Chapter 10: JPA Integration"
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In previous chapters, we mimic a database with a static list as follows: | In previous chapters, we mimic a database with a static list as follows: | ||
− | <source lang='java' | + | <source lang='java' highlight='4, 12'> |
public class TodoListServiceChapter6Impl implements TodoListService { | public class TodoListServiceChapter6Impl implements TodoListService { | ||
Line 41: | Line 41: | ||
As we mentioned in the Chapter 2, our source code has [[Tutorial/Chapter_2:_Project_Structure#Source_Code| 3 branches]] in github. The source code of this chapter's example belongs to a different branch in the github: '''chapter10'''. | As we mentioned in the Chapter 2, our source code has [[Tutorial/Chapter_2:_Project_Structure#Source_Code| 3 branches]] in github. The source code of this chapter's example belongs to a different branch in the github: '''chapter10'''. | ||
− | We don't create new examples in this chapter, but we add 2 DAO classes written in JPA under the package < | + | We don't create new examples in this chapter, but we add 2 DAO classes written in JPA under the package <code>org.zkoss.essentials.services.impl</code>. |
[[File:Tutorial-ch10-source.png | center]] | [[File:Tutorial-ch10-source.png | center]] | ||
Line 48: | Line 48: | ||
== Maven == | == Maven == | ||
− | When using a database, JPA, and integration of JPA and Spring, we should add following dependencies based on chapter 9's configuration: (We add < | + | When using a database, JPA, and integration of JPA and Spring, we should add following dependencies based on chapter 9's configuration: (We add <code>spring-web</code> and <code>cglib</code> for Spring framework which is explained in chapter 9.) |
− | <source lang='xml' | + | <source lang='xml' highlight='5, 16,17,27,28, 32,33'> |
<properties> | <properties> | ||
Line 95: | Line 95: | ||
== Persistence Unit Configuration== | == Persistence Unit Configuration== | ||
− | We should describe persistence unit configuration in an XML file called < | + | We should describe persistence unit configuration in an XML file called <code>persistence.xml</code> and we need to specify <code>name</code>, <code>transaction-type</code>, and <code>properties</code>. The <code>properties</code> are used by persistence provider (Hibernate) to establish database connection and setup vendor specific configurations. |
− | <source lang='xml' | + | <source lang='xml' highlight='3'> |
<?xml version="1.0" encoding="UTF-8"?> | <?xml version="1.0" encoding="UTF-8"?> | ||
<persistence xmlns="http://java.sun.com/xml/ns/persistence" version="2.0"> | <persistence xmlns="http://java.sun.com/xml/ns/persistence" version="2.0"> | ||
Line 117: | Line 117: | ||
</persistence> | </persistence> | ||
</source> | </source> | ||
− | * Line 3: The persistence unit name < | + | * Line 3: The persistence unit name <code>myapp</code> will be used later in Spring configuration. |
== Deployment Descriptor == | == Deployment Descriptor == | ||
− | You aren't required to add any special configuration for JPA to work. Here we add a Spring provided < | + | You aren't required to add any special configuration for JPA to work. Here we add a Spring provided <code>OpernEntityMangerInViewFilter</code> to resolve an issue caused by lazy-fetching in one-to-many mapping. Please refer to [[ZK Developer%27s Reference/Integration/Persistence Layer/JPA| Developer's Reference]] for this issue in more detail. |
'''Extracted from web.xml''' | '''Extracted from web.xml''' | ||
− | <source lang='xml' | + | <source lang='xml' highlight='14'> |
... | ... | ||
<!-- Spring configuration --> | <!-- Spring configuration --> | ||
Line 157: | Line 157: | ||
Before storing objects into a database, we should specify OR (object-relation) mapping for Java classes with meta data. After JDK 5.0, we can specify OR mapping as annotations instead of XML files. JPA supports ''configuration by exception'' which means that it defines default for most cases of application and users only need to override the configuration value when it is exception to the default, not necessary. | Before storing objects into a database, we should specify OR (object-relation) mapping for Java classes with meta data. After JDK 5.0, we can specify OR mapping as annotations instead of XML files. JPA supports ''configuration by exception'' which means that it defines default for most cases of application and users only need to override the configuration value when it is exception to the default, not necessary. | ||
− | First, annotate the class with < | + | First, annotate the class with <code>@Entity</code> to turn it into an entity, and annotate the member field for primary key with <code>@Id</code>. All other annotations are optional and we use them to override default values. |
'''Todo class used in todo-list management''' | '''Todo class used in todo-list management''' | ||
− | <source lang='java' | + | <source lang='java' highlight='1, 6'> |
@Entity | @Entity | ||
@Table(name="apptodo") | @Table(name="apptodo") | ||
Line 219: | Line 219: | ||
==Spring Beans Configuration== | ==Spring Beans Configuration== | ||
− | Spring JPA , available under the < | + | Spring JPA , available under the <code>org.springframework.orm.jpa</code> package, offers integration support for Java Persistence API. According to Spring framework reference, there are three options for JPA setup. We choose the simplest one. |
− | <source lang='xml' | + | <source lang='xml' highlight='16, 17, 18, 21,26'> |
<beans xmlns="http://www.springframework.org/schema/beans" | <beans xmlns="http://www.springframework.org/schema/beans" | ||
xmlns:context="http://www.springframework.org/schema/context" | xmlns:context="http://www.springframework.org/schema/context" | ||
Line 238: | Line 238: | ||
<!-- jpa(hibernate) configuration --> | <!-- jpa(hibernate) configuration --> | ||
− | <bean id="entityManagerFactory" class="org.springframework.orm.jpa.LocalEntityManagerFactoryBean"> | + | <bean id="entityManagerFactory" |
+ | class="org.springframework.orm.jpa.LocalEntityManagerFactoryBean"> | ||
<property name="persistenceUnitName" value="myapp"/> | <property name="persistenceUnitName" value="myapp"/> | ||
</bean> | </bean> | ||
− | <bean id="transactionManager" class="org.springframework.orm.jpa.JpaTransactionManager"> | + | <bean id="transactionManager" |
+ | class="org.springframework.orm.jpa.JpaTransactionManager"> | ||
<property name="entityManagerFactory" ref="entityManagerFactory" /> | <property name="entityManagerFactory" ref="entityManagerFactory" /> | ||
</bean> | </bean> | ||
Line 249: | Line 251: | ||
</beans> | </beans> | ||
</source> | </source> | ||
− | * Line 16: The simplest Spring setup for JPA is to add a < | + | * Line 16,17: The simplest Spring setup for JPA is to add a <code>LocalEntityManagerFactoryBean</code> which create a <code>EntityManagerFactory</code> for simple deployment environments and specify its <code>persistenceUnitName</code> property. |
− | * Line | + | * Line 18: Set property <code>persistenceUnitName</code> with the name we specified in <code>persistence.xml</code>. |
− | * Line | + | * Line 21,26: Enable Spring's declarative transaction management. |
= DAO Implementation = | = DAO Implementation = | ||
− | The ''Data Access Object (DAO)'' pattern is a good practice to implement a persistence layer and it encapsulates data access codes from the business tier. A DAO object exposes an interface to a business object and performs persistence operation relating to a particular persistent entity. Now, we can implement persistence operations like CRUD in a DAO class with JPA and < | + | The ''Data Access Object (DAO)'' pattern is a good practice to implement a persistence layer and it encapsulates data access codes from the business tier. A DAO object exposes an interface to a business object and performs persistence operation relating to a particular persistent entity. Now, we can implement persistence operations like CRUD in a DAO class with JPA and <code>EntityManager</code> injected by Spring. |
− | <source lang='java' | + | <source lang='java' highlight='1,4,7'> |
@Repository | @Repository | ||
public class TodoDao { | public class TodoDao { | ||
Line 294: | Line 296: | ||
} | } | ||
</source> | </source> | ||
− | * Line 1: We register < | + | * Line 1: We register <code>TodoDao</code> as a Spring bean with <code>@Repository</code> because it is a DAO class according to Spring's suggestion. |
− | * Line 4: As Spring manages our entity manager factory, it can understand < | + | * Line 4: As Spring manages our entity manager factory, it can understand <code>@PersistenceContext</code> and inject a transaction scope <code>EntityManager</code> for us. Hence, we don't need to create <code>EntityManager</code> by our own. |
− | * Line 7: We have enabled Spring's declarative transaction management so that we can apply < | + | * Line 7: We have enabled Spring's declarative transaction management so that we can apply <code>@Transactional</code> on a methods. |
− | After completing DAO classes, we can inject them to our service class with Spring's < | + | After completing DAO classes, we can inject them to our service class with Spring's <code>@Autowired</code> because they are all Spring beans. |
− | <source lang='java' | + | <source lang='java' highlight='5'> |
@Service("todoListService") | @Service("todoListService") | ||
@Scope(value="singleton",proxyMode=ScopedProxyMode.TARGET_CLASS) | @Scope(value="singleton",proxyMode=ScopedProxyMode.TARGET_CLASS) |
Latest revision as of 10:49, 19 January 2022
This article is out of date, please refer to http://books.zkoss.org/zkessentials-book/master/ for more up to date information.
Overview
In previous chapters, we mimic a database with a static list as follows:
public class TodoListServiceChapter6Impl implements TodoListService {
static int todoId = 0;
static List<Todo> todoList = new ArrayList<Todo>();
static{
todoList.add(new Todo(todoId++,"Buy some milk",Priority.LOW,null,null));
todoList.add(new Todo(todoId++,"Dennis' birthday gift",Priority.MEDIUM,dayAfter(10),null));
todoList.add(new Todo(todoId++,"Pay credit-card bill",Priority.HIGH,dayAfter(5),"$1,000"));
}
/** synchronized is just because we use static userList in this demo to prevent concurrent access **/
public synchronized List<Todo>getTodoList() {
List<Todo> list = new ArrayList<Todo>();
for(Todo todo:todoList){
list.add(Todo.clone(todo));
}
return list;
}
...
}
- Line 4, 12: Store objects in a static list and perform all data operation on it.
Originally we perform all persistence operations on the list, but we will replace this part with a real database and a persistence framework, JPA.
Java Persistence API (JPA) is a POJO-based persistence specification. It offers an object-relational mapping solution to enterprise Java applications. In this chapter, we don't create new applications but re-write data persistence part based on chapter 9 with JPA. We will create a simple database with HSQL and implement a persistence layer using the DAO (Data Access Object) pattern to encapsulate all database related operations. We also have to annotate all entity classes that will be stored in the database with JPA annotations. To make the example close to a real application, we keep using the Spring framework and demonstrate how to integrate Spring with JPA.
Source Code
As we mentioned in the Chapter 2, our source code has 3 branches in github. The source code of this chapter's example belongs to a different branch in the github: chapter10.
We don't create new examples in this chapter, but we add 2 DAO classes written in JPA under the package org.zkoss.essentials.services.impl
.
Configuration
Maven
When using a database, JPA, and integration of JPA and Spring, we should add following dependencies based on chapter 9's configuration: (We add spring-web
and cglib
for Spring framework which is explained in chapter 9.)
<properties>
<zk.version>6.5.1</zk.version>
<maven.build.timestamp.format>yyyy-MM-dd</maven.build.timestamp.format>
<packname>-${project.version}-FL-${maven.build.timestamp}</packname>
<spring.version>3.1.2.RELEASE</spring.version>
</properties>
...
<!-- Spring 3 dependencies -->
<dependency>
<groupId>org.springframework</groupId>
<artifactId>spring-web</artifactId>
<version>${spring.version}</version>
</dependency>
<dependency>
<groupId>org.springframework</groupId>
<artifactId>spring-orm</artifactId>
<version>${spring.version}</version>
</dependency>
<dependency>
<groupId>cglib</groupId>
<artifactId>cglib</artifactId>
<version>2.2.2</version>
</dependency>
<!-- JPA(Hibernate) and HSQL dependencies -->
<dependency>
<groupId>org.hibernate</groupId>
<artifactId>hibernate-entitymanager</artifactId>
<version>4.0.0.Final</version>
</dependency>
<dependency>
<groupId>org.hsqldb</groupId>
<artifactId>hsqldb</artifactId>
<version>2.2.6</version>
</dependency>
...
- Line 5, 16~17: Spring provides a module to integrate several ORM (Object Relation Mapping) frameworks, integrating JPA requires this dependency.
- Line 27~28: There are various implementations of JPA specification, we choose Hibernate's one which is the most popular.
- Line 32~33: For using HSQL, we should add its JDBC driver.
Persistence Unit Configuration
We should describe persistence unit configuration in an XML file called persistence.xml
and we need to specify name
, transaction-type
, and properties
. The properties
are used by persistence provider (Hibernate) to establish database connection and setup vendor specific configurations.
<?xml version="1.0" encoding="UTF-8"?>
<persistence xmlns="http://java.sun.com/xml/ns/persistence" version="2.0">
<persistence-unit name="myapp" transaction-type="RESOURCE_LOCAL">
<provider>org.hibernate.ejb.HibernatePersistence</provider>
<properties>
<property name="hibernate.dialect"
value="org.hibernate.dialect.HSQLDialect" />
<property name="hibernate.connection.driver_class"
value="org.hsqldb.jdbcDriver" />
<property name="hibernate.connection.username" value="sa" />
<property name="hibernate.connection.password" value="" />
<property name="hibernate.show_sql" value="true" />
<property name="hibernate.connection.url"
value="jdbc:hsqldb:file:data/store" />
<property name="hibernate.hbm2ddl.auto" value="create" />
</properties>
</persistence-unit>
</persistence>
- Line 3: The persistence unit name
myapp
will be used later in Spring configuration.
Deployment Descriptor
You aren't required to add any special configuration for JPA to work. Here we add a Spring provided OpernEntityMangerInViewFilter
to resolve an issue caused by lazy-fetching in one-to-many mapping. Please refer to Developer's Reference for this issue in more detail.
Extracted from web.xml
...
<!-- Spring configuration -->
<!-- Initialize spring context -->
<listener>
<listener-class>
org.springframework.web.context.ContextLoaderListener
</listener-class>
</listener>
<!-- Enable webapp Scopes-->
<listener>
<listener-class>
org.springframework.web.context.request.RequestContextListener
</listener-class>
</listener>
<filter>
<filter-name>OpenEntityManagerInViewFilter
</filter-name>
<filter-class>
org.springframework.orm.jpa.support.OpenEntityManagerInViewFilter
</filter-class>
</filter>
<filter-mapping>
<filter-name>OpenEntityManagerInViewFilter</filter-name>
<url-pattern>/*</url-pattern>
</filter-mapping>
...
Entity Annotation
Before storing objects into a database, we should specify OR (object-relation) mapping for Java classes with meta data. After JDK 5.0, we can specify OR mapping as annotations instead of XML files. JPA supports configuration by exception which means that it defines default for most cases of application and users only need to override the configuration value when it is exception to the default, not necessary.
First, annotate the class with @Entity
to turn it into an entity, and annotate the member field for primary key with @Id
. All other annotations are optional and we use them to override default values.
Todo class used in todo-list management
@Entity
@Table(name="apptodo")
public class Todo implements Serializable, Cloneable {
@Id
@GeneratedValue(strategy=GenerationType.AUTO)
Integer id;
boolean complete;
@Column(nullable=false,length=128)
String subject;
@Column(nullable=false,length=128)
@Enumerated(EnumType.ORDINAL)
Priority priority;
@Temporal(TemporalType.TIMESTAMP)
Date date;
String description;
//omit getter, setter, hashCode(), equals() and other methods
}
Spring Beans Configuration
Spring JPA , available under the org.springframework.orm.jpa
package, offers integration support for Java Persistence API. According to Spring framework reference, there are three options for JPA setup. We choose the simplest one.
<beans xmlns="http://www.springframework.org/schema/beans"
xmlns:context="http://www.springframework.org/schema/context"
xmlns:tx="http://www.springframework.org/schema/tx"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xsi:schemaLocation="
http://www.springframework.org/schema/beans
http://www.springframework.org/schema/beans/spring-beans-3.0.xsd
http://www.springframework.org/schema/context
http://www.springframework.org/schema/context/spring-context-3.0.xsd
http://www.springframework.org/schema/tx
http://www.springframework.org/schema/tx/spring-tx-3.0.xsd">
<context:component-scan base-package="org.zkoss.essentials" />
<!-- jpa(hibernate) configuration -->
<bean id="entityManagerFactory"
class="org.springframework.orm.jpa.LocalEntityManagerFactoryBean">
<property name="persistenceUnitName" value="myapp"/>
</bean>
<bean id="transactionManager"
class="org.springframework.orm.jpa.JpaTransactionManager">
<property name="entityManagerFactory" ref="entityManagerFactory" />
</bean>
<tx:annotation-driven />
</beans>
- Line 16,17: The simplest Spring setup for JPA is to add a
LocalEntityManagerFactoryBean
which create aEntityManagerFactory
for simple deployment environments and specify itspersistenceUnitName
property. - Line 18: Set property
persistenceUnitName
with the name we specified inpersistence.xml
. - Line 21,26: Enable Spring's declarative transaction management.
DAO Implementation
The Data Access Object (DAO) pattern is a good practice to implement a persistence layer and it encapsulates data access codes from the business tier. A DAO object exposes an interface to a business object and performs persistence operation relating to a particular persistent entity. Now, we can implement persistence operations like CRUD in a DAO class with JPA and EntityManager
injected by Spring.
@Repository
public class TodoDao {
@PersistenceContext
private EntityManager em;
@Transactional(readOnly=true)
public List<Todo> queryAll() {
Query query = em.createQuery("SELECT t FROM Todo t");
List<Todo> result = query.getResultList();
return result;
}
...
@Transactional
public Todo save(Todo todo){
em.persist(todo);
return todo;
}
@Transactional
public Todo update(Todo todo){
todo = em.merge(todo);
return todo;
}
@Transactional
public void delete(Todo todo){
Todo r = get(todo.getId());
if(r!=null){
em.remove(r);
}
}
}
- Line 1: We register
TodoDao
as a Spring bean with@Repository
because it is a DAO class according to Spring's suggestion. - Line 4: As Spring manages our entity manager factory, it can understand
@PersistenceContext
and inject a transaction scopeEntityManager
for us. Hence, we don't need to createEntityManager
by our own. - Line 7: We have enabled Spring's declarative transaction management so that we can apply
@Transactional
on a methods.
After completing DAO classes, we can inject them to our service class with Spring's @Autowired
because they are all Spring beans.
@Service("todoListService")
@Scope(value="singleton",proxyMode=ScopedProxyMode.TARGET_CLASS)
public class TodoListServiceImpl implements TodoListService {
@Autowired
TodoDao dao;
public List<Todo>getTodoList() {
return dao.queryAll();
}
...
}
Completing the above steps, we have created a dependency relationship among the controller, service, and persistence classes as follows:
Each of these classes encapsulates cohesive functions and has decoupled relationships with others. You can easily expand the architecture by adding more classes or create dependencies between two layers.
You can visit http://localhost:8080/essentials to see the result.
Conclusion
Our book ends here. But the adventure toward ZK just begins. This book opens you a door and introduces you some basic concepts and usages of ZK. You can start to deploy ZK to your server according to ZK Installation Guide which contains information you will use in deploying to web servers. For further development help, the ZK_Developer's Reference contains complete references for various topics in developing ZK based applications (i.e. for this chapter: Middleware Layer/ Spring or Persistence Layer/ JPA). ZUML Reference describes syntax and EL expression used in a zul. If you want to know details of a component, please refer to the ZK Component Reference. ZK also provides lots of configuration, you can take a look at ZK Configuration Reference.
We hope you can make use of what you learn here to obtain an even greater knowledge of ZK.
Source Code