Home > Database > Mysql Tutorial > body text

mysql学习记录(二十)--MysqlServer参数调整_MySQL

WBOY
Release: 2016-05-30 17:10:04
Original
1144 people have browsed it

一、理论:
1.内存优化原则:
a.将尽量多的内存分配给mysql做缓存,但要给操作系统和其他程序预留足够的内存,否则将产生SWAP页交换,影响自身性能
b.MyISAM的数据文件读取依赖于操作系统自身的IO缓存,因此,如果有MyISAM表,就要预留更多的内存给操作系统做IO缓存
c.排序区、连接区等缓存是分配给每个数据库会话专用的,其默认值的设置要根据最大连接数合理分配。不能设置太大否则在并发连接较高时会导致物理内存耗尽
2.MyISAM内存优化:
a.key_buffer_size决定MyISAM索引块缓存区的大小,它直接影响MyISAM表的存取效率。可以在mysql参数文件中设置key_buffer_size的值,对于一般MyISAM的数据库建议至少将1/4可用内存分配给key_buffer_size
key buffer使用率计算公式如下:
1 - ( (key_blocks_unused * key_cache_block_size) / key_buffer_size )
在80%左右合适。大于80%将因索引缓存不足导致性能下降,小于80%会导致内存浪费 
b.使用多个索引缓存:
1)mysql通过各session共享key buffer提高了MyISAM索引存取的性能,但它并不能消除session间key buffer间的竞争。
3.调整LRU策略:
a.通过调节key_cache_division_limit来控制多大比例的缓存用做warm子表。
在最后:
N * key_cache_age_threshold / 100次缓存命准内未被访问过,就会被降级到warm子表
b.调整read_buffer_size和read_md_buffer_size
c.如带用order by子句,可以适当增大read_rnd_buffer_size的值。但read_rnd_buffer_size的值也是按session分配的
4.InnoDB内存优化:
a.InnoDB用一块内存区做IO缓存池,该缓存池不仅用来缓存InnoDB的索引块,而且也用来缓存InnoDB的数据块。与MyISAM不同
b.在内部,InnoDB缓存池逻辑上由free list、flush list、LRU list组成。顾名思义,free list是空闲缓存块列表,flush list是需要缓新到磁盘的缓存块列表,而LRU list是InnoDB正在使用的缓存块,它是InnoDB buffer pool的核心。
InnoDB使用LRU算法与MyISAM的‘中点插入策略’LRU算法类似。
脏页的刷新
c.可以通过调整InnoDB buffer pool的大小,改变young sublist和old sublist的分配比例、控制脏缓存的刷新活动、使用多个InnoDB缓存池等方法来优化InnoDB的性能
5.innodb_buffer_pool_size的设置:
a.innodb_buffer_pool_size决定InnoDB存储引擎表数据和索引数据的最大缓存区大小。innodb buffer pool同时为数据块和索引块提供数据缓存,若innodb_buffer_pool_size值越大,缓存命中率越高,访问InnoDB表需要的磁盘I/O就越少,性能也就越高。
可以通过:
mysqladmin -S /tmp/mysql.sock ext | grep -i innodb_buffer_pool
查看buffer pool的使用情况
可用以下公式InnoDB缓存池的命中率:
( 1- innodb_buffer_pool_reads/innodb_buffer_pool_read_request) * 100
若太低则应该扩充内存、增加innodb_buffer_pool_size的值
6.调整innodb_old_blocks_time的设置:
a.innodb_old_blocks_time参数决定了缓存数据块由old sublist转移到young sublist的快慢,当一个缓存数据块被插入到midpoint(old sublist)后,至少要在old sublist停留超过innodb_old_blocks_time(ms)后,才有可能被转移到new sublist.
可以根据InnoDB Monitor的输出信息来调整innodb_old_blocks_time的值,在进行表扫描时,如果non-youngs/s很低,young/s很高,就应考虑将innodb_old_blocks_time适当调大,以防止表扫描将真正的热数据淘汰,此值可以进行动态设置
7.调整缓存池数量,减少内部对缓存池数据结构的争用:
a.InnoDB的缓存系统引入了innodb_buffer_pool_instances配置参数。对于较大的缓存池,适当增大此参数的值,可以降低并发导致的内部缓存访问冲突,改善性能。InnoDB缓存系统会将参数innodb_buffer_pool_size指定大小的缓存平分为innodb_buffer_pool_instances个buffer pool.
8.控制innodb buffer刷新,延长数据缓存时间,减缓磁盘I/O
a.innodb buffer pool的刷新快慢主要取决于两个参数
1)innodb_max_dirty_pages_pct:控制缓存池中脏页的最大比例,默认值是75%,如果脏页的数量达到或超过该值,innoDB后台线程将开台缓存刷新
2)innodb_io_capacity:在某种程度上代表磁盘中每秒可完成的I/O次数,对于转速较低的磁盘,可将innodb_io_capacity降低。对于固态磁盘和由多个磁盘组成的阵列,innodb_io_capacity的值可适当增大
3)如无法增大缓存池,应将innodb_max_dirty_pages_pct的值调小,将innodb_io_capactity的值提高,以加快脏页的刷新
9.InnoDB doublewrite:
a.在做恢复时,如果发现不一致的页,InnoDB会用系统表空间double buffer区的相应副本来恢复数据页
b.由于同步到doublewrite buffer是对连续磁盘空间的顺序写,因此开启双写对性能的影响并不太大。对需要高性能并且可以容忍丢失数据的应用,可将innodb_doublewrite=0来关闭双写以满足性能
10.调整用户服务线程排序缓存区:
a.若查看show global status看到sort_merge_passes的值很大,则可以调整参数sort_buffer_size的值来调整排序缓存区,以改善order by子句或group子句的sql性能
b.可通过调整join_buffer_size的值来改善没使用索引的查询
c.最好的策略是设置较小的全局join_buffer_size,对较复杂的操作session单独设置join_buffer_size
11.InnoDB log机制及优化:
a.innodb_flush_log_at_trx_commit的设置:
0:每秒触发一次,可满足持久化要求(效率最高,但最不安全)
1:每个事务提交时立刻将缓存中的redo日志回写到日志文件,并调用操作系统fsync刷新IO缓存(默认值,效率最低,但最安全)
2:每个事务提交时,InnoDB立刻将redo日志回写到日志文件,但并不马上调用fsync来刷新IO缓存,而是每秒只做一次磁盘IO缓存刷新操作(性能和数据安全性都在中间)
12.设置log file size,控制检查点:
a.可以通过一些方法计算innodb每小时产生的日志量并估计合适的innodb_log_file_size值
13.调整innodb_log_buffer_size:
a.可以通过增大innodb_log_buffer_size来减少日志写磁盘操作,从而提高事务处理的性能
14.调整max_connections,提高并发连接:
a.max_connections控制允许连接到mysql数据库的最大数量,默认值是151
15.调整back_log:
a.如果需要数据库在较短时间内处理大量连接请求,可适当增大back_log的值
16.调整table_open_cache:
a.在未执行flush tables命令的情况下,如果mysql状态变量opened_tables的值较大,就说明table_open_cache设置的太小,应适当增大
17.调整thread_cache_size:
a.可以通过计算cache的失败率threads_created/connections来衡量thread_cached_size的值是否合适。此值越接近1,说明线程cache命中率越低,应考虑适当增加thread_cache_size的值
18.innodb_lock_wait_timeout的设置:
a.innodb_lock_wait_timeout可以控制innodb事务等待行锁的时间,默认值是50ms.
b.对于需要快速反馈的交互式OLTP应用,可以将行锁等待超时时间调小,以避免事务长时间挂起
c.对于后台运行的批处理操作,可以将行锁等待超时时间调大,以避免发生大的回滚操作
二、实践:

 

mysql> use sakila;
Reading table information for completion of table and column names
You can turn off this feature to get a quicker startup with -A


Database changed
mysql> show engine innodb status \G;
*************************** 1. row ***************************
  Type: InnoDB
  Name: 
Status: 
=====================================
151102  7:13:01 INNODB MONITOR OUTPUT
=====================================
Per second averages calculated from the last 15 seconds
-----------------
BACKGROUND THREAD
-----------------
srv_master_thread loops: 113 1_second, 113 sleeps, 7 10_second, 47 background, 47 flush
srv_master_thread log flush and writes: 113
----------
SEMAPHORES
----------
OS WAIT ARRAY INFO: reservation count 18, signal count 18
Mutex spin waits 8, rounds 240, OS waits 7
RW-shared spins 11, rounds 330, OS waits 11
RW-excl spins 0, rounds 0, OS waits 0
Spin rounds per wait: 30.00 mutex, 30.00 RW-shared, 0.00 RW-excl
------------
TRANSACTIONS
------------
Trx id counter B0A
Purge done for trx&#39;s n:o < 920 undo n:o < 0
History list length 103
LIST OF TRANSACTIONS FOR EACH SESSION:
---TRANSACTION 0, not started
MySQL thread id 28, OS thread handle 0x7f5dbdfe6700, query id 568 localhost root
show engine innodb status
--------
FILE I/O
--------
I/O thread 0 state: waiting for i/o request (insert buffer thread)
I/O thread 1 state: waiting for i/o request (log thread)
I/O thread 2 state: waiting for i/o request (read thread)
I/O thread 3 state: waiting for i/o request (read thread)
I/O thread 4 state: waiting for i/o request (read thread)
I/O thread 5 state: waiting for i/o request (read thread)
I/O thread 6 state: waiting for i/o request (write thread)
I/O thread 7 state: waiting for i/o request (write thread)
I/O thread 8 state: waiting for i/o request (write thread)
I/O thread 9 state: waiting for i/o request (write thread)
Pending normal aio reads: 0 [0, 0, 0, 0] , aio writes: 0 [0, 0, 0, 0] ,
 ibuf aio reads: 0, log i/o&#39;s: 0, sync i/o&#39;s: 0
Pending flushes (fsync) log: 0; buffer pool: 0
586 OS file reads, 55 OS file writes, 48 OS fsyncs
0.00 reads/s, 0 avg bytes/read, 0.00 writes/s, 0.00 fsyncs/s
-------------------------------------
INSERT BUFFER AND ADAPTIVE HASH INDEX
-------------------------------------
Ibuf: size 1, free list len 0, seg size 2, 0 merges
merged operations:
 insert 0, delete mark 0, delete 0
discarded operations:
 insert 0, delete mark 0, delete 0
Hash table size 553229, node heap has 1 buffer(s)
0.00 hash searches/s, 0.00 non-hash searches/s
---
LOG
---
Log sequence number 13476957
Log flushed up to   13476957
Last checkpoint at  13476957
0 pending log writes, 0 pending chkp writes
32 log i/o&#39;s done, 0.00 log i/o&#39;s/second
----------------------
BUFFER POOL AND MEMORY
----------------------
Total memory allocated 274726912; in additional pool allocated 0
Dictionary memory allocated 182244
Buffer pool size   16383
Free buffers       15829
Database pages     553
Old database pages 224
Modified db pages  0
Pending reads 0
Pending writes: LRU 0, flush list 0, single page 0
Pages made young 0, not young 0
0.00 youngs/s, 0.00 non-youngs/s
Pages read 553, created 0, written 27
0.00 reads/s, 0.00 creates/s, 0.00 writes/s
No buffer pool page gets since the last printout
Pages read ahead 0.00/s, evicted without access 0.00/s, Random read ahead 0.00/s
LRU len: 553, unzip_LRU len: 0
I/O sum[0]:cur[0], unzip sum[0]:cur[0]
--------------
ROW OPERATIONS
--------------
0 queries inside InnoDB, 0 queries in queue
1 read views open inside InnoDB
Main thread process no. 62305, id 140040552920832, state: waiting for server activity
Number of rows inserted 5, updated 0, deleted 0, read 12
0.00 inserts/s, 0.00 updates/s, 0.00 deletes/s, 0.00 reads/s
----------------------------
END OF INNODB MONITOR OUTPUT
============================


1 row in set (0.00 sec)


ERROR: 
No query specified

mysql> set global hot_cache.key_buffer_size = 128* 1024;
Query OK, 0 rows affected (0.00 sec)

mysql> set global hot_cache.key_buffer_size = 0;
Query OK, 0 rows affected (0.00 sec)

mysql> show variables like &#39;key_buffer_size&#39;;
+-----------------+----------+
| Variable_name   | Value    |
+-----------------+----------+
| key_buffer_size | 33554432 |
+-----------------+----------+
1 row in set (0.00 sec)

mysql> set global key_buffer_size = 0;
ERROR 1438 (HY000): Cannot drop default keycache
mysql> show warnings;
+-------+------+------------------------------+
| Level | Code | Message                      |
+-------+------+------------------------------+
| Error | 1438 | Cannot drop default keycache |
+-------+------+------------------------------+
1 row in set (0.00 sec)


mysql> cache index sales,sales2 in hot_cache;
+---------------+--------------------+----------+-------------------------------------+
| Table         | Op                 | Msg_type | Msg_text                            |
+---------------+--------------------+----------+-------------------------------------+
| sakila.sales  | assign_to_keycache | Error    | Table &#39;sakila.sales&#39; doesn&#39;t exist  |
| sakila.sales  | assign_to_keycache | status   | Operation failed                    |
| sakila.sales2 | assign_to_keycache | Error    | Table &#39;sakila.sales2&#39; doesn&#39;t exist |
| sakila.sales2 | assign_to_keycache | status   | Operation failed                    |
+---------------+--------------------+----------+-------------------------------------+
4 rows in set (0.00 sec)

mysql> set global key_cache_division_limit = 70;
Query OK, 0 rows affected (0.00 sec)

mysql> set global hot_cache.key_cache_division_limit = 70;
Query OK, 0 rows affected (0.00 sec)

mysql> show global variables like &#39;%innodb_old_blocks_pct%&#39;;
+-----------------------+-------+
| Variable_name         | Value |
+-----------------------+-------+
| innodb_old_blocks_pct | 37    |
+-----------------------+-------+
1 row in set (0.01 sec)


mysql> show global variables like &#39;%doublewrirte%&#39;;
Empty set (0.00 sec)

mysql> show global variables like &#39;%doublewrite%&#39;;
+--------------------+-------+
| Variable_name      | Value |
+--------------------+-------+
| innodb_doublewrite | ON    |
+--------------------+-------+
1 row in set (0.01 sec)

mysql> select @a1 := variable_value as a1;
ERROR 1054 (42S22): Unknown column &#39;variable_value&#39; in &#39;field list&#39;
mysql> select @a1 := variable_value as a1 
    -> from information_schema.global_status 
    -> where variable_name = &#39;innodb_os_log_written&#39;
    -> union all
    -> select sleep(60)
    -> union all
    -> select @a2 := variable_value as a2
    -> from information_schema.global_status 
    -> where variable_name = &#39;innodb_os_log_written&#39;;
+------+
| a1   |
+------+
| 9216 |
| 0    |
| 9216 |
+------+
3 rows in set (1 min 0.02 sec)

mysql> select round((@a2-@a1)/1024/1024 / @@innodb_log_files_in_group) as MB;
+------+
| MB   |
+------+
|    0 |
+------+
1 row in set (0.01 sec)
Copy after login
Related labels:
source:php.cn
Statement of this Website
The content of this article is voluntarily contributed by netizens, and the copyright belongs to the original author. This site does not assume corresponding legal responsibility. If you find any content suspected of plagiarism or infringement, please contact admin@php.cn
Popular Tutorials
More>
Latest Downloads
More>
Web Effects
Website Source Code
Website Materials
Front End Template