因为工作需要要使用到连接池,所以拜读了互联网上众多前辈的文章,学了不少经验,这里想做一个小结,加上自己的想法和在一起,希望能给大家一些帮助。
目的:
解决方案:
- 不过多的限制用户的使用,既不能太多的要求用户按规定的方法得到和使用数据库连
目前的很多方法都是要求用户只能按规定方法使用连接,不能使用直接关闭数据连接的方法。解决办法就是使用代理类,来中间解决。可以参考http://www-900.ibm.com/developerWorks/cn/java/l-connpoolproxy/index.shtml
因为针对数据库连接创建的资源,如果不能及时的释放,就会影响下一次数据连接的使用。例如在sql 2k中,一个连接不同创建多条Statement否则操作时会有数据连接占线的异常,所以必须在归还连接以后释放这些资源。
//判断是使用了createStatement语句 if (CREATESTATE.equals(method.getName())) { obj = method.invoke(conn, args); statRef = (Statement)obj;//记录语句 return obj; }
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//判断是否调用了close的方法,如果调用close方法则把连接置为无用状态 if(CLOSE.equals(method.getName())) { //设置不使用标志 setIsFree(false); //检查是否有后续工作,清除该连接无用资源 if (statRef != null) statRef.close(); if (prestatRef != null) prestatRef.close(); return null; }
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一个考虑就是不能让用户随便使用代理类,而只能自己使用,一个就是用内部私有类,一个就是使用只有指定类才能调用的标志。我的实现就是采用后者。
/** * 创建连接的工厂,只能让工厂调用 * @param factory 要调用工厂,并且一定被正确初始化 * @param param 连接参数 * @return 连接 */ static public _Connection getConnection(ConnectionFactory factory, ConnectionParam param) { if (factory.isCreate())//判断是否正确初始化的工厂 { _Connection _conn = new _Connection(param); return _conn; } else return null; }
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使用静态方法创建工厂,然后来得到连接,使用完全和普通的Connection方法一样,没有限制。同时为了方便,设置了连接参数类和工厂参数类。
ConnectionParam param = new ConnectionParam(driver,url,user,password); ConnectionFactory cf = null;//new ConnectionFactory(param, new FactoryParam()); try{ cf = new ConnectionFactory(param,new FactoryParam()); Connection conn1 = cf.getFreeConnection(); Connection conn2 = cf.getFreeConnection(); Connection conn3 = cf.getFreeConnection(); Statement stmt = conn1.createStatement(); ResultSet rs = stmt.executeQuery("select * from requests"); if (rs.next()) { System.out.println("conn1 y"); } else { System.out.println("conn1 n"); } stmt.close(); conn1.close();
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- 为了实现连接池的正常运作,使用了单态模
/** * 使用指定的参数创建一个连接池 */ public ConnectionFactory(ConnectionParam param, FactoryParam fparam) throws SQLException { //不允许参数为空 if ((param == null)||(fparam == null)) throw new SQLException("ConnectionParam和FactoryParam不能为空"); if (m_instance == null) { synchronized(ConnectionFactory.class){ if (m_instance == null) { //new instance //参数定制 m_instance = new ConnectionFactory(); m_instance.connparam = param; m_instance.MaxConnectionCount = fparam.getMaxConn(); m_instance.MinConnectionCount = fparam.getMinConn(); m_instance.ManageType = fparam.getType(); m_instance.isflag = true; //初始化,创建MinConnectionCount个连接 System.out.println("connection factory 创建!"); try{ for (int i=0; i < m_instance.MinConnectionCount; i++) { _Connection _conn = _Connection.getConnection(m_instance, m_instance.connparam); if (_conn == null) continue; System.out.println("connection创建"); m_instance.FreeConnectionPool.add(_conn);//加入空闲连接池 m_instance.current_conn_count ++; //标志是否支持事务 m_instance.supportTransaction = _conn.isSupportTransaction(); } } catch(Exception e) { e.printStackTrace(); } //根据策略判断是否需要查询 if (m_instance.ManageType != 0) { Thread t = new Thread(new FactoryMangeThread(m_instance)); t.start(); } } } } }
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对于连接池的管理,我是设想使用静态管理和动态管理两种策略,设置了最大限制,和恒定的连接数。使用了2个池,一个空闲池,一个使用池。静态就是使用的时候发现空闲连接不够再去检查。动态就是使用了一个线程定时检查。
//根据策略判断是否需要查询 if (m_instance.ManageType != 0) { Thread t = new Thread(new FactoryMangeThread(m_instance)); t.start(); }
//连接池调度线程 public class FactoryMangeThread implements Runnable { ConnectionFactory cf = null; long delay = 1000; public FactoryMangeThread(ConnectionFactory obj) { cf = obj; } /* (non-Javadoc) * @see java.lang.Runnable#run() */ public void run() { while(true){ try{ Thread.sleep(delay); } catch(InterruptedException e){} System.out.println("eeeee"); //判断是否已经关闭了工厂,那就退出监听 if (cf.isCreate()) cf.schedule(); else System.exit(1); } } }
| 最后给出完整的源代码:
_Connectio.java
package scut.ailab.connectionpool; import java.lang.reflect.*; import java.sql.*; /** * @author youyongming * 定义数据库连接的代理类 */ public class _Connection implements InvocationHandler { //定义连接 private Connection conn = null; //定义监控连接创建的语句 private Statement statRef = null; private PreparedStatement prestatRef = null; //是否支持事务标志 private boolean supportTransaction = false; //数据库的忙状态 private boolean isFree = false; //最后一次访问时间 long lastAccessTime = 0; //定义要接管的函数的名字 String CREATESTATE = "createStatement"; String CLOSE = "close"; String PREPARESTATEMENT = "prepareStatement"; String COMMIT = "commit"; String ROLLBACK = "rollback"; /** * 构造函数,采用私有,防止被直接创建 * @param param 连接参数 */ private _Connection(ConnectionParam param) { //记录日至 try{ //创建连接 Class.forName(param.getDriver()).newInstance(); conn = DriverManager.getConnection(param.getUrl(),param.getUser(), param.getPassword()); DatabaseMetaData dm = null; dm = conn.getMetaData(); //判断是否支持事务 supportTransaction = dm.supportsTransactions(); } catch(Exception e) { e.printStackTrace(); } } /* (non-Javadoc) * @see java.lang.reflect.InvocationHandler#invoke *(java.lang.Object, java.lang.reflect.Method, java.lang.Object[]) */ public Object invoke(Object proxy, Method method, Object[] args) throws Throwable { Object obj = null; //判断是否调用了close的方法,如果调用close方法则把连接置为无用状态 if(CLOSE.equals(method.getName())) { //设置不使用标志 setIsFree(false); //检查是否有后续工作,清除该连接无用资源 if (statRef != null) statRef.close(); if (prestatRef != null) prestatRef.close(); return null; } //判断是使用了createStatement语句 if (CREATESTATE.equals(method.getName())) { obj = method.invoke(conn, args); statRef = (Statement)obj;//记录语句 return obj; } //判断是使用了prepareStatement语句 if (PREPARESTATEMENT.equals(method.getName())) { obj = method.invoke(conn, args); prestatRef = (PreparedStatement)obj; return obj; } //如果不支持事务,就不执行该事物的代码 if ((COMMIT.equals(method.getName())||ROLLBACK.equals(method.getName())) && (!isSupportTransaction())) return null; obj = method.invoke(conn, args); //设置最后一次访问时间,以便及时清除超时的连接 lastAccessTime = System.currentTimeMillis(); return obj; }
/** * 创建连接的工厂,只能让工厂调用 * @param factory 要调用工厂,并且一定被正确初始化 * @param param 连接参数 * @return 连接 */ static public _Connection getConnection(ConnectionFactory factory, ConnectionParam param) { if (factory.isCreate())//判断是否正确初始化的工厂 { _Connection _conn = new _Connection(param); return _conn; } else return null; } public Connection getFreeConnection() { //返回数据库连接conn的接管类,以便截住close方法 Connection conn2 = (Connection)Proxy.newProxyInstance( conn.getClass().getClassLoader(), conn.getClass().getInterfaces(),this); return conn2; } /** * 该方法真正的关闭了数据库的连接 * @throws SQLException */ void close() throws SQLException{ //由于类属性conn是没有被接管的连接,因此一旦调用close方法后就直接关闭连接 conn.close(); } public void setIsFree(boolean value) { isFree = value; } public boolean isFree() { return isFree; } /** * 判断是否支持事务 * @return boolean */ public boolean isSupportTransaction() { return supportTransaction; } }
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ConnectionFactory.java
package scut.ailab.connectionpool; /** * @author youyongming * */ import java.util.LinkedHashSet; import java.sql.*; import java.util.Iterator; public class ConnectionFactory { private static ConnectionFactory m_instance = null; //在使用的连接池 private LinkedHashSet ConnectionPool = null; //空闲连接池 private LinkedHashSet FreeConnectionPool = null; //最大连接数 private int MaxConnectionCount = 4; //最小连接数 private int MinConnectionCount = 2; //当前连接数 private int current_conn_count = 0; //连接参数 private ConnectionParam connparam = null; //是否创建工厂的标志 private boolean isflag = false; //是否支持事务 private boolean supportTransaction = false; //定义管理策略 private int ManageType = 0; private ConnectionFactory() { ConnectionPool = new LinkedHashSet(); FreeConnectionPool = new LinkedHashSet(); } /** * 使用指定的参数创建一个连接池 */ public ConnectionFactory(ConnectionParam param, FactoryParam fparam) throws SQLException { //不允许参数为空 if ((param == null)||(fparam == null)) throw new SQLException("ConnectionParam和FactoryParam不能为空"); if (m_instance == null) { synchronized(ConnectionFactory.class){ if (m_instance == null) { //new instance //参数定制 m_instance = new ConnectionFactory(); m_instance.connparam = param; m_instance.MaxConnectionCount = fparam.getMaxConn(); m_instance.MinConnectionCount = fparam.getMinConn(); m_instance.ManageType = fparam.getType(); m_instance.isflag = true; //初始化,创建MinConnectionCount个连接 System.out.println("connection factory 创建!"); try{ for (int i=0; i < m_instance.MinConnectionCount; i++) { _Connection _conn = _Connection.getConnection(m_instance, m_instance.connparam); if (_conn == null) continue; System.out.println("connection创建"); m_instance.FreeConnectionPool.add(_conn);//加入空闲连接池 m_instance.current_conn_count ++; //标志是否支持事务 m_instance.supportTransaction = _conn.isSupportTransaction(); } } catch(Exception e) { e.printStackTrace(); } //根据策略判断是否需要查询 if (m_instance.ManageType != 0) { Thread t = new Thread(new FactoryMangeThread(m_instance)); t.start(); } } } } } /** * 标志工厂是否已经创建 * @return boolean */ public boolean isCreate() { return m_instance.isflag; } /** * 从连接池中取一个空闲的连接 * @return Connection * @throws SQLException */ public synchronized Connection getFreeConnection() throws SQLException { Connection conn = null; //获取空闲连接 Iterator iter = m_instance.FreeConnectionPool.iterator(); while(iter.hasNext()){ _Connection _conn = (_Connection)iter.next(); //找到未用连接 if(!_conn.isFree()){ conn = _conn.getFreeConnection(); _conn.setIsFree(true); //移出空闲区 m_instance.FreeConnectionPool.remove(_conn); //加入连接池 m_instance.ConnectionPool.add(_conn); break; } } //检查空闲池是否为空 if (m_instance.FreeConnectionPool.isEmpty()) { //再检查是否能够分配 if (m_instance.current_conn_count < m_instance.MaxConnectionCount) { //新建连接到空闲连接池 int newcount = 0 ; //取得要建立的数目 if (m_instance.MaxConnectionCount - m_instance.current_conn_count >= m_instance.MinConnectionCount) { newcount = m_instance.MinConnectionCount; } else { newcount = m_instance.MaxConnectionCount - m_instance.current_conn_count; } //创建连接 for (int i=0;i <newcount; i++) { _Connection _conn = _Connection.getConnection(m_instance, m_instance.connparam); m_instance.FreeConnectionPool.add(_conn); m_instance.current_conn_count ++; } } else {//如果不能新建,检查是否有已经归还的连接 iter = m_instance.ConnectionPool.iterator(); while(iter.hasNext()){ _Connection _conn = (_Connection)iter.next(); if(!_conn.isFree()){ conn = _conn.getFreeConnection(); _conn.setIsFree(false); m_instance.ConnectionPool.remove(_conn); m_instance.FreeConnectionPool.add(_conn); break; } } } }//if (FreeConnectionPool.isEmpty()) //再次检查是否能分配连接 if(conn == null){ iter = m_instance.FreeConnectionPool.iterator(); while(iter.hasNext()){ _Connection _conn = (_Connection)iter.next(); if(!_conn.isFree()){ conn = _conn.getFreeConnection(); _conn.setIsFree(true); m_instance.FreeConnectionPool.remove(_conn); m_instance.ConnectionPool.add(_conn); break; } } if(conn == null)//如果不能则说明无连接可用 throw new SQLException("没有可用的数据库连接"); } System.out.println("get connection"); return conn; } /** * 关闭该连接池中的所有数据库连接 * @throws SQLException */ public synchronized void close() throws SQLException { this.isflag = false; SQLException excp = null; //关闭空闲池 Iterator iter = m_instance.FreeConnectionPool.iterator(); while(iter.hasNext()){ try{ ((_Connection)iter.next()).close(); System.out.println("close connection:free"); m_instance.current_conn_count --; }catch(Exception e){ if(e instanceof SQLException) excp = (SQLException)e; } } //关闭在使用的连接池 iter = m_instance.ConnectionPool.iterator(); while(iter.hasNext()){ try{ ((_Connection)iter.next()).close(); System.out.println("close connection:inused"); m_instance.current_conn_count --; }catch(Exception e){ if(e instanceof SQLException) excp = (SQLException)e; } } if(excp != null) throw excp; } /** * 返回是否支持事务 * @return boolean */ public boolean isSupportTransaction() { return m_instance.supportTransaction; } /** * 连接池调度管理 * */ public void schedule() { Connection conn = null; //再检查是否能够分配 Iterator iter = null; //检查是否有已经归还的连接 { iter = m_instance.ConnectionPool.iterator(); while(iter.hasNext()){ _Connection _conn = (_Connection)iter.next(); if(!_conn.isFree()){ conn = _conn.getFreeConnection(); _conn.setIsFree(false); m_instance.ConnectionPool.remove(_conn); m_instance.FreeConnectionPool.add(_conn); break; } } } if (m_instance.current_conn_count < m_instance.MaxConnectionCount) { //新建连接到空闲连接池 int newcount = 0 ; //取得要建立的数目 if (m_instance.MaxConnectionCount - m_instance.current_conn_count >=m_instance.MinConnectionCount) { newcount = m_instance.MinConnectionCount; } else { newcount = m_instance.MaxConnectionCount - m_instance.current_conn_count; } //创建连接 for (int i=0;i <newcount; i++) { _Connection _conn = _Connection.getConnection(m_instance, m_instance.connparam); m_instance.FreeConnectionPool.add(_conn); m_instance.current_conn_count ++; } } } } | ConnectionParam.java
package scut.ailab.connectionpool; import java.io.Serializable; /** * @author youyongming * 实现数据库连接的参数类 */ public class ConnectionParam implements Serializable { private String driver; //数据库驱动程序 private String url; //数据连接的URL private String user; //数据库用户名 private String password; //数据库密码 /** * 唯一的构造函数,需要指定连接的四个必要参数 * @param driver 数据驱动 * @param url 数据库连接url * @param user 用户名 * @param password 密码 */ public ConnectionParam(String driver,String url,String user,String password) { this.driver = driver; this.url = url; this.user = user; this.password = password; } public String getDriver() { return driver; } public String getPassword() { return password; } public String getUrl() { return url; } public String getUser() { return user; } public void setDriver(String driver) { this.driver = driver; } public void setPassword(String password) { this.password = password; } public void setUrl(String url) { this.url = url; } public void setUser(String user) { this.user = user; } /** * @see java.lang.Object#clone() */ public Object clone(){ ConnectionParam param = new ConnectionParam(driver,url,user,password); return param; } /** * @see java.lang.Object#equals(java.lang.Object) */ public boolean equals(Object obj) { if(obj instanceof ConnectionParam){ ConnectionParam param = (ConnectionParam)obj; return ((driver.compareToIgnoreCase(param.getDriver()) == 0)&& (url.compareToIgnoreCase(param.getUrl()) == 0)&& (user.compareToIgnoreCase(param.getUser()) == 0)&& (password.compareToIgnoreCase(param.getPassword()) == 0)); } return false; } }
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FactoryMangeThread.java
/* * Created on 2003-5-13 * * To change the template for this generated file go to * Window>Preferences>Java>Code Generation>Code and Comments */ package scut.ailab.connectionpool; /** * @author youyongming * */ //连接池调度线程 public class FactoryMangeThread implements Runnable { ConnectionFactory cf = null; long delay = 1000; public FactoryMangeThread(ConnectionFactory obj) { cf = obj; } /* (non-Javadoc) * @see java.lang.Runnable#run() */ public void run() { while(true){ try{ Thread.sleep(delay); } catch(InterruptedException e){} System.out.println("eeeee"); //判断是否已经关闭了工厂,那就退出监听 if (cf.isCreate()) cf.schedule(); else System.exit(1); } } }
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FactoryParam.java
/* * Created on 2003-5-13 * * To change the template for this generated file go to * Window>Preferences>Java>Code Generation>Code and Comments */ package scut.ailab.connectionpool; /** * @author youyongming * */ //连接池工厂参数 public class FactoryParam { //最大连接数 private int MaxConnectionCount = 4; //最小连接数 private int MinConnectionCount = 2; //回收策略 private int ManageType = 0; public FactoryParam() { } /** * 构造连接池工厂参数的对象 * @param max 最大连接数 * @param min 最小连接数 * @param type 管理策略 */ public FactoryParam(int max, int min, int type) { this.ManageType = type; this.MaxConnectionCount = max; this.MinConnectionCount = min; } /** * 设置最大的连接数 * @param value */ public void setMaxConn(int value) { this.MaxConnectionCount = value; } /** * 获取最大连接数 * @return */ public int getMaxConn() { return this.MaxConnectionCount; } /** * 设置最小连接数 * @param value */ public void setMinConn(int value) { this.MinConnectionCount = value; } /** * 获取最小连接数 * @return */ public int getMinConn() { return this.MinConnectionCount; } public int getType() { return this.ManageType; } } |
testmypool.java
/* * Created on 2003-5-13 * * To change the template for this generated file go to * Window>Preferences>Java>Code Generation>Code and Comments */ package scut.ailab.connectionpool; /** * @author youyongming * */ import java.sql.*; public class testmypool { public void test1() { String user = "DevTeam"; String password = "DevTeam"; String driver = "sun.jdbc.odbc.JdbcOdbcDriver"; String url = "jdbc:odbc:gfqh2"; ConnectionParam param = new ConnectionParam(driver,url,user,password); ConnectionFactory cf = null;//new ConnectionFactory(param, new FactoryParam()); try{ cf = new ConnectionFactory(param,new FactoryParam()); Connection conn1 = cf.getFreeConnection(); Connection conn2 = cf.getFreeConnection(); Connection conn3 = cf.getFreeConnection(); Statement stmt = conn1.createStatement(); ResultSet rs = stmt.executeQuery("select * from requests"); if (rs.next()) { System.out.println("conn1 y"); } else { System.out.println("conn1 n"); } stmt.close(); conn1.close(); Connection conn4 = cf.getFreeConnection(); Connection conn5 = cf.getFreeConnection(); stmt = conn5.createStatement(); rs = stmt.executeQuery("select * from requests"); if (rs.next()) { System.out.println("conn5 y"); } else { System.out.println("conn5 n"); } conn2.close(); conn3.close(); conn4.close(); conn5.close(); } catch(Exception e) { e.printStackTrace(); } finally{ try{ cf.close(); } catch(Exception e) { e.printStackTrace(); } } } public static void main(String[] args) { String user = "DevTeam"; String password = "DevTeam"; String driver = "sun.jdbc.odbc.JdbcOdbcDriver"; String url = "jdbc:odbc:gfqh2"; ConnectionParam param = new ConnectionParam(driver,url,user,password); ConnectionFactory cf = null;//new ConnectionFactory(param,new FactoryParam()); try{ cf = new ConnectionFactory(param,new FactoryParam()); ConnectionFactory cf1= new ConnectionFactory(param,new FactoryParam()); Connection conn1 = null; long time = System.currentTimeMillis(); for (int i=0; i <10;i++) { conn1 = cf.getFreeConnection(); Statement stmt = conn1.createStatement(); ResultSet rs = stmt.executeQuery("select * from requests"); if (rs.next()) { System.out.println("conn1 y"); } else { System.out.println("conn1 n"); } conn1.close(); } System.out.println("pool:" + (System.currentTimeMillis()-time)); time = System.currentTimeMillis(); Class.forName(param.getDriver()).newInstance(); for (int i=0; i <10;i++) { conn1 = DriverManager.getConnection(param.getUrl(), param.getUser(), param.getPassword()); Statement stmt = conn1.createStatement(); ResultSet rs = stmt.executeQuery("select * from requests"); if (rs.next()) { System.out.println("conn1 y"); } else { System.out.println("conn1 n"); } conn1.close(); } System.out.println("no pool:" + (System.currentTimeMillis()-time)); } catch(Exception e) { e.printStackTrace(); } finally{ try{ cf.close(); } catch(Exception e) { e.printStackTrace(); } } } }
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