[Kubeadm][kubeadm] is a basic toolkit that helps you bootstrap a simple [Kubernetes][kubernetes] cluster. It is intended as a [basis for higher-level deployment tools][kubeadm-scope], like [Ansible][ansible] playbooks. A typical Kubernetes cluster set-up with
kubeadm consists of a single Kubernetes master, which is the machine coordinating the cluster, and multiple Kubernetes nodes, which are the machines running the actual workload.
Dealing with node failure is simple: When a node fails, the master will detect the failure and re-schedule the workload to other nodes. To get back to the desired number of nodes, you can simply create a new node and add it to the cluster. In order to add a new node to an existing cluster, you first create a token on the master with
kubeadm token create, then you use that token on the new node to join the cluster with
Dealing with master failure is more complicated. Good news is: Master failure is not as bad as it sounds. The cluster and all workloads will continue running with exactly the same configuration as before the failure. Applications running in the Kubernetes cluster will still be usable. However, it will not be possible to create new deployments or to recover from node failures without the master.
This post shows how to backup and restore a Kubernetes master in a
This blog post shows how to use [CIFS] (a.k.a. SMB, Samba, Windows Share) network filesystems as [Kubernetes volumes].
Docker containers running in Kubernetes have an ephemeral file system: Once a container is terminated, all files are gone. In order to store persistent data in Kubernetes, you need to mount a [Persistent Volume] into your container. Kubernetes has built-in support for network filesystems found in the most common cloud providers, like [Amazon’s EBS], [Microsoft’s Azure disk], etc. However, some cloud hosting services, like the [Hetzner cloud], provide network storage using the CIFS (SMB, Samba, Windows Share) protocol, which is not natively supported in Kubernetes.
Fortunately, Kubernetes provides [Flexvolume], which is a plugin mechanism enabling users to write their own drivers. There are a few flexvolume drivers for CIFS out there, but for different reasons none of them seemed to work for me. So I wrote my own, which can be found on [github.com/fstab/cifs].
This blog post shows how to use the
fstab/cifs plugin for mounting CIFS volumes in Kubernetes.
Getting started with Kubernetes can be intimidating at first. Installing Kubernetes is not the easiest of tasks and can get quite frustrating.[^1] Luckily, there is an out-of-the box distribution called Minikube which makes toying around with Kubernetes a bliss.