概述
前言
其实很多人对分库分表多少都有点恐惧,其实我也是,总觉得这玩意是运维干的、数据量上来了或者sql过于复杂、一些数据分片的中间件支持的也不是很友好、配置繁琐等多种问题。
我们今天用ShardingSphere 给大家演示数据分片,包括分库分表、只分表不分库进行说明。
下一节有时间的话在讲讲读写分离吧。
github地址:https://github.com/362460453/boot-sharding-JDBC
ShardingSphere介绍
ShardingSphere是一套开源的分布式数据库中间件解决方案组成的生态圈,它由Sharding-JDBC、Sharding-Proxy和Sharding-Sidecar(计划中)这3款相互独立的产品组成。 他们均提供标准化的数据分片、分布式事务和数据库治理功能,可适用于如Java同构、异构语言、容器、云原生等各种多样化的应用场景。
ShardingSphere的功能能帮助我们做什么
- 数据分片
- 读写分离
- 编排治理
- 分布式事务
2016年初Sharding-JDBC被开源,这个产品是当当的,加入了Apache 后改名为 ShardingSphere 。他是我们应用和数据库之间的中间层,虽代码入侵性很强,但不会对现有业务逻辑进行改变。
更多文档请点击官网:https://shardingsphere.apache.org/document/current/en/overview/
为什么不用mycat
大家如果去查相关资料会知道,mycat和ShardingSphere是同类型的中间件,主要的功能,数据分片和读写分离两个都能去做,但是姿势却有很大的差别, 从字面意义上看Sharding 含义是分片、碎片的意思,所以不难理解ShardingSphere 对数据分片有很强对能力,对于99%对sql都是支持的,官网也有sql支持的相关内容,大家详细阅读,只有 类似sum 这种函数不支持,而且对 ORM框架和常用数据库基本都兼容,所以个人建议如果你们做数据分片,也就是是分库分表对话,强烈建议选择ShardingSphere,因为我私下也和一些朋友交流过,mycat 的数据分片对多表查询不是很友好,而且用 mycat 要有很强的运维来做,还有一点就是mycat 都是靠xml配置的,没有代码入侵,所以这也算是他的优点吧。如果你们只做读写分离对话,那么我建议用mycat,是没问题的。
实践前的准备工作
启动你的mysql,创建两个数据库,分别叫 sharding_master 和 sharding_salve分别在这两个数据库执行如下sql
CREATE TABLE IF NOT EXISTS `t_order_0` ( `order_id` INT NOT NULL, `user_id` INT NOT NULL, PRIMARY KEY (`order_id`) ); CREATE TABLE IF NOT EXISTS `t_order_1` ( `order_id` INT NOT NULL, `user_id` INT NOT NULL, PRIMARY KEY (`order_id`) );
做完以上两步结果如下
代码案例
环境
工具 | 版本 |
jdk |
1.8.0_144 |
springboot | 2.0.4.RELEASE |
sharding | 1.3.1 |
mysql | 5.7 |
创建一个springboot工程,我们使用 JdbcTemplate 框架,如果用mybatis也是无影响的。
pom引用依赖如下
<parent> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-parent</artifactId> <version>2.0.4.RELEASE</version> </parent> <properties> <java.version>1.8</java.version> <druid.version>1.0.26</druid.version> <sharding.jdbc.core.version>1.3.3</sharding.jdbc.core.version> </properties> <dependencies> <dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-web</artifactId> </dependency> <dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-jdbc</artifactId> </dependency> <dependency> <groupId>mysql</groupId> <artifactId>mysql-connector-java</artifactId> </dependency> <dependency> <groupId>com.dangdang</groupId> <artifactId>sharding-jdbc-core</artifactId> <version>${sharding.jdbc.core.version}</version> </dependency> <dependency> <groupId>com.alibaba</groupId> <artifactId>druid</artifactId> <version>${druid.version}</version> </dependency> </dependencies>
application.yml 配置如下
server: port: 8050 sharding: jdbc: driverClassName: com.mysql.jdbc.Driver url: jdbc:mysql://localhost:3306/sharding_master?useUnicode=true&characterEncoding=UTF-8&autoReconnect=true&failOverReadOnly=false username: root password: 123456 filters: stat maxActive: 100 initialSize: 1 maxWait: 15000 minIdle: 1 timeBetweenEvictionRunsMillis: 30000 minEvictableIdleTimeMillis: 180000 validationQuery: SELECT 'x' testWhileIdle: true testOnBorrow: false testOnReturn: false poolPreparedStatements: false maxPoolPreparedStatementPerConnectionSize: 20 removeAbandoned: true removeAbandonedTimeout: 600 logAbandoned: false connectionInitSqls: url0: jdbc:mysql://localhost:3306/sharding_master?useUnicode=true&characterEncoding=UTF-8&autoReconnect=true&failOverReadOnly=false username0: root password0: 123456 url1: jdbc:mysql://localhost:3306/sharding_salve?useUnicode=true&characterEncoding=UTF-8&autoReconnect=true&failOverReadOnly=false username1: root password1: 123456
yml映射成Bean
@Data @ConfigurationProperties(prefix="sharding.jdbc") public class ShardDataSourceProperties { private String driverClassName; private String url; private String username; private String password; private String url0; private String username0; private String password0; private String url1; private String username1; private String password1; private String filters; private int maxActive; private int initialSize; private int maxWait; private int minIdle; private int timeBetweenEvictionRunsMillis; private int minEvictableIdleTimeMillis; private String validationQuery; private boolean testWhileIdle; private boolean testOnBorrow; private boolean testOnReturn; private boolean poolPreparedStatements; private int maxPoolPreparedStatementPerConnectionSize; private boolean removeAbandoned; private int removeAbandonedTimeout; private boolean logAbandoned; private List<String> connectionInitSqls; //省略geter setter
分库策略
//通过实现SingleKeyDatabaseShardingAlgorithm接口实现分库 public class ModuloDatabaseShardingAlgorithm implements SingleKeyDatabaseShardingAlgorithm<Integer> { @Override public String doEqualSharding(Collection<String> availableTargetNames, ShardingValue<Integer> shardingValue) { for (String each : availableTargetNames) { if (each.endsWith(shardingValue.getValue() % 2 + "")) { return each; } } throw new IllegalArgumentException(); } @Override public Collection<String> doInSharding(Collection<String> availableTargetNames, ShardingValue<Integer> shardingValue) { Collection<String> result = new LinkedHashSet<>(availableTargetNames.size()); for (Integer value : shardingValue.getValues()) { for (String targetName : availableTargetNames) { if (targetName.endsWith(value % 2 + "")) { result.add(targetName); } } } return result; } @Override public Collection<String> doBetweenSharding(Collection<String> availableTargetNames, ShardingValue<Integer> shardingValue) { Collection<String> result = new LinkedHashSet<>(availableTargetNames.size()); Range<Integer> range = (Range<Integer>) shardingValue.getValueRange(); for (Integer i = range.lowerEndpoint(); i <= range.upperEndpoint(); i++) { for (String each : availableTargetNames) { if (each.endsWith(i % 2 + "")) { result.add(each); } } } return result; } }
分表策略
public class ModuloTableShardingAlgorithm implements SingleKeyTableShardingAlgorithm<Integer> { /** * 对于分片字段的等值操作 都走这个方法。(包括 插入 更新) * 如: * <p> * select * from t_order from t_order where order_id = 11 * └── SELECT * FROM t_order_1 WHERE order_id = 11 * select * from t_order from t_order where order_id = 44 * └── SELECT * FROM t_order_0 WHERE order_id = 44 * </P> */ @Override public String doEqualSharding(final Collection<String> tableNames, final ShardingValue<Integer> shardingValue) { for (String each : tableNames) { if (each.endsWith(shardingValue.getValue() % 2 + "")) { return each; } } throw new IllegalArgumentException(); } /** * 对于分片字段的in操作,都走这个方法。 * select * from t_order from t_order where order_id in (11,44) * ├── SELECT * FROM t_order_0 WHERE order_id IN (11,44) * └── SELECT * FROM t_order_1 WHERE order_id IN (11,44) * select * from t_order from t_order where order_id in (11,13,15) * └── SELECT * FROM t_order_1 WHERE order_id IN (11,13,15) * select * from t_order from t_order where order_id in (22,24,26) * └──SELECT * FROM t_order_0 WHERE order_id IN (22,24,26) */ @Override public Collection<String> doInSharding(final Collection<String> tableNames, final ShardingValue<Integer> shardingValue) { Collection<String> result = new LinkedHashSet<>(tableNames.size()); for (Integer value : shardingValue.getValues()) { for (String tableName : tableNames) { if (tableName.endsWith(value % 2 + "")) { result.add(tableName); } } } return result; } /** * 对于分片字段的between操作都走这个方法。 * select * from t_order from t_order where order_id between 10 and 20 * ├── SELECT * FROM t_order_0 WHERE order_id BETWEEN 10 AND 20 * └── SELECT * FROM t_order_1 WHERE order_id BETWEEN 10 AND 20 */ @Override public Collection<String> doBetweenSharding(final Collection<String> tableNames, final ShardingValue<Integer> shardingValue) { Collection<String> result = new LinkedHashSet<>(tableNames.size()); Range<Integer> range = (Range<Integer>) shardingValue.getValueRange(); for (Integer i = range.lowerEndpoint(); i <= range.upperEndpoint(); i++) { for (String each : tableNames) { if (each.endsWith(i % 2 + "")) { result.add(each); } } } return result; } }
对特定表和库,进行特定的分库分表规则
简单说,就是分库按照了user_id的奇偶区分,分表按照order_id 的奇偶区分,
如果你有多个表进行分片,就写多个TableRule,
配置两个数据源,分别是我在yml里的配置,根据你的需求个性化配置就可以。
@Configuration @EnableConfigurationProperties(ShardDataSourceProperties.class) public class ShardDataSourceConfig { @Autowired private ShardDataSourceProperties shardDataSourceProperties; private DruidDataSource parentDs() throws SQLException { DruidDataSource ds = new DruidDataSource(); ds.setDriverClassName(shardDataSourceProperties.getDriverClassName()); ds.setUsername(shardDataSourceProperties.getUsername()); ds.setUrl(shardDataSourceProperties.getUrl()); ds.setPassword(shardDataSourceProperties.getPassword()); ds.setFilters(shardDataSourceProperties.getFilters()); ds.setMaxActive(shardDataSourceProperties.getMaxActive()); ds.setInitialSize(shardDataSourceProperties.getInitialSize()); ds.setMaxWait(shardDataSourceProperties.getMaxWait()); ds.setMinIdle(shardDataSourceProperties.getMinIdle()); ds.setTimeBetweenEvictionRunsMillis(shardDataSourceProperties.getTimeBetweenEvictionRunsMillis()); ds.setMinEvictableIdleTimeMillis(shardDataSourceProperties.getMinEvictableIdleTimeMillis()); ds.setValidationQuery(shardDataSourceProperties.getValidationQuery()); ds.setTestWhileIdle(shardDataSourceProperties.isTestWhileIdle()); ds.setTestOnBorrow(shardDataSourceProperties.isTestOnBorrow()); ds.setTestOnReturn(shardDataSourceProperties.isTestOnReturn()); ds.setPoolPreparedStatements(shardDataSourceProperties.isPoolPreparedStatements()); ds.setMaxPoolPreparedStatementPerConnectionSize( shardDataSourceProperties.getMaxPoolPreparedStatementPerConnectionSize()); ds.setRemoveAbandoned(shardDataSourceProperties.isRemoveAbandoned()); ds.setRemoveAbandonedTimeout(shardDataSourceProperties.getRemoveAbandonedTimeout()); ds.setLogAbandoned(shardDataSourceProperties.isLogAbandoned()); ds.setConnectionInitSqls(shardDataSourceProperties.getConnectionInitSqls()); return ds; } private DataSource ds0() throws SQLException { DruidDataSource ds = parentDs(); ds.setUsername(shardDataSourceProperties.getUsername0()); ds.setUrl(shardDataSourceProperties.getUrl0()); ds.setPassword(shardDataSourceProperties.getPassword0()); return ds; } private DataSource ds1() throws SQLException { DruidDataSource ds = parentDs(); ds.setUsername(shardDataSourceProperties.getUsername1()); ds.setUrl(shardDataSourceProperties.getUrl1()); ds.setPassword(shardDataSourceProperties.getPassword1()); return ds; } private DataSourceRule dataSourceRule() throws SQLException { Map<String, DataSource> dataSourceMap = new HashMap<>(2); dataSourceMap.put("ds_0", ds0()); dataSourceMap.put("ds_1", ds1()); DataSourceRule dataSourceRule = new DataSourceRule(dataSourceMap); return dataSourceRule; } //对order对策略 private TableRule orderTableRule() throws SQLException { TableRule orderTableRule = TableRule.builder("t_order").actualTables(Arrays.asList("t_order_0", "t_order_1")) .dataSourceRule(dataSourceRule()).build(); return orderTableRule; } //分库分表策略 private ShardingRule shardingRule() throws SQLException { ShardingRule shardingRule = ShardingRule.builder().dataSourceRule(dataSourceRule()) .tableRules(Arrays.asList(orderTableRule(), orderItemTableRule())) .databaseShardingStrategy( new DatabaseShardingStrategy("user_id", new ModuloDatabaseShardingAlgorithm())) .tableShardingStrategy(new TableShardingStrategy("order_id", new ModuloTableShardingAlgorithm())) .build(); return shardingRule; } @Bean public DataSource dataSource() throws SQLException { return ShardingDataSourceFactory.createDataSource(shardingRule()); } @Bean public PlatformTransactionManager transactionManager() throws SQLException { return new DataSourceTransactionManager(dataSource()); } }
我们需要从controller调用接口进行对数据的增加和查询
下面所有的类都是用来模拟请求进行测试
@RestController @RequestMapping("/order") public class OrderController { @Autowired private OrderDao orderDao; @RequestMapping(path = "/createOrder/{userId}/{orderId}", method = {RequestMethod.GET}) public String createOrder(@PathVariable("userId") Integer userId, @PathVariable("orderId") Integer orderId) { Order order = new Order(); order.setOrderId(orderId); order.setUserId(userId); orderDao.createOrder(order); return "success"; } @RequestMapping(path = "/{userId}", method = {RequestMethod.GET}) public List<Order> getOrderListByUserId(@PathVariable("userId") Integer userId) { return orderDao.getOrderListByUserId(userId); } } --------------------------------------------------- public interface OrderDao { List<Order> getOrderListByUserId(Integer userId); void createOrder(Order order); } --------------------------------------------------- @Service public class OrderDaoImpl implements OrderDao { @Autowired JdbcTemplate jdbcTemplate; @Override public List<Order> getOrderListByUserId(Integer userId) { StringBuilder sqlBuilder = new StringBuilder(); sqlBuilder .append("select order_id, user_id from t_order where user_id=? "); return jdbcTemplate.query(sqlBuilder.toString(), new Object[]{userId}, new int[]{Types.INTEGER}, new BeanPropertyRowMapper<Order>( Order.class)); } @Override public void createOrder(Order order) { StringBuffer sb = new StringBuffer(); sb.append("insert into t_order(user_id, order_id)"); sb.append("values("); sb.append(order.getUserId()).append(","); sb.append(order.getOrderId()); sb.append(")"); jdbcTemplate.update(sb.toString()); } } --------------------------------------------------- public class Order implements Serializable { private int userId; private int orderId; --------------------------------------------------- @SpringBootApplication public class Application { public static void main(String[] args) { SpringApplication.run(Application.class, args); } }
测试
启动项目,访问:http://localhost:8050/order/createOrder/1/1
更换参数多次访问,可以插入多条记录,观察你的数据库入库情况,已经按照我们制定的分库分表策略进行划分了。
需要注意的是
shareding是不支持jdbctemplate的批量修改操作的。
表名前不要加上库名,原生的情况加库名,不加库名其实是一样的,但使用shareding的表就会报错。
如果想进行只分表不分库的话
- 注释掉 ModuloDatabaseShardingAlgorithm 类
- 还有ShardDataSourceConfig.shardingRule() 中的分库策略那行代码
- 还有相关数据源配置改成 1 个
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