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mirror of https://github.com/aquasecurity/kube-bench.git synced 2024-11-22 16:18:07 +00:00
kube-bench/cfg/cis-1.9/policies.yaml
Andy Pitcher 7027b6b2ec
Add CIS kubernetes CIS-1.9 for k8s v1.27 - v1.29 (#1617)
* Create cis-1.9 yamls and Update info
      - policies.yaml
          - 5.1.1 to 5.1.6 were adapted from Manual to Automated
          - 5.1.3 got broken down into 5.1.3.1 and 5.1.3.2
          - 5.1.6 got broken down into 5.1.6.1 and 5.1.6.2
          - version was set to cis-1.9
       - node.yaml master.yaml controlplane.yaml etcd.yaml
          - version was set to cis-1.9

* Adapt master.yaml
    - Expand 1.1.13/1.1.14 checks by adding super-admin.conf to the permission and ownership verification
    - Remove 1.2.12 Ensure that the admission control plugin SecurityContextDeny is set if PodSecurityPolicy is not used (Manual)
    - Adjust numbering from 1.2.12 to 1.2.29

* Adjust policies.yaml
   - Check 5.2.3 to 5.2.9 Title Automated to Manual

* Append node.yaml
   - Create 4.3 kube-config group
   - Create 4.3.1 Ensure that the kube-proxy metrics service is bound to localhost (Automated)

* Adjust policies 5.1.3 and 5.1.6

   - Merge 5.1.3.1 and 5.1.3.2 into 5.1.3 (use role_is_compliant and clusterrole_is_compliant)
   - Remove 5.1.6.1 and promote 5.1.6.2 to 5.1.6 since it natively covered 5.1.6.1 artifacts

* Add kubectl dependency and update publish
   - Download kubectl (build stage) based on version and architecture
   - Add binary checksum verification
   - Use go env GOARCH for ARCH
2024-06-26 15:53:57 +03:00

373 lines
17 KiB
YAML

---
controls:
version: "cis-1.9"
id: 5
text: "Kubernetes Policies"
type: "policies"
groups:
- id: 5.1
text: "RBAC and Service Accounts"
checks:
- id: 5.1.1
text: "Ensure that the cluster-admin role is only used where required (Automated)"
audit: |
kubectl get clusterrolebindings -o=custom-columns=NAME:.metadata.name,ROLE:.roleRef.name,SUBJECT:.subjects[*].name --no-headers | while read -r role_name role_binding subject
do
if [[ "${role_name}" != "cluster-admin" && "${role_binding}" == "cluster-admin" ]]; then
is_compliant="false"
else
is_compliant="true"
fi;
echo "**role_name: ${role_name} role_binding: ${rolebinding} subject: ${subject} is_compliant: ${is_compliant}"
done
use_multiple_values: true
tests:
test_items:
- flag: "is_compliant"
compare:
op: eq
value: true
remediation: |
Identify all clusterrolebindings to the cluster-admin role. Check if they are used and
if they need this role or if they could use a role with fewer privileges.
Where possible, first bind users to a lower privileged role and then remove the
clusterrolebinding to the cluster-admin role : kubectl delete clusterrolebinding [name]
Condition: is_compliant is false if rolename is not cluster-admin and rolebinding is cluster-admin.
scored: true
- id: 5.1.2
text: "Minimize access to secrets (Automated)"
audit: "echo \"canGetListWatchSecretsAsSystemAuthenticated: $(kubectl auth can-i get,list,watch secrets --all-namespaces --as=system:authenticated)\""
tests:
test_items:
- flag: "canGetListWatchSecretsAsSystemAuthenticated"
compare:
op: eq
value: no
remediation: |
Where possible, remove get, list and watch access to Secret objects in the cluster.
scored: true
- id: 5.1.3
text: "Minimize wildcard use in Roles and ClusterRoles (Automated)"
audit: |
# Check Roles
kubectl get roles --all-namespaces -o custom-columns=ROLE_NAMESPACE:.metadata.namespace,ROLE_NAME:.metadata.name --no-headers | while read -r role_namespace role_name
do
role_rules=$(kubectl get role -n "${role_namespace}" "${role_name}" -o=json | jq -c '.rules')
if echo "${role_rules}" | grep -q "\[\"\*\"\]"; then
role_is_compliant="false"
else
role_is_compliant="true"
fi;
echo "**role_name: ${role_name} role_namespace: ${role_namespace} role_rules: ${role_rules} role_is_compliant: ${role_is_compliant}"
done
# Check ClusterRoles
kubectl get clusterroles -o custom-columns=CLUSTERROLE_NAME:.metadata.name --no-headers | while read -r clusterrole_name
do
clusterrole_rules=$(kubectl get clusterrole "${clusterrole_name}" -o=json | jq -c '.rules')
if echo "${clusterrole_rules}" | grep -q "\[\"\*\"\]"; then
clusterrole_is_compliant="false"
else
clusterrole_is_compliant="true"
fi;
echo "**clusterrole_name: ${clusterrole_name} clusterrole_rules: ${clusterrole_rules} clusterrole_is_compliant: ${clusterrole_is_compliant}"
done
use_multiple_values: true
tests:
bin_op: or
test_items:
- flag: "role_is_compliant"
compare:
op: eq
value: true
set: true
- flag: "clusterrole_is_compliant"
compare:
op: eq
value: true
set: true
remediation: |
Where possible replace any use of wildcards ["*"] in roles and clusterroles with specific
objects or actions.
Condition: role_is_compliant is false if ["*"] is found in rules.
Condition: clusterrole_is_compliant is false if ["*"] is found in rules.
scored: true
- id: 5.1.4
text: "Minimize access to create pods (Automated)"
audit: |
echo "canCreatePodsAsSystemAuthenticated: $(kubectl auth can-i create pods --all-namespaces --as=system:authenticated)"
tests:
test_items:
- flag: "canCreatePodsAsSystemAuthenticated"
compare:
op: eq
value: no
remediation: |
Where possible, remove create access to pod objects in the cluster.
scored: true
- id: 5.1.5
text: "Ensure that default service accounts are not actively used. (Automated)"
audit: |
kubectl get serviceaccount --all-namespaces --field-selector metadata.name=default -o=json | jq -r '.items[] | " namespace: \(.metadata.namespace), kind: \(.kind), name: \(.metadata.name), automountServiceAccountToken: \(.automountServiceAccountToken | if . == null then "notset" else . end )"' | xargs -L 1
use_multiple_values: true
tests:
test_items:
- flag: "automountServiceAccountToken"
compare:
op: eq
value: false
set: true
remediation: |
Create explicit service accounts wherever a Kubernetes workload requires specific access
to the Kubernetes API server.
Modify the configuration of each default service account to include this value
`automountServiceAccountToken: false`.
scored: true
- id: 5.1.6
text: "Ensure that Service Account Tokens are only mounted where necessary (Automated)"
audit: |
kubectl get pods --all-namespaces -o custom-columns=POD_NAMESPACE:.metadata.namespace,POD_NAME:.metadata.name,POD_SERVICE_ACCOUNT:.spec.serviceAccount,POD_IS_AUTOMOUNTSERVICEACCOUNTTOKEN:.spec.automountServiceAccountToken --no-headers | while read -r pod_namespace pod_name pod_service_account pod_is_automountserviceaccounttoken
do
# Retrieve automountServiceAccountToken's value for ServiceAccount and Pod, set to notset if null or <none>.
svacc_is_automountserviceaccounttoken=$(kubectl get serviceaccount -n ${pod_namespace} ${pod_service_account} -o json | jq -r '.automountServiceAccountToken' | sed -e 's/<none>/notset/g' -e 's/null/notset/g')
pod_is_automountserviceaccounttoken=$(echo ${pod_is_automountserviceaccounttoken} | sed -e 's/<none>/notset/g' -e 's/null/notset/g')
if [[ "${svacc_is_automountserviceaccounttoken}" == "false" && ( "${pod_is_automountserviceaccounttoken}" == "false" || "${pod_is_automountserviceaccounttoken}" == "notset" ) ]]; then
is_compliant="true"
elif [[ "${svacc_is_automountserviceaccounttoken}" == "true" && "${pod_is_automountserviceaccounttoken}" == "false" ]]; then
is_compliant="true"
else
is_compliant="false"
fi
echo "**namespace: ${pod_namespace} pod_name: ${pod_name} service_account: ${pod_service_account} pod_is_automountserviceaccounttoken: ${pod_is_automountserviceaccounttoken} svacc_is_automountServiceAccountToken: ${svacc_is_automountserviceaccounttoken} is_compliant: ${is_compliant}"
done
use_multiple_values: true
tests:
test_items:
- flag: "is_compliant"
compare:
op: eq
value: true
remediation: |
Modify the definition of ServiceAccounts and Pods which do not need to mount service
account tokens to disable it, with `automountServiceAccountToken: false`.
If both the ServiceAccount and the Pod's .spec specify a value for automountServiceAccountToken, the Pod spec takes precedence.
Condition: Pod is_compliant to true when
- ServiceAccount is automountServiceAccountToken: false and Pod is automountServiceAccountToken: false or notset
- ServiceAccount is automountServiceAccountToken: true notset and Pod is automountServiceAccountToken: false
scored: true
- id: 5.1.7
text: "Avoid use of system:masters group (Manual)"
type: "manual"
remediation: |
Remove the system:masters group from all users in the cluster.
scored: false
- id: 5.1.8
text: "Limit use of the Bind, Impersonate and Escalate permissions in the Kubernetes cluster (Manual)"
type: "manual"
remediation: |
Where possible, remove the impersonate, bind and escalate rights from subjects.
scored: false
- id: 5.1.9
text: "Minimize access to create persistent volumes (Manual)"
type: "manual"
remediation: |
Where possible, remove create access to PersistentVolume objects in the cluster.
scored: false
- id: 5.1.10
text: "Minimize access to the proxy sub-resource of nodes (Manual)"
type: "manual"
remediation: |
Where possible, remove access to the proxy sub-resource of node objects.
scored: false
- id: 5.1.11
text: "Minimize access to the approval sub-resource of certificatesigningrequests objects (Manual)"
type: "manual"
remediation: |
Where possible, remove access to the approval sub-resource of certificatesigningrequest objects.
scored: false
- id: 5.1.12
text: "Minimize access to webhook configuration objects (Manual)"
type: "manual"
remediation: |
Where possible, remove access to the validatingwebhookconfigurations or mutatingwebhookconfigurations objects
scored: false
- id: 5.1.13
text: "Minimize access to the service account token creation (Manual)"
type: "manual"
remediation: |
Where possible, remove access to the token sub-resource of serviceaccount objects.
scored: false
- id: 5.2
text: "Pod Security Standards"
checks:
- id: 5.2.1
text: "Ensure that the cluster has at least one active policy control mechanism in place (Manual)"
type: "manual"
remediation: |
Ensure that either Pod Security Admission or an external policy control system is in place
for every namespace which contains user workloads.
scored: false
- id: 5.2.2
text: "Minimize the admission of privileged containers (Manual)"
type: "manual"
remediation: |
Add policies to each namespace in the cluster which has user workloads to restrict the
admission of privileged containers.
scored: false
- id: 5.2.3
text: "Minimize the admission of containers wishing to share the host process ID namespace (Manual)"
type: "manual"
remediation: |
Add policies to each namespace in the cluster which has user workloads to restrict the
admission of `hostPID` containers.
scored: false
- id: 5.2.4
text: "Minimize the admission of containers wishing to share the host IPC namespace (Manual)"
type: "manual"
remediation: |
Add policies to each namespace in the cluster which has user workloads to restrict the
admission of `hostIPC` containers.
scored: false
- id: 5.2.5
text: "Minimize the admission of containers wishing to share the host network namespace (Manual)"
type: "manual"
remediation: |
Add policies to each namespace in the cluster which has user workloads to restrict the
admission of `hostNetwork` containers.
scored: false
- id: 5.2.6
text: "Minimize the admission of containers with allowPrivilegeEscalation (Manual)"
type: "manual"
remediation: |
Add policies to each namespace in the cluster which has user workloads to restrict the
admission of containers with `.spec.allowPrivilegeEscalation` set to `true`.
scored: false
- id: 5.2.7
text: "Minimize the admission of root containers (Manual)"
type: "manual"
remediation: |
Create a policy for each namespace in the cluster, ensuring that either `MustRunAsNonRoot`
or `MustRunAs` with the range of UIDs not including 0, is set.
scored: false
- id: 5.2.8
text: "Minimize the admission of containers with the NET_RAW capability (Manual)"
type: "manual"
remediation: |
Add policies to each namespace in the cluster which has user workloads to restrict the
admission of containers with the `NET_RAW` capability.
scored: false
- id: 5.2.9
text: "Minimize the admission of containers with added capabilities (Manual)"
type: "manual"
remediation: |
Ensure that `allowedCapabilities` is not present in policies for the cluster unless
it is set to an empty array.
scored: false
- id: 5.2.10
text: "Minimize the admission of containers with capabilities assigned (Manual)"
type: "manual"
remediation: |
Review the use of capabilites in applications running on your cluster. Where a namespace
contains applicaions which do not require any Linux capabities to operate consider adding
a PSP which forbids the admission of containers which do not drop all capabilities.
scored: false
- id: 5.2.11
text: "Minimize the admission of Windows HostProcess containers (Manual)"
type: "manual"
remediation: |
Add policies to each namespace in the cluster which has user workloads to restrict the
admission of containers that have `.securityContext.windowsOptions.hostProcess` set to `true`.
scored: false
- id: 5.2.12
text: "Minimize the admission of HostPath volumes (Manual)"
type: "manual"
remediation: |
Add policies to each namespace in the cluster which has user workloads to restrict the
admission of containers with `hostPath` volumes.
scored: false
- id: 5.2.13
text: "Minimize the admission of containers which use HostPorts (Manual)"
type: "manual"
remediation: |
Add policies to each namespace in the cluster which has user workloads to restrict the
admission of containers which use `hostPort` sections.
scored: false
- id: 5.3
text: "Network Policies and CNI"
checks:
- id: 5.3.1
text: "Ensure that the CNI in use supports NetworkPolicies (Manual)"
type: "manual"
remediation: |
If the CNI plugin in use does not support network policies, consideration should be given to
making use of a different plugin, or finding an alternate mechanism for restricting traffic
in the Kubernetes cluster.
scored: false
- id: 5.3.2
text: "Ensure that all Namespaces have NetworkPolicies defined (Manual)"
type: "manual"
remediation: |
Follow the documentation and create NetworkPolicy objects as you need them.
scored: false
- id: 5.4
text: "Secrets Management"
checks:
- id: 5.4.1
text: "Prefer using Secrets as files over Secrets as environment variables (Manual)"
type: "manual"
remediation: |
If possible, rewrite application code to read Secrets from mounted secret files, rather than
from environment variables.
scored: false
- id: 5.4.2
text: "Consider external secret storage (Manual)"
type: "manual"
remediation: |
Refer to the Secrets management options offered by your cloud provider or a third-party
secrets management solution.
scored: false
- id: 5.5
text: "Extensible Admission Control"
checks:
- id: 5.5.1
text: "Configure Image Provenance using ImagePolicyWebhook admission controller (Manual)"
type: "manual"
remediation: |
Follow the Kubernetes documentation and setup image provenance.
scored: false
- id: 5.7
text: "General Policies"
checks:
- id: 5.7.1
text: "Create administrative boundaries between resources using namespaces (Manual)"
type: "manual"
remediation: |
Follow the documentation and create namespaces for objects in your deployment as you need
them.
scored: false
- id: 5.7.2
text: "Ensure that the seccomp profile is set to docker/default in your Pod definitions (Manual)"
type: "manual"
remediation: |
Use `securityContext` to enable the docker/default seccomp profile in your pod definitions.
An example is as below:
securityContext:
seccompProfile:
type: RuntimeDefault
scored: false
- id: 5.7.3
text: "Apply SecurityContext to your Pods and Containers (Manual)"
type: "manual"
remediation: |
Follow the Kubernetes documentation and apply SecurityContexts to your Pods. For a
suggested list of SecurityContexts, you may refer to the CIS Security Benchmark for Docker
Containers.
scored: false
- id: 5.7.4
text: "The default namespace should not be used (Manual)"
type: "manual"
remediation: |
Ensure that namespaces are created to allow for appropriate segregation of Kubernetes
resources and that all new resources are created in a specific namespace.
scored: false