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Switch Debian from legacy to UEFI boot mode

This note explains how to switch a legacy boot Debian/Ubuntu system into a UEFI boot system. Typical use case:

  • switch a legacy boot installation into an UEFI one,

  • reinstall a broken UEFI boot loader on Debian 7, Debian 8, Debian 9 or Debian 10.

Note
This manual has been tested on Debian 7 Wheezy, Debian 8 Jessie, Debian 9 Stretch and Debian 10 Buster.

Please help to keep this manual up to date. It is hosted on GitLab. There you can file issues and pull requests.

Before you start
  1. Download and burn A recent Debian live CD or DVD

  2. Download and burn A Debian installation disk with rescue mode

  3. Back up your data!

1. Modify the hard-disk partitions

1.1. Boot a Debian live system

  1. Enable UEFI in BIOS.

  2. Boot a recent Debian live system on USB or DVD.

1.2. Identify Debian’s “/boot” partition

My legacy boot system had a 243 MiB ext2 partition mounted on /boot. This partition is never encrypted. It is where the grub files and Linux kernels reside. Check by double clicking on the partition icon on the live-disk-desktop and have a look inside.

# ls -l
total 21399
-rw-r--r-- 1 root root   155429 Sep 28 00:59 config-3.16-0.bpo.2-amd64
drwxr-xr-x 3 root root     7168 Nov  5 08:03 grub
-rw-r--r-- 1 root root 15946275 Nov  5 16:28 initrd.img-3.16-0.bpo.2-amd64
drwx------ 2 root root    12288 Nov 24  2012 lost+found
-rw-r--r-- 1 root root  2664392 Sep 28 00:59 System.map-3.16-0.bpo.2-amd64
-rw-r--r-- 1 root root  3126096 Sep 28 00:48 vmlinuz-3.16-0.bpo.2-amd64
# df -h
Filesystem             Size  Used Avail Use% Mounted on
...
/dev/sdb1              234M   28M  206M  13% /boot

As you can see in the following partition table of the Debian legacy boot system my /boot partition is number 1 (/dev/sdb1). On newer systems, SSD-disks might be listed as /dev/nvme0n1p1, where p1 designates the first partition.

Warning
Although 1 is the default value for standard debian installations better check!
Note
The live system has identified this partition as /dev/sdb. The debian system on your hard-disk could reference it differently.
Partition table of the Debian legacy boot system
# fdisk -l /dev/sdb

Device      Boot   Start    End         Blocks    Id  System
/dev/sdb1   *      2048     499711      44032     7   HPFS/NTFS/exFAT
/dev/sdb5          501760   976771071   488134656 83  Linux

In legacy boot mode the /boot partition must have the boot-flag (*) set. This confirms our assumption: the /boot filesystem is on: /dev/sdb1.

# gdisk -l /dev/sdb
GPT fdisk (gdisk) version 0.8.5

Partition table scan:
  MBR: MBR only
  BSD: not present
  APM: not present
  GPT: not present
...
Number  Start (sector)    End (sector)  Size       Code  Name
   1            2048          499711   243.0 MiB   8300  Linux filesystem
   5          501760       976771071   238.2 GiB   8300  Linux filesystem

1.3. Create a GPT partition table

Transform the partition table from MBR to GPT with

  #gdisk /dev/sdb

  r       recovery and transformation options (experts only)
  f       load MBR and build fresh GPT from it

1.4. Create an UEFI partition

A good graphical tool is the Gnome Partition Editor gparted:

# gparted /dev/sdb
  1. Shrink the /boot partition to 200 MB in order to free 43 MB (see partition 1 below).

  2. Create a new 43 MB partition for efi using gparted with partition code EF00 (EFI system) [1] and flag it bootable. Format the partition with a fat32 [2] filesystem (see partition 2 below).

  3. Grub2 needs additionally a not formatted 1 MB partition to store its stage two files [3]. The partition is referred to as core.img [4]. 1 MB is more than enough. Tag the partition as type EF02 [5].

Leave the other partitions untouched (see partition 5 below).

Here the result:

Partition table of the Debian UEFI boot system
# gdisk -l /dev/sdb
GPT fdisk (gdisk) version 0.8.5

Partition table scan:
  MBR: protective
  BSD: not present
  APM: not present
  GPT: present

Found valid GPT with protective MBR; using GPT.
Disk /dev/sdb: 976773168 sectors, 465.8 GiB

...

Number Start (sector) End (sector)  Size       Code  Name
   1           2048       411647   200.0 MiB   8300  Linux filesystem
   2         411648       499711  43.0 MiB     EF00  Efi partition
   3         499712       501759  1024.0 KiB   EF02  BIOS boot partition
   5         501760    976771071   465.5 GiB   8300  Linux filesystem

If you haven’t changed the partition code to EF00 (or EF02) you can do it now within gdisk with the command t, followed by the partition number 2 (or 3) and the partition code EF00 (or EF02). Write the changes to disk and exit with the command w.

2. Mount the Debian filesystem

Note
The recovery mode of the Debian >= 9 Stretch installer disk automates all following subsections in this section. Try this first.
  1. Reboot and enable UEFI in BIOS.

  2. Insert a Debian installation disk.

  3. Reboot again into the Debian installer disk and select Advanced options → Rescue mode

  4. Configure keyboard, hostname, domain and network.

  5. Unlock encrypted hard-disks.

  6. Chose device to use as root system, e.g. /dev/koobue1-vg/root (for hostname koobue1, yours is different).

  7. Answer: Mount separate /boot partition? with yes.

  8. Choose Execute a shell in /dev/koobue1-vg/root.

  9. Jump directly to section Update Debian’s /etc/fstab hereafter in this manual.

If the above does not work work for you, follow the rest of this section.

The next step differs whether the root-filesystem is encrypted or not.

2.1. Mount a non-encrypted “root”-filesystem

  1. Mount the / (root) filesystem.

    • For non-encrypted root filesystems a simple mount will do.

      # mount -t ext4 /dev/sdb5 /mnt

2.2. Mount an encrypted “root”-filesystem

  • For encrypted root file systems the mounting procedure can be a little tricky especially when the root filesystem resides inside a logical volume which is encrypted. This section shows how to mount and unmount an encrypted root-filesystem.

2.2.1. Find the device and partition of the to be mounted logical volume

  1. Connect the disk with host-system and observe the kernel messages in /var/log/syslog

     root@host-system:~# tail -f /var/log/syslog
     sd 3:0:0:0: [sdb] 976773168 512-byte logical blocks: (500 GB/465 GiB)
     sd 3:0:0:0: [sdb] Write Protect is of manually.
     sd 3:0:0:0: [sdb] Mode Sense: 43 00 00 00
     sd 3:0:0:0: [sdb] Write cache: enabled, read cache: enabled, doesn't support DPO or FUA
      sdb: sdb1 sdb2 sdb3 sdb5
     sd 3:0:0:0: [sdb] Attached SCSI disk

    The to be mounted device is /dev/sdb.

  2. Find the partition

    root@host-system:~# gdisk -l /dev/sdb
    GPT fdisk (gdisk) version 0.8.5
    ...
    Number Start (sector) End (sector)  Size       Code  Name
       1           2048       411647   200.0 MiB   8300  Linux filesystem
       2         411648       494821   43.0 MiB    0700
       3         494822       501759   1024.0 KiB  8300  Linux filesystem
       5         501760    976771071   465.5 GiB   8300  Linux filesystem

    The to be mounted logical volume of disk-system resides on /dev/sdb5.

2.2.2. Mount encrypted logical volume

  1. Open decryption layer.

    root@host-system:~# lvscan
      ACTIVE            '/dev/host-system/root' [231.03 GiB] inherit
      ACTIVE            '/dev/host-system/swap_1' [7.20 GiB] inherit

    Logical volume is not registered yet. Do so.

    root@host-system:~# cryptsetup luksOpen /dev/sdb5 sdb5_crypt
    Enter passphrase for /dev/sdb5:

    Enter disk password.

    root@host-system:~# lvscan
      inactive          '/dev/disk-system/root' [457.74 GiB] inherit
      inactive          '/dev/disk-system/swap_1' [7.78 GiB] inherit
      ACTIVE            '/dev/host-system/root' [231.03 GiB] inherit
      ACTIVE            '/dev/host-system/swap_1' [7.20 GiB] inherit

    Logical volume of disk-system`is registered now. It contains one `root partition (line 1) and one swap partition (line 2).

  2. Activate logical volumes

    root@host-system:~# lvchange -a y disk-system

    Check success.

    root@host-system:~# lvscan
      ACTIVE            '/dev/disk-system/root' [457.74 GiB] inherit
      ACTIVE            '/dev/disk-system/swap_1' [7.78 GiB] inherit
      ACTIVE            '/dev/host-system/root' [231.03 GiB] inherit
      ACTIVE            '/dev/host-system/swap_1' [7.20 GiB] inherit
    
    root@host-system:~# ls /dev/mapper
    control  disksystem-root  disksystem-swap_1  hostsystem-root  hostsystem-swap_1  mymapper  sdb5_crypt
  3. Mount logical volume

    root@host-system:~# mount -t ext4 /dev/mapper/disksystem-root /mnt

    Check success.

    root@host-system:~# ls /mnt
    bin  etc    initrd.img.old lib64      mnt  proc sbin    sys var
    boot home        lib       lost+found mnt2 root selinux tmp vmlinuz
    dev  initrd.img  lib32     media      opt  run  srv     usr vmlinuz.old

2.2.3. Unmount encrypted logical volume

This subsection is only for completeness. Skip it.

root@host-system:~# umount /mnt

root@host-system:~# lvscan
  ACTIVE            '/dev/disk-system/root' [457.74 GiB] inherit
  ACTIVE            '/dev/disk-system/swap_1' [7.78 GiB] inherit
  ACTIVE            '/dev/host-system/root' [231.03 GiB] inherit
  ACTIVE            '/dev/host-system/swap_1' [7.20 GiB] inherit

root@host-system:~# lvchange -a n disk-system
root@host-system:~# lvscan
  inactive          '/dev/disk-system/root' [457.74 GiB] inherit
  inactive          '/dev/disk-system/swap_1' [7.78 GiB] inherit
  ACTIVE            '/dev/host-system/root' [231.03 GiB] inherit
  ACTIVE            '/dev/host-system/swap_1' [7.20 GiB] inherit

root@host-system:~# cryptsetup luksClose sdb5_crypt
root@host-system:~# lvscan
  ACTIVE            '/dev/host-system/root' [231.03 GiB] inherit
  ACTIVE            '/dev/host-system/swap_1' [7.20 GiB] inherit

2.3. Mount the remaining filesystems

Either this way…​

# mount /dev/sdb1 /mnt/boot
# mkdir /mnt/boot/efi
# mount /dev/sdb2 /mnt/boot/efi
# for i in /dev/ /dev/pts /proc /sys ; do mount -B $i /mnt/$i ; done

or this way, both commands do the same…​

# mount /dev/sdb1 /mnt/boot
# mkdir /mnt/boot/efi
# mount /dev/sdb2 /mnt/boot/efi
# mount --bind /sys /mnt/sys
# mount --bind /proc /mnt/proc
# mount --bind /dev /mnt/dev
# mount --bind /dev/pts /mnt/dev/pts
Internet access

For internet access inside chroot:

# cp /etc/resolv.conf /mnt/etc/resolv.conf

3. Inside the “chroot” environment

3.1. Execute a shell in a “chroot” environment

Enter with:

# chroot /mnt

3.2. Update Debian’s “/etc/fstab”

Update the entries in /etc/fstab to reflect the partition changes above. We need to add the new 43.0 MiB EF00 Efi partition:

# ls /dev/disk/by-uuid

040cdd12-8e45-48bd-822e-7b73ef9fa09f
19F0-4372

The UUID we are looking for is the only short 8-hex-digit ID, here: 19F0-4372.

We add one line in /etc/fstab to mount the new partition persistently:

# echo "UUID=19F0-4372 /boot/efi vfat defaults 0 2" >> /etc/fstab

Check last line in /etc/fstab.

# cat /etc/fstab
# <file system> <mount point>  <type> <options>       <dump>  <pass>
/dev/mapper/koobue1-root /     ext4   errors=remount-ro 0       1
# /boot was on /dev/sdb1 during installation
UUID=040cdd12-8e45-48bd-822e-7b73ef9fa09f  /boot   ext2  defaults 0  2
/dev/mapper/koobue1-swap_1 none swap   sw              0       0
/dev/sr0        /media/cdrom0  udf,iso9660 user,noauto 0       0
#Jens: tmpfs added for SSD
tmpfs           /tmp           tmpfs  defaults,nodev,nosuid,size=500m 0 0
tmpfs           /var/lock      tmpfs  defaults,nodev,nosuid,noexec,mode=1777,size=100m 0 0
tmpfs           /var/run       tmpfs  defaults,nodev,nosuid,noexec,mode=0775,size=100m 0 0
UUID=19F0-4372  /boot/efi     vfat  defaults         0       2
Tip
I use /dev/mapper for the encrypted file system and tmpfs because I have an SSD disk.

3.3. Mount remaining disks

# cat /etc/fstab

for not yet mounted entries and mount them manually e.g.

# mount /tmp
# mount /run
# mount /var/lock
...

3.4. Install grub-efi

# apt-get remove grub-pc
# apt-get install grub-efi
# grub-install /dev/sdb

Check presence of the efi file:

# file /boot/efi/EFI/debian/grubx64.efi
/boot/efi/EFI/debian/grubx64.efi: PE32+ executable (EFI application) x86-64 (stripped to external PDB), for MS Windows

A Debian entry should be listed here:

# efibootmgr
BootCurrent: 0000
Timeout: 0 seconds
BootOrder: 0000,2001,2002,2003
Boot0000* debian
Boot2001* EFI USB Device
Boot2002* EFI DVD/CDROM
Boot2003* EFI Network

Exit chroot environment.

exit

Reboot the system.

4. Validate the Debian bootloader in UEFI Bios

Important
From Debian 10 Buster on, the following should not be required any more. Skip it! More information can be found in this article about SecureBoot.

The BIOS will not accept the bootloader by default, because /EFI/debian/grubx64.efi is not the default path and because the file has no Microsoft signature.

This is why grubx64.efi has to be validated manually in the UEFI BIOS setup. In my InsydeH20 BIOS I selected:

Security  Select an UEFI file as trusted  Enter

Then browse to

/EFI/debian/grubx64.efi

in order to insert the grub boot loader in the trusted bootloader BIOS database.

Note
On my Acer E3-111 the BIOS menu entry was disabled by default. To enable it I had to define first a supervisor password.
Security  Set Supervisor Password  Enter

5. References

Tanguy

Tanguy: Debian: switch to UEFI boot. http://tanguy.ortolo.eu/blog/article51/debian-efi. April 2012.

Vulcan

Vulcan, Silviu: Linux on the Acer E3-111 – Aspire E3-111-C5FN. http://www.sgvulcan.com/linux-on-the-acer-e3-111-aspire-e3-111-c5fn/ . 09/2014.


1. You can change the partition code later
2. fat32=vfat in /etc/fstab
3. If you do not have an EF02 partition, Grub2 tries to find unallocated space between your partitions for its stage tow code. Since the space is unallocated in the GPT table, you may have a problem later on when you decide to adjust any partition boundaries. Omitting this step the following error message may occur: GPT detected. Please create a BIOS-Boot partition (>1 MB, unformatted filesystem, bios_grub flag). This can be performed via tools such as Gparted. Then try again.

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