• Oracle ASM Rebalance执行过程


    磁盘组的rebalance什么时候能完成?这没有一个具体的数值,但ASM本身已经给你提供了一个估算值(GV$ASM_OPERATION.EST_MINUTES),想知道rebalance完成的精确的时间,虽然不能给出一个精确的时间,但是可以查看一些rebalance的操作细节,让你知道当前rebalance是否正在进行中,进行到哪个阶段,以及这个阶段是否需要引起你的关注。

    理解rebalance
    rebalance操作本身包含了3个阶段-planning, extents relocation 和 compacting,就rebalance需要的总时间而言,planning阶段需要的时间是非常少的,你通常都不用去关注这一个阶段,第二个阶段extent relocation一般会占取rebalance阶段的大部分时间,也是我们最为需要关注的阶段,最后我们也会讲述第三阶段compacting阶段在做些什么。

    首先需要明白为什么会需要做rebalance,如果你为了增加磁盘组的可用空间,增加了一块新磁盘或者为了调整磁盘的空间,例如resizing或者删除磁盘,你可能也不会太去关注rebalance啥时候完成。但是,如果磁盘组中的一块磁盘损坏了,这个时候你就有足够的理由关注rebalance的进度了,假如,你的磁盘组是normal冗余的,这个时候万一你损坏磁盘的partner磁盘也损坏,那么你的整个磁盘组会被dismount,所有跑在这个磁盘组上的数据库都会crash,你可能还会丢失数据。在这种情况下,你非常需要知道rebalance什么时候完成,实际上,你需要知道第二个阶段extent relocation什么时候完成,一旦它完成了,整个磁盘组的冗余就已经完成了(第三个阶段对于冗余度来说并不重要,后面会介绍)。

    Extents relocation

    为了进一步观察extents relocation阶段,我删除了具有默认并行度的磁盘组上的一块磁盘:

    SQL> show parameter power
    
    NAME                                 TYPE                   VALUE
    ------------------------------------ ---------------------- ------------------------------
    asm_power_limit                      integer                1
    
    14:47:35 SQL> select group_number,disk_number,name,state,path,header_status from v$asm_disk where group_number=5;
    
    GROUP_NUMBER DISK_NUMBER NAME                 STATE                PATH                 HEADER_STATUS
    ------------ ----------- -------------------- -------------------- -------------------- --------------------
               5           0 TESTDG_0000          NORMAL               /dev/raw/raw7        MEMBER
               5           2 TESTDG_0002          NORMAL               /dev/raw/raw13       MEMBER
               5           1 TESTDG_0001          NORMAL               /dev/raw/raw12       MEMBER
               5           3 TESTDG_0003          NORMAL               /dev/raw/raw14       MEMBER
    
    14:48:38 SQL> alter diskgroup testdg drop disk TESTDG_0000;
    
    Diskgroup altered.
    

    下面视图GV$ASMOPERATION的ESTMINUTES字段给出了估算值的时间,单位为分钟,这里给出的估算时间为9分钟。

    14:49:04 SQL> select inst_id, operation, state, power, sofar, est_work, est_rate, est_minutes from gv$asm_operation where group_number=5;
    
       INST_ID OPERATION            STATE                     POWER      SOFAR   EST_WORK   EST_RATE EST_MINUTES
    ---------- -------------------- -------------------- ---------- ---------- ---------- ---------- -----------
             1 REBAL                RUN                           1          4       4748        475           9
    
    

    大约过了1分钟后,EST_MINUTES的值变为了0分钟:

    14:50:22 SQL> select inst_id, operation, state, power, sofar, est_work, est_rate, est_minutes from gv$asm_operation where group_number=5;
    
       INST_ID OPERATION            STATE                     POWER      SOFAR   EST_WORK   EST_RATE EST_MINUTES
    ---------- -------------------- -------------------- ---------- ---------- ---------- ---------- -----------
             1 REBAL                RUN                           1       3030       4748       2429           0
    

    有些时候EST_MINUTES的值可能并不能给你太多的证据,我们还可以看到SOFAR(截止目前移动的UA数)的值一直在增加,恩,不错,这是一个很好的一个观察指标。ASM的alert日志中也显示了删除磁盘的操作,以及OS ARB0进程的ID,ASM用它用来做所有的rebalance工作。更重要的,整个过程之中,没有任何的错误输出:

    SQL> alter diskgroup testdg drop disk TESTDG_0000 
    NOTE: GroupBlock outside rolling migration privileged region
    NOTE: requesting all-instance membership refresh for group=5
    Tue Jan 10 14:49:01 2017
    GMON updating for reconfiguration, group 5 at 222 for pid 42, osid 6197
    NOTE: group 5 PST updated.
    Tue Jan 10 14:49:01 2017
    NOTE: membership refresh pending for group 5/0x97f863e8 (TESTDG)
    GMON querying group 5 at 223 for pid 18, osid 5012
    SUCCESS: refreshed membership for 5/0x97f863e8 (TESTDG)
    NOTE: starting rebalance of group 5/0x97f863e8 (TESTDG) at power 1
    Starting background process ARB0
    SUCCESS: alter diskgroup testdg drop disk TESTDG_0000
    Tue Jan 10 14:49:04 2017
    ARB0 started with pid=39, OS id=25416 
    NOTE: assigning ARB0 to group 5/0x97f863e8 (TESTDG) with 1 parallel I/O
    cellip.ora not found.
    NOTE: F1X0 copy 1 relocating from 0:2 to 2:2 for diskgroup 5 (TESTDG)
    NOTE: F1X0 copy 3 relocating from 2:2 to 3:2599 for diskgroup 5 (TESTDG)
    Tue Jan 10 14:49:13 2017
    NOTE: Attempting voting file refresh on diskgroup TESTDG
    NOTE: Refresh completed on diskgroup TESTDG. No voting file found.
    Tue Jan 10 14:51:05 2017
    NOTE: stopping process ARB0
    SUCCESS: rebalance completed for group 5/0x97f863e8 (TESTDG)
    Tue Jan 10 14:51:07 2017
    NOTE: GroupBlock outside rolling migration privileged region
    NOTE: requesting all-instance membership refresh for group=5
    Tue Jan 10 14:51:10 2017
    GMON updating for reconfiguration, group 5 at 224 for pid 39, osid 25633
    NOTE: group 5 PST updated.
    SUCCESS: grp 5 disk TESTDG_0000 emptied
    NOTE: erasing header on grp 5 disk TESTDG_0000
    NOTE: process _x000_+asm1 (25633) initiating offline of disk 0.3915944675 (TESTDG_0000) with mask 0x7e in group 5
    NOTE: initiating PST update: grp = 5, dsk = 0/0xe96892e3, mask = 0x6a, op = clear
    GMON updating disk modes for group 5 at 225 for pid 39, osid 25633
    NOTE: group TESTDG: updated PST location: disk 0001 (PST copy 0)
    NOTE: group TESTDG: updated PST location: disk 0002 (PST copy 1)
    NOTE: group TESTDG: updated PST location: disk 0003 (PST copy 2)
    NOTE: PST update grp = 5 completed successfully 
    NOTE: initiating PST update: grp = 5, dsk = 0/0xe96892e3, mask = 0x7e, op = clear
    GMON updating disk modes for group 5 at 226 for pid 39, osid 25633
    NOTE: cache closing disk 0 of grp 5: TESTDG_0000
    NOTE: PST update grp = 5 completed successfully 
    GMON updating for reconfiguration, group 5 at 227 for pid 39, osid 25633
    NOTE: cache closing disk 0 of grp 5: (not open) TESTDG_0000
    NOTE: group 5 PST updated.
    NOTE: membership refresh pending for group 5/0x97f863e8 (TESTDG)
    GMON querying group 5 at 228 for pid 18, osid 5012
    GMON querying group 5 at 229 for pid 18, osid 5012
    NOTE: Disk TESTDG_0000 in mode 0x0 marked for de-assignment
    SUCCESS: refreshed membership for 5/0x97f863e8 (TESTDG)
    Tue Jan 10 14:51:16 2017
    NOTE: Attempting voting file refresh on diskgroup TESTDG
    NOTE: Refresh completed on diskgroup TESTDG. No voting file found.
    

    因此ASM预估了9分钟的时间来完成rebalance,但实际上只使用了2分钟的时候,因此首先能知道rebalance正在做什么非常重要,然后才能知道rebalance什么时候能完成。注意,估算的时间是动态变化的,可能会增加或减少,这个依赖你的系统负载变化,以及你的rebalance的power值的设置,对于一个非常大容量的磁盘组来说,可能rebalance会花费你数小时甚至是数天的时间。

    ARB0进程的跟踪文件也显示了,当前正在对哪一个ASM文件的extent的在进行重分配,也是通过这个跟踪文件,我们可以知道ARB0确实是在干着自己的本职工作,没有偷懒。

    [grid@jyrac1 trace]$ tail -f  +ASM1_arb0_25416.trc
    *** 2017-01-10 14:49:20.160
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:49:24.081
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:49:28.290
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:49:32.108
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:49:35.419
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:49:38.921
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:49:43.613
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:49:47.523
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:49:51.073
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:49:54.545
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:49:58.538
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:50:02.944
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:50:06.428
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:50:10.035
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:50:13.507
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:50:17.526
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:50:21.692
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:50:25.649
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:50:29.360
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:50:33.233
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:50:37.287
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:50:40.843
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:50:44.356
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:50:48.158
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:50:51.854
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:50:55.568
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:50:59.439
    ARB0 relocating file +TESTDG.256.932913341 (120 entries)
    
    *** 2017-01-10 14:51:02.877
    ARB0 relocating file +TESTDG.256.932913341 (50 entries)
    

    注意,跟踪目录下的arb0的跟踪文件可能会有很多,因此我们需要知道arb0的OS是进程号,是哪一个arb0在实际做rebalance的工作,这个信息在ASM实例执行rebalance操作的时候,alert文件中会有显示。我们还可以通过操作系统命令pstack来跟踪ARB0进程,查看具体它在做什么,如下,它向我们显示了,ASM正在重分配extent(在堆栈中的关键函数 kfgbRebalExecute - kfdaExecute - kffRelocate):

    [root@jyrac1 ~]# pstack 25416
    #0  0x0000003aa88005f4 in ?? () from /usr/lib64/libaio.so.1
    #1  0x0000000002bb9b11 in skgfrliopo ()
    #2  0x0000000002bb9909 in skgfospo ()
    #3  0x00000000086c595f in skgfrwat ()
    #4  0x00000000085a4f79 in ksfdwtio ()
    #5  0x000000000220b2a3 in ksfdwat_internal ()
    #6  0x0000000003ee7f33 in kfk_reap_ufs_async_io ()
    #7  0x0000000003ee7e7b in kfk_reap_ios_from_subsys ()
    #8  0x0000000000aea0ac in kfk_reap_ios ()
    #9  0x0000000003ee749e in kfk_io1 ()
    #10 0x0000000003ee7044 in kfkRequest ()
    #11 0x0000000003eed84a in kfk_transitIO ()
    #12 0x0000000003e40e7a in kffRelocateWait ()
    #13 0x0000000003e67d12 in kffRelocate ()
    #14 0x0000000003ddd3fb in kfdaExecute ()
    #15 0x0000000003ec075b in kfgbRebalExecute ()
    #16 0x0000000003ead530 in kfgbDriver ()
    #17 0x00000000021b37df in ksbabs ()
    #18 0x0000000003ec4768 in kfgbRun ()
    #19 0x00000000021b8553 in ksbrdp ()
    #20 0x00000000023deff7 in opirip ()
    #21 0x00000000016898bd in opidrv ()
    #22 0x0000000001c6357f in sou2o ()
    #23 0x00000000008523ca in opimai_real ()
    #24 0x0000000001c6989d in ssthrdmain ()
    #25 0x00000000008522c1 in main ()
    
    

    Compacting
    在下面的例子里,我们来看下rebalance的compacting阶段,我把上面删除的磁盘加回来,同时设置rebalance的power为2:

    17:26:48 SQL> alter diskgroup testdg add disk '/dev/raw/raw7' rebalance power 2;
    
    Diskgroup altered.
    

    ASM给出的rebalance的估算时间为6分钟:

    16:07:13 SQL> select INST_ID, OPERATION, STATE, POWER, SOFAR, EST_WORK, EST_RATE, EST_MINUTES from GV$ASM_OPERATION where GROUP_NUMBER=1;
    
      INST_ID OPERA STAT      POWER      SOFAR   EST_WORK   EST_RATE EST_MINUTES
    ---------- ----- ---- ---------- ---------- ---------- ---------- -----------
            1 REBAL RUN          10        489      53851       7920           6
    

    大约10秒后,EST_MINUTES的值变为0.

    16:07:23 SQL> /
    
      INST_ID OPERA STAT      POWER      SOFAR   EST_WORK   EST_RATE EST_MINUTES
    ---------- ----- ---- ---------- ---------- ---------- ---------- -----------
            1 REBAL RUN          10      92407      97874       8716           0
    

    这个时候我们在ASM的alert日志中观察到:

    SQL> alter diskgroup testdg add disk '/dev/raw/raw7'  rebalance power 2
    NOTE: GroupBlock outside rolling migration privileged region
    NOTE: Assigning number (5,0) to disk (/dev/raw/raw7)
    NOTE: requesting all-instance membership refresh for group=5
    NOTE: initializing header on grp 5 disk TESTDG_0000
    NOTE: requesting all-instance disk validation for group=5
    Tue Jan 10 16:07:12 2017
    NOTE: skipping rediscovery for group 5/0x97f863e8 (TESTDG) on local instance.
    NOTE: requesting all-instance disk validation for group=5
    NOTE: skipping rediscovery for group 5/0x97f863e8 (TESTDG) on local instance.
    Tue Jan 10 16:07:12 2017
    GMON updating for reconfiguration, group 5 at 230 for pid 42, osid 6197
    NOTE: group 5 PST updated.
    NOTE: initiating PST update: grp = 5
    GMON updating group 5 at 231 for pid 42, osid 6197
    NOTE: PST update grp = 5 completed successfully 
    NOTE: membership refresh pending for group 5/0x97f863e8 (TESTDG)
    GMON querying group 5 at 232 for pid 18, osid 5012
    NOTE: cache opening disk 0 of grp 5: TESTDG_0000 path:/dev/raw/raw7
    GMON querying group 5 at 233 for pid 18, osid 5012
    SUCCESS: refreshed membership for 5/0x97f863e8 (TESTDG)
    NOTE: starting rebalance of group 5/0x97f863e8 (TESTDG) at power 1
    SUCCESS: alter diskgroup testdg add disk '/dev/raw/raw7'
    Starting background process ARB0
    Tue Jan 10 16:07:14 2017
    ARB0 started with pid=27, OS id=982 
    NOTE: assigning ARB0 to group 5/0x97f863e8 (TESTDG) with 1 parallel I/O
    cellip.ora not found.
    Tue Jan 10 16:07:23 2017
    NOTE: Attempting voting file refresh on diskgroup TESTDG
    

    上面的输出意味着ASM已经完成了rebalance的第二个阶段,开始了第三个阶段compacting,如果我说的没错,通过pstack工具可以看到kfdCompact()函数,下面的输出显示,确实如此:

    # pstack 982
    #0  0x0000003957ccb6ef in poll () from /lib64/libc.so.6
    ...
    #9  0x0000000003d711e0 in kfk_reap_oss_async_io ()
    #10 0x0000000003d70c17 in kfk_reap_ios_from_subsys ()
    #11 0x0000000000aea50e in kfk_reap_ios ()
    #12 0x0000000003d702ae in kfk_io1 ()
    #13 0x0000000003d6fe54 in kfkRequest ()
    #14 0x0000000003d76540 in kfk_transitIO ()
    #15 0x0000000003cd482b in kffRelocateWait ()
    #16 0x0000000003cfa190 in kffRelocate ()
    #17 0x0000000003c7ba16 in kfdaExecute ()
    #18 0x0000000003c4b737 in kfdCompact ()
    #19 0x0000000003c4c6d0 in kfdExecute ()
    #20 0x0000000003d4bf0e in kfgbRebalExecute ()
    #21 0x0000000003d39627 in kfgbDriver ()
    #22 0x00000000020e8d23 in ksbabs ()
    #23 0x0000000003d4faae in kfgbRun ()
    #24 0x00000000020ed95d in ksbrdp ()
    #25 0x0000000002322343 in opirip ()
    #26 0x0000000001618571 in opidrv ()
    #27 0x0000000001c13be7 in sou2o ()
    #28 0x000000000083ceba in opimai_real ()
    #29 0x0000000001c19b58 in ssthrdmain ()
    #30 0x000000000083cda1 in main ()
    

    通过tail命令查看ARB0的跟踪文件,发现relocating正在进行,而且一次只对一个条目进行relocating。(这是正进行到compacting阶段的另一个重要线索):

    $ tail -f +ASM1_arb0_25416.trc
    ARB0 relocating file +DATA1.321.788357323 (1 entries)
    ARB0 relocating file +DATA1.321.788357323 (1 entries)
    ARB0 relocating file +DATA1.321.788357323 (1 entries)
    ...
    
    

    compacting过程中,V$ASM_OPERATION视图的EST_MINUTES字段会显示为0(也是一个重要线索):

    16:08:56 SQL> /
    
      INST_ID OPERA STAT      POWER      SOFAR   EST_WORK   EST_RATE EST_MINUTES
    ---------- ----- ---- ---------- ---------- ---------- ---------- -----------
            2 REBAL RUN          10      98271      98305       7919           0
    

    固态表X$KFGMG的REBALST_KFGMG字段会显示为2,代表正在compacting。

    16:09:12 SQL> select NUMBER_KFGMG, OP_KFGMG, ACTUAL_KFGMG, REBALST_KFGMG from X$KFGMG;
    
    NUMBER_KFGMG   OP_KFGMG ACTUAL_KFGMG REBALST_KFGMG
    ------------ ---------- ------------ -------------
              1          1           10             2
    

    一旦compacting阶段完成,ASM的alert 日志中会显示stopping process ARB0 和rebalance completed:

    Tue Jan 10 16:10:19 2017
    NOTE: stopping process ARB0
    SUCCESS: rebalance completed for group 5/0x97f863e8 (TESTDG)
    

    一旦extents relocation完成,所有的数据就已经满足了冗余度的要求,不再会担心已经失败磁盘的partern磁盘再次失败而出现严重故障。

    Changing the power
    Rebalance的power可以在磁盘组rebalance过程中动态的更改,如果你认为磁盘组的默认级别太低了,可以去很容易的增加它。但是增加到多少呢?这个需要你根据你系统的IO负载,IO吞吐量来定。一般情况下,你可以先尝试增加到一个保守的值,例如5,过上十分钟看是否有所提升,以及是否影响到了其他业务对IO的使用,如果你的IO性能非常强,那么可以继续增加power的值,但是就我的经验来看,很少能看到power 的设置超过30后还能有较大提升的。测试的关键点在于,你需要在你生产系统的正常负载下去测试,不同的业务压力,不同的存储系统,都可能会让rebalance时间产生较大的差异。

    来自 “ ITPUB博客 ” ,链接:http://blog.itpub.net/26015009/viewspace-2132215/,如需转载,请注明出处,否则将追究法律责任。

     

     

     

    日积月累
  • 相关阅读:
    数组常用遍历方法总结
    文本控制行数,超出省略号显示
    数据结构入门
    数论函数补充 公式推导
    几何入门合集 gym101968 problem F. Mirror + gym102082 Problem F Fair Chocolate-Cutting + gym101915 problem B. Ali and Wi-Fi
    COCI 2018/2019 CONTEST #2 T4 Maja T5Sunčanje Solution
    数论函数
    数论入门
    USACO1.4 1.5 搜索剪枝与数字 洛谷OJ P1214 P1215 P1217 P1218
    USACO Section 1.3 题解 (洛谷OJ P1209 P1444 P3650 P2693)
  • 原文地址:https://www.cnblogs.com/ss-33/p/14840681.html
Copyright © 2020-2023  润新知