MySQL ProxySQL读写分离实践

目的

在上一篇文章MySQL ProxySQL读写分离使用初探里初步介绍了ProxySQL的使用，本文继续介绍它的一些特点和DBProxy的性能差异。深入一些去了解ProxySQL，通过例子来说明ProxySQL的一些特性和用sysbench对其进行测试来对比分析说明。

环境：

Distributor ID： Ubuntu
Description   ： Ubuntu 14.04.5 LTS
Release       ： 14.04
Codename      ： trusty

MySQL Master  ：192.168.200.202
MySQL Slave   ：192.168.200.132
APP IP        ：192.168.200.25/64

测试

本文测试环境是在上一篇文章的基础上进行的，所以已经做了一主一从的读写分离。在此基础上，若从库挂了，会怎么样？这里先把从库（132）shutdown掉，看看读去了哪里。

tips：如何修改管理接口的用户名密码？除了初始化时候修改配置文件，还有一个方法是在管理端口设置：

admin@127.0.0.1 : (none) 12:52:53>set admin-admin_credentials='zjy:zjy';                                                                                                            Query OK, 1 row affected (0.00 sec)

admin模块修改（select * from global_variables where variable_name like 'admin%';）需要用admin加载：

admin@127.0.0.1 : (none) 12:53:02>load admin variables to runtime;
Query OK, 0 rows affected (0.00 sec)

admin@127.0.0.1 : (none) 12:53:33>save admin variables to disk;
Query OK, 9 rows affected (0.00 sec)

1，从库不可用

① 关闭从库

当前ProxySQL下后端MySQL的运行情况：

admin@127.0.0.1 : (none) 11:25:26>select hostgroup_id,hostname,port,status from runtime_mysql_servers;
+--------------+-----------------+------+--------+
| hostgroup_id | hostname        | port | status |
+--------------+-----------------+------+--------+
| 100          | 192.168.200.202 | 3306 | ONLINE |
| 1000         | 192.168.200.132 | 3306 | ONLINE |
+--------------+-----------------+------+--------+

shutdown从库（132）后，后端MySQL的运行情况：

admin@127.0.0.1 : (none) 11:33:24>select hostgroup_id,hostname,port,status from runtime_mysql_servers;
+--------------+-----------------+------+---------+
| hostgroup_id | hostname        | port | status  |
+--------------+-----------------+------+---------+
| 100          | 192.168.200.202 | 3306 | ONLINE  |
| 1000         | 192.168.200.132 | 3306 | SHUNNED |
+--------------+-----------------+------+---------+

此时读的操作会报超时：

sbuser@192.168.200.24 : sbtest 11:30:40>select * from x;
ERROR 9001 (HY000): Max connect timeout reached while reaching hostgroup 1000 after 10000ms

原因是proxysql的核心都在规则，shutdown从之后，proxysql还是想路由到 hostgroup=1000，它不会自动选择默认的100(mysql_users里配置的default_hostgroup) 。

这里解决的办法是：在mysql_servers的hostgroup 1000 里面要插一条主库的记录，然后把weight设小，当读不到从库，回去主库查询。

admin@127.0.0.1 : (none) 11:50:13>insert into mysql_servers(hostgroup_id,hostname,port,weight,max_connections,max_replication_lag,comment) values(1000,'192.168.200.202',3306,1,1000,10,'test proxysql');
Query OK, 1 row affected (0.00 sec)

admin@127.0.0.1 : (none) 11:50:42>update mysql_servers set weight=9 where hostgroup_id=1000 and hostname='192.168.200.132';
Query OK, 1 row affected (0.00 sec)

admin@127.0.0.1 : (none) 11:53:41>select hostgroup_id,hostname,port,weight from mysql_servers;
+--------------+-----------------+------+--------+
| hostgroup_id | hostname        | port | weight |
+--------------+-----------------+------+--------+
| 100          | 192.168.200.202 | 3306 | 1      |
| 1000         | 192.168.200.132 | 3306 | 9      |
| 1000         | 192.168.200.202 | 3306 | 1      |
+--------------+-----------------+------+--------+

admin@127.0.0.1 : (none) 11:54:03>load mysql servers to runtime;
Query OK, 0 rows affected (0.01 sec)

admin@127.0.0.1 : (none) 11:54:28>save mysql servers to disk;                                                                                                             
Query OK, 0 rows affected (0.00 sec)

admin@127.0.0.1 : (none) 11:54:38>select hostgroup_id,hostname,port,status from runtime_mysql_servers;
+--------------+-----------------+------+---------+
| hostgroup_id | hostname        | port | status  |
+--------------+-----------------+------+---------+
| 100          | 192.168.200.202 | 3306 | ONLINE  |
| 1000         | 192.168.200.132 | 3306 | SHUNNED |
| 1000         | 192.168.200.202 | 3306 | ONLINE  |
+--------------+-----------------+------+---------+

此时读的操作正常：

sbuser@192.168.200.24 : sbtest 11:52:37>select * from x;
+------+
| id   |
+------+
|  123 |
|  123 |
|  123 |
+------+
3 rows in set (0.01 sec)

说明从关闭了之后读操作确实去主上执行了。当从库恢复之后，以后的读操作主库也可以处理 1/10 的读请求。

② 从库延迟/从库停止复制

在上一篇文章中已经建立了监控账号：proxysql，由于需要执行show slave status的命令来获得延迟时间，所以需要权限SUPER 和 REPLICATION CLIENT。并且需要设置mysql_servers.max_replication_lag的值，由于mysql_servers.max_replication_lag仅适用于从，但也可以将其配置为所有主机，无论是从还是主（不会有任何影响）。

-- 设置监控账号权限
dba@192.168.200.202 : sbtest 10:44:38>GRANT SUPER, REPLICATION CLIENT ON *.* TO 'proxysql'@'192.168.200.24' IDENTIFIED BY PASSWORD '*BF27B4C7AAD278126E228AA8427806E870F64F39';
Query OK, 0 rows affected (0.00 sec)

-- 设置延迟的阈值
admin@127.0.0.1 : (none) 11:04:50>UPDATE mysql_servers SET max_replication_lag=5;                                                                                                    Query OK, 3 rows affected (0.00 sec)

-- 应用配置
admin@127.0.0.1 : (none) 11:04:54>load mysql servers to runtime;                                                                                                                   
Query OK, 0 rows affected (0.01 sec)

admin@127.0.0.1 : (none) 11:05:04>save mysql servers to disk;                                                                                                                      
Query OK, 0 rows affected (0.01 sec)

主从复制正常的情况下，后端MySQL的情况：

admin@127.0.0.1 : (none) 11:05:13>select hostgroup_id,hostname,port,status,max_replication_lag from runtime_mysql_servers;
+--------------+-----------------+------+--------+---------------------+
| hostgroup_id | hostname        | port | status | max_replication_lag |
+--------------+-----------------+------+--------+---------------------+
| 1000         | 192.168.200.132 | 3306 | ONLINE | 5                   |
| 1000         | 192.168.200.202 | 3306 | ONLINE | 5                   |
| 100          | 192.168.200.202 | 3306 | ONLINE | 5                   |
+--------------+-----------------+------+--------+---------------------+
3 rows in set (0.00 sec)

从库执行stop slave之后，后端MySQL的情况：

admin@127.0.0.1 : (none) 11:06:52>select hostgroup_id,hostname,port,status,max_replication_lag from runtime_mysql_servers;
+--------------+-----------------+------+---------+---------------------+
| hostgroup_id | hostname        | port | status  | max_replication_lag |
+--------------+-----------------+------+---------+---------------------+
| 1000         | 192.168.200.132 | 3306 | SHUNNED | 5                   |
| 1000         | 192.168.200.202 | 3306 | ONLINE  | 5                   |
| 100          | 192.168.200.202 | 3306 | ONLINE  | 5                   |
+--------------+-----------------+------+---------+---------------------+
3 rows in set (0.00 sec)

此时，132从库不可用，读都到了HG 1000的202上去了，可以自行测试。也可以在日志里看到：

2017-05-11 11:06:43 MySQL_HostGroups_Manager.cpp:934:replication_lag_action(): [WARNING] Shunning server 192.168.200.132:3306 with replication lag of 60 second

日志显示延迟60s，这个是怎么回事？这里需要说明下几个变量：

mysql-monitor_replication_lag_interval：主从延迟检测时间，默认10秒。

mysql-monitor_slave_lag_when_null：当为null时，设置的延迟值，默认为60。

admin@127.0.0.1 : (none) 11:08:35>select * from global_variables where variable_name like 'mysql-monitor%lag%';
+----------------------------------------+----------------+
| variable_name                          | variable_value |
+----------------------------------------+----------------+
| mysql-monitor_replication_lag_interval | 10000           |
| mysql-monitor_replication_lag_timeout  | 1000           |
| mysql-monitor_slave_lag_when_null      | 60             |
+----------------------------------------+----------------+
3 rows in set (0.00 sec)

根据mysql_servers.max_replication_lag设置的阈值，这2个参数可以根据自己的情况来设置，比如设置检测时间为1500。延迟的记录也可以通过表来查看：

admin@127.0.0.1 : (none) 11:19:47>select * from mysql_server_replication_lag_log limit 3;
+-----------------+------+------------------+-----------------+----------+-------+
| hostname        | port | time_start_us    | success_time_us | repl_lag | error |
+-----------------+------+------------------+-----------------+----------+-------+
| 192.168.200.132 | 3306 | 1494472189886932 | 411             | 0        | NULL  |
| 192.168.200.202 | 3306 | 1494472189887224 | 372             | NULL     | NULL  |
| 192.168.200.202 | 3306 | 1494472189887640 | 325             | NULL     | NULL  |
+-----------------+------+------------------+-----------------+----------+-------+
3 rows in set (0.00 sec)

主从延迟的情况和stop slave的情况一样，只是stop slave是把延迟设置成了60s。

小结：通过上面的测试说明ProxySQL可以在从库不可用时进行下线，不需要人为再进行干预，等到恢复正常之后自动上线提供服务。

2，多路由规则

① 根据库路由

在现有基础上再增加一个主从：

M：192.168.200.97
S：192.168.200.245

授权账号：程序和监控账号

dba@192.168.200.97 : proxysql 12:39:39>GRANT SUPER, REPLICATION CLIENT ON *.* TO 'proxysql'@'192.168.200.24' IDENTIFIED BY PASSWORD '*BF27B4C7AAD278126E228AA8427806E870F64F39';
Query OK, 0 rows affected (0.01 sec)
dba@192.168.200.97 : proxysql 12:42:50>grant select,insert,update,delete on proxysql.* to proxysql@192.168.200.24 identified by 'proxysql';
Query OK, 0 rows affected (0.00 sec)

配置ProxySQL：

admin@127.0.0.1 : (none) 12:43:35>insert into mysql_servers(hostgroup_id,hostname,port,weight,max_connections,max_replication_lag,comment) values(101,'192.168.200.97',3306,1,1000,10,'test proxysql');
Query OK, 1 row affected (0.00 sec)

admin@127.0.0.1 : (none) 12:45:15>insert into mysql_servers(hostgroup_id,hostname,port,weight,max_connections,max_replication_lag,comment) values(1001,'192.168.200.245',3306,9,1000,10,'test proxysql');
Query OK, 1 row affected (0.00 sec)

admin@127.0.0.1 : (none) 12:45:24>insert into mysql_servers(hostgroup_id,hostname,port,weight,max_connections,max_replication_lag,comment) values(1001,'192.168.200.97',3306,1,1000,10,'test proxysql');
Query OK, 1 row affected (0.00 sec)

admin@127.0.0.1 : (none) 12:45:36>insert into mysql_users(username,password,active,default_hostgroup,transaction_persistent) values('proxysql','proxysql',1,101,1);
Query OK, 1 row affected (0.00 sec)

admin@127.0.0.1 : (none) 12:46:55>INSERT INTO mysql_query_rules(active,schemaname,match_pattern,destination_hostgroup,apply) VALUES(1,'proxysql','^SELECT.*FOR UPDATE$',101,1);
Query OK, 1 row affected (0.00 sec)

admin@127.0.0.1 : (none) 12:56:47>
admin@127.0.0.1 : (none) 12:56:47>INSERT INTO mysql_query_rules(active,schemaname,match_pattern,destination_hostgroup,apply) VALUES(1,'proxysql','^SELECT',1001,1);
Query OK, 1 row affected (0.00 sec)

-- 应用保存配置
admin@127.0.0.1 : (none) 12:56:55>load mysql servers to runtime;
admin@127.0.0.1 : (none) 12:57:00>load mysql users to runtime;
admin@127.0.0.1 : (none) 12:57:04>load mysql query rules to runtime;
admin@127.0.0.1 : (none) 12:57:11>save mysql servers to disk;
admin@127.0.0.1 : (none) 12:57:17>save mysql users to disk;
admin@127.0.0.1 : (none) 12:57:21>save mysql query rules to disk;

rules、servers、users信息：

admin@127.0.0.1 : (none) 03:28:11>select rule_id,active,username,schemaname,client_addr,destination_hostgroup,match_pattern,flagIN,flagOUT,apply from mysql_query_rules;
+---------+--------+----------+------------+-------------+-----------------------+----------------------+--------+---------+-------+
| rule_id | active | username | schemaname | client_addr | destination_hostgroup | match_pattern        | flagIN | flagOUT | apply |
+---------+--------+----------+------------+-------------+-----------------------+----------------------+--------+---------+-------+
| 3       | 1      | NULL     | NULL       | NULL        | 100                   | ^SELECT.*FOR UPDATE$ | 0      | NULL    | 1     |
| 4       | 1      | NULL     | NULL       | NULL        | 1000                  | ^SELECT              | 0      | NULL    | 1     |
| 5       | 1      | NULL     | proxysql   | NULL        | 101                   | ^SELECT.*FOR UPDATE$ | 0      | NULL    | 1     |
| 6       | 1      | NULL     | proxysql   | NULL        | 1001                  | ^SELECT              | 0      | NULL    | 1     |
+---------+--------+----------+------------+-------------+-----------------------+----------------------+--------+---------+-------+
4 rows in set (0.00 sec)

admin@127.0.0.1 : (none) 03:29:10>select username,default_hostgroup from mysql_users;
+----------+-------------------+
| username | default_hostgroup |
+----------+-------------------+
| sbuser   | 100               |
| proxysql | 101               |
+----------+-------------------+
2 rows in set (0.00 sec)

admin@127.0.0.1 : (none) 03:29:28>select hostgroup_id,hostname,port,status from mysql_servers;
+--------------+-----------------+------+--------+
| hostgroup_id | hostname        | port | status |
+--------------+-----------------+------+--------+
| 1000         | 192.168.200.132 | 3306 | ONLINE |
| 100          | 192.168.200.202 | 3306 | ONLINE |
| 1000         | 192.168.200.202 | 3306 | ONLINE |
| 101          | 192.168.200.97  | 3306 | ONLINE |
| 1001         | 192.168.200.245 | 3306 | ONLINE |
| 1001         | 192.168.200.97  | 3306 | ONLINE |
+--------------+-----------------+------+--------+
6 rows in set (0.00 sec)

模拟app连接：

/Users/jinyizhou [15:32:09] ~$ mysql -uproxysql -pproxysql -h192.168.200.24 -P6033 -A
...
proxysql@192.168.200.24 : (none) 03:32:11>show databases;
+--------------------+
| Database           |
+--------------------+
| information_schema |
| proxysql           |
+--------------------+
2 rows in set (0.00 sec)

proxysql@192.168.200.24 : (none) 03:32:13>use proxysql
Database changed
proxysql@192.168.200.24 : proxysql 03:32:17>show tables;
+--------------------+
| Tables_in_proxysql |
+--------------------+
| xx                 |
+--------------------+
1 row in set (0.00 sec)

proxysql@192.168.200.24 : proxysql 03:32:24>insert into xx values(999);
Query OK, 1 row affected (0.00 sec)

proxysql@192.168.200.24 : proxysql 03:35:49>select * from xx;
ERROR 1044 (#4200): Access denied for user 'proxysql'@'192.168.200.24' to database 'proxysql'

只有select的时候没有权限，其他insert，update等都是有权限的，为啥呢？原因是这里的路由关系，ProxySQL的读写分离核心就是路由，这里因为select的路由错了，到了HG为1000的主从上了：

admin@127.0.0.1 : (none) 03:32:28>select hostgroup,schemaname,username,digest_text from stats_mysql_query_digest;
+-----------+--------------------+----------+----------------------------------+
| hostgroup | schemaname         | username | digest_text                      |
+-----------+--------------------+----------+----------------------------------+
| 1000      | proxysql           | proxysql | select * from xx                 |
| 101       | proxysql           | proxysql | show tables                      |
| 101       | information_schema | proxysql | show databases                   |
| 1000      | information_schema | proxysql | SELECT DATABASE()                |
| 101       | information_schema | proxysql | select USER()                    |
| 101       | information_schema | proxysql | select @@version_comment limit ? |
+-----------+--------------------+----------+----------------------------------+

mysql_query_rules是整个ProxySQL的核心，上篇文章已经对该表进行了说明，在这里对这例子再次讲解下：

rule_id是表的自增主键，路由规则处理是以 rule_id 的顺序进行匹配，若没有找到规则就直接去mysql_users.default_hostgroup字段里找。上面信息中除了select之外的其他操作都找不到规则就直接去users表里取，所以这些操作不会报错。而我们执行的select被rule_id为4的规则匹配上，因为rule_id=4的是匹配所有库并且apply=1表示该正则匹配后，将不再接受其他匹配，直接转发。这样就转发到了HG为1000上面的主机上了，就报没有权限的错误。若apply=0则继续匹配下面，若没有找到路由规则，则返回再看flagOUT是否为NULL，是NULL则直接匹配，否则报错。大致的流程如下：

flagIN, flagOUT, apply: 用来定义路由链 chains of rules

首先会检查 flagIN=0 的规则，以rule_id的顺序；如果都没匹配上，则走这个用户的default_hostgroup
当匹配一条规则后，会检查 apply是否为1，是1则直接转发，不是1则继续匹配，匹配到就转发，否则看flagOUT,
如果不为NULL，并且 flagIN != flagOUT ，则进入以flagIN为上一个flagOUT值的新规则链
如果不为NULL，并且 flagIN = flagOUT，则应用这条规则
如果为NULL，则结束，应用这条规则

通过上面的说明，如何读取到正确的HG呢？这里可以设置apply=0

admin@127.0.0.1 : (none) 04:18:45>update mysql_query_rules set apply=0 where rule_id in (3,4);                                                                                       
Query OK, 2 rows affected (0.00 sec)

admin@127.0.0.1 : (none) 04:18:56>load mysql query rules to runtime;                                                                                                                 Query OK, 0 rows affected (0.00 sec)

admin@127.0.0.1 : (none) 04:18:59>save mysql query rules to disk;                                                                                                                    Query OK, 0 rows affected (0.00 sec)

admin@127.0.0.1 : (none) 04:19:01>select rule_id,active,username,schemaname,client_addr,destination_hostgroup,match_pattern,flagIN,flagOUT,apply from mysql_query_rules;
+---------+--------+----------+------------+-------------+-----------------------+----------------------+--------+---------+-------+
| rule_id | active | username | schemaname | client_addr | destination_hostgroup | match_pattern        | flagIN | flagOUT | apply |
+---------+--------+----------+------------+-------------+-----------------------+----------------------+--------+---------+-------+
| 3       | 1      | NULL     | NULL       | NULL        | 100                   | ^SELECT.*FOR UPDATE$ | 0      | NULL    | 0     |
| 4       | 1      | NULL     | NULL       | NULL        | 1000                  | ^SELECT              | 0      | NULL    | 0     |
| 5       | 1      | NULL     | proxysql   | NULL        | 101                   | ^SELECT.*FOR UPDATE$ | 0      | NULL    | 1     |
| 6       | 1      | NULL     | proxysql   | NULL        | 1001                  | ^SELECT              | 0      | NULL    | 1     |
+---------+--------+----------+------------+-------------+-----------------------+----------------------+--------+---------+-------+
4 rows in set (0.00 sec)

和上面一样模拟app连接，得到的信息：发现全部走了正确的路由。

admin@127.0.0.1 : (none) 05:58:55>select hostgroup,schemaname,username,digest_text from stats_mysql_query_digest;
+-----------+------------+----------+----------------------------------+
| hostgroup | schemaname | username | digest_text                      |
+-----------+------------+----------+----------------------------------+
| 101       | proxysql   | proxysql | insert into xx values(?)         |
| 1001      | proxysql   | proxysql | select * from xx                 |
| 1001      | proxysql   | proxysql | SELECT DATABASE()                |
| 101       | proxysql   | proxysql | select USER()                    |
| 101       | proxysql   | proxysql | select @@version_comment limit ? |
+-----------+------------+----------+----------------------------------+
5 rows in set (0.00 sec)

查看路由规则的命中情况：

admin@127.0.0.1 : (none) 05:59:19>select * from stats_mysql_query_rules;
+---------+------+
| rule_id | hits |
+---------+------+
| 3       | 0    |
| 4       | 4    |
| 5       | 0    |
| 6       | 4    |
+---------+------+
4 rows in set (0.00 sec)

从上面看到，apply=0 & falgOUT=null，会继续往下找路由，找到了rule_id=6的，直接进行转发。apply=1 直接转发，flagOUT != null 直接转发。

小结：通过上面的测试说明ProxySQL只要设置好路由规则，可以有多个主库。

② 根据用户名路由

和多主路由一样，区别是写入到路由表的字段不一样：

admin@127.0.0.1 : (none) 06:09:20>INSERT INTO mysql_query_rules(active,username,match_pattern,destination_hostgroup,apply) VALUES(1,'proxysql','^SELECT.*FOR UPDATE$',101,1);
Query OK, 1 row affected (0.00 sec)

admin@127.0.0.1 : (none) 06:10:09>INSERT INTO mysql_query_rules(active,username,match_pattern,destination_hostgroup,apply) VALUES(1,'proxysql','^SELECT',1001,1);
Query OK, 1 row affected (0.00 sec)

admin@127.0.0.1 : (none) 06:10:32>select rule_id,active,username,schemaname,client_addr,destination_hostgroup,match_pattern,flagIN,flagOUT,apply from mysql_query_rules;
+---------+--------+----------+------------+-------------+-----------------------+----------------------+--------+---------+-------+
| rule_id | active | username | schemaname | client_addr | destination_hostgroup | match_pattern        | flagIN | flagOUT | apply |
+---------+--------+----------+------------+-------------+-----------------------+----------------------+--------+---------+-------+
| 3       | 1      | NULL     | NULL       | NULL        | 100                   | ^SELECT.*FOR UPDATE$ | 0      | NULL    | 1     |
| 4       | 1      | NULL     | NULL       | NULL        | 1000                  | ^SELECT              | 0      | NULL    | 1     |
| 1405    | 1      | proxysql | NULL       | NULL        | 101                   | ^SELECT.*FOR UPDATE$ | 0      | NULL    | 1     |
| 1406    | 1      | proxysql | NULL       | NULL        | 1001                  | ^SELECT              | 0      | NULL    | 1     |
+---------+--------+----------+------------+-------------+-----------------------+----------------------+--------+---------+-------+
4 rows in set (0.00 sec)

3，flagIN/flahOUT规则链实现多实例（推荐）

和2中的条件一样，先配置ProxySQL的servers，users：

admin@127.0.0.1 : (none) 01:09:52>insert into mysql_servers(hostgroup_id,hostname,port,weight,max_replication_lag,comment) 
    -> values
    -> (100, '192.168.200.202', 3306, 1, 10, 'ReadWrite'),
    -> (1000, '192.168.200.202', 3306, 1, 10, 'ReadWrite'),
    -> (1000, '192.168.200.132', 3306, 9, 10, 'ReadOnly');
Query OK, 3 rows affected (0.00 sec)

admin@127.0.0.1 : (none) 01:09:54>insert into mysql_servers(hostgroup_id,hostname,port,weight,max_replication_lag,comment) 
    -> values
    -> (101, '192.168.200.97', 3306, 1, 10, 'ReadWrite'),
    -> (1001, '192.168.200.97', 3306, 1, 10, 'ReadWrite'),
    -> (1001, '192.168.200.245', 3306, 9, 10, 'ReadOnly');
Query OK, 3 rows affected (0.01 sec)

admin@127.0.0.1 : (none) 01:11:01>insert into mysql_users(username, password,active,default_hostgroup,transaction_persistent)
    -> values
    -> ('sbuser', 'sbuser', 1, 100, 1),
    -> ('proxysql', 'proxysql', 1, 101, 1);
Query OK, 2 rows affected (0.00 sec)

admin@127.0.0.1 : (none) 01:19:44>set mysql-monitor_username='proxysql';
Query OK, 1 row affected (0.00 sec)

admin@127.0.0.1 : (none) 01:19:44>set mysql-monitor_password='proxysql';
Query OK, 1 row affected (0.00 sec)

admin@127.0.0.1 : (none) 01:56:09>select hostgroup_id,hostname,port,status from mysql_servers;
+--------------+-----------------+------+--------+
| hostgroup_id | hostname        | port | status |
+--------------+-----------------+------+--------+
| 100          | 192.168.200.202 | 3306 | ONLINE |
| 1000         | 192.168.200.202 | 3306 | ONLINE |
| 1000         | 192.168.200.132 | 3306 | ONLINE |
| 101          | 192.168.200.97  | 3306 | ONLINE |
| 1001         | 192.168.200.97  | 3306 | ONLINE |
| 1001         | 192.168.200.245 | 3306 | ONLINE |
+--------------+-----------------+------+--------+
6 rows in set (0.00 sec)

admin@127.0.0.1 : (none) 01:58:18>select username,default_hostgroup from mysql_users;
+----------+-------------------+
| username | default_hostgroup |
+----------+-------------------+
| sbuser   | 100               |
| proxysql | 101               |
+----------+-------------------+

再配置flagOUT/flagIN，flag20是读，flag21是写：

admin@127.0.0.1 : (none) 01:21:34>INSERT INTO mysql_query_rules(rule_id,active,match_pattern,apply,flagOUT) VALUES(49,1,'^SELECT.*FOR UPDATE$',0,21);
Query OK, 1 row affected (0.00 sec)

admin@127.0.0.1 : (none) 01:27:18>INSERT INTO mysql_query_rules(rule_id,active,match_pattern,apply,flagOUT) VALUES(50,1,'^SELECT',0,20);
Query OK, 1 row affected (0.00 sec)

admin@127.0.0.1 : (none) 01:32:11>insert into mysql_query_rules(active,schemaname,destination_hostgroup,apply,flagIN,flagOUT) values
    -> (1,'sbtest',100,1,21,21), 
    -> (1,'proxysql',101,1,21,21);
Query OK, 2 rows affected (0.00 sec)

admin@127.0.0.1 : (none) 01:32:53>insert into mysql_query_rules(active,schemaname,destination_hostgroup,apply,flagIN,flagOUT) values
    -> (1,'sbtest',1000,1,20,20),
    -> (1,'proxysql',1001,1,20,20);
Query OK, 2 rows affected (0.00 sec)

admin@127.0.0.1 : (none) 01:58:28>select rule_id,active,username,schemaname,client_addr,destination_hostgroup,match_pattern,flagIN,flagOUT,apply from mysql_query_rules;
+---------+--------+----------+------------+-------------+-----------------------+----------------------+--------+---------+-------+
| rule_id | active | username | schemaname | client_addr | destination_hostgroup | match_pattern        | flagIN | flagOUT | apply |
+---------+--------+----------+------------+-------------+-----------------------+----------------------+--------+---------+-------+
| 49      | 1      | NULL     | NULL       | NULL        | NULL                  | ^SELECT.*FOR UPDATE$ | 0      | 21      | 0     |
| 50      | 1      | NULL     | NULL       | NULL        | NULL                  | ^SELECT              | 0      | 20      | 0     |
| 51      | 1      | NULL     | sbtest     | NULL        | 100                   | NULL                 | 21     | 21      | 1     |
| 52      | 1      | NULL     | proxysql   | NULL        | 101                   | NULL                 | 21     | 21      | 1     |
| 53      | 1      | NULL     | sbtest     | NULL        | 1000                  | NULL                 | 20     | 20      | 1     |
| 54      | 1      | NULL     | proxysql   | NULL        | 1001                  | NULL                 | 20     | 20      | 1     |
+---------+--------+----------+------------+-------------+-----------------------+----------------------+--------+---------+-------+

最后保存上线：

-- 应用
load mysql users to runtime;
load mysql servers to runtime;
load mysql variables to runtime;
LOAD MYSQL QUERY RULES TO RUN;

-- 保存到磁盘
save mysql users to disk;
save mysql servers to disk;
save mysql variables to disk;
SAVE MYSQL QUERY RULES TO DISK;

save mysql users to mem;  -- 可以屏蔽看到的明文密码

app连接测试：

1）连接实例202

[zhoujy@localhost ~]$ mysql -usbuser -psbuser -h192.168.200.24 -P6033
...
sbuser@192.168.200.24 : (none) 02:19:41>show databases;                                                                                                                           +--------------------+
| Database           |
+--------------------+
| information_schema |
| sbtest             |
+--------------------+
2 rows in set (0.00 sec)

sbuser@192.168.200.24 : (none) 02:19:44>use sbtest
Database changed
sbuser@192.168.200.24 : sbtest 02:19:48>show tables;
...
sbuser@192.168.200.24 : sbtest 02:19:57>insert into x values(10000);
...
sbuser@192.168.200.24 : sbtest 02:20:10>select * from x;
...

相关信息：路由的信息都是正确的

admin@127.0.0.1 : (none) 02:24:15>select hostgroup,schemaname,username,digest_text,count_star from stats_mysql_query_digest;
+-----------+--------------------+----------+----------------------------------+------------+
| hostgroup | schemaname         | username | digest_text                      | count_star |
+-----------+--------------------+----------+----------------------------------+------------+
| 1000      | sbtest             | sbuser   | select * from x                  | 5          |
| 100       | sbtest             | sbuser   | insert into x values(?)          | 5          |
| 100       | sbtest             | sbuser   | show tables                      | 2          |
| 100       | sbtest             | sbuser   | show databases                   | 1          |
| 100       | information_schema | sbuser   | SELECT DATABASE()                | 1          |
| 100       | information_schema | sbuser   | show databases                   | 1          |
| 100       | information_schema | sbuser   | select USER()                    | 1          |
| 100       | information_schema | sbuser   | select @@version_comment limit ? | 1          |
+-----------+--------------------+----------+----------------------------------+------------+
8 rows in set (0.00 sec)

--路由命中
admin@127.0.0.1 : (none) 02:25:13>admin@1* from stats_mysql_query_rules;
+---------+------+
| rule_id | hits |
+---------+------+
| 49      | 0    |
| 50      | 6    |
| 51      | 0    |
| 52      | 0    |
| 53      | 5    |
| 54      | 0    |
+---------+------+
6 rows in set (0.00 sec)

结论：通过实例202的账号访问ProxySQL，首先会检查flagIN=0，在其上面进行匹配（Proxysql入口都是flagIN =0，顺序往下），匹配到之后检查flagOUT，发现 flagOUT不为NULL且flagIN !（0）= flagOUT （20），则进入以flagIN为上一个flagOUT值的新规则链，即20。再去flagIN=20里匹配，最终匹配到了rule_id=53的规则，最后转发。

2）连接实例97

相关情况和上面一样，最终通过rule_id=54进行转发。

建议：若要用ProxySQL来控制多主从实例的读写分离，推荐使用flagIN/flahOUT规则链实现多实例。

4，flagIN/flahOUT规则链实现分库

目的：客户端应用连接上 proxysql 的ip:port，连接时指定分库db名，自动路由到对应的实例、对应的库。

① ：环境

APP：192.168.200.25、192.168.200.64

M1：
     IP：192.168.200.202
     Port：3306
     DB：M1、M2、M3

S1：
     IP：192.168.200.132
     Port：3306
     DB：M1、M2、M3

M2：
     IP：192.168.200.97
     Port：3306
     DB：M4、M5、M6

S2：
     IP：192.168.200.245
     Port：3306
     DB：M4、M5、M6

ProxySQL：192.168.200.24

② 搭建

和之前一样先在后端数据库创建程序和检测账号：

--程序账号
GRANT SELECT,INSERT,UPDATE,DELETE ON `mtest%`.* TO 'mtest'@'192.168.200.24' identified by 'mtest';
--健康检测账号
GRANT SUPER, REPLICATION CLIENT ON *.* TO 'proxysql'@'192.168.200.24' IDENTIFIED BY 'proxysql';

配置ProxySQL：

--插入后端用户信息
insert into mysql_users(username, password,active,transaction_persistent) values('mtest','mtest',1,1);

--插入后端数据库信息
insert into mysql_servers(hostgroup_id,hostname,port,weight,max_replication_lag,comment) values(100,'192.168.200.202',3306,1,10,'test proxysql'); 
insert into mysql_servers(hostgroup_id,hostname,port,weight,max_replication_lag,comment) values(1000,'192.168.200.132',3306,9,10,'test proxysql'); 
insert into mysql_servers(hostgroup_id,hostname,port,weight,max_replication_lag,comment) values(1000,'192.168.200.202',3306,1,10,'test proxysql');
insert into mysql_servers(hostgroup_id,hostname,port,weight,max_replication_lag,comment) values(101,'192.168.200.97',3306,1,10,'test proxysql'); 
insert into mysql_servers(hostgroup_id,hostname,port,weight,max_replication_lag,comment) values(1001,'192.168.200.245',3306,9,10,'test proxysql'); 
insert into mysql_servers(hostgroup_id,hostname,port,weight,max_replication_lag,comment) values(1001,'192.168.200.97',3306,1,10,'test proxysql');

--配置健康检测信息
set mysql-monitor_username='proxysql';
set mysql-monitor_password='proxysql';

应用保存配置：

-- 应用
load mysql users to runtime;
load mysql servers to runtime;
load mysql variables to runtime;
-- 保存到磁盘
save mysql users to disk;
save mysql servers to disk;
save mysql variables to disk;
save mysql users to mem;  -- 可以屏蔽看到的明文密码

配置路由规则：

----添加读写分离的路由
--写:写的入口 flagIN=0
INSERT INTO mysql_query_rules(rule_id,active,match_pattern,apply,flagOUT) VALUES(49,1,'^SELECT.*FOR UPDATE$',0,21);
--读：读的入口 flagIN=0
INSERT INTO mysql_query_rules(rule_id,active,match_pattern,apply,flagOUT) VALUES(50,1,'^SELECT',0,20);
--反向匹配，相当于对 match_digest/match_pattern 的匹配取反，非select，即写
INSERT INTO mysql_query_rules(rule_id, active,match_pattern,negate_match_pattern,apply,flagOUT) values(60, 1,'^SELECT',1,0,21);

----为后端服务器配置路由
--读
insert into mysql_query_rules(active,schemaname,destination_hostgroup,apply,flagIN,flagOUT) values(1,'M1',1000,1,20,20),(1,'M2',1000,1,20,20),(1,'M3',1000,1,20,20);
insert into mysql_query_rules(active,schemaname,destination_hostgroup,apply,flagIN,flagOUT) values(1,'M4',1001,1,20,20),(1,'M5',1001,1,20,20),(1,'M6',1001,1,20,20);

--写
insert into mysql_query_rules(active,schemaname,destination_hostgroup,apply,flagIN,flagOUT) values(1,'M1',100,1,21,21),(1,'M2',100,1,21,21),(1,'M3',100,1,21,21);
insert into mysql_query_rules(active,schemaname,destination_hostgroup,apply,flagIN,flagOUT) values(1,'M4',101,1,21,21),(1,'M5',101,1,21,21),(1,'M6',101,1,21,21);

--连接时，若没有指定数据库，则进行show databases/tables、use 等会超时出错，连接时，默认的数据库是在information_schema，所以写一条根据information_schema库的路由,直接返回错误信息。
insert into mysql_query_rules(rule_id,active,schemaname,apply,flagOUT) values(20,1,'information_schema',0,302);
insert into mysql_query_rules(rule_id,active,apply, flagIN,flagOUT,error_msg) values(9999,1,1, 302,302,'No query rules matched (by ProxySQL)');

--连接时，若没有指定数据库，则可以使用 schemaname.tablename 的形式匹配数据。
insert into mysql_query_rules(rule_id,active,match_pattern,destination_hostgroup,apply,flagIN,flagOUT) values(1000,1,'([\s\`])M(1|2|3)([\.\`])',100,1,302,302);
insert into mysql_query_rules(rule_id,active,match_pattern,destination_hostgroup,apply,flagIN,flagOUT) values(1001,1,'([\s\`])M(4|5|6)([\.\`])',101,1,302,302);

应用规则：

LOAD MYSQL QUERY RULES TO RUN;
SAVE MYSQL QUERY RULES TO DISK;

最终的路由规则如下：

select rule_id,schemaname,destination_hostgroup,match_pattern,negate_match_pattern,flagIN,flagOUT,apply,error_msg from mysql_query_rules;

app连接测试：

~$ mysql -umtest -pmtest -h192.168.200.24 -P6033 -A
...
mtest@192.168.200.24 : (none) 11:27:29>show databases;  --触发了定义的路由                                                                                                                          ERROR 1148 (42000): No query rules matched (by ProxySQL)
mtest@192.168.200.24 : (none) 11:27:34>select * from M5.mtest5; --可以直接用schema.tables 访问
+------+
| id   |
+------+
|    5 |
|   55 |
+------+
2 rows in set (0.00 sec)

mtest@192.168.200.24 : (none) 11:27:47>use M1 --切换数据库
Database changed
mtest@192.168.200.24 : M1 11:27:52>show tables;  --可以show了
+--------------+
| Tables_in_M1 |
+--------------+
| mtest1       |
+--------------+
1 row in set (0.00 sec)

mtest@192.168.200.24 : M1 11:27:56>select * from mtest1;
+------+
| id   |
+------+
|    1 |
|   11 |
|  111 |
| 1111 |
+------+
4 rows in set (0.00 sec)

mtest@192.168.200.24 : M1 11:28:02>insert into mtest1 values(11111);
Query OK, 1 row affected (0.00 sec)

mtest@192.168.200.24 : M1 11:28:11>select * from mtest1;
+-------+
| id    |
+-------+
|     1 |
|    11 |
|   111 |
|  1111 |
| 11111 |
+-------+
5 rows in set (0.00 sec)

mtest@192.168.200.24 : M1 11:28:12>show databases; --可以show了
+--------------------+
| Database           |
+--------------------+
| information_schema |
| M1                 |
| M2                 |
| M3                 |
+--------------------+
4 rows in set (0.00 sec)

mtest@192.168.200.24 : M1 11:28:20>use M5  --切换到另一个实例的db
Database changed
mtest@192.168.200.24 : M5 11:28:52>show databases;
+--------------------+
| Database           |
+--------------------+
| information_schema |
| M4                 |
| M5                 |
| M6                 |
+--------------------+
4 rows in set (0.00 sec)

mtest@192.168.200.24 : M5 11:28:55>select * from mtest5;
+------+
| id   |
+------+
|    5 |
|   55 |
+------+
2 rows in set (0.00 sec)

mtest@192.168.200.24 : M5 11:29:03>insert into mtest5 values(555);
Query OK, 1 row affected (0.01 sec)

mtest@192.168.200.24 : M5 11:29:12>select * from mtest5;
+------+
| id   |
+------+
|    5 |
|   55 |
|  555 |
+------+
3 rows in set (0.00 sec)

查看路由命中率：

select active,hits, mysql_query_rules.rule_id, schemaname,match_pattern,destination_hostgroup hostgroup,flagIn,flagOUT   FROM mysql_query_rules NATURAL JOIN stats.stats_mysql_query_rules ORDER BY mysql_query_rules.rule_id;

查看SQL统计信息：

admin@127.0.0.1 : (none) 11:36:46>select hostgroup,schemaname,username,substr(digest_text,120,-120),count_star from stats_mysql_query_digest;
+-----------+--------------------+----------+----------------------------------+------------+
| hostgroup | schemaname         | username | substr(digest_text,120,-120)     | count_star |
+-----------+--------------------+----------+----------------------------------+------------+
| 101       | M5                 | mtest    | show databases                   | 1          |
| 1000      | M1                 | mtest    | SELECT DATABASE()                | 1          |
| 101       | M5                 | mtest    | insert into mtest5 values(?)     | 1          |
| 100       | M1                 | mtest    | show databases                   | 1          |
| 100       | M1                 | mtest    | insert into mtest1 values(?)     | 1          |
| 1000      | M1                 | mtest    | select * from mtest1             | 2          |
| 1001      | M5                 | mtest    | select * from mtest5             | 2          |
| 100       | M1                 | mtest    | show tables                      | 1          |
| 101       | information_schema | mtest    | select * from M5.mtest5          | 1          |
| 0         | information_schema | mtest    | show databases                   | 1          |
| 0         | information_schema | mtest    | SELECT DATABASE()                | 1          |
| 0         | information_schema | mtest    | select USER()                    | 1          |
| 0         | information_schema | mtest    | select @@version_comment limit ? | 1          |
+-----------+--------------------+----------+----------------------------------+------------+

具体的说明可以看ProxySQL之读写分离与分库路由演示，到此读写分离的测试介绍完毕，

5，查询重写

查询重写这种对于线上环境SQL问题引起的紧急故障处理还是很有用处的。如果定位到了问题所在，必须修改SQL，时间紧急，这时查询重写这个东西就非常有用了。类似于MySQL5.7的查询重写插件。这里做下相关的说明：

ProxySQL的核心就是路由，查询重写也只是添加一条路由而已，在4的基础上进行测试：

select * from mtest1 order by id 
重写成
select * from mtest1

添加路由：

--查询的路由，flagIN=0，当匹配上规则后进行重写，并且不应用，而通过flagOUT下去继续查询
INSERT INTO mysql_query_rules (rule_id,active,match_pattern,replace_pattern,apply,flagOUT) VALUES (48,1,'(.*)order by id','\1',0,20);

其实查询重写的实现在proxysql中也实现为正则匹配替换，表示当proxysql匹配到<若干字符>order by id这个模式后，就将这个模式的order by id去掉。那么\1是什么意思呢，就是sed的向前引用。

加载load和save完rules之后，查看是否重写成功：

--初始
#查询路由命中信息
admin@127.0.0.1 : (none) 02:44:52>select * from stats_mysql_query_rules;                                                                                                             +---------+------+
| rule_id | hits |
+---------+------+
| 20      | 0    |
| 48      | 0    |
| 49      | 0    |
| 50      | 0    |
| 60      | 0    |
| 61      | 0    |
| 62      | 0    |
| 63      | 0    |
| 64      | 0    |
| 65      | 0    |
| 66      | 0    |
| 67      | 0    |
| 68      | 0    |
| 69      | 0    |
| 70      | 0    |
| 71      | 0    |
| 72      | 0    |
| 1000    | 0    |
| 1001    | 0    |
| 9999    | 0    |
+---------+------+
20 rows in set (0.00 sec)

#查询统计信息
admin@127.0.0.1 : (none) 02:45:09>select * from stats_mysql_query_digest;
Empty set (0.00 sec)

--操作
~$ mysql -umtest -pmtest -h192.168.200.24 -P6033 -A
...
mtest@192.168.200.24 : (none) 02:45:27>use M1                                                                                                                                        Database changed
mtest@192.168.200.24 : M1 02:45:31>show tables;
+--------------+
| Tables_in_M1 |
+--------------+
| mtest1       |
+--------------+
1 row in set (0.00 sec)

mtest@192.168.200.24 : M1 02:45:33>select * from mtest1;
+-------+
| id    |
+-------+
|     1 |
|    11 |
|   111 |
|  1111 |
| 11111 |
+-------+
5 rows in set (0.00 sec)

mtest@192.168.200.24 : M1 02:45:37>select * from mtest1 order by id;
+-------+
| id    |
+-------+
|     1 |
|    11 |
|   111 |
|  1111 |
| 11111 |
+-------+
5 rows in set (0.00 sec)

mtest@192.168.200.24 : M1 02:45:46>select * from mtest1 order by id;
+-------+
| id    |
+-------+
|     1 |
|    11 |
|   111 |
|  1111 |
| 11111 |
+-------+
5 rows in set (0.01 sec)

----以上执行了2次order by id和1此没有order by id的查询，去查询统计应该得到的值是3次没有order by id的查询。

--验证
#查询统计信息，查看没有order by id的SQL出现了3次，没有出现有order by id的SQL
admin@127.0.0.1 : (none) 02:49:49>select hostgroup,schemaname,digest_text,count_star from stats_mysql_query_digest;
+-----------+--------------------+----------------------------------+------------+
| hostgroup | schemaname         | digest_text                      | count_star |
+-----------+--------------------+----------------------------------+------------+
| 1000      | M1                 | select * from mtest1             | 3          |
| 100       | M1                 | show tables                      | 1          |
| 0         | information_schema | SELECT DATABASE()                | 1          |
| 0         | information_schema | select USER()                    | 1          |
| 0         | information_schema | select @@version_comment limit ? | 1          |
+-----------+--------------------+----------------------------------+------------+
5 rows in set (0.00 sec)

#重写查询的路由命中了2次
admin@127.0.0.1 : (none) 02:50:12>select * from stats_mysql_query_rules;
+---------+------+
| rule_id | hits |
+---------+------+
| 20      | 1    |
| 48      | 2    |
| 49      | 0    |
| 50      | 1    |
| 60      | 1    |
| 61      | 3    |
| 62      | 0    |
| 63      | 0    |
| 64      | 0    |
| 65      | 0    |
| 66      | 0    |
| 67      | 1    |
| 68      | 0    |
| 69      | 0    |
| 70      | 0    |
| 71      | 0    |
| 72      | 0    |
| 1000    | 0    |
| 1001    | 0    |
| 9999    | 1    |
+---------+------+
20 rows in set (0.00 sec)

从上面的结果看，查询重写已经测试通过。到此，关于ProxySQL的相关测试已经结束，下面分析下和DBProxy的特性差别和性能差异。

性能测试

环境：

ProxySQL：192.168.200.24
DBProxy  ：192.168.200.24

M：
     IP：192.168.200.202
     Port：3306
     DB：sbtest
S：
     IP：192.168.200.132
     Port：3306
     DB：sbtest

读写混合(oltp_read_write.lua)测试对比：

直连数据库：

./bin/sysbench --test=./share/sysbench/oltp_read_write.lua --mysql-host=192.168.200.202 --mysql-port=3306 --mysql-user=sbuser --mysql-password=sbuser --mysql-db=sbtest  --report-interval=10  --max-requests=0 --time=120 --threads=1 --tables=3  --table-size=1000000 prepare/run/cleanup

ProxySQL连接数据库：

./bin/sysbench --test=./share/sysbench/oltp_read_write.lua --mysql-host=192.168.200.24 --mysql-port=6033 --mysql-user=sbuser --mysql-password=sbuser --mysql-db=sbtest  --report-interval=10  --max-requests=0 --time=120 --threads=1 --tables=3  --table-size=1000000 --skip-trx=on --db-ps-mode=disable --mysql-ignore-errors=1062 prepare/run/cleanup

DBProxy连接数据库

./bin/sysbench --test=./share/sysbench/oltp_read_write.lua --mysql-host=192.168.200.24 --mysql-port=3308 --mysql-user=sbuser --mysql-password=sbuser --mysql-db=sbtest  --report-interval=10  --max-requests=0 --time=120 --threads=1 --tables=3  --table-size=1000000 --skip-trx=on --db-ps-mode=disable --mysql-ignore-errors=1062 prepare/run/cleanup

测试的线程：1、2、4、8、16、32、64、128

把上面数据以曲线图的形式表现：

TPS：

QPS：

测试小结：

在读写混合的模式下：线程越少差距越大，测试结果和美团点评DBProxy读写分离使用说明里的测试报告基本吻合，这里主要对比ProxySQL和DBProxy的性能情况，从上图看到二者性能差不多，不过DBProxy的CPU消耗是ProxySQL的1到1.5倍。

总结：

通过上面的一些基本介绍，大致了解了ProxySQL读写分离功能的使用，关于ProxySQL的其他功能内容在手册里有了详尽的介绍，具体的情况请参考手册说明。现在大致整理下ProxySQL和DBproxy的差别:

①：连接池，是 multiplexing。

②：强大的正则路由，可以自己干预读写路由算法。

③：从库不可用自动下线，不需要人为干预，支持多主库。

④：支持重写SQL。

⑤：足够轻量，配置简单。

但是在安全配置上面，DBProxy比ProxySQL要强，ProxySQL前后端账号未分离，可以通过mysql_users查看，前后端公用一个账号，但是在runting_mysql_users里面前后端账号是分离的（backend、frontend）。其他的相关安全可以参考美团点评DBProxy读写分离使用说明。最后根据情况选择到底使用哪个proxy，要是使用的是MySQL Server 5.7，因DBProxy没有对5.7进行测试，所以推荐使用ProxySQL。至于如何防止ProxySQL的单点问题，也可以用lvs来解决，具体的说可以看LVS+Keepalived实现DBProxy的高可用。

参考文档

https://github.com/sysown/proxysql/wiki

ProxySQL之读写分离与分库路由演示

ProxySQL_读写分离/查询重写配置

http://proxysql.blogspot.jp/2015/09/proxysql-tutorial-setup-in-mysql.html

https://severalnines.com/blog/how-set-read-write-split-galera-cluster-using-proxysql

原文地址：https://www.cnblogs.com/ExMan/p/11351632.html