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Kubernetes, Kubeadm, and the AWS Cloud Provider

Over the last few weeks, I’ve noticed quite a few questions appearing in the Kubernetes Slack channels about how to use kubeadm to configure Kubernetes with the AWS cloud provider. You may recall that I wrote a post about setting up Kubernetes with the AWS cloud provider last September, and that post included a few snippets of YAML for kubeadm config files. Since I wrote that post, the kubeadm API has gone from v1alpha2 (Kubernetes 1.11) to v1alpha3 (Kubernetes 1.12) and now v1beta1 (Kubernetes 1.13). The changes in the kubeadm API result in changes in the configuration files, and so I wanted to write this post to explain how to use kubeadm 1.13 to set up a Kubernetes cluster with the AWS cloud provider.

I’d recommend reading the previous post from last September first. In that post, I listed four key configuration items that are necessary to make the AWS cloud provider work:

  1. Correct hostname (must match the EC2 Private DNS entry for the instance)
  2. Proper IAM role and policy for Kubernetes control plane nodes and worker nodes
  3. Kubernetes-specific tags on resources needed by the cluster
  4. Correct command-line flags added to the Kubernetes API server, controller manager, and the Kubelet

Items 1-3 remain the same, so I won’t discuss them here (refer back to last September’s post, where I do provide details). Instead, I’ll focus on item 4; in particular, how to use kubeadm configuration files to make sure that Kubernetes components are properly configured.

Let’s start with the control plane.

Control Plane Configuration via Kubeadm

I’ll assume a highly available (HA) control plane (aka multi-master) configuration here. In this context, “highly available” means multiple control plane nodes and a separate, dedicated etcd cluster.

First, I’ll show you a kubeadm configuration file that will work, and then I’ll walk through some of the key points about the configuration:

kind: ClusterConfiguration
    cloud-provider: aws
clusterName: test
    cloud-provider: aws
    configure-cloud-routes: "false"
    caFile: /etc/kubernetes/pki/etcd/ca.crt
    certFile: /etc/kubernetes/pki/apiserver-etcd-client.crt
    keyFile: /etc/kubernetes/pki/apiserver-etcd-client.key
kubernetesVersion: v1.13.2
  dnsDomain: cluster.local
kind: InitConfiguration
    cloud-provider: aws

A few notes about this configuration:

  • It should (hopefully) be obvious that you’ll need to edit many of these values so they are correct for your specific configuration. Notably, clusterName, controlPlaneEndpoint, and etcd.external.endpoints will all need to be change to the correct values for your environment.
  • Whatever DNS name you supply for controlPlaneEndpoint—and it should be a DNS name and not an IP address, since in an HA configuration this value should point to a load balancer, and IP addresses assigned to AWS ELBs can change–will also be added as a Subject Alternative Name (SAN) to the API server’s certificate. If you have other SANs you want added (like maybe a CNAME alias for the ELB’s DNS name), you’ll need to manually add those via the apiServer.certSANs value (not shown above since it’s not needed).
  • kubeadm normally binds the controller manager and scheduler to localhost, which may cause problems with Prometheus (it won’t be able to connect and will think these components are “missing”). The controllerManager.extrArgs.address and scheduler.extraArgs.address values fix this issue.

You’d use this configuration file as outlined in this tutorial from the v1.11 version of the Kubernetes docs. Why the v1.11 version? In versions 1.12 and 1.13, kubeadm introduced a new flag, the --experimental-control-plane flag, that allows you to more easily join new control plane nodes to the cluster. The YAML configuration file outlined above won’t work with the --experimental-control-plane flag. I’m still working through the details and performing some testing, and will update this article with more information once I’ve worked it out. (The “TL;DR” from the linked v1.11 tutorial is that you’ll use kubeadm init on each control plane node.)

At the end of the kubeadm init commands you’ll run to establish the control plane, kubeadm will display a command that includes a token and a SHA256 hash. Make note of these values, as you’ll need them shortly.

Worker Node Configuration via Kubeadm

As I did in the control plane section, I’ll first present a working kubeadm configuration file, then walk through any important points or notes about it:

kind: JoinConfiguration
    token: y6yaev.8dvwxx5ny3ef7vlq
    apiServerEndpoint: ""
      - "sha256:7c9b814812fcba3745744dd45825f61318f7f6ca80018dee453e4b9bc7a5c814"
    cloud-provider: aws

As with the configuration file for the control plane, there are a few values you must modify for your particular environment:

  • The token, apiServerEndpoint, and caCertHashes values must be set. These values are displayed by kubeadm init when establishing the control plane; just plug in those values here.
  • The value should reflect the correct hostname of the instance being joined to the cluster (which should match the EC2 Private DNS entry for the instance).

Once you’ve set these values, you’d use this file by running kubeadm join --config <filename>.yaml after your control plane is up and running.

Once the process completes, you can run kubectl get nodes to verify that the worker node has been added to the cluster. You can verify the operation of the AWS cloud provider by running kubectl get node <new-nodename> -o yaml and looking for the presence of the “providerID” field. If that field is there, the cloud provider is working. If the field is not present, the cloud provider isn’t working as expected, and it’s time to do some troubleshooting.

More Resources

I gathered the information found in this article from a variety of sources, including my own direct personal experience in testing various configuration parameters and scenarios. Some of the information sources I used include:

I’d also like to include a quick shout-out to the members of the VMware Kubernetes Architecture team (née Heptio Field Engineering), who provided valuable feedback on the information found in this post.

For a vSphere version of this article, I recommend Myles Gray’s post on setting up Kubernetes and the vSphere cloud provider (I consulted with Myles on some of the kubeadm configurations in his post). Note that Myles’ article is still using the “v1alpha3” API version for joining the nodes to the cluster. I’d recommend migrating to the “v1beta1” API if at all possible.

Thanks for reading! If you have any questions, comments, suggestions, or corrections, feel free to reach out to me on Twitter. I’d love to hear from you.

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