Read this page if you are new to Kubernetes admission control with OPA and want to learn how to write policies for Kubernetes. It covers the version that uses kube-mgmt. The OPA Gatekeeper version has its own docs.
Writing Policies
To get started, let’s look at a common policy: ensure all images come from a trusted registry.
package kubernetes.admission # line 1
deny contains msg if { # line 2
input.request.kind.kind == "Pod" # line 3
image := input.request.object.spec.containers[_].image # line 4
not startswith(image, "hooli.com/") # line 5
msg := sprintf("image '%v' comes from untrusted registry", [image]) # line 6
}
Packages
In line 1 the package kubernetes.admission
declaration gives the (hierarchical) name kubernetes.admission
to the rules in the remainder of the policy. The default installation of OPA as an admission controller assumes your rules are in the package kubernetes.admission
.
Deny Rules
For admission control, you write deny
statements. Order does not matter. (OPA is far more flexible than this, but we recommend writing just deny
statements to start.) In line 2, the head of the rule deny contains msg if
says that the admission control request should be rejected and the user handed the error message msg
if the conditions in the body (the statements between the {}
) are true.
deny
is the set of error messages that should be returned to the user. Each rule you write adds to that set of error messages.
For example, suppose you tried to create the Pod below with nginx and mysql images.
kind: Pod
apiVersion: v1
metadata:
name: myapp
spec:
containers:
- image: nginx
name: nginx-frontend
- image: mysql
name: mysql-backend
The admission review request to sent to OPA would look like this:
{
"kind": "AdmissionReview",
"request": {
"kind": {
"kind": "Pod",
"version": "v1"
},
"object": {
"metadata": {
"name": "myapp"
},
"spec": {
"containers": [
{
"image": "nginx",
"name": "nginx-frontend"
},
{
"image": "mysql",
"name": "mysql-backend"
}
]
}
}
}
}
When the deny
rule is evaluated with the input above, the answer is:
{
"deny": [
"image 'mysql' comes from untrusted registry",
"image 'nginx' comes from untrusted registry"
]
}
Input Document
In OPA, input
is a reserved, global variable whose value is the Kubernetes AdmissionReview object that the API server hands to any admission control webhook.
AdmissionReview objects have many fields. The rule above uses input.request.kind
, which includes the usual group/version/kind information. The rule also uses input.request.object
, which is the YAML that the user provided to kubectl
(augmented with defaults, timestamps, etc.). The full input
object is 50+ lines of YAML, so below we show just the relevant parts.
apiVersion: admission.k8s.io/v1
kind: AdmissionReview
request:
kind:
group:
kind: Pod
version: v1
object:
metadata:
name: myapp
spec:
containers:
- image: nginx
name: nginx-frontend
- image: mysql
name: mysql-backend
Dot Notation
In line 3 input.request.kind.kind == "Pod"
, the expression input.request.kind.kind
does the obvious thing: it descends through the YAML hierarchy. The dot (.) operator never throws any errors; if the path does not exist the value of the expression is undefined
.
input.request.kind
{
"kind": "Pod",
"version": "v1"
}
input.request.kind.kind
"Pod"
input.request.object.spec.containers
[
{
"image": "nginx",
"name": "nginx-frontend"
},
{
"image": "mysql",
"name": "mysql-backend"
}
]
Equality
Lines 3, 4, 6 all use a form of equality. There are 3 forms of equality in OPA.
x := 7
declares a local variablex
and assigns it a value of 7. The compiler throws an error ifx
already has a value.x == 7
returns true ifx
has a value of 7. The compiler throws an error ifx
has no value.x = 7
either assigns the value 7 tox
ifx
has no value or comparesx
’s value to 7 if it has a value. The compiler never throws an error.
The recommendation for rule-writing is to use :=
and ==
wherever possible. Rules written with :=
and ==
are easier to write and to read. =
is invaluable in more advanced use cases, and outside of rules is the only supported form of equality.
Arrays
Lines 4-5 find images in the Pod that don’t come from the trusted registry. To do that, they use the []
operator, which does what you expect: index into the array.
Continuing the example from earlier:
input.request.object.spec.containers[0]
{
"image": "nginx",
"name": "nginx-frontend"
}
input.request.object.spec.containers[0].image
"nginx"
The []
operators let you use variables to index into the array as well.
i := 0; input.request.object.spec.containers[i]
+---+-------------------------------------------+
| i | input.request.object.spec.containers[i] |
+---+-------------------------------------------+
| 0 | {"image":"nginx","name":"nginx-frontend"} |
+---+-------------------------------------------+
Iteration
The containers array has an unknown number of elements, so to implement an image registry check you need to iterate over them. Iteration in OPA requires no new syntax. In fact, OPA is always iterating–it’s always searching for all variable assignments that make the conditions in the rule true. It’s just that sometimes the search is so easy people don’t think of it as iteration/search.
To iterate over the indexes in the input.request.object.spec.containers
array, you just put a variable that has no value in for the index. OPA will do what it always does: find values for that variable that make the conditions true.
OPA detects when there will be multiple answers and displays all the results in a table.
some j; input.request.object.spec.containers[j]
+---+-------------------------------------------+
| j | input.request.object.spec.containers[j] |
+---+-------------------------------------------+
| 0 | {"image":"nginx","name":"nginx-frontend"} |
| 1 | {"image":"mysql","name":"mysql-backend"} |
+---+-------------------------------------------+
Often you don’t want to invent new variable names for iteration. OPA provides the special anonymous variable _
for exactly that reason. So in line (4) image := input.request.object.spec.containers[_].image
finds all the images in the containers array and assigns each to the image
variable one at a time.
Builtins
On line 5 the builtin startswith
checks if one string is a prefix of the other. The builtin sprintf
on line 6 formats a string with arguments. OPA has 150+ builtins detailed in the Policy Reference.
Builtins let you analyze and manipulate:
- Numbers, Strings, Regexs, Networks
- Aggregates, Arrays, Sets
- Types
- Encodings (base64, YAML, JSON, URL, JWT)
- Time
Testing Policies
When you write policies, you should use the OPA unit-test framework before sending the policies out into the OPA that is running on your cluster. The debugging process will be much quicker and effective. Here’s an example test for the policy from the last section.
package kubernetes.test_admission # line 1
import data.kubernetes.admission # line 2
test_image_safety if { # line 3
unsafe_image := { # line 4
"request": {
"kind": {"kind": "Pod"},
"object": {
"spec": {
"containers": [
{"image": "hooli.com/nginx"},
{"image": "busybox"}
]
}
}
}
}
expected := "image 'busybox' comes from untrusted registry"
admission.deny[expected] with input as unsafe_image # line 5
}
Different Package. On line 1 the package
directive puts these tests in a different package than admission control policy itself. This is the recommended best practice.
Import. On line 2 import data.kubernetes.admission
allows us to reference the admission control policy using the name admission
everywhere in the test package. import
is not strictly necessary–it simply sets up an alias; you could instead reference data.kubernetes.admission
inside the rules.
Unit Test. On line 3 test_image_safety
defines a unittest. If the rule evaluates to true the test passes; otherwise it fails. When you use the OPA test runner, anything in any package starting with test
is treated as a test.
Assignment. On line 4 unsafe_image
is the input we want to use for the test. Ideally this would be a real AdmissionReview object, though those are so long that in this example we hand-rolled a partial input.
Dot for packages. On line 5 we use the Dot operator on a package. admission.deny[expected]
runs the deny
rule(s) in package admission
and checks if the message is contained in the set defined by deny
.
Test Input. Also on line 5 the stanza with input as unsafe_image
sets the value of input
to be unsafe_image
while evaluating admission.deny[expected]
.
Running Tests. If you’ve created the files image-safety.rego and test-image-safety.rego in the current directory then you run the tests by naming the files explicitly as shown below or by handing the opa test
command the directory (and subdirectories) of files to load: opa test .
$ opa test image-safety.rego test-image-safety.rego
PASS: 1/1
Using Context in Policies
The image-repository example shows an example where you can make a policy decision using just the one JSON/YAML file describing the resource in question. But sometimes you need to know what other resources exist in the cluster to make an allow/deny decision.
For example, it’s possible to accidentally configure two Kubernetes ingresses so that one steals traffic from the other. The policy that prevents conflicting ingresses needs to compare the ingress that’s being created/updated with all of the existing ingresses. Just knowing the new/updated ingress isn’t enough information to make an allow/deny decision.
Below is a partial example of the input OPA sees when someone creates an ingress. To avoid conflicts, we want to prevent two ingresses from having the same request.object.spec.rules.host
. If OPA has only this one ingress configuration it doesn’t have enough information to make an allow/deny decision; it also needs the configurations for all of the existing ingresses.
apiVersion: admission.k8s.io/v1
kind: AdmissionReview
request:
kind:
group: networking.k8s.io
kind: Ingress
version: v1
object:
metadata:
name: prod
spec:
rules:
- host: initech.com
http:
paths:
- path: /finance
pathType: Prefix
backend:
service:
name: banking
port:
number: 443
To avoid conflicting ingresses, you write a policy like the one that follows.
package kubernetes.admission
deny contains msg if {
some namespace, name
input.request.kind.kind == "Ingress" # line 1
newhost := input.request.object.spec.rules[_].host # line 2
oldhost := data.kubernetes.ingresses[namespace][name].spec.rules[_].host # line 3
newhost == oldhost # line 4
input.request.object.metadata.namespace != namespace # line 5
input.request.object.metadata.name != name # line 6
msg := sprintf("ingress host conflicts with ingress %v/%v", [namespace, name]) # line 7
}
The first part of the rule you already understand:
- Line (1) checks if the
input
is an Ingress - Line (2) iterates over all the rules in the
input
ingress and looks up thehost
field for each of its rules.
Existing K8s Resources Line (3) iterates over ingresses that already exist in Kubernetes. data
is a global variable where (among other things) OPA has a record of the current resources inside Kubernetes. The line oldhost := data.kubernetes.ingresses[namespace][name].spec.rules[_].host
finds all ingresses in all namespaces, iterates over all the rules
inside each of those and assigns the host
field to the variable oldhost
. Whenever newhost == oldhost
, there’s a conflict, and the OPA rule includes an appropriate error message into the deny
set.
In this case the rule uses explicit variable names namespace
and name
for iteration so that it can use those variables again when constructing the error message in line (7).
Schema Differences. Both input
and data.kubernetes.ingresses[namespace][name]
represent ingresses, but they do it differently.
input
is a Kubernetes AdmissionReview object. It includes several fields in addition to the Kubernetes Ingress object itself.data.kubernetes.ingresses[namespace][name]
is a native Kubernetes Ingress object as returned by the API.
Here are two examples.
apiVersion: networking.k8s.io/v1
kind: Ingress
metadata:
name: prod
spec:
rules:
- host: initech.com
http:
paths:
- path: /finance
pathType: Prefix
backend:
service:
name: banking
port:
number: 443
apiVersion: admission.k8s.io/v1
kind: AdmissionReview
request:
kind:
group: networking.k8s.io
kind: Ingress
version: v1
operation: CREATE
userInfo:
groups:
username: alice
object:
metadata:
name: prod
spec:
rules:
- host: initech.com
http:
paths:
- path: /finance
pathType: Prefix
backend:
service:
name: banking
port:
number: 443
Detailed Admission Control Flow
This section provides a detailed explanation of the admission control flow introduced in the Introduction page.
It starts with someone (or something) running kubectl
(or sending a request to
the API server.) For example, a user might run kubectl create -f pod.yaml
:
pod.yaml:
kind: Pod
apiVersion: v1
metadata:
name: nginx
labels:
app: nginx
spec:
containers:
- image: nginx
name: nginx
When the request reaches the API server it’s authenticated and authorized and processed by the admission controllers. When the API server’s Webhook admission controller executes, the API server sends a webhook request to OPA containing an AdmissionReview object.
AdmissionReview:
apiVersion: admission.k8s.io/v1
kind: AdmissionReview
request:
kind:
group: ''
kind: Pod
version: v1
namespace: opa
object:
metadata:
creationTimestamp: '2018-10-27T02:12:20Z'
labels:
app: nginx
name: nginx
namespace: opa
uid: bbfee96d-d98d-11e8-b280-080027868e77
spec:
containers:
- image: nginx
imagePullPolicy: Always
name: nginx
resources: {}
terminationMessagePath: "/dev/termination-log"
terminationMessagePolicy: File
volumeMounts:
- mountPath: "/var/run/secrets/kubernetes.io/serviceaccount"
name: default-token-tm9v8
readOnly: true
dnsPolicy: ClusterFirst
restartPolicy: Always
schedulerName: default-scheduler
securityContext: {}
serviceAccount: default
serviceAccountName: default
terminationGracePeriodSeconds: 30
tolerations:
- effect: NoExecute
key: node.kubernetes.io/not-ready
operator: Exists
tolerationSeconds: 300
- effect: NoExecute
key: node.kubernetes.io/unreachable
operator: Exists
tolerationSeconds: 300
volumes:
- name: default-token-tm9v8
secret:
secretName: default-token-tm9v8
status:
phase: Pending
qosClass: BestEffort
oldObject:
operation: CREATE
resource:
group: ''
resource: pods
version: v1
uid: 8d836dfd-e0c0-4490-93ba-85ed4a04261e
userInfo:
groups:
- system:masters
- system:authenticated
username: minikube-user
Typically the API server is configured (via ValidatingWebhookConfiguration
or
MutatingWebhookConfiguration
objects) to query OPA without providing the name
of a decision. For example:
POST / HTTP/1.1
Content-Type: application/json
{
"apiVersion": "admission.k8s.io/v1",
"kind": "AdmissionReview",
"request": ...
}
When OPA receives the webhook request, it binds the payload to the input
document and generates the default decision: system.main
. The system.main
decision is defined by a rule that evaluates all of the admission control
policies that have been loaded into OPA.
As the administrator responsible for deploying OPA, you have full control over
the system.main
decision (i.e., it is just another Rego policy.) A basic
implementation of the system.main
policy simply evaluates all deny rules that
have been loaded into OPA and unions the results:
package system
import data.kubernetes.admission
main := {
"apiVersion": "admission.k8s.io/v1",
"kind": "AdmissionReview",
"response": response,
}
default uid := ""
uid := input.request.uid
response := {
"allowed": false,
"uid": uid,
"status": {"message": reason},
} if {
reason := concat(", ", admission.deny)
reason != ""
}
else := {"allowed": true, "uid": uid}
The system.main
policy MUST generate an AdmissionReview object containing
a response that the API server can interpret. If the request should be allowed,
the response.allowed
field should be true. Otherwise, the response.allowed
field should be set to false
and the response.status.message
field should be
set to include an error message that indicates why the request is being
rejected. The error message will be returned to the API server caller (e.g., the
user running kubectl
). Often the error message is the concatenation of all the
messages in the deny
set defined above.
For example, with the input and Image Registry Safety examples above, the response from OPA would be:
apiVersion: admission.k8s.io/v1
kind: AdmissionReview
response:
uid: 8d836dfd-e0c0-4490-93ba-85ed4a04261e
allowed: false
status:
message: "image fails to come from trusted registry: nginx"
For more detail on how Kubernetes Admission Control works, see this blog post on kubernetes.io.
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