Java 模拟数据库连接池的实现代码_Java教程

前面学习过等待 - 通知机制，现在我们在其基础上添加一个超时机制，模拟从连接池中获取、使用和释放连接的过程。客户端获取连接的过程被设定为等待超时模式，即如果在 1000 毫秒内无法获取到可用连接，将会返回给客户端一个 null。设定连接池的大小为 10 个，然后通过调节客户端的线程数来模拟无法获取连接的场景

由于 java.sql.Connection 只是一个接口，最终实现是由数据库驱动提供方来实现，考虑到本例只是演示，我们通过动态代理构造一个 Connection，该 Connection 的代理仅仅是在调用 commit() 方法时休眠 100 毫秒

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									public class ConnectionDriver {

									  static class ConnectionHandler implements InvocationHandler {

									    @Override

									    public Object invoke(Object proxy, Method method, Object[] args) throws Throwable {

									      if ("commit".equals(method.getName())) {

									        TimeUnit.MICROSECONDS.sleep(100);

									      }

									      return null;

									    }

									  }

									  /**

									   * 创建一个 Connection 的代理，在 commit 时休眠 100 毫秒

									   */

									  public static Connection createConnection() {

									    return (Connection) Proxy.newProxyInstance(ConnectionDriver.class.getClassLoader(),

									        new Class<?>[]{Connection.class}, new ConnectionHandler());

									  }

									}

接下来是线程池的实现。本例通过一个双向队列来维护连接，调用方需要先调用 fetchConnection(long) 方法来指定在多少毫秒内超时获取连接，当连接使用完成后，需要调用 releaseConnection(Connection) 方法将连接放回线程池

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									public class ConnectionPool {

									  private final LinkedList<Connection> pool = new LinkedList<>();

									  public ConnectionPool(int initialSize) {

									    // 初始化连接的最大上限

									    if (initialSize > 0) {

									      for (int i = 0; i < initialSize; i++) {

									        pool.addLast(ConnectionDriver.createConnection());

									      }

									    }

									  }

									  public void releaseConnection(Connection connection) {

									    if (connection != null) {

									      synchronized (pool) {

									        /* 连接释放后需要进行通知

									         * 这样其他消费者就能知道连接池已经归还了一个连接

									         */

									        pool.addLast(connection);

									        pool.notifyAll();

									      }

									    }

									  }

									  /**

									   * 在给定毫秒时间内获取连接

									   */

									  public Connection fetchConnection(long mills) throws InterruptedException {

									    synchronized (pool) {

									      // 完全超时

									      if (mills < 0) {

									        while (pool.isEmpty()) {

									          pool.wait();

									        }

									        return pool.removeFirst();

									      } else {

									        long future = System.currentTimeMillis() + mills;

									        long remaining = mills;

									        while (pool.isEmpty() && remaining > 0) {

									          pool.wait(remaining);

									          remaining = future - System.currentTimeMillis();

									        }

									        Connection result = null;

									        if (!pool.isEmpty()) {

									          result = pool.removeFirst();

									        }

									        return result;

									      }

									    }

									  }

									}

最后编写一个用于模拟客户端获取连接的示例，该示例将模拟多个线程同时从连接池获取连接，并记录总尝试获取数、获取成功数和获取失败数

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									public class ConnectionPoolTest {

									  static ConnectionPool pool = new ConnectionPool(10);

									  static CountDownLatch start = new CountDownLatch(1);

									  static CountDownLatch end;

									  public static void main(String[] args) throws InterruptedException {

									    // 线程数量

									    int threadCount = 200;

									    end = new CountDownLatch(threadCount);

									    int count = 20;

									    AtomicInteger got = new AtomicInteger();

									    AtomicInteger notGot = new AtomicInteger();

									    for (int i = 0; i < threadCount; i++) {

									      Thread thread = new Thread(new ConnectionRunner(count, got, notGot), "ConnectionRunnerThread");

									      thread.start();

									    }

									    start.countDown();

									    end.await();

									    System.out.println("total invoke : " + (threadCount * count));

									    System.out.println("got connection : " + got);

									    System.out.println("not got connection : " + notGot);

									  }

									  static class ConnectionRunner implements Runnable {

									    int count;

									    AtomicInteger got;

									    AtomicInteger notGot;

									    public ConnectionRunner(int count, AtomicInteger got, AtomicInteger notGot) {

									      this.count = count;

									      this.got = got;

									      this.notGot = notGot;

									    }

									    @Override

									    public void run() {

									      try {

									        start.await();

									      } catch (Exception e) {

									        e.printStackTrace();

									      }

									      while (count > 0) {

									        try {

									          // 从线程池中获取连接，如果 1000ms 内无法获取到，将返回 null

									          // 分别统计获取连接的数量 got 和未获取到的数量 notGot

									          Connection connection = pool.fetchConnection(1000);

									          if (connection != null) {

									            try {

									              connection.createStatement();

									              connection.commit();

									            } finally {

									              pool.releaseConnection(connection);

									              got.incrementAndGet();

									            }

									          } else {

									            notGot.incrementAndGet();

									          }

									        } catch (Exception e) {

									          e.printStackTrace();

									        } finally {

									          count--;

									        }

									      }

									      end.countDown();

									    }

									  }

									}