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Let's illustrate these ideas with a full example. We're going to implement user login/logout for an application that uses JSF. First, we'll define a request-scoped bean to hold the username and password entered during login, with constraints defined using annotations from the Bean Validation specification:
@Named @RequestScoped
public class Credentials {
private String username;
private String password;
@NotNull @Length(min=3, max=25)
public String getUsername() { return username; }
public void setUsername(String username) { this.username = username; }
@NotNull @Length(min=6, max=20)
public String getPassword() { return password; }
public void setPassword(String password) { this.password = password; }
}
This bean is bound to the login prompt in the following JSF form:
<h:form>
<h:panelGrid columns="2" rendered="#{!login.loggedIn}">
<f:validateBean>
<h:outputLabel for="username">Username:</h:outputLabel>
<h:inputText id="username" value="#{credentials.username}"/>
<h:outputLabel for="password">Password:</h:outputLabel>
<h:inputSecret id="password" value="#{credentials.password}"/>
</f:validateBean>
</h:panelGrid>
<h:commandButton value="Login" action="#{login.login}" rendered="#{!login.loggedIn}"/>
<h:commandButton value="Logout" action="#{login.logout}" rendered="#{login.loggedIn}"/>
</h:form>
Users are represented by a JPA entity:
@Entity
public class User {
private @NotNull @Length(min=3, max=25) @Id String username;
private @NotNull @Length(min=6, max=20) String password;
public String getUsername() { return username; }
public void setUsername(String username) { this.username = username; }
public String setPassword(String password) { this.password = password; }
}
(Note that we're also going to need a persistence.xml
file to configure the JPA persistence
unit containing User
.)
The actual work is done by a session-scoped bean that maintains information about the currently logged-in user
and exposes the User
entity to other beans:
@SessionScoped @Named
public class Login implements Serializable {
@Inject Credentials credentials;
@Inject @UserDatabase EntityManager userDatabase;
private User user;
public void login() {
List<User> results = userDatabase.createQuery(
"select u from User u where u.username = :username and u.password = :password")
.setParameter("username", credentials.getUsername())
.setParameter("password", credentials.getPassword())
.getResultList();
if (!results.isEmpty()) {
user = results.get(0);
}
else {
// perhaps add code here to report a failed login
}
}
public void logout() {
user = null;
}
public boolean isLoggedIn() {
return user != null;
}
@Produces @LoggedIn User getCurrentUser() {
return user;
}
}
@LoggedIn
and @UserDatabase
are custom qualifier annotations:
@Qualifier
@Retention(RUNTIME)
@Target({TYPE, METHOD, PARAMETER, FIELD})
public @interface LoggedIn {}
@Qualifier
@Retention(RUNTIME)
@Target({METHOD, PARAMETER, FIELD})
public @interface UserDatabase {}
We need an adaptor bean to expose our typesafe EntityManager
:
class UserDatabaseProducer {
@Produces @UserDatabase @PersistenceContext
static EntityManager userDatabase;
}
Now DocumentEditor
, or any other bean, can easily inject the current user:
public class DocumentEditor {
@Inject Document document;
@Inject @LoggedIn User currentUser;
@Inject @DocumentDatabase EntityManager docDatabase;
public void save() {
document.setCreatedBy(currentUser);
docDatabase.persist(document);
}
}
Or we can reference the current user in a JSF view:
<h:panelGroup rendered="#{login.loggedIn}">
signed in as #{currentUser.username}
</h:panelGroup>
Hopefully, this example gave you a taste of the CDI programming model. In the next chapter, we'll explore dependency injection in greater depth.