I'm currently developing an app using the newly Android Architecture Components. Specifically, I'm implementing a Room Database that returns a LiveData object on one of its queries. Insertion and querying work as expected, however I have an issue testing the query method using a unit test.

Here is the DAO I'm trying to test:


interface NotificationDao {

    fun insertNotifications(vararg notifications: Notification): List<Long>

    @Query("SELECT * FROM notifications")
    fun getNotifications(): LiveData<List<Notification>>

As you can tell, the query function returns a LiveData object, if I change this to be just a List, Cursor, or basically whatever then I get the expected result, which is the data inserted in the Database.

The issue is that the following test will always fail because the value of the LiveData object is always null:


lateinit var db: SosafeDatabase
lateinit var notificationDao: NotificationDao

fun setUp() {
    val context = InstrumentationRegistry.getTargetContext()
    db = Room.inMemoryDatabaseBuilder(context, SosafeDatabase::class.java).build()
    notificationDao = db.notificationDao()

fun tearDown() {

fun getNotifications_IfNotificationsInserted_ReturnsAListOfNotifications() {
    val notifications = Array(NUMBER_OF_NOTIFICATIONS, { i -> createTestNotification(i) })

    val liveData = notificationDao.getNotifications()
    val queriedNotifications = liveData.value
    if (queriedNotifications != null) {
        assertEquals(queriedNotifications.size, NUMBER_OF_NOTIFICATIONS)
    } else {

private fun createTestNotification(id: Int): Notification {
    //method omitted for brevity 

So the question is: Does anyone knows of a better way to perform unit tests that involve LiveData objects?

6 Answers 6


Room calculates the LiveData's value lazily when there is an observer.

You can check the sample app.

It uses a getValue utility method which adds an observer to get the value:

public static <T> T getOrAwaitValue(final LiveData<T> liveData) throws InterruptedException {
    final Object[] data = new Object[1];
    final CountDownLatch latch = new CountDownLatch(1);
    Observer<T> observer = new Observer<T>() {
        public void onChanged(@Nullable T o) {
            data[0] = o;
    latch.await(2, TimeUnit.SECONDS);
    //noinspection unchecked
    return (T) data[0];

Better w/ kotlin, you can make it an extensions function :).


When you return a LiveData from a Dao in Room it makes the query asynchronously, and as @yigit said Room sets the LiveData#value lazily after you kick off the query by observing the LiveData. This pattern is reactive.

For unit tests you want the behavior to be synchronous, so you must block the test thread and wait for the value to be passed to the observer, then grab it from there and then you can assert on it.

Here's a Kotlin extension function for doing this:

private fun <T> LiveData<T>.blockingObserve(): T? {
    var value: T? = null
    val latch = CountDownLatch(1)

    val observer = Observer<T> { t ->
        value = t


    latch.await(2, TimeUnit.SECONDS)
    return value

You can use it like this:

val someValue = someDao.getSomeLiveData().blockingObserve()
  • One could also make it an extension property instead, inline the observer using a lambda, and use await return value to differentiate between null data and data not set within the time limit: gist.github.com/arekolek/e9e0d050cdd6ed16cd7dd9183eee62c0
    – arekolek
    Jan 14, 2018 at 0:00
  • 9
    I tried following this solution but I get the following error, "IllegalStateException: Cannot invoke observeForever on a background thread"
    – Rabbit
    Jun 21, 2019 at 21:09
  • 7
    @Rabbit I had the same problem and solved it by adding @Rule @JvmField public val rule = InstantTaskExecutorRule() to my test class which requires the androidTestImplementation "android.arch.core:core-testing:1.1.1" dependency. It works now! 🎉
    – Jeehut
    Dec 8, 2019 at 9:36

I found Mockito is very helpful in such case. Here is an example:


testImplementation "org.mockito:mockito-core:2.11.0"
androidTestImplementation "org.mockito:mockito-android:2.11.0"


        version = 1,
        exportSchema = false,
        entities = {Todo.class}
public abstract class AppDatabase extends RoomDatabase {
    public abstract TodoDao todoDao();


public interface TodoDao {
    @Insert(onConflict = REPLACE)
    void insert(Todo todo);

    @Query("SELECT * FROM todo")
    LiveData<List<Todo>> selectAll();


public class TodoDaoTest {
    public TestRule rule = new InstantTaskExecutorRule();

    private AppDatabase database;
    private TodoDao dao;

    private Observer<List<Todo>> observer;

    public void setUp() throws Exception {

        Context context = InstrumentationRegistry.getTargetContext();
        database = Room.inMemoryDatabaseBuilder(context, AppDatabase.class)
        dao = database.todoDao();

    public void tearDown() throws Exception {

    public void insert() throws Exception {
        // given
        Todo todo = new Todo("12345", "Mockito", "Time to learn something new");
        // when
        // then

Hope this help!

  • But aren't you are testing both selectAll and insert at the same time, here?
    – Rasive
    Feb 4, 2018 at 20:19
  • 1
    @Rasive Its true, the test covers two methods of the DAO and it borders being an integration test. But overall still a comprehensive example how to set up testing room using Mockito.
    – sunadorer
    Apr 2, 2018 at 23:15
  • 3
    The trick is to use InstantTaskExecutorRule in order to force LiveData instant updates. I was missing that, thanks! May 3, 2018 at 11:54
  • thats not work, I can't import mockito in android tests folder
    – umni4ek
    Mar 15, 2019 at 15:28
  • 1
    @HemantKaushik, my fault, I've tried to run junit tests in androidTest folder
    – umni4ek
    Mar 18, 2019 at 8:42

As @Hemant Kaushik said, in this case you SHOULD use InstantTaskExecutorRule.

From developer.android.com:

A JUnit Test Rule that swaps the background executor used by the Architecture Components with a different one which executes each task synchronously.

It really works!


Slightly different approach than other answers might be to use https://github.com/jraska/livedata-testing.

You avoid mocking and the test can use API similar to RxJava testing and also you can get advantage from Kotlin extension functions.


val liveData = notificationDao.getNotifications()

    .awaitValue() // for the case where we need to wait for async data
    .assertValue { it.size == NUMBER_OF_NOTIFICATIONS }
  • 3
    For anyone looking for a more efficient/quick way of fixing this issue, look no further than this answer. Just import his package (don't forget to mark the implementation on which test folder you're using it on) and follow the above code. Trust me, this solves a lot. Nov 24, 2019 at 17:20

If you are using JUnit 5, since rules are not applicable to it, thanks to this article you can manually create the extension:

class InstantExecutorExtension : BeforeEachCallback, AfterEachCallback {

    override fun beforeEach(context: ExtensionContext?) {
        ArchTaskExecutor.getInstance().setDelegate(object : TaskExecutor() {
            override fun executeOnDiskIO(runnable: Runnable) = runnable.run()

            override fun postToMainThread(runnable: Runnable) = runnable.run()

            override fun isMainThread(): Boolean = true

    override fun afterEach(context: ExtensionContext?) {

and then in your test class use it like this:

@ExtendWith(InstantExecutorExtension::class /* , Other extensions */)
class ItemDaoTests {

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