net/quic/quic_server_session.cc - platform/external/chromium_org - Git at Google

 // Copyright 2014 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/quic/quic_server_session.h"

 #include "base/logging.h"
 #include "net/quic/crypto/source_address_token.h"
 #include "net/quic/quic_connection.h"
 #include "net/quic/quic_flags.h"
 #include "net/quic/quic_spdy_server_stream.h"
 #include "net/quic/reliable_quic_stream.h"

 namespace net {

 QuicServerSession::QuicServerSession(const QuicConfig& config,
                                      QuicConnection* connection,
                                      QuicServerSessionVisitor* visitor,
                                      bool is_secure)
     : QuicSession(connection, config, is_secure),
       visitor_(visitor),
       bandwidth_estimate_sent_to_client_(QuicBandwidth::Zero()),
       last_scup_time_(QuicTime::Zero()),
       last_scup_sequence_number_(0) {}

 QuicServerSession::~QuicServerSession() {}

 void QuicServerSession::InitializeSession(
     const QuicCryptoServerConfig& crypto_config) {
   QuicSession::InitializeSession();
   crypto_stream_.reset(CreateQuicCryptoServerStream(crypto_config));
 }

 QuicCryptoServerStream* QuicServerSession::CreateQuicCryptoServerStream(
     const QuicCryptoServerConfig& crypto_config) {
   return new QuicCryptoServerStream(crypto_config, this);
 }

 void QuicServerSession::OnConfigNegotiated() {
   QuicSession::OnConfigNegotiated();
   if (!FLAGS_enable_quic_fec ||
       !config()->HasReceivedConnectionOptions() ||
       !ContainsQuicTag(config()->ReceivedConnectionOptions(), kFHDR)) {
     return;
   }
   // kFHDR config maps to FEC protection always for headers stream.
   // TODO(jri): Add crypto stream in addition to headers for kHDR.
   headers_stream_->set_fec_policy(FEC_PROTECT_ALWAYS);
 }

 void QuicServerSession::OnConnectionClosed(QuicErrorCode error,
                                            bool from_peer) {
   QuicSession::OnConnectionClosed(error, from_peer);
   // In the unlikely event we get a connection close while doing an asynchronous
   // crypto event, make sure we cancel the callback.
   if (crypto_stream_.get() != nullptr) {
     crypto_stream_->CancelOutstandingCallbacks();
   }
   visitor_->OnConnectionClosed(connection()->connection_id(), error);
 }

 void QuicServerSession::OnWriteBlocked() {
   QuicSession::OnWriteBlocked();
   visitor_->OnWriteBlocked(connection());
 }

 void QuicServerSession::OnCongestionWindowChange(QuicTime now) {
   if (connection()->version() <= QUIC_VERSION_21) {
     return;
   }

   // If not enough time has passed since the last time we sent an update to the
   // client, or not enough packets have been sent, then return early.
   const QuicSentPacketManager& sent_packet_manager =
       connection()->sent_packet_manager();
   int64 srtt_ms =
       sent_packet_manager.GetRttStats()->smoothed_rtt().ToMilliseconds();
   int64 now_ms = now.Subtract(last_scup_time_).ToMilliseconds();
   int64 packets_since_last_scup =
       connection()->sequence_number_of_last_sent_packet() -
       last_scup_sequence_number_;
   if (now_ms < (kMinIntervalBetweenServerConfigUpdatesRTTs * srtt_ms) ||
       now_ms < kMinIntervalBetweenServerConfigUpdatesMs ||
       packets_since_last_scup < kMinPacketsBetweenServerConfigUpdates) {
     return;
   }

   // If the bandwidth recorder does not have a valid estimate, return early.
   const QuicSustainedBandwidthRecorder& bandwidth_recorder =
       sent_packet_manager.SustainedBandwidthRecorder();
   if (!bandwidth_recorder.HasEstimate()) {
     return;
   }

   // The bandwidth recorder has recorded at least one sustained bandwidth
   // estimate. Check that it's substantially different from the last one that
   // we sent to the client, and if so, send the new one.
   QuicBandwidth new_bandwidth_estimate = bandwidth_recorder.BandwidthEstimate();

   int64 bandwidth_delta =
       std::abs(new_bandwidth_estimate.ToBitsPerSecond() -
                bandwidth_estimate_sent_to_client_.ToBitsPerSecond());

   // Define "substantial" difference as a 50% increase or decrease from the
   // last estimate.
   bool substantial_difference =
       bandwidth_delta >
       0.5 * bandwidth_estimate_sent_to_client_.ToBitsPerSecond();
   if (!substantial_difference) {
     return;
   }

   bandwidth_estimate_sent_to_client_ = new_bandwidth_estimate;
   DVLOG(1) << "Server: sending new bandwidth estimate (KBytes/s): "
            << bandwidth_estimate_sent_to_client_.ToKBytesPerSecond();

   // Include max bandwidth in the update.
   QuicBandwidth max_bandwidth_estimate =
       bandwidth_recorder.MaxBandwidthEstimate();
   int32 max_bandwidth_timestamp = bandwidth_recorder.MaxBandwidthTimestamp();

   // Fill the proto before passing it to the crypto stream to send.
   CachedNetworkParameters cached_network_params;
   cached_network_params.set_bandwidth_estimate_bytes_per_second(
       bandwidth_estimate_sent_to_client_.ToBytesPerSecond());
   cached_network_params.set_max_bandwidth_estimate_bytes_per_second(
       max_bandwidth_estimate.ToBytesPerSecond());
   cached_network_params.set_max_bandwidth_timestamp_seconds(
       max_bandwidth_timestamp);
   cached_network_params.set_min_rtt_ms(
       sent_packet_manager.GetRttStats()->min_rtt().ToMilliseconds());
   cached_network_params.set_previous_connection_state(
       bandwidth_recorder.EstimateRecordedDuringSlowStart()
           ? CachedNetworkParameters::SLOW_START
           : CachedNetworkParameters::CONGESTION_AVOIDANCE);
   cached_network_params.set_timestamp(
       connection()->clock()->WallNow().ToUNIXSeconds());
   if (!serving_region_.empty()) {
     cached_network_params.set_serving_region(serving_region_);
   }

   crypto_stream_->SendServerConfigUpdate(&cached_network_params);
   last_scup_time_ = now;
   last_scup_sequence_number_ =
       connection()->sequence_number_of_last_sent_packet();
 }

 bool QuicServerSession::ShouldCreateIncomingDataStream(QuicStreamId id) {
   if (id % 2 == 0) {
     DVLOG(1) << "Invalid incoming even stream_id:" << id;
     connection()->SendConnectionClose(QUIC_INVALID_STREAM_ID);
     return false;
   }
   if (GetNumOpenStreams() >= get_max_open_streams()) {
     DVLOG(1) << "Failed to create a new incoming stream with id:" << id
              << " Already " << GetNumOpenStreams() << " streams open (max "
              << get_max_open_streams() << ").";
     connection()->SendConnectionClose(QUIC_TOO_MANY_OPEN_STREAMS);
     return false;
   }
   return true;
 }

 QuicDataStream* QuicServerSession::CreateIncomingDataStream(
     QuicStreamId id) {
   if (!ShouldCreateIncomingDataStream(id)) {
     return nullptr;
   }

   return new QuicSpdyServerStream(id, this);
 }

 QuicDataStream* QuicServerSession::CreateOutgoingDataStream() {
   DLOG(ERROR) << "Server push not yet supported";
   return nullptr;
 }

 QuicCryptoServerStream* QuicServerSession::GetCryptoStream() {
   return crypto_stream_.get();
 }

 }  // namespace net
	// Copyright 2014 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/quic/quic_server_session.h"

	#include "base/logging.h"
	#include "net/quic/crypto/source_address_token.h"
	#include "net/quic/quic_connection.h"
	#include "net/quic/quic_flags.h"
	#include "net/quic/quic_spdy_server_stream.h"
	#include "net/quic/reliable_quic_stream.h"

	namespace net {

	QuicServerSession::QuicServerSession(const QuicConfig& config,
	QuicConnection* connection,
	QuicServerSessionVisitor* visitor,
	bool is_secure)
	: QuicSession(connection, config, is_secure),
	visitor_(visitor),
	bandwidth_estimate_sent_to_client_(QuicBandwidth::Zero()),
	last_scup_time_(QuicTime::Zero()),
	last_scup_sequence_number_(0) {}

	QuicServerSession::~QuicServerSession() {}

	void QuicServerSession::InitializeSession(
	const QuicCryptoServerConfig& crypto_config) {
	QuicSession::InitializeSession();
	crypto_stream_.reset(CreateQuicCryptoServerStream(crypto_config));
	}

	QuicCryptoServerStream* QuicServerSession::CreateQuicCryptoServerStream(
	const QuicCryptoServerConfig& crypto_config) {
	return new QuicCryptoServerStream(crypto_config, this);
	}

	void QuicServerSession::OnConfigNegotiated() {
	QuicSession::OnConfigNegotiated();
	if (!FLAGS_enable_quic_fec \|\|
	!config()->HasReceivedConnectionOptions() \|\|
	!ContainsQuicTag(config()->ReceivedConnectionOptions(), kFHDR)) {
	return;
	}
	// kFHDR config maps to FEC protection always for headers stream.
	// TODO(jri): Add crypto stream in addition to headers for kHDR.
	headers_stream_->set_fec_policy(FEC_PROTECT_ALWAYS);
	}

	void QuicServerSession::OnConnectionClosed(QuicErrorCode error,
	bool from_peer) {
	QuicSession::OnConnectionClosed(error, from_peer);
	// In the unlikely event we get a connection close while doing an asynchronous
	// crypto event, make sure we cancel the callback.
	if (crypto_stream_.get() != nullptr) {
	crypto_stream_->CancelOutstandingCallbacks();
	}
	visitor_->OnConnectionClosed(connection()->connection_id(), error);
	}

	void QuicServerSession::OnWriteBlocked() {
	QuicSession::OnWriteBlocked();
	visitor_->OnWriteBlocked(connection());
	}

	void QuicServerSession::OnCongestionWindowChange(QuicTime now) {
	if (connection()->version() <= QUIC_VERSION_21) {
	return;
	}

	// If not enough time has passed since the last time we sent an update to the
	// client, or not enough packets have been sent, then return early.
	const QuicSentPacketManager& sent_packet_manager =
	connection()->sent_packet_manager();
	int64 srtt_ms =
	sent_packet_manager.GetRttStats()->smoothed_rtt().ToMilliseconds();
	int64 now_ms = now.Subtract(last_scup_time_).ToMilliseconds();
	int64 packets_since_last_scup =
	connection()->sequence_number_of_last_sent_packet() -
	last_scup_sequence_number_;
	if (now_ms < (kMinIntervalBetweenServerConfigUpdatesRTTs * srtt_ms) \|\|
	now_ms < kMinIntervalBetweenServerConfigUpdatesMs \|\|
	packets_since_last_scup < kMinPacketsBetweenServerConfigUpdates) {
	return;
	}

	// If the bandwidth recorder does not have a valid estimate, return early.
	const QuicSustainedBandwidthRecorder& bandwidth_recorder =
	sent_packet_manager.SustainedBandwidthRecorder();
	if (!bandwidth_recorder.HasEstimate()) {
	return;
	}

	// The bandwidth recorder has recorded at least one sustained bandwidth
	// estimate. Check that it's substantially different from the last one that
	// we sent to the client, and if so, send the new one.
	QuicBandwidth new_bandwidth_estimate = bandwidth_recorder.BandwidthEstimate();

	int64 bandwidth_delta =
	std::abs(new_bandwidth_estimate.ToBitsPerSecond() -
	bandwidth_estimate_sent_to_client_.ToBitsPerSecond());

	// Define "substantial" difference as a 50% increase or decrease from the
	// last estimate.
	bool substantial_difference =
	bandwidth_delta >
	0.5 * bandwidth_estimate_sent_to_client_.ToBitsPerSecond();
	if (!substantial_difference) {
	return;
	}

	bandwidth_estimate_sent_to_client_ = new_bandwidth_estimate;
	DVLOG(1) << "Server: sending new bandwidth estimate (KBytes/s): "
	<< bandwidth_estimate_sent_to_client_.ToKBytesPerSecond();

	// Include max bandwidth in the update.
	QuicBandwidth max_bandwidth_estimate =
	bandwidth_recorder.MaxBandwidthEstimate();
	int32 max_bandwidth_timestamp = bandwidth_recorder.MaxBandwidthTimestamp();

	// Fill the proto before passing it to the crypto stream to send.
	CachedNetworkParameters cached_network_params;
	cached_network_params.set_bandwidth_estimate_bytes_per_second(
	bandwidth_estimate_sent_to_client_.ToBytesPerSecond());
	cached_network_params.set_max_bandwidth_estimate_bytes_per_second(
	max_bandwidth_estimate.ToBytesPerSecond());
	cached_network_params.set_max_bandwidth_timestamp_seconds(
	max_bandwidth_timestamp);
	cached_network_params.set_min_rtt_ms(
	sent_packet_manager.GetRttStats()->min_rtt().ToMilliseconds());
	cached_network_params.set_previous_connection_state(
	bandwidth_recorder.EstimateRecordedDuringSlowStart()
	? CachedNetworkParameters::SLOW_START
	: CachedNetworkParameters::CONGESTION_AVOIDANCE);
	cached_network_params.set_timestamp(
	connection()->clock()->WallNow().ToUNIXSeconds());
	if (!serving_region_.empty()) {
	cached_network_params.set_serving_region(serving_region_);
	}

	crypto_stream_->SendServerConfigUpdate(&cached_network_params);
	last_scup_time_ = now;
	last_scup_sequence_number_ =
	connection()->sequence_number_of_last_sent_packet();
	}

	bool QuicServerSession::ShouldCreateIncomingDataStream(QuicStreamId id) {
	if (id % 2 == 0) {
	DVLOG(1) << "Invalid incoming even stream_id:" << id;
	connection()->SendConnectionClose(QUIC_INVALID_STREAM_ID);
	return false;
	}
	if (GetNumOpenStreams() >= get_max_open_streams()) {
	DVLOG(1) << "Failed to create a new incoming stream with id:" << id
	<< " Already " << GetNumOpenStreams() << " streams open (max "
	<< get_max_open_streams() << ").";
	connection()->SendConnectionClose(QUIC_TOO_MANY_OPEN_STREAMS);
	return false;
	}
	return true;
	}

	QuicDataStream* QuicServerSession::CreateIncomingDataStream(
	QuicStreamId id) {
	if (!ShouldCreateIncomingDataStream(id)) {
	return nullptr;
	}

	return new QuicSpdyServerStream(id, this);
	}

	QuicDataStream* QuicServerSession::CreateOutgoingDataStream() {
	DLOG(ERROR) << "Server push not yet supported";
	return nullptr;
	}

	QuicCryptoServerStream* QuicServerSession::GetCryptoStream() {
	return crypto_stream_.get();
	}

	} // namespace net