Hosting
Kubernetes
A minimal starting point for running OpenClaw on Kubernetes, not a production-ready deployment. It covers the core resources and is meant to be adapted to your environment.
Why not Helm
OpenClaw is a single container with some config files. The interesting customization is in agent content (Markdown files, skills, config overrides), not infrastructure templating. Kustomize handles overlays without the overhead of a Helm chart. Layer a Helm chart on top of these manifests if your deployment grows more complex.
What you need
- A running Kubernetes cluster (AKS, EKS, GKE, k3s, kind, OpenShift, etc.)
kubectlconnected to your cluster- An API key for at least one model provider
Quick start
# Replace with your provider: ANTHROPIC, GEMINI, OPENAI, or OPENROUTERexport <PROVIDER>_API_KEY="..."./scripts/k8s/deploy.sh kubectl port-forward svc/openclaw 18789:18789 -n openclawopen http://localhost:18789deploy.sh creates token auth by default. Retrieve the generated gateway token for the Control UI:
kubectl get secret openclaw-secrets -n openclaw -o jsonpath='{.data.OPENCLAW_GATEWAY_TOKEN}' | base64 -dFor local debugging, ./scripts/k8s/deploy.sh --show-token prints the token after deploy.
Local testing with Kind
If you do not have a cluster, create one locally with Kind:
./scripts/k8s/create-kind.sh # auto-detects docker or podman./scripts/k8s/create-kind.sh --delete # tear downThen deploy as usual with ./scripts/k8s/deploy.sh.
Step by step
1) Deploy
Option A: API key in environment (one step)
# Replace with your provider: ANTHROPIC, GEMINI, OPENAI, or OPENROUTERexport <PROVIDER>_API_KEY="..."./scripts/k8s/deploy.shThe script creates a Kubernetes Secret with the API key and an auto-generated gateway token, then deploys. If the Secret already exists, it preserves the current gateway token and any provider keys not being changed.
Option B: create the secret separately
export <PROVIDER>_API_KEY="..."./scripts/k8s/deploy.sh --create-secret./scripts/k8s/deploy.shAdd --show-token to either command to print the token to stdout for local testing.
2) Access the gateway
kubectl port-forward svc/openclaw 18789:18789 -n openclawopen http://localhost:18789What gets deployed
Namespace: openclaw (configurable via OPENCLAW_NAMESPACE)├── Deployment/openclaw # Single pod, init container + gateway├── Service/openclaw # ClusterIP on port 18789├── PersistentVolumeClaim # 10Gi for agent state and config├── ConfigMap/openclaw-config # openclaw.json + AGENTS.md└── Secret/openclaw-secrets # Gateway token + API keysCustomization
Agent instructions
Edit the AGENTS.md in scripts/k8s/manifests/configmap.yaml and redeploy:
./scripts/k8s/deploy.shGateway config
Edit openclaw.json in scripts/k8s/manifests/configmap.yaml. See Gateway configuration for the full reference.
Add providers
Re-run with additional keys exported:
export ANTHROPIC_API_KEY="..."export OPENAI_API_KEY="..."./scripts/k8s/deploy.sh --create-secret./scripts/k8s/deploy.shExisting provider keys stay in the Secret unless you overwrite them.
Or patch the Secret directly:
kubectl patch secret openclaw-secrets -n openclaw \ -p '{"stringData":{"<PROVIDER>_API_KEY":"..."}}'kubectl rollout restart deployment/openclaw -n openclawCustom namespace
OPENCLAW_NAMESPACE=my-namespace ./scripts/k8s/deploy.shCustom image
Edit the image field in scripts/k8s/manifests/deployment.yaml:
image: ghcr.io/openclaw/openclaw:slim # primary; official Docker Hub mirror: openclaw/openclawExpose beyond port-forward
The default manifests bind the gateway to loopback inside the pod. That works with kubectl port-forward, but not with a Kubernetes Service or Ingress path that needs to reach the pod IP directly.
To expose the gateway through an Ingress or load balancer:
- Change the gateway bind in
scripts/k8s/manifests/configmap.yamlfromloopbackto a non-loopback bind that matches your deployment model. - Keep gateway auth enabled and use a proper TLS-terminated entrypoint.
- Configure the Control UI for remote access using the supported web security model (for example HTTPS/Tailscale Serve and explicit allowed origins when needed).
Re-deploy
./scripts/k8s/deploy.shThis applies all manifests and restarts the pod to pick up any config or secret changes.
Teardown
./scripts/k8s/deploy.sh --deleteThis deletes the namespace and all resources in it, including the PVC.
Architecture notes
- The gateway binds to loopback inside the pod by default, so the included setup is for
kubectl port-forward. - No cluster-scoped resources; everything lives in a single namespace.
- Security hardening:
readOnlyRootFilesystem,drop: ALLcapabilities, non-root user (UID 1000). - The default config keeps the Control UI on the safer local-access path: loopback bind plus
kubectl port-forwardtohttp://127.0.0.1:18789. - If you move beyond localhost access, use the supported remote model: HTTPS/Tailscale plus the appropriate gateway bind and Control UI origin settings.
- Secrets are generated in a temp directory and applied directly to the cluster; no secret material is written to the repo checkout.
File structure
scripts/k8s/├── deploy.sh # Creates namespace + secret, deploys via kustomize├── create-kind.sh # Local Kind cluster (auto-detects docker/podman)└── manifests/ ├── kustomization.yaml # Kustomize base ├── configmap.yaml # openclaw.json + AGENTS.md ├── deployment.yaml # Pod spec with security hardening ├── pvc.yaml # 10Gi persistent storage └── service.yaml # ClusterIP on 18789