Hibernate.orgCommunity Documentation
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The diagram below provides a high-level view of the Hibernate architecture:
Unfortunately we cannot provide a detailed view of all possible runtime architectures. Hibernate is sufficiently flexible to be used in a number of ways in many, many architectures. We will, however, illustrate 2 specifically since they are extremes.
The "minimal" architecture has the application manage its own JDBC connections and provide those connections to Hibernate; additionally the application manages transactions for itself. This approach uses a minimal subset of Hibernate APIs.
The "comprehensive" architecture abstracts the application away from the underlying JDBC/JTA APIs and allows Hibernate to manage the details.
Here are quick discussions about some of the API objects depicted in the preceding diagrams (you will see them again in more detail in later chapters).
org.hibernate.SessionFactory
)
A thread-safe, immutable cache of compiled mappings for a single database.
A factory for org.hibernate.Session
instances. A client
of org.hibernate.connection.ConnectionProvider
. Optionally
maintains a second level cache
of data that is reusable between
transactions at a process or cluster level.
org.hibernate.Session
)
A single-threaded, short-lived object representing a conversation between
the application and the persistent store. Wraps a JDBC
java.sql.Connection
. Factory for
org.hibernate.Transaction
. Maintains a
first level cache
of persistent the application's persistent objects
and collections; this cache is used when navigating the object graph or looking up
objects by identifier.
Short-lived, single threaded objects containing persistent state and business
function. These can be ordinary JavaBeans/POJOs. They are associated with exactly one
org.hibernate.Session
. Once the
org.hibernate.Session
is closed, they will be detached
and free to use in any application layer (for example, directly as data transfer objects
to and from presentation). Chapter 11, Working with objects discusses transient,
persistent and detached object states.
Instances of persistent classes that are not currently associated with a
org.hibernate.Session
. They may have been instantiated by
the application and not yet persisted, or they may have been instantiated by a
closed org.hibernate.Session
.
Chapter 11, Working with objects discusses transient, persistent and detached object states.
org.hibernate.Transaction
)
(Optional) A single-threaded, short-lived object used by the application to
specify atomic units of work. It abstracts the application from the underlying JDBC,
JTA or CORBA transaction. A org.hibernate.Session
might span several
org.hibernate.Transaction
s in some cases. However,
transaction demarcation, either using the underlying API or
org.hibernate.Transaction
, is never optional.
org.hibernate.connection.ConnectionProvider
)
(Optional) A factory for, and pool of, JDBC connections. It abstracts the application from
underlying javax.sql.DataSource
or
java.sql.DriverManager
. It is not exposed to application,
but it can be extended and/or implemented by the developer.
org.hibernate.TransactionFactory
)
(Optional) A factory for org.hibernate.Transaction
instances. It is not exposed to the application, but it can be extended and/or
implemented by the developer.
Hibernate offers a range of optional extension interfaces you can implement to customize the behavior of your persistence layer. See the API documentation for details.
Most applications using Hibernate need some form of "contextual" session, where a given
session is in effect throughout the scope of a given context. However, across applications
the definition of what constitutes a context is typically different; different contexts
define different scopes to the notion of current. Applications using Hibernate prior
to version 3.0 tended to utilize either home-grown ThreadLocal
-based
contextual sessions, helper classes such as HibernateUtil
, or utilized
third-party frameworks, such as Spring or Pico, which provided proxy/interception-based contextual sessions.
Starting with version 3.0.1, Hibernate added the SessionFactory.getCurrentSession()
method. Initially, this assumed usage of JTA
transactions, where the
JTA
transaction defined both the scope and context of a current session.
Given the maturity of the numerous stand-alone
JTA TransactionManager
implementations, most, if not all,
applications should be using JTA
transaction management, whether or not
they are deployed into a J2EE
container. Based on that, the
JTA
-based contextual sessions are all you need to use.
However, as of version 3.1, the processing behind
SessionFactory.getCurrentSession()
is now pluggable. To that
end, a new extension interface, org.hibernate.context.spi.CurrentSessionContext
,
and a new configuration parameter, hibernate.current_session_context_class
,
have been added to allow pluggability of the scope and context of defining current sessions.
See the Javadocs for the org.hibernate.context.spi.CurrentSessionContext
interface for a detailed discussion of its contract. It defines a single method,
currentSession()
, by which the implementation is responsible for
tracking the current contextual session. Out-of-the-box, Hibernate comes with three
implementations of this interface:
org.hibernate.context.internal.JTASessionContext
: current sessions
are tracked and scoped by a JTA
transaction. The processing
here is exactly the same as in the older JTA-only approach. See the Javadocs
for details.
org.hibernate.context.internal.ThreadLocalSessionContext
:current
sessions are tracked by thread of execution. See the Javadocs for details.
org.hibernate.context.internal.ManagedSessionContext
: current
sessions are tracked by thread of execution. However, you are responsible to
bind and unbind a Session
instance with static methods
on this class: it does not open, flush, or close a Session
.
The first two implementations provide a "one session - one database transaction" programming
model. This is also known and used as session-per-request. The beginning
and end of a Hibernate session is defined by the duration of a database transaction.
If you use programmatic transaction demarcation in plain JSE without JTA, you are advised to
use the Hibernate Transaction
API to hide the underlying transaction system
from your code. If you use JTA, you can utilize the JTA interfaces to demarcate transactions. If you
execute in an EJB container that supports CMT, transaction boundaries are defined declaratively
and you do not need any transaction or session demarcation operations in your code.
Refer to Chapter 13, Transactions and Concurrency for more information and code examples.
The hibernate.current_session_context_class
configuration parameter
defines which org.hibernate.context.spi.CurrentSessionContext
implementation
should be used. For backwards compatibility, if this configuration parameter is not set
but a org.hibernate.engine.transaction.jta.platform.spi.JtaPlatform
is configured,
Hibernate will use the org.hibernate.context.internal.JTASessionContext
.
Typically, the value of this parameter would just name the implementation class to
use. For the three out-of-the-box implementations, however, there are three corresponding
short names: "jta", "thread", and "managed".