Source/ThirdParty/libwebrtc/Source/webrtc/modules/bitrate_controller/send_side_bandwidth_estimation_unittest.cc - WebKit - Git at Google

 /*
  *  Copyright (c) 2014 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/bitrate_controller/send_side_bandwidth_estimation.h"

 #include "logging/rtc_event_log/events/rtc_event.h"
 #include "logging/rtc_event_log/events/rtc_event_bwe_update_loss_based.h"
 #include "logging/rtc_event_log/mock/mock_rtc_event_log.h"
 #include "test/gmock.h"
 #include "test/gtest.h"

 namespace webrtc {

 MATCHER(LossBasedBweUpdateWithBitrateOnly, "") {
   if (arg->GetType() != RtcEvent::Type::BweUpdateLossBased) {
     return false;
   }
   auto bwe_event = static_cast<RtcEventBweUpdateLossBased*>(arg);
   return bwe_event->bitrate_bps() > 0 && bwe_event->fraction_loss() == 0;
 }

 MATCHER(LossBasedBweUpdateWithBitrateAndLossFraction, "") {
   if (arg->GetType() != RtcEvent::Type::BweUpdateLossBased) {
     return false;
   }
   auto bwe_event = static_cast<RtcEventBweUpdateLossBased*>(arg);
   return bwe_event->bitrate_bps() > 0 && bwe_event->fraction_loss() > 0;
 }

 void TestProbing(bool use_delay_based) {
   ::testing::NiceMock<MockRtcEventLog> event_log;
   SendSideBandwidthEstimation bwe(&event_log);
   int64_t now_ms = 0;
   bwe.SetMinMaxBitrate(DataRate::bps(100000), DataRate::bps(1500000));
   bwe.SetSendBitrate(DataRate::bps(200000), Timestamp::ms(now_ms));

   const int kRembBps = 1000000;
   const int kSecondRembBps = kRembBps + 500000;

   bwe.UpdateReceiverBlock(0, TimeDelta::ms(50), 1, Timestamp::ms(now_ms));

   // Initial REMB applies immediately.
   if (use_delay_based) {
     bwe.UpdateDelayBasedEstimate(Timestamp::ms(now_ms),
                                  DataRate::bps(kRembBps));
   } else {
     bwe.UpdateReceiverEstimate(Timestamp::ms(now_ms), DataRate::bps(kRembBps));
   }
   bwe.UpdateEstimate(Timestamp::ms(now_ms));
   int bitrate;
   uint8_t fraction_loss;
   int64_t rtt;
   bwe.CurrentEstimate(&bitrate, &fraction_loss, &rtt);
   EXPECT_EQ(kRembBps, bitrate);

   // Second REMB doesn't apply immediately.
   now_ms += 2001;
   if (use_delay_based) {
     bwe.UpdateDelayBasedEstimate(Timestamp::ms(now_ms),
                                  DataRate::bps(kSecondRembBps));
   } else {
     bwe.UpdateReceiverEstimate(Timestamp::ms(now_ms),
                                DataRate::bps(kSecondRembBps));
   }
   bwe.UpdateEstimate(Timestamp::ms(now_ms));
   bitrate = 0;
   bwe.CurrentEstimate(&bitrate, &fraction_loss, &rtt);
   EXPECT_EQ(kRembBps, bitrate);
 }

 TEST(SendSideBweTest, InitialRembWithProbing) {
   TestProbing(false);
 }

 TEST(SendSideBweTest, InitialDelayBasedBweWithProbing) {
   TestProbing(true);
 }

 TEST(SendSideBweTest, DoesntReapplyBitrateDecreaseWithoutFollowingRemb) {
   MockRtcEventLog event_log;
   EXPECT_CALL(event_log, LogProxy(LossBasedBweUpdateWithBitrateOnly()))
       .Times(1);
   EXPECT_CALL(event_log,
               LogProxy(LossBasedBweUpdateWithBitrateAndLossFraction()))
       .Times(1);
   SendSideBandwidthEstimation bwe(&event_log);
   static const int kMinBitrateBps = 100000;
   static const int kInitialBitrateBps = 1000000;
   int64_t now_ms = 1000;
   bwe.SetMinMaxBitrate(DataRate::bps(kMinBitrateBps), DataRate::bps(1500000));
   bwe.SetSendBitrate(DataRate::bps(kInitialBitrateBps), Timestamp::ms(now_ms));

   static const uint8_t kFractionLoss = 128;
   static const int64_t kRttMs = 50;
   now_ms += 10000;

   int bitrate_bps;
   uint8_t fraction_loss;
   int64_t rtt_ms;
   bwe.CurrentEstimate(&bitrate_bps, &fraction_loss, &rtt_ms);
   EXPECT_EQ(kInitialBitrateBps, bitrate_bps);
   EXPECT_EQ(0, fraction_loss);
   EXPECT_EQ(0, rtt_ms);

   // Signal heavy loss to go down in bitrate.
   bwe.UpdateReceiverBlock(kFractionLoss, TimeDelta::ms(kRttMs), 100,
                           Timestamp::ms(now_ms));
   // Trigger an update 2 seconds later to not be rate limited.
   now_ms += 1000;
   bwe.UpdateEstimate(Timestamp::ms(now_ms));

   bwe.CurrentEstimate(&bitrate_bps, &fraction_loss, &rtt_ms);
   EXPECT_LT(bitrate_bps, kInitialBitrateBps);
   // Verify that the obtained bitrate isn't hitting the min bitrate, or this
   // test doesn't make sense. If this ever happens, update the thresholds or
   // loss rates so that it doesn't hit min bitrate after one bitrate update.
   EXPECT_GT(bitrate_bps, kMinBitrateBps);
   EXPECT_EQ(kFractionLoss, fraction_loss);
   EXPECT_EQ(kRttMs, rtt_ms);

   // Triggering an update shouldn't apply further downgrade nor upgrade since
   // there's no intermediate receiver block received indicating whether this is
   // currently good or not.
   int last_bitrate_bps = bitrate_bps;
   // Trigger an update 2 seconds later to not be rate limited (but it still
   // shouldn't update).
   now_ms += 1000;
   bwe.UpdateEstimate(Timestamp::ms(now_ms));
   bwe.CurrentEstimate(&bitrate_bps, &fraction_loss, &rtt_ms);

   EXPECT_EQ(last_bitrate_bps, bitrate_bps);
   // The old loss rate should still be applied though.
   EXPECT_EQ(kFractionLoss, fraction_loss);
   EXPECT_EQ(kRttMs, rtt_ms);
 }

 TEST(SendSideBweTest, SettingSendBitrateOverridesDelayBasedEstimate) {
   ::testing::NiceMock<MockRtcEventLog> event_log;
   SendSideBandwidthEstimation bwe(&event_log);
   static const int kMinBitrateBps = 10000;
   static const int kMaxBitrateBps = 10000000;
   static const int kInitialBitrateBps = 300000;
   static const int kDelayBasedBitrateBps = 350000;
   static const int kForcedHighBitrate = 2500000;

   int64_t now_ms = 0;
   int bitrate_bps;
   uint8_t fraction_loss;
   int64_t rtt_ms;

   bwe.SetMinMaxBitrate(DataRate::bps(kMinBitrateBps),
                        DataRate::bps(kMaxBitrateBps));
   bwe.SetSendBitrate(DataRate::bps(kInitialBitrateBps), Timestamp::ms(now_ms));

   bwe.UpdateDelayBasedEstimate(Timestamp::ms(now_ms),
                                DataRate::bps(kDelayBasedBitrateBps));
   bwe.UpdateEstimate(Timestamp::ms(now_ms));
   bwe.CurrentEstimate(&bitrate_bps, &fraction_loss, &rtt_ms);
   EXPECT_GE(bitrate_bps, kInitialBitrateBps);
   EXPECT_LE(bitrate_bps, kDelayBasedBitrateBps);

   bwe.SetSendBitrate(DataRate::bps(kForcedHighBitrate), Timestamp::ms(now_ms));
   bwe.CurrentEstimate(&bitrate_bps, &fraction_loss, &rtt_ms);
   EXPECT_EQ(bitrate_bps, kForcedHighBitrate);
 }

 }  // namespace webrtc
	/*
	* Copyright (c) 2014 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/bitrate_controller/send_side_bandwidth_estimation.h"

	#include "logging/rtc_event_log/events/rtc_event.h"
	#include "logging/rtc_event_log/events/rtc_event_bwe_update_loss_based.h"
	#include "logging/rtc_event_log/mock/mock_rtc_event_log.h"
	#include "test/gmock.h"
	#include "test/gtest.h"

	namespace webrtc {

	MATCHER(LossBasedBweUpdateWithBitrateOnly, "") {
	if (arg->GetType() != RtcEvent::Type::BweUpdateLossBased) {
	return false;
	}
	auto bwe_event = static_cast<RtcEventBweUpdateLossBased*>(arg);
	return bwe_event->bitrate_bps() > 0 && bwe_event->fraction_loss() == 0;
	}

	MATCHER(LossBasedBweUpdateWithBitrateAndLossFraction, "") {
	if (arg->GetType() != RtcEvent::Type::BweUpdateLossBased) {
	return false;
	}
	auto bwe_event = static_cast<RtcEventBweUpdateLossBased*>(arg);
	return bwe_event->bitrate_bps() > 0 && bwe_event->fraction_loss() > 0;
	}

	void TestProbing(bool use_delay_based) {
	::testing::NiceMock<MockRtcEventLog> event_log;
	SendSideBandwidthEstimation bwe(&event_log);
	int64_t now_ms = 0;
	bwe.SetMinMaxBitrate(DataRate::bps(100000), DataRate::bps(1500000));
	bwe.SetSendBitrate(DataRate::bps(200000), Timestamp::ms(now_ms));

	const int kRembBps = 1000000;
	const int kSecondRembBps = kRembBps + 500000;

	bwe.UpdateReceiverBlock(0, TimeDelta::ms(50), 1, Timestamp::ms(now_ms));

	// Initial REMB applies immediately.
	if (use_delay_based) {
	bwe.UpdateDelayBasedEstimate(Timestamp::ms(now_ms),
	DataRate::bps(kRembBps));
	} else {
	bwe.UpdateReceiverEstimate(Timestamp::ms(now_ms), DataRate::bps(kRembBps));
	}
	bwe.UpdateEstimate(Timestamp::ms(now_ms));
	int bitrate;
	uint8_t fraction_loss;
	int64_t rtt;
	bwe.CurrentEstimate(&bitrate, &fraction_loss, &rtt);
	EXPECT_EQ(kRembBps, bitrate);

	// Second REMB doesn't apply immediately.
	now_ms += 2001;
	if (use_delay_based) {
	bwe.UpdateDelayBasedEstimate(Timestamp::ms(now_ms),
	DataRate::bps(kSecondRembBps));
	} else {
	bwe.UpdateReceiverEstimate(Timestamp::ms(now_ms),
	DataRate::bps(kSecondRembBps));
	}
	bwe.UpdateEstimate(Timestamp::ms(now_ms));
	bitrate = 0;
	bwe.CurrentEstimate(&bitrate, &fraction_loss, &rtt);
	EXPECT_EQ(kRembBps, bitrate);
	}

	TEST(SendSideBweTest, InitialRembWithProbing) {
	TestProbing(false);
	}

	TEST(SendSideBweTest, InitialDelayBasedBweWithProbing) {
	TestProbing(true);
	}

	TEST(SendSideBweTest, DoesntReapplyBitrateDecreaseWithoutFollowingRemb) {
	MockRtcEventLog event_log;
	EXPECT_CALL(event_log, LogProxy(LossBasedBweUpdateWithBitrateOnly()))
	.Times(1);
	EXPECT_CALL(event_log,
	LogProxy(LossBasedBweUpdateWithBitrateAndLossFraction()))
	.Times(1);
	SendSideBandwidthEstimation bwe(&event_log);
	static const int kMinBitrateBps = 100000;
	static const int kInitialBitrateBps = 1000000;
	int64_t now_ms = 1000;
	bwe.SetMinMaxBitrate(DataRate::bps(kMinBitrateBps), DataRate::bps(1500000));
	bwe.SetSendBitrate(DataRate::bps(kInitialBitrateBps), Timestamp::ms(now_ms));

	static const uint8_t kFractionLoss = 128;
	static const int64_t kRttMs = 50;
	now_ms += 10000;

	int bitrate_bps;
	uint8_t fraction_loss;
	int64_t rtt_ms;
	bwe.CurrentEstimate(&bitrate_bps, &fraction_loss, &rtt_ms);
	EXPECT_EQ(kInitialBitrateBps, bitrate_bps);
	EXPECT_EQ(0, fraction_loss);
	EXPECT_EQ(0, rtt_ms);

	// Signal heavy loss to go down in bitrate.
	bwe.UpdateReceiverBlock(kFractionLoss, TimeDelta::ms(kRttMs), 100,
	Timestamp::ms(now_ms));
	// Trigger an update 2 seconds later to not be rate limited.
	now_ms += 1000;
	bwe.UpdateEstimate(Timestamp::ms(now_ms));

	bwe.CurrentEstimate(&bitrate_bps, &fraction_loss, &rtt_ms);
	EXPECT_LT(bitrate_bps, kInitialBitrateBps);
	// Verify that the obtained bitrate isn't hitting the min bitrate, or this
	// test doesn't make sense. If this ever happens, update the thresholds or
	// loss rates so that it doesn't hit min bitrate after one bitrate update.
	EXPECT_GT(bitrate_bps, kMinBitrateBps);
	EXPECT_EQ(kFractionLoss, fraction_loss);
	EXPECT_EQ(kRttMs, rtt_ms);

	// Triggering an update shouldn't apply further downgrade nor upgrade since
	// there's no intermediate receiver block received indicating whether this is
	// currently good or not.
	int last_bitrate_bps = bitrate_bps;
	// Trigger an update 2 seconds later to not be rate limited (but it still
	// shouldn't update).
	now_ms += 1000;
	bwe.UpdateEstimate(Timestamp::ms(now_ms));
	bwe.CurrentEstimate(&bitrate_bps, &fraction_loss, &rtt_ms);

	EXPECT_EQ(last_bitrate_bps, bitrate_bps);
	// The old loss rate should still be applied though.
	EXPECT_EQ(kFractionLoss, fraction_loss);
	EXPECT_EQ(kRttMs, rtt_ms);
	}

	TEST(SendSideBweTest, SettingSendBitrateOverridesDelayBasedEstimate) {
	::testing::NiceMock<MockRtcEventLog> event_log;
	SendSideBandwidthEstimation bwe(&event_log);
	static const int kMinBitrateBps = 10000;
	static const int kMaxBitrateBps = 10000000;
	static const int kInitialBitrateBps = 300000;
	static const int kDelayBasedBitrateBps = 350000;
	static const int kForcedHighBitrate = 2500000;

	int64_t now_ms = 0;
	int bitrate_bps;
	uint8_t fraction_loss;
	int64_t rtt_ms;

	bwe.SetMinMaxBitrate(DataRate::bps(kMinBitrateBps),
	DataRate::bps(kMaxBitrateBps));
	bwe.SetSendBitrate(DataRate::bps(kInitialBitrateBps), Timestamp::ms(now_ms));

	bwe.UpdateDelayBasedEstimate(Timestamp::ms(now_ms),
	DataRate::bps(kDelayBasedBitrateBps));
	bwe.UpdateEstimate(Timestamp::ms(now_ms));
	bwe.CurrentEstimate(&bitrate_bps, &fraction_loss, &rtt_ms);
	EXPECT_GE(bitrate_bps, kInitialBitrateBps);
	EXPECT_LE(bitrate_bps, kDelayBasedBitrateBps);

	bwe.SetSendBitrate(DataRate::bps(kForcedHighBitrate), Timestamp::ms(now_ms));
	bwe.CurrentEstimate(&bitrate_bps, &fraction_loss, &rtt_ms);
	EXPECT_EQ(bitrate_bps, kForcedHighBitrate);
	}

	} // namespace webrtc