Spring Boot 2.x基础教程:使用JTA实现分布式事务
2014 年 10 月 15 日
在一个Spring Boot项目中,连接多个数据源还是比较常见的。之前也介绍了如何在几种常用框架的场景下配置多数据源,具体可见:
- Spring Boot 2.x基础教程:JdbcTemplate的多数据源配置
- Spring Boot 2.x基础教程:Spring Data JPA的多数据源配置
- Spring Boot 2.x基础教程:MyBatis的多数据源配置
当我们采用多数据源的时候,同时也会出现一个这样的特殊场景:我们希望对A数据源的更新和B数据源的更新具备事务性。这样的例子很常见,比如:在订单库中创建一条订单记录,同时还需要在商品库中扣减商品库存。如果库存扣减失败,那么我们希望订单创建也能够回滚。
如果这两条数据在一个数据库中,那么通过之前介绍的事务管理就能轻松解决了。但是,当这两个操作位于不同的数据库中,那么就无法实现了。
本文就来介绍一种解决这类问题的方法:JTA事务。
什么是JTA
JTA,全称:Java Transaction API。JTA事务比JDBC事务更强大。一个JTA事务可以有多个参与者,而一个JDBC事务则被限定在一个单一的数据库连接。所以,当我们在同时操作多个数据库的时候,使用JTA事务就可以弥补JDBC事务的不足。
在Spring Boot 2.x中,整合了这两个JTA的实现:
spring-boot-starter-jta-atomikos spring-boot-starter-jta-bitronix
由于Bitronix自Spring Boot 2.3.0开始不推荐使用,所以在下面的动手环节中,我们将使用Atomikos作为例子来介绍JTA的使用。
动手试试
下面我们就来实操一下,如何在Spring Boot中使用JTA来实现多数据源下的事务管理。
准备工作
-
这里我们将使用最基础的JdbcTemplate来实现数据访问,所以如果你还不会使用JdbcTemplate配置多数据源,建议先看一下 JdbcTemplate的多数据源配置 。
-
场景设定:
- 假设我们有两个库,分别为:test1和test2
- 这两个库中都有一张User表,我们希望这两张表中的数据是一致的
- 假设这两张表中都已经有一条数据:name=aaa,age=30;因为这两张表中数据是一致的,所以要update的时候,就必须两个库中的User表更新时候,要么都成功,要么都失败。
操作详细
- 在
pom.xml中加入JTA的实现Atomikos的Starter
org.springframework.boot
spring-boot-starter-jta-atomikos
- 在
application.properties配置文件中配置两个test1和test2数据源
spring.jta.enabled=true spring.jta.atomikos.datasource.primary.xa-properties.url=jdbc:mysql://localhost:3306/test1 spring.jta.atomikos.datasource.primary.xa-properties.user=root spring.jta.atomikos.datasource.primary.xa-properties.password=12345678 spring.jta.atomikos.datasource.primary.xa-data-source-class-name=com.mysql.cj.jdbc.MysqlXADataSource spring.jta.atomikos.datasource.primary.unique-resource-name=test1 spring.jta.atomikos.datasource.primary.max-pool-size=25 spring.jta.atomikos.datasource.primary.min-pool-size=3 spring.jta.atomikos.datasource.primary.max-lifetime=20000 spring.jta.atomikos.datasource.primary.borrow-connection-timeout=10000 spring.jta.atomikos.datasource.secondary.xa-properties.url=jdbc:mysql://localhost:3306/test2 spring.jta.atomikos.datasource.secondary.xa-properties.user=root spring.jta.atomikos.datasource.secondary.xa-properties.password=12345678 spring.jta.atomikos.datasource.secondary.xa-data-source-class-name=com.mysql.cj.jdbc.MysqlXADataSource spring.jta.atomikos.datasource.secondary.unique-resource-name=test2 spring.jta.atomikos.datasource.secondary.max-pool-size=25 spring.jta.atomikos.datasource.secondary.min-pool-size=3 spring.jta.atomikos.datasource.secondary.max-lifetime=20000 spring.jta.atomikos.datasource.secondary.borrow-connection-timeout=10000
- 创建多数据源配置类
@Configuration
public class DataSourceConfiguration {
@Primary
@Bean
@ConfigurationProperties(prefix = "spring.jta.atomikos.datasource.primary")
public DataSource primaryDataSource() {
return new AtomikosDataSourceBean();
}
@Bean
@ConfigurationProperties(prefix = "spring.jta.atomikos.datasource.secondary")
public DataSource secondaryDataSource() {
return new AtomikosDataSourceBean();
}
@Bean
public JdbcTemplate primaryJdbcTemplate(@Qualifier("primaryDataSource") DataSource primaryDataSource) {
return new JdbcTemplate(primaryDataSource);
}
@Bean
public JdbcTemplate secondaryJdbcTemplate(@Qualifier("secondaryDataSource") DataSource secondaryDataSource) {
return new JdbcTemplate(secondaryDataSource);
}
}
注意,这里除了家在的配置不同之外, DataSource 也采用了 AtomikosDataSourceBean 注意与之前配置多数据源使用的配置和实现类的区别。
- 创建一个Service实现,模拟两种不同的情况。
@Service
public class TestService {
private JdbcTemplate primaryJdbcTemplate;
private JdbcTemplate secondaryJdbcTemplate;
public TestService(JdbcTemplate primaryJdbcTemplate, JdbcTemplate secondaryJdbcTemplate) {
this.primaryJdbcTemplate = primaryJdbcTemplate;
this.secondaryJdbcTemplate = secondaryJdbcTemplate;
}
@Transactional
public void tx() {
// 修改test1库中的数据
primaryJdbcTemplate.update("update user set age = ? where name = ?", 30, "aaa");
// 修改test2库中的数据
secondaryJdbcTemplate.update("update user set age = ? where name = ?", 30, "aaa");
}
@Transactional
public void tx2() {
// 修改test1库中的数据
primaryJdbcTemplate.update("update user set age = ? where name = ?", 40, "aaa");
// 模拟:修改test2库之前抛出异常
throw new RuntimeException();
}
}
这里tx函数,是两句update操作,一般都会成功;而tx2函数中,我们人为的制造了一个异常,这个异常是在test1库中的数据更新后才产生的,这样就可以测试一下test1更新成功,之后是否还能在JTA的帮助下实现回滚。
- 创建测试类,编写测试用例
@SpringBootTest(classes = Chapter312Application.class)
public class Chapter312ApplicationTests {
@Autowired
protected JdbcTemplate primaryJdbcTemplate;
@Autowired
protected JdbcTemplate secondaryJdbcTemplate;
@Autowired
private TestService testService;
@Test
public void test1() throws Exception {
// 正确更新的情况
testService.tx();
Assertions.assertEquals(30, primaryJdbcTemplate.queryForObject("select age from user where name=?", Integer.class, "aaa"));
Assertions.assertEquals(30, secondaryJdbcTemplate.queryForObject("select age from user where name=?", Integer.class, "aaa"));
}
@Test
public void test2() throws Exception {
// 更新失败的情况
try {
testService.tx2();
} catch (Exception e) {
e.printStackTrace();
} finally {
// 部分更新失败,test1中的更新应该回滚
Assertions.assertEquals(30, primaryJdbcTemplate.queryForObject("select age from user where name=?", Integer.class, "aaa"));
Assertions.assertEquals(30, secondaryJdbcTemplate.queryForObject("select age from user where name=?", Integer.class, "aaa"));
}
}
}
这里有两个测试用例:
- test1:因为没有故意制造的异常,不出意外两个库的update都会成功,所以根据name=aaa去把两个数据查出来,看age是否都被更新到了30。
- test2:tx2函数会把test1中name=aaa的用户age更新为40,然后抛出异常,JTA事务生效的话,会把age回滚回30,所以这里的检查也是两个库的aaa用户的age应该都为30,这样就意味着JTA事务生效,保证了test1和test2两个库中的User表数据更新一致,没有制造出脏数据。
测试验证
将上面编写的单元测试运行起来:
观察一下启动阶段的日志,可以看到这些Atomikos初始化日志输出:
2021-02-02 19:00:36.145 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.default_max_wait_time_on_shutdown = 9223372036854775807 2021-02-02 19:00:36.145 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.allow_subtransactions = true 2021-02-02 19:00:36.145 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.recovery_delay = 10000 2021-02-02 19:00:36.145 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.automatic_resource_registration = true 2021-02-02 19:00:36.145 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.oltp_max_retries = 5 2021-02-02 19:00:36.145 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.client_demarcation = false 2021-02-02 19:00:36.145 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.threaded_2pc = false 2021-02-02 19:00:36.145 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.serial_jta_transactions = true 2021-02-02 19:00:36.145 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.log_base_dir = /Users/didi/Documents/GitHub/SpringBoot-Learning/2.x/chapter3-12/transaction-logs 2021-02-02 19:00:36.145 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.rmi_export_class = none 2021-02-02 19:00:36.145 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.max_actives = 50 2021-02-02 19:00:36.145 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.checkpoint_interval = 500 2021-02-02 19:00:36.145 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.enable_logging = true 2021-02-02 19:00:36.145 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.log_base_name = tmlog 2021-02-02 19:00:36.146 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.max_timeout = 300000 2021-02-02 19:00:36.146 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.trust_client_tm = false 2021-02-02 19:00:36.146 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: java.naming.factory.initial = com.sun.jndi.rmi.registry.RegistryContextFactory 2021-02-02 19:00:36.146 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.tm_unique_name = 127.0.0.1.tm 2021-02-02 19:00:36.146 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.forget_orphaned_log_entries_delay = 86400000 2021-02-02 19:00:36.146 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.oltp_retry_interval = 10000 2021-02-02 19:00:36.146 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: java.naming.provider.url = rmi://localhost:1099 2021-02-02 19:00:36.146 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.force_shutdown_on_vm_exit = false 2021-02-02 19:00:36.146 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : USING: com.atomikos.icatch.default_jta_timeout = 10000 2021-02-02 19:00:36.147 INFO 8868 --- [ main] c.a.icatch.provider.imp.AssemblerImp : Using default (local) logging and recovery... 2021-02-02 19:00:36.184 INFO 8868 --- [ main] c.a.d.xa.XATransactionalResource : test1: refreshed XAResource 2021-02-02 19:00:36.203 INFO 8868 --- [ main] c.a.d.xa.XATransactionalResource : test2: refreshed XAResource
同时,我们在 transaction-logs 目录下,还能找到关于事务的日志信息:
{"id":"127.0.0.1.tm161226409083100001","wasCommitted":true,"participants":[{"uri":"127.0.0.1.tm1","state":"COMMITTING","expires":1612264100801,"resourceName":"test1"},{"uri":"127.0.0.1.tm2","state":"COMMITTING","expires":1612264100801,"resourceName":"test2"}]}
{"id":"127.0.0.1.tm161226409083100001","wasCommitted":true,"participants":[{"uri":"127.0.0.1.tm1","state":"TERMINATED","expires":1612264100804,"resourceName":"test1"},{"uri":"127.0.0.1.tm2","state":"TERMINATED","expires":1612264100804,"resourceName":"test2"}]}
{"id":"127.0.0.1.tm161226409092800002","wasCommitted":false,"participants":[{"uri":"127.0.0.1.tm3","state":"TERMINATED","expires":1612264100832,"resourceName":"test1"}]}
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代码示例
本文的相关例子可以查看下面仓库中的 chapter3-12 目录:
- Github: https://github.com/dyc87112/SpringBoot-Learning/
- Gitee: https://gitee.com/didispace/SpringBoot-Learning/
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