| title | Dockerizing a Node.js web app |
|---|---|
| layout | docs.hbs |
The goal of this example is to show you how to get a Node.js application into a Docker container. The guide is intended for development, and not for a production deployment. The guide also assumes you have a working Docker installation and a basic understanding of how a Node.js application is structured.
In the first part of this guide we will create a simple web application in Node.js, then we will build a Docker image for that application, and lastly we will run the image as a container.
Docker allows you to package an application with all of its dependencies into a standardized unit, called a container, for software development. A container is a stripped-to-basics version of a Linux operating system. An image is software you load into a container.
First, create a new directory where all the files would live. In this directory
create a package.json file that describes your app and its dependencies:
{
"name": "docker_web_app",
"version": "1.0.0",
"description": "Node.js on Docker",
"author": "First Last <[email protected]>",
"main": "server.js",
"scripts": {
"start": "node server.js"
},
"dependencies": {
"express": "^4.16.1"
}
}With your new package.json file, run npm install. If you are using npm
version 5 or later, this will generate a package-lock.json file which will be copied
to your Docker image.
Then, create a server.js file that defines a web app using the
Express.js framework:
'use strict';
const express = require('express');
// Constants
const PORT = 8080;
const HOST = '0.0.0.0';
// App
const app = express();
app.get('/', (req, res) => {
res.send('Hello world\n');
});
app.listen(PORT, HOST);
console.log(`Running on http://${HOST}:${PORT}`);In the next steps, we'll look at how you can run this app inside a Docker container using the official Docker image. First, you'll need to build a Docker image of your app.
Create an empty file called Dockerfile:
touch Dockerfile
Open the Dockerfile in your favorite text editor
The first thing we need to do is define from what image we want to build from.
Here we will use the latest LTS (long term support) version 8 of node
available from the Docker Hub:
FROM node:8
Next we create a directory to hold the application code inside the image, this will be the working directory for your application:
# Create app directory
WORKDIR /usr/src/app
This image comes with Node.js and NPM already installed so the next thing we
need to do is to install your app dependencies using the npm binary. Please
note that if you are using npm version 4 or earlier a package-lock.json
file will not be generated.
# Install app dependencies
# A wildcard is used to ensure both package.json AND package-lock.json are copied
# where available (npm@5+)
COPY package*.json ./
RUN npm install
# If you are building your code for production
# RUN npm install --only=production
Note that, rather than copying the entire working directory, we are only copying
the package.json file. This allows us to take advantage of cached Docker
layers. bitJudo has a good explanation of this
here.
To bundle your app's source code inside the Docker image, use the COPY
instruction:
# Bundle app source
COPY . .
Your app binds to port 8080 so you'll use the EXPOSE instruction to have it
mapped by the docker daemon:
EXPOSE 8080
Last but not least, define the command to run your app using CMD which defines
your runtime. Here we will use the basic npm start which will run
node server.js to start your server:
CMD [ "npm", "start" ]
Your Dockerfile should now look like this:
FROM node:8
# Create app directory
WORKDIR /usr/src/app
# Install app dependencies
# A wildcard is used to ensure both package.json AND package-lock.json are copied
# where available (npm@5+)
COPY package*.json ./
RUN npm install
# If you are building your code for production
# RUN npm install --only=production
# Bundle app source
COPY . .
EXPOSE 8080
CMD [ "npm", "start" ]
Create a .dockerignore file in the same directory as your Dockerfile
with following content:
node_modules
npm-debug.log
This will prevent your local modules and debug logs from being copied onto your Docker image and possibly overwriting modules installed within your image.
Go to the directory that has your Dockerfile and run the following command to
build the Docker image. The -t flag lets you tag your image so it's easier to
find later using the docker images command:
$ docker build -t <your username>/node-web-app .Your image will now be listed by Docker:
$ docker images
# Example
REPOSITORY TAG ID CREATED
node 8 1934b0b038d1 5 days ago
<your username>/node-web-app latest d64d3505b0d2 1 minute agoRunning your image with -d runs the container in detached mode, leaving the
container running in the background. The -p flag redirects a public port to a
private port inside the container. Run the image you previously built:
$ docker run -p 49160:8080 -d <your username>/node-web-appPrint the output of your app:
# Get container ID
$ docker ps
# Print app output
$ docker logs <container id>
# Example
Running on http://localhost:8080If you need to go inside the container you can use the exec command:
# Enter the container
$ docker exec -it <container id> /bin/bashTo test your app, get the port of your app that Docker mapped:
$ docker ps
# Example
ID IMAGE COMMAND ... PORTS
ecce33b30ebf <your username>/node-web-app:latest npm start ... 49160->8080In the example above, Docker mapped the 8080 port inside of the container to
the port 49160 on your machine.
Now you can call your app using curl (install if needed via: sudo apt-get install curl):
$ curl -i localhost:49160
HTTP/1.1 200 OK
X-Powered-By: Express
Content-Type: text/html; charset=utf-8
Content-Length: 12
ETag: W/"c-M6tWOb/Y57lesdjQuHeB1P/qTV0"
Date: Mon, 13 Nov 2017 20:53:59 GMT
Connection: keep-alive
Hello worldWe hope this tutorial helped you get up and running a simple Node.js application on Docker.
You can find more information about Docker and Node.js on Docker in the following places: