Mutate Rules
A mutate
rule can be used to modify matching resources and is written as either a RFC 6902 JSON Patch or a strategic merge patch.
By using a patch in the JSONPatch - RFC 6902 format, you can make precise changes to the resource being created. A strategic merge patch is useful for controlling merge behaviors on elements with lists. Regardless of the method, a mutate
rule is used when an object needs to be modified in a given way.
Note
Kubernetes disallows changes to certain fields in resources includingname
, namespace
, uid
, kind
, and apiVersion
, therefore you cannot use Kyverno policy to effect any of these fields either during admission or once a resource has been persisted.Resource mutation occurs before validation, so the validation rules should not contradict the changes performed by the mutation section. To mutate existing resources in addition to those subject to AdmissionReview requests, use mutateExisting policies.
This policy sets the imagePullPolicy
to IfNotPresent
if the image tag is latest
:
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: set-image-pull-policy
5spec:
6 rules:
7 - name: set-image-pull-policy
8 match:
9 any:
10 - resources:
11 kinds:
12 - Pod
13 mutate:
14 patchStrategicMerge:
15 spec:
16 containers:
17 # match images which end with :latest
18 - (image): "*:latest"
19 # set the imagePullPolicy to "IfNotPresent"
20 imagePullPolicy: "IfNotPresent"
RFC 6902 JSONPatch
A JSON Patch, implemented as a mutation method called patchesJson6902
, provides a precise way to mutate resources and supports the following operations (in the op
field):
add
replace
remove
The patchesJson6902
method can be useful when a specific mutation is needed which cannot be performed by patchesStrategicMerge
. For example, when needing to mutate a specific object within an array, the index can be specified as part of a patchesJson6902
mutation rule.
One distinction between this and other mutation methods is that patchesJson6902
does not support the use of conditional anchors. Use preconditions instead. Also, mutations using patchesJson6902
to Pods directly are not converted to higher-level controllers such as Deployments and StatefulSets through the use of the auto-gen feature. Therefore, when writing such mutation rules for Pods, it may be necessary to create multiple rules to cover all relevant Pod controllers.
This patch policy adds, or replaces, entries in a ConfigMap with the name config-game
in any Namespace.
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: policy-patch-cm
5spec:
6 rules:
7 - name: pCM1
8 match:
9 any:
10 - resources:
11 names:
12 - config-game
13 kinds:
14 - ConfigMap
15 mutate:
16 patchesJson6902: |-
17 - path: "/data/ship.properties"
18 op: add
19 value: |
20 type=starship
21 owner=utany.corp
22 - path: "/data/newKey1"
23 op: add
24 value: newValue1
If your ConfigMap has empty data, the following policy adds an entry to config-game
.
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: policy-add-cm
5spec:
6 rules:
7 - name: pCM1
8 match:
9 any:
10 - resources:
11 names:
12 - config-game
13 kinds:
14 - ConfigMap
15 mutate:
16 patchesJson6902: |-
17 - path: "/data"
18 op: add
19 value:
20 ship.properties: '{"type": "starship", "owner": "utany.corp"}'
This is an example of a patch that removes a label from a Secret:
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: policy-remove-label
5spec:
6 rules:
7 - name: remove-unwanted-label
8 match:
9 any:
10 - resources:
11 kinds:
12 - Secret
13 mutate:
14 patchesJson6902: |-
15 - path: "/metadata/labels/purpose"
16 op: remove
This policy rule adds elements to a list. In this case, it adds a new busybox container and a command. Note that because the path
statement is a precise schema element, this will only work on a direct Pod and not higher-level objects such as Deployments. Testing the below policy requires setting spec.automountServiceAccountToken: false
in a Pod.
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: insert-container
5spec:
6 rules:
7 - name: insert-container
8 match:
9 any:
10 - resources:
11 kinds:
12 - Pod
13 mutate:
14 patchesJson6902: |-
15 - op: add
16 path: "/spec/containers/1"
17 value:
18 name: busybox
19 image: busybox:latest
20 - op: add
21 path: "/spec/containers/1/command"
22 value:
23 - ls
Note
Mutations usingpatchesJson6902
which match on Pods are not translated to higher-level Pod controllers as noted above.When needing to append an object to an array of objects, for example in pod.spec.tolerations
, use a dash (-
) at the end of the path.
1mutate:
2 patchesJson6902: |-
3 - op: add
4 path: "/spec/tolerations/-"
5 value:
6 key: networkzone
7 operator: Equal
8 value: dmz
9 effect: NoSchedule
JSON Patch uses JSON Pointer to reference keys, and keys with tilde (~
) and forward slash (/
) characters need to be escaped with ~0
and ~1
, respectively. For example, the following adds an annotation with the key of config.linkerd.io/skip-outbound-ports
with the value of "8200"
.
1- op: add
2 path: /spec/template/metadata/annotations/config.linkerd.io~1skip-outbound-ports
3 value: "8200"
Some other capabilities of the patchesJson6902
method include:
- Adding non-existent paths
- Adding non-existent arrays
- Adding an element to the end of an array (use negative index
-1
)
Strategic Merge Patch
The kubectl
command uses a strategic merge patch with special directives to control element merge behaviors. The patchStrategicMerge
overlay resolves to a partial resource definition.
This policy adds a new container to the Pod, sets the imagePullPolicy
, adds a command, and sets a label with the key of name
and value set to the name of the Pod from AdmissionReview data. Once again, the overlay in this case names a specific schema path which is relevant only to a Pod and not higher-level resources like a Deployment.
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: strategic-merge-patch
5spec:
6 rules:
7 - name: set-image-pull-policy-add-command
8 match:
9 any:
10 - resources:
11 kinds:
12 - Pod
13 mutate:
14 patchStrategicMerge:
15 metadata:
16 labels:
17 name: "{{request.object.metadata.name}}"
18 spec:
19 containers:
20 - name: nginx
21 image: nginx:latest
22 imagePullPolicy: Never
23 command:
24 - ls
Note that when using patchStrategicMerge
to mutate the pod.spec.containers[]
array, the name
key must be specified as a conditional anchor (i.e., (name): "*"
) in order for the merge to occur on other fields.
Mutate rules written with this style, if they match exclusively on a Pod, are subject to auto-generation rules for Pod controllers.
Conditional logic using anchors
Like with validate
rules, conditional anchors are supported on mutate
rules. Refer to the anchors section for more general information on conditionals.
An anchor field, marked by parentheses and an optional preceding character, allows conditional processing for mutations.
The mutate overlay rules support three types of anchors:
Anchor | Tag | Behavior |
---|---|---|
Conditional | () | Use the tag and value as an “if” condition |
Add if not present | +() | Add the tag value if the tag is not already present. Not to be used for arrays/lists unless inside a foreach statement. |
Global | <() | Add the pattern when the global anchor is true |
The anchors values support wildcards:
*
- matches zero or more alphanumeric characters?
- matches a single alphanumeric character
Conditional anchors are only supported with the patchStrategicMerge
mutation method.
Conditional anchor
Conditional anchors are used to control when a mutation should occur by using an “if” logical evaluation, for example if a field is not already present or if a value is not the desired value. Contrast this with the example from the strategic merge patch section above where the mutation is applied regardless of any conditions.
A conditional anchor evaluates to true
if the anchor tag exists and if the value matches the specified value. Processing stops if a tag does not exist or when the value does not match. Once processing stops, any child elements or any remaining siblings in a list will not be processed.
For example, this will add or replace the value 6443
for the port
field, for all ports with a name value that starts with “secure”.
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: policy-set-port
5spec:
6 rules:
7 - name: set-port
8 match:
9 any:
10 - resources:
11 kinds :
12 - Endpoints
13 mutate:
14 patchStrategicMerge:
15 subsets:
16 - ports:
17 - (name): "secure*"
18 port: 6443
If the anchor tag value is an object or array, the entire object or array must match. In other words, the entire object or array becomes part of the “if” clause. Nested conditional anchor tags are not supported.
Add if not present anchor
One of the most common scenarios when mutating resources is to add/change a field to a specified value only if it is not already present. This is done by using the add anchor (short for “add if not present” anchor) with the notation +(...)
for the tag.
Typically, every non-anchor tag-value is applied as part of the mutation. If the add anchor is set on a tag, the tag and value are only applied if they do not exist in the resource. If the tag is already present then the mutation is not applied. This anchor should only be used on lists/arrays if inside a foreach
loop as it is not intended to be an iterator. See the foreach section below for an example.
In this example, the label lfx-mentorship
will be assigned to ConfigMaps with a value of kyverno
but only if the label is not already present.
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: lfx-add-labels
5spec:
6 rules:
7 - name: lfx-mentorship
8 match:
9 any:
10 - resources:
11 kinds:
12 - ConfigMap
13 mutate:
14 patchStrategicMerge:
15 metadata:
16 labels:
17 +(lfx-mentorship): kyverno
Multiple of these add anchors may also be combined in the same rule definition when they are used as siblings. Take this example which adds fields to the securityContext of a Pod if they are not found.
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: add-default-securitycontext
5spec:
6 rules:
7 - name: add-default-securitycontext
8 match:
9 any:
10 - resources:
11 kinds:
12 - Pod
13 mutate:
14 patchStrategicMerge:
15 spec:
16 securityContext:
17 +(runAsNonRoot): true
18 +(runAsUser): 1000
19 +(runAsGroup): 3000
20 +(fsGroup): 2000
Global Anchor
Similar to validate rules, mutate rules can use the global anchor. When a global anchor is used, the condition inside the anchor, when true, means the rest of the pattern will be applied regardless of how it may relate to the global anchor.
For example, the below policy will add an imagePullSecret called my-secret
to any Pod if it has a container image beginning with corp.reg.com
.
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: add-imagepullsecrets
5spec:
6 rules:
7 - name: add-imagepullsecret
8 match:
9 any:
10 - resources:
11 kinds:
12 - Pod
13 mutate:
14 patchStrategicMerge:
15 spec:
16 containers:
17 - <(image): "corp.reg.com/*"
18 imagePullSecrets:
19 - name: my-secret
The below Pod meets this criteria and so the imagePullSecret called my-secret
is added.
1apiVersion: v1
2kind: Pod
3metadata:
4 name: static-web
5 labels:
6 role: myrole
7spec:
8 containers:
9 - name: web
10 image: corp.reg.com/nginx
11 imagePullSecrets:
12 - name: my-secret
13 ports:
14 - name: web
15 containerPort: 80
16 protocol: TCP
Processing flow and combinations
The anchor processing behavior for mutate conditions is as follows:
First, all conditional anchors are processed. Processing stops when the first conditional anchor returns a
false
. Mutation proceeds only if all conditional anchors return atrue
. Note that for conditional anchor tags with complex (object or array) values, the entire value (child) object is treated as part of the condition as explained above.Next, all tag-values without anchors and all add anchor tags are processed to apply the mutation.
Anchors may also be combined in mutate rules for more control and flexibility.
For example, this policy combines the global and add anchors to mutate pods containing an emptyDir
volume to add the cluster-autoscaler.kubernetes.io/safe-to-evict
annotation if it is not specified.
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: add-safe-to-evict
5 annotations:
6 pod-policies.kyverno.io/autogen-controllers: none
7spec:
8 rules:
9 - name: annotate-empty-dir
10 match:
11 any:
12 - resources:
13 kinds:
14 - Pod
15 mutate:
16 patchStrategicMerge:
17 metadata:
18 annotations:
19 +(cluster-autoscaler.kubernetes.io/safe-to-evict): true
20 spec:
21 volumes:
22 - <(emptyDir): {}
Mutate Existing resources
In addition to standard mutations, Kyverno also supports mutation on existing resources with patchStrategicMerge
and patchesJson6902
. Unlike regular mutate policies that are applied through the AdmissionReview process, mutate existing policies are applied in the background (via the background controller) which update existing resources in the cluster. These “mutate existing” policies, like traditional mutate policies, are still triggered via the AdmissionReview process but apply to existing resources. This decoupling also allows triggering on one resource and mutating a totally different one. They may also optionally be configured to apply upon updates to the policy itself. This has two important implications:
- Mutation for existing resources is an asynchronous process. This means there will be a variable amount of delay between the period where the trigger was observed and the existing resource was mutated.
- Custom permissions are almost always required. Because these mutations occur on existing resources and not an AdmissionReview (which does not yet exist), Kyverno may need additional permissions which it does not have by default. See the section on customizing permissions on how to grant additional permission to the Kyverno background controller’s ServiceAccount to determine, prior to installing mutate existing rules, if additional permissions are required. Kyverno will perform these permissions checks at the time a mutate existing policy is installed. Missing or incorrect permissions will result in failure to create the policy.
To define such a policy, trigger resources need to be specified in the match
block. The target resources–resources targeted for mutation–are specified in each mutate rule under mutate.targets
. Note that all target resources within a single rule must share the same definition schema. For example, a mutate existing rule fails if this rule mutates both Pod
and Deployment
as they do not share the same OpenAPI V3 schema (except metadata
).
Because the match
and mutate.targets[]
stanzas have two separate scopes, when wishing to match on and mutate the same kind of resources any exclusionary conditions must be placed in the correct scope. Match filter criteria do not implicitly function as the input filter for target selection. For example, wishing to match on and mutate existing Ingress resources which have the annotation corp.org/facing=internal
should at least have the annotation as a selection criteria in the targets section and may use either anchors or preconditions as described further below. Placing this annotation in the match
clause will only result in Kyverno triggering upon those resources and not necessarily mutating them.
Note
Mutation of existing Pods is limited to mutable fields only. See the Kubernetes documentation here for more details.This policy, which matches when the trigger resource named dictionary-1
in the staging
Namespace changes, writes a label foo=bar
to the target resource named secret-1
also in the staging
Namespace.
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: mutate-existing-secret
5spec:
6 rules:
7 - name: mutate-secret-on-configmap-event
8 match:
9 any:
10 - resources:
11 kinds:
12 - ConfigMap
13 names:
14 - dictionary-1
15 namespaces:
16 - staging
17 mutate:
18 targets:
19 - apiVersion: v1
20 kind: Secret
21 name: secret-1
22 namespace: "{{ request.object.metadata.namespace }}"
23 patchStrategicMerge:
24 metadata:
25 labels:
26 foo: bar
By default, the above policy will not be applied when it is installed. This behavior can be configured via mutateExistingOnPolicyUpdate
attribute. If you set mutateExistingOnPolicyUpdate
to true
, Kyverno will mutate the existing secret on policy CREATE and UPDATE AdmissionReview events.
Note that the mutate existing rules are force reconciled every hour by default regardless of mutateExistingOnPolicyUpdate
settings. The reconciliation interval can be customized through use of environment variable BACKGROUND_SCAN_INTERVAL
of the background controller.
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: mutate-existing-secret
5spec:
6 mutateExistingOnPolicyUpdate: true
7 rules:
8 - name: mutate-secret-on-configmap-event
9 match:
10 any:
11 - resources:
12 kinds:
13 - ConfigMap
14 names:
15 - dictionary-1
16 namespaces:
17 - staging
18...
Note
Installation of a mutate existing policy affects theValidatingWebhookConfiguration
Kyverno manages as opposed to traditional mutate rules affecting the MutatingWebhookConfiguration
.When defining a list of targets[]
, the fields name
and namespace
are not strictly required but encouraged. If omitted, it implies a wildcard ("*"
) for the omitted field which can have unintended impact on other resources.
In order to more precisely control the target resources, mutate existing rules support both context variables and preconditions. Preconditions which occur inside the targets[]
array must use the target prefix as described below.
This sample below illustrates how to combine preconditions and conditional anchors within targets[]
to precisely select the desired existing resources for mutation. This policy restarts existing Deployments if they are consuming a Secret that has been updated assigned label kyverno.io/watch: "true"
AND have a name beginning with testing-
.
1apiVersion: kyverno.io/v2beta1
2kind: ClusterPolicy
3metadata:
4 name: refresh-env-var-in-pods
5spec:
6 mutateExistingOnPolicyUpdate: false
7 rules:
8 - name: refresh-from-secret-env
9 match:
10 any:
11 - resources:
12 kinds:
13 - Secret
14 selector:
15 matchLabels:
16 kyverno.io/watch: "true"
17 operations:
18 - UPDATE
19 mutate:
20 targets:
21 - apiVersion: apps/v1
22 kind: Deployment
23 namespace: "{{request.namespace}}"
24 preconditions:
25 all:
26 - key: "{{target.metadata.name}}"
27 operator: Equals
28 value: testing-*
29 patchStrategicMerge:
30 spec:
31 template:
32 metadata:
33 annotations:
34 corp.org/random: "{{ random('[0-9a-z]{8}') }}"
35 spec:
36 containers:
37 - env:
38 - valueFrom:
39 secretKeyRef:
40 <(name): "{{ request.object.metadata.name }}"
Note
The targets matched by a mutate existing rule are not subject to Kyverno’s resource filters. Always develop and test rules in a sandboxed cluster to ensure the scope is correctly confined.Variables Referencing Target Resources
To reference data in target resources, you can define the variable target
followed by the path to the desired attribute. For example, using target.metadata.labels.env
references the label env
in the target resource.
This policy copies the ConfigMaps’ value target.data.key
to their label with the key env
.
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: sync-cms
5spec:
6 mutateExistingOnPolicyUpdate: false
7 rules:
8 - name: concat-cm
9 match:
10 any:
11 - resources:
12 kinds:
13 - ConfigMap
14 names:
15 - cmone
16 namespaces:
17 - foo
18 mutate:
19 targets:
20 - apiVersion: v1
21 kind: ConfigMap
22 name: cmtwo
23 namespace: bar
24 - apiVersion: v1
25 kind: ConfigMap
26 name: cmthree
27 namespace: bar
28 patchesJson6902: |-
29 - op: add
30 path: "/metadata/labels/env"
31 value: "{{ target.data.key }}"
The {{ @ }}
special variable is added to reference the in-line value of the target resource.
This policy adds the value of keyone
from the trigger ConfigMap named cmone
in the foo
Namespace as the prefix to target ConfigMaps in their data with keynew
.
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: sync-cms
5spec:
6 mutateExistingOnPolicyUpdate: false
7 rules:
8 - name: concat-cm
9 match:
10 any:
11 - resources:
12 kinds:
13 - ConfigMap
14 names:
15 - cmone
16 namespaces:
17 - foo
18 mutate:
19 targets:
20 - apiVersion: v1
21 kind: ConfigMap
22 name: cmtwo
23 namespace: bar
24 - apiVersion: v1
25 kind: ConfigMap
26 name: cmthree
27 namespace: bar
28 patchStrategicMerge:
29 data:
30 keynew: "{{request.object.data.keyone}}-{{@}}"
Once a mutate existing policy is applied successfully, there will be an event and an annotation added to the target resource:
1$ kubectl describe deploy foobar
2...
3Events:
4 Type Reason Age From Message
5 ---- ------ ---- ---- -------
6 Normal PolicyApplied 29s (x2 over 31s) kyverno-mutate policy add-sec/add-sec-rule applied
7
8$ kubectl get deploy foobar -o yaml
9apiVersion: apps/v1
10kind: Deployment
11metadata:
12 annotations:
13 ...
14 policies.kyverno.io/last-applied-patches: |
15 add-sec-rule.add-sec.kyverno.io: added /spec/template/spec/containers/0/securityContext
To troubleshoot policy application failure, inspect the UpdateRequest
Custom Resource to get details. Successful UpdateRequests
may be automatically cleaned up by Kyverno.
For example, if the corresponding permission is not granted to Kyverno, you should see a value of Failed
in the updaterequest.status
field, however a permission check is performed when a policy is installed.
$ kubectl get ur -n kyverno
NAME POLICY RULETYPE RESOURCEKIND RESOURCENAME RESOURCENAMESPACE STATUS AGE
ur-swsdg add-sec mutate Deployment foobar default Failed 84s
$ kubectl describe ur ur-swsdg -n kyverno
Name: ur-swsdg
Namespace: kyverno
...
Status:
Message: deployments.apps "foobar" is forbidden: User "system:serviceaccount:kyverno:kyverno-service-account" cannot update resource "deployments" in API group "apps" in the namespace "default"
State: Failed
Mutate Rule Ordering (Cascading)
In some cases, it might be desired to have multiple levels of mutation rules apply to incoming resources. The match
statement in rule A would apply a mutation to the resource, and the result of that mutation would trigger a match
statement in rule B that would apply a second mutation. In such cases, Kyverno can accommodate more complex mutation rules, however rule ordering matters to guarantee consistent results.
For example, assume you wished to assign a label to each incoming Pod describing the type of application it contained. For those with an image
having the string either cassandra
or mongo
you wished to apply the label type=database
. This could be done with the following sample policy.
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: database-type-labeling
5spec:
6 rules:
7 - name: assign-type-database
8 match:
9 any:
10 - resources:
11 kinds:
12 - Pod
13 mutate:
14 patchStrategicMerge:
15 metadata:
16 labels:
17 type: database
18 spec:
19 (containers):
20 - (image): "*cassandra* | *mongo*"
Also, assume that for certain application types a backup strategy needs to be defined. For those applications where type=database
, this would be designated with an additional label with the key name of backup-needed
and value of either yes
or no
. The label would only be added if not already specified since operators can choose if they want protection or not. This policy would be defined like the following.
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: database-backup-labeling
5spec:
6 rules:
7 - name: assign-backup-database
8 match:
9 any:
10 - resources:
11 kinds:
12 - Pod
13 selector:
14 matchLabels:
15 type: database
16 mutate:
17 patchStrategicMerge:
18 metadata:
19 labels:
20 +(backup-needed): "yes"
In such a case, Kyverno is able to perform cascading mutations whereby an incoming Pod that matched in the first rule and was mutated would potentially be further mutated by the second rule. In these cases, the rules must be ordered from top to bottom in the order of their dependencies and stored within the same policy. The resulting policy definition would look like the following:
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: database-protection
5spec:
6 rules:
7 - name: assign-type-database
8 match:
9 any:
10 - resources:
11 kinds:
12 - Pod
13 mutate:
14 patchStrategicMerge:
15 metadata:
16 labels:
17 type: database
18 spec:
19 (containers):
20 - (image): "*cassandra* | *mongo*"
21 - name: assign-backup-database
22 match:
23 any:
24 - resources:
25 kinds:
26 - Pod
27 selector:
28 matchLabels:
29 type: database
30 mutate:
31 patchStrategicMerge:
32 metadata:
33 labels:
34 +(backup-needed): "yes"
Test the cascading mutation policy by creating a Pod using the Cassandra image.
1$ kubectl run cassandra --image=cassandra:latest
2pod/cassandra created
Perform a get
or describe
on the Pod to see the result of the metadata.
1$ kubectl describe po cassandra
2Name: cassandra
3Namespace: default
4<snip>
5Labels: backup-needed=yes
6 run=cassandra
7 type=database
8<snip>
As can be seen, both type=database
and backup-needed=yes
were applied according to the mutation rules.
Verify that applying your own backup-needed
label with the value of no
triggers the first mutation rule but not the second.
1$ kubectl run cassandra --image=cassandra:latest --labels backup-needed=no
Perform another get
or describe
to verify the backup-needed
label was not altered by the mutation rule.
1$ kubectl describe po cassandra
2Name: cassandra
3Namespace: default
4<snip>
5Labels: backup-needed=no
6 type=database
7<snip>
foreach
A foreach
declaration can contain multiple entries to process different sub-elements e.g. one to process a list of containers and another to process the list of initContainers in a Pod.
A foreach
must contain a list
attribute that defines the list of elements it processes and either a patchStrategicMerge
or patchesJson6902
declaration. For example, iterating over the list of containers in a Pod is performed using this list
declaration:
1list: request.object.spec.containers
2patchStrategicMerge:
3 spec:
4 containers:
5 ...
When a foreach
is processed, the Kyverno engine will evaluate list
as a JMESPath expression to retrieve zero or more sub-elements for further processing. The value of the list
field may also resolve to a simple array of strings, for example as defined in a context variable. The value of the list
field should not be enclosed in braces even though it is a JMESPath expression.
foreach
statements may also declare an optional order
field for controlling whether to iterate over the list
results in ascending or descending order.
A variable element
is added to the processing context on each iteration. This allows referencing data in the element using element.<name>
where name is the attribute name. For example, using the list request.object.spec.containers
when the request.object
is a Pod allows referencing the container image as element.image
within a foreach
.
Each foreach
declaration can optionally contain the following declarations:
- Context: to add additional external data only available per loop iteration.
- Preconditions: to control when a loop iteration is skipped.
foreach
: a nestedforeach
declaration described below.
For a patchesJson6902
type of foreach
declaration, an additional variable called elementIndex
is made available which allows the current index number to be referenced in a loop.
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: foreach-json-patch
5spec:
6 rules:
7 - name: add-security-context
8 match:
9 any:
10 - resources:
11 kinds:
12 - Pod
13 operations:
14 - CREATE
15 mutate:
16 foreach:
17 - list: "request.object.spec.containers"
18 patchesJson6902: |-
19 - path: /spec/containers/{{elementIndex}}/securityContext
20 op: add
21 value:
22 runAsNonRoot: true
For a complete example of the patchStrategicMerge
method that mutates the image to prepend the address of a trusted registry, see below.
1apiVersion : kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: prepend-registry
5spec:
6 background: false
7 rules:
8 - name: prepend-registry-containers
9 match:
10 any:
11 - resources:
12 kinds:
13 - Pod
14 operations:
15 - CREATE
16 - UPDATE
17 mutate:
18 foreach:
19 - list: "request.object.spec.containers"
20 patchStrategicMerge:
21 spec:
22 containers:
23 - name: "{{ element.name }}"
24 image: registry.io/{{ images.containers."{{element.name}}".name}}:{{images.containers."{{element.name}}".tag}}
Note that the patchStrategicMerge
is applied to the request.object
. Hence, the patch needs to begin with spec
. Since container names may have dashes in them (which must be escaped), the {{element.name}}
variable is specified in double quotes.
Loops which use the patchStrategicMerge
method may also use conditional anchors as mentioned earlier. This policy uses the add anchor inside a loop to add the allowPrivilegeEscalation
field with a value set to false
but only if it isn’t present first. The conditional around the name
field is required in this style of mutation.
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: pss-migrate
5spec:
6 rules:
7 - name: set-allowprivescalation
8 match:
9 any:
10 - resources:
11 kinds:
12 - Pod
13 mutate:
14 foreach:
15 - list: "request.object.spec.containers[]"
16 patchStrategicMerge:
17 spec:
18 containers:
19 - (name): "{{ element.name }}"
20 securityContext:
21 +(allowPrivilegeEscalation): false
As with conditional mutations outside the context of a loop, so too may multiple anchors be used inside, for example with this policy to add default resource requests to containers within a Pod if they are not specified.
1apiVersion : kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: add-default-resources
5spec:
6 rules:
7 - name: add-default-requests
8 match:
9 any:
10 - resources:
11 kinds:
12 - Pod
13 preconditions:
14 any:
15 - key: "{{request.operation || 'BACKGROUND'}}"
16 operator: AnyIn
17 value:
18 - CREATE
19 - UPDATE
20 mutate:
21 foreach:
22 - list: "request.object.spec.containers[]"
23 patchStrategicMerge:
24 spec:
25 containers:
26 - (name): "{{element.name}}"
27 resources:
28 requests:
29 +(memory): "100Mi"
30 +(cpu): "100m"
It is important to understand internally how Kyverno treats foreach
rules. Some general statements to keep in mind:
- No internal patches are produced until all
foreach
iterations are complete. foreach
supports multiple loops but will be processed in declaration order and not independently or in parallel. The results of the first loop will be available internally to subsequent loops.- Cascading mutations as separate rules will be necessary for a mutation to be further mutated by other logic.
- Use of the
order
field is required in some situations, for example when removing elements from an array useDescending
.
Nested foreach
The foreach
object also supports nesting multiple foreach declarations to form loops within loops. This is especially useful when the mutations you need to perform are either replacements or removals as these require the use of JSON patches (patchesJson6902
). When using nested loops, the special variable {{elementIndex}}
requires a loop number to identify which element to process. Preconditions are supported only at the top-level loop and not per inner loop.
For example, consider a scenario in which you must replace all host names which end in old.com
with new.com
in an Ingress resource under the spec.tls[].hosts[]
list. Because spec.tls[]
is an array of objects, and hosts[]
is an array of strings within each object, a foreach
declaration must iterate over each object in the tls[]
array and then internally loop over each host in the hosts[]
array.
1apiVersion: networking.k8s.io/v1
2kind: Ingress
3metadata:
4 name: myingress
5 labels:
6 app: myingress
7spec:
8 rules:
9 - host: myhost.corp.com
10 http:
11 paths:
12 - backend:
13 service:
14 name: myservice
15 port:
16 number: 8080
17 path: /
18 pathType: ImplementationSpecific
19 tls:
20 - hosts:
21 - foo.old.com
22 - bar.old.com
23 secretName: mytlscertsecret
This type of advanced mutation can be performed with nested foreach loops as shown below. Notice that in the JSON patch, the path
value references the current index of tls[]
as {{elementIndex0}}
and the current index of hosts[]
as {{elementIndex1}}
. In the value
field, the {{element}}
variable still references the current value of the hosts[]
array being processed.
1apiVersion: kyverno.io/v1
2kind: ClusterPolicy
3metadata:
4 name: replace-image-registry
5spec:
6 background: false
7 rules:
8 - name: replace-dns-suffix
9 match:
10 any:
11 - resources:
12 kinds:
13 - Ingress
14 mutate:
15 foreach:
16 - list: request.object.spec.tls[]
17 foreach:
18 - list: "element.hosts"
19 patchesJson6902: |-
20 - path: /spec/tls/{{elementIndex0}}/hosts/{{elementIndex1}}
21 op: replace
22 value: "{{ replace_all('{{element}}', '.old.com', '.new.com') }}"
GitOps Considerations
It is very common to use Kyverno in a GitOps approach where policies and/or other resources, which may be affected by those policies, are deployed via a state held in git by a separate tool such as Argo CD or Flux. In the case of mutations, the classic problem which arises is Kyverno (or some other tool) mutates a resource which was created by a GitOps tool. The mutation changes the resource in a way which causes divergence from the state held in git. When this divergence is detected by the GitOps controller, said controller attempts to reconcile the resource to bring it back into alignment with the desired state held in git. This process continues in an endless loop and creates “fighting” between the mutating admission controller and the GitOps controller. This type of fighting is problematic as it increases churn in the cluster, increases resource consumption by the respective tools, and can lead to disruption if it occurs on a large scale.
While Kyverno can interoperate with GitOps solutions when mutate rules are used, there are a few considerations of which to be aware and some recommended configurations.
Flux
Flux uses server-side apply along with dry-run mode when calculating a diff to determine if the actual state has diverged from desired state. Because Kyverno supports mutations in dry-run mode, the resource returned to Flux in this mode already includes the result of any would-be mutations. As a result, Flux natively accommodates mutating admission controllers such as Kyverno usually without any modifications needed. It is not necessary to inform Flux of the nature and number of mutations to expect for a given resource.
However, as dry-run mode causes mutation webhooks to be invoked just as if not in dry-run mode, this produces additional load on Kyverno as it must perform the same mutations every time a diff is calculated. The Flux synchronization interval should be checked and balanced to ensure only the minimal amount of processing overhead is introduced.
ArgoCD
Argo CD does not currently support server-side apply dry-run mode in its diff calculations like Flux does. While this is currently a roadmap item, it means using Argo CD with Kyverno mutate rules requires some specific configurations. See the platform notes page for general recommendations with Argo CD first.
In order to use Argo CD with Kyverno, it will require configuring the Application
custom resource with one or more ignoreDifferences
entries to instruct Argo CD to ignore the mutations created by Kyverno. Some of these options include jqPathExpressions
, jsonPointers
, and managedFieldsManagers
. For example, if a Kyverno mutate rule is expected to add a label foo
to all Deployments, the Argo CD Application
may need a section as follows.
1ignoreDifferences:
2 - group: apps
3 kind: Deployment
4 jqPathExpressions:
5 - .metadata.labels.foo
It may also be helpful to configure a managedFieldsManagers
with a value of kyverno
in the list to instruct Argo CD to allow Kyverno to own the fields it is mutating.
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