Interface | Description |
---|---|
BasicDataSourceMXBean |
Defines the methods that will be made available via JMX.
|
ConnectionFactory |
Abstract factory interface for creating
Connection s. |
PoolableConnectionMXBean |
Defines the attributes and methods that will be exposed via JMX for
PoolableConnection instances. |
Class | Description |
---|---|
AbandonedTrace |
Tracks db connection usage for recovering and reporting
abandoned db connections.
|
BasicDataSource |
Basic implementation of
javax.sql.DataSource that is
configured via JavaBeans properties. |
BasicDataSourceFactory |
JNDI object factory that creates an instance of
BasicDataSource that has been configured based on the
RefAddr values of the specified Reference , which
must match the names and data types of the BasicDataSource bean
properties with the following exceptions:
connectionInitSqls must be passed to this factory as a
single String using semi-colon to delimt the statements whereas
BasicDataSource requires a collection of Strings. |
Constants |
Constants for use with JMX
|
DataSourceConnectionFactory |
A
DataSource -based implementation of ConnectionFactory . |
DelegatingCallableStatement |
A base delegating implementation of
CallableStatement . |
DelegatingConnection<C extends Connection> |
A base delegating implementation of
Connection . |
DelegatingDatabaseMetaData |
A base delegating implementation of
DatabaseMetaData . |
DelegatingPreparedStatement |
A base delegating implementation of
PreparedStatement . |
DelegatingResultSet |
A base delegating implementation of
ResultSet . |
DelegatingStatement |
A base delegating implementation of
Statement . |
DriverConnectionFactory |
A
Driver -based implementation of ConnectionFactory . |
DriverManagerConnectionFactory |
A
DriverManager -based implementation of ConnectionFactory . |
PoolableCallableStatement |
A
DelegatingCallableStatement that cooperates with
PoolingConnection to implement a pool of CallableStatement s. |
PoolableConnection |
A delegating connection that, rather than closing the underlying
connection, returns itself to an
ObjectPool when
closed. |
PoolableConnectionFactory |
A
PooledObjectFactory that creates
PoolableConnection s. |
PoolablePreparedStatement<K> |
A
DelegatingPreparedStatement that cooperates with
PoolingConnection to implement a pool of PreparedStatement s. |
PoolingConnection |
A
DelegatingConnection that pools PreparedStatement s. |
PoolingDataSource<C extends Connection> | |
PoolingDriver | |
PStmtKey |
A key uniquely identifying
PreparedStatement s. |
SwallowedExceptionLogger |
Class for logging swallowed exceptions
|
Utils |
Utility methods
|
Enum | Description |
---|---|
PoolingConnection.StatementType |
The possible statement types.
|
Database Connection Pool API.
Overview in Dialog FormQ: How do I use the DBCP package?
A: There are two primary ways to access the DBCP pool, as a
Driver
, or as a DataSource
.
You'll want to create an instance of PoolingDriver
or
PoolingDataSource
. When using one of these
interfaces, you can just use your JDBC objects the way you normally would.
Closing a Connection
will simply return it to its pool.
Q: But PoolingDriver
and
PoolingDataSource
both expect an
ObjectPool
as an input. Where do I
get one of those?
A: The ObjectPool
interface is defined
in Commons Pool. You can use one of the provided implementations such as
GenericObjectPool
or
SoftReferenceObjectPool
or you can create your own.
Q: Ok, I've found an ObjectPool
implementation that I think suits my connection pooling needs. But it wants
a PooledObjectFactory
.
What should I use for that?
A: The DBCP package provides a class for this purpose. It's called
PoolableConnectionFactory
.
It implements the factory and lifecycle methods of
PooledObjectFactory
for Connection
s. But it doesn't create the actual database
Connection
s itself, it uses a
ConnectionFactory
for that.
The PoolableConnectionFactory
will take
Connection
s created by the ConnectionFactory
and wrap them with classes that implement the pooling behaviour.
Several implementations of ConnectionFactory
are
provided--one that uses DriverManager
to create connections
(DriverManagerConnectionFactory
),
one that uses a Driver
to create connections
(DriverConnectionFactory
),
one that uses a DataSource
to create connections
(DataSourceConnectionFactory
).
Q: I think I'm starting to get it, but can you walk me though it again?
A: Sure. Let's assume you want to create a DataSource
that pools Connection
s. Let's also assume that
those pooled Connection
s should be obtained from
the DriverManager
.
You'll want to create a PoolingDataSource
.
The PoolingDataSource
uses an underlying
ObjectPool
to create and store its
Connection
.
To create a ObjectPool
, you'll need
a PooledObjectFactory
that creates
the actual Connection
s. That's what
PoolableConnectionFactory
is for.
To create the PoolableConnectionFactory
,
you'll need at least two things:
ConnectionFactory
from which
the actual database Connection
s will be obtained.
ObjectPool
in which the Connection
s will be stored.
ObjectPool
into the
PoolableConnectionFactory
, it will
automatically register itself as the PooledObjectFactory
for that pool.
In code, that might look like this:
GenericObjectPool connectionPool = new GenericObjectPool(null); ConnectionFactory connectionFactory = new DriverManagerConnectionFactory("jdbc:some:connect:string", "username", "password"); PoolableConnectionFactory poolableConnectionFactory = new PoolableConnectionFactory(connectionFactory,connectionPool,null,null,false,true); PoolingDataSource dataSource = new PoolingDataSource(connectionPool);
To create a PoolingDriver
, we do the same thing,
except that instead of creating a DataSource
on the last line,
we create a PoolingDriver
, and register the
connectionPool
with it. E.g.,:
GenericObjectPool connectionPool = new GenericObjectPool(null); ConnectionFactory connectionFactory = new DriverManagerConnectionFactory("jdbc:some:connect:string", "username", "password"); PoolableConnectionFactory poolableConnectionFactory = new PoolableConnectionFactory(connectionFactory,connectionPool,null,null,false,true); PoolingDriver driver = new PoolingDriver(); driver.registerPool("example",connectionPool);
Since the PoolingDriver
registers itself
with the DriverManager
when it is created, now you can just
go to the DriverManager
to create your Connection
s,
like you normally would:
Connection conn = DriverManager.getConnection("jdbc:apache:commons:dbcp:example");
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