Chapter 7. Security Profiles Operator
7.1. Security Profiles Operator overview
OpenShift Container Platform Security Profiles Operator (SPO) provides a way to define secure computing (seccomp) profiles and SELinux profiles as custom resources, synchronizing profiles to every node in a given namespace. For the latest updates, see the release notes.
The SPO can distribute custom resources to each node while a reconciliation loop ensures that the profiles stay up-to-date. See Understanding the Security Profiles Operator.
The SPO manages SELinux policies and seccomp profiles for namespaced workloads. For more information, see Enabling the Security Profiles Operator.
You can create seccomp and SELinux profiles, bind policies to pods, record workloads, and synchronize all worker nodes in a namespace.
Use Advanced Security Profile Operator tasks to enable the log enricher, configure webhooks and metrics, or restrict profiles to a single namespace.
Troubleshoot the Security Profiles Operator as needed, or engage Red Hat support.
You can Uninstall the Security Profiles Operator by removing the profiles before removing the Operator.
7.2. Security Profiles Operator release notes
The Security Profiles Operator provides a way to define secure computing (seccomp) and SELinux profiles as custom resources, synchronizing profiles to every node in a given namespace.
These release notes track the development of the Security Profiles Operator in OpenShift Container Platform.
For an overview of the Security Profiles Operator, see xref:[Security Profiles Operator Overview].
7.2.1. Security Profiles Operator 0.8.6
The following advisory is available for the Security Profiles Operator 0.8.6:
This update includes upgraded dependencies in underlying base images.
7.2.2. Security Profiles Operator 0.8.5
The following advisory is available for the Security Profiles Operator 0.8.5:
7.2.2.1. Bug fixes
- When attempting to install the Security Profile Operator from the web console, the option to enable Operator-recommended cluster monitoring was unavailable for the namespace. With this update, you can now enabled Operator-recommend cluster monitoring in the namespace. (OCPBUGS-37794)
- Previously, the Security Profiles Operator would intermittently be not visible in the OperatorHub, which caused limited access to install the Operator via the web console. With this update, the Security Profiles Operator is present in the OperatorHub.
7.2.3. Security Profiles Operator 0.8.4
The following advisory is available for the Security Profiles Operator 0.8.4:
This update addresses CVEs in underlying dependencies.
7.2.3.1. New features and enhancements
-
You can now specify a default security profile in the
image
attribute of aProfileBinding
object by setting a wildcard. For more information, see Binding workloads to profiles with ProfileBindings (SELinux) and Binding workloads to profiles with ProfileBindings (Seccomp).
7.2.4. Security Profiles Operator 0.8.2
The following advisory is available for the Security Profiles Operator 0.8.2:
7.2.4.1. Bug fixes
-
Previously,
SELinuxProfile
objects did not inherit custom attributes from the same namespace. With this update, the issue has now been resolved andSELinuxProfile
object attributes are inherited from the same namespace as expected. (OCPBUGS-17164) -
Previously, RawSELinuxProfiles would hang during the creation process and would not reach an
Installed
state. With this update, the issue has been resolved and RawSELinuxProfiles are created successfully. (OCPBUGS-19744) -
Previously, patching the
enableLogEnricher
totrue
would cause theseccompProfile
log-enricher-trace
pods to be stuck in aPending
state. With this update,log-enricher-trace
pods reach anInstalled
state as expected. (OCPBUGS-22182) Previously, the Security Profiles Operator generated high cardinality metrics, causing Prometheus pods using high amounts of memory. With this update, the following metrics will no longer apply in the Security Profiles Operator namespace:
-
rest_client_request_duration_seconds
-
rest_client_request_size_bytes
rest_client_response_size_bytes
-
7.2.5. Security Profiles Operator 0.8.0
The following advisory is available for the Security Profiles Operator 0.8.0:
7.2.5.1. Bug fixes
- Previously, while trying to install Security Profiles Operator in a disconnected cluster, the secure hashes provided were incorrect due to a SHA relabeling issue. With this update, the SHAs provided work consistently with disconnected environments. (OCPBUGS-14404)
7.2.6. Security Profiles Operator 0.7.1
The following advisory is available for the Security Profiles Operator 0.7.1:
7.2.6.1. New features and enhancements
Security Profiles Operator (SPO) now automatically selects the appropriate
selinuxd
image for RHEL 8- and 9-based RHCOS systems.ImportantUsers that mirror images for disconnected environments must mirror both
selinuxd
images provided by the Security Profiles Operator.You can now enable memory optimization inside of an
spod
daemon. For more information, see Enabling memory optimization in the spod daemon.NoteSPO memory optimization is not enabled by default.
- The daemon resource requirements are now configurable. For more information, see Customizing daemon resource requirements.
-
The priority class name is now configurable in the
spod
configuration. For more information, see Setting a custom priority class name for the spod daemon pod.
7.2.6.2. Deprecated and removed features
-
The default
nginx-1.19.1
seccomp profile is now removed from the Security Profiles Operator deployment.
7.2.6.3. Bug fixes
- Previously, a Security Profiles Operator (SPO) SELinux policy did not inherit low-level policy definitions from the container template. If you selected another template, such as net_container, the policy would not work because it required low-level policy definitions that only existed in the container template. This issue occurred when the SPO SELinux policy attempted to translate SELinux policies from the SPO custom format to the Common Intermediate Language (CIL) format. With this update, the container template appends to any SELinux policies that require translation from SPO to CIL. Additionally, the SPO SELinux policy can inherit low-level policy definitions from any supported policy template. (OCPBUGS-12879)
Known issue
-
When uninstalling the Security Profiles Operator, the
MutatingWebhookConfiguration
object is not deleted and must be manually removed. As a workaround, delete theMutatingWebhookConfiguration
object after uninstalling the Security Profiles Operator. These steps are defined in Uninstalling the Security Profiles Operator. (OCPBUGS-4687)
7.2.7. Security Profiles Operator 0.5.2
The following advisory is available for the Security Profiles Operator 0.5.2:
This update addresses a CVE in an underlying dependency.
Known issue
-
When uninstalling the Security Profiles Operator, the
MutatingWebhookConfiguration
object is not deleted and must be manually removed. As a workaround, delete theMutatingWebhookConfiguration
object after uninstalling the Security Profiles Operator. These steps are defined in Uninstalling the Security Profiles Operator. (OCPBUGS-4687)
7.2.8. Security Profiles Operator 0.5.0
The following advisory is available for the Security Profiles Operator 0.5.0:
Known issue
-
When uninstalling the Security Profiles Operator, the
MutatingWebhookConfiguration
object is not deleted and must be manually removed. As a workaround, delete theMutatingWebhookConfiguration
object after uninstalling the Security Profiles Operator. These steps are defined in Uninstalling the Security Profiles Operator. (OCPBUGS-4687)
7.3. Security Profiles Operator support
7.3.1. Security Profiles Operator lifecycle
The Security Profiles Operator is a "Rolling Stream" Operator, meaning updates are available asynchronously of OpenShift Container Platform releases. For more information, see OpenShift Operator Life Cycles on the Red Hat Customer Portal.
7.3.2. Getting support
If you experience difficulty with a procedure described in this documentation, or with OpenShift Container Platform in general, visit the Red Hat Customer Portal.
From the Customer Portal, you can:
- Search or browse through the Red Hat Knowledgebase of articles and solutions relating to Red Hat products.
- Submit a support case to Red Hat Support.
- Access other product documentation.
To identify issues with your cluster, you can use Insights in OpenShift Cluster Manager. Insights provides details about issues and, if available, information on how to solve a problem.
If you have a suggestion for improving this documentation or have found an error, submit a Jira issue for the most relevant documentation component. Please provide specific details, such as the section name and OpenShift Container Platform version.
7.4. Understanding the Security Profiles Operator
OpenShift Container Platform administrators can use the Security Profiles Operator to define increased security measures in clusters.
The Security Profiles Operator supports only Red Hat Enterprise Linux CoreOS (RHCOS) worker nodes. Red Hat Enterprise Linux (RHEL) nodes are not supported.
7.4.1. About Security Profiles
Security profiles can increase security at the container level in your cluster.
Seccomp security profiles list the syscalls a process can make. Permissions are broader than SELinux, enabling users to restrict operations system-wide, such as write
.
SELinux security profiles provide a label-based system that restricts the access and usage of processes, applications, or files in a system. All files in an environment have labels that define permissions. SELinux profiles can define access within a given structure, such as directories.
7.5. Enabling the Security Profiles Operator
Before you can use the Security Profiles Operator, you must ensure the Operator is deployed in the cluster.
The Security Profiles Operator supports only Red Hat Enterprise Linux CoreOS (RHCOS) worker nodes. Red Hat Enterprise Linux (RHEL) nodes are not supported.
The Security Profiles Operator only supports x86_64
architecture.
7.5.1. Installing the Security Profiles Operator
Prerequisites
-
You must have
admin
privileges.
Procedure
-
In the OpenShift Container Platform web console, navigate to Operators
OperatorHub. - Search for the Security Profiles Operator, then click Install.
-
Keep the default selection of Installation mode and namespace to ensure that the Operator will be installed to the
openshift-security-profiles
namespace. - Click Install.
Verification
To confirm that the installation is successful:
-
Navigate to the Operators
Installed Operators page. -
Check that the Security Profiles Operator is installed in the
openshift-security-profiles
namespace and its status isSucceeded
.
If the Operator is not installed successfully:
-
Navigate to the Operators
Installed Operators page and inspect the Status
column for any errors or failures. -
Navigate to the Workloads
Pods page and check the logs in any pods in the openshift-security-profiles
project that are reporting issues.
7.5.2. Installing the Security Profiles Operator using the CLI
Prerequisites
-
You must have
admin
privileges.
Procedure
Define a
Namespace
object:Example
namespace-object.yaml
apiVersion: v1 kind: Namespace metadata: name: openshift-security-profiles labels: openshift.io/cluster-monitoring: "true"
Create the
Namespace
object:$ oc create -f namespace-object.yaml
Define an
OperatorGroup
object:Example
operator-group-object.yaml
apiVersion: operators.coreos.com/v1 kind: OperatorGroup metadata: name: security-profiles-operator namespace: openshift-security-profiles
Create the
OperatorGroup
object:$ oc create -f operator-group-object.yaml
Define a
Subscription
object:Example
subscription-object.yaml
apiVersion: operators.coreos.com/v1alpha1 kind: Subscription metadata: name: security-profiles-operator-sub namespace: openshift-security-profiles spec: channel: release-alpha-rhel-8 installPlanApproval: Automatic name: security-profiles-operator source: redhat-operators sourceNamespace: openshift-marketplace
Create the
Subscription
object:$ oc create -f subscription-object.yaml
If you are setting the global scheduler feature and enable defaultNodeSelector
, you must create the namespace manually and update the annotations of the openshift-security-profiles
namespace, or the namespace where the Security Profiles Operator was installed, with openshift.io/node-selector: “”
. This removes the default node selector and prevents deployment failures.
Verification
Verify the installation succeeded by inspecting the following CSV file:
$ oc get csv -n openshift-security-profiles
Verify that the Security Profiles Operator is operational by running the following command:
$ oc get deploy -n openshift-security-profiles
7.5.3. Configuring logging verbosity
The Security Profiles Operator supports the default logging verbosity of 0
and an enhanced verbosity of 1
.
Procedure
To enable enhanced logging verbosity, patch the
spod
configuration and adjust the value by running the following command:$ oc -n openshift-security-profiles patch spod \ spod --type=merge -p '{"spec":{"verbosity":1}}'
Example output
securityprofilesoperatordaemon.security-profiles-operator.x-k8s.io/spod patched
7.6. Managing seccomp profiles
Create and manage seccomp profiles and bind them to workloads.
The Security Profiles Operator supports only Red Hat Enterprise Linux CoreOS (RHCOS) worker nodes. Red Hat Enterprise Linux (RHEL) nodes are not supported.
7.6.1. Creating seccomp profiles
Use the SeccompProfile
object to create profiles.
SeccompProfile
objects can restrict syscalls within a container, limiting the access of your application.
Procedure
Create a project by running the following command:
$ oc new-project my-namespace
Create the
SeccompProfile
object:apiVersion: security-profiles-operator.x-k8s.io/v1beta1 kind: SeccompProfile metadata: namespace: my-namespace name: profile1 spec: defaultAction: SCMP_ACT_LOG
The seccomp profile will be saved in /var/lib/kubelet/seccomp/operator/<namespace>/<name>.json
.
An init
container creates the root directory of the Security Profiles Operator to run the Operator without root
group or user ID privileges. A symbolic link is created from the rootless profile storage /var/lib/openshift-security-profiles
to the default seccomp
root path inside of the kubelet root /var/lib/kubelet/seccomp/operator
.
7.6.2. Applying seccomp profiles to a pod
Create a pod to apply one of the created profiles.
Procedure
Create a pod object that defines a
securityContext
:apiVersion: v1 kind: Pod metadata: name: test-pod spec: securityContext: seccompProfile: type: Localhost localhostProfile: operator/my-namespace/profile1.json containers: - name: test-container image: quay.io/security-profiles-operator/test-nginx-unprivileged:1.21
View the profile path of the
seccompProfile.localhostProfile
attribute by running the following command:$ oc -n my-namespace get seccompprofile profile1 --output wide
Example output
NAME STATUS AGE SECCOMPPROFILE.LOCALHOSTPROFILE profile1 Installed 14s operator/my-namespace/profile1.json
View the path to the localhost profile by running the following command:
$ oc get sp profile1 --output=jsonpath='{.status.localhostProfile}'
Example output
operator/my-namespace/profile1.json
Apply the
localhostProfile
output to the patch file:spec: template: spec: securityContext: seccompProfile: type: Localhost localhostProfile: operator/my-namespace/profile1.json
Apply the profile to any other workload, such as a
Deployment
object, by running the following command:$ oc -n my-namespace patch deployment myapp --patch-file patch.yaml --type=merge
Example output
deployment.apps/myapp patched
Verification
Confirm the profile was applied correctly by running the following command:
$ oc -n my-namespace get deployment myapp --output=jsonpath='{.spec.template.spec.securityContext}' | jq .
Example output
{ "seccompProfile": { "localhostProfile": "operator/my-namespace/profile1.json", "type": "localhost" } }
7.6.2.1. Binding workloads to profiles with ProfileBindings
You can use the ProfileBinding
resource to bind a security profile to the SecurityContext
of a container.
Procedure
To bind a pod that uses a
quay.io/security-profiles-operator/test-nginx-unprivileged:1.21
image to the exampleSeccompProfile
profile, create aProfileBinding
object in the same namespace with the pod and theSeccompProfile
objects:apiVersion: security-profiles-operator.x-k8s.io/v1alpha1 kind: ProfileBinding metadata: namespace: my-namespace name: nginx-binding spec: profileRef: kind: SeccompProfile 1 name: profile 2 image: quay.io/security-profiles-operator/test-nginx-unprivileged:1.21 3
ImportantUsing the
image: "*"
wildcard attribute binds all new pods with a default security profile in a given namespace.Label the namespace with
enable-binding=true
by running the following command:$ oc label ns my-namespace spo.x-k8s.io/enable-binding=true
Define a pod named
test-pod.yaml
:apiVersion: v1 kind: Pod metadata: name: test-pod spec: containers: - name: test-container image: quay.io/security-profiles-operator/test-nginx-unprivileged:1.21
Create the pod:
$ oc create -f test-pod.yaml
NoteIf the pod already exists, you must re-create the pod for the binding to work properly.
Verification
Confirm the pod inherits the
ProfileBinding
by running the following command:$ oc get pod test-pod -o jsonpath='{.spec.containers[*].securityContext.seccompProfile}'
Example output
{"localhostProfile":"operator/my-namespace/profile.json","type":"Localhost"}
7.6.3. Recording profiles from workloads
The Security Profiles Operator can record system calls with ProfileRecording
objects, making it easier to create baseline profiles for applications.
When using the log enricher for recording seccomp profiles, verify the log enricher feature is enabled. See Additional resources for more information.
A container with privileged: true
security context restraints prevents log-based recording. Privileged containers are not subject to seccomp policies, and log-based recording makes use of a special seccomp profile to record events.
Procedure
Create a project by running the following command:
$ oc new-project my-namespace
Label the namespace with
enable-recording=true
by running the following command:$ oc label ns my-namespace spo.x-k8s.io/enable-recording=true
Create a
ProfileRecording
object containing arecorder: logs
variable:apiVersion: security-profiles-operator.x-k8s.io/v1alpha1 kind: ProfileRecording metadata: namespace: my-namespace name: test-recording spec: kind: SeccompProfile recorder: logs podSelector: matchLabels: app: my-app
Create a workload to record:
apiVersion: v1 kind: Pod metadata: namespace: my-namespace name: my-pod labels: app: my-app spec: containers: - name: nginx image: quay.io/security-profiles-operator/test-nginx-unprivileged:1.21 ports: - containerPort: 8080 - name: redis image: quay.io/security-profiles-operator/redis:6.2.1
Confirm the pod is in a
Running
state by entering the following command:$ oc -n my-namespace get pods
Example output
NAME READY STATUS RESTARTS AGE my-pod 2/2 Running 0 18s
Confirm the enricher indicates that it receives audit logs for those containers:
$ oc -n openshift-security-profiles logs --since=1m --selector name=spod -c log-enricher
Example output
I0523 14:19:08.747313 430694 enricher.go:445] log-enricher "msg"="audit" "container"="redis" "executable"="/usr/local/bin/redis-server" "namespace"="my-namespace" "node"="xiyuan-23-5g2q9-worker-eastus2-6rpgf" "pid"=656802 "pod"="my-pod" "syscallID"=0 "syscallName"="read" "timestamp"="1684851548.745:207179" "type"="seccomp"
Verification
Remove the pod:
$ oc -n my-namepace delete pod my-pod
Confirm the Security Profiles Operator reconciles the two seccomp profiles:
$ oc get seccompprofiles -lspo.x-k8s.io/recording-id=test-recording -n my-namespace
Example output for seccompprofile
NAME STATUS AGE test-recording-nginx Installed 2m48s test-recording-redis Installed 2m48s
7.6.3.1. Merging per-container profile instances
By default, each container instance records into a separate profile. The Security Profiles Operator can merge the per-container profiles into a single profile. Merging profiles is useful when deploying applications using ReplicaSet
or Deployment
objects.
Procedure
Edit a
ProfileRecording
object to include amergeStrategy: containers
variable:apiVersion: security-profiles-operator.x-k8s.io/v1alpha1 kind: ProfileRecording metadata: # The name of the Recording is the same as the resulting SeccompProfile CRD # after reconciliation. name: test-recording namespace: my-namespace spec: kind: SeccompProfile recorder: logs mergeStrategy: containers podSelector: matchLabels: app: sp-record
Label the namespace by running the following command:
$ oc label ns my-namespace security.openshift.io/scc.podSecurityLabelSync=false pod-security.kubernetes.io/enforce=privileged pod-security.kubernetes.io/audit=privileged pod-security.kubernetes.io/warn=privileged --overwrite=true
Create the workload with the following YAML:
apiVersion: apps/v1 kind: Deployment metadata: name: nginx-deploy namespace: my-namespace spec: replicas: 3 selector: matchLabels: app: sp-record template: metadata: labels: app: sp-record spec: serviceAccountName: spo-record-sa containers: - name: nginx-record image: quay.io/security-profiles-operator/test-nginx-unprivileged:1.21 ports: - containerPort: 8080
To record the individual profiles, delete the deployment by running the following command:
$ oc delete deployment nginx-deploy -n my-namespace
To merge the profiles, delete the profile recording by running the following command:
$ oc delete profilerecording test-recording -n my-namespace
To start the merge operation and generate the results profile, run the following command:
$ oc get seccompprofiles -lspo.x-k8s.io/recording-id=test-recording -n my-namespace
Example output for seccompprofiles
NAME STATUS AGE test-recording-nginx-record Installed 55s
To view the permissions used by any of the containers, run the following command:
$ oc get seccompprofiles test-recording-nginx-record -o yaml
Additional resources
7.7. Managing SELinux profiles
Create and manage SELinux profiles and bind them to workloads.
The Security Profiles Operator supports only Red Hat Enterprise Linux CoreOS (RHCOS) worker nodes. Red Hat Enterprise Linux (RHEL) nodes are not supported.
7.7.1. Creating SELinux profiles
Use the SelinuxProfile
object to create profiles.
The SelinuxProfile
object has several features that allow for better security hardening and readability:
-
Restricts the profiles to inherit from to the current namespace or a system-wide profile. Because there are typically many profiles installed on the system, but only a subset should be used by cluster workloads, the inheritable system profiles are listed in the
spod
instance inspec.selinuxOptions.allowedSystemProfiles
. - Performs basic validation of the permissions, classes and labels.
-
Adds a new keyword
@self
that describes the process using the policy. This allows reusing a policy between workloads and namespaces easily, as the usage of the policy is based on the name and namespace. - Adds features for better security hardening and readability compared to writing a profile directly in the SELinux CIL language.
Procedure
Create a project by running the following command:
$ oc new-project nginx-deploy
Create a policy that can be used with a non-privileged workload by creating the following
SelinuxProfile
object:apiVersion: security-profiles-operator.x-k8s.io/v1alpha2 kind: SelinuxProfile metadata: name: nginx-secure namespace: nginx-deploy spec: allow: '@self': tcp_socket: - listen http_cache_port_t: tcp_socket: - name_bind node_t: tcp_socket: - node_bind inherit: - kind: System name: container
Wait for
selinuxd
to install the policy by running the following command:$ oc wait --for=condition=ready -n nginx-deploy selinuxprofile nginx-secure
Example output
selinuxprofile.security-profiles-operator.x-k8s.io/nginx-secure condition met
The policies are placed into an
emptyDir
in the container owned by the Security Profiles Operator. The policies are saved in Common Intermediate Language (CIL) format in/etc/selinux.d/<name>_<namespace>.cil
.Access the pod by running the following command:
$ oc -n openshift-security-profiles rsh -c selinuxd ds/spod
Verification
View the file contents with
cat
by running the following command:$ cat /etc/selinux.d/nginx-secure_nginx-deploy.cil
Example output
(block nginx-secure_nginx-deploy (blockinherit container) (allow process nginx-secure_nginx-deploy.process ( tcp_socket ( listen ))) (allow process http_cache_port_t ( tcp_socket ( name_bind ))) (allow process node_t ( tcp_socket ( node_bind ))) )
Verify that a policy has been installed by running the following command:
$ semodule -l | grep nginx-secure
Example output
nginx-secure_nginx-deploy
7.7.2. Applying SELinux profiles to a pod
Create a pod to apply one of the created profiles.
For SELinux profiles, the namespace must be labelled to allow privileged workloads.
Procedure
Apply the
scc.podSecurityLabelSync=false
label to thenginx-deploy
namespace by running the following command:$ oc label ns nginx-deploy security.openshift.io/scc.podSecurityLabelSync=false
Apply the
privileged
label to thenginx-deploy
namespace by running the following command:$ oc label ns nginx-deploy --overwrite=true pod-security.kubernetes.io/enforce=privileged
Obtain the SELinux profile usage string by running the following command:
$ oc get selinuxprofile.security-profiles-operator.x-k8s.io/nginx-secure -n nginx-deploy -ojsonpath='{.status.usage}'
Example output
nginx-secure_nginx-deploy.process
Apply the output string in the workload manifest in the
.spec.containers[].securityContext.seLinuxOptions
attribute:apiVersion: v1 kind: Pod metadata: name: nginx-secure namespace: nginx-deploy spec: containers: - image: nginxinc/nginx-unprivileged:1.21 name: nginx securityContext: seLinuxOptions: # NOTE: This uses an appropriate SELinux type type: nginx-secure_nginx-deploy.process
ImportantThe SELinux
type
must exist before creating the workload.
7.7.2.1. Applying SELinux log policies
To log policy violations or AVC denials, set the SElinuxProfile
profile to permissive
.
This procedure defines logging policies. It does not set enforcement policies.
Procedure
Add
permissive: true
to anSElinuxProfile
:apiVersion: security-profiles-operator.x-k8s.io/v1alpha2 kind: SelinuxProfile metadata: name: nginx-secure namespace: nginx-deploy spec: permissive: true
7.7.2.2. Binding workloads to profiles with ProfileBindings
You can use the ProfileBinding
resource to bind a security profile to the SecurityContext
of a container.
Procedure
To bind a pod that uses a
quay.io/security-profiles-operator/test-nginx-unprivileged:1.21
image to the exampleSelinuxProfile
profile, create aProfileBinding
object in the same namespace with the pod and theSelinuxProfile
objects:apiVersion: security-profiles-operator.x-k8s.io/v1alpha1 kind: ProfileBinding metadata: namespace: my-namespace name: nginx-binding spec: profileRef: kind: SelinuxProfile 1 name: profile 2 image: quay.io/security-profiles-operator/test-nginx-unprivileged:1.21 3
ImportantUsing the
image: "*"
wildcard attribute binds all new pods with a default security profile in a given namespace.Label the namespace with
enable-binding=true
by running the following command:$ oc label ns my-namespace spo.x-k8s.io/enable-binding=true
Define a pod named
test-pod.yaml
:apiVersion: v1 kind: Pod metadata: name: test-pod spec: containers: - name: test-container image: quay.io/security-profiles-operator/test-nginx-unprivileged:1.21
Create the pod:
$ oc create -f test-pod.yaml
NoteIf the pod already exists, you must re-create the pod for the binding to work properly.
Verification
Confirm the pod inherits the
ProfileBinding
by running the following command:$ oc get pod test-pod -o jsonpath='{.spec.containers[*].securityContext.seLinuxOptions.type}'
Example output
profile_nginx-binding.process
7.7.2.3. Replicating controllers and SecurityContextConstraints
When you deploy SELinux policies for replicating controllers, such as deployments or daemon sets, note that the Pod
objects spawned by the controllers are not running with the identity of the user who creates the workload. Unless a ServiceAccount
is selected, the pods might revert to using a restricted SecurityContextConstraints
(SCC) which does not allow use of custom security policies.
Procedure
Create a project by running the following command:
$ oc new-project nginx-secure
Create the following
RoleBinding
object to allow SELinux policies to be used in thenginx-secure
namespace:kind: RoleBinding apiVersion: rbac.authorization.k8s.io/v1 metadata: name: spo-nginx namespace: nginx-secure subjects: - kind: ServiceAccount name: spo-deploy-test roleRef: kind: Role name: spo-nginx apiGroup: rbac.authorization.k8s.io
Create the
Role
object:apiVersion: rbac.authorization.k8s.io/v1 kind: Role metadata: creationTimestamp: null name: spo-nginx namespace: nginx-secure rules: - apiGroups: - security.openshift.io resources: - securitycontextconstraints resourceNames: - privileged verbs: - use
Create the
ServiceAccount
object:apiVersion: v1 kind: ServiceAccount metadata: creationTimestamp: null name: spo-deploy-test namespace: nginx-secure
Create the
Deployment
object:apiVersion: apps/v1 kind: Deployment metadata: name: selinux-test namespace: nginx-secure metadata: labels: app: selinux-test spec: replicas: 3 selector: matchLabels: app: selinux-test template: metadata: labels: app: selinux-test spec: serviceAccountName: spo-deploy-test securityContext: seLinuxOptions: type: nginx-secure_nginx-secure.process 1 containers: - name: nginx-unpriv image: quay.io/security-profiles-operator/test-nginx-unprivileged:1.21 ports: - containerPort: 8080
- 1
- The
.seLinuxOptions.type
must exist before the Deployment is created.
NoteThe SELinux type is not specified in the workload and is handled by the SCC. When the pods are created by the deployment and the
ReplicaSet
, the pods will run with the appropriate profile.
Ensure that your SCC is usable by only the correct service account. Refer to Additional resources for more information.
7.7.3. Recording profiles from workloads
The Security Profiles Operator can record system calls with ProfileRecording
objects, making it easier to create baseline profiles for applications.
When using the log enricher for recording SELinux profiles, verify the log enricher feature is enabled. See Additional resources for more information.
A container with privileged: true
security context restraints prevents log-based recording. Privileged containers are not subject to SELinux policies, and log-based recording makes use of a special SELinux profile to record events.
Procedure
Create a project by running the following command:
$ oc new-project my-namespace
Label the namespace with
enable-recording=true
by running the following command:$ oc label ns my-namespace spo.x-k8s.io/enable-recording=true
Create a
ProfileRecording
object containing arecorder: logs
variable:apiVersion: security-profiles-operator.x-k8s.io/v1alpha1 kind: ProfileRecording metadata: namespace: my-namespace name: test-recording spec: kind: SelinuxProfile recorder: logs podSelector: matchLabels: app: my-app
Create a workload to record:
apiVersion: v1 kind: Pod metadata: namespace: my-namespace name: my-pod labels: app: my-app spec: containers: - name: nginx image: quay.io/security-profiles-operator/test-nginx-unprivileged:1.21 ports: - containerPort: 8080 - name: redis image: quay.io/security-profiles-operator/redis:6.2.1
Confirm the pod is in a
Running
state by entering the following command:$ oc -n my-namespace get pods
Example output
NAME READY STATUS RESTARTS AGE my-pod 2/2 Running 0 18s
Confirm the enricher indicates that it receives audit logs for those containers:
$ oc -n openshift-security-profiles logs --since=1m --selector name=spod -c log-enricher
Example output
I0517 13:55:36.383187 348295 enricher.go:376] log-enricher "msg"="audit" "container"="redis" "namespace"="my-namespace" "node"="ip-10-0-189-53.us-east-2.compute.internal" "perm"="name_bind" "pod"="my-pod" "profile"="test-recording_redis_6kmrb_1684331729" "scontext"="system_u:system_r:selinuxrecording.process:s0:c4,c27" "tclass"="tcp_socket" "tcontext"="system_u:object_r:redis_port_t:s0" "timestamp"="1684331735.105:273965" "type"="selinux"
Verification
Remove the pod:
$ oc -n my-namepace delete pod my-pod
Confirm the Security Profiles Operator reconciles the two SELinux profiles:
$ oc get selinuxprofiles -lspo.x-k8s.io/recording-id=test-recording -n my-namespace
Example output for selinuxprofile
NAME USAGE STATE test-recording-nginx test-recording-nginx_my-namespace.process Installed test-recording-redis test-recording-redis_my-namespace.process Installed
7.7.3.1. Merging per-container profile instances
By default, each container instance records into a separate profile. The Security Profiles Operator can merge the per-container profiles into a single profile. Merging profiles is useful when deploying applications using ReplicaSet
or Deployment
objects.
Procedure
Edit a
ProfileRecording
object to include amergeStrategy: containers
variable:apiVersion: security-profiles-operator.x-k8s.io/v1alpha1 kind: ProfileRecording metadata: # The name of the Recording is the same as the resulting SelinuxProfile CRD # after reconciliation. name: test-recording namespace: my-namespace spec: kind: SelinuxProfile recorder: logs mergeStrategy: containers podSelector: matchLabels: app: sp-record
Label the namespace by running the following command:
$ oc label ns my-namespace security.openshift.io/scc.podSecurityLabelSync=false pod-security.kubernetes.io/enforce=privileged pod-security.kubernetes.io/audit=privileged pod-security.kubernetes.io/warn=privileged --overwrite=true
Create the workload with the following YAML:
apiVersion: apps/v1 kind: Deployment metadata: name: nginx-deploy namespace: my-namespace spec: replicas: 3 selector: matchLabels: app: sp-record template: metadata: labels: app: sp-record spec: serviceAccountName: spo-record-sa containers: - name: nginx-record image: quay.io/security-profiles-operator/test-nginx-unprivileged:1.21 ports: - containerPort: 8080
To record the individual profiles, delete the deployment by running the following command:
$ oc delete deployment nginx-deploy -n my-namespace
To merge the profiles, delete the profile recording by running the following command:
$ oc delete profilerecording test-recording -n my-namespace
To start the merge operation and generate the results profile, run the following command:
$ oc get selinuxprofiles -lspo.x-k8s.io/recording-id=test-recording -n my-namespace
Example output for selinuxprofiles
NAME USAGE STATE test-recording-nginx-record test-recording-nginx-record_my-namespace.process Installed
To view the permissions used by any of the containers, run the following command:
$ oc get selinuxprofiles test-recording-nginx-record -o yaml
7.7.3.2. About seLinuxContext: RunAsAny
Recording of SELinux policies is implemented with a webhook that injects a special SELinux type to the pods being recorded. The SELinux type makes the pod run in permissive
mode, logging all the AVC denials into audit.log
. By default, a workload is not allowed to run with a custom SELinux policy, but uses an auto-generated type.
To record a workload, the workload must use a service account that has permissions to use an SCC that allows the webhook to inject the permissive SELinux type. The privileged
SCC contains seLinuxContext: RunAsAny
.
In addition, the namespace must be labeled with pod-security.kubernetes.io/enforce: privileged
if your cluster enables the Pod Security Admission because only the privileged
Pod Security Standard allows using a custom SELinux policy.
Additional resources
7.8. Advanced Security Profiles Operator tasks
Use advanced tasks to enable metrics, configure webhooks, or restrict syscalls.
7.8.1. Restrict the allowed syscalls in seccomp profiles
The Security Profiles Operator does not restrict syscalls
in seccomp
profiles by default. You can define the list of allowed syscalls
in the spod
configuration.
Procedure
To define the list of
allowedSyscalls
, adjust thespec
parameter by running the following command:$ oc -n openshift-security-profiles patch spod spod --type merge \ -p '{"spec":{"allowedSyscalls": ["exit", "exit_group", "futex", "nanosleep"]}}'
The Operator will install only the seccomp
profiles, which have a subset of syscalls
defined into the allowed list. All profiles not complying with this ruleset are rejected.
When the list of allowed syscalls
is modified in the spod
configuration, the Operator will identify the already installed profiles which are non-compliant and remove them automatically.
7.8.2. Base syscalls for a container runtime
You can use the baseProfileName
attribute to establish the minimum required syscalls
for a given runtime to start a container.
Procedure
Edit the
SeccompProfile
kind object and addbaseProfileName: runc-v1.0.0
to thespec
field:apiVersion: security-profiles-operator.x-k8s.io/v1beta1 kind: SeccompProfile metadata: namespace: my-namespace name: example-name spec: defaultAction: SCMP_ACT_ERRNO baseProfileName: runc-v1.0.0 syscalls: - action: SCMP_ACT_ALLOW names: - exit_group
7.8.3. Enabling memory optimization in the spod daemon
The controller running inside of spod
daemon process watches all pods available in the cluster when profile recording is enabled. This can lead to very high memory usage in large clusters, resulting in the spod
daemon running out of memory or crashing.
To prevent crashes, the spod
daemon can be configured to only load the pods labeled for profile recording into the cache memory.
+
SPO memory optimization is not enabled by default.
Procedure
Enable memory optimization by running the following command:
$ oc -n openshift-security-profiles patch spod spod --type=merge -p '{"spec":{"enableMemoryOptimization":true}}'
To record a security profile for a pod, the pod must be labeled with
spo.x-k8s.io/enable-recording: "true"
:apiVersion: v1 kind: Pod metadata: name: my-recording-pod labels: spo.x-k8s.io/enable-recording: "true"
7.8.4. Customizing daemon resource requirements
The default resource requirements of the daemon container can be adjusted by using the field daemonResourceRequirements
from the spod
configuration.
Procedure
To specify the memory and cpu requests and limits of the daemon container, run the following command:
$ oc -n openshift-security-profiles patch spod spod --type merge -p \ '{"spec":{"daemonResourceRequirements": { \ "requests": {"memory": "256Mi", "cpu": "250m"}, \ "limits": {"memory": "512Mi", "cpu": "500m"}}}}'
7.8.5. Setting a custom priority class name for the spod daemon pod
The default priority class name of the spod
daemon pod is set to system-node-critical
. A custom priority class name can be configured in the spod
configuration by setting a value in the priorityClassName
field.
Procedure
Configure the priority class name by running the following command:
$ oc -n openshift-security-profiles patch spod spod --type=merge -p '{"spec":{"priorityClassName":"my-priority-class"}}'
Example output
securityprofilesoperatordaemon.openshift-security-profiles.x-k8s.io/spod patched
7.8.6. Using metrics
The openshift-security-profiles
namespace provides metrics endpoints, which are secured by the kube-rbac-proxy container. All metrics are exposed by the metrics
service within the openshift-security-profiles
namespace.
The Security Profiles Operator includes a cluster role and corresponding binding spo-metrics-client
to retrieve the metrics from within the cluster. There are two metrics paths available:
-
metrics.openshift-security-profiles/metrics
: for controller runtime metrics -
metrics.openshift-security-profiles/metrics-spod
: for the Operator daemon metrics
Procedure
To view the status of the metrics service, run the following command:
$ oc get svc/metrics -n openshift-security-profiles
Example output
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE metrics ClusterIP 10.0.0.228 <none> 443/TCP 43s
To retrieve the metrics, query the service endpoint using the default
ServiceAccount
token in theopenshift-security-profiles
namespace by running the following command:$ oc run --rm -i --restart=Never --image=registry.fedoraproject.org/fedora-minimal:latest \ -n openshift-security-profiles metrics-test -- bash -c \ 'curl -ks -H "Authorization: Bearer $(cat /var/run/secrets/kubernetes.io/serviceaccount/token)" https://metrics.openshift-security-profiles/metrics-spod'
Example output
# HELP security_profiles_operator_seccomp_profile_total Counter about seccomp profile operations. # TYPE security_profiles_operator_seccomp_profile_total counter security_profiles_operator_seccomp_profile_total{operation="delete"} 1 security_profiles_operator_seccomp_profile_total{operation="update"} 2
To retrieve metrics from a different namespace, link the
ServiceAccount
to thespo-metrics-client
ClusterRoleBinding
by running the following command:$ oc get clusterrolebinding spo-metrics-client -o wide
Example output
NAME ROLE AGE USERS GROUPS SERVICEACCOUNTS spo-metrics-client ClusterRole/spo-metrics-client 35m openshift-security-profiles/default
7.8.6.1. controller-runtime metrics
The controller-runtime metrics
and the DaemonSet endpoint metrics-spod
provide a set of default metrics. Additional metrics are provided by the daemon, which are always prefixed with security_profiles_operator_
.
Metric key | Possible labels | Type | Purpose |
---|---|---|---|
|
| Counter | Amount of seccomp profile operations. |
|
| Counter | Amount of seccomp profile audit operations. Requires the log enricher to be enabled. |
|
| Counter | Amount of seccomp profile bpf operations. Requires the bpf recorder to be enabled. |
|
| Counter | Amount of seccomp profile errors. |
|
| Counter | Amount of SELinux profile operations. |
|
| Counter | Amount of SELinux profile audit operations. Requires the log enricher to be enabled. |
|
| Counter | Amount of SELinux profile errors. |
7.8.7. Using the log enricher
The Security Profiles Operator contains a log enrichment feature, which is disabled by default. The log enricher container runs with privileged
permissions to read the audit logs from the local node. The log enricher runs within the host PID namespace, hostPID
.
The log enricher must have permissions to read the host processes.
Procedure
Patch the
spod
configuration to enable the log enricher by running the following command:$ oc -n openshift-security-profiles patch spod spod \ --type=merge -p '{"spec":{"enableLogEnricher":true}}'
Example output
securityprofilesoperatordaemon.security-profiles-operator.x-k8s.io/spod patched
NoteThe Security Profiles Operator will re-deploy the
spod
daemon set automatically.View the audit logs by running the following command:
$ oc -n openshift-security-profiles logs -f ds/spod log-enricher
Example output
I0623 12:51:04.257814 1854764 deleg.go:130] setup "msg"="starting component: log-enricher" "buildDate"="1980-01-01T00:00:00Z" "compiler"="gc" "gitCommit"="unknown" "gitTreeState"="clean" "goVersion"="go1.16.2" "platform"="linux/amd64" "version"="0.4.0-dev" I0623 12:51:04.257890 1854764 enricher.go:44] log-enricher "msg"="Starting log-enricher on node: 127.0.0.1" I0623 12:51:04.257898 1854764 enricher.go:46] log-enricher "msg"="Connecting to local GRPC server" I0623 12:51:04.258061 1854764 enricher.go:69] log-enricher "msg"="Reading from file /var/log/audit/audit.log" 2021/06/23 12:51:04 Seeked /var/log/audit/audit.log - &{Offset:0 Whence:2}
7.8.7.1. Using the log enricher to trace an application
You can use the Security Profiles Operator log enricher to trace an application.
Procedure
To trace an application, create a
SeccompProfile
logging profile:apiVersion: security-profiles-operator.x-k8s.io/v1beta1 kind: SeccompProfile metadata: name: log namespace: default spec: defaultAction: SCMP_ACT_LOG
Create a pod object to use the profile:
apiVersion: v1 kind: Pod metadata: name: log-pod spec: securityContext: seccompProfile: type: Localhost localhostProfile: operator/default/log.json containers: - name: log-container image: quay.io/security-profiles-operator/test-nginx-unprivileged:1.21
Examine the log enricher output by running the following command:
$ oc -n openshift-security-profiles logs -f ds/spod log-enricher
Example 7.1. Example output
… I0623 12:59:11.479869 1854764 enricher.go:111] log-enricher "msg"="audit" "container"="log-container" "executable"="/" "namespace"="default" "node"="127.0.0.1" "pid"=1905792 "pod"="log-pod" "syscallID"=3 "syscallName"="close" "timestamp"="1624453150.205:1061" "type"="seccomp" I0623 12:59:11.487323 1854764 enricher.go:111] log-enricher "msg"="audit" "container"="log-container" "executable"="/" "namespace"="default" "node"="127.0.0.1" "pid"=1905792 "pod"="log-pod" "syscallID"=157 "syscallName"="prctl" "timestamp"="1624453150.205:1062" "type"="seccomp" I0623 12:59:11.492157 1854764 enricher.go:111] log-enricher "msg"="audit" "container"="log-container" "executable"="/" "namespace"="default" "node"="127.0.0.1" "pid"=1905792 "pod"="log-pod" "syscallID"=157 "syscallName"="prctl" "timestamp"="1624453150.205:1063" "type"="seccomp" … I0623 12:59:20.258523 1854764 enricher.go:111] log-enricher "msg"="audit" "container"="log-container" "executable"="/usr/sbin/nginx" "namespace"="default" "node"="127.0.0.1" "pid"=1905792 "pod"="log-pod" "syscallID"=12 "syscallName"="brk" "timestamp"="1624453150.235:2873" "type"="seccomp" I0623 12:59:20.263349 1854764 enricher.go:111] log-enricher "msg"="audit" "container"="log-container" "executable"="/usr/sbin/nginx" "namespace"="default" "node"="127.0.0.1" "pid"=1905792 "pod"="log-pod" "syscallID"=21 "syscallName"="access" "timestamp"="1624453150.235:2874" "type"="seccomp" I0623 12:59:20.354091 1854764 enricher.go:111] log-enricher "msg"="audit" "container"="log-container" "executable"="/usr/sbin/nginx" "namespace"="default" "node"="127.0.0.1" "pid"=1905792 "pod"="log-pod" "syscallID"=257 "syscallName"="openat" "timestamp"="1624453150.235:2875" "type"="seccomp" I0623 12:59:20.358844 1854764 enricher.go:111] log-enricher "msg"="audit" "container"="log-container" "executable"="/usr/sbin/nginx" "namespace"="default" "node"="127.0.0.1" "pid"=1905792 "pod"="log-pod" "syscallID"=5 "syscallName"="fstat" "timestamp"="1624453150.235:2876" "type"="seccomp" I0623 12:59:20.363510 1854764 enricher.go:111] log-enricher "msg"="audit" "container"="log-container" "executable"="/usr/sbin/nginx" "namespace"="default" "node"="127.0.0.1" "pid"=1905792 "pod"="log-pod" "syscallID"=9 "syscallName"="mmap" "timestamp"="1624453150.235:2877" "type"="seccomp" I0623 12:59:20.454127 1854764 enricher.go:111] log-enricher "msg"="audit" "container"="log-container" "executable"="/usr/sbin/nginx" "namespace"="default" "node"="127.0.0.1" "pid"=1905792 "pod"="log-pod" "syscallID"=3 "syscallName"="close" "timestamp"="1624453150.235:2878" "type"="seccomp" I0623 12:59:20.458654 1854764 enricher.go:111] log-enricher "msg"="audit" "container"="log-container" "executable"="/usr/sbin/nginx" "namespace"="default" "node"="127.0.0.1" "pid"=1905792 "pod"="log-pod" "syscallID"=257 "syscallName"="openat" "timestamp"="1624453150.235:2879" "type"="seccomp" …
7.8.8. Configuring webhooks
Profile binding and profile recording objects can use webhooks. Profile binding and recording object configurations are MutatingWebhookConfiguration
CRs, managed by the Security Profiles Operator.
To change the webhook configuration, the spod
CR exposes a webhookOptions
field that allows modification of the failurePolicy
, namespaceSelector
, and objectSelector
variables. This allows you to set the webhooks to "soft-fail" or restrict them to a subset of a namespaces so that even if the webhooks failed, other namespaces or resources are not affected.
Procedure
Set the
recording.spo.io
webhook configuration to record only pods labeled withspo-record=true
by creating the following patch file:spec: webhookOptions: - name: recording.spo.io objectSelector: matchExpressions: - key: spo-record operator: In values: - "true"
Patch the
spod/spod
instance by running the following command:$ oc -n openshift-security-profiles patch spod \ spod -p $(cat /tmp/spod-wh.patch) --type=merge
To view the resulting
MutatingWebhookConfiguration
object, run the following command:$ oc get MutatingWebhookConfiguration \ spo-mutating-webhook-configuration -oyaml
7.9. Troubleshooting the Security Profiles Operator
Troubleshoot the Security Profiles Operator to diagnose a problem or provide information in a bug report.
7.9.1. Inspecting seccomp profiles
Corrupted seccomp
profiles can disrupt your workloads. Ensure that the user cannot abuse the system by not allowing other workloads to map any part of the path /var/lib/kubelet/seccomp/operator
.
Procedure
Confirm that the profile is reconciled by running the following command:
$ oc -n openshift-security-profiles logs openshift-security-profiles-<id>
Example 7.2. Example output
I1019 19:34:14.942464 1 main.go:90] setup "msg"="starting openshift-security-profiles" "buildDate"="2020-10-19T19:31:24Z" "compiler"="gc" "gitCommit"="a3ef0e1ea6405092268c18f240b62015c247dd9d" "gitTreeState"="dirty" "goVersion"="go1.15.1" "platform"="linux/amd64" "version"="0.2.0-dev" I1019 19:34:15.348389 1 listener.go:44] controller-runtime/metrics "msg"="metrics server is starting to listen" "addr"=":8080" I1019 19:34:15.349076 1 main.go:126] setup "msg"="starting manager" I1019 19:34:15.349449 1 internal.go:391] controller-runtime/manager "msg"="starting metrics server" "path"="/metrics" I1019 19:34:15.350201 1 controller.go:142] controller "msg"="Starting EventSource" "controller"="profile" "reconcilerGroup"="security-profiles-operator.x-k8s.io" "reconcilerKind"="SeccompProfile" "source"={"Type":{"metadata":{"creationTimestamp":null},"spec":{"defaultAction":""}}} I1019 19:34:15.450674 1 controller.go:149] controller "msg"="Starting Controller" "controller"="profile" "reconcilerGroup"="security-profiles-operator.x-k8s.io" "reconcilerKind"="SeccompProfile" I1019 19:34:15.450757 1 controller.go:176] controller "msg"="Starting workers" "controller"="profile" "reconcilerGroup"="security-profiles-operator.x-k8s.io" "reconcilerKind"="SeccompProfile" "worker count"=1 I1019 19:34:15.453102 1 profile.go:148] profile "msg"="Reconciled profile from SeccompProfile" "namespace"="openshift-security-profiles" "profile"="nginx-1.19.1" "name"="nginx-1.19.1" "resource version"="728" I1019 19:34:15.453618 1 profile.go:148] profile "msg"="Reconciled profile from SeccompProfile" "namespace"="openshift-security-profiles" "profile"="openshift-security-profiles" "name"="openshift-security-profiles" "resource version"="729"
Confirm that the
seccomp
profiles are saved into the correct path by running the following command:$ oc exec -t -n openshift-security-profiles openshift-security-profiles-<id> \ -- ls /var/lib/kubelet/seccomp/operator/my-namespace/my-workload
Example output
profile-block.json profile-complain.json
7.10. Uninstalling the Security Profiles Operator
You can remove the Security Profiles Operator from your cluster by using the OpenShift Container Platform web console.
7.10.1. Uninstall the Security Profiles Operator using the web console
To remove the Security Profiles Operator, you must first delete the seccomp
and SELinux profiles. After the profiles are removed, you can then remove the Operator and its namespace by deleting the openshift-security-profiles project.
Prerequisites
-
Access to an OpenShift Container Platform cluster that uses an account with
cluster-admin
permissions. - The Security Profiles Operator is installed.
Procedure
To remove the Security Profiles Operator by using the OpenShift Container Platform web console:
-
Navigate to the Operators
Installed Operators page. -
Delete all
seccomp
profiles, SELinux profiles, and webhook configurations. -
Switch to the Administration
Operators Installed Operators page. - Click the Options menu on the Security Profiles Operator entry and select Uninstall Operator.
-
Switch to the Home
Projects page. -
Search for
security profiles
. Click the Options menu next to the openshift-security-profiles project, and select Delete Project.
-
Confirm the deletion by typing
openshift-security-profiles
in the dialog box, and click Delete.
-
Confirm the deletion by typing
Delete the
MutatingWebhookConfiguration
object by running the following command:$ oc delete MutatingWebhookConfiguration spo-mutating-webhook-configuration