test/scenario/scenario_tests/bbr_performance.cc - src - Git at Google

 /*
  *  Copyright 2018 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 "rtc_base/random.h"

 #include "modules/congestion_controller/bbr/bbr_factory.h"
 #include "rtc_base/experiments/field_trial_parser.h"
 #include "rtc_base/experiments/field_trial_units.h"
 #include "test/field_trial.h"
 #include "test/gtest.h"
 #include "test/scenario/scenario.h"

 namespace webrtc {
 namespace test {
 namespace {
 constexpr int64_t kRunTimeMs = 60000;

 using ::testing::Values;
 using ::testing::Combine;
 using ::testing::tuple;
 using ::testing::make_tuple;

 using Codec = VideoStreamConfig::Encoder::Codec;
 using CodecImpl = VideoStreamConfig::Encoder::Implementation;

 struct CallTestConfig {
   struct Scenario {
     FieldTrialParameter<int> random_seed;
     FieldTrialFlag return_traffic;
     FieldTrialParameter<DataRate> capacity;
     FieldTrialParameter<TimeDelta> propagation_delay;
     FieldTrialParameter<DataRate> cross_traffic;
     FieldTrialParameter<TimeDelta> delay_noise;
     FieldTrialParameter<double> loss_rate;
     Scenario()
         : random_seed("rs", 1),
           return_traffic("ret"),
           capacity("bw", DataRate::kbps(300)),
           propagation_delay("dl", TimeDelta::ms(100)),
           cross_traffic("ct", DataRate::Zero()),
           delay_noise("dn", TimeDelta::Zero()),
           loss_rate("pl", 0) {}
     void Parse(std::string config_str) {
       ParseFieldTrial(
           {&random_seed, &return_traffic, &capacity, &propagation_delay,
            &cross_traffic, &delay_noise, &loss_rate},
           config_str);
     }
   } scenario;
   struct Tuning {
     FieldTrialFlag use_bbr;
     FieldTrialFlag bbr_no_target_rate;
     FieldTrialOptional<DataSize> bbr_initial_window;
     FieldTrialParameter<double> bbr_encoder_gain;
     Tuning()
         : use_bbr("bbr"),
           bbr_no_target_rate("notr"),
           bbr_initial_window("iw", DataSize::bytes(8000)),
           bbr_encoder_gain("eg", 0.8) {}
     void Parse(std::string config_str) {
       ParseFieldTrial(
           {
               &use_bbr, &bbr_no_target_rate, &bbr_initial_window,
               &bbr_encoder_gain,
           },
           config_str);
     }
   } tuning;

   void Parse(std::string scenario_string, std::string tuning_string) {
     scenario.Parse(scenario_string);
     tuning.Parse(tuning_string);
     scenario_str = scenario_string;
     tuning_str = tuning_string;
   }
   std::string scenario_str;
   std::string tuning_str;

   std::string BbrTrial() const {
     char trial_buf[1024];
     rtc::SimpleStringBuilder trial(trial_buf);
     trial << "WebRTC-BweBbrConfig/";
     trial << "encoder_rate_gain_in_probe_rtt:0.5";
     trial.AppendFormat(",encoder_rate_gain:%.1lf",
                        tuning.bbr_encoder_gain.Get());
     if (tuning.bbr_no_target_rate)
       trial << ",pacing_rate_as_target:1";
     if (tuning.bbr_initial_window)
       trial << ",initial_cwin:" << tuning.bbr_initial_window->bytes();
     trial << "/";
     return trial.str();
   }
   std::string FieldTrials() const {
     std::string trials;
     if (tuning.use_bbr) {
       trials +=
           "WebRTC-BweCongestionController/Enabled,BBR/"
           "WebRTC-Pacer-DrainQueue/Disabled/"
           "WebRTC-Pacer-PadInSilence/Enabled/"
           "WebRTC-Pacer-BlockAudio/Disabled/"
           "WebRTC-Audio-SendSideBwe/Enabled/"
           "WebRTC-SendSideBwe-WithOverhead/Enabled/";
       trials += BbrTrial();
     }
     return trials;
   }

   std::string Name() const {
     char raw_name[1024];
     rtc::SimpleStringBuilder name(raw_name);
     for (char c : scenario_str + "__tun__" + tuning_str) {
       if (c == ':') {
         continue;
       } else if (c == ',') {
         name << "_";
       } else if (c == '%') {
         name << "p";
       } else {
         name << c;
       }
     }
     return name.str();
   }
 };
 }  // namespace
 class BbrScenarioTest
     : public ::testing::Test,
       public ::testing::WithParamInterface<tuple<std::string, std::string>> {
  public:
   BbrScenarioTest() {
     conf_.Parse(::testing::get<0>(GetParam()), ::testing::get<1>(GetParam()));
     field_trial_.reset(new test::ScopedFieldTrials(conf_.FieldTrials()));
   }
   CallTestConfig conf_;

  private:
   std::unique_ptr<test::ScopedFieldTrials> field_trial_;
 };

 TEST_P(BbrScenarioTest, ReceivesVideo) {
   BbrNetworkControllerFactory bbr_factory;
   Scenario s("bbr_test_gen/bbr__" + conf_.Name());
   CallClientConfig call_config;
   if (conf_.tuning.use_bbr) {
     call_config.transport.cc_factory = &bbr_factory;
   }
   call_config.transport.rates.min_rate = DataRate::kbps(30);
   call_config.transport.rates.max_rate = DataRate::kbps(1800);

   CallClient* alice = s.CreateClient("send", call_config);
   CallClient* bob = s.CreateClient("return", call_config);
   NetworkSimulationConfig net_conf;
   net_conf.bandwidth = conf_.scenario.capacity;
   net_conf.delay = conf_.scenario.propagation_delay;
   net_conf.loss_rate = conf_.scenario.loss_rate;
   net_conf.delay_std_dev = conf_.scenario.delay_noise;
   auto* send_net = s.CreateMutableSimulationNode(net_conf);
   auto* ret_net = s.CreateMutableSimulationNode(net_conf);
   auto route =
       s.CreateRoutes(alice, {send_net->node()}, bob, {ret_net->node()});

   VideoStreamPair* alice_video =
       s.CreateVideoStream(route->forward(), [&](VideoStreamConfig* c) {
         c->encoder.fake.max_rate = DataRate::kbps(1800);
       });
   s.CreateAudioStream(route->forward(), [&](AudioStreamConfig* c) {
     if (conf_.tuning.use_bbr) {
       c->stream.in_bandwidth_estimation = true;
       c->encoder.fixed_rate = DataRate::kbps(31);
     }
   });

   VideoStreamPair* bob_video = nullptr;
   if (conf_.scenario.return_traffic) {
     bob_video =
         s.CreateVideoStream(route->reverse(), [&](VideoStreamConfig* c) {
           c->encoder.fake.max_rate = DataRate::kbps(1800);
         });
     s.CreateAudioStream(route->reverse(), [&](AudioStreamConfig* c) {
       if (conf_.tuning.use_bbr) {
         c->stream.in_bandwidth_estimation = true;
         c->encoder.fixed_rate = DataRate::kbps(31);
       }
     });
   }
   RandomWalkConfig cross_config;
   cross_config.peak_rate = conf_.scenario.cross_traffic;
   cross_config.random_seed = conf_.scenario.random_seed;
   auto* cross_traffic = s.net()->CreateRandomWalkCrossTraffic(
       s.net()->CreateTrafficRoute({send_net->node()}), cross_config);

   s.CreatePrinter("send.stats.txt", TimeDelta::ms(100),
                   {alice->StatsPrinter(), alice_video->send()->StatsPrinter(),
                    cross_traffic->StatsPrinter(), send_net->ConfigPrinter()});

   std::vector<ColumnPrinter> return_printers{
       bob->StatsPrinter(), ColumnPrinter::Fixed("cross_traffic_rate", "0"),
       ret_net->ConfigPrinter()};
   if (bob_video)
     return_printers.push_back(bob_video->send()->StatsPrinter());
   s.CreatePrinter("return.stats.txt", TimeDelta::ms(100), return_printers);

   s.RunFor(TimeDelta::ms(kRunTimeMs));
 }

 INSTANTIATE_TEST_SUITE_P(Selected,
                          BbrScenarioTest,
                          Values(make_tuple("rs:1,bw:150,dl:100,ct:100",
                                            "bbr")));

 INSTANTIATE_TEST_SUITE_P(
     OneWayTuning,
     BbrScenarioTest,
     Values(make_tuple("bw:150,dl:100", "bbr,iw:,eg:100%,notr"),
            make_tuple("bw:150,dl:100", "bbr,iw:8000,eg:100%,notr"),
            make_tuple("bw:150,dl:100", "bbr,iw:8000,eg:100%"),
            make_tuple("bw:150,dl:100", "bbr,iw:8000,eg:80%")));

 INSTANTIATE_TEST_SUITE_P(OneWayTuned,
                          BbrScenarioTest,
                          Values(make_tuple("bw:150,dl:100", "bbr"),
                                 make_tuple("bw:150,dl:100", ""),
                                 make_tuple("bw:800,dl:100", "bbr"),
                                 make_tuple("bw:800,dl:100", "")));

 INSTANTIATE_TEST_SUITE_P(OneWayDegraded,
                          BbrScenarioTest,
                          Values(make_tuple("bw:150,dl:100,dn:30,pl:5%", "bbr"),
                                 make_tuple("bw:150,dl:100,dn:30,pl:5%", ""),

                                 make_tuple("bw:150,ct:100,dl:100", "bbr"),
                                 make_tuple("bw:150,ct:100,dl:100", ""),

                                 make_tuple("bw:800,dl:100,dn:30,pl:5%", "bbr"),
                                 make_tuple("bw:800,dl:100,dn:30,pl:5%", ""),

                                 make_tuple("bw:800,ct:600,dl:100", "bbr"),
                                 make_tuple("bw:800,ct:600,dl:100", "")));

 INSTANTIATE_TEST_SUITE_P(TwoWay,
                          BbrScenarioTest,
                          Values(make_tuple("ret,bw:150,dl:100", "bbr"),
                                 make_tuple("ret,bw:150,dl:100", ""),
                                 make_tuple("ret,bw:800,dl:100", "bbr"),
                                 make_tuple("ret,bw:800,dl:100", ""),
                                 make_tuple("ret,bw:150,dl:50", "bbr"),
                                 make_tuple("ret,bw:150,dl:50", "")));
 }  // namespace test
 }  // namespace webrtc
	/*
	* Copyright 2018 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 "rtc_base/random.h"

	#include "modules/congestion_controller/bbr/bbr_factory.h"
	#include "rtc_base/experiments/field_trial_parser.h"
	#include "rtc_base/experiments/field_trial_units.h"
	#include "test/field_trial.h"
	#include "test/gtest.h"
	#include "test/scenario/scenario.h"

	namespace webrtc {
	namespace test {
	namespace {
	constexpr int64_t kRunTimeMs = 60000;

	using ::testing::Values;
	using ::testing::Combine;
	using ::testing::tuple;
	using ::testing::make_tuple;

	using Codec = VideoStreamConfig::Encoder::Codec;
	using CodecImpl = VideoStreamConfig::Encoder::Implementation;

	struct CallTestConfig {
	struct Scenario {
	FieldTrialParameter<int> random_seed;
	FieldTrialFlag return_traffic;
	FieldTrialParameter<DataRate> capacity;
	FieldTrialParameter<TimeDelta> propagation_delay;
	FieldTrialParameter<DataRate> cross_traffic;
	FieldTrialParameter<TimeDelta> delay_noise;
	FieldTrialParameter<double> loss_rate;
	Scenario()
	: random_seed("rs", 1),
	return_traffic("ret"),
	capacity("bw", DataRate::kbps(300)),
	propagation_delay("dl", TimeDelta::ms(100)),
	cross_traffic("ct", DataRate::Zero()),
	delay_noise("dn", TimeDelta::Zero()),
	loss_rate("pl", 0) {}
	void Parse(std::string config_str) {
	ParseFieldTrial(
	{&random_seed, &return_traffic, &capacity, &propagation_delay,
	&cross_traffic, &delay_noise, &loss_rate},
	config_str);
	}
	} scenario;
	struct Tuning {
	FieldTrialFlag use_bbr;
	FieldTrialFlag bbr_no_target_rate;
	FieldTrialOptional<DataSize> bbr_initial_window;
	FieldTrialParameter<double> bbr_encoder_gain;
	Tuning()
	: use_bbr("bbr"),
	bbr_no_target_rate("notr"),
	bbr_initial_window("iw", DataSize::bytes(8000)),
	bbr_encoder_gain("eg", 0.8) {}
	void Parse(std::string config_str) {
	ParseFieldTrial(
	{
	&use_bbr, &bbr_no_target_rate, &bbr_initial_window,
	&bbr_encoder_gain,
	},
	config_str);
	}
	} tuning;

	void Parse(std::string scenario_string, std::string tuning_string) {
	scenario.Parse(scenario_string);
	tuning.Parse(tuning_string);
	scenario_str = scenario_string;
	tuning_str = tuning_string;
	}
	std::string scenario_str;
	std::string tuning_str;

	std::string BbrTrial() const {
	char trial_buf[1024];
	rtc::SimpleStringBuilder trial(trial_buf);
	trial << "WebRTC-BweBbrConfig/";
	trial << "encoder_rate_gain_in_probe_rtt:0.5";
	trial.AppendFormat(",encoder_rate_gain:%.1lf",
	tuning.bbr_encoder_gain.Get());
	if (tuning.bbr_no_target_rate)
	trial << ",pacing_rate_as_target:1";
	if (tuning.bbr_initial_window)
	trial << ",initial_cwin:" << tuning.bbr_initial_window->bytes();
	trial << "/";
	return trial.str();
	}
	std::string FieldTrials() const {
	std::string trials;
	if (tuning.use_bbr) {
	trials +=
	"WebRTC-BweCongestionController/Enabled,BBR/"
	"WebRTC-Pacer-DrainQueue/Disabled/"
	"WebRTC-Pacer-PadInSilence/Enabled/"
	"WebRTC-Pacer-BlockAudio/Disabled/"
	"WebRTC-Audio-SendSideBwe/Enabled/"
	"WebRTC-SendSideBwe-WithOverhead/Enabled/";
	trials += BbrTrial();
	}
	return trials;
	}

	std::string Name() const {
	char raw_name[1024];
	rtc::SimpleStringBuilder name(raw_name);
	for (char c : scenario_str + "__tun__" + tuning_str) {
	if (c == ':') {
	continue;
	} else if (c == ',') {
	name << "_";
	} else if (c == '%') {
	name << "p";
	} else {
	name << c;
	}
	}
	return name.str();
	}
	};
	} // namespace
	class BbrScenarioTest
	: public ::testing::Test,
	public ::testing::WithParamInterface<tuple<std::string, std::string>> {
	public:
	BbrScenarioTest() {
	conf_.Parse(::testing::get<0>(GetParam()), ::testing::get<1>(GetParam()));
	field_trial_.reset(new test::ScopedFieldTrials(conf_.FieldTrials()));
	}
	CallTestConfig conf_;

	private:
	std::unique_ptr<test::ScopedFieldTrials> field_trial_;
	};

	TEST_P(BbrScenarioTest, ReceivesVideo) {
	BbrNetworkControllerFactory bbr_factory;
	Scenario s("bbr_test_gen/bbr__" + conf_.Name());
	CallClientConfig call_config;
	if (conf_.tuning.use_bbr) {
	call_config.transport.cc_factory = &bbr_factory;
	}
	call_config.transport.rates.min_rate = DataRate::kbps(30);
	call_config.transport.rates.max_rate = DataRate::kbps(1800);

	CallClient* alice = s.CreateClient("send", call_config);
	CallClient* bob = s.CreateClient("return", call_config);
	NetworkSimulationConfig net_conf;
	net_conf.bandwidth = conf_.scenario.capacity;
	net_conf.delay = conf_.scenario.propagation_delay;
	net_conf.loss_rate = conf_.scenario.loss_rate;
	net_conf.delay_std_dev = conf_.scenario.delay_noise;
	auto* send_net = s.CreateMutableSimulationNode(net_conf);
	auto* ret_net = s.CreateMutableSimulationNode(net_conf);
	auto route =
	s.CreateRoutes(alice, {send_net->node()}, bob, {ret_net->node()});

	VideoStreamPair* alice_video =
	s.CreateVideoStream(route->forward(), [&](VideoStreamConfig* c) {
	c->encoder.fake.max_rate = DataRate::kbps(1800);
	});
	s.CreateAudioStream(route->forward(), [&](AudioStreamConfig* c) {
	if (conf_.tuning.use_bbr) {
	c->stream.in_bandwidth_estimation = true;
	c->encoder.fixed_rate = DataRate::kbps(31);
	}
	});

	VideoStreamPair* bob_video = nullptr;
	if (conf_.scenario.return_traffic) {
	bob_video =
	s.CreateVideoStream(route->reverse(), [&](VideoStreamConfig* c) {
	c->encoder.fake.max_rate = DataRate::kbps(1800);
	});
	s.CreateAudioStream(route->reverse(), [&](AudioStreamConfig* c) {
	if (conf_.tuning.use_bbr) {
	c->stream.in_bandwidth_estimation = true;
	c->encoder.fixed_rate = DataRate::kbps(31);
	}
	});
	}
	RandomWalkConfig cross_config;
	cross_config.peak_rate = conf_.scenario.cross_traffic;
	cross_config.random_seed = conf_.scenario.random_seed;
	auto* cross_traffic = s.net()->CreateRandomWalkCrossTraffic(
	s.net()->CreateTrafficRoute({send_net->node()}), cross_config);

	s.CreatePrinter("send.stats.txt", TimeDelta::ms(100),
	{alice->StatsPrinter(), alice_video->send()->StatsPrinter(),
	cross_traffic->StatsPrinter(), send_net->ConfigPrinter()});

	std::vector<ColumnPrinter> return_printers{
	bob->StatsPrinter(), ColumnPrinter::Fixed("cross_traffic_rate", "0"),
	ret_net->ConfigPrinter()};
	if (bob_video)
	return_printers.push_back(bob_video->send()->StatsPrinter());
	s.CreatePrinter("return.stats.txt", TimeDelta::ms(100), return_printers);

	s.RunFor(TimeDelta::ms(kRunTimeMs));
	}

	INSTANTIATE_TEST_SUITE_P(Selected,
	BbrScenarioTest,
	Values(make_tuple("rs:1,bw:150,dl:100,ct:100",
	"bbr")));

	INSTANTIATE_TEST_SUITE_P(
	OneWayTuning,
	BbrScenarioTest,
	Values(make_tuple("bw:150,dl:100", "bbr,iw:,eg:100%,notr"),
	make_tuple("bw:150,dl:100", "bbr,iw:8000,eg:100%,notr"),
	make_tuple("bw:150,dl:100", "bbr,iw:8000,eg:100%"),
	make_tuple("bw:150,dl:100", "bbr,iw:8000,eg:80%")));

	INSTANTIATE_TEST_SUITE_P(OneWayTuned,
	BbrScenarioTest,
	Values(make_tuple("bw:150,dl:100", "bbr"),
	make_tuple("bw:150,dl:100", ""),
	make_tuple("bw:800,dl:100", "bbr"),
	make_tuple("bw:800,dl:100", "")));

	INSTANTIATE_TEST_SUITE_P(OneWayDegraded,
	BbrScenarioTest,
	Values(make_tuple("bw:150,dl:100,dn:30,pl:5%", "bbr"),
	make_tuple("bw:150,dl:100,dn:30,pl:5%", ""),

	make_tuple("bw:150,ct:100,dl:100", "bbr"),
	make_tuple("bw:150,ct:100,dl:100", ""),

	make_tuple("bw:800,dl:100,dn:30,pl:5%", "bbr"),
	make_tuple("bw:800,dl:100,dn:30,pl:5%", ""),

	make_tuple("bw:800,ct:600,dl:100", "bbr"),
	make_tuple("bw:800,ct:600,dl:100", "")));

	INSTANTIATE_TEST_SUITE_P(TwoWay,
	BbrScenarioTest,
	Values(make_tuple("ret,bw:150,dl:100", "bbr"),
	make_tuple("ret,bw:150,dl:100", ""),
	make_tuple("ret,bw:800,dl:100", "bbr"),
	make_tuple("ret,bw:800,dl:100", ""),
	make_tuple("ret,bw:150,dl:50", "bbr"),
	make_tuple("ret,bw:150,dl:50", "")));
	} // namespace test
	} // namespace webrtc