naiveproxy/net/http/broken_alternative_services.cc

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2018-01-28 21:32:06 +03:00
// Copyright (c) 2017 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/broken_alternative_services.h"
#include "base/memory/singleton.h"
#include "base/time/tick_clock.h"
#include "base/time/time.h"
#include "net/http/http_server_properties_impl.h"
namespace net {
namespace {
// Initial delay for broken alternative services.
const uint64_t kBrokenAlternativeProtocolDelaySecs = 300;
// Subsequent failures result in exponential (base 2) backoff.
// Limit binary shift to limit delay to approximately 2 days.
const int kBrokenDelayMaxShift = 9;
base::TimeDelta ComputeBrokenAlternativeServiceExpirationDelay(
int broken_count) {
DCHECK_GE(broken_count, 0);
if (broken_count > kBrokenDelayMaxShift)
broken_count = kBrokenDelayMaxShift;
return base::TimeDelta::FromSeconds(kBrokenAlternativeProtocolDelaySecs) *
(1 << broken_count);
}
} // namespace
BrokenAlternativeServices::BrokenAlternativeServices(Delegate* delegate,
base::TickClock* clock)
: delegate_(delegate),
clock_(clock),
weak_ptr_factory_(this) {
DCHECK(delegate_);
DCHECK(clock_);
}
BrokenAlternativeServices::~BrokenAlternativeServices() = default;
void BrokenAlternativeServices::Clear() {
expiration_timer_.Stop();
broken_alternative_service_list_.clear();
broken_alternative_service_map_.clear();
recently_broken_alternative_services_.Clear();
}
void BrokenAlternativeServices::MarkAlternativeServiceBroken(
const AlternativeService& alternative_service) {
// Empty host means use host of origin, callers are supposed to substitute.
DCHECK(!alternative_service.host.empty());
DCHECK_NE(kProtoUnknown, alternative_service.protocol);
auto it = recently_broken_alternative_services_.Get(alternative_service);
int broken_count = 0;
if (it == recently_broken_alternative_services_.end()) {
recently_broken_alternative_services_.Put(alternative_service, 1);
} else {
broken_count = it->second++;
}
base::TimeTicks expiration =
clock_->NowTicks() +
ComputeBrokenAlternativeServiceExpirationDelay(broken_count);
// Return if alternative service is already in expiration queue.
BrokenAlternativeServiceList::iterator list_it;
if (!AddToBrokenAlternativeServiceListAndMap(alternative_service, expiration,
&list_it)) {
return;
}
// If this is now the first entry in the list (i.e. |alternative_service| is
// the next alt svc to expire), schedule an expiration task for it.
if (list_it == broken_alternative_service_list_.begin()) {
ScheduleBrokenAlternateProtocolMappingsExpiration();
}
}
void BrokenAlternativeServices::MarkAlternativeServiceRecentlyBroken(
const AlternativeService& alternative_service) {
DCHECK_NE(kProtoUnknown, alternative_service.protocol);
if (recently_broken_alternative_services_.Get(alternative_service) ==
recently_broken_alternative_services_.end()) {
recently_broken_alternative_services_.Put(alternative_service, 1);
}
}
bool BrokenAlternativeServices::IsAlternativeServiceBroken(
const AlternativeService& alternative_service) const {
// Empty host means use host of origin, callers are supposed to substitute.
DCHECK(!alternative_service.host.empty());
return broken_alternative_service_map_.find(alternative_service) !=
broken_alternative_service_map_.end();
}
bool BrokenAlternativeServices::WasAlternativeServiceRecentlyBroken(
const AlternativeService& alternative_service) {
DCHECK(!alternative_service.host.empty());
return recently_broken_alternative_services_.Get(alternative_service) !=
recently_broken_alternative_services_.end() ||
broken_alternative_service_map_.find(alternative_service) !=
broken_alternative_service_map_.end();
}
void BrokenAlternativeServices::ConfirmAlternativeService(
const AlternativeService& alternative_service) {
DCHECK_NE(kProtoUnknown, alternative_service.protocol);
// Remove |alternative_service| from |alternative_service_list_| and
// |alternative_service_map_|.
auto map_it = broken_alternative_service_map_.find(alternative_service);
if (map_it != broken_alternative_service_map_.end()) {
broken_alternative_service_list_.erase(map_it->second);
broken_alternative_service_map_.erase(map_it);
}
auto it = recently_broken_alternative_services_.Get(alternative_service);
if (it != recently_broken_alternative_services_.end()) {
recently_broken_alternative_services_.Erase(it);
}
}
void BrokenAlternativeServices::SetBrokenAndRecentlyBrokenAlternativeServices(
std::unique_ptr<BrokenAlternativeServiceList>
broken_alternative_service_list,
std::unique_ptr<RecentlyBrokenAlternativeServices>
recently_broken_alternative_services) {
DCHECK(broken_alternative_service_list);
DCHECK(recently_broken_alternative_services);
base::TimeTicks next_expiration =
broken_alternative_service_list_.empty()
? base::TimeTicks::Max()
: broken_alternative_service_list_.front().second;
// Add |recently_broken_alternative_services| to
// |recently_broken_alternative_services_|.
// If an alt-svc already exists, overwrite its broken-count to the one in
// |recently_broken_alternative_services|.
recently_broken_alternative_services_.Swap(
*recently_broken_alternative_services);
// Add back all existing recently broken alt svcs to cache so they're at
// front of recency list (MRUCache::Get() does this automatically).
for (auto it = recently_broken_alternative_services->rbegin();
it != recently_broken_alternative_services->rend(); ++it) {
if (recently_broken_alternative_services_.Get(it->first) ==
recently_broken_alternative_services_.end()) {
recently_broken_alternative_services_.Put(it->first, it->second);
}
}
// Append |broken_alternative_service_list| to
// |broken_alternative_service_list_|
size_t num_broken_alt_svcs_added = broken_alternative_service_list->size();
broken_alternative_service_list_.splice(
broken_alternative_service_list_.begin(),
*broken_alternative_service_list);
// For each newly-appended alt svc in |broken_alternative_service_list_|,
// add an entry to |broken_alternative_service_map_| that points to its
// list iterator. Also, add an entry for that alt svc in
// |recently_broken_alternative_services_| if one doesn't exist.
auto list_it = broken_alternative_service_list_.begin();
for (size_t i = 0; i < num_broken_alt_svcs_added; ++i) {
const AlternativeService& alternative_service = list_it->first;
auto map_it = broken_alternative_service_map_.find(alternative_service);
if (map_it != broken_alternative_service_map_.end()) {
// Implies this entry already exists somewhere else in
// |broken_alternative_service_list_|. Remove the existing entry from
// |broken_alternative_service_list_|, and update the
// |broken_alternative_service_map_| entry to point to this list entry
// instead.
auto list_existing_entry_it = map_it->second;
broken_alternative_service_list_.erase(list_existing_entry_it);
map_it->second = list_it;
} else {
broken_alternative_service_map_.insert(
std::make_pair(alternative_service, list_it));
}
if (recently_broken_alternative_services_.Peek(alternative_service) ==
recently_broken_alternative_services_.end()) {
recently_broken_alternative_services_.Put(alternative_service, 1);
}
++list_it;
}
// Sort |broken_alternative_service_list_| by expiration time. This operation
// does not invalidate list iterators, so |broken_alternative_service_map_|
// does not need to be updated.
broken_alternative_service_list_.sort(
[](const std::pair<AlternativeService, base::TimeTicks>& lhs,
const std::pair<AlternativeService, base::TimeTicks>& rhs) -> bool {
return lhs.second < rhs.second;
});
base::TimeTicks new_next_expiration =
broken_alternative_service_list_.empty()
? base::TimeTicks::Max()
: broken_alternative_service_list_.front().second;
if (new_next_expiration != next_expiration)
ScheduleBrokenAlternateProtocolMappingsExpiration();
}
const BrokenAlternativeServiceList&
BrokenAlternativeServices::broken_alternative_service_list() const {
return broken_alternative_service_list_;
}
const RecentlyBrokenAlternativeServices&
BrokenAlternativeServices::recently_broken_alternative_services() const {
return recently_broken_alternative_services_;
}
bool BrokenAlternativeServices::AddToBrokenAlternativeServiceListAndMap(
const AlternativeService& alternative_service,
base::TimeTicks expiration,
BrokenAlternativeServiceList::iterator* it) {
DCHECK(it);
auto map_it = broken_alternative_service_map_.find(alternative_service);
if (map_it != broken_alternative_service_map_.end())
return false;
// Iterate from end of |broken_alternative_service_list_| to find where to
// insert it to keep the list sorted by expiration time.
auto list_it = broken_alternative_service_list_.end();
while (list_it != broken_alternative_service_list_.begin()) {
--list_it;
if (list_it->second <= expiration) {
++list_it;
break;
}
}
// Insert |alternative_service| into the list and the map
list_it = broken_alternative_service_list_.insert(
list_it, std::make_pair(alternative_service, expiration));
broken_alternative_service_map_.insert(
std::make_pair(alternative_service, list_it));
*it = list_it;
return true;
}
void BrokenAlternativeServices::ExpireBrokenAlternateProtocolMappings() {
base::TimeTicks now = clock_->NowTicks();
while (!broken_alternative_service_list_.empty()) {
auto it = broken_alternative_service_list_.begin();
if (now < it->second) {
break;
}
delegate_->OnExpireBrokenAlternativeService(it->first);
broken_alternative_service_map_.erase(it->first);
broken_alternative_service_list_.erase(it);
}
if (!broken_alternative_service_list_.empty())
ScheduleBrokenAlternateProtocolMappingsExpiration();
}
void BrokenAlternativeServices ::
ScheduleBrokenAlternateProtocolMappingsExpiration() {
DCHECK(!broken_alternative_service_list_.empty());
base::TimeTicks now = clock_->NowTicks();
base::TimeTicks next_expiration =
broken_alternative_service_list_.front().second;
base::TimeDelta delay =
next_expiration > now ? next_expiration - now : base::TimeDelta();
expiration_timer_.Stop();
expiration_timer_.Start(
FROM_HERE, delay,
base::Bind(
&BrokenAlternativeServices ::ExpireBrokenAlternateProtocolMappings,
weak_ptr_factory_.GetWeakPtr()));
}
} // namespace net