为了演示,首先建两个包含不良索引的表,并弄点数据。
mysql> show create table test1\G
*************************** 1. row ***************************
Table: test1
Create Table: CREATE TABLE `test1` (
`id` int(11) NOT NULL,
`f1` int(11) DEFAULT NULL,
`f2` int(11) DEFAULT NULL,
`f3` int(11) DEFAULT NULL,
PRIMARY KEY (`id`),
KEY `k1` (`f1`,`id`),
KEY `k2` (`id`,`f1`),
KEY `k3` (`f1`),
KEY `k4` (`f1`,`f3`),
KEY `k5` (`f1`,`f3`,`f2`)
) ENGINE=InnoDB DEFAULT CHARSET=latin1
1 row in set (0.00 sec)
mysql> show create table test2\G
*************************** 1. row ***************************
Table: test2
Create Table: CREATE TABLE `test2` (
`id1` int(11) NOT NULL DEFAULT '0',
`id2` int(11) NOT NULL DEFAULT '0',
`b` int(11) DEFAULT NULL,
PRIMARY KEY (`id1`,`id2`),
KEY `k1` (`b`)
) ENGINE=InnoDB DEFAULT CHARSET=latin1
1 row in set (0.00 sec)
mysql> select count(*) from test2 group by b;
+----------+
| count(*) |
+----------+
| 32 |
| 17 |
+----------+
2 rows in set (0.00 sec)
1. 包含主键的索引
innodb 本身是聚簇表,每个二级索引本身就包含主键,类似 f1, id 的索引实际虽然没有害处,但反映了使用者对 mysql 索引不了解。而类似 id, f1 的是多余索引,会浪费存储空间,并影响数据更新性能。包含主键的索引用这样一句 sql 就能全部找出来。
mysql> select c.*, pk from
-> (select table_schema, table_name, index_name, concat('|', group_concat(column_name order by seq_in_index separator '|'), '|') cols
-> from INFORMATION_SCHEMA.STATISTICS
-> where index_name != 'PRIMARY' and table_schema != 'mysql'
-> group by table_schema, table_name, index_name) c,
-> (select table_schema, table_name, concat('|', group_concat(column_name order by seq_in_index separator '|'), '|') pk
-> from INFORMATION_SCHEMA.STATISTICS
-> where index_name = 'PRIMARY' and table_schema != 'mysql'
-> group by table_schema, table_name) p
-> where c.table_name = p.table_name and c.table_schema = p.table_schema and c.cols like concat('%', pk, '%');
+--------------+------------+------------+---------+------+
| table_schema | table_name | index_name | cols| pk |
+--------------+------------+------------+---------+------+
| test | test1 | k1 | |f1|id| | |id| |
| test | test1 | k2 | |id|f1| | |id| |
+--------------+------------+------------+---------+------+
2 rows in set (0.04 sec)
2. 重复索引前缀
包含重复前缀的索引,索引能由另一个包含该前缀的索引完全代替,是多余索引。多余的索引会浪费存储空间,并影响数据更新性能。这样的索引同样用一句 sql 可以找出来。
mysql> select c1.table_schema, c1.table_name, c1.index_name,c1.cols,c2.index_name, c2.cols from
-> (select table_schema, table_name, index_name, concat('|', group_concat(column_name order by seq_in_index separator '|'), '|') cols
-> from INFORMATION_SCHEMA.STATISTICS
-> where table_schema != 'mysql' and index_name!='PRIMARY'
-> group by table_schema,table_name,index_name) c1,
-> (select table_schema, table_name,index_name, concat('|', group_concat(column_name order by seq_in_index separator '|'), '|') cols
-> from INFORMATION_SCHEMA.STATISTICS
-> where table_schema != 'mysql' and index_name != 'PRIMARY'
-> group by table_schema, table_name, index_name) c2
-> where c1.table_name = c2.table_name and c1.table_schema = c2.table_schema and c1.cols like concat(c2.cols, '%') and c1.index_name != c2.index_name;
+--------------+------------+------------+------------+------------+---------+
| table_schema | table_name | index_name | cols | index_name | cols|
+--------------+------------+------------+------------+------------+---------+
| test | test1 | k1 | |f1|id|| k3 | |f1||
| test | test1 | k4 | |f1|f3|| k3 | |f1||
| test | test1 | k5 | |f1|f3|f2| | k3 | |f1||
| test | test1 | k5 | |f1|f3|f2| | k4 | |f1|f3| |
+--------------+------------+------------+------------+------------+---------+
4 rows in set (0.02 sec)
3. 低区分度索引
这样的索引由于仍然会扫描大量记录,在实际查询时通常会被忽略。但是在某些情况下仍然是有用的。因此需要根据实际情况进一步分析。这里是区分度小于 10% 的索引,可以根据需要调整参数。
mysql> select p.table_schema, p.table_name, c.index_name, c.car, p.car total from
-> (select table_schema, table_name, index_name, max(cardinality) car
-> from INFORMATION_SCHEMA.STATISTICS
-> where index_name != 'PRIMARY'
-> group by table_schema, table_name,index_name) c,
-> (select table_schema, table_name, max(cardinality) car
-> from INFORMATION_SCHEMA.STATISTICS
-> where index_name = 'PRIMARY' and table_schema != 'mysql'
-> group by table_schema,table_name) p
-> where c.table_name = p.table_name and c.table_schema = p.table_schema and p.car > 0 and c.car / p.car < 0.1;
+--------------+------------+------------+------+-------+
| table_schema | table_name | index_name | car | total |
+--------------+------------+------------+------+-------+
| test | test2 | k1 |4 |49 |
+--------------+------------+------------+------+-------+
1 row in set (0.04 sec)
4. 复合主键
由于 innodb 是聚簇表,每个二级索引都会包含主键值。复合主键会造成二级索引庞大,而影响二级索引查询性能,并影响更新性能。同样需要根据实际情况进一步分析。
mysql> select table_schema, table_name, group_concat(column_name order by seq_in_index separator ',') cols, max(seq_in_index) len
->from INFORMATION_SCHEMA.STATISTICS
->where index_name = 'PRIMARY' and table_schema != 'mysql'
->group by table_schema, table_name having len>1;
+--------------+------------+-----------------------------------+------+
| table_schema | table_name | cols | len |
+--------------+------------+-----------------------------------+------+
| test | test2 | id1,id2 |2 |
+--------------+------------+-----------------------------------+------+
1 rows in set (0.01 sec)
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