kubernetes-specialist

Included with Lifetime

$97 forever

Use when deploying or managing Kubernetes workloads. Invoke to create deployment manifests, configure pod security policies, set up service accounts, define network isolation rules, debug pod crashes, analyze resource limits, inspect container logs, or right-size workloads. Use for Helm charts, RBAC policies, NetworkPolicies, storage configuration, performance optimization, GitOps pipelines, and multi-cluster management.

Cloud & DevOps

What this skill does


# Kubernetes Specialist

## When to Use This Skill

- Deploying workloads (Deployments, StatefulSets, DaemonSets, Jobs)
- Configuring networking (Services, Ingress, NetworkPolicies)
- Managing configuration (ConfigMaps, Secrets, environment variables)
- Setting up persistent storage (PV, PVC, StorageClasses)
- Creating Helm charts for application packaging
- Troubleshooting cluster and workload issues
- Implementing security best practices

## Core Workflow

1. **Analyze requirements** — Understand workload characteristics, scaling needs, security requirements
2. **Design architecture** — Choose workload types, networking patterns, storage solutions
3. **Implement manifests** — Create declarative YAML with proper resource limits, health checks
4. **Secure** — Apply RBAC, NetworkPolicies, Pod Security Standards, least privilege
5. **Validate** — Run `kubectl rollout status`, `kubectl get pods -w`, and `kubectl describe pod <name>` to confirm health; roll back with `kubectl rollout undo` if needed

## Reference Guide

Load detailed guidance based on context:

| Topic | Reference | Load When |
|-------|-----------|-----------|
| Workloads | `references/workloads.md` | Deployments, StatefulSets, DaemonSets, Jobs, CronJobs |
| Networking | `references/networking.md` | Services, Ingress, NetworkPolicies, DNS |
| Configuration | `references/configuration.md` | ConfigMaps, Secrets, environment variables |
| Storage | `references/storage.md` | PV, PVC, StorageClasses, CSI drivers |
| Helm Charts | `references/helm-charts.md` | Chart structure, values, templates, hooks, testing, repositories |
| Troubleshooting | `references/troubleshooting.md` | kubectl debug, logs, events, common issues |
| Custom Operators | `references/custom-operators.md` | CRD, Operator SDK, controller-runtime, reconciliation |
| Service Mesh | `references/service-mesh.md` | Istio, Linkerd, traffic management, mTLS, canary |
| GitOps | `references/gitops.md` | ArgoCD, Flux, progressive delivery, sealed secrets |
| Cost Optimization | `references/cost-optimization.md` | VPA, HPA tuning, spot instances, quotas, right-sizing |
| Multi-Cluster | `references/multi-cluster.md` | Cluster API, federation, cross-cluster networking, DR |

## Constraints

### MUST DO
- Use declarative YAML manifests (avoid imperative kubectl commands)
- Set resource requests and limits on all containers
- Include liveness and readiness probes
- Use secrets for sensitive data (never hardcode credentials)
- Apply least privilege RBAC permissions
- Implement NetworkPolicies for network segmentation
- Use namespaces for logical isolation
- Label resources consistently for organization
- Document configuration decisions in annotations

### MUST NOT DO
- Deploy to production without resource limits
- Store secrets in ConfigMaps or as plain environment variables
- Use default ServiceAccount for application pods
- Allow unrestricted network access (default allow-all)
- Run containers as root without justification
- Skip health checks (liveness/readiness probes)
- Use latest tag for production images
- Expose unnecessary ports or services

## Common YAML Patterns

### Deployment with resource limits, probes, and security context

```yaml
apiVersion: apps/v1
kind: Deployment
metadata:
  name: my-app
  namespace: my-namespace
  labels:
    app: my-app
    version: "1.2.3"
spec:
  replicas: 3
  selector:
    matchLabels:
      app: my-app
  template:
    metadata:
      labels:
        app: my-app
        version: "1.2.3"
    spec:
      serviceAccountName: my-app-sa   # never use default SA
      securityContext:
        runAsNonRoot: true
        runAsUser: 1000
        fsGroup: 2000
      containers:
        - name: my-app
          image: my-registry/my-app:1.2.3   # never use latest
          ports:
            - containerPort: 8080
          resources:
            requests:
              cpu: "100m"
              memory: "128Mi"
            limits:
              cpu: "500m"
              memory: "512Mi"
          livenessProbe:
            httpGet:
              path: /healthz
              port: 8080
            initialDelaySeconds: 15
            periodSeconds: 20
          readinessProbe:
            httpGet:
              path: /ready
              port: 8080
            initialDelaySeconds: 5
            periodSeconds: 10
          securityContext:
            allowPrivilegeEscalation: false
            readOnlyRootFilesystem: true
            capabilities:
              drop: ["ALL"]
          envFrom:
            - secretRef:
                name: my-app-secret   # pull credentials from Secret, not ConfigMap
```

### Minimal RBAC (least privilege)

```yaml
apiVersion: v1
kind: ServiceAccount
metadata:
  name: my-app-sa
  namespace: my-namespace
---
apiVersion: rbac.authorization.k8s.io/v1
kind: Role
metadata:
  name: my-app-role
  namespace: my-namespace
rules:
  - apiGroups: [""]
    resources: ["configmaps"]
    verbs: ["get", "list"]   # grant only what is needed
---
apiVersion: rbac.authorization.k8s.io/v1
kind: RoleBinding
metadata:
  name: my-app-rolebinding
  namespace: my-namespace
subjects:
  - kind: ServiceAccount
    name: my-app-sa
    namespace: my-namespace
roleRef:
  kind: Role
  name: my-app-role
  apiGroup: rbac.authorization.k8s.io
```

### NetworkPolicy (default-deny + explicit allow)

```yaml
# Deny all ingress and egress by default
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
  name: default-deny-all
  namespace: my-namespace
spec:
  podSelector: {}
  policyTypes: ["Ingress", "Egress"]
---
# Allow only specific traffic
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
  name: allow-my-app
  namespace: my-namespace
spec:
  podSelector:
    matchLabels:
      app: my-app
  policyTypes: ["Ingress"]
  ingress:
    - from:
        - podSelector:
            matchLabels:
              app: frontend
      ports:
        - protocol: TCP
          port: 8080
```

## Validation Commands

After deploying, verify health and security posture:

```bash
# Watch rollout complete
kubectl rollout status deployment/my-app -n my-namespace

# Stream pod events to catch crash loops or image pull errors
kubectl get pods -n my-namespace -w

# Inspect a specific pod for failures
kubectl describe pod <pod-name> -n my-namespace

# Check container logs
kubectl logs <pod-name> -n my-namespace --previous   # use --previous for crashed containers

# Verify resource usage vs. limits
kubectl top pods -n my-namespace

# Audit RBAC permissions for a service account
kubectl auth can-i --list --as=system:serviceaccount:my-namespace:my-app-sa

# Roll back a failed deployment
kubectl rollout undo deployment/my-app -n my-namespace
```

## Output Templates

When implementing Kubernetes resources, provide:
1. Complete YAML manifests with proper structure
2. RBAC configuration if needed (ServiceAccount, Role, RoleBinding)
3. NetworkPolicy for network isolation
4. Brief explanation of design decisions and security considerations

[Documentation](https://jeffallan.github.io/claude-skills/skills/infrastructure/kubernetes-specialist/)

Files: 12

Size: 129.5 KB

Complexity: 63/100

Category: Cloud & DevOps

Source: https://github.com/jeffallan/claude-skills/tree/main/skills/kubernetes-specialist

Related in Cloud & DevOps

appbuilder-action-scaffolder

Included

Create, implement, deploy, and debug Adobe Runtime actions with consistent layout, validation, and error handling. Use this skill whenever the user needs to add actions to an App Builder project, understand action structure (params, response format, web/raw actions), configure actions in the manifest, use App Builder SDKs (State, Files, Events, database), deploy and invoke actions via CLI, debug action issues, or implement patterns such as webhook receivers, custom event providers, journaling consumers, large payload redirects, action sequence pipelines, and Asset Compute workers. Also trigger when users mention serverless functions in Adobe context, action logging, IMS authentication for actions, or cron-style scheduled actions.

Cloud & DevOpsscripts

orchestrating-datacloud

Included

Salesforce Data Cloud product orchestrator for connect→prepare→harmonize→segment→act workflows. Use this skill when the user needs a multi-step Data Cloud pipeline, cross-phase troubleshooting, or data space and data kit management. TRIGGER when: user needs a multi-step Data Cloud pipeline, asks to set up or troubleshoot Data Cloud across phases, manages data spaces or data kits, or wants a cross-phase sf data360 workflow. DO NOT TRIGGER when: work is isolated to a single phase (use the matching phase-specific skill), the task is STDM/session tracing/parquet telemetry (use observing-agentforce), standard CRM SOQL (use querying-soql), or Apex implementation (use generating-apex).

Cloud & DevOpsscripts

github-project-automation

Included

Automate GitHub repository setup with CI/CD workflows, issue templates, Dependabot, and CodeQL security scanning. Includes 12 production-tested workflows and prevents 18 errors: YAML syntax, action pinning, and configuration. Use when: setting up GitHub Actions CI/CD, creating issue/PR templates, enabling Dependabot or CodeQL scanning, deploying to Cloudflare Workers, implementing matrix testing, or troubleshooting YAML indentation, action version pinning, secrets syntax, runner versions, or CodeQL configuration. Keywords: github actions, github workflow, ci/cd, issue templates, pull request templates, dependabot, codeql, security scanning, yaml syntax, github automation, repository setup, workflow templates, github actions matrix, secrets management, branch protection, codeowners, github projects, continuous integration, continuous deployment, workflow syntax error, action version pinning, runner version, github context, yaml indentation error

Cloud & DevOpsscripts

sf-datacloud

Included

Salesforce Data Cloud product orchestrator for connect→prepare→harmonize→segment→act workflows. TRIGGER when: user needs a multi-step Data Cloud pipeline, asks to set up or troubleshoot Data Cloud across phases, manages data spaces or data kits, or wants a cross-phase `sf data360` workflow. DO NOT TRIGGER when: work is isolated to a single phase (use the matching sf-datacloud-* skill), the task is STDM/session tracing/parquet telemetry (use sf-ai-agentforce-observability), standard CRM SOQL (use sf-soql), or Apex implementation (use sf-apex).

Cloud & DevOpsscripts

fabric-cli

Included

Use this skill for Fabric.so CLI workflows with the `fabric` terminal command: diagnose/install/login, search or browse a Fabric library, save notes/links/files, create folders, ask the Fabric AI assistant, manage tasks/workspaces, generate shell completion, check subscription usage, produce JSON output, and use Fabric as persistent agent memory. Do not use for Microsoft Fabric/Azure/Power BI `fab`, Daniel Miessler's Fabric framework, Python Fabric SSH, Fabric.js, or textile/fashion fabric.

Cloud & DevOpsscripts

lark

Included

Lark/Feishu CLI skills: lark-cli operations for docs, markdown, sheets, base, calendar, im, mail, task, okr, drive, wiki, slides, whiteboard, apps, approval, attendance, contact, vc, minutes, event. Use when the user needs to operate Lark/Feishu resources via lark-cli, send messages, manage documents, spreadsheets, calendars, tasks, OKRs, deploy web pages, or any Feishu/Lark workspace operations.

Cloud & DevOpsscripts