An enterprise bean goes through various stages during its lifetime, or life cycle. Each type of enterprise bean--session, entity, or message-driven--has a different life cycle.
The descriptions that follow refer to methods that are explained along with the code examples in the next two chapters. If you are new to enterprise beans, you should skip this section and try out the code examples first.
Figure 23-4 illustrates the stages that a session bean passes through during its lifetime. The client initiates the life cycle by invoking the create
method. The EJB container instantiates the bean and then invokes the setSessionContext
and ejbCreate
methods in the session bean. The bean is now ready to have its business methods invoked.
Figure 23-4 Life Cycle of a Stateful Session Bean
While in the ready stage, the EJB container may decide to deactivate, or passivate, the bean by moving it from memory to secondary storage. (Typically, the EJB container uses a least-recently-used algorithm to select a bean for passivation.) The EJB container invokes the bean's ejbPassivate
method immediately before passivating it. If a client invokes a business method on the bean while it is in the passive stage, the EJB container activates the bean, calls the bean's ejbActivate
method, and then moves it to the ready stage.
At the end of the life cycle, the client invokes the remove
method, and the EJB container calls the bean's ejbRemove
method. The bean's instance is ready for garbage collection.
Your code controls the invocation of only two life-cycle methods: the create
and remove
methods in the client. All other methods in Figure 23-4 are invoked by the EJB container. The ejbCreate
method, for example, is inside the bean class, allowing you to perform certain operations right after the bean is instantiated. For example, you might wish to connect to a database in the ejbCreate
method. See Chapter 31 for more information.
Because a stateless session bean is never passivated, its life cycle has only two stages: nonexistent and ready for the invocation of business methods. Figure 23-5 illustrates the stages of a stateless session bean.
Figure 23-5 Life Cycle of a Stateless Session Bean
Figure 23-6 shows the stages that an entity bean passes through during its lifetime. After the EJB container creates the instance, it calls the setEntityContext
method of the entity bean class. The setEntityContext
method passes the entity context to the bean.
After instantiation, the entity bean moves to a pool of available instances. While in the pooled stage, the instance is not associated with any particular EJB object identity. All instances in the pool are identical. The EJB container assigns an identity to an instance when moving it to the ready stage.
There are two paths from the pooled stage to the ready stage. On the first path, the client invokes the create
method, causing the EJB container to call the ejbCreate
and ejbPostCreate
methods. On the second path, the EJB container invokes the ejbActivate
method. While an entity bean is in the ready stage, an it's business methods can be invoked.
There are also two paths from the ready stage to the pooled stage. First, a client can invoke the remove
method, which causes the EJB container to call the ejbRemove
method. Second, the EJB container can invoke the ejbPassivate
method.
Figure 23-6 Life Cycle of an Entity Bean
At the end of the life cycle, the EJB container removes the instance from the pool and invokes the unsetEntityContext
method.
In the pooled state, an instance is not associated with any particular EJB object identity. With bean-managed persistence, when the EJB container moves an instance from the pooled state to the ready state, it does not automatically set the primary key. Therefore, the ejbCreate
and ejbActivate
methods must assign a value to the primary key. If the primary key is incorrect, the ejbLoad
and ejbStore
methods cannot synchronize the instance variables with the database. In the section The SavingsAccountBean Example, the ejbCreate
method assigns the primary key from one of the input parameters. The ejbActivate
method sets the primary key (id
) as follows:
id = (String)context.getPrimaryKey();
In the pooled state, the values of the instance variables are not needed. You can make these instance variables eligible for garbage collection by setting them to null
in the ejbPassivate
method.
Figure 23-7 illustrates the stages in the life cycle of a message-driven bean.
The EJB container usually creates a pool of message-driven bean instances. For each instance, the EJB container instantiates the bean and performs these tasks:
setMessageDrivenContext
method to pass the context object to the instance.ejbCreate
method.
Figure 23-7 Life Cycle of a Message-Driven Bean
Like a stateless session bean, a message-driven bean is never passivated, and it has only two states: nonexistent and ready to receive messages.
At the end of the life cycle, the container calls the ejbRemove
method. The bean's instance is then ready for garbage collection.