Common commands for AIX Disk Management

Source: Internet
Author: User
Commonly used commands for AIX Disk Management in Practice (collect and modify disk information on the Internet) 1. check whether the storage resources are identified by the system. Re-scan the device # javasmgr & amp; ndash; v to view the disk: (the hdisk here may be a local disk or storage) # lsdev & amp; ndash; C... commonly used commands for AIX Disk Management in Practice (collect and modify disk information on the Internet) 1. check whether the storage resources are identified by the system. Re-scan the device # cfgmgr-v to view the disk: (the hdisk here may be a local disk or storage) # lsdev-Cc diskhdisk0 Available 01-08-00 SAS Disk Drivehdisk1 Available 01-08-00 SAS Disk Drivehdisk2 Available Other iSCSI Disk Drive checks PV information. # Lspvhdisk0 kernel rootvg activehdisk1 kernel None hdisk2 None create PV so that the device can be used by the system to allocate a PVID to hdisk2 to make hdisk2 available # chdev-l hdisk2-a pv = yes # lspvhdisk0 kernel activehdisk1 ready None hdisk2 00cb45e5115f3a33 None other related commands # lspv hdisk2 physical volume details # logical volume information allocated on the lspv-l hdisk2 physical volume # distribution of physical partitions on the lspv-p hdisk2 physical volume # rmdev-l hdisk2-d permanently delete hdisk0 from the ODM Library # extendvg rootvg hdisk 1. add a physical volume to the volume group # migratepv-l lv01 hdisk0 hdisk1 move the pp belonging to lv01 from hdisk0 to hdisk1 to create VG and create VG using PV. use hdisk2 # mkvg-y mqvg- d 6-s 8 hdisk2mqvg is VG name, -d 6 indicates a maximum of six physical volumes. the-s 8 pp value is 8 MB, and the physical volume value is hdisk2. # Lspvhdisk0 kernel rootvg activehdisk1 00cb45e500864dcc None hdisk2 kernel mqvg active other related commands # lsvg-l vgname view lv contained in vg # lsvg-p vgname view pv contained in vg # chvg-ay vgname automatically activates vg when the system starts # chvg-an vgname does not activate vg when the system starts # extendvg vgname hdisk9 adds a physical volume to the volume group # reducevg datavg disk2 vg deletes a physical volume, previously, you must use rmlv to delete all lv on the physical volume, for example, # mklv-y wolflv-t jsf rootvg 10 wolflv # lsvg-l rootvgrootvg: lv name type LPs PPs P. Vs lv state mount POINThd5 boot 1 2 2 closed/syncd N/Ahd6 paging 12 24 2 open/syncd N/Ahd8 jfs2log 1 2 2 open/syncd N/Ahd4 jfs2 45 90 2 open /syncd/hd2 jfs2 7 14 2 open/syncd/usrhd9var jfs2 1 2 2 open/syncd/varhd3 jfs2 20 40 2 open/syncd/tmphd1 jfs2 1 2 open/syncd/homehd10opt jfs2 1 2 open/syncd/opthd11admin jfs2 1 2 2 open/syncd/admindzytest jfs 2 4 2 open/syncd/dzytestloglv00 jfslog 1 2 2 open/syncd N/aw.lelv jfs2 80 80 1 open/syncd/oraclewolflv jsf 10 10 1 closed/syncd N/A # rmlv wolflvWarning, all data contained on logical volume wolflv will be destroyed. rmlv: Do you wish to continue? Y (es) n (o )? Yrmlv: Logical volume wolflv is removed. # lsvg-l rootvgrootvg: lv name type LPs PPs PVs lv state mount POINThd5 boot 1 2 2 closed/syncd N/Ahd6 paging 12 24 2 open/syncd N/Ahd8 jfs2log 1 2 2 open/syncd N/Ahd4 jfs2 45 90 2 open/syncd/hd2 jfs2 7 14 2 open/syncd/usrhd9var jfs2 1 2 2 open/syncd/varhd3 jfs2 20 40 2 open/syncd/tmphd1 jfs2 1 2 2 2 open/syncd/homehd10opt jfs2 1 2 2 open/syncd/opthd11admin jfs2 1 2 2 open/syncd/admindzytest jfs 2 2 2 open/syncd/dzytestloglv00 jfslog 1 2 2 2 open/syncd N /Aoraclelv jfs2 80 80 1 open/syncd/oracle create LV on VG create LV # mklv-y lvname-t jsf2 vgname 2020 contains 20 logical partitions for this lv # lsvg-l mqvgmqvg: lv name type LPs PPs PVs lv state mount POINTma jfs 20 20 1 open/syncd loglv00 jfslog 1 1 1 open/syncd N/A Other related commands # lspv-l lvname view lv basics # How to create a file system using lspv-p hdisk2: create a file system # crfs-v jfs-d lvname-m/test # mount/test # lsvg-l mqvgmqvg on the LV: lv name type LPs PPs PVs lv state mount POINTma jfs 20 20 1 closed/syncd/testloglv00 jfslog 1 1 1 closed/syncd N/A such: # mklv-y wolflv-t jfs2 rootvg 10 wolflv # crfs-v jfs2-d wolflv-m/wolfFile system created successfully.2621156 kilobytes total disk space. new File System size is 5242880 # mount/wolf # df-gFilesystem GB blocks Free % Used Iused % Iused Mounted on/dev/hd4 11.25 8.86 22% 16797 1% // dev/hd2 1.75 0.12 93% 35768 53%/usr/dev/hd9var 0.25 0.23 7% 529 1%/var/dev/hd3 5.00 5.00 1% 1% 35 0.25/tmp/dev/hd1 0.25 1% 53 1%/home/dev /hd11admin 0.25 0.25 1% 5 1%/admin/proc--/proc/dev/hd10opt 0.25 0.14 44% 3265 9%/opt/dev/dzytest 0.50 0.48 4% 17 1%/dzytest /dev/oraclelv 20.00 11.31 44% 35381 2%/oracle/dev/wolflv 2.50 2.50 1% 1% 4/wolf Method 2: directly create a file system # crfs-v jfs-g vgname-m/qing-a size = 100 M # mount/qing # crfs-v jfs2-g rootvg-m/yj- size = 10 MFile system created successfully.261932 kilobytes total disk space. new File System size is 524288 # df-gFilesystem GB blocks Free % Used Iused % Iused Mounted on/dev/hd4 11.25 8.86 22% 16800 1% 1.75 // dev/hd2 0.12 93% 35768 53%/ usr/dev/hd9var 0.25 0.23 7% 529 1%/var/dev/hd3 5.00 5.00 1% 1% 35 0.25/tmp/dev/hd1 0.25 1% 1% 53 0.25/home/dev/hd11admin 0.25 1% 5 1%/admin/proc--/proc/dev/hd10opt 0.25 0.14 44% 3265 9%/opt/dev/dzytest 0.50 0.48 4% 17 1%/dzytest/dev/oraclelv 20.00 11.31 44% 35381 2%/oracle/dev/wolflv 2.50 2.50 1% 4 1%/wolf/dev/fslv00 0.25 0.25 1% 4 1%/yj directly create a file system, the system will create the LV # lsvg-l mqvgmqvg associated with the file system at the underlying layer: lv name type LPs PPs PVs lv state mount POINTma jfs 20 20 1 open/syncd/testloglv00 jfslog 1 1 1 open/syncd N/Alv00 jfs 13 13 1 open/syncd/qing # df -gFilesystem GB blocks Free % Used Iused % Iused Mounted on/dev/hd4 0.50 0.32 36% 13859 16% 2.50 // dev/hd2 0.57 78% 39931 23% 0.50/usr/dev/hd9var 0.26 49% 7150 11%/var/dev/hd3 0.25 0.22 12% 143 1%/tmp/dev/fwdump 0.75 0.75 1% 1% 6 0.25/var/adm/ras/platform/dev/hd1 0.25 1% 5 1%/home/dev/hd11admin 0.25 0.25 1% 5 1%/admin/proc--/proc/dev/hd10opt 0.50 0.31 39% 8679/opt/dev/livedump 11% 0.25 1% 4 1%/var/adm/ras/livedump/dev/ma 0.16 0.15 4% 17 1%/test/dev/lv00 0.10 0.10 4% 17 1%/qing # df-kFilesystem 1024-blocks free % Used Iused % Iused Mounted on/dev/hd4 524288 336092 36% 13859 16% // dev/hd2 2621440 601776 78% 39931 23%/usr/dev/hd9var 524288 268724 49% 7150 11%/var /dev/hd3 262144 230860 12% 143 1%/tmp/dev/fwdump 786432 783820 1% 6 1%/var/adm/ras/platform/dev/hd1 262144 261744 1% 5 1%/home/ dev/hd11admin 262144 261744 1% 5 1%/admin/proc---/proc/dev/hd10opt 524288 320236 39% 8679 11%/opt/dev/livedump 262144 261776 1% 4 1%/ var/adm/ras/livedump/dev/ma 163840 158660 4% 17 1%/test/dev/lv00 106496 103116 4% 1% 17/qing increase the space available for the file system # chfs-a size = + 3G/usr add 3G space to/usr # chfs-a size =-3G/usr file system # cat/etc/filesystems mounting # mount/wolf file system consistency (The fsck command checks the information consistency of the file system, and supports file system repair) # fsck-p/dev/fslv00
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