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chromium / chromium / src / 26e40aa877846f7208e63860728fff703c40a122 / . / content / browser / cache_storage / cache_storage.cc
blob: e385480624a3944127e91e5f43b47dedb87d86d4 [file] [log] [blame]
// Copyright 2014 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 "content/browser/cache_storage/cache_storage.h"
#include <string>
#include "base/barrier_closure.h"
#include "base/files/file_util.h"
#include "base/files/memory_mapped_file.h"
#include "base/guid.h"
#include "base/location.h"
#include "base/memory/ref_counted.h"
#include "base/metrics/histogram_macros.h"
#include "base/numerics/safe_conversions.h"
#include "base/sha1.h"
#include "base/single_thread_task_runner.h"
#include "base/stl_util.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/string_util.h"
#include "base/thread_task_runner_handle.h"
#include "content/browser/cache_storage/cache_storage.pb.h"
#include "content/browser/cache_storage/cache_storage_cache.h"
#include "content/browser/cache_storage/cache_storage_scheduler.h"
#include "content/public/browser/browser_thread.h"
#include "net/base/directory_lister.h"
#include "net/base/net_errors.h"
#include "net/url_request/url_request_context_getter.h"
#include "storage/browser/blob/blob_storage_context.h"
#include "storage/browser/quota/quota_manager_proxy.h"
namespace content {
namespace {
std::string HexedHash(const std::string& value) {
std::string value_hash = base::SHA1HashString(value);
std::string valued_hexed_hash = base::ToLowerASCII(
base::HexEncode(value_hash.c_str(), value_hash.length()));
return valued_hexed_hash;
}
void CloseAllCachesDidCloseCache(const scoped_refptr<CacheStorageCache>& cache,
const base::Closure& barrier_closure) {
barrier_closure.Run();
}
} // namespace
const char CacheStorage::kIndexFileName[] = "index.txt";
// Handles the loading and clean up of CacheStorageCache objects.
class CacheStorage::CacheLoader {
public:
typedef base::Callback<void(const scoped_refptr<CacheStorageCache>&)>
CacheCallback;
typedef base::Callback<void(bool)> BoolCallback;
typedef base::Callback<void(scoped_ptr<std::vector<std::string>>)>
StringVectorCallback;
CacheLoader(
base::SequencedTaskRunner* cache_task_runner,
const scoped_refptr<net::URLRequestContextGetter>& request_context_getter,
const scoped_refptr<storage::QuotaManagerProxy>& quota_manager_proxy,
base::WeakPtr<storage::BlobStorageContext> blob_context,
const GURL& origin)
: cache_task_runner_(cache_task_runner),
request_context_getter_(request_context_getter),
quota_manager_proxy_(quota_manager_proxy),
blob_context_(blob_context),
origin_(origin) {
DCHECK(!origin_.is_empty());
}
virtual ~CacheLoader() {}
// Creates a CacheStorageCache with the given name. It does not attempt to
// load the backend, that happens lazily when the cache is used.
virtual scoped_refptr<CacheStorageCache> CreateCache(
const std::string& cache_name) = 0;
// Deletes any pre-existing cache of the same name and then loads it.
virtual void PrepareNewCacheDestination(const std::string& cache_name,
const CacheCallback& callback) = 0;
// After the backend has been deleted, do any extra house keeping such as
// removing the cache's directory.
virtual void CleanUpDeletedCache(const std::string& key,
const BoolCallback& callback) = 0;
// Writes the cache names (and sizes) to disk if applicable.
virtual void WriteIndex(const StringVector& cache_names,
const BoolCallback& callback) = 0;
// Loads the cache names from disk if applicable.
virtual void LoadIndex(scoped_ptr<std::vector<std::string>> cache_names,
const StringVectorCallback& callback) = 0;
protected:
scoped_refptr<base::SequencedTaskRunner> cache_task_runner_;
scoped_refptr<net::URLRequestContextGetter> request_context_getter_;
scoped_refptr<storage::QuotaManagerProxy> quota_manager_proxy_;
base::WeakPtr<storage::BlobStorageContext> blob_context_;
GURL origin_;
};
// Creates memory-only ServiceWorkerCaches. Because these caches have no
// persistent storage it is not safe to free them from memory if they might be
// used again. Therefore this class holds a reference to each cache until the
// cache is deleted.
class CacheStorage::MemoryLoader : public CacheStorage::CacheLoader {
public:
MemoryLoader(
base::SequencedTaskRunner* cache_task_runner,
const scoped_refptr<net::URLRequestContextGetter>& request_context,
const scoped_refptr<storage::QuotaManagerProxy>& quota_manager_proxy,
base::WeakPtr<storage::BlobStorageContext> blob_context,
const GURL& origin)
: CacheLoader(cache_task_runner,
request_context,
quota_manager_proxy,
blob_context,
origin) {}
scoped_refptr<CacheStorageCache> CreateCache(
const std::string& cache_name) override {
return CacheStorageCache::CreateMemoryCache(
origin_, request_context_getter_, quota_manager_proxy_, blob_context_);
}
void PrepareNewCacheDestination(const std::string& cache_name,
const CacheCallback& callback) override {
scoped_refptr<CacheStorageCache> cache = CreateCache(cache_name);
cache_refs_.insert(std::make_pair(cache_name, cache));
callback.Run(cache);
}
void CleanUpDeletedCache(const std::string& cache_name,
const BoolCallback& callback) override {
CacheRefMap::iterator it = cache_refs_.find(cache_name);
DCHECK(it != cache_refs_.end());
cache_refs_.erase(it);
callback.Run(true);
}
void WriteIndex(const StringVector& cache_names,
const BoolCallback& callback) override {
callback.Run(false);
}
void LoadIndex(scoped_ptr<std::vector<std::string>> cache_names,
const StringVectorCallback& callback) override {
callback.Run(cache_names.Pass());
}
private:
typedef std::map<std::string, scoped_refptr<CacheStorageCache>> CacheRefMap;
~MemoryLoader() override {}
// Keep a reference to each cache to ensure that it's not freed before the
// client calls CacheStorage::Delete or the CacheStorage is
// freed.
CacheRefMap cache_refs_;
};
class CacheStorage::SimpleCacheLoader : public CacheStorage::CacheLoader {
public:
SimpleCacheLoader(
const base::FilePath& origin_path,
base::SequencedTaskRunner* cache_task_runner,
const scoped_refptr<net::URLRequestContextGetter>& request_context,
const scoped_refptr<storage::QuotaManagerProxy>& quota_manager_proxy,
base::WeakPtr<storage::BlobStorageContext> blob_context,
const GURL& origin)
: CacheLoader(cache_task_runner,
request_context,
quota_manager_proxy,
blob_context,
origin),
origin_path_(origin_path),
weak_ptr_factory_(this) {}
scoped_refptr<CacheStorageCache> CreateCache(
const std::string& cache_name) override {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
DCHECK(ContainsKey(cache_name_to_cache_dir_, cache_name));
std::string cache_dir = cache_name_to_cache_dir_[cache_name];
base::FilePath cache_path = origin_path_.AppendASCII(cache_dir);
return CacheStorageCache::CreatePersistentCache(
origin_, cache_path, request_context_getter_, quota_manager_proxy_,
blob_context_);
}
void PrepareNewCacheDestination(const std::string& cache_name,
const CacheCallback& callback) override {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
PostTaskAndReplyWithResult(
cache_task_runner_.get(), FROM_HERE,
base::Bind(&SimpleCacheLoader::PrepareNewCacheDirectoryInPool,
origin_path_),
base::Bind(&SimpleCacheLoader::PrepareNewCacheCreateCache,
weak_ptr_factory_.GetWeakPtr(), cache_name, callback));
}
// Runs on the cache_task_runner_.
static std::string PrepareNewCacheDirectoryInPool(
const base::FilePath& origin_path) {
std::string cache_dir;
base::FilePath cache_path;
do {
cache_dir = base::GenerateGUID();
cache_path = origin_path.AppendASCII(cache_dir);
} while (base::PathExists(cache_path));
return base::CreateDirectory(cache_path) ? cache_dir : "";
}
void PrepareNewCacheCreateCache(const std::string& cache_name,
const CacheCallback& callback,
const std::string& cache_dir) {
if (cache_dir.empty()) {
callback.Run(scoped_refptr<CacheStorageCache>());
return;
}
cache_name_to_cache_dir_[cache_name] = cache_dir;
callback.Run(CreateCache(cache_name));
}
void CleanUpDeletedCache(const std::string& cache_name,
const BoolCallback& callback) override {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
DCHECK(ContainsKey(cache_name_to_cache_dir_, cache_name));
base::FilePath cache_path =
origin_path_.AppendASCII(cache_name_to_cache_dir_[cache_name]);
cache_name_to_cache_dir_.erase(cache_name);
cache_task_runner_->PostTask(
FROM_HERE,
base::Bind(&SimpleCacheLoader::CleanUpDeleteCacheDirInPool, cache_path,
callback, base::ThreadTaskRunnerHandle::Get()));
}
static void CleanUpDeleteCacheDirInPool(
const base::FilePath& cache_path,
const BoolCallback& callback,
const scoped_refptr<base::SingleThreadTaskRunner>& original_task_runner) {
bool rv = base::DeleteFile(cache_path, true);
original_task_runner->PostTask(FROM_HERE, base::Bind(callback, rv));
}
void WriteIndex(const StringVector& cache_names,
const BoolCallback& callback) override {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
// 1. Create the index file as a string. (WriteIndex)
// 2. Write the file to disk. (WriteIndexWriteToFileInPool)
CacheStorageIndex index;
index.set_origin(origin_.spec());
for (size_t i = 0u, max = cache_names.size(); i < max; ++i) {
DCHECK(ContainsKey(cache_name_to_cache_dir_, cache_names[i]));
CacheStorageIndex::Cache* index_cache = index.add_cache();
index_cache->set_name(cache_names[i]);
index_cache->set_cache_dir(cache_name_to_cache_dir_[cache_names[i]]);
}
std::string serialized;
bool success = index.SerializeToString(&serialized);
DCHECK(success);
base::FilePath tmp_path = origin_path_.AppendASCII("index.txt.tmp");
base::FilePath index_path =
origin_path_.AppendASCII(CacheStorage::kIndexFileName);
cache_task_runner_->PostTask(
FROM_HERE, base::Bind(&SimpleCacheLoader::WriteIndexWriteToFileInPool,
tmp_path, index_path, serialized, callback,
base::ThreadTaskRunnerHandle::Get()));
}
static void WriteIndexWriteToFileInPool(
const base::FilePath& tmp_path,
const base::FilePath& index_path,
const std::string& data,
const BoolCallback& callback,
const scoped_refptr<base::SingleThreadTaskRunner>& original_task_runner) {
int bytes_written = base::WriteFile(tmp_path, data.c_str(), data.size());
if (bytes_written != base::checked_cast<int>(data.size())) {
base::DeleteFile(tmp_path, /* recursive */ false);
original_task_runner->PostTask(FROM_HERE, base::Bind(callback, false));
}
// Atomically rename the temporary index file to become the real one.
bool rv = base::ReplaceFile(tmp_path, index_path, NULL);
original_task_runner->PostTask(FROM_HERE, base::Bind(callback, rv));
}
void LoadIndex(scoped_ptr<std::vector<std::string>> names,
const StringVectorCallback& callback) override {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
// 1. Read the file from disk. (LoadIndexReadFileInPool)
// 2. Parse file and return the names of the caches (LoadIndexDidReadFile)
base::FilePath index_path =
origin_path_.AppendASCII(CacheStorage::kIndexFileName);
PostTaskAndReplyWithResult(
cache_task_runner_.get(), FROM_HERE,
base::Bind(&SimpleCacheLoader::ReadAndMigrateIndexInPool, index_path),
base::Bind(&SimpleCacheLoader::LoadIndexDidReadFile,
weak_ptr_factory_.GetWeakPtr(), base::Passed(&names),
callback));
}
void LoadIndexDidReadFile(scoped_ptr<std::vector<std::string>> names,
const StringVectorCallback& callback,
const std::string& serialized) {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
CacheStorageIndex index;
if (index.ParseFromString(serialized)) {
for (int i = 0, max = index.cache_size(); i < max; ++i) {
const CacheStorageIndex::Cache& cache = index.cache(i);
DCHECK(cache.has_cache_dir());
names->push_back(cache.name());
cache_name_to_cache_dir_[cache.name()] = cache.cache_dir();
}
}
// TODO(jkarlin): Delete caches that are in the directory and not returned
// in LoadIndex.
callback.Run(names.Pass());
}
private:
friend class MigratedLegacyCacheDirectoryNameTest;
~SimpleCacheLoader() override {}
// Runs on cache_task_runner_
static std::string MigrateCachesIfNecessaryInPool(
const std::string& body,
const base::FilePath& index_path) {
CacheStorageIndex index;
if (!index.ParseFromString(body))
return body;
base::FilePath origin_path = index_path.DirName();
bool index_is_dirty = false;
const std::string kBadIndexState("");
// Look for caches that have no cache_dir. Give any such caches a directory
// with a random name and move them there. Then, rewrite the index file.
for (int i = 0, max = index.cache_size(); i < max; ++i) {
const CacheStorageIndex::Cache& cache = index.cache(i);
if (!cache.has_cache_dir()) {
// Find a new home for the cache.
base::FilePath legacy_cache_path =
origin_path.AppendASCII(HexedHash(cache.name()));
std::string cache_dir;
base::FilePath cache_path;
do {
cache_dir = base::GenerateGUID();
cache_path = origin_path.AppendASCII(cache_dir);
} while (base::PathExists(cache_path));
if (!base::Move(legacy_cache_path, cache_path)) {
// If the move fails then the cache is in a bad state. Return an empty
// index so that the CacheStorage can start fresh. The unreferenced
// caches will be discarded later in initialization.
return kBadIndexState;
}
index.mutable_cache(i)->set_cache_dir(cache_dir);
index_is_dirty = true;
}
}
if (index_is_dirty) {
std::string new_body;
if (!index.SerializeToString(&new_body))
return kBadIndexState;
if (base::WriteFile(index_path, new_body.c_str(), new_body.size()) !=
base::checked_cast<int>(new_body.size()))
return kBadIndexState;
return new_body;
}
return body;
}
// Runs on cache_task_runner_
static std::string ReadAndMigrateIndexInPool(
const base::FilePath& index_path) {
std::string body;
base::ReadFileToString(index_path, &body);
return MigrateCachesIfNecessaryInPool(body, index_path);
}
const base::FilePath origin_path_;
std::map<std::string, std::string> cache_name_to_cache_dir_;
base::WeakPtrFactory<SimpleCacheLoader> weak_ptr_factory_;
};
CacheStorage::CacheStorage(
const base::FilePath& path,
bool memory_only,
base::SequencedTaskRunner* cache_task_runner,
const scoped_refptr<net::URLRequestContextGetter>& request_context,
const scoped_refptr<storage::QuotaManagerProxy>& quota_manager_proxy,
base::WeakPtr<storage::BlobStorageContext> blob_context,
const GURL& origin)
: initialized_(false),
initializing_(false),
scheduler_(new CacheStorageScheduler()),
origin_path_(path),
cache_task_runner_(cache_task_runner),
memory_only_(memory_only),
weak_factory_(this) {
if (memory_only)
cache_loader_.reset(new MemoryLoader(cache_task_runner_.get(),
request_context, quota_manager_proxy,
blob_context, origin));
else
cache_loader_.reset(new SimpleCacheLoader(
origin_path_, cache_task_runner_.get(), request_context,
quota_manager_proxy, blob_context, origin));
}
CacheStorage::~CacheStorage() {
}
void CacheStorage::OpenCache(const std::string& cache_name,
const CacheAndErrorCallback& callback) {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
if (!initialized_)
LazyInit();
CacheAndErrorCallback pending_callback =
base::Bind(&CacheStorage::PendingCacheAndErrorCallback,
weak_factory_.GetWeakPtr(), callback);
scheduler_->ScheduleOperation(base::Bind(&CacheStorage::OpenCacheImpl,
weak_factory_.GetWeakPtr(),
cache_name, pending_callback));
}
void CacheStorage::HasCache(const std::string& cache_name,
const BoolAndErrorCallback& callback) {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
if (!initialized_)
LazyInit();
BoolAndErrorCallback pending_callback =
base::Bind(&CacheStorage::PendingBoolAndErrorCallback,
weak_factory_.GetWeakPtr(), callback);
scheduler_->ScheduleOperation(base::Bind(&CacheStorage::HasCacheImpl,
weak_factory_.GetWeakPtr(),
cache_name, pending_callback));
}
void CacheStorage::DeleteCache(const std::string& cache_name,
const BoolAndErrorCallback& callback) {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
if (!initialized_)
LazyInit();
BoolAndErrorCallback pending_callback =
base::Bind(&CacheStorage::PendingBoolAndErrorCallback,
weak_factory_.GetWeakPtr(), callback);
scheduler_->ScheduleOperation(base::Bind(&CacheStorage::DeleteCacheImpl,
weak_factory_.GetWeakPtr(),
cache_name, pending_callback));
}
void CacheStorage::EnumerateCaches(const StringsAndErrorCallback& callback) {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
if (!initialized_)
LazyInit();
StringsAndErrorCallback pending_callback =
base::Bind(&CacheStorage::PendingStringsAndErrorCallback,
weak_factory_.GetWeakPtr(), callback);
scheduler_->ScheduleOperation(base::Bind(&CacheStorage::EnumerateCachesImpl,
weak_factory_.GetWeakPtr(),
pending_callback));
}
void CacheStorage::MatchCache(
const std::string& cache_name,
scoped_ptr<ServiceWorkerFetchRequest> request,
const CacheStorageCache::ResponseCallback& callback) {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
if (!initialized_)
LazyInit();
CacheStorageCache::ResponseCallback pending_callback =
base::Bind(&CacheStorage::PendingResponseCallback,
weak_factory_.GetWeakPtr(), callback);
scheduler_->ScheduleOperation(
base::Bind(&CacheStorage::MatchCacheImpl, weak_factory_.GetWeakPtr(),
cache_name, base::Passed(request.Pass()), pending_callback));
}
void CacheStorage::MatchAllCaches(
scoped_ptr<ServiceWorkerFetchRequest> request,
const CacheStorageCache::ResponseCallback& callback) {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
if (!initialized_)
LazyInit();
CacheStorageCache::ResponseCallback pending_callback =
base::Bind(&CacheStorage::PendingResponseCallback,
weak_factory_.GetWeakPtr(), callback);
scheduler_->ScheduleOperation(
base::Bind(&CacheStorage::MatchAllCachesImpl, weak_factory_.GetWeakPtr(),
base::Passed(request.Pass()), pending_callback));
}
void CacheStorage::CloseAllCaches(const base::Closure& callback) {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
if (!initialized_) {
callback.Run();
return;
}
base::Closure pending_callback = base::Bind(
&CacheStorage::PendingClosure, weak_factory_.GetWeakPtr(), callback);
scheduler_->ScheduleOperation(base::Bind(&CacheStorage::CloseAllCachesImpl,
weak_factory_.GetWeakPtr(),
pending_callback));
}
int64 CacheStorage::MemoryBackedSize() const {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
if (!initialized_ || !memory_only_)
return 0;
int64 sum = 0;
for (auto& key_value : cache_map_) {
if (key_value.second)
sum += key_value.second->MemoryBackedSize();
}
return sum;
}
void CacheStorage::StartAsyncOperationForTesting() {
scheduler_->ScheduleOperation(base::Bind(&base::DoNothing));
}
void CacheStorage::CompleteAsyncOperationForTesting() {
scheduler_->CompleteOperationAndRunNext();
}
// Init is run lazily so that it is called on the proper MessageLoop.
void CacheStorage::LazyInit() {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
DCHECK(!initialized_);
if (initializing_)
return;
DCHECK(!scheduler_->ScheduledOperations());
initializing_ = true;
scheduler_->ScheduleOperation(
base::Bind(&CacheStorage::LazyInitImpl, weak_factory_.GetWeakPtr()));
}
void CacheStorage::LazyInitImpl() {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
DCHECK(!initialized_);
DCHECK(initializing_);
// 1. Get the list of cache names (async call)
// 2. For each cache name, load the cache (async call)
// 3. Once each load is complete, update the map variables.
// 4. Call the list of waiting callbacks.
scoped_ptr<std::vector<std::string>> indexed_cache_names(
new std::vector<std::string>());
cache_loader_->LoadIndex(indexed_cache_names.Pass(),
base::Bind(&CacheStorage::LazyInitDidLoadIndex,
weak_factory_.GetWeakPtr()));
}
void CacheStorage::LazyInitDidLoadIndex(
scoped_ptr<std::vector<std::string>> indexed_cache_names) {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
for (size_t i = 0u, max = indexed_cache_names->size(); i < max; ++i) {
cache_map_.insert(std::make_pair(indexed_cache_names->at(i),
base::WeakPtr<CacheStorageCache>()));
ordered_cache_names_.push_back(indexed_cache_names->at(i));
}
initializing_ = false;
initialized_ = true;
scheduler_->CompleteOperationAndRunNext();
}
void CacheStorage::OpenCacheImpl(const std::string& cache_name,
const CacheAndErrorCallback& callback) {
scoped_refptr<CacheStorageCache> cache = GetLoadedCache(cache_name);
if (cache.get()) {
callback.Run(cache, CACHE_STORAGE_OK);
return;
}
cache_loader_->PrepareNewCacheDestination(
cache_name, base::Bind(&CacheStorage::CreateCacheDidCreateCache,
weak_factory_.GetWeakPtr(), cache_name, callback));
}
void CacheStorage::CreateCacheDidCreateCache(
const std::string& cache_name,
const CacheAndErrorCallback& callback,
const scoped_refptr<CacheStorageCache>& cache) {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
UMA_HISTOGRAM_BOOLEAN("ServiceWorkerCache.CreateCacheStorageResult",
cache != nullptr);
if (!cache.get()) {
callback.Run(scoped_refptr<CacheStorageCache>(),
CACHE_STORAGE_ERROR_STORAGE);
return;
}
cache_map_.insert(std::make_pair(cache_name, cache->AsWeakPtr()));
ordered_cache_names_.push_back(cache_name);
cache_loader_->WriteIndex(
ordered_cache_names_,
base::Bind(&CacheStorage::CreateCacheDidWriteIndex,
weak_factory_.GetWeakPtr(), callback, cache));
}
void CacheStorage::CreateCacheDidWriteIndex(
const CacheAndErrorCallback& callback,
const scoped_refptr<CacheStorageCache>& cache,
bool success) {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
DCHECK(cache.get());
// TODO(jkarlin): Handle !success.
callback.Run(cache, CACHE_STORAGE_OK);
}
void CacheStorage::HasCacheImpl(const std::string& cache_name,
const BoolAndErrorCallback& callback) {
bool has_cache = ContainsKey(cache_map_, cache_name);
callback.Run(has_cache, CACHE_STORAGE_OK);
}
void CacheStorage::DeleteCacheImpl(const std::string& cache_name,
const BoolAndErrorCallback& callback) {
CacheMap::iterator it = cache_map_.find(cache_name);
if (it == cache_map_.end()) {
callback.Run(false, CACHE_STORAGE_ERROR_NOT_FOUND);
return;
}
base::WeakPtr<CacheStorageCache> cache = it->second;
cache_map_.erase(it);
// Delete the name from ordered_cache_names_.
StringVector::iterator iter = std::find(
ordered_cache_names_.begin(), ordered_cache_names_.end(), cache_name);
DCHECK(iter != ordered_cache_names_.end());
ordered_cache_names_.erase(iter);
base::Closure closure =
base::Bind(&CacheStorage::DeleteCacheDidClose, weak_factory_.GetWeakPtr(),
cache_name, callback, ordered_cache_names_,
make_scoped_refptr(cache.get()));
if (cache) {
cache->Close(closure);
return;
}
closure.Run();
}
void CacheStorage::DeleteCacheDidClose(
const std::string& cache_name,
const BoolAndErrorCallback& callback,
const StringVector& ordered_cache_names,
const scoped_refptr<CacheStorageCache>& cache /* might be null */) {
cache_loader_->WriteIndex(
ordered_cache_names,
base::Bind(&CacheStorage::DeleteCacheDidWriteIndex,
weak_factory_.GetWeakPtr(), cache_name, callback));
}
void CacheStorage::DeleteCacheDidWriteIndex(
const std::string& cache_name,
const BoolAndErrorCallback& callback,
bool success) {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
cache_loader_->CleanUpDeletedCache(
cache_name, base::Bind(&CacheStorage::DeleteCacheDidCleanUp,
weak_factory_.GetWeakPtr(), callback));
}
void CacheStorage::DeleteCacheDidCleanUp(const BoolAndErrorCallback& callback,
bool success) {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
callback.Run(true, CACHE_STORAGE_OK);
}
void CacheStorage::EnumerateCachesImpl(
const StringsAndErrorCallback& callback) {
callback.Run(ordered_cache_names_, CACHE_STORAGE_OK);
}
void CacheStorage::MatchCacheImpl(
const std::string& cache_name,
scoped_ptr<ServiceWorkerFetchRequest> request,
const CacheStorageCache::ResponseCallback& callback) {
scoped_refptr<CacheStorageCache> cache = GetLoadedCache(cache_name);
if (!cache.get()) {
callback.Run(CACHE_STORAGE_ERROR_NOT_FOUND,
scoped_ptr<ServiceWorkerResponse>(),
scoped_ptr<storage::BlobDataHandle>());
return;
}
// Pass the cache along to the callback to keep the cache open until match is
// done.
cache->Match(request.Pass(),
base::Bind(&CacheStorage::MatchCacheDidMatch,
weak_factory_.GetWeakPtr(), cache, callback));
}
void CacheStorage::MatchCacheDidMatch(
const scoped_refptr<CacheStorageCache>& cache,
const CacheStorageCache::ResponseCallback& callback,
CacheStorageError error,
scoped_ptr<ServiceWorkerResponse> response,
scoped_ptr<storage::BlobDataHandle> handle) {
callback.Run(error, response.Pass(), handle.Pass());
}
void CacheStorage::MatchAllCachesImpl(
scoped_ptr<ServiceWorkerFetchRequest> request,
const CacheStorageCache::ResponseCallback& callback) {
scoped_ptr<CacheStorageCache::ResponseCallback> callback_copy(
new CacheStorageCache::ResponseCallback(callback));
CacheStorageCache::ResponseCallback* callback_ptr = callback_copy.get();
base::Closure barrier_closure =
base::BarrierClosure(ordered_cache_names_.size(),
base::Bind(&CacheStorage::MatchAllCachesDidMatchAll,
weak_factory_.GetWeakPtr(),
base::Passed(callback_copy.Pass())));
for (const std::string& cache_name : ordered_cache_names_) {
scoped_refptr<CacheStorageCache> cache = GetLoadedCache(cache_name);
DCHECK(cache.get());
cache->Match(make_scoped_ptr(new ServiceWorkerFetchRequest(*request)),
base::Bind(&CacheStorage::MatchAllCachesDidMatch,
weak_factory_.GetWeakPtr(), cache, barrier_closure,
callback_ptr));
}
}
void CacheStorage::MatchAllCachesDidMatch(
scoped_refptr<CacheStorageCache> cache,
const base::Closure& barrier_closure,
CacheStorageCache::ResponseCallback* callback,
CacheStorageError error,
scoped_ptr<ServiceWorkerResponse> response,
scoped_ptr<storage::BlobDataHandle> handle) {
if (callback->is_null() || error == CACHE_STORAGE_ERROR_NOT_FOUND) {
barrier_closure.Run();
return;
}
callback->Run(error, response.Pass(), handle.Pass());
callback->Reset(); // Only call the callback once.
barrier_closure.Run();
}
void CacheStorage::MatchAllCachesDidMatchAll(
scoped_ptr<CacheStorageCache::ResponseCallback> callback) {
if (!callback->is_null()) {
callback->Run(CACHE_STORAGE_ERROR_NOT_FOUND,
scoped_ptr<ServiceWorkerResponse>(),
scoped_ptr<storage::BlobDataHandle>());
}
}
scoped_refptr<CacheStorageCache> CacheStorage::GetLoadedCache(
const std::string& cache_name) {
DCHECK_CURRENTLY_ON(BrowserThread::IO);
DCHECK(initialized_);
CacheMap::iterator map_iter = cache_map_.find(cache_name);
if (map_iter == cache_map_.end())
return scoped_refptr<CacheStorageCache>();
base::WeakPtr<CacheStorageCache> cache = map_iter->second;
if (!cache) {
scoped_refptr<CacheStorageCache> new_cache =
cache_loader_->CreateCache(cache_name);
map_iter->second = new_cache->AsWeakPtr();
return new_cache;
}
return make_scoped_refptr(cache.get());
}
void CacheStorage::CloseAllCachesImpl(const base::Closure& callback) {
int live_cache_count = 0;
for (const auto& key_value : cache_map_) {
if (key_value.second)
live_cache_count += 1;
}
if (live_cache_count == 0) {
callback.Run();
return;
}
// The closure might modify this object so delay calling it until after
// iterating through cache_map_ by adding one to the barrier.
base::Closure barrier_closure =
base::BarrierClosure(live_cache_count + 1, base::Bind(callback));
for (auto& key_value : cache_map_) {
if (key_value.second) {
key_value.second->Close(base::Bind(
CloseAllCachesDidCloseCache,
make_scoped_refptr(key_value.second.get()), barrier_closure));
}
}
barrier_closure.Run();
}
void CacheStorage::PendingClosure(const base::Closure& callback) {
base::WeakPtr<CacheStorage> cache_storage = weak_factory_.GetWeakPtr();
callback.Run();
if (cache_storage)
scheduler_->CompleteOperationAndRunNext();
}
void CacheStorage::PendingBoolAndErrorCallback(
const BoolAndErrorCallback& callback,
bool found,
CacheStorageError error) {
base::WeakPtr<CacheStorage> cache_storage = weak_factory_.GetWeakPtr();
callback.Run(found, error);
if (cache_storage)
scheduler_->CompleteOperationAndRunNext();
}
void CacheStorage::PendingCacheAndErrorCallback(
const CacheAndErrorCallback& callback,
const scoped_refptr<CacheStorageCache>& cache,
CacheStorageError error) {
base::WeakPtr<CacheStorage> cache_storage = weak_factory_.GetWeakPtr();
callback.Run(cache, error);
if (cache_storage)
scheduler_->CompleteOperationAndRunNext();
}
void CacheStorage::PendingStringsAndErrorCallback(
const StringsAndErrorCallback& callback,
const StringVector& strings,
CacheStorageError error) {
base::WeakPtr<CacheStorage> cache_storage = weak_factory_.GetWeakPtr();
callback.Run(strings, error);
if (cache_storage)
scheduler_->CompleteOperationAndRunNext();
}
void CacheStorage::PendingResponseCallback(
const CacheStorageCache::ResponseCallback& callback,
CacheStorageError error,
scoped_ptr<ServiceWorkerResponse> response,
scoped_ptr<storage::BlobDataHandle> blob_data_handle) {
base::WeakPtr<CacheStorage> cache_storage = weak_factory_.GetWeakPtr();
callback.Run(error, response.Pass(), blob_data_handle.Pass());
if (cache_storage)
scheduler_->CompleteOperationAndRunNext();
}
} // namespace content