Pruebas de integración con WorkManager

WorkManager proporciona un artefacto work-testing que ayuda con la prueba de tus trabajadores.

Configuración

Para usar el artefacto work-testing, agrégalo como una dependencia androidTestImplementation en build.gradle.

Groovy

dependencies {
    def work_version = "2.5.0"

    ...

    // optional - Test helpers
    androidTestImplementation "androidx.work:work-testing:$work_version"
}

Kotlin

dependencies {
    val work_version = "2.4.0"

    ...

    // optional - Test helpers
    androidTestImplementation("androidx.work:work-testing:$work_version")
}

Para obtener más información sobre cómo agregar dependencias, consulta la sección Cómo declarar dependencias en las notas de la versión de WorkManager.

Conceptos

work-testing proporciona una implementación especial de WorkManager para el modo de prueba, que se inicializa mediante WorkManagerTestInitHelper.

El artefacto work-testing también proporciona un SynchronousExecutor que facilita la escritura de pruebas de manera síncrona, sin tener que lidiar con varios subprocesos, bloqueos o trabas.

A continuación, puedes ver un ejemplo de cómo usar todas estas clases juntas.

Kotlin

@RunWith(AndroidJUnit4::class)
class BasicInstrumentationTest {
    @Before
    fun setup() {
        val context = InstrumentationRegistry.getTargetContext()
        val config = Configuration.Builder()
            .setMinimumLoggingLevel(Log.DEBUG)
            .setExecutor(SynchronousExecutor())
            .build()

        // Initialize WorkManager for instrumentation tests.
        WorkManagerTestInitHelper.initializeTestWorkManager(context, config)
    }
}

Java

@RunWith(AndroidJUnit4.class)
public class BasicInstrumentationTest {
    @Before
    public void setup() {
        Context context = InstrumentationRegistry.getTargetContext();
        Configuration config = new Configuration.Builder()
                .setMinimumLoggingLevel(Log.DEBUG)
                .setExecutor(new SynchronousExecutor())
                .build();

        // Initialize WorkManager for instrumentation tests.
        WorkManagerTestInitHelper.initializeTestWorkManager(
            context, config);
    }
}

Cómo estructurar pruebas

Ahora que WorkManager se inicializó en modo de prueba, está todo listo para probar tus trabajadores.

Supongamos que tienes un EchoWorker que espera algún inputData y simplemente copia (repite) la entrada en outputData.

Kotlin

class EchoWorker(context: Context, parameters: WorkerParameters)
   : Worker(context, parameters) {
   override fun doWork(): Result {
       return when(inputData.size()) {
           0 - >Result.failure()
           else - >Result.success(inputData)
       }
   }
}

Java

public class EchoWorker extends Worker {
  public EchoWorker(Context context, WorkerParameters parameters) {
      super(context, parameters);
  }

  @NonNull
  @Override
  public Result doWork() {
      Data input = getInputData();
      if (input.size() == 0) {
          return Result.failure();
      } else {
          return Result.success(input);
      }
  }
}

Pruebas básicas

A continuación, se muestra una prueba de instrumentación de Android que evalúa EchoWorker. La conclusión principal aquí es que la evaluación de EchoWorker en el modo de prueba es muy similar al uso de EchoWorker en una aplicación real.

Kotlin

@Test
@Throws(Exception::class)
fun testSimpleEchoWorker() {
    // Define input data
    val input = workDataOf(KEY_1 to 1, KEY_2 to 2)

    // Create request
    val request = OneTimeWorkRequestBuilderE<choWorker(>)
        .setInputData(input)
        .build()

    val workManager = WorkManager.getInstance(applicationContext)
    // Enqueue and wait for result. This also runs the Worker synchronously
    // because we are using a SynchronousExecutor.
    workManager.enqueue(request).result.get()
    // Get WorkInfo and outputData
    val workInfo = workManager.getWorkInfoById(request.id).get()
    val outputData = workInfo.outputData

    // Assert
    assertThat(workInfo.state, `is`(WorkInfo.State.SUCCEEDED))
    assertThat(outputData, `is`(input))
}

Java

@Test
public void testSimpleEchoWorker() throws Exception {
   // Define input data
   Data input = new Data.Builder()
           .put(KEY_1, 1)
           .put(KEY_2, 2)
           .build();

   // Create request
   OneTimeWorkRequest request =
       new OneTimeWorkRequest.Builder(EchoWorker.class)
           .setInputData(input)
           .build();

   WorkManager workManager = WorkManager.getInstance(getApplicationContext());
   // Enqueue and wait for result. This also runs the Worker synchronously
   // because we are using a SynchronousExecutor.
   workManager.enqueue(request).getResult().get();
   // Get WorkInfo and outputData
   WorkInfo workInfo = workManager.getWorkInfoById(request.getId()).get();
   Data outputData = workInfo.getOutputData();

   // Assert
   assertThat(workInfo.getState(), is(WorkInfo.State.SUCCEEDED));
   assertThat(outputData, is(input));
}

Escribamos otra prueba que asegure que cuando EchoWorker no obtenga datos de entrada, el Result esperado sea un Result.failure().

Kotlin

@Test
@Throws(Exception::class)
fun testEchoWorkerNoInput() {
   // Create request
   val request = OneTimeWorkRequestBuilderE<choWorker(>)
       .build()

   val workManager = WorkManager.getInstance(applicationContext)
   // Enqueue and wait for result. This also runs the Worker synchronously
   // because we are using a SynchronousExecutor.
   workManager.enqueue(request).result.get()
   // Get WorkInfo
   val workInfo = workManager.getWorkInfoById(request.id).get()

   // Assert
   assertThat(workInfo.state, `is`(WorkInfo.State.FAILED))
}

Java

@Test
public void testEchoWorkerNoInput() throws Exception {
  // Create request
  OneTimeWorkRequest request =
      new OneTimeWorkRequest.Builder(EchoWorker.class)
         .build();

  WorkManager workManager = WorkManager.getInstance(getApplicationContext());
  // Enqueue and wait for result. This also runs the Worker synchronously
  // because we are using a SynchronousExecutor.
  workManager.enqueue(request).getResult().get();
  // Get WorkInfo
  WorkInfo workInfo = workManager.getWorkInfoById(request.getId()).get();

  // Assert
  assertThat(workInfo.getState(), is(WorkInfo.State.FAILED));
}

Simula restricciones, retrasos y trabajo periódico

WorkManagerTestInitHelper te proporciona una instancia de TestDriver que se puede usar para simular un retraso inicial, condiciones en las que se cumplan las restricciones para instancias de ListenableWorker e intervalos para instancias de PeriodicWorkRequest.

Prueba retrasos iniciales

Los trabajadores pueden tener retrasos iniciales. A fin de probar EchoWorker con un initialDelay, en lugar de tener que esperar el initialDelay en tu prueba, puedes usar el TestDriver para marcar el retraso inicial de la solicitud de trabajo según ocurra mediante setInitialDelayMet.

Kotlin

@Test
@Throws(Exception::class)
fun testWithInitialDelay() {
    // Define input data
    val input = workDataOf(KEY_1 to 1, KEY_2 to 2)

    // Create request
    val request = OneTimeWorkRequestBuilderE<choWorker(>)
        .setInputData(input)
        .setInitialDelay(10, TimeUnit.SECONDS)
        .build()

    val workManager = WorkManager.getInstance(getApplicationContext())
    // Get the TestDriver
    val testDriver = WorkManagerTestInitHelper.getTestDriver()
    // Enqueue
    workManager.enqueue(request).result.get()
    // Tells the WorkManager test framework that initial delays are now met.
    testDriver.setInitialDelayMet(request.id)
    // Get WorkInfo and outputData
    val workInfo = workManager.getWorkInfoById(request.id).get()
    val outputData = workInfo.outputData

    // Assert
    assertThat(workInfo.state, `is`(WorkInfo.State.SUCCEEDED))
    assertThat(outputData, `is`(input))
}

Java

@Test
public void testWithInitialDelay() throws Exception {
  // Define input data
  Data input = new Data.Builder()
          .put(KEY_1, 1)
          .put(KEY_2, 2)
          .build();

  // Create request
  OneTimeWorkRequest request = new OneTimeWorkRequest.Builder(EchoWorker.class)
          .setInputData(input)
          .setInitialDelay(10, TimeUnit.SECONDS)
          .build();

  WorkManager workManager = WorkManager.getInstance(myContext);
  // Get the TestDriver
  TestDriver testDriver = WorkManagerTestInitHelper.getTestDriver();
  // Enqueue
  workManager.enqueue(request).getResult().get();
  // Tells the WorkManager test framework that initial delays are now met.
  testDriver.setInitialDelayMet(request.getId());
  // Get WorkInfo and outputData
  WorkInfo workInfo = workManager.getWorkInfoById(request.getId()).get();
  Data outputData = workInfo.getOutputData();

  // Assert
  assertThat(workInfo.getState(), is(WorkInfo.State.SUCCEEDED));
  assertThat(outputData, is(input));
}

Cómo probar restricciones

TestDriver también se puede usar para marcar restricciones a medida que se cumplen mediante setAllConstraintsMet. A continuación, se muestra un ejemplo de cómo puedes probar un Worker con restricciones.

Kotlin

@Test
@Throws(Exception::class)
fun testWithConstraints() {
    // Define input data
    val input = workDataOf(KEY_1 to 1, KEY_2 to 2)

    val constraints = Constraints.Builder()
        .setRequiredNetworkType(NetworkType.CONNECTED)
        .build()

    // Create request
    val request = OneTimeWorkRequestBuilderE<choWorker(>)
        .setInputData(input)
        .setConstraints(constraints)
        .build()

    val workManager = WorkManager.getInstance(myContext)
    val testDriver = WorkManagerTestInitHelper.getTestDriver()
    // Enqueue
    workManager.enqueue(request).result.get()
    // Tells the testing framework that all constraints are met.
    testDriver.setAllConstraintsMet(request.id)
    // Get WorkInfo and outputData
    val workInfo = workManager.getWorkInfoById(request.id).get()
    val outputData = workInfo.outputData

    // Assert
    assertThat(workInfo.state, `is`(WorkInfo.State.SUCCEEDED))
    assertThat(outputData, `is`(input))
}

Java

@Test
public void testWithConstraints() throws Exception {
    // Define input data
    Data input = new Data.Builder()
            .put(KEY_1, 1)
            .put(KEY_2, 2)
            .build();

    // Define constraints
    Constraints constraints = new Constraints.Builder()
            .setRequiresDeviceIdle(true)
            .build();

    // Create request
    OneTimeWorkRequest request = new OneTimeWorkRequest.Builder(EchoWorker.class)
            .setInputData(input)
            .setConstraints(constraints)
            .build();

    WorkManager workManager = WorkManager.getInstance(myContext);
    TestDriver testDriver = WorkManagerTestInitHelper.getTestDriver();
    // Enqueue
    workManager.enqueue(request).getResult().get();
    // Tells the testing framework that all constraints are met.
    testDriver.setAllConstraintsMet(request.getId());
    // Get WorkInfo and outputData
    WorkInfo workInfo = workManager.getWorkInfoById(request.getId()).get();
    Data outputData = workInfo.getOutputData();

    // Assert
    assertThat(workInfo.getState(), is(WorkInfo.State.SUCCEEDED));
    assertThat(outputData, is(input));
}

Cómo probar el trabajo periódico

El TestDriver también expone un setPeriodDelayMet que se puede usar para indicar que se completó un intervalo. Este es un ejemplo de uso de setPeriodDelayMet.

Kotlin

@Test
@Throws(Exception::class)
fun testPeriodicWork() {
    // Define input data
    val input = workDataOf(KEY_1 to 1, KEY_2 to 2)

    // Create request
    val request = PeriodicWorkRequestBuilderE<choWorker(>15, MINUTES)
        .setInputData(input)
        .build()

    val workManager = WorkManager.getInstance(myContext)
    val testDriver = WorkManagerTestInitHelper.getTestDriver()
    // Enqueue and wait for result.
    workManager.enqueue(request).result.get()
    // Tells the testing framework the period delay is met
    testDriver.setPeriodDelayMet(request.id)
    // Get WorkInfo and outputData
    val workInfo = workManager.getWorkInfoById(request.id).get()

    // Assert
    assertThat(workInfo.state, `is`(WorkInfo.State.ENQUEUED))
}

Java

@Test
public void testPeriodicWork() throws Exception {
    // Define input data
    Data input = new Data.Builder()
            .put(KEY_1, 1)
            .put(KEY_2, 2)
            .build();

    // Create request
    PeriodicWorkRequest request =
            new PeriodicWorkRequest.Builder(EchoWorker.class, 15, MINUTES)
            .setInputData(input)
            .build();

    WorkManager workManager = WorkManager.getInstance(myContext);
    TestDriver testDriver = WorkManagerTestInitHelper.getTestDriver();
    // Enqueue and wait for result.
    workManager.enqueue(request).getResult().get();
    // Tells the testing framework the period delay is met
    testDriver.setPeriodDelayMet(request.getId());
    // Get WorkInfo and outputData
    WorkInfo workInfo = workManager.getWorkInfoById(request.getId()).get();

    // Assert
    assertThat(workInfo.getState(), is(WorkInfo.State.ENQUEUED));
}