/* * Copyright (C) 2006, 2007, 2008 Apple Inc. All rights reserved. * Copyright (C) 2007 Justin Haygood (jhaygood@reaktix.com) * * 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. * * THIS SOFTWARE IS PROVIDED BY APPLE COMPUTER, INC. ``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 COMPUTER, INC. OR * 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 "SQLiteDatabase.h" #if ENABLE(DATABASE) #include "DatabaseAuthorizer.h" #include "Logging.h" #include "SQLiteFileSystem.h" #include "SQLiteStatement.h" #include #include #include #include namespace WebCore { const int SQLResultDone = SQLITE_DONE; const int SQLResultError = SQLITE_ERROR; const int SQLResultOk = SQLITE_OK; const int SQLResultRow = SQLITE_ROW; const int SQLResultSchema = SQLITE_SCHEMA; const int SQLResultFull = SQLITE_FULL; const int SQLResultInterrupt = SQLITE_INTERRUPT; SQLiteDatabase::SQLiteDatabase() : m_db(0) , m_pageSize(-1) , m_transactionInProgress(false) , m_sharable(false) , m_openingThread(0) , m_interrupted(false) { } SQLiteDatabase::~SQLiteDatabase() { close(); } bool SQLiteDatabase::open(const String& filename, bool forWebSQLDatabase) { close(); if (SQLiteFileSystem::openDatabase(filename, &m_db, forWebSQLDatabase) != SQLITE_OK) { LOG_ERROR("SQLite database failed to load from %s\nCause - %s", filename.ascii().data(), sqlite3_errmsg(m_db)); sqlite3_close(m_db); m_db = 0; return false; } if (sqlite3_extended_result_codes(m_db, 1) != SQLITE_OK) { LOG_ERROR("SQLite database error when enabling extended errors - %s", sqlite3_errmsg(m_db)); sqlite3_close(m_db); m_db = 0; return false; } if (isOpen()) m_openingThread = currentThread(); if (!SQLiteStatement(*this, "PRAGMA temp_store = MEMORY;").executeCommand()) LOG_ERROR("SQLite database could not set temp_store to memory"); return isOpen(); } void SQLiteDatabase::close() { if (m_db) { // FIXME: This is being called on themain thread during JS GC. // ASSERT(currentThread() == m_openingThread); sqlite3* db = m_db; { MutexLocker locker(m_databaseClosingMutex); m_db = 0; } sqlite3_close(db); } m_openingThread = 0; } void SQLiteDatabase::interrupt() { #if !ENABLE(SINGLE_THREADED) m_interrupted = true; while (!m_lockingMutex.tryLock()) { MutexLocker locker(m_databaseClosingMutex); if (!m_db) return; sqlite3_interrupt(m_db); yield(); } m_lockingMutex.unlock(); #endif } bool SQLiteDatabase::isInterrupted() { ASSERT(!m_lockingMutex.tryLock()); return m_interrupted; } void SQLiteDatabase::setFullsync(bool fsync) { if (fsync) executeCommand("PRAGMA fullfsync = 1;"); else executeCommand("PRAGMA fullfsync = 0;"); } int64_t SQLiteDatabase::maximumSize() { int64_t maxPageCount = 0; { MutexLocker locker(m_authorizerLock); enableAuthorizer(false); SQLiteStatement statement(*this, "PRAGMA max_page_count"); maxPageCount = statement.getColumnInt64(0); enableAuthorizer(true); } return maxPageCount * pageSize(); } void SQLiteDatabase::setMaximumSize(int64_t size) { if (size < 0) size = 0; int currentPageSize = pageSize(); ASSERT(currentPageSize); int64_t newMaxPageCount = currentPageSize ? size / currentPageSize : 0; MutexLocker locker(m_authorizerLock); enableAuthorizer(false); SQLiteStatement statement(*this, "PRAGMA max_page_count = " + String::number(newMaxPageCount)); statement.prepare(); if (statement.step() != SQLResultRow) #if OS(WINDOWS) LOG_ERROR("Failed to set maximum size of database to %I64i bytes", static_cast(size)); #else LOG_ERROR("Failed to set maximum size of database to %lli bytes", static_cast(size)); #endif enableAuthorizer(true); } int SQLiteDatabase::pageSize() { // Since the page size of a database is locked in at creation and therefore cannot be dynamic, // we can cache the value for future use if (m_pageSize == -1) { MutexLocker locker(m_authorizerLock); enableAuthorizer(false); SQLiteStatement statement(*this, "PRAGMA page_size"); m_pageSize = statement.getColumnInt(0); enableAuthorizer(true); } return m_pageSize; } int64_t SQLiteDatabase::freeSpaceSize() { int64_t freelistCount = 0; { MutexLocker locker(m_authorizerLock); enableAuthorizer(false); // Note: freelist_count was added in SQLite 3.4.1. SQLiteStatement statement(*this, "PRAGMA freelist_count"); freelistCount = statement.getColumnInt64(0); enableAuthorizer(true); } return freelistCount * pageSize(); } int64_t SQLiteDatabase::totalSize() { int64_t pageCount = 0; { MutexLocker locker(m_authorizerLock); enableAuthorizer(false); SQLiteStatement statement(*this, "PRAGMA page_count"); pageCount = statement.getColumnInt64(0); enableAuthorizer(true); } return pageCount * pageSize(); } void SQLiteDatabase::setSynchronous(SynchronousPragma sync) { executeCommand(makeString("PRAGMA synchronous = ", String::number(sync))); } void SQLiteDatabase::setBusyTimeout(int ms) { if (m_db) sqlite3_busy_timeout(m_db, ms); else LOG(SQLDatabase, "BusyTimeout set on non-open database"); } void SQLiteDatabase::setBusyHandler(int(*handler)(void*, int)) { if (m_db) sqlite3_busy_handler(m_db, handler, NULL); else LOG(SQLDatabase, "Busy handler set on non-open database"); } bool SQLiteDatabase::executeCommand(const String& sql) { return SQLiteStatement(*this, sql).executeCommand(); } bool SQLiteDatabase::returnsAtLeastOneResult(const String& sql) { return SQLiteStatement(*this, sql).returnsAtLeastOneResult(); } bool SQLiteDatabase::tableExists(const String& tablename) { if (!isOpen()) return false; String statement = "SELECT name FROM sqlite_master WHERE type = 'table' AND name = '" + tablename + "';"; SQLiteStatement sql(*this, statement); sql.prepare(); return sql.step() == SQLITE_ROW; } void SQLiteDatabase::clearAllTables() { String query = "SELECT name FROM sqlite_master WHERE type='table';"; Vector tables; if (!SQLiteStatement(*this, query).returnTextResults(0, tables)) { LOG(SQLDatabase, "Unable to retrieve list of tables from database"); return; } for (Vector::iterator table = tables.begin(); table != tables.end(); ++table ) { if (*table == "sqlite_sequence") continue; if (!executeCommand("DROP TABLE " + *table)) LOG(SQLDatabase, "Unable to drop table %s", (*table).ascii().data()); } } void SQLiteDatabase::runVacuumCommand() { if (!executeCommand("VACUUM;")) LOG(SQLDatabase, "Unable to vacuum database - %s", lastErrorMsg()); } void SQLiteDatabase::runIncrementalVacuumCommand() { MutexLocker locker(m_authorizerLock); enableAuthorizer(false); if (!executeCommand("PRAGMA incremental_vacuum")) LOG(SQLDatabase, "Unable to run incremental vacuum - %s", lastErrorMsg()); enableAuthorizer(true); } int64_t SQLiteDatabase::lastInsertRowID() { if (!m_db) return 0; return sqlite3_last_insert_rowid(m_db); } int SQLiteDatabase::lastChanges() { if (!m_db) return 0; return sqlite3_changes(m_db); } int SQLiteDatabase::lastError() { return m_db ? sqlite3_errcode(m_db) : SQLITE_ERROR; } const char* SQLiteDatabase::lastErrorMsg() { return sqlite3_errmsg(m_db); } #ifndef NDEBUG void SQLiteDatabase::disableThreadingChecks() { // This doesn't guarantee that SQList was compiled with -DTHREADSAFE, or that you haven't turned off the mutexes. #if SQLITE_VERSION_NUMBER >= 3003001 m_sharable = true; #else ASSERT(0); // Your SQLite doesn't support sharing handles across threads. #endif } #endif int SQLiteDatabase::authorizerFunction(void* userData, int actionCode, const char* parameter1, const char* parameter2, const char* /*databaseName*/, const char* /*trigger_or_view*/) { DatabaseAuthorizer* auth = static_cast(userData); ASSERT(auth); switch (actionCode) { case SQLITE_CREATE_INDEX: return auth->createIndex(parameter1, parameter2); case SQLITE_CREATE_TABLE: return auth->createTable(parameter1); case SQLITE_CREATE_TEMP_INDEX: return auth->createTempIndex(parameter1, parameter2); case SQLITE_CREATE_TEMP_TABLE: return auth->createTempTable(parameter1); case SQLITE_CREATE_TEMP_TRIGGER: return auth->createTempTrigger(parameter1, parameter2); case SQLITE_CREATE_TEMP_VIEW: return auth->createTempView(parameter1); case SQLITE_CREATE_TRIGGER: return auth->createTrigger(parameter1, parameter2); case SQLITE_CREATE_VIEW: return auth->createView(parameter1); case SQLITE_DELETE: return auth->allowDelete(parameter1); case SQLITE_DROP_INDEX: return auth->dropIndex(parameter1, parameter2); case SQLITE_DROP_TABLE: return auth->dropTable(parameter1); case SQLITE_DROP_TEMP_INDEX: return auth->dropTempIndex(parameter1, parameter2); case SQLITE_DROP_TEMP_TABLE: return auth->dropTempTable(parameter1); case SQLITE_DROP_TEMP_TRIGGER: return auth->dropTempTrigger(parameter1, parameter2); case SQLITE_DROP_TEMP_VIEW: return auth->dropTempView(parameter1); case SQLITE_DROP_TRIGGER: return auth->dropTrigger(parameter1, parameter2); case SQLITE_DROP_VIEW: return auth->dropView(parameter1); case SQLITE_INSERT: return auth->allowInsert(parameter1); case SQLITE_PRAGMA: return auth->allowPragma(parameter1, parameter2); case SQLITE_READ: return auth->allowRead(parameter1, parameter2); case SQLITE_SELECT: return auth->allowSelect(); case SQLITE_TRANSACTION: return auth->allowTransaction(); case SQLITE_UPDATE: return auth->allowUpdate(parameter1, parameter2); case SQLITE_ATTACH: return auth->allowAttach(parameter1); case SQLITE_DETACH: return auth->allowDetach(parameter1); case SQLITE_ALTER_TABLE: return auth->allowAlterTable(parameter1, parameter2); case SQLITE_REINDEX: return auth->allowReindex(parameter1); #if SQLITE_VERSION_NUMBER >= 3003013 case SQLITE_ANALYZE: return auth->allowAnalyze(parameter1); case SQLITE_CREATE_VTABLE: return auth->createVTable(parameter1, parameter2); case SQLITE_DROP_VTABLE: return auth->dropVTable(parameter1, parameter2); case SQLITE_FUNCTION: return auth->allowFunction(parameter2); #endif default: ASSERT_NOT_REACHED(); return SQLAuthDeny; } } void SQLiteDatabase::setAuthorizer(PassRefPtr auth) { if (!m_db) { LOG_ERROR("Attempt to set an authorizer on a non-open SQL database"); ASSERT_NOT_REACHED(); return; } MutexLocker locker(m_authorizerLock); m_authorizer = auth; enableAuthorizer(true); } void SQLiteDatabase::enableAuthorizer(bool enable) { if (m_authorizer && enable) sqlite3_set_authorizer(m_db, SQLiteDatabase::authorizerFunction, m_authorizer.get()); else sqlite3_set_authorizer(m_db, NULL, 0); } bool SQLiteDatabase::isAutoCommitOn() const { return sqlite3_get_autocommit(m_db); } bool SQLiteDatabase::turnOnIncrementalAutoVacuum() { SQLiteStatement statement(*this, "PRAGMA auto_vacuum"); int autoVacuumMode = statement.getColumnInt(0); int error = lastError(); // Check if we got an error while trying to get the value of the auto_vacuum flag. // If we got a SQLITE_BUSY error, then there's probably another transaction in // progress on this database. In this case, keep the current value of the // auto_vacuum flag and try to set it to INCREMENTAL the next time we open this // database. If the error is not SQLITE_BUSY, then we probably ran into a more // serious problem and should return false (to log an error message). if (error != SQLITE_ROW) return false; switch (autoVacuumMode) { case AutoVacuumIncremental: return true; case AutoVacuumFull: return executeCommand("PRAGMA auto_vacuum = 2"); case AutoVacuumNone: default: if (!executeCommand("PRAGMA auto_vacuum = 2")) return false; runVacuumCommand(); error = lastError(); return (error == SQLITE_OK); } } } // namespace WebCore #endif // ENABLE(DATABASE)