Claude-skill-registry kubernetes-best-practices
Provides production-ready Kubernetes manifest guidance including resource management, security, high availability, and configuration best practices. This skill should be used when working with Kubernetes YAML files, deployments, pods, services, or when users mention k8s, container orchestration, or cloud-native applications.
git clone https://github.com/majiayu000/claude-skill-registry
T=$(mktemp -d) && git clone --depth=1 https://github.com/majiayu000/claude-skill-registry "$T" && mkdir -p ~/.claude/skills && cp -r "$T/skills/data/kubernetes-best-practices" ~/.claude/skills/majiayu000-claude-skill-registry-kubernetes-best-practices && rm -rf "$T"
skills/data/kubernetes-best-practices/SKILL.mdKubernetes Best Practices
This skill provides guidance for writing production-ready Kubernetes manifests and managing cloud-native applications.
Resource Management
Memory: Set requests and limits to the same value to ensure QoS class and prevent OOM kills.
CPU: Set requests only, omit limits to allow performance bursting and avoid throttling.
resources: requests: memory: "256Mi" cpu: "250m" limits: memory: "256Mi" # No CPU limit
Image Versioning
Always pin specific versions, never use
:latest# Good image: nginx:1.25.3 # Bad image: nginx:latest
For immutability, consider pinning to specific digests.
Configuration Management
Secrets: Sensitive data (passwords, tokens, certificates) ConfigMaps: Non-sensitive configuration (feature flags, URLs, settings)
env: - name: DATABASE_URL valueFrom: secretKeyRef: name: app-secrets key: database-url - name: LOG_LEVEL valueFrom: configMapKeyRef: name: app-config key: log-level
Best practices:
- Never hardcode secrets in manifests
- Use external secret management (Sealed Secrets, External Secrets Operator)
- Rotate secrets regularly
- Limit access with RBAC
Workload Selection
Choose the appropriate workload type:
- Deployment: Stateless applications (web servers, APIs, microservices)
- StatefulSet: Stateful applications (databases, message queues)
- DaemonSet: Node-level services (log collectors, monitoring agents)
- Job/CronJob: Batch processing and scheduled tasks
Security Context
Always implement security best practices:
securityContext: runAsNonRoot: true runAsUser: 1000 fsGroup: 1000 capabilities: drop: - ALL readOnlyRootFilesystem: true allowPrivilegeEscalation: false
Security checklist:
- Run as non-root user
- Drop all capabilities by default
- Use read-only root filesystem
- Disable privilege escalation
- Implement network policies
- Scan images for vulnerabilities
Health Checks
Implement all three probe types:
Liveness: Restart container if unhealthy Readiness: Remove from service endpoints if not ready Startup: Allow slow-starting containers time to initialize
livenessProbe: httpGet: path: /healthz port: 8080 initialDelaySeconds: 30 periodSeconds: 10 readinessProbe: httpGet: path: /ready port: 8080 initialDelaySeconds: 5 periodSeconds: 5 startupProbe: httpGet: path: /startup port: 8080 periodSeconds: 10 failureThreshold: 30
High Availability
Replica counts: Set minimum 2 for production workloads
Pod Disruption Budgets: Maintain availability during voluntary disruptions
apiVersion: policy/v1 kind: PodDisruptionBudget metadata: name: app-pdb spec: minAvailable: 2 selector: matchLabels: app: web-app
Additional HA considerations:
- Use anti-affinity rules for pod distribution across nodes
- Configure graceful shutdown periods
- Implement horizontal pod autoscaling
- Set appropriate resource requests for scheduling
Namespace Organization
Use namespaces for environment isolation and apply resource quotas:
apiVersion: v1 kind: ResourceQuota metadata: name: prod-quota namespace: production spec: hard: requests.cpu: "100" requests.memory: 200Gi persistentvolumeclaims: "10"
Benefits: Logical separation, resource limits, RBAC boundaries, cost tracking
Labels and Annotations
Use consistent, recommended labels:
metadata: labels: app.kubernetes.io/name: myapp app.kubernetes.io/instance: myapp-prod app.kubernetes.io/version: "1.0.0" app.kubernetes.io/component: backend app.kubernetes.io/part-of: ecommerce app.kubernetes.io/managed-by: helm
Service Types
- ClusterIP: Internal cluster communication (default)
- NodePort: External access via node ports (dev/test)
- LoadBalancer: Cloud provider load balancer (production)
- ExternalName: DNS CNAME record (external services)
Storage
Choose appropriate storage class and access mode:
Access Modes:
- ReadWriteOnce (RWO): Single node read-write
- ReadOnlyMany (ROX): Multiple nodes read-only
- ReadWriteMany (RWX): Multiple nodes read-write
apiVersion: v1 kind: PersistentVolumeClaim metadata: name: app-data spec: accessModes: - ReadWriteOnce storageClassName: fast-ssd resources: requests: storage: 10Gi
Validation and Testing
Always validate before applying to production:
- Client-side validation:
kubectl apply --dry-run=client -f manifest.yaml - Server-side validation:
kubectl apply --dry-run=server -f manifest.yaml - Test in staging: Deploy to non-production environment first
- Monitor metrics: Watch resource usage and application health
- Gradual rollout: Use rolling updates with health checks
Application Checklist
When creating or reviewing Kubernetes manifests:
- Resource requests and limits configured
- Specific image version pinned (not :latest)
- Secrets and ConfigMaps used for configuration
- Security context implemented (non-root, dropped capabilities)
- Health checks configured (liveness, readiness, startup)
- Pod Disruption Budget defined for HA workloads
- Consistent labels applied
- Appropriate workload type selected
- Namespace and resource quotas configured
- Validated with dry-run before applying