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can you look at my connection pool if it is a possible way to implement it?

public class ConnectionPool {
    private static List<DBConnection> pool = null;
    private static int available = 0;
    private ConnectionPool() {}

    public static DBConnection getConnection() {
        if (pool == null) {
             pool = new ArrayList<DBConnection>();
             for (int i = 0; i < 3; i++) {
                 try {
                    pool.add(new DBConnection());
                    available++;
                } catch (SQLException e) {
                    e.printStackTrace();
                }
             }
        }
        if (pool.size() > 0) {
            available--;
            return pool.remove(available);
        } else {
            return null;
        }
    }

    public static void returnConnection(DBConnection c) {
        pool.add(c);
        available++;
    }
}

I'm using only one array and the client should ask the connection pool for a connection use it and then return it to the connection pool.

  Connection connection = ConnectionPool.getConnection();
  connection.execute("insert into users values('"+user.getUsername()+"', '"+user.getPassword()+"', '"+user.getGroup()+"', '"+banned+"', '"+broker+admin+sharehodler+company+"')");      
  ConnectionPool.returnConnection(connection);
  connection = null;

Please I need feedback on this implementation. Thank you

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1  
Why you want to reinvent the wheel. There are many well tested and proven connection pool implementations available. –  Seshagiri May 10 '12 at 8:58
    
Why are you doing this? javax.sql.DataSource already does connection pooling if the vendor has implemented it, which they do, and there is a good one in Apache Commons as well. –  EJP May 10 '12 at 8:59
4  
The purpose is to learn and understand the connection pool design pattern –  locke May 10 '12 at 9:07
    
Good purpose. However instead of implementing your own connection pool, you could start out by reading the code of existing implementations. E.g. svn.apache.org/viewvc/commons/proper/dbcp/trunk –  Jonas Kongslund May 10 '12 at 9:15

5 Answers 5

up vote 6 down vote accepted

There are some points that make this implementation very problematic.

  • Thread safety. What if several threads work with the pool? You are not locking the list on read/write access.
  • Static maximum pool size of 3 connections, also you immediately create all of them, whether they are needed or not. A common strategy is to create a bunch of connections and create some more when needed, until the allowed/configured maximum is reached.
  • You only have static methods. It should be possible to have several pools, meaning you need instances of ConnectionPool.
  • No way to pass host+dbname+user+password to the connections that are created.
  • You don't deal with 'broken' connections - you may have to re-create a connection if an existing one screwed up. This is far more relevant than I thought before I started using pools.
  • Use config values instead of static values, see point #2
  • Lastly: sure, it's interesting to write this stuff yourself - but if you need a pool for a project, pick an existing one, such as c3p0 or the tomcat connection pool.

I'm sure there's more to point out, but unless these are fixed, there's no use in continuing.

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One big problem with your pool implementation is that you pass the naked connection to the callers of the pool. This means that someone can obtain a connection from your pool, close it, and then return it to the pool. This is bad.

The normal way around this problem is to wrap the return connection objects using delegation, and make them ignore calls to the close method (or even better, make close() safely return the underlying connection to the pool).

Other major issues:

  • What happens if a connection is returned in the middle of a transaction?
  • What happens if a connection is somehow corrupted or disconnected? Does it stay in the pool?

All in all, you should reuse an existing connection pool implementation rather than writing your own. These days, many type 4 drivers have their own connection pools included right within the driver.

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Some thoughts:

  • Your code is NOT thread safe. Maybe work on this.
  • Too much code in getConnection(). Is lazy initialisation really needed ?
  • available is useless, can be substitute by pool.size().
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AFAIK,

  • your getConnection() method need to be changed to in order to retrieve Connection object only.

    Preparing connection and pooling should be taken away from the getConnection() method and added in such a way that when ConnectionPool class is loaded first time.

    Also you need to handle some other attributes as well like connection timeout, purging etc in order to make it work for all scenarios.

    Make it thread safe as well.

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You could do it just by using a PoolingDataSource!

Let me try to explain myself with a quick sample:

/**
 * This is a class you can plug everywhere, (better if you use it as a singleton)
 */
public class ConnectionHelper {
    // Our Main Datasource.
    private final DataSource _dataSource;
    // Our Constructor, in which we get the user/pass and connection uri, I also load the DriverName, since I may have more than once version of the same JDBC driver.
    ConnectionHelper (String driverName, String connectionURI, String user, String password) throws Exception {
        // Loading underlying JDBC driver
        try {
            Class.forName(driverName);
        } catch (ClassNotFoundException e) {
            throw new Exception("Driver not found on the classpath");
        }
        _dataSource = setupDataSource(connectionURI, user, password);
    }
    // This method will return the connection from the pool
    public Connection getConnection() throws SQLException {
        Connection connection;
        connection = _dataSource.getConnection();
        return connection;
    }
    // Here we create the DataSource
    private DataSource setupDataSource(String connectURI, String userName, String password) {
        // First, we'll create a ConnectionFactory that the
        // pool will use to create Connections.
        // We'll use the DriverManagerConnectionFactory,
        // using the connect string passed by parameter
        ConnectionFactory connectionFactory = new DriverManagerConnectionFactory(connectURI, userName, password);
        // Next we'll create the PoolableConnectionFactory, which wraps
        // the "real" Connections created by the ConnectionFactory with
        // the classes that implement the pooling functionality.
        PoolableConnectionFactory poolableConnectionFactory = new PoolableConnectionFactory(connectionFactory, null);
        // Now we'll need a ObjectPool that serves as the
        // actual pool of connections.
        // We'll use a GenericObjectPool instance, although
        // any ObjectPool implementation will suffice.
        GenericObjectPool<PoolableConnection> connectionPool = new GenericObjectPool<>(poolableConnectionFactory);
        // Set the maximum set of connections you want to hold
        connectionPool.setMaxIdle(20);
        // Set the factory's pool property to the owning pool
        poolableConnectionFactory.setPool(connectionPool);
        // Set the AutoCommit as false to handle the Commit/Close by yourself
        poolableConnectionFactory.setDefaultAutoCommit(false);
        // Finally, we create the PoolingDriver itself,
        // passing in the object pool we created.
        PoolingDataSource<PoolableConnection> dataSource = new PoolingDataSource<>(connectionPool);
        return dataSource;
    }
}

Now, on wherever you need a new connection, just calls something like this:

import com.google.inject.Inject;
import com.yourPackage.ConnectionHelper;
import java.sql.Connection;
import java.sql.PreparedStatement;

public class rawRepository {
    // Helper to get connections and handle the datasource.
    ConnectionHelper _connectionHelper;    
     // Inject it by Dependency Injection     
    @Inject
    public rawRepository(ConnectionHelper connectionHelper) {
        _connectionHelper = connectionHelper;
    }
    // Simple Update
    public void update(long id, String name, String lastname, String country) throws Exception {
        String updateSql = "UPDATE YOURTABLE" +
                " SET NAME = ?, " +
                " LASTNAME = ?, " +
                " COUNTRY = ?" +
                " WHERE ID = ?";
        // Gets the Connection!
        Connection connection = _connectionHelper.getConnection();
        try {                            
            PreparedStatement statement;
            statement = connection.prepareStatement(updateSql);
            statement.setString(1, lastname);
            statement.setString(2, name);
            statement.setString(3, country);
            statement.setLong(4, id);
            int resultQuery = statement.executeUpdate();
            if (resultQuery == 0)
                throw new Exception("Execute Update did not update anything");
            // Commits the connection.
            connection.commit();
        } catch (Exception e) {
            // Remember that this close won't close the connection physically since it's a pool of connections.
            connection.close();
        }
    }
}

Just, remember that the pooling implementations do not actually close connections when the client calls the close method, but instead return the connections to a pool of available connections for other clients to use. This avoids any overhead of repeatedly opening and closing connections, and allows a large number of clients to share a small number of database connections.

Hope this may help somebody!

God bless you!

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