Testing routes

If you remember when we started out with our QuickstartApp, we decided to put the routes themselves into a separate class. Back there we said that we’re doing this to separate the infrastructure code (setting up the actor system and wiring up all the dependencies and actors), from the routes, which should only declare what they need to work with, and can therefore be a bit more focused on their task at hand. This of course leads us to better testability.

This separation, other than being a good idea on its own, was all for this moment! For when we want to write tests to cover all our routes, without having to bring up the entire application.

Unit testing routes

There are multiple ways one can test an HTTP application of course, however lets start at the simplest and also quickest way: unit testing. In this style of testing, we won’t even need to spin up an actual server - all the tests will be executed on the routes directly - without the need of hitting actual network. This is due to Akka HTTP’s pure design and separation between the network layer (represented as a bi-directional Flow of byte strings to Http domain objects).

In other words, unit testing in Akka HTTP is simply “executing” the routes by passing in an HttpResponse to the route, and later inspecting what HttpResponse (or rejection if the request could not be handled) it resulted in. All this in-memory, without having to start a real HTTP server - which gives us supreme speed and turn-over time when developing an application using Akka.

First we’ll need to extend a number of base traits:

sourceimport akka.actor.testkit.typed.scaladsl.ActorTestKit
import akka.actor.typed.ActorSystem
import akka.http.scaladsl.marshalling.Marshal
import akka.http.scaladsl.model._
import akka.http.scaladsl.testkit.ScalatestRouteTest
import org.scalatest.concurrent.ScalaFutures
import org.scalatest.matchers.should.Matchers
import org.scalatest.wordspec.AnyWordSpec

class UserRoutesSpec extends AnyWordSpec with Matchers with ScalaFutures with ScalatestRouteTest {

Here we’re using ScalaTest which provides the testing style WordSpec and the Matchers trait which provides the something should === (somethingElse) syntax and more. Next we inherit the Akka HTTP provided ScalatestRouteTest bridge trait that provides Route specific testing facilities, and binds into ScalaTest’s lifecycle methods such that the ActorSystem is started and stopped automatically for us.

Note

If you’re using Specs2 instead, you can simply extend the Specs2RouteTest support trait instead.

Next we’ll need to bring into the test class our routes that we want to test. We’re doing this by creating an instance of the UserRoutes and importing the marshallers from JsonFormats into scope for the tests to use, as well as makes it possible to implement all abstract members of that trait in the test itself - all in in a fully type-safe way.

We’ll want to use the Akka ActorTestKit however the ScalaRouteTest only knows of the “classic” ActorSystem so we need to provide a small adapter allowing us to combine both.

Next we need to have a ActorRef[UserRegistry.Command] available that that our routes will interact with. We are using the actual actor since it does not have any dependencies, this makes the test more like an integration test than a unit test. For a more isolated test a TestProbe from the Akka Testkit could be used - it would allow us to verify the route indeed did send a message do the Actor or not and send specific responses back in each test case.

sourceclass UserRoutesSpec extends AnyWordSpec with Matchers with ScalaFutures with ScalatestRouteTest {

  // the Akka HTTP route testkit does not yet support a typed actor system (https://github.com/akka/akka-http/issues/2036)
  // so we have to adapt for now
  lazy val testKit = ActorTestKit()
  implicit def typedSystem: ActorSystem[_] = testKit.system
  override def createActorSystem(): akka.actor.ActorSystem =
    testKit.system.classicSystem

  // Here we need to implement all the abstract members of UserRoutes.
  // We use the real UserRegistryActor to test it while we hit the Routes,
  // but we could "mock" it by implementing it in-place or by using a TestProbe
  // created with testKit.createTestProbe()
  val userRegistry = testKit.spawn(UserRegistry())
  lazy val routes = new UserRoutes(userRegistry).userRoutes

  // use the json formats to marshal and unmarshall objects in the test
  import akka.http.scaladsl.marshallers.sprayjson.SprayJsonSupport._
  import JsonFormats._
}

We could create an actor that replies with a mocked response here instead if we wanted to, this is especially useful if the route awaits an response from the actor before rendering the HttpResponse to the client. Read about the Akka TestKit and it’s utilities like TestProbe if this is something you’d like to learn more about.

Let’s write our first test, in which we’ll hit the /users endpoint with a GET request:

source"UserRoutes" should {
  "return no users if no present (GET /users)" in {
    // note that there's no need for the host part in the uri:
    val request = HttpRequest(uri = "/users")

    request ~> routes ~> check {
      status should ===(StatusCodes.OK)

      // we expect the response to be json:
      contentType should ===(ContentTypes.`application/json`)

      // and no entries should be in the list:
      entityAs[String] should ===("""{"users":[]}""")
    }
  }
}

We simply construct a raw HttpRequest object and pass it into the route using the ~> testing operator provided by ScalatestRouteTest. Next we do the same and pipe the result of that route into a check block, so the full syntax is: request ~> route ~> check { }. This syntax allows us to not worry about the asynchronous nature of the request handling. After all, the route is a function of HttpRequest => Future[HttpResponse] - here we don’t need to explicitly write code that’s awaiting on the response, it’s handled for us.

Inside the check block we can inspect all kinds of attributes of the received response, like status, contentType and of course the full response which we can easily convert to a string for testing using responseAs[String]. This infrastructure is using the same marshalling infrastructure as our routes, so if the response was a User JSON, we could say responseAs[User] and write our assertions on the actual object.

In the next test we’d like test a POST endpoint, so we need to send an entity to the endpoint in order to create a new User. This time, instead of using the raw HttpRequest to build the request we’ll use a small DSL provided by the Akka HTTP. The DSL allows you to write Post("/hello) instead of having to declare the full thing in the raw API (which would have been: HttpRequest(method = HttpMethods.POST, uri = "/hello")), and next we’ll add the User JSON into the request body:

source"be able to add users (POST /users)" in {
  val user = User("Kapi", 42, "jp")
  val userEntity = Marshal(user).to[MessageEntity].futureValue // futureValue is from ScalaFutures

  // using the RequestBuilding DSL:
  val request = Post("/users").withEntity(userEntity)

  request ~> routes ~> check {
    status should ===(StatusCodes.Created)

    // we expect the response to be json:
    contentType should ===(ContentTypes.`application/json`)

    // and we know what message we're expecting back:
    entityAs[String] should ===("""{"description":"User Kapi created."}""")
  }
}

So in order to add the entity we’ve used the Marshal(object).to[TargetType] syntax, which uses the same marshalling infrastructure that is used when we complete(object). Since we extend the UserRoutes trait in this test, all the necessary implicits for the marshalling to work this way are also present in scope of the test. This is another reason why it’s so convenient to extend the Routes trait when testing it - everything the actual code was using, we also have at our disposal when writing the test.

This concludes the basics of unit testing HTTP routes, to learn more please refer to the Akka HTTP TestKit documentation.

Complete unit test code listing

For reference, here’s the entire unit test code:

sourceimport akka.actor.testkit.typed.scaladsl.ActorTestKit
import akka.actor.typed.ActorSystem
import akka.http.scaladsl.marshalling.Marshal
import akka.http.scaladsl.model._
import akka.http.scaladsl.testkit.ScalatestRouteTest
import org.scalatest.concurrent.ScalaFutures
import org.scalatest.matchers.should.Matchers
import org.scalatest.wordspec.AnyWordSpec

class UserRoutesSpec extends AnyWordSpec with Matchers with ScalaFutures with ScalatestRouteTest {

  // the Akka HTTP route testkit does not yet support a typed actor system (https://github.com/akka/akka-http/issues/2036)
  // so we have to adapt for now
  lazy val testKit = ActorTestKit()
  implicit def typedSystem: ActorSystem[_] = testKit.system
  override def createActorSystem(): akka.actor.ActorSystem =
    testKit.system.classicSystem

  // Here we need to implement all the abstract members of UserRoutes.
  // We use the real UserRegistryActor to test it while we hit the Routes,
  // but we could "mock" it by implementing it in-place or by using a TestProbe
  // created with testKit.createTestProbe()
  val userRegistry = testKit.spawn(UserRegistry())
  lazy val routes = new UserRoutes(userRegistry).userRoutes

  // use the json formats to marshal and unmarshall objects in the test
  import akka.http.scaladsl.marshallers.sprayjson.SprayJsonSupport._
  import JsonFormats._

  "UserRoutes" should {
    "return no users if no present (GET /users)" in {
      // note that there's no need for the host part in the uri:
      val request = HttpRequest(uri = "/users")

      request ~> routes ~> check {
        status should ===(StatusCodes.OK)

        // we expect the response to be json:
        contentType should ===(ContentTypes.`application/json`)

        // and no entries should be in the list:
        entityAs[String] should ===("""{"users":[]}""")
      }
    }

    "be able to add users (POST /users)" in {
      val user = User("Kapi", 42, "jp")
      val userEntity = Marshal(user).to[MessageEntity].futureValue // futureValue is from ScalaFutures

      // using the RequestBuilding DSL:
      val request = Post("/users").withEntity(userEntity)

      request ~> routes ~> check {
        status should ===(StatusCodes.Created)

        // we expect the response to be json:
        contentType should ===(ContentTypes.`application/json`)

        // and we know what message we're expecting back:
        entityAs[String] should ===("""{"description":"User Kapi created."}""")
      }
    }

    "be able to remove users (DELETE /users)" in {
      // user the RequestBuilding DSL provided by ScalatestRouteSpec:
      val request = Delete(uri = "/users/Kapi")

      request ~> routes ~> check {
        status should ===(StatusCodes.OK)

        // we expect the response to be json:
        contentType should ===(ContentTypes.`application/json`)

        // and no entries should be in the list:
        entityAs[String] should ===("""{"description":"User Kapi deleted."}""")
      }
    }
  }

}

A note Integration testing routes

While definitions of “what a pure unit-test is” are sometimes a subject of fierce debates in programming communities, we refer to the above testing style as “route unit testing” since it’s light weight and allows to test the routes in isolation, especially if their dependencies would be mocked our with test stubs, instead of hitting real APIs.

Sometimes however one wants to test the complete “full application”, including starting a real HTTP server

Warning

Some network specific features like timeouts, behaviour of entities (streamed directly from the network, instead of in memory objects like in the unit testing style) may behave differently in the unit-testing style showcased above.

If you want to test specific timing and entity draining behaviours of your apps you may want to add full integration tests for them. For most routes this should not be needed, however we’d recommend doing so when using more of the streaming features of Akka HTTP.

Usually such tests would be implemented by starting the application the same way as we started it in the QuickstartServer, in beforeAll (in ScalaTest), then hitting the API with http requests using the HTTP Client and asserting on the responses, finally shutting down the server in afterAll (in ScalaTest).

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