// Copyright (c) 2013 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/indexed_db/indexed_db_factory.h" #include "base/logging.h" #include "base/strings/utf_string_conversions.h" #include "base/time/time.h" #include "content/browser/indexed_db/indexed_db_backing_store.h" #include "content/browser/indexed_db/indexed_db_context_impl.h" #include "content/browser/indexed_db/indexed_db_database_error.h" #include "content/browser/indexed_db/indexed_db_tracing.h" #include "content/browser/indexed_db/indexed_db_transaction_coordinator.h" #include "third_party/WebKit/public/platform/WebIDBDatabaseException.h" #include "webkit/common/database/database_identifier.h" using base::ASCIIToUTF16; namespace content { const int64 kBackingStoreGracePeriodMs = 2000; IndexedDBFactory::IndexedDBFactory(IndexedDBContextImpl* context) : context_(context) {} IndexedDBFactory::~IndexedDBFactory() {} void IndexedDBFactory::RemoveDatabaseFromMaps( const IndexedDBDatabase::Identifier& identifier) { IndexedDBDatabaseMap::iterator it = database_map_.find(identifier); DCHECK(it != database_map_.end()); IndexedDBDatabase* database = it->second; database_map_.erase(it); std::pair range = origin_dbs_.equal_range(database->identifier().first); DCHECK(range.first != range.second); for (OriginDBMap::iterator it2 = range.first; it2 != range.second; ++it2) { if (it2->second == database) { origin_dbs_.erase(it2); break; } } } void IndexedDBFactory::ReleaseDatabase( const IndexedDBDatabase::Identifier& identifier, bool forcedClose) { DCHECK(!database_map_.find(identifier)->second->backing_store()); RemoveDatabaseFromMaps(identifier); // No grace period on a forced-close, as the initiator is // assuming the backing store will be released once all // connections are closed. ReleaseBackingStore(identifier.first, forcedClose); } void IndexedDBFactory::ReleaseBackingStore(const GURL& origin_url, bool immediate) { if (immediate) { IndexedDBBackingStoreMap::iterator it = backing_stores_with_active_blobs_.find(origin_url); if (it != backing_stores_with_active_blobs_.end()) { it->second->active_blob_registry()->ForceShutdown(); backing_stores_with_active_blobs_.erase(it); } } // Only close if this is the last reference. if (!HasLastBackingStoreReference(origin_url)) return; // If this factory does hold the last reference to the backing store, it can // be closed - but unless requested to close it immediately, keep it around // for a short period so that a re-open is fast. if (immediate) { CloseBackingStore(origin_url); return; } // Start a timer to close the backing store, unless something else opens it // in the mean time. DCHECK(!backing_store_map_[origin_url]->close_timer()->IsRunning()); backing_store_map_[origin_url]->close_timer()->Start( FROM_HERE, base::TimeDelta::FromMilliseconds(kBackingStoreGracePeriodMs), base::Bind(&IndexedDBFactory::MaybeCloseBackingStore, this, origin_url)); } void IndexedDBFactory::MaybeCloseBackingStore(const GURL& origin_url) { // Another reference may have opened since the maybe-close was posted, so it // is necessary to check again. if (HasLastBackingStoreReference(origin_url)) CloseBackingStore(origin_url); } void IndexedDBFactory::CloseBackingStore(const GURL& origin_url) { IndexedDBBackingStoreMap::iterator it = backing_store_map_.find(origin_url); DCHECK(it != backing_store_map_.end()); // Stop the timer (if it's running) - this may happen if the timer was started // and then a forced close occurs. it->second->close_timer()->Stop(); backing_store_map_.erase(it); } bool IndexedDBFactory::HasLastBackingStoreReference(const GURL& origin_url) const { IndexedDBBackingStore* ptr; { // Scope so that the implicit scoped_refptr<> is freed. IndexedDBBackingStoreMap::const_iterator it = backing_store_map_.find(origin_url); DCHECK(it != backing_store_map_.end()); ptr = it->second.get(); } return ptr->HasOneRef(); } void IndexedDBFactory::ForceClose(const GURL& origin_url) { std::pair range = GetOpenDatabasesForOrigin(origin_url); while (range.first != range.second) { IndexedDBDatabase* db = range.first->second; ++range.first; db->ForceClose(); } if (backing_store_map_.find(origin_url) != backing_store_map_.end()) ReleaseBackingStore(origin_url, true /* immediate */); } void IndexedDBFactory::ContextDestroyed() { // Timers on backing stores hold a reference to this factory. When the // context (which nominally owns this factory) is destroyed during thread // termination the timers must be stopped so that this factory and the // stores can be disposed of. for (IndexedDBBackingStoreMap::iterator it = backing_store_map_.begin(); it != backing_store_map_.end(); ++it) it->second->close_timer()->Stop(); backing_store_map_.clear(); backing_stores_with_active_blobs_.clear(); context_ = NULL; } void IndexedDBFactory::ReportOutstandingBlobs(const GURL& origin_url, bool blobs_outstanding) { if (!context_) return; if (blobs_outstanding) { DCHECK(!backing_stores_with_active_blobs_.count(origin_url)); IndexedDBBackingStoreMap::iterator it = backing_store_map_.find(origin_url); if (it != backing_store_map_.end()) backing_stores_with_active_blobs_.insert(*it); else DCHECK(false); } else { IndexedDBBackingStoreMap::iterator it = backing_stores_with_active_blobs_.find(origin_url); if (it != backing_stores_with_active_blobs_.end()) { backing_stores_with_active_blobs_.erase(it); ReleaseBackingStore(origin_url, false /* immediate */); } } } void IndexedDBFactory::GetDatabaseNames( scoped_refptr callbacks, const GURL& origin_url, const base::FilePath& data_directory, net::URLRequestContext* request_context) { IDB_TRACE("IndexedDBFactory::GetDatabaseNames"); // TODO(dgrogan): Plumb data_loss back to script eventually? blink::WebIDBDataLoss data_loss; std::string data_loss_message; bool disk_full; scoped_refptr backing_store = OpenBackingStore(origin_url, data_directory, request_context, &data_loss, &data_loss_message, &disk_full); if (!backing_store) { callbacks->OnError( IndexedDBDatabaseError(blink::WebIDBDatabaseExceptionUnknownError, "Internal error opening backing store for " "indexedDB.webkitGetDatabaseNames.")); return; } leveldb::Status s; std::vector names = backing_store->GetDatabaseNames(&s); if (!s.ok()) { // TODO(cmumford): Handle this error DLOG(ERROR) << "Internal error getting database names"; } callbacks->OnSuccess(names); backing_store = NULL; ReleaseBackingStore(origin_url, false /* immediate */); } void IndexedDBFactory::DeleteDatabase( const base::string16& name, net::URLRequestContext* request_context, scoped_refptr callbacks, const GURL& origin_url, const base::FilePath& data_directory) { IDB_TRACE("IndexedDBFactory::DeleteDatabase"); IndexedDBDatabase::Identifier unique_identifier(origin_url, name); IndexedDBDatabaseMap::iterator it = database_map_.find(unique_identifier); if (it != database_map_.end()) { // If there are any connections to the database, directly delete the // database. it->second->DeleteDatabase(callbacks); return; } // TODO(dgrogan): Plumb data_loss back to script eventually? blink::WebIDBDataLoss data_loss; std::string data_loss_message; bool disk_full = false; scoped_refptr backing_store = OpenBackingStore(origin_url, data_directory, request_context, &data_loss, &data_loss_message, &disk_full); if (!backing_store) { callbacks->OnError( IndexedDBDatabaseError(blink::WebIDBDatabaseExceptionUnknownError, ASCIIToUTF16( "Internal error opening backing store " "for indexedDB.deleteDatabase."))); return; } leveldb::Status s; scoped_refptr database = IndexedDBDatabase::Create( name, backing_store, this, unique_identifier, &s); if (!database) { IndexedDBDatabaseError error( blink::WebIDBDatabaseExceptionUnknownError, ASCIIToUTF16( "Internal error creating database backend for " "indexedDB.deleteDatabase.")); callbacks->OnError(error); if (s.IsCorruption()) HandleBackingStoreCorruption(origin_url, error); return; } database_map_[unique_identifier] = database; origin_dbs_.insert(std::make_pair(origin_url, database)); database->DeleteDatabase(callbacks); RemoveDatabaseFromMaps(unique_identifier); database = NULL; backing_store = NULL; ReleaseBackingStore(origin_url, false /* immediate */); } void IndexedDBFactory::DatabaseDeleted( const IndexedDBDatabase::Identifier& identifier) { // NULL after ContextDestroyed() called, and in some unit tests. if (!context_) return; context_->DatabaseDeleted(identifier.first); } void IndexedDBFactory::HandleBackingStoreFailure(const GURL& origin_url) { // NULL after ContextDestroyed() called, and in some unit tests. if (!context_) return; context_->ForceClose(origin_url, IndexedDBContextImpl::FORCE_CLOSE_BACKING_STORE_FAILURE); } void IndexedDBFactory::HandleBackingStoreCorruption( const GURL& origin_url, const IndexedDBDatabaseError& error) { // Make a copy of origin_url as this is likely a reference to a member of a // backing store which this function will be deleting. GURL saved_origin_url(origin_url); DCHECK(context_); base::FilePath path_base = context_->data_path(); IndexedDBBackingStore::RecordCorruptionInfo( path_base, saved_origin_url, base::UTF16ToUTF8(error.message())); HandleBackingStoreFailure(saved_origin_url); // Note: DestroyBackingStore only deletes LevelDB files, leaving all others, // so our corruption info file will remain. leveldb::Status s = IndexedDBBackingStore::DestroyBackingStore(path_base, saved_origin_url); if (!s.ok()) DLOG(ERROR) << "Unable to delete backing store: " << s.ToString(); } bool IndexedDBFactory::IsDatabaseOpen(const GURL& origin_url, const base::string16& name) const { return !!database_map_.count(IndexedDBDatabase::Identifier(origin_url, name)); } bool IndexedDBFactory::IsBackingStoreOpen(const GURL& origin_url) const { return backing_store_map_.find(origin_url) != backing_store_map_.end(); } bool IndexedDBFactory::IsBackingStorePendingClose(const GURL& origin_url) const { IndexedDBBackingStoreMap::const_iterator it = backing_store_map_.find(origin_url); if (it == backing_store_map_.end()) return false; return it->second->close_timer()->IsRunning(); } scoped_refptr IndexedDBFactory::OpenBackingStoreHelper( const GURL& origin_url, const base::FilePath& data_directory, net::URLRequestContext* request_context, blink::WebIDBDataLoss* data_loss, std::string* data_loss_message, bool* disk_full, bool first_time) { return IndexedDBBackingStore::Open(this, origin_url, data_directory, request_context, data_loss, data_loss_message, disk_full, context_->TaskRunner(), first_time); } scoped_refptr IndexedDBFactory::OpenBackingStore( const GURL& origin_url, const base::FilePath& data_directory, net::URLRequestContext* request_context, blink::WebIDBDataLoss* data_loss, std::string* data_loss_message, bool* disk_full) { const bool open_in_memory = data_directory.empty(); IndexedDBBackingStoreMap::iterator it2 = backing_store_map_.find(origin_url); if (it2 != backing_store_map_.end()) { it2->second->close_timer()->Stop(); return it2->second; } scoped_refptr backing_store; bool first_time = false; if (open_in_memory) { backing_store = IndexedDBBackingStore::OpenInMemory(origin_url, context_->TaskRunner()); } else { first_time = !backends_opened_since_boot_.count(origin_url); backing_store = OpenBackingStoreHelper(origin_url, data_directory, request_context, data_loss, data_loss_message, disk_full, first_time); } if (backing_store.get()) { if (first_time) backends_opened_since_boot_.insert(origin_url); backing_store_map_[origin_url] = backing_store; // If an in-memory database, bind lifetime to this factory instance. if (open_in_memory) session_only_backing_stores_.insert(backing_store); // All backing stores associated with this factory should be of the same // type. DCHECK_NE(session_only_backing_stores_.empty(), open_in_memory); return backing_store; } return 0; } void IndexedDBFactory::Open(const base::string16& name, const IndexedDBPendingConnection& connection, net::URLRequestContext* request_context, const GURL& origin_url, const base::FilePath& data_directory) { IDB_TRACE("IndexedDBFactory::Open"); scoped_refptr database; IndexedDBDatabase::Identifier unique_identifier(origin_url, name); IndexedDBDatabaseMap::iterator it = database_map_.find(unique_identifier); blink::WebIDBDataLoss data_loss = blink::WebIDBDataLossNone; std::string data_loss_message; bool disk_full = false; bool was_open = (it != database_map_.end()); if (!was_open) { scoped_refptr backing_store = OpenBackingStore(origin_url, data_directory, request_context, &data_loss, &data_loss_message, &disk_full); if (!backing_store) { if (disk_full) { connection.callbacks->OnError( IndexedDBDatabaseError(blink::WebIDBDatabaseExceptionQuotaError, ASCIIToUTF16( "Encountered full disk while opening " "backing store for indexedDB.open."))); return; } connection.callbacks->OnError(IndexedDBDatabaseError( blink::WebIDBDatabaseExceptionUnknownError, ASCIIToUTF16( "Internal error opening backing store for indexedDB.open."))); return; } leveldb::Status s; database = IndexedDBDatabase::Create( name, backing_store, this, unique_identifier, &s); if (!database) { DLOG(ERROR) << "Unable to create the database"; IndexedDBDatabaseError error(blink::WebIDBDatabaseExceptionUnknownError, ASCIIToUTF16( "Internal error creating " "database backend for " "indexedDB.open.")); connection.callbacks->OnError(error); if (s.IsCorruption()) { backing_store = NULL; // Closes the LevelDB so that it can be deleted HandleBackingStoreCorruption(origin_url, error); } return; } } else { database = it->second; } if (data_loss != blink::WebIDBDataLossNone) connection.callbacks->OnDataLoss(data_loss, data_loss_message); database->OpenConnection(connection); if (!was_open && database->ConnectionCount() > 0) { database_map_[unique_identifier] = database; origin_dbs_.insert(std::make_pair(origin_url, database)); } } std::pair IndexedDBFactory::GetOpenDatabasesForOrigin(const GURL& origin_url) const { return origin_dbs_.equal_range(origin_url); } size_t IndexedDBFactory::GetConnectionCount(const GURL& origin_url) const { size_t count(0); std::pair range = GetOpenDatabasesForOrigin(origin_url); for (OriginDBMapIterator it = range.first; it != range.second; ++it) count += it->second->ConnectionCount(); return count; } } // namespace content