quic/core/congestion_control/bbr2_startup.cc - quiche - Git at Google

 // Copyright 2019 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 "quic/core/congestion_control/bbr2_startup.h"

 #include "quic/core/congestion_control/bbr2_misc.h"
 #include "quic/core/congestion_control/bbr2_sender.h"
 #include "quic/core/quic_bandwidth.h"
 #include "quic/core/quic_types.h"
 #include "quic/platform/api/quic_flag_utils.h"
 #include "quic/platform/api/quic_flags.h"
 #include "quic/platform/api/quic_logging.h"

 namespace quic {

 Bbr2StartupMode::Bbr2StartupMode(const Bbr2Sender* sender,
                                  Bbr2NetworkModel* model,
                                  QuicTime now)
     : Bbr2ModeBase(sender, model) {
   // Increment, instead of reset startup stats, so we don't lose data recorded
   // before QuicConnection switched send algorithm to BBRv2.
   ++sender_->connection_stats_->slowstart_count;
   if (!sender_->connection_stats_->slowstart_duration.IsRunning()) {
     sender_->connection_stats_->slowstart_duration.Start(now);
   }
   // Enter() is never called for Startup, so the gains needs to be set here.
   model_->set_pacing_gain(Params().startup_pacing_gain);
   model_->set_cwnd_gain(Params().startup_cwnd_gain);
 }

 void Bbr2StartupMode::Enter(QuicTime /*now*/,
                             const Bbr2CongestionEvent* /*congestion_event*/) {
   QUIC_BUG(quic_bug_10463_1) << "Bbr2StartupMode::Enter should not be called";
 }

 void Bbr2StartupMode::Leave(QuicTime now,
                             const Bbr2CongestionEvent* /*congestion_event*/) {
   sender_->connection_stats_->slowstart_duration.Stop(now);
   // Clear bandwidth_lo if it's set during STARTUP.
   model_->clear_bandwidth_lo();
 }

 Bbr2Mode Bbr2StartupMode::OnCongestionEvent(
     QuicByteCount /*prior_in_flight*/,
     QuicTime /*event_time*/,
     const AckedPacketVector& /*acked_packets*/,
     const LostPacketVector& /*lost_packets*/,
     const Bbr2CongestionEvent& congestion_event) {
   if (model_->full_bandwidth_reached()) {
     QUIC_BUG() << "In STARTUP, but full_bandwidth_reached is true.";
     return Bbr2Mode::DRAIN;
   }
   if (!congestion_event.end_of_round_trip) {
     return Bbr2Mode::STARTUP;
   }
   bool has_bandwidth_growth = model_->HasBandwidthGrowth(congestion_event);
   if (Params().exit_startup_on_persistent_queue && !has_bandwidth_growth) {
     QUIC_RELOADABLE_FLAG_COUNT(quic_bbr2_exit_startup_on_persistent_queue2);
     model_->CheckPersistentQueue(congestion_event, Params().startup_cwnd_gain);
   }
   // TCP BBR always exits upon excessive losses. QUIC BBRv1 does not exit
   // upon excessive losses, if enough bandwidth growth is observed or if the
   // sample was app limited.
   if (Params().always_exit_startup_on_excess_loss ||
       (!congestion_event.last_packet_send_state.is_app_limited &&
        !has_bandwidth_growth)) {
     CheckExcessiveLosses(congestion_event);
   }

   if (Params().decrease_startup_pacing_at_end_of_round) {
     QUICHE_DCHECK_GT(model_->pacing_gain(), 0);
     if (!congestion_event.last_packet_send_state.is_app_limited) {
       // Multiply by startup_pacing_gain, so if the bandwidth doubles,
       // the pacing gain will be the full startup_pacing_gain.
       if (max_bw_at_round_beginning_ > QuicBandwidth::Zero()) {
         const float bandwidth_ratio =
             std::max(1., model_->MaxBandwidth().ToBitsPerSecond() /
                              static_cast<double>(
                                  max_bw_at_round_beginning_.ToBitsPerSecond()));
         // Even when bandwidth isn't increasing, use a gain large enough to
         // cause a startup_full_bw_threshold increase.
         const float new_gain =
             ((bandwidth_ratio - 1) * (Params().startup_pacing_gain -
                                       Params().startup_full_bw_threshold)) +
             Params().startup_full_bw_threshold;
         // Allow the pacing gain to decrease.
         model_->set_pacing_gain(
             std::min(Params().startup_pacing_gain, new_gain));
         // Clear bandwidth_lo if it's less than the pacing rate.
         // This avoids a constantly app-limited flow from having it's pacing
         // gain effectively decreased below 1.25.
         if (model_->bandwidth_lo() <
             model_->MaxBandwidth() * model_->pacing_gain()) {
           model_->clear_bandwidth_lo();
         }
       }
       max_bw_at_round_beginning_ = model_->MaxBandwidth();
     }
   }

   // TODO(wub): Maybe implement STARTUP => PROBE_RTT.
   return model_->full_bandwidth_reached() ? Bbr2Mode::DRAIN : Bbr2Mode::STARTUP;
 }

 void Bbr2StartupMode::CheckExcessiveLosses(
     const Bbr2CongestionEvent& congestion_event) {
   QUICHE_DCHECK(congestion_event.end_of_round_trip);

   if (model_->full_bandwidth_reached()) {
     return;
   }

   // At the end of a round trip. Check if loss is too high in this round.
   if (model_->IsInflightTooHigh(congestion_event,
                                 Params().startup_full_loss_count)) {
     QuicByteCount new_inflight_hi = model_->BDP();
     if (Params().startup_loss_exit_use_max_delivered_for_inflight_hi) {
       if (new_inflight_hi < model_->max_bytes_delivered_in_round()) {
         new_inflight_hi = model_->max_bytes_delivered_in_round();
       }
     }
     QUIC_DVLOG(3) << sender_ << " Exiting STARTUP due to loss at round "
                   << model_->RoundTripCount()
                   << ". inflight_hi:" << new_inflight_hi;
     // TODO(ianswett): Add a shared method to set inflight_hi in the model.
     model_->set_inflight_hi(new_inflight_hi);
     model_->set_full_bandwidth_reached();
     sender_->connection_stats_->bbr_exit_startup_due_to_loss = true;
   }
 }

 Bbr2StartupMode::DebugState Bbr2StartupMode::ExportDebugState() const {
   DebugState s;
   s.full_bandwidth_reached = model_->full_bandwidth_reached();
   s.full_bandwidth_baseline = model_->full_bandwidth_baseline();
   s.round_trips_without_bandwidth_growth =
       model_->rounds_without_bandwidth_growth();
   return s;
 }

 std::ostream& operator<<(std::ostream& os,
                          const Bbr2StartupMode::DebugState& state) {
   os << "[STARTUP] full_bandwidth_reached: " << state.full_bandwidth_reached
      << "\n";
   os << "[STARTUP] full_bandwidth_baseline: " << state.full_bandwidth_baseline
      << "\n";
   os << "[STARTUP] round_trips_without_bandwidth_growth: "
      << state.round_trips_without_bandwidth_growth << "\n";
   return os;
 }

 const Bbr2Params& Bbr2StartupMode::Params() const {
   return sender_->Params();
 }

 }  // namespace quic
	// Copyright 2019 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 "quic/core/congestion_control/bbr2_startup.h"

	#include "quic/core/congestion_control/bbr2_misc.h"
	#include "quic/core/congestion_control/bbr2_sender.h"
	#include "quic/core/quic_bandwidth.h"
	#include "quic/core/quic_types.h"
	#include "quic/platform/api/quic_flag_utils.h"
	#include "quic/platform/api/quic_flags.h"
	#include "quic/platform/api/quic_logging.h"

	namespace quic {

	Bbr2StartupMode::Bbr2StartupMode(const Bbr2Sender* sender,
	Bbr2NetworkModel* model,
	QuicTime now)
	: Bbr2ModeBase(sender, model) {
	// Increment, instead of reset startup stats, so we don't lose data recorded
	// before QuicConnection switched send algorithm to BBRv2.
	++sender_->connection_stats_->slowstart_count;
	if (!sender_->connection_stats_->slowstart_duration.IsRunning()) {
	sender_->connection_stats_->slowstart_duration.Start(now);
	}
	// Enter() is never called for Startup, so the gains needs to be set here.
	model_->set_pacing_gain(Params().startup_pacing_gain);
	model_->set_cwnd_gain(Params().startup_cwnd_gain);
	}

	void Bbr2StartupMode::Enter(QuicTime /now/,
	const Bbr2CongestionEvent* /congestion_event/) {
	QUIC_BUG(quic_bug_10463_1) << "Bbr2StartupMode::Enter should not be called";
	}

	void Bbr2StartupMode::Leave(QuicTime now,
	const Bbr2CongestionEvent* /congestion_event/) {
	sender_->connection_stats_->slowstart_duration.Stop(now);
	// Clear bandwidth_lo if it's set during STARTUP.
	model_->clear_bandwidth_lo();
	}

	Bbr2Mode Bbr2StartupMode::OnCongestionEvent(
	QuicByteCount /prior_in_flight/,
	QuicTime /event_time/,
	const AckedPacketVector& /acked_packets/,
	const LostPacketVector& /lost_packets/,
	const Bbr2CongestionEvent& congestion_event) {
	if (model_->full_bandwidth_reached()) {
	QUIC_BUG() << "In STARTUP, but full_bandwidth_reached is true.";
	return Bbr2Mode::DRAIN;
	}
	if (!congestion_event.end_of_round_trip) {
	return Bbr2Mode::STARTUP;
	}
	bool has_bandwidth_growth = model_->HasBandwidthGrowth(congestion_event);
	if (Params().exit_startup_on_persistent_queue && !has_bandwidth_growth) {
	QUIC_RELOADABLE_FLAG_COUNT(quic_bbr2_exit_startup_on_persistent_queue2);
	model_->CheckPersistentQueue(congestion_event, Params().startup_cwnd_gain);
	}
	// TCP BBR always exits upon excessive losses. QUIC BBRv1 does not exit
	// upon excessive losses, if enough bandwidth growth is observed or if the
	// sample was app limited.
	if (Params().always_exit_startup_on_excess_loss \|\|
	(!congestion_event.last_packet_send_state.is_app_limited &&
	!has_bandwidth_growth)) {
	CheckExcessiveLosses(congestion_event);
	}

	if (Params().decrease_startup_pacing_at_end_of_round) {
	QUICHE_DCHECK_GT(model_->pacing_gain(), 0);
	if (!congestion_event.last_packet_send_state.is_app_limited) {
	// Multiply by startup_pacing_gain, so if the bandwidth doubles,
	// the pacing gain will be the full startup_pacing_gain.
	if (max_bw_at_round_beginning_ > QuicBandwidth::Zero()) {
	const float bandwidth_ratio =
	std::max(1., model_->MaxBandwidth().ToBitsPerSecond() /
	static_cast<double>(
	max_bw_at_round_beginning_.ToBitsPerSecond()));
	// Even when bandwidth isn't increasing, use a gain large enough to
	// cause a startup_full_bw_threshold increase.
	const float new_gain =
	((bandwidth_ratio - 1) * (Params().startup_pacing_gain -
	Params().startup_full_bw_threshold)) +
	Params().startup_full_bw_threshold;
	// Allow the pacing gain to decrease.
	model_->set_pacing_gain(
	std::min(Params().startup_pacing_gain, new_gain));
	// Clear bandwidth_lo if it's less than the pacing rate.
	// This avoids a constantly app-limited flow from having it's pacing
	// gain effectively decreased below 1.25.
	if (model_->bandwidth_lo() <
	model_->MaxBandwidth() * model_->pacing_gain()) {
	model_->clear_bandwidth_lo();
	}
	}
	max_bw_at_round_beginning_ = model_->MaxBandwidth();
	}
	}

	// TODO(wub): Maybe implement STARTUP => PROBE_RTT.
	return model_->full_bandwidth_reached() ? Bbr2Mode::DRAIN : Bbr2Mode::STARTUP;
	}

	void Bbr2StartupMode::CheckExcessiveLosses(
	const Bbr2CongestionEvent& congestion_event) {
	QUICHE_DCHECK(congestion_event.end_of_round_trip);

	if (model_->full_bandwidth_reached()) {
	return;
	}

	// At the end of a round trip. Check if loss is too high in this round.
	if (model_->IsInflightTooHigh(congestion_event,
	Params().startup_full_loss_count)) {
	QuicByteCount new_inflight_hi = model_->BDP();
	if (Params().startup_loss_exit_use_max_delivered_for_inflight_hi) {
	if (new_inflight_hi < model_->max_bytes_delivered_in_round()) {
	new_inflight_hi = model_->max_bytes_delivered_in_round();
	}
	}
	QUIC_DVLOG(3) << sender_ << " Exiting STARTUP due to loss at round "
	<< model_->RoundTripCount()
	<< ". inflight_hi:" << new_inflight_hi;
	// TODO(ianswett): Add a shared method to set inflight_hi in the model.
	model_->set_inflight_hi(new_inflight_hi);
	model_->set_full_bandwidth_reached();
	sender_->connection_stats_->bbr_exit_startup_due_to_loss = true;
	}
	}

	Bbr2StartupMode::DebugState Bbr2StartupMode::ExportDebugState() const {
	DebugState s;
	s.full_bandwidth_reached = model_->full_bandwidth_reached();
	s.full_bandwidth_baseline = model_->full_bandwidth_baseline();
	s.round_trips_without_bandwidth_growth =
	model_->rounds_without_bandwidth_growth();
	return s;
	}

	std::ostream& operator<<(std::ostream& os,
	const Bbr2StartupMode::DebugState& state) {
	os << "[STARTUP] full_bandwidth_reached: " << state.full_bandwidth_reached
	<< "\n";
	os << "[STARTUP] full_bandwidth_baseline: " << state.full_bandwidth_baseline
	<< "\n";
	os << "[STARTUP] round_trips_without_bandwidth_growth: "
	<< state.round_trips_without_bandwidth_growth << "\n";
	return os;
	}

	const Bbr2Params& Bbr2StartupMode::Params() const {
	return sender_->Params();
	}

	} // namespace quic