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Image Enforcer

This directory shows how you can use OPA to enforce admission policies on container images in Kubernetes.

You can use this project to enforce simple admission policies on images such as:

  • Naming conventions
  • Version pinning (e.g., no latest)
  • Registry usage (e.g., production must use internal registry)

Using the openpolicyagent/clair-layer-sync image, you can also enforce more sophisticated policies based on image vulnerability scanning.

This directory contains the following:

  • Kubernetes manifests for deploying the image enforcer.
  • Steps to use the image enforcer.
  • Source for the openpolicyagent/clair-layer-sync Docker image.

Testing

This repository contains sample policies and a data set that includes layer metadata with known vulnerabilities.

Prerequisites

  • OPA v0.4.10 or later

This example has been tested using:

  • Kubernetes 1.6.0
  • CoreOS Clair (quay.io/coreos/clair:latest)[1]

Some familiarity with bootstrapping Kubernetes is useful for this example as it relies on configuring the API server to enable the ImagePolicyWebhook admission controller. If you are using minikube, you will need to use (i) the --extra-config option and (ii) mount sub-command to set and load the necessary configuration.

[1] The CoreOS Clair installation steps link to the latest tag. The same steps do not work with the most recent pinned version (v2.0.0).

Steps

First, run OPA in interactive mode and provide the sample policies and data as input:

opa run ./policies ./data/* -w
  • ./policies contains Rego policies that authorize images
  • ./data contains Docker image metadata and CoreOS Clair vulnerability metadata
  • -w tells OPA to reload any of the files if they change

The ./policies directory contains mock input data. Dump the mock data:

> data.mock

You should see two keys: allowed and denied. These keys represent the webhook calls that OPA would receive from the ImagePolicyWebhook admission controller in Kubernetes.

Set the input document to the allowed data set. Expressions that reference the input document will use the value defined by allowed.

> package repl
> input = data.mock.allowed

Now, evaluate the image enforcer policy. The result should indicate the input is allowed:

> data.io.k8s.image_policy.verify

Next, switch the input document to the denied data set.

> unset input
> input = data.mock.denied

Finally, evaluate the image enforcer policy again. Tthe result should indicate the input is denied:

> data.io.k8s.image_policy.verify

That's it. For more detail, take a look at the policy files under ./policies:

  • default.rego implements the entry point to the policy (data.io.k8s.image_policy.verify).
  • scan.rego implements the layer/vulnerability scanning policy.
  • mock/input.rego defines the mock input used above.

Deployment

1. Deploy the image enforcer on top of Kubernetes along with CoreOS Clair

Deploy the CoreOS Clair (from the docs):

git clone https://github.com/coreos/clair
cd clair/contrib/k8s
kubectl create secret generic clairsecret --from-file=./config.yaml
kubectl create -f clair-kubernetes.yaml

The initial CoreOS Clair deployment can take upwards of 30-60 minutes to complete. It has to download vulnerability data from different sources and store it in Postgres. Use kubectl logs ${clair_pod_name} to see when it's done. If the deployment was successful, you'll eventually see something like this:

2017-05-16 23:04:28.171978 I | updater: updating vulnerabilities
2017-05-16 23:04:28.172007 I | updater: fetching vulnerability updates
2017-05-16 23:04:28.172098 I | updater/fetchers/ubuntu: fetching Ubuntu vulnerabilities
2017-05-16 23:04:28.172284 I | updater/fetchers/debian: fetching Debian vulnerabilities
2017-05-16 23:04:28.172415 I | updater/fetchers/rhel: fetching Red Hat vulnerabilities
2017-05-16 23:12:22.131390 I | updater: adding metadata to vulnerabilities
2017-05-16 23:54:53.174039 W | updater: fetcher note: Ubuntu precise/esm is not mapped to any version number (eg. trusty->14.04). Please update me.
2017-05-16 23:54:53.174130 W | updater: fetcher note: Ubuntu zesty is not mapped to any version number (eg. trusty->14.04). Please update me.
2017-05-16 23:54:53.177667 I | updater: update finished

Grab a ☕ and wait for this to complete or skip ahead but keep in mind the vulnerability data will not be ready yet.

Create a ConfigMap containing the initial policy to load into OPA.

kubectl create configmap image-enforcer --from-file ./policies/default.rego

Deploy the image enforcer. You can use the manifest from this directory to start.

kubectl create -f ./manifests/deployment.yaml

Lastly, create a service to expose OPA's API.

kubectl create -f ./manifests/service.yaml

If you query OPA or follow the logs, you'll see layer metadata being pushed in.

2. Re-configure the Kubernetes API server to enable the ImagePolicyWebhook admission controller

Create a kubeconfig file (/srv/kubernetes/image_policy/kubeconfig) to contact OPA:

clusters:
- name: opa
  cluster:
    server: http://image-enforcer.default.svc.cluster.local:8181/v0/data/io/k8s/image_policy/verify
users:
- name: apiserver
  user:
    token: apiserver
current-context: webhook
contexts:
- name: webhook
  context:
    cluster: opa
    user: apiserver

Create the configuration file for the admission controller (/srv/kubernetes/admission/config.json):

{
  "imagePolicy": {
    "kubeConfigFile": "/srv/kubernetes/image_policy/kubeconfig",
    "defaultAllow": false
  }
}

Re-configure the Kubernetes API server to start with:

--admission-control=ImagePolicyWebhook
--admission-control-config-file=/srv/kubernetes/admission/config.json

Re-start the Kubernetes API server.

openpolicyagent/clair-layer-sync

This Docker image replicates data between:

  • Image registries and CoreOS Clair (layer data)
  • Image registries and OPA (layer metadata)
  • CoreOS Clair and OPA (layer vulnerability metadata)

See deployment.yaml for an example of how to deploy the container alongside OPA.