全部博文(930)
分类: Mysql/postgreSQL
2011-01-26 10:18:48
今天我们看看关于MySQL慢日志的阅读。
我们知道,如果我们的语句不够优化,那么首先MySQL的慢日志是进一步优化的离线证据,虽然里面有好 多“伪慢语句”!
先不说怎么优化,如果你的日志有一条语句赌住了,那么会有不计其数的慢语句填充到MySQL的满日志里面。那么首先提炼出这些语 句就非常头疼。
今天主要介绍两种工具:
1,mysqldumpslow。(咱们 MySQL自带的简单而又实用的工具)
我们先来看下mysqldumpslow的结果。
[root@localhost ~]# mysqldumpslow -r localhost-slow.log
Reading mysql slow query log from localhost-slow.log Count: 2 Time=7.00s (14s) Lock=0.00s (0s) Rows=0.0 (0), root[root]@localhost select * from t_page_sample order by id desc limit N,N Count: 1 Time=11.00s (11s) Lock=0.00s (0s) Rows=1.0 (1), root[root]@localhost select count(*) from t_page_sample Count: 1 Time=1418.00s (1418s) Lock=0.00s (0s) Rows=0.0 (0), root[root]@localhost insert ignore into t_page_sample select ceil(rand()*N), ceil(rand()*N), date_sub(now(),interval floor(rand()*N) day), now() from t_page_sample |
比如要查找排序的慢语句:
[root@localhost ~]# mysqldumpslow -r -g "order by " localhost-slow.log
Reading mysql slow query log from localhost-slow.log Count: 2 Time=7.00s (14s) Lock=0.00s (0s) Rows=0.0 (0), root[root]@localhost select * from t_page_sample order by id desc limit N,N |
自 带的mysqldumpslow简单实用,作为我个人的首选。关于具体的参数含义,可以参见它自身的HELP。
2,mk-query-digest。(网 上著名的开源脚本家族Maatkit中一员)
手册地址: query-digest.html
下载方法:wget
完了赋给它可执行权限就OK。
mk-query-digest 功能太多,我今天只是试了下它对MySQL慢日志的分析功能。
以下是我觉得比较实用的功能。
1)分析慢日志并且把找出来的语句写到规定的 表里。
[root@localhost ~]# ./mk-query-digest --limit 2 --select Query_time,Lock_time,Rows_sent,Rows_examined,ts --create-review-table --review D=t_girl,t=query_review localhost-slow.log
# 280ms user time, 80ms system time, 11.56M rss, 16.65M vsz # Current date: Sat May 8 02:47:39 2010 # Files: localhost-slow.log # Overall: 4 total, 3 unique, 0.01 QPS, 1.96x concurrency ________________ # total min max avg 95% stddev median # Exec time 1443s 5s 1418s 361s 1357s 584s 684s # Lock time 0 0 0 0 0 0 0 # Rows sent 1 0 1 0.25 0.99 0.43 0 # Rows exam 6.98M 1.69M 1.89M 1.74M 1.86M 76.62k 1.69M # Time range 2010-05-08 00:28:42 to 2010-05-08 00:40:58 # Profile # Rank Query ID Response time Calls R/Call Item # ==== ================== ================ ===== ========= =============== # 1 0x2A94F91D8C3B4B26 1418.0000 99.0% 1 1418.0000 INSERT SELECT t_page_sample # 2 0x06754F1BD3C8D697 14.0000 1.0% 2 7.0000 SELECT t_page_sample # Query 1: 0 QPS, 0x concurrency, ID 0x2A94F91D8C3B4B26 at byte 0 ________ # This item is included in the report because it matches --limit. # pct total min max avg 95% stddev median # Count 25 1 # Exec time 98 1418s 1418s 1418s 1418s 1418s 0 1418s # Lock time 0 0 0 0 0 0 0 0 # Rows sent 0 0 0 0 0 0 0 0 # Rows exam 27 1.89M 1.89M 1.89M 1.89M 1.89M 0 1.89M # Time range 2010-05-08 00:28:42 to 2010-05-08 00:28:42 # Query_time distribution # 1us # 10us # 100us # 1ms # 10ms # 100ms # 1s # 10s+ ################################################################ # Review information # first_seen: 2010-05-08 00:28:42 # last_seen: 2010-05-08 00:28:42 # reviewed_by: # reviewed_on: # comments: # Tables # SHOW TABLE STATUS FROM `t_girl` LIKE 't_page_sample'\G # SHOW CREATE TABLE `t_girl`.`t_page_sample`\G insert ignore into t_page_sample select ceil(rand()*10000000), ceil(rand()*9), date_sub(now(),interval floor(rand()*20) day), now() from t_page_sample\G # Query 2: 0.07 QPS, 0.47x concurrency, ID 0x06754F1BD3C8D697 at byte 1499 # This item is included in the report because it matches --limit. # pct total min max avg 95% stddev median # Count 50 2 # Exec time 0 14s 5s 9s 7s 9s 3s 7s # Lock time 0 0 0 0 0 0 0 0 # Rows sent 0 0 0 0 0 0 0 0 # Rows exam 48 3.39M 1.69M 1.69M 1.69M 1.69M 0 1.69M # Time range 2010-05-08 00:40:28 to 2010-05-08 00:40:58 # Query_time distribution # 1us # 10us # 100us # 1ms # 10ms # 100ms # 1s ################################################################ # 10s+ # Review information # first_seen: 2010-05-08 00:40:28 # last_seen: 2010-05-08 00:40:58 # reviewed_by: # reviewed_on: # comments: # Tables # SHOW TABLE STATUS FROM `t_girl` LIKE 't_page_sample'\G # SHOW CREATE TABLE `t_girl`.`t_page_sample`\G # EXPLAIN select * from t_page_sample order by id desc limit 4400000,2\G |
[root@localhost ~]#
因为慢日志里面会有写和读语句,所以当以后想要分析某类语句时,只需要简单的SELECT即可出来。
mysql> select * from query_review where fingerprint like 'select%'\G
*************************** 1. row *************************** checksum: 465365117438580375 fingerprint: select * from t_page_sample order by id desc limit ? sample: select * from t_page_sample order by id desc limit 4400000,2 first_seen: 2010-05-08 00:40:28 last_seen: 2010-05-08 00:40:58 reviewed_by: NULL reviewed_on: NULL comments: NULL 1 rows in set (0.00 sec) |
2. 分析当前运行的SQL语句。
以 前我都是自己写脚本,配合CRONTAB来定时抓取信息到固定的文件里以备分析。不过现在可以用它来打印出比较详细的报告来。
[root@localhost ~]# ./mk-query-digest --select Query_time,Lock_time,Rows_sent,Rows_examined --processlist h=localhost,u=root
# Caught SIGINT. # 690ms user time, 2.4s system time, 11.27M rss, 16.41M vsz # Current date: Sat May 8 03:17:39 2010 # Files: STDIN # Overall: 1 total, 1 unique, 0 QPS, 0x concurrency ______________________ # total min max avg 95% stddev median # Exec time 1273313855s 1273313855s 1273313855s 1273313855s 1273313855s 0 1273313855s # Lock time 0 0 0 0 0 0 0 # Profile # Rank Query ID Response time Calls R/Call Ite # ==== ================== ====================== ===== =============== === # 1 0xB52E1970DE36E57F 1273313854.8595 100.0% 1 1273313854.8595 SELECT t_page_sample # Query 1: 0 QPS, 0x concurrency, ID 0xB52E1970DE36E57F at byte 0 ________ # This item is included in the report because it matches --limit. # pct total min max avg 95% stddev median # Count 100 1 # Exec time 100 1273313855s 1273313855s 1273313855s 1273313855s 1273313855s 0 1273313855s # Lock time 0 0 0 0 0 0 0 0 # Query_time distribution # 1us # 10us # 100us # 1ms # 10ms # 100ms # 1s # 10s+ ################################################################ # Tables # SHOW TABLE STATUS FROM `t_girl` LIKE 't_page_sample'\G # SHOW CREATE TABLE `t_girl`.`t_page_sample`\G # EXPLAIN select count(*) from t_page_sample\G [root@localhost ~]# |
当 想停止截取当前语句时,按住CTRL+C就OK。
不过我还是喜欢我自己的那个小脚本。哈哈。