--- title: Test your Rust deployment linkTitle: Test your deployment weight: 50 keywords: deploy, kubernetes, rust description: Learn how to test your Rust deployment locally using Kubernetes aliases: - /language/rust/deploy/ - /guides/language/rust/deploy/ --- ## Prerequisites - Complete the previous sections of this guide, starting with [Develop your Rust application](develop.md). - [Turn on Kubernetes](/manuals/desktop/features/kubernetes.md#install-and-turn-on-kubernetes) in Docker Desktop. ## Overview In this section, you'll learn how to use Docker Desktop to deploy your application to a fully-featured Kubernetes environment on your development machine. This lets you to test and debug your workloads on Kubernetes locally before deploying. ## Create a Kubernetes YAML file In your `docker-rust-postgres` directory, create a file named `docker-rust-kubernetes.yaml`. Open the file in an IDE or text editor and add the following contents. Replace `DOCKER_USERNAME/REPO_NAME` with your Docker username and the name of the repository that you created in [Configure CI/CD for your Rust application](configure-ci-cd.md). ```yaml apiVersion: apps/v1 kind: Deployment metadata: labels: service: server name: server namespace: default spec: replicas: 1 selector: matchLabels: service: server strategy: {} template: metadata: labels: service: server spec: initContainers: - name: wait-for-db image: busybox:1.28 command: [ "sh", "-c", 'until nc -zv db 5432; do echo "waiting for db"; sleep 2; done;', ] containers: - image: DOCKER_USERNAME/REPO_NAME name: server imagePullPolicy: Always ports: - containerPort: 8000 hostPort: 5000 protocol: TCP env: - name: ADDRESS value: 0.0.0.0:8000 - name: PG_DBNAME value: example - name: PG_HOST value: db - name: PG_PASSWORD value: mysecretpassword - name: PG_USER value: postgres - name: RUST_LOG value: debug resources: {} restartPolicy: Always status: {} --- apiVersion: apps/v1 kind: Deployment metadata: labels: service: db name: db namespace: default spec: replicas: 1 selector: matchLabels: service: db strategy: type: Recreate template: metadata: labels: service: db spec: containers: - env: - name: POSTGRES_DB value: example - name: POSTGRES_PASSWORD value: mysecretpassword - name: POSTGRES_USER value: postgres image: postgres name: db ports: - containerPort: 5432 protocol: TCP resources: {} restartPolicy: Always status: {} --- apiVersion: v1 kind: Service metadata: labels: service: server name: server namespace: default spec: type: NodePort ports: - name: "5000" port: 5000 targetPort: 8000 nodePort: 30001 selector: service: server status: loadBalancer: {} --- apiVersion: v1 kind: Service metadata: labels: service: db name: db namespace: default spec: ports: - name: "5432" port: 5432 targetPort: 5432 selector: service: db status: loadBalancer: {} ``` In this Kubernetes YAML file, there are four objects, separated by the `---`. In addition to a Service and Deployment for the database, the other two objects are: - A Deployment, describing a scalable group of identical pods. In this case, you'll get just one replica, or copy of your pod. That pod, which is described under `template`, has just one container in it. The container is created from the image built by GitHub Actions in [Configure CI/CD for your Rust application](configure-ci-cd.md). - A NodePort service, which will route traffic from port 30001 on your host to port 5000 inside the pods it routes to, allowing you to reach your app from the network. To learn more about Kubernetes objects, see the [Kubernetes documentation](https://kubernetes.io/docs/home/). ## Deploy and check your application 1. In a terminal, navigate to `docker-rust-postgres` and deploy your application to Kubernetes. ```console $ kubectl apply -f docker-rust-kubernetes.yaml ``` You should see output that looks like the following, indicating your Kubernetes objects were created successfully. ```shell deployment.apps/server created deployment.apps/db created service/server created service/db created ``` 2. Make sure everything worked by listing your deployments. ```console $ kubectl get deployments ``` Your deployment should be listed as follows: ```shell NAME READY UP-TO-DATE AVAILABLE AGE db 1/1 1 1 2m21s server 1/1 1 1 2m21s ``` This indicates all of the pods you asked for in your YAML are up and running. Do the same check for your services. ```console $ kubectl get services ``` You should get output like the following. ```shell NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE db ClusterIP 10.105.167.81 5432/TCP 109s kubernetes ClusterIP 10.96.0.1 443/TCP 9d server NodePort 10.101.235.213 5000:30001/TCP 109s ``` In addition to the default `kubernetes` service, you can see your `service-entrypoint` service, accepting traffic on port 30001/TCP. 3. In a terminal, curl the service. ```console $ curl http://localhost:30001/users [{"id":1,"login":"root"}] ``` 4. Run the following command to tear down your application. ```console $ kubectl delete -f docker-rust-kubernetes.yaml ``` ## Summary In this section, you learned how to use Docker Desktop to deploy your application to a fully-featured Kubernetes environment on your development machine. Related information: - [Kubernetes documentation](https://kubernetes.io/docs/home/) - [Deploy on Kubernetes with Docker Desktop](/manuals/desktop/features/kubernetes.md) - [Swarm mode overview](/manuals/engine/swarm/_index.md)