I want to scale up/down the number of machines to increase/decrease the number of nodes in my Kubernetes cluster. When I add one machine, I’m able to successfully register it with Kubernetes; therefore, a new node is created as expected. However, it is not clear to me how to smoothly shut down the machine later. A good workflow would be:

  1. Mark the node related to the machine that I am going to shut down as unschedulable;
  2. Start the pod(s) that is running in the node in other node(s);
  3. Gracefully delete the pod(s) that is running in the node;
  4. Delete the node.

If I understood correctly, even kubectl drain (discussion) doesn't do what I expect since it doesn’t start the pods before deleting them (it relies on a replication controller to start the pods afterwards which may cause downtime). Am I missing something?

How should I properly shutdown a machine?

  • As I understand it, If you are not running your pod for high-availability (that is several replicas per pod) you should not expect no downtime if your pod goes down. This is not specific to node removal scenario but to any and all scenarios when a pod get rescheduled to a different node. If you do not have HA and running a single replica you will get downtime. Commented Feb 17, 2019 at 21:35

8 Answers 8


List the nodes and get the <node-name> you want to drain or (remove from cluster)

kubectl get nodes

1) First drain the node

kubectl drain <node-name>

You might have to ignore daemonsets and local-data in the machine

kubectl drain <node-name> --ignore-daemonsets --delete-local-data

2) Edit instance group for nodes (Only if you are using kops)

kops edit ig nodes

Set the MIN and MAX size to whatever it is -1 Just save the file (nothing extra to be done)

You still might see some pods in the drained node that are related to daemonsets like networking plugin, fluentd for logs, kubedns/coredns etc

3) Finally delete the node

kubectl delete node <node-name>

4) Commit the state for KOPS in s3: (Only if you are using kops)

kops update cluster --yes

OR (if you are using kubeadm)

If you are using kubeadm and would like to reset the machine to a state which was there before running kubeadm join then run

kubeadm reset
  • You need to execute kops update cluster --yes in order to commit the changes Commented Mar 8, 2019 at 13:31
  • run 'sudo kubeadm' reset on the worker that you removed, in case you want to add it back Commented Aug 1, 2019 at 10:40
  • this answer works in the sense that it removes the node gracefully, however what happens when you run kops validate cluster afterwards?
    – Rich
    Commented Jan 28, 2020 at 9:03
  • this worked for me. note that kops didn't apply to my use case.
    – majorgear
    Commented Nov 25, 2023 at 20:50
  1. Find the node with kubectl get nodes. We’ll assume the name of node to be removed is “mynode”, replace that going forward with the actual node name.
  2. Drain it with kubectl drain mynode
  3. Delete it with kubectl delete node mynode
  4. If using kubeadm, run on “mynode” itself kubeadm reset

Follow these steps to remove the worker node from Kubernetes:

  1. List all the nodes from the cluster
kubectl get nodes
  1. Drain node in preparation for maintenance
kubectl drain <node-name> --ignore-daemonsets
  1. Delete node by its name
kubectl delete node <node-name>

Rafael. kubectl drain does work as you describe. There is some downtime, just as if the machine crashed.

Can you describe your setup? How many replicas do you have, and are you provisioned such that you can't handle any downtime of a single replica?

  • 1
    Currently, I’m evaluating Kubernetes in a separate environment where I have a bunch of EC2 instances with different applications/pods. I understand that I shouldn’t run applications as single replicas. But I’m also not going to run an enormous number of replicas for each application; therefore, loosing one replica would impact the overall capacity of the application. Although I can live with that eventually, I don’t think it is a reasonable approach if it is caused by a planned action such as scaling down the number of machines (nodes).
    – Rafael
    Commented Mar 3, 2016 at 14:34
  • 1
    It turns out that Kubernetes will do this properly, as long as you set an appropriate grace period, have a readinessProbe, and handle SIGTERM properly. github.com/kubernetes/kubernetes/issues/20473 covers a similar issue (from the perspective of a rolling update). Let me know if you need more specifics and I'll be happy to help. Commented Mar 8, 2016 at 0:22
  • 6
    Instead of using drain, we are marking the node as unschedulable, getting the list of its deployments and forcing a re-deploy on each of its deployments (by changing an annotation). Since the node is unschedulable, Kubernetes allocates the pods in other nodes automatically. This solution was easier for us.
    – Rafael
    Commented Oct 13, 2016 at 19:50
  • This answer covers points 1-3. But what about point 4? How do you delete the node from k8s's list of nodes?
    – zaTricky
    Commented Mar 2, 2018 at 9:05
  • 2
    Found an answer, though I don't see it listed in --help output: kubectl delete node <nodename>
    – zaTricky
    Commented Mar 2, 2018 at 9:09
If the cluster is created by kops

1.kubectl drain <node-name>
now all the pods will be evicted

ignore daemeondet:
2.kubectl drain <node-name> --ignore-daemonsets --delete-local-data

3.kops edit ig  nodes-3  --state=s3://bucketname

set max and min value of instance group to 0

4. kubectl delete node

5. kops update cluster --state=s3://bucketname  --yes

Rolling update if required:

6. kops rolling-update cluster  --state=s3://bucketname  --yes

validate cluster:

7.kops validate cluster --state=s3://bucketname

Now the instance will be terminated.

When draining a node we can have the risk that the nodes remain unbalanced and that some processes suffer downtime. The purpose of this method is to maintain the load balance between nodes as much as possible in addition to avoiding downtime.

# Mark the node as unschedulable.
echo Mark the node as unschedulable $NODENAME
kubectl cordon $NODENAME

# Get the list of namespaces running on the node.
NAMESPACES=$(kubectl get pods --all-namespaces -o custom-columns=:metadata.namespace --field-selector spec.nodeName=$NODENAME | sort -u | sed -e "/^ *$/d")

# forcing a rollout on each of its deployments. 
# Since the node is unschedulable, Kubernetes allocates 
# the pods in other nodes automatically. 
    echo deployment restart for $NAMESPACE
    kubectl rollout restart deployment/name -n $NAMESPACE

# Wait for deployments rollouts to finish.
    echo deployment status for $NAMESPACE
    kubectl rollout status deployment/name -n $NAMESPACE

# Drain node to be removed
kubectl drain $NODENAME

The below command only works if you have a lot of replicas, disruption budgets, etc. - but helps a lot with improving cluster utilization. In our cluster we have integration tests kicked off throughout the day (pods run for an hour and then spin down) as well as some dev-workload (runs for a few days until a dev spins it down manually). I am running this every night and get from ~100 nodes in the cluster down to ~20 - which adds up to a fair amount of savings:

for node in $(kubectl get nodes -o name| cut -d "/" -f2); do
  kubectl drain --ignore-daemonsets --delete-emptydir-data $node;
  kubectl delete node $node;

There exists some strange behaviors for me when kubectl drain. Here are my extra steps, otherwise DATA WILL LOST in my case!

Short answer: CHECK THAT no PersistentVolume is mounted to this node. If have some PV, see the following descriptions to remove it.

When executing kubectl drain, I noticed, some Pods are not evicted (they just did not appear in those logs like evicting pod xxx).

In my case, some are pods with soft anti-affinity (so they do not like to go to the remaining nodes), some are pods of StatefulSet of size 1 and wants to keep at least 1 pod.

If I directly delete that node (using the commands mentioned in other answers), data will get lost because those pods have some PersistentVolumes, and deleting a Node will also delete PersistentVolumes (if using some cloud providers).

Thus, please manually delete those pods one by one. After deleted, kuberentes will re-schedule the pods to other nodes (because this node is SchedulingDisabled).

After deleting all pods (excluding DaemonSets), please CHECK THAT no PersistentVolume is mounted to this node.

Then you can safely delete the node itself :)

  • Does this data loss only apply to local storage types, or also dynamically provisioned network storage?
    – benjimin
    Commented Oct 15, 2022 at 16:39

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.