一、简述事物处理
1、事物处理的基本概念
1)提交:所有操作步骤都被完整执行后,称该事物被提交
2)回滚:某步操作执行失败,所有操作都没被提交,则事物必须被回滚
2、事物处理的特性(ACID)
1)原子性
2)一致性
3)隔离性
4)持久性
二、事物处理的3种方式
1、关系型数据库的事物处理
1)Begin Transaction(启动事务处理)
2)Commit或RollBack(提交或回滚)
3)End Transaction(提交事务处理)
2、传统的JDBC事务处理
package com.gc.action; import org.junit.Test;
import javax.sql.DataSource;
import java.sql.Connection;
import java.sql.SQLException;
import java.sql.Statement; /**
* Created by sky on 16-7-18.
*/
public class JdbcHelloWorld {
DataSource dataSource;
//获取数据源
public void setDataSource(DataSource dataSource) {
this.dataSource = dataSource;
} @Test
public void test() {
Connection conn = null;
Statement stmt = null; try {//获取数据库连接
dataSource.getConnection();
//开始启动事务
//Sets this connection's auto-commit mode to the given state.
conn.setAutoCommit(false);
//Creates a Statement object for sending SQL statements to the database.
conn.createStatement();
//执行相应的操作
stmt.executeUpdate("INSERT INTO hello VALUES (1, 'gf', 'HelloWorld')");
//执行成功则提交事务
conn.commit();
} catch (SQLException e1) {
if (conn != null) {
try {
//执行不成功则回滚
conn.rollback();
} catch (SQLException e2) {
System.out.println("数据库连接有异常" + e2);
}
}
} finally {
//加入stmt不为空,则关闭stmt
if (stmt != null) {
try {
stmt.close();
} catch (SQLException e3) {
System.out.println("执行操作有异常" + e3);
}
}
if (conn != null) {
try {
conn.close();
} catch (SQLException e4) {
System.out.println("数据连接有异常" + e4);
}
}
} }
}
3、分布式事务处理
原子性、多个事务管理器合作
三、Spring的事务处理
1、Spring事务处理的概述
Spring中事务处理实际上是基于动态AOP机制实现
package org.springframework.transaction; import org.springframework.transaction.TransactionDefinition;
import org.springframework.transaction.TransactionException;
import org.springframework.transaction.TransactionStatus; public interface PlatformTransactionManager {
//目前的事务
TransactionStatus getTransaction(TransactionDefinition var1) throws TransactionException;
void commit(TransactionStatus var1) throws TransactionException;
void rollback(TransactionStatus var1) throws TransactionException;
}
TransactionDefinition代表着事务处理的一些属性定义
package org.springframework.transaction;
public interface TransactionDefinition {
int PROPAGATION_REQUIRED = 0;
int PROPAGATION_SUPPORTS = 1;
int PROPAGATION_MANDATORY = 2;
int PROPAGATION_REQUIRES_NEW = 3;
int PROPAGATION_NOT_SUPPORTED = 4;
int PROPAGATION_NEVER = 5;
int PROPAGATION_NESTED = 6;
int ISOLATION_DEFAULT = -1;
int ISOLATION_READ_UNCOMMITTED = 1;
int ISOLATION_READ_COMMITTED = 2;
int ISOLATION_REPEATABLE_READ = 4;
int ISOLATION_SERIALIZABLE = 8;
int TIMEOUT_DEFAULT = -1;
//获得事务的传播行为
int getPropagationBehavior();
//获得事务的隔离层次
int getIsolationLevel();
//获得事务是否超时
int getTimeout();
//判断是否为只读事务
boolean isReadOnly();
//返回一个事务的名字
String getName();
}
TransactionStatus代表了目前的事务
package org.springframework.transaction;
import java.io.Flushable;
import org.springframework.transaction.SavepointManager;
public interface TransactionStatus extends SavepointManager, Flushable {
//判断是否是一个事务
boolean isNewTransaction();
boolean hasSavepoint();
//设定为只读事务
void setRollbackOnly();
//判断是否为只读事务
boolean isRollbackOnly();
void flush();
//判断一个事务是否完成
boolean isCompleted();
}