naiveproxy/net/http/http_server_properties_impl.cc
2018-12-09 21:59:24 -05:00

805 lines
29 KiB
C++

// 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/http/http_server_properties_impl.h"
#include <algorithm>
#include <memory>
#include <utility>
#include "base/bind.h"
#include "base/location.h"
#include "base/logging.h"
#include "base/metrics/histogram_macros.h"
#include "base/single_thread_task_runner.h"
#include "base/stl_util.h"
#include "base/strings/string_util.h"
#include "base/strings/stringprintf.h"
#include "base/threading/thread_task_runner_handle.h"
#include "base/time/default_clock.h"
#include "base/values.h"
namespace net {
HttpServerPropertiesImpl::HttpServerPropertiesImpl(
const base::TickClock* tick_clock,
base::Clock* clock)
: tick_clock_(tick_clock ? tick_clock
: base::DefaultTickClock::GetInstance()),
clock_(clock ? clock : base::DefaultClock::GetInstance()),
broken_alternative_services_(this, tick_clock_),
quic_server_info_map_(kDefaultMaxQuicServerEntries),
max_server_configs_stored_in_properties_(kDefaultMaxQuicServerEntries) {
canonical_suffixes_.push_back(".ggpht.com");
canonical_suffixes_.push_back(".c.youtube.com");
canonical_suffixes_.push_back(".googlevideo.com");
canonical_suffixes_.push_back(".googleusercontent.com");
}
HttpServerPropertiesImpl::HttpServerPropertiesImpl()
: HttpServerPropertiesImpl(nullptr, nullptr) {}
HttpServerPropertiesImpl::~HttpServerPropertiesImpl() {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
}
void HttpServerPropertiesImpl::SetSpdyServers(
std::unique_ptr<SpdyServersMap> spdy_servers_map) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
// Add the entries from persisted data.
spdy_servers_map_.Swap(*spdy_servers_map);
// Add the entries from the memory cache.
for (SpdyServersMap::reverse_iterator it = spdy_servers_map->rbegin();
it != spdy_servers_map->rend(); ++it) {
// Add the entry if it is not in the cache, otherwise move it to the front
// of recency list.
if (spdy_servers_map_.Get(it->first) == spdy_servers_map_.end())
spdy_servers_map_.Put(it->first, it->second);
}
}
void HttpServerPropertiesImpl::SetAlternativeServiceServers(
std::unique_ptr<AlternativeServiceMap> alternative_service_map) {
int32_t size_diff =
alternative_service_map->size() - alternative_service_map_.size();
if (size_diff > 0) {
UMA_HISTOGRAM_COUNTS_1M("Net.AlternativeServiceServers.MorePrefsEntries",
size_diff);
} else {
UMA_HISTOGRAM_COUNTS_1M(
"Net.AlternativeServiceServers.MoreOrEqualCacheEntries", -size_diff);
}
// Add the entries from persisted data.
alternative_service_map_.Swap(*alternative_service_map);
// Add the entries from the memory cache.
for (auto input_it = alternative_service_map->rbegin();
input_it != alternative_service_map->rend(); ++input_it) {
if (alternative_service_map_.Get(input_it->first) ==
alternative_service_map_.end()) {
alternative_service_map_.Put(input_it->first, input_it->second);
}
}
// Attempt to find canonical servers. Canonical suffix only apply to HTTPS.
const uint16_t kCanonicalPort = 443;
const char* kCanonicalScheme = "https";
for (const std::string& canonical_suffix : canonical_suffixes_) {
url::SchemeHostPort canonical_server(kCanonicalScheme, canonical_suffix,
kCanonicalPort);
// If we already have a valid canonical server, we're done.
if (base::ContainsKey(canonical_alt_svc_map_, canonical_server) &&
(alternative_service_map_.Peek(
canonical_alt_svc_map_[canonical_server]) !=
alternative_service_map_.end())) {
continue;
}
// Now attempt to find a server which matches this origin and set it as
// canonical.
for (AlternativeServiceMap::const_iterator it =
alternative_service_map_.begin();
it != alternative_service_map_.end(); ++it) {
if (base::EndsWith(it->first.host(), canonical_suffix,
base::CompareCase::INSENSITIVE_ASCII) &&
it->first.scheme() == canonical_server.scheme()) {
canonical_alt_svc_map_[canonical_server] = it->first;
break;
}
}
}
}
void HttpServerPropertiesImpl::SetSupportsQuic(const IPAddress& last_address) {
last_quic_address_ = last_address;
}
void HttpServerPropertiesImpl::SetServerNetworkStats(
std::unique_ptr<ServerNetworkStatsMap> server_network_stats_map) {
// Add the entries from persisted data.
server_network_stats_map_.Swap(*server_network_stats_map);
// Add the entries from the memory cache.
for (ServerNetworkStatsMap::reverse_iterator it =
server_network_stats_map->rbegin();
it != server_network_stats_map->rend(); ++it) {
if (server_network_stats_map_.Get(it->first) ==
server_network_stats_map_.end()) {
server_network_stats_map_.Put(it->first, it->second);
}
}
}
void HttpServerPropertiesImpl::SetQuicServerInfoMap(
std::unique_ptr<QuicServerInfoMap> quic_server_info_map) {
DCHECK_EQ(quic_server_info_map->max_size(), quic_server_info_map_.max_size());
// Add the entries from persisted data.
quic_server_info_map_.Swap(*quic_server_info_map);
// Add the entries from the memory cache.
for (QuicServerInfoMap::reverse_iterator it = quic_server_info_map->rbegin();
it != quic_server_info_map->rend(); ++it) {
if (quic_server_info_map_.Get(it->first) == quic_server_info_map_.end()) {
quic_server_info_map_.Put(it->first, it->second);
}
}
// Repopulate |canonical_server_info_map_| to stay in sync with
// |quic_server_info_map_|.
canonical_server_info_map_.clear();
for (QuicServerInfoMap::reverse_iterator it = quic_server_info_map_.rbegin();
it != quic_server_info_map_.rend(); ++it) {
UpdateCanonicalServerInfoMap(it->first);
}
}
const SpdyServersMap& HttpServerPropertiesImpl::spdy_servers_map() const {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
return spdy_servers_map_;
}
void HttpServerPropertiesImpl::SetBrokenAndRecentlyBrokenAlternativeServices(
std::unique_ptr<BrokenAlternativeServiceList>
broken_alternative_service_list,
std::unique_ptr<RecentlyBrokenAlternativeServices>
recently_broken_alternative_services) {
broken_alternative_services_.SetBrokenAndRecentlyBrokenAlternativeServices(
std::move(broken_alternative_service_list),
std::move(recently_broken_alternative_services));
}
const BrokenAlternativeServiceList&
HttpServerPropertiesImpl::broken_alternative_service_list() const {
return broken_alternative_services_.broken_alternative_service_list();
}
const RecentlyBrokenAlternativeServices&
HttpServerPropertiesImpl::recently_broken_alternative_services() const {
return broken_alternative_services_.recently_broken_alternative_services();
}
void HttpServerPropertiesImpl::Clear(base::OnceClosure callback) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
spdy_servers_map_.Clear();
alternative_service_map_.Clear();
broken_alternative_services_.Clear();
canonical_alt_svc_map_.clear();
last_quic_address_ = IPAddress();
server_network_stats_map_.Clear();
quic_server_info_map_.Clear();
canonical_server_info_map_.clear();
if (!callback.is_null()) {
base::ThreadTaskRunnerHandle::Get()->PostTask(FROM_HERE,
std::move(callback));
}
}
bool HttpServerPropertiesImpl::SupportsRequestPriority(
const url::SchemeHostPort& server) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
if (server.host().empty())
return false;
if (GetSupportsSpdy(server))
return true;
const AlternativeServiceInfoVector alternative_service_info_vector =
GetAlternativeServiceInfos(server);
for (const AlternativeServiceInfo& alternative_service_info :
alternative_service_info_vector) {
if (alternative_service_info.alternative_service().protocol == kProtoQUIC) {
return true;
}
}
return false;
}
bool HttpServerPropertiesImpl::GetSupportsSpdy(
const url::SchemeHostPort& server) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
if (server.host().empty())
return false;
SpdyServersMap::iterator spdy_server =
spdy_servers_map_.Get(server.Serialize());
return spdy_server != spdy_servers_map_.end() && spdy_server->second;
}
void HttpServerPropertiesImpl::SetSupportsSpdy(
const url::SchemeHostPort& server,
bool support_spdy) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
if (server.host().empty())
return;
SpdyServersMap::iterator spdy_server =
spdy_servers_map_.Get(server.Serialize());
if ((spdy_server != spdy_servers_map_.end()) &&
(spdy_server->second == support_spdy)) {
return;
}
// Cache the data.
spdy_servers_map_.Put(server.Serialize(), support_spdy);
}
bool HttpServerPropertiesImpl::RequiresHTTP11(
const HostPortPair& host_port_pair) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
if (host_port_pair.host().empty())
return false;
return (http11_servers_.find(host_port_pair) != http11_servers_.end());
}
void HttpServerPropertiesImpl::SetHTTP11Required(
const HostPortPair& host_port_pair) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
if (host_port_pair.host().empty())
return;
http11_servers_.insert(host_port_pair);
}
void HttpServerPropertiesImpl::MaybeForceHTTP11(const HostPortPair& server,
SSLConfig* ssl_config) {
if (RequiresHTTP11(server)) {
ForceHTTP11(ssl_config);
}
}
const std::string* HttpServerPropertiesImpl::GetCanonicalSuffix(
const std::string& host) const {
// If this host ends with a canonical suffix, then return the canonical
// suffix.
for (const std::string& canonical_suffix : canonical_suffixes_) {
if (base::EndsWith(host, canonical_suffix,
base::CompareCase::INSENSITIVE_ASCII)) {
return &canonical_suffix;
}
}
return nullptr;
}
AlternativeServiceInfoVector
HttpServerPropertiesImpl::GetAlternativeServiceInfos(
const url::SchemeHostPort& origin) {
// Copy valid alternative service infos into
// |valid_alternative_service_infos|.
AlternativeServiceInfoVector valid_alternative_service_infos;
const base::Time now = clock_->Now();
AlternativeServiceMap::iterator map_it = alternative_service_map_.Get(origin);
if (map_it != alternative_service_map_.end()) {
HostPortPair host_port_pair(origin.host(), origin.port());
for (AlternativeServiceInfoVector::iterator it = map_it->second.begin();
it != map_it->second.end();) {
if (it->expiration() < now) {
it = map_it->second.erase(it);
continue;
}
AlternativeService alternative_service(it->alternative_service());
if (alternative_service.host.empty()) {
alternative_service.host = origin.host();
}
// If the alternative service is equivalent to the origin (same host, same
// port, and both TCP), skip it.
if (host_port_pair.Equals(alternative_service.host_port_pair()) &&
alternative_service.protocol == kProtoHTTP2) {
++it;
continue;
}
if (alternative_service.protocol == kProtoQUIC) {
valid_alternative_service_infos.push_back(
AlternativeServiceInfo::CreateQuicAlternativeServiceInfo(
alternative_service, it->expiration(),
it->advertised_versions()));
} else {
valid_alternative_service_infos.push_back(
AlternativeServiceInfo::CreateHttp2AlternativeServiceInfo(
alternative_service, it->expiration()));
}
++it;
}
if (map_it->second.empty()) {
alternative_service_map_.Erase(map_it);
}
return valid_alternative_service_infos;
}
CanonicalAltSvcMap::const_iterator canonical = GetCanonicalAltSvcHost(origin);
if (canonical == canonical_alt_svc_map_.end()) {
return AlternativeServiceInfoVector();
}
map_it = alternative_service_map_.Get(canonical->second);
if (map_it == alternative_service_map_.end()) {
return AlternativeServiceInfoVector();
}
for (AlternativeServiceInfoVector::iterator it = map_it->second.begin();
it != map_it->second.end();) {
if (it->expiration() < now) {
it = map_it->second.erase(it);
continue;
}
AlternativeService alternative_service(it->alternative_service());
if (alternative_service.host.empty()) {
alternative_service.host = canonical->second.host();
if (IsAlternativeServiceBroken(alternative_service)) {
++it;
continue;
}
alternative_service.host = origin.host();
} else if (IsAlternativeServiceBroken(alternative_service)) {
++it;
continue;
}
if (alternative_service.protocol == kProtoQUIC) {
valid_alternative_service_infos.push_back(
AlternativeServiceInfo::CreateQuicAlternativeServiceInfo(
alternative_service, it->expiration(),
it->advertised_versions()));
} else {
valid_alternative_service_infos.push_back(
AlternativeServiceInfo::CreateHttp2AlternativeServiceInfo(
alternative_service, it->expiration()));
}
++it;
}
if (map_it->second.empty()) {
alternative_service_map_.Erase(map_it);
}
return valid_alternative_service_infos;
}
bool HttpServerPropertiesImpl::SetHttp2AlternativeService(
const url::SchemeHostPort& origin,
const AlternativeService& alternative_service,
base::Time expiration) {
DCHECK_EQ(alternative_service.protocol, kProtoHTTP2);
return SetAlternativeServices(
origin,
AlternativeServiceInfoVector(
/*size=*/1, AlternativeServiceInfo::CreateHttp2AlternativeServiceInfo(
alternative_service, expiration)));
}
bool HttpServerPropertiesImpl::SetQuicAlternativeService(
const url::SchemeHostPort& origin,
const AlternativeService& alternative_service,
base::Time expiration,
const quic::QuicTransportVersionVector& advertised_versions) {
DCHECK(alternative_service.protocol == kProtoQUIC);
return SetAlternativeServices(
origin, AlternativeServiceInfoVector(
/*size=*/1,
AlternativeServiceInfo::CreateQuicAlternativeServiceInfo(
alternative_service, expiration, advertised_versions)));
}
bool HttpServerPropertiesImpl::SetAlternativeServices(
const url::SchemeHostPort& origin,
const AlternativeServiceInfoVector& alternative_service_info_vector) {
AlternativeServiceMap::iterator it = alternative_service_map_.Peek(origin);
if (alternative_service_info_vector.empty()) {
RemoveAltSvcCanonicalHost(origin);
if (it == alternative_service_map_.end())
return false;
alternative_service_map_.Erase(it);
return true;
}
bool changed = true;
if (it != alternative_service_map_.end()) {
DCHECK(!it->second.empty());
if (it->second.size() == alternative_service_info_vector.size()) {
const base::Time now = clock_->Now();
changed = false;
auto new_it = alternative_service_info_vector.begin();
for (const auto& old : it->second) {
// Persist to disk immediately if new entry has different scheme, host,
// or port.
if (old.alternative_service() != new_it->alternative_service()) {
changed = true;
break;
}
// Also persist to disk if new expiration it more that twice as far or
// less than half as far in the future.
base::Time old_time = old.expiration();
base::Time new_time = new_it->expiration();
if (new_time - now > 2 * (old_time - now) ||
2 * (new_time - now) < (old_time - now)) {
changed = true;
break;
}
// Also persist to disk if new entry has a different list of advertised
// versions.
if (old.advertised_versions() != new_it->advertised_versions()) {
changed = true;
break;
}
++new_it;
}
}
}
const bool previously_no_alternative_services =
(GetAlternateProtocolIterator(origin) == alternative_service_map_.end());
alternative_service_map_.Put(origin, alternative_service_info_vector);
if (previously_no_alternative_services &&
!GetAlternativeServiceInfos(origin).empty()) {
// TODO(rch): Consider the case where multiple requests are started
// before the first completes. In this case, only one of the jobs
// would reach this code, whereas all of them should should have.
HistogramAlternateProtocolUsage(ALTERNATE_PROTOCOL_USAGE_MAPPING_MISSING,
false);
}
// If this host ends with a canonical suffix, then set it as the
// canonical host.
const char* kCanonicalScheme = "https";
if (origin.scheme() == kCanonicalScheme) {
const std::string* canonical_suffix = GetCanonicalSuffix(origin.host());
if (canonical_suffix != nullptr) {
url::SchemeHostPort canonical_server(kCanonicalScheme, *canonical_suffix,
origin.port());
canonical_alt_svc_map_[canonical_server] = origin;
}
}
return changed;
}
void HttpServerPropertiesImpl::MarkAlternativeServiceBroken(
const AlternativeService& alternative_service) {
broken_alternative_services_.MarkBroken(alternative_service);
}
void HttpServerPropertiesImpl::
MarkAlternativeServiceBrokenUntilDefaultNetworkChanges(
const AlternativeService& alternative_service) {
broken_alternative_services_.MarkBrokenUntilDefaultNetworkChanges(
alternative_service);
}
void HttpServerPropertiesImpl::MarkAlternativeServiceRecentlyBroken(
const AlternativeService& alternative_service) {
broken_alternative_services_.MarkRecentlyBroken(alternative_service);
}
bool HttpServerPropertiesImpl::IsAlternativeServiceBroken(
const AlternativeService& alternative_service) const {
return broken_alternative_services_.IsBroken(alternative_service);
}
bool HttpServerPropertiesImpl::WasAlternativeServiceRecentlyBroken(
const AlternativeService& alternative_service) {
return broken_alternative_services_.WasRecentlyBroken(alternative_service);
}
void HttpServerPropertiesImpl::ConfirmAlternativeService(
const AlternativeService& alternative_service) {
broken_alternative_services_.Confirm(alternative_service);
}
bool HttpServerPropertiesImpl::OnDefaultNetworkChanged() {
return broken_alternative_services_.OnDefaultNetworkChanged();
}
const AlternativeServiceMap& HttpServerPropertiesImpl::alternative_service_map()
const {
return alternative_service_map_;
}
std::unique_ptr<base::Value>
HttpServerPropertiesImpl::GetAlternativeServiceInfoAsValue() const {
const base::Time now = clock_->Now();
const base::TimeTicks now_ticks = tick_clock_->NowTicks();
std::unique_ptr<base::ListValue> dict_list(new base::ListValue);
for (const auto& alternative_service_map_item : alternative_service_map_) {
std::unique_ptr<base::ListValue> alternative_service_list(
new base::ListValue);
const url::SchemeHostPort& server = alternative_service_map_item.first;
for (const AlternativeServiceInfo& alternative_service_info :
alternative_service_map_item.second) {
std::string alternative_service_string(
alternative_service_info.ToString());
AlternativeService alternative_service(
alternative_service_info.alternative_service());
if (alternative_service.host.empty()) {
alternative_service.host = server.host();
}
base::TimeTicks brokenness_expiration_ticks;
if (broken_alternative_services_.IsBroken(alternative_service,
&brokenness_expiration_ticks)) {
// Convert |brokenness_expiration| from TimeTicks to Time
base::Time brokenness_expiration =
now + (brokenness_expiration_ticks - now_ticks);
base::Time::Exploded exploded;
brokenness_expiration.LocalExplode(&exploded);
std::string broken_info_string =
" (broken until " +
base::StringPrintf("%04d-%02d-%02d %0d:%0d:%0d", exploded.year,
exploded.month, exploded.day_of_month,
exploded.hour, exploded.minute,
exploded.second) +
")";
alternative_service_string.append(broken_info_string);
}
alternative_service_list->AppendString(alternative_service_string);
}
if (alternative_service_list->empty())
continue;
std::unique_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
dict->SetString("server", server.Serialize());
dict->Set("alternative_service", std::unique_ptr<base::Value>(
std::move(alternative_service_list)));
dict_list->Append(std::move(dict));
}
return std::move(dict_list);
}
bool HttpServerPropertiesImpl::GetSupportsQuic(IPAddress* last_address) const {
if (last_quic_address_.empty())
return false;
*last_address = last_quic_address_;
return true;
}
void HttpServerPropertiesImpl::SetSupportsQuic(bool used_quic,
const IPAddress& address) {
if (!used_quic) {
last_quic_address_ = IPAddress();
} else {
last_quic_address_ = address;
}
}
void HttpServerPropertiesImpl::SetServerNetworkStats(
const url::SchemeHostPort& server,
ServerNetworkStats stats) {
server_network_stats_map_.Put(server, stats);
}
void HttpServerPropertiesImpl::ClearServerNetworkStats(
const url::SchemeHostPort& server) {
ServerNetworkStatsMap::iterator it = server_network_stats_map_.Get(server);
if (it != server_network_stats_map_.end()) {
server_network_stats_map_.Erase(it);
}
}
const ServerNetworkStats* HttpServerPropertiesImpl::GetServerNetworkStats(
const url::SchemeHostPort& server) {
ServerNetworkStatsMap::iterator it = server_network_stats_map_.Get(server);
if (it == server_network_stats_map_.end()) {
return NULL;
}
return &it->second;
}
const ServerNetworkStatsMap&
HttpServerPropertiesImpl::server_network_stats_map() const {
return server_network_stats_map_;
}
bool HttpServerPropertiesImpl::SetQuicServerInfo(
const quic::QuicServerId& server_id,
const std::string& server_info) {
QuicServerInfoMap::iterator it = quic_server_info_map_.Peek(server_id);
bool changed =
(it == quic_server_info_map_.end() || it->second != server_info);
quic_server_info_map_.Put(server_id, server_info);
UpdateCanonicalServerInfoMap(server_id);
return changed;
}
const std::string* HttpServerPropertiesImpl::GetQuicServerInfo(
const quic::QuicServerId& server_id) {
QuicServerInfoMap::iterator it = quic_server_info_map_.Get(server_id);
if (it != quic_server_info_map_.end()) {
// Since |canonical_server_info_map_| should always map to the most
// recent host, update it with the one that became MRU in
// |quic_server_info_map_|.
UpdateCanonicalServerInfoMap(server_id);
return &it->second;
}
// If the exact match for |server_id| wasn't found, check
// |canonical_server_info_map_| whether there is server info for a host with
// the same canonical host suffix.
CanonicalServerInfoMap::const_iterator canonical_itr =
GetCanonicalServerInfoHost(server_id);
if (canonical_itr == canonical_server_info_map_.end())
return nullptr;
// When search in |quic_server_info_map_|, do not change the MRU order.
it = quic_server_info_map_.Peek(canonical_itr->second);
if (it != quic_server_info_map_.end())
return &it->second;
return nullptr;
}
HttpServerPropertiesImpl::CanonicalServerInfoMap::const_iterator
HttpServerPropertiesImpl::GetCanonicalServerInfoHost(
const quic::QuicServerId& server) const {
const std::string* canonical_suffix = GetCanonicalSuffix(server.host());
if (canonical_suffix == nullptr)
return canonical_server_info_map_.end();
HostPortPair canonical_pair(*canonical_suffix, server.port());
return canonical_server_info_map_.find(canonical_pair);
}
const QuicServerInfoMap& HttpServerPropertiesImpl::quic_server_info_map()
const {
return quic_server_info_map_;
}
size_t HttpServerPropertiesImpl::max_server_configs_stored_in_properties()
const {
return max_server_configs_stored_in_properties_;
}
void HttpServerPropertiesImpl::SetMaxServerConfigsStoredInProperties(
size_t max_server_configs_stored_in_properties) {
// Do nothing if the new size is the same as the old one.
if (max_server_configs_stored_in_properties_ ==
max_server_configs_stored_in_properties)
return;
max_server_configs_stored_in_properties_ =
max_server_configs_stored_in_properties;
// MRUCache doesn't allow the capacity of the cache to be changed. Thus create
// a new map with the new size and add current elements and swap the new map.
quic_server_info_map_.ShrinkToSize(max_server_configs_stored_in_properties_);
QuicServerInfoMap temp_map(max_server_configs_stored_in_properties_);
// Update the |canonical_server_info_map_| as well, so it stays in sync with
// |quic_server_info_map_|.
canonical_server_info_map_ = CanonicalServerInfoMap();
for (QuicServerInfoMap::reverse_iterator it = quic_server_info_map_.rbegin();
it != quic_server_info_map_.rend(); ++it) {
temp_map.Put(it->first, it->second);
UpdateCanonicalServerInfoMap(it->first);
}
quic_server_info_map_.Swap(temp_map);
}
void HttpServerPropertiesImpl::UpdateCanonicalServerInfoMap(
const quic::QuicServerId& server) {
const std::string* suffix = GetCanonicalSuffix(server.host());
if (suffix) {
HostPortPair canonical_pair(*suffix, server.port());
canonical_server_info_map_[canonical_pair] = server;
}
}
bool HttpServerPropertiesImpl::IsInitialized() const {
// No initialization is needed.
return true;
}
AlternativeServiceMap::const_iterator
HttpServerPropertiesImpl::GetAlternateProtocolIterator(
const url::SchemeHostPort& server) {
AlternativeServiceMap::const_iterator it =
alternative_service_map_.Get(server);
if (it != alternative_service_map_.end())
return it;
CanonicalAltSvcMap::const_iterator canonical = GetCanonicalAltSvcHost(server);
if (canonical == canonical_alt_svc_map_.end()) {
return alternative_service_map_.end();
}
const url::SchemeHostPort canonical_server = canonical->second;
it = alternative_service_map_.Get(canonical_server);
if (it == alternative_service_map_.end()) {
return alternative_service_map_.end();
}
for (const AlternativeServiceInfo& alternative_service_info : it->second) {
AlternativeService alternative_service(
alternative_service_info.alternative_service());
if (alternative_service.host.empty()) {
alternative_service.host = canonical_server.host();
}
if (!IsAlternativeServiceBroken(alternative_service)) {
return it;
}
}
RemoveAltSvcCanonicalHost(canonical_server);
return alternative_service_map_.end();
}
HttpServerPropertiesImpl::CanonicalAltSvcMap::const_iterator
HttpServerPropertiesImpl::GetCanonicalAltSvcHost(
const url::SchemeHostPort& server) const {
const char* kCanonicalScheme = "https";
if (server.scheme() != kCanonicalScheme)
return canonical_alt_svc_map_.end();
const std::string* canonical_suffix = GetCanonicalSuffix(server.host());
if (canonical_suffix == nullptr)
return canonical_alt_svc_map_.end();
url::SchemeHostPort canonical_server(kCanonicalScheme, *canonical_suffix,
server.port());
return canonical_alt_svc_map_.find(canonical_server);
}
void HttpServerPropertiesImpl::RemoveAltSvcCanonicalHost(
const url::SchemeHostPort& server) {
CanonicalAltSvcMap::const_iterator canonical = GetCanonicalAltSvcHost(server);
if (canonical == canonical_alt_svc_map_.end())
return;
canonical_alt_svc_map_.erase(canonical->first);
}
void HttpServerPropertiesImpl::OnExpireBrokenAlternativeService(
const AlternativeService& expired_alternative_service) {
// Remove every occurrence of |expired_alternative_service| from
// |alternative_service_map_|.
for (AlternativeServiceMap::iterator map_it =
alternative_service_map_.begin();
map_it != alternative_service_map_.end();) {
for (AlternativeServiceInfoVector::iterator it = map_it->second.begin();
it != map_it->second.end();) {
AlternativeService alternative_service(it->alternative_service());
// Empty hostname in map means hostname of key: substitute before
// comparing to |expired_alternative_service|.
if (alternative_service.host.empty()) {
alternative_service.host = map_it->first.host();
}
if (alternative_service == expired_alternative_service) {
it = map_it->second.erase(it);
continue;
}
++it;
}
// If an origin has an empty list of alternative services, then remove it
// from both |canonical_alt_svc_map_| and
// |alternative_service_map_|.
if (map_it->second.empty()) {
RemoveAltSvcCanonicalHost(map_it->first);
map_it = alternative_service_map_.Erase(map_it);
continue;
}
++map_it;
}
}
} // namespace net