media/blink/watch_time_component_unittest.cc - chromium/src - Git at Google

 // Copyright 2018 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "media/blink/watch_time_component.h"

 #include "base/bind.h"
 #include "base/bind_helpers.h"
 #include "testing/gmock/include/gmock/gmock.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "third_party/blink/public/platform/web_media_player.h"

 namespace media {

 class WatchTimeInterceptor : public mojom::WatchTimeRecorder {
  public:
   WatchTimeInterceptor() = default;
   ~WatchTimeInterceptor() override = default;

   // mojom::WatchTimeRecorder implementation:
   MOCK_METHOD2(RecordWatchTime, void(WatchTimeKey, base::TimeDelta));
   MOCK_METHOD1(FinalizeWatchTime, void(const std::vector<WatchTimeKey>&));
   MOCK_METHOD1(OnError, void(PipelineStatus));
   MOCK_METHOD1(UpdateUnderflowCount, void(int32_t count));
   MOCK_METHOD1(
       UpdateSecondaryProperties,
       void(mojom::SecondaryPlaybackPropertiesPtr secondary_properties));
   MOCK_METHOD1(SetAutoplayInitiated, void(bool));
   MOCK_METHOD1(OnDurationChanged, void(base::TimeDelta));
 };

 class WatchTimeComponentTest : public testing::Test {
  public:
   WatchTimeComponentTest() = default;
   ~WatchTimeComponentTest() override = default;

  protected:
   template <typename T>
   std::unique_ptr<WatchTimeComponent<T>> CreateComponent(
       T initial_value,
       std::vector<WatchTimeKey> keys_to_finalize,
       typename WatchTimeComponent<T>::ValueToKeyCB value_to_key_cb) {
     return std::make_unique<WatchTimeComponent<T>>(
         initial_value, std::move(keys_to_finalize), std::move(value_to_key_cb),
         base::BindRepeating(&WatchTimeComponentTest::GetMediaTime,
                             base::Unretained(this)),
         &recorder_);
   }

   MOCK_METHOD0(GetMediaTime, base::TimeDelta(void));

   // Usage of StrictMock is intentional here. This ensures all mock method calls
   // are accounted for in tests.
   testing::StrictMock<WatchTimeInterceptor> recorder_;

  private:
   DISALLOW_COPY_AND_ASSIGN(WatchTimeComponentTest);
 };

 // Components should be key agnostic so just choose an arbitrary key for running
 // most of the tests.
 constexpr WatchTimeKey kTestKey = WatchTimeKey::kAudioAll;

 // This is a test of the standard flow for most components. Most components will
 // be created, be enabled, start reporting, record watch time, be disabled,
 // report a finalize, and then record watch time again.
 TEST_F(WatchTimeComponentTest, BasicFlow) {
   auto test_component = CreateComponent<bool>(
       false, {kTestKey}, WatchTimeComponent<bool>::ValueToKeyCB());
   EXPECT_FALSE(test_component->current_value_for_testing());
   EXPECT_FALSE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

   // Simulate flag enabled after construction, but before timer is running; this
   // should set the current value immediately.
   test_component->SetCurrentValue(true);
   EXPECT_TRUE(test_component->current_value_for_testing());
   EXPECT_FALSE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

   // Notify the start of reporting to set the starting timestamp.
   const base::TimeDelta kStartTime = base::TimeDelta::FromSeconds(1);
   test_component->OnReportingStarted(kStartTime);
   EXPECT_TRUE(test_component->current_value_for_testing());
   EXPECT_FALSE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

   // Simulate a single recording tick.
   const base::TimeDelta kWatchTime = base::TimeDelta::FromSeconds(2);
   EXPECT_CALL(recorder_, RecordWatchTime(kTestKey, kWatchTime - kStartTime));
   test_component->RecordWatchTime(kWatchTime);
   EXPECT_TRUE(test_component->current_value_for_testing());
   EXPECT_FALSE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

   // Simulate the flag being flipped to false while the timer is running; which
   // should trigger a finalize, but not yet set the current value.
   const base::TimeDelta kFinalWatchTime = base::TimeDelta::FromSeconds(3);
   EXPECT_CALL(*this, GetMediaTime()).WillOnce(testing::Return(kFinalWatchTime));
   test_component->SetPendingValue(false);
   EXPECT_TRUE(test_component->current_value_for_testing());
   EXPECT_TRUE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kFinalWatchTime);

   // If record is called again it should use the finalize timestamp instead of
   // whatever timestamp we provide.
   EXPECT_CALL(recorder_,
               RecordWatchTime(kTestKey, kFinalWatchTime - kStartTime));
   test_component->RecordWatchTime(base::TimeDelta::FromSeconds(1234));
   EXPECT_TRUE(test_component->current_value_for_testing());
   EXPECT_TRUE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kFinalWatchTime);

   // Calling it twice or more should not change anything; nor even generate a
   // report since that time has already been recorded.
   for (int i = 0; i < 2; ++i) {
     test_component->RecordWatchTime(base::TimeDelta::FromSeconds(1234 + i));
     EXPECT_TRUE(test_component->current_value_for_testing());
     EXPECT_TRUE(test_component->NeedsFinalize());
     EXPECT_EQ(test_component->end_timestamp(), kFinalWatchTime);
   }

   // Trigger finalize which should transition the pending value to the current
   // value as well as clear the finalize.
   std::vector<WatchTimeKey> finalize_keys;
   test_component->Finalize(&finalize_keys);
   EXPECT_FALSE(test_component->current_value_for_testing());
   EXPECT_FALSE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);
   ASSERT_EQ(finalize_keys.size(), 1u);
   EXPECT_EQ(finalize_keys[0], kTestKey);

   // The start timestamps should be equal to the previous end timestamp now, so
   // if we call RecordWatchTime again, the value should be relative.
   const base::TimeDelta kNewWatchTime = base::TimeDelta::FromSeconds(4);
   EXPECT_CALL(recorder_,
               RecordWatchTime(kTestKey, kNewWatchTime - kFinalWatchTime));
   test_component->RecordWatchTime(kNewWatchTime);
   EXPECT_FALSE(test_component->current_value_for_testing());
   EXPECT_FALSE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);
 }

 TEST_F(WatchTimeComponentTest, SetCurrentValue) {
   auto test_component = CreateComponent<bool>(
       true, {kTestKey}, WatchTimeComponent<bool>::ValueToKeyCB());
   EXPECT_TRUE(test_component->current_value_for_testing());
   EXPECT_FALSE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

   // An update when the timer isn't running should take effect immediately.
   test_component->SetCurrentValue(false);
   EXPECT_FALSE(test_component->current_value_for_testing());
   EXPECT_FALSE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

   test_component->SetCurrentValue(true);
   EXPECT_TRUE(test_component->current_value_for_testing());
   EXPECT_FALSE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);
 }

 TEST_F(WatchTimeComponentTest, RecordDuringFinalizeRespectsCurrentTime) {
   auto test_component = CreateComponent<bool>(
       true, {kTestKey}, WatchTimeComponent<bool>::ValueToKeyCB());
   EXPECT_TRUE(test_component->current_value_for_testing());
   EXPECT_FALSE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

   // Simulate the flag being flipped to false while the timer is running; which
   // should trigger a finalize, but not yet set the current value.
   const base::TimeDelta kWatchTime1 = base::TimeDelta::FromSeconds(3);
   EXPECT_CALL(*this, GetMediaTime()).WillOnce(testing::Return(kWatchTime1));
   test_component->SetPendingValue(false);
   EXPECT_TRUE(test_component->current_value_for_testing());
   EXPECT_TRUE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kWatchTime1);

   // Now issue a RecordWatchTime() call with a media time before the finalize
   // time. This can happen when the TimeDelta provided to RecordWatchTime has
   // been clamped for some reason (e.g., a superseding finalize).
   const base::TimeDelta kWatchTime2 = base::TimeDelta::FromSeconds(2);
   EXPECT_CALL(recorder_, RecordWatchTime(kTestKey, kWatchTime2));
   test_component->RecordWatchTime(kWatchTime2);
 }

 TEST_F(WatchTimeComponentTest, SetPendingValue) {
   auto test_component = CreateComponent<bool>(
       true, {kTestKey}, WatchTimeComponent<bool>::ValueToKeyCB());
   EXPECT_TRUE(test_component->current_value_for_testing());
   EXPECT_FALSE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

   // A change when running should trigger a finalize.
   const base::TimeDelta kFinalWatchTime = base::TimeDelta::FromSeconds(1);
   EXPECT_CALL(*this, GetMediaTime()).WillOnce(testing::Return(kFinalWatchTime));
   test_component->SetPendingValue(false);
   EXPECT_TRUE(test_component->current_value_for_testing());
   EXPECT_TRUE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kFinalWatchTime);

   // Issuing the same property change again should do nothing since there's a
   // pending finalize already.
   test_component->SetPendingValue(false);
   EXPECT_TRUE(test_component->current_value_for_testing());
   EXPECT_TRUE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kFinalWatchTime);

   // Changing the value back, should cancel the finalize.
   test_component->SetPendingValue(true);
   EXPECT_TRUE(test_component->current_value_for_testing());
   EXPECT_FALSE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);
 }

 // Tests RecordWatchTime() behavior when a ValueToKeyCB is provided.
 TEST_F(WatchTimeComponentTest, WithValueToKeyCB) {
   using DisplayType = blink::WebMediaPlayer::DisplayType;

   const std::vector<WatchTimeKey> finalize_keys = {
       WatchTimeKey::kAudioVideoDisplayInline,
       WatchTimeKey::kAudioVideoDisplayFullscreen,
       WatchTimeKey::kAudioVideoDisplayPictureInPicture};
   auto test_component = CreateComponent<DisplayType>(
       DisplayType::kFullscreen, finalize_keys,
       base::BindRepeating([](DisplayType display_type) {
         switch (display_type) {
           case DisplayType::kInline:
             return WatchTimeKey::kAudioVideoDisplayInline;
           case DisplayType::kFullscreen:
             return WatchTimeKey::kAudioVideoDisplayFullscreen;
           case DisplayType::kPictureInPicture:
             return WatchTimeKey::kAudioVideoDisplayPictureInPicture;
         }
       }));
   EXPECT_EQ(test_component->current_value_for_testing(),
             DisplayType::kFullscreen);
   EXPECT_FALSE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

   // Notify the start of reporting to set the starting timestamp.
   const base::TimeDelta kStartTime = base::TimeDelta::FromSeconds(1);
   test_component->OnReportingStarted(kStartTime);
   EXPECT_EQ(test_component->current_value_for_testing(),
             DisplayType::kFullscreen);
   EXPECT_FALSE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

   // Record and verify the key recorded too matches the callback provided.
   const base::TimeDelta kWatchTime1 = base::TimeDelta::FromSeconds(2);
   EXPECT_CALL(recorder_,
               RecordWatchTime(WatchTimeKey::kAudioVideoDisplayFullscreen,
                               kWatchTime1 - kStartTime));
   test_component->RecordWatchTime(kWatchTime1);
   EXPECT_EQ(test_component->current_value_for_testing(),
             DisplayType::kFullscreen);
   EXPECT_FALSE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

   // Change property while saying the timer isn't running to avoid finalize.
   const base::TimeDelta kWatchTime2 = base::TimeDelta::FromSeconds(3);
   test_component->SetCurrentValue(DisplayType::kInline);
   EXPECT_CALL(recorder_, RecordWatchTime(WatchTimeKey::kAudioVideoDisplayInline,
                                          kWatchTime2 - kStartTime));
   test_component->RecordWatchTime(kWatchTime2);
   EXPECT_EQ(test_component->current_value_for_testing(), DisplayType::kInline);
   EXPECT_FALSE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

   // Cycle through all three properties...
   const base::TimeDelta kWatchTime3 = base::TimeDelta::FromSeconds(4);
   test_component->SetCurrentValue(DisplayType::kPictureInPicture);
   EXPECT_CALL(recorder_,
               RecordWatchTime(WatchTimeKey::kAudioVideoDisplayPictureInPicture,
                               kWatchTime3 - kStartTime));
   test_component->RecordWatchTime(kWatchTime3);
   EXPECT_EQ(test_component->current_value_for_testing(),
             DisplayType::kPictureInPicture);
   EXPECT_FALSE(test_component->NeedsFinalize());
   EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

   // Verify finalize sends all three keys.
   std::vector<WatchTimeKey> actual_finalize_keys;
   const base::TimeDelta kFinalWatchTime = base::TimeDelta::FromSeconds(5);
   EXPECT_CALL(*this, GetMediaTime()).WillOnce(testing::Return(kFinalWatchTime));
   test_component->SetPendingValue(DisplayType::kFullscreen);
   test_component->Finalize(&actual_finalize_keys);
   ASSERT_EQ(actual_finalize_keys.size(), finalize_keys.size());
   for (size_t i = 0; i < finalize_keys.size(); ++i)
     EXPECT_EQ(actual_finalize_keys[i], finalize_keys[i]);
 }

 // Unlike WatchTimeReporter, WatchTimeComponents have no automatic finalization
 // so creating and destroying one without calls, should do nothing.
 TEST_F(WatchTimeComponentTest, NoAutomaticFinalize) {
   auto test_component = CreateComponent<bool>(
       false, {kTestKey}, WatchTimeComponent<bool>::ValueToKeyCB());
 }

 }  // namespace media
	// Copyright 2018 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "media/blink/watch_time_component.h"

	#include "base/bind.h"
	#include "base/bind_helpers.h"
	#include "testing/gmock/include/gmock/gmock.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "third_party/blink/public/platform/web_media_player.h"

	namespace media {

	class WatchTimeInterceptor : public mojom::WatchTimeRecorder {
	public:
	WatchTimeInterceptor() = default;
	~WatchTimeInterceptor() override = default;

	// mojom::WatchTimeRecorder implementation:
	MOCK_METHOD2(RecordWatchTime, void(WatchTimeKey, base::TimeDelta));
	MOCK_METHOD1(FinalizeWatchTime, void(const std::vector<WatchTimeKey>&));
	MOCK_METHOD1(OnError, void(PipelineStatus));
	MOCK_METHOD1(UpdateUnderflowCount, void(int32_t count));
	MOCK_METHOD1(
	UpdateSecondaryProperties,
	void(mojom::SecondaryPlaybackPropertiesPtr secondary_properties));
	MOCK_METHOD1(SetAutoplayInitiated, void(bool));
	MOCK_METHOD1(OnDurationChanged, void(base::TimeDelta));
	};

	class WatchTimeComponentTest : public testing::Test {
	public:
	WatchTimeComponentTest() = default;
	~WatchTimeComponentTest() override = default;

	protected:
	template <typename T>
	std::unique_ptr<WatchTimeComponent<T>> CreateComponent(
	T initial_value,
	std::vector<WatchTimeKey> keys_to_finalize,
	typename WatchTimeComponent<T>::ValueToKeyCB value_to_key_cb) {
	return std::make_unique<WatchTimeComponent<T>>(
	initial_value, std::move(keys_to_finalize), std::move(value_to_key_cb),
	base::BindRepeating(&WatchTimeComponentTest::GetMediaTime,
	base::Unretained(this)),
	&recorder_);
	}

	MOCK_METHOD0(GetMediaTime, base::TimeDelta(void));

	// Usage of StrictMock is intentional here. This ensures all mock method calls
	// are accounted for in tests.
	testing::StrictMock<WatchTimeInterceptor> recorder_;

	private:
	DISALLOW_COPY_AND_ASSIGN(WatchTimeComponentTest);
	};

	// Components should be key agnostic so just choose an arbitrary key for running
	// most of the tests.
	constexpr WatchTimeKey kTestKey = WatchTimeKey::kAudioAll;

	// This is a test of the standard flow for most components. Most components will
	// be created, be enabled, start reporting, record watch time, be disabled,
	// report a finalize, and then record watch time again.
	TEST_F(WatchTimeComponentTest, BasicFlow) {
	auto test_component = CreateComponent<bool>(
	false, {kTestKey}, WatchTimeComponent<bool>::ValueToKeyCB());
	EXPECT_FALSE(test_component->current_value_for_testing());
	EXPECT_FALSE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

	// Simulate flag enabled after construction, but before timer is running; this
	// should set the current value immediately.
	test_component->SetCurrentValue(true);
	EXPECT_TRUE(test_component->current_value_for_testing());
	EXPECT_FALSE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

	// Notify the start of reporting to set the starting timestamp.
	const base::TimeDelta kStartTime = base::TimeDelta::FromSeconds(1);
	test_component->OnReportingStarted(kStartTime);
	EXPECT_TRUE(test_component->current_value_for_testing());
	EXPECT_FALSE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

	// Simulate a single recording tick.
	const base::TimeDelta kWatchTime = base::TimeDelta::FromSeconds(2);
	EXPECT_CALL(recorder_, RecordWatchTime(kTestKey, kWatchTime - kStartTime));
	test_component->RecordWatchTime(kWatchTime);
	EXPECT_TRUE(test_component->current_value_for_testing());
	EXPECT_FALSE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

	// Simulate the flag being flipped to false while the timer is running; which
	// should trigger a finalize, but not yet set the current value.
	const base::TimeDelta kFinalWatchTime = base::TimeDelta::FromSeconds(3);
	EXPECT_CALL(*this, GetMediaTime()).WillOnce(testing::Return(kFinalWatchTime));
	test_component->SetPendingValue(false);
	EXPECT_TRUE(test_component->current_value_for_testing());
	EXPECT_TRUE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kFinalWatchTime);

	// If record is called again it should use the finalize timestamp instead of
	// whatever timestamp we provide.
	EXPECT_CALL(recorder_,
	RecordWatchTime(kTestKey, kFinalWatchTime - kStartTime));
	test_component->RecordWatchTime(base::TimeDelta::FromSeconds(1234));
	EXPECT_TRUE(test_component->current_value_for_testing());
	EXPECT_TRUE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kFinalWatchTime);

	// Calling it twice or more should not change anything; nor even generate a
	// report since that time has already been recorded.
	for (int i = 0; i < 2; ++i) {
	test_component->RecordWatchTime(base::TimeDelta::FromSeconds(1234 + i));
	EXPECT_TRUE(test_component->current_value_for_testing());
	EXPECT_TRUE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kFinalWatchTime);
	}

	// Trigger finalize which should transition the pending value to the current
	// value as well as clear the finalize.
	std::vector<WatchTimeKey> finalize_keys;
	test_component->Finalize(&finalize_keys);
	EXPECT_FALSE(test_component->current_value_for_testing());
	EXPECT_FALSE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);
	ASSERT_EQ(finalize_keys.size(), 1u);
	EXPECT_EQ(finalize_keys[0], kTestKey);

	// The start timestamps should be equal to the previous end timestamp now, so
	// if we call RecordWatchTime again, the value should be relative.
	const base::TimeDelta kNewWatchTime = base::TimeDelta::FromSeconds(4);
	EXPECT_CALL(recorder_,
	RecordWatchTime(kTestKey, kNewWatchTime - kFinalWatchTime));
	test_component->RecordWatchTime(kNewWatchTime);
	EXPECT_FALSE(test_component->current_value_for_testing());
	EXPECT_FALSE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);
	}

	TEST_F(WatchTimeComponentTest, SetCurrentValue) {
	auto test_component = CreateComponent<bool>(
	true, {kTestKey}, WatchTimeComponent<bool>::ValueToKeyCB());
	EXPECT_TRUE(test_component->current_value_for_testing());
	EXPECT_FALSE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

	// An update when the timer isn't running should take effect immediately.
	test_component->SetCurrentValue(false);
	EXPECT_FALSE(test_component->current_value_for_testing());
	EXPECT_FALSE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

	test_component->SetCurrentValue(true);
	EXPECT_TRUE(test_component->current_value_for_testing());
	EXPECT_FALSE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);
	}

	TEST_F(WatchTimeComponentTest, RecordDuringFinalizeRespectsCurrentTime) {
	auto test_component = CreateComponent<bool>(
	true, {kTestKey}, WatchTimeComponent<bool>::ValueToKeyCB());
	EXPECT_TRUE(test_component->current_value_for_testing());
	EXPECT_FALSE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

	// Simulate the flag being flipped to false while the timer is running; which
	// should trigger a finalize, but not yet set the current value.
	const base::TimeDelta kWatchTime1 = base::TimeDelta::FromSeconds(3);
	EXPECT_CALL(*this, GetMediaTime()).WillOnce(testing::Return(kWatchTime1));
	test_component->SetPendingValue(false);
	EXPECT_TRUE(test_component->current_value_for_testing());
	EXPECT_TRUE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kWatchTime1);

	// Now issue a RecordWatchTime() call with a media time before the finalize
	// time. This can happen when the TimeDelta provided to RecordWatchTime has
	// been clamped for some reason (e.g., a superseding finalize).
	const base::TimeDelta kWatchTime2 = base::TimeDelta::FromSeconds(2);
	EXPECT_CALL(recorder_, RecordWatchTime(kTestKey, kWatchTime2));
	test_component->RecordWatchTime(kWatchTime2);
	}

	TEST_F(WatchTimeComponentTest, SetPendingValue) {
	auto test_component = CreateComponent<bool>(
	true, {kTestKey}, WatchTimeComponent<bool>::ValueToKeyCB());
	EXPECT_TRUE(test_component->current_value_for_testing());
	EXPECT_FALSE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

	// A change when running should trigger a finalize.
	const base::TimeDelta kFinalWatchTime = base::TimeDelta::FromSeconds(1);
	EXPECT_CALL(*this, GetMediaTime()).WillOnce(testing::Return(kFinalWatchTime));
	test_component->SetPendingValue(false);
	EXPECT_TRUE(test_component->current_value_for_testing());
	EXPECT_TRUE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kFinalWatchTime);

	// Issuing the same property change again should do nothing since there's a
	// pending finalize already.
	test_component->SetPendingValue(false);
	EXPECT_TRUE(test_component->current_value_for_testing());
	EXPECT_TRUE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kFinalWatchTime);

	// Changing the value back, should cancel the finalize.
	test_component->SetPendingValue(true);
	EXPECT_TRUE(test_component->current_value_for_testing());
	EXPECT_FALSE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);
	}

	// Tests RecordWatchTime() behavior when a ValueToKeyCB is provided.
	TEST_F(WatchTimeComponentTest, WithValueToKeyCB) {
	using DisplayType = blink::WebMediaPlayer::DisplayType;

	const std::vector<WatchTimeKey> finalize_keys = {
	WatchTimeKey::kAudioVideoDisplayInline,
	WatchTimeKey::kAudioVideoDisplayFullscreen,
	WatchTimeKey::kAudioVideoDisplayPictureInPicture};
	auto test_component = CreateComponent<DisplayType>(
	DisplayType::kFullscreen, finalize_keys,
	base::BindRepeating([](DisplayType display_type) {
	switch (display_type) {
	case DisplayType::kInline:
	return WatchTimeKey::kAudioVideoDisplayInline;
	case DisplayType::kFullscreen:
	return WatchTimeKey::kAudioVideoDisplayFullscreen;
	case DisplayType::kPictureInPicture:
	return WatchTimeKey::kAudioVideoDisplayPictureInPicture;
	}
	}));
	EXPECT_EQ(test_component->current_value_for_testing(),
	DisplayType::kFullscreen);
	EXPECT_FALSE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

	// Notify the start of reporting to set the starting timestamp.
	const base::TimeDelta kStartTime = base::TimeDelta::FromSeconds(1);
	test_component->OnReportingStarted(kStartTime);
	EXPECT_EQ(test_component->current_value_for_testing(),
	DisplayType::kFullscreen);
	EXPECT_FALSE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

	// Record and verify the key recorded too matches the callback provided.
	const base::TimeDelta kWatchTime1 = base::TimeDelta::FromSeconds(2);
	EXPECT_CALL(recorder_,
	RecordWatchTime(WatchTimeKey::kAudioVideoDisplayFullscreen,
	kWatchTime1 - kStartTime));
	test_component->RecordWatchTime(kWatchTime1);
	EXPECT_EQ(test_component->current_value_for_testing(),
	DisplayType::kFullscreen);
	EXPECT_FALSE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

	// Change property while saying the timer isn't running to avoid finalize.
	const base::TimeDelta kWatchTime2 = base::TimeDelta::FromSeconds(3);
	test_component->SetCurrentValue(DisplayType::kInline);
	EXPECT_CALL(recorder_, RecordWatchTime(WatchTimeKey::kAudioVideoDisplayInline,
	kWatchTime2 - kStartTime));
	test_component->RecordWatchTime(kWatchTime2);
	EXPECT_EQ(test_component->current_value_for_testing(), DisplayType::kInline);
	EXPECT_FALSE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

	// Cycle through all three properties...
	const base::TimeDelta kWatchTime3 = base::TimeDelta::FromSeconds(4);
	test_component->SetCurrentValue(DisplayType::kPictureInPicture);
	EXPECT_CALL(recorder_,
	RecordWatchTime(WatchTimeKey::kAudioVideoDisplayPictureInPicture,
	kWatchTime3 - kStartTime));
	test_component->RecordWatchTime(kWatchTime3);
	EXPECT_EQ(test_component->current_value_for_testing(),
	DisplayType::kPictureInPicture);
	EXPECT_FALSE(test_component->NeedsFinalize());
	EXPECT_EQ(test_component->end_timestamp(), kNoTimestamp);

	// Verify finalize sends all three keys.
	std::vector<WatchTimeKey> actual_finalize_keys;
	const base::TimeDelta kFinalWatchTime = base::TimeDelta::FromSeconds(5);
	EXPECT_CALL(*this, GetMediaTime()).WillOnce(testing::Return(kFinalWatchTime));
	test_component->SetPendingValue(DisplayType::kFullscreen);
	test_component->Finalize(&actual_finalize_keys);
	ASSERT_EQ(actual_finalize_keys.size(), finalize_keys.size());
	for (size_t i = 0; i < finalize_keys.size(); ++i)
	EXPECT_EQ(actual_finalize_keys[i], finalize_keys[i]);
	}

	// Unlike WatchTimeReporter, WatchTimeComponents have no automatic finalization
	// so creating and destroying one without calls, should do nothing.
	TEST_F(WatchTimeComponentTest, NoAutomaticFinalize) {
	auto test_component = CreateComponent<bool>(
	false, {kTestKey}, WatchTimeComponent<bool>::ValueToKeyCB());
	}

	} // namespace media