Windows keeps overriding the UEFI boot order even if I change it with efibootmgr from Ubuntu. However BootNext option is not overridden, that is, I can set BootNext to Ubuntu and it boots into Ubuntu upon rebooting. I, therefore wrote the following script to run every time I boot into Ubuntu :

efibootmgr > file.txt
CURR="$(grep "BootCurrent" file.txt | grep -Eo "[0-9]{4}")"
efibootmgr -n $CURR
rm file.txt
exit 0

This ensures that I can boot into grub when I reboot from Ubuntu. Is there a way to do the same from Windows so that I can boot into grub when rebooting from Windows?


Running bcdedit /v gives (No Ubuntu entry):

Windows Boot Manager
identifier              {9dea862c-5cdd-4e70-acc1-f32b344d4795}
device                  partition=\Device\HarddiskVolume1
path                    \EFI\ubuntu\shimx64.efi
description             Windows Boot Manager
locale                  en-US
inherit                 {7ea2e1ac-2e61-4728-aaa3-896d9d0a9f0e}
default                 {9b4692db-d6e1-11e6-8040-f733056555ec}
resumeobject            {9b4692da-d6e1-11e6-8040-f733056555ec}
displayorder            {9b4692db-d6e1-11e6-8040-f733056555ec}
toolsdisplayorder       {b2721d73-1db4-4c62-bf78-c548a880142d}
timeout                 0

Windows Boot Loader
identifier              {9b4692db-d6e1-11e6-8040-f733056555ec}
device                  partition=C:
path                    \WINDOWS\system32\winload.efi
description             Windows 10
locale                  en-US
inherit                 {6efb52bf-1766-41db-a6b3-0ee5eff72bd7}
recoverysequence        {9b4692dc-d6e1-11e6-8040-f733056555ec}
displaymessageoverride  Recovery
recoveryenabled         Yes
isolatedcontext         Yes
allowedinmemorysettings 0x15000075
osdevice                partition=C:
systemroot              \WINDOWS
resumeobject            {9b4692da-d6e1-11e6-8040-f733056555ec}
nx                      OptIn
bootmenupolicy          Standard
  • I can't seem to be able to find an Ubuntu entry in BCDedit. @wOxxOm please take a look at the EDIT. Jul 5, 2017 at 7:36
  • I was wrong: Windows boot manager runs after UEFI, of course.
    – wOxxOm
    Jul 5, 2017 at 7:39
  • 1
    EasyUEFI supports one-time boot sequence and CLI. Maybe you can find pure CLI utilities.
    – wOxxOm
    Jul 5, 2017 at 8:39
  • Thanks for the input @wOxxOm. However, CLI is only available with the paid version. I'd rather not spend $30 to fix this. Jul 6, 2017 at 11:52
  • I am looking for this too.
    – Mike Wise
    Feb 3, 2018 at 22:28

3 Answers 3


On Windows you can use "bcdedit /enum firmware" to list all firmware applications, then "bcdedit /set {fwbootmgr} bootsequence {xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx}" to set BootNext option.

  • 1
    bcdedit changes the Windows loader, while efibootmgr in fact modifies UEFI. Windows loader may refuse to load what UEFI will happily do.
    – facetus
    May 19, 2020 at 7:10

Don't you have to create UBuntu loader similar to {9b4692db-d6e1-11e6-8040-f733056555ec}?

Basically the ubuntu node should be changed from boot manager to boot loader app. Then have a boot manager at EFI\Boot\bootx64.efi.
Create a {bootmgr} node for boot manager. Set its displayorder to include both the guids above. Then set the default value for {bootmgr} to ubuntu guid. That should make ubuntu item sticky across reboots.


In my answer I will be refering to (U)EFI—the (Unified) Extensible Firmware Interface—simply as EFI.

Also, for all the commands an elevated command prompt should be used, i.e. run cmd.exe (not PowerShell!) with administrator rights!

I was just looking for the same thing. I had the (temporary) problem that Linux couldn't access/change EFI NVRAM, including the boot sequence. (Which I eventually resolved.) During this time I looked into the Windows way of doing this, and found that bcdedit actually does have the same set of functions, including a) creating a new EFI boot menu entry and b) changing the EFI boot sequence.

If a Linux boot loader is already configured, the sequence can be changed with bcdedit /enum firmware should list it. Imporant is only the GUID of the boot loader object listed with the Linux boot loader, i.e. a string looking like {01234567-89AB-CDEF-0123-456789ABCDEF}, and replace {<GUID>} in the following examples with your actual GUID.

Any firmware boot loader can be set as the default EFI boot option with bcdedit /set {fwbootmgr} default {<GUID>}.

To set a EFI boot loader entry as the first boot item in the list, bcdedit /set {fwbootmgr} displayorder {<GUID>} /addfirst can be used.

Problematic is when you don't have a EFI boot loader entry for the Linux boot loader (maybe it got deleted somehow, or it wasn't set during installation). Important is only that the Linux boot loader is already configured, because that is something that has to be done in Linux. The standard nowadays is GRUB (the GRand Unified Bootloader, version 2). On EFI systems it should be installed on the ESP (EFI System Partition) in \EFI\<Distribution>\<bootloader>.efi or similar. E.g. for Ubuntu it would be \EFI\Ubuntu\grubx64.efi. For Arch Linux it could be \EFI\arch\grubx64.efi or \EFI\GRUB\grubx64.efi for x86-64 systems (and \EFI\arch\grub.efi or \EFI\GRUB\grub.efi for x86-32).

To find out which EFI boot loaders there are, the ESP has to be mounted on Windows first, which can be done with diskpart.

DISKPART> select disk 0
DISKPART> list volume

  Volume ###  Ltr  Label   Fs     Type        Size     Status     Info
  ----------  ---  ------  -----  ----------  -------  ---------  ------
  Volume 2                 FAT32  Partition    200 MB  Healthy    System

DISKPART> select volume 2
DISKPART> assign letter=S

The above assumes that a) the ESP, shown as System under the Info column, is volume 2 (replace it with the actual volume #), and that b) drive letter S is still available (unused) up to this moment, otherwise use any other free drive letter (from A to Z).

The ESP is now accessible as the assigned drive, in the example S:. Look at this drive to see if there are any EFI boot loaders under \EFI... This can be done e.g. using the Windows Explorer, or while still in an elevated command prompt:

dir /s /q

Note that this drive letter assignment is not permanent, i.e. after a Windows reboot the ESP will no longer be mounted, which is as it should be.

Now bcdedit can be used to add an EFI boot loader to the EFI boot menu, and set it as the new default, as follows (change paths and GUIDs accordingly):

bcdedit /set {bootmgr} path \efi\grub\grubx64.efi
bcdedit /enum {bootmgr}
bcdedit /set {fwbootmgr} displayorder {<GUID>} /addfirst
bcdedit /set {fwbootmgr} default {<GUID>}

Note that changing the displayorder is entirely optional!

All these commands only work with cmd.exe, as with PowerShell (which would also have to be an elevated shell, i.e. "run as administrator") additional quotes are required:

bcdedit /set '{bootmgr}' path \efi\grub\grubx64.efi
bcdedit /enum '{bootmgr}'
bcdedit /set '{fwbootmgr}' displayorder '{<GUID>}' /addfirst
bcdedit /set '{fwbootmgr}' default '{<GUID>}'

This worked for me, as it set the Linux EFI boot loader as the default from within Windows 10, permanently. IMHO bcdedit is the equivalent of efibootmgr on Windows, only with the additional layer of (in this case absolutely unnecessary) random GUIDs to refer to the individual EFI boot loaders...

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