Différences entre les versions de « Btrfs »

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(+Scaleway Elastic Metal)
 
(2 versions intermédiaires par le même utilisateur non affichées)
Ligne 10 : Ligne 10 :
# detach the root filesystem and attach it to another machine, convert it, and re-attach it to the original machine,
# detach the root filesystem and attach it to another machine, convert it, and re-attach it to the original machine,
# use a secondary system to convert the filesystem with btrfs-convert, when it is not possible to detach the root filesystem (e.g. OpenStack).
# use a secondary system to convert the filesystem with btrfs-convert, when it is not possible to detach the root filesystem (e.g. OpenStack).
== GandiCloudVPS ==
Tested on Debian 12 on 2024-10-08.
GandiCloudVPS is powered by OpenStack, and it is not possible (according to my understanding) to detach the root filesystem, so it is not possible to mount another volume converted to btrfs (although a new server may be created with an existing volume with <code>openstack server create --volume UUID …</code>).
# Restart the VM in rescue mode
# Connect by SSH or with the remote console in this rescue mode
# Identify the filesystems on the server in rescue mode with <code>blkid</code> and/or <code>df -hT</code>, for instance
#* <code>/dev/xvdb1</code> for the root filesystem <code>/</code>
#* <code>/dev/xvdb15</code> for <code>/boot/efi</code>
# <code>apt-get update && apt-get install -y btrfs-progs</code>
# <code>btrfs-convert -p /dev/xvdb1</code>
# <code>mount /dev/xvdb1 /mnt</code>
# <code>btrfs subvolume delete -C /mnt/ext2_saved</code>
# <code>btrfs filesystem defragment -r /mnt</code>
# <code>btrfs balance start /mnt</code>
# <code>blkid</code> and note the UUID of the btrfs filesystem
# <code>cp /mnt/etc/fstab /tmp</code> (to temporarily keep a backup if needed)
# Edit <code>/mnt/etc/fstab</code>, replace the UUID of the root filesystem by the new UUID, replace the type "ext4" by "btrfs", and replace the options by "defaults"
# <code>for i in dev dev/pts proc sys; do mount --bind /$i /mnt/$i; done</code>
# <code>mount /dev/xvdb15 /mnt/boot/efi</code>
# <code>chroot /mnt update-grub</code>
# <code>chroot /mnt grub-install /dev/xvdb</code>
# <code>for i in dev/pts dev proc sys boot/efi boot ""; do umount /mnt/$i; done</code>
# Restart in normal mode
# Verify that everything works with <code>df -hT</code>
# If the server does not restart, it may be observed why on the remote console. Then restart in rescue mode, remount the new filesystem on <code>/mnt</code> and check:
## that <code>/mnt/etc/fstab</code> has the right UUID, type "btrfs", options "defaults"


== Gandi CloudV5 ==
== Gandi CloudV5 ==
Ligne 208 : Ligne 238 :


== Scaleway Elastic Metal ==
== Scaleway Elastic Metal ==
Tested on Debian 11.


# On the running server, find the name of the partitions with <code>blkid</code> for the root filesystem <code>/</code> and <code>/boot</code> and <code>/boot/efi</code>
# On the running server, find the name of the partitions with <code>blkid</code> for the root filesystem <code>/</code> and <code>/boot</code> and <code>/boot/efi</code>
# Restart in rescue mode
# Restart in rescue mode
# Identify the filesystems on the server in rescue mode with <code>blkid</code>, for instance
# Identify the filesystems on the server in rescue mode with <code>blkid</code> and/or <code>df -hT</code>, for instance
#* <code>/dev/md126</code> for the root filesystem <code>/</code>
#* <code>/dev/md126</code> for the root filesystem <code>/</code>
#* <code>/dev/md127</code> for <code>/boot</code>
#* <code>/dev/md127</code> for <code>/boot</code>
Ligne 228 : Ligne 260 :
# <code>mount /dev/sda1 /mnt/boot/efi</code>
# <code>mount /dev/sda1 /mnt/boot/efi</code>
# <code>chroot /mnt update-grub</code>
# <code>chroot /mnt update-grub</code>
# <code>for i in dev/pts dev proc sys boot/efi boot ''; do umount /mnt/$i; done</code>
# <code>for i in dev/pts dev proc sys boot/efi boot ""; do umount /mnt/$i; done</code>
# Restart in normal mode
# Restart in normal mode
# Verify that everything works with <code>df -hT</code>
# Verify that everything works with <code>df -hT</code>

Version actuelle datée du 9 octobre 2024 à 23:33

This is a procedure to convert a root filesystem into btrfs for a server, either on a Gandi VM or a Scaleway machine.

This was written after a number of trial-error. Here are my steps if it can be useful to others. For an introduction, see Wikipedia article and/or the dedicated wiki.

WARNING: this could cause DATA LOSS, be sure you have backups (possibly Gandi snapshots).

General strategies

Often the VM are formatted in ext4 by default without option to easily use another filesystem. To hackily change this, there are 2 slightly different strategies:

  1. detach the root filesystem and attach it to another machine, convert it, and re-attach it to the original machine,
  2. use a secondary system to convert the filesystem with btrfs-convert, when it is not possible to detach the root filesystem (e.g. OpenStack).

GandiCloudVPS

Tested on Debian 12 on 2024-10-08.

GandiCloudVPS is powered by OpenStack, and it is not possible (according to my understanding) to detach the root filesystem, so it is not possible to mount another volume converted to btrfs (although a new server may be created with an existing volume with openstack server create --volume UUID …).

  1. Restart the VM in rescue mode
  2. Connect by SSH or with the remote console in this rescue mode
  3. Identify the filesystems on the server in rescue mode with blkid and/or df -hT, for instance
    • /dev/xvdb1 for the root filesystem /
    • /dev/xvdb15 for /boot/efi
  4. apt-get update && apt-get install -y btrfs-progs
  5. btrfs-convert -p /dev/xvdb1
  6. mount /dev/xvdb1 /mnt
  7. btrfs subvolume delete -C /mnt/ext2_saved
  8. btrfs filesystem defragment -r /mnt
  9. btrfs balance start /mnt
  10. blkid and note the UUID of the btrfs filesystem
  11. cp /mnt/etc/fstab /tmp (to temporarily keep a backup if needed)
  12. Edit /mnt/etc/fstab, replace the UUID of the root filesystem by the new UUID, replace the type "ext4" by "btrfs", and replace the options by "defaults"
  13. for i in dev dev/pts proc sys; do mount --bind /$i /mnt/$i; done
  14. mount /dev/xvdb15 /mnt/boot/efi
  15. chroot /mnt update-grub
  16. chroot /mnt grub-install /dev/xvdb
  17. for i in dev/pts dev proc sys boot/efi boot ""; do umount /mnt/$i; done
  18. Restart in normal mode
  19. Verify that everything works with df -hT
  20. If the server does not restart, it may be observed why on the remote console. Then restart in rescue mode, remount the new filesystem on /mnt and check:
    1. that /mnt/etc/fstab has the right UUID, type "btrfs", options "defaults"

Gandi CloudV5

This was updated on 2020-09-24 for Debian 10 buster + GandiV5, and on 2022-02-02 for Debian 11 bullseye + GandiV5. An older version was for Debian 9 jessie or Ubuntu 18.04 LTS + GandiV4.

Manual procedure

Create the server

On GandiV5, create a new server with e.g. 1 proc, 256 MiB RAM, 1 system disk of 5 GiB, Debian 10 buster or Debian 11 bullseye.

For Debian 10 buster (only), define backports (btrfs-progs must contain btrfs-convert, see this Debian bug) (this is not needed for Debian 11):

echo 'deb https://deb.debian.org/debian buster-backports main' > /etc/apt/sources.list.d/debian-backports.list

Install btrfs-progs:

apt update && apt install -t buster-backports btrfs-progs # Debian 10 buster
apt update && apt install btrfs-progs # Debian 11 bullseye

On GandiV5 :

  1. stop the server,
  2. open the page about the system disk in Volumes,
  3. clone the system disk with another (definitive) name (e.g. the current disk is "sys-myserver", you can define the copied disk as "myserver"),
  4. start the server,
  5. wait until the server is started,
  6. attach this cloned disk to the server.

ATTENTION: really start the server before attaching the cloned disk, else the root filesystem might be the cloned disk given they have the same UUID and /etc/fstab is using the UUID to select the root filesystem (it could be workarounded by setting /dev/xvda1 in /etc/fstab before stopin the server).

Convert to btrfs

Mostly from [1]

Display the active root filesystem, and you will be able to deduce what is the cloned filesystem:

ls /dev/xvd*
mount|grep xvd
blkid

Copy the result of blkid in some text file on your computer (will be used later).

Let’s say /dev/xvdb1 is the clone filesystem, we convert it to btrfs: (man 8 btrfs-convert)

fsck.ext4 -f /dev/xvdb1 # optional
btrfs-convert -p /dev/xvdb1

Here, I obtained the following error:

root@test:~# btrfs-convert -p /dev/xvdb1
create btrfs filesystem:
	blocksize: 4096
	nodesize:  16384
	features:  extref, skinny-metadata (default)
creating ext2 image file
creating btrfs metadata
Unable to find block group for 0 27081]
Unable to find block group for 0
Unable to find block group for 0
ctree.c:2245: split_leaf: BUG_ON `1` triggered, value 1
btrfs-convert(+0x11b5a)[0x559c159c1b5a]
btrfs-convert(+0x1589b)[0x559c159c589b]
btrfs-convert(btrfs_search_slot+0x269)[0x559c159c6401]
btrfs-convert(btrfs_insert_empty_items+0x92)[0x559c159c7b3c]
btrfs-convert(btrfs_record_file_extent+0x1bc)[0x559c159d46b4]
btrfs-convert(record_file_blocks+0x14a)[0x559c159bfe92]
btrfs-convert(+0x10349)[0x559c159c0349]
btrfs-convert(+0x1135f)[0x559c159c135f]
btrfs-convert(main+0x1f59)[0x559c159bdefb]
/lib/x86_64-linux-gnu/libc.so.6(__libc_start_main+0xe7)[0x7f4c11c3bb97]
btrfs-convert(_start+0x2a)[0x559c159bb5ca]
Aborted

According to [2] and [3], it can be worked around: (this command could take some hours, depending on disk size and number of files)

btrfs-convert -d -p /dev/xvdb1

or even:

btrfs-convert -n -d -p /dev/xvdb1

Or, if still unsuccessful, try to add free space, or if still unsuccessfull, re-compile btrfs-progs in version 4.17.1 (this last try worked for me for 50 Gio disk with 24 Gio free space on Debian 9 jessie, expanded after its original size was 30 Gio (=4 Gio free space)).

Then, mount the filesystem and delete the old ext4 snapshot:

mount /dev/xvdb1 /mnt
btrfs subvolume delete /mnt/ext2_saved
btrfs filesystem defrag -r /mnt # could take dozen of minuts
btrfs balance start /mnt # could take hours

Promote as root filesystem

Mostly from [4]

Edit the /etc/fstab of the btrfs system:

uuid=`blkid|grep -P '^/dev/xvdb1: '|grep -o -P ' UUID="[0-9a-f-]+" '|cut -d'"' -f2`
sed -i -E 's/^UUID=[0-9a-f-]+ *\/ .*$/UUID=$uid \/               btrfs    defaults 0       1/' /mnt/etc/fstab

Update Grub in a chrooted system:

for i in dev dev/pts proc sys; do mount --bind /$i /mnt/$i; done
chroot /mnt update-grub
for i in dev/pts dev proc sys; do umount /mnt/$i; done
umount /mnt

Quit:

exit

Define the cooked disk as boot disk

In Gandi V5 interface, stop the server, detach the old root disk and define the cooked disk as "Use to start".

Launch the server (it should correctly start, even if the /boot directory is on the main partition / (some old documents said it didn’t work because grub didn’t know the btrfs filesystem, but it is fixed now)).

df -hT

It should show something like:

/dev/xvda1     btrfs      50G   32G   19G  63% /

Delete the old root disk.

You can delete the packages grub-efi-amd64, grub-efi-amd64-bin, grub-pc, grub-pc-bin since they are not used, but keep /etc/default/grub with Gandi customisations:

cp -a /etc/default/grub /root/grub
apt-get purge -y grub-efi-amd64 grub-efi-amd64-bin grub-pc grub-pc-bin
mv /root/grub /etc/default/grub
apt-mark manual grub-common grub2-common
update-grub # to check it still work and you should reboot now to be sure it reboots correctly

Scripted procedure

This script automates the conversion, with a slightly-modified procedure.

On GandiV5, create a new server with e.g. 1 proc, 256 MiB RAM, 1 system disk of 5 GiB, Debian 11 bullseye.

On GandiV5 :

  1. stop the server,
  2. open the page about the system disk in Volumes,
  3. clone the system disk with another (definitive) name (e.g. the current disk is "sys-myserver", you can define the copied disk as "myserver"),
  4. start the server,
  5. wait until the server is started,
  6. attach this cloned disk to the server.

ATTENTION: really start the server before attaching the cloned disk, else the root filesystem might be the cloned disk given they have the same UUID and /etc/fstab is using the UUID to select the root filesystem (it could be workarounded by setting /dev/xvda1 in /etc/fstab before stopin the server).

  1. Launch this script as root: (vi convert_gandiroot_to_btrfs.sh + chmod +x convert_gandiroot_to_btrfs.sh + (./convert_gandiroot_to_btrfs.sh)
    The script takes about 3 minutes to convert a 1.4 GiB disk.
#!/bin/sh

set -e

fs_type=`mount|grep -F ' on / '|grep -o -E ' type [a-z0-9]+ '|cut -d' ' -f3`
blkid=`blkid|grep -F ' LABEL="gandiroot" '`
nb_fs_gandiroot=`echo "$blkid"|cut -d: -f2-|uniq -c|tr -s ' '|cut -d' ' -f2`
if [ "$fs_type" != 'ext4' -o ! "$nb_fs_gandiroot" = 2 ]; then
    echo 'It is not possible to convert the disk. There should be two identical devices labeled "gandiroot" formatted in ext4'
    exit 2
fi
fs_gandiroot_ext4=`echo "$blkid"|head -n1|cut -d: -f1`
fs_gandiroot_btrfs=`echo "$blkid"|tail -n1|cut -d: -f1`

echo
echo "Current root filesystem: $fs_gandiroot_ext4 (ext4)"
echo "Future root filesystem: $fs_gandiroot_btrfs (currently ext4, will be btrfs)"

set -v

apt-get update

apt-get install -y btrfs-progs

fsck.ext4 -f "$fs_gandiroot_btrfs"

btrfs-convert -p "$fs_gandiroot_btrfs"

mount "$fs_gandiroot_btrfs" /mnt

btrfs subvolume delete -C /mnt/ext2_saved

btrfs filesystem defragment -r /mnt

btrfs balance start /mnt

new_uuid=`blkid|grep -P "^$fs_gandiroot_btrfs: "|grep -o -P ' UUID="[0-9a-f-]+" '|cut -d'"' -f2`

sed -i -E "s/^UUID=[0-9a-f-]+ *\/ .*$/UUID=$new_uuid \/               btrfs    defaults 0       1/" /mnt/etc/fstab

for i in dev dev/pts proc sys; do mount --bind /$i /mnt/$i; done

chroot /mnt update-grub

for i in dev/pts dev proc sys; do umount /mnt/$i; done

umount /mnt

In Gandi V5 interface, stop the server, detach the old root disk and define the cooked disk as "Use to start".

Launch the server and execute:

df -hT

It should show something like:

/dev/xvda1     btrfs      5G   1.4G   3.5G  28% /

Delete the old root disk.

Scaleway Elastic Metal

Tested on Debian 11.

  1. On the running server, find the name of the partitions with blkid for the root filesystem / and /boot and /boot/efi
  2. Restart in rescue mode
  3. Identify the filesystems on the server in rescue mode with blkid and/or df -hT, for instance
    • /dev/md126 for the root filesystem /
    • /dev/md127 for /boot
    • /dev/sda1 for /boot/efi
  4. apt-get update && apt-get install -y btrfs-progs
  5. btrfs-convert -p /dev/md126
  6. mount /dev/md126 /mnt
  7. btrfs subvolume delete -C /mnt/ext2_saved
  8. btrfs filesystem defragment -r /mnt
  9. btrfs balance start /mnt
  10. blkid and note the UUID of the btrfs filesystem
  11. cp /mnt/etc/fstab /tmp (to temporarily keep a backup if needed)
  12. Edit /mnt/etc/fstab, replace the UUID of the root filesystem by the new UUID, replace the type "ext4" by "btrfs", and replace the options by "defaults"
  13. for i in dev dev/pts proc sys; do mount --bind /$i /mnt/$i; done
  14. mount /dev/md127 /mnt/boot
  15. mount /dev/sda1 /mnt/boot/efi
  16. chroot /mnt update-grub
  17. for i in dev/pts dev proc sys boot/efi boot ""; do umount /mnt/$i; done
  18. Restart in normal mode
  19. Verify that everything works with df -hT
  20. If the server does not restart, restart in rescue mode, remount the new filesystem on /mnt and check:
    1. that /mnt/etc/fstab has the right UUID, type "btrfs", options "defaults"
    2. perhaps chroot /mnt grub-install /dev/md126 or something like that may be needed, after the six filesystems /mnt/dev… were mounted

Troubleshootings

  • During a conversion, the root filesystem was mounted read-only in btrfs; it was probably because I didn’t change the options "rw,noatime,errors=remount-ro" to "defaults"

External links