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/*
* Copyright (C) 2016 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package android.os.test;
import static org.hamcrest.core.IsEqual.equalTo;
import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertTrue;
import static org.mockito.Matchers.any;
import static org.mockito.Mockito.inOrder;
import static org.mockito.Mockito.mock;
import static org.mockito.Mockito.never;
import static org.mockito.Mockito.spy;
import android.os.Handler;
import android.os.Looper;
import android.os.Message;
import android.test.suitebuilder.annotation.SmallTest;
import org.junit.Before;
import org.junit.Rule;
import org.junit.Test;
import org.junit.rules.ErrorCollector;
import org.mockito.ArgumentCaptor;
import org.mockito.InOrder;
import org.mockito.MockitoAnnotations;
import java.util.concurrent.Executor;
/**
* Test TestLooperAbstractTime which provides control over "time". Note that
* real-time is being used as well. Therefore small time increments are NOT
* reliable. All tests are in "K" units (i.e. *1000).
*/
@SmallTest
public class TestLooperTest {
private TestLooper mTestLooper;
private Handler mHandler;
private Handler mHandlerSpy;
private Executor mExecutor;
@Rule
public ErrorCollector collector = new ErrorCollector();
@Before
public void setUp() throws Exception {
MockitoAnnotations.initMocks(this);
mTestLooper = new TestLooper();
mHandler = new Handler(mTestLooper.getLooper());
mHandlerSpy = spy(mHandler);
mExecutor = mTestLooper.getNewExecutor();
}
/**
* Basic test with no time stamps: dispatch 4 messages, check that all 4
* delivered (in correct order).
*/
@Test
public void testNoTimeMovement() {
final int messageA = 1;
final int messageB = 2;
final int messageC = 3;
InOrder inOrder = inOrder(mHandlerSpy);
ArgumentCaptor<Message> messageCaptor = ArgumentCaptor.forClass(Message.class);
mHandlerSpy.sendMessage(mHandler.obtainMessage(messageA));
mHandlerSpy.sendMessage(mHandler.obtainMessage(messageA));
mHandlerSpy.sendMessage(mHandler.obtainMessage(messageB));
mHandlerSpy.sendMessage(mHandler.obtainMessage(messageC));
mTestLooper.dispatchAll();
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("1: messageA", messageA, equalTo(messageCaptor.getValue().what));
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("2: messageA", messageA, equalTo(messageCaptor.getValue().what));
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("3: messageB", messageB, equalTo(messageCaptor.getValue().what));
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("4: messageC", messageC, equalTo(messageCaptor.getValue().what));
inOrder.verify(mHandlerSpy, never()).handleMessage(any(Message.class));
}
/**
* Basic test of the Executor with no time stamps: dispatch 4 executables, check that all 4
* executed in correct order.
*/
@Test
public void testNoTimeMovementExecutor() {
final Runnable runnableA = mock(Runnable.class);
final Runnable runnableB = mock(Runnable.class);
final Runnable runnableC = mock(Runnable.class);
InOrder inOrder = inOrder(runnableA, runnableB, runnableC);
mExecutor.execute(runnableA);
mExecutor.execute(runnableB);
mExecutor.execute(runnableA);
mExecutor.execute(runnableC);
mTestLooper.dispatchAll();
inOrder.verify(runnableA).run();
inOrder.verify(runnableB).run();
inOrder.verify(runnableA).run();
inOrder.verify(runnableC).run();
inOrder.verifyNoMoreInteractions();
}
/**
* Test message sequence: A, B, C@5K, A@10K. Don't move time.
* <p>
* Expected: only get A, B
*/
@Test
public void testDelayedDispatchNoTimeMove() {
final int messageA = 1;
final int messageB = 2;
final int messageC = 3;
InOrder inOrder = inOrder(mHandlerSpy);
ArgumentCaptor<Message> messageCaptor = ArgumentCaptor.forClass(Message.class);
mHandlerSpy.sendMessage(mHandler.obtainMessage(messageA));
mHandlerSpy.sendMessage(mHandler.obtainMessage(messageB));
mHandlerSpy.sendMessageDelayed(mHandler.obtainMessage(messageC), 5000);
mHandlerSpy.sendMessageDelayed(mHandler.obtainMessage(messageA), 10000);
mTestLooper.dispatchAll();
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("1: messageA", messageA, equalTo(messageCaptor.getValue().what));
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("2: messageB", messageB, equalTo(messageCaptor.getValue().what));
inOrder.verify(mHandlerSpy, never()).handleMessage(any(Message.class));
}
/**
* Test message sequence: A, B, C@5K, A@10K, Advance time by 5K.
* <p>
* Expected: only get A, B, C
*/
@Test
public void testDelayedDispatchAdvanceTimeOnce() {
final int messageA = 1;
final int messageB = 2;
final int messageC = 3;
InOrder inOrder = inOrder(mHandlerSpy);
ArgumentCaptor<Message> messageCaptor = ArgumentCaptor.forClass(Message.class);
mHandlerSpy.sendMessage(mHandler.obtainMessage(messageA));
mHandlerSpy.sendMessage(mHandler.obtainMessage(messageB));
mHandlerSpy.sendMessageDelayed(mHandler.obtainMessage(messageC), 5000);
mHandlerSpy.sendMessageDelayed(mHandler.obtainMessage(messageA), 10000);
mTestLooper.moveTimeForward(5000);
mTestLooper.dispatchAll();
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("1: messageA", messageA, equalTo(messageCaptor.getValue().what));
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("2: messageB", messageB, equalTo(messageCaptor.getValue().what));
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("3: messageC", messageC, equalTo(messageCaptor.getValue().what));
inOrder.verify(mHandlerSpy, never()).handleMessage(any(Message.class));
}
/**
* Test message sequence: A, B, C@5K, Advance time by 4K, A@1K, B@2K Advance
* time by 1K.
* <p>
* Expected: get A, B, C, A
*/
@Test
public void testDelayedDispatchAdvanceTimeTwice() {
final int messageA = 1;
final int messageB = 2;
final int messageC = 3;
InOrder inOrder = inOrder(mHandlerSpy);
ArgumentCaptor<Message> messageCaptor = ArgumentCaptor.forClass(Message.class);
mHandlerSpy.sendMessage(mHandler.obtainMessage(messageA));
mHandlerSpy.sendMessage(mHandler.obtainMessage(messageB));
mHandlerSpy.sendMessageDelayed(mHandler.obtainMessage(messageC), 5000);
mTestLooper.moveTimeForward(4000);
mHandlerSpy.sendMessageDelayed(mHandler.obtainMessage(messageA), 1000);
mHandlerSpy.sendMessageDelayed(mHandler.obtainMessage(messageB), 2000);
mTestLooper.moveTimeForward(1000);
mTestLooper.dispatchAll();
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("1: messageA", messageA, equalTo(messageCaptor.getValue().what));
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("2: messageB", messageB, equalTo(messageCaptor.getValue().what));
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("3: messageC", messageC, equalTo(messageCaptor.getValue().what));
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("4: messageA", messageA, equalTo(messageCaptor.getValue().what));
inOrder.verify(mHandlerSpy, never()).handleMessage(any(Message.class));
}
/**
* Test message sequence: A, B, C@5K, Advance time by 4K, A@5K, B@2K Advance
* time by 3K.
* <p>
* Expected: get A, B, C, B
*/
@Test
public void testDelayedDispatchReverseOrder() {
final int messageA = 1;
final int messageB = 2;
final int messageC = 3;
InOrder inOrder = inOrder(mHandlerSpy);
ArgumentCaptor<Message> messageCaptor = ArgumentCaptor.forClass(Message.class);
mHandlerSpy.sendMessage(mHandler.obtainMessage(messageA));
mHandlerSpy.sendMessage(mHandler.obtainMessage(messageB));
mHandlerSpy.sendMessageDelayed(mHandler.obtainMessage(messageC), 5000);
mTestLooper.moveTimeForward(4000);
mHandlerSpy.sendMessageDelayed(mHandler.obtainMessage(messageA), 5000);
mHandlerSpy.sendMessageDelayed(mHandler.obtainMessage(messageB), 2000);
mTestLooper.moveTimeForward(3000);
mTestLooper.dispatchAll();
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("1: messageA", messageA, equalTo(messageCaptor.getValue().what));
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("2: messageB", messageB, equalTo(messageCaptor.getValue().what));
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("3: messageC", messageC, equalTo(messageCaptor.getValue().what));
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("4: messageB", messageB, equalTo(messageCaptor.getValue().what));
inOrder.verify(mHandlerSpy, never()).handleMessage(any(Message.class));
}
/**
* Test message sequence: A, B, C@5K, Advance time by 4K, dispatch all,
* A@5K, B@2K Advance time by 3K, dispatch all.
* <p>
* Expected: get A, B after first dispatch; then C, B after second dispatch
*/
@Test
public void testDelayedDispatchAllMultipleTimes() {
final int messageA = 1;
final int messageB = 2;
final int messageC = 3;
InOrder inOrder = inOrder(mHandlerSpy);
ArgumentCaptor<Message> messageCaptor = ArgumentCaptor.forClass(Message.class);
mHandlerSpy.sendMessage(mHandler.obtainMessage(messageA));
mHandlerSpy.sendMessage(mHandler.obtainMessage(messageB));
mHandlerSpy.sendMessageDelayed(mHandler.obtainMessage(messageC), 5000);
mTestLooper.moveTimeForward(4000);
mTestLooper.dispatchAll();
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("1: messageA", messageA, equalTo(messageCaptor.getValue().what));
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("2: messageB", messageB, equalTo(messageCaptor.getValue().what));
mHandlerSpy.sendMessageDelayed(mHandler.obtainMessage(messageA), 5000);
mHandlerSpy.sendMessageDelayed(mHandler.obtainMessage(messageB), 2000);
mTestLooper.moveTimeForward(3000);
mTestLooper.dispatchAll();
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("3: messageC", messageC, equalTo(messageCaptor.getValue().what));
inOrder.verify(mHandlerSpy).handleMessage(messageCaptor.capture());
collector.checkThat("4: messageB", messageB, equalTo(messageCaptor.getValue().what));
inOrder.verify(mHandlerSpy, never()).handleMessage(any(Message.class));
}
/**
* Test AutoDispatch for a single message.
* This test would ideally use the Channel sendMessageSynchronously. At this time, the setup to
* get a working test channel is cumbersome. Until this is fixed, we substitute with a
* sendMessage followed by a blocking call. The main test thread blocks until the test handler
* receives the test message (messageA) and sets a boolean true. Once the boolean is true, the
* main thread will exit the busy wait loop, stop autoDispatch and check the assert.
*
* Enable AutoDispatch, add message, block on message being handled and stop AutoDispatch.
* <p>
* Expected: handleMessage is called for messageA and stopAutoDispatch is called.
*/
@Test
public void testAutoDispatchWithSingleMessage() {
final int mLoopSleepTimeMs = 5;
final int messageA = 1;
TestLooper mockLooper = new TestLooper();
class TestHandler extends Handler {
public volatile boolean handledMessage = false;
TestHandler(Looper looper) {
super(looper);
}
@Override
public void handleMessage(Message msg) {
if (msg.what == messageA) {
handledMessage = true;
}
}
}
TestHandler testHandler = new TestHandler(mockLooper.getLooper());
mockLooper.startAutoDispatch();
testHandler.sendMessage(testHandler.obtainMessage(messageA));
while (!testHandler.handledMessage) {
// Block until message is handled
try {
Thread.sleep(mLoopSleepTimeMs);
} catch (InterruptedException e) {
// Interrupted while sleeping.
}
}
mockLooper.stopAutoDispatch();
assertTrue("TestHandler should have received messageA", testHandler.handledMessage);
}
/**
* Test starting AutoDispatch while already running throws IllegalStateException
* Enable AutoDispatch two times in a row.
* <p>
* Expected: catch IllegalStateException on second call.
*/
@Test(expected = IllegalStateException.class)
public void testRepeatedStartAutoDispatchThrowsException() {
mTestLooper.startAutoDispatch();
mTestLooper.startAutoDispatch();
}
/**
* Test stopping AutoDispatch without previously starting throws IllegalStateException
* Stop AutoDispatch
* <p>
* Expected: catch IllegalStateException on second call.
*/
@Test(expected = IllegalStateException.class)
public void testStopAutoDispatchWithoutStartThrowsException() {
mTestLooper.stopAutoDispatch();
}
/**
* Test AutoDispatch exits and does not dispatch a later message.
* Start and stop AutoDispatch then add a message.
* <p>
* Expected: After AutoDispatch is stopped, dispatchAll will return 1.
*/
@Test
public void testAutoDispatchStopsCleanlyWithoutDispatchingAMessage() {
final int messageA = 1;
InOrder inOrder = inOrder(mHandlerSpy);
ArgumentCaptor<Message> messageCaptor = ArgumentCaptor.forClass(Message.class);
mTestLooper.startAutoDispatch();
try {
mTestLooper.stopAutoDispatch();
} catch (IllegalStateException e) {
// Stopping without a dispatch will throw an exception.
}
mHandlerSpy.sendMessage(mHandler.obtainMessage(messageA));
assertEquals("One message should be dispatched", 1, mTestLooper.dispatchAll());
}
/**
* Test AutoDispatch throws an exception when no messages are dispatched.
* Start and stop AutoDispatch
* <p>
* Expected: Exception is thrown with the stopAutoDispatch call.
*/
@Test(expected = IllegalStateException.class)
public void testAutoDispatchThrowsExceptionWhenNoMessagesDispatched() {
mTestLooper.startAutoDispatch();
mTestLooper.stopAutoDispatch();
}
}
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