Getting Started with kOps on DigitalOcean

WARNING: digitalocean support on kOps promoted to beta currently meaning it is subject to change, so please use with caution.

Requirements

Environment Variables

It is important to set the following environment variables:

  1. export KOPS_STATE_STORE=do://<bucket-name> # where <bucket-name> is the name of the bucket you set earlier
  2. export DIGITALOCEAN_ACCESS_TOKEN=<access-token> # where <access-token> is the access token generated earlier to use the V2 API
  3. # DigitalOCcean Spaces is S3 compatible so we just override some S3 configurations to talk to our bucket
  4. export S3_ENDPOINT=nyc3.digitaloceanspaces.com # this can also be ams3.digitaloceanspaces.com or sgp1.digitaloceanspaces.com depending on where you created your Spaces bucket
  5. export S3_ACCESS_KEY_ID=<access-key-id> # where <access-key-id> is the Spaces API Access Key for your bucket
  6. export S3_SECRET_ACCESS_KEY=<secret-key> # where <secret-key> is the Spaces API Secret Key for your bucket

Creating a Single Master Cluster

In the following examples, example.com should be replaced with the DigitalOcean domain you created when going through the Requirements. Note that you kOps will only be able to successfully provision clusters in regions that support block storage (AMS3, BLR1, FRA1, LON1, NYC1, NYC3, SFO2, SFO3, SGP1 and TOR1).

  1. # debian (the default) + flannel overlay cluster in tor1
  2. kops create cluster --cloud=digitalocean --name=my-cluster.example.com --networking=flannel --zones=tor1 --ssh-public-key=~/.ssh/id_rsa.pub
  3. kops update cluster my-cluster.example.com --yes
  4. # ubuntu + weave overlay cluster in nyc1 using larger droplets
  5. kops create cluster --cloud=digitalocean --name=my-cluster.example.com --image=ubuntu-16-04-x64 --networking=weave --zones=nyc1 --ssh-public-key=~/.ssh/id_rsa.pub --node-size=s-8vcpu-32gb
  6. kops update cluster my-cluster.example.com --yes
  7. # debian + flannel overlay cluster in ams3 using optimized droplets
  8. kops create cluster --cloud=digitalocean --name=my-cluster.example.com --image=debian-9-x64 --networking=flannel --zones=ams3 --ssh-public-key=~/.ssh/id_rsa.pub --node-size=c-4
  9. kops update cluster my-cluster.example.com --yes
  10. # to validate a cluster
  11. kops validate cluster my-cluster.example.com
  12. # to delete a cluster
  13. kops delete cluster my-cluster.example.com --yes
  14. # to export kubecfg
  15. * follow steps as mentioned [here](https://kops.sigs.k8s.io/cli/kops_export_kubeconfig/#examples).
  16. # to update a cluster
  17. * follow steps as mentioned [here](https://kops.sigs.k8s.io/operations/updates_and_upgrades/#manual-update)
  18. # to install csi driver for DO block storage
  19. * follow steps as mentioned [here](https://github.com/digitalocean/csi-digitalocean#installing-to-kubernetes)

Creating a Multi-Master HA Cluster

In the below example, dev5.k8s.local should be replaced with any cluster name that ends with .k8s.local such that a gossip based cluster is created. Ensure the master-count is odd-numbered. A load balancer is created dynamically front-facing the master instances.

  1. # debian (the default) + flannel overlay cluster in tor1 with 3 master setup and a public load balancer.
  2. kops create cluster --cloud=digitalocean --name=dev5.k8s.local --networking=cilium --api-loadbalancer-type=public --master-count=3 --zones=tor1 --ssh-public-key=~/.ssh/id_rsa.pub --yes
  3. # to delete a cluster - this will also delete the load balancer associated with the cluster.
  4. kops delete cluster dev5.k8s.local --yes

Features Still in Development

kOps for DigitalOcean currently does not support these features:

  • kops terraform support for DO

Next steps

Now that you have a working kOps cluster, read through the recommendations for production setups guide to learn more about how to configure kOps for production workloads.