In may 2023, Docker announced a new command line docker init, that could simplify your life when creating new projects.
It is aimed to quickly generate Dockerfile and Docker-compose file for your projects, following the best practices pushed by the editor himself.
Let's see how it works, with a simple example, running on Flask.
Create the app
Create a my-api.py file :
#!/usr/bin/python3
from flask import Flask, jsonify
app = Flask(__name__)
@app.route("/")
def hello_world():
return "API is running..."
@app.route("/users", methods=["GET"])
def caracters():
return jsonify({
"users": [
"Luke",
"Leia",
"Han",
"Chewi",
"Darth",
"Obi",
]
})
if __name__ == '__main__':
app.run(port=3000, debug=True)
And a requirements.txt file :
flask>=2.2.2
gunicorn
Generate the files
Execute docker init and answer the questions.
It will generate you the following files :
Dockerfile - The instructions to build your image
# syntax=docker/dockerfile:1
# Comments are provided throughout this file to help you get started.
# If you need more help, visit the Dockerfile reference guide at
# https://docs.docker.com/go/dockerfile-reference/
# Want to help us make this template better? Share your feedback here: https://forms.gle/ybq9Krt8jtBL3iCk7
ARG PYTHON_VERSION=3.12.4
FROM python:${PYTHON_VERSION}-slim as base
# Prevents Python from writing pyc files.
ENV PYTHONDONTWRITEBYTECODE=1
# Keeps Python from buffering stdout and stderr to avoid situations where
# the application crashes without emitting any logs due to buffering.
ENV PYTHONUNBUFFERED=1
WORKDIR /app
# Create a non-privileged user that the app will run under.
# See https://docs.docker.com/go/dockerfile-user-best-practices/
ARG UID=10001
RUN adduser \
--disabled-password \
--gecos "" \
--home "/nonexistent" \
--shell "/sbin/nologin" \
--no-create-home \
--uid "${UID}" \
appuser
# Download dependencies as a separate step to take advantage of Docker's caching.
# Leverage a cache mount to /root/.cache/pip to speed up subsequent builds.
# Leverage a bind mount to requirements.txt to avoid having to copy them into
# into this layer.
RUN --mount=type=cache,target=/root/.cache/pip \
--mount=type=bind,source=requirements.txt,target=requirements.txt \
python -m pip install -r requirements.txt
# Switch to the non-privileged user to run the application.
USER appuser
# Copy the source code into the container.
COPY . .
# Expose the port that the application listens on.
EXPOSE 3000
# Run the application.
CMD gunicorn 'my-api:app' --bind=0.0.0.0:3000
.dockerignore - The files you don’t want to copy to your container
# Include any files or directories that you don't want to be copied to your
# container here (e.g., local build artifacts, temporary files, etc.).
#
# For more help, visit the .dockerignore file reference guide at
# https://docs.docker.com/go/build-context-dockerignore/
**/.DS_Store
**/__pycache__
**/.venv
**/.classpath
**/.dockerignore
**/.env
**/.git
**/.gitignore
**/.project
**/.settings
**/.toolstarget
**/.vs
**/.vscode
**/*.*proj.user
**/*.dbmdl
**/*.jfm
**/bin
**/charts
**/docker-compose*
**/compose.y*ml
**/Dockerfile*
**/node_modules
**/npm-debug.log
**/obj
**/secrets.dev.yaml
**/values.dev.yaml
LICENSE
README.md
README.Docker.md - The Readme associated to Docker elements
### Building and running your application
When you're ready, start your application by running:
`docker compose up --build`.
Your application will be available at http://localhost:3000.
### Deploying your application to the cloud
First, build your image, e.g.: `docker build -t myapp .`.
If your cloud uses a different CPU architecture than your development
machine (e.g., you are on a Mac M1 and your cloud provider is amd64),
you'll want to build the image for that platform, e.g.:
`docker build --platform=linux/amd64 -t myapp .`.
Then, push it to your registry, e.g. `docker push myregistry.com/myapp`.
Consult Docker's [getting started](https://docs.docker.com/go/get-started-sharing/)
docs for more detail on building and pushing.
### References
* [Docker's Python guide](https://docs.docker.com/language/python/)
compose.yaml - The file to execute Docker-compose
# Comments are provided throughout this file to help you get started.
# If you need more help, visit the Docker Compose reference guide at
# https://docs.docker.com/go/compose-spec-reference/
# Here the instructions define your application as a service called "server".
# This service is built from the Dockerfile in the current directory.
# You can add other services your application may depend on here, such as a
# database or a cache. For examples, see the Awesome Compose repository:
# https://github.com/docker/awesome-compose
services:
server:
build:
context: .
ports:
- 3000:3000
# The commented out section below is an example of how to define a PostgreSQL
# database that your application can use. `depends_on` tells Docker Compose to
# start the database before your application. The `db-data` volume persists the
# database data between container restarts. The `db-password` secret is used
# to set the database password. You must create `db/password.txt` and add
# a password of your choosing to it before running `docker compose up`.
# depends_on:
# db:
# condition: service_healthy
# db:
# image: postgres
# restart: always
# user: postgres
# secrets:
# - db-password
# volumes:
# - db-data:/var/lib/postgresql/data
# environment:
# - POSTGRES_DB=example
# - POSTGRES_PASSWORD_FILE=/run/secrets/db-password
# expose:
# - 5432
# healthcheck:
# test: [ "CMD", "pg_isready" ]
# interval: 10s
# timeout: 5s
# retries: 5
# volumes:
# db-data:
# secrets:
# db-password:
# file: db/password.txt
Now you can launch your app
Directly on your machine :
pip install flask --user
flask --app my-api --debug run -p 3000
With Docker :
docker build -t my-api .
docker run -d -p 3000:3000 --name my-api my-api
With Docker-compose :
docker init
docker compose up --build
What about Podman ?
Nowadays, we can’t talk about Docker without mentioning it’s alternative Podman.
Both provide very similar commands overall, but the Init command is an exception.
Podman-init has a different purpose : it creates a new container from an image and prepares it to run as a Podman container.
Conclusion
Docker-init is a handy little utility integrated into the command-line.
Consider using it when you need to create new projects (or update old ones), it can save you a few precious minutes, while helping you to be compliant by following best practices.
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