Red Hat Advanced Cluster Security for Kubernetes allows you to use out-of-the-box security policies and define custom multi-factor policies for your container environment. Configuring these policies enables you to automatically prevent high-risk service deployments in your environment and respond to runtime security incidents.
Red Hat Advanced Cluster Security for Kubernetes includes a set of default policies that provide broad coverage to identify security issues and ensure best practices for security in your environment.
To view the default policies:
On the RHACS portal, navigate to Platform Configuration → Policy Management.
The Policies view lists the default policies and includes the following parameters for each policy:
Policy: A name for the policy.
Description: A longer, more detailed description of the alert for the policy.
Status: The current status of the policy, either Enabled or Disabled.
Notifiers: The list of notifiers that are configured for the policy.
Severity: A ranking of the policy, either critical, high, medium, or low, for the amount of attention required.
Lifecycle: The phase of the container lifecycle (build, deploy, or runtime) that this policy applies to, and the phase at which enforcement applies, when the policy is enabled.
The default policies have preconfigured parameters and belong to categories such as:
Anomalous Activity
Cryptocurrency Mining
DevOps Best Practices
Kubernetes
Network Tools
Package Management
Privileges
Security Best Practices
System Modification
Vulnerability Management
You can edit these categories and create your own categories.
You cannot delete default policies or edit policy criteria for default policies. |
You can edit the policies you have created and the existing default policies provided by Red Hat Advanced Cluster Security for Kubernetes.
On the RHACS portal, navigate to Platform Configuration → Policies.
From the Policies page, select the policy you want to edit.
Select Actions → Edit policy.
Modify the Policy details. You can modify the policy name, severity, categories, description, rationale, and guidance. You can also attach notifiers to the policy by selecting from the available Notifiers under the Attach notifiers section.
Click Next.
In the Policy behavior section, select the Lifecycle stages and Event sources for the policy.
Select a Response method to address violations for the policy.
Click Next.
In the Policy criteria section, expand the categories under the Drag out policy fields section. Use the drag-and-drop policy fields to specify logical conditions for the policy criteria.
You cannot edit policy criteria for default policies. |
Click Next.
In the Policy scope section, modify Restrict by scope, Exclude by scope, and Exclude images settings.
Click Next.
In the Review policy section, preview the policy violations.
Click Save.
Beginning with version 3.74, RHACS provides a new method to create and manage policy categories in Red Hat Advanced Cluster Security Cloud Service or in RHACS if you have the PostgreSQL database enabled. All policy workflows other than policy creation remain unchanged when using this feature.
You can also configure policy categories by using the PolicyCategoryService
API object. For more information, navigate to Help → API reference in the RHACS portal.
On the RHACS portal, navigate to Platform Configuration → Policy Management.
Click the Policy categories tab. This tab provides a list of existing categories and allows you to filter the list by category name. You can also click Show all categories and select the checkbox to remove default or custom categories from the displayed list.
Click Create category.
Enter a category name and click Create.
Beginning with version 3.74, RHACS provides a new method to create and manage policy categories in Red Hat Advanced Cluster Security Cloud Service or in RHACS if you have the PostgreSQL database enabled. All policy workflows other than policy creation remain unchanged when using this feature.
You can also configure policy categories by using the PolicyCategoryService
API object. For more information, navigate to Help → API reference in the RHACS portal.
On the RHACS portal, navigate to Platform Configuration → Policy Management.
Click the Policy categories tab. This tab provides a list of existing categories and allows you to filter the list by category name. You can also click Show all categories and select the checkbox to remove default or custom categories from the displayed list.
Click a policy name to edit or delete it. Default policy categories cannot be selected, edited, or deleted.
In addition to using the default policies, you can also create custom policies in Red Hat Advanced Cluster Security for Kubernetes.
To build a new policy, you can clone an existing policy or create a new one from scratch.
You can also create policies based on the filter criteria in the Risk view in the RHACS portal.
You can also use AND
, OR
, and NOT
logical operators for policy criteria to create advanced policies.
You can create new security policies from the system policies view.
On the RHACS portal, navigate to Platform Configuration → Policy Management.
Click Create policy.
Enter the following details about your policy in the Policy details section:
Enter a Name for the policy.
Optional: Attach notifiers to the policy by selecting from the available Notifiers under the Attach notifiers section.
Before you can forward alerts, you must integrate RHACS with your notification provider, such as webhooks, Jira, PagerDuty, Splunk, or others. |
Select a Severity level for this policy, either Critical
, High
, Medium
, or Low
.
Select policy Categories you want to apply to this policy. For information about creating categories, see "Creating and managing policy categories" later in this document.
Enter details about the policy in the Description field.
Enter an explanation about why the policy exists in the Rationale field.
Enter steps to resolve violations of this policy in the Guidance field.
Optional: Under the MITRE ATT&CK section, select the tactics and the techniques you want to specify for the policy.
Click Add tactic, and then select a tactic from the drop-down list.
Click the Add technique to add techniques for the selected tactic. You can specify multiple techniques for a tactic.
Click Next.
In the Policy behavior section, take the following steps:
Select the Lifecycle stages to which your policy is applicable: Build, Deploy, or Runtime. You can select more than one stage.
Build-time policies apply to image fields such as CVEs and Dockerfile instructions.
Deploy-time policies can include all build-time policy criteria but they can also include data from your cluster configurations, such as running in privileged mode or mounting the Docker socket.
Runtime policies can include all build-time and deploy-time policy criteria but they can also include data about process executions during runtime.
Optional: If you selected the Runtime lifecycle stage, select one of the following Event sources:
Deployment: RHACS triggers policy violations when event sources include process and network activity, pod exec and pod port forwarding.
RHACS triggers policy violations when event sources match Kubernetes audit log records.
For Response method, select one of the following options:
Inform: include the violation in the violations list.
Inform and enforce: enforce actions.
Optional: If you selected Inform and enforce, in Configure enforcement behavior, select the enforcement behavior for the policy by using the toggle for each lifecycle. It is only available for the stages you select when configuring Lifecycle stages. The enforcement behavior is different for each lifecycle stage.
Build - RHACS fails your continuous integration (CI) builds when images match the criteria of the policy.
Deploy - RHACS blocks creation of deployments that match the conditions of the policy. In clusters with admission controller enforcement, the Kubernetes or OpenShift Container Platform API server blocks all noncompliant deployments. In other clusters, RHACS edits noncompliant deployments to prevent pods from being scheduled.
Runtime - RHACS deletes all pods when an event in the pods matches the criteria of the policy.
Policy enforcement can impact running applications or development processes. Before you enable enforcement options, inform all stakeholders and plan about how to respond to automated enforcement actions. |
Click Next.
In the Policy Criteria section, configure the attributes that you want to trigger the policy for.
Click and drag policy fields into the Policy Section to add criteria.
The policy fields that are available depend on the lifecycle stage you chose for the policy. For example, criteria under |
Optional: Click Add condition to add policy sections that contain additional criteria that will trigger the policy (for example, to trigger on old, stale images, you can configure that image tag
is not latest
or image age
and specify a minimum number of days since an image is built).
Click Next.
In the Policy scope section, configure the following:
Click Add inclusion scope to use Restrict by scope to enable this policy only for a specific cluster, a namespace, or a label. You can add multiple scopes and also use regular expression in RE2 Syntax for namespaces and labels.
Click Add exclusion scope to use Exclude by scope to exclude deployments, clusters, namespaces, and labels you specify. The policy will not apply to the entities that you select. You can add multiple scopes and also use regular expression in RE2 Syntax for namespaces and labels. However, you cannot use regular expression for selecting deployments.
For Excluded Images (Build Lifecycle only), select all images that you do not want to trigger a violation for.
The Excluded Images setting only applies when you check images in a continuous integration system with the Build lifecycle stage. It does not have any effect if you use this policy to check running deployments in the Deploy lifecycle stage or runtime activities in the Runtime lifecycle stage. |
Click Next.
In the Review policy section, preview the policy violations.
Click Save.
While evaluating risks in your deployments in the Risk view, when you apply local page filtering, you can create new security policies based on the filtering criteria you are using.
Navigate to the RHACS portal and select Risk from the navigation menu.
Apply local page filtering criteria that you want to create a policy for.
Select New Policy and fill in the required fields to create a new policy.
In the Policy Criteria section you can configure the data on which you want to trigger a policy.
You can configure the policy based on the attributes listed in the following table.
In this table:
The Regular expressions, AND, OR, and NOT columns indicate whether you can use regular expressions and other logical operators along with the specific attribute.
!
for Regex (Regular expressions) indicates that you can only use regular expressions for the listed fields.
!
for AND, or OR indicates that you can only use the mentioned logical operator for the attribute.
✕ in the Regex / NOT / AND, OR column indicates that the attribute does not support any of those (regex, negation, logical operators).
The RHACS version column indicates the version of Red Hat Advanced Cluster Security for Kubernetes that you must have to use the attribute.
You cannot use logical combination operators AND
and OR
for attributes that have:
Boolean values true
and false
Minimum-value semantics, for example:
Minimum RBAC permissions
Days since image was created
You cannot use the NOT
logical operator for attributes that have:
Boolean values true
and false
Numeric values that already use comparison, such as the <
, >
, <=
, >=
operators.
Compound criteria that can have multiple values, for example:
Dockerfile Line, which includes both instructions and arguments.
Environment Variable, which consists of both name and value.
Other meanings, including Add Capabilities, Drop Capabilities, Days since image was created, and Days since image was last scanned.
Attribute | Description | JSON Attribute | Allowed Values | Regex, NOT, AND, OR | Phase |
---|---|---|---|---|---|
Section: Image registry |
|||||
Image Registry |
The name of the image registry. |
Image Registry |
String |
Regex, |
Build, |
Image Name |
The full name of the image in registry, for example |
Image Remote |
String |
Regex, |
Build, |
Image Tag |
Identifier for an image. |
Image Tag |
String |
Regex, |
Build, |
Image Signature |
The list of signature integrations you can use to verify an image’s signature. Create alerts on images that either do not have a signature or their signature is not verifiable by at least one of the provided signature integrations. |
Image Signature Verified By |
A valid ID of an already configured image signature integration |
! |
Build, |
Section: Image contents |
|||||
CVE is fixable |
This criterion results in a violation only if the image in the deployment you are evaluating has a fixable CVE. |
Fixable |
Boolean |
✕ |
Build, |
Days Since CVE Was First Discovered In Image |
This criterion results in a violation only if it has been more than a specified number of days since RHACS discovered the CVE in a specific image. |
Days Since CVE Was First Discovered In Image |
Integer |
✕ |
Build, |
Days Since CVE Was First Discovered In System |
This criterion results in a violation only if it has been more than a specified number of days since RHACS discovered the CVE across all deployed images in all clusters that RHACS monitors. |
Days Since CVE Was First Discovered In System |
Integer |
✕ |
Build, |
Image age |
The minimum number of days from image creation date. |
Image Age |
Integer |
✕ |
Build, |
Image scan age |
The minimum number of days since the image was last scanned. |
Image Scan Age |
Integer |
✕ |
Build, |
Image user |
Matches the user directive in the Dockerfile. See https://docs.docker.com/engine/reference/builder/#user for details . |
Image user |
String |
Regex, |
Build, |
Dockerfile Line |
A specific line in the Dockerfile, including both instructions and arguments. |
Dockerfile Line |
One of: LABEL, RUN, CMD, EXPOSE, ENV, ADD, COPY, ENTRYPOINT, VOLUME, user, WORKDIR, ONBUILD |
! Regex only for values, |
Build, |
Image scan status |
Check if an image was scanned. |
Unscanned Image |
Boolean |
✕ |
Build, |
CVSS |
Common Vulnerability Scoring System, use it to match images with vulnerabilities whose scores are greater than |
CVSS |
<, >, <=, >= or nothing (which implies equal to) Examples: |
AND, OR |
Build, |
Severity |
The severity of the vulnerability based on the CVSS or the vendor. Can be one of Low, Moderate, Important or Critical. |
Severity |
<, >, ⇐, >= or nothing (which implies equal to) Examples: |
AND, OR |
Build, |
Fixed By |
The version string of a package that fixes a flagged vulnerability in an image. This criterion may be used in addition to other criteria that identify a vulnerability, for example using the CVE criterion. |
Fixed By |
String |
Regex, |
Build, |
CVE |
Common Vulnerabilities and Exposures, use it with specific CVE numbers. |
CVE |
String |
Regex, |
Build, |
Image Component |
Name and version number of a specific software component present in an image. |
Image Component |
key=value Value is optional. If value is missing, it must be in format "key=". |
Regex, |
Build, |
Image OS |
Name and version number of the base operating system of the image. For example, |
Image OS |
String |
Regex, |
Build, |
Require image label |
Ensure the presence of a Docker image label. The policy triggers if any image in the deployment does not have the specified label. You can use regular expressions for both key and value fields to match labels. The |
Required Image Label |
key=value Value is optional. If value is missing, it must be in format "key=". |
Regex, |
Build, |
Disallow image label |
Ensure that a particular Docker image label is NOT used. The policy triggers if any image in the deployment has the specified label. You can use regular expressions for both key and value fields to match labels. The 'Disallow Image Label policy' criteria only works when you integrate with a Docker registry. For details about Docker labels see Docker documentation, https://docs.docker.com/config/labels-custom-metadata/. |
Disallowed Image Label |
key=value Value is optional. If value is missing, it must be in format "key=". |
Regex, |
Build, |
Section: Container configuration |
|||||
Environment Variable |
Check environment variables by name or value. |
Environment Variable |
RAW=key=value to match an environment variable as directly specified in the deployment configuration with a specific key and value. If the environment variable is not directly defined in the configuration, then the format SOURCE=KEY can be used, where SOURCE is one of SECRET_KEY, CONFIG_MAP_KEY, FIELD or RESOURCE_FIELD. In this case, criteria can only match the key and not the value. |
! Regex only for key and value (if using RAW) |
Deploy, |
Container CPU Request |
Check for the number of cores reserved for a given resource. |
Container CPU Request |
<, >, ⇐, >= or nothing (which implies equal to) Examples: |
AND, OR |
Deploy, |
Container CPU Limit |
Check for the maximum number of cores a resource is allowed to use. |
Container CPU Limit |
(Same as Container CPU Request) |
AND, OR |
Deploy, |
Container Memory Request |
Check for the amount of memory reserved for a given resource. |
Container Memory Request |
(Same as Container CPU Request) |
AND, OR |
Deploy, |
Container Memory Limit |
Check for the maximum amount of memory a resource is allowed to use. |
Container Memory Limit |
(Same as Container CPU Request) |
AND, OR |
Deploy, |
Privileged container |
Privileged running deployments. |
Privileged Container |
Boolean |
✕ |
Deploy, |
Root filesystem writeability |
Containers running with the root file system configured as read only. |
Read-Only Root Filesystem |
Boolean |
✕ |
Deploy, |
Seccomp Profile Type |
The type of seccomp profile allowed for the container. |
Seccomp Profile Type |
One of: UNCONFINED |
✕ |
Deploy, |
Privilege escalation |
Provides alerts when a development is configured to allow a container process to gain more privileges than its parent process. |
Allow Privilege Escalation |
Boolean |
✕ |
Deploy, |
Drop Capabilities |
Linux capabilities that must be dropped from the container. Provides alerts when the specified capabilities are not dropped.
For example, if configured with |
Drop Capabilities |
One of: ALL |
AND |
Deploy, |
Add Capabilities |
Linux capabilities that must not be added to the container, such as the ability to send raw packets or override file permissions. Provides alerts when the specified capabilities are added. For example, if configured with |
Add Capabilities |
AUDIT_CONTROL |
OR |
Deploy, |
Container Name |
The name of the container. |
Container Name |
String |
Regex, |
Deploy, |
AppArmor Profile |
The Application Armor ("AppArmor") profile used in the container. |
AppArmor Profile |
String |
Regex, |
Deploy, |
Liveness Probe |
Whether the container defines a liveness probe. |
Liveness Probe |
Boolean |
✕ |
Deploy, |
Readiness Probe |
Whether the container defines a readiness probe. |
Readiness Probe |
Boolean |
✕ |
Deploy, |
Section: Deployment metadata |
|||||
Disallowed Annotation |
An annotation which is not allowed to be present on Kubernetes resources in a specified environment. |
Disallowed Annotation |
key=value Value is optional. If value is missing, it must be in format "key=". |
Regex, |
Deploy, |
Required Label |
Check for the presence of a required label in Kubernetes. |
Required Label |
key=value Value is optional. If value is missing, it must be in format "key=". |
Regex, |
Deploy, |
Required Annotation |
Check for the presence of a required annotation in Kubernetes. |
Required Annotation |
key=value Value is optional. If value is missing, it must be in format "key=". |
Regex, |
Deploy, |
Runtime Class |
The |
Runtime Class |
String |
Regex, |
Deploy, |
Host Network |
Check if |
Host Network |
Boolean |
✕ |
Deploy, |
Host PID |
Check if the Process ID (PID) namespace is isolated between the containers and the host. This allows for processes in different PID namespaces to have the same PID. |
Host PID |
Boolean |
✕ |
Deploy, |
Host IPC |
Check if the IPC (POSIX/SysV IPC) namespace (which provides separation of named shared memory segments, semaphores and message queues) on the host is shared with containers. |
Host IPC |
Boolean |
✕ |
Deploy, |
Namespace |
The name of the namespace the deployment belongs to. |
Namespace |
String |
Regex, |
Deploy, |
Replicas |
The number of deployment replicas. |
Replicas |
<, >, ⇐, >= or nothing (which implies equal to) Examples: |
NOT, |
Deploy, |
Section: Storage |
|||||
Volume Name |
Name of the storage. |
Volume Name |
String |
Regex, |
Deploy, |
Volume Source |
Indicates the form in which the volume is provisioned. For example, |
Volume Source |
String |
Regex, |
Deploy, |
Volume Destination |
The path where the volume is mounted. |
Volume Destination |
String |
Regex, |
Deploy, |
Volume Type |
The type of volume. |
Volume Type |
String |
Regex, |
Deploy, |
Mounted volume writability |
Volumes that are mounted as writable. |
Writable Mounted Volume |
Boolean |
✕ |
Deploy, |
Mount Propagation |
Check if container is mounting volumes in |
Mount Propagation |
One of: NONE |
NOT, |
Deploy, |
Host mount writability |
Resource has mounted a path on the host with write permissions. |
Writable Host Mount |
Boolean |
✕ |
Deploy, |
Section: Networking |
|||||
Protocol |
Protocol, such as, TCP or UDP, that is used by the exposed port. |
Exposed Port Protocol |
String |
Regex, |
Deploy, |
Port |
Port numbers exposed by a deployment. |
Exposed Port |
<, >, ⇐, >= or nothing (which implies equal to) Examples: |
NOT, |
Deploy, |
Exposed Node Port |
Port numbers exposed externally by a deployment. |
Exposed Node Port |
(Same as Exposed Port) |
NOT, |
Deploy, |
Port Exposure |
Exposure method of the service, for example, load balancer or node port. |
Port Exposure Method |
One of: UNSET |
NOT, |
Deploy, |
Unexpected Network Flow Detected |
Check if the detected network traffic is part of the network baseline for the deployment. |
Unexpected Network Flow Detected |
Boolean |
✕ |
Runtime ONLY - Network |
Ingress Network Policy |
Check the presence or absence of ingress Kubernetes network policies. |
Has Ingress Network Policy |
Boolean |
Regex, |
Deploy, |
Egress Network Policy |
Check the presence or absence of egress Kubernetes network policies. |
Has Egress Network Policy |
Boolean |
Regex, |
Deploy, |
Section: Process activity |
|||||
Process Name |
Name of the process executed in a deployment. |
Process Name |
String |
Regex, |
Runtime ONLY - Process |
Process Ancestor |
Name of any parent process for a process executed in a deployment. |
Process Ancestor |
String |
Regex, |
Runtime ONLY - Process |
Process Arguments |
Command arguments for a process executed in a deployment. |
Process Arguments |
String |
Regex, |
Runtime ONLY - Process |
Process UID |
Unix user ID for a process executed in a deployment. |
Process UID |
Integer |
NOT, |
Runtime ONLY - Process |
Unexpected Process Executed |
Check deployments for which process executions are not listed in the deployment’s locked process baseline. |
Unexpected Process Executed |
Boolean |
✕ |
Runtime ONLY - Process |
Section: Kubernetes access |
|||||
Service Account |
The name of the service account. |
Service Account |
String |
Regex, |
Deploy, |
Automount Service Account Token |
Check if the deployment configuration automatically mounts the service account token. |
Automount Service Account Token |
Boolean |
✕ |
Deploy, |
Minimum RBAC Permissions |
Match if the deployment’s Kubernetes service account has Kubernetes RBAC permission level equal to |
Minimum RBAC Permissions |
One of: DEFAULT |
NOT |
Deploy, |
Section: Kubernetes events |
|||||
Kubernetes Action |
The name of the Kubernetes action, such as |
Kubernetes Resource |
One of: PODS_EXEC |
! |
Runtime ONLY - Kubernetes Events |
Kubernetes user Name |
The name of the user who accessed the resource. |
Kubernetes user Name |
Alphanumeric with hyphens (-) and colon (:) only |
Regex, |
Runtime ONLY - Kubernetes Events |
Kubernetes user Group |
The name of the group to which the user who accessed the resource belongs to. |
Kubernetes user Groups |
Alphanumeric with hyphens (-) and colon (:) only |
Regex, |
Runtime ONLY - Kubernetes Events |
Kubernetes Resource |
The name of the accessed Kubernetes resource, such as |
Kubernetes Resource |
One of: SECRETS |
! |
Runtime ONLY - Audit Log |
Kubernetes API Verb |
The Kubernetes API verb that is used to access the resource, such as |
Kubernetes API Verb |
One of: CREATE |
! |
Runtime ONLY - Audit Log |
Kubernetes Resource Name |
The name of the accessed Kubernetes resource. |
Kubernetes Resource Name |
Alphanumeric with hyphens (-) and colon (:) only |
Regex, |
Runtime ONLY - Audit Log |
user Agent |
The user agent that the user used to access the resource.
For example |
user Agent |
String |
Regex, |
Runtime ONLY - Audit Log |
Source IP Address |
The IP address from which the user accessed the resource. |
Source IP Address |
IPV4 or IPV6 address |
Regex, |
Runtime ONLY - Audit Log |
Is Impersonated user |
Check if the request was made by a user that is impersonated by a service account or some other account. |
Is Impersonated user |
Boolean |
✕ |
Runtime ONLY - Audit Log |
You can use the drag-and-drop policy fields panel to specify logical conditions for the policy criteria.
You must be using Red Hat Advanced Cluster Security for Kubernetes version 3.0.45 or newer.
In the Policy Criteria section, select Add a new condition to add a new policy section.
You can click on the Edit icon to rename the policy section.
The Drag out a policy field section lists available policy criteria in multiple categories. You can expand and collapse these categories to view the policy criteria attributes.
Drag an attribute to the Drop a policy field inside area of the policy section.
Depending on the type of the attribute you select, you get different options to configure the conditions for the selected attribute. For example:
If you select an attribute with Boolean values Read-Only Root Filesystem
, you will see READ-ONLY
and WRITABLE
options.
If you select an attribute with compound values Environment variable
, you will see options to enter values for Key
, Value
, and Value From
fields, and an icon to add more values for the available options.
To combine multiple values for an attribute, click the Add icon.
You can also click on the logical operator AND
or OR
listed in a policy section, to toggle between AND
and OR
operators.
Toggling between operators only works inside a policy section and not between two different policy sections.
You can specify more than one AND
and OR
condition by repeating these steps.
After you configure the conditions for the added attributes, click Next to continue with the policy creation.
Beginning from Red Hat Advanced Cluster Security for Kubernetes version 3.0.44, you can share your security policies between different Central instances, by exporting and importing policies. It helps you enforce the same standards for all your clusters. To share policies, you export them as JSON files, and then import them back into another Central instance.
Currently, you cannot export multiple security policies at once by using the RHACS portal. However, you can use the API for exporting multiple security policies. On the RHACS portal, navigate to Help → API reference to see the API reference. |
When you export a policy, it includes all the policy contents and also includes cluster scopes, cluster exclusions, and all configured notifications.
On the RHACS portal, navigate to Platform Configuration → Policies.
From the Policies page, select the policy you want to edit.
Select Actions → Export policy to JSON.
You can import a security policy from the System Policies view on the RHACS portal.
On the RHACS portal, navigate to Platform Configuration → Policies.
Click Import policy.
In the Import policy JSON dialog, click Upload and select the JSON file you want to upload.
Click Begin import.
Each security policy in Red Hat Advanced Cluster Security for Kubernetes has a unique ID (UID) and a unique name. When you import a policy, Red Hat Advanced Cluster Security for Kubernetes handles the uploaded policy as follows:
If the imported policy UID and name do not match any existing policy, Red Hat Advanced Cluster Security for Kubernetes creates a new policy.
If the imported policy has the same UID as an existing policy, but a different name, you can either:
Keep both policies. Red Hat Advanced Cluster Security for Kubernetes saves the imported policy with a new UID.
Replace the existing policy with the imported policy.
If the imported policy has the same name as an existing policy, but a different UID, you can either:
Keep both policies by providing a new name for the imported policy.
Replace the existing policy with the imported policy.
If the imported policy has the same name and UID as an existing policy, the Red Hat Advanced Cluster Security for Kubernetes checks if the policy criteria match to the existing policy. If the policy criteria match, Red Hat Advanced Cluster Security for Kubernetes keeps the existing policy and shows a success message. If the policy criteria do not match, you can either:
Keep both policies by providing a new name for the imported policy.
Replace the existing policy with the imported policy.
|