modules/rtp_rtcp/source/absolute_capture_time_sender_unittest.cc - src - Git at Google

 /*
  *  Copyright (c) 2019 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #include "modules/rtp_rtcp/source/absolute_capture_time_sender.h"

 #include "system_wrappers/include/ntp_time.h"
 #include "test/gmock.h"
 #include "test/gtest.h"

 namespace webrtc {

 TEST(AbsoluteCaptureTimeSenderTest, GetSourceWithoutCsrcs) {
   constexpr uint32_t kSsrc = 12;

   EXPECT_EQ(AbsoluteCaptureTimeSender::GetSource(kSsrc, nullptr), kSsrc);
 }

 TEST(AbsoluteCaptureTimeSenderTest, GetSourceWithCsrcs) {
   constexpr uint32_t kSsrc = 12;
   constexpr uint32_t kCsrcs[] = {34, 56, 78, 90};

   EXPECT_EQ(AbsoluteCaptureTimeSender::GetSource(kSsrc, kCsrcs), kCsrcs[0]);
 }

 TEST(AbsoluteCaptureTimeSenderTest, InterpolateLaterPacketSentLater) {
   constexpr uint32_t kSource = 1337;
   constexpr uint32_t kRtpClockFrequency = 64000;
   constexpr uint32_t kRtpTimestamp0 = 1020300000;
   constexpr uint32_t kRtpTimestamp1 = kRtpTimestamp0 + 1280;
   constexpr uint32_t kRtpTimestamp2 = kRtpTimestamp0 + 2560;
   static const absl::optional<AbsoluteCaptureTime> kExtension0 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000), Int64MsToQ32x32(-350)};
   static const absl::optional<AbsoluteCaptureTime> kExtension1 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 20), Int64MsToQ32x32(-350)};
   static const absl::optional<AbsoluteCaptureTime> kExtension2 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 40), Int64MsToQ32x32(-350)};
   SimulatedClock clock(0);
   AbsoluteCaptureTimeSender sender(&clock);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp0, kRtpClockFrequency,
                                 kExtension0->absolute_capture_timestamp,
                                 kExtension0->estimated_capture_clock_offset),
             kExtension0);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp1, kRtpClockFrequency,
                                 kExtension1->absolute_capture_timestamp,
                                 kExtension1->estimated_capture_clock_offset),
             absl::nullopt);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp2, kRtpClockFrequency,
                                 kExtension2->absolute_capture_timestamp,
                                 kExtension2->estimated_capture_clock_offset),
             absl::nullopt);
 }

 TEST(AbsoluteCaptureTimeSenderTest, InterpolateEarlierPacketSentLater) {
   constexpr uint32_t kSource = 1337;
   constexpr uint32_t kRtpClockFrequency = 64000;
   constexpr uint32_t kRtpTimestamp0 = 1020300000;
   constexpr uint32_t kRtpTimestamp1 = kRtpTimestamp0 - 1280;
   constexpr uint32_t kRtpTimestamp2 = kRtpTimestamp0 - 2560;
   static const absl::optional<AbsoluteCaptureTime> kExtension0 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000), Int64MsToQ32x32(-350)};
   static const absl::optional<AbsoluteCaptureTime> kExtension1 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000 - 20), Int64MsToQ32x32(-350)};
   static const absl::optional<AbsoluteCaptureTime> kExtension2 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000 - 40), Int64MsToQ32x32(-350)};

   SimulatedClock clock(0);
   AbsoluteCaptureTimeSender sender(&clock);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp0, kRtpClockFrequency,
                                 kExtension0->absolute_capture_timestamp,
                                 kExtension0->estimated_capture_clock_offset),
             kExtension0);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp1, kRtpClockFrequency,
                                 kExtension1->absolute_capture_timestamp,
                                 kExtension1->estimated_capture_clock_offset),
             absl::nullopt);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp2, kRtpClockFrequency,
                                 kExtension2->absolute_capture_timestamp,
                                 kExtension2->estimated_capture_clock_offset),
             absl::nullopt);
 }

 TEST(AbsoluteCaptureTimeSenderTest,
      InterpolateLaterPacketSentLaterWithRtpTimestampWrapAround) {
   constexpr uint32_t kSource = 1337;
   constexpr uint32_t kRtpClockFrequency = 64000;
   constexpr uint32_t kRtpTimestamp0 = ~uint32_t{0} - 79;
   constexpr uint32_t kRtpTimestamp1 = 1280 - 80;
   constexpr uint32_t kRtpTimestamp2 = 2560 - 80;
   static const absl::optional<AbsoluteCaptureTime> kExtension0 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000), Int64MsToQ32x32(-350)};
   static const absl::optional<AbsoluteCaptureTime> kExtension1 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 20), Int64MsToQ32x32(-350)};
   static const absl::optional<AbsoluteCaptureTime> kExtension2 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 40), Int64MsToQ32x32(-350)};

   SimulatedClock clock(0);
   AbsoluteCaptureTimeSender sender(&clock);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp0, kRtpClockFrequency,
                                 kExtension0->absolute_capture_timestamp,
                                 kExtension0->estimated_capture_clock_offset),
             kExtension0);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp1, kRtpClockFrequency,
                                 kExtension1->absolute_capture_timestamp,
                                 kExtension1->estimated_capture_clock_offset),
             absl::nullopt);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp2, kRtpClockFrequency,
                                 kExtension2->absolute_capture_timestamp,
                                 kExtension2->estimated_capture_clock_offset),
             absl::nullopt);
 }

 TEST(AbsoluteCaptureTimeSenderTest,
      InterpolateEarlierPacketSentLaterWithRtpTimestampWrapAround) {
   constexpr uint32_t kSource = 1337;
   constexpr uint32_t kRtpClockFrequency = 64000;
   constexpr uint32_t kRtpTimestamp0 = 799;
   constexpr uint32_t kRtpTimestamp1 = kRtpTimestamp0 - 1280;
   constexpr uint32_t kRtpTimestamp2 = kRtpTimestamp0 - 2560;
   static const absl::optional<AbsoluteCaptureTime> kExtension0 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000), Int64MsToQ32x32(-350)};
   static const absl::optional<AbsoluteCaptureTime> kExtension1 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000 - 20), Int64MsToQ32x32(-350)};
   static const absl::optional<AbsoluteCaptureTime> kExtension2 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000 - 40), Int64MsToQ32x32(-350)};

   SimulatedClock clock(0);
   AbsoluteCaptureTimeSender sender(&clock);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp0, kRtpClockFrequency,
                                 kExtension0->absolute_capture_timestamp,
                                 kExtension0->estimated_capture_clock_offset),
             kExtension0);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp1, kRtpClockFrequency,
                                 kExtension1->absolute_capture_timestamp,
                                 kExtension1->estimated_capture_clock_offset),
             absl::nullopt);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp2, kRtpClockFrequency,
                                 kExtension2->absolute_capture_timestamp,
                                 kExtension2->estimated_capture_clock_offset),
             absl::nullopt);
 }

 TEST(AbsoluteCaptureTimeSenderTest, SkipInterpolateIfTooLate) {
   constexpr uint32_t kSource = 1337;
   constexpr uint32_t kRtpClockFrequency = 64000;
   constexpr uint32_t kRtpTimestamp0 = 1020300000;
   constexpr uint32_t kRtpTimestamp1 = kRtpTimestamp0 + 1280;
   constexpr uint32_t kRtpTimestamp2 = kRtpTimestamp0 + 2560;
   static const absl::optional<AbsoluteCaptureTime> kExtension0 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000), Int64MsToQ32x32(-350)};
   static const absl::optional<AbsoluteCaptureTime> kExtension1 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 20), Int64MsToQ32x32(-350)};
   static const absl::optional<AbsoluteCaptureTime> kExtension2 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 40), Int64MsToQ32x32(-350)};

   SimulatedClock clock(0);
   AbsoluteCaptureTimeSender sender(&clock);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp0, kRtpClockFrequency,
                                 kExtension0->absolute_capture_timestamp,
                                 kExtension0->estimated_capture_clock_offset),
             kExtension0);

   clock.AdvanceTime(AbsoluteCaptureTimeSender::kInterpolationMaxInterval);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp1, kRtpClockFrequency,
                                 kExtension1->absolute_capture_timestamp,
                                 kExtension1->estimated_capture_clock_offset),
             absl::nullopt);

   clock.AdvanceTimeMicroseconds(1);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp2, kRtpClockFrequency,
                                 kExtension2->absolute_capture_timestamp,
                                 kExtension2->estimated_capture_clock_offset),
             kExtension2);
 }

 TEST(AbsoluteCaptureTimeSenderTest, SkipInterpolateIfSourceChanged) {
   constexpr uint32_t kSource0 = 1337;
   constexpr uint32_t kSource1 = 1338;
   constexpr uint32_t kSource2 = 1338;
   constexpr uint32_t kRtpClockFrequency = 64000;
   constexpr uint32_t kRtpTimestamp0 = 1020300000;
   constexpr uint32_t kRtpTimestamp1 = kRtpTimestamp0 + 1280;
   constexpr uint32_t kRtpTimestamp2 = kRtpTimestamp0 + 2560;
   static const absl::optional<AbsoluteCaptureTime> kExtension0 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000), Int64MsToQ32x32(-350)};
   static const absl::optional<AbsoluteCaptureTime> kExtension1 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 20), Int64MsToQ32x32(-350)};
   static const absl::optional<AbsoluteCaptureTime> kExtension2 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 40), Int64MsToQ32x32(-350)};

   SimulatedClock clock(0);
   AbsoluteCaptureTimeSender sender(&clock);

   EXPECT_EQ(sender.OnSendPacket(kSource0, kRtpTimestamp0, kRtpClockFrequency,
                                 kExtension0->absolute_capture_timestamp,
                                 kExtension0->estimated_capture_clock_offset),
             kExtension0);

   EXPECT_EQ(sender.OnSendPacket(kSource1, kRtpTimestamp1, kRtpClockFrequency,
                                 kExtension1->absolute_capture_timestamp,
                                 kExtension1->estimated_capture_clock_offset),
             kExtension1);

   EXPECT_EQ(sender.OnSendPacket(kSource2, kRtpTimestamp2, kRtpClockFrequency,
                                 kExtension2->absolute_capture_timestamp,
                                 kExtension2->estimated_capture_clock_offset),
             absl::nullopt);
 }

 TEST(AbsoluteCaptureTimeSenderTest, SkipInterpolateIfRtpClockFrequencyChanged) {
   constexpr uint32_t kSource = 1337;
   constexpr uint32_t kRtpClockFrequency0 = 64000;
   constexpr uint32_t kRtpClockFrequency1 = 32000;
   constexpr uint32_t kRtpClockFrequency2 = 32000;
   constexpr uint32_t kRtpTimestamp0 = 1020300000;
   constexpr uint32_t kRtpTimestamp1 = kRtpTimestamp0 + 640;
   constexpr uint32_t kRtpTimestamp2 = kRtpTimestamp0 + 1280;
   static const absl::optional<AbsoluteCaptureTime> kExtension0 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000), Int64MsToQ32x32(-350)};
   static const absl::optional<AbsoluteCaptureTime> kExtension1 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 20), Int64MsToQ32x32(-350)};
   static const absl::optional<AbsoluteCaptureTime> kExtension2 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 40), Int64MsToQ32x32(-350)};

   SimulatedClock clock(0);
   AbsoluteCaptureTimeSender sender(&clock);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp0, kRtpClockFrequency0,
                                 kExtension0->absolute_capture_timestamp,
                                 kExtension0->estimated_capture_clock_offset),
             kExtension0);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp1, kRtpClockFrequency1,
                                 kExtension1->absolute_capture_timestamp,
                                 kExtension1->estimated_capture_clock_offset),
             kExtension1);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp2, kRtpClockFrequency2,
                                 kExtension2->absolute_capture_timestamp,
                                 kExtension2->estimated_capture_clock_offset),
             absl::nullopt);
 }

 TEST(AbsoluteCaptureTimeSenderTest,
      SkipInterpolateIfRtpClockFrequencyIsInvalid) {
   constexpr uint32_t kSource = 1337;
   constexpr uint32_t kRtpClockFrequency0 = 0;
   constexpr uint32_t kRtpClockFrequency1 = 0;
   constexpr uint32_t kRtpClockFrequency2 = 0;
   constexpr uint32_t kRtpTimestamp0 = 1020300000;
   constexpr uint32_t kRtpTimestamp1 = kRtpTimestamp0;
   constexpr uint32_t kRtpTimestamp2 = kRtpTimestamp0;
   static const absl::optional<AbsoluteCaptureTime> kExtension0 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000), Int64MsToQ32x32(-350)};
   static const absl::optional<AbsoluteCaptureTime> kExtension1 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 20), Int64MsToQ32x32(-350)};
   static const absl::optional<AbsoluteCaptureTime> kExtension2 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 40), Int64MsToQ32x32(-350)};

   SimulatedClock clock(0);
   AbsoluteCaptureTimeSender sender(&clock);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp0, kRtpClockFrequency0,
                                 kExtension0->absolute_capture_timestamp,
                                 kExtension0->estimated_capture_clock_offset),
             kExtension0);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp1, kRtpClockFrequency1,
                                 kExtension1->absolute_capture_timestamp,
                                 kExtension1->estimated_capture_clock_offset),
             kExtension1);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp2, kRtpClockFrequency2,
                                 kExtension2->absolute_capture_timestamp,
                                 kExtension2->estimated_capture_clock_offset),
             kExtension2);
 }

 TEST(AbsoluteCaptureTimeSenderTest,
      SkipInterpolateIfEstimatedCaptureClockOffsetChanged) {
   constexpr uint32_t kSource = 1337;
   constexpr uint32_t kRtpClockFrequency = 64000;
   constexpr uint32_t kRtpTimestamp0 = 1020300000;
   constexpr uint32_t kRtpTimestamp1 = kRtpTimestamp0 + 1280;
   constexpr uint32_t kRtpTimestamp2 = kRtpTimestamp0 + 2560;
   static const absl::optional<AbsoluteCaptureTime> kExtension0 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000), Int64MsToQ32x32(-350)};
   static const absl::optional<AbsoluteCaptureTime> kExtension1 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 20), Int64MsToQ32x32(370)};
   static const absl::optional<AbsoluteCaptureTime> kExtension2 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 40), absl::nullopt};

   SimulatedClock clock(0);
   AbsoluteCaptureTimeSender sender(&clock);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp0, kRtpClockFrequency,
                                 kExtension0->absolute_capture_timestamp,
                                 kExtension0->estimated_capture_clock_offset),
             kExtension0);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp1, kRtpClockFrequency,
                                 kExtension1->absolute_capture_timestamp,
                                 kExtension1->estimated_capture_clock_offset),
             kExtension1);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp2, kRtpClockFrequency,
                                 kExtension2->absolute_capture_timestamp,
                                 kExtension2->estimated_capture_clock_offset),
             kExtension2);
 }

 TEST(AbsoluteCaptureTimeSenderTest,
      SkipInterpolateIfTooMuchInterpolationError) {
   constexpr uint32_t kSource = 1337;
   constexpr uint32_t kRtpClockFrequency = 64000;
   constexpr uint32_t kRtpTimestamp0 = 1020300000;
   constexpr uint32_t kRtpTimestamp1 = kRtpTimestamp0 + 1280;
   constexpr uint32_t kRtpTimestamp2 = kRtpTimestamp0 + 2560;
   static const absl::optional<AbsoluteCaptureTime> kExtension0 =
       AbsoluteCaptureTime{Int64MsToUQ32x32(9000), Int64MsToQ32x32(-350)};
   static const absl::optional<AbsoluteCaptureTime> kExtension1 =
       AbsoluteCaptureTime{
           Int64MsToUQ32x32(
               9000 + 20 +
               AbsoluteCaptureTimeSender::kInterpolationMaxError.ms()),
           Int64MsToQ32x32(-350)};
   static const absl::optional<AbsoluteCaptureTime> kExtension2 =
       AbsoluteCaptureTime{
           Int64MsToUQ32x32(
               9000 + 40 +
               AbsoluteCaptureTimeSender::kInterpolationMaxError.ms() + 1),
           Int64MsToQ32x32(-350)};

   SimulatedClock clock(0);
   AbsoluteCaptureTimeSender sender(&clock);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp0, kRtpClockFrequency,
                                 kExtension0->absolute_capture_timestamp,
                                 kExtension0->estimated_capture_clock_offset),
             kExtension0);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp1, kRtpClockFrequency,
                                 kExtension1->absolute_capture_timestamp,
                                 kExtension1->estimated_capture_clock_offset),
             absl::nullopt);

   EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp2, kRtpClockFrequency,
                                 kExtension2->absolute_capture_timestamp,
                                 kExtension2->estimated_capture_clock_offset),
             kExtension2);
 }

 }  // namespace webrtc
	/*
	* Copyright (c) 2019 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#include "modules/rtp_rtcp/source/absolute_capture_time_sender.h"

	#include "system_wrappers/include/ntp_time.h"
	#include "test/gmock.h"
	#include "test/gtest.h"

	namespace webrtc {

	TEST(AbsoluteCaptureTimeSenderTest, GetSourceWithoutCsrcs) {
	constexpr uint32_t kSsrc = 12;

	EXPECT_EQ(AbsoluteCaptureTimeSender::GetSource(kSsrc, nullptr), kSsrc);
	}

	TEST(AbsoluteCaptureTimeSenderTest, GetSourceWithCsrcs) {
	constexpr uint32_t kSsrc = 12;
	constexpr uint32_t kCsrcs[] = {34, 56, 78, 90};

	EXPECT_EQ(AbsoluteCaptureTimeSender::GetSource(kSsrc, kCsrcs), kCsrcs[0]);
	}

	TEST(AbsoluteCaptureTimeSenderTest, InterpolateLaterPacketSentLater) {
	constexpr uint32_t kSource = 1337;
	constexpr uint32_t kRtpClockFrequency = 64000;
	constexpr uint32_t kRtpTimestamp0 = 1020300000;
	constexpr uint32_t kRtpTimestamp1 = kRtpTimestamp0 + 1280;
	constexpr uint32_t kRtpTimestamp2 = kRtpTimestamp0 + 2560;
	static const absl::optional<AbsoluteCaptureTime> kExtension0 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000), Int64MsToQ32x32(-350)};
	static const absl::optional<AbsoluteCaptureTime> kExtension1 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 20), Int64MsToQ32x32(-350)};
	static const absl::optional<AbsoluteCaptureTime> kExtension2 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 40), Int64MsToQ32x32(-350)};
	SimulatedClock clock(0);
	AbsoluteCaptureTimeSender sender(&clock);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp0, kRtpClockFrequency,
	kExtension0->absolute_capture_timestamp,
	kExtension0->estimated_capture_clock_offset),
	kExtension0);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp1, kRtpClockFrequency,
	kExtension1->absolute_capture_timestamp,
	kExtension1->estimated_capture_clock_offset),
	absl::nullopt);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp2, kRtpClockFrequency,
	kExtension2->absolute_capture_timestamp,
	kExtension2->estimated_capture_clock_offset),
	absl::nullopt);
	}

	TEST(AbsoluteCaptureTimeSenderTest, InterpolateEarlierPacketSentLater) {
	constexpr uint32_t kSource = 1337;
	constexpr uint32_t kRtpClockFrequency = 64000;
	constexpr uint32_t kRtpTimestamp0 = 1020300000;
	constexpr uint32_t kRtpTimestamp1 = kRtpTimestamp0 - 1280;
	constexpr uint32_t kRtpTimestamp2 = kRtpTimestamp0 - 2560;
	static const absl::optional<AbsoluteCaptureTime> kExtension0 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000), Int64MsToQ32x32(-350)};
	static const absl::optional<AbsoluteCaptureTime> kExtension1 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000 - 20), Int64MsToQ32x32(-350)};
	static const absl::optional<AbsoluteCaptureTime> kExtension2 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000 - 40), Int64MsToQ32x32(-350)};

	SimulatedClock clock(0);
	AbsoluteCaptureTimeSender sender(&clock);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp0, kRtpClockFrequency,
	kExtension0->absolute_capture_timestamp,
	kExtension0->estimated_capture_clock_offset),
	kExtension0);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp1, kRtpClockFrequency,
	kExtension1->absolute_capture_timestamp,
	kExtension1->estimated_capture_clock_offset),
	absl::nullopt);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp2, kRtpClockFrequency,
	kExtension2->absolute_capture_timestamp,
	kExtension2->estimated_capture_clock_offset),
	absl::nullopt);
	}

	TEST(AbsoluteCaptureTimeSenderTest,
	InterpolateLaterPacketSentLaterWithRtpTimestampWrapAround) {
	constexpr uint32_t kSource = 1337;
	constexpr uint32_t kRtpClockFrequency = 64000;
	constexpr uint32_t kRtpTimestamp0 = ~uint32_t{0} - 79;
	constexpr uint32_t kRtpTimestamp1 = 1280 - 80;
	constexpr uint32_t kRtpTimestamp2 = 2560 - 80;
	static const absl::optional<AbsoluteCaptureTime> kExtension0 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000), Int64MsToQ32x32(-350)};
	static const absl::optional<AbsoluteCaptureTime> kExtension1 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 20), Int64MsToQ32x32(-350)};
	static const absl::optional<AbsoluteCaptureTime> kExtension2 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 40), Int64MsToQ32x32(-350)};

	SimulatedClock clock(0);
	AbsoluteCaptureTimeSender sender(&clock);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp0, kRtpClockFrequency,
	kExtension0->absolute_capture_timestamp,
	kExtension0->estimated_capture_clock_offset),
	kExtension0);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp1, kRtpClockFrequency,
	kExtension1->absolute_capture_timestamp,
	kExtension1->estimated_capture_clock_offset),
	absl::nullopt);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp2, kRtpClockFrequency,
	kExtension2->absolute_capture_timestamp,
	kExtension2->estimated_capture_clock_offset),
	absl::nullopt);
	}

	TEST(AbsoluteCaptureTimeSenderTest,
	InterpolateEarlierPacketSentLaterWithRtpTimestampWrapAround) {
	constexpr uint32_t kSource = 1337;
	constexpr uint32_t kRtpClockFrequency = 64000;
	constexpr uint32_t kRtpTimestamp0 = 799;
	constexpr uint32_t kRtpTimestamp1 = kRtpTimestamp0 - 1280;
	constexpr uint32_t kRtpTimestamp2 = kRtpTimestamp0 - 2560;
	static const absl::optional<AbsoluteCaptureTime> kExtension0 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000), Int64MsToQ32x32(-350)};
	static const absl::optional<AbsoluteCaptureTime> kExtension1 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000 - 20), Int64MsToQ32x32(-350)};
	static const absl::optional<AbsoluteCaptureTime> kExtension2 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000 - 40), Int64MsToQ32x32(-350)};

	SimulatedClock clock(0);
	AbsoluteCaptureTimeSender sender(&clock);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp0, kRtpClockFrequency,
	kExtension0->absolute_capture_timestamp,
	kExtension0->estimated_capture_clock_offset),
	kExtension0);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp1, kRtpClockFrequency,
	kExtension1->absolute_capture_timestamp,
	kExtension1->estimated_capture_clock_offset),
	absl::nullopt);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp2, kRtpClockFrequency,
	kExtension2->absolute_capture_timestamp,
	kExtension2->estimated_capture_clock_offset),
	absl::nullopt);
	}

	TEST(AbsoluteCaptureTimeSenderTest, SkipInterpolateIfTooLate) {
	constexpr uint32_t kSource = 1337;
	constexpr uint32_t kRtpClockFrequency = 64000;
	constexpr uint32_t kRtpTimestamp0 = 1020300000;
	constexpr uint32_t kRtpTimestamp1 = kRtpTimestamp0 + 1280;
	constexpr uint32_t kRtpTimestamp2 = kRtpTimestamp0 + 2560;
	static const absl::optional<AbsoluteCaptureTime> kExtension0 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000), Int64MsToQ32x32(-350)};
	static const absl::optional<AbsoluteCaptureTime> kExtension1 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 20), Int64MsToQ32x32(-350)};
	static const absl::optional<AbsoluteCaptureTime> kExtension2 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 40), Int64MsToQ32x32(-350)};

	SimulatedClock clock(0);
	AbsoluteCaptureTimeSender sender(&clock);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp0, kRtpClockFrequency,
	kExtension0->absolute_capture_timestamp,
	kExtension0->estimated_capture_clock_offset),
	kExtension0);

	clock.AdvanceTime(AbsoluteCaptureTimeSender::kInterpolationMaxInterval);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp1, kRtpClockFrequency,
	kExtension1->absolute_capture_timestamp,
	kExtension1->estimated_capture_clock_offset),
	absl::nullopt);

	clock.AdvanceTimeMicroseconds(1);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp2, kRtpClockFrequency,
	kExtension2->absolute_capture_timestamp,
	kExtension2->estimated_capture_clock_offset),
	kExtension2);
	}

	TEST(AbsoluteCaptureTimeSenderTest, SkipInterpolateIfSourceChanged) {
	constexpr uint32_t kSource0 = 1337;
	constexpr uint32_t kSource1 = 1338;
	constexpr uint32_t kSource2 = 1338;
	constexpr uint32_t kRtpClockFrequency = 64000;
	constexpr uint32_t kRtpTimestamp0 = 1020300000;
	constexpr uint32_t kRtpTimestamp1 = kRtpTimestamp0 + 1280;
	constexpr uint32_t kRtpTimestamp2 = kRtpTimestamp0 + 2560;
	static const absl::optional<AbsoluteCaptureTime> kExtension0 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000), Int64MsToQ32x32(-350)};
	static const absl::optional<AbsoluteCaptureTime> kExtension1 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 20), Int64MsToQ32x32(-350)};
	static const absl::optional<AbsoluteCaptureTime> kExtension2 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 40), Int64MsToQ32x32(-350)};

	SimulatedClock clock(0);
	AbsoluteCaptureTimeSender sender(&clock);

	EXPECT_EQ(sender.OnSendPacket(kSource0, kRtpTimestamp0, kRtpClockFrequency,
	kExtension0->absolute_capture_timestamp,
	kExtension0->estimated_capture_clock_offset),
	kExtension0);

	EXPECT_EQ(sender.OnSendPacket(kSource1, kRtpTimestamp1, kRtpClockFrequency,
	kExtension1->absolute_capture_timestamp,
	kExtension1->estimated_capture_clock_offset),
	kExtension1);

	EXPECT_EQ(sender.OnSendPacket(kSource2, kRtpTimestamp2, kRtpClockFrequency,
	kExtension2->absolute_capture_timestamp,
	kExtension2->estimated_capture_clock_offset),
	absl::nullopt);
	}

	TEST(AbsoluteCaptureTimeSenderTest, SkipInterpolateIfRtpClockFrequencyChanged) {
	constexpr uint32_t kSource = 1337;
	constexpr uint32_t kRtpClockFrequency0 = 64000;
	constexpr uint32_t kRtpClockFrequency1 = 32000;
	constexpr uint32_t kRtpClockFrequency2 = 32000;
	constexpr uint32_t kRtpTimestamp0 = 1020300000;
	constexpr uint32_t kRtpTimestamp1 = kRtpTimestamp0 + 640;
	constexpr uint32_t kRtpTimestamp2 = kRtpTimestamp0 + 1280;
	static const absl::optional<AbsoluteCaptureTime> kExtension0 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000), Int64MsToQ32x32(-350)};
	static const absl::optional<AbsoluteCaptureTime> kExtension1 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 20), Int64MsToQ32x32(-350)};
	static const absl::optional<AbsoluteCaptureTime> kExtension2 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 40), Int64MsToQ32x32(-350)};

	SimulatedClock clock(0);
	AbsoluteCaptureTimeSender sender(&clock);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp0, kRtpClockFrequency0,
	kExtension0->absolute_capture_timestamp,
	kExtension0->estimated_capture_clock_offset),
	kExtension0);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp1, kRtpClockFrequency1,
	kExtension1->absolute_capture_timestamp,
	kExtension1->estimated_capture_clock_offset),
	kExtension1);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp2, kRtpClockFrequency2,
	kExtension2->absolute_capture_timestamp,
	kExtension2->estimated_capture_clock_offset),
	absl::nullopt);
	}

	TEST(AbsoluteCaptureTimeSenderTest,
	SkipInterpolateIfRtpClockFrequencyIsInvalid) {
	constexpr uint32_t kSource = 1337;
	constexpr uint32_t kRtpClockFrequency0 = 0;
	constexpr uint32_t kRtpClockFrequency1 = 0;
	constexpr uint32_t kRtpClockFrequency2 = 0;
	constexpr uint32_t kRtpTimestamp0 = 1020300000;
	constexpr uint32_t kRtpTimestamp1 = kRtpTimestamp0;
	constexpr uint32_t kRtpTimestamp2 = kRtpTimestamp0;
	static const absl::optional<AbsoluteCaptureTime> kExtension0 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000), Int64MsToQ32x32(-350)};
	static const absl::optional<AbsoluteCaptureTime> kExtension1 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 20), Int64MsToQ32x32(-350)};
	static const absl::optional<AbsoluteCaptureTime> kExtension2 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 40), Int64MsToQ32x32(-350)};

	SimulatedClock clock(0);
	AbsoluteCaptureTimeSender sender(&clock);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp0, kRtpClockFrequency0,
	kExtension0->absolute_capture_timestamp,
	kExtension0->estimated_capture_clock_offset),
	kExtension0);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp1, kRtpClockFrequency1,
	kExtension1->absolute_capture_timestamp,
	kExtension1->estimated_capture_clock_offset),
	kExtension1);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp2, kRtpClockFrequency2,
	kExtension2->absolute_capture_timestamp,
	kExtension2->estimated_capture_clock_offset),
	kExtension2);
	}

	TEST(AbsoluteCaptureTimeSenderTest,
	SkipInterpolateIfEstimatedCaptureClockOffsetChanged) {
	constexpr uint32_t kSource = 1337;
	constexpr uint32_t kRtpClockFrequency = 64000;
	constexpr uint32_t kRtpTimestamp0 = 1020300000;
	constexpr uint32_t kRtpTimestamp1 = kRtpTimestamp0 + 1280;
	constexpr uint32_t kRtpTimestamp2 = kRtpTimestamp0 + 2560;
	static const absl::optional<AbsoluteCaptureTime> kExtension0 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000), Int64MsToQ32x32(-350)};
	static const absl::optional<AbsoluteCaptureTime> kExtension1 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 20), Int64MsToQ32x32(370)};
	static const absl::optional<AbsoluteCaptureTime> kExtension2 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000 + 40), absl::nullopt};

	SimulatedClock clock(0);
	AbsoluteCaptureTimeSender sender(&clock);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp0, kRtpClockFrequency,
	kExtension0->absolute_capture_timestamp,
	kExtension0->estimated_capture_clock_offset),
	kExtension0);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp1, kRtpClockFrequency,
	kExtension1->absolute_capture_timestamp,
	kExtension1->estimated_capture_clock_offset),
	kExtension1);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp2, kRtpClockFrequency,
	kExtension2->absolute_capture_timestamp,
	kExtension2->estimated_capture_clock_offset),
	kExtension2);
	}

	TEST(AbsoluteCaptureTimeSenderTest,
	SkipInterpolateIfTooMuchInterpolationError) {
	constexpr uint32_t kSource = 1337;
	constexpr uint32_t kRtpClockFrequency = 64000;
	constexpr uint32_t kRtpTimestamp0 = 1020300000;
	constexpr uint32_t kRtpTimestamp1 = kRtpTimestamp0 + 1280;
	constexpr uint32_t kRtpTimestamp2 = kRtpTimestamp0 + 2560;
	static const absl::optional<AbsoluteCaptureTime> kExtension0 =
	AbsoluteCaptureTime{Int64MsToUQ32x32(9000), Int64MsToQ32x32(-350)};
	static const absl::optional<AbsoluteCaptureTime> kExtension1 =
	AbsoluteCaptureTime{
	Int64MsToUQ32x32(
	9000 + 20 +
	AbsoluteCaptureTimeSender::kInterpolationMaxError.ms()),
	Int64MsToQ32x32(-350)};
	static const absl::optional<AbsoluteCaptureTime> kExtension2 =
	AbsoluteCaptureTime{
	Int64MsToUQ32x32(
	9000 + 40 +
	AbsoluteCaptureTimeSender::kInterpolationMaxError.ms() + 1),
	Int64MsToQ32x32(-350)};

	SimulatedClock clock(0);
	AbsoluteCaptureTimeSender sender(&clock);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp0, kRtpClockFrequency,
	kExtension0->absolute_capture_timestamp,
	kExtension0->estimated_capture_clock_offset),
	kExtension0);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp1, kRtpClockFrequency,
	kExtension1->absolute_capture_timestamp,
	kExtension1->estimated_capture_clock_offset),
	absl::nullopt);

	EXPECT_EQ(sender.OnSendPacket(kSource, kRtpTimestamp2, kRtpClockFrequency,
	kExtension2->absolute_capture_timestamp,
	kExtension2->estimated_capture_clock_offset),
	kExtension2);
	}

	} // namespace webrtc