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Apply Pod Security Standards at the Cluster Level
Note
This tutorial applies only for new clusters.Pod Security admission (PSA) is enabled by default in v1.23 and later, as it has
graduated to beta.
Pod Security
is an admission controller that carries out checks against the Kubernetes
Pod Security Standards when new pods are
created. This tutorial shows you how to enforce the baseline
Pod Security
Standard at the cluster level which applies a standard configuration
to all namespaces in a cluster.
To apply Pod Security Standards to specific namespaces, refer to Apply Pod Security Standards at the namespace level.
If you are running a version of Kubernetes other than v1.26, check the documentation for that version.
Before you begin
Install the following on your workstation:
This tutorial demonstrates what you can configure for a Kubernetes cluster that you fully control. If you are learning how to configure Pod Security Admission for a managed cluster where you are not able to configure the control plane, read Apply Pod Security Standards at the namespace level.
Choose the right Pod Security Standard to apply
Pod Security Admission
lets you apply built-in Pod Security Standards
with the following modes: enforce
, audit
, and warn
.
To gather information that helps you to choose the Pod Security Standards that are most appropriate for your configuration, do the following:
Create a cluster with no Pod Security Standards applied:
kind create cluster --name psa-wo-cluster-pss
The output is similar to:
Creating cluster "psa-wo-cluster-pss" ... ✓ Ensuring node image (kindest/node:v1.26.0) 🖼 ✓ Preparing nodes 📦 ✓ Writing configuration 📜 ✓ Starting control-plane 🕹️ ✓ Installing CNI 🔌 ✓ Installing StorageClass 💾 Set kubectl context to "kind-psa-wo-cluster-pss" You can now use your cluster with: kubectl cluster-info --context kind-psa-wo-cluster-pss Thanks for using kind! 😊
Set the kubectl context to the new cluster:
kubectl cluster-info --context kind-psa-wo-cluster-pss
The output is similar to this:
Kubernetes control plane is running at https://127.0.0.1:61350 CoreDNS is running at https://127.0.0.1:61350/api/v1/namespaces/kube-system/services/kube-dns:dns/proxy To further debug and diagnose cluster problems, use 'kubectl cluster-info dump'.
Get a list of namespaces in the cluster:
kubectl get ns
The output is similar to this:
NAME STATUS AGE default Active 9m30s kube-node-lease Active 9m32s kube-public Active 9m32s kube-system Active 9m32s local-path-storage Active 9m26s
Use
--dry-run=server
to understand what happens when different Pod Security Standards are applied:Privileged
kubectl label --dry-run=server --overwrite ns --all \ pod-security.kubernetes.io/enforce=privileged
The output is similar to:
namespace/default labeled namespace/kube-node-lease labeled namespace/kube-public labeled namespace/kube-system labeled namespace/local-path-storage labeled
Baseline
kubectl label --dry-run=server --overwrite ns --all \ pod-security.kubernetes.io/enforce=baseline
The output is similar to:
namespace/default labeled namespace/kube-node-lease labeled namespace/kube-public labeled Warning: existing pods in namespace "kube-system" violate the new PodSecurity enforce level "baseline:latest" Warning: etcd-psa-wo-cluster-pss-control-plane (and 3 other pods): host namespaces, hostPath volumes Warning: kindnet-vzj42: non-default capabilities, host namespaces, hostPath volumes Warning: kube-proxy-m6hwf: host namespaces, hostPath volumes, privileged namespace/kube-system labeled namespace/local-path-storage labeled
Restricted
kubectl label --dry-run=server --overwrite ns --all \ pod-security.kubernetes.io/enforce=restricted
The output is similar to:
namespace/default labeled namespace/kube-node-lease labeled namespace/kube-public labeled Warning: existing pods in namespace "kube-system" violate the new PodSecurity enforce level "restricted:latest" Warning: coredns-7bb9c7b568-hsptc (and 1 other pod): unrestricted capabilities, runAsNonRoot != true, seccompProfile Warning: etcd-psa-wo-cluster-pss-control-plane (and 3 other pods): host namespaces, hostPath volumes, allowPrivilegeEscalation != false, unrestricted capabilities, restricted volume types, runAsNonRoot != true Warning: kindnet-vzj42: non-default capabilities, host namespaces, hostPath volumes, allowPrivilegeEscalation != false, unrestricted capabilities, restricted volume types, runAsNonRoot != true, seccompProfile Warning: kube-proxy-m6hwf: host namespaces, hostPath volumes, privileged, allowPrivilegeEscalation != false, unrestricted capabilities, restricted volume types, runAsNonRoot != true, seccompProfile namespace/kube-system labeled Warning: existing pods in namespace "local-path-storage" violate the new PodSecurity enforce level "restricted:latest" Warning: local-path-provisioner-d6d9f7ffc-lw9lh: allowPrivilegeEscalation != false, unrestricted capabilities, runAsNonRoot != true, seccompProfile namespace/local-path-storage labeled
From the previous output, you'll notice that applying the privileged
Pod Security Standard shows no warnings
for any namespaces. However, baseline
and restricted
standards both have
warnings, specifically in the kube-system
namespace.
Set modes, versions and standards
In this section, you apply the following Pod Security Standards to the latest
version:
baseline
standard inenforce
mode.restricted
standard inwarn
andaudit
mode.
The baseline
Pod Security Standard provides a convenient
middle ground that allows keeping the exemption list short and prevents known
privilege escalations.
Additionally, to prevent pods from failing in kube-system
, you'll exempt the namespace
from having Pod Security Standards applied.
When you implement Pod Security Admission in your own environment, consider the following:
Based on the risk posture applied to a cluster, a stricter Pod Security Standard like
restricted
might be a better choice.Exempting the
kube-system
namespace allows pods to run asprivileged
in this namespace. For real world use, the Kubernetes project strongly recommends that you apply strict RBAC policies that limit access tokube-system
, following the principle of least privilege. To implement the preceding standards, do the following:Create a configuration file that can be consumed by the Pod Security Admission Controller to implement these Pod Security Standards:
mkdir -p /tmp/pss cat <<EOF > /tmp/pss/cluster-level-pss.yaml apiVersion: apiserver.config.k8s.io/v1 kind: AdmissionConfiguration plugins: - name: PodSecurity configuration: apiVersion: pod-security.admission.config.k8s.io/v1 kind: PodSecurityConfiguration defaults: enforce: "baseline" enforce-version: "latest" audit: "restricted" audit-version: "latest" warn: "restricted" warn-version: "latest" exemptions: usernames: [] runtimeClasses: [] namespaces: [kube-system] EOF
Configure the API server to consume this file during cluster creation:
cat <<EOF > /tmp/pss/cluster-config.yaml kind: Cluster apiVersion: kind.x-k8s.io/v1alpha4 nodes: - role: control-plane kubeadmConfigPatches: - | kind: ClusterConfiguration apiServer: extraArgs: admission-control-config-file: /etc/config/cluster-level-pss.yaml extraVolumes: - name: accf hostPath: /etc/config mountPath: /etc/config readOnly: false pathType: "DirectoryOrCreate" extraMounts: - hostPath: /tmp/pss containerPath: /etc/config # optional: if set, the mount is read-only. # default false readOnly: false # optional: if set, the mount needs SELinux relabeling. # default false selinuxRelabel: false # optional: set propagation mode (None, HostToContainer or Bidirectional) # see https://kubernetes.io/docs/concepts/storage/volumes/#mount-propagation # default None propagation: None EOF
Note: If you use Docker Desktop with KinD on macOS, you can add/tmp
as a Shared Directory under the menu item Preferences > Resources > File Sharing.Create a cluster that uses Pod Security Admission to apply these Pod Security Standards:
kind create cluster --name psa-with-cluster-pss --config /tmp/pss/cluster-config.yaml
The output is similar to this:
Creating cluster "psa-with-cluster-pss" ... ✓ Ensuring node image (kindest/node:v1.26.0) 🖼 ✓ Preparing nodes 📦 ✓ Writing configuration 📜 ✓ Starting control-plane 🕹️ ✓ Installing CNI 🔌 ✓ Installing StorageClass 💾 Set kubectl context to "kind-psa-with-cluster-pss" You can now use your cluster with: kubectl cluster-info --context kind-psa-with-cluster-pss Have a question, bug, or feature request? Let us know! https://kind.sigs.k8s.io/#community 🙂
Point kubectl to the cluster:
kubectl cluster-info --context kind-psa-with-cluster-pss
The output is similar to this:
Kubernetes control plane is running at https://127.0.0.1:63855 CoreDNS is running at https://127.0.0.1:63855/api/v1/namespaces/kube-system/services/kube-dns:dns/proxy To further debug and diagnose cluster problems, use 'kubectl cluster-info dump'.
Create a Pod in the default namespace:
kubectl apply -f https://k8s.io/examples/security/example-baseline-pod.yaml
The pod is started normally, but the output includes a warning:
Warning: would violate PodSecurity "restricted:latest": allowPrivilegeEscalation != false (container "nginx" must set securityContext.allowPrivilegeEscalation=false), unrestricted capabilities (container "nginx" must set securityContext.capabilities.drop=["ALL"]), runAsNonRoot != true (pod or container "nginx" must set securityContext.runAsNonRoot=true), seccompProfile (pod or container "nginx" must set securityContext.seccompProfile.type to "RuntimeDefault" or "Localhost") pod/nginx created
Clean up
Now delete the clusters which you created above by running the following command:
kind delete cluster --name psa-with-cluster-pss
kind delete cluster --name psa-wo-cluster-pss
What's next
- Run a
shell script
to perform all the preceding steps at once:
- Create a Pod Security Standards based cluster level Configuration
- Create a file to let API server consume this configuration
- Create a cluster that creates an API server with this configuration
- Set kubectl context to this new cluster
- Create a minimal pod yaml file
- Apply this file to create a Pod in the new cluster
- Pod Security Admission
- Pod Security Standards
- Apply Pod Security Standards at the namespace level