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Short Description
Unofficial docker image for spring-restbucks
Full Description

Spring Restbucks

This project is a sample implementation of the Restbucks application described in the book REST in Practice by Jim Webber, Savas Parastatidis and Ian Robinson. It's a showcase for bringing different Spring eco-system technologies together to implement a REST web service. The application uses HAL as the primary representation format.


From the command line do:

git clone
cd spring-restbucks
./mvnw clean package
java -jar target/*.jar

The application ships with the HAL browser embedded, so simply browsing to http://localhost:8080/browser/index.html will allow you to explore the web service.

Note, that the curie links in the representations are currently not backed by any documents served but they will be in the future. Imagine simple HTML pages being served documenting the individual relation types.

Running via Docker

Spring Restbucks is available on docker hub (at the moment in only as inofficial docker image). You can execute it by running the following command.

docker run -p 8080:8080 otrosien/spring-restbucks:latest

IDE setup

For the usage inside an IDE do the following:

  1. Make sure you have an Eclipse with m2e installed (preferably STS).
  2. Install Lombok.

    1. Download it from the project page.
    2. Run the JAR (double click or java -jar …).
    3. Point it to your Eclipse installation, run the install.
    4. Restart Eclipse.
  3. Import the checked out code through File > Import > Existing Maven Project…

Project description

The project uses:

The implementation consists of mainly two parts, the order and the payment part. The Orders are exposed as REST resources using Spring Data RESTs capability to automatically expose Spring Data JPA repositories contained in the application. The Payment process and the REST application protocol described in the book are implemented manually using a Spring MVC controller (PaymentController).

Here's what the individual projects used contribute to the sample in from a high-level point of view:

Spring Data JPA

The Spring Data repository mechanism is used to reduce the effort to implement persistence for the domain objects to the declaration of an interface per aggregate root. See OrderRepository and PaymentRepository for example. Beyond that, using the repository abstract enables the Spring Data REST module to do its work.

Spring Data REST

We're using Spring Data REST to expose the OrderRepository as REST resource without additional effort.


Spring HATEOAS provides a generic Resource abstraction that we leverage to create hypermedia-driven representations. Spring Data REST also leverages this abstraction so that we can deploy ResourceProcessor implementations (e.g. PaymentorderResourceProcessor) to enrich the representations for Order instance with links to the PaymentController. Read more on that below in the Hypermedia section.

The final important piece is the EntityLinks abstraction that allows to create Link instance in a type-safe manner avoiding the repetition of URI templates and parts all over the place. See PaymentLinks for example usage.

Spring Plugin

The Spring Plugin library provides means to collect Spring beans by type and exposing them for selection based on a selection criterion. It basically forms the foundation for the EntityLinks mechanism provided in Spring HATEOAS and our custom extension RestResourceEntityLinks.

Spring Security / Spring Session

The spring-session branch contains additional configuration to secure the service using Spring Security, HTTP Basic authentication and Spring Session's HTTP header based session strategy to allow clients to obtain a security token via the X-Auth-Token header and using that for subsequent requests.

If you check out the branch and run the sample you should be able to follow this interaction (I am using HTTPie here)

$ http :8080
HTTP/1.1 401 Unauthorized
WWW-Authenticate: Basic realm="Spring RESTBucks"

You can now authenticate using the default credentials (the password password is configured in

$ http :8080 --auth=user:password
HTTP/1.1 200 OK
Content-Type: application/hal+json;charset=UTF-8
X-Auth-Token: ef005d62-b69b-4675-b920-d340a238e857

Now you can use the presented auth token in further requests:

$ http :8080 X-Auth-Token:ef005d62-b69b-4675-b920-d340a238e857
HTTP/1.1 200 OK
Content-Type: application/hal+json;charset=UTF-8


The project uses Lombok to reduce the amount of boilerplate code to be written for Java entities and value objects.


A core focus of this sample app is to demonstrate how easy resources can be modeled in a hypermedia driven way. There are two major aspects to this challenge in Java web-frameworks:

  1. Creating links and especially the target URL in a clean and concise way, trying to avoid the usage of Strings to define URI mappings and targets and especially the repetition of those. On the server side, we'd essentially like to express "link to the resource that manages Order instances" or "link to the resource that manages a single Order instance.

  2. Cleanly separate resource functionality implementation but still allowing to leverage hypermedia to advertise new functionality for resources as the service implementation evolves. This essentially boils down to an enrichment of resource representations with links.

In our sample the core spot these challenges occur is the payment subsystem and the PaymentController in particular.


The repository currently contains an alps branch that is based on a feature branch of Spring Data REST to automatically expose resources that server ALPS metadata for teh resources exposed.

git checkout alps
mvn spring-boot:run
curl http://localhost:8080

This will return:

  "_links" : {
    "profile" : {
      "href" : "http://localhost:8080/alps"

You can then follow the profile link to access all available ALPS resources, such as the one for orders, a link relation also listed in the response for the root resource.

TODO - complete

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