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Coherence Spring Sock Shop

This project is an implementation of a stateful, microservices based application that uses Oracle Coherence CE as a scalable embedded data store, and Spring Boot as application framework.

The application is an online store that sells socks, and is based on the SockShop Microservices Demo originally written and published under Apache 2.0 license by Weaveworks.

You can see a working demo of the original application here.

This demo still uses the original front end implementation provided by Weaveworks, but all back end services have been re-implemented from scratch using Spring Boot and Oracle Coherence, in order to showcase some features of the Coherence Spring integration.

We also provide the implementations of the same application that use Micronaut or Helidon as the application framework, in case one of those is your framework of choice.

Table of Contents

Architecture

The application consists of 6 back end services (rewritten from the ground up on top of Spring Boot, implementing the API that the legacy front-end service expects).

Architecture Diagram

  • Product Catalog, which provides REST API that allows you to search product catalog and retrieve individual product details;

  • Shopping Cart, which provides REST API that allows you to manage customers' shopping carts;

  • Orders, which provides REST API that allows customers to place orders;

  • Payment, which provides REST API that allows you to process payments;

  • Shipping, which provides REST API that allows you to ship orders and track shipments;

  • Users, which provides REST API that allows you to manage customer information and provides registration and authentication functionality for the customers.

You can find more details for each service within documentation pages for individual services, which can be accessed using the links above.

Project Structure

The main Sock Shop repository also contains Kubernetes deployment files for the whole application, top-level POM file which allows you to easily build the whole project and import it into your favorite IDE.

How to Run

Kubernetes scripts depend on Kustomize, so make sure that you have a newer version of kubectl that supports it (at least 1.16 or above).

The easiest way to try the demo is to use Kubernetes deployment scripts from this repo. If you do, you can simply run the following commands from the coherence-spring-sockshop directory:

  • Install the Coherence Operator

    Install the Coherence Operator using the instructions in the Coherence Operator Quick Start documentation.

  • Installing a Back-end

    We create a namespace called sockshop.

    $ kubectl create namespace sockshop
    namespace/sockshop created

    Install the back-end into the sockshop namespace.

    $ kubectl --namespace sockshop apply -k k8s/coherence 

    The -k parameter above will use kubectl with kustomize to merge all the files under the specified directory and create all Kubernetes resources defined by them, such as deployments and services for each microservice.

TIP: You can see the state of the pods using:

kubectl --namespace sockshop get pods

(Optional) Install the Original WeaveSocks Front End

Warning: The original WeaveSocks Front End has a few bugs, as well as some security issues, and it hasn't been actively maintained for a few years. However, if you want to deploy it nevertheless to see how it interacts with our back-end services, please follow the steps below.

Install the front-end service by running the following command:

$ kubectl apply -f k8s/optional/original-front-end.yaml --namespace sockshop

Port-forward to the front-end UI using the following

Mac/Linux

$ export FRONT_END_POD=$(kubectl get pods --namespace sockshop -o jsonpath='{.items[?(@.metadata.labels.app == "front-end")].metadata.name}')
$ kubectl port-forward --namespace sockshop $FRONT_END_POD 8079:8079

Windows

kubectl get pods --namespace sockshop -o jsonpath='{.items[?(@.metadata.labels.app == "front-end")].metadata.name}' > pod.txt
SET /P FRONT_END_POD=<pod.txt
kubectl port-forward --namespace sockshop %FRONT_END_POD% 8079:8079

Note: If you have installed into a namespace then add the --namespace option to all kubectl commands in these instructions.

You should be able to access the home page for the application by pointing your browser to http://localhost:8079/.

You should then be able to browse product catalog, add products to shopping cart, register as a new user, place an order, browse order history, etc.

By default, 3 users are already available:

  • username Eve_Berger with password eve
  • username user with password password
  • username user1 with password password

Once you are finished, you can clean up the environment by executing the following:

$ kubectl delete -f k8s/optional/original-front-end.yaml --namespace sockshop
$ kubectl delete -k k8s/coherence --namespace sockshop

Scale Back-End

If you wish to scale the back-end you can issue the following command

Scale only the orders microservice:

$ kubectl --namespace sockshop scale coherence/orders --replicas=3

Or alternatively scale all the microservices:

$ for name in carts catalog orders payment shipping users
    do kubectl --namespace sockshop scale coherence/$name --replicas=3
done

Clean Local Docker/Kubernetes

kubectl delete --all pods --namespace=sockshop
docker system prune -a

(Optional) Kubernetes Dashboard

It might be useful to get more visual insight into the Kubernetes deployment by using the Kubernetes Dashboard

For logging in you will need a token which you can generate with:

kubectl -n kube-system describe secret $(kubectl -n kube-system get secret | awk '/^deployment-controller-token-/{print $1}') | awk '$1=="token:"{print $2}'

Complete Application Deployment

The How to Run above shows how you can run the application locally, but that may not be enough if you want to experiment by scaling individual services, look at tracing data in Jaeger, monitor services via Prometheus and Grafana, or make API calls directly via Swagger UI.

To do all the above, you need to deploy the services into a managed Kubernetes cluster in the cloud, by following the same set of steps described above (except for port forwarding, which is not necessary), and performing a few additional steps.

Go to Complete Application Deployment section

Development

If you want to modify the demo, you will need to check out the code for the project, build it locally, and (optionally) push new container images to the repository of your choice.

Go to Development section

Contributing

This project welcomes contributions from the community. Before submitting a pull request, please review our contribution guide

Security

Please consult the security guide for our responsible security vulnerability disclosure process

License

The Universal Permissive License (UPL), Version 1.0