quic/core/quic_mtu_discovery.cc - quiche - Git at Google

 // Copyright (c) 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/quic_mtu_discovery.h"
 #include "quic/platform/api/quic_flag_utils.h"
 #include "quic/platform/api/quic_stack_trace.h"

 namespace quic {

 QuicConnectionMtuDiscoverer::QuicConnectionMtuDiscoverer(
     QuicPacketCount packets_between_probes_base,
     QuicPacketNumber next_probe_at)
     : packets_between_probes_(packets_between_probes_base),
       next_probe_at_(next_probe_at) {}

 void QuicConnectionMtuDiscoverer::Enable(
     QuicByteCount max_packet_length,
     QuicByteCount target_max_packet_length) {
   QUICHE_DCHECK(!IsEnabled());

   if (target_max_packet_length <= max_packet_length) {
     QUIC_DVLOG(1) << "MtuDiscoverer not enabled. target_max_packet_length:"
                   << target_max_packet_length
                   << " <= max_packet_length:" << max_packet_length;
     return;
   }

   min_probe_length_ = max_packet_length;
   max_probe_length_ = target_max_packet_length;
   QUICHE_DCHECK(IsEnabled());

   QUIC_DVLOG(1) << "MtuDiscoverer enabled. min:" << min_probe_length_
                 << ", max:" << max_probe_length_
                 << ", next:" << next_probe_packet_length();
 }

 void QuicConnectionMtuDiscoverer::Disable() {
   *this = QuicConnectionMtuDiscoverer(packets_between_probes_, next_probe_at_);
 }

 bool QuicConnectionMtuDiscoverer::IsEnabled() const {
   return min_probe_length_ < max_probe_length_;
 }

 bool QuicConnectionMtuDiscoverer::ShouldProbeMtu(
     QuicPacketNumber largest_sent_packet) const {
   if (!IsEnabled()) {
     return false;
   }

   if (remaining_probe_count_ == 0) {
     QUIC_DVLOG(1)
         << "ShouldProbeMtu returns false because max probe count reached";
     return false;
   }

   if (largest_sent_packet < next_probe_at_) {
     QUIC_DVLOG(1) << "ShouldProbeMtu returns false because not enough packets "
                      "sent since last probe. largest_sent_packet:"
                   << largest_sent_packet
                   << ", next_probe_at_:" << next_probe_at_;
     return false;
   }

   QUIC_DVLOG(1) << "ShouldProbeMtu returns true. largest_sent_packet:"
                 << largest_sent_packet;
   return true;
 }

 QuicPacketLength QuicConnectionMtuDiscoverer::GetUpdatedMtuProbeSize(
     QuicPacketNumber largest_sent_packet) {
   QUICHE_DCHECK(ShouldProbeMtu(largest_sent_packet));

   QuicPacketLength probe_packet_length = next_probe_packet_length();
   if (probe_packet_length == last_probe_length_) {
     // The next probe packet is as big as the previous one. Assuming the
     // previous one exceeded MTU, we need to decrease the probe packet length.
     max_probe_length_ = probe_packet_length;
   } else {
     QUICHE_DCHECK_GT(probe_packet_length, last_probe_length_);
   }
   last_probe_length_ = next_probe_packet_length();

   packets_between_probes_ *= 2;
   next_probe_at_ = largest_sent_packet + packets_between_probes_ + 1;
   if (remaining_probe_count_ > 0) {
     --remaining_probe_count_;
   }

   QUIC_DVLOG(1) << "GetUpdatedMtuProbeSize: probe_packet_length:"
                 << last_probe_length_
                 << ", New packets_between_probes_:" << packets_between_probes_
                 << ", next_probe_at_:" << next_probe_at_
                 << ", remaining_probe_count_:" << remaining_probe_count_;
   QUICHE_DCHECK(!ShouldProbeMtu(largest_sent_packet));
   return last_probe_length_;
 }

 QuicPacketLength QuicConnectionMtuDiscoverer::next_probe_packet_length() const {
   QUICHE_DCHECK_NE(min_probe_length_, 0);
   QUICHE_DCHECK_NE(max_probe_length_, 0);
   QUICHE_DCHECK_GE(max_probe_length_, min_probe_length_);

   const QuicPacketLength normal_next_probe_length =
       (min_probe_length_ + max_probe_length_ + 1) / 2;

   if (remaining_probe_count_ == 1 &&
       normal_next_probe_length > last_probe_length_) {
     // If the previous probe succeeded, and there is only one last probe to
     // send, use |max_probe_length_| for the last probe.
     return max_probe_length_;
   }
   return normal_next_probe_length;
 }

 void QuicConnectionMtuDiscoverer::OnMaxPacketLengthUpdated(
     QuicByteCount old_value,
     QuicByteCount new_value) {
   if (!IsEnabled() || new_value <= old_value) {
     return;
   }

   QUICHE_DCHECK_EQ(old_value, min_probe_length_);
   min_probe_length_ = new_value;
 }

 std::ostream& operator<<(std::ostream& os,
                          const QuicConnectionMtuDiscoverer& d) {
   os << "{ min_probe_length_:" << d.min_probe_length_
      << " max_probe_length_:" << d.max_probe_length_
      << " last_probe_length_:" << d.last_probe_length_
      << " remaining_probe_count_:" << d.remaining_probe_count_
      << " packets_between_probes_:" << d.packets_between_probes_
      << " next_probe_at_:" << d.next_probe_at_ << " }";
   return os;
 }

 }  // namespace quic
	// Copyright (c) 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/quic_mtu_discovery.h"
	#include "quic/platform/api/quic_flag_utils.h"
	#include "quic/platform/api/quic_stack_trace.h"

	namespace quic {

	QuicConnectionMtuDiscoverer::QuicConnectionMtuDiscoverer(
	QuicPacketCount packets_between_probes_base,
	QuicPacketNumber next_probe_at)
	: packets_between_probes_(packets_between_probes_base),
	next_probe_at_(next_probe_at) {}

	void QuicConnectionMtuDiscoverer::Enable(
	QuicByteCount max_packet_length,
	QuicByteCount target_max_packet_length) {
	QUICHE_DCHECK(!IsEnabled());

	if (target_max_packet_length <= max_packet_length) {
	QUIC_DVLOG(1) << "MtuDiscoverer not enabled. target_max_packet_length:"
	<< target_max_packet_length
	<< " <= max_packet_length:" << max_packet_length;
	return;
	}

	min_probe_length_ = max_packet_length;
	max_probe_length_ = target_max_packet_length;
	QUICHE_DCHECK(IsEnabled());

	QUIC_DVLOG(1) << "MtuDiscoverer enabled. min:" << min_probe_length_
	<< ", max:" << max_probe_length_
	<< ", next:" << next_probe_packet_length();
	}

	void QuicConnectionMtuDiscoverer::Disable() {
	*this = QuicConnectionMtuDiscoverer(packets_between_probes_, next_probe_at_);
	}

	bool QuicConnectionMtuDiscoverer::IsEnabled() const {
	return min_probe_length_ < max_probe_length_;
	}

	bool QuicConnectionMtuDiscoverer::ShouldProbeMtu(
	QuicPacketNumber largest_sent_packet) const {
	if (!IsEnabled()) {
	return false;
	}

	if (remaining_probe_count_ == 0) {
	QUIC_DVLOG(1)
	<< "ShouldProbeMtu returns false because max probe count reached";
	return false;
	}

	if (largest_sent_packet < next_probe_at_) {
	QUIC_DVLOG(1) << "ShouldProbeMtu returns false because not enough packets "
	"sent since last probe. largest_sent_packet:"
	<< largest_sent_packet
	<< ", next_probe_at_:" << next_probe_at_;
	return false;
	}

	QUIC_DVLOG(1) << "ShouldProbeMtu returns true. largest_sent_packet:"
	<< largest_sent_packet;
	return true;
	}

	QuicPacketLength QuicConnectionMtuDiscoverer::GetUpdatedMtuProbeSize(
	QuicPacketNumber largest_sent_packet) {
	QUICHE_DCHECK(ShouldProbeMtu(largest_sent_packet));

	QuicPacketLength probe_packet_length = next_probe_packet_length();
	if (probe_packet_length == last_probe_length_) {
	// The next probe packet is as big as the previous one. Assuming the
	// previous one exceeded MTU, we need to decrease the probe packet length.
	max_probe_length_ = probe_packet_length;
	} else {
	QUICHE_DCHECK_GT(probe_packet_length, last_probe_length_);
	}
	last_probe_length_ = next_probe_packet_length();

	packets_between_probes_ *= 2;
	next_probe_at_ = largest_sent_packet + packets_between_probes_ + 1;
	if (remaining_probe_count_ > 0) {
	--remaining_probe_count_;
	}

	QUIC_DVLOG(1) << "GetUpdatedMtuProbeSize: probe_packet_length:"
	<< last_probe_length_
	<< ", New packets_between_probes_:" << packets_between_probes_
	<< ", next_probe_at_:" << next_probe_at_
	<< ", remaining_probe_count_:" << remaining_probe_count_;
	QUICHE_DCHECK(!ShouldProbeMtu(largest_sent_packet));
	return last_probe_length_;
	}

	QuicPacketLength QuicConnectionMtuDiscoverer::next_probe_packet_length() const {
	QUICHE_DCHECK_NE(min_probe_length_, 0);
	QUICHE_DCHECK_NE(max_probe_length_, 0);
	QUICHE_DCHECK_GE(max_probe_length_, min_probe_length_);

	const QuicPacketLength normal_next_probe_length =
	(min_probe_length_ + max_probe_length_ + 1) / 2;

	if (remaining_probe_count_ == 1 &&
	normal_next_probe_length > last_probe_length_) {
	// If the previous probe succeeded, and there is only one last probe to
	// send, use \|max_probe_length_\| for the last probe.
	return max_probe_length_;
	}
	return normal_next_probe_length;
	}

	void QuicConnectionMtuDiscoverer::OnMaxPacketLengthUpdated(
	QuicByteCount old_value,
	QuicByteCount new_value) {
	if (!IsEnabled() \|\| new_value <= old_value) {
	return;
	}

	QUICHE_DCHECK_EQ(old_value, min_probe_length_);
	min_probe_length_ = new_value;
	}

	std::ostream& operator<<(std::ostream& os,
	const QuicConnectionMtuDiscoverer& d) {
	os << "{ min_probe_length_:" << d.min_probe_length_
	<< " max_probe_length_:" << d.max_probe_length_
	<< " last_probe_length_:" << d.last_probe_length_
	<< " remaining_probe_count_:" << d.remaining_probe_count_
	<< " packets_between_probes_:" << d.packets_between_probes_
	<< " next_probe_at_:" << d.next_probe_at_ << " }";
	return os;
	}

	} // namespace quic