时间:2021-07-01 10:21:17 帮助过:23人阅读
数据库收到报警,负载飙至60,上去一看,cpu飙至3000%,32个核心所剩无几!第一反应,sql语句卡住了。登录mysql,showprocesslist,发现大量重复的sql语句SELECT
数据库收到报警,负载飙至60,上去一看,cpu飙至3000%,32个核心所剩无几!
第一反应,sql语句卡住了。
登录mysql,show processlist,发现大量重复的sql语句
SELECT cv.filter_value_id,cv.filter_id,cv.value,COUNT(1) quantity FROM e_category_filter_value AS cv INNER JOIN e_product_to_filter_value AS p_v ON cv.filter_value_id=p_v.filter_value_id INNER JOIN products AS p ON p_v.products_id = p.products_id INNER JOIN products_to_categories AS p_c ON p_c.products_id=p_v.products_id WHERE cv.filter_id IN(575,576,568,572,569,570,571,573,574) GROUP BY cv.filter_value_id;已经有人反应网站开始打不开,为了尽快解决问题,,使用自己写的快速杀连接脚本杀掉这些sql语句.脚本大致可以参考sql语句
SELECT * FROM information_schema.processlist WHERE TIME >=5 AND USER LIKE 'banggood%' AND (state LIKE 'Copying%' OR state LIKE 'Sending%' OR state LIKE 'Sorting%'连续杀了几次,发现cpu稳定,网站也趋于稳定!
接下来着手优化这条sql语句!
第一步,找到对应的开发人员,了解大致作用。
第二步,explian
mysql> explain SELECT SQL_NO_CACHE cv.filter_value_id,cv.filter_id,cv.value,COUNT(1) quantity FROM e_category_filter_value AS cv INNER JOIN e_product_to_filter_value AS p_v ON cv.filter_value_id=p_v.filter_value_id INNER JOIN products AS p ON p_v.products_id = p.products_id INNER JOIN products_to_categories AS p_c ON p_c.products_id=p_v.products_id WHERE cv.filter_id IN(575,576,568,572,569,570,571,573,574) GROUP BY cv.filter_value_id; +----+-------------+-------+--------+---------------------------------+-------------+---------+------------------------------+-------+----------------------------------------------+ | id | select_type | table | type | possible_keys | key | key_len | ref | rows | Extra | +----+-------------+-------+--------+---------------------------------+-------------+---------+------------------------------+-------+----------------------------------------------+ | 1 | SIMPLE | p_c | index | PRIMARY | PRIMARY | 8 | NULL | 98109 | Using index; Using temporary; Using filesort | | 1 | SIMPLE | p | eq_ref | PRIMARY | PRIMARY | 4 | banggood.p_c.products_id | 1 | Using index | | 1 | SIMPLE | p_v | ref | products_id,ix_eptfv_fvid_proid | products_id | 4 | banggood.p_c.products_id | 16 | | | 1 | SIMPLE | cv | eq_ref | PRIMARY,filter_id | PRIMARY | 4 | banggood.p_v.filter_value_id | 1 | Using where | +----+-------------+-------+--------+---------------------------------+-------------+---------+------------------------------+-------+----------------------------------------------+发现并没有使用索引cv.filter_id(该索引是存在的),而是选择了p_c表的主键,导致了全索引扫描,大量损耗cpu。
第三步,尝试使用force index
mysql> EXPLAIN -> SELECT SQL_NO_CACHE cv.filter_value_id,cv.filter_id,cv.value,COUNT(1) quantity -> FROM e_category_filter_value AS cv FORCE INDEX(filter_id) -> INNER JOIN e_product_to_filter_value AS p_v ON cv.filter_value_id=p_v.filter_value_id -> INNER JOIN products AS p ON p_v.products_id = p.products_id -> INNER JOIN products_to_categories AS p_c ON p_c.products_id=p_v.products_id -> WHERE cv.filter_id IN(575,576,568,572,569,570,571,573,574) -> GROUP BY cv.filter_value_id; +----+-------------+-------+--------+---------------------------------+---------------------+---------+-----------------------------+------+----------------------------------------------+ | id | select_type | table | type | possible_keys | key | key_len | ref | rows | Extra | +----+-------------+-------+--------+---------------------------------+---------------------+---------+-----------------------------+------+----------------------------------------------+ | 1 | SIMPLE | cv | range | filter_id | filter_id | 4 | NULL | 75 | Using where; Using temporary; Using filesort | | 1 | SIMPLE | p_v | ref | products_id,ix_eptfv_fvid_proid | ix_eptfv_fvid_proid | 4 | banggood.cv.filter_value_id | 1495 | Using index | | 1 | SIMPLE | p_c | ref | PRIMARY | PRIMARY | 4 | banggood.p_v.products_id | 981 | Using index | | 1 | SIMPLE | p | eq_ref | PRIMARY | PRIMARY | 4 | banggood.p_c.products_id | 1 | Using where; Using index | +----+-------------+-------+--------+---------------------------------+---------------------+---------+-----------------------------+------+----------------------------------------------+对比两次执行时间,为使用force index时,执行需要2s;使用后,执行时间变为0.03s。
你以为这次优化就这样结束了,那就和我给的题目不符了!
第四部:
仔细观察这个sql语句,发现where里面和select子句里面都么有设计到
INNER JOIN products AS p ON p_v.products_id = p.products_id INNER JOIN products_to_categories AS p_c ON p_c.products_id=p_v.products_id这两个连表子句的任何参数,询问开发,发现需要和products表做连表过滤,因为可能在e_category_filter_value表中存在的products_id,但是可能在products表中不存在。而至于products_to_categories表(产品对类别表,一个产品对应了多个类别,是一个可以将结果集放大非常多倍的表),他找不到加上的理由。
现在去掉products_to_categories表
mysql> EXPLAIN -> SELECT SQL_NO_CACHE cv.filter_value_id,cv.filter_id,cv.value,COUNT(1) quantity -> FROM e_category_filter_value AS cv -> INNER JOIN e_product_to_filter_value AS p_v ON cv.filter_value_id=p_v.filter_value_id -> INNER JOIN products AS p ON p_v.products_id = p.products_id -> WHERE cv.filter_id IN(575,576,568,572,569,570,571,573,574) -> GROUP BY cv.filter_value_id; +----+-------------+-------+--------+---------------------------------+---------------------+---------+-----------------------------+------+----------------------------------------------+ | id | select_type | table | type | possible_keys | key | key_len | ref | rows | Extra | +----+-------------+-------+--------+---------------------------------+---------------------+---------+-----------------------------+------+----------------------------------------------+ | 1 | SIMPLE | cv | range | PRIMARY,filter_id | filter_id | 4 | NULL | 75 | Using where; Using temporary; Using filesort | | 1 | SIMPLE | p_v | ref | products_id,ix_eptfv_fvid_proid | ix_eptfv_fvid_proid | 4 | banggood.cv.filter_value_id | 1495 | Using index | | 1 | SIMPLE | p | eq_ref | PRIMARY | PRIMARY | 4 | banggood.p_v.products_id | 1 | Using index | +----+-------------+-------+--------+---------------------------------+---------------------+---------+-----------------------------+------+----------------------------------------------+ 3 rows in set (0.00 sec)发现索引使用正确,再次执行,发现执行时间变为0.03s。
总结:1.尽量不要连接一些可有可无的表,这个例子就是血的教训
2.不要太相信mysql的索引使用,有的时候需要自己借助于force index命令来进行调优!
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