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Patient Portal

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A simple database-backed web application that runs in the public cloud but keeps its data in a private database

This example is part of a suite of examples showing the different ways you can use Skupper to connect services across cloud providers, data centers, and edge sites.

Contents

Overview

This example is a simple database-backed web application that shows how you can use Skupper to access a database at a remote site without exposing it to the public internet.

It contains three services:

  • A PostgreSQL database running on a bare-metal or virtual machine in a private data center.

  • A payment-processing service running on Kubernetes in a private data center.

  • A web frontend service running on Kubernetes in the public cloud. It uses the PostgreSQL database and the payment-processing service.

This example uses two Kubernetes namespaces, "private" and "public", to represent the private Kubernetes cluster and the public cloud.

Prerequisites

Step 1: Install the Skupper command-line tool

The skupper command-line tool is the primary entrypoint for installing and configuring the Skupper infrastructure. You need to install the skupper command only once for each development environment.

On Linux or Mac, you can use the install script (inspect it here) to download and extract the command:

curl https://skupper.io/install.sh | sh

The script installs the command under your home directory. It prompts you to add the command to your path if necessary.

For Windows and other installation options, see Installing Skupper.

Step 2: Configure separate console sessions

Skupper is designed for use with multiple namespaces, usually on different clusters. The skupper command uses your kubeconfig and current context to select the namespace where it operates.

Your kubeconfig is stored in a file in your home directory. The skupper and kubectl commands use the KUBECONFIG environment variable to locate it.

A single kubeconfig supports only one active context per user. Since you will be using multiple contexts at once in this exercise, you need to create distinct kubeconfigs.

Start a console session for each of your namespaces. Set the KUBECONFIG environment variable to a different path in each session.

Console for public:

export KUBECONFIG=~/.kube/config-public

Console for private:

export KUBECONFIG=~/.kube/config-private

Step 3: Access your clusters

The methods for accessing your clusters vary by Kubernetes provider. Find the instructions for your chosen providers and use them to authenticate and configure access for each console session. See the following links for more information:

Step 4: Set up your namespaces

Use kubectl create namespace to create the namespaces you wish to use (or use existing namespaces). Use kubectl config set-context to set the current namespace for each session.

Console for public:

kubectl create namespace public
kubectl config set-context --current --namespace public

Sample output:

$ kubectl create namespace public
namespace/public created

$ kubectl config set-context --current --namespace public
Context "minikube" modified.

Console for private:

kubectl create namespace private
kubectl config set-context --current --namespace private

Sample output:

$ kubectl create namespace private
namespace/private created

$ kubectl config set-context --current --namespace private
Context "minikube" modified.

Step 5: Install Skupper in your namespaces

The skupper init command installs the Skupper router and service controller in the current namespace. Run the skupper init command in each namespace.

Note: If you are using Minikube, you need to start minikube tunnel before you install Skupper.

Console for public:

skupper init

Sample output:

$ skupper init
Waiting for LoadBalancer IP or hostname...
Skupper is now installed in namespace 'public'.  Use 'skupper status' to get more information.

Console for private:

skupper init

Sample output:

$ skupper init
Waiting for LoadBalancer IP or hostname...
Skupper is now installed in namespace 'private'.  Use 'skupper status' to get more information.

Step 6: Check the status of your namespaces

Use skupper status in each console to check that Skupper is installed.

Console for public:

skupper status

Sample output:

$ skupper status
Skupper is enabled for namespace "public" in interior mode. It is connected to 1 other site. It has 1 exposed service.
The site console url is: <console-url>
The credentials for internal console-auth mode are held in secret: 'skupper-console-users'

Console for private:

skupper status

Sample output:

$ skupper status
Skupper is enabled for namespace "private" in interior mode. It is connected to 1 other site. It has 1 exposed service.
The site console url is: <console-url>
The credentials for internal console-auth mode are held in secret: 'skupper-console-users'

As you move through the steps below, you can use skupper status at any time to check your progress.

Step 7: Link your namespaces

Creating a link requires use of two skupper commands in conjunction, skupper token create and skupper link create.

The skupper token create command generates a secret token that signifies permission to create a link. The token also carries the link details. Then, in a remote namespace, The skupper link create command uses the token to create a link to the namespace that generated it.

Note: The link token is truly a secret. Anyone who has the token can link to your namespace. Make sure that only those you trust have access to it.

First, use skupper token create in one namespace to generate the token. Then, use skupper link create in the other to create a link.

Console for public:

skupper token create ~/secret.token

Sample output:

$ skupper token create ~/secret.token
Token written to ~/secret.token

Console for private:

skupper link create ~/secret.token

Sample output:

$ skupper link create ~/secret.token
Site configured to link to https://10.105.193.154:8081/ed9c37f6-d78a-11ec-a8c7-04421a4c5042 (name=link1)
Check the status of the link using 'skupper link status'.

If your console sessions are on different machines, you may need to use sftp or a similar tool to transfer the token securely. By default, tokens expire after a single use or 15 minutes after creation.

Step 8: Deploy and expose the database

Use docker to run the database service on your local machine. In the public namespace, use the skupper gateway expose command to expose the database on the Skupper network.

Use kubectl get service/database to ensure the database service is available.

Console for public:

docker run --name database --detach --rm -p 5432:5432 quay.io/skupper/patient-portal-database
skupper gateway expose database localhost 5432 --type docker
kubectl get service/database

Sample output:

$ skupper gateway expose database localhost 5432 --type docker
2022/05/19 16:37:00 CREATE io.skupper.router.tcpConnector fancypants-jross-egress-database:5432 map[address:database:5432 host:localhost name:fancypants-jross-egress-database:5432 port:5432 siteId:0e7b70cf-1931-4c93-9614-0ecb3d0d6522]

$ kubectl get service/database
NAME       TYPE        CLUSTER-IP     EXTERNAL-IP   PORT(S)    AGE
database   ClusterIP   10.104.77.32   <none>        5432/TCP   15s

Step 9: Deploy and expose the payment processor

In the private namespace, use the kubectl apply command to deploy the payment processor service. Use the skupper expose command to expose the service on the Skupper network.

In the public namespace, use kubectl get service/payment-processor to check that the payment-processor service appears after a moment.

Console for private:

kubectl apply -f payment-processor/kubernetes.yaml
skupper expose deployment/payment-processor --port 8080

Sample output:

$ kubectl apply -f payment-processor/kubernetes.yaml
deployment.apps/payment-processor created

$ skupper expose deployment/payment-processor --port 8080
deployment payment-processor exposed as payment-processor

Console for public:

kubectl get service/payment-processor

Sample output:

$ kubectl get service/payment-processor
NAME                TYPE        CLUSTER-IP       EXTERNAL-IP   PORT(S)    AGE
payment-processor   ClusterIP   10.103.227.109   <none>        8080/TCP   1s

Step 10: Deploy and expose the frontend

In the public namespace, use the kubectl apply command to deploy the frontend service. This also sets up an external load balancer for the frontend.

Console for public:

kubectl apply -f frontend/kubernetes.yaml

Sample output:

$ kubectl apply -f frontend/kubernetes.yaml
deployment.apps/frontend created
service/frontend created

Step 11: Test the application

Now we're ready to try it out. Use kubectl get service/frontend to look up the external IP of the frontend service. Then use curl or a similar tool to request the /api/health endpoint at that address.

Note: The <external-ip> field in the following commands is a placeholder. The actual value is an IP address.

Console for public:

kubectl get service/frontend
curl http://<external-ip>:8080/api/health

Sample output:

$ kubectl get service/frontend
NAME       TYPE           CLUSTER-IP      EXTERNAL-IP     PORT(S)          AGE
frontend   LoadBalancer   10.103.232.28   <external-ip>   8080:30407/TCP   15s

$ curl http://<external-ip>:8080/api/health
OK

If everything is in order, you can now access the web interface by navigating to http://<external-ip>:8080/ in your browser.

Cleaning up

To remove Skupper and the other resources from this exercise, use the following commands.

Console for public:

docker stop database
skupper gateway delete
skupper delete
kubectl delete service/frontend
kubectl delete deployment/frontend

Console for private:

skupper delete
kubectl delete deployment/payment-processor

Next steps

Check out the other examples on the Skupper website.

About this example

This example was produced using Skewer, a library for documenting and testing Skupper examples.

Skewer provides some utilities for generating the README and running the example steps. Use the ./plano command in the project root to see what is available.

To quickly stand up the example using Minikube, try the ./plano demo command.

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