Source/ThirdParty/libwebrtc/Source/webrtc/api/transport/test/network_control_tester.cc - WebKit - Git at Google

 /*
  *  Copyright (c) 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 "api/transport/test/network_control_tester.h"

 #include <algorithm>

 #include "api/transport/network_control.h"
 #include "rtc_base/logging.h"

 namespace webrtc {
 namespace test {
 namespace {
 void Update(NetworkControlUpdate* target, const NetworkControlUpdate& update) {
   if (update.congestion_window) {
     RTC_LOG(LS_INFO) << "Received window="
                      << ToString(*update.congestion_window);
     target->congestion_window = update.congestion_window;
   }
   if (update.pacer_config) {
     RTC_LOG(LS_INFO) << "Received pacing at:"
                      << ToString(update.pacer_config->at_time)
                      << ": rate=" << ToString(update.pacer_config->data_rate())
                      << ", pad=" << ToString(update.pacer_config->pad_rate());
     target->pacer_config = update.pacer_config;
   }
   if (update.target_rate) {
     RTC_LOG(LS_INFO)
         << "Received target at:" << ToString(update.target_rate->at_time)
         << ": rate=" << ToString(update.target_rate->target_rate) << ", rtt="
         << ToString(update.target_rate->network_estimate.round_trip_time);
     target->target_rate = update.target_rate;
   }
   for (const auto& probe : update.probe_cluster_configs) {
     target->probe_cluster_configs.push_back(probe);
     RTC_LOG(LS_INFO) << "Received probe at:" << ToString(probe.at_time)
                      << ": target=" << ToString(probe.target_data_rate);
   }
 }
 }  // namespace

 SentPacket SimpleTargetRateProducer::ProduceNext(
     const NetworkControlUpdate& cache,
     Timestamp current_time,
     TimeDelta time_delta) {
   DataRate actual_send_rate =
       std::max(cache.target_rate->target_rate, cache.pacer_config->pad_rate());
   SentPacket packet;
   packet.send_time = current_time;
   packet.size = time_delta * actual_send_rate;
   return packet;
 }

 NetworkControllerTester::NetworkControllerTester(
     NetworkControllerFactoryInterface* factory,
     NetworkControllerConfig initial_config)
     : current_time_(Timestamp::seconds(100000)),
       packet_sequence_number_(1),
       accumulated_buffer_(TimeDelta::Zero()) {
   initial_config.constraints.at_time = current_time_;
   controller_ = factory->Create(initial_config);
   process_interval_ = factory->GetProcessInterval();
   ProcessInterval interval_msg;
   interval_msg.at_time = current_time_;
   Update(&state_, controller_->OnProcessInterval(interval_msg));
 }

 NetworkControllerTester::~NetworkControllerTester() = default;

 void NetworkControllerTester::RunSimulation(TimeDelta duration,
                                             TimeDelta packet_interval,
                                             DataRate actual_bandwidth,
                                             TimeDelta propagation_delay,
                                             PacketProducer next_packet) {
   RTC_CHECK(actual_bandwidth.bps() > 0);
   Timestamp start_time = current_time_;
   Timestamp last_process_time = current_time_;
   while (current_time_ - start_time < duration) {
     bool send_packet = true;
     if (state_.congestion_window && state_.congestion_window->IsFinite()) {
       DataSize data_in_flight = DataSize::Zero();
       for (PacketResult& packet : outstanding_packets_)
         data_in_flight += packet.sent_packet.size;
       if (data_in_flight > *state_.congestion_window)
         send_packet = false;
     }

     if (send_packet) {
       SentPacket sent_packet;
       sent_packet = next_packet(state_, current_time_, packet_interval);
       sent_packet.sequence_number = packet_sequence_number_++;
       sent_packet.data_in_flight = sent_packet.size;
       for (PacketResult& packet : outstanding_packets_)
         sent_packet.data_in_flight += packet.sent_packet.size;
       Update(&state_, controller_->OnSentPacket(sent_packet));

       TimeDelta time_in_flight = sent_packet.size / actual_bandwidth;
       accumulated_buffer_ += time_in_flight;
       TimeDelta total_delay = propagation_delay + accumulated_buffer_;
       PacketResult result;
       result.sent_packet = sent_packet;
       result.receive_time = sent_packet.send_time + total_delay;

       outstanding_packets_.push_back(result);
     }

     TimeDelta buffer_consumed = std::min(accumulated_buffer_, packet_interval);
     accumulated_buffer_ -= buffer_consumed;

     if (outstanding_packets_.size() >= 2 &&
         current_time_ >=
             outstanding_packets_[1].receive_time + propagation_delay) {
       TransportPacketsFeedback feedback;
       feedback.prior_in_flight = DataSize::Zero();
       for (PacketResult& packet : outstanding_packets_)
         feedback.prior_in_flight += packet.sent_packet.size;
       while (!outstanding_packets_.empty() &&
              current_time_ >= outstanding_packets_.front().receive_time +
                                   propagation_delay) {
         feedback.packet_feedbacks.push_back(outstanding_packets_.front());
         outstanding_packets_.pop_front();
       }
       feedback.feedback_time =
           feedback.packet_feedbacks.back().receive_time + propagation_delay;
       feedback.data_in_flight = DataSize::Zero();
       for (PacketResult& packet : outstanding_packets_)
         feedback.data_in_flight += packet.sent_packet.size;
       Update(&state_, controller_->OnTransportPacketsFeedback(feedback));
     }
     current_time_ += packet_interval;
     if (current_time_ - last_process_time > process_interval_) {
       ProcessInterval interval_msg;
       interval_msg.at_time = current_time_;
       Update(&state_, controller_->OnProcessInterval(interval_msg));
     }
   }
 }

 }  // namespace test
 }  // namespace webrtc
	/*
	* Copyright (c) 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 "api/transport/test/network_control_tester.h"

	#include <algorithm>

	#include "api/transport/network_control.h"
	#include "rtc_base/logging.h"

	namespace webrtc {
	namespace test {
	namespace {
	void Update(NetworkControlUpdate* target, const NetworkControlUpdate& update) {
	if (update.congestion_window) {
	RTC_LOG(LS_INFO) << "Received window="
	<< ToString(*update.congestion_window);
	target->congestion_window = update.congestion_window;
	}
	if (update.pacer_config) {
	RTC_LOG(LS_INFO) << "Received pacing at:"
	<< ToString(update.pacer_config->at_time)
	<< ": rate=" << ToString(update.pacer_config->data_rate())
	<< ", pad=" << ToString(update.pacer_config->pad_rate());
	target->pacer_config = update.pacer_config;
	}
	if (update.target_rate) {
	RTC_LOG(LS_INFO)
	<< "Received target at:" << ToString(update.target_rate->at_time)
	<< ": rate=" << ToString(update.target_rate->target_rate) << ", rtt="
	<< ToString(update.target_rate->network_estimate.round_trip_time);
	target->target_rate = update.target_rate;
	}
	for (const auto& probe : update.probe_cluster_configs) {
	target->probe_cluster_configs.push_back(probe);
	RTC_LOG(LS_INFO) << "Received probe at:" << ToString(probe.at_time)
	<< ": target=" << ToString(probe.target_data_rate);
	}
	}
	} // namespace

	SentPacket SimpleTargetRateProducer::ProduceNext(
	const NetworkControlUpdate& cache,
	Timestamp current_time,
	TimeDelta time_delta) {
	DataRate actual_send_rate =
	std::max(cache.target_rate->target_rate, cache.pacer_config->pad_rate());
	SentPacket packet;
	packet.send_time = current_time;
	packet.size = time_delta * actual_send_rate;
	return packet;
	}

	NetworkControllerTester::NetworkControllerTester(
	NetworkControllerFactoryInterface* factory,
	NetworkControllerConfig initial_config)
	: current_time_(Timestamp::seconds(100000)),
	packet_sequence_number_(1),
	accumulated_buffer_(TimeDelta::Zero()) {
	initial_config.constraints.at_time = current_time_;
	controller_ = factory->Create(initial_config);
	process_interval_ = factory->GetProcessInterval();
	ProcessInterval interval_msg;
	interval_msg.at_time = current_time_;
	Update(&state_, controller_->OnProcessInterval(interval_msg));
	}

	NetworkControllerTester::~NetworkControllerTester() = default;

	void NetworkControllerTester::RunSimulation(TimeDelta duration,
	TimeDelta packet_interval,
	DataRate actual_bandwidth,
	TimeDelta propagation_delay,
	PacketProducer next_packet) {
	RTC_CHECK(actual_bandwidth.bps() > 0);
	Timestamp start_time = current_time_;
	Timestamp last_process_time = current_time_;
	while (current_time_ - start_time < duration) {
	bool send_packet = true;
	if (state_.congestion_window && state_.congestion_window->IsFinite()) {
	DataSize data_in_flight = DataSize::Zero();
	for (PacketResult& packet : outstanding_packets_)
	data_in_flight += packet.sent_packet.size;
	if (data_in_flight > *state_.congestion_window)
	send_packet = false;
	}

	if (send_packet) {
	SentPacket sent_packet;
	sent_packet = next_packet(state_, current_time_, packet_interval);
	sent_packet.sequence_number = packet_sequence_number_++;
	sent_packet.data_in_flight = sent_packet.size;
	for (PacketResult& packet : outstanding_packets_)
	sent_packet.data_in_flight += packet.sent_packet.size;
	Update(&state_, controller_->OnSentPacket(sent_packet));

	TimeDelta time_in_flight = sent_packet.size / actual_bandwidth;
	accumulated_buffer_ += time_in_flight;
	TimeDelta total_delay = propagation_delay + accumulated_buffer_;
	PacketResult result;
	result.sent_packet = sent_packet;
	result.receive_time = sent_packet.send_time + total_delay;

	outstanding_packets_.push_back(result);
	}

	TimeDelta buffer_consumed = std::min(accumulated_buffer_, packet_interval);
	accumulated_buffer_ -= buffer_consumed;

	if (outstanding_packets_.size() >= 2 &&
	current_time_ >=
	outstanding_packets_[1].receive_time + propagation_delay) {
	TransportPacketsFeedback feedback;
	feedback.prior_in_flight = DataSize::Zero();
	for (PacketResult& packet : outstanding_packets_)
	feedback.prior_in_flight += packet.sent_packet.size;
	while (!outstanding_packets_.empty() &&
	current_time_ >= outstanding_packets_.front().receive_time +
	propagation_delay) {
	feedback.packet_feedbacks.push_back(outstanding_packets_.front());
	outstanding_packets_.pop_front();
	}
	feedback.feedback_time =
	feedback.packet_feedbacks.back().receive_time + propagation_delay;
	feedback.data_in_flight = DataSize::Zero();
	for (PacketResult& packet : outstanding_packets_)
	feedback.data_in_flight += packet.sent_packet.size;
	Update(&state_, controller_->OnTransportPacketsFeedback(feedback));
	}
	current_time_ += packet_interval;
	if (current_time_ - last_process_time > process_interval_) {
	ProcessInterval interval_msg;
	interval_msg.at_time = current_time_;
	Update(&state_, controller_->OnProcessInterval(interval_msg));
	}
	}
	}

	} // namespace test
	} // namespace webrtc