naiveproxy/net/dns/host_cache.cc

555 lines
17 KiB
C++
Raw Normal View History

2018-01-28 21:32:06 +03:00
// 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/dns/host_cache.h"
#include <utility>
#include "base/logging.h"
#include "base/metrics/field_trial.h"
#include "base/metrics/histogram_macros.h"
#include "base/strings/string_number_conversions.h"
#include "base/trace_event/trace_event.h"
#include "base/values.h"
#include "net/base/net_errors.h"
#include "net/base/trace_constants.h"
#include "net/dns/dns_util.h"
#include "net/log/net_log.h"
namespace net {
namespace {
#define CACHE_HISTOGRAM_TIME(name, time) \
UMA_HISTOGRAM_LONG_TIMES("DNS.HostCache." name, time)
#define CACHE_HISTOGRAM_COUNT(name, count) \
UMA_HISTOGRAM_COUNTS_1000("DNS.HostCache." name, count)
#define CACHE_HISTOGRAM_ENUM(name, value, max) \
UMA_HISTOGRAM_ENUMERATION("DNS.HostCache." name, value, max)
// String constants for dictionary keys.
const char kHostnameKey[] = "hostname";
const char kAddressFamilyKey[] = "address_family";
const char kFlagsKey[] = "flags";
const char kExpirationKey[] = "expiration";
const char kTtlKey[] = "ttl";
const char kNetworkChangesKey[] = "network_changes";
const char kErrorKey[] = "error";
const char kAddressesKey[] = "addresses";
bool AddressListFromListValue(const base::ListValue* value, AddressList* list) {
list->clear();
for (base::ListValue::const_iterator it = value->begin(); it != value->end();
it++) {
IPAddress address;
std::string addr_string;
if (!it->GetAsString(&addr_string) ||
!address.AssignFromIPLiteral(addr_string)) {
return false;
}
list->push_back(IPEndPoint(address, 0));
}
return true;
}
} // namespace
// Used in histograms; do not modify existing values.
enum HostCache::SetOutcome : int {
SET_INSERT = 0,
SET_UPDATE_VALID = 1,
SET_UPDATE_STALE = 2,
MAX_SET_OUTCOME
};
// Used in histograms; do not modify existing values.
enum HostCache::LookupOutcome : int {
LOOKUP_MISS_ABSENT = 0,
LOOKUP_MISS_STALE = 1,
LOOKUP_HIT_VALID = 2,
LOOKUP_HIT_STALE = 3,
MAX_LOOKUP_OUTCOME
};
// Used in histograms; do not modify existing values.
enum HostCache::EraseReason : int {
ERASE_EVICT = 0,
ERASE_CLEAR = 1,
ERASE_DESTRUCT = 2,
MAX_ERASE_REASON
};
HostCache::Entry::Entry(int error,
const AddressList& addresses,
Source source,
base::TimeDelta ttl)
: error_(error), addresses_(addresses), source_(source), ttl_(ttl) {
DCHECK(ttl >= base::TimeDelta());
}
HostCache::Entry::Entry(int error, const AddressList& addresses, Source source)
: error_(error),
addresses_(addresses),
source_(source),
ttl_(base::TimeDelta::FromSeconds(-1)) {}
HostCache::Entry::~Entry() = default;
HostCache::Entry::Entry(HostCache::Entry&& entry) = default;
HostCache::Entry::Entry(const HostCache::Entry& entry,
base::TimeTicks now,
base::TimeDelta ttl,
int network_changes)
: error_(entry.error()),
addresses_(entry.addresses()),
source_(entry.source()),
ttl_(entry.ttl()),
expires_(now + ttl),
network_changes_(network_changes),
total_hits_(0),
stale_hits_(0) {}
HostCache::Entry::Entry(int error,
const AddressList& addresses,
Source source,
base::TimeTicks expires,
int network_changes)
: error_(error),
addresses_(addresses),
source_(source),
ttl_(base::TimeDelta::FromSeconds(-1)),
expires_(expires),
network_changes_(network_changes),
total_hits_(0),
stale_hits_(0) {}
bool HostCache::Entry::IsStale(base::TimeTicks now, int network_changes) const {
EntryStaleness stale;
stale.expired_by = now - expires_;
stale.network_changes = network_changes - network_changes_;
stale.stale_hits = stale_hits_;
return stale.is_stale();
}
void HostCache::Entry::CountHit(bool hit_is_stale) {
++total_hits_;
if (hit_is_stale)
++stale_hits_;
}
void HostCache::Entry::GetStaleness(base::TimeTicks now,
int network_changes,
EntryStaleness* out) const {
DCHECK(out);
out->expired_by = now - expires_;
out->network_changes = network_changes - network_changes_;
out->stale_hits = stale_hits_;
}
HostCache::HostCache(size_t max_entries)
: max_entries_(max_entries),
network_changes_(0),
restore_size_(0),
delegate_(nullptr) {}
HostCache::~HostCache() {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
RecordEraseAll(ERASE_DESTRUCT, base::TimeTicks::Now());
}
const HostCache::Entry* HostCache::Lookup(const Key& key,
base::TimeTicks now) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
if (caching_is_disabled())
return nullptr;
HostCache::Entry* entry = LookupInternal(key);
if (!entry) {
RecordLookup(LOOKUP_MISS_ABSENT, now, nullptr);
return nullptr;
}
if (entry->IsStale(now, network_changes_)) {
RecordLookup(LOOKUP_MISS_STALE, now, entry);
return nullptr;
}
entry->CountHit(/* hit_is_stale= */ false);
RecordLookup(LOOKUP_HIT_VALID, now, entry);
return entry;
}
const HostCache::Entry* HostCache::LookupStale(
const Key& key,
base::TimeTicks now,
HostCache::EntryStaleness* stale_out) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
if (caching_is_disabled())
return nullptr;
HostCache::Entry* entry = LookupInternal(key);
if (!entry) {
RecordLookup(LOOKUP_MISS_ABSENT, now, nullptr);
return nullptr;
}
bool is_stale = entry->IsStale(now, network_changes_);
entry->CountHit(/* hit_is_stale= */ is_stale);
RecordLookup(is_stale ? LOOKUP_HIT_STALE : LOOKUP_HIT_VALID, now, entry);
if (stale_out)
entry->GetStaleness(now, network_changes_, stale_out);
return entry;
}
HostCache::Entry* HostCache::LookupInternal(const Key& key) {
auto it = entries_.find(key);
return (it != entries_.end()) ? &it->second : nullptr;
}
void HostCache::Set(const Key& key,
const Entry& entry,
base::TimeTicks now,
base::TimeDelta ttl) {
TRACE_EVENT0(kNetTracingCategory, "HostCache::Set");
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
if (caching_is_disabled())
return;
bool result_changed = false;
auto it = entries_.find(key);
if (it != entries_.end()) {
bool is_stale = it->second.IsStale(now, network_changes_);
AddressListDeltaType delta =
FindAddressListDeltaType(it->second.addresses(), entry.addresses());
RecordSet(is_stale ? SET_UPDATE_STALE : SET_UPDATE_VALID, now, &it->second,
entry, delta);
// TODO(juliatuttle): Remember some old metadata (hit count or frequency or
// something like that) if it's useful for better eviction algorithms?
result_changed =
entry.error() == OK &&
(it->second.error() != entry.error() || delta != DELTA_IDENTICAL);
entries_.erase(it);
} else {
result_changed = true;
if (size() == max_entries_)
EvictOneEntry(now);
RecordSet(SET_INSERT, now, nullptr, entry, DELTA_DISJOINT);
}
AddEntry(Key(key), Entry(entry, now, ttl, network_changes_));
if (delegate_ && result_changed)
delegate_->ScheduleWrite();
}
void HostCache::AddEntry(const Key& key, Entry&& entry) {
DCHECK_GT(max_entries_, size());
DCHECK_EQ(0u, entries_.count(key));
entries_.emplace(key, std::move(entry));
DCHECK_GE(max_entries_, size());
}
void HostCache::OnNetworkChange() {
++network_changes_;
}
void HostCache::set_persistence_delegate(PersistenceDelegate* delegate) {
// A PersistenceDelegate shouldn't be added if there already was one, and
// shouldn't be removed (by setting to nullptr) if it wasn't previously there.
DCHECK_NE(delegate == nullptr, delegate_ == nullptr);
delegate_ = delegate;
}
void HostCache::clear() {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
RecordEraseAll(ERASE_CLEAR, base::TimeTicks::Now());
// Don't bother scheduling a write if there's nothing to clear.
if (size() == 0)
return;
entries_.clear();
if (delegate_)
delegate_->ScheduleWrite();
}
void HostCache::ClearForHosts(
const base::Callback<bool(const std::string&)>& host_filter) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
if (host_filter.is_null()) {
clear();
return;
}
bool changed = false;
base::TimeTicks now = base::TimeTicks::Now();
for (EntryMap::iterator it = entries_.begin(); it != entries_.end();) {
EntryMap::iterator next_it = std::next(it);
if (host_filter.Run(it->first.hostname)) {
RecordErase(ERASE_CLEAR, now, it->second);
entries_.erase(it);
changed = true;
}
it = next_it;
}
if (delegate_ && changed)
delegate_->ScheduleWrite();
}
void HostCache::GetAsListValue(base::ListValue* entry_list,
bool include_staleness) const {
DCHECK(entry_list);
entry_list->Clear();
for (const auto& pair : entries_) {
const Key& key = pair.first;
const Entry& entry = pair.second;
std::unique_ptr<base::DictionaryValue> entry_dict(
new base::DictionaryValue());
entry_dict->SetString(kHostnameKey, key.hostname);
entry_dict->SetInteger(kAddressFamilyKey,
static_cast<int>(key.address_family));
entry_dict->SetInteger(kFlagsKey, key.host_resolver_flags);
if (include_staleness) {
entry_dict->SetString(kExpirationKey,
NetLog::TickCountToString(entry.expires()));
entry_dict->SetInteger(kTtlKey, entry.ttl().InMilliseconds());
entry_dict->SetInteger(kNetworkChangesKey, entry.network_changes());
} else {
// Convert expiration time in TimeTicks to Time for serialization, using a
// string because base::Value doesn't handle 64-bit integers.
base::Time expiration_time =
base::Time::Now() - (base::TimeTicks::Now() - entry.expires());
entry_dict->SetString(
kExpirationKey,
base::Int64ToString(expiration_time.ToInternalValue()));
}
if (entry.error() != OK) {
entry_dict->SetInteger(kErrorKey, entry.error());
} else {
const AddressList& addresses = entry.addresses();
// Append all of the resolved addresses.
auto addresses_value = std::make_unique<base::ListValue>();
for (size_t i = 0; i < addresses.size(); ++i)
addresses_value->AppendString(addresses[i].ToStringWithoutPort());
entry_dict->SetList(kAddressesKey, std::move(addresses_value));
}
entry_list->Append(std::move(entry_dict));
}
}
bool HostCache::RestoreFromListValue(const base::ListValue& old_cache) {
for (auto it = old_cache.begin(); it != old_cache.end(); it++) {
const base::DictionaryValue* entry_dict;
if (!it->GetAsDictionary(&entry_dict))
return false;
std::string hostname;
int address_family;
HostResolverFlags flags;
int error = OK;
std::string expiration;
base::ListValue empty_list;
const base::ListValue* addresses_value = &empty_list;
AddressList address_list;
if (!entry_dict->GetString(kHostnameKey, &hostname) ||
!entry_dict->GetInteger(kFlagsKey, &flags) ||
!entry_dict->GetInteger(kAddressFamilyKey, &address_family) ||
!entry_dict->GetString(kExpirationKey, &expiration)) {
return false;
}
// Only one of these fields should be in the dictionary.
if (!entry_dict->GetInteger(kErrorKey, &error) &&
!entry_dict->GetList(kAddressesKey, &addresses_value)) {
return false;
}
int64_t time_internal;
if (!base::StringToInt64(expiration, &time_internal))
return false;
base::TimeTicks expiration_time =
base::TimeTicks::Now() -
(base::Time::Now() - base::Time::FromInternalValue(time_internal));
Key key(hostname, static_cast<AddressFamily>(address_family), flags);
if (error == OK &&
!AddressListFromListValue(addresses_value, &address_list)) {
return false;
}
// If the key is already in the cache, assume it's more recent and don't
// replace the entry. If the cache is already full, don't bother
// prioritizing what to evict, just stop restoring.
auto found = entries_.find(key);
if (found == entries_.end() && size() < max_entries_) {
AddEntry(key, Entry(error, address_list, Entry::SOURCE_UNKNOWN,
expiration_time, network_changes_ - 1));
}
}
restore_size_ = old_cache.GetSize();
return true;
}
size_t HostCache::size() const {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
return entries_.size();
}
size_t HostCache::max_entries() const {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
return max_entries_;
}
// static
std::unique_ptr<HostCache> HostCache::CreateDefaultCache() {
// Cache capacity is determined by the field trial.
#if defined(ENABLE_BUILT_IN_DNS)
const size_t kDefaultMaxEntries = 1000;
#else
const size_t kDefaultMaxEntries = 100;
#endif
const size_t kSaneMaxEntries = 1 << 20;
size_t max_entries = 0;
base::StringToSizeT(base::FieldTrialList::FindFullName("HostCacheSize"),
&max_entries);
if ((max_entries == 0) || (max_entries > kSaneMaxEntries))
max_entries = kDefaultMaxEntries;
return std::make_unique<HostCache>(max_entries);
}
void HostCache::EvictOneEntry(base::TimeTicks now) {
DCHECK_LT(0u, entries_.size());
auto oldest_it = entries_.begin();
for (auto it = entries_.begin(); it != entries_.end(); ++it) {
if ((it->second.expires() < oldest_it->second.expires()) &&
(it->second.IsStale(now, network_changes_) ||
!oldest_it->second.IsStale(now, network_changes_))) {
oldest_it = it;
}
}
if (!eviction_callback_.is_null())
eviction_callback_.Run(oldest_it->first, oldest_it->second);
RecordErase(ERASE_EVICT, now, oldest_it->second);
entries_.erase(oldest_it);
}
void HostCache::RecordSet(SetOutcome outcome,
base::TimeTicks now,
const Entry* old_entry,
const Entry& new_entry,
AddressListDeltaType delta) {
CACHE_HISTOGRAM_ENUM("Set", outcome, MAX_SET_OUTCOME);
switch (outcome) {
case SET_INSERT:
case SET_UPDATE_VALID:
// Nothing to log here.
break;
case SET_UPDATE_STALE: {
EntryStaleness stale;
old_entry->GetStaleness(now, network_changes_, &stale);
CACHE_HISTOGRAM_TIME("UpdateStale.ExpiredBy", stale.expired_by);
CACHE_HISTOGRAM_COUNT("UpdateStale.NetworkChanges",
stale.network_changes);
CACHE_HISTOGRAM_COUNT("UpdateStale.StaleHits", stale.stale_hits);
if (old_entry->error() == OK && new_entry.error() == OK) {
RecordUpdateStale(delta, stale);
}
break;
}
case MAX_SET_OUTCOME:
NOTREACHED();
break;
}
}
void HostCache::RecordUpdateStale(AddressListDeltaType delta,
const EntryStaleness& stale) {
CACHE_HISTOGRAM_ENUM("UpdateStale.AddressListDelta", delta, MAX_DELTA_TYPE);
switch (delta) {
case DELTA_IDENTICAL:
CACHE_HISTOGRAM_TIME("UpdateStale.ExpiredBy_Identical", stale.expired_by);
CACHE_HISTOGRAM_COUNT("UpdateStale.NetworkChanges_Identical",
stale.network_changes);
break;
case DELTA_REORDERED:
CACHE_HISTOGRAM_TIME("UpdateStale.ExpiredBy_Reordered", stale.expired_by);
CACHE_HISTOGRAM_COUNT("UpdateStale.NetworkChanges_Reordered",
stale.network_changes);
break;
case DELTA_OVERLAP:
CACHE_HISTOGRAM_TIME("UpdateStale.ExpiredBy_Overlap", stale.expired_by);
CACHE_HISTOGRAM_COUNT("UpdateStale.NetworkChanges_Overlap",
stale.network_changes);
break;
case DELTA_DISJOINT:
CACHE_HISTOGRAM_TIME("UpdateStale.ExpiredBy_Disjoint", stale.expired_by);
CACHE_HISTOGRAM_COUNT("UpdateStale.NetworkChanges_Disjoint",
stale.network_changes);
break;
case MAX_DELTA_TYPE:
NOTREACHED();
break;
}
}
void HostCache::RecordLookup(LookupOutcome outcome,
base::TimeTicks now,
const Entry* entry) {
CACHE_HISTOGRAM_ENUM("Lookup", outcome, MAX_LOOKUP_OUTCOME);
switch (outcome) {
case LOOKUP_MISS_ABSENT:
case LOOKUP_MISS_STALE:
case LOOKUP_HIT_VALID:
// Nothing to log here.
break;
case LOOKUP_HIT_STALE:
CACHE_HISTOGRAM_TIME("LookupStale.ExpiredBy", now - entry->expires());
CACHE_HISTOGRAM_COUNT("LookupStale.NetworkChanges",
network_changes_ - entry->network_changes());
break;
case MAX_LOOKUP_OUTCOME:
NOTREACHED();
break;
}
}
void HostCache::RecordErase(EraseReason reason,
base::TimeTicks now,
const Entry& entry) {
HostCache::EntryStaleness stale;
entry.GetStaleness(now, network_changes_, &stale);
CACHE_HISTOGRAM_ENUM("Erase", reason, MAX_ERASE_REASON);
if (stale.is_stale()) {
CACHE_HISTOGRAM_TIME("EraseStale.ExpiredBy", stale.expired_by);
CACHE_HISTOGRAM_COUNT("EraseStale.NetworkChanges", stale.network_changes);
CACHE_HISTOGRAM_COUNT("EraseStale.StaleHits", entry.stale_hits());
} else {
CACHE_HISTOGRAM_TIME("EraseValid.ValidFor", -stale.expired_by);
}
}
void HostCache::RecordEraseAll(EraseReason reason, base::TimeTicks now) {
for (const auto& it : entries_)
RecordErase(reason, now, it.second);
}
} // namespace net