/* * Copyright (C) 2007 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 "DatabaseAuthorizer.h" #include "PlatformString.h" #include namespace WebCore { PassRefPtr DatabaseAuthorizer::create(const String& databaseInfoTableName) { return adoptRef(new DatabaseAuthorizer(databaseInfoTableName)); } DatabaseAuthorizer::DatabaseAuthorizer(const String& databaseInfoTableName) : m_securityEnabled(false) , m_databaseInfoTableName(databaseInfoTableName) { reset(); addWhitelistedFunctions(); } void DatabaseAuthorizer::reset() { m_lastActionWasInsert = false; m_lastActionChangedDatabase = false; m_readOnly = false; } void DatabaseAuthorizer::resetDeletes() { m_hadDeletes = false; } void DatabaseAuthorizer::addWhitelistedFunctions() { // SQLite functions used to help implement some operations // ALTER TABLE helpers m_whitelistedFunctions.add("sqlite_rename_table"); m_whitelistedFunctions.add("sqlite_rename_trigger"); // GLOB helpers m_whitelistedFunctions.add("glob"); // SQLite core functions m_whitelistedFunctions.add("abs"); m_whitelistedFunctions.add("changes"); m_whitelistedFunctions.add("coalesce"); m_whitelistedFunctions.add("glob"); m_whitelistedFunctions.add("ifnull"); m_whitelistedFunctions.add("hex"); m_whitelistedFunctions.add("last_insert_rowid"); m_whitelistedFunctions.add("length"); m_whitelistedFunctions.add("like"); m_whitelistedFunctions.add("lower"); m_whitelistedFunctions.add("ltrim"); m_whitelistedFunctions.add("max"); m_whitelistedFunctions.add("min"); m_whitelistedFunctions.add("nullif"); m_whitelistedFunctions.add("quote"); m_whitelistedFunctions.add("replace"); m_whitelistedFunctions.add("round"); m_whitelistedFunctions.add("rtrim"); m_whitelistedFunctions.add("soundex"); m_whitelistedFunctions.add("sqlite_source_id"); m_whitelistedFunctions.add("sqlite_version"); m_whitelistedFunctions.add("substr"); m_whitelistedFunctions.add("total_changes"); m_whitelistedFunctions.add("trim"); m_whitelistedFunctions.add("typeof"); m_whitelistedFunctions.add("upper"); m_whitelistedFunctions.add("zeroblob"); // SQLite date and time functions m_whitelistedFunctions.add("date"); m_whitelistedFunctions.add("time"); m_whitelistedFunctions.add("datetime"); m_whitelistedFunctions.add("julianday"); m_whitelistedFunctions.add("strftime"); // SQLite aggregate functions // max() and min() are already in the list m_whitelistedFunctions.add("avg"); m_whitelistedFunctions.add("count"); m_whitelistedFunctions.add("group_concat"); m_whitelistedFunctions.add("sum"); m_whitelistedFunctions.add("total"); // SQLite FTS functions m_whitelistedFunctions.add("match"); m_whitelistedFunctions.add("snippet"); m_whitelistedFunctions.add("offsets"); m_whitelistedFunctions.add("optimize"); // SQLite ICU functions // like(), lower() and upper() are already in the list m_whitelistedFunctions.add("regexp"); } int DatabaseAuthorizer::createTable(const String& tableName) { if (m_readOnly && m_securityEnabled) return SQLAuthDeny; m_lastActionChangedDatabase = true; return denyBasedOnTableName(tableName); } int DatabaseAuthorizer::createTempTable(const String& tableName) { // SQLITE_CREATE_TEMP_TABLE results in a UPDATE operation, which is not // allowed in read-only transactions or private browsing, so we might as // well disallow SQLITE_CREATE_TEMP_TABLE in these cases if (m_readOnly && m_securityEnabled) return SQLAuthDeny; return denyBasedOnTableName(tableName); } int DatabaseAuthorizer::dropTable(const String& tableName) { if (m_readOnly && m_securityEnabled) return SQLAuthDeny; return updateDeletesBasedOnTableName(tableName); } int DatabaseAuthorizer::dropTempTable(const String& tableName) { // SQLITE_DROP_TEMP_TABLE results in a DELETE operation, which is not // allowed in read-only transactions or private browsing, so we might as // well disallow SQLITE_DROP_TEMP_TABLE in these cases if (m_readOnly && m_securityEnabled) return SQLAuthDeny; return updateDeletesBasedOnTableName(tableName); } int DatabaseAuthorizer::allowAlterTable(const String&, const String& tableName) { if (m_readOnly && m_securityEnabled) return SQLAuthDeny; m_lastActionChangedDatabase = true; return denyBasedOnTableName(tableName); } int DatabaseAuthorizer::createIndex(const String&, const String& tableName) { if (m_readOnly && m_securityEnabled) return SQLAuthDeny; m_lastActionChangedDatabase = true; return denyBasedOnTableName(tableName); } int DatabaseAuthorizer::createTempIndex(const String&, const String& tableName) { // SQLITE_CREATE_TEMP_INDEX should result in a UPDATE or INSERT operation, // which is not allowed in read-only transactions or private browsing, // so we might as well disallow SQLITE_CREATE_TEMP_INDEX in these cases if (m_readOnly && m_securityEnabled) return SQLAuthDeny; return denyBasedOnTableName(tableName); } int DatabaseAuthorizer::dropIndex(const String&, const String& tableName) { if (m_readOnly && m_securityEnabled) return SQLAuthDeny; return updateDeletesBasedOnTableName(tableName); } int DatabaseAuthorizer::dropTempIndex(const String&, const String& tableName) { // SQLITE_DROP_TEMP_INDEX should result in a DELETE operation, which is // not allowed in read-only transactions or private browsing, so we might // as well disallow SQLITE_DROP_TEMP_INDEX in these cases if (m_readOnly && m_securityEnabled) return SQLAuthDeny; return updateDeletesBasedOnTableName(tableName); } int DatabaseAuthorizer::createTrigger(const String&, const String& tableName) { if (m_readOnly && m_securityEnabled) return SQLAuthDeny; m_lastActionChangedDatabase = true; return denyBasedOnTableName(tableName); } int DatabaseAuthorizer::createTempTrigger(const String&, const String& tableName) { // SQLITE_CREATE_TEMP_TRIGGER results in a INSERT operation, which is not // allowed in read-only transactions or private browsing, so we might as // well disallow SQLITE_CREATE_TEMP_TRIGGER in these cases if (m_readOnly && m_securityEnabled) return SQLAuthDeny; return denyBasedOnTableName(tableName); } int DatabaseAuthorizer::dropTrigger(const String&, const String& tableName) { if (m_readOnly && m_securityEnabled) return SQLAuthDeny; return updateDeletesBasedOnTableName(tableName); } int DatabaseAuthorizer::dropTempTrigger(const String&, const String& tableName) { // SQLITE_DROP_TEMP_TRIGGER results in a DELETE operation, which is not // allowed in read-only transactions or private browsing, so we might as // well disallow SQLITE_DROP_TEMP_TRIGGER in these cases if (m_readOnly && m_securityEnabled) return SQLAuthDeny; return updateDeletesBasedOnTableName(tableName); } int DatabaseAuthorizer::createView(const String&) { return (m_readOnly && m_securityEnabled ? SQLAuthDeny : SQLAuthAllow); } int DatabaseAuthorizer::createTempView(const String&) { // SQLITE_CREATE_TEMP_VIEW results in a UPDATE operation, which is not // allowed in read-only transactions or private browsing, so we might as // well disallow SQLITE_CREATE_TEMP_VIEW in these cases return (m_readOnly && m_securityEnabled ? SQLAuthDeny : SQLAuthAllow); } int DatabaseAuthorizer::dropView(const String&) { if (m_readOnly && m_securityEnabled) return SQLAuthDeny; m_hadDeletes = true; return SQLAuthAllow; } int DatabaseAuthorizer::dropTempView(const String&) { // SQLITE_DROP_TEMP_VIEW results in a DELETE operation, which is not // allowed in read-only transactions or private browsing, so we might as // well disallow SQLITE_DROP_TEMP_VIEW in these cases if (m_readOnly && m_securityEnabled) return SQLAuthDeny; m_hadDeletes = true; return SQLAuthAllow; } int DatabaseAuthorizer::createVTable(const String& tableName, const String& moduleName) { if (m_readOnly && m_securityEnabled) return SQLAuthDeny; // Allow only the FTS3 extension if (!equalIgnoringCase(moduleName, "fts3")) return SQLAuthDeny; m_lastActionChangedDatabase = true; return denyBasedOnTableName(tableName); } int DatabaseAuthorizer::dropVTable(const String& tableName, const String& moduleName) { if (m_readOnly && m_securityEnabled) return SQLAuthDeny; // Allow only the FTS3 extension if (!equalIgnoringCase(moduleName, "fts3")) return SQLAuthDeny; return updateDeletesBasedOnTableName(tableName); } int DatabaseAuthorizer::allowDelete(const String& tableName) { if (m_readOnly && m_securityEnabled) return SQLAuthDeny; return updateDeletesBasedOnTableName(tableName); } int DatabaseAuthorizer::allowInsert(const String& tableName) { if (m_readOnly && m_securityEnabled) return SQLAuthDeny; m_lastActionChangedDatabase = true; m_lastActionWasInsert = true; return denyBasedOnTableName(tableName); } int DatabaseAuthorizer::allowUpdate(const String& tableName, const String&) { if (m_readOnly && m_securityEnabled) return SQLAuthDeny; m_lastActionChangedDatabase = true; return denyBasedOnTableName(tableName); } int DatabaseAuthorizer::allowTransaction() { return m_securityEnabled ? SQLAuthDeny : SQLAuthAllow; } int DatabaseAuthorizer::allowRead(const String& tableName, const String&) { return denyBasedOnTableName(tableName); } int DatabaseAuthorizer::allowReindex(const String&) { return (m_readOnly && m_securityEnabled ? SQLAuthDeny : SQLAuthAllow); } int DatabaseAuthorizer::allowAnalyze(const String& tableName) { return denyBasedOnTableName(tableName); } int DatabaseAuthorizer::allowPragma(const String&, const String&) { return m_securityEnabled ? SQLAuthDeny : SQLAuthAllow; } int DatabaseAuthorizer::allowAttach(const String&) { return m_securityEnabled ? SQLAuthDeny : SQLAuthAllow; } int DatabaseAuthorizer::allowDetach(const String&) { return m_securityEnabled ? SQLAuthDeny : SQLAuthAllow; } int DatabaseAuthorizer::allowFunction(const String& functionName) { if (m_securityEnabled && !m_whitelistedFunctions.contains(functionName)) return SQLAuthDeny; return SQLAuthAllow; } void DatabaseAuthorizer::disable() { m_securityEnabled = false; } void DatabaseAuthorizer::enable() { m_securityEnabled = true; } void DatabaseAuthorizer::setReadOnly() { m_readOnly = true; } int DatabaseAuthorizer::denyBasedOnTableName(const String& tableName) const { if (!m_securityEnabled) return SQLAuthAllow; // Sadly, normal creates and drops end up affecting sqlite_master in an authorizer callback, so // it will be tough to enforce all of the following policies //if (equalIgnoringCase(tableName, "sqlite_master") || equalIgnoringCase(tableName, "sqlite_temp_master") || // equalIgnoringCase(tableName, "sqlite_sequence") || equalIgnoringCase(tableName, Database::databaseInfoTableName())) // return SQLAuthDeny; if (equalIgnoringCase(tableName, m_databaseInfoTableName)) return SQLAuthDeny; return SQLAuthAllow; } int DatabaseAuthorizer::updateDeletesBasedOnTableName(const String& tableName) { int allow = denyBasedOnTableName(tableName); if (allow) m_hadDeletes = true; return allow; } } // namespace WebCore