Hibernate ——二级缓存
一、Hibernate 二级缓存
1.Hibernate 二级缓存是 SessionFactory 级别的缓存。
2.二级缓存分为两类:
(1)Hibernate内置二级缓存
(2)外置缓存,可配置的,可插拨的,外置缓存中的数据是数据库数据的复制。
3.二级缓存的并发访问策略
(1)两个并发的事务同时访问持久层的缓存的相同数据时,也有可能出现并发问题。
(2)二级缓存可以设定以下 4 中并发访问策略,每一种对应一种事务隔离级别。
- 非严格读写(Nonstrict-read-write):不保证缓存与数据库中数据的一致性。对应 Read UnCommited 事务隔离级别。
- 读写型(Read-write):提供 Read Commited 级别的事务隔离级别。
- 事务型(Transactional):对应 Repeatable Read 级别的事务隔离级别。
- 只读型(Read-Only):提供 Serializable 级别的数据隔离级别。
4.Hibernate 二级缓存是进程或集群范围内的缓存。是可配置的的插件。这里以 Ehcache 为例。不支持事务型的并发访问策略。
5.配置 Ehcache
(1)添加 Jar 包
(2)在 Hibernate 配置文件中启用二级缓存并指定适配的缓存适配器。
在 <session-factory> 元素内添加:
<property name="cache.use_second_level_cache">true</property> <property name="hibernate.cache.region.factory_class">org.hibernate.cache.ehcache.EhCacheRegionFactory</property>
(3)在 Hibernate 配置文件中配置需要使用二级缓存的持久化类,并设置它的二级缓存的并发访问策略。如:
<class-cache class="com.solverpeng.hql.Department" usage="read-write"/>
需要注意的是:<session-factory> 元素内子元素的顺序:property*, mapping*, (class-cache|collection-cache)*, event*, listener*,class-cache 元素必须位于 mapping 节点后。
(4)或者也可以在 hbm 文件中配置,如:
<hibernate-mapping> <class name="com.solverpeng.hql.Employee" table="employee" schema="hibernate"> <cache usage="read-write"/> <id name="empId" column="emp_id"/> <property name="empName" column="emp_name"/> <property name="salary" column="salary"/> <many-to-one name="dept" class="com.solverpeng.hql.Department"> <column name="dept_id_fk" not-null="true"/> </many-to-one> </class> </hibernate-mapping>
6. 测试 Hibernate 二级缓存
(1)查询单个对象缓存
@Test public void testSecondCache() { Employee o = (Employee) session.get(Employee.class, 6); System.out.println(o); transaction.commit(); session.close(); session = factory.openSession(); transaction = session.beginTransaction(); Employee o1 = (Employee) session.get(Employee.class, 6); System.out.println(o1); }
查询同一个对象两次,中间关闭 Session 再开启。
没有配置二级缓存:
Hibernate: select employee0_.emp_id as emp1_1_0_, employee0_.emp_name as emp2_1_0_, employee0_.salary as salary3_1_0_, employee0_.dept_id_fk as dept4_1_0_ from hibernate.employee employee0_ where employee0_.emp_id=? com.solverpeng.hql.Employee@40dd58f3 Hibernate: select employee0_.emp_id as emp1_1_0_, employee0_.emp_name as emp2_1_0_, employee0_.salary as salary3_1_0_, employee0_.dept_id_fk as dept4_1_0_ from hibernate.employee employee0_ where employee0_.emp_id=? com.solverpeng.hql.Employee@40dd58f3
结果:
发送了2条 SQL 语句。
配置二级缓存后(可以在Hibernate 配置文件中配置,也可以在 Employee hbm 配置文件中配置):
Hibernate: select employee0_.emp_id as emp1_1_0_, employee0_.emp_name as emp2_1_0_, employee0_.salary as salary3_1_0_, employee0_.dept_id_fk as dept4_1_0_ from hibernate.employee employee0_ where employee0_.emp_id=? com.solverpeng.hql.Employee@40dd58f3 com.solverpeng.hql.Employee@40dd58f3
结果:
只发送了1条 SQL 语句。
(2)集合缓存
@Test public void testCollectionSecondLevelCache() { Department department = (Department) session.get(Department.class, 6); System.out.println(department.getDeptName()); System.out.println(department.getEmps().size()); transaction.commit(); session.close(); session = factory.openSession(); transaction = session.beginTransaction(); Department department2 = (Department) session.get(Department.class, 6); System.out.println(department2.getDeptName()); System.out.println(department2.getEmps().size()); }
在没有配置二级缓存的情况下:
Hibernate: select department0_.dept_id as dept1_0_0_, department0_.dept_name as dept2_0_0_ from hibernate.department department0_ where department0_.dept_id=? dept-aa Hibernate: select emps0_.dept_id_fk as dept4_0_1_, emps0_.emp_id as emp1_1_1_, emps0_.emp_id as emp1_1_0_, emps0_.emp_name as emp2_1_0_, emps0_.salary as salary3_1_0_, emps0_.dept_id_fk as dept4_1_0_ from hibernate.employee emps0_ where emps0_.dept_id_fk=? 3 Hibernate: select department0_.dept_id as dept1_0_0_, department0_.dept_name as dept2_0_0_ from hibernate.department department0_ where department0_.dept_id=? dept-aa Hibernate: select emps0_.dept_id_fk as dept4_0_1_, emps0_.emp_id as emp1_1_1_, emps0_.emp_id as emp1_1_0_, emps0_.emp_name as emp2_1_0_, emps0_.salary as salary3_1_0_, emps0_.dept_id_fk as dept4_1_0_ from hibernate.employee emps0_ where emps0_.dept_id_fk=? 3
结果:
查询了两次 Department,两次Employee
只配置 Department 二级缓存:
<class-cache class="com.solverpeng.hql.Department" usage="read-write"/>
Hibernate: select department0_.dept_id as dept1_0_0_, department0_.dept_name as dept2_0_0_ from hibernate.department department0_ where department0_.dept_id=? dept-aa Hibernate: select emps0_.dept_id_fk as dept4_0_1_, emps0_.emp_id as emp1_1_1_, emps0_.emp_id as emp1_1_0_, emps0_.emp_name as emp2_1_0_, emps0_.salary as salary3_1_0_, emps0_.dept_id_fk as dept4_1_0_ from hibernate.employee emps0_ where emps0_.dept_id_fk=? 3 dept-aa Hibernate: select emps0_.dept_id_fk as dept4_0_1_, emps0_.emp_id as emp1_1_1_, emps0_.emp_id as emp1_1_0_, emps0_.emp_name as emp2_1_0_, emps0_.salary as salary3_1_0_, emps0_.dept_id_fk as dept4_1_0_ from hibernate.employee emps0_ where emps0_.dept_id_fk=? 3
结果:
只查询了一次 Department,2次Employee。
说明:
开启 Department 二级缓存后,会对 Department 进行缓存,而与其关联的 emps 不会进行缓存。
配置 Department 二级缓存,同时配置关联的 emps 缓存。
<class-cache class="com.solverpeng.hql.Department" usage="read-write"/> <collection-cache collection="com.solverpeng.hql.Department.emps" usage="read-write"/>
Hibernate:
select
department0_.dept_id as dept1_0_0_,
department0_.dept_name as dept2_0_0_
from
hibernate.department department0_
where
department0_.dept_id=?
dept-aa
Hibernate:
select
emps0_.dept_id_fk as dept4_0_1_,
emps0_.emp_id as emp1_1_1_,
emps0_.emp_id as emp1_1_0_,
emps0_.emp_name as emp2_1_0_,
emps0_.salary as salary3_1_0_,
emps0_.dept_id_fk as dept4_1_0_
from
hibernate.employee emps0_
where
emps0_.dept_id_fk=?
3
-----------------------------
dept-aa
Hibernate:
select
employee0_.emp_id as emp1_1_0_,
employee0_.emp_name as emp2_1_0_,
employee0_.salary as salary3_1_0_,
employee0_.dept_id_fk as dept4_1_0_
from
hibernate.employee employee0_
where
employee0_.emp_id=?
Hibernate:
select
employee0_.emp_id as emp1_1_0_,
employee0_.emp_name as emp2_1_0_,
employee0_.salary as salary3_1_0_,
employee0_.dept_id_fk as dept4_1_0_
from
hibernate.employee employee0_
where
employee0_.emp_id=?
Hibernate:
select
employee0_.emp_id as emp1_1_0_,
employee0_.emp_name as emp2_1_0_,
employee0_.salary as salary3_1_0_,
employee0_.dept_id_fk as dept4_1_0_
from
hibernate.employee employee0_
where
employee0_.emp_id=?
3
结果:
发送了更多的查询 Employee 的SQL。
说明:
开启集合的二级缓存后,此时会缓存集合中对象的 id ,而不会对集合中的对象进行缓存。若想缓存,需要关联的集合中的对象也开启二级缓存。如:
<class-cache class="com.solverpeng.hql.Department" usage="read-write"/> <collection-cache collection="com.solverpeng.hql.Department.emps" usage="read-write"/> <class-cache class="com.solverpeng.hql.Employee" usage="read-write"/>
Hibernate:
select
department0_.dept_id as dept1_0_0_,
department0_.dept_name as dept2_0_0_
from
hibernate.department department0_
where
department0_.dept_id=?
dept-aa
Hibernate:
select
emps0_.dept_id_fk as dept4_0_1_,
emps0_.emp_id as emp1_1_1_,
emps0_.emp_id as emp1_1_0_,
emps0_.emp_name as emp2_1_0_,
emps0_.salary as salary3_1_0_,
emps0_.dept_id_fk as dept4_1_0_
from
hibernate.employee emps0_
where
emps0_.dept_id_fk=?
3
-----------------------------
dept-aa
3
结果:
除 Department 外,关联的 Employee 也被缓存了。
(3)查询缓存(针对 HQL、QBC)
在二级缓存开启的情况下,HQL、QBC 也不能对查询进行缓存。
@Test public void testQueryCache() { Query query = session.createQuery("from Employee "); List<Employee> list = query.list(); System.out.println(list.size()); List<Employee> emps2 = query.list(); System.out.println(emps2.size()); }
Hibernate: select employee0_.emp_id as emp1_1_, employee0_.emp_name as emp2_1_, employee0_.salary as salary3_1_, employee0_.dept_id_fk as dept4_1_ from hibernate.employee employee0_ 12 Hibernate: select employee0_.emp_id as emp1_1_, employee0_.emp_name as emp2_1_, employee0_.salary as salary3_1_, employee0_.dept_id_fk as dept4_1_ from hibernate.employee employee0_ 12
开启查询缓存:
- 在 Hibernate 配置文件中开启查询缓存
- 若想启用查询缓存的查询语句,需要调用 Query 或 Criteria 的 setCacheable() 方法。
- 查询缓存依赖于二级缓存
<property name="hibernate.cache.use_query_cache">true</property>
@Test public void testQueryCache() { Query query = session.createQuery("from Employee "); query.setCacheable(true); List<Employee> list = query.list(); System.out.println(list.size()); List<Employee> emps2 = query.list(); System.out.println(emps2.size()); }
Hibernate:
select
employee0_.emp_id as emp1_1_,
employee0_.emp_name as emp2_1_,
employee0_.salary as salary3_1_,
employee0_.dept_id_fk as dept4_1_
from
hibernate.employee employee0_
12
12
(4)时间戳缓存区域:时间戳缓存区存放了对于查询结果相关的表进行插入、更新或删除操作的时间戳。Hibernate通过时间戳缓存区来判定被缓存的查询结果是否过期。
@Test public void testTimStampCache() { Query query = session.createQuery("from Employee "); query.setCacheable(true); List<Employee> list = query.list(); System.out.println(list.size()); Employee employee = (Employee) session.get(Employee.class, 6); employee.setEmpName("emp@@"); List<Employee> emps2 = query.list(); System.out.println(emps2.size()); }
Hibernate: select employee0_.emp_id as emp1_1_, employee0_.emp_name as emp2_1_, employee0_.salary as salary3_1_, employee0_.dept_id_fk as dept4_1_ from hibernate.employee employee0_ 12 Hibernate: update hibernate.employee set emp_name=?, salary=?, dept_id_fk=? where emp_id=? Hibernate: select employee0_.emp_id as emp1_1_, employee0_.emp_name as emp2_1_, employee0_.salary as salary3_1_, employee0_.dept_id_fk as dept4_1_ from hibernate.employee employee0_ 12
二、ehcache.xml
<ehcache> <diskStore path="java.io.tmpdir"/> <defaultCache maxElementsInMemory="10000" eternal="false" timeToIdleSeconds="120" timeToLiveSeconds="120" overflowToDisk="true" /> <cache name="sampleCache1" maxElementsInMemory="10000" eternal="false" timeToIdleSeconds="300" timeToLiveSeconds="600" overflowToDisk="true" /> <cache name="sampleCache2" maxElementsInMemory="1000" eternal="true" timeToIdleSeconds="0" timeToLiveSeconds="0" overflowToDisk="false" /> </ehcache>
1.<diskStore>: 指定一个目录:当 EHCache 把数据写到硬盘上时, 将把数据写到这个目录下.
2.<defaultCache>: 设置缓存的默认数据过期策略
3.<cache> 设定具体的命名缓存的数据过期策略。每个命名缓存代表一个缓存区域
4.缓存区域(region):一个具有名称的缓存块,可以给每一个缓存块设置不同的缓存策略。如果没有设置任何的缓存区域,则所有被缓存的对象,都将使用默认的缓存策略。即:<defaultCache.../>
5.Hibernate在不同的缓存区域保存不同的类/集合。
- 对于类而言,区域的名称是类名。如:com.atguigu.domain.Customer
- 对于集合而言,区域的名称是类名加属性名。如com.atguigu.domain.Customer.orders
6.cache 元素的属性
(1)name:设置缓存的名字,它的取值为类的全限定名或类的集合的名字
(2)maxInMemory:设置基于内存的缓存中可存放的对象最大数目
(3)eternal:设置对象是否为永久的,true表示永不过期,此时将忽略timeToIdleSeconds 和 timeToLiveSeconds属性; 默认值是false。
(4)timeToIdleSeconds:设置对象空闲最长时间,以秒为单位, 超过这个时间,对象过期。当对象过期时,EHCache会把它从缓存中清除。如果此值为0,表示对象可以无限期地处于空闲状态。
(5)timeToLiveSeconds:设置对象生存最长时间,超过这个时间,对象过期。如果此值为0,表示对象可以无限期地存在于缓存中. 该属性值必须大于或等于 timeToIdleSeconds 属性值。
(6)overflowToDisk:设置基于内存的缓存中的对象数目达到上限后,是否把溢出的对象写到基于硬盘的缓存中。
三、管理 Session
–Session 对象的生命周期与本地线程绑定
–Session 对象的生命周期与 JTA 事务绑定
–Hibernate 委托程序管理 Session 对象的生命周期
四、批量处理数据
建议通过 JDBC 的方式来进行批量操作。
@Test public void testBathch() { session.doWork(new Work() { @Override public void execute(Connection connection) throws SQLException { // 执行批量操作 } }); }
五、总结
配置 Hibernate 二级缓存的步骤:
1.配置 Hibernate 配置文件
(1)配置启用二级缓存
<property name="cache.use_second_level_cache">true</property>
(2)配置二级缓存使用的产品
<property name="hibernate.cache.region.factory_class">org.hibernate.cache.ehcache.EhCacheRegionFactory</property>
(3)配置对哪些类使用 hibernate 的二级缓存以及并发策略
<class-cache class="com.solverpeng.hql.Department" usage="read-write"/> <collection-cache collection="com.solverpeng.hql.Department.emps" usage="read-write"/> <class-cache class="com.solverpeng.hql.Employee" usage="read-write"/>
(4)在 hbm 文件中配置缓存
<set name="emps" inverse="true"> <cache usage="read-write"/> <key> <column name="dept_id_fk" not-null="true"/> </key> <one-to-many not-found="ignore" class="com.solverpeng.hql.Employee"/> </set>
2. 对于集合缓存来说,还需要配置集合中的元素对应的持久化类也使用二级缓存! 否则将会多出 n 条 SQL 语句.
3. 查询缓存
(1)在 Hibernate 配置文件中开启查询缓存支持:<property name="cache.use_query_cache">true</property>
(2)调用 Query 或 Criteria 的 setCacheable(true)方法
(3)查询缓存依赖于二级缓存