Here's the Quick Start instructions :)
Start by removing any snapshot LVs on the system. These are not handled by LVM 2 and will prevent the origin from being activated when LVM 2 comes up.
Make sure you have some way of booting the system other than from your standard boot partition. Have the LVM 1 tools, standard system tools (mount) and an LVM 1 compatible kernel on it in case you need to get back and fix some things.
Grab the LVM 2 tools source and the device mapper source and compile them. You need to install the device mapper library using "make install" before compiling the LVM 2 tools. Also copy the dm/scripts/devmap_mknod.sh script into /sbin. I recommend only installing the 'lvm' binary for now so you have access to the LVM 1 tools if you need them. If you have access to packages for LVM 2 and device-mapper, you can install those instead, but beware of them overwriting your LVM 1 tool set.
Get a device mapper compatible kernel, either built in or as a kernel module.
Figure out where LVM 1 was activated in your startup scripts. Make sure the device-mapper module is loaded by that point (if you are using device mapper as a module) and add '/sbin/devmap_mknod.sh; lvm vgscan; lvm vgchange -ay' afterward.
Install the kernel with device mapper support in it. Reboot. If all goes well, you should be running with lvm2.
The primary cause of this is not having run the devmap_mknod.sh script after rebooting into a dm capable kernel. This script generates the control node for device mapper.
If you don't have the devmap_mknod.sh script, don't despair! It's pretty easy to create the /dev/mapper/control file on your own:
Make sure you have the device-mapper module loaded (if you didn't build it into your kernel).
Run
# cat /proc/misc | grep device-mapper | awk '{print $1}' |
Run
# mkdir /dev/mapper |
Run
# mknod /dev/mapper/control c 10 $number |
If you are using the stable 2.4 device mapper patch from the lvm2 tarball, all the major functionality you'd expect using lvm1 is supported with the lvm2 tools. (You still need to remove snapshots before upgrading from lvm1 to lvm2)
If you are using the version of device mapper in the 2.6 kernel.org kernel series the following commands and LV types are not supported:
pvmove
snapshots
4.1.4. Does LVM 2 use a different format from LVM 1 for it's ondisk representation of Volume Groups and Logical Volumes?
Yes. LVM 2 uses lvm 2 format metadata. This format is much more flexible than the LVM 1 format metadata, removing or reducing most of the limitations LVM 1 had.
Yes. LVM 2 will activate and operate on VG and LVs created with LVM 1. The exception to this is snapshots created with LVM 1 - these should be removed before upgrading. Snapshots that remain after upgrading will have to be removed before their origins can be activated by LVM 2.
Yes. Use vgconvert to convert your VG and all LVs contained within it to the new lvm 2 format metadata. Be warned that it's not always possible to revert back to lvm 1 format metadata.
One possible cause of this is that some versions of LVM 1 (The user that reported this bug originally was using Mandrake 9.2, but it is not necessarily limited to that distribution) did not put a UUID into the PV and VG structures as they were supposed to. The most current versions of the LVM 2 tools automatically fill UUIDs in for the structures if they see they are missing, so you should grab a more current version and your problem should be solved. If not, post to the linux-lvm mailing list
4.1.8. I have my root partition on an LV in LVM 1. How do I upgrade to LVM 2? And what happened to lvmcreate_initrd?
Upgrading to LVM 2 is a bit trickier with root on LVM, but it's not impossible. You need to queue up a kernel with device-mapper support and install the lvm2 tools (you might want to make a backup of the lvm 1 tools, or find a rescue disk with the lvm tools built in, in case you need them before you're done). Then find a mkinitrd script that has support for your distro and lvm 2.
Currently, this is the list of mkinitrd scripts that I know support lvm2, sorted by distro:
mkinitrd scripts with lvm 2 support
The latest fedora core 2 mkinitrd handles lvm2, but it relies on a statically built lvm binary from the latest lvm 2 tarball.
Redhat 9 users may be able to use this as well
There is an unofficial version here
There is a version in the lvm2 source tree under scripts/lvm2_createinitrd/. See the documentation in that directory for more details.
It's fine - LVM identifies PVs by UUID, not by device name.
Each disk (PV) is labeled with a UUID, which uniquely identifies it to the system. 'vgscan' identifies this after a new disk is added that changes your drive numbering. Most distros run vgscan in the lvm startup scripts to cope with this on reboot after a hardware addition. If you're doing a hot-add, you'll have to run this by hand I think. On the other hand, if your vg is activated and being used, the renumbering should not affect it at all. It's only the activation that needs the identifier, and the worst case scenario is that the activation will fail without a vgscan with a complaint about a missing PV.
The failure or removal of a drive that LVM is currently using will cause problems with current use and future activations of the VG that was using it. |
4.1.10. I'm trying to fill my vg, and vgdisplay/vgs says that I have 1.87 GB free, but when I do an lvcreate vg -L1.87G it says "insufficient free extends". What's going on?
The 1.87 GB figure is rounded to 2 decimal places, so it's probably 1.866 GB or something. This is a human-readable output to give you a general idea of how big the VG is. If you want to specify an exact size, you must use extents instead of some multiple of bytes.
In the case of vgdisplay, use the Free PE count instead of the human readable capacity.
Free PE / Size 478 / 1.87 GB ^^^ |
# lvcreate vg -l478 |
In the case of vgs, you need to instruct it to tell you how many extents are available:
# vgs -o +vg_free_count,vg_extent_count |