= Using Kubernetes on Fedora Bradley G Smith, :revnumber: F37,F38,F39,rawhide :revdate: 2023-12-23 :category: Installation :tags: How-to, kubernetes, dnf, rpm, containers // Optional free form useful additional information as comment //include::{partialsdir}/3rdparty-message.adoc[] include::partial$3rdparty-message.adoc[] [[sect-overview]] == Overview This how-to provides an overview of the link:https://kubernetes.io[Kubernetes] (K8s) rpms in the Fedora repositories, how to use them in a few scenarios and a short cluster creation guide using `kubeadm` on a single Fedora machine. The guide also touches on an alternative source for Kubernetes rpms available in link:https://copr.fedorainfracloud.org[COPR] and potential benefits. [[sect-what-is-kubernetes]] === What is Kubernetes? link:https:/kubernetes.io[Kubernetes] is an "open-source system for automating deployment, scaling, and management of containerized applications" on one or more machines. Kubernetes had its genesis in the concepts and principles used at Google to run container-base workloads at scale and with resilience. Kubernetes is now at the center of a vast ecosystem of products and services (link:https://cncf.io/[Cloud Native Computing Foundation]) that help organizations create, install, run, manage and secure container-based applications and services at any possible scale. There are numerous ways to install and configure Kubernetes depending on purpose and target environment. Is this for a home lab on a single machine, a small cluster for home or business automation, edge-based services and applications in remote offices or enterprise scale production workloads in the cloud? This guide is narrowly focused on the Kubernetes rpms available from Fedora and using `dnf` and the command line to install these rpms on Fedora and create a basic cluster using `kubeadm`. [[sect-terminology]] === Terminology Kubernetes is complex and like many complex systems has its own terminology. The terminology used in this guide are defined here. The Kubernetes teams maintains a comprehensive link:https://kubernetes.io/docs/reference/glossary/[glossary] which is used in the subset below. [horizontal] cluster:: a set of one or more nodes managed as an entity. A cluster has at least one node and one control plane (these can be on the same or separate machines). control plane:: the node or nodes in the cluster hosting the management services for the cluster. At least one node in a cluster has a control plane. A control plane machine can also function as a worker node. node:: a worker machine (either a virtual machine or physical machine) in a Kubernetes cluster that has the services required to run pods. These services include the `kubelet` container runtime and `kube-proxy`. pods:: containerized applications are deployed and managed in Kubernetes as pods. A pod is the base object managed by Kubernetes in a cluster. A pod typically has a single primary container but may include more capabilities including multiple containers. [[sect-kubernetes-rpms]] == Kubernetes rpms in Fedora The number, name, and organization of content in Fedora Kubernetes rpms depends on the Fedora release. Fedora 40 and newer releases (starting with Kubernetes v1.29) have one set of rpms. Fedora 39 and older releases have the legacy set of rpms. [[sect-fedora-39-and-older]] === Fedora 39 and older releases The table below lists the available Kubernetes rpms in Fedora 39 and older releases, what the rpm contains, and notes on purpose and any restrictions or cautions. .Kubernetes rpms in Fedora 39 (and older) [cols="1,1,1", options="header"] |=== |RPM Name |Contents |Notes |kubernetes |Empty |Also installs kubernetes-node and kubernetes-master. |kubernetes-client |kubectl |Kubernetes command line client. Recommended on any node configured as a control plane as it allows the cluster administrator control over the cluster from an ssh session on the control plane. Install on a machine that can connect to the cluster over the network. |kubernetes-kubeadm |kubeadm |Kubeadm initializes a cluster and joins new nodes to a cluster. This rpm is optional but recommended by the Kubernetes team. Install on every node if used. |kubernetes-master |kube-apiserver, kube-controller-manager, kube-proxy, kube-scheduler |Systemd services for a kubernetes node. Not needed for most installations as kubeadm will install these components as static pods. If used, then install on each node. Also installs kubernetes-client. |kubernetes-node |kubelet |Kubernetes runtime on a node. Required on each node. |=== [[sect-fedora-39-recommendations]] ==== Fedora 39 (and older) Installation recommendations For most modern kubernetes clusters install kubernetes-node, kubernetes-kubeadm, and kubernetes-client on each machine in the cluster. If disk space is a constraint only install kubernetes-client on control-plane machines. [source,bash] ---- sudo dnf install kubernetes-kubeadm kubernetes-node kubernetes-client ---- If conducting a manual installation of Kubernetes (see link:https://github.com/kelseyhightower/kubernetes-the-hard-way[Kubernetes The Hard Way]) then install kubernetes-master and kubernetes-kubeadm. [source,bash] ---- sudo dnf install kubernetes-master kubernetes-kubeadm kubernetes-node kubernetes-client ---- [[sect-fedora40-and-newer]] === Fedora 40 and newer releases Kubernetes rpms have been reorganized starting with Kubernetes version 1.29 in Fedora 40. Rawhide for Fedora 40 initially started with Kubernetes v1.28 and the legacy package organization but these have been superseded by Kubernetes v1.29 starting in late January 2024. The table below lists the available Kubernetes rpms, what the rpm contains, and notes on purpose and any cautions or restrictions. .Kubernetes rpms in Fedora 40 (and newer) [cols="1,1,1", options="header"] |=== |RPM Name|Contents|Notes |kubernetes |kubelet |Kubelet is the Kubernetes runtime on a node. |kubernetes-kubeadm |kubeadm |Kubeadm initializes a cluster and joins new nodes to a cluster. This rpm is optional but recommended by the Kubernetes team. Install on every node if used. |kubernetes-client |kubectl |Kubernetes command line client. Recommended on any node configured as a control plane as it allows the cluster administrator control over the cluster from an ssh session on the control plane. Install on a machine that can connect to the cluster over the network. |kubernetes-systemd |kube-apiserver, kube-controller-manager, kube-proxy, kube-scheduler |Systemd services for a kubernetes control-plane and/or node. Not needed for most installations as kubeadm will install these components as static pods. If used, then install on all nodes. Use systemctl to enable kube-proxy on all nodes. Enable kube-apiserver, kube-controller-manager, and kube-scheduler on control plane nodes. |=== [[sect-fedora-40-recommendations]] ==== Fedora 40 (and newer) installation recommendations For most modern kubernetes clusters install kubernetes, kubernetes-kubeadm, and kubernetes-client on each machine in the cluster. If disk space is a constraint only install kubernetes-client on control-plane machines. [source,bash] ---- sudo dnf install kubernetes kubernetes-kubeadm kubernetes-client ---- If conducting a manual installation of Kubernetes (see link:https://github.com/kelseyhightower/kubernetes-the-hard-way[Kubernetes The Hard Way]) then install all kubernetes rpms except kubernetes-kubeadm. [source,bash] ---- sudo dnf install kubernetes kubernetes-client kubernetes-systemd ---- [[sect-kubernetes-fedora-crosswalk]] == Kubernetes and Fedora version crosswalk Each Fedora release has a corresponding version of Kubernetes available as listed below. The goal is to provide the most current Kubernetes release available when a Fedora release reaches General Availability (GA). This is not always possible resulting in skipped Kubernetes releases. Skipping a release causes problems for Kubernetes cluster administrators given the Kubernetes cluster upgrade process. Alternative ways to package Kubernetes for Fedora are being explored. The version of the Go programming language supported for a given Fedora release can also limit the version of Kubernetes available if Kubernetes requires a newer version of Go. .Kubernetes versions and the corresponding Fedora release [cols="1,1,1,1", options="header"] |=== |Kubernetes Version |Target Fedora Release | Kubernetes End-of-Life | Kubernetes Golang 'Built-With' Version |1.30 |F41 |TBD |1.22 |1.29 |F40 |2025.02.28 |1.21 |1.28 |COPR^1^ |2024.10.28 |1.21 (was 1.20) |1.27 |F39 |2024.06.28 |1.21 (was 1.20) |1.26 |F38 |2024.02.24 |1.20 (was 1.19) |=== ^1^ Rawhide for Fedora 40 was initialized with Kubernetes v1.28. Kubernetes v1.29 went live while Fedora 40 was still in rawhide and superseded v1.28. Since Fedora 39 has Kubernetes v1.27 and changing to v1.28 would be problematic for existing clusters, Kubernetes v1.28 was moved to a link:https://copr.fedorainfracloud.org/coprs/buckaroogeek/copr-k8s-1.28/[COPR project]. [cluster-creation] == Creating a Kubernetes cluster with kubeadm using Fedora rpms Below is a guide to creating a functional Kubernetes cluster on a single Fedora machine that is suitable as a learning and exploring environment. This guide is not intended for production environments. Each Fedora release has a corresponding Kubernetes release as documented at the link:https://src.fedoraproject.org/rpms/kubernetes[Fedora Package Sources repository for Kubernetes]. Fedora 39, for example, has rpms for Kubernetes 1.27. The cluster initialization is the same for all current Fedora releases. These instructions have been tested on Fedora 38 and Fedora 39 virtual machines and on Raspberry Pi 4 hardware running Fedora 38 and Fedora 39 minimal. The guide below generally follows the link:https://kubernetes.io/docs/setup/production-environment/tools/kubeadm/create-cluster-kubeadm/[Creating a cluster with kubeadm] guide. . Update system with DNF. Reboot if necessary, although a reboot can be deferred until after the next step. + [source,bash] ---- sudo dnf update ---- . Disable swap. Kubernetes is configured to generate an installation error if swap is detected (see link:https://github.com/kubernetes/kubernetes/issues/53533[this ticket for details]). Modern Fedora systems use zram by default. Reboot after disabling swap. + [source,bash] ---- sudo systemctl stop swap-create@zram0 sudo dnf remove zram-generator-defaults sudo reboot now ---- . Disable the firewall. Kubeadm will generate an installation warning if the firewall is running. Disabling the firewall removes one source of complexity in a learning environment. Modern Fedora systems use firewalld. See link:https://devopstales.github.io/kubernetes/k8s-security/#use-firewalld[https://devopstales.github.io/kubernetes/k8s-security/#use-firewalld] for an alternative solution that retains the firewall and opens necessary ports. The current list of ports and protocols used by a Kubernetes cluster can be found at link:https://kubernetes.io/docs/reference/networking/ports-and-protocols/[https://kubernetes.io/docs/reference/networking/ports-and-protocols/]. + [source,bash] ---- sudo systemctl stop firewalld.system sudo systemctl disable firewalld.system ---- . Install `iptables` and `iproute-tc.` + [source,bash] ---- sudo dnf install iptables iproute-tc ---- . Configure IPv4 forwarding and bridge filters. Below copied from link:https://kubernetes.io/docs/setup/production-environment/container-runtimes/[https://kubernetes.io/docs/setup/production-environment/container-runtimes/] + [source,bash] ---- sudo cat <