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Wanderlust - Your Ultimate Travel Blog 🌍✈️

WanderLust is a simple MERN travel blog website ✈ This project is aimed to help people to contribute in open source, upskill in react and also master git.

Preview Image

Wanderlust Mega Project End to End Implementation

In this demo, we will see how to deploy an end to end three tier MERN stack application on EKS cluster.

Project Deployment Flow:

Tech stack used in this project:

  • GitHub (Code)
  • Docker (Containerization)
  • Jenkins (CI)
  • OWASP (Dependency check)
  • SonarQube (Quality)
  • Trivy (Filesystem Scan)
  • ArgoCD (CD)
  • Redis (Caching)
  • AWS EKS (Kubernetes)
  • Helm (Monitoring using grafana and prometheus)

How pipeline will look after deployment:

  • CI pipeline to build and push image

  • CD pipeline to update application version image

  • ArgoCD application for deployment on EKS image

Important

Below table helps you to navigate to the particular tool installation section fast.

Tech stack Installation
Jenkins Master Install and configure Jenkins
eksctl Install eksctl
Argocd Install and configure ArgoCD
Jenkins-Worker Setup Install and configure Jenkins Worker Node
OWASP setup Install and configure OWASP
SonarQube Install and configure SonarQube
Email Notification Setup Email notification setup
Monitoring Prometheus and grafana setup using helm charts
Clean Up Clean up

Pre-requisites to implement this project:

Note

This project will be implemented on North California region (us-west-1).

  • Create 1 Master machine on AWS with 2CPU, 8GB of RAM (t2.large) and 29 GB of storage and install Docker on it.

  • Open the below ports in security group of master machine and also attach same security group to Jenkins worker node (We will create worker node shortly) image

Note

We are creating this master machine because we will configure Jenkins master, eksctl, EKS cluster creation from here.

Install & Configure Docker by using below command, "NewGrp docker" will refresh the group config hence no need to restart the EC2 machine.

sudo apt-get update
sudo apt-get install docker.io -y
sudo usermod -aG docker ubuntu && newgrp docker

  • Install and configure Jenkins (Master machine)
sudo apt update -y
sudo apt install fontconfig openjdk-17-jre -y

sudo wget -O /usr/share/keyrings/jenkins-keyring.asc \
  https://pkg.jenkins.io/debian-stable/jenkins.io-2023.key
  
echo "deb [signed-by=/usr/share/keyrings/jenkins-keyring.asc]" \
  https://pkg.jenkins.io/debian-stable binary/ | sudo tee \
  /etc/apt/sources.list.d/jenkins.list > /dev/null
  
sudo apt-get update -y
sudo apt-get install jenkins -y
  • Now, access Jenkins Master on the browser on port 8080 and configure it.

  • Create EKS Cluster on AWS (Master machine)

    • IAM user with access keys and secret access keys
    • AWSCLI should be configured (Setup AWSCLI)
    curl "https://awscli.amazonaws.com/awscli-exe-linux-x86_64.zip" -o "awscliv2.zip"
    sudo apt install unzip
    unzip awscliv2.zip
    sudo ./aws/install
    aws configure
    curl -o kubectl https://amazon-eks.s3.us-west-2.amazonaws.com/1.19.6/2021-01-05/bin/linux/amd64/kubectl
    chmod +x ./kubectl
    sudo mv ./kubectl /usr/local/bin
    kubectl version --short --client
    curl --silent --location "https://github.com/weaveworks/eksctl/releases/latest/download/eksctl_$(uname -s)_amd64.tar.gz" | tar xz -C /tmp
    sudo mv /tmp/eksctl /usr/local/bin
    eksctl version
    • Create EKS Cluster (Master machine)
    eksctl create cluster --name=wanderlust \
                        --region=us-east-2 \
                        --version=1.30 \
                        --without-nodegroup
    • Associate IAM OIDC Provider (Master machine)
    eksctl utils associate-iam-oidc-provider \
      --region us-east-2 \
      --cluster wanderlust \
      --approve
    • Create Nodegroup (Master machine)
    eksctl create nodegroup --cluster=wanderlust \
                         --region=us-east-2 \
                         --name=wanderlust \
                         --node-type=t2.large \
                         --nodes=2 \
                         --nodes-min=2 \
                         --nodes-max=2 \
                         --node-volume-size=29 \
                         --ssh-access \
                         --ssh-public-key=eks-nodegroup-key 

Note

Make sure the ssh-public-key "eks-nodegroup-key is available in your aws account"

  • Setting up jenkins worker node
    • Create a new EC2 instance (Jenkins Worker) with 2CPU, 8GB of RAM (t2.large) and 29 GB of storage and install java on it
    sudo apt update -y
    sudo apt install fontconfig openjdk-17-jre -y
    • Create an IAM role with administrator access attach it to the jenkins worker node Select Jenkins worker node EC2 instance --> Actions --> Security --> Modify IAM role image

    • Configure AWSCLI (Setup AWSCLI)

    sudo su
    curl "https://awscli.amazonaws.com/awscli-exe-linux-x86_64.zip" -o "awscliv2.zip"
    sudo apt install unzip
    unzip awscliv2.zip
    sudo ./aws/install
    aws configure

  • generate ssh keys (Master machine) to setup jenkins master-slave
ssh-keygen

image

  • Now move to directory where your ssh keys are generated and copy the content of public key and paste to authorized_keys file of the Jenkins worker node.

  • Now, go to the jenkins master and navigate to Manage jenkins --> Nodes, and click on Add node
    • name: Node
    • type: permanent agent
    • Number of executors: 2
    • Remote root directory
    • Labels: Node
    • Usage: Only build jobs with label expressions matching this node
    • Launch method: Via ssh
    • Host: <public-ip-worker-jenkins>
    • Credentials: Add --> Kind: ssh username with private key --> ID: Worker --> Description: Worker --> Username: root --> Private key: Enter directly --> Add Private key
    • Host Key Verification Strategy: Non verifying Verification Strategy
    • Availability: Keep this agent online as much as possible

  • And your jenkins worker node is added image

  • Install docker (Jenkins Worker)
sudo apt install docker.io -y
sudo usermod -aG docker ubuntu && newgrp docker

  • Install and configure SonarQube (Master machine)
docker run -itd --name SonarQube-Server -p 9000:9000 sonarqube:lts-community

  • Install Trivy (Jenkins Worker)
sudo apt-get install wget apt-transport-https gnupg lsb-release -y
wget -qO - https://aquasecurity.github.io/trivy-repo/deb/public.key | sudo apt-key add -
echo deb https://aquasecurity.github.io/trivy-repo/deb $(lsb_release -sc) main | sudo tee -a /etc/apt/sources.list.d/trivy.list
sudo apt-get update -y
sudo apt-get install trivy -y

  • Install and Configure ArgoCD (Master Machine)
    • Create argocd namespace
    kubectl create namespace argocd
    • Apply argocd manifest
    kubectl apply -n argocd -f https://raw.githubusercontent.com/argoproj/argo-cd/stable/manifests/install.yaml
    • Make sure all pods are running in argocd namespace
    watch kubectl get pods -n argocd
    • Install argocd CLI
    sudo curl --silent --location -o /usr/local/bin/argocd https://github.com/argoproj/argo-cd/releases/download/v2.4.7/argocd-linux-amd64
    • Provide executable permission
    sudo chmod +x /usr/local/bin/argocd
    • Check argocd services
    kubectl get svc -n argocd
    • Change argocd server's service from ClusterIP to NodePort
    kubectl patch svc argocd-server -n argocd -p '{"spec": {"type": "NodePort"}}'
    • Confirm service is patched or not
    kubectl get svc -n argocd
    • Check the port where ArgoCD server is running and expose it on security groups of a worker node image
    • Access it on browser, click on advance and proceed with
    <public-ip-worker>:<port>
    image image image
    • Fetch the initial password of argocd server
    kubectl -n argocd get secret argocd-initial-admin-secret -o jsonpath="{.data.password}" | base64 -d; echo
    • Username: admin
    • Now, go to User Info and update your argocd password

Steps to add email notification

  • Go to your Jenkins Master EC2 instance and allow 465 port number for SMTPS

  • Now, we need to generate an application password from our gmail account to authenticate with jenkins
    • Open gmail and go to Manage your Google Account --> Security

Important

Make sure 2 step verification must be on

image

  • Search for App password and create a app password for jenkins image image

  • Once, app password is create and go back to jenkins Manage Jenkins --> Credentials to add username and password for email notification image

  • Go back to Manage Jenkins --> System and search for Extended E-mail Notification image

  • Scroll down and search for E-mail Notification and setup email notification

Important

Enter your gmail password which we copied recently in password field E-mail Notification --> Advance

image image image

Steps to implement the project:

  • Go to Jenkins Master and click on Manage Jenkins --> Plugins --> Available plugins install the below plugins:
    • OWASP
    • SonarQube Scanner
    • Docker
    • Pipeline: Stage View

  • Configure OWASP, move to Manage Jenkins --> Plugins --> Available plugins (Jenkins Worker) image

  • After OWASP plugin is installed, Now move to Manage jenkins --> Tools (Jenkins Worker) image

  • Login to SonarQube server and create the credentials for jenkins to integrate with SonarQube
    • Navigate to Administration --> Security --> Users --> Token image image image

  • Now, go to Manage Jenkins --> credentials and add Sonarqube credentials: image

  • Go to Manage Jenkins --> Tools and search for SonarQube Scanner installations: image

  • Go to Manage Jenkins --> credentials and add Github credentials to push updated code from the pipeline: image

Note

While adding github credentials add Personal Access Token in the password field.

  • Go to Manage Jenkins --> System and search for SonarQube installations: image

  • Now again, Go to Manage Jenkins --> System and search for Global Trusted Pipeline Libraries:</b image image

  • Login to SonarQube server, go to Administration --> Webhook and click on create image image

  • Now, go to github repository and under Automations directory update the instance-id field on both the updatefrontendnew.sh updatebackendnew.sh with the k8s worker's instance id image

  • Navigate to Manage Jenkins --> credentials and add credentials for docker login to push docker image: image

  • Create a Wanderlust-CI pipeline image

  • Create one more pipeline Wanderlust-CD image image image

  • Provide permission to docker socket so that docker build and push command do not fail (Jenkins Worker)
chmod 777 /var/run/docker.sock

image

  • Go to Master Machine and add our own eks cluster to argocd for application deployment using cli
    • Login to argoCD from CLI
     argocd login 52.53.156.187:32738 --username admin

Tip

52.53.156.187:32738 --> This should be your argocd url

image

  • Check how many clusters are available in argocd
argocd cluster list

image

  • Get your cluster name
kubectl config get-contexts

image

  • Add your cluster to argocd
argocd cluster add [email protected] --name wanderlust-eks-cluster

Tip

[email protected] --> This should be your EKS Cluster Name.

image

  • Once your cluster is added to argocd, go to argocd console Settings --> Clusters and verify it image

  • Go to Settings --> Repositories and click on Connect repo image image image

Note

Connection should be successful

  • Now, go to Applications and click on New App

image

Important

Make sure to click on the Auto-Create Namespace option while creating argocd application

image image

  • Congratulations, your application is deployed on AWS EKS Cluster image image
  • Open port 31000 and 31100 on worker node and Access it on browser
<worker-public-ip>:31000

image image image

  • Email Notification image

How to monitor EKS cluster, kubernetes components and workloads using prometheus and grafana via HELM (On Master machine)

  • Install Helm Chart

curl -fsSL -o get_helm.sh https://raw.githubusercontent.com/helm/helm/main/scripts/get-helm-3
chmod 700 get_helm.sh
./get_helm.sh

  • Add Helm Stable Charts for Your Local Client
helm repo add stable https://charts.helm.sh/stable

  • Add Prometheus Helm Repository
helm repo add prometheus-community https://prometheus-community.github.io/helm-charts

  • Create Prometheus Namespace
kubectl create namespace prometheus
kubectl get ns

  • Install Prometheus using Helm
helm install stable prometheus-community/kube-prometheus-stack -n prometheus

  • Verify prometheus installation
kubectl get pods -n prometheus

  • Check the services file (svc) of the Prometheus
kubectl get svc -n prometheus

  • Expose Prometheus and Grafana to the external world through Node Port

Important

change it from Cluster IP to NodePort after changing make sure you save the file and open the assigned nodeport to the service.

kubectl edit svc stable-kube-prometheus-sta-prometheus -n prometheus

image image

  • Verify service
kubectl get svc -n prometheus

  • Now,let’s change the SVC file of the Grafana and expose it to the outer world
kubectl edit svc stable-grafana -n prometheus

image

  • Check grafana service
kubectl get svc -n prometheus

  • Get a password for grafana
kubectl get secret --namespace prometheus stable-grafana -o jsonpath="{.data.admin-password}" | base64 --decode ; echo

Note

Username: admin

  • Now, view the Dashboard in Grafana image image image image

Clean Up

  • Delete eks cluster
eksctl delete cluster --name=wanderlust --region=us-west-1

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