MYSQL 内存排查

1. processlist命令的输出结果显示了有哪些线程在运行

show full processlist;

1.查参数配置

SELECT @@query_cache_size,
     @@key_buffer_size,
     @@innodb_buffer_pool_size ,
     @@innodb_log_buffer_size ,
     @@tmp_table_size ,
     @@read_buffer_size,
     @@sort_buffer_size,
     @@join_buffer_size ,
     @@read_rnd_buffer_size,
     @@binlog_cache_size,
     @@thread_stack,
     (SELECT COUNT(host) FROM  information_schema.processlist where command<>'Sleep')\G;

*************************** 1. row ***************************
   @@query_cache_size: 67108864
   @@key_buffer_size: 402653184
   @@innodb_buffer_pool_size: 6442450944
   @@innodb_log_buffer_size: 16777216
   @@tmp_table_size: 268435456
   @@read_buffer_size: 4194304
   @@sort_buffer_size: 6291456
   @@join_buffer_size: 8388608
   @@read_rnd_buffer_size: 16777216
   @@binlog_cache_size: 4194304
   @@thread_stack: 262144
(SELECT COUNT(host) FROM  information_schema.processlist where command<>'Sleep'): 
                      4

目前积累的使用经验中，存储过程&函数&触发器&视图 在MySQL场景下是不适合的。性能不好，又容易发现内存不释放的问题，所以建议尽量避免.

2.存储过程&函数

#5.7
SELECT db,type,count(*) FROM mysql.proc
WHERE db not in ('mysql','information_schema','performance_schema','sys')
GROUP BY db, type;

#8.0
SELECT Routine_schema, Routine_type FROM information_schema.Routines
WHERE Routine_schema not in ('mysql','information_schema','performance_schema','sys')
GROUP BY Routine_schema, Routine_type;

3.视图

SELECT  TABLE_SCHEMA , COUNT(TABLE_NAME) FROM information_schema.VIEWS
WHERE TABLE_SCHEMA not in ('mysql','information_schema','performance_schema','sys')
GROUP BY TABLE_SCHEMA;

4.触发器

SELECT TRIGGER_SCHEMA, count(*) FROM information_schema.triggers 
WHERE  TRIGGER_SCHEMA not in ('mysql','information_schema','performance_schema','sys')
GROUP BY TRIGGER_SCHEMA;

5.1 总内存使用

SELECT SUM( CAST(replace(current_alloc,'MiB','')  as DECIMAL(10, 2)) ) 
FROM sys.memory_global_by_current_bytes
WHERE current_alloc like '%MiB%';

5.2 分事件统计内存

#1
SELECT event_name,SUM( CAST(replace(current_alloc,'MiB','')  as DECIMAL(10, 2)) )    
FROM sys.memory_global_by_current_bytes    
WHERE current_alloc like '%MiB%' GROUP BY event_name  
ORDER BY SUM(CAST(replace(current_alloc,'MiB','')  as DECIMAL(10, 2))  ) DESC;

#2
SELECT event_name,sys.format_bytes(CURRENT_NUMBER_OF_BYTES_USED)
FROM performance_schema.memory_summary_global_by_event_name
ORDER BY CURRENT_NUMBER_OF_BYTES_USED DESC
LIMIT 10;

5.3 账号级别统计

SELECT user,event_name,current_number_of_bytes_used/1024/1024 as MB_CURRENTLY_USED
FROM performance_schema.memory_summary_by_account_by_event_name
WHERE host<>"localhost"
ORDER BY  current_number_of_bytes_used DESC LIMIT 10;

5.4 线程对应sql语句，内存使用统计

#1
SELECT thread_id,event_name,sys.format_bytes(CURRENT_NUMBER_OF_BYTES_USED) 
FROM performance_schema.memory_summary_by_thread_by_event_name
ORDER BY CURRENT_NUMBER_OF_BYTES_USED DESC
LIMIT 20;

#2
SELECT m.thread_id tid,m.user,esc.DIGEST_TEXT,m.current_allocated,m.total_allocated
FROM sys.memory_by_thread_by_current_bytes m,performance_schema.events_statements_current esc
WHERE m.thread_id=esc.THREAD_ID

5.5 打开所有内存性能监控，会影响性能，需注意

#打开
UPDATE performance_schema.setup_instruments SET ENABLED = 'YES' WHERE NAME LIKE 'memory/%';

#关闭
UPDATE performance_schema.setup_instruments SET ENABLED = 'NO' WHERE NAME LIKE 'memory/%';

#查看使用
SELECT * FROM performance_schema.memory_summary_global_by_event_name        
WHERE EVENT_NAME LIKE 'memory/%' 
ORDER BY CURRENT_NUMBER_OF_BYTES_USED DESC;

5.6 系统表内存监控信息

select * from sys.x$memory_by_host_by_current_bytes;
select * from sys.x$memory_by_thread_by_current_bytes;
select * from sys.x$memory_by_user_by_current_bytes;
select * from sys.x$memory_global_by_current_bytes;
select * from sys.x$memory_global_total;
select * from performance_schema.memory_summary_by_account_by_event_name;
select * from performance_schema.memory_summary_by_host_by_event_name;
select * from performance_schema.memory_summary_by_thread_by_event_name;
select * from performance_schema.memory_summary_by_user_by_event_name;
select * from performance_schema.memory_summary_global_by_event_name;

6.top 命令

PID   USER      PR  NI    VIRT    RES    SHR S  %CPU %MEM     TIME+ COMMAND                                                          
69265 mysql     20   0   11.5g   7.9g   6172 S   1.3 68.1  69:27.64  mysqld  

7. free -h命令

[root@mpb91 ~]# free -h
              total        used        free      shared  buff/cache   available
Mem:            11G        8.2G         75M        7.9M        3.3G        3.3G
Swap:          8.0G         28M        8.0G

8.ps命令

[root@mpb91 ~]# ps eo user,pid,vsz,rss $(pgrep -f 'mysqld')
USER      PID     VSZ        RSS
mysql     69265   12017232   8296068

9.pmap 命令
pmap是Linux调试及运维一个很好的工具，查看进程的内存映像信息

用法1：执行一段时间记录数据变化，最少20个记录，下面69265是MySQL pid

[root@mpb91 ~]# 
while true; do pmap -d  69265  | tail -1; sleep 2; done

mapped: 12017236K    writeable/private: 9644980K    shared: 128K
mapped: 12017236K    writeable/private: 9644980K    shared: 128K
mapped: 12017236K    writeable/private: 9644980K    shared: 128K
mapped: 12017236K    writeable/private: 9644980K    shared: 128K
mapped: 12017236K    writeable/private: 9644980K    shared: 128K
mapped: 12017236K    writeable/private: 9644980K    shared: 128K
mapped: 12017236K    writeable/private: 9644980K    shared: 128K
mapped: 12017236K    writeable/private: 9644980K    shared: 128K

用法2：linux 命令pmap MySQL pid导出内存，下面69265是MySQL pid

[root@mpb91 ~]# pmap -X -p 69265 > /tmp/memmysql.txt

[root@mpb91 ~]# cat /tmp/memmysql.txt

69265:   /usr/local/servers/mysql/bin/mysqld --daemonize --pid-file=/usr/local/mysql/data/mysql.pid
         Address Perm   Offset Device     Inode     Size     Rss     Pss Referenced Anonymous Swap Locked Mapping
        00400000 r-xp 00000000  fd:00 603980265    23160    5936    5936       5920         0    0      0 /usr/local/servers/mysql/bin/mysqld
        01c9e000 rw-p 0169e000  fd:00 603980265     1668     908     908        772       556    0      0 /usr/local/servers/mysql/bin/mysqld
        01e3f000 rw-p 00000000  00:00         0      760     612     612        384       612    0      0 
        03ce9000 rw-p 00000000  00:00         0      132     132     132         76       132    0      0 [heap]
        03d0a000 rw-p 00000000  00:00         0   207144  207144  207144     206776    207144    0      0 [heap]
...
    7ffd55555000 rw-p 00000000  00:00         0      132      84      84         12        84    0      0 [stack]
    7ffd555bd000 r-xp 00000000  00:00         0        8       4       0          4         0    0      0 [vdso]
ffffffffff600000 r-xp 00000000  00:00         0        4       0       0          0         0    0      0 [vsyscall]
                                                ======== ======= ======= ========== ========= ==== ====== 
                                                12017236 8307772 8306994    8146552   8300092    0      0 KB 

RSS就是这个process实际占用的物理内存。
Dirty: 脏页的字节数（包括共享和私有的）。
Mapping: 占用内存的文件、或[anon]（分配的内存）、或[stack]（堆栈）。
writeable/private：进程所占用的私有地址空间大小，也就是该进程实际使用的内存大小。

1.首先使用/top/free/ps在系统级确定是否有内存泄露。如有，可以从top输出确定哪一个process。

2.pmap工具是能帮助确定process是否有memory leak。确定memory leak的原则：writeable/private (‘pmap –d’输出）如果在做重复的操作过程中一直保持稳定增长，那么一定有内存泄露