terraform-hcloud-kube-hetzner/master.tf

130 lines
4.0 KiB
HCL

resource "hcloud_server" "first_control_plane" {
name = "k3s-control-plane-0"
image = data.hcloud_image.linux.name
rescue = "linux64"
server_type = var.control_plane_server_type
location = var.location
ssh_keys = [hcloud_ssh_key.k3s.id]
firewall_ids = [hcloud_firewall.k3s.id]
placement_group_id = hcloud_placement_group.k3s.id
labels = {
"provisioner" = "terraform",
"engine" = "k3s"
}
connection {
user = "root"
private_key = local.ssh_private_key
agent_identity = local.ssh_identity
host = self.ipv4_address
}
provisioner "file" {
content = templatefile("${path.module}/templates/config.ign.tpl", {
name = self.name
ssh_public_key = local.ssh_public_key
})
destination = "/root/config.ign"
}
# Install MicroOS
provisioner "remote-exec" {
inline = local.MicroOS_install_commands
}
# Issue a reboot command
provisioner "local-exec" {
command = "ssh ${local.ssh_args} root@${self.ipv4_address} '(sleep 2; reboot)&'; sleep 3"
}
# Wait for MicroOS to reboot and be ready
provisioner "local-exec" {
command = <<-EOT
until ssh ${local.ssh_args} -o ConnectTimeout=2 root@${self.ipv4_address} true 2> /dev/null
do
echo "Waiting for MicroOS to reboot and become available..."
sleep 2
done
EOT
}
# Generating k3s master config file
provisioner "file" {
content = yamlencode({
node-name = self.name
cluster-init = true
disable-cloud-controller = true
disable = ["servicelb", "local-storage"]
flannel-iface = "eth1"
kubelet-arg = "cloud-provider=external"
node-ip = local.first_control_plane_network_ip
advertise-address = local.first_control_plane_network_ip
token = random_password.k3s_token.result
node-taint = var.allow_scheduling_on_control_plane ? [] : ["node-role.kubernetes.io/master:NoSchedule"]
})
destination = "/etc/rancher/k3s/config.yaml"
}
# Run the first control plane
provisioner "remote-exec" {
inline = [
# set the hostname in a persistent fashion
"hostnamectl set-hostname ${self.name}",
# first we disable automatic reboot (after transactional updates), and configure the reboot method as kured
"rebootmgrctl set-strategy off && echo 'REBOOT_METHOD=kured' > /etc/transactional-update.conf",
# prepare a directory for our post-installation kustomizations
"mkdir -p /tmp/post_install",
# then we initiate the cluster
"systemctl enable k3s-server",
# start k3s
"systemctl start k3s-server",
# wait for k3s to get ready
<<-EOT
timeout 120 bash <<EOF
until [ -e /etc/rancher/k3s/k3s.yaml ]; do
echo "Waiting for kubectl config"
sleep 1
done
until [[ "$(kubectl get --raw='/readyz')" == "ok" ]]; do
echo "Waiting for cluster to become ready"
sleep 1
done
EOF
EOT
]
}
# Upload kustomization.yaml, containing Hetzner CSI & CSM, as well as kured.
provisioner "file" {
content = local.post_install_kustomization
destination = "/tmp/post_install/kustomization.yaml"
}
# Upload traefik config
provisioner "file" {
content = local.traefik_config
destination = "/tmp/post_install/traefik.yaml"
}
provisioner "remote-exec" {
inline = [
"kubectl -n kube-system create secret generic hcloud --from-literal=token=${var.hcloud_token} --from-literal=network=${hcloud_network.k3s.name}",
"kubectl -n kube-system create secret generic hcloud-csi --from-literal=token=${var.hcloud_token}",
"kubectl apply -k /tmp/post_install",
"rm -rf /tmp/post_install"
]
}
network {
network_id = hcloud_network.k3s.id
ip = local.first_control_plane_network_ip
}
depends_on = [
hcloud_network_subnet.k3s,
hcloud_firewall.k3s
]
}