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cobalt / cobalt / b95ea55ccebda33f820d043e4b4dc85c10d7584d / . / net / quic / quic_stream_factory.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_stream_factory.h"
#include <algorithm>
#include <memory>
#include <tuple>
#include <utility>
#include "base/bind.h"
#include "base/callback_helpers.h"
#include "base/location.h"
#include "base/metrics/field_trial.h"
#include "base/metrics/histogram_functions.h"
#include "base/metrics/histogram_macros.h"
#include "base/single_thread_task_runner.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/string_util.h"
#include "base/strings/stringprintf.h"
#include "base/threading/thread_task_runner_handle.h"
#include "base/time/default_tick_clock.h"
#include "base/trace_event/memory_allocator_dump.h"
#include "base/trace_event/memory_usage_estimator.h"
#include "base/trace_event/process_memory_dump.h"
#include "base/trace_event/trace_event.h"
#include "base/values.h"
#include "crypto/openssl_util.h"
#include "net/base/ip_address.h"
#include "net/base/net_errors.h"
#include "net/base/trace_constants.h"
#include "net/cert/cert_verifier.h"
#include "net/cert/ct_verifier.h"
#include "net/dns/host_resolver.h"
#include "net/log/net_log.h"
#include "net/log/net_log_capture_mode.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/properties_based_quic_server_info.h"
#include "net/quic/quic_chromium_alarm_factory.h"
#include "net/quic/quic_chromium_connection_helper.h"
#include "net/quic/quic_chromium_packet_reader.h"
#include "net/quic/quic_chromium_packet_writer.h"
#include "net/quic/quic_crypto_client_stream_factory.h"
#include "net/quic/quic_http_stream.h"
#include "net/quic/quic_server_info.h"
#include "net/socket/client_socket_factory.h"
#include "net/socket/next_proto.h"
#include "net/socket/socket_performance_watcher.h"
#include "net/socket/socket_performance_watcher_factory.h"
#include "net/socket/udp_client_socket.h"
#include "net/third_party/quic/core/crypto/proof_verifier.h"
#include "net/third_party/quic/core/crypto/quic_random.h"
#include "net/third_party/quic/core/http/quic_client_promised_info.h"
#include "net/third_party/quic/core/quic_connection.h"
#include "net/third_party/quic/core/quic_utils.h"
#include "net/third_party/quic/core/tls_client_handshaker.h"
#include "net/third_party/quic/platform/api/quic_clock.h"
#include "net/third_party/quic/platform/api/quic_flags.h"
#include "third_party/boringssl/src/include/openssl/aead.h"
#include "url/gurl.h"
#include "url/url_constants.h"
using NetworkHandle = net::NetworkChangeNotifier::NetworkHandle;
namespace net {
// Returns the estimate of dynamically allocated memory of an IPEndPoint in
// bytes. Used in tracking IPAliasMap.
size_t EstimateMemoryUsage(const IPEndPoint& end_point) {
return 0;
}
namespace {
enum CreateSessionFailure {
CREATION_ERROR_CONNECTING_SOCKET,
CREATION_ERROR_SETTING_RECEIVE_BUFFER,
CREATION_ERROR_SETTING_SEND_BUFFER,
CREATION_ERROR_SETTING_DO_NOT_FRAGMENT,
CREATION_ERROR_MAX
};
enum InitialRttEstimateSource {
INITIAL_RTT_DEFAULT,
INITIAL_RTT_CACHED,
INITIAL_RTT_2G,
INITIAL_RTT_3G,
INITIAL_RTT_SOURCE_MAX,
};
// The maximum receive window sizes for QUIC sessions and streams.
const int32_t kQuicSessionMaxRecvWindowSize = 15 * 1024 * 1024; // 15 MB
const int32_t kQuicStreamMaxRecvWindowSize = 6 * 1024 * 1024; // 6 MB
// QUIC's socket receive buffer size.
// We should adaptively set this buffer size, but for now, we'll use a size
// that seems large enough to receive data at line rate for most connections,
// and does not consume "too much" memory.
const int32_t kQuicSocketReceiveBufferSize = 1024 * 1024; // 1MB
// Set the maximum number of undecryptable packets the connection will store.
const int32_t kMaxUndecryptablePackets = 100;
std::unique_ptr<base::Value> NetLogQuicStreamFactoryJobCallback(
const quic::QuicServerId* server_id,
NetLogCaptureMode capture_mode) {
std::unique_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
dict->SetString(
"server_id",
"https://" +
HostPortPair(server_id->host(), server_id->port()).ToString() +
(server_id->privacy_mode_enabled() ? "/private" : ""));
return std::move(dict);
}
NetLogParametersCallback NetLogQuicConnectionMigrationTriggerCallback(
const char* trigger) {
return NetLog::StringCallback("trigger", trigger);
}
// Helper class that is used to log a connection migration event.
class ScopedConnectionMigrationEventLog {
public:
ScopedConnectionMigrationEventLog(NetLog* net_log, const char* trigger)
: net_log_(NetLogWithSource::Make(
net_log,
NetLogSourceType::QUIC_CONNECTION_MIGRATION)) {
net_log_.BeginEvent(NetLogEventType::QUIC_CONNECTION_MIGRATION_TRIGGERED,
NetLogQuicConnectionMigrationTriggerCallback(trigger));
}
~ScopedConnectionMigrationEventLog() {
net_log_.EndEvent(NetLogEventType::QUIC_CONNECTION_MIGRATION_TRIGGERED);
}
const NetLogWithSource& net_log() { return net_log_; }
private:
const NetLogWithSource net_log_;
};
void HistogramCreateSessionFailure(enum CreateSessionFailure error) {
UMA_HISTOGRAM_ENUMERATION("Net.QuicSession.CreationError", error,
CREATION_ERROR_MAX);
}
void LogPlatformNotificationInHistogram(
enum QuicPlatformNotification notification) {
UMA_HISTOGRAM_ENUMERATION("Net.QuicSession.PlatformNotification",
notification, NETWORK_NOTIFICATION_MAX);
}
void LogConnectionIpPooling(bool pooled) {
UMA_HISTOGRAM_BOOLEAN("Net.QuicSession.ConnectionIpPooled", pooled);
}
void SetInitialRttEstimate(base::TimeDelta estimate,
enum InitialRttEstimateSource source,
quic::QuicConfig* config) {
UMA_HISTOGRAM_ENUMERATION("Net.QuicSession.InitialRttEsitmateSource", source,
INITIAL_RTT_SOURCE_MAX);
if (estimate != base::TimeDelta())
config->SetInitialRoundTripTimeUsToSend(estimate.InMicroseconds());
}
quic::QuicConfig InitializeQuicConfig(
const quic::QuicTagVector& connection_options,
const quic::QuicTagVector& client_connection_options,
int idle_connection_timeout_seconds,
int max_time_before_crypto_handshake_seconds,
int max_idle_time_before_crypto_handshake_seconds) {
DCHECK_GT(idle_connection_timeout_seconds, 0);
quic::QuicConfig config;
config.SetIdleNetworkTimeout(
quic::QuicTime::Delta::FromSeconds(idle_connection_timeout_seconds),
quic::QuicTime::Delta::FromSeconds(idle_connection_timeout_seconds));
config.set_max_time_before_crypto_handshake(
quic::QuicTime::Delta::FromSeconds(
max_time_before_crypto_handshake_seconds));
config.set_max_idle_time_before_crypto_handshake(
quic::QuicTime::Delta::FromSeconds(
max_idle_time_before_crypto_handshake_seconds));
config.SetConnectionOptionsToSend(connection_options);
config.SetClientConnectionOptions(client_connection_options);
return config;
}
bssl::UniquePtr<SSL_CTX> QuicStreamFactoryCreateSslCtx() {
crypto::EnsureOpenSSLInit();
return quic::TlsClientHandshaker::CreateSslCtx();
}
// An implementation of quic::QuicCryptoClientConfig::ServerIdFilter that wraps
// an |origin_filter|.
class ServerIdOriginFilter
: public quic::QuicCryptoClientConfig::ServerIdFilter {
public:
explicit ServerIdOriginFilter(
const base::RepeatingCallback<bool(const GURL&)> origin_filter)
: origin_filter_(origin_filter) {}
bool Matches(const quic::QuicServerId& server_id) const override {
if (origin_filter_.is_null())
return true;
GURL url(base::StringPrintf("%s%s%s:%d", url::kHttpsScheme,
url::kStandardSchemeSeparator,
server_id.host().c_str(), server_id.port()));
DCHECK(url.is_valid());
return origin_filter_.Run(url);
}
private:
const base::Callback<bool(const GURL&)> origin_filter_;
};
} // namespace
// Responsible for verifying the certificates saved in
// quic::QuicCryptoClientConfig, and for notifying any associated requests when
// complete. Results from cert verification are ignored.
class QuicStreamFactory::CertVerifierJob {
public:
// ProofVerifierCallbackImpl is passed as the callback method to
// VerifyCertChain. The quic::ProofVerifier calls this class with the result
// of cert verification when verification is performed asynchronously.
class ProofVerifierCallbackImpl : public quic::ProofVerifierCallback {
public:
explicit ProofVerifierCallbackImpl(CertVerifierJob* job) : job_(job) {}
~ProofVerifierCallbackImpl() override {}
void Run(bool ok,
const std::string& error_details,
std::unique_ptr<quic::ProofVerifyDetails>* details) override {
if (job_ == nullptr)
return;
job_->verify_callback_ = nullptr;
job_->OnComplete();
}
void Cancel() { job_ = nullptr; }
private:
CertVerifierJob* job_;
};
CertVerifierJob(const quic::QuicServerId& server_id,
int cert_verify_flags,
const NetLogWithSource& net_log)
: server_id_(server_id),
verify_callback_(nullptr),
verify_context_(
std::make_unique<ProofVerifyContextChromium>(cert_verify_flags,
net_log)),
start_time_(base::TimeTicks::Now()),
net_log_(net_log),
weak_factory_(this) {}
~CertVerifierJob() {
if (verify_callback_)
verify_callback_->Cancel();
}
// Starts verification of certs cached in the |crypto_config|.
quic::QuicAsyncStatus Run(quic::QuicCryptoClientConfig* crypto_config,
CompletionOnceCallback callback) {
quic::QuicCryptoClientConfig::CachedState* cached =
crypto_config->LookupOrCreate(server_id_);
auto verify_callback = std::make_unique<ProofVerifierCallbackImpl>(this);
auto* verify_callback_ptr = verify_callback.get();
quic::QuicAsyncStatus status =
crypto_config->proof_verifier()->VerifyCertChain(
server_id_.host(), cached->certs(), verify_context_.get(),
&verify_error_details_, &verify_details_,
std::move(verify_callback));
if (status == quic::QUIC_PENDING) {
verify_callback_ = verify_callback_ptr;
callback_ = std::move(callback);
}
return status;
}
void OnComplete() {
UMA_HISTOGRAM_TIMES("Net.QuicSession.CertVerifierJob.CompleteTime",
base::TimeTicks::Now() - start_time_);
if (!callback_.is_null())
base::ResetAndReturn(&callback_).Run(OK);
}
const quic::QuicServerId& server_id() const { return server_id_; }
size_t EstimateMemoryUsage() const {
// TODO(xunjieli): crbug.com/669108. Track |verify_context_| and
// |verify_details_|.
return base::trace_event::EstimateMemoryUsage(verify_error_details_);
}
private:
const quic::QuicServerId server_id_;
ProofVerifierCallbackImpl* verify_callback_;
std::unique_ptr<quic::ProofVerifyContext> verify_context_;
std::unique_ptr<quic::ProofVerifyDetails> verify_details_;
std::string verify_error_details_;
const base::TimeTicks start_time_;
const NetLogWithSource net_log_;
CompletionOnceCallback callback_;
base::WeakPtrFactory<CertVerifierJob> weak_factory_;
DISALLOW_COPY_AND_ASSIGN(CertVerifierJob);
};
// Responsible for creating a new QUIC session to the specified server, and
// for notifying any associated requests when complete.
class QuicStreamFactory::Job {
public:
Job(QuicStreamFactory* factory,
const quic::QuicTransportVersion& quic_version,
HostResolver* host_resolver,
const QuicSessionAliasKey& key,
bool was_alternative_service_recently_broken,
bool retry_on_alternate_network_before_handshake,
bool race_stale_dns_on_connection,
RequestPriority priority,
int cert_verify_flags,
const NetLogWithSource& net_log);
~Job();
int Run(CompletionOnceCallback callback);
int DoLoop(int rv);
int DoResolveHost();
int DoResolveHostComplete(int rv);
int DoConnect();
int DoConnectComplete(int rv);
int DoConfirmConnection(int rv);
int DoValidateHost();
void OnResolveHostComplete(int rv);
void OnConnectComplete(int rv);
const QuicSessionAliasKey& key() const { return key_; }
const NetLogWithSource& net_log() const { return net_log_; }
base::WeakPtr<Job> GetWeakPtr() { return weak_factory_.GetWeakPtr(); }
void PopulateNetErrorDetails(NetErrorDetails* details) const;
// Returns the estimate of dynamically allocated memory in bytes.
size_t EstimateMemoryUsage() const;
void AddRequest(QuicStreamRequest* request) {
stream_requests_.insert(request);
if (!host_resolution_finished_) {
request->ExpectOnHostResolution();
}
}
void RemoveRequest(QuicStreamRequest* request) {
auto request_iter = stream_requests_.find(request);
DCHECK(request_iter != stream_requests_.end());
stream_requests_.erase(request_iter);
}
void SetPriority(RequestPriority priority) {
if (priority_ == priority)
return;
priority_ = priority;
if (resolve_host_request_ && !host_resolution_finished_) {
if (fresh_resolve_host_request_) {
fresh_resolve_host_request_->ChangeRequestPriority(priority);
} else {
resolve_host_request_->ChangeRequestPriority(priority);
}
}
}
const std::set<QuicStreamRequest*>& stream_requests() {
return stream_requests_;
}
RequestPriority priority() const { return priority_; }
private:
enum IoState {
STATE_NONE,
STATE_RESOLVE_HOST,
STATE_RESOLVE_HOST_COMPLETE,
STATE_CONNECT,
STATE_CONNECT_COMPLETE,
STATE_HOST_VALIDATION,
STATE_CONFIRM_CONNECTION,
};
void CloseStaleHostConnection() {
DVLOG(1) << "Closing connection from stale host.";
if (session_) {
QuicChromiumClientSession* session = session_;
session_ = nullptr;
session->CloseSessionOnErrorLater(
ERR_ABORTED, quic::QUIC_STALE_CONNECTION_CANCELLED,
quic::ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
}
}
bool DoesPeerAddressMatchWithFreshAddressList() {
std::vector<net::IPEndPoint> endpoints =
fresh_resolve_host_request_->GetAddressResults().value().endpoints();
IPEndPoint stale_address = session_->peer_address().impl().socket_address();
if (std::find(endpoints.begin(), endpoints.end(), stale_address) !=
endpoints.end()) {
return true;
}
return false;
}
void LogStaleHostRacing(bool used) {
if (used) {
net_log_.AddEvent(
NetLogEventType::
QUIC_STREAM_FACTORY_JOB_STALE_HOST_TRIED_ON_CONNECTION);
} else {
net_log_.AddEvent(
NetLogEventType::
QUIC_STREAM_FACTORY_JOB_STALE_HOST_NOT_USED_ON_CONNECTION);
}
UMA_HISTOGRAM_BOOLEAN("Net.QuicSession.StaleHostRacing", used);
}
void LogStaleAndFreshHostMatched(bool matched) {
if (matched) {
net_log_.AddEvent(
NetLogEventType::
QUIC_STREAM_FACTORY_JOB_STALE_HOST_RESOLUTION_MATCHED);
} else {
net_log_.AddEvent(
NetLogEventType::
QUIC_STREAM_FACTORY_JOB_STALE_HOST_RESOLUTION_NO_MATCH);
}
UMA_HISTOGRAM_BOOLEAN("Net.QuicSession.StaleAndFreshHostMatched", matched);
}
IoState io_state_;
QuicStreamFactory* factory_;
quic::QuicTransportVersion quic_version_;
HostResolver* host_resolver_;
const QuicSessionAliasKey key_;
RequestPriority priority_;
const int cert_verify_flags_;
const bool was_alternative_service_recently_broken_;
const bool retry_on_alternate_network_before_handshake_;
const bool race_stale_dns_on_connection_;
const NetLogWithSource net_log_;
int num_sent_client_hellos_;
bool host_resolution_finished_;
bool connection_retried_;
QuicChromiumClientSession* session_;
// If connection migraiton is supported, |network_| denotes the network on
// which |session_| is created.
NetworkChangeNotifier::NetworkHandle network_;
CompletionOnceCallback host_resolution_callback_;
CompletionOnceCallback callback_;
std::unique_ptr<HostResolver::ResolveHostRequest> resolve_host_request_;
// Only set during DNS race. After completion, cleared or replaces
// |resolve_host_request_|.
std::unique_ptr<HostResolver::ResolveHostRequest> fresh_resolve_host_request_;
base::TimeTicks dns_resolution_start_time_;
base::TimeTicks dns_resolution_end_time_;
std::set<QuicStreamRequest*> stream_requests_;
base::WeakPtrFactory<Job> weak_factory_;
DISALLOW_COPY_AND_ASSIGN(Job);
};
QuicStreamFactory::Job::Job(QuicStreamFactory* factory,
const quic::QuicTransportVersion& quic_version,
HostResolver* host_resolver,
const QuicSessionAliasKey& key,
bool was_alternative_service_recently_broken,
bool retry_on_alternate_network_before_handshake,
bool race_stale_dns_on_connection,
RequestPriority priority,
int cert_verify_flags,
const NetLogWithSource& net_log)
: io_state_(STATE_RESOLVE_HOST),
factory_(factory),
quic_version_(quic_version),
host_resolver_(host_resolver),
key_(key),
priority_(priority),
cert_verify_flags_(cert_verify_flags),
was_alternative_service_recently_broken_(
was_alternative_service_recently_broken),
retry_on_alternate_network_before_handshake_(
retry_on_alternate_network_before_handshake),
#if defined(COBALT_QUIC46)
race_stale_dns_on_connection_(false),
#else
race_stale_dns_on_connection_(race_stale_dns_on_connection),
#endif
net_log_(
NetLogWithSource::Make(net_log.net_log(),
NetLogSourceType::QUIC_STREAM_FACTORY_JOB)),
num_sent_client_hellos_(0),
host_resolution_finished_(false),
connection_retried_(false),
session_(nullptr),
network_(NetworkChangeNotifier::kInvalidNetworkHandle),
weak_factory_(this) {
#if defined(COBALT_QUIC46)
// Cobalt does not allow stale dns cache entries.
DCHECK(!race_stale_dns_on_connection);
#endif
net_log_.BeginEvent(
NetLogEventType::QUIC_STREAM_FACTORY_JOB,
base::Bind(&NetLogQuicStreamFactoryJobCallback, &key_.server_id()));
// Associate |net_log_| with |net_log|.
net_log_.AddEvent(
NetLogEventType::QUIC_STREAM_FACTORY_JOB_BOUND_TO_HTTP_STREAM_JOB,
net_log.source().ToEventParametersCallback());
net_log.AddEvent(
NetLogEventType::HTTP_STREAM_JOB_BOUND_TO_QUIC_STREAM_FACTORY_JOB,
net_log_.source().ToEventParametersCallback());
}
QuicStreamFactory::Job::~Job() {
net_log_.EndEvent(NetLogEventType::QUIC_STREAM_FACTORY_JOB);
// If |this| is destroyed in QuicStreamFactory's destructor, |callback_| is
// non-null.
}
int QuicStreamFactory::Job::Run(CompletionOnceCallback callback) {
int rv = DoLoop(OK);
if (rv == ERR_IO_PENDING)
callback_ = std::move(callback);
return rv > 0 ? OK : rv;
}
int QuicStreamFactory::Job::DoLoop(int rv) {
TRACE_EVENT0(NetTracingCategory(), "QuicStreamFactory::Job::DoLoop");
do {
IoState state = io_state_;
io_state_ = STATE_NONE;
switch (state) {
case STATE_RESOLVE_HOST:
CHECK_EQ(OK, rv);
rv = DoResolveHost();
break;
case STATE_RESOLVE_HOST_COMPLETE:
rv = DoResolveHostComplete(rv);
break;
case STATE_CONNECT:
CHECK_EQ(OK, rv);
rv = DoConnect();
break;
case STATE_CONNECT_COMPLETE:
rv = DoConnectComplete(rv);
break;
case STATE_HOST_VALIDATION:
rv = DoValidateHost();
break;
case STATE_CONFIRM_CONNECTION:
rv = DoConfirmConnection(rv);
break;
default:
NOTREACHED() << "io_state_: " << io_state_;
break;
}
} while (io_state_ != STATE_NONE && rv != ERR_IO_PENDING);
return rv;
}
void QuicStreamFactory::Job::OnResolveHostComplete(int rv) {
DCHECK(!host_resolution_finished_);
if (fresh_resolve_host_request_) {
DCHECK(race_stale_dns_on_connection_);
if (rv != OK) {
CloseStaleHostConnection();
resolve_host_request_ = std::move(fresh_resolve_host_request_);
io_state_ = STATE_RESOLVE_HOST_COMPLETE;
} else if (factory_->HasMatchingIpSession(
key_,
fresh_resolve_host_request_->GetAddressResults().value())) {
// Session with resolved IP has already existed, so close racing
// connection, run callback, and return.
LogConnectionIpPooling(true);
CloseStaleHostConnection();
if (!callback_.is_null())
base::ResetAndReturn(&callback_).Run(OK);
return;
} else if (io_state_ != STATE_HOST_VALIDATION) {
// Case where host resolution returns successfully, but stale connection
// hasn't finished yet.
if (DoesPeerAddressMatchWithFreshAddressList()) {
LogStaleAndFreshHostMatched(true);
fresh_resolve_host_request_ = nullptr;
return;
}
LogStaleAndFreshHostMatched(false);
CloseStaleHostConnection();
resolve_host_request_ = std::move(fresh_resolve_host_request_);
io_state_ = STATE_RESOLVE_HOST_COMPLETE;
} // Else stale connection has already finished successfully.
} else {
// If not in DNS race, we should have been waiting for this callback in
// STATE_RESOLVE_HOST_COMPLETE.
DCHECK_EQ(STATE_RESOLVE_HOST_COMPLETE, io_state_);
}
rv = DoLoop(rv);
// Expect to be marked by either DoResolveHostComplete() or DoValidateHost().
DCHECK(host_resolution_finished_);
// DNS race should be completed either above or by DoValidateHost().
DCHECK(!fresh_resolve_host_request_);
for (auto* request : stream_requests_) {
request->OnHostResolutionComplete(rv);
}
if (rv != ERR_IO_PENDING && !callback_.is_null())
base::ResetAndReturn(&callback_).Run(rv);
}
void QuicStreamFactory::Job::OnConnectComplete(int rv) {
// This early return will be triggered when CloseSessionOnError is called
// before crypto handshake has completed.
if (!session_)
return;
rv = DoLoop(rv);
if (rv != ERR_IO_PENDING && !callback_.is_null())
base::ResetAndReturn(&callback_).Run(rv);
}
void QuicStreamFactory::Job::PopulateNetErrorDetails(
NetErrorDetails* details) const {
if (!session_)
return;
details->connection_info = QuicHttpStream::ConnectionInfoFromQuicVersion(
session_->connection()->transport_version());
details->quic_connection_error = session_->error();
}
size_t QuicStreamFactory::Job::EstimateMemoryUsage() const {
return base::trace_event::EstimateMemoryUsage(key_);
}
int QuicStreamFactory::Job::DoResolveHost() {
dns_resolution_start_time_ = base::TimeTicks::Now();
io_state_ = STATE_RESOLVE_HOST_COMPLETE;
HostResolver::ResolveHostParameters parameters;
parameters.initial_priority = priority_;
if (race_stale_dns_on_connection_) {
parameters.cache_usage =
HostResolver::ResolveHostParameters::CacheUsage::STALE_ALLOWED;
}
resolve_host_request_ =
host_resolver_->CreateRequest(key_.destination(), net_log_, parameters);
// Unretained is safe because |this| owns the request, ensuring cancellation
// on destruction.
int rv = resolve_host_request_->Start(base::BindOnce(
&QuicStreamFactory::Job::OnResolveHostComplete, base::Unretained(this)));
if (rv == ERR_IO_PENDING || !resolve_host_request_->GetStaleInfo() ||
!resolve_host_request_->GetStaleInfo().value().is_stale()) {
// Not a stale result.
if (race_stale_dns_on_connection_)
LogStaleHostRacing(false);
return rv;
}
// If request resulted in a stale cache entry, start request for fresh results
DCHECK(race_stale_dns_on_connection_);
parameters.cache_usage =
HostResolver::ResolveHostParameters::CacheUsage::DISALLOWED;
fresh_resolve_host_request_ =
host_resolver_->CreateRequest(key_.destination(), net_log_, parameters);
// Unretained is safe because |this| owns the request, ensuring cancellation
// on destruction.
int fresh_rv = fresh_resolve_host_request_->Start(base::BindOnce(
&QuicStreamFactory::Job::OnResolveHostComplete, base::Unretained(this)));
if (fresh_rv != ERR_IO_PENDING) {
// Fresh request returned immediate results.
LogStaleHostRacing(false);
resolve_host_request_ = std::move(fresh_resolve_host_request_);
return rv;
}
io_state_ = STATE_CONNECT;
LogStaleHostRacing(true);
return OK;
}
int QuicStreamFactory::Job::DoResolveHostComplete(int rv) {
host_resolution_finished_ = true;
dns_resolution_end_time_ = base::TimeTicks::Now();
if (rv != OK)
return rv;
DCHECK(!fresh_resolve_host_request_);
DCHECK(!factory_->HasActiveSession(key_.session_key()));
// Inform the factory of this resolution, which will set up
// a session alias, if possible.
if (factory_->HasMatchingIpSession(
key_, resolve_host_request_->GetAddressResults().value())) {
LogConnectionIpPooling(true);
return OK;
}
io_state_ = STATE_CONNECT;
return OK;
}
int QuicStreamFactory::Job::DoConnect() {
io_state_ = STATE_CONNECT_COMPLETE;
bool require_confirmation = was_alternative_service_recently_broken_;
net_log_.BeginEvent(
NetLogEventType::QUIC_STREAM_FACTORY_JOB_CONNECT,
NetLog::BoolCallback("require_confirmation", require_confirmation));
DCHECK_NE(quic_version_, quic::QUIC_VERSION_UNSUPPORTED);
int rv = factory_->CreateSession(
key_, quic_version_, cert_verify_flags_, require_confirmation,
resolve_host_request_->GetAddressResults().value(),
dns_resolution_start_time_, dns_resolution_end_time_, net_log_, &session_,
&network_);
DVLOG(1) << "Created session on network: " << network_;
if (rv != OK) {
DCHECK(rv != ERR_IO_PENDING);
DCHECK(!session_);
return rv;
}
if (!session_->connection()->connected())
return ERR_CONNECTION_CLOSED;
session_->StartReading();
if (!session_->connection()->connected())
return ERR_QUIC_PROTOCOL_ERROR;
rv = session_->CryptoConnect(
base::Bind(&QuicStreamFactory::Job::OnConnectComplete, GetWeakPtr()));
if (!session_->connection()->connected() &&
session_->error() == quic::QUIC_PROOF_INVALID) {
return ERR_QUIC_HANDSHAKE_FAILED;
}
return rv;
}
int QuicStreamFactory::Job::DoConnectComplete(int rv) {
if (!fresh_resolve_host_request_) {
io_state_ = STATE_CONFIRM_CONNECTION;
return rv;
}
if (rv == OK) {
io_state_ = STATE_HOST_VALIDATION;
return ERR_IO_PENDING;
}
// Connection from stale host resolution failed, has been closed and will
// be deleted soon. Update Job status accordingly to wait for fresh host
// resolution.
resolve_host_request_ = std::move(fresh_resolve_host_request_);
session_ = nullptr;
io_state_ = STATE_RESOLVE_HOST_COMPLETE;
return ERR_IO_PENDING;
}
// This state is reached iff both host resolution and connection from stale dns
// have finished successfully.
int QuicStreamFactory::Job::DoValidateHost() {
if (DoesPeerAddressMatchWithFreshAddressList()) {
LogStaleAndFreshHostMatched(true);
fresh_resolve_host_request_ = nullptr;
host_resolution_finished_ = true;
io_state_ = STATE_CONFIRM_CONNECTION;
return OK;
}
LogStaleAndFreshHostMatched(false);
resolve_host_request_ = std::move(fresh_resolve_host_request_);
CloseStaleHostConnection();
io_state_ = STATE_RESOLVE_HOST_COMPLETE;
return OK;
}
int QuicStreamFactory::Job::DoConfirmConnection(int rv) {
UMA_HISTOGRAM_TIMES("Net.QuicSession.TimeFromResolveHostToConfirmConnection",
base::TimeTicks::Now() - dns_resolution_start_time_);
net_log_.EndEvent(NetLogEventType::QUIC_STREAM_FACTORY_JOB_CONNECT);
if (session_ &&
session_->error() == quic::QUIC_CRYPTO_HANDSHAKE_STATELESS_REJECT) {
num_sent_client_hellos_ += session_->GetNumSentClientHellos();
if (num_sent_client_hellos_ >=
quic::QuicCryptoClientStream::kMaxClientHellos)
return ERR_QUIC_HANDSHAKE_FAILED;
// The handshake was rejected statelessly, so create another connection
// to resume the handshake.
io_state_ = STATE_CONNECT;
return OK;
}
if (was_alternative_service_recently_broken_)
UMA_HISTOGRAM_BOOLEAN("Net.QuicSession.ConnectAfterBroken", rv == OK);
if (retry_on_alternate_network_before_handshake_ && session_ &&
!session_->IsCryptoHandshakeConfirmed() &&
network_ == factory_->default_network()) {
if (session_->error() == quic::QUIC_NETWORK_IDLE_TIMEOUT ||
session_->error() == quic::QUIC_HANDSHAKE_TIMEOUT ||
session_->error() == quic::QUIC_PACKET_WRITE_ERROR) {
// Retry the connection on an alternate network if crypto handshake failed
// with network idle time out or handshake time out.
DCHECK(network_ != NetworkChangeNotifier::kInvalidNetworkHandle);
network_ = factory_->FindAlternateNetwork(network_);
connection_retried_ =
network_ != NetworkChangeNotifier::kInvalidNetworkHandle;
UMA_HISTOGRAM_BOOLEAN(
"Net.QuicStreamFactory.AttemptMigrationBeforeHandshake",
connection_retried_);
UMA_HISTOGRAM_ENUMERATION(
"Net.QuicStreamFactory.AttemptMigrationBeforeHandshake."
"FailedConnectionType",
NetworkChangeNotifier::GetNetworkConnectionType(
factory_->default_network()),
NetworkChangeNotifier::ConnectionType::CONNECTION_LAST + 1);
if (connection_retried_) {
UMA_HISTOGRAM_ENUMERATION(
"Net.QuicStreamFactory.MigrationBeforeHandshake.NewConnectionType",
NetworkChangeNotifier::GetNetworkConnectionType(network_),
NetworkChangeNotifier::ConnectionType::CONNECTION_LAST + 1);
net_log_.AddEvent(
NetLogEventType::
QUIC_STREAM_FACTORY_JOB_RETRY_ON_ALTERNATE_NETWORK);
// Notify requests that connection on the default network failed.
for (auto* request : stream_requests_) {
request->OnConnectionFailedOnDefaultNetwork();
}
DVLOG(1) << "Retry connection on alternate network: " << network_;
session_ = nullptr;
io_state_ = STATE_CONNECT;
return OK;
}
}
}
if (connection_retried_) {
UMA_HISTOGRAM_BOOLEAN("Net.QuicStreamFactory.MigrationBeforeHandshake2",
rv == OK);
if (rv == OK) {
UMA_HISTOGRAM_BOOLEAN(
"Net.QuicStreamFactory.NetworkChangeDuringMigrationBeforeHandshake",
network_ == factory_->default_network());
} else {
base::UmaHistogramSparse(
"Net.QuicStreamFactory.MigrationBeforeHandshakeFailedReason", -rv);
}
} else if (network_ != NetworkChangeNotifier::kInvalidNetworkHandle &&
network_ != factory_->default_network()) {
UMA_HISTOGRAM_BOOLEAN("Net.QuicStreamFactory.ConnectionOnNonDefaultNetwork",
rv == OK);
}
if (rv != OK)
return rv;
DCHECK(!factory_->HasActiveSession(key_.session_key()));
// There may well now be an active session for this IP. If so, use the
// existing session instead.
AddressList address(
session_->connection()->peer_address().impl().socket_address());
if (factory_->HasMatchingIpSession(key_, address)) {
LogConnectionIpPooling(true);
session_->connection()->CloseConnection(
quic::QUIC_CONNECTION_IP_POOLED,
"An active session exists for the given IP.",
quic::ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
session_ = nullptr;
return OK;
}
LogConnectionIpPooling(false);
factory_->ActivateSession(key_, session_);
return OK;
}
QuicStreamRequest::QuicStreamRequest(QuicStreamFactory* factory)
: factory_(factory), expect_on_host_resolution_(false) {}
QuicStreamRequest::~QuicStreamRequest() {
if (factory_ && !callback_.is_null())
factory_->CancelRequest(this);
}
int QuicStreamRequest::Request(
const HostPortPair& destination,
quic::QuicTransportVersion quic_version,
PrivacyMode privacy_mode,
RequestPriority priority,
const SocketTag& socket_tag,
int cert_verify_flags,
const GURL& url,
const NetLogWithSource& net_log,
NetErrorDetails* net_error_details,
CompletionOnceCallback failed_on_default_network_callback,
CompletionOnceCallback callback) {
DCHECK_NE(quic_version, quic::QUIC_VERSION_UNSUPPORTED);
DCHECK(net_error_details);
DCHECK(callback_.is_null());
DCHECK(host_resolution_callback_.is_null());
DCHECK(factory_);
net_error_details_ = net_error_details;
failed_on_default_network_callback_ =
std::move(failed_on_default_network_callback);
session_key_ =
QuicSessionKey(HostPortPair::FromURL(url), privacy_mode, socket_tag);
int rv = factory_->Create(session_key_, destination, quic_version, priority,
cert_verify_flags, url, net_log, this);
if (rv == ERR_IO_PENDING) {
net_log_ = net_log;
callback_ = std::move(callback);
} else {
DCHECK(!expect_on_host_resolution_);
factory_ = nullptr;
}
if (rv == OK)
DCHECK(session_);
return rv;
}
bool QuicStreamRequest::WaitForHostResolution(CompletionOnceCallback callback) {
DCHECK(host_resolution_callback_.is_null());
if (expect_on_host_resolution_) {
host_resolution_callback_ = std::move(callback);
}
return expect_on_host_resolution_;
}
void QuicStreamRequest::SetSession(
std::unique_ptr<QuicChromiumClientSession::Handle> session) {
session_ = move(session);
}
void QuicStreamRequest::OnConnectionFailedOnDefaultNetwork() {
if (!failed_on_default_network_callback_.is_null())
base::ResetAndReturn(&failed_on_default_network_callback_).Run(OK);
}
void QuicStreamRequest::OnRequestComplete(int rv) {
factory_ = nullptr;
base::ResetAndReturn(&callback_).Run(rv);
}
void QuicStreamRequest::ExpectOnHostResolution() {
expect_on_host_resolution_ = true;
}
void QuicStreamRequest::OnHostResolutionComplete(int rv) {
DCHECK(expect_on_host_resolution_);
expect_on_host_resolution_ = false;
if (!host_resolution_callback_.is_null()) {
base::ResetAndReturn(&host_resolution_callback_).Run(rv);
}
}
base::TimeDelta QuicStreamRequest::GetTimeDelayForWaitingJob() const {
if (!factory_)
return base::TimeDelta();
return factory_->GetTimeDelayForWaitingJob(session_key_.server_id());
}
void QuicStreamRequest::SetPriority(RequestPriority priority) {
if (factory_)
factory_->SetRequestPriority(this, priority);
}
std::unique_ptr<QuicChromiumClientSession::Handle>
QuicStreamRequest::ReleaseSessionHandle() {
if (!session_ || !session_->IsConnected())
return nullptr;
return std::move(session_);
}
QuicStreamFactory::QuicStreamFactory(
NetLog* net_log,
HostResolver* host_resolver,
SSLConfigService* ssl_config_service,
ClientSocketFactory* client_socket_factory,
HttpServerProperties* http_server_properties,
CertVerifier* cert_verifier,
CTPolicyEnforcer* ct_policy_enforcer,
TransportSecurityState* transport_security_state,
CTVerifier* cert_transparency_verifier,
SocketPerformanceWatcherFactory* socket_performance_watcher_factory,
QuicCryptoClientStreamFactory* quic_crypto_client_stream_factory,
quic::QuicRandom* random_generator,
quic::QuicClock* clock,
size_t max_packet_length,
const std::string& user_agent_id,
bool store_server_configs_in_properties,
bool close_sessions_on_ip_change,
bool goaway_sessions_on_ip_change,
bool mark_quic_broken_when_network_blackholes,
int idle_connection_timeout_seconds,
int reduced_ping_timeout_seconds,
int retransmittable_on_wire_timeout_milliseconds,
int max_time_before_crypto_handshake_seconds,
int max_idle_time_before_crypto_handshake_seconds,
bool migrate_sessions_on_network_change_v2,
bool migrate_sessions_early_v2,
bool retry_on_alternate_network_before_handshake,
bool migrate_idle_sessions,
base::TimeDelta idle_session_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,
bool allow_server_migration,
bool race_stale_dns_on_connection,
bool go_away_on_path_degrading,
bool race_cert_verification,
bool estimate_initial_rtt,
bool headers_include_h2_stream_dependency,
const quic::QuicTagVector& connection_options,
const quic::QuicTagVector& client_connection_options,
bool enable_socket_recv_optimization)
: require_confirmation_(true),
net_log_(net_log),
host_resolver_(host_resolver),
client_socket_factory_(client_socket_factory),
http_server_properties_(http_server_properties),
push_delegate_(nullptr),
transport_security_state_(transport_security_state),
cert_transparency_verifier_(cert_transparency_verifier),
quic_crypto_client_stream_factory_(quic_crypto_client_stream_factory),
random_generator_(random_generator),
clock_(clock),
max_packet_length_(max_packet_length),
clock_skew_detector_(base::TimeTicks::Now(), base::Time::Now()),
socket_performance_watcher_factory_(socket_performance_watcher_factory),
config_(
InitializeQuicConfig(connection_options,
client_connection_options,
idle_connection_timeout_seconds,
max_time_before_crypto_handshake_seconds,
max_idle_time_before_crypto_handshake_seconds)),
crypto_config_(
std::make_unique<ProofVerifierChromium>(cert_verifier,
ct_policy_enforcer,
transport_security_state,
cert_transparency_verifier),
QuicStreamFactoryCreateSslCtx()),
mark_quic_broken_when_network_blackholes_(
mark_quic_broken_when_network_blackholes),
store_server_configs_in_properties_(store_server_configs_in_properties),
ping_timeout_(quic::QuicTime::Delta::FromSeconds(quic::kPingTimeoutSecs)),
reduced_ping_timeout_(
quic::QuicTime::Delta::FromSeconds(reduced_ping_timeout_seconds)),
retransmittable_on_wire_timeout_(quic::QuicTime::Delta::FromMilliseconds(
retransmittable_on_wire_timeout_milliseconds)),
yield_after_packets_(kQuicYieldAfterPacketsRead),
yield_after_duration_(quic::QuicTime::Delta::FromMilliseconds(
kQuicYieldAfterDurationMilliseconds)),
close_sessions_on_ip_change_(close_sessions_on_ip_change),
goaway_sessions_on_ip_change_(goaway_sessions_on_ip_change),
migrate_sessions_on_network_change_v2_(
migrate_sessions_on_network_change_v2 &&
NetworkChangeNotifier::AreNetworkHandlesSupported()),
migrate_sessions_early_v2_(migrate_sessions_early_v2 &&
migrate_sessions_on_network_change_v2_),
retry_on_alternate_network_before_handshake_(
retry_on_alternate_network_before_handshake &&
migrate_sessions_on_network_change_v2_),
default_network_(NetworkChangeNotifier::kInvalidNetworkHandle),
migrate_idle_sessions_(migrate_idle_sessions &&
migrate_sessions_on_network_change_v2_),
idle_session_migration_period_(idle_session_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),
max_migrations_to_non_default_network_on_path_degrading_(
max_migrations_to_non_default_network_on_path_degrading),
allow_server_migration_(allow_server_migration),
race_stale_dns_on_connection_(race_stale_dns_on_connection),
go_away_on_path_degrading_(go_away_on_path_degrading),
race_cert_verification_(race_cert_verification),
estimate_initial_rtt(estimate_initial_rtt),
headers_include_h2_stream_dependency_(
headers_include_h2_stream_dependency),
need_to_check_persisted_supports_quic_(true),
num_push_streams_created_(0),
tick_clock_(nullptr),
task_runner_(nullptr),
ssl_config_service_(ssl_config_service),
enable_socket_recv_optimization_(enable_socket_recv_optimization),
weak_factory_(this) {
DCHECK(transport_security_state_);
DCHECK(http_server_properties_);
crypto_config_.set_user_agent_id(user_agent_id);
crypto_config_.AddCanonicalSuffix(".c.youtube.com");
crypto_config_.AddCanonicalSuffix(".ggpht.com");
crypto_config_.AddCanonicalSuffix(".googlevideo.com");
crypto_config_.AddCanonicalSuffix(".googleusercontent.com");
bool prefer_aes_gcm =
!crypto_config_.aead.empty() && (crypto_config_.aead[0] == quic::kAESG);
UMA_HISTOGRAM_BOOLEAN("Net.QuicSession.PreferAesGcm", prefer_aes_gcm);
if (migrate_sessions_early_v2 || retry_on_alternate_network_before_handshake)
DCHECK(migrate_sessions_on_network_change_v2);
// goaway_sessions_on_ip_change and close_sessions_on_ip_change should never
// be simultaneously set to true.
DCHECK(!(close_sessions_on_ip_change_ && goaway_sessions_on_ip_change_));
// Connection migration should not be set if explicitly handle ip address
// change.
bool handle_ip_change =
close_sessions_on_ip_change_ || goaway_sessions_on_ip_change_;
DCHECK(!(handle_ip_change && migrate_sessions_on_network_change_v2_));
if (handle_ip_change)
NetworkChangeNotifier::AddIPAddressObserver(this);
if (NetworkChangeNotifier::AreNetworkHandlesSupported())
NetworkChangeNotifier::AddNetworkObserver(this);
}
QuicStreamFactory::~QuicStreamFactory() {
UMA_HISTOGRAM_COUNTS_1000("Net.NumQuicSessionsAtShutdown",
all_sessions_.size());
CloseAllSessions(ERR_ABORTED, quic::QUIC_CONNECTION_CANCELLED);
while (!all_sessions_.empty()) {
delete all_sessions_.begin()->first;
all_sessions_.erase(all_sessions_.begin());
}
active_jobs_.clear();
while (!active_cert_verifier_jobs_.empty())
active_cert_verifier_jobs_.erase(active_cert_verifier_jobs_.begin());
if (close_sessions_on_ip_change_ || goaway_sessions_on_ip_change_) {
NetworkChangeNotifier::RemoveIPAddressObserver(this);
}
if (NetworkChangeNotifier::AreNetworkHandlesSupported()) {
NetworkChangeNotifier::RemoveNetworkObserver(this);
}
}
void QuicStreamFactory::set_require_confirmation(bool require_confirmation) {
require_confirmation_ = require_confirmation;
if (!(local_address_ == IPEndPoint())) {
http_server_properties_->SetSupportsQuic(!require_confirmation,
local_address_.address());
}
}
base::TimeDelta QuicStreamFactory::GetTimeDelayForWaitingJob(
const quic::QuicServerId& server_id) {
if (require_confirmation_) {
IPAddress last_address;
if (!need_to_check_persisted_supports_quic_ ||
!http_server_properties_->GetSupportsQuic(&last_address)) {
return base::TimeDelta();
}
}
int64_t srtt =
1.5 * GetServerNetworkStatsSmoothedRttInMicroseconds(server_id);
// Picked 300ms based on mean time from
// Net.QuicSession.HostResolution.HandshakeConfirmedTime histogram.
const int kDefaultRTT = 300 * quic::kNumMicrosPerMilli;
if (!srtt)
srtt = kDefaultRTT;
return base::TimeDelta::FromMicroseconds(srtt);
}
void QuicStreamFactory::DumpMemoryStats(
base::trace_event::ProcessMemoryDump* pmd,
const std::string& parent_absolute_name) const {
if (all_sessions_.empty() && active_jobs_.empty())
return;
base::trace_event::MemoryAllocatorDump* factory_dump =
pmd->CreateAllocatorDump(parent_absolute_name + "/quic_stream_factory");
size_t memory_estimate =
base::trace_event::EstimateMemoryUsage(all_sessions_) +
base::trace_event::EstimateMemoryUsage(active_sessions_) +
base::trace_event::EstimateMemoryUsage(session_aliases_) +
base::trace_event::EstimateMemoryUsage(ip_aliases_) +
base::trace_event::EstimateMemoryUsage(session_peer_ip_) +
base::trace_event::EstimateMemoryUsage(gone_away_aliases_) +
base::trace_event::EstimateMemoryUsage(active_jobs_) +
base::trace_event::EstimateMemoryUsage(active_cert_verifier_jobs_);
factory_dump->AddScalar(base::trace_event::MemoryAllocatorDump::kNameSize,
base::trace_event::MemoryAllocatorDump::kUnitsBytes,
memory_estimate);
factory_dump->AddScalar("all_sessions",
base::trace_event::MemoryAllocatorDump::kUnitsObjects,
all_sessions_.size());
factory_dump->AddScalar("active_jobs",
base::trace_event::MemoryAllocatorDump::kUnitsObjects,
active_jobs_.size());
factory_dump->AddScalar("active_cert_jobs",
base::trace_event::MemoryAllocatorDump::kUnitsObjects,
active_cert_verifier_jobs_.size());
}
bool QuicStreamFactory::CanUseExistingSession(const QuicSessionKey& session_key,
const HostPortPair& destination) {
// TODO(zhongyi): delete active_sessions_.empty() checks once the
// android crash issue(crbug.com/498823) is resolved.
if (active_sessions_.empty())
return false;
if (base::ContainsKey(active_sessions_, session_key))
return true;
for (const auto& key_value : active_sessions_) {
QuicChromiumClientSession* session = key_value.second;
if (destination.Equals(all_sessions_[session].destination()) &&
session->CanPool(session_key.host(), session_key.privacy_mode(),
session_key.socket_tag())) {
return true;
}
}
return false;
}
void QuicStreamFactory::MarkAllActiveSessionsGoingAway() {
while (!active_sessions_.empty()) {
QuicChromiumClientSession* session = active_sessions_.begin()->second;
OnSessionGoingAway(session);
}
}
int QuicStreamFactory::Create(const QuicSessionKey& session_key,
const HostPortPair& destination,
quic::QuicTransportVersion quic_version,
RequestPriority priority,
int cert_verify_flags,
const GURL& url,
const NetLogWithSource& net_log,
QuicStreamRequest* request) {
if (clock_skew_detector_.ClockSkewDetected(base::TimeTicks::Now(),
base::Time::Now())) {
MarkAllActiveSessionsGoingAway();
}
DCHECK(HostPortPair(session_key.server_id().host(),
session_key.server_id().port())
.Equals(HostPortPair::FromURL(url)));
// Enforce session affinity for promised streams.
quic::QuicClientPromisedInfo* promised =
push_promise_index_.GetPromised(url.spec());
if (promised) {
QuicChromiumClientSession* session =
static_cast<QuicChromiumClientSession*>(promised->session());
DCHECK(session);
if (session->server_id().privacy_mode_enabled() ==
session_key.server_id().privacy_mode_enabled()) {
request->SetSession(session->CreateHandle(destination));
++num_push_streams_created_;
return OK;
}
// This should happen extremely rarely (if ever), but if somehow a
// request comes in with a mismatched privacy mode, consider the
// promise borked.
promised->Cancel();
}
// Use active session for |session_key| if such exists.
// TODO(rtenneti): crbug.com/498823 - delete active_sessions_.empty() checks.
if (!active_sessions_.empty()) {
auto it = active_sessions_.find(session_key);
if (it != active_sessions_.end()) {
QuicChromiumClientSession* session = it->second;
request->SetSession(session->CreateHandle(destination));
return OK;
}
}
// Associate with active job to |session_key| if such exists.
auto it = active_jobs_.find(session_key);
if (it != active_jobs_.end()) {
const NetLogWithSource& job_net_log = it->second->net_log();
job_net_log.AddEvent(
NetLogEventType::QUIC_STREAM_FACTORY_JOB_BOUND_TO_HTTP_STREAM_JOB,
net_log.source().ToEventParametersCallback());
net_log.AddEvent(
NetLogEventType::HTTP_STREAM_JOB_BOUND_TO_QUIC_STREAM_FACTORY_JOB,
job_net_log.source().ToEventParametersCallback());
it->second->AddRequest(request);
return ERR_IO_PENDING;
}
// Pool to active session to |destination| if possible.
if (!active_sessions_.empty()) {
for (const auto& key_value : active_sessions_) {
QuicChromiumClientSession* session = key_value.second;
if (destination.Equals(all_sessions_[session].destination()) &&
session->CanPool(session_key.server_id().host(),
session_key.server_id().privacy_mode_enabled()
? PRIVACY_MODE_ENABLED
: PRIVACY_MODE_DISABLED,
session_key.socket_tag())) {
request->SetSession(session->CreateHandle(destination));
return OK;
}
}
}
// TODO(rtenneti): |task_runner_| is used by the Job. Initialize task_runner_
// in the constructor after WebRequestActionWithThreadsTest.* tests are fixed.
if (!task_runner_)
task_runner_ = base::ThreadTaskRunnerHandle::Get().get();
if (!tick_clock_)
tick_clock_ = base::DefaultTickClock::GetInstance();
ignore_result(
StartCertVerifyJob(session_key.server_id(), cert_verify_flags, net_log));
QuicSessionAliasKey key(destination, session_key);
std::unique_ptr<Job> job = std::make_unique<Job>(
this, quic_version, host_resolver_, key,
WasQuicRecentlyBroken(session_key.server_id()),
retry_on_alternate_network_before_handshake_,
race_stale_dns_on_connection_, priority, cert_verify_flags, net_log);
int rv = job->Run(
base::BindRepeating(&QuicStreamFactory::OnJobComplete,
base::Unretained(this), job.get()));
if (rv == ERR_IO_PENDING) {
job->AddRequest(request);
active_jobs_[session_key] = std::move(job);
return rv;
}
if (rv == OK) {
// TODO(rtenneti): crbug.com/498823 - revert active_sessions_.empty()
// related changes.
if (active_sessions_.empty())
return ERR_QUIC_PROTOCOL_ERROR;
auto it = active_sessions_.find(session_key);
DCHECK(it != active_sessions_.end());
if (it == active_sessions_.end())
return ERR_QUIC_PROTOCOL_ERROR;
QuicChromiumClientSession* session = it->second;
request->SetSession(session->CreateHandle(destination));
}
return rv;
}
QuicStreamFactory::QuicSessionAliasKey::QuicSessionAliasKey(
const HostPortPair& destination,
const QuicSessionKey& session_key)
: destination_(destination), session_key_(session_key) {}
bool QuicStreamFactory::QuicSessionAliasKey::operator<(
const QuicSessionAliasKey& other) const {
return std::tie(destination_, session_key_) <
std::tie(other.destination_, other.session_key_);
}
bool QuicStreamFactory::QuicSessionAliasKey::operator==(
const QuicSessionAliasKey& other) const {
return destination_.Equals(other.destination_) &&
session_key_ == other.session_key_;
}
size_t QuicStreamFactory::QuicSessionAliasKey::EstimateMemoryUsage() const {
return base::trace_event::EstimateMemoryUsage(destination_) +
base::trace_event::EstimateMemoryUsage(session_key_.server_id());
}
bool QuicStreamFactory::HasMatchingIpSession(const QuicSessionAliasKey& key,
const AddressList& address_list) {
const quic::QuicServerId& server_id(key.server_id());
DCHECK(!HasActiveSession(key.session_key()));
for (const IPEndPoint& address : address_list) {
if (!base::ContainsKey(ip_aliases_, address))
continue;
const SessionSet& sessions = ip_aliases_[address];
for (QuicChromiumClientSession* session : sessions) {
if (!session->CanPool(server_id.host(),
server_id.privacy_mode_enabled()
? PRIVACY_MODE_ENABLED
: PRIVACY_MODE_DISABLED,
key.session_key().socket_tag()))
continue;
active_sessions_[key.session_key()] = session;
session_aliases_[session].insert(key);
return true;
}
}
return false;
}
void QuicStreamFactory::OnJobComplete(Job* job, int rv) {
auto iter = active_jobs_.find(job->key().session_key());
DCHECK(iter != active_jobs_.end());
if (rv == OK) {
set_require_confirmation(false);
auto session_it = active_sessions_.find(job->key().session_key());
CHECK(session_it != active_sessions_.end());
QuicChromiumClientSession* session = session_it->second;
for (auto* request : iter->second->stream_requests()) {
// Do not notify |request| yet.
request->SetSession(session->CreateHandle(job->key().destination()));
}
}
for (auto* request : iter->second->stream_requests()) {
// Even though we're invoking callbacks here, we don't need to worry
// about |this| being deleted, because the factory is owned by the
// profile which can not be deleted via callbacks.
if (rv < 0) {
job->PopulateNetErrorDetails(request->net_error_details());
}
request->OnRequestComplete(rv);
}
active_jobs_.erase(iter);
}
void QuicStreamFactory::OnCertVerifyJobComplete(CertVerifierJob* job, int rv) {
active_cert_verifier_jobs_.erase(job->server_id());
}
void QuicStreamFactory::OnSessionGoingAway(QuicChromiumClientSession* session) {
const AliasSet& aliases = session_aliases_[session];
for (auto it = aliases.begin(); it != aliases.end(); ++it) {
const QuicSessionKey& session_key = it->session_key();
DCHECK(active_sessions_.count(session_key));
DCHECK_EQ(session, active_sessions_[session_key]);
// Track sessions which have recently gone away so that we can disable
// port suggestions.
if (session->goaway_received())
gone_away_aliases_.insert(*it);
active_sessions_.erase(session_key);
ProcessGoingAwaySession(session, session_key.server_id(), true);
}
ProcessGoingAwaySession(session, all_sessions_[session].server_id(), false);
if (!aliases.empty()) {
DCHECK(base::ContainsKey(session_peer_ip_, session));
const IPEndPoint peer_address = session_peer_ip_[session];
ip_aliases_[peer_address].erase(session);
if (ip_aliases_[peer_address].empty())
ip_aliases_.erase(peer_address);
session_peer_ip_.erase(session);
}
session_aliases_.erase(session);
}
void QuicStreamFactory::OnSessionClosed(QuicChromiumClientSession* session) {
DCHECK_EQ(0u, session->GetNumActiveStreams());
OnSessionGoingAway(session);
delete session;
all_sessions_.erase(session);
}
void QuicStreamFactory::OnBlackholeAfterHandshakeConfirmed(
QuicChromiumClientSession* session) {
// Reduce PING timeout when connection blackholes after the handshake.
if (ping_timeout_ > reduced_ping_timeout_)
ping_timeout_ = reduced_ping_timeout_;
if (mark_quic_broken_when_network_blackholes_) {
http_server_properties_->MarkAlternativeServiceBroken(AlternativeService(
kProtoQUIC, HostPortPair(session->server_id().host(),
session->server_id().port())));
}
}
void QuicStreamFactory::CancelRequest(QuicStreamRequest* request) {
auto job_iter = active_jobs_.find(request->session_key());
CHECK(job_iter != active_jobs_.end());
job_iter->second->RemoveRequest(request);
}
void QuicStreamFactory::SetRequestPriority(QuicStreamRequest* request,
RequestPriority priority) {
auto job_iter = active_jobs_.find(request->session_key());
if (job_iter == active_jobs_.end())
return;
job_iter->second->SetPriority(priority);
}
void QuicStreamFactory::CloseAllSessions(int error,
quic::QuicErrorCode quic_error) {
base::UmaHistogramSparse("Net.QuicSession.CloseAllSessionsError", -error);
while (!active_sessions_.empty()) {
size_t initial_size = active_sessions_.size();
active_sessions_.begin()->second->CloseSessionOnError(
error, quic_error,
quic::ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
DCHECK_NE(initial_size, active_sessions_.size());
}
while (!all_sessions_.empty()) {
size_t initial_size = all_sessions_.size();
all_sessions_.begin()->first->CloseSessionOnError(
error, quic_error,
quic::ConnectionCloseBehavior::SEND_CONNECTION_CLOSE_PACKET);
DCHECK_NE(initial_size, all_sessions_.size());
}
DCHECK(all_sessions_.empty());
}
std::unique_ptr<base::Value> QuicStreamFactory::QuicStreamFactoryInfoToValue()
const {
std::unique_ptr<base::ListValue> list(new base::ListValue());
for (auto it = active_sessions_.begin(); it != active_sessions_.end(); ++it) {
const quic::QuicServerId& server_id = it->first.server_id();
QuicChromiumClientSession* session = it->second;
const AliasSet& aliases = session_aliases_.find(session)->second;
// Only add a session to the list once.
if (server_id == aliases.begin()->server_id()) {
std::set<HostPortPair> hosts;
for (auto alias_it = aliases.begin(); alias_it != aliases.end();
++alias_it) {
hosts.insert(HostPortPair(alias_it->server_id().host(),
alias_it->server_id().port()));
}
list->Append(session->GetInfoAsValue(hosts));
}
}
return std::move(list);
}
void QuicStreamFactory::ClearCachedStatesInCryptoConfig(
const base::Callback<bool(const GURL&)>& origin_filter) {
ServerIdOriginFilter filter(origin_filter);
crypto_config_.ClearCachedStates(filter);
}
void QuicStreamFactory::OnIPAddressChanged() {
LogPlatformNotificationInHistogram(NETWORK_IP_ADDRESS_CHANGED);
// Do nothing if connection migration is turned on.
if (migrate_sessions_on_network_change_v2_)
return;
set_require_confirmation(true);
if (close_sessions_on_ip_change_) {
CloseAllSessions(ERR_NETWORK_CHANGED, quic::QUIC_IP_ADDRESS_CHANGED);
} else {
DCHECK(goaway_sessions_on_ip_change_);
MarkAllActiveSessionsGoingAway();
}
}
void QuicStreamFactory::OnNetworkConnected(NetworkHandle network) {
LogPlatformNotificationInHistogram(NETWORK_CONNECTED);
if (!migrate_sessions_on_network_change_v2_)
return;
ScopedConnectionMigrationEventLog scoped_event_log(net_log_,
"OnNetworkConnected");
auto it = all_sessions_.begin();
// Sessions may be deleted while iterating through the map.
while (it != all_sessions_.end()) {
QuicChromiumClientSession* session = it->first;
++it;
session->OnNetworkConnected(network, scoped_event_log.net_log());
}
}
void QuicStreamFactory::OnNetworkMadeDefault(NetworkHandle network) {
LogPlatformNotificationInHistogram(NETWORK_MADE_DEFAULT);
if (!migrate_sessions_on_network_change_v2_)
return;
// Clear alternative services that were marked as broken until default network
// changes.
if (retry_on_alternate_network_before_handshake_ &&
default_network_ != NetworkChangeNotifier::kInvalidNetworkHandle &&
network != default_network_) {
http_server_properties_->OnDefaultNetworkChanged();
}
DCHECK_NE(NetworkChangeNotifier::kInvalidNetworkHandle, network);
default_network_ = network;
ScopedConnectionMigrationEventLog scoped_event_log(net_log_,
"OnNetworkMadeDefault");
auto it = all_sessions_.begin();
// Sessions may be deleted while iterating through the map.
while (it != all_sessions_.end()) {
QuicChromiumClientSession* session = it->first;
++it;
session->OnNetworkMadeDefault(network, scoped_event_log.net_log());
}
set_require_confirmation(true);
}
void QuicStreamFactory::OnNetworkDisconnected(NetworkHandle network) {
LogPlatformNotificationInHistogram(NETWORK_DISCONNECTED);
if (!migrate_sessions_on_network_change_v2_)
return;
ScopedConnectionMigrationEventLog scoped_event_log(net_log_,
"OnNetworkDisconnected");
auto it = all_sessions_.begin();
// Sessions may be deleted while iterating through the map.
while (it != all_sessions_.end()) {
QuicChromiumClientSession* session = it->first;
++it;
session->OnNetworkDisconnectedV2(/*disconnected_network*/ network,
scoped_event_log.net_log());
}
}
// This method is expected to only be called when migrating from Cellular to
// WiFi on Android, and should always be preceded by OnNetworkMadeDefault().
void QuicStreamFactory::OnNetworkSoonToDisconnect(NetworkHandle network) {
LogPlatformNotificationInHistogram(NETWORK_SOON_TO_DISCONNECT);
}
NetworkHandle QuicStreamFactory::FindAlternateNetwork(
NetworkHandle old_network) {
// Find a new network that sessions bound to |old_network| can be migrated to.
NetworkChangeNotifier::NetworkList network_list;
NetworkChangeNotifier::GetConnectedNetworks(&network_list);
for (NetworkHandle new_network : network_list) {
if (new_network != old_network)
return new_network;
}
return NetworkChangeNotifier::kInvalidNetworkHandle;
}
std::unique_ptr<DatagramClientSocket> QuicStreamFactory::CreateSocket(
NetLog* net_log,
const NetLogSource& source) {
auto socket = client_socket_factory_->CreateDatagramClientSocket(
DatagramSocket::DEFAULT_BIND, net_log, source);
if (enable_socket_recv_optimization_)
socket->EnableRecvOptimization();
return socket;
}
void QuicStreamFactory::OnCertDBChanged() {
// We should flush the sessions if we removed trust from a
// cert, because a previously trusted server may have become
// untrusted.
//
// We should not flush the sessions if we added trust to a cert.
//
// Since the OnCertDBChanged method doesn't tell us what
// kind of change it is, we have to flush the socket
// pools to be safe.
MarkAllActiveSessionsGoingAway();
}
bool QuicStreamFactory::HasActiveSession(
const QuicSessionKey& session_key) const {
// TODO(rtenneti): crbug.com/498823 - delete active_sessions_.empty() check.
if (active_sessions_.empty())
return false;
return base::ContainsKey(active_sessions_, session_key);
}
bool QuicStreamFactory::HasActiveJob(const QuicSessionKey& session_key) const {
return base::ContainsKey(active_jobs_, session_key);
}
bool QuicStreamFactory::HasActiveCertVerifierJob(
const quic::QuicServerId& server_id) const {
return base::ContainsKey(active_cert_verifier_jobs_, server_id);
}
int QuicStreamFactory::ConfigureSocket(DatagramClientSocket* socket,
IPEndPoint addr,
NetworkHandle network,
const SocketTag& socket_tag) {
socket->UseNonBlockingIO();
int rv;
if (migrate_sessions_on_network_change_v2_) {
// If caller leaves network unspecified, use current default network.
if (network == NetworkChangeNotifier::kInvalidNetworkHandle) {
rv = socket->ConnectUsingDefaultNetwork(addr);
} else {
rv = socket->ConnectUsingNetwork(network, addr);
}
} else {
rv = socket->Connect(addr);
}
if (rv != OK) {
HistogramCreateSessionFailure(CREATION_ERROR_CONNECTING_SOCKET);
return rv;
}
socket->ApplySocketTag(socket_tag);
rv = socket->SetReceiveBufferSize(kQuicSocketReceiveBufferSize);
if (rv != OK) {
HistogramCreateSessionFailure(CREATION_ERROR_SETTING_RECEIVE_BUFFER);
return rv;
}
rv = socket->SetDoNotFragment();
// SetDoNotFragment is not implemented on all platforms, so ignore errors.
if (rv != OK && rv != ERR_NOT_IMPLEMENTED) {
HistogramCreateSessionFailure(CREATION_ERROR_SETTING_DO_NOT_FRAGMENT);
return rv;
}
// Set a buffer large enough to contain the initial CWND's worth of packet
// to work around the problem with CHLO packets being sent out with the
// wrong encryption level, when the send buffer is full.
rv = socket->SetSendBufferSize(quic::kMaxPacketSize * 20);
if (rv != OK) {
HistogramCreateSessionFailure(CREATION_ERROR_SETTING_SEND_BUFFER);
return rv;
}
socket->GetLocalAddress(&local_address_);
if (need_to_check_persisted_supports_quic_) {
need_to_check_persisted_supports_quic_ = false;
IPAddress last_address;
if (http_server_properties_->GetSupportsQuic(&last_address) &&
last_address == local_address_.address()) {
require_confirmation_ = false;
// Clear the persisted IP address, in case the network no longer supports
// QUIC so the next restart will require confirmation. It will be
// re-persisted when the first job completes successfully.
http_server_properties_->SetSupportsQuic(false, last_address);
}
}
return OK;
}
int QuicStreamFactory::CreateSession(
const QuicSessionAliasKey& key,
const quic::QuicTransportVersion& quic_version,
int cert_verify_flags,
bool require_confirmation,
const AddressList& address_list,
base::TimeTicks dns_resolution_start_time,
base::TimeTicks dns_resolution_end_time,
const NetLogWithSource& net_log,
QuicChromiumClientSession** session,
NetworkChangeNotifier::NetworkHandle* network) {
TRACE_EVENT0(NetTracingCategory(), "QuicStreamFactory::CreateSession");
IPEndPoint addr = *address_list.begin();
const quic::QuicServerId& server_id = key.server_id();
std::unique_ptr<DatagramClientSocket> socket(
CreateSocket(net_log.net_log(), net_log.source()));
// Passing in kInvalidNetworkHandle binds socket to default network.
int rv = ConfigureSocket(socket.get(), addr, *network,
key.session_key().socket_tag());
if (rv != OK)
return rv;
if (migrate_sessions_on_network_change_v2_ &&
*network == NetworkChangeNotifier::kInvalidNetworkHandle) {
*network = socket->GetBoundNetwork();
if (default_network_ == NetworkChangeNotifier::kInvalidNetworkHandle) {
// QuicStreamFactory may miss the default network signal before its
// creation, update |default_network_| when the first socket is bound
// to the default network.
default_network_ = *network;
} else {
UMA_HISTOGRAM_BOOLEAN("Net.QuicStreamFactory.DefaultNetworkMatch",
default_network_ == *network);
}
}
if (!helper_.get()) {
helper_.reset(new QuicChromiumConnectionHelper(clock_, random_generator_));
}
if (!alarm_factory_.get()) {
alarm_factory_.reset(new QuicChromiumAlarmFactory(
base::ThreadTaskRunnerHandle::Get().get(), clock_));
}
quic::QuicConnectionId connection_id =
quic::QuicUtils::CreateRandomConnectionId(random_generator_);
std::unique_ptr<QuicServerInfo> server_info;
if (store_server_configs_in_properties_) {
server_info = std::make_unique<PropertiesBasedQuicServerInfo>(
server_id, http_server_properties_);
}
InitializeCachedStateInCryptoConfig(server_id, server_info, &connection_id);
QuicChromiumPacketWriter* writer =
new QuicChromiumPacketWriter(socket.get(), task_runner_);
quic::QuicConnection* connection = new quic::QuicConnection(
connection_id, quic::QuicSocketAddress(quic::QuicSocketAddressImpl(addr)),
helper_.get(), alarm_factory_.get(), writer, true /* owns_writer */,
quic::Perspective::IS_CLIENT,
quic::ParsedQuicVersionVector{
quic::ParsedQuicVersion(quic::PROTOCOL_QUIC_CRYPTO, quic_version)});
connection->set_ping_timeout(ping_timeout_);
connection->SetMaxPacketLength(max_packet_length_);
quic::QuicConfig config = config_;
config.set_max_undecryptable_packets(kMaxUndecryptablePackets);
config.SetInitialSessionFlowControlWindowToSend(
kQuicSessionMaxRecvWindowSize);
config.SetInitialStreamFlowControlWindowToSend(kQuicStreamMaxRecvWindowSize);
config.SetBytesForConnectionIdToSend(0);
ConfigureInitialRttEstimate(server_id, &config);
if (quic_version < quic::QUIC_VERSION_44 &&
!config.HasClientSentConnectionOption(quic::kNSTP,
quic::Perspective::IS_CLIENT)) {
// Enable the no stop waiting frames connection option by default.
quic::QuicTagVector connection_options = config.SendConnectionOptions();
connection_options.push_back(quic::kNSTP);
config.SetConnectionOptionsToSend(connection_options);
}
// Use the factory to create a new socket performance watcher, and pass the
// ownership to QuicChromiumClientSession.
std::unique_ptr<SocketPerformanceWatcher> socket_performance_watcher;
if (socket_performance_watcher_factory_) {
socket_performance_watcher =
socket_performance_watcher_factory_->CreateSocketPerformanceWatcher(
SocketPerformanceWatcherFactory::PROTOCOL_QUIC, address_list);
}
// Wait for handshake confirmation before allowing streams to be created if
// either this session or the factory require confirmation.
if (require_confirmation_)
require_confirmation = true;
*session = new QuicChromiumClientSession(
connection, std::move(socket), this, quic_crypto_client_stream_factory_,
clock_, transport_security_state_, ssl_config_service_,
std::move(server_info), key.session_key(), require_confirmation,
migrate_sessions_early_v2_, migrate_sessions_on_network_change_v2_,
default_network_, retransmittable_on_wire_timeout_,
migrate_idle_sessions_, idle_session_migration_period_,
max_time_on_non_default_network_,
max_migrations_to_non_default_network_on_write_error_,
max_migrations_to_non_default_network_on_path_degrading_,
yield_after_packets_, yield_after_duration_, go_away_on_path_degrading_,
headers_include_h2_stream_dependency_, cert_verify_flags, config,
&crypto_config_, network_connection_.connection_description(),
dns_resolution_start_time, dns_resolution_end_time, &push_promise_index_,
push_delegate_, tick_clock_, task_runner_,
std::move(socket_performance_watcher), net_log.net_log());
all_sessions_[*session] = key; // owning pointer
writer->set_delegate(*session);
(*session)->Initialize();
bool closed_during_initialize = !base::ContainsKey(all_sessions_, *session) ||
!(*session)->connection()->connected();
UMA_HISTOGRAM_BOOLEAN("Net.QuicSession.ClosedDuringInitializeSession",
closed_during_initialize);
if (closed_during_initialize) {
DLOG(DFATAL) << "Session closed during initialize";
*session = nullptr;
return ERR_CONNECTION_CLOSED;
}
return OK;
}
void QuicStreamFactory::ActivateSession(const QuicSessionAliasKey& key,
QuicChromiumClientSession* session) {
DCHECK(!HasActiveSession(key.session_key()));
UMA_HISTOGRAM_COUNTS_1M("Net.QuicActiveSessions", active_sessions_.size());
active_sessions_[key.session_key()] = session;
session_aliases_[session].insert(key);
const IPEndPoint peer_address =
session->connection()->peer_address().impl().socket_address();
DCHECK(!base::ContainsKey(ip_aliases_[peer_address], session));
ip_aliases_[peer_address].insert(session);
DCHECK(!base::ContainsKey(session_peer_ip_, session));
session_peer_ip_[session] = peer_address;
}
void QuicStreamFactory::ConfigureInitialRttEstimate(
const quic::QuicServerId& server_id,
quic::QuicConfig* config) {
const base::TimeDelta* srtt = GetServerNetworkStatsSmoothedRtt(server_id);
if (srtt != nullptr) {
SetInitialRttEstimate(*srtt, INITIAL_RTT_CACHED, config);
return;
}
NetworkChangeNotifier::ConnectionType type =
network_connection_.connection_type();
if (type == NetworkChangeNotifier::CONNECTION_2G) {
SetInitialRttEstimate(base::TimeDelta::FromMilliseconds(1200),
INITIAL_RTT_CACHED, config);
return;
}
if (type == NetworkChangeNotifier::CONNECTION_3G) {
SetInitialRttEstimate(base::TimeDelta::FromMilliseconds(400),
INITIAL_RTT_CACHED, config);
return;
}
SetInitialRttEstimate(base::TimeDelta(), INITIAL_RTT_DEFAULT, config);
}
const base::TimeDelta* QuicStreamFactory::GetServerNetworkStatsSmoothedRtt(
const quic::QuicServerId& server_id) const {
url::SchemeHostPort server("https", server_id.host(), server_id.port());
const ServerNetworkStats* stats =
http_server_properties_->GetServerNetworkStats(server);
if (stats == nullptr)
return nullptr;
return &(stats->srtt);
}
int64_t QuicStreamFactory::GetServerNetworkStatsSmoothedRttInMicroseconds(
const quic::QuicServerId& server_id) const {
const base::TimeDelta* srtt = GetServerNetworkStatsSmoothedRtt(server_id);
return srtt == nullptr ? 0 : srtt->InMicroseconds();
}
bool QuicStreamFactory::WasQuicRecentlyBroken(
const quic::QuicServerId& server_id) const {
const AlternativeService alternative_service(
kProtoQUIC, HostPortPair(server_id.host(), server_id.port()));
return http_server_properties_->WasAlternativeServiceRecentlyBroken(
alternative_service);
}
bool QuicStreamFactory::CryptoConfigCacheIsEmpty(
const quic::QuicServerId& server_id) {
quic::QuicCryptoClientConfig::CachedState* cached =
crypto_config_.LookupOrCreate(server_id);
return cached->IsEmpty();
}
quic::QuicAsyncStatus QuicStreamFactory::StartCertVerifyJob(
const quic::QuicServerId& server_id,
int cert_verify_flags,
const NetLogWithSource& net_log) {
if (!race_cert_verification_)
return quic::QUIC_FAILURE;
quic::QuicCryptoClientConfig::CachedState* cached =
crypto_config_.LookupOrCreate(server_id);
if (!cached || cached->certs().empty() ||
HasActiveCertVerifierJob(server_id)) {
return quic::QUIC_FAILURE;
}
std::unique_ptr<CertVerifierJob> cert_verifier_job(
new CertVerifierJob(server_id, cert_verify_flags, net_log));
quic::QuicAsyncStatus status = cert_verifier_job->Run(
&crypto_config_,
base::Bind(&QuicStreamFactory::OnCertVerifyJobComplete,
base::Unretained(this), cert_verifier_job.get()));
if (status == quic::QUIC_PENDING)
active_cert_verifier_jobs_[server_id] = std::move(cert_verifier_job);
return status;
}
void QuicStreamFactory::InitializeCachedStateInCryptoConfig(
const quic::QuicServerId& server_id,
const std::unique_ptr<QuicServerInfo>& server_info,
quic::QuicConnectionId* connection_id) {
quic::QuicCryptoClientConfig::CachedState* cached =
crypto_config_.LookupOrCreate(server_id);
if (cached->has_server_designated_connection_id())
*connection_id = cached->GetNextServerDesignatedConnectionId();
if (!cached->IsEmpty())
return;
if (!server_info || !server_info->Load())
return;
cached->Initialize(server_info->state().server_config,
server_info->state().source_address_token,
server_info->state().certs, server_info->state().cert_sct,
server_info->state().chlo_hash,
server_info->state().server_config_sig, clock_->WallNow(),
quic::QuicWallTime::Zero());
}
void QuicStreamFactory::ProcessGoingAwaySession(
QuicChromiumClientSession* session,
const quic::QuicServerId& server_id,
bool session_was_active) {
if (!http_server_properties_)
return;
const quic::QuicConnectionStats& stats = session->connection()->GetStats();
const AlternativeService alternative_service(
kProtoQUIC, HostPortPair(server_id.host(), server_id.port()));
url::SchemeHostPort server("https", server_id.host(), server_id.port());
// Do nothing if QUIC is currently marked as broken.
if (http_server_properties_->IsAlternativeServiceBroken(alternative_service))
return;
if (session->IsCryptoHandshakeConfirmed()) {
http_server_properties_->ConfirmAlternativeService(alternative_service);
ServerNetworkStats network_stats;
network_stats.srtt = base::TimeDelta::FromMicroseconds(stats.srtt_us);
network_stats.bandwidth_estimate = stats.estimated_bandwidth;
http_server_properties_->SetServerNetworkStats(server, network_stats);
return;
}
http_server_properties_->ClearServerNetworkStats(server);
UMA_HISTOGRAM_COUNTS_1M("Net.QuicHandshakeNotConfirmedNumPacketsReceived",
stats.packets_received);
if (!session_was_active)
return;
// TODO(rch): In the special case where the session has received no
// packets from the peer, we should consider blacklisting this
// differently so that we still race TCP but we don't consider the
// session connected until the handshake has been confirmed.
HistogramBrokenAlternateProtocolLocation(
BROKEN_ALTERNATE_PROTOCOL_LOCATION_QUIC_STREAM_FACTORY);
// Since the session was active, there's no longer an HttpStreamFactory::Job
// running which can mark it broken, unless the TCP job also fails. So to
// avoid not using QUIC when we otherwise could, we mark it as recently
// broken, which means that 0-RTT will be disabled but we'll still race.
http_server_properties_->MarkAlternativeServiceRecentlyBroken(
alternative_service);
}
} // namespace net