273 lines
14 KiB
Markdown
273 lines
14 KiB
Markdown
# Deploy a Production Ready Kubernetes Cluster
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![Kubernetes Logo](https://raw.githubusercontent.com/kubernetes-sigs/kubespray/master/docs/img/kubernetes-logo.png)
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If you have questions, check the documentation at [kubespray.io](https://kubespray.io) and join us on the [kubernetes slack](https://kubernetes.slack.com), channel **\#kubespray**.
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You can get your invite [here](http://slack.k8s.io/)
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- Can be deployed on **[AWS](docs/aws.md), GCE, [Azure](docs/azure.md), [OpenStack](docs/openstack.md), [vSphere](docs/vsphere.md), [Equinix Metal](docs/equinix-metal.md) (bare metal), Oracle Cloud Infrastructure (Experimental), or Baremetal**
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- **Highly available** cluster
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- **Composable** (Choice of the network plugin for instance)
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- Supports most popular **Linux distributions**
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- **Continuous integration tests**
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## Quick Start
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Below are several ways to use Kubespray to deploy a Kubernetes cluster.
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### Ansible
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#### Usage
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Install Ansible according to [Ansible installation guide](/docs/ansible.md#installing-ansible)
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then run the following steps:
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```ShellSession
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# Copy ``inventory/sample`` as ``inventory/mycluster``
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cp -rfp inventory/sample inventory/mycluster
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# Update Ansible inventory file with inventory builder
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declare -a IPS=(10.10.1.3 10.10.1.4 10.10.1.5)
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CONFIG_FILE=inventory/mycluster/hosts.yaml python3 contrib/inventory_builder/inventory.py ${IPS[@]}
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# Review and change parameters under ``inventory/mycluster/group_vars``
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cat inventory/mycluster/group_vars/all/all.yml
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cat inventory/mycluster/group_vars/k8s_cluster/k8s-cluster.yml
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# Deploy Kubespray with Ansible Playbook - run the playbook as root
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# The option `--become` is required, as for example writing SSL keys in /etc/,
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# installing packages and interacting with various systemd daemons.
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# Without --become the playbook will fail to run!
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ansible-playbook -i inventory/mycluster/hosts.yaml --become --become-user=root cluster.yml
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```
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Note: When Ansible is already installed via system packages on the control node,
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Python packages installed via `sudo pip install -r requirements.txt` will go to
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a different directory tree (e.g. `/usr/local/lib/python2.7/dist-packages` on
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Ubuntu) from Ansible's (e.g. `/usr/lib/python2.7/dist-packages/ansible` still on
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buntu). As a consequence, the `ansible-playbook` command will fail with:
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```raw
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ERROR! no action detected in task. This often indicates a misspelled module name, or incorrect module path.
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```
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This likely indicates that a task depends on a module present in ``requirements.txt``.
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One way of addressing this is to uninstall the system Ansible package then
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reinstall Ansible via ``pip``, but this not always possible and one must
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take care regarding package versions.
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A workaround consists of setting the `ANSIBLE_LIBRARY`
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and `ANSIBLE_MODULE_UTILS` environment variables respectively to
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the `ansible/modules` and `ansible/module_utils` subdirectories of the ``pip``
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installation location, which is the ``Location`` shown by running
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`pip show [package]` before executing `ansible-playbook`.
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A simple way to ensure you get all the correct version of Ansible is to use
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the [pre-built docker image from Quay](https://quay.io/repository/kubespray/kubespray?tab=tags).
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You will then need to use [bind mounts](https://docs.docker.com/storage/bind-mounts/)
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to access the inventory and SSH key in the container, like this:
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```ShellSession
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git checkout v2.20.0
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docker pull quay.io/kubespray/kubespray:v2.20.0
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docker run --rm -it --mount type=bind,source="$(pwd)"/inventory/sample,dst=/inventory \
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--mount type=bind,source="${HOME}"/.ssh/id_rsa,dst=/root/.ssh/id_rsa \
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quay.io/kubespray/kubespray:v2.20.0 bash
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# Inside the container you may now run the kubespray playbooks:
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ansible-playbook -i /inventory/inventory.ini --private-key /root/.ssh/id_rsa cluster.yml
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```
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### Vagrant
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For Vagrant we need to install Python dependencies for provisioning tasks.
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Check that ``Python`` and ``pip`` are installed:
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```ShellSession
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python -V && pip -V
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```
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If this returns the version of the software, you're good to go. If not, download and install Python from here <https://www.python.org/downloads/source/>
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Install Ansible according to [Ansible installation guide](/docs/ansible.md#installing-ansible)
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then run the following step:
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```ShellSession
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vagrant up
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```
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## Documents
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- [Requirements](#requirements)
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- [Kubespray vs ...](docs/comparisons.md)
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- [Getting started](docs/getting-started.md)
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- [Setting up your first cluster](docs/setting-up-your-first-cluster.md)
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- [Ansible inventory and tags](docs/ansible.md)
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- [Integration with existing ansible repo](docs/integration.md)
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- [Deployment data variables](docs/vars.md)
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- [DNS stack](docs/dns-stack.md)
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- [HA mode](docs/ha-mode.md)
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- [Network plugins](#network-plugins)
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- [Vagrant install](docs/vagrant.md)
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- [Flatcar Container Linux bootstrap](docs/flatcar.md)
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- [Fedora CoreOS bootstrap](docs/fcos.md)
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- [Debian Jessie setup](docs/debian.md)
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- [openSUSE setup](docs/opensuse.md)
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- [Downloaded artifacts](docs/downloads.md)
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- [Cloud providers](docs/cloud.md)
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- [OpenStack](docs/openstack.md)
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- [AWS](docs/aws.md)
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- [Azure](docs/azure.md)
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- [vSphere](docs/vsphere.md)
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- [Equinix Metal](docs/equinix-metal.md)
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- [Large deployments](docs/large-deployments.md)
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- [Adding/replacing a node](docs/nodes.md)
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- [Upgrades basics](docs/upgrades.md)
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- [Air-Gap installation](docs/offline-environment.md)
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- [NTP](docs/ntp.md)
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- [Hardening](docs/hardening.md)
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- [Mirror](docs/mirror.md)
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- [Roadmap](docs/roadmap.md)
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## Supported Linux Distributions
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- **Flatcar Container Linux by Kinvolk**
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- **Debian** Bullseye, Buster, Jessie, Stretch
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- **Ubuntu** 16.04, 18.04, 20.04, 22.04
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- **CentOS/RHEL** 7, [8, 9](docs/centos.md#centos-8)
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- **Fedora** 35, 36
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- **Fedora CoreOS** (see [fcos Note](docs/fcos.md))
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- **openSUSE** Leap 15.x/Tumbleweed
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- **Oracle Linux** 7, [8, 9](docs/centos.md#centos-8)
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- **Alma Linux** [8, 9](docs/centos.md#centos-8)
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- **Rocky Linux** [8, 9](docs/centos.md#centos-8)
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- **Kylin Linux Advanced Server V10** (experimental: see [kylin linux notes](docs/kylinlinux.md))
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- **Amazon Linux 2** (experimental: see [amazon linux notes](docs/amazonlinux.md))
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- **UOS Linux** (experimental: see [uos linux notes](docs/uoslinux.md))
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- **openEuler** (experimental: see [openEuler notes](docs/openeuler.md))
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Note: Upstart/SysV init based OS types are not supported.
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## Supported Components
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- Core
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- [kubernetes](https://github.com/kubernetes/kubernetes) v1.25.6
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- [etcd](https://github.com/etcd-io/etcd) v3.5.6
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- [docker](https://www.docker.com/) v20.10 (see note)
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- [containerd](https://containerd.io/) v1.6.15
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- [cri-o](http://cri-o.io/) v1.24 (experimental: see [CRI-O Note](docs/cri-o.md). Only on fedora, ubuntu and centos based OS)
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- Network Plugin
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- [cni-plugins](https://github.com/containernetworking/plugins) v1.2.0
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- [calico](https://github.com/projectcalico/calico) v3.24.5
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- [canal](https://github.com/projectcalico/canal) (given calico/flannel versions)
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- [cilium](https://github.com/cilium/cilium) v1.12.1
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- [flannel](https://github.com/flannel-io/flannel) v0.20.2
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- [kube-ovn](https://github.com/alauda/kube-ovn) v1.10.7
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- [kube-router](https://github.com/cloudnativelabs/kube-router) v1.5.1
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- [multus](https://github.com/intel/multus-cni) v3.8
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- [weave](https://github.com/weaveworks/weave) v2.8.1
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- [kube-vip](https://github.com/kube-vip/kube-vip) v0.5.5
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- Application
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- [cert-manager](https://github.com/jetstack/cert-manager) v1.11.0
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- [coredns](https://github.com/coredns/coredns) v1.9.3
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- [ingress-nginx](https://github.com/kubernetes/ingress-nginx) v1.5.1
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- [krew](https://github.com/kubernetes-sigs/krew) v0.4.3
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- [argocd](https://argoproj.github.io/) v2.5.9
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- [helm](https://helm.sh/) v3.10.3
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- [metallb](https://metallb.universe.tf/) v0.12.1
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- [registry](https://github.com/distribution/distribution) v2.8.1
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- Storage Plugin
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- [cephfs-provisioner](https://github.com/kubernetes-incubator/external-storage) v2.1.0-k8s1.11
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- [rbd-provisioner](https://github.com/kubernetes-incubator/external-storage) v2.1.1-k8s1.11
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- [aws-ebs-csi-plugin](https://github.com/kubernetes-sigs/aws-ebs-csi-driver) v0.5.0
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- [azure-csi-plugin](https://github.com/kubernetes-sigs/azuredisk-csi-driver) v1.10.0
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- [cinder-csi-plugin](https://github.com/kubernetes/cloud-provider-openstack/blob/master/docs/cinder-csi-plugin/using-cinder-csi-plugin.md) v1.22.0
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- [gcp-pd-csi-plugin](https://github.com/kubernetes-sigs/gcp-compute-persistent-disk-csi-driver) v1.4.0
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- [local-path-provisioner](https://github.com/rancher/local-path-provisioner) v0.0.22
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- [local-volume-provisioner](https://github.com/kubernetes-sigs/sig-storage-local-static-provisioner) v2.5.0
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## Container Runtime Notes
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- Supported Docker versions are 18.09, 19.03 and 20.10. The *recommended* Docker version is 20.10. `Kubelet` might break on docker's non-standard version numbering (it no longer uses semantic versioning). To ensure auto-updates don't break your cluster look into e.g. the YUM ``versionlock`` plugin or ``apt pin``).
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- The cri-o version should be aligned with the respective kubernetes version (i.e. kube_version=1.20.x, crio_version=1.20)
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## Requirements
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- **Minimum required version of Kubernetes is v1.24**
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- **Ansible v2.11+, Jinja 2.11+ and python-netaddr is installed on the machine that will run Ansible commands**
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- The target servers must have **access to the Internet** in order to pull docker images. Otherwise, additional configuration is required (See [Offline Environment](docs/offline-environment.md))
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- The target servers are configured to allow **IPv4 forwarding**.
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- If using IPv6 for pods and services, the target servers are configured to allow **IPv6 forwarding**.
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- The **firewalls are not managed**, you'll need to implement your own rules the way you used to.
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in order to avoid any issue during deployment you should disable your firewall.
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- If kubespray is ran from non-root user account, correct privilege escalation method
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should be configured in the target servers. Then the `ansible_become` flag
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or command parameters `--become or -b` should be specified.
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Hardware:
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These limits are safeguarded by Kubespray. Actual requirements for your workload can differ. For a sizing guide go to the [Building Large Clusters](https://kubernetes.io/docs/setup/cluster-large/#size-of-master-and-master-components) guide.
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- Master
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- Memory: 1500 MB
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- Node
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- Memory: 1024 MB
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## Network Plugins
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You can choose among ten network plugins. (default: `calico`, except Vagrant uses `flannel`)
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- [flannel](docs/flannel.md): gre/vxlan (layer 2) networking.
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- [Calico](https://docs.projectcalico.org/latest/introduction/) is a networking and network policy provider. Calico supports a flexible set of networking options
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designed to give you the most efficient networking across a range of situations, including non-overlay
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and overlay networks, with or without BGP. Calico uses the same engine to enforce network policy for hosts,
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pods, and (if using Istio and Envoy) applications at the service mesh layer.
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- [canal](https://github.com/projectcalico/canal): a composition of calico and flannel plugins.
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- [cilium](http://docs.cilium.io/en/latest/): layer 3/4 networking (as well as layer 7 to protect and secure application protocols), supports dynamic insertion of BPF bytecode into the Linux kernel to implement security services, networking and visibility logic.
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- [weave](docs/weave.md): Weave is a lightweight container overlay network that doesn't require an external K/V database cluster.
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(Please refer to `weave` [troubleshooting documentation](https://www.weave.works/docs/net/latest/troubleshooting/)).
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- [kube-ovn](docs/kube-ovn.md): Kube-OVN integrates the OVN-based Network Virtualization with Kubernetes. It offers an advanced Container Network Fabric for Enterprises.
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- [kube-router](docs/kube-router.md): Kube-router is a L3 CNI for Kubernetes networking aiming to provide operational
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simplicity and high performance: it uses IPVS to provide Kube Services Proxy (if setup to replace kube-proxy),
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iptables for network policies, and BGP for ods L3 networking (with optionally BGP peering with out-of-cluster BGP peers).
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It can also optionally advertise routes to Kubernetes cluster Pods CIDRs, ClusterIPs, ExternalIPs and LoadBalancerIPs.
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- [macvlan](docs/macvlan.md): Macvlan is a Linux network driver. Pods have their own unique Mac and Ip address, connected directly the physical (layer 2) network.
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- [multus](docs/multus.md): Multus is a meta CNI plugin that provides multiple network interface support to pods. For each interface Multus delegates CNI calls to secondary CNI plugins such as Calico, macvlan, etc.
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The network plugin to use is defined by the variable `kube_network_plugin`. There is also an
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option to leverage built-in cloud provider networking instead.
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See also [Network checker](docs/netcheck.md).
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## Ingress Plugins
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- [nginx](https://kubernetes.github.io/ingress-nginx): the NGINX Ingress Controller.
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- [metallb](docs/metallb.md): the MetalLB bare-metal service LoadBalancer provider.
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## Community docs and resources
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- [kubernetes.io/docs/setup/production-environment/tools/kubespray/](https://kubernetes.io/docs/setup/production-environment/tools/kubespray/)
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- [kubespray, monitoring and logging](https://github.com/gregbkr/kubernetes-kargo-logging-monitoring) by @gregbkr
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- [Deploy Kubernetes w/ Ansible & Terraform](https://rsmitty.github.io/Terraform-Ansible-Kubernetes/) by @rsmitty
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- [Deploy a Kubernetes Cluster with Kubespray (video)](https://www.youtube.com/watch?v=CJ5G4GpqDy0)
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## Tools and projects on top of Kubespray
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- [Digital Rebar Provision](https://github.com/digitalrebar/provision/blob/v4/doc/integrations/ansible.rst)
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- [Terraform Contrib](https://github.com/kubernetes-sigs/kubespray/tree/master/contrib/terraform)
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- [Kubean](https://github.com/kubean-io/kubean)
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## CI Tests
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[![Build graphs](https://gitlab.com/kargo-ci/kubernetes-sigs-kubespray/badges/master/pipeline.svg)](https://gitlab.com/kargo-ci/kubernetes-sigs-kubespray/pipelines)
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CI/end-to-end tests sponsored by: [CNCF](https://cncf.io), [Equinix Metal](https://metal.equinix.com/), [OVHcloud](https://www.ovhcloud.com/), [ELASTX](https://elastx.se/).
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See the [test matrix](docs/test_cases.md) for details.
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