/* * Copyright (C) 2007, 2008 Apple Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of Apple Computer, Inc. ("Apple") nor the names of * its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY APPLE AND ITS CONTRIBUTORS "AS IS" AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL APPLE OR ITS CONTRIBUTORS BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #include "DatabaseTracker.h" #if ENABLE(DATABASE) #include "AbstractDatabase.h" #include "Chrome.h" #include "ChromeClient.h" #include "DatabaseThread.h" #include "DatabaseTrackerClient.h" #include "Logging.h" #include "OriginQuotaManager.h" #include "Page.h" #include "ScriptExecutionContext.h" #include "SecurityOrigin.h" #include "SecurityOriginHash.h" #include "SQLiteFileSystem.h" #include "SQLiteStatement.h" #include <wtf/MainThread.h> #include <wtf/StdLibExtras.h> #include <wtf/text/CString.h> using namespace std; static WebCore::OriginQuotaManager& originQuotaManager() { DEFINE_STATIC_LOCAL(WebCore::OriginQuotaManager, quotaManager, ()); return quotaManager; } namespace WebCore { static DatabaseTracker* staticTracker = 0; void DatabaseTracker::initializeTracker(const String& databasePath) { ASSERT(!staticTracker); if (staticTracker) return; staticTracker = new DatabaseTracker(databasePath); } DatabaseTracker& DatabaseTracker::tracker() { if (!staticTracker) staticTracker = new DatabaseTracker(""); return *staticTracker; } DatabaseTracker::DatabaseTracker(const String& databasePath) : m_client(0) { setDatabaseDirectoryPath(databasePath); SQLiteFileSystem::registerSQLiteVFS(); MutexLocker lockDatabase(m_databaseGuard); populateOrigins(); } void DatabaseTracker::setDatabaseDirectoryPath(const String& path) { MutexLocker lockDatabase(m_databaseGuard); ASSERT(!m_database.isOpen()); m_databaseDirectoryPath = path.threadsafeCopy(); } String DatabaseTracker::databaseDirectoryPath() const { return m_databaseDirectoryPath.threadsafeCopy(); } String DatabaseTracker::trackerDatabasePath() const { return SQLiteFileSystem::appendDatabaseFileNameToPath(m_databaseDirectoryPath, "Databases.db"); } void DatabaseTracker::openTrackerDatabase(bool createIfDoesNotExist) { ASSERT(!m_databaseGuard.tryLock()); if (m_database.isOpen()) return; String databasePath = trackerDatabasePath(); if (!SQLiteFileSystem::ensureDatabaseFileExists(databasePath, createIfDoesNotExist)) return; if (!m_database.open(databasePath)) { // FIXME: What do do here? LOG_ERROR("Failed to open databasePath %s.", databasePath.ascii().data()); return; } m_database.disableThreadingChecks(); if (!m_database.tableExists("Origins")) { if (!m_database.executeCommand("CREATE TABLE Origins (origin TEXT UNIQUE ON CONFLICT REPLACE, quota INTEGER NOT NULL ON CONFLICT FAIL);")) { // FIXME: and here LOG_ERROR("Failed to create Origins table"); } } if (!m_database.tableExists("Databases")) { if (!m_database.executeCommand("CREATE TABLE Databases (guid INTEGER PRIMARY KEY AUTOINCREMENT, origin TEXT, name TEXT, displayName TEXT, estimatedSize INTEGER, path TEXT);")) { // FIXME: and here LOG_ERROR("Failed to create Databases table"); } } } bool DatabaseTracker::canEstablishDatabase(ScriptExecutionContext* context, const String& name, const String& displayName, unsigned long estimatedSize) { SecurityOrigin* origin = context->securityOrigin(); ProposedDatabase details; unsigned long long requirement; { MutexLocker lockDatabase(m_databaseGuard); Locker<OriginQuotaManager> quotaManagerLocker(originQuotaManager()); if (!canCreateDatabase(origin, name)) return false; recordCreatingDatabase(origin, name); // Since we're imminently opening a database within this context's origin, make sure this origin is being tracked by the QuotaTracker // by fetching its current usage now. unsigned long long usage = usageForOriginNoLock(origin); // If a database already exists, ignore the passed-in estimated size and say it's OK. if (hasEntryForDatabase(origin, name)) return true; // If the database will fit, allow its creation. requirement = usage + max(1UL, estimatedSize); if (requirement < usage) { doneCreatingDatabase(origin, name); return false; // If the estimated size is so big it causes an overflow, don't allow creation. } if (requirement <= quotaForOriginNoLock(origin)) return true; // Give the chrome client a chance to increase the quota. // Temporarily make the details of the proposed database available, so the client can get at them. // FIXME: We should really just pass the details into this call, rather than using m_proposedDatabases. details = ProposedDatabase(origin->threadsafeCopy(), DatabaseDetails(name.threadsafeCopy(), displayName.threadsafeCopy(), estimatedSize, 0)); m_proposedDatabases.add(&details); } // Drop all locks before calling out; we don't know what they'll do. context->databaseExceededQuota(name); MutexLocker lockDatabase(m_databaseGuard); m_proposedDatabases.remove(&details); // If the database will fit now, allow its creation. if (requirement <= quotaForOriginNoLock(origin)) return true; doneCreatingDatabase(origin, name); return false; } bool DatabaseTracker::hasEntryForOriginNoLock(SecurityOrigin* origin) { ASSERT(!m_databaseGuard.tryLock()); ASSERT(m_quotaMap); return m_quotaMap->contains(origin); } bool DatabaseTracker::hasEntryForOrigin(SecurityOrigin* origin) { MutexLocker lockDatabase(m_databaseGuard); return hasEntryForOriginNoLock(origin); } bool DatabaseTracker::hasEntryForDatabase(SecurityOrigin* origin, const String& databaseIdentifier) { ASSERT(!m_databaseGuard.tryLock()); openTrackerDatabase(false); if (!m_database.isOpen()) return false; SQLiteStatement statement(m_database, "SELECT guid FROM Databases WHERE origin=? AND name=?;"); if (statement.prepare() != SQLResultOk) return false; statement.bindText(1, origin->databaseIdentifier()); statement.bindText(2, databaseIdentifier); return statement.step() == SQLResultRow; } unsigned long long DatabaseTracker::getMaxSizeForDatabase(const AbstractDatabase* database) { // The maximum size for a database is the full quota for its origin, minus the current usage within the origin, // plus the current usage of the given database MutexLocker lockDatabase(m_databaseGuard); Locker<OriginQuotaManager> quotaManagerLocker(originQuotaManager()); SecurityOrigin* origin = database->securityOrigin(); return quotaForOriginNoLock(origin) - originQuotaManager().diskUsage(origin) + SQLiteFileSystem::getDatabaseFileSize(database->fileName()); } void DatabaseTracker::databaseChanged(AbstractDatabase* database) { Locker<OriginQuotaManager> quotaManagerLocker(originQuotaManager()); originQuotaManager().markDatabase(database); } void DatabaseTracker::interruptAllDatabasesForContext(const ScriptExecutionContext* context) { Vector<RefPtr<AbstractDatabase> > openDatabases; { MutexLocker openDatabaseMapLock(m_openDatabaseMapGuard); if (!m_openDatabaseMap) return; DatabaseNameMap* nameMap = m_openDatabaseMap->get(context->securityOrigin()); if (!nameMap) return; DatabaseNameMap::const_iterator dbNameMapEndIt = nameMap->end(); for (DatabaseNameMap::const_iterator dbNameMapIt = nameMap->begin(); dbNameMapIt != dbNameMapEndIt; ++dbNameMapIt) { DatabaseSet* databaseSet = dbNameMapIt->second; DatabaseSet::const_iterator dbSetEndIt = databaseSet->end(); for (DatabaseSet::const_iterator dbSetIt = databaseSet->begin(); dbSetIt != dbSetEndIt; ++dbSetIt) { if ((*dbSetIt)->scriptExecutionContext() == context) openDatabases.append(*dbSetIt); } } } Vector<RefPtr<AbstractDatabase> >::const_iterator openDatabasesEndIt = openDatabases.end(); for (Vector<RefPtr<AbstractDatabase> >::const_iterator openDatabasesIt = openDatabases.begin(); openDatabasesIt != openDatabasesEndIt; ++openDatabasesIt) (*openDatabasesIt)->interrupt(); } String DatabaseTracker::originPath(SecurityOrigin* origin) const { return SQLiteFileSystem::appendDatabaseFileNameToPath(m_databaseDirectoryPath.threadsafeCopy(), origin->databaseIdentifier()); } String DatabaseTracker::fullPathForDatabaseNoLock(SecurityOrigin* origin, const String& name, bool createIfNotExists) { ASSERT(!m_databaseGuard.tryLock()); ASSERT(!originQuotaManager().tryLock()); for (HashSet<ProposedDatabase*>::iterator iter = m_proposedDatabases.begin(); iter != m_proposedDatabases.end(); ++iter) if ((*iter)->second.name() == name && (*iter)->first->equal(origin)) return String(); String originIdentifier = origin->databaseIdentifier(); String originPath = this->originPath(origin); // Make sure the path for this SecurityOrigin exists if (createIfNotExists && !SQLiteFileSystem::ensureDatabaseDirectoryExists(originPath)) return String(); // See if we have a path for this database yet if (!m_database.isOpen()) return String(); SQLiteStatement statement(m_database, "SELECT path FROM Databases WHERE origin=? AND name=?;"); if (statement.prepare() != SQLResultOk) return String(); statement.bindText(1, originIdentifier); statement.bindText(2, name); int result = statement.step(); if (result == SQLResultRow) return SQLiteFileSystem::appendDatabaseFileNameToPath(originPath, statement.getColumnText(0)); if (!createIfNotExists) return String(); if (result != SQLResultDone) { LOG_ERROR("Failed to retrieve filename from Database Tracker for origin %s, name %s", originIdentifier.ascii().data(), name.ascii().data()); return String(); } statement.finalize(); String fileName = SQLiteFileSystem::getFileNameForNewDatabase(originPath, name, originIdentifier, &m_database); if (!addDatabase(origin, name, fileName)) return String(); // If this origin's quota is being tracked (open handle to a database in this origin), add this new database // to the quota manager now String fullFilePath = SQLiteFileSystem::appendDatabaseFileNameToPath(originPath, fileName); if (originQuotaManager().tracksOrigin(origin)) originQuotaManager().addDatabase(origin, name, fullFilePath); return fullFilePath; } String DatabaseTracker::fullPathForDatabase(SecurityOrigin* origin, const String& name, bool createIfNotExists) { MutexLocker lockDatabase(m_databaseGuard); Locker<OriginQuotaManager> quotaManagerLocker(originQuotaManager()); return fullPathForDatabaseNoLock(origin, name, createIfNotExists).threadsafeCopy(); } void DatabaseTracker::populateOrigins() { ASSERT(!m_databaseGuard.tryLock()); if (m_quotaMap) return; m_quotaMap = adoptPtr(new QuotaMap); openTrackerDatabase(false); if (!m_database.isOpen()) return; SQLiteStatement statement(m_database, "SELECT origin, quota FROM Origins"); if (statement.prepare() != SQLResultOk) { LOG_ERROR("Failed to prepare statement."); return; } int result; while ((result = statement.step()) == SQLResultRow) { RefPtr<SecurityOrigin> origin = SecurityOrigin::createFromDatabaseIdentifier(statement.getColumnText(0)); m_quotaMap->set(origin.get()->threadsafeCopy(), statement.getColumnInt64(1)); } if (result != SQLResultDone) LOG_ERROR("Failed to read in all origins from the database."); } void DatabaseTracker::origins(Vector<RefPtr<SecurityOrigin> >& result) { MutexLocker lockDatabase(m_databaseGuard); ASSERT(m_quotaMap); copyKeysToVector(*m_quotaMap, result); } bool DatabaseTracker::databaseNamesForOriginNoLock(SecurityOrigin* origin, Vector<String>& resultVector) { ASSERT(!m_databaseGuard.tryLock()); openTrackerDatabase(false); if (!m_database.isOpen()) return false; SQLiteStatement statement(m_database, "SELECT name FROM Databases where origin=?;"); if (statement.prepare() != SQLResultOk) return false; statement.bindText(1, origin->databaseIdentifier()); int result; while ((result = statement.step()) == SQLResultRow) resultVector.append(statement.getColumnText(0)); if (result != SQLResultDone) { LOG_ERROR("Failed to retrieve all database names for origin %s", origin->databaseIdentifier().ascii().data()); return false; } return true; } bool DatabaseTracker::databaseNamesForOrigin(SecurityOrigin* origin, Vector<String>& resultVector) { Vector<String> temp; { MutexLocker lockDatabase(m_databaseGuard); if (!databaseNamesForOriginNoLock(origin, temp)) return false; } for (Vector<String>::iterator iter = temp.begin(); iter != temp.end(); ++iter) resultVector.append(iter->threadsafeCopy()); return true; } DatabaseDetails DatabaseTracker::detailsForNameAndOrigin(const String& name, SecurityOrigin* origin) { String originIdentifier = origin->databaseIdentifier(); String displayName; int64_t expectedUsage; { MutexLocker lockDatabase(m_databaseGuard); for (HashSet<ProposedDatabase*>::iterator iter = m_proposedDatabases.begin(); iter != m_proposedDatabases.end(); ++iter) if ((*iter)->second.name() == name && (*iter)->first->equal(origin)) { ASSERT((*iter)->second.thread() == currentThread()); return (*iter)->second; } openTrackerDatabase(false); if (!m_database.isOpen()) return DatabaseDetails(); SQLiteStatement statement(m_database, "SELECT displayName, estimatedSize FROM Databases WHERE origin=? AND name=?"); if (statement.prepare() != SQLResultOk) return DatabaseDetails(); statement.bindText(1, originIdentifier); statement.bindText(2, name); int result = statement.step(); if (result == SQLResultDone) return DatabaseDetails(); if (result != SQLResultRow) { LOG_ERROR("Error retrieving details for database %s in origin %s from tracker database", name.ascii().data(), originIdentifier.ascii().data()); return DatabaseDetails(); } displayName = statement.getColumnText(0); expectedUsage = statement.getColumnInt64(1); } return DatabaseDetails(name, displayName, expectedUsage, usageForDatabase(name, origin)); } void DatabaseTracker::setDatabaseDetails(SecurityOrigin* origin, const String& name, const String& displayName, unsigned long estimatedSize) { String originIdentifier = origin->databaseIdentifier(); int64_t guid = 0; MutexLocker lockDatabase(m_databaseGuard); openTrackerDatabase(true); if (!m_database.isOpen()) return; SQLiteStatement statement(m_database, "SELECT guid FROM Databases WHERE origin=? AND name=?"); if (statement.prepare() != SQLResultOk) return; statement.bindText(1, originIdentifier); statement.bindText(2, name); int result = statement.step(); if (result == SQLResultRow) guid = statement.getColumnInt64(0); statement.finalize(); if (guid == 0) { if (result != SQLResultDone) LOG_ERROR("Error to determing existence of database %s in origin %s in tracker database", name.ascii().data(), originIdentifier.ascii().data()); else { // This case should never occur - we should never be setting database details for a database that doesn't already exist in the tracker // But since the tracker file is an external resource not under complete control of our code, it's somewhat invalid to make this an ASSERT case // So we'll print an error instead LOG_ERROR("Could not retrieve guid for database %s in origin %s from the tracker database - it is invalid to set database details on a database that doesn't already exist in the tracker", name.ascii().data(), originIdentifier.ascii().data()); } return; } SQLiteStatement updateStatement(m_database, "UPDATE Databases SET displayName=?, estimatedSize=? WHERE guid=?"); if (updateStatement.prepare() != SQLResultOk) return; updateStatement.bindText(1, displayName); updateStatement.bindInt64(2, estimatedSize); updateStatement.bindInt64(3, guid); if (updateStatement.step() != SQLResultDone) { LOG_ERROR("Failed to update details for database %s in origin %s", name.ascii().data(), originIdentifier.ascii().data()); return; } if (m_client) m_client->dispatchDidModifyDatabase(origin, name); } unsigned long long DatabaseTracker::usageForDatabase(const String& name, SecurityOrigin* origin) { String path = fullPathForDatabase(origin, name, false); if (path.isEmpty()) return 0; return SQLiteFileSystem::getDatabaseFileSize(path); } void DatabaseTracker::addOpenDatabase(AbstractDatabase* database) { if (!database) return; { MutexLocker openDatabaseMapLock(m_openDatabaseMapGuard); if (!m_openDatabaseMap) m_openDatabaseMap = adoptPtr(new DatabaseOriginMap); String name(database->stringIdentifier()); DatabaseNameMap* nameMap = m_openDatabaseMap->get(database->securityOrigin()); if (!nameMap) { nameMap = new DatabaseNameMap; m_openDatabaseMap->set(database->securityOrigin()->threadsafeCopy(), nameMap); } DatabaseSet* databaseSet = nameMap->get(name); if (!databaseSet) { databaseSet = new DatabaseSet; nameMap->set(name.threadsafeCopy(), databaseSet); } databaseSet->add(database); LOG(StorageAPI, "Added open Database %s (%p)\n", database->stringIdentifier().ascii().data(), database); Locker<OriginQuotaManager> quotaManagerLocker(originQuotaManager()); if (!originQuotaManager().tracksOrigin(database->securityOrigin())) { originQuotaManager().trackOrigin(database->securityOrigin()); originQuotaManager().addDatabase(database->securityOrigin(), database->stringIdentifier(), database->fileName()); } } MutexLocker lockDatabase(m_databaseGuard); doneCreatingDatabase(database->securityOrigin(), database->stringIdentifier()); } void DatabaseTracker::removeOpenDatabase(AbstractDatabase* database) { if (!database) return; { MutexLocker openDatabaseMapLock(m_openDatabaseMapGuard); if (!m_openDatabaseMap) { ASSERT_NOT_REACHED(); return; } String name(database->stringIdentifier()); DatabaseNameMap* nameMap = m_openDatabaseMap->get(database->securityOrigin()); if (!nameMap) { ASSERT_NOT_REACHED(); return; } DatabaseSet* databaseSet = nameMap->get(name); if (!databaseSet) { ASSERT_NOT_REACHED(); return; } databaseSet->remove(database); LOG(StorageAPI, "Removed open Database %s (%p)\n", database->stringIdentifier().ascii().data(), database); if (!databaseSet->isEmpty()) return; nameMap->remove(name); delete databaseSet; if (!nameMap->isEmpty()) return; m_openDatabaseMap->remove(database->securityOrigin()); delete nameMap; Locker<OriginQuotaManager> quotaManagerLocker(originQuotaManager()); originQuotaManager().removeOrigin(database->securityOrigin()); } } void DatabaseTracker::getOpenDatabases(SecurityOrigin* origin, const String& name, HashSet<RefPtr<AbstractDatabase> >* databases) { MutexLocker openDatabaseMapLock(m_openDatabaseMapGuard); if (!m_openDatabaseMap) return; DatabaseNameMap* nameMap = m_openDatabaseMap->get(origin); if (!nameMap) return; DatabaseSet* databaseSet = nameMap->get(name); if (!databaseSet) return; for (DatabaseSet::iterator it = databaseSet->begin(); it != databaseSet->end(); ++it) databases->add(*it); } unsigned long long DatabaseTracker::usageForOriginNoLock(SecurityOrigin* origin) { ASSERT(!originQuotaManager().tryLock()); // Use the OriginQuotaManager mechanism to calculate the usage if (originQuotaManager().tracksOrigin(origin)) return originQuotaManager().diskUsage(origin); // If the OriginQuotaManager doesn't track this origin already, prime it to do so originQuotaManager().trackOrigin(origin); Vector<String> names; databaseNamesForOriginNoLock(origin, names); for (unsigned i = 0; i < names.size(); ++i) originQuotaManager().addDatabase(origin, names[i], fullPathForDatabaseNoLock(origin, names[i], false)); if (!originQuotaManager().tracksOrigin(origin)) return 0; return originQuotaManager().diskUsage(origin); } unsigned long long DatabaseTracker::usageForOrigin(SecurityOrigin* origin) { MutexLocker lockDatabase(m_databaseGuard); Locker<OriginQuotaManager> quotaManagerLocker(originQuotaManager()); return usageForOriginNoLock(origin); } unsigned long long DatabaseTracker::quotaForOriginNoLock(SecurityOrigin* origin) { ASSERT(!m_databaseGuard.tryLock()); ASSERT(m_quotaMap); return m_quotaMap->get(origin); } unsigned long long DatabaseTracker::quotaForOrigin(SecurityOrigin* origin) { MutexLocker lockDatabase(m_databaseGuard); return quotaForOriginNoLock(origin); } void DatabaseTracker::setQuota(SecurityOrigin* origin, unsigned long long quota) { MutexLocker lockDatabase(m_databaseGuard); if (quotaForOriginNoLock(origin) == quota) return; openTrackerDatabase(true); if (!m_database.isOpen()) return; if (!m_quotaMap->contains(origin)) { SQLiteStatement statement(m_database, "INSERT INTO Origins VALUES (?, ?)"); if (statement.prepare() != SQLResultOk) { LOG_ERROR("Unable to establish origin %s in the tracker", origin->databaseIdentifier().ascii().data()); } else { statement.bindText(1, origin->databaseIdentifier()); statement.bindInt64(2, quota); if (statement.step() != SQLResultDone) LOG_ERROR("Unable to establish origin %s in the tracker", origin->databaseIdentifier().ascii().data()); } } else { SQLiteStatement statement(m_database, "UPDATE Origins SET quota=? WHERE origin=?"); bool error = statement.prepare() != SQLResultOk; if (!error) { statement.bindInt64(1, quota); statement.bindText(2, origin->databaseIdentifier()); error = !statement.executeCommand(); } if (error) #if OS(WINDOWS) LOG_ERROR("Failed to set quota %I64u in tracker database for origin %s", quota, origin->databaseIdentifier().ascii().data()); #else LOG_ERROR("Failed to set quota %llu in tracker database for origin %s", quota, origin->databaseIdentifier().ascii().data()); #endif } // FIXME: Is it really OK to update the quota in memory if we failed to update it on disk? m_quotaMap->set(origin->threadsafeCopy(), quota); if (m_client) m_client->dispatchDidModifyOrigin(origin); } bool DatabaseTracker::addDatabase(SecurityOrigin* origin, const String& name, const String& path) { ASSERT(!m_databaseGuard.tryLock()); ASSERT(m_quotaMap); openTrackerDatabase(true); if (!m_database.isOpen()) return false; // New database should never be added until the origin has been established ASSERT(hasEntryForOriginNoLock(origin)); SQLiteStatement statement(m_database, "INSERT INTO Databases (origin, name, path) VALUES (?, ?, ?);"); if (statement.prepare() != SQLResultOk) return false; statement.bindText(1, origin->databaseIdentifier()); statement.bindText(2, name); statement.bindText(3, path); if (!statement.executeCommand()) { LOG_ERROR("Failed to add database %s to origin %s: %s\n", name.ascii().data(), origin->databaseIdentifier().ascii().data(), m_database.lastErrorMsg()); return false; } if (m_client) m_client->dispatchDidModifyOrigin(origin); return true; } void DatabaseTracker::deleteAllDatabases() { Vector<RefPtr<SecurityOrigin> > originsCopy; origins(originsCopy); for (unsigned i = 0; i < originsCopy.size(); ++i) deleteOrigin(originsCopy[i].get()); } // It is the caller's responsibility to make sure that nobody is trying to create, delete, open, or close databases in this origin while the deletion is // taking place. bool DatabaseTracker::deleteOrigin(SecurityOrigin* origin) { Vector<String> databaseNames; { MutexLocker lockDatabase(m_databaseGuard); openTrackerDatabase(false); if (!m_database.isOpen()) return false; if (!databaseNamesForOriginNoLock(origin, databaseNames)) { LOG_ERROR("Unable to retrieve list of database names for origin %s", origin->databaseIdentifier().ascii().data()); return false; } if (!canDeleteOrigin(origin)) { LOG_ERROR("Tried to delete an origin (%s) while either creating database in it or already deleting it", origin->databaseIdentifier().ascii().data()); ASSERT(false); return false; } recordDeletingOrigin(origin); } // We drop the lock here because holding locks during a call to deleteDatabaseFile will deadlock. for (unsigned i = 0; i < databaseNames.size(); ++i) { if (!deleteDatabaseFile(origin, databaseNames[i])) { // Even if the file can't be deleted, we want to try and delete the rest, don't return early here. LOG_ERROR("Unable to delete file for database %s in origin %s", databaseNames[i].ascii().data(), origin->databaseIdentifier().ascii().data()); } } { MutexLocker lockDatabase(m_databaseGuard); doneDeletingOrigin(origin); SQLiteStatement statement(m_database, "DELETE FROM Databases WHERE origin=?"); if (statement.prepare() != SQLResultOk) { LOG_ERROR("Unable to prepare deletion of databases from origin %s from tracker", origin->databaseIdentifier().ascii().data()); return false; } statement.bindText(1, origin->databaseIdentifier()); if (!statement.executeCommand()) { LOG_ERROR("Unable to execute deletion of databases from origin %s from tracker", origin->databaseIdentifier().ascii().data()); return false; } SQLiteStatement originStatement(m_database, "DELETE FROM Origins WHERE origin=?"); if (originStatement.prepare() != SQLResultOk) { LOG_ERROR("Unable to prepare deletion of origin %s from tracker", origin->databaseIdentifier().ascii().data()); return false; } originStatement.bindText(1, origin->databaseIdentifier()); if (!originStatement.executeCommand()) { LOG_ERROR("Unable to execute deletion of databases from origin %s from tracker", origin->databaseIdentifier().ascii().data()); return false; } SQLiteFileSystem::deleteEmptyDatabaseDirectory(originPath(origin)); RefPtr<SecurityOrigin> originPossiblyLastReference = origin; m_quotaMap->remove(origin); { Locker<OriginQuotaManager> quotaManagerLocker(originQuotaManager()); originQuotaManager().removeOrigin(origin); } // If we removed the last origin, do some additional deletion. if (m_quotaMap->isEmpty()) { if (m_database.isOpen()) m_database.close(); SQLiteFileSystem::deleteDatabaseFile(trackerDatabasePath()); SQLiteFileSystem::deleteEmptyDatabaseDirectory(m_databaseDirectoryPath); } if (m_client) { m_client->dispatchDidModifyOrigin(origin); for (unsigned i = 0; i < databaseNames.size(); ++i) m_client->dispatchDidModifyDatabase(origin, databaseNames[i]); } } return true; } bool DatabaseTracker::canCreateDatabase(SecurityOrigin *origin, const String& name) { ASSERT(!m_databaseGuard.tryLock()); // Can't create a database while someone else is deleting it; there's a risk of leaving untracked database debris on the disk. return !deletingDatabase(origin, name) && !deletingOrigin(origin); } void DatabaseTracker::recordCreatingDatabase(SecurityOrigin *origin, const String& name) { ASSERT(!m_databaseGuard.tryLock()); NameCountMap* nameMap = m_beingCreated.get(origin); if (!nameMap) { nameMap = new NameCountMap(); m_beingCreated.set(origin->threadsafeCopy(), nameMap); } long count = nameMap->get(name); nameMap->set(name.threadsafeCopy(), count + 1); } void DatabaseTracker::doneCreatingDatabase(SecurityOrigin *origin, const String& name) { ASSERT(!m_databaseGuard.tryLock()); NameCountMap* nameMap = m_beingCreated.get(origin); if (nameMap) { long count = nameMap->get(name); ASSERT(count > 0); if (count <= 1) { nameMap->remove(name); if (nameMap->isEmpty()) { m_beingCreated.remove(origin); delete nameMap; } } else nameMap->set(name, count - 1); } else ASSERT(false); } bool DatabaseTracker::creatingDatabase(SecurityOrigin *origin, const String& name) { ASSERT(!m_databaseGuard.tryLock()); NameCountMap* nameMap = m_beingCreated.get(origin); return nameMap && nameMap->get(name); } bool DatabaseTracker::canDeleteDatabase(SecurityOrigin *origin, const String& name) { ASSERT(!m_databaseGuard.tryLock()); return !creatingDatabase(origin, name) && !deletingDatabase(origin, name); } void DatabaseTracker::recordDeletingDatabase(SecurityOrigin *origin, const String& name) { ASSERT(!m_databaseGuard.tryLock()); ASSERT(canDeleteDatabase(origin, name)); NameSet* nameSet = m_beingDeleted.get(origin); if (!nameSet) { nameSet = new NameSet(); m_beingDeleted.set(origin->threadsafeCopy(), nameSet); } ASSERT(!nameSet->contains(name)); nameSet->add(name.threadsafeCopy()); } void DatabaseTracker::doneDeletingDatabase(SecurityOrigin *origin, const String& name) { ASSERT(!m_databaseGuard.tryLock()); NameSet* nameSet = m_beingDeleted.get(origin); if (nameSet) { ASSERT(nameSet->contains(name)); nameSet->remove(name); if (nameSet->isEmpty()) { m_beingDeleted.remove(origin); delete nameSet; } } else { ASSERT(false); } } bool DatabaseTracker::deletingDatabase(SecurityOrigin *origin, const String& name) { ASSERT(!m_databaseGuard.tryLock()); NameSet* nameSet = m_beingDeleted.get(origin); return nameSet && nameSet->contains(name); } bool DatabaseTracker::canDeleteOrigin(SecurityOrigin *origin) { ASSERT(!m_databaseGuard.tryLock()); return !(deletingOrigin(origin) || m_beingCreated.get(origin)); } bool DatabaseTracker::deletingOrigin(SecurityOrigin *origin) { ASSERT(!m_databaseGuard.tryLock()); return m_originsBeingDeleted.contains(origin); } void DatabaseTracker::recordDeletingOrigin(SecurityOrigin *origin) { ASSERT(!m_databaseGuard.tryLock()); ASSERT(!deletingOrigin(origin)); m_originsBeingDeleted.add(origin->threadsafeCopy()); } void DatabaseTracker::doneDeletingOrigin(SecurityOrigin *origin) { ASSERT(!m_databaseGuard.tryLock()); ASSERT(deletingOrigin(origin)); m_originsBeingDeleted.remove(origin); } bool DatabaseTracker::deleteDatabase(SecurityOrigin* origin, const String& name) { { MutexLocker lockDatabase(m_databaseGuard); openTrackerDatabase(false); if (!m_database.isOpen()) return false; if (!canDeleteDatabase(origin, name)) { ASSERT(FALSE); return false; } recordDeletingDatabase(origin, name); } // We drop the lock here because holding locks during a call to deleteDatabaseFile will deadlock. if (!deleteDatabaseFile(origin, name)) { LOG_ERROR("Unable to delete file for database %s in origin %s", name.ascii().data(), origin->databaseIdentifier().ascii().data()); MutexLocker lockDatabase(m_databaseGuard); doneDeletingDatabase(origin, name); return false; } MutexLocker lockDatabase(m_databaseGuard); SQLiteStatement statement(m_database, "DELETE FROM Databases WHERE origin=? AND name=?"); if (statement.prepare() != SQLResultOk) { LOG_ERROR("Unable to prepare deletion of database %s from origin %s from tracker", name.ascii().data(), origin->databaseIdentifier().ascii().data()); doneDeletingDatabase(origin, name); return false; } statement.bindText(1, origin->databaseIdentifier()); statement.bindText(2, name); if (!statement.executeCommand()) { LOG_ERROR("Unable to execute deletion of database %s from origin %s from tracker", name.ascii().data(), origin->databaseIdentifier().ascii().data()); doneDeletingDatabase(origin, name); return false; } { Locker<OriginQuotaManager> quotaManagerLocker(originQuotaManager()); originQuotaManager().removeDatabase(origin, name); } if (m_client) { m_client->dispatchDidModifyOrigin(origin); m_client->dispatchDidModifyDatabase(origin, name); } doneDeletingDatabase(origin, name); return true; } // deleteDatabaseFile has to release locks between looking up the list of databases to close and closing them. While this is in progress, the caller // is responsible for making sure no new databases are opened in the file to be deleted. bool DatabaseTracker::deleteDatabaseFile(SecurityOrigin* origin, const String& name) { String fullPath = fullPathForDatabase(origin, name, false); if (fullPath.isEmpty()) return true; #ifndef NDEBUG { MutexLocker lockDatabase(m_databaseGuard); ASSERT(deletingDatabase(origin, name) || deletingOrigin(origin)); } #endif Vector<RefPtr<AbstractDatabase> > deletedDatabases; // Make sure not to hold the any locks when calling // Database::markAsDeletedAndClose(), since that can cause a deadlock // during the synchronous DatabaseThread call it triggers. { MutexLocker openDatabaseMapLock(m_openDatabaseMapGuard); if (m_openDatabaseMap) { // There are some open databases, lets check if they are for this origin. DatabaseNameMap* nameMap = m_openDatabaseMap->get(origin); if (nameMap && nameMap->size()) { // There are some open databases for this origin, let's check // if they are this database by name. DatabaseSet* databaseSet = nameMap->get(name); if (databaseSet && databaseSet->size()) { // We have some database open with this name. Mark them as deleted. DatabaseSet::const_iterator end = databaseSet->end(); for (DatabaseSet::const_iterator it = databaseSet->begin(); it != end; ++it) deletedDatabases.append(*it); } } } } for (unsigned i = 0; i < deletedDatabases.size(); ++i) deletedDatabases[i]->markAsDeletedAndClose(); return SQLiteFileSystem::deleteDatabaseFile(fullPath); } void DatabaseTracker::setClient(DatabaseTrackerClient* client) { m_client = client; } static Mutex& notificationMutex() { DEFINE_STATIC_LOCAL(Mutex, mutex, ()); return mutex; } typedef Vector<pair<RefPtr<SecurityOrigin>, String> > NotificationQueue; static NotificationQueue& notificationQueue() { DEFINE_STATIC_LOCAL(NotificationQueue, queue, ()); return queue; } void DatabaseTracker::scheduleNotifyDatabaseChanged(SecurityOrigin* origin, const String& name) { MutexLocker locker(notificationMutex()); notificationQueue().append(pair<RefPtr<SecurityOrigin>, String>(origin->threadsafeCopy(), name.crossThreadString())); scheduleForNotification(); } static bool notificationScheduled = false; void DatabaseTracker::scheduleForNotification() { ASSERT(!notificationMutex().tryLock()); if (!notificationScheduled) { callOnMainThread(DatabaseTracker::notifyDatabasesChanged, 0); notificationScheduled = true; } } void DatabaseTracker::notifyDatabasesChanged(void*) { // Note that if DatabaseTracker ever becomes non-singleton, we'll have to amend this notification // mechanism to include which tracker the notification goes out on as well. DatabaseTracker& theTracker(tracker()); NotificationQueue notifications; { MutexLocker locker(notificationMutex()); notifications.swap(notificationQueue()); notificationScheduled = false; } if (!theTracker.m_client) return; for (unsigned i = 0; i < notifications.size(); ++i) theTracker.m_client->dispatchDidModifyDatabase(notifications[i].first.get(), notifications[i].second); } } // namespace WebCore #endif