/* * Copyright (C) 2004-2014 L2J Server * * This file is part of L2J Server. * * L2J Server is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * L2J Server is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ package com.l2jserver; import java.sql.Connection; import java.sql.SQLException; import java.util.concurrent.Executors; import java.util.concurrent.ScheduledExecutorService; import java.util.concurrent.TimeUnit; import java.util.logging.Level; import java.util.logging.Logger; import com.l2jserver.gameserver.ThreadPoolManager; import com.mchange.v2.c3p0.ComboPooledDataSource; /** * This class manages the database connections. */ public class L2DatabaseFactory { private static final Logger _log = Logger.getLogger(L2DatabaseFactory.class.getName()); private static L2DatabaseFactory _instance; private static volatile ScheduledExecutorService _executor; private ComboPooledDataSource _source; /** * Instantiates a new l2 database factory. * @throws SQLException the SQL exception */ public L2DatabaseFactory() throws SQLException { try { if (Config.DATABASE_MAX_CONNECTIONS < 2) { Config.DATABASE_MAX_CONNECTIONS = 2; _log.warning("A minimum of " + Config.DATABASE_MAX_CONNECTIONS + " db connections are required."); } _source = new ComboPooledDataSource(); _source.setAutoCommitOnClose(true); _source.setInitialPoolSize(10); _source.setMinPoolSize(10); _source.setMaxPoolSize(Math.max(10, Config.DATABASE_MAX_CONNECTIONS)); _source.setAcquireRetryAttempts(0); // try to obtain connections indefinitely (0 = never quit) _source.setAcquireRetryDelay(500); // 500 milliseconds wait before try to acquire connection again _source.setCheckoutTimeout(0); // 0 = wait indefinitely for new connection // if pool is exhausted _source.setAcquireIncrement(5); // if pool is exhausted, get 5 more connections at a time // cause there is a "long" delay on acquire connection // so taking more than one connection at once will make connection pooling // more effective. // this "connection_test_table" is automatically created if not already there _source.setAutomaticTestTable("connection_test_table"); _source.setTestConnectionOnCheckin(false); // testing OnCheckin used with IdleConnectionTestPeriod is faster than testing on checkout _source.setIdleConnectionTestPeriod(3600); // test idle connection every 60 sec _source.setMaxIdleTime(Config.DATABASE_MAX_IDLE_TIME); // 0 = idle connections never expire // *THANKS* to connection testing configured above // but I prefer to disconnect all connections not used // for more than 1 hour // enables statement caching, there is a "semi-bug" in c3p0 0.9.0 but in 0.9.0.2 and later it's fixed _source.setMaxStatementsPerConnection(100); _source.setBreakAfterAcquireFailure(false); // never fail if any way possible // setting this to true will make // c3p0 "crash" and refuse to work // till restart thus making acquire // errors "FATAL" ... we don't want that // it should be possible to recover _source.setDriverClass(Config.DATABASE_DRIVER); _source.setJdbcUrl(Config.DATABASE_URL); _source.setUser(Config.DATABASE_LOGIN); _source.setPassword(Config.DATABASE_PASSWORD); /* Test the connection */ _source.getConnection().close(); if (Config.DEBUG) { _log.fine("Database Connection Working"); } } catch (SQLException x) { if (Config.DEBUG) { _log.fine("Database Connection FAILED"); } // re-throw the exception throw x; } catch (Exception e) { if (Config.DEBUG) { _log.fine("Database Connection FAILED"); } throw new SQLException("Could not init DB connection:" + e.getMessage()); } } /** * Shutdown. */ public void shutdown() { try { _source.close(); } catch (Exception e) { _log.log(Level.INFO, "", e); } try { _source = null; } catch (Exception e) { _log.log(Level.INFO, "", e); } } /** * Gets the single instance of L2DatabaseFactory. * @return single instance of L2DatabaseFactory * @throws SQLException the SQL exception */ public static L2DatabaseFactory getInstance() throws SQLException { synchronized (L2DatabaseFactory.class) { if (_instance == null) { _instance = new L2DatabaseFactory(); } } return _instance; } /** * Gets the connection. * @return the connection */ public Connection getConnection() { Connection con = null; while (con == null) { try { con = _source.getConnection(); if (Server.serverMode == Server.MODE_GAMESERVER) { ThreadPoolManager.getInstance().scheduleGeneral(new ConnectionCloser(con, new RuntimeException()), Config.CONNECTION_CLOSE_TIME); } else { getExecutor().schedule(new ConnectionCloser(con, new RuntimeException()), Config.CONNECTION_CLOSE_TIME, TimeUnit.MILLISECONDS); } } catch (SQLException e) { _log.log(Level.WARNING, "L2DatabaseFactory: getConnection() failed, trying again " + e.getMessage(), e); } } return con; } /** * The Class ConnectionCloser. */ private static class ConnectionCloser implements Runnable { private static final Logger _log = Logger.getLogger(ConnectionCloser.class.getName()); /** The connection. */ private final Connection c; /** The exception. */ private final RuntimeException exp; /** * Instantiates a new connection closer. * @param con the con * @param e the e */ public ConnectionCloser(Connection con, RuntimeException e) { c = con; exp = e; } @Override public void run() { try { if (!c.isClosed()) { _log.log(Level.WARNING, "Unclosed connection! Trace: " + exp.getStackTrace()[1], exp); } } catch (SQLException e) { _log.log(Level.WARNING, "", e); } } } /** * Gets the executor. * @return the executor */ private static ScheduledExecutorService getExecutor() { if (_executor == null) { synchronized (L2DatabaseFactory.class) { if (_executor == null) { _executor = Executors.newSingleThreadScheduledExecutor(); } } } return _executor; } /** * Gets the busy connection count. * @return the busy connection count * @throws SQLException the SQL exception */ public int getBusyConnectionCount() throws SQLException { return _source.getNumBusyConnectionsDefaultUser(); } /** * Gets the idle connection count. * @return the idle connection count * @throws SQLException the SQL exception */ public int getIdleConnectionCount() throws SQLException { return _source.getNumIdleConnectionsDefaultUser(); } }