terraform-aws-eks
terraform-aws-vpc
Our great sponsors
terraform-aws-eks | terraform-aws-vpc | |
---|---|---|
69 | 23 | |
4,154 | 2,868 | |
2.4% | 1.2% | |
8.7 | 7.2 | |
7 days ago | 9 days ago | |
HCL | HCL | |
Apache License 2.0 | Apache License 2.0 |
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
Activity is a relative number indicating how actively a project is being developed. Recent commits have higher weight than older ones.
For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
terraform-aws-eks
- Feat: Made it clear that we stand with Ukraine
- Need suggestions for managing eks terraform module
-
What's everyone's favorite EKS Terraform module these days?
cloudposse module was popular but most have moved to https://github.com/terraform-aws-modules/terraform-aws-eks also eks blueprints will be moving to this module. use eks blueprints v5
-
The Future of Terraform: ClickOps
That's a very simplistic view. Let's do a small thought exercise. Is this module not infrastructure?
-
Failed to marshal state to json
I think there is an issue with the module eks : https://github.com/terraform-aws-modules/terraform-aws-eks
-
☸️ How to deploy a cost-efficient AWS/EKS Kubernetes cluster using Terraform in 2023
module "eks" { source = "terraform-aws-modules/eks/aws" cluster_name = var.cluster_name cluster_version = var.kubernetes_version cluster_endpoint_private_access = true cluster_endpoint_public_access = true cluster_addons = { coredns = { most_recent = true timeouts = { create = "2m" # default 20m. Times out on first launch while being effectively created } } kube-proxy = { most_recent = true } vpc-cni = { most_recent = true } aws-ebs-csi-driver = { most_recent = true } } vpc_id = module.vpc.vpc_id subnet_ids = module.vpc.private_subnets # Self managed node groups will not automatically create the aws-auth configmap so we need to create_aws_auth_configmap = true manage_aws_auth_configmap = true aws_auth_users = var.aws_auth_users enable_irsa = true node_security_group_additional_rules = { ingress_self_all = { description = "Node to node all ports/protocols" protocol = "-1" from_port = 0 to_port = 0 type = "ingress" self = true } egress_all = { # by default, only https urls can be reached from inside the cluster description = "Node all egress" protocol = "-1" from_port = 0 to_port = 0 type = "egress" cidr_blocks = ["0.0.0.0/0"] ipv6_cidr_blocks = ["::/0"] } } self_managed_node_group_defaults = { # enable discovery of autoscaling groups by cluster-autoscaler autoscaling_group_tags = { "k8s.io/cluster-autoscaler/enabled" : true, "k8s.io/cluster-autoscaler/${var.cluster_name}" : "owned", } # from https://github.com/terraform-aws-modules/terraform-aws-eks/issues/2207#issuecomment-1220679414 # to avoid "waiting for a volume to be created, either by external provisioner "ebs.csi.aws.com" or manually created by system administrator" iam_role_additional_policies = { AmazonEBSCSIDriverPolicy = "arn:aws:iam::aws:policy/service-role/AmazonEBSCSIDriverPolicy" } } # possible values : https://github.com/terraform-aws-modules/terraform-aws-eks/blob/master/node_groups.tf self_managed_node_groups = { default_node_group = { create = false } # fulltime-az-a = { # name = "fulltime-az-a" # subnets = [module.vpc.private_subnets[0]] # instance_type = "t3.medium" # desired_size = 1 # bootstrap_extra_args = "--kubelet-extra-args '--node-labels=node.kubernetes.io/lifecycle=normal'" # } spot-az-a = { name = "spot-az-a" subnet_ids = [module.vpc.private_subnets[0]] # only one subnet to simplify PV usage # availability_zones = ["${var.region}a"] # conflict with previous option. TODO try subnet_ids=null at creation (because at modification it fails) desired_size = 2 min_size = 1 max_size = 10 bootstrap_extra_args = "--kubelet-extra-args '--node-labels=node.kubernetes.io/lifecycle=spot'" use_mixed_instances_policy = true mixed_instances_policy = { instances_distribution = { on_demand_base_capacity = 0 on_demand_percentage_above_base_capacity = 0 spot_allocation_strategy = "lowest-price" # "capacity-optimized" described here : https://aws.amazon.com/blogs/compute/introducing-the-capacity-optimized-allocation-strategy-for-amazon-ec2-spot-instances/ } override = [ { instance_type = "t3.xlarge" weighted_capacity = "1" }, { instance_type = "t3a.xlarge" weighted_capacity = "1" }, ] } } } tags = local.tags }
-
How are most EKS clusters deployed?
If you want somewhat viable setup - I'd go for terraform-aws-modules (Anton did an awesome job), and aws-ia blueprints, especially those multi-tenant ones.
-
I am stuck on learning how to provision K8s in AWS. Security groups? ALB? ACM? R53?
https://github.com/terraform-aws-modules/terraform-aws-eks
-
Deal with external managed resources destruction
I tried using explicit depends_on between my modules but this practise is not recommended since it cause issues during planning.
-
How to Upgrade EKS Cluster and its Nodes via Terraform without disruption?
If you use https://github.com/terraform-aws-modules/terraform-aws-eks it is designed to upgrade the components in the correct order when the cluster version is changed
terraform-aws-vpc
- Despliega una Infraestructura de Red AWS Robusta con Terraform
-
Un cóctel perfecto 🍹 ECS Fargate, Service Connect,Terraform y Github Actions.
ECR VPC ECS
- Private github monorepo to store official AWS terraform modules as github submodules
-
Deploy Secure Spring Boot Microservices on Amazon EKS Using Terraform and Kubernetes
Now let us move on to the important part of the tutorial. Creating an EKS cluster in AWS is not as straightforward as in other cloud platforms. You need to also create a lot more resources for everything to work correctly without surprises. You will be using a bunch of Terraform providers to help with this, and you will also use some prebuilt Terraform modules like AWS VPC Terraform module and Amazon EKS Blueprints for Terraform to reduce the amount of boilerplate you need to write.
-
Cost optimisation on AWS: Navigating NAT Charges with Private ECS Tasks on Fargate
The infrastructure is created using terraform, and can be found in this git repository. The project uses community maintained AWS Terraform modules, which simplify this process. The code examples that follow in the post are using the vpc-endpoints module to create the Gateway and interface endpoints.
- An issue with terraform module 3.2.0
-
Terraform Certification (Part 11): Modules
Let us use an example from AWS to see how we can use a publicly available module. When setting up a virtual network (or Virtual Private Cloud, VPC) in AWS there are a lot of resources you must create. One popular module is the AWS VPC module. The documentation for this module is available at registry.terraform.io/modules/terraform-aws-modules/vpc/aws. The simplest example of using this module looks like this:
-
Create a simple EKS cluster
locals { region = data.aws_region.current.name } module "vpc" { source = "git::https://github.com/terraform-aws-modules/terraform-aws-vpc.git?ref=v3.16.0" name = var.vpc_name cidr = var.vpc_cidr azs = ["${local.region}a", "${local.region}b"] public_subnets = cidrsubnets(var.vpc_cidr, 1, 1) enable_dns_hostnames = true enable_dns_support = true map_public_ip_on_launch = true tags = { Name = var.vpc_name } public_subnet_tags = { Name = "public subnet" "kubernetes.io/role/elb" = "1" "kubernetes.io/cluster/${var.cluster_name}" = "shared" } }
-
Trying to create a second Subnet using an official AWS module.
/u/akirakotkata all of the answers in this thread are correct, but nobody's empowered you to figure this out on your own in the future. In the registry link you provided, there's a link to Source Code. Follow that link and take a look at variables.tf in the repo, lines 13-17. That block is what is expected for the parameter, so you need to tweak what you're sending into what it expects.
- advance terraform practice
What are some alternatives?
terragrunt-infrastructure-modules-example - A repo used to show examples file/folder structures you can use with Terragrunt and Terraform
winget-cli - WinGet is the Windows Package Manager. This project includes a CLI (Command Line Interface), PowerShell modules, and a COM (Component Object Model) API (Application Programming Interface).
eksctl - The official CLI for Amazon EKS
JavaScript - Algorithms and Data Structures implemented in JavaScript for beginners, following best practices.
terraform-aws-cloudwatch - Terraform module to create AWS Cloudwatch resources 🇺🇦
Flutter-AI-Rubik-cube-Solver - Flutter-Python rubiks cube solver.
terraform-aws-eks-blueprints - Configure and deploy complete EKS clusters.
deploy-aws-lambda-to-vpc-with-terraform - Terraform module with all the cloud resources needed to run Lambda within a VPC
eks-alb-istio-with-tls - This repository demonstrate how to configure end-to-end encryption on EKS platform using TLS certificate from Amazon Certificate Manager, AWS Application LoadBalancer and Istio as service mesh.
elsa - ❄️ Elsa is a minimal, fast and secure runtime for JavaScript and TypeScript written in Go
terraform-aws-security-group - This terraform module creates set of Security Group and Security Group Rules resources in various combinations.
terraform-aws-security-group - Terraform module to create AWS Security Group resources 🇺🇦