blob: d0b9a846e1e06c89793ac123207d345f3db76994 [file] [log] [blame]
// Copyright (c) 2012 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_session.h"
#include <cstdint>
#include <string>
#include <utility>
#include "net/third_party/quiche/src/quic/core/quic_connection.h"
#include "net/third_party/quiche/src/quic/core/quic_flow_controller.h"
#include "net/third_party/quiche/src/quic/core/quic_types.h"
#include "net/third_party/quiche/src/quic/core/quic_utils.h"
#include "net/third_party/quiche/src/quic/core/quic_versions.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_bug_tracker.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_flag_utils.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_flags.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_logging.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_map_util.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_ptr_util.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_server_stats.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_stack_trace.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_str_cat.h"
using spdy::SpdyPriority;
namespace quic {
namespace {
class ClosedStreamsCleanUpDelegate : public QuicAlarm::Delegate {
public:
explicit ClosedStreamsCleanUpDelegate(QuicSession* session)
: session_(session) {}
ClosedStreamsCleanUpDelegate(const ClosedStreamsCleanUpDelegate&) = delete;
ClosedStreamsCleanUpDelegate& operator=(const ClosedStreamsCleanUpDelegate&) =
delete;
void OnAlarm() override { session_->CleanUpClosedStreams(); }
private:
QuicSession* session_;
};
} // namespace
#define ENDPOINT \
(perspective() == Perspective::IS_SERVER ? "Server: " : "Client: ")
QuicSession::QuicSession(
QuicConnection* connection,
Visitor* owner,
const QuicConfig& config,
const ParsedQuicVersionVector& supported_versions,
QuicStreamCount num_expected_unidirectional_static_streams)
: connection_(connection),
visitor_(owner),
write_blocked_streams_(connection->transport_version()),
config_(config),
stream_id_manager_(this,
kDefaultMaxStreamsPerConnection,
config_.GetMaxIncomingBidirectionalStreamsToSend()),
v99_streamid_manager_(
perspective(),
connection->version(),
this,
num_expected_unidirectional_static_streams,
kDefaultMaxStreamsPerConnection,
kDefaultMaxStreamsPerConnection,
config_.GetMaxIncomingBidirectionalStreamsToSend(),
config_.GetMaxIncomingUnidirectionalStreamsToSend()),
num_dynamic_incoming_streams_(0),
num_draining_incoming_streams_(0),
num_outgoing_static_streams_(0),
num_incoming_static_streams_(0),
num_locally_closed_incoming_streams_highest_offset_(0),
flow_controller_(
this,
QuicUtils::GetInvalidStreamId(connection->transport_version()),
/*is_connection_flow_controller*/ true,
connection->version().AllowsLowFlowControlLimits()
? 0
: kMinimumFlowControlSendWindow,
config_.GetInitialSessionFlowControlWindowToSend(),
kSessionReceiveWindowLimit,
perspective() == Perspective::IS_SERVER,
nullptr),
currently_writing_stream_id_(0),
goaway_sent_(false),
goaway_received_(false),
control_frame_manager_(this),
last_message_id_(0),
closed_streams_clean_up_alarm_(nullptr),
supported_versions_(supported_versions),
use_http2_priority_write_scheduler_(false),
is_configured_(false),
num_expected_unidirectional_static_streams_(
num_expected_unidirectional_static_streams),
enable_round_robin_scheduling_(false) {
closed_streams_clean_up_alarm_ =
QuicWrapUnique<QuicAlarm>(connection_->alarm_factory()->CreateAlarm(
new ClosedStreamsCleanUpDelegate(this)));
if (perspective() == Perspective::IS_SERVER &&
connection_->version().handshake_protocol == PROTOCOL_TLS1_3) {
config_.SetStatelessResetTokenToSend(GetStatelessResetToken());
}
}
void QuicSession::Initialize() {
connection_->set_visitor(this);
connection_->SetSessionNotifier(this);
connection_->SetDataProducer(this);
connection_->SetFromConfig(config_);
if (QuicVersionUsesCryptoFrames(transport_version())) {
return;
}
DCHECK_EQ(QuicUtils::GetCryptoStreamId(transport_version()),
GetMutableCryptoStream()->id());
}
QuicSession::~QuicSession() {
QUIC_LOG_IF(WARNING, !zombie_streams_.empty()) << "Still have zombie streams";
}
void QuicSession::PendingStreamOnStreamFrame(const QuicStreamFrame& frame) {
DCHECK(VersionUsesHttp3(transport_version()));
QuicStreamId stream_id = frame.stream_id;
PendingStream* pending = GetOrCreatePendingStream(stream_id);
if (!pending) {
if (frame.fin) {
QuicStreamOffset final_byte_offset = frame.offset + frame.data_length;
OnFinalByteOffsetReceived(stream_id, final_byte_offset);
}
return;
}
pending->OnStreamFrame(frame);
if (!connection()->connected()) {
return;
}
if (ProcessPendingStream(pending)) {
// The pending stream should now be in the scope of normal streams.
DCHECK(IsClosedStream(stream_id) || IsOpenStream(stream_id))
<< "Stream " << stream_id << " not created";
pending_stream_map_.erase(stream_id);
return;
}
if (pending->sequencer()->IsClosed()) {
ClosePendingStream(stream_id);
}
}
void QuicSession::OnStreamFrame(const QuicStreamFrame& frame) {
// TODO(rch) deal with the error case of stream id 0.
QuicStreamId stream_id = frame.stream_id;
if (stream_id == QuicUtils::GetInvalidStreamId(transport_version())) {
connection()->CloseConnection(
QUIC_INVALID_STREAM_ID, "Received data for an invalid stream",
ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
return;
}
if (UsesPendingStreams() &&
QuicUtils::GetStreamType(stream_id, perspective(),
IsIncomingStream(stream_id)) ==
READ_UNIDIRECTIONAL &&
stream_map_.find(stream_id) == stream_map_.end()) {
PendingStreamOnStreamFrame(frame);
return;
}
QuicStream* stream = GetOrCreateStream(stream_id);
if (!stream) {
// The stream no longer exists, but we may still be interested in the
// final stream byte offset sent by the peer. A frame with a FIN can give
// us this offset.
if (frame.fin) {
QuicStreamOffset final_byte_offset = frame.offset + frame.data_length;
OnFinalByteOffsetReceived(stream_id, final_byte_offset);
}
return;
}
if (frame.fin && stream->is_static()) {
connection()->CloseConnection(
QUIC_INVALID_STREAM_ID, "Attempt to close a static stream",
ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
return;
}
stream->OnStreamFrame(frame);
}
void QuicSession::OnCryptoFrame(const QuicCryptoFrame& frame) {
GetMutableCryptoStream()->OnCryptoFrame(frame);
}
bool QuicSession::OnStopSendingFrame(const QuicStopSendingFrame& frame) {
// We are not version 99. In theory, if not in version 99 then the framer
// could not call OnStopSending... This is just a check that is good when
// both a new protocol and a new implementation of that protocol are both
// being developed.
DCHECK(VersionHasIetfQuicFrames(transport_version()));
QuicStreamId stream_id = frame.stream_id;
// If Stream ID is invalid then close the connection.
if (stream_id == QuicUtils::GetInvalidStreamId(transport_version())) {
QUIC_DVLOG(1) << ENDPOINT
<< "Received STOP_SENDING with invalid stream_id: "
<< stream_id << " Closing connection";
connection()->CloseConnection(
QUIC_INVALID_STREAM_ID, "Received STOP_SENDING for an invalid stream",
ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
return false;
}
// Ignore STOP_SENDING for static streams.
// TODO(fkastenholz): IETF Quic does not have static streams and does not
// make exceptions for them with respect to processing things like
// STOP_SENDING.
if (QuicUtils::IsCryptoStreamId(transport_version(), stream_id)) {
QUIC_DVLOG(1) << ENDPOINT
<< "Received STOP_SENDING for a static stream, id: "
<< stream_id << " Closing connection";
connection()->CloseConnection(
QUIC_INVALID_STREAM_ID, "Received STOP_SENDING for a static stream",
ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
return false;
}
if (visitor_) {
visitor_->OnStopSendingReceived(frame);
}
// If stream is closed, ignore the frame
if (IsClosedStream(stream_id)) {
QUIC_DVLOG(1)
<< ENDPOINT
<< "Received STOP_SENDING for closed or non-existent stream, id: "
<< stream_id << " Ignoring.";
return true; // Continue processing the packet.
}
// If stream is non-existent, close the connection
StreamMap::iterator it = stream_map_.find(stream_id);
if (it == stream_map_.end()) {
QUIC_DVLOG(1) << ENDPOINT
<< "Received STOP_SENDING for non-existent stream, id: "
<< stream_id << " Closing connection";
connection()->CloseConnection(
IETF_QUIC_PROTOCOL_VIOLATION,
"Received STOP_SENDING for a non-existent stream",
ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
return false;
}
// Get the QuicStream for this stream. Ignore the STOP_SENDING
// if the QuicStream pointer is NULL
// QUESTION(fkastenholz): IS THIS THE RIGHT THING TO DO? (that is, this would
// happen IFF there was an entry in the map, but the pointer is null. sounds
// more like a deep programming error rather than a simple protocol problem).
QuicStream* stream = it->second.get();
if (stream == nullptr) {
QUIC_BUG << ENDPOINT
<< "Received STOP_SENDING for NULL QuicStream, stream_id: "
<< stream_id << ". Ignoring.";
return true;
}
if (stream->is_static()) {
QUIC_DVLOG(1) << ENDPOINT
<< "Received STOP_SENDING for a static stream, id: "
<< stream_id << " Closing connection";
connection()->CloseConnection(
QUIC_INVALID_STREAM_ID, "Received STOP_SENDING for a static stream",
ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
return false;
}
stream->OnStopSending(frame.application_error_code);
stream->set_stream_error(
static_cast<QuicRstStreamErrorCode>(frame.application_error_code));
SendRstStreamInner(
stream->id(),
static_cast<quic::QuicRstStreamErrorCode>(frame.application_error_code),
stream->stream_bytes_written(),
/*close_write_side_only=*/true);
return true;
}
void QuicSession::PendingStreamOnRstStream(const QuicRstStreamFrame& frame) {
DCHECK(VersionUsesHttp3(transport_version()));
QuicStreamId stream_id = frame.stream_id;
PendingStream* pending = GetOrCreatePendingStream(stream_id);
if (!pending) {
HandleRstOnValidNonexistentStream(frame);
return;
}
pending->OnRstStreamFrame(frame);
SendRstStream(stream_id, QUIC_RST_ACKNOWLEDGEMENT, 0);
ClosePendingStream(stream_id);
}
void QuicSession::OnRstStream(const QuicRstStreamFrame& frame) {
QuicStreamId stream_id = frame.stream_id;
if (stream_id == QuicUtils::GetInvalidStreamId(transport_version())) {
connection()->CloseConnection(
QUIC_INVALID_STREAM_ID, "Received data for an invalid stream",
ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
return;
}
if (visitor_) {
visitor_->OnRstStreamReceived(frame);
}
if (UsesPendingStreams() &&
QuicUtils::GetStreamType(stream_id, perspective(),
IsIncomingStream(stream_id)) ==
READ_UNIDIRECTIONAL &&
stream_map_.find(stream_id) == stream_map_.end()) {
PendingStreamOnRstStream(frame);
return;
}
QuicStream* stream = GetOrCreateStream(stream_id);
if (!stream) {
HandleRstOnValidNonexistentStream(frame);
return; // Errors are handled by GetOrCreateStream.
}
if (stream->is_static()) {
connection()->CloseConnection(
QUIC_INVALID_STREAM_ID, "Attempt to reset a static stream",
ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
return;
}
stream->OnStreamReset(frame);
}
void QuicSession::OnGoAway(const QuicGoAwayFrame& /*frame*/) {
goaway_received_ = true;
}
void QuicSession::OnMessageReceived(QuicStringPiece message) {
QUIC_DVLOG(1) << ENDPOINT << "Received message, length: " << message.length()
<< ", " << message;
}
// static
void QuicSession::RecordConnectionCloseAtServer(QuicErrorCode error,
ConnectionCloseSource source) {
if (error != QUIC_NO_ERROR) {
if (source == ConnectionCloseSource::FROM_SELF) {
QUIC_SERVER_HISTOGRAM_ENUM(
"quic_server_connection_close_errors", error, QUIC_LAST_ERROR,
"QuicErrorCode for server-closed connections.");
} else {
QUIC_SERVER_HISTOGRAM_ENUM(
"quic_client_connection_close_errors", error, QUIC_LAST_ERROR,
"QuicErrorCode for client-closed connections.");
}
}
}
void QuicSession::OnConnectionClosed(const QuicConnectionCloseFrame& frame,
ConnectionCloseSource source) {
DCHECK(!connection_->connected());
if (perspective() == Perspective::IS_SERVER) {
RecordConnectionCloseAtServer(frame.quic_error_code, source);
}
if (on_closed_frame_.extracted_error_code == QUIC_NO_ERROR) {
// Save all of the connection close information
on_closed_frame_ = frame;
}
// Copy all non static streams in a new map for the ease of deleting.
QuicSmallMap<QuicStreamId, QuicStream*, 10> non_static_streams;
for (const auto& it : stream_map_) {
if (!it.second->is_static()) {
non_static_streams[it.first] = it.second.get();
}
}
for (const auto& it : non_static_streams) {
QuicStreamId id = it.first;
it.second->OnConnectionClosed(frame.quic_error_code, source);
if (stream_map_.find(id) != stream_map_.end()) {
QUIC_BUG << ENDPOINT << "Stream " << id
<< " failed to close under OnConnectionClosed";
CloseStream(id);
}
}
// Cleanup zombie stream map on connection close.
while (!zombie_streams_.empty()) {
ZombieStreamMap::iterator it = zombie_streams_.begin();
closed_streams_.push_back(std::move(it->second));
zombie_streams_.erase(it);
}
closed_streams_clean_up_alarm_->Cancel();
if (visitor_) {
visitor_->OnConnectionClosed(connection_->connection_id(),
frame.extracted_error_code,
frame.error_details, source);
}
}
void QuicSession::OnWriteBlocked() {
if (!connection_->connected()) {
return;
}
if (visitor_) {
visitor_->OnWriteBlocked(connection_);
}
}
void QuicSession::OnSuccessfulVersionNegotiation(
const ParsedQuicVersion& version) {
GetMutableCryptoStream()->OnSuccessfulVersionNegotiation(version);
}
void QuicSession::OnPacketReceived(const QuicSocketAddress& /*self_address*/,
const QuicSocketAddress& peer_address,
bool is_connectivity_probe) {
if (is_connectivity_probe && perspective() == Perspective::IS_SERVER) {
// Server only sends back a connectivity probe after received a
// connectivity probe from a new peer address.
connection_->SendConnectivityProbingResponsePacket(peer_address);
}
}
void QuicSession::OnPathDegrading() {}
bool QuicSession::AllowSelfAddressChange() const {
return false;
}
void QuicSession::OnForwardProgressConfirmed() {}
void QuicSession::OnWindowUpdateFrame(const QuicWindowUpdateFrame& frame) {
// Stream may be closed by the time we receive a WINDOW_UPDATE, so we can't
// assume that it still exists.
QuicStreamId stream_id = frame.stream_id;
if (stream_id == QuicUtils::GetInvalidStreamId(transport_version())) {
// This is a window update that applies to the connection, rather than an
// individual stream.
QUIC_DVLOG(1) << ENDPOINT
<< "Received connection level flow control window "
"update with byte offset: "
<< frame.byte_offset;
flow_controller_.UpdateSendWindowOffset(frame.byte_offset);
return;
}
if (VersionHasIetfQuicFrames(transport_version()) &&
QuicUtils::GetStreamType(stream_id, perspective(),
IsIncomingStream(stream_id)) ==
READ_UNIDIRECTIONAL) {
connection()->CloseConnection(
QUIC_WINDOW_UPDATE_RECEIVED_ON_READ_UNIDIRECTIONAL_STREAM,
"WindowUpdateFrame received on READ_UNIDIRECTIONAL stream.",
ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
return;
}
QuicStream* stream = GetOrCreateStream(stream_id);
if (stream != nullptr) {
stream->OnWindowUpdateFrame(frame);
}
}
void QuicSession::OnBlockedFrame(const QuicBlockedFrame& frame) {
// TODO(rjshade): Compare our flow control receive windows for specified
// streams: if we have a large window then maybe something
// had gone wrong with the flow control accounting.
QUIC_DLOG(INFO) << ENDPOINT << "Received BLOCKED frame with stream id: "
<< frame.stream_id;
}
bool QuicSession::CheckStreamNotBusyLooping(QuicStream* stream,
uint64_t previous_bytes_written,
bool previous_fin_sent) {
if ( // Stream should not be closed.
!stream->write_side_closed() &&
// Not connection flow control blocked.
!flow_controller_.IsBlocked() &&
// Detect lack of forward progress.
previous_bytes_written == stream->stream_bytes_written() &&
previous_fin_sent == stream->fin_sent()) {
stream->set_busy_counter(stream->busy_counter() + 1);
QUIC_DVLOG(1) << ENDPOINT << "Suspected busy loop on stream id "
<< stream->id() << " stream_bytes_written "
<< stream->stream_bytes_written() << " fin "
<< stream->fin_sent() << " count " << stream->busy_counter();
// Wait a few iterations before firing, the exact count is
// arbitrary, more than a few to cover a few test-only false
// positives.
if (stream->busy_counter() > 20) {
QUIC_LOG(ERROR) << ENDPOINT << "Detected busy loop on stream id "
<< stream->id() << " stream_bytes_written "
<< stream->stream_bytes_written() << " fin "
<< stream->fin_sent();
return false;
}
} else {
stream->set_busy_counter(0);
}
return true;
}
bool QuicSession::CheckStreamWriteBlocked(QuicStream* stream) const {
if (!stream->write_side_closed() && stream->HasBufferedData() &&
!stream->flow_controller()->IsBlocked() &&
!write_blocked_streams_.IsStreamBlocked(stream->id())) {
QUIC_DLOG(ERROR) << ENDPOINT << "stream " << stream->id()
<< " has buffered " << stream->BufferedDataBytes()
<< " bytes, and is not flow control blocked, "
"but it is not in the write block list.";
return false;
}
return true;
}
void QuicSession::OnCanWrite() {
if (!RetransmitLostData()) {
// Cannot finish retransmitting lost data, connection is write blocked.
QUIC_DVLOG(1) << ENDPOINT
<< "Cannot finish retransmitting lost data, connection is "
"write blocked.";
return;
}
if (session_decides_what_to_write()) {
SetTransmissionType(NOT_RETRANSMISSION);
}
// We limit the number of writes to the number of pending streams. If more
// streams become pending, WillingAndAbleToWrite will be true, which will
// cause the connection to request resumption before yielding to other
// connections.
// If we are connection level flow control blocked, then only allow the
// crypto and headers streams to try writing as all other streams will be
// blocked.
size_t num_writes = flow_controller_.IsBlocked()
? write_blocked_streams_.NumBlockedSpecialStreams()
: write_blocked_streams_.NumBlockedStreams();
if (num_writes == 0 && !control_frame_manager_.WillingToWrite() &&
(!QuicVersionUsesCryptoFrames(transport_version()) ||
!GetCryptoStream()->HasBufferedCryptoFrames())) {
return;
}
QuicConnection::ScopedPacketFlusher flusher(connection_);
if (QuicVersionUsesCryptoFrames(transport_version())) {
QuicCryptoStream* crypto_stream = GetMutableCryptoStream();
if (crypto_stream->HasBufferedCryptoFrames()) {
crypto_stream->WriteBufferedCryptoFrames();
}
if (crypto_stream->HasBufferedCryptoFrames()) {
// Cannot finish writing buffered crypto frames, connection is write
// blocked.
return;
}
}
if (control_frame_manager_.WillingToWrite()) {
control_frame_manager_.OnCanWrite();
}
for (size_t i = 0; i < num_writes; ++i) {
if (!(write_blocked_streams_.HasWriteBlockedSpecialStream() ||
write_blocked_streams_.HasWriteBlockedDataStreams())) {
// Writing one stream removed another!? Something's broken.
QUIC_BUG << "WriteBlockedStream is missing";
connection_->CloseConnection(QUIC_INTERNAL_ERROR,
"WriteBlockedStream is missing",
ConnectionCloseBehavior::SILENT_CLOSE);
return;
}
if (!connection_->CanWriteStreamData()) {
return;
}
currently_writing_stream_id_ = write_blocked_streams_.PopFront();
QUIC_DVLOG(1) << ENDPOINT << "Removing stream "
<< currently_writing_stream_id_ << " from write-blocked list";
QuicStream* stream = GetOrCreateStream(currently_writing_stream_id_);
if (stream != nullptr && !stream->flow_controller()->IsBlocked()) {
// If the stream can't write all bytes it'll re-add itself to the blocked
// list.
uint64_t previous_bytes_written = stream->stream_bytes_written();
bool previous_fin_sent = stream->fin_sent();
QUIC_DVLOG(1) << ENDPOINT << "stream " << stream->id()
<< " bytes_written " << previous_bytes_written << " fin "
<< previous_fin_sent;
stream->OnCanWrite();
DCHECK(CheckStreamWriteBlocked(stream));
DCHECK(CheckStreamNotBusyLooping(stream, previous_bytes_written,
previous_fin_sent));
}
currently_writing_stream_id_ = 0;
}
}
bool QuicSession::SendProbingData() {
if (connection()->sent_packet_manager().MaybeRetransmitOldestPacket(
PROBING_RETRANSMISSION)) {
return true;
}
return false;
}
bool QuicSession::WillingAndAbleToWrite() const {
// Schedule a write when:
// 1) control frame manager has pending or new control frames, or
// 2) any stream has pending retransmissions, or
// 3) If the crypto or headers streams are blocked, or
// 4) connection is not flow control blocked and there are write blocked
// streams.
if (QuicVersionUsesCryptoFrames(transport_version()) &&
HasPendingHandshake()) {
return true;
}
return control_frame_manager_.WillingToWrite() ||
!streams_with_pending_retransmission_.empty() ||
write_blocked_streams_.HasWriteBlockedSpecialStream() ||
(!flow_controller_.IsBlocked() &&
write_blocked_streams_.HasWriteBlockedDataStreams());
}
bool QuicSession::HasPendingHandshake() const {
if (QuicVersionUsesCryptoFrames(transport_version())) {
return GetCryptoStream()->HasPendingCryptoRetransmission() ||
GetCryptoStream()->HasBufferedCryptoFrames();
}
return QuicContainsKey(streams_with_pending_retransmission_,
QuicUtils::GetCryptoStreamId(transport_version())) ||
write_blocked_streams_.IsStreamBlocked(
QuicUtils::GetCryptoStreamId(transport_version()));
}
uint64_t QuicSession::GetNumOpenDynamicStreams() const {
return stream_map_.size() - draining_streams_.size() +
locally_closed_streams_highest_offset_.size() -
num_incoming_static_streams_ - num_outgoing_static_streams_;
}
void QuicSession::ProcessUdpPacket(const QuicSocketAddress& self_address,
const QuicSocketAddress& peer_address,
const QuicReceivedPacket& packet) {
connection_->ProcessUdpPacket(self_address, peer_address, packet);
}
QuicConsumedData QuicSession::WritevData(QuicStream* stream,
QuicStreamId id,
size_t write_length,
QuicStreamOffset offset,
StreamSendingState state) {
// This check is an attempt to deal with potential memory corruption
// in which |id| ends up set to 1 (the crypto stream id). If this happen
// it might end up resulting in unencrypted stream data being sent.
// While this is impossible to avoid given sufficient corruption, this
// seems like a reasonable mitigation.
if (QuicUtils::IsCryptoStreamId(transport_version(), id) &&
stream != GetMutableCryptoStream()) {
QUIC_BUG << "Stream id mismatch";
connection_->CloseConnection(
QUIC_INTERNAL_ERROR,
"Non-crypto stream attempted to write data as crypto stream.",
ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
return QuicConsumedData(0, false);
}
if (!IsEncryptionEstablished() &&
!QuicUtils::IsCryptoStreamId(transport_version(), id)) {
// Do not let streams write without encryption. The calling stream will end
// up write blocked until OnCanWrite is next called.
return QuicConsumedData(0, false);
}
QuicConsumedData data =
connection_->SendStreamData(id, write_length, offset, state);
if (offset >= stream->stream_bytes_written()) {
// This is new stream data.
write_blocked_streams_.UpdateBytesForStream(id, data.bytes_consumed);
}
return data;
}
bool QuicSession::WriteControlFrame(const QuicFrame& frame) {
return connection_->SendControlFrame(frame);
}
void QuicSession::SendRstStream(QuicStreamId id,
QuicRstStreamErrorCode error,
QuicStreamOffset bytes_written) {
SendRstStreamInner(id, error, bytes_written, /*close_write_side_only=*/false);
}
void QuicSession::SendRstStreamInner(QuicStreamId id,
QuicRstStreamErrorCode error,
QuicStreamOffset bytes_written,
bool close_write_side_only) {
if (connection()->connected()) {
// Only send if still connected.
if (close_write_side_only) {
DCHECK(VersionHasIetfQuicFrames(transport_version()));
// Send a RST_STREAM frame.
control_frame_manager_.WriteOrBufferRstStream(id, error, bytes_written);
} else {
// Send a RST_STREAM frame plus, if version 99, an IETF
// QUIC STOP_SENDING frame. Both sre sent to emulate
// the two-way close that Google QUIC's RST_STREAM does.
if (VersionHasIetfQuicFrames(transport_version())) {
QuicConnection::ScopedPacketFlusher flusher(connection());
control_frame_manager_.WriteOrBufferRstStream(id, error, bytes_written);
control_frame_manager_.WriteOrBufferStopSending(error, id);
} else {
control_frame_manager_.WriteOrBufferRstStream(id, error, bytes_written);
}
}
connection_->OnStreamReset(id, error);
}
if (error != QUIC_STREAM_NO_ERROR && QuicContainsKey(zombie_streams_, id)) {
OnStreamDoneWaitingForAcks(id);
return;
}
if (!close_write_side_only) {
CloseStreamInner(id, true);
return;
}
DCHECK(VersionHasIetfQuicFrames(transport_version()));
StreamMap::iterator it = stream_map_.find(id);
if (it != stream_map_.end()) {
if (it->second->is_static()) {
QUIC_DVLOG(1) << ENDPOINT
<< "Try to send rst for a static stream, id: " << id
<< " Closing connection";
connection()->CloseConnection(
QUIC_INVALID_STREAM_ID, "Sending rst for a static stream",
ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
return;
}
QuicStream* stream = it->second.get();
if (stream) {
stream->set_rst_sent(true);
stream->CloseWriteSide();
}
}
}
void QuicSession::SendGoAway(QuicErrorCode error_code,
const std::string& reason) {
// GOAWAY frame is not supported in v99.
DCHECK(!VersionHasIetfQuicFrames(transport_version()));
if (goaway_sent_) {
return;
}
goaway_sent_ = true;
control_frame_manager_.WriteOrBufferGoAway(
error_code, stream_id_manager_.largest_peer_created_stream_id(), reason);
}
void QuicSession::SendBlocked(QuicStreamId id) {
control_frame_manager_.WriteOrBufferBlocked(id);
}
void QuicSession::SendWindowUpdate(QuicStreamId id,
QuicStreamOffset byte_offset) {
control_frame_manager_.WriteOrBufferWindowUpdate(id, byte_offset);
}
void QuicSession::OnError(QuicErrorCode error_code, std::string error_details) {
connection_->CloseConnection(
error_code, error_details,
ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
}
void QuicSession::SendMaxStreams(QuicStreamCount stream_count,
bool unidirectional) {
control_frame_manager_.WriteOrBufferMaxStreams(stream_count, unidirectional);
}
void QuicSession::SendStreamsBlocked(QuicStreamCount stream_count,
bool unidirectional) {
control_frame_manager_.WriteOrBufferStreamsBlocked(stream_count,
unidirectional);
}
void QuicSession::CloseStream(QuicStreamId stream_id) {
CloseStreamInner(stream_id, false);
}
void QuicSession::InsertLocallyClosedStreamsHighestOffset(
const QuicStreamId id,
QuicStreamOffset offset) {
locally_closed_streams_highest_offset_[id] = offset;
if (IsIncomingStream(id)) {
++num_locally_closed_incoming_streams_highest_offset_;
}
}
void QuicSession::CloseStreamInner(QuicStreamId stream_id, bool locally_reset) {
QUIC_DVLOG(1) << ENDPOINT << "Closing stream " << stream_id;
StreamMap::iterator it = stream_map_.find(stream_id);
if (it == stream_map_.end()) {
// When CloseStreamInner has been called recursively (via
// QuicStream::OnClose), the stream will already have been deleted
// from stream_map_, so return immediately.
QUIC_DVLOG(1) << ENDPOINT << "Stream is already closed: " << stream_id;
return;
}
QuicStream* stream = it->second.get();
if (stream->is_static()) {
QUIC_DVLOG(1) << ENDPOINT
<< "Try to close a static stream, id: " << stream_id
<< " Closing connection";
connection()->CloseConnection(
QUIC_INVALID_STREAM_ID, "Try to close a static stream",
ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
return;
}
StreamType type = stream->type();
// Tell the stream that a RST has been sent.
if (locally_reset) {
stream->set_rst_sent(true);
}
if (stream->IsWaitingForAcks()) {
zombie_streams_[stream->id()] = std::move(it->second);
} else {
// Clean up the stream since it is no longer waiting for acks.
if (session_decides_what_to_write()) {
streams_waiting_for_acks_.erase(stream->id());
}
closed_streams_.push_back(std::move(it->second));
// Do not retransmit data of a closed stream.
streams_with_pending_retransmission_.erase(stream_id);
if (!closed_streams_clean_up_alarm_->IsSet()) {
closed_streams_clean_up_alarm_->Set(
connection_->clock()->ApproximateNow());
}
}
// If we haven't received a FIN or RST for this stream, we need to keep track
// of the how many bytes the stream's flow controller believes it has
// received, for accurate connection level flow control accounting.
const bool had_fin_or_rst = stream->HasFinalReceivedByteOffset();
if (!had_fin_or_rst) {
InsertLocallyClosedStreamsHighestOffset(
stream_id, stream->flow_controller()->highest_received_byte_offset());
}
stream_map_.erase(it);
if (IsIncomingStream(stream_id)) {
--num_dynamic_incoming_streams_;
}
const bool stream_was_draining =
draining_streams_.find(stream_id) != draining_streams_.end();
if (stream_was_draining) {
if (IsIncomingStream(stream_id)) {
--num_draining_incoming_streams_;
}
draining_streams_.erase(stream_id);
} else if (VersionHasIetfQuicFrames(transport_version())) {
// Stream was not draining, but we did have a fin or rst, so we can now
// free the stream ID if version 99.
if (had_fin_or_rst) {
v99_streamid_manager_.OnStreamClosed(stream_id);
}
}
stream->OnClose();
if (!stream_was_draining && !IsIncomingStream(stream_id) && had_fin_or_rst &&
!VersionHasIetfQuicFrames(transport_version())) {
// Streams that first became draining already called OnCanCreate...
// This covers the case where the stream went directly to being closed.
OnCanCreateNewOutgoingStream(type != BIDIRECTIONAL);
}
}
void QuicSession::ClosePendingStream(QuicStreamId stream_id) {
QUIC_DVLOG(1) << ENDPOINT << "Closing stream " << stream_id;
pending_stream_map_.erase(stream_id);
if (VersionHasIetfQuicFrames(transport_version())) {
v99_streamid_manager_.OnStreamClosed(stream_id);
}
}
void QuicSession::OnFinalByteOffsetReceived(
QuicStreamId stream_id,
QuicStreamOffset final_byte_offset) {
auto it = locally_closed_streams_highest_offset_.find(stream_id);
if (it == locally_closed_streams_highest_offset_.end()) {
return;
}
QUIC_DVLOG(1) << ENDPOINT << "Received final byte offset "
<< final_byte_offset << " for stream " << stream_id;
QuicByteCount offset_diff = final_byte_offset - it->second;
if (flow_controller_.UpdateHighestReceivedOffset(
flow_controller_.highest_received_byte_offset() + offset_diff)) {
// If the final offset violates flow control, close the connection now.
if (flow_controller_.FlowControlViolation()) {
connection_->CloseConnection(
QUIC_FLOW_CONTROL_RECEIVED_TOO_MUCH_DATA,
"Connection level flow control violation",
ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
return;
}
}
flow_controller_.AddBytesConsumed(offset_diff);
locally_closed_streams_highest_offset_.erase(it);
if (IsIncomingStream(stream_id)) {
--num_locally_closed_incoming_streams_highest_offset_;
if (VersionHasIetfQuicFrames(transport_version())) {
v99_streamid_manager_.OnStreamClosed(stream_id);
}
} else if (!VersionHasIetfQuicFrames(transport_version())) {
OnCanCreateNewOutgoingStream(false);
}
}
bool QuicSession::IsEncryptionEstablished() const {
return GetCryptoStream()->encryption_established();
}
bool QuicSession::IsCryptoHandshakeConfirmed() const {
return GetCryptoStream()->handshake_confirmed();
}
void QuicSession::OnConfigNegotiated() {
QUIC_DVLOG(1) << ENDPOINT << "OnConfigNegotiated";
connection_->SetFromConfig(config_);
if (VersionHasIetfQuicFrames(transport_version())) {
uint32_t max_streams = 0;
if (config_.HasReceivedMaxIncomingBidirectionalStreams()) {
max_streams = config_.ReceivedMaxIncomingBidirectionalStreams();
}
QUIC_DVLOG(1) << ENDPOINT
<< "Setting Bidirectional outgoing_max_streams_ to "
<< max_streams;
v99_streamid_manager_.SetMaxOpenOutgoingBidirectionalStreams(max_streams);
max_streams = 0;
if (config_.HasReceivedMaxIncomingUnidirectionalStreams()) {
max_streams = config_.ReceivedMaxIncomingUnidirectionalStreams();
}
QUIC_DVLOG(1) << ENDPOINT
<< "Setting Unidirectional outgoing_max_streams_ to "
<< max_streams;
v99_streamid_manager_.SetMaxOpenOutgoingUnidirectionalStreams(max_streams);
} else {
uint32_t max_streams = 0;
if (config_.HasReceivedMaxIncomingBidirectionalStreams()) {
max_streams = config_.ReceivedMaxIncomingBidirectionalStreams();
}
QUIC_DVLOG(1) << ENDPOINT << "Setting max_open_outgoing_streams_ to "
<< max_streams;
stream_id_manager_.set_max_open_outgoing_streams(max_streams);
}
if (perspective() == Perspective::IS_SERVER) {
if (config_.HasReceivedConnectionOptions()) {
// The following variations change the initial receive flow control
// window sizes.
if (ContainsQuicTag(config_.ReceivedConnectionOptions(), kIFW6)) {
AdjustInitialFlowControlWindows(64 * 1024);
}
if (ContainsQuicTag(config_.ReceivedConnectionOptions(), kIFW7)) {
AdjustInitialFlowControlWindows(128 * 1024);
}
if (ContainsQuicTag(config_.ReceivedConnectionOptions(), kIFW8)) {
AdjustInitialFlowControlWindows(256 * 1024);
}
if (ContainsQuicTag(config_.ReceivedConnectionOptions(), kIFW9)) {
AdjustInitialFlowControlWindows(512 * 1024);
}
if (ContainsQuicTag(config_.ReceivedConnectionOptions(), kIFWA)) {
AdjustInitialFlowControlWindows(1024 * 1024);
}
if (GetQuicReloadableFlag(quic_use_http2_priority_write_scheduler) &&
ContainsQuicTag(config_.ReceivedConnectionOptions(), kH2PR) &&
!VersionHasIetfQuicFrames(transport_version())) {
// Enable HTTP2 (tree-style) priority write scheduler.
use_http2_priority_write_scheduler_ =
write_blocked_streams_.SwitchWriteScheduler(
spdy::WriteSchedulerType::HTTP2, transport_version());
} else if (GetQuicReloadableFlag(quic_enable_fifo_write_scheduler) &&
ContainsQuicTag(config_.ReceivedConnectionOptions(), kFIFO)) {
// Enable FIFO write scheduler.
if (write_blocked_streams_.SwitchWriteScheduler(
spdy::WriteSchedulerType::FIFO, transport_version())) {
QUIC_RELOADABLE_FLAG_COUNT(quic_enable_fifo_write_scheduler);
}
} else if (GetQuicReloadableFlag(quic_enable_lifo_write_scheduler) &&
ContainsQuicTag(config_.ReceivedConnectionOptions(), kLIFO)) {
// Enable LIFO write scheduler.
if (write_blocked_streams_.SwitchWriteScheduler(
spdy::WriteSchedulerType::LIFO, transport_version())) {
QUIC_RELOADABLE_FLAG_COUNT(quic_enable_lifo_write_scheduler);
}
} else if (GetQuicReloadableFlag(quic_enable_rr_write_scheduler) &&
ContainsQuicTag(config_.ReceivedConnectionOptions(), kRRWS) &&
write_blocked_streams_.scheduler_type() ==
spdy::WriteSchedulerType::SPDY) {
QUIC_RELOADABLE_FLAG_COUNT(quic_enable_rr_write_scheduler);
enable_round_robin_scheduling_ = true;
}
}
config_.SetStatelessResetTokenToSend(GetStatelessResetToken());
}
if (VersionHasIetfQuicFrames(transport_version())) {
v99_streamid_manager_.SetMaxOpenIncomingBidirectionalStreams(
config_.GetMaxIncomingBidirectionalStreamsToSend());
v99_streamid_manager_.SetMaxOpenIncomingUnidirectionalStreams(
config_.GetMaxIncomingUnidirectionalStreamsToSend());
} else {
// A small number of additional incoming streams beyond the limit should be
// allowed. This helps avoid early connection termination when FIN/RSTs for
// old streams are lost or arrive out of order.
// Use a minimum number of additional streams, or a percentage increase,
// whichever is larger.
uint32_t max_incoming_streams_to_send =
config_.GetMaxIncomingBidirectionalStreamsToSend();
uint32_t max_incoming_streams =
std::max(max_incoming_streams_to_send + kMaxStreamsMinimumIncrement,
static_cast<uint32_t>(max_incoming_streams_to_send *
kMaxStreamsMultiplier));
stream_id_manager_.set_max_open_incoming_streams(max_incoming_streams);
}
if (connection_->version().handshake_protocol == PROTOCOL_TLS1_3) {
// When using IETF-style TLS transport parameters, inform existing streams
// of new flow-control limits.
if (config_.HasReceivedInitialMaxStreamDataBytesOutgoingBidirectional()) {
OnNewStreamOutgoingBidirectionalFlowControlWindow(
config_.ReceivedInitialMaxStreamDataBytesOutgoingBidirectional());
}
if (config_.HasReceivedInitialMaxStreamDataBytesIncomingBidirectional()) {
OnNewStreamIncomingBidirectionalFlowControlWindow(
config_.ReceivedInitialMaxStreamDataBytesIncomingBidirectional());
}
if (config_.HasReceivedInitialMaxStreamDataBytesUnidirectional()) {
OnNewStreamUnidirectionalFlowControlWindow(
config_.ReceivedInitialMaxStreamDataBytesUnidirectional());
}
} else { // The version uses Google QUIC Crypto.
if (config_.HasReceivedInitialStreamFlowControlWindowBytes()) {
// Streams which were created before the SHLO was received (0-RTT
// requests) are now informed of the peer's initial flow control window.
OnNewStreamFlowControlWindow(
config_.ReceivedInitialStreamFlowControlWindowBytes());
}
}
if (config_.HasReceivedInitialSessionFlowControlWindowBytes()) {
OnNewSessionFlowControlWindow(
config_.ReceivedInitialSessionFlowControlWindowBytes());
}
is_configured_ = true;
// Inform stream ID manager so that it can reevaluate any deferred
// STREAMS_BLOCKED or MAX_STREAMS frames against the config and either send
// the frames or discard them.
if (VersionHasIetfQuicFrames(connection_->transport_version())) {
QuicConnection::ScopedPacketFlusher flusher(connection());
v99_streamid_manager_.OnConfigNegotiated();
}
// Ask flow controllers to try again since the config could have unblocked us.
if (connection_->version().AllowsLowFlowControlLimits()) {
OnCanWrite();
}
}
void QuicSession::AdjustInitialFlowControlWindows(size_t stream_window) {
const float session_window_multiplier =
config_.GetInitialStreamFlowControlWindowToSend()
? static_cast<float>(
config_.GetInitialSessionFlowControlWindowToSend()) /
config_.GetInitialStreamFlowControlWindowToSend()
: 1.5;
QUIC_DVLOG(1) << ENDPOINT << "Set stream receive window to " << stream_window;
config_.SetInitialStreamFlowControlWindowToSend(stream_window);
size_t session_window = session_window_multiplier * stream_window;
QUIC_DVLOG(1) << ENDPOINT << "Set session receive window to "
<< session_window;
config_.SetInitialSessionFlowControlWindowToSend(session_window);
flow_controller_.UpdateReceiveWindowSize(session_window);
// Inform all existing streams about the new window.
for (auto const& kv : stream_map_) {
kv.second->flow_controller()->UpdateReceiveWindowSize(stream_window);
}
if (!QuicVersionUsesCryptoFrames(transport_version())) {
GetMutableCryptoStream()->flow_controller()->UpdateReceiveWindowSize(
stream_window);
}
}
void QuicSession::HandleFrameOnNonexistentOutgoingStream(
QuicStreamId stream_id) {
DCHECK(!IsClosedStream(stream_id));
// Received a frame for a locally-created stream that is not currently
// active. This is an error.
connection()->CloseConnection(
QUIC_INVALID_STREAM_ID, "Data for nonexistent stream",
ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
}
void QuicSession::HandleRstOnValidNonexistentStream(
const QuicRstStreamFrame& frame) {
// If the stream is neither originally in active streams nor created in
// GetOrCreateStream(), it could be a closed stream in which case its
// final received byte offset need to be updated.
if (IsClosedStream(frame.stream_id)) {
// The RST frame contains the final byte offset for the stream: we can now
// update the connection level flow controller if needed.
OnFinalByteOffsetReceived(frame.stream_id, frame.byte_offset);
}
}
void QuicSession::OnNewStreamFlowControlWindow(QuicStreamOffset new_window) {
QUIC_DVLOG(1) << ENDPOINT << "OnNewStreamFlowControlWindow " << new_window;
if (new_window < kMinimumFlowControlSendWindow &&
!connection_->version().AllowsLowFlowControlLimits()) {
QUIC_LOG_FIRST_N(ERROR, 1)
<< "Peer sent us an invalid stream flow control send window: "
<< new_window << ", below minimum: " << kMinimumFlowControlSendWindow;
connection_->CloseConnection(
QUIC_FLOW_CONTROL_INVALID_WINDOW, "New stream window too low",
ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
return;
}
// Inform all existing streams about the new window.
for (auto const& kv : stream_map_) {
QUIC_DVLOG(1) << ENDPOINT << "Informing stream " << kv.first
<< " of new stream flow control window " << new_window;
kv.second->UpdateSendWindowOffset(new_window);
}
if (!QuicVersionUsesCryptoFrames(transport_version())) {
QUIC_DVLOG(1)
<< ENDPOINT
<< "Informing crypto stream of new stream flow control window "
<< new_window;
GetMutableCryptoStream()->UpdateSendWindowOffset(new_window);
}
}
void QuicSession::OnNewStreamUnidirectionalFlowControlWindow(
QuicStreamOffset new_window) {
QUIC_DVLOG(1) << ENDPOINT << "OnNewStreamUnidirectionalFlowControlWindow "
<< new_window;
// Inform all existing outgoing unidirectional streams about the new window.
for (auto const& kv : stream_map_) {
const QuicStreamId id = kv.first;
if (QuicUtils::IsBidirectionalStreamId(id)) {
continue;
}
if (!QuicUtils::IsOutgoingStreamId(connection_->version(), id,
perspective())) {
continue;
}
QUIC_DVLOG(1) << ENDPOINT << "Informing unidirectional stream " << id
<< " of new stream flow control window " << new_window;
kv.second->UpdateSendWindowOffset(new_window);
}
}
void QuicSession::OnNewStreamOutgoingBidirectionalFlowControlWindow(
QuicStreamOffset new_window) {
QUIC_DVLOG(1) << ENDPOINT
<< "OnNewStreamOutgoingBidirectionalFlowControlWindow "
<< new_window;
// Inform all existing outgoing bidirectional streams about the new window.
for (auto const& kv : stream_map_) {
const QuicStreamId id = kv.first;
if (!QuicUtils::IsBidirectionalStreamId(id)) {
continue;
}
if (!QuicUtils::IsOutgoingStreamId(connection_->version(), id,
perspective())) {
continue;
}
QUIC_DVLOG(1) << ENDPOINT << "Informing outgoing bidirectional stream "
<< id << " of new stream flow control window " << new_window;
kv.second->UpdateSendWindowOffset(new_window);
}
}
void QuicSession::OnNewStreamIncomingBidirectionalFlowControlWindow(
QuicStreamOffset new_window) {
QUIC_DVLOG(1) << ENDPOINT
<< "OnNewStreamIncomingBidirectionalFlowControlWindow "
<< new_window;
// Inform all existing incoming bidirectional streams about the new window.
for (auto const& kv : stream_map_) {
const QuicStreamId id = kv.first;
if (!QuicUtils::IsBidirectionalStreamId(id)) {
continue;
}
if (QuicUtils::IsOutgoingStreamId(connection_->version(), id,
perspective())) {
continue;
}
QUIC_DVLOG(1) << ENDPOINT << "Informing incoming bidirectional stream "
<< id << " of new stream flow control window " << new_window;
kv.second->UpdateSendWindowOffset(new_window);
}
}
void QuicSession::OnNewSessionFlowControlWindow(QuicStreamOffset new_window) {
QUIC_DVLOG(1) << ENDPOINT << "OnNewSessionFlowControlWindow " << new_window;
if (new_window < kMinimumFlowControlSendWindow &&
!connection_->version().AllowsLowFlowControlLimits()) {
QUIC_LOG_FIRST_N(ERROR, 1)
<< "Peer sent us an invalid session flow control send window: "
<< new_window << ", below default: " << kMinimumFlowControlSendWindow;
connection_->CloseConnection(
QUIC_FLOW_CONTROL_INVALID_WINDOW, "New connection window too low",
ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
return;
}
flow_controller_.UpdateSendWindowOffset(new_window);
}
void QuicSession::OnCryptoHandshakeEvent(CryptoHandshakeEvent event) {
switch (event) {
case ENCRYPTION_ESTABLISHED:
// Retransmit originally packets that were sent, since they can't be
// decrypted by the peer.
connection_->RetransmitUnackedPackets(ALL_INITIAL_RETRANSMISSION);
// Given any streams blocked by encryption a chance to write.
OnCanWrite();
break;
case HANDSHAKE_CONFIRMED:
QUIC_BUG_IF(!config_.negotiated())
<< ENDPOINT << "Handshake confirmed without parameter negotiation.";
// Discard originally encrypted packets, since they can't be decrypted by
// the peer.
NeuterUnencryptedData();
break;
default:
QUIC_LOG(ERROR) << ENDPOINT << "Got unknown handshake event: " << event;
}
}
void QuicSession::OnCryptoHandshakeMessageSent(
const CryptoHandshakeMessage& /*message*/) {}
void QuicSession::OnCryptoHandshakeMessageReceived(
const CryptoHandshakeMessage& /*message*/) {}
void QuicSession::RegisterStreamPriority(
QuicStreamId id,
bool is_static,
const spdy::SpdyStreamPrecedence& precedence) {
if (enable_round_robin_scheduling_) {
// Ignore provided precedence, instead, put all streams at the same priority
// bucket.
write_blocked_streams()->RegisterStream(
id, is_static, spdy::SpdyStreamPrecedence(spdy::kV3LowestPriority));
return;
}
write_blocked_streams()->RegisterStream(id, is_static, precedence);
}
void QuicSession::UnregisterStreamPriority(QuicStreamId id, bool is_static) {
write_blocked_streams()->UnregisterStream(id, is_static);
}
void QuicSession::UpdateStreamPriority(
QuicStreamId id,
const spdy::SpdyStreamPrecedence& new_precedence) {
if (enable_round_robin_scheduling_) {
// Ignore updated precedence.
return;
}
write_blocked_streams()->UpdateStreamPriority(id, new_precedence);
}
QuicConfig* QuicSession::config() {
return &config_;
}
void QuicSession::ActivateStream(std::unique_ptr<QuicStream> stream) {
QuicStreamId stream_id = stream->id();
bool is_static = stream->is_static();
QUIC_DVLOG(1) << ENDPOINT << "num_streams: " << stream_map_.size()
<< ". activating " << stream_id;
DCHECK(!QuicContainsKey(stream_map_, stream_id));
stream_map_[stream_id] = std::move(stream);
if (IsIncomingStream(stream_id)) {
is_static ? ++num_incoming_static_streams_
: ++num_dynamic_incoming_streams_;
} else if (is_static) {
++num_outgoing_static_streams_;
}
if (VersionHasIetfQuicFrames(transport_version()) &&
!QuicUtils::IsBidirectionalStreamId(stream_id) && is_static) {
DCHECK_LE(num_incoming_static_streams_,
num_expected_unidirectional_static_streams_);
DCHECK_LE(num_outgoing_static_streams_,
num_expected_unidirectional_static_streams_);
}
}
QuicStreamId QuicSession::GetNextOutgoingBidirectionalStreamId() {
if (VersionHasIetfQuicFrames(transport_version())) {
return v99_streamid_manager_.GetNextOutgoingBidirectionalStreamId();
}
return stream_id_manager_.GetNextOutgoingStreamId();
}
QuicStreamId QuicSession::GetNextOutgoingUnidirectionalStreamId() {
if (VersionHasIetfQuicFrames(transport_version())) {
return v99_streamid_manager_.GetNextOutgoingUnidirectionalStreamId();
}
return stream_id_manager_.GetNextOutgoingStreamId();
}
bool QuicSession::CanOpenNextOutgoingBidirectionalStream() {
if (VersionHasIetfQuicFrames(transport_version())) {
return v99_streamid_manager_.CanOpenNextOutgoingBidirectionalStream();
}
return stream_id_manager_.CanOpenNextOutgoingStream(
GetNumOpenOutgoingStreams());
}
bool QuicSession::CanOpenNextOutgoingUnidirectionalStream() {
if (VersionHasIetfQuicFrames(transport_version())) {
return v99_streamid_manager_.CanOpenNextOutgoingUnidirectionalStream();
}
return stream_id_manager_.CanOpenNextOutgoingStream(
GetNumOpenOutgoingStreams());
}
QuicStream* QuicSession::GetOrCreateStream(const QuicStreamId stream_id) {
DCHECK(!QuicContainsKey(pending_stream_map_, stream_id));
if (QuicUtils::IsCryptoStreamId(transport_version(), stream_id)) {
return GetMutableCryptoStream();
}
StreamMap::iterator it = stream_map_.find(stream_id);
if (it != stream_map_.end()) {
return it->second.get();
}
if (IsClosedStream(stream_id)) {
return nullptr;
}
if (!IsIncomingStream(stream_id)) {
HandleFrameOnNonexistentOutgoingStream(stream_id);
return nullptr;
}
// TODO(fkastenholz): If we are creating a new stream and we have
// sent a goaway, we should ignore the stream creation. Need to
// add code to A) test if goaway was sent ("if (goaway_sent_)") and
// B) reject stream creation ("return nullptr")
if (!MaybeIncreaseLargestPeerStreamId(stream_id)) {
return nullptr;
}
if (!VersionHasIetfQuicFrames(transport_version())) {
// TODO(fayang): Let LegacyQuicStreamIdManager count open streams and make
// CanOpenIncomingStream interface consistent with that of v99.
if (!stream_id_manager_.CanOpenIncomingStream(
GetNumOpenIncomingStreams())) {
// Refuse to open the stream.
SendRstStream(stream_id, QUIC_REFUSED_STREAM, 0);
return nullptr;
}
}
return CreateIncomingStream(stream_id);
}
void QuicSession::StreamDraining(QuicStreamId stream_id) {
DCHECK(QuicContainsKey(stream_map_, stream_id));
if (!QuicContainsKey(draining_streams_, stream_id)) {
draining_streams_.insert(stream_id);
if (IsIncomingStream(stream_id)) {
++num_draining_incoming_streams_;
}
if (VersionHasIetfQuicFrames(transport_version())) {
v99_streamid_manager_.OnStreamClosed(stream_id);
}
}
if (!IsIncomingStream(stream_id)) {
// Inform application that a stream is available.
if (VersionHasIetfQuicFrames(transport_version())) {
OnCanCreateNewOutgoingStream(
!QuicUtils::IsBidirectionalStreamId(stream_id));
} else {
QuicStream* stream = GetStream(stream_id);
if (!stream) {
QUIC_BUG << "Stream doesn't exist when draining.";
return;
}
OnCanCreateNewOutgoingStream(stream->type() != BIDIRECTIONAL);
}
}
}
bool QuicSession::MaybeIncreaseLargestPeerStreamId(
const QuicStreamId stream_id) {
if (VersionHasIetfQuicFrames(transport_version())) {
return v99_streamid_manager_.MaybeIncreaseLargestPeerStreamId(stream_id);
}
return stream_id_manager_.MaybeIncreaseLargestPeerStreamId(stream_id);
}
bool QuicSession::ShouldYield(QuicStreamId stream_id) {
if (stream_id == currently_writing_stream_id_) {
return false;
}
return write_blocked_streams()->ShouldYield(stream_id);
}
PendingStream* QuicSession::GetOrCreatePendingStream(QuicStreamId stream_id) {
auto it = pending_stream_map_.find(stream_id);
if (it != pending_stream_map_.end()) {
return it->second.get();
}
if (IsClosedStream(stream_id) ||
!MaybeIncreaseLargestPeerStreamId(stream_id)) {
return nullptr;
}
auto pending = std::make_unique<PendingStream>(stream_id, this);
PendingStream* unowned_pending = pending.get();
pending_stream_map_[stream_id] = std::move(pending);
return unowned_pending;
}
void QuicSession::set_largest_peer_created_stream_id(
QuicStreamId largest_peer_created_stream_id) {
if (VersionHasIetfQuicFrames(transport_version())) {
v99_streamid_manager_.SetLargestPeerCreatedStreamId(
largest_peer_created_stream_id);
return;
}
stream_id_manager_.set_largest_peer_created_stream_id(
largest_peer_created_stream_id);
}
QuicStreamId QuicSession::GetLargestPeerCreatedStreamId(
bool unidirectional) const {
// This method is only used in IETF QUIC.
DCHECK(VersionHasIetfQuicFrames(transport_version()));
return v99_streamid_manager_.GetLargestPeerCreatedStreamId(unidirectional);
}
bool QuicSession::IsClosedStream(QuicStreamId id) {
DCHECK_NE(QuicUtils::GetInvalidStreamId(transport_version()), id);
if (IsOpenStream(id)) {
// Stream is active
return false;
}
if (VersionHasIetfQuicFrames(transport_version())) {
return !v99_streamid_manager_.IsAvailableStream(id);
}
return !stream_id_manager_.IsAvailableStream(id);
}
bool QuicSession::IsOpenStream(QuicStreamId id) {
DCHECK_NE(QuicUtils::GetInvalidStreamId(transport_version()), id);
if (QuicContainsKey(stream_map_, id) ||
QuicContainsKey(pending_stream_map_, id) ||
QuicUtils::IsCryptoStreamId(transport_version(), id)) {
// Stream is active
return true;
}
return false;
}
bool QuicSession::IsStaticStream(QuicStreamId id) const {
auto it = stream_map_.find(id);
if (it == stream_map_.end()) {
return false;
}
return it->second->is_static();
}
size_t QuicSession::GetNumOpenIncomingStreams() const {
return num_dynamic_incoming_streams_ - num_draining_incoming_streams_ +
num_locally_closed_incoming_streams_highest_offset_;
}
size_t QuicSession::GetNumOpenOutgoingStreams() const {
DCHECK_GE(GetNumDynamicOutgoingStreams() +
GetNumLocallyClosedOutgoingStreamsHighestOffset(),
GetNumDrainingOutgoingStreams());
return GetNumDynamicOutgoingStreams() +
GetNumLocallyClosedOutgoingStreamsHighestOffset() -
GetNumDrainingOutgoingStreams();
}
size_t QuicSession::GetNumActiveStreams() const {
return stream_map_.size() - draining_streams_.size() -
num_incoming_static_streams_ - num_outgoing_static_streams_;
}
size_t QuicSession::GetNumDrainingStreams() const {
return draining_streams_.size();
}
void QuicSession::MarkConnectionLevelWriteBlocked(QuicStreamId id) {
if (GetOrCreateStream(id) == nullptr) {
QUIC_BUG << "Marking unknown stream " << id << " blocked.";
QUIC_LOG_FIRST_N(ERROR, 2) << QuicStackTrace();
}
QUIC_DVLOG(1) << ENDPOINT << "Adding stream " << id
<< " to write-blocked list";
write_blocked_streams_.AddStream(id);
}
bool QuicSession::HasDataToWrite() const {
return write_blocked_streams_.HasWriteBlockedSpecialStream() ||
write_blocked_streams_.HasWriteBlockedDataStreams() ||
connection_->HasQueuedData() ||
!streams_with_pending_retransmission_.empty() ||
control_frame_manager_.WillingToWrite();
}
void QuicSession::OnAckNeedsRetransmittableFrame() {
flow_controller_.SendWindowUpdate();
}
void QuicSession::SendPing() {
control_frame_manager_.WritePing();
}
size_t QuicSession::GetNumDynamicOutgoingStreams() const {
DCHECK_GE(
static_cast<size_t>(stream_map_.size() + pending_stream_map_.size()),
num_dynamic_incoming_streams_ + num_outgoing_static_streams_ +
num_incoming_static_streams_);
return stream_map_.size() + pending_stream_map_.size() -
num_dynamic_incoming_streams_ - num_outgoing_static_streams_ -
num_incoming_static_streams_;
}
size_t QuicSession::GetNumDrainingOutgoingStreams() const {
DCHECK_GE(draining_streams_.size(), num_draining_incoming_streams_);
return draining_streams_.size() - num_draining_incoming_streams_;
}
size_t QuicSession::GetNumLocallyClosedOutgoingStreamsHighestOffset() const {
DCHECK_GE(locally_closed_streams_highest_offset_.size(),
num_locally_closed_incoming_streams_highest_offset_);
return locally_closed_streams_highest_offset_.size() -
num_locally_closed_incoming_streams_highest_offset_;
}
bool QuicSession::IsConnectionFlowControlBlocked() const {
return flow_controller_.IsBlocked();
}
bool QuicSession::IsStreamFlowControlBlocked() {
for (auto const& kv : stream_map_) {
if (kv.second->flow_controller()->IsBlocked()) {
return true;
}
}
if (!QuicVersionUsesCryptoFrames(transport_version()) &&
GetMutableCryptoStream()->flow_controller()->IsBlocked()) {
return true;
}
return false;
}
size_t QuicSession::MaxAvailableBidirectionalStreams() const {
if (VersionHasIetfQuicFrames(transport_version())) {
return v99_streamid_manager_.GetMaxAllowdIncomingBidirectionalStreams();
}
return stream_id_manager_.MaxAvailableStreams();
}
size_t QuicSession::MaxAvailableUnidirectionalStreams() const {
if (VersionHasIetfQuicFrames(transport_version())) {
return v99_streamid_manager_.GetMaxAllowdIncomingUnidirectionalStreams();
}
return stream_id_manager_.MaxAvailableStreams();
}
bool QuicSession::IsIncomingStream(QuicStreamId id) const {
if (VersionHasIetfQuicFrames(transport_version())) {
return v99_streamid_manager_.IsIncomingStream(id);
}
return stream_id_manager_.IsIncomingStream(id);
}
void QuicSession::OnStreamDoneWaitingForAcks(QuicStreamId id) {
if (session_decides_what_to_write()) {
streams_waiting_for_acks_.erase(id);
}
auto it = zombie_streams_.find(id);
if (it == zombie_streams_.end()) {
return;
}
closed_streams_.push_back(std::move(it->second));
if (!closed_streams_clean_up_alarm_->IsSet()) {
closed_streams_clean_up_alarm_->Set(connection_->clock()->ApproximateNow());
}
zombie_streams_.erase(it);
// Do not retransmit data of a closed stream.
streams_with_pending_retransmission_.erase(id);
}
void QuicSession::OnStreamWaitingForAcks(QuicStreamId id) {
if (!session_decides_what_to_write()) {
return;
}
// Exclude crypto stream's status since it is counted in HasUnackedCryptoData.
if (GetCryptoStream() != nullptr && id == GetCryptoStream()->id()) {
return;
}
streams_waiting_for_acks_.insert(id);
// The number of the streams waiting for acks should not be larger than the
// number of streams.
if (static_cast<size_t>(stream_map_.size() + zombie_streams_.size()) <
streams_waiting_for_acks_.size()) {
QUIC_BUG << "More streams are waiting for acks than the number of streams. "
<< "Sizes: streams: " << stream_map_.size()
<< ", zombie streams: " << zombie_streams_.size()
<< ", vs streams waiting for acks: "
<< streams_waiting_for_acks_.size();
}
}
QuicStream* QuicSession::GetStream(QuicStreamId id) const {
auto active_stream = stream_map_.find(id);
if (active_stream != stream_map_.end()) {
return active_stream->second.get();
}
auto zombie_stream = zombie_streams_.find(id);
if (zombie_stream != zombie_streams_.end()) {
return zombie_stream->second.get();
}
if (QuicUtils::IsCryptoStreamId(transport_version(), id)) {
return const_cast<QuicCryptoStream*>(GetCryptoStream());
}
return nullptr;
}
bool QuicSession::OnFrameAcked(const QuicFrame& frame,
QuicTime::Delta ack_delay_time,
QuicTime receive_timestamp) {
if (frame.type == MESSAGE_FRAME) {
OnMessageAcked(frame.message_frame->message_id, receive_timestamp);
return true;
}
if (frame.type == CRYPTO_FRAME) {
return GetMutableCryptoStream()->OnCryptoFrameAcked(*frame.crypto_frame,
ack_delay_time);
}
if (frame.type != STREAM_FRAME) {
return control_frame_manager_.OnControlFrameAcked(frame);
}
bool new_stream_data_acked = false;
QuicStream* stream = GetStream(frame.stream_frame.stream_id);
// Stream can already be reset when sent frame gets acked.
if (stream != nullptr) {
QuicByteCount newly_acked_length = 0;
new_stream_data_acked = stream->OnStreamFrameAcked(
frame.stream_frame.offset, frame.stream_frame.data_length,
frame.stream_frame.fin, ack_delay_time, &newly_acked_length);
if (!stream->HasPendingRetransmission()) {
streams_with_pending_retransmission_.erase(stream->id());
}
}
return new_stream_data_acked;
}
void QuicSession::OnStreamFrameRetransmitted(const QuicStreamFrame& frame) {
QuicStream* stream = GetStream(frame.stream_id);
if (stream == nullptr) {
QUIC_BUG << "Stream: " << frame.stream_id << " is closed when " << frame
<< " is retransmitted.";
connection()->CloseConnection(
QUIC_INTERNAL_ERROR, "Attempt to retransmit frame of a closed stream",
ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
return;
}
stream->OnStreamFrameRetransmitted(frame.offset, frame.data_length,
frame.fin);
}
void QuicSession::OnFrameLost(const QuicFrame& frame) {
if (frame.type == MESSAGE_FRAME) {
OnMessageLost(frame.message_frame->message_id);
return;
}
if (frame.type == CRYPTO_FRAME) {
GetMutableCryptoStream()->OnCryptoFrameLost(frame.crypto_frame);
return;
}
if (frame.type != STREAM_FRAME) {
control_frame_manager_.OnControlFrameLost(frame);
return;
}
QuicStream* stream = GetStream(frame.stream_frame.stream_id);
if (stream == nullptr) {
return;
}
stream->OnStreamFrameLost(frame.stream_frame.offset,
frame.stream_frame.data_length,
frame.stream_frame.fin);
if (stream->HasPendingRetransmission() &&
!QuicContainsKey(streams_with_pending_retransmission_,
frame.stream_frame.stream_id)) {
streams_with_pending_retransmission_.insert(
std::make_pair(frame.stream_frame.stream_id, true));
}
}
void QuicSession::RetransmitFrames(const QuicFrames& frames,
TransmissionType type) {
QuicConnection::ScopedPacketFlusher retransmission_flusher(connection_);
SetTransmissionType(type);
for (const QuicFrame& frame : frames) {
if (frame.type == MESSAGE_FRAME) {
// Do not retransmit MESSAGE frames.
continue;
}
if (frame.type == CRYPTO_FRAME) {
GetMutableCryptoStream()->RetransmitData(frame.crypto_frame);
continue;
}
if (frame.type != STREAM_FRAME) {
if (!control_frame_manager_.RetransmitControlFrame(frame)) {
break;
}
continue;
}
QuicStream* stream = GetStream(frame.stream_frame.stream_id);
if (stream != nullptr &&
!stream->RetransmitStreamData(frame.stream_frame.offset,
frame.stream_frame.data_length,
frame.stream_frame.fin)) {
break;
}
}
}
bool QuicSession::IsFrameOutstanding(const QuicFrame& frame) const {
if (frame.type == MESSAGE_FRAME) {
return false;
}
if (frame.type == CRYPTO_FRAME) {
return GetCryptoStream()->IsFrameOutstanding(
frame.crypto_frame->level, frame.crypto_frame->offset,
frame.crypto_frame->data_length);
}
if (frame.type != STREAM_FRAME) {
return control_frame_manager_.IsControlFrameOutstanding(frame);
}
QuicStream* stream = GetStream(frame.stream_frame.stream_id);
return stream != nullptr &&
stream->IsStreamFrameOutstanding(frame.stream_frame.offset,
frame.stream_frame.data_length,
frame.stream_frame.fin);
}
bool QuicSession::HasUnackedCryptoData() const {
const QuicCryptoStream* crypto_stream = GetCryptoStream();
return crypto_stream->IsWaitingForAcks() || crypto_stream->HasBufferedData();
}
bool QuicSession::HasUnackedStreamData() const {
return !streams_waiting_for_acks_.empty();
}
WriteStreamDataResult QuicSession::WriteStreamData(QuicStreamId id,
QuicStreamOffset offset,
QuicByteCount data_length,
QuicDataWriter* writer) {
QuicStream* stream = GetStream(id);
if (stream == nullptr) {
// This causes the connection to be closed because of failed to serialize
// packet.
QUIC_BUG << "Stream " << id << " does not exist when trying to write data."
<< " version:" << transport_version();
return STREAM_MISSING;
}
if (stream->WriteStreamData(offset, data_length, writer)) {
return WRITE_SUCCESS;
}
return WRITE_FAILED;
}
bool QuicSession::WriteCryptoData(EncryptionLevel level,
QuicStreamOffset offset,
QuicByteCount data_length,
QuicDataWriter* writer) {
return GetMutableCryptoStream()->WriteCryptoFrame(level, offset, data_length,
writer);
}
QuicUint128 QuicSession::GetStatelessResetToken() const {
return QuicUtils::GenerateStatelessResetToken(connection_->connection_id());
}
bool QuicSession::RetransmitLostData() {
QuicConnection::ScopedPacketFlusher retransmission_flusher(connection_);
// Retransmit crypto data first.
bool uses_crypto_frames = QuicVersionUsesCryptoFrames(transport_version());
QuicCryptoStream* crypto_stream = GetMutableCryptoStream();
if (uses_crypto_frames && crypto_stream->HasPendingCryptoRetransmission()) {
SetTransmissionType(HANDSHAKE_RETRANSMISSION);
crypto_stream->WritePendingCryptoRetransmission();
}
// Retransmit crypto data in stream 1 frames (version < 47).
if (!uses_crypto_frames &&
QuicContainsKey(streams_with_pending_retransmission_,
QuicUtils::GetCryptoStreamId(transport_version()))) {
SetTransmissionType(HANDSHAKE_RETRANSMISSION);
// Retransmit crypto data first.
QuicStream* crypto_stream =
GetStream(QuicUtils::GetCryptoStreamId(transport_version()));
crypto_stream->OnCanWrite();
DCHECK(CheckStreamWriteBlocked(crypto_stream));
if (crypto_stream->HasPendingRetransmission()) {
// Connection is write blocked.
return false;
} else {
streams_with_pending_retransmission_.erase(
QuicUtils::GetCryptoStreamId(transport_version()));
}
}
if (control_frame_manager_.HasPendingRetransmission()) {
SetTransmissionType(LOSS_RETRANSMISSION);
control_frame_manager_.OnCanWrite();
if (control_frame_manager_.HasPendingRetransmission()) {
return false;
}
}
while (!streams_with_pending_retransmission_.empty()) {
if (!connection_->CanWriteStreamData()) {
break;
}
// Retransmit lost data on headers and data streams.
const QuicStreamId id = streams_with_pending_retransmission_.begin()->first;
QuicStream* stream = GetStream(id);
if (stream != nullptr) {
SetTransmissionType(LOSS_RETRANSMISSION);
stream->OnCanWrite();
DCHECK(CheckStreamWriteBlocked(stream));
if (stream->HasPendingRetransmission()) {
// Connection is write blocked.
break;
} else if (!streams_with_pending_retransmission_.empty() &&
streams_with_pending_retransmission_.begin()->first == id) {
// Retransmit lost data may cause connection close. If this stream
// has not yet sent fin, a RST_STREAM will be sent and it will be
// removed from streams_with_pending_retransmission_.
streams_with_pending_retransmission_.pop_front();
}
} else {
QUIC_BUG << "Try to retransmit data of a closed stream";
streams_with_pending_retransmission_.pop_front();
}
}
return streams_with_pending_retransmission_.empty();
}
void QuicSession::NeuterUnencryptedData() {
if (connection_->session_decides_what_to_write()) {
QuicCryptoStream* crypto_stream = GetMutableCryptoStream();
crypto_stream->NeuterUnencryptedStreamData();
if (!crypto_stream->HasPendingRetransmission() &&
!QuicVersionUsesCryptoFrames(transport_version())) {
streams_with_pending_retransmission_.erase(
QuicUtils::GetCryptoStreamId(transport_version()));
}
}
connection_->NeuterUnencryptedPackets();
}
void QuicSession::SetTransmissionType(TransmissionType type) {
connection_->SetTransmissionType(type);
}
MessageResult QuicSession::SendMessage(QuicMemSliceSpan message) {
if (!IsEncryptionEstablished()) {
return {MESSAGE_STATUS_ENCRYPTION_NOT_ESTABLISHED, 0};
}
MessageStatus result =
connection_->SendMessage(last_message_id_ + 1, message);
if (result == MESSAGE_STATUS_SUCCESS) {
return {result, ++last_message_id_};
}
return {result, 0};
}
void QuicSession::OnMessageAcked(QuicMessageId message_id,
QuicTime /*receive_timestamp*/) {
QUIC_DVLOG(1) << ENDPOINT << "message " << message_id << " gets acked.";
}
void QuicSession::OnMessageLost(QuicMessageId message_id) {
QUIC_DVLOG(1) << ENDPOINT << "message " << message_id
<< " is considered lost";
}
void QuicSession::CleanUpClosedStreams() {
closed_streams_.clear();
}
bool QuicSession::session_decides_what_to_write() const {
return connection_->session_decides_what_to_write();
}
QuicPacketLength QuicSession::GetCurrentLargestMessagePayload() const {
return connection_->GetCurrentLargestMessagePayload();
}
QuicPacketLength QuicSession::GetGuaranteedLargestMessagePayload() const {
return connection_->GetGuaranteedLargestMessagePayload();
}
void QuicSession::SendStopSending(uint16_t code, QuicStreamId stream_id) {
control_frame_manager_.WriteOrBufferStopSending(code, stream_id);
}
void QuicSession::OnCanCreateNewOutgoingStream(bool /*unidirectional*/) {}
QuicStreamId QuicSession::next_outgoing_bidirectional_stream_id() const {
if (VersionHasIetfQuicFrames(transport_version())) {
return v99_streamid_manager_.next_outgoing_bidirectional_stream_id();
}
return stream_id_manager_.next_outgoing_stream_id();
}
QuicStreamId QuicSession::next_outgoing_unidirectional_stream_id() const {
if (VersionHasIetfQuicFrames(transport_version())) {
return v99_streamid_manager_.next_outgoing_unidirectional_stream_id();
}
return stream_id_manager_.next_outgoing_stream_id();
}
bool QuicSession::OnMaxStreamsFrame(const QuicMaxStreamsFrame& frame) {
return v99_streamid_manager_.OnMaxStreamsFrame(frame);
}
bool QuicSession::OnStreamsBlockedFrame(const QuicStreamsBlockedFrame& frame) {
return v99_streamid_manager_.OnStreamsBlockedFrame(frame);
}
size_t QuicSession::max_open_incoming_bidirectional_streams() const {
if (VersionHasIetfQuicFrames(transport_version())) {
return v99_streamid_manager_.GetMaxAllowdIncomingBidirectionalStreams();
}
return stream_id_manager_.max_open_incoming_streams();
}
size_t QuicSession::max_open_incoming_unidirectional_streams() const {
if (VersionHasIetfQuicFrames(transport_version())) {
return v99_streamid_manager_.GetMaxAllowdIncomingUnidirectionalStreams();
}
return stream_id_manager_.max_open_incoming_streams();
}
std::vector<QuicStringPiece>::const_iterator QuicSession::SelectAlpn(
const std::vector<QuicStringPiece>& alpns) const {
const std::string alpn = AlpnForVersion(connection()->version());
return std::find(alpns.cbegin(), alpns.cend(), alpn);
}
void QuicSession::OnAlpnSelected(QuicStringPiece alpn) {
QUIC_DLOG(INFO) << (perspective() == Perspective::IS_SERVER ? "Server: "
: "Client: ")
<< "ALPN selected: " << alpn;
}
#undef ENDPOINT // undef for jumbo builds
} // namespace quic