic retry
loop lets us attempt our request multiple times if the redis service is
not available. This is useful at startup while the application comes
online, but also makes the application more resilient if the Redis
service needs to be restarted anytime during the app’s lifetime. In a
cluster, this also helps handling momentary connection drops between
nodes.
Create another file called requirements.txt in your project directory and
paste the following code in:
flask
redis
Step 2: Create a Dockerfile
The Dockerfile is used to build a Docker image. The image
contains all the dependencies the Python application requires, including Python
itself.
In your project directory, create a file named Dockerfile and paste the following code in:
# syntax=docker/dockerfile:1
FROM python:3.7-alpine
WORKDIR /code
ENV FLASK_APP=app.py
ENV FLASK_RUN_HOST=0.0.0.0
RUN apk add --no-cache gcc musl-dev linux-headers
COPY requirements.txt requirements.txt
RUN pip install -r requirements.txt
EXPOSE 5000
COPY . .
CMD ["flask", "run"]
This tells Docker to:
Build an image starting with the Python 3.7 image.
Set the working directory to /code.
Set environment variables used by the flask command.
Install gcc and other dependencies
Copy requirements.txt and install the Python dependencies.
Add metadata to the image to describe that the container is listening on port 5000
Copy the current directory . in the project to the workdir . in the image.
Set the default command for the container to flask run.
Important
Check that the Dockerfile has no file extension like .txt. Some editors may append this file extension automatically and which results in an error when you run the application.
For more information on how to write Dockerfiles, see the
Docker user guide
and the Dockerfile reference.
Step 3: Define services in a Compose file
Create a file called docker-compose.yml in your project directory and paste
the following:
version: "3.9"
services:
web:
build: .
ports:
- "8000:5000"
redis:
image: "redis:alpine"
This Compose file defines two services: web and redis.
The web service uses an image that’s built from the Dockerfile in the current directory.
It then binds the container and the host machine to the exposed port, 8000. This example service uses the default port for the Flask web server, 5000.
The redis service uses a public Redis
image pulled from the Docker Hub registry.
Step 4: Build and run your app with Compose
From your project directory, start up your application by running docker compose up.
$ docker compose up
Creating network "composetest_default" with the default driver
Creating composetest_web_1 ...
Creating composetest_redis_1 ...
Creating composetest_web_1
Creating composetest_redis_1 ... done
Attaching to composetest_web_1, composetest_redis_1
web_1 | * Running on http://0.0.0.0:5000/ (Press CTRL+C to quit)
redis_1 | 1:C 17 Aug 22:11:10.480 # oO0OoO0OoO0Oo Redis is starting oO0OoO0OoO0Oo
redis_1 | 1:C 17 Aug 22:11:10.480 # Redis version=4.0.1, bits=64, commit=00000000, modified=0, pid=1, just started
redis_1 | 1:C 17 Aug 22:11:10.480 # Warning: no config file specified, using the default config. In order to specify a config file use redis-server /path/to/redis.conf
web_1 | * Restarting with stat
redis_1 | 1:M 17 Aug 22:11:10.483 * Running mode=standalone, port=6379.
redis_1 | 1:M 17 Aug 22:11:10.483 # WARNING: The TCP backlog setting of 511 cannot be enforced because /proc/sys/net/core/somaxconn is set to the lower value of 128.
web_1 | * Debugger is active!
redis_1 | 1:M 17 Aug 22:11:10.483 # Server initialized
redis_1 | 1:M 17 Aug 22:11:10.483 # WARNING you have Transparent Huge Pages (THP) support enabled in your kernel. This will create latency and memory usage issues with Redis. To fix this issue run the command 'echo never > /sys/kernel/mm/transparent_hugepage/enabled' as root, and add it to your /etc/rc.local in order to retain the setting after a reboot. Redis must be restarted after THP is disabled.
web_1 | * Debugger PIN: 330-787-903
redis_1 | 1:M 17 Aug 22:11:10.483 * Ready to accept connections
Compose pulls a Redis image, builds an image for your code, and starts the
services you defined. In this case, the code is statically copied into the image at build time.
Enter http://localhost:8000/ in a browser to see the application running.
If this doesn’t resolve, you can also try http://127.0.0.1:8000.
You should see a message in your browser saying:
Hello World! I have been seen 1 times.
Refresh the page.
The number should increment.
Hello World! I have been seen 2 times.
Switch to another terminal window, and type docker image ls to list local images.
Listing images at this point should return redis and web.
$ docker image ls
REPOSITORY TAG IMAGE ID CREATED SIZE
composetest_web latest e2c21aa48cc1 4 minutes ago 93.8MB
python 3.4-alpine 84e6077c7ab6 7 days ago 82.5MB
redis alpine 9d8fa9aa0e5b 3 weeks ago 27.5MB
You can inspect images with docker inspect <tag or id>.
Stop the application, either by running docker compose down
from within your project directory in the second terminal, or by
hitting CTRL+C in the original terminal where you started the app.
Step 5: Edit the Compose file to add a bind mount
Edit docker-compose.yml in your project directory to add a
bind mount for the web service:
version: "3.9"
services:
web:
build: .
ports:
- "8000:5000"
volumes:
- .:/code
environment:
FLASK_DEBUG: True
redis:
image: "redis:alpine"
The new volumes key mounts the project directory (current directory) on the
host to /code inside the container, allowing you to modify the code on the
fly, without having to rebuild the image. The environment key sets the
FLASK_DEBUG environment variable, which tells flask run to run in development
mode and reload the code on change. This mode should only be used in development.
Step 6: Re-build and run the app with Compose
From your project directory, type docker compose up to build the app with the updated Compose file, and run it.
$ docker compose up
Creating network "composetest_default" with the default driver
Creating composetest_web_1 ...
Creating composetest_redis_1 ...
Creating composetest_web_1
Creating composetest_redis_1 ... done
Attaching to composetest_web_1, composetest_redis_1
web_1 | * Running on http://0.0.0.0:5000/ (Press CTRL+C to quit)
...
Check the Hello World message in a web browser again, and refresh to see the
count increment.
Shared folders, volumes, and bind mounts
If your project is outside of the Users directory (cd ~), then you
need to share the drive or location of the Dockerfile and volume you are using.
If you get runtime errors indicating an application file is not found, a volume
mount is denied, or a service cannot start, try enabling file or drive sharing.
Volume mounting requires shared drives for projects that live outside of
C:\Users (Windows) or /Users (Mac), and is required for any project on
Docker Desktop for Windows that uses Linux containers.
For more information, see File sharing on Docker
for Mac, and the general examples on how to
Manage data in containers.
If you are using Oracle VirtualBox on an older Windows OS, you might encounter an issue with shared folders as described in this VB trouble
ticket. Newer Windows systems meet the
requirements for Docker Desktop for Windows and do not
need VirtualBox.
Step 7: Update the application
Because the application code is now mounted into the container using a volume,
you can make changes to its code and see the changes instantly, without having
to rebuild the image.
Change the greeting in app.py and save it. For example, change the Hello World!
message to Hello from Docker!:
return 'Hello from Docker! I have been seen {} times.\n'.format(count)
Refresh the app in your browser. The greeting should be updated, and the
counter should still be incrementing.
Step 8: Experiment with some other commands
If you want to run your services in the background, you can pass the -d flag
(for “detached” 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 docker-entrypoint.sh redis ... Up 6379/tcp
composetest_web_1 flask run Up 0.0.0.0:8000->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, stop
your services once you’ve finished with them:
$ docker compose stop
You can bring everything down, removing the containers entirely, with the down
command. Pass --volumes to also remove the data volume used by the Redis
container:
$ docker compose down --volumes
Where to go next
Next, try the Sample apps with Compose
Explore the full list of Compose commands
Explore the Compose configuration file reference
To learn more about volumes and bind mounts, see Manage data in Docker
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Contents
Prerequisites
Step 1: Define the application dependencies
Step 2: Create a Dockerfile
Step 3: Define services in a Compose file
Step 4: Build and run your app with Compose
Step 5: Edit the Compose file to add a bind mount
Step 6: Re-build and run the app with Compose
Step 7: Update the application
Step 8: Experiment with some other commands
Where to go next
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