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This repository showcases the terraform we use to setup EKS cluster on AWS.

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Introduction

This repository showcases the terraform template that will help you to create EKS cluster on AWS.


AWS EKS Architecture

github_eks

Note - Above architecture doesn't reflect all the components that are created by this template. However, it does give an idea about core infrastructure that will be created.

  • Creates a new VPC with CIDR Block - 10.15.0.0/19 (i.e. 8190 IPs in a VPC) in a region of your choice. Feel free to change it, values are variables.tf.
  • Creates 3 public & 3 private subnets with each size of 1024 IP addresses in each zones
  • Creates security groups required for cluster and worker nodes.
  • Creates recommended IAM service and EC2 roles required for EKS cluster.
  • Creates Internet & NAT Gateway required for public and private communications.
  • Routing Table and routes for public and private subnets.

Before you start

Before you execute this template make sure following dependencies are met.

  • Install terraform
  • Configure AWS CLI - make sure you configure AWS CLI with admin privileges
  • AWS iam authenticator - Amazon EKS uses IAM to provide authentication to your Kubernetes cluster through the AWS IAM Authenticator for Kubernetes.
  • Make sure a valid SSH key pair exists under the ~/.ssh/ directory. If it does not exist, create a new SSH Key Pair for authentication by using the command ssh-keygen -t rsa

Setup

$ git clone https://github.com/MediaIQ/terraform-aws-eks-cluster.git
$ cd terraform-aws-eks-cluster

Initialize Terraform

$ terraform init

Terraform Plan

The terraform plan command is used to create an execution plan. Always a good practice to run it before you apply it to see what all resources will be created.

This will ask you to specify cluster name and worker node instance type.

$ terraform plan

var.cluster-name
  Enter eks cluster name - example like eks-demo, eks-dev etc

  Enter a value: eks-demo

var.region
  Enter region you want to create EKS cluster in

  Enter a value: us-east-1

var.ssh_key_pair
  Enter SSH keypair name that already exist in the account

  Enter a value: eks-keypair

var.worker-node-instance_type
  enter worker node instance type

  Enter a value: t2.medium

Apply changes

$ terraform apply

Configure kubectl

$ aws eks --region <AWS-REGION> update-kubeconfig --name <CLUSTER-NAME>

Note:- If AWS CLI and AWS iam authenticator setup correctly, above command should set up kubeconfig file in ~/.kube/config in your system.

Verify EKS cluster

$ kubectl get svc

Output:

NAME             TYPE        CLUSTER-IP   EXTERNAL-IP   PORT(S)   AGE
svc/kubernetes   ClusterIP   10.100.0.1   <none>        443/TCP   1m

Once cluster is verified successfully, it's time to create a configMap to add the worker nodes into the cluster. We have configured output with this template which will produce the configMap file content that you paste in aws-auth.yaml.

Add worker node

$ kubectl apply -f aws-auth.yaml

Nodes status - watch them joining the cluster

$ kubectl get no -w

Note:- You should be seeing nodes joining the cluster within less than minutes.


EKS cluster upgrade using new asg file in terraform

Create a new eks-worker-node-v1.tf file with different name and below changes you have to do for EKS cluster upgrade.

  • Change the userdata name to new version(eks-worker-node-upgrade-v2.tf) and should not conflict with old one.
  • Change the Launch configuration and autoscaling group name to new version and should not conflict with old one.
  • Change the ami to which your going upgrade EKS version provided by AWS -- ##eks-worker-ami -- change to new version
  • In the new worker node file(eks-worker-node-upgrade-v2.tf), we have updated extra arguments for dedicated node(taint).
  • Once you apply new .tf file and the new nodes will spin up , post that move workloads to the new one and delete old nodes.
  • Please refer eks-worker-node-upgrade-v2.tf file to upgrade the EKS cluster for reference and below steps to upgrade the worker nodes.

Once you create new file and apply changes and also change the eks master version in .tf file.

$ terraform apply  

Once changes have applied terraform files, it will show new nodes as well as old nodes with different version.

$ kubectl get no
  NAME                       STATUS   ROLES   AGE   VERSION
  ip-10-0-87-98.ec2.inetenal  Ready   <none>  21d   v1.12.7
  ip-10-0-15-24.ec2.inetenal  Ready   <none>  21d   v1.12.7
  ip-10-0-23-100.ec2.inetenal  Ready   <none>  21d   v1.13.7-eks-c57ff8
  ip-10-0-14-23.ec2.inetenal  Ready   <none>  21d   v1.13.7-eks-c57ff8

The next step is update the kube-system components based on the versions compatibility and cordon the old nodes(should not schedule in the old nodes once you move the workloads)

$ kubectl cordon nodename (old nodes)

Once you started draining the old nodes, the workload will move to the new node.

$ kubectl drain nodename (old nodes)

Once the draining is completed for all the old nodes ,then delete the old nodes.

Contribution

We are happy to accept the changes that you think can help the utilities grow.

Here are some things to note:

  • Raise a ticket for any requirement
  • Discuss the implementation requirement or bug fix with the team members
  • Fork the repository and solve the issue in one single commit
  • Raise a PR regarding the same issue and attach the required documentation or provide a more detailed overview of the changes

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