Create static Pods

Static Pods are always bound to one Kubelet on a specific node.

The kubelet automatically tries to create a on the Kubernetes API server for each static Pod. This means that the Pods running on a node are visible on the API server, but cannot be controlled from there. The Pod names will be suffixed with the node hostname with a leading hyphen.

Note: If you are running clustered Kubernetes and are using static Pods to run a Pod on every node, you should probably be using a DaemonSet instead.

Note: The of a static Pod cannot refer to other API objects (e.g., , ConfigMap, , etc).

Note: Static pods do not support ephemeral containers.

You need to have a Kubernetes cluster, and the kubectl command-line tool must be configured to communicate with your cluster. It is recommended to run this tutorial on a cluster with at least two nodes that are not acting as control plane hosts. If you do not already have a cluster, you can create one by using minikube or you can use one of these Kubernetes playgrounds:

Play with Kubernetes

To check the version, enter kubectl version.

This page assumes you’re using to run Pods, and that your nodes are running the Fedora operating system. Instructions for other distributions or Kubernetes installations may vary.

You can configure a static Pod with either a or a web hosted configuration file.

Manifests are standard Pod definitions in JSON or YAML format in a specific directory. Use the staticPodPath: <the directory> field in the kubelet configuration file, which periodically scans the directory and creates/deletes static Pods as YAML/JSON files appear/disappear there. Note that the kubelet will ignore files starting with dots when scanning the specified directory.

Choose a node where you want to run the static Pod. In this example, it’s my-node1.

Choose a directory, say /etc/kubernetes/manifests and place a web server Pod definition there, for example /etc/kubernetes/manifests/static-web.yaml:

# Run this command on the node where kubelet is running
mkdir -p /etc/kubernetes/manifests/
cat <<EOF >/etc/kubernetes/manifests/static-web.yaml
apiVersion: v1
kind: Pod
metadata:
  name: static-web
  labels:
    role: myrole
spec:
  containers:
    - name: web
      image: nginx
      ports:
        - name: web
          protocol: TCP
EOF

Configure your kubelet on the node to use this directory by running it with --pod-manifest-path=/etc/kubernetes/manifests/ argument. On Fedora edit /etc/kubernetes/kubelet to include this line:
or add the staticPodPath: <the directory> field in the .

Restart the kubelet. On Fedora, you would run:

# Run this command on the node where the kubelet is running
systemctl restart kubelet

Web-hosted static pod manifest

Kubelet periodically downloads a file specified by --manifest-url=<URL> argument and interprets it as a JSON/YAML file that contains Pod definitions. Similar to how work, the kubelet refetches the manifest on a schedule. If there are changes to the list of static Pods, the kubelet applies them.

To use this approach:

Create a YAML file and store it on a web server so that you can pass the URL of that file to the kubelet.

apiVersion: v1
kind: Pod
metadata:
  name: static-web
  labels:
    role: myrole
spec:
  containers:
    - name: web
      image: nginx
      ports:
        - name: web
          containerPort: 80
          protocol: TCP

Configure the kubelet on your selected node to use this web manifest by running it with --manifest-url=<manifest-url>. On Fedora, edit /etc/kubernetes/kubelet to include this line:
```
KUBELET_ARGS="--cluster-dns=10.254.0.10 --cluster-domain=kube.local --manifest-url=<manifest-url>"
```
Restart the kubelet. On Fedora, you would run:

You can view running containers (including static Pods) by running (on the node):

crictl ps

The output might be something like:

CONTAINER       IMAGE                                 CREATED           STATE      NAME    ATTEMPT    POD ID
129fd7d382018   docker.io/library/nginx@sha256:...    11 minutes ago    Running    web     0          34533c6729106

Note: outputs the image URI and SHA-256 checksum. NAME will look more like: docker.io/library/nginx@sha256:0d17b565c37bcbd895e9d92315a05c1c3c9a29f762b011a10c54a66cd53c9b31.

You can see the mirror Pod on the API server:

kubectl get pods

NAME         READY   STATUS    RESTARTS        AGE
static-web   1/1     Running   0               2m

Note: Make sure the kubelet has permission to create the mirror Pod in the API server. If not, the creation request is rejected by the API server.

from the static Pod are propagated into the mirror Pod. You can use those labels as normal via selectors, etc.

If you try to use kubectl to delete the mirror Pod from the API server, the kubelet doesn’t remove the static Pod:

kubectl delete pod static-web

You can see that the Pod is still running:

kubectl get pods

NAME         READY   STATUS    RESTARTS   AGE
static-web   1/1     Running   0          4s

Back on your node where the kubelet is running, you can try to stop the container manually. You’ll see that, after a time, the kubelet will notice and will restart the Pod automatically:

# Run these commands on the node where the kubelet is running
crictl stop 129fd7d382018 # replace with the ID of your container
sleep 20
crictl ps

CONTAINER       IMAGE                                 CREATED           STATE      NAME    ATTEMPT    POD ID
89db4553e1eeb   docker.io/library/nginx@sha256:...    19 seconds ago    Running    web     1          34533c6729106

The running kubelet periodically scans the configured directory (/etc/kubernetes/manifests in our example) for changes and adds/removes Pods as files appear/disappear in this directory.

# This assumes you are using filesystem-hosted static Pod configuration
# Run these commands on the node where the kubelet is running
#
mv /etc/kubernetes/manifests/static-web.yaml /tmp
sleep 20
crictl ps
# You see that no nginx container is running
mv /tmp/static-web.yaml  /etc/kubernetes/manifests/