Describe 首頁/work/QH-htrac-VM-replace-disk here. <> = 明确htrac数据库存储迁移需求 = 将现有的EMC存储替换为PowerStore X1000存储,采用asm rebalance技术进行在线迁移。 = 前期准备工作 = 执行备份,建议手动再备份asm磁盘组的归档日志 SQL> alter system switch logfile ASM copy archivelog FROM ASM to LOCAL {{{ for i in $(asmcmd ls fra/CARPOLY/ARCHIVELOG/2019_12_29); do asmcmd cp +fra/CARPOLY/ARCHIVELOG/2019_12_29/$i /mnt/backup/cloud1 done }}} == 查看ASM磁盘组信息 == * login in as grid user $ asmcmd lsdg {{{ [grid@htrac1 ~]$ asmcmd lsdg State Type Rebal Sector Block AU Total_MB Free_MB Req_mir_free_MB Usable_file_MB Offline_disks Voting_files Name MOUNTED EXTERN N 512 4096 1048576 624628 183534 0 183534 0 N DATA/ MOUNTED EXTERN N 512 4096 1048576 102398 27343 0 27343 0 N RECO/ MOUNTED NORMAL N 512 4096 1048576 15345 14419 5115 4652 0 Y SYSTEM/ }}} == 查看ASM 磁盘空间使用情况 == * login in as grid user $ asmcmd lsdsk -k {{{ Total_MB Free_MB OS_MB Name Failgroup Failgroup_Type Library Label UDID Product Redund Path 307196 90267 307196 DATA1 DATA1 REGULAR ASM Library - Generic Linux, version 2.0.4 (KABI_V2) DATA1 UNKNOWN ORCL:DATA1 112635 33092 112635 DATA2 DATA2 REGULAR ASM Library - Generic Linux, version 2.0.4 (KABI_V2) DATA2 UNKNOWN ORCL:DATA2 204797 60175 204797 DATA3 DATA3 REGULAR ASM Library - Generic Linux, version 2.0.4 (KABI_V2) DATA3 UNKNOWN ORCL:DATA3 5115 4807 5115 OCR1 OCR1 REGULAR ASM Library - Generic Linux, version 2.0.4 (KABI_V2) OCR1 UNKNOWN ORCL:OCR1 5115 4805 5115 OCR2 OCR2 REGULAR ASM Library - Generic Linux, version 2.0.4 (KABI_V2) OCR2 UNKNOWN ORCL:OCR2 5115 4807 5115 OCR3 OCR3 REGULAR ASM Library - Generic Linux, version 2.0.4 (KABI_V2) OCR3 UNKNOWN ORCL:OCR3 102398 27343 102398 RECO1 RECO1 REGULAR ASM Library - Generic Linux, version 2.0.4 (KABI_V2) RECO1 UNKNOWN ORCL:RECO1 }}} $ sqlplus / as sysasm {{{ SQL> set linesize 300 column path format a50 column NAME format a15; select GROUP_NUMBER,DISK_NUMBER,HEADER_STATUS,MODE_STATUS,MOUNT_STATUS,STATE,total_mb,free_mb,NAME,PATH from v$asm_disk; GROUP_NUMBER DISK_NUMBER HEADER_STATUS MODE_STATUS MOUNT_STATUS TOTAL_MB FREE_MB NAME PATH ------------ ----------- ------------------------ -------------- -------------- ---------- ---------- ---------------- -------------------- 2 0 MEMBER ONLINE CACHED 30719690267 DATA1 ORCL:DATA1 1 0 MEMBER ONLINE CACHED 5115 4807 OCR1 ORCL:OCR1 1 1 MEMBER ONLINE CACHED 5115 4805 OCR2 ORCL:OCR2 1 2 MEMBER ONLINE CACHED 5115 4807 OCR3 ORCL:OCR3 3 0 MEMBER ONLINE CACHED 10239827343 RECO1 ORCL:RECO1 2 1 MEMBER ONLINE CACHED 11263533092 DATA2 ORCL:DATA2 2 2 MEMBER ONLINE CACHED 20479760175 DATA3 ORCL:DATA3 7 rows selected. }}} {{{ [grid@htrac1 ~]$ crsctl query css votedisk ## STATE File Universal Id File Name Disk group -- ----- ----------------- --------- --------- 1. ONLINE 6a7669a7d58c4f22bf06341bbacde673 (ORCL:OCR1) [SYSTEM] 2. ONLINE 076dc3fef5374f2cbf8af0958ffc5a9b (ORCL:OCR2) [SYSTEM] 3. ONLINE 9f6d65dc01364feebf566749760ced41 (ORCL:OCR3) [SYSTEM] }}} /etc/init.d/oracleasm querydisk -d OCR1 /etc/init.d/oracleasm querydisk -d OCR2 /etc/init.d/oracleasm querydisk -d OCR3 ls -l /dev/ | grep 8 | grep 65 == 给htrac数据库虚拟化分配共享vmdk磁盘 == 参考VMware KB 1034165 = htrac数据库存储迁移步骤 = == 查看并确认新挂载的磁盘状态 == $ lsblk {{{ [root@htrac1 ~]# lsblk NAME MAJ:MIN RM SIZE RO TYPE MOUNTPOINT loop0 7:0 0 3.6G 0 loop /mnt sr0 11:0 1 3.6G 0 rom sdb 8:16 0 5G 0 disk `-sdb1 8:17 0 5G 0 part sdc 8:32 0 5G 0 disk `-sdc1 8:33 0 5G 0 part sde 8:64 0 300G 0 disk `-sde1 8:65 0 300G 0 part sda 8:0 0 300G 0 disk |-sda1 8:1 0 500M 0 part /boot `-sda2 8:2 0 299.5G 0 part |-vg_htdb1-lv_root (dm-0) 253:0 0 83.5G 0 lvm / |-vg_htdb1-lv_swap (dm-1) 253:1 0 16G 0 lvm [SWAP] `-vg_htdb1-lv_backup (dm-2) 253:2 0 300G 0 lvm /backup sdd 8:48 0 5G 0 disk `-sdd1 8:49 0 5G 0 part sdf 8:80 0 100G 0 disk `-sdf1 8:81 0 100G 0 part sdg 8:96 0 100G 0 disk `-vg_htdb1-lv_backup (dm-2) 253:2 0 300G 0 lvm /backup sdh 8:112 0 110G 0 disk `-sdh1 8:113 0 110G 0 part sdi 8:128 0 200G 0 disk `-sdi1 8:129 0 200G 0 part }}} * 结合dmesg命令输出确认新增加的磁盘信息 == 分区对齐 == 分区LUN时,建议分区对齐1M边界。使用 fdisk 或 parted 创建分区。但是,只有 parted 可以创建大于 2 TB 的分区。 本项目中将使用 parted 创建分区 在创建分区之前,将设备标记为 GPT。然后,指定分区偏移量为 2048 扇区(1M)。以下命令创建一个占用整个 LUN 的分区。创建分区后,使用分区文件 /dev/mapper/ora-asm-data-001p1 创建 ASMLib 卷。 {{{ parted /dev/sdj mklabel gpt mkpart primary 2048s 100% }}} == 创建oracleasm磁盘 == === SYSTEM === oracleasm createdisk OCR01 /dev/sdj1 oracleasm createdisk OCR02 /dev/sdk1 oracleasm createdisk OCR03 /dev/sdl1 === DATA === oracleasm createdisk DATA01 /dev/sdm1 oracleasm createdisk DATA02 /dev/sdn1 oracleasm createdisk DATA03 /dev/sdo1 === RECO === oracleasm createdisk REDO1 /dev/sdp1 === 确认asm能够识别到生效后的磁盘 === Add the device mappings to the device mapper disks. kpartx -a /dev/mapper/DATA05-TEST * login in as grid user $ oracleasm scandisks $ oracleasm listdisks $ sqlplus / as sysasm {{{ SQL> select GROUP_NUMBER,DISK_NUMBER,HEADER_STATUS,MODE_STATUS,MOUNT_STATUS,STATE,total_mb,free_mb,NAME,PATH from v$asm_disk; }}} $ tail -f .../diag/asm/+asm/+ASM/trace/alert.log == 正式加入前创建磁盘组测试 == 为新oracleasm磁盘创建测试磁盘组以确认磁盘是可以正常使用 测试完成之后, 删除该测试磁盘组, 再执行加入现有磁盘组的操作 == 将磁盘OCR01-OCR03加入到SYSTEM磁盘组 == {{{ alter diskgroup SYSTEM add disk 'ORCL:CRS01','ORCL:CRS02','ORCL:CRS03' rebalance power 6; }}} 或者通过以下命令依次添加(建议一起添加). {{{ alter diskgroup SYSTEM add disk 'ORCL:CRS01' rebalance power 6; alter diskgroup SYSTEM add disk 'ORCL:CRS02' rebalance power 6; alter diskgroup SYSTEM add disk 'ORCL:CRS03' rebalance power 6; }}} SQL> select * from gv$asm_operation; === 然后在DATA中加入DATA磁盘 === {{{ alter diskgroup DATA add disk 'ORCL:DATA01','ORCL:DATA02','ORCL:DATA03' rebalance power 6; }}} === 然后在RECO中加入REDO磁盘 === {{{ alter diskgroup RECO add disk 'ORCL:REDO1' rebalance power 6; }}} == 查看rebalance情况与日志对比 == $ asmcmd -p lsop $ tail -f alert.log 备注:确认所有磁盘rebalance完成后,再进行下一步删盘操作; == 逐次剔除旧存储对应的asm disk == {{{ sqlplus -s '/ as sysasm' << "EOF" alter diskgroup SYSTEM drop disk OCR1 rebalance power 6; alter diskgroup SYSTEM drop disk OCR2 rebalance power 6; alter diskgroup SYSTEM drop disk OCR3 rebalance power 6; EOF }}} {{{ sqlplus -s '/ as sysasm' << "EOF" alter diskgroup DATA drop disk DATA1 rebalance power 6; alter diskgroup DATA drop disk DATA2 rebalance power 6; alter diskgroup DATA drop disk DATA3 rebalance power 6; alter diskgroup DATA drop disk RECO1 rebalance power 6; EOF }}} * select * from gv$asm_operation; == 查看rebalance情况与asm日志 == $ asmcmd -p lsop $ tail -f alert.log == 依次回收VMware上的磁盘 == 先验证一个磁盘回收, 如无异常, 回收所有旧存储的磁盘. 最后建议是重启验证一下, 如果可能的话. = References = https://www.dell.com/support/kbdoc/en-sg/000105896/powerstore-supported-host-os-for-non-disruptive-migration-of-storage-resources