Kubernetes Cluster
Introduction
While Kubernetes deployments can be quite difficult and can require lots of experience, we provide here a very simple way to provision Kubernetes cluster on the TFGrid.
Example
An example for deploying a kubernetes cluster could be found here
terraform {
required_providers {
grid = {
source = "threefoldtech/grid"
}
}
}
provider "grid" {
}
resource "grid_scheduler" "sched" {
requests {
name = "master_node"
cru = 2
sru = 512
mru = 2048
distinct = true
public_ips_count = 1
}
requests {
name = "worker1_node"
cru = 2
sru = 512
mru = 2048
distinct = true
}
requests {
name = "worker2_node"
cru = 2
sru = 512
mru = 2048
distinct = true
}
requests {
name = "worker3_node"
cru = 2
sru = 512
mru = 2048
distinct = true
}
}
locals {
solution_type = "Kubernetes"
name = "myk8s"
}
resource "grid_network" "net1" {
solution_type = local.solution_type
name = local.name
nodes = distinct(values(grid_scheduler.sched.nodes))
ip_range = "10.1.0.0/16"
description = "newer network"
add_wg_access = true
}
resource "grid_kubernetes" "k8s1" {
solution_type = local.solution_type
name = local.name
network_name = grid_network.net1.name
token = "12345678910122"
ssh_key = "PUT YOUR SSH KEY HERE"
master {
disk_size = 2
node = grid_scheduler.sched.nodes["master_node"]
name = "mr"
cpu = 2
publicip = true
memory = 2048
}
workers {
disk_size = 2
node = grid_scheduler.sched.nodes["worker1_node"]
name = "w0"
cpu = 2
memory = 2048
}
workers {
disk_size = 2
node = grid_scheduler.sched.nodes["worker2_node"]
name = "w2"
cpu = 2
memory = 2048
}
workers {
disk_size = 2
node = grid_scheduler.sched.nodes["worker3_node"]
name = "w3"
cpu = 2
memory = 2048
}
}
output "computed_master_public_ip" {
value = grid_kubernetes.k8s1.master[0].computedip
}
output "wg_config" {
value = grid_network.net1.access_wg_config
}
Everything looks similar to our first example, the global terraform section, the provider section and the network section.
Grid Kubernetes Resource
resource "grid_kubernetes" "k8s1" {
solution_type = local.solution_type
name = local.name
network_name = grid_network.net1.name
token = "12345678910122"
ssh_key = "PUT YOUR SSH KEY HERE"
master {
disk_size = 2
node = grid_scheduler.sched.nodes["master_node"]
name = "mr"
cpu = 2
publicip = true
memory = 2048
}
workers {
disk_size = 2
node = grid_scheduler.sched.nodes["worker1_node"]
name = "w0"
cpu = 2
memory = 2048
}
workers {
disk_size = 2
node = grid_scheduler.sched.nodes["worker2_node"]
name = "w2"
cpu = 2
memory = 2048
}
workers {
disk_size = 2
node = grid_scheduler.sched.nodes["worker3_node"]
name = "w3"
cpu = 2
memory = 2048
}
}
It requires
- Network name that would contain the cluster
- A cluster token to work as a key for other nodes to join the cluster
- SSH key to access the cluster VMs.
Then, we describe the the master and worker nodes in terms of:
- name within the deployment
- disk size
- node to deploy it on
- cpu
- memory
- whether or not this node needs a public ip
Kubernetes Outputs
output "master_public_ip" {
value = grid_kubernetes.k8s1.master[0].computedip
}
output "wg_config" {
value = grid_network.net1.access_wg_config
}
We will be mainly interested in the master node public ip computed IP
and the wireguard configurations
More Info
A complete list of k8s resource parameters can be found here.
Demo Video
Here is a video showing how to deploying k8s with Terraform.