quic/core/quic_coalesced_packet.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_coalesced_packet.h"

 #include "absl/memory/memory.h"
 #include "absl/strings/str_cat.h"
 #include "quic/platform/api/quic_bug_tracker.h"

 namespace quic {

 QuicCoalescedPacket::QuicCoalescedPacket()
     : length_(0), max_packet_length_(0) {}

 QuicCoalescedPacket::~QuicCoalescedPacket() {
   Clear();
 }

 bool QuicCoalescedPacket::MaybeCoalescePacket(
     const SerializedPacket& packet,
     const QuicSocketAddress& self_address,
     const QuicSocketAddress& peer_address,
     QuicBufferAllocator* allocator,
     QuicPacketLength current_max_packet_length) {
   if (packet.encrypted_length == 0) {
     QUIC_BUG(quic_bug_10611_1) << "Trying to coalesce an empty packet";
     return true;
   }
   if (length_ == 0) {
 #ifndef NDEBUG
     for (const auto& buffer : encrypted_buffers_) {
       QUICHE_DCHECK(buffer.empty());
     }
 #endif
     QUICHE_DCHECK(initial_packet_ == nullptr);
     // This is the first packet, set max_packet_length and self/peer
     // addresses.
     max_packet_length_ = current_max_packet_length;
     self_address_ = self_address;
     peer_address_ = peer_address;
   } else {
     if (self_address_ != self_address || peer_address_ != peer_address) {
       // Do not coalesce packet with different self/peer addresses.
       QUIC_DLOG(INFO)
           << "Cannot coalesce packet because self/peer address changed";
       return false;
     }
     if (max_packet_length_ != current_max_packet_length) {
       QUIC_BUG(quic_bug_10611_2)
           << "Max packet length changes in the middle of the write path";
       return false;
     }
     if (ContainsPacketOfEncryptionLevel(packet.encryption_level)) {
       // Do not coalesce packets of the same encryption level.
       return false;
     }
   }

   if (length_ + packet.encrypted_length > max_packet_length_) {
     // Packet does not fit.
     return false;
   }
   QUIC_DVLOG(1) << "Successfully coalesced packet: encryption_level: "
                 << packet.encryption_level
                 << ", encrypted_length: " << packet.encrypted_length
                 << ", current length: " << length_
                 << ", max_packet_length: " << max_packet_length_;
   if (length_ > 0) {
     QUIC_CODE_COUNT(QUIC_SUCCESSFULLY_COALESCED_MULTIPLE_PACKETS);
   }
   length_ += packet.encrypted_length;
   transmission_types_[packet.encryption_level] = packet.transmission_type;
   if (packet.encryption_level == ENCRYPTION_INITIAL) {
     // Save a copy of ENCRYPTION_INITIAL packet (excluding encrypted buffer, as
     // the packet will be re-serialized later).
     initial_packet_ = absl::WrapUnique<SerializedPacket>(
         CopySerializedPacket(packet, allocator, /*copy_buffer=*/false));
     return true;
   }
   // Copy encrypted buffer of packets with other encryption levels.
   encrypted_buffers_[packet.encryption_level] =
       std::string(packet.encrypted_buffer, packet.encrypted_length);
   return true;
 }

 void QuicCoalescedPacket::Clear() {
   self_address_ = QuicSocketAddress();
   peer_address_ = QuicSocketAddress();
   length_ = 0;
   max_packet_length_ = 0;
   for (auto& packet : encrypted_buffers_) {
     packet.clear();
   }
   for (size_t i = ENCRYPTION_INITIAL; i < NUM_ENCRYPTION_LEVELS; ++i) {
     transmission_types_[i] = NOT_RETRANSMISSION;
   }
   initial_packet_ = nullptr;
 }

 void QuicCoalescedPacket::NeuterInitialPacket() {
   if (initial_packet_ == nullptr) {
     return;
   }
   if (length_ < initial_packet_->encrypted_length) {
     QUIC_BUG(quic_bug_10611_3)
         << "length_: " << length_ << ", is less than initial packet length: "
         << initial_packet_->encrypted_length;
     Clear();
     return;
   }
   length_ -= initial_packet_->encrypted_length;
   if (length_ == 0) {
     Clear();
     return;
   }
   transmission_types_[ENCRYPTION_INITIAL] = NOT_RETRANSMISSION;
   initial_packet_ = nullptr;
 }

 bool QuicCoalescedPacket::CopyEncryptedBuffers(char* buffer,
                                                size_t buffer_len,
                                                size_t* length_copied) const {
   *length_copied = 0;
   for (const auto& packet : encrypted_buffers_) {
     if (packet.empty()) {
       continue;
     }
     if (packet.length() > buffer_len) {
       return false;
     }
     memcpy(buffer, packet.data(), packet.length());
     buffer += packet.length();
     buffer_len -= packet.length();
     *length_copied += packet.length();
   }
   return true;
 }

 bool QuicCoalescedPacket::ContainsPacketOfEncryptionLevel(
     EncryptionLevel level) const {
   return !encrypted_buffers_[level].empty() ||
          (level == ENCRYPTION_INITIAL && initial_packet_ != nullptr);
 }

 TransmissionType QuicCoalescedPacket::TransmissionTypeOfPacket(
     EncryptionLevel level) const {
   if (!ContainsPacketOfEncryptionLevel(level)) {
     QUIC_BUG(quic_bug_10611_4)
         << "Coalesced packet does not contain packet of encryption level: "
         << EncryptionLevelToString(level);
     return NOT_RETRANSMISSION;
   }
   return transmission_types_[level];
 }

 size_t QuicCoalescedPacket::NumberOfPackets() const {
   size_t num_of_packets = 0;
   for (int8_t i = ENCRYPTION_INITIAL; i < NUM_ENCRYPTION_LEVELS; ++i) {
     if (ContainsPacketOfEncryptionLevel(static_cast<EncryptionLevel>(i))) {
       ++num_of_packets;
     }
   }
   return num_of_packets;
 }

 std::string QuicCoalescedPacket::ToString(size_t serialized_length) const {
   // Total length and padding size.
   std::string info = absl::StrCat(
       "total_length: ", serialized_length,
       " padding_size: ", serialized_length - length_, " packets: {");
   // Packets' encryption levels.
   bool first_packet = true;
   for (int8_t i = ENCRYPTION_INITIAL; i < NUM_ENCRYPTION_LEVELS; ++i) {
     if (ContainsPacketOfEncryptionLevel(static_cast<EncryptionLevel>(i))) {
       absl::StrAppend(&info, first_packet ? "" : ", ",
                       EncryptionLevelToString(static_cast<EncryptionLevel>(i)));
       first_packet = false;
     }
   }
   absl::StrAppend(&info, "}");
   return info;
 }

 }  // 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_coalesced_packet.h"

	#include "absl/memory/memory.h"
	#include "absl/strings/str_cat.h"
	#include "quic/platform/api/quic_bug_tracker.h"

	namespace quic {

	QuicCoalescedPacket::QuicCoalescedPacket()
	: length_(0), max_packet_length_(0) {}

	QuicCoalescedPacket::~QuicCoalescedPacket() {
	Clear();
	}

	bool QuicCoalescedPacket::MaybeCoalescePacket(
	const SerializedPacket& packet,
	const QuicSocketAddress& self_address,
	const QuicSocketAddress& peer_address,
	QuicBufferAllocator* allocator,
	QuicPacketLength current_max_packet_length) {
	if (packet.encrypted_length == 0) {
	QUIC_BUG(quic_bug_10611_1) << "Trying to coalesce an empty packet";
	return true;
	}
	if (length_ == 0) {
	#ifndef NDEBUG
	for (const auto& buffer : encrypted_buffers_) {
	QUICHE_DCHECK(buffer.empty());
	}
	#endif
	QUICHE_DCHECK(initial_packet_ == nullptr);
	// This is the first packet, set max_packet_length and self/peer
	// addresses.
	max_packet_length_ = current_max_packet_length;
	self_address_ = self_address;
	peer_address_ = peer_address;
	} else {
	if (self_address_ != self_address \|\| peer_address_ != peer_address) {
	// Do not coalesce packet with different self/peer addresses.
	QUIC_DLOG(INFO)
	<< "Cannot coalesce packet because self/peer address changed";
	return false;
	}
	if (max_packet_length_ != current_max_packet_length) {
	QUIC_BUG(quic_bug_10611_2)
	<< "Max packet length changes in the middle of the write path";
	return false;
	}
	if (ContainsPacketOfEncryptionLevel(packet.encryption_level)) {
	// Do not coalesce packets of the same encryption level.
	return false;
	}
	}

	if (length_ + packet.encrypted_length > max_packet_length_) {
	// Packet does not fit.
	return false;
	}
	QUIC_DVLOG(1) << "Successfully coalesced packet: encryption_level: "
	<< packet.encryption_level
	<< ", encrypted_length: " << packet.encrypted_length
	<< ", current length: " << length_
	<< ", max_packet_length: " << max_packet_length_;
	if (length_ > 0) {
	QUIC_CODE_COUNT(QUIC_SUCCESSFULLY_COALESCED_MULTIPLE_PACKETS);
	}
	length_ += packet.encrypted_length;
	transmission_types_[packet.encryption_level] = packet.transmission_type;
	if (packet.encryption_level == ENCRYPTION_INITIAL) {
	// Save a copy of ENCRYPTION_INITIAL packet (excluding encrypted buffer, as
	// the packet will be re-serialized later).
	initial_packet_ = absl::WrapUnique<SerializedPacket>(
	CopySerializedPacket(packet, allocator, /copy_buffer=/false));
	return true;
	}
	// Copy encrypted buffer of packets with other encryption levels.
	encrypted_buffers_[packet.encryption_level] =
	std::string(packet.encrypted_buffer, packet.encrypted_length);
	return true;
	}

	void QuicCoalescedPacket::Clear() {
	self_address_ = QuicSocketAddress();
	peer_address_ = QuicSocketAddress();
	length_ = 0;
	max_packet_length_ = 0;
	for (auto& packet : encrypted_buffers_) {
	packet.clear();
	}
	for (size_t i = ENCRYPTION_INITIAL; i < NUM_ENCRYPTION_LEVELS; ++i) {
	transmission_types_[i] = NOT_RETRANSMISSION;
	}
	initial_packet_ = nullptr;
	}

	void QuicCoalescedPacket::NeuterInitialPacket() {
	if (initial_packet_ == nullptr) {
	return;
	}
	if (length_ < initial_packet_->encrypted_length) {
	QUIC_BUG(quic_bug_10611_3)
	<< "length_: " << length_ << ", is less than initial packet length: "
	<< initial_packet_->encrypted_length;
	Clear();
	return;
	}
	length_ -= initial_packet_->encrypted_length;
	if (length_ == 0) {
	Clear();
	return;
	}
	transmission_types_[ENCRYPTION_INITIAL] = NOT_RETRANSMISSION;
	initial_packet_ = nullptr;
	}

	bool QuicCoalescedPacket::CopyEncryptedBuffers(char* buffer,
	size_t buffer_len,
	size_t* length_copied) const {
	*length_copied = 0;
	for (const auto& packet : encrypted_buffers_) {
	if (packet.empty()) {
	continue;
	}
	if (packet.length() > buffer_len) {
	return false;
	}
	memcpy(buffer, packet.data(), packet.length());
	buffer += packet.length();
	buffer_len -= packet.length();
	*length_copied += packet.length();
	}
	return true;
	}

	bool QuicCoalescedPacket::ContainsPacketOfEncryptionLevel(
	EncryptionLevel level) const {
	return !encrypted_buffers_[level].empty() \|\|
	(level == ENCRYPTION_INITIAL && initial_packet_ != nullptr);
	}

	TransmissionType QuicCoalescedPacket::TransmissionTypeOfPacket(
	EncryptionLevel level) const {
	if (!ContainsPacketOfEncryptionLevel(level)) {
	QUIC_BUG(quic_bug_10611_4)
	<< "Coalesced packet does not contain packet of encryption level: "
	<< EncryptionLevelToString(level);
	return NOT_RETRANSMISSION;
	}
	return transmission_types_[level];
	}

	size_t QuicCoalescedPacket::NumberOfPackets() const {
	size_t num_of_packets = 0;
	for (int8_t i = ENCRYPTION_INITIAL; i < NUM_ENCRYPTION_LEVELS; ++i) {
	if (ContainsPacketOfEncryptionLevel(static_cast<EncryptionLevel>(i))) {
	++num_of_packets;
	}
	}
	return num_of_packets;
	}

	std::string QuicCoalescedPacket::ToString(size_t serialized_length) const {
	// Total length and padding size.
	std::string info = absl::StrCat(
	"total_length: ", serialized_length,
	" padding_size: ", serialized_length - length_, " packets: {");
	// Packets' encryption levels.
	bool first_packet = true;
	for (int8_t i = ENCRYPTION_INITIAL; i < NUM_ENCRYPTION_LEVELS; ++i) {
	if (ContainsPacketOfEncryptionLevel(static_cast<EncryptionLevel>(i))) {
	absl::StrAppend(&info, first_packet ? "" : ", ",
	EncryptionLevelToString(static_cast<EncryptionLevel>(i)));
	first_packet = false;
	}
	}
	absl::StrAppend(&info, "}");
	return info;
	}

	} // namespace quic