39

Jersey normally uses HK2 dependency injection, but I would like to use Jersey with Dagger 2. Both Dagger and HK2 implement JSR 330, which I have taken as evidence that this should be possible without too much effort. I found ways to make Jersey work with CDI (e.g. Weld), Spring DI and Guice, but I can't find anything on Dagger.

To provide some context: I'm running a Grizzly–Jersey server in an SE environment, not in an EE container. My Maven project has com.google.dagger:dagger and org.glassfish.jersey.containers:jersey-container-grizzly2-http as dependencies, but not org.glassfish.jersey.inject:jersey-hk2, since I want to replace HK2 with Dagger.

The resource classes look like this:

@Path("/example")
public final class ExampleResource {

    private final Dependency dependency;

    @Inject
    public ExampleResource(final Dependency dependency) {
        this.dependency = Objects.requireNonNull(dependency);
    }

    @GET
    @Produces(MediaType.APPLICATION_JSON)
    public Example getExample() {
        return this.dependency.giveExample();
    }

}

And the Dagger component could e.g. be defined as follows:

@Component
public interface Application {

    public ExampleResource exampleEndpoint();
    public XyzResource xyzEndpoint();
    // etc.

}

So that the main method would look similar to:

public final class Main {

    public static void main(final String[] args) {
        final Application application = DaggerApplication.create();
        final URI baseUri = UriBuilder.fromUri("http://0.0.0.0/").port(80).build();
        final ResourceConfig resourceConfig = new ResourceConfig();
        // how to initialize `resourceConfig` using `application`?
        final HttpServer httpServer = GrizzlyHttpServerFactory
                .createHttpServer(baseUri, resourceConfig, false);
        try {
            httpServer.start();
        } catch (final IOException ex) {
            ...
        }
    }

}

Running the application immediately results in an exception: IllegalStateException: InjectionManagerFactory not found. It seems that a Dagger implementation of this factory is needed.

My question is: how to integrate Dagger with Jersey?

7
  • 1
    Did you try github.com/johnlcox/dagger-servlet ? Mar 18, 2018 at 10:54
  • @OleksandrShpota No, but I’m not using servlets. I’m running Jersey from a main method. No EE.
    – Rinke
    Mar 18, 2018 at 10:59
  • 1
    @Rinke that's fine. The dagger-servlet project that was linked above should be a good starting point. Inside that project, there's a module named dagger-jersey that contains classes that hook dagger up to Jersey's IOC interfaces. In particular, the DaggerComponentProviderFactory class has most of the logic necessary.
    – Dogs
    Mar 22, 2018 at 13:59
  • @OleksandrShpota and @Dogs According to this comment dagger-servlet is only for Dagger 1 and not compatible with Dagger 2... unfortunately.
    – Rinke
    Mar 30, 2018 at 12:17
  • You could have a look at the answer to stackoverflow.com/questions/31277675/… Apr 20, 2018 at 4:29

2 Answers 2

1

You shouldn't think of it as "how to integrate dagger with jersey". Figure out how to setup jersey, then once you have that figured out, then you can worry about using dagger.

Here's (very roughly) how I would do it.

Create your own implementation of the ResourceConfig class.

@ApplicationPath("/service")
public class MyResourceConfig extends ResourceConfig {

    @Inject
    public MyResourceConfig(
            @Nonnull final ExampleResource exampleResource) {
        this.register(exampleResource);
    }

}

Then create a module that sets up everything you need to create an HttpServer

@Module
public class MyServiceModule {

    @Provides
    @Singleton
    @Named("applicationPort")
    public Integer applicationPort() {
        return 80;
    }

    @Provides
    @Singleton
    @Named("applicationBaseUri")
    public URI baseUri(
            @Named("applicationPort") @Nonnull final Integer applicationPort) {
        return UriBuilder.fromUri("http://0.0.0.0/").port(applicationPort).build();
    };

    @Provides
    @Singleton
    public HttpServer httpServer(
            @Named("applicationBaseUri") @Nonnull final URI applicationBaseUri,
            @Nonnull final MyResourceConfig myResourceConfig) {
        return GrizzlyHttpServerFactory
                .createHttpServer(applicationBaseUri, myResourceConfig, false);
    }

}

Then create your component that exposes the HttpServer. I typically like to make components that expose as little as possible. In this case, all you need to expose is the HttpServer.

@Singleton
@Component(modules = { MyServiceModule.class })
protected interface ServiceComponent {

    HttpServer httpServer();

    @Component.Builder
    interface Builder {

        // Bind any parameters here...

        ServiceComponent build();

    }

}

Then just go ahead and build your component, and start your HttpServer

public static void main(String[] args) {
    final ServiceComponent component = DaggerServiceComponent.builder().build()
    try {
        component.httpServer().start();
    } catch (Exception ex) {
        // handle exception...
    }
}

One more thing to note. I personally do not ever use the @Named("") annotation. I prefer to use a Qualifier. So you create a Qualifier annotation with a unique value. Then you can inject things like

@Provides
@Singleton
@MyUniqueQualifier
public String myUniqueQualifierProviderValue() {
    return "something";
}

Then when injecting it

@Inject
public SomeClass(@MyUniqueQualifier @Nonnull final String myUniqueQualifiedValue) 

If you use the @Named annotation you don't get compile time checks for conflicts or missing values. You would find out at run time that a value was not injected or then name conflicts with something else. It gets messy quick.

5
  • 1
    Thanks for your answer Callan! However, the point of question was how to use Dagger instead of HK2, so that you don’t have to configure a ResourceConfig class manually.
    – Rinke
    Oct 5, 2021 at 6:59
  • @Rinke dagger is just dependency injection. It doesn't know anything about the ResourceConfig. You need to both provide the objects you want to inject, and also have a place where they get inject. And based on how jersey is setup in this case, it makes the most sense to inject them into your own ResourceConfig class. What is the problem you're trying to work around? Is there a technical reason you can't create your own ResourceConfig class?
    – Callan
    Oct 5, 2021 at 18:12
  • You may be missing the point of my question. Have you worked with the Jersey-HK2 combination? It’s very convenient. My question is about how to get the same experience with Dagger instead of HK2. I want Jersey to use Dagger to instantiate the resource classes.
    – Rinke
    Oct 6, 2021 at 8:47
  • Dagger and HK2 are two different frameworks. The question I answered was how would one go about setting up Jersey with Dagger dependency injection. But it sounds like what you're asking is, how can I make dagger work like HK2? That I couldn't tell you, but it's a different framework with different usage, so it's probably not going to do the exact same things for you.
    – Callan
    Oct 8, 2021 at 0:19
  • Jersey can use various DI frameworks to instantiate the resource classes, like HK2, Spring DI, Weld and others. The question is how to configure Jersey so that it uses Dagger. I thank you for taking the effort to try and answer my question.
    – Rinke
    Oct 8, 2021 at 5:51
-1

You need to implement an InjectionManagerFactory that will return an InjectionManager delegating to Dagger and have it registered as a service by putting an entry in META-INF/services, similar to the hk2 one here: https://github.com/jersey/jersey/blob/master/inject/hk2/src/main/resources/META-INF/services/org.glassfish.jersey.internal.inject.InjectionManagerFactory but referencing your own implementation.

3
  • Unfortunately I don't really understand your answer. I already understood that I need a DaggerInjectionManagerFactory. However, it's not trivial how to implement the DaggerInjectionManager that it should produce.
    – Rinke
    Jan 18, 2019 at 14:55
  • Can you elaborate on the META-INF entry? I don't know how to translate it to my situation.
    – Rinke
    Jan 18, 2019 at 15:00
  • Regarding the META-INF i'm not sure what you're asking - look at the link in my answer, yours would look exactly the same, just pointing to your InjectionManagerFactory. A simple approach to implementing the actual InjectionManager (at least for the getInstance methods) could be to create an instance of your MyComponent in it's constructor, loop over it's methods putting the results in a map of each methods return class to object returned by the method invocation, then in the getInstance method (at least the one taking a class) return that instance from the map. Jan 21, 2019 at 12:39

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.