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Java 的JDBC 数据库连接池实现方法
摘要: Java 的JDBC 数据库连接池实现方法
关键字: Java, JDBC, Connection Pool, Database, 数据库连接池, sourcecode
虽然 J2EE 程序员一般都有现成的应用服务器所带的JDBC 数据库连接池,不过对
于开发一般的 Java Application 、 Applet 或者 JSP、velocity 时,我们可用的
JDBC 数据库连接池并不多,并且一般性能都不好。 Java 程序员都很羡慕 Windows
ADO ,只需要 new Connection 就可以直接从数据库连接池中返回 Connection。并
且 ADO Connection 是线程安全的,多个线程可以共用一个 Connection, 所以
ASP 程序一般都把 getConnection 放在 Global.asa 文件中,在 IIS 启动时建立
数据库连接。ADO 的 Connection 和 Result 都有很好的缓冲,并且很容易使用。
其实我们可以自己写一个JDBC 数据库连接池。写 JDBC connection pool 的注意事项有:
1. 有一个简单的函数从连接池中得到一个 Connection。
2. close 函数必须将 connection 放回 数据库连接池。
3. 当数据库连接池中没有空闲的 connection, 数据库连接池必须能够自动增加
connection 个数。
4. 当数据库连接池中的 connection 个数在某一个特别的时间变得很大,但是以后
很长时间只用其中一小部分,应该可以自动将多余的 connection 关闭掉。
5. 如果可能,应该提供debug 信息报告没有关闭的 new Connection 。
如果要 new Connection 就可以直接从数据库连接池中返回 Connection, 可以这
样写( Mediator pattern ) (以下代码中使用了中文全角空格):
public class EasyConnection implements java.sql.Connection{
private Connection m_delegate = null;
public EasyConnection(){
m_delegate = getConnectionFromPool(); }
public void close(){
putConnectionBackToPool(m_delegate); }
public PreparedStatement prepareStatement(String sql) throws
SQLException{
m_delegate.prepareStatement(sql); }
//...... other method }
看来并不难。不过不建议这种写法,因为应该尽量避免使用 Java Interface, 关于
Java Interface 的缺点我另外再写文章讨论。大家关注的是 Connection Pool 的
实现方法。下面给出一种实现方法。
import java.sql.*;
import java.lang.reflect.*;
import java.util.*;
import java.io.*;
public class SimpleConnetionPool {
private static LinkedList m_notUsedConnection = new LinkedList();
private static HashSet m_usedUsedConnection = new HashSet();
private static String m_url = "";
private static String m_user = "";
private static String m_password = "";
static final boolean DEBUG = true;
static private long m_lastClearClosedConnection =
System.currentTimeMillis();
public static long CHECK_CLOSED_CONNECTION_TIME = 4 * 60 * 60 * 1000;
//4 hours
static {
initDriver(); }
private SimpleConnetionPool() { }
private static void initDriver() {
Driver driver = null;
//load mysql driver
try {
driver = (Driver) Class.forName
("com.mysql.jdbc.Driver").newInstance();
installDriver(driver);
} catch (Exception e) { }
//load postgresql driver
try {
driver = (Driver) Class.forName
("org.postgresql.Driver").newInstance();
installDriver(driver);
} catch (Exception e) { } }
public static void installDriver(Driver driver) {
try {
DriverManager.registerDriver(driver);
} catch (Exception e) {
e.printStackTrace(); } }
public static synchronized Connection getConnection() {
clearClosedConnection();
while (m_notUsedConnection.size() > 0) {
try {
ConnectionWrapper wrapper = (ConnectionWrapper)
m_notUsedConnection.removeFirst();
if (wrapper.connection.isClosed()) {
continue; }
m_usedUsedConnection.add(wrapper);
if (DEBUG) {
wrapper.debugInfo = new Throwable("Connection initial
statement"); }
return wrapper.connection;
} catch (Exception e) { } }
int newCount = getIncreasingConnectionCount();
LinkedList list = new LinkedList();
ConnectionWrapper wrapper = null;
for (int i = 0; i < newCount; i++) {
wrapper = getNewConnection();
if (wrapper != null) {
list.add(wrapper); } }
if (list.size() == 0) {
return null; }
wrapper = (ConnectionWrapper) list.removeFirst();
m_usedUsedConnection.add(wrapper);
m_notUsedConnection.addAll(list);
list.clear();
return wrapper.connection; }
private static ConnectionWrapper getNewConnection() { try {
Connection con = DriverManager.getConnection(m_url, m_user,
m_password);
ConnectionWrapper wrapper = new ConnectionWrapper(con);
return wrapper;
} catch (Exception e) {
e.printStackTrace(); }
return null; }
static synchronized void pushConnectionBackToPool(ConnectionWrapper con) {
boolean exist = m_usedUsedConnection.remove(con);
if (exist) {
m_notUsedConnection.addLast(con); } }
public static int close() {
int count = 0;
Iterator iterator = m_notUsedConnection.iterator();
while (iterator.hasNext()) { try {
( (ConnectionWrapper) iterator.next()).close();
count++;
} catch (Exception e) { } }
m_notUsedConnection.clear();
iterator = m_usedUsedConnection.iterator();
while (iterator.hasNext()) {
try {
ConnectionWrapper wrapper = (ConnectionWrapper)
iterator.next();
wrapper.close();
if (DEBUG) {
wrapper.debugInfo.printStackTrace(); }
count++;
} catch (Exception e) { } }
m_usedUsedConnection.clear();
return count; }
private static void clearClosedConnection() {
long time = System.currentTimeMillis();
//sometimes user change system time,just return
if (time < m_lastClearClosedConnection) {
time = m_lastClearClosedConnection;
return; }
//no need check very often
if (time - m_lastClearClosedConnection <
CHECK_CLOSED_CONNECTION_TIME) { return; }
m_lastClearClosedConnection = time;
//begin check
Iterator iterator = m_notUsedConnection.iterator();
while (iterator.hasNext()) {
ConnectionWrapper wrapper = (ConnectionWrapper)
iterator.next();
try {
if (wrapper.connection.isClosed()) { iterator.remove(); }
} catch (Exception e) {
iterator.remove();
if (DEBUG) {
System.out.println("connection is closed, this
connection initial StackTrace");
wrapper.debugInfo.printStackTrace(); } } }
//make connection pool size smaller if too big
int decrease = getDecreasingConnectionCount();
if (m_notUsedConnection.size() < decrease) {
return; }
while (decrease-- > 0) {
ConnectionWrapper wrapper = (ConnectionWrapper)
m_notUsedConnection.removeFirst();
try {
wrapper.connection.close();
} catch (Exception e) { } } }
/**
* get increasing connection count, not just add 1 connection
* @return count */
public static int getIncreasingConnectionCount() {
int count = 1;
int current = getConnectionCount();
count = current / 4;
if (count < 1) {
count = 1; }
return count; }
/**
* get decreasing connection count, not just remove 1 connection
* @return count */
public static int getDecreasingConnectionCount() {
int count = 0;
int current = getConnectionCount();
if (current < 10) {
return 0; }
return current / 3; }
public synchronized static void printDebugMsg() {
printDebugMsg(System.out); }
public synchronized static void printDebugMsg(PrintStream out) {
if (DEBUG == false) {
return; }
StringBuffer msg = new StringBuffer();
msg.append("debug message in " +
SimpleConnetionPool.class.getName());
msg.append("\r\n");
msg.append("total count is connection pool: " +
getConnectionCount());
msg.append("\r\n");
msg.append("not used connection count: " +
getNotUsedConnectionCount());
msg.append("\r\n");
msg.append("used connection, count: " + getUsedConnectionCount());
out.println(msg);
Iterator iterator = m_usedUsedConnection.iterator();
while (iterator.hasNext()) {
ConnectionWrapper wrapper = (ConnectionWrapper)
iterator.next();
wrapper.debugInfo.printStackTrace(out); }
out.println(); }
public static synchronized int getNotUsedConnectionCount() {
return m_notUsedConnection.size(); }
public static synchronized int getUsedConnectionCount() {
return m_usedUsedConnection.size(); }
public static synchronized int getConnectionCount() {
return m_notUsedConnection.size() + m_usedUsedConnection.size(); }
public static String getUrl() {
return m_url; }
public static void setUrl(String url) {
if (url == null) { return; }
m_url = url.trim(); }
public static String getUser() {
return m_user; }
public static void setUser(String user) {
if (user == null) {
return; }
m_user = user.trim(); }
public static String getPassword() {
return m_password; }
public static void setPassword(String password) {
if (password == null) {
return; }
m_password = password.trim(); } }
class ConnectionWrapper implements InvocationHandler {
private final static String CLOSE_METHOD_NAME = "close";
public Connection connection = null;
private Connection m_originConnection = null;
public long lastAccessTime = System.currentTimeMillis();
Throwable debugInfo = new Throwable("Connection initial statement");
ConnectionWrapper(Connection con) {
this.connection = (Connection) Proxy.newProxyInstance(
con.getClass().getClassLoader(),
con.getClass().getInterfaces(), this);
m_originConnection = con; }
void close() throws SQLException {
m_originConnection.close(); }
public Object invoke(Object proxy, Method m, Object[] args) throws
Throwable {
Object obj = null;
if (CLOSE_METHOD_NAME.equals(m.getName())) {
SimpleConnetionPool.pushConnectionBackToPool(this); }
else {
obj = m.invoke(m_originConnection, args); }
lastAccessTime = System.currentTimeMillis();
return obj; } }
使用方法
public class TestConnectionPool{
public static void main(String[] args) {
SimpleConnetionPool.setUrl(DBTools.getDatabaseUrl());
SimpleConnetionPool.setUser(DBTools.getDatabaseUserName());
SimpleConnetionPool.setPassword(DBTools.getDatabasePassword());
Connection con = SimpleConnetionPool.getConnection();
Connection con1 = SimpleConnetionPool.getConnection();
Connection con2 = SimpleConnetionPool.getConnection();
//do something with con ...
try {
con.close();
} catch (Exception e) {}
try {
con1.close();
} catch (Exception e) {}
try {
con2.close();
} catch (Exception e) {}
con = SimpleConnetionPool.getConnection();
con1 = SimpleConnetionPool.getConnection();
try {
con1.close();
} catch (Exception e) {}
con2 = SimpleConnetionPool.getConnection();
SimpleConnetionPool.printDebugMsg(); } }
运行测试程序后打印连接池中 Connection 状态, 以及正在使用的没有关闭
Connection 信息。
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