// Copyright (c) 2010 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 "chrome/browser/safe_browsing/safe_browsing_database.h"
#include "base/file_util.h"
#include "base/metrics/histogram.h"
#include "base/metrics/stats_counters.h"
#include "base/time.h"
#include "base/message_loop.h"
#include "base/process_util.h"
#include "base/sha2.h"
#include "chrome/browser/safe_browsing/bloom_filter.h"
#include "chrome/browser/safe_browsing/safe_browsing_store_file.h"
#include "chrome/browser/safe_browsing/safe_browsing_store_sqlite.h"
#include "googleurl/src/gurl.h"
namespace {
// Filename suffix for the bloom filter.
const FilePath::CharType kBloomFilterFile[] = FILE_PATH_LITERAL(" Filter 2");
// The maximum staleness for a cached entry.
const int kMaxStalenessMinutes = 45;
// To save space, the incoming |chunk_id| and |list_id| are combined
// into an |encoded_chunk_id| for storage by shifting the |list_id|
// into the low-order bits. These functions decode that information.
int DecodeListId(const int encoded_chunk_id) {
return encoded_chunk_id & 1;
}
int DecodeChunkId(int encoded_chunk_id) {
return encoded_chunk_id >> 1;
}
int EncodeChunkId(int chunk, int list_id) {
DCHECK(list_id == 0 || list_id == 1);
return chunk << 1 | list_id;
}
// Generate the set of prefixes to check for |url|.
// TODO(shess): This function is almost the same as
// |CompareFullHashes()| in safe_browsing_util.cc, except that code
// does an early exit on match. Since match should be the infrequent
// case (phishing or malware found), consider combining this function
// with that one.
void PrefixesToCheck(const GURL& url, std::vector<SBPrefix>* prefixes) {
std::vector<std::string> hosts;
if (url.HostIsIPAddress()) {
hosts.push_back(url.host());
} else {
safe_browsing_util::GenerateHostsToCheck(url, &hosts);
}
std::vector<std::string> paths;
safe_browsing_util::GeneratePathsToCheck(url, &paths);
for (size_t i = 0; i < hosts.size(); ++i) {
for (size_t j = 0; j < paths.size(); ++j) {
SBFullHash full_hash;
base::SHA256HashString(hosts[i] + paths[j], &full_hash,
sizeof(SBFullHash));
prefixes->push_back(full_hash.prefix);
}
}
}
// Find the entries in |full_hashes| with prefix in |prefix_hits|, and
// add them to |full_hits| if not expired. "Not expired" is when
// either |last_update| was recent enough, or the item has been
// received recently enough. Expired items are not deleted because a
// future update may make them acceptable again.
//
// For efficiency reasons the code walks |prefix_hits| and
// |full_hashes| in parallel, so they must be sorted by prefix.
void GetCachedFullHashes(const std::vector<SBPrefix>& prefix_hits,
const std::vector<SBAddFullHash>& full_hashes,
std::vector<SBFullHashResult>* full_hits,
base::Time last_update) {
const base::Time expire_time =
base::Time::Now() - base::TimeDelta::FromMinutes(kMaxStalenessMinutes);
std::vector<SBPrefix>::const_iterator piter = prefix_hits.begin();
std::vector<SBAddFullHash>::const_iterator hiter = full_hashes.begin();
while (piter != prefix_hits.end() && hiter != full_hashes.end()) {
if (*piter < hiter->full_hash.prefix) {
++piter;
} else if (hiter->full_hash.prefix < *piter) {
++hiter;
} else {
if (expire_time < last_update ||
expire_time.ToTimeT() < hiter->received) {
SBFullHashResult result;
const int list_id = DecodeListId(hiter->chunk_id);
result.list_name = safe_browsing_util::GetListName(list_id);
result.add_chunk_id = DecodeChunkId(hiter->chunk_id);
result.hash = hiter->full_hash;
full_hits->push_back(result);
}
// Only increment |hiter|, |piter| might have multiple hits.
++hiter;
}
}
}
// Helper for |UpdateStarted()|. Separates |chunks| into malware and
// phishing vectors, and converts the results into range strings.
void GetChunkIds(const std::vector<int>& chunks,
std::string* malware_list, std::string* phishing_list) {
std::vector<int> malware_chunks;
std::vector<int> phishing_chunks;
for (std::vector<int>::const_iterator iter = chunks.begin();
iter != chunks.end(); ++iter) {
if (safe_browsing_util::MALWARE == DecodeListId(*iter)) {
malware_chunks.push_back(DecodeChunkId(*iter));
} else if (safe_browsing_util::PHISH == DecodeListId(*iter)) {
phishing_chunks.push_back(DecodeChunkId(*iter));
} else {
NOTREACHED();
}
}
ChunksToRangeString(malware_chunks, malware_list);
ChunksToRangeString(phishing_chunks, phishing_list);
}
// Order |SBAddFullHash| on the prefix part. |SBAddPrefixLess()| from
// safe_browsing_store.h orders on both chunk-id and prefix.
bool SBAddFullHashPrefixLess(const SBAddFullHash& a, const SBAddFullHash& b) {
return a.full_hash.prefix < b.full_hash.prefix;
}
} // namespace
// Factory method.
// TODO(shess): Milestone-7 is converting from SQLite-based
// SafeBrowsingDatabaseBloom to the new file format with
// SafeBrowsingDatabaseNew. Once that conversion is too far along to
// consider reversing, circle back and lift SafeBrowsingDatabaseNew up
// to SafeBrowsingDatabase and get rid of the abstract class.
SafeBrowsingDatabase* SafeBrowsingDatabase::Create() {
return new SafeBrowsingDatabaseNew(new SafeBrowsingStoreFile);
}
SafeBrowsingDatabase::~SafeBrowsingDatabase() {
}
// static
FilePath SafeBrowsingDatabase::BloomFilterForFilename(
const FilePath& db_filename) {
return FilePath(db_filename.value() + kBloomFilterFile);
}
// static
void SafeBrowsingDatabase::RecordFailure(FailureType failure_type) {
UMA_HISTOGRAM_ENUMERATION("SB2.DatabaseFailure", failure_type,
FAILURE_DATABASE_MAX);
}
SafeBrowsingDatabaseNew::SafeBrowsingDatabaseNew(SafeBrowsingStore* store)
: creation_loop_(MessageLoop::current()),
store_(store),
ALLOW_THIS_IN_INITIALIZER_LIST(reset_factory_(this)),
corruption_detected_(false) {
DCHECK(store_.get());
}
SafeBrowsingDatabaseNew::SafeBrowsingDatabaseNew()
: creation_loop_(MessageLoop::current()),
store_(new SafeBrowsingStoreSqlite),
ALLOW_THIS_IN_INITIALIZER_LIST(reset_factory_(this)) {
DCHECK(store_.get());
}
SafeBrowsingDatabaseNew::~SafeBrowsingDatabaseNew() {
DCHECK_EQ(creation_loop_, MessageLoop::current());
}
void SafeBrowsingDatabaseNew::Init(const FilePath& filename) {
DCHECK_EQ(creation_loop_, MessageLoop::current());
// NOTE: There is no need to grab the lock in this function, since
// until it returns, there are no pointers to this class on other
// threads. Then again, that means there is no possibility of
// contention on the lock...
AutoLock locked(lookup_lock_);
DCHECK(filename_.empty()); // Ensure we haven't been run before.
filename_ = filename;
store_->Init(
filename_,
NewCallback(this, &SafeBrowsingDatabaseNew::HandleCorruptDatabase));
full_hashes_.clear();
pending_hashes_.clear();
bloom_filter_filename_ = BloomFilterForFilename(filename_);
LoadBloomFilter();
}
bool SafeBrowsingDatabaseNew::ResetDatabase() {
DCHECK_EQ(creation_loop_, MessageLoop::current());
// Delete files on disk.
// TODO(shess): Hard to see where one might want to delete without a
// reset. Perhaps inline |Delete()|?
if (!Delete())
return false;
// Reset objects in memory.
{
AutoLock locked(lookup_lock_);
full_hashes_.clear();
pending_hashes_.clear();
prefix_miss_cache_.clear();
// TODO(shess): This could probably be |bloom_filter_.reset()|.
bloom_filter_ = new BloomFilter(BloomFilter::kBloomFilterMinSize *
BloomFilter::kBloomFilterSizeRatio);
}
return true;
}
bool SafeBrowsingDatabaseNew::ContainsUrl(
const GURL& url,
std::string* matching_list,
std::vector<SBPrefix>* prefix_hits,
std::vector<SBFullHashResult>* full_hits,
base::Time last_update) {
// Clear the results first.
matching_list->clear();
prefix_hits->clear();
full_hits->clear();
std::vector<SBPrefix> prefixes;
PrefixesToCheck(url, &prefixes);
if (prefixes.empty())
return false;
// This function is called on the I/O thread, prevent changes to
// bloom filter and caches.
AutoLock locked(lookup_lock_);
if (!bloom_filter_.get())
return false;
// TODO(erikkay): Not filling in matching_list - is that OK?
size_t miss_count = 0;
for (size_t i = 0; i < prefixes.size(); ++i) {
if (bloom_filter_->Exists(prefixes[i])) {
prefix_hits->push_back(prefixes[i]);
if (prefix_miss_cache_.count(prefixes[i]) > 0)
++miss_count;
}
}
// If all the prefixes are cached as 'misses', don't issue a GetHash.
if (miss_count == prefix_hits->size())
return false;
// Find the matching full-hash results. |full_hashes_| are from the
// database, |pending_hashes_| are from GetHash requests between
// updates.
std::sort(prefix_hits->begin(), prefix_hits->end());
GetCachedFullHashes(*prefix_hits, full_hashes_, full_hits, last_update);
GetCachedFullHashes(*prefix_hits, pending_hashes_, full_hits, last_update);
return true;
}
// Helper to insert entries for all of the prefixes or full hashes in
// |entry| into the store.
void SafeBrowsingDatabaseNew::InsertAdd(int chunk_id, SBPrefix host,
const SBEntry* entry, int list_id) {
DCHECK_EQ(creation_loop_, MessageLoop::current());
STATS_COUNTER("SB.HostInsert", 1);
const int encoded_chunk_id = EncodeChunkId(chunk_id, list_id);
const int count = entry->prefix_count();
DCHECK(!entry->IsSub());
if (!count) {
// No prefixes, use host instead.
STATS_COUNTER("SB.PrefixAdd", 1);
store_->WriteAddPrefix(encoded_chunk_id, host);
} else if (entry->IsPrefix()) {
// Prefixes only.
for (int i = 0; i < count; i++) {
const SBPrefix prefix = entry->PrefixAt(i);
STATS_COUNTER("SB.PrefixAdd", 1);
store_->WriteAddPrefix(encoded_chunk_id, prefix);
}
} else {
// Prefixes and hashes.
const base::Time receive_time = base::Time::Now();
for (int i = 0; i < count; ++i) {
const SBFullHash full_hash = entry->FullHashAt(i);
const SBPrefix prefix = full_hash.prefix;
STATS_COUNTER("SB.PrefixAdd", 1);
store_->WriteAddPrefix(encoded_chunk_id, prefix);
STATS_COUNTER("SB.PrefixAddFull", 1);
store_->WriteAddHash(encoded_chunk_id, receive_time, full_hash);
}
}
}
// Helper to iterate over all the entries in the hosts in |chunks| and
// add them to the store.
void SafeBrowsingDatabaseNew::InsertAddChunks(int list_id,
const SBChunkList& chunks) {
DCHECK_EQ(creation_loop_, MessageLoop::current());
for (SBChunkList::const_iterator citer = chunks.begin();
citer != chunks.end(); ++citer) {
const int chunk_id = citer->chunk_number;
// The server can give us a chunk that we already have because
// it's part of a range. Don't add it again.
const int encoded_chunk_id = EncodeChunkId(chunk_id, list_id);
if (store_->CheckAddChunk(encoded_chunk_id))
continue;
store_->SetAddChunk(encoded_chunk_id);
for (std::deque<SBChunkHost>::const_iterator hiter = citer->hosts.begin();
hiter != citer->hosts.end(); ++hiter) {
// NOTE: Could pass |encoded_chunk_id|, but then inserting add
// chunks would look different from inserting sub chunks.
InsertAdd(chunk_id, hiter->host, hiter->entry, list_id);
}
}
}
// Helper to insert entries for all of the prefixes or full hashes in
// |entry| into the store.
void SafeBrowsingDatabaseNew::InsertSub(int chunk_id, SBPrefix host,
const SBEntry* entry, int list_id) {
DCHECK_EQ(creation_loop_, MessageLoop::current());
STATS_COUNTER("SB.HostDelete", 1);
const int encoded_chunk_id = EncodeChunkId(chunk_id, list_id);
const int count = entry->prefix_count();
DCHECK(entry->IsSub());
if (!count) {
// No prefixes, use host instead.
STATS_COUNTER("SB.PrefixSub", 1);
const int add_chunk_id = EncodeChunkId(entry->chunk_id(), list_id);
store_->WriteSubPrefix(encoded_chunk_id, add_chunk_id, host);
} else if (entry->IsPrefix()) {
// Prefixes only.
for (int i = 0; i < count; i++) {
const SBPrefix prefix = entry->PrefixAt(i);
const int add_chunk_id =
EncodeChunkId(entry->ChunkIdAtPrefix(i), list_id);
STATS_COUNTER("SB.PrefixSub", 1);
store_->WriteSubPrefix(encoded_chunk_id, add_chunk_id, prefix);
}
} else {
// Prefixes and hashes.
for (int i = 0; i < count; ++i) {
const SBFullHash full_hash = entry->FullHashAt(i);
const int add_chunk_id =
EncodeChunkId(entry->ChunkIdAtPrefix(i), list_id);
STATS_COUNTER("SB.PrefixSub", 1);
store_->WriteSubPrefix(encoded_chunk_id, add_chunk_id, full_hash.prefix);
STATS_COUNTER("SB.PrefixSubFull", 1);
store_->WriteSubHash(encoded_chunk_id, add_chunk_id, full_hash);
}
}
}
// Helper to iterate over all the entries in the hosts in |chunks| and
// add them to the store.
void SafeBrowsingDatabaseNew::InsertSubChunks(int list_id,
const SBChunkList& chunks) {
DCHECK_EQ(creation_loop_, MessageLoop::current());
for (SBChunkList::const_iterator citer = chunks.begin();
citer != chunks.end(); ++citer) {
const int chunk_id = citer->chunk_number;
// The server can give us a chunk that we already have because
// it's part of a range. Don't add it again.
const int encoded_chunk_id = EncodeChunkId(chunk_id, list_id);
if (store_->CheckSubChunk(encoded_chunk_id))
continue;
store_->SetSubChunk(encoded_chunk_id);
for (std::deque<SBChunkHost>::const_iterator hiter = citer->hosts.begin();
hiter != citer->hosts.end(); ++hiter) {
InsertSub(chunk_id, hiter->host, hiter->entry, list_id);
}
}
}
void SafeBrowsingDatabaseNew::InsertChunks(const std::string& list_name,
const SBChunkList& chunks) {
DCHECK_EQ(creation_loop_, MessageLoop::current());
if (corruption_detected_ || chunks.empty())
return;
const base::Time insert_start = base::Time::Now();
const int list_id = safe_browsing_util::GetListId(list_name);
store_->BeginChunk();
if (chunks.front().is_add) {
InsertAddChunks(list_id, chunks);
} else {
InsertSubChunks(list_id, chunks);
}
store_->FinishChunk();
UMA_HISTOGRAM_TIMES("SB2.ChunkInsert", base::Time::Now() - insert_start);
}
void SafeBrowsingDatabaseNew::DeleteChunks(
const std::vector<SBChunkDelete>& chunk_deletes) {
DCHECK_EQ(creation_loop_, MessageLoop::current());
if (corruption_detected_ || chunk_deletes.empty())
return;
const std::string& list_name = chunk_deletes.front().list_name;
const int list_id = safe_browsing_util::GetListId(list_name);
for (size_t i = 0; i < chunk_deletes.size(); ++i) {
std::vector<int> chunk_numbers;
RangesToChunks(chunk_deletes[i].chunk_del, &chunk_numbers);
for (size_t j = 0; j < chunk_numbers.size(); ++j) {
const int encoded_chunk_id = EncodeChunkId(chunk_numbers[j], list_id);
if (chunk_deletes[i].is_sub_del)
store_->DeleteSubChunk(encoded_chunk_id);
else
store_->DeleteAddChunk(encoded_chunk_id);
}
}
}
void SafeBrowsingDatabaseNew::CacheHashResults(
const std::vector<SBPrefix>& prefixes,
const std::vector<SBFullHashResult>& full_hits) {
// This is called on the I/O thread, lock against updates.
AutoLock locked(lookup_lock_);
if (full_hits.empty()) {
prefix_miss_cache_.insert(prefixes.begin(), prefixes.end());
return;
}
// TODO(shess): SBFullHashResult and SBAddFullHash are very similar.
// Refactor to make them identical.
const base::Time now = base::Time::Now();
const size_t orig_size = pending_hashes_.size();
for (std::vector<SBFullHashResult>::const_iterator iter = full_hits.begin();
iter != full_hits.end(); ++iter) {
const int list_id = safe_browsing_util::GetListId(iter->list_name);
const int encoded_chunk_id = EncodeChunkId(iter->add_chunk_id, list_id);
pending_hashes_.push_back(SBAddFullHash(encoded_chunk_id, now, iter->hash));
}
// Sort new entries then merge with the previously-sorted entries.
std::vector<SBAddFullHash>::iterator
orig_end = pending_hashes_.begin() + orig_size;
std::sort(orig_end, pending_hashes_.end(), SBAddFullHashPrefixLess);
std::inplace_merge(pending_hashes_.begin(), orig_end, pending_hashes_.end(),
SBAddFullHashPrefixLess);
}
bool SafeBrowsingDatabaseNew::UpdateStarted(
std::vector<SBListChunkRanges>* lists) {
DCHECK_EQ(creation_loop_, MessageLoop::current());
DCHECK(lists);
// If |BeginUpdate()| fails, reset the database.
if (!store_->BeginUpdate()) {
RecordFailure(FAILURE_DATABASE_UPDATE_BEGIN);
HandleCorruptDatabase();
return false;
}
SBListChunkRanges malware(safe_browsing_util::kMalwareList);
SBListChunkRanges phishing(safe_browsing_util::kPhishingList);
std::vector<int> add_chunks;
store_->GetAddChunks(&add_chunks);
GetChunkIds(add_chunks, &malware.adds, &phishing.adds);
std::vector<int> sub_chunks;
store_->GetSubChunks(&sub_chunks);
GetChunkIds(sub_chunks, &malware.subs, &phishing.subs);
lists->push_back(malware);
lists->push_back(phishing);
corruption_detected_ = false;
return true;
}
void SafeBrowsingDatabaseNew::UpdateFinished(bool update_succeeded) {
DCHECK_EQ(creation_loop_, MessageLoop::current());
if (corruption_detected_)
return;
// Unroll any partially-received transaction.
if (!update_succeeded) {
store_->CancelUpdate();
return;
}
// Copy out the pending add hashes. Copy rather than swapping in
// case |ContainsURL()| is called before the new filter is complete.
std::vector<SBAddFullHash> pending_add_hashes;
{
AutoLock locked(lookup_lock_);
pending_add_hashes.insert(pending_add_hashes.end(),
pending_hashes_.begin(), pending_hashes_.end());
}
// Measure the amount of IO during the bloom filter build.
base::IoCounters io_before, io_after;
base::ProcessHandle handle = base::Process::Current().handle();
scoped_ptr<base::ProcessMetrics> metric(
#if !defined(OS_MACOSX)
base::ProcessMetrics::CreateProcessMetrics(handle)
#else
// Getting stats only for the current process is enough, so NULL is fine.
base::ProcessMetrics::CreateProcessMetrics(handle, NULL)
#endif
);
// IoCounters are currently not supported on Mac, and may not be
// available for Linux, so we check the result and only show IO
// stats if they are available.
const bool got_counters = metric->GetIOCounters(&io_before);
const base::Time before = base::Time::Now();
std::vector<SBAddPrefix> add_prefixes;
std::vector<SBAddFullHash> add_full_hashes;
if (!store_->FinishUpdate(pending_add_hashes, prefix_miss_cache_,
&add_prefixes, &add_full_hashes)) {
RecordFailure(FAILURE_DATABASE_UPDATE_FINISH);
return;
}
// Create and populate |filter| from |add_prefixes|.
// TODO(shess): The bloom filter doesn't need to be a
// scoped_refptr<> for this code. Refactor that away.
const int filter_size =
BloomFilter::FilterSizeForKeyCount(add_prefixes.size());
scoped_refptr<BloomFilter> filter(new BloomFilter(filter_size));
for (size_t i = 0; i < add_prefixes.size(); ++i) {
filter->Insert(add_prefixes[i].prefix);
}
// This needs to be in sorted order by prefix for efficient access.
std::sort(add_full_hashes.begin(), add_full_hashes.end(),
SBAddFullHashPrefixLess);
// Swap in the newly built filter and cache.
{
AutoLock locked(lookup_lock_);
full_hashes_.swap(add_full_hashes);
// TODO(shess): If |CacheHashResults()| is posted between the
// earlier lock and this clear, those pending hashes will be lost.
// It could be fixed by only removing hashes which were collected
// at the earlier point. I believe that is fail-safe as-is (the
// hash will be fetched again).
pending_hashes_.clear();
prefix_miss_cache_.clear();
bloom_filter_.swap(filter);
}
const base::TimeDelta bloom_gen = base::Time::Now() - before;
// Persist the bloom filter to disk. Since only this thread changes
// |bloom_filter_|, there is no need to lock.
WriteBloomFilter();
// Gather statistics.
if (got_counters && metric->GetIOCounters(&io_after)) {
UMA_HISTOGRAM_COUNTS("SB2.BuildReadKilobytes",
static_cast<int>(io_after.ReadTransferCount -
io_before.ReadTransferCount) / 1024);
UMA_HISTOGRAM_COUNTS("SB2.BuildWriteKilobytes",
static_cast<int>(io_after.WriteTransferCount -
io_before.WriteTransferCount) / 1024);
UMA_HISTOGRAM_COUNTS("SB2.BuildReadOperations",
static_cast<int>(io_after.ReadOperationCount -
io_before.ReadOperationCount));
UMA_HISTOGRAM_COUNTS("SB2.BuildWriteOperations",
static_cast<int>(io_after.WriteOperationCount -
io_before.WriteOperationCount));
}
VLOG(1) << "SafeBrowsingDatabaseImpl built bloom filter in "
<< bloom_gen.InMilliseconds() << " ms total. prefix count: "
<< add_prefixes.size();
UMA_HISTOGRAM_LONG_TIMES("SB2.BuildFilter", bloom_gen);
UMA_HISTOGRAM_COUNTS("SB2.FilterKilobytes", bloom_filter_->size() / 1024);
int64 size_64;
if (file_util::GetFileSize(filename_, &size_64)) {
UMA_HISTOGRAM_COUNTS("SB2.DatabaseKilobytes",
static_cast<int>(size_64 / 1024));
}
}
void SafeBrowsingDatabaseNew::HandleCorruptDatabase() {
// Reset the database after the current task has unwound (but only
// reset once within the scope of a given task).
if (reset_factory_.empty()) {
RecordFailure(FAILURE_DATABASE_CORRUPT);
MessageLoop::current()->PostTask(FROM_HERE,
reset_factory_.NewRunnableMethod(
&SafeBrowsingDatabaseNew::OnHandleCorruptDatabase));
}
}
void SafeBrowsingDatabaseNew::OnHandleCorruptDatabase() {
UMA_HISTOGRAM_COUNTS("SB2.HandleCorrupt", 1);
RecordFailure(FAILURE_DATABASE_CORRUPT_HANDLER);
corruption_detected_ = true; // Stop updating the database.
ResetDatabase();
DCHECK(false) << "SafeBrowsing database was corrupt and reset";
}
// TODO(shess): I'm not clear why this code doesn't have any
// real error-handling.
void SafeBrowsingDatabaseNew::LoadBloomFilter() {
DCHECK_EQ(creation_loop_, MessageLoop::current());
DCHECK(!bloom_filter_filename_.empty());
// If we're missing either of the database or filter files, we wait until the
// next update to generate a new filter.
// TODO(paulg): Investigate how often the filter file is missing and how
// expensive it would be to regenerate it.
int64 size_64;
if (!file_util::GetFileSize(filename_, &size_64) || size_64 == 0)
return;
if (!file_util::GetFileSize(bloom_filter_filename_, &size_64) ||
size_64 == 0) {
UMA_HISTOGRAM_COUNTS("SB2.FilterMissing", 1);
RecordFailure(FAILURE_DATABASE_FILTER_MISSING);
return;
}
const base::TimeTicks before = base::TimeTicks::Now();
bloom_filter_ = BloomFilter::LoadFile(bloom_filter_filename_);
VLOG(1) << "SafeBrowsingDatabaseNew read bloom filter in "
<< (base::TimeTicks::Now() - before).InMilliseconds() << " ms";
if (!bloom_filter_.get()) {
UMA_HISTOGRAM_COUNTS("SB2.FilterReadFail", 1);
RecordFailure(FAILURE_DATABASE_FILTER_READ);
}
}
bool SafeBrowsingDatabaseNew::Delete() {
DCHECK_EQ(creation_loop_, MessageLoop::current());
const bool r1 = store_->Delete();
if (!r1)
RecordFailure(FAILURE_DATABASE_STORE_DELETE);
const bool r2 = file_util::Delete(bloom_filter_filename_, false);
if (!r2)
RecordFailure(FAILURE_DATABASE_FILTER_DELETE);
return r1 && r2;
}
void SafeBrowsingDatabaseNew::WriteBloomFilter() {
DCHECK_EQ(creation_loop_, MessageLoop::current());
if (!bloom_filter_.get())
return;
const base::TimeTicks before = base::TimeTicks::Now();
const bool write_ok = bloom_filter_->WriteFile(bloom_filter_filename_);
VLOG(1) << "SafeBrowsingDatabaseNew wrote bloom filter in "
<< (base::TimeTicks::Now() - before).InMilliseconds() << " ms";
if (!write_ok) {
UMA_HISTOGRAM_COUNTS("SB2.FilterWriteFail", 1);
RecordFailure(FAILURE_DATABASE_FILTER_WRITE);
}
}