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这里有您想知道的互联网营销解决方案
MYSQL阿里的一个sql优化问题
原创水平有限,如果有误请指出

今天研究了一天innodb事物,临近下班了同事田兴春告诉我有个阿里发出来的优化题,并且把建表和语句给我了,并且告诉我语句里面有隐式转换
昨天群里也有人说这道题但是一直没空看,刚好这会没事就看了一下,整个脚本如下:


点击(此处)折叠或打开

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  1. 数据准备:

  2. create table a (id int auto_increment,seller_id bigint,seller_name varchar(100) collate utf8_bin ,gmt_create varchar(30),primary key(id));

  3. insert into a (seller_id,seller_name,gmt_create) values (100000,'uniqla','2017-01-01');
  4. insert into a (seller_id,seller_name,gmt_create) values (100001,'uniqlb','2017-02-01');
  5. insert into a (seller_id,seller_name,gmt_create) values (100002,'uniqlc','2017-03-01');
  6. insert into a (seller_id,seller_name,gmt_create) values (100003,'uniqld','2017-04-01');
  7. insert into a (seller_id,seller_name,gmt_create) values (100004,'uniqle','2017-05-01');
  8. insert into a (seller_id,seller_name,gmt_create) values (100005,'uniqlf','2017-06-01');
  9. insert into a (seller_id,seller_name,gmt_create) values (100006,'uniqlg','2017-07-01');
  10. insert into a (seller_id,seller_name,gmt_create) values (100007,'uniqlh','2017-08-01');
  11. insert into a (seller_id,seller_name,gmt_create) values (100008,'uniqli','2017-09-01');
  12. insert into a (seller_id,seller_name,gmt_create) values (100009,'uniqlj','2017-10-01');
  13. insert into a (seller_id,seller_name,gmt_create) values (100010,'uniqlk','2017-11-01');
  14. insert into a (seller_id,seller_name,gmt_create) values (100011,'uniqll','2017-12-01');
  15. insert into a (seller_id,seller_name,gmt_create) values (100012,'uniqlm','2018-01-01');
  16. insert into a (seller_id,seller_name,gmt_create) values (100013,'uniqln','2018-02-01');
  17. insert into a (seller_id,seller_name,gmt_create) values (100014,'uniqlo','2018-03-01');
  18. insert into a (seller_id,seller_name,gmt_create) values (100015,'uniqlp','2018-04-01');

  19. insert into a (seller_id,seller_name,gmt_create) select seller_id,seller_name,gmt_create from a;
  20. insert into a (seller_id,seller_name,gmt_create) select seller_id,seller_name,gmt_create from a;
  21. insert into a (seller_id,seller_name,gmt_create) select seller_id,seller_name,gmt_create from a;
  22. insert into a (seller_id,seller_name,gmt_create) select seller_id,seller_name,gmt_create from a;
  23. insert into a (seller_id,seller_name,gmt_create) select seller_id,seller_name,gmt_create from a;
  24. insert into a (seller_id,seller_name,gmt_create) select seller_id,seller_name,gmt_create from a;
  25. insert into a (seller_id,seller_name,gmt_create) select seller_id,seller_name,gmt_create from a;
  26. insert into a (seller_id,seller_name,gmt_create) select seller_id,seller_name,gmt_create from a;
  27. insert into a (seller_id,seller_name,gmt_create) select seller_id,seller_name,gmt_create from a;
  28. insert into a (seller_id,seller_name,gmt_create) select seller_id,seller_name,gmt_create from a;

  29. insert into a (seller_id,seller_name,gmt_create) values (100016,'uniqlq',now());

  30. create table b (id int auto_increment,seller_name varchar(100),user_id varchar(50),user_name varchar(100),sales bigint,gmt_create varchar(30),primary key(id));
  31. insert into b (seller_name,user_id,user_name,sales,gmt_create) values ('niqla','1','a',1,now());
  32. insert into b (seller_name,user_id,user_name,sales,gmt_create) values ('niqlb','2','b',3,now());
  33. insert into b (seller_name,user_id,user_name,sales,gmt_create) values ('niqlc','3','c',1,now());
  34. insert into b (seller_name,user_id,user_name,sales,gmt_create) values ('niqld','4','d',4,now());
  35. insert into b (seller_name,user_id,user_name,sales,gmt_create) values ('niqle','5','e',5,now());
  36. insert into b (seller_name,user_id,user_name,sales,gmt_create) values ('niqlf','6','f',1,now());
  37. insert into b (seller_name,user_id,user_name,sales,gmt_create) values ('niqlg','7','g',7,now());
  38. insert into b (seller_name,user_id,user_name,sales,gmt_create) values ('niqlh','8','h',1,now());
  39. insert into b (seller_name,user_id,user_name,sales,gmt_create) values ('niqli','9','i',1,now());
  40. insert into b (seller_name,user_id,user_name,sales,gmt_create) values ('niqlj','10','j',15,now());
  41. insert into b (seller_name,user_id,user_name,sales,gmt_create) values ('niqlk','11','k',61,now());
  42. insert into b (seller_name,user_id,user_name,sales,gmt_create) values ('niqll','12','l',31,now());
  43. insert into b (seller_name,user_id,user_name,sales,gmt_create) values ('niqlm','13','m',134,now());
  44. insert into b (seller_name,user_id,user_name,sales,gmt_create) values ('niqln','14','n',1455,now());
  45. insert into b (seller_name,user_id,user_name,sales,gmt_create) values ('niqlo','15','o',166,now());
  46. insert into b (seller_name,user_id,user_name,sales,gmt_create) values ('niqlp','16','p',15,now());
  47.                                                                                                       

  48. insert into b (seller_name,user_id,user_name,sales,gmt_create) select seller_name,user_id,user_name,sales,gmt_create from b;
  49. insert into b (seller_name,user_id,user_name,sales,gmt_create) select seller_name,user_id,user_name,sales,gmt_create from b;
  50. insert into b (seller_name,user_id,user_name,sales,gmt_create) select seller_name,user_id,user_name,sales,gmt_create from b;
  51. insert into b (seller_name,user_id,user_name,sales,gmt_create) select seller_name,user_id,user_name,sales,gmt_create from b;
  52. insert into b (seller_name,user_id,user_name,sales,gmt_create) select seller_name,user_id,user_name,sales,gmt_create from b;
  53. insert into b (seller_name,user_id,user_name,sales,gmt_create) select seller_name,user_id,user_name,sales,gmt_create from b;
  54. insert into b (seller_name,user_id,user_name,sales,gmt_create) select seller_name,user_id,user_name,sales,gmt_create from b;
  55. insert into b (seller_name,user_id,user_name,sales,gmt_create) select seller_name,user_id,user_name,sales,gmt_create from b;
  56. insert into b (seller_name,user_id,user_name,sales,gmt_create) select seller_name,user_id,user_name,sales,gmt_create from b;
  57. insert into b (seller_name,user_id,user_name,sales,gmt_create) select seller_name,user_id,user_name,sales,gmt_create from b;
  58.  
  59.  
  60.  
  61.  
  62. insert into b (seller_name,user_id,user_name,sales,gmt_create) values ('uniqlq','17','s',109,now());

  63.  



  64. create table c (id int auto_increment,user_id varchar(50),order_id varchar(100),state bigint,gmt_create varchar(30),primary key(id));
  65. insert into c (user_id,order_id,state,gmt_create) values( 21,1,0 ,now() );
  66. insert into c (user_id,order_id,state,gmt_create) values( 22,2,0 ,now() );
  67. insert into c (user_id,order_id,state,gmt_create) values( 33,3,0 ,now() );
  68. insert into c (user_id,order_id,state,gmt_create) values( 43,4,0 ,now() );
  69. insert into c (user_id,order_id,state,gmt_create) values( 54,5,0 ,now() );
  70. insert into c (user_id,order_id,state,gmt_create) values( 65,6,0 ,now() );
  71. insert into c (user_id,order_id,state,gmt_create) values( 75,7,0 ,now() );
  72. insert into c (user_id,order_id,state,gmt_create) values( 85,8,0 ,now() );
  73. insert into c (user_id,order_id,state,gmt_create) values( 95,8,0 ,now() );
  74. insert into c (user_id,order_id,state,gmt_create) values( 100,8,0 ,now() );
  75. insert into c (user_id,order_id,state,gmt_create) values( 150,8,0 ,now() );
  76. insert into c (user_id,order_id,state,gmt_create) select user_id,order_id,state,gmt_create from c;
  77. insert into c (user_id,order_id,state,gmt_create) select user_id,order_id,state,gmt_create from c;
  78. insert into c (user_id,order_id,state,gmt_create) select user_id,order_id,state,gmt_create from c;
  79. insert into c (user_id,order_id,state,gmt_create) select user_id,order_id,state,gmt_create from c;
  80. insert into c (user_id,order_id,state,gmt_create) select user_id,order_id,state,gmt_create from c;
  81. insert into c (user_id,order_id,state,gmt_create) select user_id,order_id,state,gmt_create from c;
  82. insert into c (user_id,order_id,state,gmt_create) select user_id,order_id,state,gmt_create from c;
  83. insert into c (user_id,order_id,state,gmt_create) select user_id,order_id,state,gmt_create from c;
  84. insert into c (user_id,order_id,state,gmt_create) select user_id,order_id,state,gmt_create from c;
  85. insert into c (user_id,order_id,state,gmt_create) select user_id,order_id,state,gmt_create from c;
  86. insert into c (user_id,order_id,state,gmt_create) select user_id,order_id,state,gmt_create from c;
  87. insert into c (user_id,order_id,state,gmt_create) select user_id,order_id,state,gmt_create from c;
  88. insert into c (user_id,order_id,state,gmt_create) select user_id,order_id,state,gmt_create from c;
  89. insert into c (user_id,order_id,state,gmt_create) select user_id,order_id,state,gmt_create from c;
  90. insert into c (user_id,order_id,state,gmt_create) select user_id,order_id,state,gmt_create from c;

  91.  

  92. insert into c (user_id,order_id,state,gmt_create) values( 17,8,0 ,now() );



  93. 待优化SQL:
  94. select a.seller_id,a.seller_name,b.user_name,c.state
  95. from a,b,c
  96. where a.seller_name=b.seller_name
  97. and b.user_id=c.user_id
  98. and c.user_id=17
  99. and a.gmt_create BETWEEN DATE_ADD(NOW(), INTERVAL - 600 MINUTE)
  100. AND DATE_ADD(NOW(), INTERVAL 600 MINUTE)
  101. order by a.gmt_create
先说明这个优化题目主要考察下面5点:
1、BNL和NJL的区别
2、NJL的实现
3、DBA对于数据分布的观察
4、隐式转换索引不能使用
5、比较字符集不同索引不能使用

一、我们先来分别描述
1、BNL和NJL的区别
这个区别参考我的文章
http://blog.itpub.net/7728585/viewspace-2129502/
(从顺序随机I/O原理来讨论MySQL MRR NLJ BNL BKA )
简单的说BNL一般用于TYPE=INDEX以及TYPE=ALL的情况,因为被驱动表连接条件没有索引,而需要join buffer 将驱动表中待连接的
数据取出来(物理/逻辑 读取),放到join buffer,主要目的在于减少被驱动表的驱动次数,从而提高效率,因为没有索引的情况
被驱动表扫描一次实在太慢了,这里的B就是BLOCK的意思.
而NJL一般用于被驱动表连接条件有索引的情况,通过索引上的ref或者eq_ref(取决于索引是否唯一)就理所当然的快很多很多,这个时候join buffer是不会
使用的,它只需要读取一条数据(物理/逻辑 读取)来驱动一次驱动表,因为驱动表连接条件有索引,自然就快了(索引定位回表)
2、NJL的实现
同样可以参考上面的文章,上面也大概说了一下,就不在废话了
3、DBA对于数据分布的观察
这一点是人为可以达到的,简单的说比如一个表有100条数据 99条为no=1 1条为no=2,那么我们
需要对这个有所警觉,如果这个表示用作驱动表那么no=2的时候效果要远远好于no=1。这道题也有
这个因素
明显and  c.user_id='17' 只有一条数据  
4、隐式转换索引不能使用
这个不管是MYSQL还是ORACLE都有的问题,
ORACLE会显示给出来to_char(id)='1'之类的
MYSQL中会有如下类似的警告
| Warning | 1739 | Cannot use ref access on index 'user_id' due to type or collation conversion on field 'user_id'                                                                                                                                             |
| Warning | 1739 | Cannot use range access on index 'user_id' due to type or collation conversion on field 'user_id'    

比如这里的
c.user_id=17  

user_id 是varchar类型不是int类型
又比如这里的
 a.gmt_create BETWEEN DATE_ADD(NOW(), INTERVAL - 600 MINUTE) 
AND  DATE_ADD(NOW(), INTERVAL 600 MINUTE)  
这里
gmt_create varchar(30) 居然也是varchar 擦!!
5、比较字符集不同索引使用异常
这个关于字符串的比较问题我已经在文章里面有所描述
http://blog.itpub.net/7728585/viewspace-2141914/
简单的说这里
a.seller_name=b.seller_name  
a.seller_name 比较字符集是utf8_bin 区分大小写

b.seller_name 是不区分大小写的这是默认的。
他们之间做join必然被驱动表用不到索引使用异常。(innodb 可以icp)
也会有类似如下的警告:
 Cannot use ref access on index 'seller_name' due to type or collation conversion on field 'seller_name'  

二、优化原则问题
我们知道基本所有的语句执行算法逻辑都在MYSQL层次,INNODB只是负责将数据通过几种方式
(PAGE_CUR_G,PAGE_CUR_GE,PAGE_CUR_L,PAGE_CUR_LE)扫描出来,递送给MYSQL层次进行处理,这之间存在扫描拿到
innodb record-->innodb tuple-->mysql record的一个转换的过程,这个步骤大部分被标记为sending data过程
(update/delete为updating),那么我们就有必要减少中间结果集的产生,来减少整个从innodb拿数据到MYSQL层的
整个数据量。这里以NJL的优化原则为列解释,因为这道题就是这个目的

1、减少NJL驱动结果集的数据
这事显而易见的,减少驱动次数自然就减少了数据在innodb和mysql之间的传递
2、被驱动表的索引唯一性要尽量好
这个问题稍微难理解一点,但是仔细想一下也没什么,如果被驱动表索引唯一性更好,那么通过索引回表的次数就少了,
这里可以通过rows和filter进行大概判断,大概是因为他们本来就不准。
曾经我们就有一个列子也是同事田兴春和我一起看的。一个被驱动表有两个链接条件,一个索引唯一性很差,而唯一性好的连接
列上没有索引,我们在唯一性好的列上建立了索引性能马上提升了。

三、关于本题

我们还是先避免c.user_id=17 隐试转换将17改为'17',a.gmt_create没有必要改他,原因后面会说
select a.seller_id,a.seller_name,b.user_name,c.state   
from  a,b,c
where  a.seller_name=b.seller_name  
and    b.user_id=c.user_id   
and  c.user_id='17'  
and a.gmt_create BETWEEN DATE_ADD(NOW(), INTERVAL - 600 MINUTE) 
AND  DATE_ADD(NOW(), INTERVAL 600 MINUTE)  
order  by  a.gmt_create 

然后我们看一下执行计划
+----+-------------+-------+------------+------+---------------+------+---------+------+--------+----------+----------------------------------------------------+
| id | select_type | table | partitions | type | possible_keys | key  | key_len | ref  | rows   | filtered | Extra                                              |
+----+-------------+-------+------------+------+---------------+------+---------+------+--------+----------+----------------------------------------------------+
|  1 | SIMPLE      | a     | NULL       | ALL  | NULL          | NULL | NULL    | NULL |  16108 |    11.11 | Using where; Using temporary; Using filesort       |
|  1 | SIMPLE      | b     | NULL       | ALL  | NULL          | NULL | NULL    | NULL |  16173 |    10.00 | Using where; Using join buffer (Block Nested Loop) |
|  1 | SIMPLE      | c     | NULL       | ALL  | NULL          | NULL | NULL    | NULL | 359382 |     1.00 | Using where; Using join buffer (Block Nested Loop) |
+----+-------------+-------+------------+------+---------------+------+---------+------+--------+----------+----------------------------------------------------+
3 rows in set, 1 warning (0.02 sec)

这里使用BNL,这事正常的连接条件没有任何索引,同时我们开始观察数据发现这道题
c表最后插入了
insert into c (user_id,order_id,state,gmt_create)  values( 17,8,0 ,now() );
b表最后插入了
insert into b (seller_name,user_id,user_name,sales,gmt_create) values ('uniqlq','17','s',109,now());
a表最后插入了
insert into a (seller_id,seller_name,gmt_create) values (100016,'uniqlq',now());
我们可以发现整个语句不管a,b,c表数据量有多大,整个连接下来只有一条数据,这也是我说的DBA对于数据分布观察的问题
,按照最优化的方法通过c表c.user_id='17'过滤后得到一个驱动结果集(实际上这里b表也可以MYSQL自动转换了)只有一条数据
然后连接b表(b.user_id=c.user_id)自然中间驱动结果集也只有一条数据,最后通过(a.seller_name=b.seller_name)连接
a表自然就只有一条数据了
and a.gmt_create BETWEEN DATE_ADD(NOW(), INTERVAL - 600 MINUTE) 
AND  DATE_ADD(NOW(), INTERVAL 600 MINUTE)  
order  by  a.gmt_create 
这两个都不用管它了。

按照这个思想。
我们可以先在c.user_id建立一个索引,意图在于通过索引过滤掉 c.user_id='17', b.user_id建立索引意图在于NJL被驱动表使用索引而不是全表的BNL
执行计划变为:

点击(此处)折叠或打开

  1. mysql> desc select a.seller_id,a.seller_name,b.user_name,c.state from a,b,c where a.seller_name=b.seller_name and b.user_id=c.user_id and c.user_id='17' and a.gmt_create BETWEEN DATE_ADD(NOW(), INTERVAL - 600 MINUTE) AND

  2.  DATE_ADD(NOW(), INTERVAL 600 MINUTE) order by a.gmt_create;
  3. +----+-------------+-------+------------+------+---------------+---------+---------+-------+-------+----------+----------------------------------------------------+
  4. | id | select_type | table | partitions | type | possible_keys | key | key_len | ref | rows | filtered | Extra |
  5. +----+-------------+-------+------------+------+---------------+---------+---------+-------+-------+----------+----------------------------------------------------+
  6. | 1 | SIMPLE | b | NULL | ref | user_id | user_id | 153 | const | 1 | 100.00 | Using temporary; Using filesort |
  7. | 1 | SIMPLE | c | NULL | ref | user_id | user_id | 153 | const | 1 | 100.00 | Using index condition |
  8. | 1 | SIMPLE | a | NULL | ALL | NULL | NULL | NULL | NULL | 16108 | 1.11 | Using where; Using join buffer (Block Nested Loop) |
  9. +----+-------------+-------+------------+------+---------------+---------+---------+-------+-------+----------+----------------------------------------------------+
显然这里b.user_id=c.user_id  and  c.user_id='17' 有一个转换如下我们通过sql trace可以看到

 "resulting_condition": "((`a`.`seller_name` = `b`.`seller_name`) and (`c`.`user_id` = '17') and (`a`.`gmt_create` between (now() + interval -(600) minute) and (now() + interval 600 minute)) and multiple equal(`b`.`user_id`, `c`.`user_id`))"
我们可以注意这里的
multiple equal(`b`.`user_id`, `c`.`user_id`))"
这实际上进行了转换 因为显然的b.user_id='17'是成立的

剩下的就是解决a表的BNL问题。我们不能让a表进行type=ALL 全表扫描,从而加快速度
我们在a.seller_name和b.seller_name建立索引执行计划变成了

点击(此处)折叠或打开

  1. mysql> desc select a.seller_id,a.seller_name,b.user_name,c.state from a,b,c where a.seller_name=b.seller_name and b.user_id=c.user_id and c.user_id='17' and a.gmt_create BETWEEN DATE_ADD(NOW(), INTERVAL - 600 MINUTE) AND

  2.  DATE_ADD(NOW(), INTERVAL 600 MINUTE) order by a.gmt_create;
  3. +----+-------------+-------+------------+------+---------------------+-------------+---------+--------------------+------+----------+----------------------------------------------+
  4. | id | select_type | table | partitions | type | possible_keys | key | key_len | ref | rows | filtered | Extra |
  5. +----+-------------+-------+------------+------+---------------------+-------------+---------+--------------------+------+----------+----------------------------------------------+
  6. | 1 | SIMPLE | b | NULL | ref | user_id,seller_name | user_id | 153 | const | 1 | 100.00 | Using where; Using temporary; Using filesort |
  7. | 1 | SIMPLE | c | NULL | ref | user_id | user_id | 153 | const | 1 | 100.00 | Using index condition |
  8. | 1 | SIMPLE | a | NULL | ref | seller_name | seller_name | 303 | test.b.seller_name | 947 | 11.11 | Using index condition; Using where |
  9. +----+-------------+-------+------------+------+---------------------+-------------+---------+--------------------+------+----------+----------------------------------------------+
  10. 3 rows in set, 2 warnings (0.00 sec)

这个时候我们看起来使用到了索引,但是这是ICP的功劳,我们看警告
 Cannot use ref access on index 'seller_name' due to type or collation conversion on field 'seller_name'    
这也就是我说的比较字符集不同索引使用异常,为了消除这个问题我们不得不更改a表seller_name的比较字符集

最后我们得到执行计划

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  1. +----+-------------+-------+------------+------+---------------------+-------------+---------+--------------------+------+----------+----------------------------------------------+
  2. | id | select_type | table | partitions | type | possible_keys | key | key_len | ref | rows | filtered | Extra |
  3. +----+-------------+-------+------------+------+---------------------+-------------+---------+--------------------+------+----------+----------------------------------------------+
  4. | 1 | SIMPLE | b | NULL | ref | user_id,seller_name | user_id | 153 | const | 1 | 100.00 | Using where; Using temporary; Using filesort |
  5. | 1 | SIMPLE | c | NULL | ref | user_id | user_id | 153 | const | 1 | 100.00 | Using index condition |
  6. | 1 | SIMPLE | a | NULL
    标题名称:MYSQL阿里的一个sql优化问题
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