kubewarden / policy-server

Webhook server that evaluates WebAssembly policies to validate Kubernetes requests
https://kubewarden.io
Apache License 2.0
140 stars 18 forks source link
hacktoberfest kubernetes kubernetes-security kubernetes-webhook policy policy-as-code rust webassembly

Kubewarden Core Repository Stable Artifact HUB CII Best Practices OpenSSF Best Practices FOSSA Status OpenSSF Scorecard

Note well: don't forget to checkout Kubewarden's documentation for more information

policy-server

policy-server is a Kubernetes dynamic admission controller that uses Kubewarden Policies to validate admission requests.

Kubewarden Policies are simple WebAssembly modules.

Deployment

We recommend to rely on the kubewarden-controller and the Kubernetes Custom Resources provided by it to deploy the Kubewarden stack.

Configuring policies

A single instance of policy-server can load multiple Kubewarden policies. The list of policies to load, how to expose them and their runtime settings are handled through a policies file.

By default policy-server will load the policies.yml file, unless the user provides a different value via the --policies flag.

This is an example of the policies file:

psp-apparmor:
  url: registry://ghcr.io/kubewarden/policies/psp-apparmor:v0.1.3
psp-capabilities:
  url: registry://ghcr.io/kubewarden/policies/psp-capabilities:v0.1.3
namespace_simple:
  url: file:///tmp/namespace-validate-policy.wasm
  settings:
    valid_namespace: kubewarden-approved

The YAML file contains a dictionary with strings as keys, and policy objects as values.

The key that identifies a policy is used by policy-server to expose the policy through its web interface. Policies are exposed under `/validate/.

For example, given the configuration file from above, the following API endpoint would be created:

It's common for policies to allow users to tune their behaviour via ad-hoc settings. These customization parameters are provided via the settings dictionary.

For example, given the configuration file from above, the namespace_simple policy will be invoked with the valid_namespace parameter set to kubewarden-approved.

Note well: it's possible to expose the same policy multiple times, each time with a different set of parameters.

The Wasm file providing the Kubewarden Policy can be either loaded from the local filesystem or it can be fetched from a remote location. The behaviour depends on the URL format provided by the user:

Policy Group

Multiple policies can be grouped together and are evaluated using a user provided boolean expression.

The motivation for this feature is to enable users to create complex policies by combining simpler ones. This allows users to avoid the need to create custom policies from scratch and instead leverage existing policies. This reduces the need to duplicate policy logic across different policies, increases reusability, removes the cognitive load of managing complex policy logic, and enables the creation of custom policies using a DSL-like configuration.

Policy groups are added to the same policy configuration file as individual policies.

This is an example of the policies file with a policy group:

pod-image-signatures: # policy group
  policies:
    - name: sigstore_pgp
      url: ghcr.io/kubewarden/policies/verify-image-signatures:v0.2.8
      settings:
        signatures:
          - image: "*"
            pubKeys:
              - "-----BEGIN PUBLIC KEY-----xxxxx-----END PUBLIC KEY-----"
              - "-----BEGIN PUBLIC KEY-----xxxxx-----END PUBLIC KEY-----"
    - name: sigstore_gh_action
      url: ghcr.io/kubewarden/policies/verify-image-signatures:v0.2.8
      settings:
        signatures:
          - image: "*"
            githubActions:
            owner: "kubewarden"
    - name: reject_latest_tag
      url: ghcr.io/kubewarden/policies/trusted-repos-policy:v0.1.12
      settings:
        tags:
          reject:
            - latest
  expression: "sigstore_pgp() || (sigstore_gh_action() && reject_latest_tag())"
  message: "The group policy is rejected."

This will lead to the exposure of a validation endpoint /validate/pod-image-signatures that will accept the incoming request if the image is signed with the given public keys or if the image is built by the given GitHub Actions and the image tag is not latest.

Each policy in the group can have its own settings and its own list of Kubernetes resources that is allowed to access:

strict-ingress-checks:
  policies:
    - name: unique_ingress
      url: ghcr.io/kubewarden/policies/cel-policy:latest
      contextAwareResources:
        - apiVersion: networking.k8s.io/v1
          kind: Ingress
      settings:
        variables:
          - name: knownIngresses
            expression: kw.k8s.apiVersion("networking.k8s.io/v1").kind("Ingress").list().items
          - name: knownHosts
            expression: |
              variables.knownIngresses
              .filter(i, (i.metadata.name != object.metadata.name) && (i.metadata.namespace != object.metadata.namespace))
              .map(i, i.spec.rules.map(r, r.host))
          - name: desiredHosts
            expression: |
              object.spec.rules.map(r, r.host)
        validations:
          - expression: |
              !variables.knownHost.exists_one(hosts, sets.intersects(hosts, variables.desiredHosts))
            message: "Cannot reuse a host across multiple ingresses"
    - name: https_only
      url: ghcr.io/kubewarden/policies/ingress:latest
      settings:
        requireTLS: true
        allowPorts: [443]
        denyPorts: [80]
    - name: http_only
      url: ghcr.io/kubewarden/policies/ingress:latest
      settings:
        requireTLS: false
        allowPorts: [80]
        denyPorts: [443]

  expression: "unique_ingress() && (https_only() || http_only())"
  message: "The group policy is rejected."

For more details, please refer to the Kubewarden documentation.

Logging and distributed tracing

The verbosity of policy-server can be configured via the --log-level flag. The default log level used is info, but trace, debug, warn and error levels are available too.

Policy server can produce logs events using different formats. The --log-fmt flag is used to choose the format to be used.

Standard output

By default, log messages are printed on the standard output using the text format. Logs can be printed as JSON objects using the json format type.

Open Telemetry Collector

The open Telemetry project provides a collector component that can be used to receive, process and export telemetry data in a vendor agnostic way.

Policy server can send trace events to the Open Telemetry Collector using the --log-fmt otlp flag.

Current limitations:

More details about OpenTelemetry and tracing can be found inside of our official docs.

Building

You can use the container image we maintain inside of our GitHub Container Registry.

Alternatively, the policy-server binary can be built in this way:

$ make build

Software bill of materials

Policy server has its software bill of materials (SBOM SPDX) and Provenance files published every release. Both files are generated by Docker buildx during the build process and stored in the container registry together with the container image as well as uploaded to the release page.

After the container image building, the container image and their attestations are signed using cosign. The attestation files are stoed inside a tarball with the checksum file with the md5sum for the files there. Therefore, after downloading the attestation files from the release page, extracting them, you can verify the checksum file signature using the following command:

cosign verify-blob --certificate-oidc-issuer=https://token.actions.githubusercontent.com \
    --certificate-identity="https://github.com/kubewarden/policy-server/.github/workflows/attestation.yml@refs/tags/v1.17.0" \
    --bundle policy-server-attestation-arm64-checksum-cosign.bundle \
    policy-server-attestation-arm64-checksum.txt

If you want to verify the attestation manifest and its layer signatures, you can use the following command:

cosign verify --certificate-oidc-issuer=https://token.actions.githubusercontent.com  \
    --certificate-identity="https://github.com/kubewarden/policy-server/.github/workflows/attestation.yml@refs/tags/v1.17.0 \
    ghcr.io/kubewarden/policy-server@sha256:1abc0944378d9f3ee2963123fe84d045248d320d76325f4c2d4eb201304d4c4e

Remember that the sha256 hash is the digest of the attestation manifest or its layers. Therefore, you need to find this info in the registry using the UI or tools like crane. For example, the following command will show you all the attestation manifests of the latest tag:

crane manifest  ghcr.io/kubewarden/policy-server:latest | jq '.manifests[] | select(.annotations["vnd.docker.reference.type"]=="attestation-manifest")'
{
  "mediaType": "application/vnd.oci.image.manifest.v1+json",
  "digest": "sha256:fc01fa6c82cffeffd23b737c7e6b153357d1e499295818dad0c7d207f64e6ee8",
  "size": 1655,
  "annotations": {
    "vnd.docker.reference.digest": "sha256:611d499ec9a26034463f09fa4af4efe2856086252d233b38e3fc31b0b982d369",
    "vnd.docker.reference.type": "attestation-manifest"
  },
  "platform": {
    "architecture": "unknown",
    "os": "unknown"
  }
}
{
  "mediaType": "application/vnd.oci.image.manifest.v1+json",
  "digest": "sha256:e0cd736c2241407114256e09a4cdeef55eb81dcd374c5785c4e5c9362a0088a2",
  "size": 1655,
  "annotations": {
    "vnd.docker.reference.digest": "sha256:03e5db83a25ea2ac498cf81226ab8db8eb53a74a2c9102e4a1da922d5f68b70f",
    "vnd.docker.reference.type": "attestation-manifest"
  },
  "platform": {
    "architecture": "unknown",
    "os": "unknown"
  }
}

Then you can use the digest field to verify the attestation manifest and its layers signatures.

cosign verify --certificate-oidc-issuer=https://token.actions.githubusercontent.com  \
    --certificate-identity="https://github.com/kubewarden/policy-server/.github/workflows/attestation.yml@refs/tags/v1.17.0 \
    ghcr.io/kubewarden/policy-server@sha256:fc01fa6c82cffeffd23b737c7e6b153357d1e499295818dad0c7d207f64e6ee8

crane manifest  ghcr.io/kubewarden/policy-server@sha256:fc01fa6c82cffeffd23b737c7e6b153357d1e499295818dad0c7d207f64e6ee8
{
  "schemaVersion": 2,
  "mediaType": "application/vnd.oci.image.manifest.v1+json",
  "config": {
    "mediaType": "application/vnd.oci.image.config.v1+json",
    "digest": "sha256:eda788a0e94041a443eca7286a9ef7fce40aa2832263f7d76c597186f5887f6a",
    "size": 463
  },
  "layers": [
    {
      "mediaType": "application/vnd.in-toto+json",
      "digest": "sha256:563689cdee407ab514d057fe2f8f693189279e10bfe4f31f277e24dee00793ea",
      "size": 94849,
      "annotations": {
        "in-toto.io/predicate-type": "https://spdx.dev/Document"
      }
    },
    {
      "mediaType": "application/vnd.in-toto+json",
      "digest": "sha256:7ce0572628290373e17ba0bbb44a9ec3c94ba36034124931d322ca3fbfb768d9",
      "size": 7363045,
      "annotations": {
        "in-toto.io/predicate-type": "https://spdx.dev/Document"
      }
    },
    {
      "mediaType": "application/vnd.in-toto+json",
      "digest": "sha256:dacf511c5ec7fd87e8692bd08c3ced2c46f4da72e7271b82f1b3720d5b0a8877",
      "size": 71331,
      "annotations": {
        "in-toto.io/predicate-type": "https://spdx.dev/Document"
      }
    },
    {
      "mediaType": "application/vnd.in-toto+json",
      "digest": "sha256:594da3e8bd8c6ee2682b0db35857933f9558fd98ec092344a6c1e31398082f4d",
      "size": 980,
      "annotations": {
        "in-toto.io/predicate-type": "https://spdx.dev/Document"
      }
    },
    {
      "mediaType": "application/vnd.in-toto+json",
      "digest": "sha256:7738d8d506c6482aaaef1d22ed920468ffaf4975afd28f49bb50dba2c20bf2ca",
      "size": 13838,
      "annotations": {
        "in-toto.io/predicate-type": "https://slsa.dev/provenance/v0.2"
      }
    }
  ]
}

cosign verify --certificate-oidc-issuer=https://token.actions.githubusercontent.com  \
    --certificate-identity="https://github.com/kubewarden/policy-server/.github/workflows/attestation.yml@refs/tags/v1.17.0 \
    ghcr.io/kubewarden/policy-server@sha256:594da3e8bd8c6ee2682b0db35857933f9558fd98ec092344a6c1e31398082f4d

Note that each attestation manifest (for each architecture) has its own layers. Each layer is a different SBOM SPDX or provenance files generated by Docker Buildx during the multi stage build process. You can also use crane to download the attestation file:

crane blob ghcr.io/kubewarden/policy-server@sha256:7738d8d506c6482aaaef1d22ed920468ffaf4975afd28f49bb50dba2c20bf2ca

Security

The Kubewarden team is security conscious. You can find our threat model assessment and responsible disclosure approach in our Kubewarden docs.

Changelog

See GitHub Releases content.