/* * 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 com.android.tv.dvr; import static org.mockito.Matchers.any; import static org.mockito.Matchers.anyLong; import static org.mockito.Matchers.eq; import static org.mockito.Mockito.after; import static org.mockito.Mockito.mock; import static org.mockito.Mockito.timeout; import static org.mockito.Mockito.verify; import static org.mockito.Mockito.when; import android.app.AlarmManager; import android.media.tv.TvInputInfo; import android.os.Build; import android.os.Handler; import android.os.Looper; import android.support.test.filters.SdkSuppress; import android.support.test.filters.SmallTest; import android.test.AndroidTestCase; import com.android.tv.InputSessionManager; import com.android.tv.data.Channel; import com.android.tv.data.ChannelDataManager; import com.android.tv.dvr.InputTaskScheduler.RecordingTaskFactory; import com.android.tv.testing.FakeClock; import com.android.tv.testing.dvr.RecordingTestUtils; import com.android.tv.util.Clock; import com.android.tv.util.TestUtils; import org.mockito.Mock; import org.mockito.MockitoAnnotations; import java.util.ArrayList; import java.util.List; import java.util.concurrent.TimeUnit; /** * Tests for {@link InputTaskScheduler}. */ @SmallTest @SdkSuppress(minSdkVersion = Build.VERSION_CODES.N) public class InputTaskSchedulerTest extends AndroidTestCase { private static final String INPUT_ID = "input_id"; private static final int CHANNEL_ID = 1; private static final long LISTENER_TIMEOUT_MS = TimeUnit.SECONDS.toMillis(1); private static final int TUNER_COUNT_ONE = 1; private static final int TUNER_COUNT_TWO = 2; private static final long LOW_PRIORITY = 1; private static final long HIGH_PRIORITY = 2; private FakeClock mFakeClock; private InputTaskScheduler mScheduler; @Mock private DvrManager mDvrManager; @Mock private WritableDvrDataManager mDataManager; @Mock private InputSessionManager mSessionManager; @Mock private AlarmManager mMockAlarmManager; @Mock private ChannelDataManager mChannelDataManager; private List mRecordingTasks; @Override protected void setUp() throws Exception { super.setUp(); if (Looper.myLooper() == null) { Looper.prepare(); } Handler fakeMainHandler = new Handler(); Handler workerThreadHandler = new Handler(); mRecordingTasks = new ArrayList(); MockitoAnnotations.initMocks(this); mFakeClock = FakeClock.createWithCurrentTime(); TvInputInfo input = createTvInputInfo(TUNER_COUNT_ONE); mScheduler = new InputTaskScheduler(getContext(), input, Looper.myLooper(), mChannelDataManager, mDvrManager, mDataManager, mSessionManager, mFakeClock, fakeMainHandler, workerThreadHandler, new RecordingTaskFactory() { @Override public RecordingTask createRecordingTask(ScheduledRecording scheduledRecording, Channel channel, DvrManager dvrManager, InputSessionManager sessionManager, WritableDvrDataManager dataManager, Clock clock) { RecordingTask task = mock(RecordingTask.class); when(task.getPriority()).thenReturn(scheduledRecording.getPriority()); when(task.getEndTimeMs()).thenReturn(scheduledRecording.getEndTimeMs()); mRecordingTasks.add(task); return task; } }); } @Override protected void tearDown() throws Exception { super.tearDown(); } public void testAddSchedule_past() throws Exception { ScheduledRecording r = RecordingTestUtils.createTestRecordingWithPeriod(INPUT_ID, CHANNEL_ID, 0L, 1L); when(mDataManager.getScheduledRecording(anyLong())).thenReturn(r); mScheduler.handleAddSchedule(r); mScheduler.handleBuildSchedule(); verify(mDataManager, timeout((int) LISTENER_TIMEOUT_MS).times(1)) .changeState(any(ScheduledRecording.class), eq(ScheduledRecording.STATE_RECORDING_FAILED)); } public void testAddSchedule_start() throws Exception { mScheduler.handleAddSchedule(RecordingTestUtils.createTestRecordingWithPeriod(INPUT_ID, CHANNEL_ID, mFakeClock.currentTimeMillis(), mFakeClock.currentTimeMillis() + TimeUnit.HOURS.toMillis(1))); mScheduler.handleBuildSchedule(); verify(mRecordingTasks.get(0), timeout((int) LISTENER_TIMEOUT_MS).times(1)).start(); } public void testAddSchedule_consecutiveNoStop() throws Exception { long startTimeMs = mFakeClock.currentTimeMillis(); long endTimeMs = startTimeMs + TimeUnit.SECONDS.toMillis(1); long id = 0; mScheduler.handleAddSchedule( RecordingTestUtils.createTestRecordingWithIdAndPriorityAndPeriod(++id, CHANNEL_ID, LOW_PRIORITY, startTimeMs, endTimeMs)); mScheduler.handleBuildSchedule(); startTimeMs = endTimeMs; endTimeMs = startTimeMs + TimeUnit.SECONDS.toMillis(1); mScheduler.handleAddSchedule( RecordingTestUtils.createTestRecordingWithIdAndPriorityAndPeriod(++id, CHANNEL_ID, HIGH_PRIORITY, startTimeMs, endTimeMs)); mScheduler.handleBuildSchedule(); verify(mRecordingTasks.get(0), timeout((int) LISTENER_TIMEOUT_MS).times(1)).start(); // The first schedule should not be stopped because the second one should wait for the end // of the first schedule. verify(mRecordingTasks.get(0), after((int) LISTENER_TIMEOUT_MS).never()).stop(); } public void testAddSchedule_consecutiveNoFail() throws Exception { long startTimeMs = mFakeClock.currentTimeMillis(); long endTimeMs = startTimeMs + TimeUnit.SECONDS.toMillis(1); long id = 0; when(mDataManager.getScheduledRecording(anyLong())).thenReturn(ScheduledRecording .builder(INPUT_ID, CHANNEL_ID, 0L, 0L).build()); mScheduler.handleAddSchedule( RecordingTestUtils.createTestRecordingWithIdAndPriorityAndPeriod(++id, CHANNEL_ID, HIGH_PRIORITY, startTimeMs, endTimeMs)); mScheduler.handleBuildSchedule(); startTimeMs = endTimeMs; endTimeMs = startTimeMs + TimeUnit.SECONDS.toMillis(1); mScheduler.handleAddSchedule( RecordingTestUtils.createTestRecordingWithIdAndPriorityAndPeriod(++id, CHANNEL_ID, LOW_PRIORITY, startTimeMs, endTimeMs)); mScheduler.handleBuildSchedule(); verify(mRecordingTasks.get(0), timeout((int) LISTENER_TIMEOUT_MS).times(1)).start(); verify(mRecordingTasks.get(0), after((int) LISTENER_TIMEOUT_MS).never()).stop(); // The second schedule should not fail because it can starts after the first one finishes. verify(mDataManager, after((int) LISTENER_TIMEOUT_MS).never()) .changeState(any(ScheduledRecording.class), eq(ScheduledRecording.STATE_RECORDING_FAILED)); } public void testAddSchedule_consecutiveUseLessSession() throws Exception { TvInputInfo input = createTvInputInfo(TUNER_COUNT_TWO); mScheduler.updateTvInputInfo(input); long startTimeMs = mFakeClock.currentTimeMillis(); long endTimeMs = startTimeMs + TimeUnit.SECONDS.toMillis(1); long id = 0; mScheduler.handleAddSchedule( RecordingTestUtils.createTestRecordingWithIdAndPriorityAndPeriod(++id, CHANNEL_ID, LOW_PRIORITY, startTimeMs, endTimeMs)); mScheduler.handleBuildSchedule(); startTimeMs = endTimeMs; endTimeMs = startTimeMs + TimeUnit.SECONDS.toMillis(1); mScheduler.handleAddSchedule( RecordingTestUtils.createTestRecordingWithIdAndPriorityAndPeriod(++id, CHANNEL_ID, HIGH_PRIORITY, startTimeMs, endTimeMs)); mScheduler.handleBuildSchedule(); verify(mRecordingTasks.get(0), timeout((int) LISTENER_TIMEOUT_MS).times(1)).start(); verify(mRecordingTasks.get(0), after((int) LISTENER_TIMEOUT_MS).never()).stop(); // The second schedule should wait until the first one finishes rather than creating a new // session even though there are available tuners. assertTrue(mRecordingTasks.size() == 1); } public void testUpdateSchedule_noCancel() throws Exception { ScheduledRecording r = RecordingTestUtils.createTestRecordingWithPeriod(INPUT_ID, CHANNEL_ID, mFakeClock.currentTimeMillis(), mFakeClock.currentTimeMillis() + TimeUnit.HOURS.toMillis(1)); mScheduler.handleAddSchedule(r); mScheduler.handleBuildSchedule(); mScheduler.handleUpdateSchedule(r); verify(mRecordingTasks.get(0), after((int) LISTENER_TIMEOUT_MS).never()).cancel(); } public void testUpdateSchedule_cancel() throws Exception { ScheduledRecording r = RecordingTestUtils.createTestRecordingWithPeriod(INPUT_ID, CHANNEL_ID, mFakeClock.currentTimeMillis(), mFakeClock.currentTimeMillis() + TimeUnit.HOURS.toMillis(2)); mScheduler.handleAddSchedule(r); mScheduler.handleBuildSchedule(); mScheduler.handleUpdateSchedule(ScheduledRecording.buildFrom(r) .setStartTimeMs(mFakeClock.currentTimeMillis() + TimeUnit.HOURS.toMillis(1)) .build()); verify(mRecordingTasks.get(0), timeout((int) LISTENER_TIMEOUT_MS).times(1)).cancel(); } private TvInputInfo createTvInputInfo(int tunerCount) throws Exception { return TestUtils.createTvInputInfo(null, null, null, 0, false, true, tunerCount); } }