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# edit /mnt/fstab so your root fs is mounted like: <code>LABEL=ROOTFS / ext4 defaults 1 1</code> | # edit /mnt/fstab so your root fs is mounted like: <code>LABEL=ROOTFS / ext4 defaults 1 1</code> | ||
Now we have a duplicate root filesystem on /dev/BCACHE/ROOTFS. To use it we need to build a new initramfs: | Now we have a duplicate root filesystem on /dev/BCACHE/ROOTFS. To use it we need to build a new initramfs: | ||
# rename your current initramfs: <code>mv /boot/initramfs | # rename your current initramfs: <code>mv /boot/initramfs-`uname -r`.img /boot/initramfs-`uname -r`.img.sav</code> | ||
# build a new initramfs: <code>dracut -N</code> | # build a new initramfs: <code>dracut -N</code> | ||
Now reboot your system. | Now reboot your system. | ||
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# remove any rd.lvm=0 occurrence | # remove any rd.lvm=0 occurrence | ||
# now start the modified grub entry | # now start the modified grub entry | ||
If all goes well, your system now boots fine and it's running on bcache! | If all goes well, your system now boots fine and it's running on LVM on bcache! Now we have to do some final housekeeping: | ||
# | # update grub config: <code>grub2-mkconfig -o /boot/grub2/grub.cfg</code> for BIOS systems and <code>grub2-mkconfig -o /boot/efi/EFI/fedora/grub.cfg</code> for UEFI systems | ||
# .. | # rename your current initramfs (again): <code>mv /boot/initramfs-`uname -r`.img /boot/initramfs-`uname -r`.img.sav</code> | ||
# Now | # build a new initramfs with <i>only</i> the needed drivers included: <code>dracut</code> | ||
# reboot your system to see if it boots OK. | Now your system should be ready! | ||
# | # reboot your system to see if it boots OK | ||
# apply updates: <code>yum update</code>. Specifically try to update the kernel, because it depens on the proper interaction between dracut, bcache-tools and util-linux, | |||
# <code>wget http://dl.fedoraproject.org/pub/alt/stage/20-Beta-TC2/Fedora/x86_64/iso/Fedora-20-Beta-TC2-x86_64-DVD.iso</code> | |||
|results= | |results= | ||
# All steps complete without errors | # All steps complete without errors | ||
# wget should have the same speed of all time | |||
|optional= | |||
The original root partition /dev/sda3 is no longer used, so we can reclaim its disk space by adding it to the volume group: | |||
# First wipe all metadata: <code>wipefs -a /dev/sda3</code> | |||
# Make /dev/sda3 a bcache backing device: <code>make-bcache -B /dev/sda3</code> | |||
# Note the fact that a new /dev/bcache2 device is created | |||
# Retrieve the cset.uuid from your /dev/sdb1 caching device: <code>bcache-super-show /dev/sdb1</code> | |||
# Attach /dev/sdb1 also to /dev/bcache2: <code>echo <cset.uuid> > /sys/block/bcache2/bcache/attach</code> | |||
There are three bcache devices now: /dev/bcache0, /dev/bcache1 and /dev/bcache2 each using /dev/sdb1 as a caching device. The numbering of the bcache devices happens dynamically during boot, but until you reboot you can safely assume /dev/bcache2 uses /dev/sda3 as a backing device. | |||
# use "bcache-status -s" to see details about your bcache devices. | |||
# Now add /dev/bcache2 to out volume group:\ | |||
## create a Physical Volume: <code>pvcreate /dev/bcache2</code> | |||
## add it to our Volume Group: <code>vgextend BCACHE /dev/bcache2</code> | |||
Now /dev/sda3 is an <b>cached</b> integral part of the volume group. You can allocate more space to / or /home. | |||
}} | }} | ||
Latest revision as of 23:33, 13 October 2013
Description
This page describes a test case for bcache-tools: "/ on bcache using LVM"
Bcache is a Linux kernel block layer cache. It allows one or more fast disk drives such as flash-based solid state drives (SSDs) to act as a cache for one or more slower hard disk drives. The bcache-tools package contains the utilities for manipulating bcache
Testing covers not only bcache-tools but also the interaction between bcache-tools and other packages: kernel, util-linux, dracut and lvm2.
Starting with a stable system with /home on LVM on bcache, we can go forward and have / on bcache. Consider thought that bcache is EXPERIMENTAL!
Prerequisites
This test requires the following test case as preparation: /home on bcache (LVM). Furthermore it requires the volume group BCACHE to have at least 2 GB free space!
Setup
If you haven't done so, you should first execute the use case /home on bcache (LVM).
How to test
To get / on bcache:
- create a Logical Volume:
lvcreate -L 2G -n ROOTFS BCACHE - create a filesystem:
mkfs -t ext4 -L ROOTFS /dev/BCACHE/ROOTFS - mount it:
mount /dev/BCACHE/ROOTFS /mnt - copy your current root filesystem to /mnt:
cp -ax / /mnt - edit /mnt/fstab so your root fs is mounted like:
LABEL=ROOTFS / ext4 defaults 1 1
Now we have a duplicate root filesystem on /dev/BCACHE/ROOTFS. To use it we need to build a new initramfs:
- rename your current initramfs:
mv /boot/initramfs-uname -r.img /boot/initramfs-uname -r.img.sav - build a new initramfs:
dracut -N
Now reboot your system.
- while booting edit the default grub entry and replace the root=UUID=... parameter in the "linux" line by: root=LABEL=ROOTFS
- remove any rd.lvm=0 occurrence
- now start the modified grub entry
If all goes well, your system now boots fine and it's running on LVM on bcache! Now we have to do some final housekeeping:
- update grub config:
grub2-mkconfig -o /boot/grub2/grub.cfgfor BIOS systems andgrub2-mkconfig -o /boot/efi/EFI/fedora/grub.cfgfor UEFI systems - rename your current initramfs (again):
mv /boot/initramfs-uname -r.img /boot/initramfs-uname -r.img.sav - build a new initramfs with only the needed drivers included:
dracut
Now your system should be ready!
- reboot your system to see if it boots OK
- apply updates:
yum update. Specifically try to update the kernel, because it depens on the proper interaction between dracut, bcache-tools and util-linux, wget http://dl.fedoraproject.org/pub/alt/stage/20-Beta-TC2/Fedora/x86_64/iso/Fedora-20-Beta-TC2-x86_64-DVD.iso
Expected Results
- All steps complete without errors
- wget should have the same speed of all time
Optional
The original root partition /dev/sda3 is no longer used, so we can reclaim its disk space by adding it to the volume group:
- First wipe all metadata:
wipefs -a /dev/sda3 - Make /dev/sda3 a bcache backing device:
make-bcache -B /dev/sda3 - Note the fact that a new /dev/bcache2 device is created
- Retrieve the cset.uuid from your /dev/sdb1 caching device:
bcache-super-show /dev/sdb1 - Attach /dev/sdb1 also to /dev/bcache2:
echo <cset.uuid> > /sys/block/bcache2/bcache/attach
There are three bcache devices now: /dev/bcache0, /dev/bcache1 and /dev/bcache2 each using /dev/sdb1 as a caching device. The numbering of the bcache devices happens dynamically during boot, but until you reboot you can safely assume /dev/bcache2 uses /dev/sda3 as a backing device.
- use "bcache-status -s" to see details about your bcache devices.
- Now add /dev/bcache2 to out volume group:\
- create a Physical Volume:
pvcreate /dev/bcache2 - add it to our Volume Group:
vgextend BCACHE /dev/bcache2
- create a Physical Volume:
Now /dev/sda3 is an cached integral part of the volume group. You can allocate more space to / or /home.