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首先,咱们来看一下打开 ICP 与关闭 ICP 之间的性能区别,以下是测试过程:
准备数据:
create table icp(id int, age int, name varchar(30), memo varchar(600)) engine=innodb; alter table icp add index aind(age, name, memo); --let $i= 100000 while ($i) { --eval insert into icp values($i, 1, 'a$i', repeat('a$i', 100)) --dec $i }
PS: MySQL 有一个叫profile的东东,可以用来监视 SQL 语句在各个阶段的执行情况,咱们可以使用这个工具来观察 SQL 语句在各个阶段的运行情况,关于 profile 的详细说明可以参考官方文档。
打开 ICP 的性能测试:
set profiling=on; set optimizer_switch="index_condition_pushdown=on”; (default enabled) mysql> select * from icp where age = 999 and name like '%999%'; +------+------+------+------+ | id | age | name | memo | +------+------+------+------+ | NULL | 999 | 999 | 999 | +------+------+------+------+ 1 row in set (0.00 sec) mysql> explain select * from icp where age = 999 and name like '%999%'; +----+-------------+-------+------+---------------+------+---------+-------+------+-----------------------+ | id | select_type | table | type | possible_keys | key | key_len | ref | rows | Extra | +----+-------------+-------+------+---------------+------+---------+-------+------+-----------------------+ | 1 | SIMPLE | icp | ref | aind | aind | 5 | const | 1 | Using index condition | +----+-------------+-------+------+---------------+------+---------+-------+------+-----------------------+ 1 row in set (0.00 sec) mysql> show profiles; +----------+------------+-----------------------------------------------------------------+ | Query_ID | Duration | Query | +----------+------------+-----------------------------------------------------------------+ | 1 | 0.00043550 | select * from icp where age = 999 and name like '%999%' | | 2 | 0.00043250 | explain select * from icp where age = 999 and name like '%999%' | +----------+------------+-----------------------------------------------------------------+ 2 rows in set, 1 warning (0.00 sec) mysql> show profile cpu,block io for query 2; +----------------------+----------+----------+------------+--------------+---------------+ | Status | Duration | CPU_user | CPU_system | Block_ops_in | Block_ops_out | +----------------------+----------+----------+------------+--------------+---------------+ | starting | 0.000084 | 0.000000 | 0.000000 | 0 | 0 | | checking permissions | 0.000011 | 0.000000 | 0.000000 | 0 | 0 | | Opening tables | 0.000064 | 0.000000 | 0.000000 | 0 | 0 | | init | 0.000046 | 0.000000 | 0.000000 | 0 | 0 | | System lock | 0.000010 | 0.000000 | 0.000000 | 0 | 0 | | optimizing | 0.000020 | 0.000000 | 0.000000 | 0 | 0 | | statistics | 0.000082 | 0.000000 | 0.000000 | 0 | 0 | | preparing | 0.000022 | 0.000000 | 0.000000 | 0 | 0 | | explaining | 0.000021 | 0.000000 | 0.000000 | 0 | 0 | | query end | 0.000008 | 0.000000 | 0.000000 | 0 | 0 | | closing tables | 0.000022 | 0.000000 | 0.000000 | 0 | 0 | | freeing items | 0.000031 | 0.000000 | 0.000000 | 0 | 0 | | cleaning up | 0.000013 | 0.000000 | 0.000000 | 0 | 0 | +----------------------+----------+----------+------------+--------------+---------------+ 13 rows in set, 1 warning (0.00 sec) mysql> show session status like '%handler%'; +----------------------------+-------+ | Variable_name | Value | +----------------------------+-------+ | Handler_commit | 2 | | Handler_delete | 0 | | Handler_discover | 0 | | Handler_external_lock | 4 | | Handler_mrr_init | 0 | | Handler_prepare | 0 | | Handler_read_first | 0 | | Handler_read_key | 1 | | Handler_read_last | 0 | | Handler_read_next | 1 | | Handler_read_prev | 0 | | Handler_read_rnd | 0 | | Handler_read_rnd_next | 42 | | Handler_rollback | 0 | | Handler_savepoint | 0 | | Handler_savepoint_rollback | 0 | | Handler_update | 0 | | Handler_write | 39 | +----------------------------+-------+ 18 rows in set (0.00 sec)
关闭 ICP 的性能测试:
mysql> set optimizer_switch="index_condition_pushdown=off”; mysql> select * from icp where age = 1 and memo like '%9999%'; mysql> select * from icp where age = 999 and name like '%999%'; +------+------+------+------+ | id | age | name | memo | +------+------+------+------+ | NULL | 999 | 999 | 999 | +------+------+------+------+ 1 row in set (0.00 sec) mysql> explain select * from icp where age = 999 and name like '%999%'; +----+-------------+-------+------+---------------+------+---------+-------+------+-------------+ | id | select_type | table | type | possible_keys | key | key_len | ref | rows | Extra | +----+-------------+-------+------+---------------+------+---------+-------+------+-------------+ | 1 | SIMPLE | icp | ref | aind | aind | 5 | const | 1 | Using where | +----+-------------+-------+------+---------------+------+---------+-------+------+-------------+ 1 row in set (0.00 sec) mysql> show profiles; +----------+------------+-----------------------------------------------------------------+ | Query_ID | Duration | Query | +----------+------------+-----------------------------------------------------------------+ | 1 | 0.00043550 | select * from icp where age = 999 and name like '%999%' | | 2 | 0.00043250 | explain select * from icp where age = 999 and name like '%999%' | | 3 | 0.00081350 | show session status like '%handler%' | | 4 | 0.00010350 | set optimizer_switch="index_condition_pushdown=off" | | 5 | 0.00036525 | select * from icp where age = 999 and name like '%999%' | | 6 | 0.00032950 | explain select * from icp where age = 999 and name like '%999%' | +----------+------------+-----------------------------------------------------------------+ 6 rows in set, 1 warning (0.00 sec) mysql> show profile cpu,block io for query 5; +----------------------+----------+----------+------------+--------------+---------------+ | Status | Duration | CPU_user | CPU_system | Block_ops_in | Block_ops_out | +----------------------+----------+----------+------------+--------------+---------------+ | starting | 0.000068 | 0.000000 | 0.000000 | 0 | 0 | | checking permissions | 0.000007 | 0.000000 | 0.000000 | 0 | 0 | | Opening tables | 0.000020 | 0.000000 | 0.000000 | 0 | 0 | | init | 0.000032 | 0.000000 | 0.000000 | 0 | 0 | | System lock | 0.000010 | 0.000000 | 0.000000 | 0 | 0 | | optimizing | 0.000015 | 0.000000 | 0.000000 | 0 | 0 | | statistics | 0.000088 | 0.000000 | 0.000000 | 0 | 0 | | preparing | 0.000017 | 0.000000 | 0.000000 | 0 | 0 | | executing | 0.000003 | 0.000000 | 0.000000 | 0 | 0 | | Sending data | 0.000049 | 0.000000 | 0.000000 | 0 | 0 | | end | 0.000005 | 0.000000 | 0.000000 | 0 | 0 | | query end | 0.000007 | 0.000000 | 0.000000 | 0 | 0 | | closing tables | 0.000008 | 0.000000 | 0.000000 | 0 | 0 | | freeing items | 0.000024 | 0.000000 | 0.000000 | 0 | 0 | | cleaning up | 0.000014 | 0.000000 | 0.000000 | 0 | 0 | +----------------------+----------+----------+------------+--------------+---------------+ 15 rows in set, 1 warning (0.00 sec) mysql> show session status like '%handler%'; +----------------------------+-------+ | Variable_name | Value | +----------------------------+-------+ | Handler_commit | 4 | | Handler_delete | 0 | | Handler_discover | 0 | | Handler_external_lock | 8 | | Handler_mrr_init | 0 | | Handler_prepare | 0 | | Handler_read_first | 0 | | Handler_read_key | 2 | | Handler_read_last | 0 | | Handler_read_next | 2 | | Handler_read_prev | 0 | | Handler_read_rnd | 0 | | Handler_read_rnd_next | 58 | | Handler_rollback | 0 | | Handler_savepoint | 0 | | Handler_savepoint_rollback | 0 | | Handler_update | 0 | | Handler_write | 54 | +----------------------------+-------+ 18 rows in set (0.00 sec)
测试结论:由以上测试情况可以看到,在二级索引是复合索引且前面的条件过滤性较低的情况下,打开 ICP 可以有效的降低 server 层和 engine 层之间交互的次数,从而有效的降低在运行时间。
5.6 之前,在 SQL 语句的执行过程中,server 层通过 engine 的 api 获取数据,然后再进行 where_cond 的判断(具体判断逻辑在: evaluate_join_record),每一条数据都需要从engine层返回server层做判断。我们回顾一下上面把 ICP 关掉的测试,可以看到 Handler_read_next 的值陡增,其原因是第 1 个字段区分度不高,且 memo 字段无法使用索引,造成了类似 index 扫描的的情况,性能较低。
5.6 之后,在利用索引扫描的过程中,如果发现 where_cond 中含有这个 index 相关的条件,则将此条件记录在 handler 接口中,在索引扫描的过程中,只有满足索引与handler接口的条件时,才会返回到 server 层做进一步的处理,在前缀索引区分度不够,其它字段区分度高的情况下可以有效的减少 server & engine之间的开销,提升查询性能。
我们在上小节提到,index condition down 所用的条件是记在handler接口中的,咱们分析一下“记录”的过程是如何实现的。
首先,优化器计算代价后会生成一个 JOIN_TAB 的左支树,每一个 JOIN_TAB 包含相关表的指针、表的读取方式、访问表所包含的索引等信息,优化器会在make_join_readinfo 中对JOIN_TAB中表的访问方式进行相应的修正,并进一步将 where cond 中和索引相关的条件记录到 table 的句柄中,堆栈如下:
#0 make_cond_for_index (cond=0x2b69680179e8, table=0x2b6968012100, keyno=0, other_tbls_ok=true) #1 in push_index_cond (tab=0x2b696802aa48, keyno=0, other_tbls_ok=true, trace_obj=0x2b696413ec30) #2 in make_join_readinfo (join=0x2b6968017db0, options=0, no_jbuf_after=4294967295) #3 in JOIN::optimize (this=0x2b6968017db0) #4 in mysql_execute_select (thd=0x3176760, select_lex=0x3179470, free_join=true)
其次, make_cond_for_index 是一个递归的过程,对 where_cond中的每一个条件进行判断,对满足条件的 cond 重新组合成一个新的cond,最后将新的 cond 挂在table->file 下面(table->file 指的是操作物理表的接口函数,此变量为thd下私有的,不共享,共享的是tab->table->s),详细参考make_cond_for_index 的详细实现,设置的堆栈如下:
#0 ha_innobase::idx_cond_push (this=0x2b696800e810, keyno=0, idx_cond=0x2b69680179e8) #1 0x0000000000a60a55 in push_index_cond (tab=0x2b696802aa48, keyno=0, other_tbls_ok=true, trace_obj=0x2b696413ec30) #2 0x0000000000a6362f in make_join_readinfo (join=0x2b6968017db0, options=0, no_jbuf_after=4294967295) #3 0x0000000000d9b8bd in JOIN::optimize (this=0x2b6968017db0 #4 0x0000000000a5b9ae in mysql_execute_select (thd=0x3176760, select_lex=0x3179470, free_join=true)
再次,server 层根据生成的 JOIN_TAB 读取engine层的内容,在engine读取的时候,会进行index_condition_pushdown的调用,即 ICP 的调用,堆栈如下:
#0 Item_func_like::val_int (this=0x2b6978005a28) #1 0x0000000001187b66 in innobase_index_cond (file=0x2b696800e810) #2 0x0000000001393566 in row_search_idx_cond_check (mysql_rec=0x2b69680129f0 <incomplete sequence="" \361>, prebuilt=0x2b69680130f8, rec=0x2b692b56e4cf "\200", offsets=0x2b697008d450) #3 0x0000000001397e2b in row_search_for_mysql (buf=0x2b69680129f0 <incomplete sequence="" \361>, mode=2, prebuilt=0x2b69680130f8, match_mode=1, direction=0) #4 0x00000000011696b9 in ha_innobase::index_read (this=0x2b696800e810, buf=0x2b69680129f0 <incomplete sequence="" \361>, key_ptr=0x2b697800a660 "", key_len=5, find_flag=HA_READ_KEY_EXACT) #5 0x00000000006ecc58 in handler::index_read_map (this=0x2b696800e810, buf=0x2b69680129f0 <incomplete sequence="" \361>, key=0x2b697800a660 "", keypart_map=1, find_flag=HA_READ_KEY_EXACT) #6 0x00000000006d6bb4 in handler::ha_index_read_map (this=0x2b696800e810, buf=0x2b69680129f0 <incomplete sequence="" \361>, key=0x2b697800a660 "", keypart_map=1, find_flag=HA_READ_KEY_EXACT) #7 0x00000000009a1870 in join_read_always_key (tab=0x2b697800a1b8) #8 0x000000000099d480 in sub_select (join=0x2b6978005df0, join_tab=0x2b697800a1b8, end_of_records=false) #9 0x000000000099c6c0 in do_select (join=0x2b6978005df0) #10 0x00000000009980a4 in JOIN::exec (this=0x2b6978005df0) #11 0x0000000000a5bac0 in mysql_execute_select (thd=0x32801a0, select_lex=0x3282eb0, free_join=true)
可见在 ICP 的判断是调用相关item的函数的,虽然同是调用 server 层的函数,但是没有 ICP 的调用需要根据主建找到记录,然后再匹配,而有了 ICP 可以省略一次主键查找数据的过程,进而提升效率。
只支持 select 语句;
5.6 中只支持 MyISAM 与 InnoDB 引擎;
ICP的优化策略可用于range、ref、eq_ref、ref_or_null 类型的访问数据方法;
不支持主建索引的 ICP;
当 SQL 使用覆盖索引时但只检索部分数据时,ICP 无法使用,详细的分析可以参考 bug#68554 中 Olav Sandst?的分析,代码实现部分可以参考 make_join_readinfo;
在查询的时候即使正确的使用索引的前N个字段(即遵循前缀索引的原则),还是会用到 ICP,无故的多了 ICP 相关的判断,这应该是一个退化的问题,例:
mysql> explain select * from icp where age = 999 and name like '999%'; +----+-------------+-------+-------+---------------+------+---------+------+------+-------------+ | id | select_type | table | type | possible_keys | key | key_len | ref | rows | Extra | +----+-------------+-------+-------+---------------+------+---------+------+------+-------------+ | 1 | SIMPLE | icp | range | aind | aind | 98 | NULL | 1 | Using index condition | +----+-------------+-------+-------+---------------+------+---------+------+------+-------------+ 1 row in set (0.00 sec)
PS: engine condition pushdown 是 NDB 使用的,其它引擎不支持。
补充:
如:
root@read 02:28:07>show status like ‘Handler_read%’;
+———————–+——-+
| Variable_name | Value |
+———————–+——-+
| Handler_read_first | 0 |
| Handler_read_key | 0 |
| Handler_read_next | 0 |
| Handler_read_prev | 0 |
| Handler_read_rnd | 0 |
| Handler_read_rnd_next | 61 |
+———————–+——-+
6 rows in set (0.41 sec)
Handler_read_first 代表读取索引头的次数,如果这个值很高,说明全索引扫描很多。
Handler_read_key代表一个索引被使用的次数,如果我们新增加一个索引,可以查看Handler_read_key是否有增加,如果有增加,说明sql用到索引。
Handler_read_next 代表读取索引的下列,一般发生range scan。
Handler_read_prev 代表读取索引的上列,一般发生在ORDER BY … DESC。
Handler_read_rnd 代表在固定位置读取行,如果这个值很高,说明对大量结果集进行了排序、进行了全表扫描、关联查询没有用到合适的KEY。
Handler_read_rnd_next 代表进行了很多表扫描,查询性能低下。
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