net/disk_cache/cache_creator.cc - Issue 12794003: Initialize the simple cache backend at runtime.

Unified Diff: net/disk_cache/cache_creator.cc

Issue 12794003: Initialize the simple cache backend at runtime. (Closed) Base URL: http://git.chromium.org/chromium/src.git@master

Patch Set: Created 7 years, 9 months ago

Use n/p to move between diff chunks; N/P to move between comments. Draft comments are only viewable by you.

Jump to:

View side-by-side diff with in-line comments

Download patch

Index: net/disk_cache/cache_creator.cc

===================================================================

--- net/disk_cache/cache_creator.cc (revision 188696)

+++ net/disk_cache/cache_creator.cc (working copy)

@@ -1,83 +1,24 @@

rvargas (doing something else) 2013/03/18 22:25:25 nit: don't change the year

// Use of this source code is governed by a BSD-style license that can be

// found in the LICENSE file.

-#include "net/disk_cache/backend_impl.h"

-#include "base/bind.h"

-#include "base/bind_helpers.h"

#include "base/file_util.h"

-#include "base/files/file_path.h"

-#include "base/hash.h"

-#include "base/message_loop.h"

#include "base/metrics/field_trial.h"

-#include "base/metrics/histogram.h"

-#include "base/metrics/stats_counters.h"

-#include "base/rand_util.h"

#include "base/string_util.h"

#include "base/stringprintf.h"

-#include "base/sys_info.h"

#include "base/threading/thread_restrictions.h"

#include "base/threading/worker_pool.h"

-#include "base/time.h"

-#include "base/timer.h"

#include "net/base/net_errors.h"

+#include "net/disk_cache/backend_impl.h"

#include "net/disk_cache/cache_util.h"

-#include "net/disk_cache/entry_impl.h"

-#include "net/disk_cache/errors.h"

-#include "net/disk_cache/experiments.h"

-#include "net/disk_cache/file.h"

+#include "net/disk_cache/disk_cache.h"

#include "net/disk_cache/mem_backend_impl.h"

#include "net/disk_cache/simple/simple_backend_impl.h"

-// This has to be defined before including histogram_macros.h from this file.

-#define NET_DISK_CACHE_BACKEND_IMPL_CC_

-#include "net/disk_cache/histogram_macros.h"

-using base::Time;

-using base::TimeDelta;

-using base::TimeTicks;

namespace {

-const char* kIndexName = "index";

const int kMaxOldFolders = 100;

-// Seems like ~240 MB correspond to less than 50k entries for 99% of the people.

-// Note that the actual target is to keep the index table load factor under 55%

-// for most users.

-const int k64kEntriesStore = 240 * 1000 * 1000;

-const int kBaseTableLen = 64 * 1024;

-const int kDefaultCacheSize = 80 * 1024 * 1024;

-// Avoid trimming the cache for the first 5 minutes (10 timer ticks).

-const int kTrimDelay = 10;

-int DesiredIndexTableLen(int32 storage_size) {

- if (storage_size <= k64kEntriesStore)

- return kBaseTableLen;

- if (storage_size <= k64kEntriesStore * 2)

- return kBaseTableLen * 2;

- if (storage_size <= k64kEntriesStore * 4)

- return kBaseTableLen * 4;

- if (storage_size <= k64kEntriesStore * 8)

- return kBaseTableLen * 8;

- // The biggest storage_size for int32 requires a 4 MB table.

- return kBaseTableLen * 16;

-int MaxStorageSizeForTable(int table_len) {

- return table_len * (k64kEntriesStore / kBaseTableLen);

-size_t GetIndexSize(int table_len) {

- size_t table_size = sizeof(disk_cache::CacheAddr) * table_len;

- return sizeof(disk_cache::IndexHeader) + table_size;

-// ------------------------------------------------------------------------

// Returns a fully qualified name from path and name, using a given name prefix

// and index number. For instance, if the arguments are "/foo", "bar" and 5, it

// will return "/foo/old_bar_005".

@@ -110,7 +51,17 @@

return base::FilePath();

}

-// Moves the cache files to a new folder and creates a task to delete them.

+} // namespace

+namespace disk_cache {

+// In order to process a potentially large number of files, we'll rename the

+// cache directory to old_ + original_name + number, (located on the same parent

+// directory), and spawn a worker thread to delete all the files on all the

+// stale cache directories. The whole process can still fail if we are not able

+// to rename the cache directory (for instance due to a sharing violation), and

+// in that case a cache for this profile (on the desired path) cannot be

+// created.

bool DelayedCacheCleanup(const base::FilePath& full_path) {

// GetTempCacheName() and MoveCache() use synchronous file

// operations.

@@ -144,47 +95,26 @@

return true;

}

-// Sets group for the current experiment. Returns false if the files should be

-// discarded.

-bool InitExperiment(disk_cache::IndexHeader* header) {

- if (header->experiment == disk_cache::EXPERIMENT_OLD_FILE1 ||

- header->experiment == disk_cache::EXPERIMENT_OLD_FILE2) {

- // Discard current cache.

- return false;

- }

+} // namespace disk_cache

- header->experiment = disk_cache::NO_EXPERIMENT;

- return true;

+namespace {

-// ------------------------------------------------------------------------

-// This class takes care of building an instance of the backend.

+// Builds an instance of the backend depending on command-line option. Takes

rvargas (doing something else) 2013/03/18 22:25:25 nit: command line?

+// care of the retry state. This object will self-destroy when finished.

class CacheCreator {

public:

CacheCreator(const base::FilePath& path, bool force, int max_bytes,

net::CacheType type, uint32 flags,

base::MessageLoopProxy* thread, net::NetLog* net_log,

disk_cache::Backend** backend,

- const net::CompletionCallback& callback)

- : path_(path),

- force_(force),

- retry_(false),

- max_bytes_(max_bytes),

- type_(type),

- flags_(flags),

- thread_(thread),

- backend_(backend),

- callback_(callback),

- cache_(NULL),

- net_log_(net_log) {

- }

- ~CacheCreator() {}

+ const net::CompletionCallback& callback);

// Creates the backend.

int Run();

private:

+ ~CacheCreator();

void DoCallback(int result);

// Callback implementation.

@@ -199,18 +129,60 @@

scoped_refptr<base::MessageLoopProxy> thread_;

disk_cache::Backend** backend_;

net::CompletionCallback callback_;

- disk_cache::BackendImpl* cache_;

+ disk_cache::Backend* created_cache_;

net::NetLog* net_log_;

DISALLOW_COPY_AND_ASSIGN(CacheCreator);

};

+CacheCreator::CacheCreator(

+ const base::FilePath& path, bool force, int max_bytes,

+ net::CacheType type, uint32 flags,

+ base::MessageLoopProxy* thread, net::NetLog* net_log,

+ disk_cache::Backend** backend,

+ const net::CompletionCallback& callback)

+ : path_(path),

+ force_(force),

+ retry_(false),

+ max_bytes_(max_bytes),

+ type_(type),

+ flags_(flags),

+ thread_(thread),

+ backend_(backend),

+ callback_(callback),

+ created_cache_(NULL),

+ net_log_(net_log) {

rvargas (doing something else) 2013/03/18 22:25:25 nit: any reason to move empty methods offline?

+ }

+CacheCreator::~CacheCreator() {

int CacheCreator::Run() {

- cache_ = new disk_cache::BackendImpl(path_, thread_, net_log_);

- cache_->SetMaxSize(max_bytes_);

- cache_->SetType(type_);

- cache_->SetFlags(flags_);

- int rv = cache_->Init(

+ if (type_ == net::MEMORY_CACHE) {

rvargas (doing something else) 2013/03/18 22:25:25 nit: do this directly on CreateCacheBackend.

+ *backend_ = disk_cache::MemBackendImpl::CreateBackend(max_bytes_, net_log_);

+ return *backend_ ? net::OK : net::ERR_FAILED;

+ }

+ // TODO(pasko): The two caches should never coexist. Set up cache cleanup in

+ // two cases: (1) the other version of the cache exists, (2) we are in the

+ // "Control" group of the experiment.

+ if (base::FieldTrialList::FindFullName("SimpleCacheTrial") == "Yes") {

+ // TODO(gavinp,pasko): While simple backend development proceeds, we're only

+ // testing it against net::DISK_CACHE. Turn it on for more cache types as

+ // appropriate.

+ if (type_ == net::DISK_CACHE) {

+ VLOG(1) << "Using the Simple Cache Backend.";

+ return disk_cache::SimpleBackendImpl::CreateBackend(path_, max_bytes_,

+ type_, disk_cache::kNone, thread_, net_log_, backend_,

+ base::Bind(&CacheCreator::OnIOComplete, base::Unretained(this)));

+ }

+ disk_cache::BackendImpl* new_cache = new disk_cache::BackendImpl(

+ path_, thread_, net_log_);

+ created_cache_ = new_cache;

+ new_cache->SetMaxSize(max_bytes_);

+ new_cache->SetType(type_);

+ new_cache->SetFlags(flags_);

+ int rv = new_cache->Init(

base::Bind(&CacheCreator::OnIOComplete, base::Unretained(this)));

DCHECK_EQ(net::ERR_IO_PENDING, rv);

return rv;

@@ -219,16 +191,18 @@

void CacheCreator::DoCallback(int result) {

DCHECK_NE(net::ERR_IO_PENDING, result);

if (result == net::OK) {

- *backend_ = cache_;

+ *backend_ = created_cache_;

} else {

LOG(ERROR) << "Unable to create cache";

*backend_ = NULL;

- delete cache_;

+ delete created_cache_;

}

callback_.Run(result);

delete this;

}

+// If the initialization of the cache fails, and |force| is true, we will

+// discard the whole cache and create a new one.

void CacheCreator::OnIOComplete(int result) {

if (result == net::OK || !force_ || retry_)

return DoCallback(result);

@@ -236,9 +210,9 @@

// This is a failure and we are supposed to try again, so delete the object,

// delete all the files, and try again.

retry_ = true;

- delete cache_;

- cache_ = NULL;

- if (!DelayedCacheCleanup(path_))

+ delete created_cache_;

+ created_cache_ = NULL;

+ if (!disk_cache::DelayedCacheCleanup(path_))

return DoCallback(result);

// The worker thread will start deleting files soon, but the original folder

@@ -247,2015 +221,28 @@

DCHECK_EQ(net::ERR_IO_PENDING, rv);

}

-// A callback to perform final cleanup on the background thread.

-void FinalCleanupCallback(disk_cache::BackendImpl* backend) {

- backend->CleanupCache();

} // namespace

-// ------------------------------------------------------------------------

namespace disk_cache {

-int CreateCacheBackend(net::CacheType type, const base::FilePath& path,

- int max_bytes,

- bool force, base::MessageLoopProxy* thread,

- net::NetLog* net_log, Backend** backend,

- const net::CompletionCallback& callback) {

- // TODO(pasko): Separate out cache creation when landing cache tracer.

+int CreateCacheBackendWithFlags(net::CacheType type, const base::FilePath& path,

+ int max_bytes, bool force, uint32 flags, base::MessageLoopProxy* thread,

rvargas (doing something else) 2013/03/18 22:25:25 nit: indent under the first arg.

+ net::NetLog* net_log, Backend** backend,

+ const net::CompletionCallback& callback) {

DCHECK(!callback.is_null());

- if (type == net::MEMORY_CACHE) {

- *backend = MemBackendImpl::CreateBackend(max_bytes, net_log);

- return *backend ? net::OK : net::ERR_FAILED;

- }

- DCHECK(thread);

-#if defined(USE_SIMPLE_CACHE_BACKEND)

- // TODO(gavinp,pasko): While simple backend development proceeds, we're only

- // testing it against net::DISK_CACHE. Turn it on for more cache types as

- // appropriate.

- if (type == net::DISK_CACHE) {

- return SimpleBackendImpl::CreateBackend(path, force, max_bytes, type, kNone,

- thread, net_log, backend, callback);

- }

-#endif

- return BackendImpl::CreateBackend(path, force, max_bytes, type, kNone,

- thread, net_log, backend, callback);

-// Returns the preferred maximum number of bytes for the cache given the

-// number of available bytes.

-int PreferedCacheSize(int64 available) {

- // Return 80% of the available space if there is not enough space to use

- // kDefaultCacheSize.

- if (available < kDefaultCacheSize * 10 / 8)

- return static_cast<int32>(available * 8 / 10);

- // Return kDefaultCacheSize if it uses 80% to 10% of the available space.

- if (available < kDefaultCacheSize * 10)

- return kDefaultCacheSize;

- // Return 10% of the available space if the target size

- // (2.5 * kDefaultCacheSize) is more than 10%.

- if (available < static_cast<int64>(kDefaultCacheSize) * 25)

- return static_cast<int32>(available / 10);

- // Return the target size (2.5 * kDefaultCacheSize) if it uses 10% to 1%

- // of the available space.

- if (available < static_cast<int64>(kDefaultCacheSize) * 250)

- return kDefaultCacheSize * 5 / 2;

- // Return 1% of the available space if it does not exceed kint32max.

- if (available < static_cast<int64>(kint32max) * 100)

- return static_cast<int32>(available / 100);

- return kint32max;

-// ------------------------------------------------------------------------

-BackendImpl::BackendImpl(const base::FilePath& path,

- base::MessageLoopProxy* cache_thread,

- net::NetLog* net_log)

- : ALLOW_THIS_IN_INITIALIZER_LIST(background_queue_(this, cache_thread)),

- path_(path),

- block_files_(path),

- mask_(0),

- max_size_(0),

- up_ticks_(0),

- cache_type_(net::DISK_CACHE),

- uma_report_(0),

- user_flags_(0),

- init_(false),

- restarted_(false),

- unit_test_(false),

- read_only_(false),

- disabled_(false),

- new_eviction_(false),

- first_timer_(true),

- user_load_(false),

- net_log_(net_log),

- done_(true, false),

- ALLOW_THIS_IN_INITIALIZER_LIST(ptr_factory_(this)) {

-BackendImpl::BackendImpl(const base::FilePath& path,

- uint32 mask,

- base::MessageLoopProxy* cache_thread,

- net::NetLog* net_log)

- : ALLOW_THIS_IN_INITIALIZER_LIST(background_queue_(this, cache_thread)),

- path_(path),

- block_files_(path),

- mask_(mask),

- max_size_(0),

- up_ticks_(0),

- cache_type_(net::DISK_CACHE),

- uma_report_(0),

- user_flags_(kMask),

- init_(false),

- restarted_(false),

- unit_test_(false),

- read_only_(false),

- disabled_(false),

- new_eviction_(false),

- first_timer_(true),

- user_load_(false),

- net_log_(net_log),

- done_(true, false),

- ALLOW_THIS_IN_INITIALIZER_LIST(ptr_factory_(this)) {

-BackendImpl::~BackendImpl() {

- if (user_flags_ & kNoRandom) {

- // This is a unit test, so we want to be strict about not leaking entries

- // and completing all the work.

- background_queue_.WaitForPendingIO();

- } else {

- // This is most likely not a test, so we want to do as little work as

- // possible at this time, at the price of leaving dirty entries behind.

- background_queue_.DropPendingIO();

- }

- if (background_queue_.BackgroundIsCurrentThread()) {

- // Unit tests may use the same thread for everything.

- CleanupCache();

- } else {

- background_queue_.background_thread()->PostTask(

- FROM_HERE, base::Bind(&FinalCleanupCallback, base::Unretained(this)));

- // http://crbug.com/74623

- base::ThreadRestrictions::ScopedAllowWait allow_wait;

- done_.Wait();

- }

-// If the initialization of the cache fails, and force is true, we will discard

-// the whole cache and create a new one. In order to process a potentially large

-// number of files, we'll rename the cache folder to old_ + original_name +

-// number, (located on the same parent folder), and spawn a worker thread to

-// delete all the files on all the stale cache folders. The whole process can

-// still fail if we are not able to rename the cache folder (for instance due to

-// a sharing violation), and in that case a cache for this profile (on the

-// desired path) cannot be created.

-//

-// Static.

-int BackendImpl::CreateBackend(const base::FilePath& full_path, bool force,

- int max_bytes, net::CacheType type,

- uint32 flags, base::MessageLoopProxy* thread,

- net::NetLog* net_log, Backend** backend,

- const CompletionCallback& callback) {

- DCHECK(!callback.is_null());

- CacheCreator* creator =

- new CacheCreator(full_path, force, max_bytes, type, flags, thread,

- net_log, backend, callback);

- // This object will self-destroy when finished.

+ DCHECK(thread || type == net::MEMORY_CACHE);

+ CacheCreator* creator = new CacheCreator(path, force, max_bytes, type, flags,

+ thread, net_log, backend, callback);

return creator->Run();

}

-int BackendImpl::Init(const CompletionCallback& callback) {

- background_queue_.Init(callback);

- return net::ERR_IO_PENDING;

+int CreateCacheBackend(net::CacheType type, const base::FilePath& path,

+ int max_bytes, bool force, base::MessageLoopProxy* thread,

+ net::NetLog* net_log, Backend** backend,

+ const net::CompletionCallback& callback) {

+ return CreateCacheBackendWithFlags(type, path, max_bytes, force, kNone,

+ thread, net_log, backend, callback);

}

-int BackendImpl::SyncInit() {

-#if defined(NET_BUILD_STRESS_CACHE)

- // Start evictions right away.

- up_ticks_ = kTrimDelay * 2;

-#endif

- DCHECK(!init_);

- if (init_)

- return net::ERR_FAILED;

- bool create_files = false;

- if (!InitBackingStore(&create_files)) {

- ReportError(ERR_STORAGE_ERROR);

- return net::ERR_FAILED;

- }

- num_refs_ = num_pending_io_ = max_refs_ = 0;

- entry_count_ = byte_count_ = 0;

- if (!restarted_) {

- buffer_bytes_ = 0;

- trace_object_ = TraceObject::GetTraceObject();

- // Create a recurrent timer of 30 secs.

- int timer_delay = unit_test_ ? 1000 : 30000;

- timer_.reset(new base::RepeatingTimer<BackendImpl>());

- timer_->Start(FROM_HERE, TimeDelta::FromMilliseconds(timer_delay), this,

- &BackendImpl::OnStatsTimer);

- }

- init_ = true;

- Trace("Init");

- if (data_->header.experiment != NO_EXPERIMENT &&

- cache_type_ != net::DISK_CACHE) {

- // No experiment for other caches.

- return net::ERR_FAILED;

- }

- if (!(user_flags_ & kNoRandom)) {

- // The unit test controls directly what to test.

- new_eviction_ = (cache_type_ == net::DISK_CACHE);

- }

- if (!CheckIndex()) {

- ReportError(ERR_INIT_FAILED);

- return net::ERR_FAILED;

- }

- if (!restarted_ && (create_files || !data_->header.num_entries))

- ReportError(ERR_CACHE_CREATED);

- if (!(user_flags_ & kNoRandom) &&

- cache_type_ == net::DISK_CACHE && !InitExperiment(&data_->header))

- return net::ERR_FAILED;

- // We don't care if the value overflows. The only thing we care about is that

- // the id cannot be zero, because that value is used as "not dirty".

- // Increasing the value once per second gives us many years before we start

- // having collisions.

- data_->header.this_id++;

- if (!data_->header.this_id)

- data_->header.this_id++;

- bool previous_crash = (data_->header.crash != 0);

- data_->header.crash = 1;

- if (!block_files_.Init(create_files))

- return net::ERR_FAILED;

- // We want to minimize the changes to cache for an AppCache.

- if (cache_type() == net::APP_CACHE) {

- DCHECK(!new_eviction_);

- read_only_ = true;

- } else if (cache_type() == net::SHADER_CACHE) {

- DCHECK(!new_eviction_);

- }

- eviction_.Init(this);

- // stats_ and rankings_ may end up calling back to us so we better be enabled.

- disabled_ = false;

- if (!stats_.Init(this, &data_->header.stats))

- return net::ERR_FAILED;

- disabled_ = !rankings_.Init(this, new_eviction_);

-#if defined(STRESS_CACHE_EXTENDED_VALIDATION)

- trace_object_->EnableTracing(false);

- int sc = SelfCheck();

- if (sc < 0 && sc != ERR_NUM_ENTRIES_MISMATCH)

- NOTREACHED();

- trace_object_->EnableTracing(true);

-#endif

- if (previous_crash) {

- ReportError(ERR_PREVIOUS_CRASH);

- } else if (!restarted_) {

- ReportError(ERR_NO_ERROR);

- }

- FlushIndex();

- return disabled_ ? net::ERR_FAILED : net::OK;

-void BackendImpl::CleanupCache() {

- Trace("Backend Cleanup");

- eviction_.Stop();

- timer_.reset();

- if (init_) {

- stats_.Store();

- if (data_)

- data_->header.crash = 0;

- if (user_flags_ & kNoRandom) {

- // This is a net_unittest, verify that we are not 'leaking' entries.

- File::WaitForPendingIO(&num_pending_io_);

- DCHECK(!num_refs_);

- } else {

- File::DropPendingIO();

- }

- block_files_.CloseFiles();

- FlushIndex();

- index_ = NULL;

- ptr_factory_.InvalidateWeakPtrs();

- done_.Signal();

-// ------------------------------------------------------------------------

-int BackendImpl::OpenPrevEntry(void** iter, Entry** prev_entry,

- const CompletionCallback& callback) {

- DCHECK(!callback.is_null());

- background_queue_.OpenPrevEntry(iter, prev_entry, callback);

- return net::ERR_IO_PENDING;

-int BackendImpl::SyncOpenEntry(const std::string& key, Entry** entry) {

- DCHECK(entry);

- *entry = OpenEntryImpl(key);

- return (*entry) ? net::OK : net::ERR_FAILED;

-int BackendImpl::SyncCreateEntry(const std::string& key, Entry** entry) {

- DCHECK(entry);

- *entry = CreateEntryImpl(key);

- return (*entry) ? net::OK : net::ERR_FAILED;

-int BackendImpl::SyncDoomEntry(const std::string& key) {

- if (disabled_)

- return net::ERR_FAILED;

- EntryImpl* entry = OpenEntryImpl(key);

- if (!entry)

- return net::ERR_FAILED;

- entry->DoomImpl();

- entry->Release();

- return net::OK;

-int BackendImpl::SyncDoomAllEntries() {

- // This is not really an error, but it is an interesting condition.

- ReportError(ERR_CACHE_DOOMED);

- stats_.OnEvent(Stats::DOOM_CACHE);

- if (!num_refs_) {

- RestartCache(false);

- return disabled_ ? net::ERR_FAILED : net::OK;

- } else {

- if (disabled_)

- return net::ERR_FAILED;

- eviction_.TrimCache(true);

- return net::OK;

- }

-int BackendImpl::SyncDoomEntriesBetween(const base::Time initial_time,

- const base::Time end_time) {

- DCHECK_NE(net::APP_CACHE, cache_type_);

- if (end_time.is_null())

- return SyncDoomEntriesSince(initial_time);

- DCHECK(end_time >= initial_time);

- if (disabled_)

- return net::ERR_FAILED;

- EntryImpl* node;

- void* iter = NULL;

- EntryImpl* next = OpenNextEntryImpl(&iter);

- if (!next)

- return net::OK;

- while (next) {

- node = next;

- next = OpenNextEntryImpl(&iter);

- if (node->GetLastUsed() >= initial_time &&

- node->GetLastUsed() < end_time) {

- node->DoomImpl();

- } else if (node->GetLastUsed() < initial_time) {

- if (next)

- next->Release();

- next = NULL;

- SyncEndEnumeration(iter);

- }

- node->Release();

- }

- return net::OK;

-// We use OpenNextEntryImpl to retrieve elements from the cache, until we get

-// entries that are too old.

-int BackendImpl::SyncDoomEntriesSince(const base::Time initial_time) {

- DCHECK_NE(net::APP_CACHE, cache_type_);

- if (disabled_)

- return net::ERR_FAILED;

- stats_.OnEvent(Stats::DOOM_RECENT);

- for (;;) {

- void* iter = NULL;

- EntryImpl* entry = OpenNextEntryImpl(&iter);

- if (!entry)

- return net::OK;

- if (initial_time > entry->GetLastUsed()) {

- entry->Release();

- SyncEndEnumeration(iter);

- return net::OK;

- }

- entry->DoomImpl();

- entry->Release();

- SyncEndEnumeration(iter); // Dooming the entry invalidates the iterator.

- }

-int BackendImpl::SyncOpenNextEntry(void** iter, Entry** next_entry) {

- *next_entry = OpenNextEntryImpl(iter);

- return (*next_entry) ? net::OK : net::ERR_FAILED;

-int BackendImpl::SyncOpenPrevEntry(void** iter, Entry** prev_entry) {

- *prev_entry = OpenPrevEntryImpl(iter);

- return (*prev_entry) ? net::OK : net::ERR_FAILED;

-void BackendImpl::SyncEndEnumeration(void* iter) {

- scoped_ptr<Rankings::Iterator> iterator(

- reinterpret_cast<Rankings::Iterator*>(iter));

-void BackendImpl::SyncOnExternalCacheHit(const std::string& key) {

- if (disabled_)

- return;

- uint32 hash = base::Hash(key);

- bool error;

- EntryImpl* cache_entry = MatchEntry(key, hash, false, Addr(), &error);

- if (cache_entry) {

- if (ENTRY_NORMAL == cache_entry->entry()->Data()->state) {

- UpdateRank(cache_entry, cache_type() == net::SHADER_CACHE);

- }

- cache_entry->Release();

- }

-EntryImpl* BackendImpl::OpenEntryImpl(const std::string& key) {

- if (disabled_)

- return NULL;

- TimeTicks start = TimeTicks::Now();

- uint32 hash = base::Hash(key);

- Trace("Open hash 0x%x", hash);

- bool error;

- EntryImpl* cache_entry = MatchEntry(key, hash, false, Addr(), &error);

- if (cache_entry && ENTRY_NORMAL != cache_entry->entry()->Data()->state) {

- // The entry was already evicted.

- cache_entry->Release();

- cache_entry = NULL;

- }

- int current_size = data_->header.num_bytes / (1024 * 1024);

- int64 total_hours = stats_.GetCounter(Stats::TIMER) / 120;

- int64 no_use_hours = stats_.GetCounter(Stats::LAST_REPORT_TIMER) / 120;

- int64 use_hours = total_hours - no_use_hours;

- if (!cache_entry) {

- CACHE_UMA(AGE_MS, "OpenTime.Miss", 0, start);

- CACHE_UMA(COUNTS_10000, "AllOpenBySize.Miss", 0, current_size);

- CACHE_UMA(HOURS, "AllOpenByTotalHours.Miss", 0, total_hours);

- CACHE_UMA(HOURS, "AllOpenByUseHours.Miss", 0, use_hours);

- stats_.OnEvent(Stats::OPEN_MISS);

- return NULL;

- }

- eviction_.OnOpenEntry(cache_entry);

- entry_count_++;

- Trace("Open hash 0x%x end: 0x%x", hash,

- cache_entry->entry()->address().value());

- CACHE_UMA(AGE_MS, "OpenTime", 0, start);

- CACHE_UMA(COUNTS_10000, "AllOpenBySize.Hit", 0, current_size);

- CACHE_UMA(HOURS, "AllOpenByTotalHours.Hit", 0, total_hours);

- CACHE_UMA(HOURS, "AllOpenByUseHours.Hit", 0, use_hours);

- stats_.OnEvent(Stats::OPEN_HIT);

- SIMPLE_STATS_COUNTER("disk_cache.hit");

- return cache_entry;

-EntryImpl* BackendImpl::CreateEntryImpl(const std::string& key) {

- if (disabled_ || key.empty())

- return NULL;

- TimeTicks start = TimeTicks::Now();

- uint32 hash = base::Hash(key);

- Trace("Create hash 0x%x", hash);

- scoped_refptr<EntryImpl> parent;

- Addr entry_address(data_->table[hash & mask_]);

- if (entry_address.is_initialized()) {

- // We have an entry already. It could be the one we are looking for, or just

- // a hash conflict.

- bool error;

- EntryImpl* old_entry = MatchEntry(key, hash, false, Addr(), &error);

- if (old_entry)

- return ResurrectEntry(old_entry);

- EntryImpl* parent_entry = MatchEntry(key, hash, true, Addr(), &error);

- DCHECK(!error);

- if (parent_entry) {

- parent.swap(&parent_entry);

- } else if (data_->table[hash & mask_]) {

- // We should have corrected the problem.

- NOTREACHED();

- return NULL;

- }

- // The general flow is to allocate disk space and initialize the entry data,

- // followed by saving that to disk, then linking the entry though the index

- // and finally through the lists. If there is a crash in this process, we may

- // end up with:

- // a. Used, unreferenced empty blocks on disk (basically just garbage).

- // b. Used, unreferenced but meaningful data on disk (more garbage).

- // c. A fully formed entry, reachable only through the index.

- // d. A fully formed entry, also reachable through the lists, but still dirty.

- //

- // Anything after (b) can be automatically cleaned up. We may consider saving

- // the current operation (as we do while manipulating the lists) so that we

- // can detect and cleanup (a) and (b).

- int num_blocks = EntryImpl::NumBlocksForEntry(key.size());

- if (!block_files_.CreateBlock(BLOCK_256, num_blocks, &entry_address)) {

- LOG(ERROR) << "Create entry failed " << key.c_str();

- stats_.OnEvent(Stats::CREATE_ERROR);

- return NULL;

- }

- Addr node_address(0);

- if (!block_files_.CreateBlock(RANKINGS, 1, &node_address)) {

- block_files_.DeleteBlock(entry_address, false);

- LOG(ERROR) << "Create entry failed " << key.c_str();

- stats_.OnEvent(Stats::CREATE_ERROR);

- return NULL;

- }

- scoped_refptr<EntryImpl> cache_entry(

- new EntryImpl(this, entry_address, false));

- IncreaseNumRefs();

- if (!cache_entry->CreateEntry(node_address, key, hash)) {

- block_files_.DeleteBlock(entry_address, false);

- block_files_.DeleteBlock(node_address, false);

- LOG(ERROR) << "Create entry failed " << key.c_str();

- stats_.OnEvent(Stats::CREATE_ERROR);

- return NULL;

- }

- cache_entry->BeginLogging(net_log_, true);

- // We are not failing the operation; let's add this to the map.

- open_entries_[entry_address.value()] = cache_entry;

- // Save the entry.

- cache_entry->entry()->Store();

- cache_entry->rankings()->Store();

- IncreaseNumEntries();

- entry_count_++;

- // Link this entry through the index.

- if (parent.get()) {

- parent->SetNextAddress(entry_address);

- } else {

- data_->table[hash & mask_] = entry_address.value();

- }

- // Link this entry through the lists.

- eviction_.OnCreateEntry(cache_entry);

- CACHE_UMA(AGE_MS, "CreateTime", 0, start);

- stats_.OnEvent(Stats::CREATE_HIT);

- SIMPLE_STATS_COUNTER("disk_cache.miss");

- Trace("create entry hit ");

- FlushIndex();

- cache_entry->AddRef();

- return cache_entry.get();

-EntryImpl* BackendImpl::OpenNextEntryImpl(void** iter) {

- return OpenFollowingEntry(true, iter);

-EntryImpl* BackendImpl::OpenPrevEntryImpl(void** iter) {

- return OpenFollowingEntry(false, iter);

-bool BackendImpl::SetMaxSize(int max_bytes) {

- COMPILE_ASSERT(sizeof(max_bytes) == sizeof(max_size_), unsupported_int_model);

- if (max_bytes < 0)

- return false;

- // Zero size means use the default.

- if (!max_bytes)

- return true;

- // Avoid a DCHECK later on.

- if (max_bytes >= kint32max - kint32max / 10)

- max_bytes = kint32max - kint32max / 10 - 1;

- user_flags_ |= kMaxSize;

- max_size_ = max_bytes;

- return true;

-void BackendImpl::SetType(net::CacheType type) {

- DCHECK_NE(net::MEMORY_CACHE, type);

- cache_type_ = type;

-base::FilePath BackendImpl::GetFileName(Addr address) const {

- if (!address.is_separate_file() || !address.is_initialized()) {

- NOTREACHED();

- return base::FilePath();

- }

- std::string tmp = base::StringPrintf("f_%06x", address.FileNumber());

- return path_.AppendASCII(tmp);

-MappedFile* BackendImpl::File(Addr address) {

- if (disabled_)

- return NULL;

- return block_files_.GetFile(address);

-base::WeakPtr<InFlightBackendIO> BackendImpl::GetBackgroundQueue() {

- return background_queue_.GetWeakPtr();

-bool BackendImpl::CreateExternalFile(Addr* address) {

- int file_number = data_->header.last_file + 1;

- Addr file_address(0);

- bool success = false;

- for (int i = 0; i < 0x0fffffff; i++, file_number++) {

- if (!file_address.SetFileNumber(file_number)) {

- file_number = 1;

- continue;

- }

- base::FilePath name = GetFileName(file_address);

- int flags = base::PLATFORM_FILE_READ |

- base::PLATFORM_FILE_WRITE |

- base::PLATFORM_FILE_CREATE |

- base::PLATFORM_FILE_EXCLUSIVE_WRITE;

- base::PlatformFileError error;

- scoped_refptr<disk_cache::File> file(new disk_cache::File(

- base::CreatePlatformFile(name, flags, NULL, &error)));

- if (!file->IsValid()) {

- if (error != base::PLATFORM_FILE_ERROR_EXISTS) {

- LOG(ERROR) << "Unable to create file: " << error;

- return false;

- }

- continue;

- }

- success = true;

- break;

- }

- DCHECK(success);

- if (!success)

- return false;

- data_->header.last_file = file_number;

- address->set_value(file_address.value());

- return true;

-bool BackendImpl::CreateBlock(FileType block_type, int block_count,

- Addr* block_address) {

- return block_files_.CreateBlock(block_type, block_count, block_address);

-void BackendImpl::DeleteBlock(Addr block_address, bool deep) {

- block_files_.DeleteBlock(block_address, deep);

-LruData* BackendImpl::GetLruData() {

- return &data_->header.lru;

-void BackendImpl::UpdateRank(EntryImpl* entry, bool modified) {

- if (read_only_ || (!modified && cache_type() == net::SHADER_CACHE))

- return;

- eviction_.UpdateRank(entry, modified);

-void BackendImpl::RecoveredEntry(CacheRankingsBlock* rankings) {

- Addr address(rankings->Data()->contents);

- EntryImpl* cache_entry = NULL;

- if (NewEntry(address, &cache_entry)) {

- STRESS_NOTREACHED();

- return;

- }

- uint32 hash = cache_entry->GetHash();

- cache_entry->Release();

- // Anything on the table means that this entry is there.

- if (data_->table[hash & mask_])

- return;

- data_->table[hash & mask_] = address.value();

- FlushIndex();

-void BackendImpl::InternalDoomEntry(EntryImpl* entry) {

- uint32 hash = entry->GetHash();

- std::string key = entry->GetKey();

- Addr entry_addr = entry->entry()->address();

- bool error;

- EntryImpl* parent_entry = MatchEntry(key, hash, true, entry_addr, &error);

- CacheAddr child(entry->GetNextAddress());

- Trace("Doom entry 0x%p", entry);

- if (!entry->doomed()) {

- // We may have doomed this entry from within MatchEntry.

- eviction_.OnDoomEntry(entry);

- entry->InternalDoom();

- if (!new_eviction_) {

- DecreaseNumEntries();

- }

- stats_.OnEvent(Stats::DOOM_ENTRY);

- }

- if (parent_entry) {

- parent_entry->SetNextAddress(Addr(child));

- parent_entry->Release();

- } else if (!error) {

- data_->table[hash & mask_] = child;

- }

- FlushIndex();

-#if defined(NET_BUILD_STRESS_CACHE)

-CacheAddr BackendImpl::GetNextAddr(Addr address) {

- EntriesMap::iterator it = open_entries_.find(address.value());

- if (it != open_entries_.end()) {

- EntryImpl* this_entry = it->second;

- return this_entry->GetNextAddress();

- }

- DCHECK(block_files_.IsValid(address));

- DCHECK(!address.is_separate_file() && address.file_type() == BLOCK_256);

- CacheEntryBlock entry(File(address), address);

- CHECK(entry.Load());

- return entry.Data()->next;

-void BackendImpl::NotLinked(EntryImpl* entry) {

- Addr entry_addr = entry->entry()->address();

- uint32 i = entry->GetHash() & mask_;

- Addr address(data_->table[i]);

- if (!address.is_initialized())

- return;

- for (;;) {

- DCHECK(entry_addr.value() != address.value());

- address.set_value(GetNextAddr(address));

- if (!address.is_initialized())

- break;

- }

-#endif // NET_BUILD_STRESS_CACHE

-// An entry may be linked on the DELETED list for a while after being doomed.

-// This function is called when we want to remove it.

-void BackendImpl::RemoveEntry(EntryImpl* entry) {

-#if defined(NET_BUILD_STRESS_CACHE)

- NotLinked(entry);

-#endif

- if (!new_eviction_)

- return;

- DCHECK_NE(ENTRY_NORMAL, entry->entry()->Data()->state);

- Trace("Remove entry 0x%p", entry);

- eviction_.OnDestroyEntry(entry);

- DecreaseNumEntries();

-void BackendImpl::OnEntryDestroyBegin(Addr address) {

- EntriesMap::iterator it = open_entries_.find(address.value());

- if (it != open_entries_.end())

- open_entries_.erase(it);

-void BackendImpl::OnEntryDestroyEnd() {

- DecreaseNumRefs();

- if (data_->header.num_bytes > max_size_ && !read_only_ &&

- (up_ticks_ > kTrimDelay || user_flags_ & kNoRandom))

- eviction_.TrimCache(false);

-EntryImpl* BackendImpl::GetOpenEntry(CacheRankingsBlock* rankings) const {

- DCHECK(rankings->HasData());

- EntriesMap::const_iterator it =

- open_entries_.find(rankings->Data()->contents);

- if (it != open_entries_.end()) {

- // We have this entry in memory.

- return it->second;

- }

- return NULL;

-int32 BackendImpl::GetCurrentEntryId() const {

- return data_->header.this_id;

-int BackendImpl::MaxFileSize() const {

- return max_size_ / 8;

-void BackendImpl::ModifyStorageSize(int32 old_size, int32 new_size) {

- if (disabled_ || old_size == new_size)

- return;

- if (old_size > new_size)

- SubstractStorageSize(old_size - new_size);

- else

- AddStorageSize(new_size - old_size);

- FlushIndex();

- // Update the usage statistics.

- stats_.ModifyStorageStats(old_size, new_size);

-void BackendImpl::TooMuchStorageRequested(int32 size) {

- stats_.ModifyStorageStats(0, size);

-bool BackendImpl::IsAllocAllowed(int current_size, int new_size) {

- DCHECK_GT(new_size, current_size);

- if (user_flags_ & kNoBuffering)

- return false;

- int to_add = new_size - current_size;

- if (buffer_bytes_ + to_add > MaxBuffersSize())

- return false;

- buffer_bytes_ += to_add;

- CACHE_UMA(COUNTS_50000, "BufferBytes", 0, buffer_bytes_ / 1024);

- return true;

-void BackendImpl::BufferDeleted(int size) {

- buffer_bytes_ -= size;

- DCHECK_GE(size, 0);

-bool BackendImpl::IsLoaded() const {

- CACHE_UMA(COUNTS, "PendingIO", 0, num_pending_io_);

- if (user_flags_ & kNoLoadProtection)

- return false;

- return (num_pending_io_ > 5 || user_load_);

-std::string BackendImpl::HistogramName(const char* name, int experiment) const {

- if (!experiment)

- return base::StringPrintf("DiskCache.%d.%s", cache_type_, name);

- return base::StringPrintf("DiskCache.%d.%s_%d", cache_type_,

- name, experiment);

-base::WeakPtr<BackendImpl> BackendImpl::GetWeakPtr() {

- return ptr_factory_.GetWeakPtr();

-// We want to remove biases from some histograms so we only send data once per

-// week.

-bool BackendImpl::ShouldReportAgain() {

- if (uma_report_)

- return uma_report_ == 2;

- uma_report_++;

- int64 last_report = stats_.GetCounter(Stats::LAST_REPORT);

- Time last_time = Time::FromInternalValue(last_report);

- if (!last_report || (Time::Now() - last_time).InDays() >= 7) {

- stats_.SetCounter(Stats::LAST_REPORT, Time::Now().ToInternalValue());

- uma_report_++;

- return true;

- }

- return false;

-void BackendImpl::FirstEviction() {

- DCHECK(data_->header.create_time);

- if (!GetEntryCount())

- return; // This is just for unit tests.

- Time create_time = Time::FromInternalValue(data_->header.create_time);

- CACHE_UMA(AGE, "FillupAge", 0, create_time);

- int64 use_time = stats_.GetCounter(Stats::TIMER);

- CACHE_UMA(HOURS, "FillupTime", 0, static_cast<int>(use_time / 120));

- CACHE_UMA(PERCENTAGE, "FirstHitRatio", 0, stats_.GetHitRatio());

- if (!use_time)

- use_time = 1;

- CACHE_UMA(COUNTS_10000, "FirstEntryAccessRate", 0,

- static_cast<int>(data_->header.num_entries / use_time));

- CACHE_UMA(COUNTS, "FirstByteIORate", 0,

- static_cast<int>((data_->header.num_bytes / 1024) / use_time));

- int avg_size = data_->header.num_bytes / GetEntryCount();

- CACHE_UMA(COUNTS, "FirstEntrySize", 0, avg_size);

- int large_entries_bytes = stats_.GetLargeEntriesSize();

- int large_ratio = large_entries_bytes * 100 / data_->header.num_bytes;

- CACHE_UMA(PERCENTAGE, "FirstLargeEntriesRatio", 0, large_ratio);

- if (new_eviction_) {

- CACHE_UMA(PERCENTAGE, "FirstResurrectRatio", 0, stats_.GetResurrectRatio());

- CACHE_UMA(PERCENTAGE, "FirstNoUseRatio", 0,

- data_->header.lru.sizes[0] * 100 / data_->header.num_entries);

- CACHE_UMA(PERCENTAGE, "FirstLowUseRatio", 0,

- data_->header.lru.sizes[1] * 100 / data_->header.num_entries);

- CACHE_UMA(PERCENTAGE, "FirstHighUseRatio", 0,

- data_->header.lru.sizes[2] * 100 / data_->header.num_entries);

- }

- stats_.ResetRatios();

-void BackendImpl::CriticalError(int error) {

- STRESS_NOTREACHED();

- LOG(ERROR) << "Critical error found " << error;

- if (disabled_)

- return;

- stats_.OnEvent(Stats::FATAL_ERROR);

- LogStats();

- ReportError(error);

- // Setting the index table length to an invalid value will force re-creation

- // of the cache files.

- data_->header.table_len = 1;

- disabled_ = true;

- if (!num_refs_)

- MessageLoop::current()->PostTask(FROM_HERE,

- base::Bind(&BackendImpl::RestartCache, GetWeakPtr(), true));

-void BackendImpl::ReportError(int error) {

- STRESS_DCHECK(!error || error == ERR_PREVIOUS_CRASH ||

- error == ERR_CACHE_CREATED);

- // We transmit positive numbers, instead of direct error codes.

- DCHECK_LE(error, 0);

- CACHE_UMA(CACHE_ERROR, "Error", 0, error * -1);

-void BackendImpl::OnEvent(Stats::Counters an_event) {

- stats_.OnEvent(an_event);

-void BackendImpl::OnRead(int32 bytes) {

- DCHECK_GE(bytes, 0);

- byte_count_ += bytes;

- if (byte_count_ < 0)

- byte_count_ = kint32max;

-void BackendImpl::OnWrite(int32 bytes) {

- // We use the same implementation as OnRead... just log the number of bytes.

- OnRead(bytes);

-void BackendImpl::OnStatsTimer() {

- stats_.OnEvent(Stats::TIMER);

- int64 time = stats_.GetCounter(Stats::TIMER);

- int64 current = stats_.GetCounter(Stats::OPEN_ENTRIES);

- // OPEN_ENTRIES is a sampled average of the number of open entries, avoiding

- // the bias towards 0.

- if (num_refs_ && (current != num_refs_)) {

- int64 diff = (num_refs_ - current) / 50;

- if (!diff)

- diff = num_refs_ > current ? 1 : -1;

- current = current + diff;

- stats_.SetCounter(Stats::OPEN_ENTRIES, current);

- stats_.SetCounter(Stats::MAX_ENTRIES, max_refs_);

- }

- CACHE_UMA(COUNTS, "NumberOfReferences", 0, num_refs_);

- CACHE_UMA(COUNTS_10000, "EntryAccessRate", 0, entry_count_);

- CACHE_UMA(COUNTS, "ByteIORate", 0, byte_count_ / 1024);

- // These values cover about 99.5% of the population (Oct 2011).

- user_load_ = (entry_count_ > 300 || byte_count_ > 7 * 1024 * 1024);

- entry_count_ = 0;

- byte_count_ = 0;

- up_ticks_++;

- if (!data_)

- first_timer_ = false;

- if (first_timer_) {

- first_timer_ = false;

- if (ShouldReportAgain())

- ReportStats();

- }

- // Save stats to disk at 5 min intervals.

- if (time % 10 == 0)

- stats_.Store();

-void BackendImpl::IncrementIoCount() {

- num_pending_io_++;

-void BackendImpl::DecrementIoCount() {

- num_pending_io_--;

-void BackendImpl::SetUnitTestMode() {

- user_flags_ |= kUnitTestMode;

- unit_test_ = true;

-void BackendImpl::SetUpgradeMode() {

- user_flags_ |= kUpgradeMode;

- read_only_ = true;

-void BackendImpl::SetNewEviction() {

- user_flags_ |= kNewEviction;

- new_eviction_ = true;

-void BackendImpl::SetFlags(uint32 flags) {

- user_flags_ |= flags;

-void BackendImpl::ClearRefCountForTest() {

- num_refs_ = 0;

-int BackendImpl::FlushQueueForTest(const CompletionCallback& callback) {

- background_queue_.FlushQueue(callback);

- return net::ERR_IO_PENDING;

-int BackendImpl::RunTaskForTest(const base::Closure& task,

- const CompletionCallback& callback) {

- background_queue_.RunTask(task, callback);

- return net::ERR_IO_PENDING;

-void BackendImpl::TrimForTest(bool empty) {

- eviction_.SetTestMode();

- eviction_.TrimCache(empty);

-void BackendImpl::TrimDeletedListForTest(bool empty) {

- eviction_.SetTestMode();

- eviction_.TrimDeletedList(empty);

-int BackendImpl::SelfCheck() {

- if (!init_) {

- LOG(ERROR) << "Init failed";

- return ERR_INIT_FAILED;

- }

- int num_entries = rankings_.SelfCheck();

- if (num_entries < 0) {

- LOG(ERROR) << "Invalid rankings list, error " << num_entries;

-#if !defined(NET_BUILD_STRESS_CACHE)

- return num_entries;

-#endif

- }

- if (num_entries != data_->header.num_entries) {

- LOG(ERROR) << "Number of entries mismatch";

-#if !defined(NET_BUILD_STRESS_CACHE)

- return ERR_NUM_ENTRIES_MISMATCH;

-#endif

- }

- return CheckAllEntries();

-void BackendImpl::FlushIndex() {

- if (index_ && !disabled_)

- index_->Flush();

-// ------------------------------------------------------------------------

-net::CacheType BackendImpl::GetCacheType() const {

- return cache_type_;

-int32 BackendImpl::GetEntryCount() const {

- if (!index_ || disabled_)

- return 0;

- // num_entries includes entries already evicted.

- int32 not_deleted = data_->header.num_entries -

- data_->header.lru.sizes[Rankings::DELETED];

- if (not_deleted < 0) {

- NOTREACHED();

- not_deleted = 0;

- }

- return not_deleted;

-int BackendImpl::OpenEntry(const std::string& key, Entry** entry,

- const CompletionCallback& callback) {

- DCHECK(!callback.is_null());

- background_queue_.OpenEntry(key, entry, callback);

- return net::ERR_IO_PENDING;

-int BackendImpl::CreateEntry(const std::string& key, Entry** entry,

- const CompletionCallback& callback) {

- DCHECK(!callback.is_null());

- background_queue_.CreateEntry(key, entry, callback);

- return net::ERR_IO_PENDING;

-int BackendImpl::DoomEntry(const std::string& key,

- const CompletionCallback& callback) {

- DCHECK(!callback.is_null());

- background_queue_.DoomEntry(key, callback);

- return net::ERR_IO_PENDING;

-int BackendImpl::DoomAllEntries(const CompletionCallback& callback) {

- DCHECK(!callback.is_null());

- background_queue_.DoomAllEntries(callback);

- return net::ERR_IO_PENDING;

-int BackendImpl::DoomEntriesBetween(const base::Time initial_time,

- const base::Time end_time,

- const CompletionCallback& callback) {

- DCHECK(!callback.is_null());

- background_queue_.DoomEntriesBetween(initial_time, end_time, callback);

- return net::ERR_IO_PENDING;

-int BackendImpl::DoomEntriesSince(const base::Time initial_time,

- const CompletionCallback& callback) {

- DCHECK(!callback.is_null());

- background_queue_.DoomEntriesSince(initial_time, callback);

- return net::ERR_IO_PENDING;

-int BackendImpl::OpenNextEntry(void** iter, Entry** next_entry,

- const CompletionCallback& callback) {

- DCHECK(!callback.is_null());

- background_queue_.OpenNextEntry(iter, next_entry, callback);

- return net::ERR_IO_PENDING;

-void BackendImpl::EndEnumeration(void** iter) {

- background_queue_.EndEnumeration(*iter);

- *iter = NULL;

-void BackendImpl::GetStats(StatsItems* stats) {

- if (disabled_)

- return;

- std::pair<std::string, std::string> item;

- item.first = "Entries";

- item.second = base::StringPrintf("%d", data_->header.num_entries);

- stats->push_back(item);

- item.first = "Pending IO";

- item.second = base::StringPrintf("%d", num_pending_io_);

- stats->push_back(item);

- item.first = "Max size";

- item.second = base::StringPrintf("%d", max_size_);

- stats->push_back(item);

- item.first = "Current size";

- item.second = base::StringPrintf("%d", data_->header.num_bytes);

- stats->push_back(item);

- stats_.GetItems(stats);

-void BackendImpl::OnExternalCacheHit(const std::string& key) {

- background_queue_.OnExternalCacheHit(key);

-// ------------------------------------------------------------------------

-// We just created a new file so we're going to write the header and set the

-// file length to include the hash table (zero filled).

-bool BackendImpl::CreateBackingStore(disk_cache::File* file) {

- AdjustMaxCacheSize(0);

- IndexHeader header;

- header.table_len = DesiredIndexTableLen(max_size_);

- // We need file version 2.1 for the new eviction algorithm.

- if (new_eviction_)

- header.version = 0x20001;

- header.create_time = Time::Now().ToInternalValue();

- if (!file->Write(&header, sizeof(header), 0))

- return false;

- return file->SetLength(GetIndexSize(header.table_len));

-bool BackendImpl::InitBackingStore(bool* file_created) {

- if (!file_util::CreateDirectory(path_))

- return false;

- base::FilePath index_name = path_.AppendASCII(kIndexName);

- int flags = base::PLATFORM_FILE_READ |

- base::PLATFORM_FILE_WRITE |

- base::PLATFORM_FILE_OPEN_ALWAYS |

- base::PLATFORM_FILE_EXCLUSIVE_WRITE;

- scoped_refptr<disk_cache::File> file(new disk_cache::File(

- base::CreatePlatformFile(index_name, flags, file_created, NULL)));

- if (!file->IsValid())

- return false;

- bool ret = true;

- if (*file_created)

- ret = CreateBackingStore(file);

- file = NULL;

- if (!ret)

- return false;

- index_ = new MappedFile();

- data_ = reinterpret_cast<Index*>(index_->Init(index_name, 0));

- if (!data_) {

- LOG(ERROR) << "Unable to map Index file";

- return false;

- }

- if (index_->GetLength() < sizeof(Index)) {

- // We verify this again on CheckIndex() but it's easier to make sure now

- // that the header is there.

- LOG(ERROR) << "Corrupt Index file";

- return false;

- }

- return true;

-// The maximum cache size will be either set explicitly by the caller, or

-// calculated by this code.

-void BackendImpl::AdjustMaxCacheSize(int table_len) {

- if (max_size_)

- return;

- // If table_len is provided, the index file exists.

- DCHECK(!table_len || data_->header.magic);

- // The user is not setting the size, let's figure it out.

- int64 available = base::SysInfo::AmountOfFreeDiskSpace(path_);

- if (available < 0) {

- max_size_ = kDefaultCacheSize;

- return;

- }

- if (table_len)

- available += data_->header.num_bytes;

- max_size_ = PreferedCacheSize(available);

- // Let's not use more than the default size while we tune-up the performance

- // of bigger caches. TODO(rvargas): remove this limit.

- if (max_size_ > kDefaultCacheSize * 4)

- max_size_ = kDefaultCacheSize * 4;

- if (!table_len)

- return;

- // If we already have a table, adjust the size to it.

- int current_max_size = MaxStorageSizeForTable(table_len);

- if (max_size_ > current_max_size)

- max_size_= current_max_size;

-void BackendImpl::RestartCache(bool failure) {

- int64 errors = stats_.GetCounter(Stats::FATAL_ERROR);

- int64 full_dooms = stats_.GetCounter(Stats::DOOM_CACHE);

- int64 partial_dooms = stats_.GetCounter(Stats::DOOM_RECENT);

- int64 ga_evictions = stats_.GetCounter(Stats::GAJS_EVICTED);

- int64 last_report = stats_.GetCounter(Stats::LAST_REPORT);

- PrepareForRestart();

- if (failure) {

- DCHECK(!num_refs_);

- DCHECK(!open_entries_.size());

- DelayedCacheCleanup(path_);

- } else {

- DeleteCache(path_, false);

- }

- // Don't call Init() if directed by the unit test: we are simulating a failure

- // trying to re-enable the cache.

- if (unit_test_)

- init_ = true; // Let the destructor do proper cleanup.

- else if (SyncInit() == net::OK) {

- stats_.SetCounter(Stats::FATAL_ERROR, errors);

- stats_.SetCounter(Stats::DOOM_CACHE, full_dooms);

- stats_.SetCounter(Stats::DOOM_RECENT, partial_dooms);

- stats_.SetCounter(Stats::GAJS_EVICTED, ga_evictions);

- stats_.SetCounter(Stats::LAST_REPORT, last_report);

- }

-void BackendImpl::PrepareForRestart() {

- // Reset the mask_ if it was not given by the user.

- if (!(user_flags_ & kMask))

- mask_ = 0;

- if (!(user_flags_ & kNewEviction))

- new_eviction_ = false;

- disabled_ = true;

- data_->header.crash = 0;

- index_->Flush();

- index_ = NULL;

- data_ = NULL;

- block_files_.CloseFiles();

- rankings_.Reset();

- init_ = false;

- restarted_ = true;

-int BackendImpl::NewEntry(Addr address, EntryImpl** entry) {

- EntriesMap::iterator it = open_entries_.find(address.value());

- if (it != open_entries_.end()) {

- // Easy job. This entry is already in memory.

- EntryImpl* this_entry = it->second;

- this_entry->AddRef();

- *entry = this_entry;

- return 0;

- }

- STRESS_DCHECK(block_files_.IsValid(address));

- if (!address.SanityCheckForEntry()) {

- LOG(WARNING) << "Wrong entry address.";

- STRESS_NOTREACHED();

- return ERR_INVALID_ADDRESS;

- }

- scoped_refptr<EntryImpl> cache_entry(

- new EntryImpl(this, address, read_only_));

- IncreaseNumRefs();

- *entry = NULL;

- TimeTicks start = TimeTicks::Now();

- if (!cache_entry->entry()->Load())

- return ERR_READ_FAILURE;

- if (IsLoaded()) {

- CACHE_UMA(AGE_MS, "LoadTime", 0, start);

- }

- if (!cache_entry->SanityCheck()) {

- LOG(WARNING) << "Messed up entry found.";

- STRESS_NOTREACHED();

- return ERR_INVALID_ENTRY;

- }

- STRESS_DCHECK(block_files_.IsValid(

- Addr(cache_entry->entry()->Data()->rankings_node)));

- if (!cache_entry->LoadNodeAddress())

- return ERR_READ_FAILURE;

- if (!rankings_.SanityCheck(cache_entry->rankings(), false)) {

- STRESS_NOTREACHED();

- cache_entry->SetDirtyFlag(0);

- // Don't remove this from the list (it is not linked properly). Instead,

- // break the link back to the entry because it is going away, and leave the

- // rankings node to be deleted if we find it through a list.

- rankings_.SetContents(cache_entry->rankings(), 0);

- } else if (!rankings_.DataSanityCheck(cache_entry->rankings(), false)) {

- STRESS_NOTREACHED();

- cache_entry->SetDirtyFlag(0);

- rankings_.SetContents(cache_entry->rankings(), address.value());

- }

- if (!cache_entry->DataSanityCheck()) {

- LOG(WARNING) << "Messed up entry found.";

- cache_entry->SetDirtyFlag(0);

- cache_entry->FixForDelete();

- }

- // Prevent overwriting the dirty flag on the destructor.

- cache_entry->SetDirtyFlag(GetCurrentEntryId());

- if (cache_entry->dirty()) {

- Trace("Dirty entry 0x%p 0x%x", reinterpret_cast<void*>(cache_entry.get()),

- address.value());

- }

- open_entries_[address.value()] = cache_entry;

- cache_entry->BeginLogging(net_log_, false);

- cache_entry.swap(entry);

- return 0;

-EntryImpl* BackendImpl::MatchEntry(const std::string& key, uint32 hash,

- bool find_parent, Addr entry_addr,

- bool* match_error) {

- Addr address(data_->table[hash & mask_]);

- scoped_refptr<EntryImpl> cache_entry, parent_entry;

- EntryImpl* tmp = NULL;

- bool found = false;

- std::set<CacheAddr> visited;

- *match_error = false;

- for (;;) {

- if (disabled_)

- break;

- if (visited.find(address.value()) != visited.end()) {

- // It's possible for a buggy version of the code to write a loop. Just

- // break it.

- Trace("Hash collision loop 0x%x", address.value());

- address.set_value(0);

- parent_entry->SetNextAddress(address);

- }

- visited.insert(address.value());

- if (!address.is_initialized()) {

- if (find_parent)

- found = true;

- break;

- }

- int error = NewEntry(address, &tmp);

- cache_entry.swap(&tmp);

- if (error || cache_entry->dirty()) {

- // This entry is dirty on disk (it was not properly closed): we cannot

- // trust it.

- Addr child(0);

- if (!error)

- child.set_value(cache_entry->GetNextAddress());

- if (parent_entry) {

- parent_entry->SetNextAddress(child);

- parent_entry = NULL;

- } else {

- data_->table[hash & mask_] = child.value();

- }

- Trace("MatchEntry dirty %d 0x%x 0x%x", find_parent, entry_addr.value(),

- address.value());

- if (!error) {

- // It is important to call DestroyInvalidEntry after removing this

- // entry from the table.

- DestroyInvalidEntry(cache_entry);

- cache_entry = NULL;

- } else {

- Trace("NewEntry failed on MatchEntry 0x%x", address.value());

- }

- // Restart the search.

- address.set_value(data_->table[hash & mask_]);

- visited.clear();

- continue;

- }

- DCHECK_EQ(hash & mask_, cache_entry->entry()->Data()->hash & mask_);

- if (cache_entry->IsSameEntry(key, hash)) {

- if (!cache_entry->Update())

- cache_entry = NULL;

- found = true;

- if (find_parent && entry_addr.value() != address.value()) {

- Trace("Entry not on the index 0x%x", address.value());

- *match_error = true;

- parent_entry = NULL;

- }

- break;

- }

- if (!cache_entry->Update())

- cache_entry = NULL;

- parent_entry = cache_entry;

- cache_entry = NULL;

- if (!parent_entry)

- break;

- address.set_value(parent_entry->GetNextAddress());

- }

- if (parent_entry && (!find_parent || !found))

- parent_entry = NULL;

- if (find_parent && entry_addr.is_initialized() && !cache_entry) {

- *match_error = true;

- parent_entry = NULL;

- }

- if (cache_entry && (find_parent || !found))

- cache_entry = NULL;

- find_parent ? parent_entry.swap(&tmp) : cache_entry.swap(&tmp);

- FlushIndex();

- return tmp;

-// This is the actual implementation for OpenNextEntry and OpenPrevEntry.

-EntryImpl* BackendImpl::OpenFollowingEntry(bool forward, void** iter) {

- if (disabled_)

- return NULL;

- DCHECK(iter);

- const int kListsToSearch = 3;

- scoped_refptr<EntryImpl> entries[kListsToSearch];

- scoped_ptr<Rankings::Iterator> iterator(

- reinterpret_cast<Rankings::Iterator*>(*iter));

- *iter = NULL;

- if (!iterator.get()) {

- iterator.reset(new Rankings::Iterator(&rankings_));

- bool ret = false;

- // Get an entry from each list.

- for (int i = 0; i < kListsToSearch; i++) {

- EntryImpl* temp = NULL;

- ret |= OpenFollowingEntryFromList(forward, static_cast<Rankings::List>(i),

- &iterator->nodes[i], &temp);

- entries[i].swap(&temp); // The entry was already addref'd.

- }

- if (!ret)

- return NULL;

- } else {

- // Get the next entry from the last list, and the actual entries for the

- // elements on the other lists.

- for (int i = 0; i < kListsToSearch; i++) {

- EntryImpl* temp = NULL;

- if (iterator->list == i) {

- OpenFollowingEntryFromList(forward, iterator->list,

- &iterator->nodes[i], &temp);

- } else {

- temp = GetEnumeratedEntry(iterator->nodes[i],

- static_cast<Rankings::List>(i));

- }

- entries[i].swap(&temp); // The entry was already addref'd.

- }

- int newest = -1;

- int oldest = -1;

- Time access_times[kListsToSearch];

- for (int i = 0; i < kListsToSearch; i++) {

- if (entries[i].get()) {

- access_times[i] = entries[i]->GetLastUsed();

- if (newest < 0) {

- DCHECK_LT(oldest, 0);

- newest = oldest = i;

- continue;

- }

- if (access_times[i] > access_times[newest])

- newest = i;

- if (access_times[i] < access_times[oldest])

- oldest = i;

- }

- if (newest < 0 || oldest < 0)

- return NULL;

- EntryImpl* next_entry;

- if (forward) {

- next_entry = entries[newest].get();

- iterator->list = static_cast<Rankings::List>(newest);

- } else {

- next_entry = entries[oldest].get();

- iterator->list = static_cast<Rankings::List>(oldest);

- }

- *iter = iterator.release();

- next_entry->AddRef();

- return next_entry;

-bool BackendImpl::OpenFollowingEntryFromList(bool forward, Rankings::List list,

- CacheRankingsBlock** from_entry,

- EntryImpl** next_entry) {

- if (disabled_)

- return false;

- if (!new_eviction_ && Rankings::NO_USE != list)

- return false;

- Rankings::ScopedRankingsBlock rankings(&rankings_, *from_entry);

- CacheRankingsBlock* next_block = forward ?

- rankings_.GetNext(rankings.get(), list) :

- rankings_.GetPrev(rankings.get(), list);

- Rankings::ScopedRankingsBlock next(&rankings_, next_block);

- *from_entry = NULL;

- *next_entry = GetEnumeratedEntry(next.get(), list);

- if (!*next_entry)

- return false;

- *from_entry = next.release();

- return true;

-EntryImpl* BackendImpl::GetEnumeratedEntry(CacheRankingsBlock* next,

- Rankings::List list) {

- if (!next || disabled_)

- return NULL;

- EntryImpl* entry;

- int rv = NewEntry(Addr(next->Data()->contents), &entry);

- if (rv) {

- STRESS_NOTREACHED();

- rankings_.Remove(next, list, false);

- if (rv == ERR_INVALID_ADDRESS) {

- // There is nothing linked from the index. Delete the rankings node.

- DeleteBlock(next->address(), true);

- }

- return NULL;

- }

- if (entry->dirty()) {

- // We cannot trust this entry.

- InternalDoomEntry(entry);

- entry->Release();

- return NULL;

- }

- if (!entry->Update()) {

- STRESS_NOTREACHED();

- entry->Release();

- return NULL;

- }

- // Note that it is unfortunate (but possible) for this entry to be clean, but

- // not actually the real entry. In other words, we could have lost this entry

- // from the index, and it could have been replaced with a newer one. It's not

- // worth checking that this entry is "the real one", so we just return it and

- // let the enumeration continue; this entry will be evicted at some point, and

- // the regular path will work with the real entry. With time, this problem

- // will disasappear because this scenario is just a bug.

- // Make sure that we save the key for later.

- entry->GetKey();

- return entry;

-EntryImpl* BackendImpl::ResurrectEntry(EntryImpl* deleted_entry) {

- if (ENTRY_NORMAL == deleted_entry->entry()->Data()->state) {

- deleted_entry->Release();

- stats_.OnEvent(Stats::CREATE_MISS);

- Trace("create entry miss ");

- return NULL;

- }

- // We are attempting to create an entry and found out that the entry was

- // previously deleted.

- eviction_.OnCreateEntry(deleted_entry);

- entry_count_++;

- stats_.OnEvent(Stats::RESURRECT_HIT);

- Trace("Resurrect entry hit ");

- return deleted_entry;

-void BackendImpl::DestroyInvalidEntry(EntryImpl* entry) {

- LOG(WARNING) << "Destroying invalid entry.";

- Trace("Destroying invalid entry 0x%p", entry);

- entry->SetPointerForInvalidEntry(GetCurrentEntryId());

- eviction_.OnDoomEntry(entry);

- entry->InternalDoom();

- if (!new_eviction_)

- DecreaseNumEntries();

- stats_.OnEvent(Stats::INVALID_ENTRY);

-void BackendImpl::AddStorageSize(int32 bytes) {

- data_->header.num_bytes += bytes;

- DCHECK_GE(data_->header.num_bytes, 0);

-void BackendImpl::SubstractStorageSize(int32 bytes) {

- data_->header.num_bytes -= bytes;

- DCHECK_GE(data_->header.num_bytes, 0);

-void BackendImpl::IncreaseNumRefs() {

- num_refs_++;

- if (max_refs_ < num_refs_)

- max_refs_ = num_refs_;

-void BackendImpl::DecreaseNumRefs() {

- DCHECK(num_refs_);

- num_refs_--;

- if (!num_refs_ && disabled_)

- MessageLoop::current()->PostTask(FROM_HERE,

- base::Bind(&BackendImpl::RestartCache, GetWeakPtr(), true));

-void BackendImpl::IncreaseNumEntries() {

- data_->header.num_entries++;

- DCHECK_GT(data_->header.num_entries, 0);

-void BackendImpl::DecreaseNumEntries() {

- data_->header.num_entries--;

- if (data_->header.num_entries < 0) {

- NOTREACHED();

- data_->header.num_entries = 0;

- }

-void BackendImpl::LogStats() {

- StatsItems stats;

- GetStats(&stats);

- for (size_t index = 0; index < stats.size(); index++)

- VLOG(1) << stats[index].first << ": " << stats[index].second;

-void BackendImpl::ReportStats() {

- CACHE_UMA(COUNTS, "Entries", 0, data_->header.num_entries);

- int current_size = data_->header.num_bytes / (1024 * 1024);

- int max_size = max_size_ / (1024 * 1024);

- int hit_ratio_as_percentage = stats_.GetHitRatio();

- CACHE_UMA(COUNTS_10000, "Size2", 0, current_size);

- // For any bin in HitRatioBySize2, the hit ratio of caches of that size is the

- // ratio of that bin's total count to the count in the same bin in the Size2

- // histogram.

- if (base::RandInt(0, 99) < hit_ratio_as_percentage)

- CACHE_UMA(COUNTS_10000, "HitRatioBySize2", 0, current_size);

- CACHE_UMA(COUNTS_10000, "MaxSize2", 0, max_size);

- if (!max_size)

- max_size++;

- CACHE_UMA(PERCENTAGE, "UsedSpace", 0, current_size * 100 / max_size);

- CACHE_UMA(COUNTS_10000, "AverageOpenEntries2", 0,

- static_cast<int>(stats_.GetCounter(Stats::OPEN_ENTRIES)));

- CACHE_UMA(COUNTS_10000, "MaxOpenEntries2", 0,

- static_cast<int>(stats_.GetCounter(Stats::MAX_ENTRIES)));

- stats_.SetCounter(Stats::MAX_ENTRIES, 0);

- CACHE_UMA(COUNTS_10000, "TotalFatalErrors", 0,

- static_cast<int>(stats_.GetCounter(Stats::FATAL_ERROR)));

- CACHE_UMA(COUNTS_10000, "TotalDoomCache", 0,

- static_cast<int>(stats_.GetCounter(Stats::DOOM_CACHE)));

- CACHE_UMA(COUNTS_10000, "TotalDoomRecentEntries", 0,

- static_cast<int>(stats_.GetCounter(Stats::DOOM_RECENT)));

- CACHE_UMA(COUNTS_10000, "TotalEvictionsGaJs", 0,

- static_cast<int>(stats_.GetCounter(Stats::GAJS_EVICTED)));

- stats_.SetCounter(Stats::FATAL_ERROR, 0);

- stats_.SetCounter(Stats::DOOM_CACHE, 0);

- stats_.SetCounter(Stats::DOOM_RECENT, 0);

- stats_.SetCounter(Stats::GAJS_EVICTED, 0);

- int64 total_hours = stats_.GetCounter(Stats::TIMER) / 120;

- if (!data_->header.create_time || !data_->header.lru.filled) {

- int cause = data_->header.create_time ? 0 : 1;

- if (!data_->header.lru.filled)

- cause |= 2;

- CACHE_UMA(CACHE_ERROR, "ShortReport", 0, cause);

- CACHE_UMA(HOURS, "TotalTimeNotFull", 0, static_cast<int>(total_hours));

- return;

- }

- // This is an up to date client that will report FirstEviction() data. After

- // that event, start reporting this:

- CACHE_UMA(HOURS, "TotalTime", 0, static_cast<int>(total_hours));

- // For any bin in HitRatioByTotalTime, the hit ratio of caches of that total

- // time is the ratio of that bin's total count to the count in the same bin in

- // the TotalTime histogram.

- if (base::RandInt(0, 99) < hit_ratio_as_percentage)

- CACHE_UMA(HOURS, "HitRatioByTotalTime", 0, implicit_cast<int>(total_hours));

- int64 use_hours = stats_.GetCounter(Stats::LAST_REPORT_TIMER) / 120;

- stats_.SetCounter(Stats::LAST_REPORT_TIMER, stats_.GetCounter(Stats::TIMER));

- // We may see users with no use_hours at this point if this is the first time

- // we are running this code.

- if (use_hours)

- use_hours = total_hours - use_hours;

- if (!use_hours || !GetEntryCount() || !data_->header.num_bytes)

- return;

- CACHE_UMA(HOURS, "UseTime", 0, static_cast<int>(use_hours));

- // For any bin in HitRatioByUseTime, the hit ratio of caches of that use time

- // is the ratio of that bin's total count to the count in the same bin in the

- // UseTime histogram.

- if (base::RandInt(0, 99) < hit_ratio_as_percentage)

- CACHE_UMA(HOURS, "HitRatioByUseTime", 0, implicit_cast<int>(use_hours));

- CACHE_UMA(PERCENTAGE, "HitRatio", 0, hit_ratio_as_percentage);

- int64 trim_rate = stats_.GetCounter(Stats::TRIM_ENTRY) / use_hours;

- CACHE_UMA(COUNTS, "TrimRate", 0, static_cast<int>(trim_rate));

- int avg_size = data_->header.num_bytes / GetEntryCount();

- CACHE_UMA(COUNTS, "EntrySize", 0, avg_size);

- CACHE_UMA(COUNTS, "EntriesFull", 0, data_->header.num_entries);

- CACHE_UMA(PERCENTAGE, "IndexLoad", 0,

- data_->header.num_entries * 100 / (mask_ + 1));

- int large_entries_bytes = stats_.GetLargeEntriesSize();

- int large_ratio = large_entries_bytes * 100 / data_->header.num_bytes;

- CACHE_UMA(PERCENTAGE, "LargeEntriesRatio", 0, large_ratio);

- if (new_eviction_) {

- CACHE_UMA(PERCENTAGE, "ResurrectRatio", 0, stats_.GetResurrectRatio());

- CACHE_UMA(PERCENTAGE, "NoUseRatio", 0,

- data_->header.lru.sizes[0] * 100 / data_->header.num_entries);

- CACHE_UMA(PERCENTAGE, "LowUseRatio", 0,

- data_->header.lru.sizes[1] * 100 / data_->header.num_entries);

- CACHE_UMA(PERCENTAGE, "HighUseRatio", 0,

- data_->header.lru.sizes[2] * 100 / data_->header.num_entries);

- CACHE_UMA(PERCENTAGE, "DeletedRatio", 0,

- data_->header.lru.sizes[4] * 100 / data_->header.num_entries);

- }

- stats_.ResetRatios();

- stats_.SetCounter(Stats::TRIM_ENTRY, 0);

- if (cache_type_ == net::DISK_CACHE)

- block_files_.ReportStats();

-void BackendImpl::UpgradeTo2_1() {

- // 2.1 is basically the same as 2.0, except that new fields are actually

- // updated by the new eviction algorithm.

- DCHECK(0x20000 == data_->header.version);

- data_->header.version = 0x20001;

- data_->header.lru.sizes[Rankings::NO_USE] = data_->header.num_entries;

-bool BackendImpl::CheckIndex() {

- DCHECK(data_);

- size_t current_size = index_->GetLength();

- if (current_size < sizeof(Index)) {

- LOG(ERROR) << "Corrupt Index file";

- return false;

- }

- if (new_eviction_) {

- // We support versions 2.0 and 2.1, upgrading 2.0 to 2.1.

- if (kIndexMagic != data_->header.magic ||

- kCurrentVersion >> 16 != data_->header.version >> 16) {

- LOG(ERROR) << "Invalid file version or magic";

- return false;

- }

- if (kCurrentVersion == data_->header.version) {

- // We need file version 2.1 for the new eviction algorithm.

- UpgradeTo2_1();

- }

- } else {

- if (kIndexMagic != data_->header.magic ||

- kCurrentVersion != data_->header.version) {

- LOG(ERROR) << "Invalid file version or magic";

- return false;

- }

- if (!data_->header.table_len) {

- LOG(ERROR) << "Invalid table size";

- return false;

- }

- if (current_size < GetIndexSize(data_->header.table_len) ||

- data_->header.table_len & (kBaseTableLen - 1)) {

- LOG(ERROR) << "Corrupt Index file";

- return false;

- }

- AdjustMaxCacheSize(data_->header.table_len);

-#if !defined(NET_BUILD_STRESS_CACHE)

- if (data_->header.num_bytes < 0 ||

- (max_size_ < kint32max - kDefaultCacheSize &&

- data_->header.num_bytes > max_size_ + kDefaultCacheSize)) {

- LOG(ERROR) << "Invalid cache (current) size";

- return false;

- }

-#endif

- if (data_->header.num_entries < 0) {

- LOG(ERROR) << "Invalid number of entries";

- return false;

- }

- if (!mask_)

- mask_ = data_->header.table_len - 1;

- // Load the table into memory with a single read.

- scoped_array<char> buf(new char[current_size]);

- return index_->Read(buf.get(), current_size, 0);

-int BackendImpl::CheckAllEntries() {

- int num_dirty = 0;

- int num_entries = 0;

- DCHECK(mask_ < kuint32max);

- for (unsigned int i = 0; i <= mask_; i++) {

- Addr address(data_->table[i]);

- if (!address.is_initialized())

- continue;

- for (;;) {

- EntryImpl* tmp;

- int ret = NewEntry(address, &tmp);

- if (ret) {

- STRESS_NOTREACHED();

- return ret;

- }

- scoped_refptr<EntryImpl> cache_entry;

- cache_entry.swap(&tmp);

- if (cache_entry->dirty())

- num_dirty++;

- else if (CheckEntry(cache_entry.get()))

- num_entries++;

- else

- return ERR_INVALID_ENTRY;

- DCHECK_EQ(i, cache_entry->entry()->Data()->hash & mask_);

- address.set_value(cache_entry->GetNextAddress());

- if (!address.is_initialized())

- break;

- }

- Trace("CheckAllEntries End");

- if (num_entries + num_dirty != data_->header.num_entries) {

- LOG(ERROR) << "Number of entries " << num_entries << " " << num_dirty <<

- " " << data_->header.num_entries;

- DCHECK_LT(num_entries, data_->header.num_entries);

- return ERR_NUM_ENTRIES_MISMATCH;

- }

- return num_dirty;

-bool BackendImpl::CheckEntry(EntryImpl* cache_entry) {

- bool ok = block_files_.IsValid(cache_entry->entry()->address());

- ok = ok && block_files_.IsValid(cache_entry->rankings()->address());

- EntryStore* data = cache_entry->entry()->Data();

- for (size_t i = 0; i < arraysize(data->data_addr); i++) {

- if (data->data_addr[i]) {

- Addr address(data->data_addr[i]);

- if (address.is_block_file())

- ok = ok && block_files_.IsValid(address);

- }

- return ok && cache_entry->rankings()->VerifyHash();

-int BackendImpl::MaxBuffersSize() {

- static int64 total_memory = base::SysInfo::AmountOfPhysicalMemory();

- static bool done = false;

- if (!done) {

- const int kMaxBuffersSize = 30 * 1024 * 1024;

- // We want to use up to 2% of the computer's memory.

- total_memory = total_memory * 2 / 100;

- if (total_memory > kMaxBuffersSize || total_memory <= 0)

- total_memory = kMaxBuffersSize;

- done = true;

- }

- return static_cast<int>(total_memory);

} // namespace disk_cache

« no previous file with comments | « net/disk_cache/backend_unittest.cc ('k') | net/disk_cache/disk_cache.h » ('j') | net/disk_cache/disk_cache.h » ('J')