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Set up a High Availability etcd cluster with kubeadm
Note: While kubeadm is being used as the management tool for external etcd nodes in this guide, please note that kubeadm does not plan to support certificate rotation or upgrades for such nodes. The long term plan is to empower the tool etcdadm to manage these aspects.
Kubeadm defaults to running a single member etcd cluster in a static pod managed by the kubelet on the control plane node. This is not a high availability setup as the etcd cluster contains only one member and cannot sustain any members becoming unavailable. This task walks through the process of creating a high availability etcd cluster of three members that can be used as an external etcd when using kubeadm to set up a kubernetes cluster.
Before you begin
- Three hosts that can talk to each other over ports 2379 and 2380. This document assumes these default ports. However, they are configurable through the kubeadm config file.
- Each host must have docker, kubelet, and kubeadm installed.
- Each host should have access to the Kubernetes container image registry (
k8s.gcr.io
) or list/pull the required etcd image usingkubeadm config images list/pull
. This guide will setup etcd instances as static pods managed by a kubelet. - Some infrastructure to copy files between hosts. For example
ssh
andscp
can satisfy this requirement.
Setting up the cluster
The general approach is to generate all certs on one node and only distribute the necessary files to the other nodes.
Note: kubeadm contains all the necessary crytographic machinery to generate the certificates described below; no other cryptographic tooling is required for this example.
Configure the kubelet to be a service manager for etcd.
Since etcd was created first, you must override the service priority by creating a new unit file that has higher precedence than the kubeadm-provided kubelet unit file.Note: You must do this on every host where etcd should be running.cat << EOF > /etc/systemd/system/kubelet.service.d/20-etcd-service-manager.conf [Service] ExecStart= # Replace "systemd" with the cgroup driver of your container runtime. The default value in the kubelet is "cgroupfs". ExecStart=/usr/bin/kubelet --address=127.0.0.1 --pod-manifest-path=/etc/kubernetes/manifests --cgroup-driver=systemd Restart=always EOF systemctl daemon-reload systemctl restart kubelet
Check the kubelet status to ensure it is running.
systemctl status kubelet
Create configuration files for kubeadm.
Generate one kubeadm configuration file for each host that will have an etcd member running on it using the following script.
# Update HOST0, HOST1, and HOST2 with the IPs or resolvable names of your hosts export HOST0=10.0.0.6 export HOST1=10.0.0.7 export HOST2=10.0.0.8 # Create temp directories to store files that will end up on other hosts. mkdir -p /tmp/${HOST0}/ /tmp/${HOST1}/ /tmp/${HOST2}/ ETCDHOSTS=(${HOST0} ${HOST1} ${HOST2}) NAMES=("infra0" "infra1" "infra2") for i in "${!ETCDHOSTS[@]}"; do HOST=${ETCDHOSTS[$i]} NAME=${NAMES[$i]} cat << EOF > /tmp/${HOST}/kubeadmcfg.yaml apiVersion: "kubeadm.k8s.io/v1beta2" kind: ClusterConfiguration etcd: local: serverCertSANs: - "${HOST}" peerCertSANs: - "${HOST}" extraArgs: initial-cluster: ${NAMES[0]}=https://${ETCDHOSTS[0]}:2380,${NAMES[1]}=https://${ETCDHOSTS[1]}:2380,${NAMES[2]}=https://${ETCDHOSTS[2]}:2380 initial-cluster-state: new name: ${NAME} listen-peer-urls: https://${HOST}:2380 listen-client-urls: https://${HOST}:2379 advertise-client-urls: https://${HOST}:2379 initial-advertise-peer-urls: https://${HOST}:2380 EOF done
Generate the certificate authority
If you already have a CA then the only action that is copying the CA's
crt
andkey
file to/etc/kubernetes/pki/etcd/ca.crt
and/etc/kubernetes/pki/etcd/ca.key
. After those files have been copied, proceed to the next step, "Create certificates for each member".If you do not already have a CA then run this command on
$HOST0
(where you generated the configuration files for kubeadm).kubeadm init phase certs etcd-ca
This creates two files
/etc/kubernetes/pki/etcd/ca.crt
/etc/kubernetes/pki/etcd/ca.key
Create certificates for each member
kubeadm init phase certs etcd-server --config=/tmp/${HOST2}/kubeadmcfg.yaml kubeadm init phase certs etcd-peer --config=/tmp/${HOST2}/kubeadmcfg.yaml kubeadm init phase certs etcd-healthcheck-client --config=/tmp/${HOST2}/kubeadmcfg.yaml kubeadm init phase certs apiserver-etcd-client --config=/tmp/${HOST2}/kubeadmcfg.yaml cp -R /etc/kubernetes/pki /tmp/${HOST2}/ # cleanup non-reusable certificates find /etc/kubernetes/pki -not -name ca.crt -not -name ca.key -type f -delete kubeadm init phase certs etcd-server --config=/tmp/${HOST1}/kubeadmcfg.yaml kubeadm init phase certs etcd-peer --config=/tmp/${HOST1}/kubeadmcfg.yaml kubeadm init phase certs etcd-healthcheck-client --config=/tmp/${HOST1}/kubeadmcfg.yaml kubeadm init phase certs apiserver-etcd-client --config=/tmp/${HOST1}/kubeadmcfg.yaml cp -R /etc/kubernetes/pki /tmp/${HOST1}/ find /etc/kubernetes/pki -not -name ca.crt -not -name ca.key -type f -delete kubeadm init phase certs etcd-server --config=/tmp/${HOST0}/kubeadmcfg.yaml kubeadm init phase certs etcd-peer --config=/tmp/${HOST0}/kubeadmcfg.yaml kubeadm init phase certs etcd-healthcheck-client --config=/tmp/${HOST0}/kubeadmcfg.yaml kubeadm init phase certs apiserver-etcd-client --config=/tmp/${HOST0}/kubeadmcfg.yaml # No need to move the certs because they are for HOST0 # clean up certs that should not be copied off this host find /tmp/${HOST2} -name ca.key -type f -delete find /tmp/${HOST1} -name ca.key -type f -delete
Copy certificates and kubeadm configs
The certificates have been generated and now they must be moved to their respective hosts.
USER=ubuntu HOST=${HOST1} scp -r /tmp/${HOST}/* ${USER}@${HOST}: ssh ${USER}@${HOST} USER@HOST $ sudo -Es root@HOST $ chown -R root:root pki root@HOST $ mv pki /etc/kubernetes/
Ensure all expected files exist
The complete list of required files on
$HOST0
is:/tmp/${HOST0} └── kubeadmcfg.yaml --- /etc/kubernetes/pki ├── apiserver-etcd-client.crt ├── apiserver-etcd-client.key └── etcd ├── ca.crt ├── ca.key ├── healthcheck-client.crt ├── healthcheck-client.key ├── peer.crt ├── peer.key ├── server.crt └── server.key
On
$HOST1
:$HOME └── kubeadmcfg.yaml --- /etc/kubernetes/pki ├── apiserver-etcd-client.crt ├── apiserver-etcd-client.key └── etcd ├── ca.crt ├── healthcheck-client.crt ├── healthcheck-client.key ├── peer.crt ├── peer.key ├── server.crt └── server.key
On
$HOST2
$HOME └── kubeadmcfg.yaml --- /etc/kubernetes/pki ├── apiserver-etcd-client.crt ├── apiserver-etcd-client.key └── etcd ├── ca.crt ├── healthcheck-client.crt ├── healthcheck-client.key ├── peer.crt ├── peer.key ├── server.crt └── server.key
Create the static pod manifests
Now that the certificates and configs are in place it's time to create the manifests. On each host run the
kubeadm
command to generate a static manifest for etcd.root@HOST0 $ kubeadm init phase etcd local --config=/tmp/${HOST0}/kubeadmcfg.yaml root@HOST1 $ kubeadm init phase etcd local --config=/tmp/${HOST1}/kubeadmcfg.yaml root@HOST2 $ kubeadm init phase etcd local --config=/tmp/${HOST2}/kubeadmcfg.yaml
Optional: Check the cluster health
docker run --rm -it \ --net host \ -v /etc/kubernetes:/etc/kubernetes k8s.gcr.io/etcd:${ETCD_TAG} etcdctl \ --cert /etc/kubernetes/pki/etcd/peer.crt \ --key /etc/kubernetes/pki/etcd/peer.key \ --cacert /etc/kubernetes/pki/etcd/ca.crt \ --endpoints https://${HOST0}:2379 endpoint health --cluster ... https://[HOST0 IP]:2379 is healthy: successfully committed proposal: took = 16.283339ms https://[HOST1 IP]:2379 is healthy: successfully committed proposal: took = 19.44402ms https://[HOST2 IP]:2379 is healthy: successfully committed proposal: took = 35.926451ms
- Set
${ETCD_TAG}
to the version tag of your etcd image. For example3.4.3-0
. To see the etcd image and tag that kubeadm uses executekubeadm config images list --kubernetes-version ${K8S_VERSION}
, where${K8S_VERSION}
is for examplev1.17.0
- Set
${HOST0}
to the IP address of the host you are testing.
- Set
What's next
Once you have a working 3 member etcd cluster, you can continue setting up a highly available control plane using the external etcd method with kubeadm.