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Chapter 14. Programmatic API for Building Resources

14.1. Introduction

A standard approach of developing JAX-RS application is to implement resource classes annotated with @Path with resource methods annotated with HTTP method annotations like @GET or @POST and implement needed functionality. This approach is described in the chapter JAX-RS Application, Resources and Sub-Resources. Besides this standard JAX-RS approach, Jersey offers an API for constructing resources programmatically.

Imagine a situation where a deployed JAX-RS application consists of many resource classes. These resources implement standard HTTP methods like @GET, @POST, @DELETE. In some situations it would be useful to add an @OPTIONS method which would return some kind of meta data about the deployed resource. Ideally, you would want to expose the functionality as an additional feature and you want to decide at the deploy time whether you want to add your custom OPTIONS method. However, when custom OPTIONS method are not enabled you would like to be OPTIONS requests handled in the standard way by JAX-RS runtime. To achieve this you would need to modify the code to add or remove custom OPTIONS methods before deployment. Another way would be to use programmatic API to build resource according to your needs.

Another use case of programmatic resource builder API is when you build any generic RESTful interface which depends on lot of configuration parameters or for example database structure. Your resource classes would need to have different methods, different structure for every new application deploy. You could use more solutions including approaches where your resource classes would be built using Java byte code manipulation. However, this is exactly the case when you can solve the problem cleanly with the programmatic resource builder API. Let's have a closer look at how the API can be utilized.

14.2. Programmatic Hello World example

Jersey Programmatic API was designed to fully support JAX-RS resource model. In other words, every resource that can be designed using standard JAX-RS approach via annotated resource classes can be also modelled using Jersey programmatic API. Let's try to build simple hello world resource using standard approach first and then using the Jersey programmatic resource builder API.

The following example shows standard JAX-RS "Hello world!" resource class.

Example 14.1. A standard resource class

                    @Path("helloworld")
                    public class HelloWorldResource {

                        @GET
                        @Produces("text/plain")
                        public String getHello() {
                            return "Hello World!";
                        }
                    }
                


This is just a simple resource class with one GET method returning "Hello World!" string that will be serialized as text/plain media type.

Now we will design this simple resource using programmatic API.

Example 14.2. A programmatic resource

                    package org.glassfish.jersey.examples.helloworld;

                    import javax.ws.rs.container.ContainerRequestContext;
                    import javax.ws.rs.core.Application;
                    import javax.ws.rs.core.Response;
                    import org.glassfish.jersey.process.Inflector;
                    import org.glassfish.jersey.server.ResourceConfig;
                    import org.glassfish.jersey.server.model.Resource;
                    import org.glassfish.jersey.server.model.ResourceMethod;


                    public static class MyResourceConfig extends ResourceConfig {

                        public MyResourceConfig() {
                            final Resource.Builder resourceBuilder = Resource.builder();
                            resourceBuilder.path("helloworld");

                            final ResourceMethod.Builder methodBuilder = resourceBuilder.addMethod("GET");
                            methodBuilder.produces(MediaType.TEXT_PLAIN_TYPE)
                                    .handledBy(new Inflector<ContainerRequestContext, String>() {

                                @Override
                                public String apply(ContainerRequestContext containerRequestContext) {
                                    return "Hello World!";
                                }
                            });

                            final Resource resource = resourceBuilder.build();
                            registerResources(resource);
                        }
                    }
                


First, focus on the content of the MyResourceConfig constructor in the example. The Jersey programmatic resource model is constructed from Resources that contain ResourceMethods. In the example, a single resource would be constructed from a Resource containing one GET resource method that returns "Hello World!". The main entry point for building programmatic resources in Jersey is the Resource.Builder class. Resource.Builder contains just a few methods like the path method used in the example, which sets the name of the path. Another useful method is a addMethod(String path) which adds a new method to the resource builder and returns a resource method builder for the new method. Resource method builder contains methods which set consumed and produced media type, define name bindings, timeout for asynchronous executions, etc. It is always necessary to define a resource method handler (i.e. the code of the resource method that will return "Hello World!"). There are more options how a resource method can be handled. In the example the implementation of Inflector is used. The Jersey Inflector interface defines a simple contract for transformation of a request into a response. An inflector can either return a Response or directly an entity object, the way it is shown in the example. Another option is to setup a Java method handler using handledBy(Class<?> handlerClass, Method method) and pass it the chosen java.lang.reflect.Method instance together with the enclosing class.

A resource method model construction can be explicitly completed by invoking build() on the resource method builder. It is however not necessary to do so as the new resource method model will be built automatically once the parent resource is built. Once a resource model is built, it is registered into the resource config at the last line of the MyResourceConfig constructor in the example.

14.2.1. Deployment of programmatic resources

Let's now look at how a programmatic resources are deployed. The easiest way to setup your application as well as register any programmatic resources in Jersey is to use a Jersey ResourceConfig utility class, an extension of Application class. If you deploy your Jersey application into a Servlet container you will need to provide a Application subclass that will be used for configuration. You may use a web.xml where you would define a org.glassfish.jersey.servlet.ServletContainer Servlet entry there and specify initial parameter javax.ws.rs.Application with the class name of your JAX-RS Application that you wish to deploy. In the example above, this application will be MyResourceConfig class. This is the reason why MyResourceConfig extends the ResourceConfig (which, if you remember extends the javax.ws.rs.Application).

The following example shows a fragment of web.xml that can be used to deploy the ResourceConfig JAX-RS application.

Example 14.3. A programmatic resource

                        ...
                        <servlet>
                            <servlet-name>org.glassfish.jersey.examples.helloworld.MyApplication</servlet-name>
                            <servlet-class>org.glassfish.jersey.servlet.ServletContainer</servlet-class>
                            <init-param>
                                <param-name>javax.ws.rs.Application</param-name>
                                <param-value>org.glassfish.jersey.examples.helloworld.MyResourceConfig</param-value>
                            </init-param>
                            <load-on-startup>1</load-on-startup>
                        </servlet>
                        <servlet-mapping>
                            <servlet-name>org.glassfish.jersey.examples.helloworld.MyApplication</servlet-name>
                            <url-pattern>/*</url-pattern>
                        </servlet-mapping>
                        ...
                    


If you use another deployment options and you have accessible instance of ResourceConfig which you use for configuration, you can register programmatic resources directly by registerResources() method called on the ResourceConfig. Please note that the method registerResources() replaces all the previously registered resources.

Because Jersey programmatic API is not a standard JAX-RS feature the ResourceConfig must be used to register programmatic resources as shown above. See deployment chapter for more information.

14.3. Additional examples

Example 14.4. A programmatic resource

                    final Resource.Builder resourceBuilder = Resource.builder(HelloWorldResource.class);
                    resourceBuilder.addMethod("OPTIONS")
                        .handledBy(new Inflector<ContainerRequestContext, Response>() {
                            @Override
                            public Response apply(ContainerRequestContext containerRequestContext) {
                                return Response.ok("This is a response to an OPTIONS method.").build();
                            }
                        });
                    final Resource resource = resourceBuilder.build();
                


In the example above the Resource is built from a HelloWorldResource resource class. The resource model built this way contains a GET method producing 'text/plain' responses with "Hello World!" entity. This is quite important as it allows you to whatever Resource objects based on introspecting existing JAX-RS resources and use builder API to enhance such these standard resources. In the example we used already implemented HelloWorldResource resource class and enhanced it by OPTIONS method. The OPTIONS method is handled by an Inflector which returns Response.

The following sample shows how to define sub-resource methods (methods that contains sub-path).

Example 14.5. A programmatic resource

                    final Resource.Builder resourceBuilder = Resource.builder("helloworld");

                    final Resource.Builder childResource = resourceBuilder.addChildResource("subresource");
                    childResource.addMethod("GET").handledBy(new GetInflector());

                    final Resource resource = resourceBuilder.build();
                


Sub-resource methods are defined using so called child resource models. Child resource models (or child resources) are programmatic resources build in the same way as any other programmatic resource but they are registered as a child resource of a parent resource. The child resource in the example is build directly from the parent builder using method addChildResource(String path). However, there is also an option to build a child resource model separately as a standard resource and then add it as a child resource to a selected parent resource. This means that child resource objects can be reused to define child resources in different parent resources (you just build a single child resource and then register it in multiple parent resources). Each child resource groups methods with the same sub-resource path. Note that a child resource cannot have any child resources as there is nothing like sub-sub-resource method concept in JAX-RS. For example if a sub resource method contains more path segments in its path (e.g. "/root/sub/resource/method" where "root" is a path of the resource and "sub/resource/method" is the sub resource method path) then parent resource will have path "root" and child resource will have path "sub/resource/method" (so, there will not be any separate nested sub-resources for "sub", "resource" and "method").

See the javadocs of the resource builder API for more information.

14.4. Model processors

Jersey gives you an option to register so called model processor providers. These providers are able to modify or enhance the application resource model during application deployment. This is an advanced feature and will not be needed in most use cases. However, imagine you would like to add OPTIONS resource method to each deployed resource as it is described at the top of this chapter. You would want to do it for every programmatic resource that is registered as well as for all standard JAX-RS resources.

To do that, you first need to register a model processor provider in your application, which implements org.glassfish.jersey.server.model.ModelProcessor extension contract. An example of a model processor implementation is shown here:

Example 14.6. A programmatic resource

                    import javax.ws.rs.GET;
                    import javax.ws.rs.Path;
                    import javax.ws.rs.Produces;
                    import javax.ws.rs.container.ContainerRequestContext;
                    import javax.ws.rs.core.Application;
                    import javax.ws.rs.core.Configuration;
                    import javax.ws.rs.core.MediaType;
                    import javax.ws.rs.core.Response;
                    import javax.ws.rs.ext.Provider;

                    import org.glassfish.jersey.process.Inflector;
                    import org.glassfish.jersey.server.model.ModelProcessor;
                    import org.glassfish.jersey.server.model.Resource;
                    import org.glassfish.jersey.server.model.ResourceMethod;
                    import org.glassfish.jersey.server.model.ResourceModel;

                    @Provider
                    public static class MyOptionsModelProcessor implements ModelProcessor {

                        @Override
                        public ResourceModel processResourceModel(ResourceModel resourceModel, Configuration configuration) {
                            // we get the resource model and we want to enhance each resource by OPTIONS method
                            ResourceModel.Builder newResourceModelBuilder = new ResourceModel.Builder(false);
                            for (final Resource resource : resourceModel.getResources()) {
                                // for each resource in the resource model we create a new builder which is based on the old resource
                                final Resource.Builder resourceBuilder = Resource.builder(resource);

                                // we add a new OPTIONS method to each resource
                                // note that we should check whether the method does not yet exist to avoid failures
                                resourceBuilder.addMethod("OPTIONS")
                                    .handledBy(new Inflector<ContainerRequestContext, String>() {
                                        @Override
                                        public String apply(ContainerRequestContext containerRequestContext) {
                                            return "On this path the resource with " + resource.getResourceMethods().size()
                                                + " methods is deployed.";
                                        }
                                        }).produces(MediaType.TEXT_PLAIN)
                                          .extended(true); // extended means: not part of core RESTful API

                                // we add to the model new resource which is a combination of the old resource enhanced
                                // by the OPTIONS method
                                newResourceModelBuilder.addResource(resourceBuilder.build());
                            }

                            final ResourceModel newResourceModel = newResourceModelBuilder.build();
                            // and we return new model
                            return newResourceModel;
                        };

                        @Override
                        public ResourceModel processSubResource(ResourceModel subResourceModel, Configuration configuration) {
                            // we just return the original subResourceModel which means we do not want to do any modification
                            return subResourceModel;
                        }
                    }
                


The MyOptionsModelProcessor from the example is a relatively simple model processor which iterates over all registered resources and for all of them builds a new resource that is equal to the old resource except it is enhanced with a new OPTIONS method.

Note that you only need to register such a ModelProcessor as your custom extension provider in the same way as you would register any standard JAX-RS extension provider. During an application deployment, Jersey will look for any registered model processor and execute them. As you can seem, model processors are very powerful as they can do whatever manipulation with the resource model they like. A model processor can even, for example, completely ignore the old resource model and return a new custom resource model with a single "Hello world!" resource, which would result in only the "Hello world!" resource being deployed in your application. Of course, it would not not make much sense to implement such model processor, but the scenario demonstrates how powerful the model processor concept is. A better, real-life use case scenario would, for example, be to always add some custom new resource to each application that might return additional metadata about the deployed application. Or, you might want to filter out particular resources or resource methods, which is another situation where a model processor could be used successfully.

Also note that processSubResource(ResourceModel subResourceModel, Configuration configuration) method is executed for each sub resource returned from the sub resource locator. The example is simplified and does not do any manipulation but probably in such a case you would want to enhance all sub resources with a new OPTIONS method handlers too.

It is important to remember that any model processor must always return valid resource model. As you might have already noticed, in the example above this important rule is not followed. If any of the resources in the original resource model would already have an OPTIONS method handler defined, adding another handler would cause the application fail during the deployment in the resource model validation phase. In order to retain the consistency of the final model, a model processor implementation would have to be more robust than what is shown in the example.