/terraform-azurerm-aks

Terraform Module for deploying an AKS cluster

Primary LanguageHCLMIT LicenseMIT

terraform-azurerm-aks

Deploys a Kubernetes cluster on AKS with monitoring support through Azure Log Analytics

This Terraform module deploys a Kubernetes cluster on Azure using AKS (Azure Kubernetes Service) and adds support for monitoring with Log Analytics.

-> NOTE: If you have not assigned client_id or client_secret, A SystemAssigned identity will be created.

Usage in Terraform 0.13

provider "azurerm" {
  features {}
}

resource "azurerm_resource_group" "example" {
  name     = "aks-resource-group"
  location = "eastus"
}

module "network" {
  source              = "Azure/network/azurerm"
  resource_group_name = azurerm_resource_group.example.name
  address_space       = "10.0.0.0/16"
  subnet_prefixes     = ["10.0.1.0/24"]
  subnet_names        = ["subnet1"]
  depends_on          = [azurerm_resource_group.example]
}

data "azuread_group" "aks_cluster_admins" {
  name = "AKS-cluster-admins"
}

module "aks" {
  source                           = "Azure/aks/azurerm"
  resource_group_name              = azurerm_resource_group.example.name
  client_id                        = "your-service-principal-client-appid"
  client_secret                    = "your-service-principal-client-password"
  kubernetes_version               = "1.19.3"
  orchestrator_version             = "1.19.3"
  prefix                           = "prefix"
  cluster_name                     = "cluster-name"
  network_plugin                   = "azure"
  vnet_subnet_id                   = module.network.vnet_subnets[0]
  os_disk_size_gb                  = 50
  sku_tier                         = "Paid" # defaults to Free
  enable_role_based_access_control = true
  rbac_aad_admin_group_object_ids  = [data.azuread_group.aks_cluster_admins.id]
  rbac_aad_managed                 = true
  private_cluster_enabled          = true # default value
  enable_http_application_routing  = true
  enable_azure_policy              = true
  enable_auto_scaling              = true
  enable_host_encryption           = true
  agents_min_count                 = 1
  agents_max_count                 = 2
  agents_count                     = null # Please set `agents_count` `null` while `enable_auto_scaling` is `true` to avoid possible `agents_count` changes.
  agents_max_pods                  = 100
  agents_pool_name                 = "exnodepool"
  agents_availability_zones        = ["1", "2"]
  agents_type                      = "VirtualMachineScaleSets"

  agents_labels = {
    "nodepool" : "defaultnodepool"
  }

  agents_tags = {
    "Agent" : "defaultnodepoolagent"
  }

  enable_ingress_application_gateway = true
  ingress_application_gateway_name = "aks-agw"
  ingress_application_gateway_subnet_cidr = "10.52.1.0/24"

  network_policy                 = "azure"
  net_profile_dns_service_ip     = "10.0.0.10"
  net_profile_docker_bridge_cidr = "170.10.0.1/16"
  net_profile_service_cidr       = "10.0.0.0/16"

  depends_on = [module.network]
}

Usage in Terraform 0.12

provider "azurerm" {
  features {}
}

resource "azurerm_resource_group" "example" {
  name     = "aks-resource-group"
  location = "eastus"
}

module "aks" {
  source              = "Azure/aks/azurerm"
  resource_group_name = azurerm_resource_group.example.name
  prefix              = "prefix"
}

The module supports some outputs that may be used to configure a kubernetes provider after deploying an AKS cluster.

provider "kubernetes" {
  host                   = module.aks.host
  client_certificate     = base64decode(module.aks.client_certificate)
  client_key             = base64decode(module.aks.client_key)
  cluster_ca_certificate = base64decode(module.aks.cluster_ca_certificate)
}

Test

Configurations

We provide 2 ways to build, run, and test the module on a local development machine. Native (Mac/Linux) or Docker.

Native (Mac/Linux)

Prerequisites

Environment setup

We provide simple script to quickly set up module development environment:

$ curl -sSL https://raw.githubusercontent.com/Azure/terramodtest/master/tool/env_setup.sh | sudo bash

Run test

Then simply run it in local shell:

$ cd $GOPATH/src/{directory_name}/
$ bundle install

# set service principal
$ export ARM_CLIENT_ID="service-principal-client-id"
$ export ARM_CLIENT_SECRET="service-principal-client-secret"
$ export ARM_SUBSCRIPTION_ID="subscription-id"
$ export ARM_TENANT_ID="tenant-id"
$ export ARM_TEST_LOCATION="eastus"
$ export ARM_TEST_LOCATION_ALT="eastus2"
$ export ARM_TEST_LOCATION_ALT2="westus"

# set aks variables
$ export TF_VAR_client_id="service-principal-client-id"
$ export TF_VAR_client_secret="service-principal-client-secret"

# run test
$ rake build
$ rake full

Docker

We provide a Dockerfile to build a new image based FROM the mcr.microsoft.com/terraform-test Docker hub image which adds additional tools / packages specific for this module (see Custom Image section). Alternatively use only the microsoft/terraform-test Docker hub image by using these instructions.

Prerequisites

Custom Image

This builds the custom image:

$ docker build --build-arg BUILD_ARM_SUBSCRIPTION_ID=$ARM_SUBSCRIPTION_ID --build-arg BUILD_ARM_CLIENT_ID=$ARM_CLIENT_ID --build-arg BUILD_ARM_CLIENT_SECRET=$ARM_CLIENT_SECRET --build-arg BUILD_ARM_TENANT_ID=$ARM_TENANT_ID -t azure-aks .

This runs the build and unit tests:

$ docker run --rm azure-aks /bin/bash -c "bundle install && rake build"

This runs the end to end tests:

$ docker run --rm azure-aks /bin/bash -c "bundle install && rake e2e"

This runs the full tests:

$ docker run --rm azure-aks /bin/bash -c "bundle install && rake full"

Authors

Originally created by Damien Caro and Malte Lantin

License

MIT

Contributing

This project welcomes contributions and suggestions. Most contributions require you to agree to a Contributor License Agreement (CLA) declaring that you have the right to, and actually do, grant us the rights to use your contribution. For details, visit https://cla.microsoft.com.

When you submit a pull request, a CLA-bot will automatically determine whether you need to provide a CLA and decorate the PR appropriately (e.g., label, comment). Simply follow the instructions provided by the bot. You will only need to do this once across all repos using our CLA.

This project has adopted the Microsoft Open Source Code of Conduct. For more information see the Code of Conduct FAQ or contact opencode@microsoft.com with any additional questions or comments.