quic/core/quic_received_packet_manager.cc - quiche.git - Git at Google

 // Copyright 2013 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 "net/third_party/quiche/src/quic/core/quic_received_packet_manager.h"

 #include <algorithm>
 #include <limits>
 #include <utility>

 #include "net/third_party/quiche/src/quic/core/congestion_control/rtt_stats.h"
 #include "net/third_party/quiche/src/quic/core/crypto/crypto_protocol.h"
 #include "net/third_party/quiche/src/quic/core/quic_connection_stats.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_bug_tracker.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_logging.h"

 namespace quic {

 namespace {

 // The maximum number of packets to ack immediately after a missing packet for
 // fast retransmission to kick in at the sender.  This limit is created to
 // reduce the number of acks sent that have no benefit for fast retransmission.
 // Set to the number of nacks needed for fast retransmit plus one for protection
 // against an ack loss
 const size_t kMaxPacketsAfterNewMissing = 4;

 // Maximum number of retransmittable packets received before sending an ack.
 const QuicPacketCount kDefaultRetransmittablePacketsBeforeAck = 2;
 // Minimum number of packets received before ack decimation is enabled.
 // This intends to avoid the beginning of slow start, when CWNDs may be
 // rapidly increasing.
 const QuicPacketCount kMinReceivedBeforeAckDecimation = 100;
 // Wait for up to 10 retransmittable packets before sending an ack.
 const QuicPacketCount kMaxRetransmittablePacketsBeforeAck = 10;
 // One quarter RTT delay when doing ack decimation.
 const float kAckDecimationDelay = 0.25;
 // One eighth RTT delay when doing ack decimation.
 const float kShortAckDecimationDelay = 0.125;
 }  // namespace

 QuicReceivedPacketManager::QuicReceivedPacketManager()
     : QuicReceivedPacketManager(nullptr) {}

 QuicReceivedPacketManager::QuicReceivedPacketManager(QuicConnectionStats* stats)
     : ack_frame_updated_(false),
       max_ack_ranges_(0),
       time_largest_observed_(QuicTime::Zero()),
       save_timestamps_(false),
       stats_(stats),
       ack_mode_(GetQuicReloadableFlag(quic_enable_ack_decimation)
                     ? ACK_DECIMATION
                     : TCP_ACKING),
       num_retransmittable_packets_received_since_last_ack_sent_(0),
       min_received_before_ack_decimation_(kMinReceivedBeforeAckDecimation),
       ack_frequency_before_ack_decimation_(
           kDefaultRetransmittablePacketsBeforeAck),
       ack_decimation_delay_(kAckDecimationDelay),
       unlimited_ack_decimation_(false),
       fast_ack_after_quiescence_(false),
       ack_timeout_(QuicTime::Zero()),
       time_of_previous_received_packet_(QuicTime::Zero()),
       was_last_packet_missing_(false) {
   if (ack_mode_ == ACK_DECIMATION) {
     QUIC_RELOADABLE_FLAG_COUNT(quic_enable_ack_decimation);
   }
 }

 QuicReceivedPacketManager::~QuicReceivedPacketManager() {}

 void QuicReceivedPacketManager::SetFromConfig(const QuicConfig& config,
                                               Perspective perspective) {
   if (GetQuicReloadableFlag(quic_enable_ack_decimation) &&
       config.HasClientSentConnectionOption(kACD0, perspective)) {
     ack_mode_ = TCP_ACKING;
   }
   if (config.HasClientSentConnectionOption(kACKD, perspective)) {
     ack_mode_ = ACK_DECIMATION;
   }
   if (config.HasClientSentConnectionOption(kAKD2, perspective)) {
     ack_mode_ = ACK_DECIMATION_WITH_REORDERING;
   }
   if (config.HasClientSentConnectionOption(kAKD3, perspective)) {
     ack_mode_ = ACK_DECIMATION;
     ack_decimation_delay_ = kShortAckDecimationDelay;
   }
   if (config.HasClientSentConnectionOption(kAKD4, perspective)) {
     ack_mode_ = ACK_DECIMATION_WITH_REORDERING;
     ack_decimation_delay_ = kShortAckDecimationDelay;
   }
   if (config.HasClientSentConnectionOption(kAKDU, perspective)) {
     unlimited_ack_decimation_ = true;
   }
   if (config.HasClientSentConnectionOption(kACKQ, perspective)) {
     fast_ack_after_quiescence_ = true;
   }
 }

 void QuicReceivedPacketManager::RecordPacketReceived(
     const QuicPacketHeader& header,
     QuicTime receipt_time) {
   const QuicPacketNumber packet_number = header.packet_number;
   DCHECK(IsAwaitingPacket(packet_number)) << " packet_number:" << packet_number;
   was_last_packet_missing_ = IsMissing(packet_number);
   if (!ack_frame_updated_) {
     ack_frame_.received_packet_times.clear();
   }
   ack_frame_updated_ = true;

   if (LargestAcked(ack_frame_).IsInitialized() &&
       LargestAcked(ack_frame_) > packet_number) {
     // Record how out of order stats.
     ++stats_->packets_reordered;
     stats_->max_sequence_reordering =
         std::max(stats_->max_sequence_reordering,
                  LargestAcked(ack_frame_) - packet_number);
     int64_t reordering_time_us =
         (receipt_time - time_largest_observed_).ToMicroseconds();
     stats_->max_time_reordering_us =
         std::max(stats_->max_time_reordering_us, reordering_time_us);
   }
   if (!LargestAcked(ack_frame_).IsInitialized() ||
       packet_number > LargestAcked(ack_frame_)) {
     ack_frame_.largest_acked = packet_number;
     time_largest_observed_ = receipt_time;
   }
   ack_frame_.packets.Add(packet_number);

   if (save_timestamps_) {
     // The timestamp format only handles packets in time order.
     if (!ack_frame_.received_packet_times.empty() &&
         ack_frame_.received_packet_times.back().second > receipt_time) {
       QUIC_LOG(WARNING)
           << "Receive time went backwards from: "
           << ack_frame_.received_packet_times.back().second.ToDebuggingValue()
           << " to " << receipt_time.ToDebuggingValue();
     } else {
       ack_frame_.received_packet_times.push_back(
           std::make_pair(packet_number, receipt_time));
     }
   }

   if (least_received_packet_number_.IsInitialized()) {
     least_received_packet_number_ =
         std::min(least_received_packet_number_, packet_number);
   } else {
     least_received_packet_number_ = packet_number;
   }
 }

 bool QuicReceivedPacketManager::IsMissing(QuicPacketNumber packet_number) {
   return LargestAcked(ack_frame_).IsInitialized() &&
          packet_number < LargestAcked(ack_frame_) &&
          !ack_frame_.packets.Contains(packet_number);
 }

 bool QuicReceivedPacketManager::IsAwaitingPacket(
     QuicPacketNumber packet_number) const {
   return quic::IsAwaitingPacket(ack_frame_, packet_number,
                                 peer_least_packet_awaiting_ack_);
 }

 const QuicFrame QuicReceivedPacketManager::GetUpdatedAckFrame(
     QuicTime approximate_now) {
   if (time_largest_observed_ == QuicTime::Zero()) {
     // We have received no packets.
     ack_frame_.ack_delay_time = QuicTime::Delta::Infinite();
   } else {
     // Ensure the delta is zero if approximate now is "in the past".
     ack_frame_.ack_delay_time = approximate_now < time_largest_observed_
                                     ? QuicTime::Delta::Zero()
                                     : approximate_now - time_largest_observed_;
   }
   while (max_ack_ranges_ > 0 &&
          ack_frame_.packets.NumIntervals() > max_ack_ranges_) {
     ack_frame_.packets.RemoveSmallestInterval();
   }
   // Clear all packet times if any are too far from largest observed.
   // It's expected this is extremely rare.
   for (auto it = ack_frame_.received_packet_times.begin();
        it != ack_frame_.received_packet_times.end();) {
     if (LargestAcked(ack_frame_) - it->first >=
         std::numeric_limits<uint8_t>::max()) {
       it = ack_frame_.received_packet_times.erase(it);
     } else {
       ++it;
     }
   }

   return QuicFrame(&ack_frame_);
 }

 void QuicReceivedPacketManager::DontWaitForPacketsBefore(
     QuicPacketNumber least_unacked) {
   if (!least_unacked.IsInitialized()) {
     return;
   }
   // ValidateAck() should fail if peer_least_packet_awaiting_ack shrinks.
   DCHECK(!peer_least_packet_awaiting_ack_.IsInitialized() ||
          peer_least_packet_awaiting_ack_ <= least_unacked);
   if (!peer_least_packet_awaiting_ack_.IsInitialized() ||
       least_unacked > peer_least_packet_awaiting_ack_) {
     peer_least_packet_awaiting_ack_ = least_unacked;
     bool packets_updated = ack_frame_.packets.RemoveUpTo(least_unacked);
     if (packets_updated) {
       // Ack frame gets updated because packets set is updated because of stop
       // waiting frame.
       ack_frame_updated_ = true;
     }
   }
   DCHECK(ack_frame_.packets.Empty() ||
          !peer_least_packet_awaiting_ack_.IsInitialized() ||
          ack_frame_.packets.Min() >= peer_least_packet_awaiting_ack_);
 }

 void QuicReceivedPacketManager::MaybeUpdateAckTimeout(
     bool should_last_packet_instigate_acks,
     QuicPacketNumber last_received_packet_number,
     QuicTime time_of_last_received_packet,
     QuicTime now,
     const RttStats* rtt_stats,
     QuicTime::Delta local_max_ack_delay) {
   if (!ack_frame_updated_) {
     // ACK frame has not been updated, nothing to do.
     return;
   }

   if (was_last_packet_missing_ && last_sent_largest_acked_.IsInitialized() &&
       last_received_packet_number < last_sent_largest_acked_) {
     // Only ack immediately if an ACK frame was sent with a larger largest acked
     // than the newly received packet number.
     ack_timeout_ = now;
     return;
   }

   if (!should_last_packet_instigate_acks) {
     return;
   }

   ++num_retransmittable_packets_received_since_last_ack_sent_;
   if (ack_mode_ != TCP_ACKING &&
       last_received_packet_number >= PeerFirstSendingPacketNumber() +
                                          min_received_before_ack_decimation_) {
     // Ack up to 10 packets at once unless ack decimation is unlimited.
     if (!unlimited_ack_decimation_ &&
         num_retransmittable_packets_received_since_last_ack_sent_ >=
             kMaxRetransmittablePacketsBeforeAck) {
       ack_timeout_ = now;
       return;
     }
     // Wait for the minimum of the ack decimation delay or the delayed ack time
     // before sending an ack.
     QuicTime::Delta ack_delay = std::min(
         local_max_ack_delay, rtt_stats->min_rtt() * ack_decimation_delay_);
     if (fast_ack_after_quiescence_ && now - time_of_previous_received_packet_ >
                                           rtt_stats->SmoothedOrInitialRtt()) {
       // Ack the first packet out of queiscence faster, because QUIC does
       // not pace the first few packets and commonly these may be handshake
       // or TLP packets, which we'd like to acknowledge quickly.
       ack_delay = QuicTime::Delta::FromMilliseconds(1);
     }
     MaybeUpdateAckTimeoutTo(now + ack_delay);
   } else {
     // Ack with a timer or every 2 packets by default.
     if (num_retransmittable_packets_received_since_last_ack_sent_ >=
         ack_frequency_before_ack_decimation_) {
       ack_timeout_ = now;
     } else if (fast_ack_after_quiescence_ &&
                (now - time_of_previous_received_packet_) >
                    rtt_stats->SmoothedOrInitialRtt()) {
       // Ack the first packet out of queiscence faster, because QUIC does
       // not pace the first few packets and commonly these may be handshake
       // or TLP packets, which we'd like to acknowledge quickly.
       MaybeUpdateAckTimeoutTo(now + QuicTime::Delta::FromMilliseconds(1));
     } else {
       MaybeUpdateAckTimeoutTo(now + local_max_ack_delay);
     }
   }

   // If there are new missing packets to report, send an ack immediately.
   if (HasNewMissingPackets()) {
     if (ack_mode_ == ACK_DECIMATION_WITH_REORDERING) {
       // Wait the minimum of an eighth min_rtt and the existing ack time.
       QuicTime ack_time = now + kShortAckDecimationDelay * rtt_stats->min_rtt();
       MaybeUpdateAckTimeoutTo(ack_time);
     } else {
       ack_timeout_ = now;
     }
   }

   if (fast_ack_after_quiescence_) {
     time_of_previous_received_packet_ = time_of_last_received_packet;
   }
 }

 void QuicReceivedPacketManager::ResetAckStates() {
   ack_frame_updated_ = false;
   ack_timeout_ = QuicTime::Zero();
   num_retransmittable_packets_received_since_last_ack_sent_ = 0;
   last_sent_largest_acked_ = LargestAcked(ack_frame_);
 }

 void QuicReceivedPacketManager::MaybeUpdateAckTimeoutTo(QuicTime time) {
   if (!ack_timeout_.IsInitialized() || ack_timeout_ > time) {
     ack_timeout_ = time;
   }
 }

 bool QuicReceivedPacketManager::HasMissingPackets() const {
   if (ack_frame_.packets.Empty()) {
     return false;
   }
   if (ack_frame_.packets.NumIntervals() > 1) {
     return true;
   }
   return peer_least_packet_awaiting_ack_.IsInitialized() &&
          ack_frame_.packets.Min() > peer_least_packet_awaiting_ack_;
 }

 bool QuicReceivedPacketManager::HasNewMissingPackets() const {
   return HasMissingPackets() &&
          ack_frame_.packets.LastIntervalLength() <= kMaxPacketsAfterNewMissing;
 }

 bool QuicReceivedPacketManager::ack_frame_updated() const {
   return ack_frame_updated_;
 }

 QuicPacketNumber QuicReceivedPacketManager::GetLargestObserved() const {
   return LargestAcked(ack_frame_);
 }

 QuicPacketNumber QuicReceivedPacketManager::PeerFirstSendingPacketNumber()
     const {
   if (!least_received_packet_number_.IsInitialized()) {
     QUIC_BUG << "No packets have been received yet";
     return QuicPacketNumber(1);
   }
   return least_received_packet_number_;
 }

 }  // namespace quic
	// Copyright 2013 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 "net/third_party/quiche/src/quic/core/quic_received_packet_manager.h"

	#include <algorithm>
	#include <limits>
	#include <utility>

	#include "net/third_party/quiche/src/quic/core/congestion_control/rtt_stats.h"
	#include "net/third_party/quiche/src/quic/core/crypto/crypto_protocol.h"
	#include "net/third_party/quiche/src/quic/core/quic_connection_stats.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_bug_tracker.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_logging.h"

	namespace quic {

	namespace {

	// The maximum number of packets to ack immediately after a missing packet for
	// fast retransmission to kick in at the sender. This limit is created to
	// reduce the number of acks sent that have no benefit for fast retransmission.
	// Set to the number of nacks needed for fast retransmit plus one for protection
	// against an ack loss
	const size_t kMaxPacketsAfterNewMissing = 4;

	// Maximum number of retransmittable packets received before sending an ack.
	const QuicPacketCount kDefaultRetransmittablePacketsBeforeAck = 2;
	// Minimum number of packets received before ack decimation is enabled.
	// This intends to avoid the beginning of slow start, when CWNDs may be
	// rapidly increasing.
	const QuicPacketCount kMinReceivedBeforeAckDecimation = 100;
	// Wait for up to 10 retransmittable packets before sending an ack.
	const QuicPacketCount kMaxRetransmittablePacketsBeforeAck = 10;
	// One quarter RTT delay when doing ack decimation.
	const float kAckDecimationDelay = 0.25;
	// One eighth RTT delay when doing ack decimation.
	const float kShortAckDecimationDelay = 0.125;
	} // namespace

	QuicReceivedPacketManager::QuicReceivedPacketManager()
	: QuicReceivedPacketManager(nullptr) {}

	QuicReceivedPacketManager::QuicReceivedPacketManager(QuicConnectionStats* stats)
	: ack_frame_updated_(false),
	max_ack_ranges_(0),
	time_largest_observed_(QuicTime::Zero()),
	save_timestamps_(false),
	stats_(stats),
	ack_mode_(GetQuicReloadableFlag(quic_enable_ack_decimation)
	? ACK_DECIMATION
	: TCP_ACKING),
	num_retransmittable_packets_received_since_last_ack_sent_(0),
	min_received_before_ack_decimation_(kMinReceivedBeforeAckDecimation),
	ack_frequency_before_ack_decimation_(
	kDefaultRetransmittablePacketsBeforeAck),
	ack_decimation_delay_(kAckDecimationDelay),
	unlimited_ack_decimation_(false),
	fast_ack_after_quiescence_(false),
	ack_timeout_(QuicTime::Zero()),
	time_of_previous_received_packet_(QuicTime::Zero()),
	was_last_packet_missing_(false) {
	if (ack_mode_ == ACK_DECIMATION) {
	QUIC_RELOADABLE_FLAG_COUNT(quic_enable_ack_decimation);
	}
	}

	QuicReceivedPacketManager::~QuicReceivedPacketManager() {}

	void QuicReceivedPacketManager::SetFromConfig(const QuicConfig& config,
	Perspective perspective) {
	if (GetQuicReloadableFlag(quic_enable_ack_decimation) &&
	config.HasClientSentConnectionOption(kACD0, perspective)) {
	ack_mode_ = TCP_ACKING;
	}
	if (config.HasClientSentConnectionOption(kACKD, perspective)) {
	ack_mode_ = ACK_DECIMATION;
	}
	if (config.HasClientSentConnectionOption(kAKD2, perspective)) {
	ack_mode_ = ACK_DECIMATION_WITH_REORDERING;
	}
	if (config.HasClientSentConnectionOption(kAKD3, perspective)) {
	ack_mode_ = ACK_DECIMATION;
	ack_decimation_delay_ = kShortAckDecimationDelay;
	}
	if (config.HasClientSentConnectionOption(kAKD4, perspective)) {
	ack_mode_ = ACK_DECIMATION_WITH_REORDERING;
	ack_decimation_delay_ = kShortAckDecimationDelay;
	}
	if (config.HasClientSentConnectionOption(kAKDU, perspective)) {
	unlimited_ack_decimation_ = true;
	}
	if (config.HasClientSentConnectionOption(kACKQ, perspective)) {
	fast_ack_after_quiescence_ = true;
	}
	}

	void QuicReceivedPacketManager::RecordPacketReceived(
	const QuicPacketHeader& header,
	QuicTime receipt_time) {
	const QuicPacketNumber packet_number = header.packet_number;
	DCHECK(IsAwaitingPacket(packet_number)) << " packet_number:" << packet_number;
	was_last_packet_missing_ = IsMissing(packet_number);
	if (!ack_frame_updated_) {
	ack_frame_.received_packet_times.clear();
	}
	ack_frame_updated_ = true;

	if (LargestAcked(ack_frame_).IsInitialized() &&
	LargestAcked(ack_frame_) > packet_number) {
	// Record how out of order stats.
	++stats_->packets_reordered;
	stats_->max_sequence_reordering =
	std::max(stats_->max_sequence_reordering,
	LargestAcked(ack_frame_) - packet_number);
	int64_t reordering_time_us =
	(receipt_time - time_largest_observed_).ToMicroseconds();
	stats_->max_time_reordering_us =
	std::max(stats_->max_time_reordering_us, reordering_time_us);
	}
	if (!LargestAcked(ack_frame_).IsInitialized() \|\|
	packet_number > LargestAcked(ack_frame_)) {
	ack_frame_.largest_acked = packet_number;
	time_largest_observed_ = receipt_time;
	}
	ack_frame_.packets.Add(packet_number);

	if (save_timestamps_) {
	// The timestamp format only handles packets in time order.
	if (!ack_frame_.received_packet_times.empty() &&
	ack_frame_.received_packet_times.back().second > receipt_time) {
	QUIC_LOG(WARNING)
	<< "Receive time went backwards from: "
	<< ack_frame_.received_packet_times.back().second.ToDebuggingValue()
	<< " to " << receipt_time.ToDebuggingValue();
	} else {
	ack_frame_.received_packet_times.push_back(
	std::make_pair(packet_number, receipt_time));
	}
	}

	if (least_received_packet_number_.IsInitialized()) {
	least_received_packet_number_ =
	std::min(least_received_packet_number_, packet_number);
	} else {
	least_received_packet_number_ = packet_number;
	}
	}

	bool QuicReceivedPacketManager::IsMissing(QuicPacketNumber packet_number) {
	return LargestAcked(ack_frame_).IsInitialized() &&
	packet_number < LargestAcked(ack_frame_) &&
	!ack_frame_.packets.Contains(packet_number);
	}

	bool QuicReceivedPacketManager::IsAwaitingPacket(
	QuicPacketNumber packet_number) const {
	return quic::IsAwaitingPacket(ack_frame_, packet_number,
	peer_least_packet_awaiting_ack_);
	}

	const QuicFrame QuicReceivedPacketManager::GetUpdatedAckFrame(
	QuicTime approximate_now) {
	if (time_largest_observed_ == QuicTime::Zero()) {
	// We have received no packets.
	ack_frame_.ack_delay_time = QuicTime::Delta::Infinite();
	} else {
	// Ensure the delta is zero if approximate now is "in the past".
	ack_frame_.ack_delay_time = approximate_now < time_largest_observed_
	? QuicTime::Delta::Zero()
	: approximate_now - time_largest_observed_;
	}
	while (max_ack_ranges_ > 0 &&
	ack_frame_.packets.NumIntervals() > max_ack_ranges_) {
	ack_frame_.packets.RemoveSmallestInterval();
	}
	// Clear all packet times if any are too far from largest observed.
	// It's expected this is extremely rare.
	for (auto it = ack_frame_.received_packet_times.begin();
	it != ack_frame_.received_packet_times.end();) {
	if (LargestAcked(ack_frame_) - it->first >=
	std::numeric_limits<uint8_t>::max()) {
	it = ack_frame_.received_packet_times.erase(it);
	} else {
	++it;
	}
	}

	return QuicFrame(&ack_frame_);
	}

	void QuicReceivedPacketManager::DontWaitForPacketsBefore(
	QuicPacketNumber least_unacked) {
	if (!least_unacked.IsInitialized()) {
	return;
	}
	// ValidateAck() should fail if peer_least_packet_awaiting_ack shrinks.
	DCHECK(!peer_least_packet_awaiting_ack_.IsInitialized() \|\|
	peer_least_packet_awaiting_ack_ <= least_unacked);
	if (!peer_least_packet_awaiting_ack_.IsInitialized() \|\|
	least_unacked > peer_least_packet_awaiting_ack_) {
	peer_least_packet_awaiting_ack_ = least_unacked;
	bool packets_updated = ack_frame_.packets.RemoveUpTo(least_unacked);
	if (packets_updated) {
	// Ack frame gets updated because packets set is updated because of stop
	// waiting frame.
	ack_frame_updated_ = true;
	}
	}
	DCHECK(ack_frame_.packets.Empty() \|\|
	!peer_least_packet_awaiting_ack_.IsInitialized() \|\|
	ack_frame_.packets.Min() >= peer_least_packet_awaiting_ack_);
	}

	void QuicReceivedPacketManager::MaybeUpdateAckTimeout(
	bool should_last_packet_instigate_acks,
	QuicPacketNumber last_received_packet_number,
	QuicTime time_of_last_received_packet,
	QuicTime now,
	const RttStats* rtt_stats,
	QuicTime::Delta local_max_ack_delay) {
	if (!ack_frame_updated_) {
	// ACK frame has not been updated, nothing to do.
	return;
	}

	if (was_last_packet_missing_ && last_sent_largest_acked_.IsInitialized() &&
	last_received_packet_number < last_sent_largest_acked_) {
	// Only ack immediately if an ACK frame was sent with a larger largest acked
	// than the newly received packet number.
	ack_timeout_ = now;
	return;
	}

	if (!should_last_packet_instigate_acks) {
	return;
	}

	++num_retransmittable_packets_received_since_last_ack_sent_;
	if (ack_mode_ != TCP_ACKING &&
	last_received_packet_number >= PeerFirstSendingPacketNumber() +
	min_received_before_ack_decimation_) {
	// Ack up to 10 packets at once unless ack decimation is unlimited.
	if (!unlimited_ack_decimation_ &&
	num_retransmittable_packets_received_since_last_ack_sent_ >=
	kMaxRetransmittablePacketsBeforeAck) {
	ack_timeout_ = now;
	return;
	}
	// Wait for the minimum of the ack decimation delay or the delayed ack time
	// before sending an ack.
	QuicTime::Delta ack_delay = std::min(
	local_max_ack_delay, rtt_stats->min_rtt() * ack_decimation_delay_);
	if (fast_ack_after_quiescence_ && now - time_of_previous_received_packet_ >
	rtt_stats->SmoothedOrInitialRtt()) {
	// Ack the first packet out of queiscence faster, because QUIC does
	// not pace the first few packets and commonly these may be handshake
	// or TLP packets, which we'd like to acknowledge quickly.
	ack_delay = QuicTime::Delta::FromMilliseconds(1);
	}
	MaybeUpdateAckTimeoutTo(now + ack_delay);
	} else {
	// Ack with a timer or every 2 packets by default.
	if (num_retransmittable_packets_received_since_last_ack_sent_ >=
	ack_frequency_before_ack_decimation_) {
	ack_timeout_ = now;
	} else if (fast_ack_after_quiescence_ &&
	(now - time_of_previous_received_packet_) >
	rtt_stats->SmoothedOrInitialRtt()) {
	// Ack the first packet out of queiscence faster, because QUIC does
	// not pace the first few packets and commonly these may be handshake
	// or TLP packets, which we'd like to acknowledge quickly.
	MaybeUpdateAckTimeoutTo(now + QuicTime::Delta::FromMilliseconds(1));
	} else {
	MaybeUpdateAckTimeoutTo(now + local_max_ack_delay);
	}
	}

	// If there are new missing packets to report, send an ack immediately.
	if (HasNewMissingPackets()) {
	if (ack_mode_ == ACK_DECIMATION_WITH_REORDERING) {
	// Wait the minimum of an eighth min_rtt and the existing ack time.
	QuicTime ack_time = now + kShortAckDecimationDelay * rtt_stats->min_rtt();
	MaybeUpdateAckTimeoutTo(ack_time);
	} else {
	ack_timeout_ = now;
	}
	}

	if (fast_ack_after_quiescence_) {
	time_of_previous_received_packet_ = time_of_last_received_packet;
	}
	}

	void QuicReceivedPacketManager::ResetAckStates() {
	ack_frame_updated_ = false;
	ack_timeout_ = QuicTime::Zero();
	num_retransmittable_packets_received_since_last_ack_sent_ = 0;
	last_sent_largest_acked_ = LargestAcked(ack_frame_);
	}

	void QuicReceivedPacketManager::MaybeUpdateAckTimeoutTo(QuicTime time) {
	if (!ack_timeout_.IsInitialized() \|\| ack_timeout_ > time) {
	ack_timeout_ = time;
	}
	}

	bool QuicReceivedPacketManager::HasMissingPackets() const {
	if (ack_frame_.packets.Empty()) {
	return false;
	}
	if (ack_frame_.packets.NumIntervals() > 1) {
	return true;
	}
	return peer_least_packet_awaiting_ack_.IsInitialized() &&
	ack_frame_.packets.Min() > peer_least_packet_awaiting_ack_;
	}

	bool QuicReceivedPacketManager::HasNewMissingPackets() const {
	return HasMissingPackets() &&
	ack_frame_.packets.LastIntervalLength() <= kMaxPacketsAfterNewMissing;
	}

	bool QuicReceivedPacketManager::ack_frame_updated() const {
	return ack_frame_updated_;
	}

	QuicPacketNumber QuicReceivedPacketManager::GetLargestObserved() const {
	return LargestAcked(ack_frame_);
	}

	QuicPacketNumber QuicReceivedPacketManager::PeerFirstSendingPacketNumber()
	const {
	if (!least_received_packet_number_.IsInitialized()) {
	QUIC_BUG << "No packets have been received yet";
	return QuicPacketNumber(1);
	}
	return least_received_packet_number_;
	}

	} // namespace quic