Merge pull request #1105 from VincentS/aws_deployment

AWS Terraform for Kargo
This commit is contained in:
Matthew Mosesohn 2017-03-20 12:55:11 +03:00 committed by GitHub
commit 859c08620b
20 changed files with 794 additions and 327 deletions

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*.tfstate*
inventory
.terraform

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variable "deploymentName" {
type = "string"
description = "The desired name of your deployment."
}
variable "numControllers"{
type = "string"
description = "Desired # of controllers."
}
variable "numEtcd" {
type = "string"
description = "Desired # of etcd nodes. Should be an odd number."
}
variable "numNodes" {
type = "string"
description = "Desired # of nodes."
}
variable "volSizeController" {
type = "string"
description = "Volume size for the controllers (GB)."
}
variable "volSizeEtcd" {
type = "string"
description = "Volume size for etcd (GB)."
}
variable "volSizeNodes" {
type = "string"
description = "Volume size for nodes (GB)."
}
variable "subnet" {
type = "string"
description = "The subnet in which to put your cluster."
}
variable "securityGroups" {
type = "string"
description = "The sec. groups in which to put your cluster."
}
variable "ami"{
type = "string"
description = "AMI to use for all VMs in cluster."
}
variable "SSHKey" {
type = "string"
description = "SSH key to use for VMs."
}
variable "master_instance_type" {
type = "string"
description = "Size of VM to use for masters."
}
variable "etcd_instance_type" {
type = "string"
description = "Size of VM to use for etcd."
}
variable "node_instance_type" {
type = "string"
description = "Size of VM to use for nodes."
}
variable "terminate_protect" {
type = "string"
default = "false"
}
variable "awsRegion" {
type = "string"
}
provider "aws" {
region = "${var.awsRegion}"
}
variable "iam_prefix" {
type = "string"
description = "Prefix name for IAM profiles"
}
resource "aws_iam_instance_profile" "kubernetes_master_profile" {
name = "${var.iam_prefix}_kubernetes_master_profile"
roles = ["${aws_iam_role.kubernetes_master_role.name}"]
}
resource "aws_iam_role" "kubernetes_master_role" {
name = "${var.iam_prefix}_kubernetes_master_role"
assume_role_policy = <<EOF
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Principal": { "Service": "ec2.amazonaws.com"},
"Action": "sts:AssumeRole"
}
]
}
EOF
}
resource "aws_iam_role_policy" "kubernetes_master_policy" {
name = "${var.iam_prefix}_kubernetes_master_policy"
role = "${aws_iam_role.kubernetes_master_role.id}"
policy = <<EOF
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Action": ["ec2:*"],
"Resource": ["*"]
},
{
"Effect": "Allow",
"Action": ["elasticloadbalancing:*"],
"Resource": ["*"]
},
{
"Effect": "Allow",
"Action": "s3:*",
"Resource": "*"
}
]
}
EOF
}
resource "aws_iam_instance_profile" "kubernetes_node_profile" {
name = "${var.iam_prefix}_kubernetes_node_profile"
roles = ["${aws_iam_role.kubernetes_node_role.name}"]
}
resource "aws_iam_role" "kubernetes_node_role" {
name = "${var.iam_prefix}_kubernetes_node_role"
assume_role_policy = <<EOF
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Principal": { "Service": "ec2.amazonaws.com"},
"Action": "sts:AssumeRole"
}
]
}
EOF
}
resource "aws_iam_role_policy" "kubernetes_node_policy" {
name = "${var.iam_prefix}_kubernetes_node_policy"
role = "${aws_iam_role.kubernetes_node_role.id}"
policy = <<EOF
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Action": "s3:*",
"Resource": "*"
},
{
"Effect": "Allow",
"Action": "ec2:Describe*",
"Resource": "*"
},
{
"Effect": "Allow",
"Action": "ec2:AttachVolume",
"Resource": "*"
},
{
"Effect": "Allow",
"Action": "ec2:DetachVolume",
"Resource": "*"
}
]
}
EOF
}
resource "aws_instance" "master" {
count = "${var.numControllers}"
ami = "${var.ami}"
instance_type = "${var.master_instance_type}"
subnet_id = "${var.subnet}"
vpc_security_group_ids = ["${var.securityGroups}"]
key_name = "${var.SSHKey}"
disable_api_termination = "${var.terminate_protect}"
iam_instance_profile = "${aws_iam_instance_profile.kubernetes_master_profile.id}"
root_block_device {
volume_size = "${var.volSizeController}"
}
tags {
Name = "${var.deploymentName}-master-${count.index + 1}"
}
}
resource "aws_instance" "etcd" {
count = "${var.numEtcd}"
ami = "${var.ami}"
instance_type = "${var.etcd_instance_type}"
subnet_id = "${var.subnet}"
vpc_security_group_ids = ["${var.securityGroups}"]
key_name = "${var.SSHKey}"
disable_api_termination = "${var.terminate_protect}"
root_block_device {
volume_size = "${var.volSizeEtcd}"
}
tags {
Name = "${var.deploymentName}-etcd-${count.index + 1}"
}
}
resource "aws_instance" "minion" {
count = "${var.numNodes}"
ami = "${var.ami}"
instance_type = "${var.node_instance_type}"
subnet_id = "${var.subnet}"
vpc_security_group_ids = ["${var.securityGroups}"]
key_name = "${var.SSHKey}"
disable_api_termination = "${var.terminate_protect}"
iam_instance_profile = "${aws_iam_instance_profile.kubernetes_node_profile.id}"
root_block_device {
volume_size = "${var.volSizeNodes}"
}
tags {
Name = "${var.deploymentName}-minion-${count.index + 1}"
}
}
output "kubernetes_master_profile" {
value = "${aws_iam_instance_profile.kubernetes_master_profile.id}"
}
output "kubernetes_node_profile" {
value = "${aws_iam_instance_profile.kubernetes_node_profile.id}"
}
output "master-ip" {
value = "${join(", ", aws_instance.master.*.private_ip)}"
}
output "etcd-ip" {
value = "${join(", ", aws_instance.etcd.*.private_ip)}"
}
output "minion-ip" {
value = "${join(", ", aws_instance.minion.*.private_ip)}"
}

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variable "SSHUser" {
type = "string"
description = "SSH User for VMs."
}
resource "null_resource" "ansible-provision" {
depends_on = ["aws_instance.master","aws_instance.etcd","aws_instance.minion"]
##Create Master Inventory
provisioner "local-exec" {
command = "echo \"[kube-master]\" > inventory"
}
provisioner "local-exec" {
command = "echo \"${join("\n",formatlist("%s ansible_ssh_user=%s", aws_instance.master.*.private_ip, var.SSHUser))}\" >> inventory"
}
##Create ETCD Inventory
provisioner "local-exec" {
command = "echo \"\n[etcd]\" >> inventory"
}
provisioner "local-exec" {
command = "echo \"${join("\n",formatlist("%s ansible_ssh_user=%s", aws_instance.etcd.*.private_ip, var.SSHUser))}\" >> inventory"
}
##Create Nodes Inventory
provisioner "local-exec" {
command = "echo \"\n[kube-node]\" >> inventory"
}
provisioner "local-exec" {
command = "echo \"${join("\n",formatlist("%s ansible_ssh_user=%s", aws_instance.minion.*.private_ip, var.SSHUser))}\" >> inventory"
}
provisioner "local-exec" {
command = "echo \"\n[k8s-cluster:children]\nkube-node\nkube-master\" >> inventory"
}
}

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**Overview:**
- This will create nodes in a VPC inside of AWS
This project will create:
* VPC with Public and Private Subnets in # Availability Zones
* Bastion Hosts and NAT Gateways in the Public Subnet
* A dynamic number of masters, etcd, and worker nodes in the Private Subnet
* even distributed over the # of Availability Zones
* AWS ELB in the Public Subnet for accessing the Kubernetes API from the internet
- A dynamic number of masters, etcd, and nodes can be created
- These scripts currently expect Private IP connectivity with the nodes that are created. This means that you may need a tunnel to your VPC or to run these scripts from a VM inside the VPC. Will be looking into how to work around this later.
**Requirements**
- Terraform 0.8.7 or newer
**How to Use:**
- Export the variables for your Amazon credentials:
- Export the variables for your AWS credentials or edit credentials.tfvars:
```
export AWS_ACCESS_KEY_ID="xxx"
export AWS_SECRET_ACCESS_KEY="yyy"
export aws_access_key="xxx"
export aws_secret_key="yyy"
export aws_ssh_key_name="zzz"
```
- Update contrib/terraform/aws/terraform.tfvars with your data
- Run with `terraform apply`
- Run with `terraform apply -var-file="credentials.tfvars"` or `terraform apply` depending if you exported your AWS credentials
- Once the infrastructure is created, you can run the kubespray playbooks and supply contrib/terraform/aws/inventory with the `-i` flag.
- Once the infrastructure is created, you can run the kargo playbooks and supply inventory/hosts with the `-i` flag.
**Future Work:**
**Architecture**
- Update the inventory creation file to be something a little more reasonable. It's just a local-exec from Terraform now, using terraform.py or something may make sense in the future.
Pictured is an AWS Infrastructure created with this Terraform project distributed over two Availability Zones.
![AWS Infrastructure with Terraform ](docs/aws_kargo.png)

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terraform {
required_version = ">= 0.8.7"
}
provider "aws" {
access_key = "${var.AWS_ACCESS_KEY_ID}"
secret_key = "${var.AWS_SECRET_ACCESS_KEY}"
region = "${var.AWS_DEFAULT_REGION}"
}
/*
* Calling modules who create the initial AWS VPC / AWS ELB
* and AWS IAM Roles for Kubernetes Deployment
*/
module "aws-vpc" {
source = "modules/vpc"
aws_cluster_name = "${var.aws_cluster_name}"
aws_vpc_cidr_block = "${var.aws_vpc_cidr_block}"
aws_avail_zones="${var.aws_avail_zones}"
aws_cidr_subnets_private="${var.aws_cidr_subnets_private}"
aws_cidr_subnets_public="${var.aws_cidr_subnets_public}"
}
module "aws-elb" {
source = "modules/elb"
aws_cluster_name="${var.aws_cluster_name}"
aws_vpc_id="${module.aws-vpc.aws_vpc_id}"
aws_avail_zones="${var.aws_avail_zones}"
aws_subnet_ids_public="${module.aws-vpc.aws_subnet_ids_public}"
aws_elb_api_port = "${var.aws_elb_api_port}"
k8s_secure_api_port = "${var.k8s_secure_api_port}"
}
module "aws-iam" {
source = "modules/iam"
aws_cluster_name="${var.aws_cluster_name}"
}
/*
* Create Bastion Instances in AWS
*
*/
resource "aws_instance" "bastion-server" {
ami = "${var.aws_bastion_ami}"
instance_type = "${var.aws_bastion_size}"
count = "${length(var.aws_cidr_subnets_public)}"
associate_public_ip_address = true
availability_zone = "${element(var.aws_avail_zones,count.index)}"
subnet_id = "${element(module.aws-vpc.aws_subnet_ids_public,count.index)}"
vpc_security_group_ids = [ "${module.aws-vpc.aws_security_group}" ]
key_name = "${var.AWS_SSH_KEY_NAME}"
tags {
Name = "kubernetes-${var.aws_cluster_name}-bastion-${count.index}"
Cluster = "${var.aws_cluster_name}"
Role = "bastion-${var.aws_cluster_name}-${count.index}"
}
}
/*
* Create K8s Master and worker nodes and etcd instances
*
*/
resource "aws_instance" "k8s-master" {
ami = "${var.aws_cluster_ami}"
instance_type = "${var.aws_kube_master_size}"
count = "${var.aws_kube_master_num}"
availability_zone = "${element(var.aws_avail_zones,count.index)}"
subnet_id = "${element(module.aws-vpc.aws_subnet_ids_private,count.index)}"
vpc_security_group_ids = [ "${module.aws-vpc.aws_security_group}" ]
iam_instance_profile = "${module.aws-iam.kube-master-profile}"
key_name = "${var.AWS_SSH_KEY_NAME}"
tags {
Name = "kubernetes-${var.aws_cluster_name}-master${count.index}"
Cluster = "${var.aws_cluster_name}"
Role = "master"
}
}
resource "aws_elb_attachment" "attach_master_nodes" {
count = "${var.aws_kube_master_num}"
elb = "${module.aws-elb.aws_elb_api_id}"
instance = "${element(aws_instance.k8s-master.*.id,count.index)}"
}
resource "aws_instance" "k8s-etcd" {
ami = "${var.aws_cluster_ami}"
instance_type = "${var.aws_etcd_size}"
count = "${var.aws_etcd_num}"
availability_zone = "${element(var.aws_avail_zones,count.index)}"
subnet_id = "${element(module.aws-vpc.aws_subnet_ids_private,count.index)}"
vpc_security_group_ids = [ "${module.aws-vpc.aws_security_group}" ]
key_name = "${var.AWS_SSH_KEY_NAME}"
tags {
Name = "kubernetes-${var.aws_cluster_name}-etcd${count.index}"
Cluster = "${var.aws_cluster_name}"
Role = "etcd"
}
}
resource "aws_instance" "k8s-worker" {
ami = "${var.aws_cluster_ami}"
instance_type = "${var.aws_kube_worker_size}"
count = "${var.aws_kube_worker_num}"
availability_zone = "${element(var.aws_avail_zones,count.index)}"
subnet_id = "${element(module.aws-vpc.aws_subnet_ids_private,count.index)}"
vpc_security_group_ids = [ "${module.aws-vpc.aws_security_group}" ]
iam_instance_profile = "${module.aws-iam.kube-worker-profile}"
key_name = "${var.AWS_SSH_KEY_NAME}"
tags {
Name = "kubernetes-${var.aws_cluster_name}-worker${count.index}"
Cluster = "${var.aws_cluster_name}"
Role = "worker"
}
}
/*
* Create Kargo Inventory File
*
*/
data "template_file" "inventory" {
template = "${file("${path.module}/templates/inventory.tpl")}"
vars {
public_ip_address_bastion = "${join("\n",formatlist("bastion ansible_ssh_host=%s" , aws_instance.bastion-server.*.public_ip))}"
connection_strings_master = "${join("\n",formatlist("%s ansible_ssh_host=%s",aws_instance.k8s-master.*.tags.Name, aws_instance.k8s-master.*.private_ip))}"
connection_strings_node = "${join("\n", formatlist("%s ansible_ssh_host=%s", aws_instance.k8s-worker.*.tags.Name, aws_instance.k8s-worker.*.private_ip))}"
connection_strings_etcd = "${join("\n",formatlist("%s ansible_ssh_host=%s", aws_instance.k8s-etcd.*.tags.Name, aws_instance.k8s-etcd.*.private_ip))}"
list_master = "${join("\n",aws_instance.k8s-master.*.tags.Name)}"
list_node = "${join("\n",aws_instance.k8s-worker.*.tags.Name)}"
list_etcd = "${join("\n",aws_instance.k8s-etcd.*.tags.Name)}"
elb_api_fqdn = "apiserver_loadbalancer_domain_name=\"${module.aws-elb.aws_elb_api_fqdn}\""
elb_api_port = "loadbalancer_apiserver.port=${var.aws_elb_api_port}"
}
}
resource "null_resource" "inventories" {
provisioner "local-exec" {
command = "echo '${data.template_file.inventory.rendered}' > ../../../inventory/hosts"
}
}

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#AWS Access Key
AWS_ACCESS_KEY_ID = ""
#AWS Secret Key
AWS_SECRET_ACCESS_KEY = ""
#EC2 SSH Key Name
AWS_SSH_KEY_NAME = ""
#AWS Region
AWS_DEFAULT_REGION = "eu-central-1"

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resource "aws_security_group" "aws-elb" {
name = "kubernetes-${var.aws_cluster_name}-securitygroup-elb"
vpc_id = "${var.aws_vpc_id}"
tags {
Name = "kubernetes-${var.aws_cluster_name}-securitygroup-elb"
}
}
resource "aws_security_group_rule" "aws-allow-api-access" {
type = "ingress"
from_port = "${var.aws_elb_api_port}"
to_port = "${var.k8s_secure_api_port}"
protocol = "TCP"
cidr_blocks = ["0.0.0.0/0"]
security_group_id = "${aws_security_group.aws-elb.id}"
}
# Create a new AWS ELB for K8S API
resource "aws_elb" "aws-elb-api" {
name = "kubernetes-elb-${var.aws_cluster_name}"
subnets = ["${var.aws_subnet_ids_public}"]
security_groups = ["${aws_security_group.aws-elb.id}"]
listener {
instance_port = "${var.k8s_secure_api_port}"
instance_protocol = "tcp"
lb_port = "${var.aws_elb_api_port}"
lb_protocol = "tcp"
}
health_check {
healthy_threshold = 2
unhealthy_threshold = 2
timeout = 3
target = "HTTP:8080/"
interval = 30
}
cross_zone_load_balancing = true
idle_timeout = 400
connection_draining = true
connection_draining_timeout = 400
tags {
Name = "kubernetes-${var.aws_cluster_name}-elb-api"
}
}

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output "aws_elb_api_id" {
value = "${aws_elb.aws-elb-api.id}"
}
output "aws_elb_api_fqdn" {
value = "${aws_elb.aws-elb-api.dns_name}"
}

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variable "aws_cluster_name" {
description = "Name of Cluster"
}
variable "aws_vpc_id" {
description = "AWS VPC ID"
}
variable "aws_elb_api_port" {
description = "Port for AWS ELB"
}
variable "k8s_secure_api_port" {
description = "Secure Port of K8S API Server"
}
variable "aws_avail_zones" {
description = "Availability Zones Used"
type = "list"
}
variable "aws_subnet_ids_public" {
description = "IDs of Public Subnets"
type = "list"
}

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#Add AWS Roles for Kubernetes
resource "aws_iam_role" "kube-master" {
name = "kubernetes-${var.aws_cluster_name}-master"
assume_role_policy = <<EOF
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Action": "sts:AssumeRole",
"Principal": {
"Service": "ec2.amazonaws.com"
}
}
]
}
EOF
}
resource "aws_iam_role" "kube-worker" {
name = "kubernetes-${var.aws_cluster_name}-node"
assume_role_policy = <<EOF
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Action": "sts:AssumeRole",
"Principal": {
"Service": "ec2.amazonaws.com"
}
}
]
}
EOF
}
#Add AWS Policies for Kubernetes
resource "aws_iam_role_policy" "kube-master" {
name = "kubernetes-${var.aws_cluster_name}-master"
role = "${aws_iam_role.kube-master.id}"
policy = <<EOF
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Action": ["ec2:*"],
"Resource": ["*"]
},
{
"Effect": "Allow",
"Action": ["elasticloadbalancing:*"],
"Resource": ["*"]
},
{
"Effect": "Allow",
"Action": ["route53:*"],
"Resource": ["*"]
},
{
"Effect": "Allow",
"Action": "s3:*",
"Resource": [
"arn:aws:s3:::kubernetes-*"
]
}
]
}
EOF
}
resource "aws_iam_role_policy" "kube-worker" {
name = "kubernetes-${var.aws_cluster_name}-node"
role = "${aws_iam_role.kube-worker.id}"
policy = <<EOF
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Action": "s3:*",
"Resource": [
"arn:aws:s3:::kubernetes-*"
]
},
{
"Effect": "Allow",
"Action": "ec2:Describe*",
"Resource": "*"
},
{
"Effect": "Allow",
"Action": "ec2:AttachVolume",
"Resource": "*"
},
{
"Effect": "Allow",
"Action": "ec2:DetachVolume",
"Resource": "*"
},
{
"Effect": "Allow",
"Action": ["route53:*"],
"Resource": ["*"]
},
{
"Effect": "Allow",
"Action": [
"ecr:GetAuthorizationToken",
"ecr:BatchCheckLayerAvailability",
"ecr:GetDownloadUrlForLayer",
"ecr:GetRepositoryPolicy",
"ecr:DescribeRepositories",
"ecr:ListImages",
"ecr:BatchGetImage"
],
"Resource": "*"
}
]
}
EOF
}
#Create AWS Instance Profiles
resource "aws_iam_instance_profile" "kube-master" {
name = "kube_${var.aws_cluster_name}_master_profile"
roles = ["${aws_iam_role.kube-master.name}"]
}
resource "aws_iam_instance_profile" "kube-worker" {
name = "kube_${var.aws_cluster_name}_node_profile"
roles = ["${aws_iam_role.kube-worker.name}"]
}

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output "kube-master-profile" {
value = "${aws_iam_instance_profile.kube-master.name }"
}
output "kube-worker-profile" {
value = "${aws_iam_instance_profile.kube-worker.name }"
}

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variable "aws_cluster_name" {
description = "Name of Cluster"
}

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resource "aws_vpc" "cluster-vpc" {
cidr_block = "${var.aws_vpc_cidr_block}"
#DNS Related Entries
enable_dns_support = true
enable_dns_hostnames = true
tags {
Name = "kubernetes-${var.aws_cluster_name}-vpc"
}
}
resource "aws_eip" "cluster-nat-eip" {
count = "${length(var.aws_cidr_subnets_public)}"
vpc = true
}
resource "aws_internet_gateway" "cluster-vpc-internetgw" {
vpc_id = "${aws_vpc.cluster-vpc.id}"
tags {
Name = "kubernetes-${var.aws_cluster_name}-internetgw"
}
}
resource "aws_subnet" "cluster-vpc-subnets-public" {
vpc_id = "${aws_vpc.cluster-vpc.id}"
count="${length(var.aws_avail_zones)}"
availability_zone = "${element(var.aws_avail_zones, count.index)}"
cidr_block = "${element(var.aws_cidr_subnets_public, count.index)}"
tags {
Name = "kubernetes-${var.aws_cluster_name}-${element(var.aws_avail_zones, count.index)}-public"
}
}
resource "aws_nat_gateway" "cluster-nat-gateway" {
count = "${length(var.aws_cidr_subnets_public)}"
allocation_id = "${element(aws_eip.cluster-nat-eip.*.id, count.index)}"
subnet_id = "${element(aws_subnet.cluster-vpc-subnets-public.*.id, count.index)}"
}
resource "aws_subnet" "cluster-vpc-subnets-private" {
vpc_id = "${aws_vpc.cluster-vpc.id}"
count="${length(var.aws_avail_zones)}"
availability_zone = "${element(var.aws_avail_zones, count.index)}"
cidr_block = "${element(var.aws_cidr_subnets_private, count.index)}"
tags {
Name = "kubernetes-${var.aws_cluster_name}-${element(var.aws_avail_zones, count.index)}-private"
}
}
#Routing in VPC
#TODO: Do we need two routing tables for each subnet for redundancy or is one enough?
resource "aws_route_table" "kubernetes-public" {
vpc_id = "${aws_vpc.cluster-vpc.id}"
route {
cidr_block = "0.0.0.0/0"
gateway_id = "${aws_internet_gateway.cluster-vpc-internetgw.id}"
}
tags {
Name = "kubernetes-${var.aws_cluster_name}-routetable-public"
}
}
resource "aws_route_table" "kubernetes-private" {
count = "${length(var.aws_cidr_subnets_private)}"
vpc_id = "${aws_vpc.cluster-vpc.id}"
route {
cidr_block = "0.0.0.0/0"
gateway_id = "${element(aws_nat_gateway.cluster-nat-gateway.*.id, count.index)}"
}
tags {
Name = "kubernetes-${var.aws_cluster_name}-routetable-private-${count.index}"
}
}
resource "aws_route_table_association" "kubernetes-public" {
count = "${length(var.aws_cidr_subnets_public)}"
subnet_id = "${element(aws_subnet.cluster-vpc-subnets-public.*.id,count.index)}"
route_table_id = "${aws_route_table.kubernetes-public.id}"
}
resource "aws_route_table_association" "kubernetes-private" {
count = "${length(var.aws_cidr_subnets_private)}"
subnet_id = "${element(aws_subnet.cluster-vpc-subnets-private.*.id,count.index)}"
route_table_id = "${element(aws_route_table.kubernetes-private.*.id,count.index)}"
}
#Kubernetes Security Groups
resource "aws_security_group" "kubernetes" {
name = "kubernetes-${var.aws_cluster_name}-securitygroup"
vpc_id = "${aws_vpc.cluster-vpc.id}"
tags {
Name = "kubernetes-${var.aws_cluster_name}-securitygroup"
}
}
resource "aws_security_group_rule" "allow-all-ingress" {
type = "ingress"
from_port = 0
to_port = 65535
protocol = "-1"
cidr_blocks= ["${var.aws_vpc_cidr_block}"]
security_group_id = "${aws_security_group.kubernetes.id}"
}
resource "aws_security_group_rule" "allow-all-egress" {
type = "egress"
from_port = 0
to_port = 65535
protocol = "-1"
cidr_blocks = ["0.0.0.0/0"]
security_group_id = "${aws_security_group.kubernetes.id}"
}
resource "aws_security_group_rule" "allow-ssh-connections" {
type = "ingress"
from_port = 22
to_port = 22
protocol = "TCP"
cidr_blocks = ["0.0.0.0/0"]
security_group_id = "${aws_security_group.kubernetes.id}"
}

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output "aws_vpc_id" {
value = "${aws_vpc.cluster-vpc.id}"
}
output "aws_subnet_ids_private" {
value = ["${aws_subnet.cluster-vpc-subnets-private.*.id}"]
}
output "aws_subnet_ids_public" {
value = ["${aws_subnet.cluster-vpc-subnets-public.*.id}"]
}
output "aws_security_group" {
value = ["${aws_security_group.kubernetes.*.id}"]
}

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variable "aws_vpc_cidr_block" {
description = "CIDR Blocks for AWS VPC"
}
variable "aws_cluster_name" {
description = "Name of Cluster"
}
variable "aws_avail_zones" {
description = "AWS Availability Zones Used"
type = "list"
}
variable "aws_cidr_subnets_private" {
description = "CIDR Blocks for private subnets in Availability zones"
type = "list"
}
variable "aws_cidr_subnets_public" {
description = "CIDR Blocks for public subnets in Availability zones"
type = "list"
}

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output "bastion_ip" {
value = "${join("\n", aws_instance.bastion-server.*.public_ip)}"
}
output "masters" {
value = "${join("\n", aws_instance.k8s-master.*.private_ip)}"
}
output "workers" {
value = "${join("\n", aws_instance.k8s-worker.*.private_ip)}"
}
output "etcd" {
value = "${join("\n", aws_instance.k8s-etcd.*.private_ip)}"
}
output "aws_elb_api_fqdn" {
value = "${module.aws-elb.aws_elb_api_fqdn}:${var.aws_elb_api_port}"
}

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${connection_strings_master}
${connection_strings_node}
${connection_strings_etcd}
${public_ip_address_bastion}
[kube-master]
${list_master}
[kube-node]
${list_node}
[etcd]
${list_etcd}
[k8s-cluster:children]
kube-node
kube-master
[k8s-cluster:vars]
${elb_api_fqdn}
${elb_api_port}

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@ -1,22 +1,32 @@
deploymentName="test-kube-deploy"
#Global Vars
aws_cluster_name = "devtest"
aws_region = "eu-central-1"
numControllers="2"
numEtcd="3"
numNodes="2"
#VPC Vars
aws_vpc_cidr_block = "10.250.192.0/18"
aws_cidr_subnets_private = ["10.250.192.0/20","10.250.208.0/20"]
aws_cidr_subnets_public = ["10.250.224.0/20","10.250.240.0/20"]
aws_avail_zones = ["eu-central-1a","eu-central-1b"]
volSizeController="20"
volSizeEtcd="20"
volSizeNodes="20"
#Bastion Host
aws_bastion_ami = "ami-5900cc36"
aws_bastion_size = "t2.small"
awsRegion="us-west-2"
subnet="subnet-xxxxx"
ami="ami-32a85152"
securityGroups="sg-xxxxx"
SSHUser="core"
SSHKey="my-key"
master_instance_type="m3.xlarge"
etcd_instance_type="m3.xlarge"
node_instance_type="m3.xlarge"
#Kubernetes Cluster
terminate_protect="false"
aws_kube_master_num = 3
aws_kube_master_size = "t2.medium"
aws_etcd_num = 3
aws_etcd_size = "t2.medium"
aws_kube_worker_num = 4
aws_kube_worker_size = "t2.medium"
aws_cluster_ami = "ami-903df7ff"
#Settings AWS ELB
aws_elb_api_port = 443
k8s_secure_api_port = 443

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variable "AWS_ACCESS_KEY_ID" {
description = "AWS Access Key"
}
variable "AWS_SECRET_ACCESS_KEY" {
description = "AWS Secret Key"
}
variable "AWS_SSH_KEY_NAME" {
description = "Name of the SSH keypair to use in AWS."
}
variable "AWS_DEFAULT_REGION" {
description = "AWS Region"
}
//General Cluster Settings
variable "aws_cluster_name" {
description = "Name of AWS Cluster"
}
//AWS VPC Variables
variable "aws_vpc_cidr_block" {
description = "CIDR Block for VPC"
}
variable "aws_avail_zones" {
description = "Availability Zones Used"
type = "list"
}
variable "aws_cidr_subnets_private" {
description = "CIDR Blocks for private subnets in Availability zones1"
type = "list"
}
variable "aws_cidr_subnets_public" {
description = "CIDR Blocks for public subnets in Availability zones1"
type = "list"
}
//AWS EC2 Settings
variable "aws_bastion_ami" {
description = "AMI ID for Bastion Host in chosen AWS Region"
}
variable "aws_bastion_size" {
description = "EC2 Instance Size of Bastion Host"
}
/*
* AWS EC2 Settings
* The number should be divisable by the number of used
* AWS Availability Zones without an remainder.
*/
variable "aws_kube_master_num" {
description = "Number of Kubernetes Master Nodes"
}
variable "aws_kube_master_size" {
description = "Instance size of Kube Master Nodes"
}
variable "aws_etcd_num" {
description = "Number of etcd Nodes"
}
variable "aws_etcd_size" {
description = "Instance size of etcd Nodes"
}
variable "aws_kube_worker_num" {
description = "Number of Kubernetes Worker Nodes"
}
variable "aws_kube_worker_size" {
description = "Instance size of Kubernetes Worker Nodes"
}
variable "aws_cluster_ami" {
description = "AMI ID for Kubernetes Cluster"
}
/*
* AWS ELB Settings
*
*/
variable "aws_elb_api_port" {
description = "Port for AWS ELB"
}
variable "k8s_secure_api_port" {
description = "Secure Port of K8S API Server"
}