End-to-End AWS DevOps Project: CI/CD Pipeline for ECS Fargate with ECR and RDS

H A R S H H A A - Sep 25 - - Dev Community

This project provides a comprehensive guide for deploying a containerized application on AWS ECS (Elastic Container Service) Fargate using a CI/CD pipeline that integrates AWS CodePipeline, AWS CodeBuild, Amazon Elastic Container Registry (ECR), and Amazon Relational Database Service (RDS) for database management. You’ll learn how to set up a containerized application on Fargate, automate the deployment process, and manage your infrastructure on AWS.


Table of Contents

  1. Introduction
  2. Architecture Overview
  3. Prerequisites
  4. Step 1: Setting Up Dockerized Application
  5. Step 2: Creating an ECR Repository
  6. Step 3: Launching an RDS Database
  7. Step 4: Setting Up ECS Fargate
  8. Step 5: Creating a CI/CD Pipeline Using CodePipeline
  9. Step 6: Testing the Deployment
  10. Monitoring and Logging with CloudWatch
  11. Conclusion

Introduction

In this project, we will deploy a Dockerized Node.js application on AWS ECS Fargate. We'll use Amazon RDS for database management and configure a CI/CD pipeline using AWS CodePipeline and AWS CodeBuild to automate the deployment of Docker images to Fargate. The application will communicate with the RDS database.

This architecture leverages serverless compute for containers using Fargate, allowing seamless scalability and management without worrying about the underlying infrastructure.


Architecture Overview

The project architecture involves the following components:

  • AWS ECS Fargate: Runs the Docker containers without managing servers.
  • Amazon RDS: A managed relational database.
  • Amazon ECR: A fully managed Docker container registry to store images.
  • AWS CodePipeline: Automates the CI/CD process.
  • AWS CodeBuild: Builds and tests the Docker image.
  • CloudWatch: For monitoring and logging.

Prerequisites

  1. An AWS Account with necessary permissions.
  2. AWS CLI installed and configured.
  3. Docker installed locally.
  4. GitHub repository for storing application code.
  5. Basic knowledge of Docker, Node.js, and AWS Services.

Step 1: Setting Up Dockerized Application

In this step, we will create a simple Node.js application and Dockerize it.

1.1. Create a Node.js Application

mkdir fargate-app
cd fargate-app
npm init -y
npm install express mysql
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1.2. Application Code

Create a server.js file with the following code:

const express = require('express');
const mysql = require('mysql');
const app = express();

const db = mysql.createConnection({
    host: process.env.DB_HOST,
    user: process.env.DB_USER,
    password: process.env.DB_PASS,
    database: process.env.DB_NAME
});

db.connect((err) => {
    if (err) {
        throw err;
    }
    console.log('Connected to database');
});

app.get('/', (req, res) => {
    res.send('App running on ECS Fargate with RDS!');
});

app.listen(3000, () => {
    console.log('Server running on port 3000');
});
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1.3. Create Dockerfile

touch Dockerfile
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Add the following contents to the Dockerfile:

FROM node:14
WORKDIR /usr/src/app
COPY package*.json ./
RUN npm install
COPY . .
EXPOSE 3000
CMD ["node", "server.js"]
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1.4. Build Docker Image Locally

docker build -t fargate-app .
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Test the application locally by running:

docker run -p 3000:3000 fargate-app
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Step 2: Creating an ECR Repository

To deploy the Docker image on ECS Fargate, you need to store the image in Amazon Elastic Container Registry (ECR).

2.1. Create ECR Repository

aws ecr create-repository --repository-name fargate-app
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2.2. Authenticate Docker to ECR

aws ecr get-login-password --region <your-region> | docker login --username AWS --password-stdin <aws-account-id>.dkr.ecr.<region>.amazonaws.com
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2.3. Tag and Push Docker Image to ECR

docker tag fargate-app:latest <aws-account-id>.dkr.ecr.<region>.amazonaws.com/fargate-app:latest
docker push <aws-account-id>.dkr.ecr.<region>.amazonaws.com/fargate-app:latest
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Step 3: Launching an RDS Database

3.1. Create an RDS Instance

  1. Go to AWS Management Console > RDS > Create Database.
  2. Choose MySQL as the engine.
  3. Select the free-tier option and configure the database name, username, and password.

3.2. Note Down RDS Endpoint

Once the RDS instance is available, note the Endpoint URL, which will be used in the application code.


Step 4: Setting Up ECS Fargate

4.1. Create a Task Definition

  1. Go to ECS Console > Task Definitions > Create New Task Definition.
  2. Choose Fargate as the launch type.
  3. Add a container and specify the Docker image URL from ECR.

4.2. Set Environment Variables

Add the following environment variables for connecting to the RDS database:

  • DB_HOST: Your RDS endpoint.
  • DB_USER: Database username.
  • DB_PASS: Database password.
  • DB_NAME: Database name.

4.3. Create an ECS Cluster

  1. Go to ECS Console > Clusters > Create Cluster.
  2. Choose Networking Only for Fargate.
  3. Name your cluster (e.g., fargate-cluster).

4.4. Create a Service

  1. Go to ECS Cluster > Create Service.
  2. Choose the task definition created earlier.
  3. Configure the service with desired tasks, load balancers, and VPC settings.

Step 5: Creating a CI/CD Pipeline Using CodePipeline

We’ll now automate the deployment process using AWS CodePipeline.

5.1. Create an IAM Role for CodePipeline

Ensure your pipeline has the necessary permissions to interact with ECS, ECR, and CodeBuild.

5.2. BuildSpec for CodeBuild

Create a buildspec.yml file in the root of your repository to define build instructions:

version: 0.2

phases:
  install:
    commands:
      - echo "Installing dependencies"
      - npm install
  pre_build:
    commands:
      - echo "Logging into Amazon ECR"
      - aws ecr get-login-password --region $AWS_DEFAULT_REGION | docker login --username AWS --password-stdin $AWS_ACCOUNT_ID.dkr.ecr.$AWS_DEFAULT_REGION.amazonaws.com
  build:
    commands:
      - echo "Building Docker image"
      - docker build -t fargate-app .
      - docker tag fargate-app:latest $AWS_ACCOUNT_ID.dkr.ecr.$AWS_DEFAULT_REGION.amazonaws.com/fargate-app:latest
  post_build:
    commands:
      - echo "Pushing Docker image to ECR"
      - docker push $AWS_ACCOUNT_ID.dkr.ecr.$AWS_DEFAULT_REGION.amazonaws.com/fargate-app:latest
artifacts:
  files:
    - "**/*"
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5.3. Creating the Pipeline

  1. Go to CodePipeline > Create Pipeline.
  2. Set up the Source Stage with your GitHub repository.
  3. Add a Build Stage using AWS CodeBuild.
  4. Add a Deploy Stage to update your ECS Fargate service with the new image.

Step 6: Testing the Deployment

6.1. Push Code to GitHub

Commit and push the code changes to GitHub:

git add .
git commit -m "Initial commit for ECS Fargate app"
git push origin main
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6.2. Verify Pipeline Execution

Once the code is pushed, the CodePipeline will be triggered, building the Docker image, pushing it to ECR, and deploying it to ECS Fargate.


Monitoring and Logging with CloudWatch

7.1. ECS Fargate Logging

AWS Fargate integrates with CloudWatch Logs, allowing you to monitor application logs directly. Check the logs by going to **CloudWatch

** > Logs.

7.2. Set up CloudWatch Alarms

  1. Go to CloudWatch Console > Alarms.
  2. Create alarms for CPU, memory usage, or log error patterns to ensure proper monitoring.

Conclusion

In this project, you’ve built a complete DevOps pipeline on AWS, deploying a Dockerized Node.js application using ECS Fargate, RDS, and ECR. You’ve also automated the deployment process using CodePipeline and CodeBuild, integrating robust monitoring via CloudWatch. This setup is scalable, resilient, and adheres to modern DevOps practices.


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