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= LVM management: = | |||
LVM management: | |||
vgscan # scans the devices and adds them to lvmtab.d directory | vgscan # scans the devices and adds them to lvmtab.d directory | ||
<Before fdisking the disk!> | <Before fdisking the disk!> | ||
<pre> | |||
pvcreate /dev/hde | pvcreate /dev/hde | ||
/dev/hdf | /dev/hdf | ||
/dev/hdg | /dev/hdg | ||
/dev/hdh # initialize a disk or partition for use by LVM | /dev/hdh # initialize a disk or partition for use by LVM | ||
</pre> | |||
NB if creating on /dev/md0 (raid devices) ensure that | NB if creating on /dev/md0 (raid devices) ensure that | ||
<pre> | |||
md_component_detection = 1 | md_component_detection = 1 | ||
</pre> | |||
in /etc/lvm/lvm.conf | in /etc/lvm/lvm.conf | ||
== Preparing the Volume group (physical disks) == | |||
<pre> | |||
vgcreate tripserv_vol -s 64M /dev/hde /dev/hdf /dev/hdg /dev/hdh # creates the volume group tripserv_vol | vgcreate tripserv_vol -s 64M /dev/hde /dev/hdf /dev/hdg /dev/hdh # creates the volume group tripserv_vol | ||
</pre> | |||
== Creating the Logical Volumes == | |||
<pre> | |||
lvcreate -i3 -I4 -L100M -nvolumename tripserv_vol | |||
<pre> | |||
creates the logical volume where | |||
* -i = Gives the number of stripes. This is equal to the number of physical volumes to scatter the logical volume. | |||
* -I = Gives the number of kilobytes for the granularity of the stripes. | |||
StripeSize must be 2^n (n = 2 to 9) | |||
* -L = size | |||
* -n = name of logical volumename | |||
* tripserv_vol = volumegroupname | |||
mke2fs -j -Lfslabel /dev/tripserv_vol/volumename | == Format the logical volume / partition for use == | ||
mke2fs -j -Lfslabel /dev/tripserv_vol/volumename | |||
* -j = journaling filesystem | |||
* -L = labelname | |||
* for snapshot volumes first unmount the drive you want to snapshot to then use | |||
lvcreate -L50M -s -n volumename /dev/tripserv_vol/journaleddevicename | <pre> | ||
lvcreate -L50M -s -n volumename /dev/tripserv_vol/journaleddevicename </pre> | |||
* mount it directly no need to mke2fs it | |||
then in /etc/fstab | then in /etc/fstab | ||
for journaled volumes: | for journaled volumes: | ||
<pre> | |||
/dev/tripserv_vol/code /export/home/code ext3 defaults 0 0 | /dev/tripserv_vol/code /export/home/code ext3 defaults 0 0 | ||
</pre> | |||
for non-journaled: | for non-journaled: | ||
<pre> | |||
/dev/tripserv_vol/sfx /export/home/sfx ext2 defaults 0 0 | /dev/tripserv_vol/sfx /export/home/sfx ext2 defaults 0 0 | ||
</pre> | |||
for snapshots: | for snapshots: | ||
<pre> | |||
/dev/tripserv_vol/codesnap /export/home/codesnap ext3 ro 0 0 | /dev/tripserv_vol/codesnap /export/home/codesnap ext3 ro 0 0 | ||
</pre> | |||
mount -a | mount -a | ||
= Extending and reducing for LVM2 = | |||
== Reducing == | |||
<pre? | |||
unmount /dev/tripserv_vol/volumename | unmount /dev/tripserv_vol/volumename | ||
e2fsck -f /dev/tripserv_vol/volumename | e2fsck -f /dev/tripserv_vol/volumename | ||
| Line 64: | Line 77: | ||
lvreduce /dev/tripserv_vol/volumename -L 150G | lvreduce /dev/tripserv_vol/volumename -L 150G | ||
# will make the logical volume 150G large. If you use -15G you subtract 15G from the current disk size. The resize2fs tool doesn't support this | # will make the logical volume 150G large. If you use -15G you subtract 15G from the current disk size. The resize2fs tool doesn't support this | ||
</pre> | |||
== Extending == | |||
<pre> | |||
unmount /dev/tripserv_vol/volumename | unmount /dev/tripserv_vol/volumename | ||
e2fsck -f /dev/tripserv_vol/volumename | e2fsck -f /dev/tripserv_vol/volumename | ||
| Line 71: | Line 86: | ||
# -L +100G increases the size of the extent by 100G. This works because in the next step you don't have to specify the size of the new volume. | # -L +100G increases the size of the extent by 100G. This works because in the next step you don't have to specify the size of the new volume. | ||
resize2fs /dev/tripserv_vol/volumename | resize2fs /dev/tripserv_vol/volumename | ||
<pre> | |||
== Resizing a root LV == | |||
NB. If you want to resize an LVM root partition, start up using the Debian CD untill you get to the partitioner. Then open a second terminal and log in through that. If the lv's are not available (and e2fsck doesn't work, there's nothing in /dev/tripserv_vol/ etc), do | NB. If you want to resize an LVM root partition, start up using the Debian CD untill you get to the partitioner. Then open a second terminal and log in through that. If the lv's are not available (and e2fsck doesn't work, there's nothing in /dev/tripserv_vol/ etc), do | ||
<pre> | |||
vgscan | |||
lvchange -a y /dev/tripserv_vol/volumename | lvchange -a y /dev/tripserv_vol/volumename | ||
</pre> | |||
which activates it. | which activates it. | ||
Renaming a | = Renaming a VG (if it's got the root on there) = | ||
start up the debian rescue and open a shell: | start up the debian rescue and open a shell: | ||
<pre> | |||
vgchange -a n oldvgname | vgchange -a n oldvgname | ||
vgrename oldvgname newvgname | vgrename oldvgname newvgname | ||
| Line 86: | Line 105: | ||
lvscan | lvscan | ||
vgchange -a y newvgname | vgchange -a y newvgname | ||
</pre> | |||
Then you need to put the newvgname into /etc/fstab and /boot/grub/menu.lst | Then you need to put the newvgname into /etc/fstab and /boot/grub/menu.lst before rebooting | ||
NB. Use nano to edit, vi / vim / emacs are probably not available! | NB. Use nano to edit, vi / vim / emacs are probably not available! | ||
= Depreciated! LVM1 = | |||
extending, reducing and removing NB This all only works for LVM1 | |||
to extend: | to extend: | ||
(only lvm1) | (only lvm1) | ||
<pre> | |||
unmount /dev/tripserv_vol/volumename | unmount /dev/tripserv_vol/volumename | ||
e2fsadm -L+15G /dev/tripserv_vol/volumename | e2fsadm -L+15G /dev/tripserv_vol/volumename | ||
</pre> | |||
will make the volumename 15G larger | will make the volumename 15G larger | ||
OR | OR | ||
<pre> | |||
unmount /dev/tripserv_vol/volumename | unmount /dev/tripserv_vol/volumename | ||
lvextend /dev/tripserv_vol/volumename -L+100M (to enlarge by 100MB) | lvextend /dev/tripserv_vol/volumename -L+100M (to enlarge by 100MB) | ||
</pre> | |||
check the drive and resize2fs the drive to make it larger, then fsck to check integrity | check the drive and resize2fs the drive to make it larger, then fsck to check integrity | ||
<pre> | |||
e2fsck -fv /dev/tripserv_vol/volumename | e2fsck -fv /dev/tripserv_vol/volumename | ||
resize2fs /dev/tripserv_vol/volumename | resize2fs /dev/tripserv_vol/volumename | ||
e2fsck -fv /dev/tripserv_vol/volumename | e2fsck -fv /dev/tripserv_vol/volumename | ||
</pre> | |||
to reduce: | to reduce: | ||
<pre> | |||
umount /dev/tripserv_vol/volumename | umount /dev/tripserv_vol/volumename | ||
resize2fs /dev/tripserv_vol/volumename 20971520 (new size of volume in blocks) | resize2fs /dev/tripserv_vol/volumename 20971520 (new size of volume in blocks) | ||
| Line 116: | Line 138: | ||
e2fsck -fv /dev/tripserv_vol/volumename | e2fsck -fv /dev/tripserv_vol/volumename | ||
mount /dev/tripserv_vol/volumename | mount /dev/tripserv_vol/volumename | ||
</pre> | |||
Note: you can find the proper size in blocks by doing an lvreduce then e2fsck. It will give the block size in the error message, after which you can lvextend it back to where it was, e2fsck it and then resize2fs it with the correct paramaters. | Note: you can find the proper size in blocks by doing an lvreduce then e2fsck. It will give the block size in the error message, after which you can lvextend it back to where it was, e2fsck it and then resize2fs it with the correct paramaters. | ||
| Line 124: | Line 146: | ||
to remove: | to remove: | ||
<pre> | |||
lvremove /dev/tripserv_vol/volumename | lvremove /dev/tripserv_vol/volumename | ||
</pre> | |||
== Snapshots == | |||
You make a new snapshot volume name based on the existing logical volume you want to back up | You make a new snapshot volume name based on the existing logical volume you want to back up | ||
</pre> | |||
lvcreate -s -L500M -n docusnap /dev/tripserv_vol/docu | lvcreate -s -L500M -n docusnap /dev/tripserv_vol/docu | ||
</pre> | |||
# If the pv size displayed < the disk size | # If the pv size displayed < the disk size | ||
check with pvscan / pvdisplay and with lvmdiskscan. pvdisplay shows the metadata on the disk, lvmdiskscan looks at what the OS has to say. | check with pvscan / pvdisplay and with lvmdiskscan. pvdisplay shows the metadata on the disk, lvmdiskscan looks at what the OS has to say. | ||
If size mismatch upgrade to lvm2 from testing (not Sarge, see "installing packages from testing on stable machines using apt.txt") and run | If size mismatch upgrade to lvm2 from testing (not Sarge, see "installing packages from testing on stable machines using apt.txt") and run | ||
<pre> | |||
pvresize /dev/md0 | pvresize /dev/md0 | ||
</pre> | |||
<pre> | |||
tripserv:/etc# pvscan | tripserv:/etc# pvscan | ||
pvscan -- reading all physical volumes (this may take a while...) | pvscan -- reading all physical volumes (this may take a while...) | ||
Revision as of 14:16, 15 April 2013
LVM management:
vgscan # scans the devices and adds them to lvmtab.d directory
<Before fdisking the disk!>
pvcreate /dev/hde /dev/hdf /dev/hdg /dev/hdh # initialize a disk or partition for use by LVM
NB if creating on /dev/md0 (raid devices) ensure that
md_component_detection = 1
in /etc/lvm/lvm.conf
Preparing the Volume group (physical disks)
vgcreate tripserv_vol -s 64M /dev/hde /dev/hdf /dev/hdg /dev/hdh # creates the volume group tripserv_vol
Creating the Logical Volumes
lvcreate -i3 -I4 -L100M -nvolumename tripserv_vol <pre> creates the logical volume where * -i = Gives the number of stripes. This is equal to the number of physical volumes to scatter the logical volume. * -I = Gives the number of kilobytes for the granularity of the stripes. StripeSize must be 2^n (n = 2 to 9) * -L = size * -n = name of logical volumename * tripserv_vol = volumegroupname == Format the logical volume / partition for use == mke2fs -j -Lfslabel /dev/tripserv_vol/volumename * -j = journaling filesystem * -L = labelname * for snapshot volumes first unmount the drive you want to snapshot to then use <pre> lvcreate -L50M -s -n volumename /dev/tripserv_vol/journaleddevicename
- mount it directly no need to mke2fs it
then in /etc/fstab
for journaled volumes:
/dev/tripserv_vol/code /export/home/code ext3 defaults 0 0
for non-journaled:
/dev/tripserv_vol/sfx /export/home/sfx ext2 defaults 0 0
for snapshots:
/dev/tripserv_vol/codesnap /export/home/codesnap ext3 ro 0 0
mount -a
Extending and reducing for LVM2
Reducing
<pre? unmount /dev/tripserv_vol/volumename e2fsck -f /dev/tripserv_vol/volumename resize2fs /dev/tripserv_vol/volumename 150G
- will make the filesystem 150G large
lvreduce /dev/tripserv_vol/volumename -L 150G
- will make the logical volume 150G large. If you use -15G you subtract 15G from the current disk size. The resize2fs tool doesn't support this
Extending
unmount /dev/tripserv_vol/volumename e2fsck -f /dev/tripserv_vol/volumename lvextend /dev/tripserv_vol/volumename -L +100G # -L +100G increases the size of the extent by 100G. This works because in the next step you don't have to specify the size of the new volume. resize2fs /dev/tripserv_vol/volumename <pre> == Resizing a root LV == NB. If you want to resize an LVM root partition, start up using the Debian CD untill you get to the partitioner. Then open a second terminal and log in through that. If the lv's are not available (and e2fsck doesn't work, there's nothing in /dev/tripserv_vol/ etc), do <pre> vgscan lvchange -a y /dev/tripserv_vol/volumename
which activates it.
Renaming a VG (if it's got the root on there)
start up the debian rescue and open a shell:
vgchange -a n oldvgname vgrename oldvgname newvgname vgscan lvscan vgchange -a y newvgname
Then you need to put the newvgname into /etc/fstab and /boot/grub/menu.lst before rebooting NB. Use nano to edit, vi / vim / emacs are probably not available!
Depreciated! LVM1
extending, reducing and removing NB This all only works for LVM1 to extend:
(only lvm1)
unmount /dev/tripserv_vol/volumename e2fsadm -L+15G /dev/tripserv_vol/volumename
will make the volumename 15G larger
OR
unmount /dev/tripserv_vol/volumename lvextend /dev/tripserv_vol/volumename -L+100M (to enlarge by 100MB)
check the drive and resize2fs the drive to make it larger, then fsck to check integrity
e2fsck -fv /dev/tripserv_vol/volumename resize2fs /dev/tripserv_vol/volumename e2fsck -fv /dev/tripserv_vol/volumename
to reduce:
umount /dev/tripserv_vol/volumename resize2fs /dev/tripserv_vol/volumename 20971520 (new size of volume in blocks) lvreduce /dev/tripserv_vol/volumename -L-10G e2fsck -fv /dev/tripserv_vol/volumename mount /dev/tripserv_vol/volumename
Note: you can find the proper size in blocks by doing an lvreduce then e2fsck. It will give the block size in the error message, after which you can lvextend it back to where it was, e2fsck it and then resize2fs it with the correct paramaters.
NB if you lose the files but everything /looks/ fine, they could well be in the lost+found directory...
After these operations the computer needs rebooting!
to remove:
lvremove /dev/tripserv_vol/volumename
Snapshots
You make a new snapshot volume name based on the existing logical volume you want to back up
lvcreate -s -L500M -n docusnap /dev/tripserv_vol/docu
- If the pv size displayed < the disk size
check with pvscan / pvdisplay and with lvmdiskscan. pvdisplay shows the metadata on the disk, lvmdiskscan looks at what the OS has to say.
If size mismatch upgrade to lvm2 from testing (not Sarge, see "installing packages from testing on stable machines using apt.txt") and run
pvresize /dev/md0
tripserv:/etc# pvscan
pvscan -- reading all physical volumes (this may take a while...)
pvscan -- ACTIVE PV "/dev/hdg1" of VG "tripserv_vol" [38.16 GB / 7.93 GB free]
pvscan -- ACTIVE PV "/dev/hdh1" of VG "tripserv_vol" [38.16 GB / 8.01 GB free]
pvscan -- ACTIVE PV "/dev/hde1" of VG "tripserv_vol" [55.91 GB / 0 free]
pvscan -- ACTIVE PV "/dev/hdf1" of VG "tripserv_vol" [55.91 GB / 3.37 GB free]
pvscan -- total: 4 [188.16 GB] / in use: 4 [188.16 GB] / in no VG: 0 [0]
tripserv:/etc# fdisk /dev/hde
The number of cylinders for this disk is set to 116336.
There is nothing wrong with that, but this is larger than 1024,
and could in certain setups cause problems with:
1) software that runs at boot time (e.g., old versions of LILO)
2) booting and partitioning software from other OSs
(e.g., DOS FDISK, OS/2 FDISK)
Command (m for help): p
Disk /dev/hde: 16 heads, 63 sectors, 116336 cylinders
Units = cylinders of 1008 * 512 bytes
Device Boot Start End Blocks Id System
/dev/hde1 1 116336 58633312+ 8e Linux LVM
Command (m for help): q
You have new mail in /var/spool/mail/root
tripserv:/etc# fdisk /dev/hdb
The number of cylinders for this disk is set to 116336.
There is nothing wrong with that, but this is larger than 1024,
and could in certain setups cause problems with:
1) software that runs at boot time (e.g., old versions of LILO)
2) booting and partitioning software from other OSs
(e.g., DOS FDISK, OS/2 FDISK)
Command (m for help): p
Disk /dev/hdb: 16 heads, 63 sectors, 116336 cylinders
Units = cylinders of 1008 * 512 bytes
Device Boot Start End Blocks Id System
/dev/hdb1 1 116336 58633312+ 8e Linux LVM
Command (m for help): q
tripserv:/etc#
tripserv:/etc# dmesg | grep hde
ide2: BM-DMA at 0xa000-0xa007, BIOS settings: hde:pio, hdf:pio
hde: MAXTOR 6L060J3, ATA DISK drive
hde: 117266688 sectors (60041 MB) w/1819KiB Cache, CHS=116336/16/63, UDMA(100)
hde: hde1
tripserv:/etc# dmesg | grep hdb
ide0: BM-DMA at 0xf000-0xf007, BIOS settings: hda:DMA, hdb:DMA
hdb: MAXTOR 6L060J3, ATA DISK drive
hdb: 117266688 sectors (60041 MB) w/1819KiB Cache, CHS=116336/16/63, UDMA(33)
hdb: unknown partition table
hdb: hdb1
hdb: hdb1