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quic_chromium_client_session.cc
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// 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/quic/quic_chromium_client_session.h"
#include <utility>
#include "base/bind.h"
#include "base/location.h"
#include "base/memory/ptr_util.h"
#include "base/metrics/histogram_functions.h"
#include "base/metrics/histogram_macros.h"
#include "base/metrics/sparse_histogram.h"
#include "base/single_thread_task_runner.h"
#include "base/stl_util.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/stringprintf.h"
#include "base/threading/thread_task_runner_handle.h"
#include "base/time/tick_clock.h"
#include "base/trace_event/memory_usage_estimator.h"
#include "base/values.h"
#include "net/base/io_buffer.h"
#include "net/base/net_errors.h"
#include "net/base/network_activity_monitor.h"
#include "net/base/url_util.h"
#include "net/http/transport_security_state.h"
#include "net/log/net_log_event_type.h"
#include "net/log/net_log_source_type.h"
#include "net/quic/crypto/proof_verifier_chromium.h"
#include "net/quic/quic_chromium_connection_helper.h"
#include "net/quic/quic_chromium_packet_writer.h"
#include "net/quic/quic_connectivity_probing_manager.h"
#include "net/quic/quic_crypto_client_stream_factory.h"
#include "net/quic/quic_server_info.h"
#include "net/quic/quic_stream_factory.h"
#include "net/socket/datagram_client_socket.h"
#include "net/spdy/spdy_http_utils.h"
#include "net/spdy/spdy_log_util.h"
#include "net/spdy/spdy_session.h"
#include "net/ssl/ssl_connection_status_flags.h"
#include "net/ssl/ssl_info.h"
#include "net/third_party/quiche/src/quic/core/http/quic_client_promised_info.h"
#include "net/third_party/quiche/src/quic/core/http/spdy_utils.h"
#include "net/third_party/quiche/src/quic/core/quic_utils.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_flags.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_ptr_util.h"
#include "net/traffic_annotation/network_traffic_annotation.h"
#include "third_party/boringssl/src/include/openssl/ssl.h"
namespace net {
namespace {
// IPv6 packets have an additional 20 bytes of overhead than IPv4 packets.
const size_t kAdditionalOverheadForIPv6 = 20;
// Maximum number of Readers that are created for any session due to
// connection migration. A new Reader is created every time this endpoint's
// IP address changes.
const size_t kMaxReadersPerQuicSession = 5;
// Time to wait (in seconds) when no networks are available and
// migrating sessions need to wait for a new network to connect.
const size_t kWaitTimeForNewNetworkSecs = 10;
const size_t kMinRetryTimeForDefaultNetworkSecs = 1;
// Maximum RTT time for this session when set initial timeout for probing
// network.
const int kDefaultRTTMilliSecs = 300;
// The maximum size of uncompressed QUIC headers that will be allowed.
const size_t kMaxUncompressedHeaderSize = 256 * 1024;
// Histograms for tracking down the crashes from http://crbug.com/354669
// Note: these values must be kept in sync with the corresponding values in:
// tools/metrics/histograms/histograms.xml
enum Location {
DESTRUCTOR = 0,
ADD_OBSERVER = 1,
TRY_CREATE_STREAM = 2,
CREATE_OUTGOING_RELIABLE_STREAM = 3,
NOTIFY_FACTORY_OF_SESSION_CLOSED_LATER = 4,
NOTIFY_FACTORY_OF_SESSION_CLOSED = 5,
NUM_LOCATIONS = 6,
};
void RecordUnexpectedOpenStreams(Location location) {
UMA_HISTOGRAM_ENUMERATION("Net.QuicSession.UnexpectedOpenStreams", location,
NUM_LOCATIONS);
}
void RecordUnexpectedObservers(Location location) {
UMA_HISTOGRAM_ENUMERATION("Net.QuicSession.UnexpectedObservers", location,
NUM_LOCATIONS);
}
void RecordUnexpectedNotGoingAway(Location location) {
UMA_HISTOGRAM_ENUMERATION("Net.QuicSession.UnexpectedNotGoingAway", location,
NUM_LOCATIONS);
}
void RecordConnectionCloseErrorCode(quic::QuicErrorCode error,
quic::ConnectionCloseSource source,
const std::string& hostname,
bool handshake_confirmed) {
bool is_google_host = HasGoogleHost(GURL("https://" + hostname));
std::string histogram = "Net.QuicSession.ConnectionCloseErrorCode";
if (source == quic::ConnectionCloseSource::FROM_PEER) {
histogram += "Server";
} else {
histogram += "Client";
}
base::UmaHistogramSparse(histogram, error);
if (handshake_confirmed) {
base::UmaHistogramSparse(histogram + ".HandshakeConfirmed", error);
} else {
base::UmaHistogramSparse(histogram + ".HandshakeNotConfirmed", error);
}
if (is_google_host) {
histogram += "Google";
base::UmaHistogramSparse(histogram, error);
if (handshake_confirmed) {
base::UmaHistogramSparse(histogram + ".HandshakeConfirmed", error);
} else {
base::UmaHistogramSparse(histogram + ".HandshakeNotConfirmed", error);
}
}
}
NetLogParametersCallback NetLogQuicConnectionMigrationTriggerCallback(
const char* trigger) {
return NetLog::StringCallback("trigger", trigger);
}
base::Value NetLogQuicConnectionMigrationFailureCallback(
quic::QuicConnectionId connection_id,
std::string reason,
NetLogCaptureMode capture_mode) {
base::DictionaryValue dict;
dict.SetString("connection_id", connection_id.ToString());
dict.SetString("reason", reason);
return std::move(dict);
}
base::Value NetLogQuicConnectionMigrationSuccessCallback(
quic::QuicConnectionId connection_id,
NetLogCaptureMode capture_mode) {
base::DictionaryValue dict;
dict.SetString("connection_id", connection_id.ToString());
return std::move(dict);
}
base::Value NetLogProbingResultCallback(
NetworkChangeNotifier::NetworkHandle network,
const quic::QuicSocketAddress* peer_address,
bool is_success,
NetLogCaptureMode capture_mode) {
base::DictionaryValue dict;
dict.SetString("network", base::NumberToString(network));
dict.SetString("peer address", peer_address->ToString());
dict.SetBoolean("is_success", is_success);
return std::move(dict);
}
// Histogram for recording the different reasons that a QUIC session is unable
// to complete the handshake.
enum HandshakeFailureReason {
HANDSHAKE_FAILURE_UNKNOWN = 0,
HANDSHAKE_FAILURE_BLACK_HOLE = 1,
HANDSHAKE_FAILURE_PUBLIC_RESET = 2,
NUM_HANDSHAKE_FAILURE_REASONS = 3,
};
void RecordHandshakeFailureReason(HandshakeFailureReason reason) {
UMA_HISTOGRAM_ENUMERATION(
"Net.QuicSession.ConnectionClose.HandshakeNotConfirmed.Reason", reason,
NUM_HANDSHAKE_FAILURE_REASONS);
}
// Note: these values must be kept in sync with the corresponding values in:
// tools/metrics/histograms/histograms.xml
enum HandshakeState {
STATE_STARTED = 0,
STATE_ENCRYPTION_ESTABLISHED = 1,
STATE_HANDSHAKE_CONFIRMED = 2,
STATE_FAILED = 3,
NUM_HANDSHAKE_STATES = 4
};
void RecordHandshakeState(HandshakeState state) {
UMA_HISTOGRAM_ENUMERATION("Net.QuicHandshakeState", state,
NUM_HANDSHAKE_STATES);
}
std::string ConnectionMigrationCauseToString(ConnectionMigrationCause cause) {
switch (cause) {
case UNKNOWN_CAUSE:
return "Unknown";
case ON_NETWORK_CONNECTED:
return "OnNetworkConnected";
case ON_NETWORK_DISCONNECTED:
return "OnNetworkDisconnected";
case ON_WRITE_ERROR:
return "OnWriteError";
case ON_NETWORK_MADE_DEFAULT:
return "OnNetworkMadeDefault";
case ON_MIGRATE_BACK_TO_DEFAULT_NETWORK:
return "OnMigrateBackToDefaultNetwork";
case ON_PATH_DEGRADING:
return "OnPathDegrading";
default:
QUIC_NOTREACHED();
break;
}
return "InvalidCause";
}
base::Value NetLogQuicClientSessionCallback(
const quic::QuicServerId* server_id,
int cert_verify_flags,
bool require_confirmation,
NetLogCaptureMode /* capture_mode */) {
base::DictionaryValue dict;
dict.SetString("host", server_id->host());
dict.SetInteger("port", server_id->port());
dict.SetBoolean("privacy_mode", server_id->privacy_mode_enabled());
dict.SetBoolean("require_confirmation", require_confirmation);
dict.SetInteger("cert_verify_flags", cert_verify_flags);
return std::move(dict);
}
base::Value NetLogQuicPushPromiseReceivedCallback(
const spdy::SpdyHeaderBlock* headers,
spdy::SpdyStreamId stream_id,
spdy::SpdyStreamId promised_stream_id,
NetLogCaptureMode capture_mode) {
base::DictionaryValue dict;
dict.SetKey("headers", ElideSpdyHeaderBlockForNetLog(*headers, capture_mode));
dict.SetInteger("id", stream_id);
dict.SetInteger("promised_stream_id", promised_stream_id);
return std::move(dict);
}
// TODO(fayang): Remove this when necessary data is collected.
void LogProbeResultToHistogram(ConnectionMigrationCause cause, bool success) {
UMA_HISTOGRAM_BOOLEAN("Net.QuicSession.ConnectionMigrationProbeSuccess",
success);
const std::string histogram_name =
"Net.QuicSession.ConnectionMigrationProbeSuccess." +
ConnectionMigrationCauseToString(cause);
STATIC_HISTOGRAM_POINTER_GROUP(
histogram_name, cause, MIGRATION_CAUSE_MAX, AddBoolean(success),
base::BooleanHistogram::FactoryGet(
histogram_name, base::HistogramBase::kUmaTargetedHistogramFlag));
}
class HpackEncoderDebugVisitor : public quic::QuicHpackDebugVisitor {
void OnUseEntry(quic::QuicTime::Delta elapsed) override {
UMA_HISTOGRAM_TIMES(
"Net.QuicHpackEncoder.IndexedEntryAge",
base::TimeDelta::FromMicroseconds(elapsed.ToMicroseconds()));
}
};
class HpackDecoderDebugVisitor : public quic::QuicHpackDebugVisitor {
void OnUseEntry(quic::QuicTime::Delta elapsed) override {
UMA_HISTOGRAM_TIMES(
"Net.QuicHpackDecoder.IndexedEntryAge",
base::TimeDelta::FromMicroseconds(elapsed.ToMicroseconds()));
}
};
class QuicServerPushHelper : public ServerPushDelegate::ServerPushHelper {
public:
explicit QuicServerPushHelper(
base::WeakPtr<QuicChromiumClientSession> session,
const GURL& url)
: session_(session), request_url_(url) {}
void Cancel() override {
if (session_) {
session_->CancelPush(request_url_);
}
}
const GURL& GetURL() const override { return request_url_; }
private:
base::WeakPtr<QuicChromiumClientSession> session_;
const GURL request_url_;
};
} // namespace
QuicChromiumClientSession::Handle::Handle(
const base::WeakPtr<QuicChromiumClientSession>& session,
const HostPortPair& destination)
: MultiplexedSessionHandle(session),
session_(session),
destination_(destination),
net_log_(session_->net_log()),
was_handshake_confirmed_(session->IsCryptoHandshakeConfirmed()),
net_error_(OK),
quic_error_(quic::QUIC_NO_ERROR),
port_migration_detected_(false),
server_id_(session_->server_id()),
quic_version_(session->connection()->transport_version()),
push_handle_(nullptr),
was_ever_used_(false) {
DCHECK(session_);
session_->AddHandle(this);
}
QuicChromiumClientSession::Handle::~Handle() {
if (push_handle_) {
auto* push_handle = push_handle_;
push_handle_ = nullptr;
push_handle->Cancel();
}
if (session_)
session_->RemoveHandle(this);
}
void QuicChromiumClientSession::Handle::OnCryptoHandshakeConfirmed() {
was_handshake_confirmed_ = true;
}
void QuicChromiumClientSession::Handle::OnSessionClosed(
quic::QuicTransportVersion quic_version,
int net_error,
quic::QuicErrorCode quic_error,
bool port_migration_detected,
LoadTimingInfo::ConnectTiming connect_timing,
bool was_ever_used) {
session_ = nullptr;
port_migration_detected_ = port_migration_detected;
net_error_ = net_error;
quic_error_ = quic_error;
quic_version_ = quic_version;
connect_timing_ = connect_timing;
push_handle_ = nullptr;
was_ever_used_ = was_ever_used;
}
bool QuicChromiumClientSession::Handle::IsConnected() const {
return session_ != nullptr;
}
bool QuicChromiumClientSession::Handle::IsCryptoHandshakeConfirmed() const {
return was_handshake_confirmed_;
}
const LoadTimingInfo::ConnectTiming&
QuicChromiumClientSession::Handle::GetConnectTiming() {
if (!session_)
return connect_timing_;
return session_->GetConnectTiming();
}
void QuicChromiumClientSession::Handle::PopulateNetErrorDetails(
NetErrorDetails* details) const {
if (session_) {
session_->PopulateNetErrorDetails(details);
} else {
details->quic_port_migration_detected = port_migration_detected_;
details->quic_connection_error = quic_error_;
}
}
quic::QuicTransportVersion QuicChromiumClientSession::Handle::GetQuicVersion()
const {
if (!session_)
return quic_version_;
return session_->connection()->transport_version();
}
void QuicChromiumClientSession::Handle::ResetPromised(
quic::QuicStreamId id,
quic::QuicRstStreamErrorCode error_code) {
if (session_)
session_->ResetPromised(id, error_code);
}
std::unique_ptr<quic::QuicConnection::ScopedPacketFlusher>
QuicChromiumClientSession::Handle::CreatePacketBundler(
quic::QuicConnection::AckBundling bundling_mode) {
if (!session_)
return nullptr;
return std::make_unique<quic::QuicConnection::ScopedPacketFlusher>(
session_->connection(), bundling_mode);
}
bool QuicChromiumClientSession::Handle::SharesSameSession(
const Handle& other) const {
return session_.get() == other.session_.get();
}
int QuicChromiumClientSession::Handle::RendezvousWithPromised(
const spdy::SpdyHeaderBlock& headers,
CompletionOnceCallback callback) {
if (!session_)
return ERR_CONNECTION_CLOSED;
quic::QuicAsyncStatus push_status =
session_->push_promise_index()->Try(headers, this, &push_handle_);
switch (push_status) {
case quic::QUIC_FAILURE:
return ERR_FAILED;
case quic::QUIC_SUCCESS:
return OK;
case quic::QUIC_PENDING:
push_callback_ = std::move(callback);
return ERR_IO_PENDING;
}
NOTREACHED();
return ERR_UNEXPECTED;
}
int QuicChromiumClientSession::Handle::RequestStream(
bool requires_confirmation,
CompletionOnceCallback callback,
const NetworkTrafficAnnotationTag& traffic_annotation) {
DCHECK(!stream_request_);
if (!session_)
return ERR_CONNECTION_CLOSED;
// std::make_unique does not work because the StreamRequest constructor
// is private.
stream_request_ = base::WrapUnique(
new StreamRequest(this, requires_confirmation, traffic_annotation));
return stream_request_->StartRequest(std::move(callback));
}
std::unique_ptr<QuicChromiumClientStream::Handle>
QuicChromiumClientSession::Handle::ReleaseStream() {
DCHECK(stream_request_);
auto handle = stream_request_->ReleaseStream();
stream_request_.reset();
return handle;
}
std::unique_ptr<QuicChromiumClientStream::Handle>
QuicChromiumClientSession::Handle::ReleasePromisedStream() {
DCHECK(push_stream_);
return std::move(push_stream_);
}
int QuicChromiumClientSession::Handle::WaitForHandshakeConfirmation(
CompletionOnceCallback callback) {
if (!session_)
return ERR_CONNECTION_CLOSED;
return session_->WaitForHandshakeConfirmation(std::move(callback));
}
void QuicChromiumClientSession::Handle::CancelRequest(StreamRequest* request) {
if (session_)
session_->CancelRequest(request);
}
int QuicChromiumClientSession::Handle::TryCreateStream(StreamRequest* request) {
if (!session_)
return ERR_CONNECTION_CLOSED;
return session_->TryCreateStream(request);
}
quic::QuicClientPushPromiseIndex*
QuicChromiumClientSession::Handle::GetPushPromiseIndex() {
if (!session_)
return push_promise_index_;
return session_->push_promise_index();
}
int QuicChromiumClientSession::Handle::GetPeerAddress(
IPEndPoint* address) const {
if (!session_)
return ERR_CONNECTION_CLOSED;
*address = session_->peer_address().impl().socket_address();
return OK;
}
int QuicChromiumClientSession::Handle::GetSelfAddress(
IPEndPoint* address) const {
if (!session_)
return ERR_CONNECTION_CLOSED;
*address = session_->self_address().impl().socket_address();
return OK;
}
bool QuicChromiumClientSession::Handle::WasEverUsed() const {
if (!session_)
return was_ever_used_;
return session_->WasConnectionEverUsed();
}
bool QuicChromiumClientSession::Handle::CheckVary(
const spdy::SpdyHeaderBlock& client_request,
const spdy::SpdyHeaderBlock& promise_request,
const spdy::SpdyHeaderBlock& promise_response) {
HttpRequestInfo promise_request_info;
ConvertHeaderBlockToHttpRequestHeaders(promise_request,
&promise_request_info.extra_headers);
HttpRequestInfo client_request_info;
ConvertHeaderBlockToHttpRequestHeaders(client_request,
&client_request_info.extra_headers);
HttpResponseInfo promise_response_info;
if (!SpdyHeadersToHttpResponse(promise_response, &promise_response_info)) {
DLOG(WARNING) << "Invalid headers";
return false;
}
HttpVaryData vary_data;
if (!vary_data.Init(promise_request_info,
*promise_response_info.headers.get())) {
// Promise didn't contain valid vary info, so URL match was sufficient.
return true;
}
// Now compare the client request for matching.
return vary_data.MatchesRequest(client_request_info,
*promise_response_info.headers.get());
}
void QuicChromiumClientSession::Handle::OnRendezvousResult(
quic::QuicSpdyStream* stream) {
DCHECK(!push_stream_);
int rv = ERR_FAILED;
if (stream) {
rv = OK;
push_stream_ =
static_cast<QuicChromiumClientStream*>(stream)->CreateHandle();
}
if (push_callback_) {
DCHECK(push_handle_);
push_handle_ = nullptr;
std::move(push_callback_).Run(rv);
}
}
QuicChromiumClientSession::StreamRequest::StreamRequest(
QuicChromiumClientSession::Handle* session,
bool requires_confirmation,
const NetworkTrafficAnnotationTag& traffic_annotation)
: session_(session),
requires_confirmation_(requires_confirmation),
stream_(nullptr),
traffic_annotation_(traffic_annotation),
weak_factory_(this) {}
QuicChromiumClientSession::StreamRequest::~StreamRequest() {
if (stream_)
stream_->Reset(quic::QUIC_STREAM_CANCELLED);
if (session_)
session_->CancelRequest(this);
}
int QuicChromiumClientSession::StreamRequest::StartRequest(
CompletionOnceCallback callback) {
if (!session_->IsConnected())
return ERR_CONNECTION_CLOSED;
next_state_ = STATE_WAIT_FOR_CONFIRMATION;
int rv = DoLoop(OK);
if (rv == ERR_IO_PENDING)
callback_ = std::move(callback);
return rv;
}
std::unique_ptr<QuicChromiumClientStream::Handle>
QuicChromiumClientSession::StreamRequest::ReleaseStream() {
DCHECK(stream_);
return std::move(stream_);
}
void QuicChromiumClientSession::StreamRequest::OnRequestCompleteSuccess(
std::unique_ptr<QuicChromiumClientStream::Handle> stream) {
DCHECK_EQ(STATE_REQUEST_STREAM_COMPLETE, next_state_);
stream_ = std::move(stream);
// This method is called even when the request completes synchronously.
if (callback_)
DoCallback(OK);
}
void QuicChromiumClientSession::StreamRequest::OnRequestCompleteFailure(
int rv) {
DCHECK_EQ(STATE_REQUEST_STREAM_COMPLETE, next_state_);
// This method is called even when the request completes synchronously.
if (callback_) {
// Avoid re-entrancy if the callback calls into the session.
base::ThreadTaskRunnerHandle::Get()->PostTask(
FROM_HERE,
base::BindOnce(&QuicChromiumClientSession::StreamRequest::DoCallback,
weak_factory_.GetWeakPtr(), rv));
}
}
void QuicChromiumClientSession::StreamRequest::OnIOComplete(int rv) {
rv = DoLoop(rv);
if (rv != ERR_IO_PENDING && !callback_.is_null()) {
DoCallback(rv);
}
}
void QuicChromiumClientSession::StreamRequest::DoCallback(int rv) {
CHECK_NE(rv, ERR_IO_PENDING);
CHECK(!callback_.is_null());
// The client callback can do anything, including destroying this class,
// so any pending callback must be issued after everything else is done.
std::move(callback_).Run(rv);
}
int QuicChromiumClientSession::StreamRequest::DoLoop(int rv) {
do {
State state = next_state_;
next_state_ = STATE_NONE;
switch (state) {
case STATE_WAIT_FOR_CONFIRMATION:
CHECK_EQ(OK, rv);
rv = DoWaitForConfirmation();
break;
case STATE_WAIT_FOR_CONFIRMATION_COMPLETE:
rv = DoWaitForConfirmationComplete(rv);
break;
case STATE_REQUEST_STREAM:
CHECK_EQ(OK, rv);
rv = DoRequestStream();
break;
case STATE_REQUEST_STREAM_COMPLETE:
rv = DoRequestStreamComplete(rv);
break;
default:
NOTREACHED() << "next_state_: " << next_state_;
break;
}
} while (next_state_ != STATE_NONE && next_state_ && rv != ERR_IO_PENDING);
return rv;
}
int QuicChromiumClientSession::StreamRequest::DoWaitForConfirmation() {
next_state_ = STATE_WAIT_FOR_CONFIRMATION_COMPLETE;
if (requires_confirmation_) {
return session_->WaitForHandshakeConfirmation(
base::Bind(&QuicChromiumClientSession::StreamRequest::OnIOComplete,
weak_factory_.GetWeakPtr()));
}
return OK;
}
int QuicChromiumClientSession::StreamRequest::DoWaitForConfirmationComplete(
int rv) {
DCHECK_NE(ERR_IO_PENDING, rv);
if (rv < 0)
return rv;
next_state_ = STATE_REQUEST_STREAM;
return OK;
}
int QuicChromiumClientSession::StreamRequest::DoRequestStream() {
next_state_ = STATE_REQUEST_STREAM_COMPLETE;
return session_->TryCreateStream(this);
}
int QuicChromiumClientSession::StreamRequest::DoRequestStreamComplete(int rv) {
DCHECK(rv == OK || !stream_);
return rv;
}
QuicChromiumClientSession::QuicChromiumClientSession(
quic::QuicConnection* connection,
std::unique_ptr<DatagramClientSocket> socket,
QuicStreamFactory* stream_factory,
QuicCryptoClientStreamFactory* crypto_client_stream_factory,
quic::QuicClock* clock,
TransportSecurityState* transport_security_state,
SSLConfigService* ssl_config_service,
std::unique_ptr<QuicServerInfo> server_info,
const QuicSessionKey& session_key,
bool require_confirmation,
bool migrate_session_early_v2,
bool migrate_sessions_on_network_change_v2,
NetworkChangeNotifier::NetworkHandle default_network,
quic::QuicTime::Delta retransmittable_on_wire_timeout,
bool migrate_idle_session,
base::TimeDelta idle_migration_period,
base::TimeDelta max_time_on_non_default_network,
int max_migrations_to_non_default_network_on_write_error,
int max_migrations_to_non_default_network_on_path_degrading,
int yield_after_packets,
quic::QuicTime::Delta yield_after_duration,
bool go_away_on_path_degrading,
bool headers_include_h2_stream_dependency,
int cert_verify_flags,
const quic::QuicConfig& config,
quic::QuicCryptoClientConfig* crypto_config,
const char* const connection_description,
base::TimeTicks dns_resolution_start_time,
base::TimeTicks dns_resolution_end_time,
quic::QuicClientPushPromiseIndex* push_promise_index,
ServerPushDelegate* push_delegate,
const base::TickClock* tick_clock,
base::SequencedTaskRunner* task_runner,
std::unique_ptr<SocketPerformanceWatcher> socket_performance_watcher,
NetLog* net_log)
: quic::QuicSpdyClientSessionBase(connection,
push_promise_index,
config,
connection->supported_versions()),
session_key_(session_key),
require_confirmation_(require_confirmation),
migrate_session_early_v2_(migrate_session_early_v2),
migrate_session_on_network_change_v2_(
migrate_sessions_on_network_change_v2),
migrate_idle_session_(migrate_idle_session),
idle_migration_period_(idle_migration_period),
max_time_on_non_default_network_(max_time_on_non_default_network),
max_migrations_to_non_default_network_on_write_error_(
max_migrations_to_non_default_network_on_write_error),
current_migrations_to_non_default_network_on_write_error_(0),
max_migrations_to_non_default_network_on_path_degrading_(
max_migrations_to_non_default_network_on_path_degrading),
current_migrations_to_non_default_network_on_path_degrading_(0),
clock_(clock),
yield_after_packets_(yield_after_packets),
yield_after_duration_(yield_after_duration),
go_away_on_path_degrading_(go_away_on_path_degrading),
most_recent_path_degrading_timestamp_(base::TimeTicks()),
most_recent_network_disconnected_timestamp_(base::TimeTicks()),
tick_clock_(tick_clock),
most_recent_stream_close_time_(tick_clock_->NowTicks()),
most_recent_write_error_(0),
most_recent_write_error_timestamp_(base::TimeTicks()),
stream_factory_(stream_factory),
transport_security_state_(transport_security_state),
ssl_config_service_(ssl_config_service),
server_info_(std::move(server_info)),
pkp_bypassed_(false),
is_fatal_cert_error_(false),
num_total_streams_(0),
task_runner_(task_runner),
net_log_(NetLogWithSource::Make(net_log, NetLogSourceType::QUIC_SESSION)),
logger_(new QuicConnectionLogger(this,
connection_description,
std::move(socket_performance_watcher),
net_log_)),
going_away_(false),
port_migration_detected_(false),
push_delegate_(push_delegate),
streams_pushed_count_(0),
streams_pushed_and_claimed_count_(0),
bytes_pushed_count_(0),
bytes_pushed_and_unclaimed_count_(0),
probing_manager_(this, task_runner_),
retry_migrate_back_count_(0),
current_connection_migration_cause_(UNKNOWN_CAUSE),
send_packet_after_migration_(false),
wait_for_new_network_(false),
ignore_read_error_(false),
headers_include_h2_stream_dependency_(
headers_include_h2_stream_dependency &&
this->connection()->transport_version() >= quic::QUIC_VERSION_43),
weak_factory_(this) {
// Make sure connection migration and goaway on path degrading are not turned
// on at the same time.
DCHECK(!(migrate_session_early_v2_ && go_away_on_path_degrading_));
default_network_ = default_network;
auto* socket_raw = socket.get();
sockets_.push_back(std::move(socket));
packet_readers_.push_back(std::make_unique<QuicChromiumPacketReader>(
sockets_.back().get(), clock, this, yield_after_packets,
yield_after_duration, net_log_));
crypto_stream_.reset(
crypto_client_stream_factory->CreateQuicCryptoClientStream(
session_key.server_id(), this,
std::make_unique<ProofVerifyContextChromium>(cert_verify_flags,
net_log_),
crypto_config));
connection->set_debug_visitor(logger_.get());
connection->set_creator_debug_delegate(logger_.get());
migrate_back_to_default_timer_.SetTaskRunner(task_runner_);
net_log_.BeginEvent(
NetLogEventType::QUIC_SESSION,
base::Bind(NetLogQuicClientSessionCallback, &session_key.server_id(),
cert_verify_flags, require_confirmation_));
IPEndPoint address;
if (socket_raw && socket_raw->GetLocalAddress(&address) == OK &&
address.GetFamily() == ADDRESS_FAMILY_IPV6) {
connection->SetMaxPacketLength(connection->max_packet_length() -
kAdditionalOverheadForIPv6);
}
connect_timing_.dns_start = dns_resolution_start_time;
connect_timing_.dns_end = dns_resolution_end_time;
if (migrate_session_early_v2_) {
connection->set_retransmittable_on_wire_timeout(
retransmittable_on_wire_timeout);
}
}
QuicChromiumClientSession::~QuicChromiumClientSession() {
DCHECK(callback_.is_null());
net_log_.EndEvent(NetLogEventType::QUIC_SESSION);
DCHECK(waiting_for_confirmation_callbacks_.empty());
if (!dynamic_streams().empty())
RecordUnexpectedOpenStreams(DESTRUCTOR);
if (!handles_.empty())
RecordUnexpectedObservers(DESTRUCTOR);
if (!going_away_)
RecordUnexpectedNotGoingAway(DESTRUCTOR);
while (!dynamic_streams().empty() || !handles_.empty() ||
!stream_requests_.empty()) {
// The session must be closed before it is destroyed.
DCHECK(dynamic_streams().empty());
CloseAllStreams(ERR_UNEXPECTED);
DCHECK(handles_.empty());
CloseAllHandles(ERR_UNEXPECTED);
CancelAllRequests(ERR_UNEXPECTED);
connection()->set_debug_visitor(nullptr);
}
if (connection()->connected()) {
// Ensure that the connection is closed by the time the session is
// destroyed.
connection()->CloseConnection(quic::QUIC_INTERNAL_ERROR,
"session torn down",
quic::ConnectionCloseBehavior::SILENT_CLOSE);
}
if (IsEncryptionEstablished())
RecordHandshakeState(STATE_ENCRYPTION_ESTABLISHED);
if (IsCryptoHandshakeConfirmed())
RecordHandshakeState(STATE_HANDSHAKE_CONFIRMED);
else
RecordHandshakeState(STATE_FAILED);
UMA_HISTOGRAM_COUNTS_1M("Net.QuicSession.NumTotalStreams",
num_total_streams_);
UMA_HISTOGRAM_COUNTS_1M("Net.QuicNumSentClientHellos",
crypto_stream_->num_sent_client_hellos());
UMA_HISTOGRAM_COUNTS_1M("Net.QuicSession.Pushed", streams_pushed_count_);
UMA_HISTOGRAM_COUNTS_1M("Net.QuicSession.PushedAndClaimed",
streams_pushed_and_claimed_count_);
UMA_HISTOGRAM_COUNTS_1M("Net.QuicSession.PushedBytes", bytes_pushed_count_);
DCHECK_LE(bytes_pushed_and_unclaimed_count_, bytes_pushed_count_);
UMA_HISTOGRAM_COUNTS_1M("Net.QuicSession.PushedAndUnclaimedBytes",
bytes_pushed_and_unclaimed_count_);
if (!IsCryptoHandshakeConfirmed())
return;
// Sending one client_hello means we had zero handshake-round-trips.
int round_trip_handshakes = crypto_stream_->num_sent_client_hellos() - 1;
// Don't bother with these histogram during tests, which mock out
// num_sent_client_hellos().
if (round_trip_handshakes < 0 || !stream_factory_)
return;
SSLInfo ssl_info;
// QUIC supports only secure urls.
if (GetSSLInfo(&ssl_info) && ssl_info.cert.get()) {
UMA_HISTOGRAM_CUSTOM_COUNTS("Net.QuicSession.ConnectRandomPortForHTTPS",
round_trip_handshakes, 1, 3, 4);
if (require_confirmation_) {
UMA_HISTOGRAM_CUSTOM_COUNTS(
"Net.QuicSession.ConnectRandomPortRequiringConfirmationForHTTPS",
round_trip_handshakes, 1, 3, 4);
}
}
const quic::QuicConnectionStats stats = connection()->GetStats();
// The MTU used by QUIC is limited to a fairly small set of predefined values
// (initial values and MTU discovery values), but does not fare well when
// bucketed. Because of that, a sparse histogram is used here.
base::UmaHistogramSparse("Net.QuicSession.ClientSideMtu",
connection()->max_packet_length());
base::UmaHistogramSparse("Net.QuicSession.ServerSideMtu",
stats.max_received_packet_size);
UMA_HISTOGRAM_COUNTS_1M("Net.QuicSession.MtuProbesSent",
connection()->mtu_probe_count());
if (stats.packets_sent >= 100) {
// Used to monitor for regressions that effect large uploads.
UMA_HISTOGRAM_COUNTS_1000(
"Net.QuicSession.PacketRetransmitsPerMille",
1000 * stats.packets_retransmitted / stats.packets_sent);
}
if (stats.max_sequence_reordering == 0)
return;
const base::HistogramBase::Sample kMaxReordering = 100;
base::HistogramBase::Sample reordering = kMaxReordering;
if (stats.min_rtt_us > 0) {
reordering = static_cast<base::HistogramBase::Sample>(
100 * stats.max_time_reordering_us / stats.min_rtt_us);
}
UMA_HISTOGRAM_CUSTOM_COUNTS("Net.QuicSession.MaxReorderingTime", reordering,
1, kMaxReordering, 50);
if (stats.min_rtt_us > 100 * 1000) {
UMA_HISTOGRAM_CUSTOM_COUNTS("Net.QuicSession.MaxReorderingTimeLongRtt",
reordering, 1, kMaxReordering, 50);
}
UMA_HISTOGRAM_COUNTS_1M(
"Net.QuicSession.MaxReordering",
static_cast<base::HistogramBase::Sample>(stats.max_sequence_reordering));
}
void QuicChromiumClientSession::Initialize() {
quic::QuicSpdyClientSessionBase::Initialize();
SetHpackEncoderDebugVisitor(std::make_unique<HpackEncoderDebugVisitor>());
SetHpackDecoderDebugVisitor(std::make_unique<HpackDecoderDebugVisitor>());
set_max_uncompressed_header_bytes(kMaxUncompressedHeaderSize);
}
size_t QuicChromiumClientSession::WriteHeadersOnHeadersStream(
quic::QuicStreamId id,
spdy::SpdyHeaderBlock headers,
bool fin,
spdy::SpdyPriority priority,
quic::QuicReferenceCountedPointer<quic::QuicAckListenerInterface>
ack_listener) {
spdy::SpdyStreamId parent_stream_id = 0;
int weight = 0;
bool exclusive = false;
if (headers_include_h2_stream_dependency_) {
priority_dependency_state_.OnStreamCreation(id, priority, &parent_stream_id,
&weight, &exclusive);
} else {
weight = spdy::Spdy3PriorityToHttp2Weight(priority);
}
return WriteHeadersOnHeadersStreamImpl(id, std::move(headers), fin,
parent_stream_id, weight, exclusive,
std::move(ack_listener));
}
void QuicChromiumClientSession::UnregisterStreamPriority(quic::QuicStreamId id,
bool is_static) {
if (headers_include_h2_stream_dependency_ && !is_static) {
priority_dependency_state_.OnStreamDestruction(id);
}
quic::QuicSpdySession::UnregisterStreamPriority(id, is_static);
}
void QuicChromiumClientSession::UpdateStreamPriority(
quic::QuicStreamId id,
spdy::SpdyPriority new_priority) {
if (headers_include_h2_stream_dependency_) {
auto updates = priority_dependency_state_.OnStreamUpdate(id, new_priority);
for (auto update : updates) {
WritePriority(update.id, update.parent_stream_id, update.weight,
update.exclusive);
}
}
quic::QuicSpdySession::UpdateStreamPriority(id, new_priority);
}
void QuicChromiumClientSession::OnStreamFrame(
const quic::QuicStreamFrame& frame) {
// Record total number of stream frames.
UMA_HISTOGRAM_COUNTS_1M("Net.QuicNumStreamFramesInPacket", 1);
// Record number of frames per stream in packet.
UMA_HISTOGRAM_COUNTS_1M("Net.QuicNumStreamFramesPerStreamInPacket", 1);
return quic::QuicSpdySession::OnStreamFrame(frame);
}