利用 ShardingSphere-JDBC 实现分库分表实践

来源:https://www.cnblogs.com/wingsless/p/11406481.html
作者:wingsless

利用ShardingSphere-JDBC实现分库分表

1. ShardingSphere概述

1.1 概述

业务发展到一定程度,分库分表是一种必然的要求,分库可以实现资源隔离,分表则可以降低单表数据量,提高访问效率。

分库分表的技术方案,很久以来都有两种理念:

  • 集中式的Proxy,实现MySQL客户端协议,使用户无感知

  • 分布式的Proxy,在代码层面进行增强,实现一个路由程序

这两种方式是各有利弊的,集中式Proxy的好处是业务没有感知,一切交给DBA把控,分布式的Proxy其支持的语言有限,比如本文要提及的ShardingShpere-
JDBC就只支持Java。

我们需要了解一点,集中式的Proxy其实现非常复杂,这要从MySQL处理SQL语句的原理说起,因为不是本文要论述的重点,因此只是简单的提及几点:

  1. SQL语句要被Parser解析成抽象语法树

  2. SQL要被优化器解析出执行计划

  3. SQL语句完成解析后,发给存储引擎

因此大部分的中间件都选择了自己实现SQL的解析器和查询优化器,下面是著名的中间件dble的实现示意图:

image

只要有解析的过程,其性能损耗就是比较可观的,我们也可以认为这是一种重量级的解决方案。

与之形成对比的是ShardingSphere-JDBC,其原理示意图如下:

image

每一个服务都持有一个Sharing-
JDBC,这个JDBC以Jar包的形式提供,基本上可以认为是一个增强版的jdbc驱动,需要一些分库分表的配置,业务开发人员不需要去对代码进行任何的修改。可以很轻松的移植到SpringBoot,ORM等框架上。

但是这个结构也不是完美的,每一个服务持有一个proxy意味着会在MySQL服务端新建大量的连接,维持连接会增加MySQL服务器的负载,虽然这种负载提升一般无法察觉。

1.2 概念

逻辑表

即水平拆分的表的总称。比如订单业务会被拆分成t_order0,t_order1两张表,但是他们同属于一个逻辑表:t_order

绑定表

分片规则一直的主表和子表。比如还是上面的t_order表,其分片键是order_id,其子表t_order_item的分片键也是order_id。在规则配置时将两个表配置成绑定关系,就不会在查询时出现笛卡尔积。

在关联查询时,如果没有绑定关系,则t_order和t_order_item的关联会出现这样一种场景:

    select * from t_order0 inner join t_order_item0 on order_id = order_id where order_id in (0, 1);
    select * from t_order0 inner join t_order_item1 on order_id = order_id where order_id in (0, 1;
    select * from t_order1 inner join t_order_item0 on order_id = order_id where order_id in (0, 1;
    select * from t_order1 inner join t_order_item1 on order_id = order_id where order_id in (0, 1;

如果配置了绑定关系,则会精确地定位到order_id所在的表,消除笛卡尔积。

广播表

有一些表是没有分片的必要的,比如省份信息表,全国也就30多条数据,这种表在每一个节点上都是一样的,这种表叫做广播表。

2. 利用SpringBoot实现分库分表

要分库分表首先需要有不同的数据源,我们启动两个mysqld进行,监听3306和3307两个端口,以多实例的形式模拟多数据源。

我们的分库是以用户ID为依据的,分表是以表本身的主键为依据的。下面是一张示意表:

    -- 注意,这是逻辑表,实际不存在
    create table t_order
    (
      order_id bigint not null auto_increment primary key,
      user_id bigint not null,
      name varchar(100)
    );

    CREATE TABLE `t_order_item` (
      `order_id` bigint(20) NOT NULL,
      `item` varchar(100) DEFAULT NULL,
      `user_id` bigint(20) NOT NULL,
      PRIMARY KEY (`order_id`)
    ) ENGINE=InnoDB DEFAULT CHARSET=utf8;

我现在有两个数据源,每个数据源上根据order_id分成2两表,也就是说每个实例上都应该有这两张表:

    create table t_order0
    (
      order_id bigint not null auto_increment primary key,
      user_id bigint not null,
      name varchar(100)
    );

    create table t_order1
    (
      order_id bigint not null auto_increment primary key,
      user_id bigint not null,
      name varchar(100)
    );

    -- 这是广播表,新建在其中一个节点上就可以
    CREATE TABLE `t_config` (
      `id` int(11) NOT NULL AUTO_INCREMENT,
      `user_id` bigint(20) DEFAULT NULL,
      `config` varchar(100) DEFAULT NULL,
      PRIMARY KEY (`id`)
    ) ENGINE=InnoDB;

    CREATE TABLE `t_order_item0` (
      `order_id` bigint(20) NOT NULL,
      `item` varchar(100) DEFAULT NULL,
      `user_id` bigint(20) NOT NULL,
      PRIMARY KEY (`order_id`)
    ) ENGINE=InnoDB DEFAULT CHARSET=utf8;

    CREATE TABLE `t_order_item1` (
      `order_id` bigint(20) NOT NULL,
      `item` varchar(100) DEFAULT NULL,
      `user_id` bigint(20) NOT NULL,
      PRIMARY KEY (`order_id`)
    ) ENGINE=InnoDB DEFAULT CHARSET=utf8;

利用SpringBoot技术可以很快的构建一个RESTful的Web服务,下面是application.properties的内容:

    # 这里要注册所有的数据源
    spring.shardingsphere.datasource.names=ds0,ds1

    # 这是数据源0的配置
    spring.shardingsphere.datasource.ds0.type=com.zaxxer.hikari.HikariDataSource
    spring.shardingsphere.datasource.ds0.jdbc-url=jdbc:mysql://localhost:3306/test?serverTimezone=GMT%2B8
    spring.shardingsphere.datasource.ds0.driver-class-name=com.mysql.jdbc.Driver
    spring.shardingsphere.datasource.ds0.username=root
    spring.shardingsphere.datasource.ds0.password=

    # 这是数据源1的配置
    spring.shardingsphere.datasource.ds1.type=com.zaxxer.hikari.HikariDataSource
    spring.shardingsphere.datasource.ds1.jdbc-url=jdbc:mysql://localhost:3307/test?serverTimezone=GMT%2B8
    spring.shardingsphere.datasource.ds1.driver-class-name=com.mysql.jdbc.Driver
    spring.shardingsphere.datasource.ds1.username=root
    spring.shardingsphere.datasource.ds1.password=

    # 分库策略
    # 分库的列是user_id
    spring.shardingsphere.sharding.default-database-strategy.standard.sharding-column=user_id
    spring.shardingsphere.sharding.default-database-strategy.standard.precise-algorithm-class-name=com.sinosun.demo.sharding.PreciseShardingAlgorithmImpl

    # 分表策略
    spring.shardingsphere.sharding.tables.t_order.actual-data-nodes=ds$->{0..1}.t_order$->{0..1}
    spring.shardingsphere.sharding.tables.t_order.table-strategy.inline.sharding-column=order_id
    spring.shardingsphere.sharding.tables.t_order.table-strategy.inline.algorithm-expression=t_order$->{order_id % 2}
    spring.shardingsphere.sharding.tables.t_order.key-generator.column=order_id
    spring.shardingsphere.sharding.tables.t_order.key-generator.type=SNOWFLAKE

    spring.shardingsphere.sharding.tables.t_order_item.actual-data-nodes=ds$->{0..1}.t_order_item$->{0..1}
    spring.shardingsphere.sharding.tables.t_order_item.table-strategy.inline.sharding-column=order_id
    spring.shardingsphere.sharding.tables.t_order_item.table-strategy.inline.algorithm-expression=t_order_item$->{order_id % 2}

    spring.shardingsphere.sharding.binding-tables=t_order, t_order_item

    # 广播表, 其主节点是ds0
    spring.shardingsphere.sharding.broadcast-tables=t_config
    spring.shardingsphere.sharding.tables.t_config.actual-data-nodes=ds$->{0}.t_config

    spring.jpa.show-sql=true
    server.address=10.1.20.96
    server.port=8080

这是buid.gradle内容,只列举ShardingSphere相关的:

    dependencies {
        compile group: 'org.apache.shardingsphere', name: 'sharding-jdbc-spring-boot-starter', version: '4.0.0-RC1'
        compile group: 'org.apache.shardingsphere', name: 'sharding-jdbc-spring-namespace', version: '4.0.0-RC1'
    }

下图是工程的代码结构,供参考:

image

现在开始列举代码:

Order.java:

    package com.example.demo.entity;


    import javax.persistence.Column;
    import javax.persistence.Entity;
    import javax.persistence.GeneratedValue;
    import javax.persistence.GenerationType;
    import javax.persistence.Id;
    import javax.persistence.Table;
    import java.util.StringJoiner;

    @Entity
    @Table(name = "t_order")
    public class Order {
        @Id
        @GeneratedValue(strategy = GenerationType.IDENTITY)
        private long orderId;

        @Column(name = "user_id")
        private long userId;

        @Column(name = "name")
        private String name;

        public long getOrderId() {
            return orderId;
        }

        public void setOrderId(long orderId) {
            this.orderId = orderId;
        }

        public String getName() {
            return name;
        }

        public void setName(String name) {
            this.name = name;
        }

        public long getUserId() {
            return userId;
        }

        public void setUserId(long userId) {
            this.userId = userId;
        }

        @Override
        public String toString() {
            return new StringJoiner(", ", Order.class.getSimpleName() + "[", "]")
                    .add("orderId=" + orderId)
                    .add("userId=" + userId)
                    .add("name='" + name + "'")
                    .toString();
        }
    }

OrderItem.java:

    package com.example.demo.entity;

    import com.google.common.base.MoreObjects;

    import javax.persistence.Column;
    import javax.persistence.Entity;
    import javax.persistence.Id;
    import javax.persistence.Table;

    @Entity
    @Table(name = "t_order_item")
    public class OrderItem {
        @Id
        @Column(name = "order_id")
        private long orderId;

        @Column(name = "user_id")
        private long userId;

        @Column(name = "item")
        private String item;

        public long getOrderId() {
            return orderId;
        }

        public void setOrderId(long orderId) {
            this.orderId = orderId;
        }

        public long getUserId() {
            return userId;
        }

        public void setUserId(long userId) {
            this.userId = userId;
        }

        public String getItem() {
            return item;
        }

        public void setItem(String item) {
            this.item = item;
        }

        @Override
        public String toString() {
            return MoreObjects.toStringHelper(this)
                    .add("orderId", orderId)
                    .add("userId", userId)
                    .add("item", item)
                    .toString();
        }
    }

TConfig.java:

    package com.example.demo.entity;

    import com.google.common.base.MoreObjects;

    import javax.persistence.Column;
    import javax.persistence.Entity;
    import javax.persistence.GeneratedValue;
    import javax.persistence.GenerationType;
    import javax.persistence.Id;
    import javax.persistence.Table;

    @Entity
    @Table(name = "t_config")
    public class TConfig {
        @Id
        @GeneratedValue(strategy = GenerationType.IDENTITY)
        private int id;

        @Column(name = "user_id")
        private long userId;

        @Column(name = "config")
        private String config;

        public int getId() {
            return id;
        }

        public void setId(int id) {
            this.id = id;
        }

        public long getUserId() {
            return userId;
        }

        public void setUserId(long userId) {
            this.userId = userId;
        }

        public String getConfig() {
            return config;
        }

        public void setConfig(String config) {
            this.config = config;
        }

        @Override
        public String toString() {
            return MoreObjects.toStringHelper(this)
                    .add("id", id)
                    .add("userId", userId)
                    .add("config", config)
                    .toString();
        }
    }

OrderDao.java:

    package com.example.demo.dao;

    import com.example.demo.entity.Order;
    import org.springframework.data.jpa.repository.JpaRepository;

    public interface OrderDao extends JpaRepository {
    }

OrderItemDao.java:

    package com.example.demo.dao;

    import com.example.demo.entity.OrderItem;
    import org.springframework.data.jpa.repository.JpaRepository;
    import org.springframework.data.jpa.repository.Query;
    import org.springframework.data.repository.query.Param;

    import java.util.Optional;

    public interface OrderItemDao extends JpaRepository {
        //为了测试绑定表
        @Query(value = "select n from Order t inner join OrderItem n on t.orderId = n.orderId where n.orderId=:orderId")
        Optional getOrderItemByOrderId(@Param("orderId") Long orderId);
    }

ConfigDao.java:

    package com.example.demo.dao;

    import com.sinosun.demo.entity.TConfig;
    import org.springframework.data.jpa.repository.JpaRepository;

    public interface ConfigDao extends JpaRepository {
    }

OrderController.java:

    package com.example.demo.controller;

    import com.example.demo.dao.OrderDao;
    import com.example.demo.entity.Order;
    import org.springframework.beans.factory.annotation.Autowired;
    import org.springframework.web.bind.annotation.RequestMapping;
    import org.springframework.web.bind.annotation.RequestMethod;
    import org.springframework.web.bind.annotation.RequestParam;
    import org.springframework.web.bind.annotation.RestController;

    import java.util.Optional;

    @RestController
    public class OrderController {
        @Autowired
        private OrderDao orderDao;

        @RequestMapping(value = "/order", method = RequestMethod.GET)
        public Optional getOrderById(@RequestParam("id") Long id) {
            return this.orderDao.findById(id);
        }

        @RequestMapping(value = "/order/save", method = RequestMethod.POST)
        public Order saveOrder(@RequestParam("name") String name, @RequestParam("userid") Long userId) {
            Order order = new Order();
            order.setName(name);
            order.setUserId(userId);
            return this.orderDao.save(order);
        }
    }

OrderItemController.java:

    package com.example.demo.controller;

    import com.example.demo.dao.OrderItemDao;
    import com.example.demo.entity.OrderItem;
    import org.springframework.beans.factory.annotation.Autowired;
    import org.springframework.web.bind.annotation.RequestMapping;
    import org.springframework.web.bind.annotation.RequestMethod;
    import org.springframework.web.bind.annotation.RequestParam;
    import org.springframework.web.bind.annotation.RestController;

    import java.util.Optional;

    @RestController
    public class OrderItemController {
        @Autowired
        private OrderItemDao orderItemDao;

        @RequestMapping(value = "/orderItem", method = RequestMethod.GET)
        public Optional getOrderItemById(@RequestParam(name = "id") Long id) {
            return this.orderItemDao.findById(id);
        }

        @RequestMapping(value = "/orderItem/save", method = RequestMethod.POST)
        public OrderItem saveOrderItem(@RequestParam("item") String item, @RequestParam("userid") Long userId, @RequestParam("orderid") Long orderId) {
            OrderItem orderItem = new OrderItem();
            orderItem.setUserId(userId);
            orderItem.setItem(item);
            orderItem.setOrderId(orderId);
            return this.orderItemDao.save(orderItem);
        }

        @RequestMapping(value = "/orderItem/query", method = RequestMethod.GET)
        public Optional getOrderItemByOrderId(@RequestParam(name = "orderid") Long orderId) {
            return this.orderItemDao.getOrderItemByOrderId(orderId);
        }
    }

ConfigController.java:

    package com.example.demo.controller;

    import com.example.demo.dao.ConfigDao;
    import com.example.demo.entity.TConfig;
    import org.springframework.beans.factory.annotation.Autowired;
    import org.springframework.web.bind.annotation.RequestMapping;
    import org.springframework.web.bind.annotation.RequestMethod;
    import org.springframework.web.bind.annotation.RestController;

    import java.util.List;

    @RestController
    public class ConfigController {
        @Autowired
        private ConfigDao configDao;

        @RequestMapping(value = "/listConfig", method = RequestMethod.GET)
        public List getConfig() {
            return this.configDao.findAll();
        }
    }

这三段代码写完基本的功能就完备了,但是刚才配置的时候提过,我们的目的是按照user_id进行分库,比如user_id=0则分配这条数据到ds0去,如果为1则将数据分配到ds1去,这就要求我们自己实现分库的算法,ShardingSphere提供了接口,只需要去实现就可以了:

    package com.example.demo.sharding;

    import org.apache.shardingsphere.api.sharding.standard.PreciseShardingAlgorithm;
    import org.apache.shardingsphere.api.sharding.standard.PreciseShardingValue;

    import java.util.Collection;

    public class PreciseShardingAlgorithmImpl implements PreciseShardingAlgorithm {

        @Override
        public String doSharding(Collection availableTargetNames, PreciseShardingValue shardingValue) {
            String dbName = "ds";
            Long val = shardingValue.getValue();
            dbName += val;
            for (String each : availableTargetNames) {
                if (each.equals(dbName)) {
                    return each;
                }
            }
            throw new IllegalArgumentException();
        }
    }

这段代码很简单,其中有几个地方只需要讲明白了就可以。

  • availableTargetNames:这是datasource的名字列表,在这里应该是ds0和ds1;

  • shardingValue:这是分片列的值,我们只要其value部分就可以。

之后用一个循环遍历["ds0",
"ds1"]集合,当我们的dbName和其中一个相等时,就能的到正确的数据源。这就简单的实现了根据user_id精确分配数据的目的。

这是实测例子中,shardingValue和availableTargetNames的实际值:

image

本次测试的请求是:

    curl -X POST \
      'http://10.1.20.96:8080/order/save?name=LiLei&userid=0' \
      -H 'Postman-Token: d5e15e85-c760-4252-a7d4-ef57b5e95c2e' \
      -H 'cache-control: no-cache'

下面看看实际效果,这是ds0的数据:

image

这是ds1的数据:

image

可以看到,所有的数据都根据user_id分布到了不同的库中,所有的数据都根据order_id的奇偶分布到了不同的表中。

记录下保存t_order请求返回的order_id,组装一条POST请求写t_order_item表:

    curl -X POST \
      'http://10.1.20.96:8080/orderItem/save?item=pen&userid=0&orderid=371698107924086785' \
      -H 'Accept: */*' \
      -H 'Cache-Control: no-cache' \
      -H 'Connection: keep-alive' \
      -H 'Host: 10.1.20.96:8080' \
      -H 'Postman-Token: 347b6c4d-0e2c-474f-b53e-6f0994db5871,24b362da-e77e-4b04-94e1-fa20dcb15845' \
      -H 'User-Agent: PostmanRuntime/7.15.0' \
      -H 'accept-encoding: gzip, deflate' \
      -H 'cache-control: no-cache' \
      -H 'content-length: '

得到结果如下:

image

使用这个order_id去进行联合查询:

    curl -X GET \
      'http://10.1.20.96:8080/orderItem/query?orderid=371698107924086785' \
      -H 'Accept: */*' \
      -H 'Cache-Control: no-cache' \
      -H 'Connection: keep-alive' \
      -H 'Host: 10.1.20.96:8080' \
      -H 'Postman-Token: d0da0523-d46e-429f-a8db-9f844cd77fe6,b61c6089-253d-4535-b473-158c037850be' \
      -H 'User-Agent: PostmanRuntime/7.15.0' \
      -H 'accept-encoding: gzip, deflate' \
      -H 'cache-control: no-cache'

得到返回如下:

image

测试广播表,可以用下面的请求:

    curl -X GET \
      http://10.1.20.96:8080/listConfig \
      -H 'Accept: */*' \
      -H 'Cache-Control: no-cache' \
      -H 'Connection: keep-alive' \
      -H 'Host: 10.1.20.96:8080' \
      -H 'Postman-Token: 1c9d0349-4b6d-4a2c-834f-4e2f94194649,3dff68f4-2e10-4e96-926a-344faa5f0a19' \
      -H 'User-Agent: PostmanRuntime/7.15.0' \
      -H 'accept-encoding: gzip, deflate' \
      -H 'cache-control: no-cache'

得到的结果:

image

3. 利用SpringBoot实现读写分离

上一小节中展示了如何利用SharingSphere+SpringBoot进行数据的分片,这一小节着重描述一下如何进行读写分离,下一小节计划展示如何将读写分离和分片结合起来。

首先还是会利用多实例来模拟,为了简单,我没有配置复制,而是预置了几条数据进去,判断能否将读写请求分发到不同的节点上。

首先我们新建一张表:

    create table t_order
    (
      order_id bigint not null auto_increment primary key,
      user_id bigint not null,
      name varchar(100)
    );

    -- master
    insert into t_order(user_id, name) values (0, 'zhiquan');

    -- slave 
    insert into t_order(user_id, name) values (1, 'LiLei');

我会配置slave为读数据源,那么读出的数据一定是user_id=1这一条。

数据是这样的,首先是master:

image

然后是slave:

image

接下来开始粘贴代码,首先是配置:

application.properties:

    spring.shardingsphere.datasource.names=ds0,ds1

    spring.shardingsphere.datasource.ds0.type=com.zaxxer.hikari.HikariDataSource
    spring.shardingsphere.datasource.ds0.jdbc-url=jdbc:mysql://localhost:3306/test?serverTimezone=GMT%2B8
    spring.shardingsphere.datasource.ds0.driver-class-name=com.mysql.jdbc.Driver
    spring.shardingsphere.datasource.ds0.username=root
    spring.shardingsphere.datasource.ds0.password=

    spring.shardingsphere.datasource.ds1.type=com.zaxxer.hikari.HikariDataSource
    spring.shardingsphere.datasource.ds1.jdbc-url=jdbc:mysql://localhost:3307/test?serverTimezone=GMT%2B8
    spring.shardingsphere.datasource.ds1.driver-class-name=com.mysql.jdbc.Driver
    spring.shardingsphere.datasource.ds1.username=root
    spring.shardingsphere.datasource.ds1.password=

    spring.shardingsphere.masterslave.name=ms
    spring.shardingsphere.masterslave.master-data-source-name=ds0
    spring.shardingsphere.masterslave.slave-data-source-names=ds1

    server.port=8080
    spring.jpa.show-sql=true

具体的实现代码就不粘贴了,和之前的小节没有什么区别。下面开始测试,首先是一个GET请求:

    curl -X GET \
      'http://localhost:8080/getOrder?orderId=2' \
      -H 'Accept: */*' \
      -H 'Accept-Encoding: gzip, deflate' \
      -H 'Cache-Control: no-cache' \
      -H 'Connection: keep-alive' \
      -H 'Host: localhost:8080' \
      -H 'Postman-Token: 028a4539-a727-47f2-8862-2eed637883d0,ffbe396f-5c33-4266-a00e-d2a0246283f3' \
      -H 'User-Agent: PostmanRuntime/7.15.2' \
      -H 'cache-control: no-cache'
image

如上图,和预期是一样的,读取到了slave上的数据,那么现在看看写操作:

    curl -X POST \
      'http://localhost:8080/saveOrder?userId=123&name=HanMeimei' \
      -H 'Accept: */*' \
      -H 'Accept-Encoding: gzip, deflate' \
      -H 'Cache-Control: no-cache' \
      -H 'Connection: keep-alive' \
      -H 'Content-Length: ' \
      -H 'Host: localhost:8080' \
      -H 'Postman-Token: f0497259-a82a-4dcf-9849-3dcdae431742,77fd1308-b5e8-4882-be07-fa128e6efc4d' \
      -H 'User-Agent: PostmanRuntime/7.15.2' \
      -H 'cache-control: no-cache'
image

现在看看主节点的表:

image

如上图,这条数据已经成功的写入了master。

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