Agent skill

implementing-rbac-hardening-for-kubernetes

Harden Kubernetes Role-Based Access Control by implementing least-privilege policies, auditing role bindings, eliminating cluster-admin sprawl, and integrating external identity providers.

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SKILL.md

Implementing RBAC Hardening for Kubernetes

Overview

Kubernetes RBAC regulates access to cluster resources based on roles assigned to users, groups, and service accounts. Default configurations often grant excessive permissions, and without active hardening, RBAC becomes a primary attack vector for privilege escalation, lateral movement, and data exfiltration. Hardening requires implementing least-privilege principles, eliminating unnecessary ClusterRole bindings, separating service accounts, integrating external identity providers, and continuous auditing.

When to Use

  • When deploying or configuring implementing rbac hardening for kubernetes capabilities in your environment
  • When establishing security controls aligned to compliance requirements
  • When building or improving security architecture for this domain
  • When conducting security assessments that require this implementation

Prerequisites

  • Kubernetes cluster v1.24+ with RBAC enabled (default since v1.6)
  • kubectl access with cluster-admin for initial audit
  • External identity provider (OIDC) for user authentication
  • Audit logging enabled on the API server

Core Hardening Principles

1. Eliminate cluster-admin Sprawl

Audit and remove unnecessary cluster-admin bindings:

bash
# List all cluster-admin bindings
kubectl get clusterrolebindings -o json | jq -r '
  .items[] |
  select(.roleRef.name == "cluster-admin") |
  "\(.metadata.name) -> \(.subjects[]? | "\(.kind)/\(.name) (\(.namespace // "cluster"))")"
'

2. Namespace-Scoped Roles Over ClusterRoles

Use Role and RoleBinding instead of ClusterRole and ClusterRoleBinding:

yaml
# Good: Namespace-scoped role
apiVersion: rbac.authorization.k8s.io/v1
kind: Role
metadata:
  namespace: application
  name: app-developer
rules:
  - apiGroups: ["apps"]
    resources: ["deployments"]
    verbs: ["get", "list", "watch", "create", "update", "patch"]
  - apiGroups: [""]
    resources: ["pods", "pods/log"]
    verbs: ["get", "list", "watch"]
  - apiGroups: [""]
    resources: ["configmaps"]
    verbs: ["get", "list"]
---
apiVersion: rbac.authorization.k8s.io/v1
kind: RoleBinding
metadata:
  namespace: application
  name: app-developer-binding
subjects:
  - kind: Group
    name: dev-team
    apiGroup: rbac.authorization.k8s.io
roleRef:
  kind: Role
  name: app-developer
  apiGroup: rbac.authorization.k8s.io

3. Dedicated Service Accounts Per Workload

yaml
apiVersion: v1
kind: ServiceAccount
metadata:
  name: payment-processor
  namespace: payments
automountServiceAccountToken: false  # Disable auto-mount
---
apiVersion: apps/v1
kind: Deployment
metadata:
  name: payment-processor
  namespace: payments
spec:
  template:
    spec:
      serviceAccountName: payment-processor
      automountServiceAccountToken: true  # Only mount when explicitly needed
      containers:
        - name: processor
          image: payments/processor:v2.1@sha256:abc...

4. Restrict Dangerous Permissions

Block permissions that enable privilege escalation:

yaml
# Dangerous verbs/resources to restrict:
# - secrets: get, list, watch (exposes all secrets in namespace)
# - pods/exec: create (enables command execution in pods)
# - pods: create with privileged securityContext
# - serviceaccounts/token: create (generates new tokens)
# - clusterroles/clusterrolebindings: create, update (self-escalation)
# - nodes/proxy: create (bypasses API server authorization)

# Safe read-only role example
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRole
metadata:
  name: security-viewer
rules:
  - apiGroups: [""]
    resources: ["pods", "services", "namespaces", "nodes"]
    verbs: ["get", "list", "watch"]
  - apiGroups: ["apps"]
    resources: ["deployments", "daemonsets", "statefulsets"]
    verbs: ["get", "list", "watch"]
  - apiGroups: ["networking.k8s.io"]
    resources: ["networkpolicies"]
    verbs: ["get", "list", "watch"]

5. OIDC Integration for User Authentication

yaml
# API server flags for OIDC integration
apiVersion: v1
kind: Pod
metadata:
  name: kube-apiserver
spec:
  containers:
    - name: kube-apiserver
      command:
        - kube-apiserver
        - --oidc-issuer-url=https://idp.company.com
        - --oidc-client-id=kubernetes
        - --oidc-username-claim=email
        - --oidc-groups-claim=groups
        - --oidc-ca-file=/etc/kubernetes/pki/oidc-ca.crt

RBAC Audit Process

Step 1: Enumerate All Bindings

bash
# All ClusterRoleBindings with subjects
kubectl get clusterrolebindings -o json | jq -r '
  .items[] | select(.subjects != null) |
  .subjects[] as $s |
  "\(.metadata.name) | \(.roleRef.name) | \($s.kind)/\($s.name)"
' | sort | column -t -s '|'

# All RoleBindings across namespaces
kubectl get rolebindings --all-namespaces -o json | jq -r '
  .items[] | select(.subjects != null) |
  .subjects[] as $s |
  "\(.metadata.namespace) | \(.metadata.name) | \(.roleRef.name) | \($s.kind)/\($s.name)"
' | sort | column -t -s '|'

Step 2: Identify Overprivileged Service Accounts

bash
# Find service accounts with cluster-admin or admin roles
kubectl get clusterrolebindings -o json | jq -r '
  .items[] |
  select(.roleRef.name == "cluster-admin" or .roleRef.name == "admin") |
  select(.subjects[]?.kind == "ServiceAccount") |
  "\(.subjects[] | select(.kind == "ServiceAccount") | "\(.namespace)/\(.name)")"
'

Step 3: Check Default Service Account Usage

bash
# Find pods using the default service account
kubectl get pods --all-namespaces -o json | jq -r '
  .items[] |
  select(.spec.serviceAccountName == "default" or .spec.serviceAccountName == null) |
  "\(.metadata.namespace)/\(.metadata.name)"
'

Step 4: Verify Token Auto-Mount

bash
# Find pods with auto-mounted service account tokens
kubectl get pods --all-namespaces -o json | jq -r '
  .items[] |
  select(.spec.automountServiceAccountToken != false) |
  "\(.metadata.namespace)/\(.metadata.name) sa=\(.spec.serviceAccountName // "default")"
'

Tooling

rbac-lookup

bash
# Install rbac-lookup
kubectl krew install rbac-lookup

# View RBAC for a specific user
kubectl rbac-lookup developer@company.com

# View all RBAC bindings wide format
kubectl rbac-lookup --kind user -o wide

rakkess (Review Access)

bash
# Install rakkess
kubectl krew install access-matrix

# Show access matrix for current user
kubectl access-matrix

# Show access for a specific service account
kubectl access-matrix --sa payments:payment-processor

References

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