昨晚寫的腳本，因為個人python能力有限，本來想這不發(fā)這文，后來想想，沒準(zhǔn)會有哪位園友給出優(yōu)化建議。

1 實現(xiàn)內(nèi)容

有些情況下，可能會統(tǒng)計在某個時間段內(nèi)，MySQL修改了多少數(shù)據(jù)量？發(fā)生了多少事務(wù)？主要是哪些表格發(fā)生變動？變動的數(shù)量是怎么樣的？ 但是卻不需要行記錄的修改內(nèi)容，只需要了解 行數(shù)據(jù)的 變動情況。

這些情況部分可以通過監(jiān)控來大致了解，但是也可以基于binlog來全盤分析，binlog的格式是row模式。

在寫flashback的時候，順帶把這個也寫了個腳步，使用python編寫，都差不多原理，只是這個簡單些，介于個人python弱的不行，性能可能還有很大的提升空間，也希望園友能協(xié)助優(yōu)化下。

先貼python腳步的分析結(jié)果圖如下，分為4個部分：事務(wù)耗時情況、事務(wù)影響行數(shù)情況、DML行數(shù)情況以及操作最頻繁表格情況。

2 腳本簡單描述

腳本依賴的模塊中，pymysql需要自行安裝。

創(chuàng)建類queryanalyse，其中有5個函數(shù)定義：_get_db、create_tab、rowrecord、binlogdesc跟closeconn。

2.1 _get_db

該函數(shù)用來解析輸入?yún)��?shù)值，參數(shù)值一共有7個，都是必須填寫的。分別為host，user，password，port，table name for transaction，table name for records，對應(yīng)的簡寫如下：

ALL options need to assign:

-h : host, the database host，which database will store the results after analysis

-u : user, the db user

-p : password, the db user's password

-P : port, the db port

-f : file path, the binlog file

-tr : table name for record , the table name to store the row record

-tt : table name for transaction, the table name to store transactions

比如，執(zhí)行腳本：python queryanalyse.py -h=127.0.0.1 -P=3310 -u=root -p=password -f=/tmp/stock_binlog.log -tt=flashback.tbtran -tr=flashback.tbrow，該函數(shù)負(fù)責(zé)處理各個選項的參數(shù)值情況，并存儲。

2.2 create_tab

創(chuàng)建兩個表格，分別用來存儲 binlog file文件的分析結(jié)果。一個用來存儲事務(wù)的執(zhí)行開始時間跟結(jié)束時間，由選項 -tt來賦值表名；一個是用來存儲每一行記錄的修改情況，由選項 -tr來賦值表名。

事務(wù)表記錄內(nèi)容：事務(wù)的開始時間及事務(wù)的結(jié)束時間。

行記錄表的內(nèi)容：庫名，表名，DML類型以及事務(wù)對應(yīng)事務(wù)表的編號。

root@localhost:mysql3310.sock  14:42:29 [flashback]>show create table tbrow \G*************************** 1. row ***************************
       Table: tbrowCreate Table: CREATE TABLE `tbrow` (
  `auto_id` int(10) unsigned NOT NULL AUTO_INCREMENT,
  `sqltype` int(11) NOT NULL COMMENT '1 is insert,2 is update,3 is delete',
  `tran_num` int(11) NOT NULL COMMENT 'the transaction number',
  `dbname` varchar(50) NOT NULL,
  `tbname` varchar(50) NOT NULL,  PRIMARY KEY (`auto_id`),  KEY `sqltype` (`sqltype`),  KEY `dbname` (`dbname`),  KEY `tbname` (`tbname`)
) ENGINE=InnoDB AUTO_INCREMENT=295151 DEFAULT CHARSET=utf81 row in set (0.00 sec)
 
root@localhost:mysql3310.sock  14:42:31 [flashback]>SHOW CREATE TABLE TBTRAN \G*************************** 1. row ***************************
       Table: TBTRANCreate Table: CREATE TABLE `tbtran` (
  `auto_id` int(10) unsigned NOT NULL AUTO_INCREMENT,
  `begin_time` datetime NOT NULL,
  `end_time` datetime NOT NULL,  PRIMARY KEY (`auto_id`)
) ENGINE=InnoDB AUTO_INCREMENT=6390 DEFAULT CHARSET=utf81 row in set (0.00 sec)

2.3 rowrecord

重點函數(shù)，分析binlog文件內(nèi)容。這里有幾個規(guī)律：

1. 每個事務(wù)的結(jié)束點，是以 'Xid = ' 來查找

1. 事務(wù)的開始時間，是事務(wù)內(nèi)的第一個 'Table_map' 行里邊的時間

2. 事務(wù)的結(jié)束時間，是以 'Xid = '所在行的 里邊的時間

2. 每個行數(shù)據(jù)是屬于哪個表格，是以 'Table_map'來查找

3. DML的類型是按照 行記錄開頭的情況是否為：'### INSERT INTO' 、'### UPDATE' 、'### DELETE FROM'

4. 注意，單個事務(wù)可以包含多個表格多種DML多行數(shù)據(jù)修改的情況。

2.4 binlogdesc

描述分析結(jié)果，簡單4個SQL分析。

1. 分析修改行數(shù)據(jù)的 事務(wù)耗時情況

2. 分析修改行數(shù)據(jù)的 事務(wù)影響行數(shù)情況

3. 分析DML分布情況

4. 分析 最多DML操作的表格 ，取前十個分析

2.5 closeconn

關(guān)閉數(shù)據(jù)庫連接。

3 使用說明

首先，確保python安裝了pymysql模塊，把python腳本拷貝到文件 queryanalyse.py。

然后，把要分析的binlog文件先用 mysqlbinlog 指令分析存儲，具體binlog的文件說明，可以查看之前的博文：關(guān)于binary log那些事——認(rèn)真碼了好長一篇。mysqlbinlog的指令使用方法，可以詳細(xì)查看文檔：https://dev.mysql.com/doc/refman/5.7/en/mysqlbinlog.html 。

比較常用通過指定開始時間跟結(jié)束時間來分析 binlog文件。

mysqlbinlog --start-datetime='2017-04-23 00:00:03' --stop-datetime='2017-04-23 00:30:00' --base64-output=decode-rows -v /data/mysql/logs/mysql-bin.007335 > /tmp/binlog_test.log

分析后，可以把這個 binlog_test.log文件拷貝到其他空閑服務(wù)器執(zhí)行分析，只需要有個空閑的DB來存儲分析記錄即可。

假設(shè)這個時候，拷貝 binlog_test.log到測試服務(wù)器上，測試服務(wù)器上的數(shù)據(jù)庫可以用來存儲分析內(nèi)容，則可以執(zhí)行python腳本了，注意要進(jìn)入到python腳本的目錄中，或者指定python腳本路徑。

python queryanalyse.py -h=127.0.0.1 -P=3310 -u=root -p=password -f= /tmp/binlog_test.log -tt=flashback.tbtran -tr=flashback.tbrow

沒了，就等待輸出吧。

性能是硬傷，在虛擬機(jī)上測試，大概500M的binlog文件需要分析2-3min，有待提高！

4 python腳本

  1 import pymysql  2 from pymysql.cursors import DictCursor  3 import re  4 import os  5 import sys  6 import datetime  7 import time  8 import logging  9 import importlib 10 importlib.reload(logging) 11 logging.basicConfig(level=logging.DEBUG,format='%(asctime)s %(levelname)s %(message)s ') 12  13  14 usage=''' usage: python [script's path] [option] 15 ALL options need to assign: 16  17 -h     : host, the database host，which database will store the results after analysis 
 18 -u     : user, the db user 19 -p     : password, the db user's password 20 -P     : port, the db port 21 -f     : file path, the binlog file 22 -tr    : table name for record , the table name to store the row record 23 -tt    : table name for transaction, the table name to store transactions 24 Example: python queryanalyse.py -h=127.0.0.1 -P=3310 -u=root -p=password -f=/tmp/stock_binlog.log -tt=flashback.tbtran -tr=flashback.tbrow 25  26 ''' 27  28 class queryanalyse: 29     def init(self): 30         #初始化 31         self.host='' 32         self.user='' 33         self.password='' 34         self.port='3306' 35         self.fpath='' 36         self.tbrow='' 37         self.tbtran='' 38  39         self._get_db() 40         logging.info('assign values to parameters is done:host={},user={},password=***,port={},fpath={},tb_for_record={},tb_for_tran={}'.format(self.host,self.user,self.port,self.fpath,self.tbrow,self.tbtran)) 41  42         self.mysqlconn = pymysql.connect(host=self.host, user=self.user, password=self.password, port=self.port,charset='utf8') 43         self.cur = self.mysqlconn.cursor(cursor=DictCursor) 44         logging.info('MySQL which userd to store binlog event connection is ok') 45  46         self.begin_time='' 47         self.end_time='' 48         self.db_name='' 49         self.tb_name='' 50  51     def _get_db(self): 52         #解析用戶輸入的選項參數(shù)值，這里對password的處理是明文輸入，可以自行處理成是input格式， 53         #由于可以拷貝binlog文件到非線上環(huán)境分析，所以password這塊，沒有特殊處理 54         logging.info('begin to assign values to parameters') 55         if len(sys.argv) == 1: 56             print(usage) 57             sys.exit(1) 58         elif sys.argv[1] == '--help': 59             print(usage) 60             sys.exit() 61         elif len(sys.argv) > 2: 62             for i in sys.argv[1:]: 63                 _argv = i.split('=') 64                 if _argv[0] == '-h': 65                     self.host = _argv[1] 66                 elif _argv[0] == '-u': 67                     self.user = _argv[1] 68                 elif _argv[0] == '-P': 69                     self.port = int(_argv[1]) 70                 elif _argv[0] == '-f': 71                     self.fpath = _argv[1] 72                 elif _argv[0] == '-tr': 73                     self.tbrow = _argv[1] 74                 elif _argv[0] == '-tt': 75                     self.tbtran = _argv[1] 76                 elif _argv[0] == '-p': 77                     self.password = _argv[1] 78                 else: 79                     print(usage) 80  81     def create_tab(self): 82         #創(chuàng)建兩個表格：一個用戶存儲事務(wù)情況，一個用戶存儲每一行數(shù)據(jù)修改的情況 83         #注意，一個事務(wù)可以存儲多行數(shù)據(jù)修改的情況 84         logging.info('creating table ...') 85         create_tb_sql ='''CREATE TABLE IF NOT EXISTS  {} ( 86                           `auto_id` int(10) unsigned NOT NULL AUTO_INCREMENT, 87                           `begin_time` datetime NOT NULL, 88                           `end_time` datetime NOT NULL, 89                           PRIMARY KEY (`auto_id`) 90                         ) ENGINE=InnoDB DEFAULT CHARSET=utf8; 91                         CREATE TABLE IF NOT EXISTS  {} ( 92                           `auto_id` int(10) unsigned NOT NULL AUTO_INCREMENT, 93                           `sqltype` int(11) NOT NULL COMMENT '1 is insert,2 is update,3 is delete', 94                           `tran_num` int(11) NOT NULL COMMENT 'the transaction number', 95                           `dbname` varchar(50) NOT NULL, 96                           `tbname` varchar(50) NOT NULL, 97                           PRIMARY KEY (`auto_id`), 98                           KEY `sqltype` (`sqltype`), 99                           KEY `dbname` (`dbname`),100                           KEY `tbname` (`tbname`)101                         ) ENGINE=InnoDB DEFAULT CHARSET=utf8;102                         truncate table {};103                         truncate table {};104                         '''.format(self.tbtran,self.tbrow,self.tbtran,self.tbrow)105 106         self.cur.execute(create_tb_sql)107         logging.info('created table {} and {}'.format(self.tbrow,self.tbtran))108 109     def rowrecord(self):110         #處理每一行binlog111         #事務(wù)的結(jié)束采用 'Xid =' 來劃分112         #分析結(jié)果，按照一個事務(wù)為單位存儲提交一次到db113         try:114             tran_num=1    #事務(wù)數(shù)115             record_sql='' #行記錄的insert sql116             tran_sql=''   #事務(wù)的insert sql117 118             self.create_tab()119 120             with open(self.fpath,'r') as binlog_file:121                 logging.info('begining to analyze the binlog file ,this may be take a long time !!!')122                 logging.info('analyzing...')123 124                 for bline in binlog_file:125 126                     if bline.find('Table_map:') != -1:127                         l = bline.index('server')128                         n = bline.index('Table_map')129                         begin_time = bline[:l:].rstrip(' ').replace('#', '20')130 131                         if record_sql=='':132                             self.begin_time = begin_time[0:4] + '-' + begin_time[4:6] + '-' + begin_time[6:]133 134                         self.db_name = bline[n::].split(' ')[1].replace('`', '').split('.')[0]135                         self.tb_name = bline[n::].split(' ')[1].replace('`', '').split('.')[1]136                         bline=''137 138                     elif bline.startswith('### INSERT INTO'):139                        record_sql=record_sql+"insert into {}(sqltype,tran_num,dbname,tbname) VALUES (1,{},'{}','{}');".format(self.tbrow,tran_num,self.db_name,self.tb_name)140 141                     elif bline.startswith('### UPDATE'):142                        record_sql=record_sql+"insert into {}(sqltype,tran_num,dbname,tbname) VALUES (2,{},'{}','{}');".format(self.tbrow,tran_num,self.db_name,self.tb_name)143 144                     elif bline.startswith('### DELETE FROM'):145                        record_sql=record_sql+"insert into {}(sqltype,tran_num,dbname,tbname) VALUES (3,{},'{}','{}');".format(self.tbrow,tran_num,self.db_name,self.tb_name)146 147                     elif bline.find('Xid =') != -1:148 149                         l = bline.index('server')150                         end_time = bline[:l:].rstrip(' ').replace('#', '20')151                         self.end_time = end_time[0:4] + '-' + end_time[4:6] + '-' + end_time[6:]152                         tran_sql=record_sql+"insert into {}(begin_time,end_time) VALUES ('{}','{}')".format(self.tbtran,self.begin_time,self.end_time)153 154                         self.cur.execute(tran_sql)155                         self.mysqlconn.commit()156                         record_sql = ''157                         tran_num += 1158 159         except Exception:160             return 'funtion rowrecord error'161 162     def binlogdesc(self):163         sql=''164         t_num=0165         r_num=0166         logging.info('Analysed result printing...\n')167         #分析總的事務(wù)數(shù)跟行修改數(shù)量168         sql="select 'tbtran' name,count(*) nums from {}  union all select 'tbrow' name,count(*) nums from {};".format(self.tbtran,self.tbrow)169         self.cur.execute(sql)170         rows=self.cur.fetchall()171         for row in rows:172             if row['name']=='tbtran':173                 t_num = row['nums']174             else:175                 r_num = row['nums']176         print('This binlog file has {} transactions, {} rows are changed '.format(t_num,r_num))177 178         # 計算 最耗時 的單個事務(wù)179         # 分析每個事務(wù)的耗時情況,分為5個時間段來描述180         # 這里正常應(yīng)該是 以毫秒來分析的，但是binlog中，只精確時間到second181         sql='''select 
182                       count(case when cost_sec between 0 and 1 then 1 end ) cos_1,183                       count(case when cost_sec between 1.1 and 5 then 1 end ) cos_5,184                       count(case when cost_sec between 5.1 and 10 then 1 end ) cos_10,185                       count(case when cost_sec between 10.1 and 30 then 1 end ) cos_30,186                       count(case when cost_sec >30.1 then 1 end ) cos_more,187                       max(cost_sec) cos_max188                 from 
189                 (190                         select 
191                             auto_id,timestampdiff(second,begin_time,end_time) cost_sec192                         from {}193                 ) a;'''.format(self.tbtran)194         self.cur.execute(sql)195         rows=self.cur.fetchall()196 197         for row in rows:198             print('The most cost time : {} '.format(row['cos_max']))199             print('The distribution map of each transaction costed time: ')200             print('Cost time between    0 and  1 second : {} , {}%'.format(row['cos_1'],int(row['cos_1']*100/t_num)))201             print('Cost time between  1.1 and  5 second : {} , {}%'.format(row['cos_5'], int(row['cos_5'] * 100 / t_num)))202             print('Cost time between  5.1 and 10 second : {} , {}%'.format(row['cos_10'], int(row['cos_10'] * 100 / t_num)))203             print('Cost time between 10.1 and 30 second : {} , {}%'.format(row['cos_30'], int(row['cos_30'] * 100 / t_num)))204             print('Cost time                     > 30.1 : {} , {}%\n'.format(row['cos_more'], int(row['cos_more'] * 100 / t_num)))205 206         # 計算 單個事務(wù)影響行數(shù)最多 的行數(shù)量207         # 分析每個事務(wù) 影響行數(shù) 情況,分為5個梯度來描述208         sql='''select 
209                     count(case when nums between 0 and 10 then 1 end ) row_1,210                     count(case when nums between 11 and 100 then 1 end ) row_2,211                     count(case when nums between 101 and 1000 then 1 end ) row_3,212                     count(case when nums between 1001 and 10000 then 1 end ) row_4,213                     count(case when nums >10001 then 1 end ) row_5,214                     max(nums) row_max215                from 
216                   (217                     select 
218                              count(*) nums219                     from {} group by tran_num220                    ) a;'''.format(self.tbrow)221         self.cur.execute(sql)222         rows=self.cur.fetchall()223 224         for row in rows:225             print('The most changed rows for each row: {} '.format(row['row_max']))226             print('The distribution map of each transaction changed rows : ')227             print('Changed rows between    1 and    10 second : {} , {}%'.format(row['row_1'],int(row['row_1']*100/t_num)))228             print('Changed rows between   11 and   100 second : {} , {}%'.format(row['row_2'], int(row['row_2'] * 100 / t_num)))229             print('Changed rows between  101 and  1000 second : {} , {}%'.format(row['row_3'], int(row['row_3'] * 100 / t_num)))230             print('Changed rows between 1001 and 10000 second : {} , {}%'.format(row['row_4'], int(row['row_4'] * 100 / t_num)))231             print('Changed rows                       > 10001 : {} , {}%\n'.format(row['row_5'], int(row['row_5'] * 100 / t_num)))232 233         # 分析 各個行數(shù) DML的類型情況234         # 描述 delete，insert，update的分布情況235         sql='select sqltype ,count(*) nums from {} group by sqltype ;'.format(self.tbrow)236         self.cur.execute(sql)237         rows=self.cur.fetchall()238 239         print('The distribution map of the {} changed rows : '.format(r_num))240         for row in rows:241 242             if row['sqltype']==1:243                 print('INSERT rows :{} , {}% '.format(row['nums'],int(row['nums']*100/r_num)))244             if row['sqltype']==2:245                 print('UPDATE rows :{} , {}% '.format(row['nums'],int(row['nums']*100/r_num)))246             if row['sqltype']==3:247                 print('DELETE rows :{} , {}%\n '.format(row['nums'],int(row['nums']*100/r_num)))248 249         # 描述 影響行數(shù) 最多的表格250         # 可以分析是哪些表格頻繁操作，這里顯示前10個table name251         sql = '''select 
252                       dbname,tbname ,253                       count(*) ALL_rows,254                       count(*)*100/{} per,255                       count(case when sqltype=1 then 1 end) INSERT_rows,256                       count(case when sqltype=2 then 1 end) UPDATE_rows,257                       count(case when sqltype=3 then 1 end) DELETE_rows258                 from {} 
259                 group by dbname,tbname 
260                 order by ALL_rows desc 
261                 limit 10;'''.format(r_num,self.tbrow)262         self.cur.execute(sql)263         rows = self.cur.fetchall()264 265         print('The distribution map of the {} changed rows : '.format(r_num))266         print('tablename'.ljust(50),267               ' ','changed_rows'.center(15),268               ' ','percent'.center(10),269               ' ','insert_rows'.center(18),270               ' ','update_rows'.center(18),271               ' ','delete_rows'.center(18)272               )273         print('-------------------------------------------------------------------------------------------------------------------------------------------------')274         for row in rows:275             print((row['dbname']+'.'+row['tbname']).ljust(50),276                   ' ',str(row['ALL_rows']).rjust(15),277                   ' ',(str(int(row['per']))+'%').rjust(10),278                   ' ',str(row['INSERT_rows']).rjust(10)+' , '+(str(int(row['INSERT_rows']*100/row['ALL_rows']))+'%').ljust(5),279                   ' ',str(row['UPDATE_rows']).rjust(10)+' , '+(str(int(row['UPDATE_rows']*100/row['ALL_rows']))+'%').ljust(5),280                   ' ',str(row['DELETE_rows']).rjust(10)+' , '+(str(int(row['DELETE_rows']*100/row['ALL_rows']))+'%').ljust(5),281                   )282         print('\n')283 284         logging.info('Finished to analyse the binlog file !!!')285 286     def closeconn(self):287         self.cur.close()288         logging.info('release db connections\n')289 290 def main():291     p = queryanalyse()292     p.rowrecord()293     p.binlogdesc()294     p.closeconn()295 296 if name == "main":297     main()

以上就是基于binlog來分析mysql的行記錄修改情況的詳細(xì)內(nèi)容，更多請關(guān)注php中文網(wǎng)其它相關(guān)文章！