The Visual Studio Code Remote - Containers extension lets you use a Docker container as a full-featured development environment.
It is a hassle to install correct versions of software tools and keep them updated during your development. By combining Docker and VSCode, you can drastically improve your development experience.
In this tutorial, you will learn how to set up a development environment
which includes an express.js server and a PostgreSQL database instance.
You can use this project as a template and add more Docker containers
to your environment if needed.
Here are a few Docker images that are available on Docker Hub. It is up to your creativity how you will combine these containers to make something awesome.
- Web Server
- Database
- Language / Framework
Before you jump into this tutorial, you will need Docker, Visual Studio Code, and Remote - Containers VSCode extension installed on your machine.
You can find instructions for installation here:
- Docker: https://docs.docker.com/get-docker/
- Visual Studio Code: https://code.visualstudio.com/download
- Remote - Containers: https://marketplace.visualstudio.com/items?itemName=ms-vscode-remote.remote-containers
For dev containers to work, you need to write three configuration files:
.devcontainer/Dockerfile.devcontainer/docker-compose.yml.devcontainer/devcontainer.json
Let's look at each files and try to understand what they do.
Dockerfile is a recipe for creating a docker image.
The docker image created from Dockerfile is then used to
create docker containers.
For now, you do not need to understand the difference between
Dockerfile, docker images and docker containers.
Just know that a docker container is functionally very similar to
a virtual machine, but docker containers are easier to
create/destroy/start/stop.
If you need more thorough explanation, refer to Docker's official documentation.
https://docs.docker.com/get-started/overview/
Here's the first line of Dockerfile:
FROM ubuntu:20.04
Dockerfile is a blueprint for a docker image,
and you can use FROM command to select which image to use as
a template for your docker image. In this case, it is
ubuntu:20.04.
Next, we declare variables to be used in this Dockerfile:
ARG USERNAME=vscode
ARG USER_UID=1000
ARG USER_GID=$USER_UID
Because default user of ubuntu:20.04 is the root user,
we will later create a new system user using these variables.
ENV DEBIAN_FRONTEND=noninteractive
Debian and Ubuntu use a package manager called apt,
and apt can prompt user for things like
file permissions and timezone selection.
We need to disable apt from prompting,
in order to fully automate docker image building.
The environment variable DEBIAN_FRONTEND controls the behavior of apt.
Next, we will install our dependencies to the docker image using
apt package manager.
RUN apt-get -y update --no-install-recommends \
&& apt-get -y install --no-install-recommends \
build-essential \
curl \
ca-certificates \
apt-utils \
dialog \
git \
vim \
&& apt-get autoremove -y \
&& apt-get clean -y
If you need more packages, just add the required package names to the list.
Now we have curl and ca-certificates installed,
and we are able to download setup script for Node.js.
We did not install nodejs package alongside with other packages,
because Ubuntu's package repository only has an older version of Node.
By downloading & executing setup script from nodesource.com,
we can install version 12 of Node.
RUN curl -sL https://deb.nodesource.com/setup_12.x | bash -
After executing nodesource.com setup script,
we can now install version 12 of Node using apt.
RUN apt-get -y update --no-install-recommends \
&& apt-get -y install --no-install-recommends nodejs \
&& apt-get autoremove -y \
&& apt-get clean -y
Remember the variables we declared in the beginning? We create a system user using those variables.
RUN groupadd --gid $USER_GID $USERNAME \
&& useradd --uid $USER_UID --gid $USER_GID -m $USERNAME
NOTE: If you want to use sudo command,
you need to do some extra configuration.
We will not cover the topic in this tutorial.
We reset DEBIAN_FRONTEND variable to dialog,
so we can use apt in interactive mode
when we are actually using docker container.
ENV DEBIAN_FRONTEND=dialog
Set the newly created system user as default, instead of root.
USER $USERNAME
That's the end of Dockerfile.
Now let's look at docker-compose.yml file.
YAML is a popular file format for config files. It allows organizing complicated settings into concise key-value pairs. If you want to learn more about YAML, check out their official website.
docker-compose is a command-line tool to manage
multiple docker containers at the same time.
Each container managed by docker-compose is called a "service",
and we will use two services (express server + postgres server)
in this tutorial.
docker-compose.yml begins with a version number:
version: '3.7'This is a compose file version number. Compose file version 3.7 only supports docker engine version 19.03 and higher, so you need to make sure that the docker installed on your system can handle this compose file.
You can find version compatibility table for compose file here:
https://docs.docker.com/compose/compose-file/
YAML provides a feature called anchor. It allows you to write repeating part of a YAML file once as an anchor, then reference the anchor throughout the rest of the file as aliases.
Our docker-compose.yml file begins with a top-level key x-environment.
The ampersand means it is an anchor.
x-environment:
&default-environment
POSTGRES_USER: vscode
POSTGRES_PASSWORD: notsecure
POSTGRES_DB: tutorialWe will later refernce this anchor as aliases.
After x-environment key is services key which describes
each services to be managed by docker-compose.
services key itself contains app key and db key which are
the names of each service.
Let's inspect app first. The first key of app is build.
build:
context: ..
dockerfile: .devcontainer/DockerfileAs its name implies, build key defines how to build the service container.
Here we can see that the build context is .. (parent directory),
and the service container should be built by using
.devcontainer/Dockerfile. Also, note that the path for dockerfile
is relative to context and not the current directory.
Next key in app is environment, and it defines
environment variables for the service container.
environment:
<<: *default-environment
PORT: 3000Do you remember that we defined default-environment anchor
in the beginning? <<: *default-environment means
"use all values in default-environment as
values for environment".
Also, we can see we have another environment variable
PORT defined after alias.
PORT variable will be used by our express server to find out
which port to listen to.
ports:
- 3000:3000Because of the environment variable PORT, our express server
will listen to the port 3000.
We need to forward the host's port to container's port in order to
access the express server.
ports key here defines this port-forwarding behavior.
Here's the config that makes development exciting!
volumes:
- ..:/workspacevolumes key can mount a directory of the host machine
to a directory inside the service container.
In this case, we are mounting VSCode's workspace to
/workspace inside app service container.
This will allow us to connect to app service container
during development, and edit file inside the container.
The changes made inside the container will be synced to the host machine!
This is what makes this tutorial's setup so amazing.
Service containers are purely defined by Dockerfile,
and we can develop inside that perfect world.
Whatever works inside our container will work in production,
and we don't need to worry about installing correct version of
Python or MySQL or anything on our host machine!
Okay, let's check out the last two configs of app.
user: vscode
command: sleep infinityuser key defines the default user of the service container,
and command defines what to execute after the
service container is started. By default, service containers
stops after the command exits, so we use sleep infinity
to keep our service container alive.
Now that's the end of app service configuration.
Name of the second service is db. Unlike app service, we will not use
Dockerfile to build this service container.
Instead, we will use one of docker images available from Docker Hub.
image: "postgres:12"When we define an image key, docker-compose will
get the specified docker image from Docker Hub
and build the service container from that image.
In this case, we are using postgres:12 image.
restart: unless-stoppedrestart key defines the restart policy of the service container.
Value of unless-stopped always restarts the container
if not explicitly stopped.
environment: *default-environmentHere we can find an yaml alias again. This time,
we are taking default-environment as-is, without overriding any value.
ports:
- 5432:5432Default port of PostgreSQL server is 5432. We forward this port to allow access to PostgreSQL.
volumes:
- pgdata:/var/lib/postgresql/data
- ../postgresql/docker-entrypoint-initdb.d:/docker-entrypoint-initdb.dWe are mounting two volumes to db service container. The first volume
pgdata is for saving database files.
Database, roles, tables and functions will be stored in this volume.
Note that pgdata is not a relative path.
pgdata is something called docker volume, and it is a special
storage space managed by docker that can be mounted to containers.
The second volume ../postgresql/docker-entrypoint-initdb.d/
is a directory for initialize scripts.
If there is no existing database files, postgres container
creates a database and a user, then runs all scripts inside
/docker-entrypoint-initdb.d directory.
We need a todo table for our app, so our initialize script is a
SQL script with a CREATE TABLE statement.
volumes:
pgdata:Top level volumes key is for defining reusable volumes.
The empty key pgdata here creates a docker volume
with default driver.
{
"name": "Node.js",
"dockerComposeFile": "docker-compose.yml",
"service": "app",
"workspaceFolder": "/workspace",
"settings": {
"terminal.integrated.shell.linux": "/bin/bash"
},
"extensions": []
}devcontainer.json file configures "Remote - Containers" extension.
dockerComposeFile: path of docker compose files relative todevcontainer.jsonfile.service: The name of the service VS Code should connect to once running.workspaceFolder: Sets the default path that VS Code should open when connecting to the container.settings: Adds defaultsettings.jsonvalues into a container.extensions: An array of extension IDs that specify the extensions that should be installed inside the container when it is created.
We have finished writing all three configuration files.
Let's try opening our workspace in a dev container.
First, start VS Code if you haven't already. Then, select "File > Open Folder..." to open project root.
On the bottom left side of the window, you can see the "Open a remote window" button (the blue rectangular button on the screenshot above). Click on it.
VS Code will open a menu like the screenshot above. Select "Remote-Containers: Reopen in Container".
It will take some time until docker images are built & containers are started. After a few minutes (or few seconds, depends on your machine) VS Code will open your workspace in the dev container.
Congratulations! You have successfully opened your VS Code workspace inside a dev container alongside with a postgres service.
This repository provides a super simple TODO API server
in app.js file. Start the server and try it yourself!
npm ci
node app.js| Path | Method | Parameters | Description |
|---|---|---|---|
| / | GET | Hello, World! | |
| /todo | POST | task | Create TODO |
| /todo | GET | List TODO | |
| /todo/finished | POST | id, finished | Update TODO Status |
| /todo | DELETE | id | Delete TODO |
