Dockerizing a MERN Stack Web Application

The MERN stack is becoming increasingly popular and could be a powerful stack to figure in. Therefore having the ability to buildand deploy good MERN applications, greatly helps career prospects as a developer.

What Is the MERN Stack?

The MERN stack is a JavaScript stack that is designed to make the development process smoother. MERN includes four open-source components: MongoDB, Express, React, and Node.js. These components offer an associateend-to-end framework for developers to work in.

A Closer Look at MERN Stack Components

MongoDB: A Cross-Platform Document Database

MongoDB is a NoSQL (non-relational) document-oriented database. Data is stored in flexible documents with a JSON (JavaScript Object Notation)-based query language. MongoDB is known for being flexible and easy to scale.

Express: A Back-End Web Application Framework

Express is a web application framework for Node.js, another MERN component. Instead of writing full web server code by hand on Node.js directly, developers use Express to simplify the task of writing server code.

React: A JavaScript Library for Building User Interfaces

React was originally created by a software engineer at Facebook, and was later open-sourced. The React library can be used for creating views rendered in HTML. In a way, it’s the defining feature of the stack.

Node.JS: A Cross-Platform JavaScript Runtime Environment

Node.js is constructed on Chrome’s V8 JavaScript engine. It’s designed to build scalable network applications and can execute JavaScript code outside of a browser. 

Before we understand the utility of Docker, let’s first learn about Containers.

What Is a Container?

“A container is the standard unit of software that packages up code and all its dependencies so the application runs quickly and reliably from one computing environment to another. ”

A Dockercontainer image is a lightweight, standalone, executable package of software that includes everything needed to run an application: code, runtime, system tools, system libraries and settings. Container images become containers at runtime and in the case of Docker containers — images become containers when they run on Docker Engine.

Docker Hub

Docker Hub is a cloud-based registry service for storing and sharing Docker images. It allows users to create, manage, and distribute Docker images and containers, as well as collaborate and integrate with other tools and platforms. Docker Hub provides a central repository for sharing and distributing Docker images and containers, as well as a platform for collaboration and integration with other tools and services. It enables users to quickly and easily find and pull the images they need to run their applications, and to share their own images with others.

Getting Started With the Integration

Our main focus in this tutorial is understanding how to integrate Docker with a MERN Stack Application. For explaining this, let’s try to dockerize an E-Commerce Web Application.

You can download the basic E-Commerce Web App from this Github Link.

Overview

We are going to Dockerize Node.JS, React, and MongoDB into separate containers. Then we are going to use Docker Compose to run the multi-container application.

At last, from a single command, we can create and start all the services from our configuration.

Initializing the Project

Clone the GitHub repository to a local folder on your computer. Open the folder using VSCode or any text editor of your choice.

Docker Files

Now, we need to create a Dockerfile for the server and the client. The Dockerfile essentially contains the build instructions to build the image.

Let’s start by creating the Dockerfile for the client (our React Frontend).

1. In the client folder, create a file called Dockerfilewithout any extension.
2. Write the following lines of code in the file:

# Dockerfile for React client

# Build react client
FROM node:10.16-alpine

# Working directory be app
WORKDIR /usr/src/app

COPY package*.json ./

###  Installing dependencies

RUN npm install --silent

# copy local files to app folder
COPY . .

EXPOSE 3000

CMD ["npm","start"]

We can simply build our Frontend with this command

docker build -t react-app .

To verify everything is fine, we run our newly built container using the command:

docker run -p 3000:3000 react-app .

This will run just the Frontend.

In the same way, we create a file called Dockerfilefor the Backend Node.JS Server.

1. Now, we create a Dockerfile for the server directory.
2. Write the following lines of code in the file:

#  Dockerfile for Node Express Backend

FROM node:10.16-alpine

# Create App Directory
RUN mkdir -p /usr/src/app
WORKDIR /usr/src/app

# Install Dependencies
COPY package*.json ./

RUN npm install --silent

# Copy app source code
COPY . .

# Exports
EXPOSE 5000

CMD ["npm","start"]

We can simply build our Backend with this command:

docker build -t node-app .

Docker Compose

“Compose is a tool for defining and running multi-container Docker applications. With Compose, you use a YAML file to configure your application’s services. Then, with a single command, you create and start all the services from your configuration.”

To run our entire application together, i.e run all containers parallelly, we need to configure the docker-compose file.

1. In the main directory of the project, (outside the server/client) create a file named docker-compose.yml .
2. Write these contents into the file.

version: '3.7'

services:
  server:
    build:
      context: ./server
      dockerfile: Dockerfile
    image: myapp-server
    container_name: myapp-node-server
    command: /usr/src/app/node_modules/.bin/nodemon server.js
    volumes:
      - ./server/:/usr/src/app
      - /usr/src/app/node_modules
    ports:
      - "5000:5000"
    depends_on:
      - mongo
    env_file: ./server/.env
    environment:
      - NODE_ENV=development
    networks:
      - app-network
  mongo:
    image: mongo
    volumes:
      - data-volume:/data/db
    ports:
      - "27017:27017"
    networks:
      - app-network
  client:
    build:
      context: ./client
      dockerfile: Dockerfile
    image: myapp-client
    container_name: myapp-react-client
    command: npm start
    volumes:
      - ./client/:/usr/app
      - /usr/app/node_modules
    depends_on:
      - server
    ports:
      - "3000:3000"
    networks:
      - app-network

networks:
    app-network:
        driver: bridge

volumes:
    data-volume:
    node_modules:
    web-root:
      driver: local

Creating the Build

To create the build for the entire application, we need to run the following command:

docker-compose build

Starting the Services

We can start the multi-container system using the following simple command: 

docker-compose up

At last, we can open http://localhost:3000 to see our React Frontend.

The backend server is live on http://localhost:5000

And MongoDB is running on http://localhost:27017

Maintenance and Inspection

We can inspect running services using the command:

docker-compose ps

For dumping the logs of all the running services, use the following command:

docker-compose logs

Stopping the Containers

To stop all the services, we use :

docker-compose stop

To bring everything down, removing the containers entirely, with the data volume of the services:

docker-compose down --volumes

Finally, we have successfully dockerized our E-Commerce Web application.