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Chapter 16. Understanding and managing pod security admission
Pod security admission is an implementation of the Kubernetes pod security standards. Use pod security admission to restrict the behavior of pods.
16.1. About pod security admission
OpenShift Container Platform includes Kubernetes pod security admission. Pods that do not comply with the pod security admission defined globally or at the namespace level are not admitted to the cluster and cannot run.
Globally, the privileged
profile is enforced, and the restricted
profile is used for warnings and audits.
You can also configure the pod security admission settings at the namespace level.
Do not run workloads in or share access to default projects. Default projects are reserved for running core cluster components.
The following default projects are considered highly privileged: default
, kube-public
, kube-system
, openshift
, openshift-infra
, openshift-node
, and other system-created projects that have the openshift.io/run-level
label set to 0
or 1
. Functionality that relies on admission plugins, such as pod security admission, security context constraints, cluster resource quotas, and image reference resolution, does not work in highly privileged projects.
16.1.1. Pod security admission modes
You can configure the following pod security admission modes for a namespace:
Mode | Label | Description |
---|---|---|
|
| Rejects a pod from admission if it does not comply with the set profile |
|
| Logs audit events if a pod does not comply with the set profile |
|
| Displays warnings if a pod does not comply with the set profile |
16.1.2. Pod security admission profiles
You can set each of the pod security admission modes to one of the following profiles:
Profile | Description |
---|---|
| Least restrictive policy; allows for known privilege escalation |
| Minimally restrictive policy; prevents known privilege escalations |
| Most restrictive policy; follows current pod hardening best practices |
16.1.3. Privileged namespaces
The following system namespaces are always set to the privileged
pod security admission profile:
-
default
-
kube-public
-
kube-system
You cannot change the pod security profile for these privileged namespaces.
16.1.4. Pod security admission and security context constraints
Pod security admission standards and security context constraints are reconciled and enforced by two independent controllers. The two controllers work independently using the following processes to enforce security policies:
-
The security context constraint controller may mutate some security context fields per the pod’s assigned SCC. For example, if the seccomp profile is empty or not set and if the pod’s assigned SCC enforces
seccompProfiles
field to beruntime/default
, the controller sets the default type toRuntimeDefault
. - The security context constraint controller validates the pod’s security context against the matching SCC.
- The pod security admission controller validates the pod’s security context against the pod security standard assigned to the namespace.
16.2. About pod security admission synchronization
In addition to the global pod security admission control configuration, a controller applies pod security admission control warn
and audit
labels to namespaces according to the SCC permissions of the service accounts that are in a given namespace.
The controller examines ServiceAccount
object permissions to use security context constraints in each namespace. Security context constraints (SCCs) are mapped to pod security profiles based on their field values; the controller uses these translated profiles. Pod security admission warn
and audit
labels are set to the most privileged pod security profile in the namespace to prevent displaying warnings and logging audit events when pods are created.
Namespace labeling is based on consideration of namespace-local service account privileges.
Applying pods directly might use the SCC privileges of the user who runs the pod. However, user privileges are not considered during automatic labeling.
16.2.1. Pod security admission synchronization namespace exclusions
Pod security admission synchronization is permanently disabled on most system-created namespaces. Synchronization is also initially disabled on user-created openshift-*
prefixed namespaces, but you can enable synchronization on them later.
If a pod security admission label (pod-security.kubernetes.io/<mode>
) is manually modified from the automatically labeled value on a label-synchronized namespace, synchronization is disabled for that label.
If necessary, you can enable synchronization again by using one of the following methods:
- By removing the modified pod security admission label from the namespace
By setting the
security.openshift.io/scc.podSecurityLabelSync
label totrue
If you force synchronization by adding this label, then any modified pod security admission labels will be overwritten.
Permanently disabled namespaces
Namespaces that are defined as part of the cluster payload have pod security admission synchronization disabled permanently. The following namespaces are permanently disabled:
-
default
-
kube-node-lease
-
kube-system
-
kube-public
-
openshift
-
All system-created namespaces that are prefixed with
openshift-
, except foropenshift-operators
Initially disabled namespaces
By default, all namespaces that have an openshift-
prefix have pod security admission synchronization disabled initially. You can enable synchronization for user-created openshift-*
namespaces and for the openshift-operators
namespace.
You cannot enable synchronization for any system-created openshift-*
namespaces, except for openshift-operators
.
If an Operator is installed in a user-created openshift-*
namespace, synchronization is enabled automatically after a cluster service version (CSV) is created in the namespace. The synchronized label is derived from the permissions of the service accounts in the namespace.
16.3. Controlling pod security admission synchronization
You can enable or disable automatic pod security admission synchronization for most namespaces.
You cannot enable pod security admission synchronization on some system-created namespaces. For more information, see Pod security admission synchronization namespace exclusions.
Procedure
For each namespace that you want to configure, set a value for the
security.openshift.io/scc.podSecurityLabelSync
label:To disable pod security admission label synchronization in a namespace, set the value of the
security.openshift.io/scc.podSecurityLabelSync
label tofalse
.Run the following command:
$ oc label namespace <namespace> security.openshift.io/scc.podSecurityLabelSync=false
To enable pod security admission label synchronization in a namespace, set the value of the
security.openshift.io/scc.podSecurityLabelSync
label totrue
.Run the following command:
$ oc label namespace <namespace> security.openshift.io/scc.podSecurityLabelSync=true
NoteUse the
--overwrite
flag to overwrite the value if this label is already set on the namespace.
Additional resources
16.4. Configuring pod security admission for a namespace
You can configure the pod security admission settings at the namespace level. For each of the pod security admission modes on the namespace, you can set which pod security admission profile to use.
Procedure
For each pod security admission mode that you want to set on a namespace, run the following command:
$ oc label namespace <namespace> \ 1 pod-security.kubernetes.io/<mode>=<profile> \ 2 --overwrite
16.5. About pod security admission alerts
A PodSecurityViolation
alert is triggered when the Kubernetes API server reports that there is a pod denial on the audit level of the pod security admission controller. This alert persists for one day.
View the Kubernetes API server audit logs to investigate alerts that were triggered. As an example, a workload is likely to fail admission if global enforcement is set to the restricted
pod security level.
For assistance in identifying pod security admission violation audit events, see Audit annotations in the Kubernetes documentation.
16.5.1. Identifying pod security violations
The PodSecurityViolation
alert does not provide details on which workloads are causing pod security violations. You can identify the affected workloads by reviewing the Kubernetes API server audit logs. This procedure uses the must-gather
tool to gather the audit logs and then searches for the pod-security.kubernetes.io/audit-violations
annotation.
Prerequisites
-
You have installed
jq
. -
You have access to the cluster as a user with the
cluster-admin
role.
Procedure
To gather the audit logs, enter the following command:
$ oc adm must-gather -- /usr/bin/gather_audit_logs
To output the affected workload details, enter the following command:
$ zgrep -h pod-security.kubernetes.io/audit-violations must-gather.local.<archive_id>/<image_digest_id>/audit_logs/kube-apiserver/*log.gz \ | jq -r 'select((.annotations["pod-security.kubernetes.io/audit-violations"] != null) and (.objectRef.resource=="pods")) | .objectRef.namespace + " " + .objectRef.name' \ | sort | uniq -c
Replace
<archive_id>
and<image_digest_id>
with the actual path names.Example output
1 test-namespace my-pod