Difference between revisions of "UEFI Bootloaders"

From ArchWiki
Jump to navigation Jump to search
m (Using gummiboot)
m (Using efibootmgr entry)
Line 225: Line 225:
==== Using efibootmgr entry ====
==== Using efibootmgr entry ====
{{Note|Some UEFI firmwares may not support embedding command line parameters to uefi applications in the boot entries}}
It is possible to directly embed the kernel parameters within the boot entry created by efibootmgr. Do (as root)
It is possible to directly embed the kernel parameters within the boot entry created by efibootmgr. Do (as root)

Revision as of 13:17, 15 September 2012

zh-CN:UEFI Bootloaders This page contains info about various UEFI Bootloaders capable of booting Linux kernel. It is recommended to read the UEFI and GPT pages before reading this page. The following bootloaders (listed in decreasing order of stability) are explained here:

  1. Linux Kernel EFISTUB
  2. GRUB(2)
  3. Fedora's GRUB-Legacy fork
  4. ELILO

Linux Kernel EFISTUB

Linux Kernel >= 3.3 contains a stub which is capable of acting as the kernel's UEFI bootloader (which in a way means the kernel is its own bootloader), thus removing the need for a separate bootloader to launch the kernel (a boot manager might be required though, explained in detail later). This support is called EFI BOOT STUB by upstream or EFISTUB in short. EFISTUB should enabled by setting CONFIG_EFI_STUB=y in Kernel config. The upstream documentation about EFISTUB booting is at https://git.kernel.org/?p=linux/kernel/git/torvalds/linux.git;a=blob_plain;f=Documentation/x86/efi-stub.txt;hb=HEAD . More (unofficial) info is at http://www.rodsbooks.com/efi-bootloaders/efistub.html .

Since the kernel is responsible for booting only itself, a single EFISTUB enabled kernel is not capable of launching other kernels. And each EFISTUB Kernel+Initramfs pair requires a separate boot menu entry. Thus when multiple kernels and/or initramfs files are involved, a UEFI Boot Manager is recommended to manage them.

Setting up EFISTUB

  1. Create an FAT32 UEFI System Partition - Unified_Extensible_Firmware_Interface#Create_an_UEFI_System_Partition_in_Linux
  2. Mount the UEFI System Partition at /boot/efi.
  3. Create /boot/efi/EFI/arch/ directory.
  4. Copy /boot/vmlinuz-linux to /boot/efi/EFI/arch/vmlinuz-arch.efi . The .efi file extension is very important as some UEFI firmwares refuse to launch a file without the .efi file extension.
  5. Copy /boot/initramfs-linux.img to /boot/efi/EFI/arch/initramfs-arch.img.
  6. Copy /boot/initramfs-linux-fallback.img to /boot/efi/EFI/arch/initramfs-arch-fallback.img.
  7. Create /boot/efi/EFI/arch/linux.conf with the kernel parameters to be passed to the kernel (example file shown below). This file should consist of only one line and simply contains all the kernel parameters to be used by the EFISTUB loader to the kernel.
root=/dev/sdaX ro rootfstype=ext4 add_efi_memmap initrd=\EFI\arch\initramfs-arch.img
Note: This config file is not supported by any currently shipping kernel version and is expected to be supported only in kernels >=3.7 .
Note: The kernel and initramfs files at /boot/efi/EFI/arch/ should be updated everytime those files in /boot are updated.
Warning: In Linux Kernel EFISTUB booting, initrd= path should use UEFI-style backslashes (\) and should be relative to the UEFI System Partition's root, not relative to the current directory in the UEFI Shell. An improper initrd= option leads to a system hang without any error message from the firmware or the kernel.

Sync EFISTUB Kernel in UEFISYS partition using Systemd

Systemd init system supports defining tasks that should be performed when certain files/paths are changed. This feature of systemd is used to copy updated EFISTUB kernel and initramfs files when they are update in /boot, like during package updates or during manual run of mkinitcpio etc.

For this create the files as defined below:

Description=Copy EFISTUB Kernel and Initramfs to UEFISYS Partition


Description=Copy EFISTUB Kernel and Initramfs to UEFISYS Partition

ExecStart=/bin/cp -f /boot/vmlinuz-linux /boot/efi/EFI/arch/vmlinuz-arch.efi
ExecStart=/bin/cp -f /boot/initramfs-linux.img /boot/efi/EFI/arch/initramfs-arch.img
ExecStart=/bin/cp -f /boot/initramfs-linux-fallback.img /boot/efi/EFI/arch/initramfs-arch-fallback.img

After creating the files run:

# systemctl enable efistub_copy.path
# systemctl start efistub_copy.path

Sync EFISTUB Kernel in UEFISYS partition using Incron

Incron can also be used to automatically sync the EFISTUB kernel after updates.

First, install the incron package from the Official Repositories.

Next you will need to set up a script to do the actual copying. You can call this script whatever you want, but make sure you use absolute paths in the commands.

File: /usr/local/bin/efistub_copy.sh
/bin/cp -f /boot/vmlinuz-linux /boot/efi/EFI/arch/vmlinuz-arch.efi
/bin/cp -f /boot/initramfs-linux.img /boot/efi/EFI/arch/initramfs-arch.img
/bin/cp -f /boot/initramfs-linux-fallback.img /boot/efi/EFI/arch/initramfs-arch-fallback.img

Specify which file to watch for changes in /etc/incron.d/efistub_copy.conf. The first parameter is the file to watch: /boot/initramfs-linux-fallback.img. The second parameter IN_CLOSE_WRITE is the action to watch for. The third parameter /usr/local/bin/efistub_copy.sh is the script to execute.

File: /etc/incron.d/efistub_copy.conf
/boot/initramfs-linux-fallback.img IN_CLOSE_WRITE /usr/local/bin/efistub_copy.sh

Now just add incrond to the daemon list in /etc/rc.conf and it will automatically start up and copy the new files to the proper place every time the kernel is updated.

Sync EFISTUB Kernel in UEFISYS partition using Mkinitcpio hook

This uses a hook that spawns a background process, which waits for the generation process to finish, then copies the finished kernel and initrd.

This approach doesn't need a system level daemon to function.

File: /usr/lib/initcpio/install/efistub_copy


function get_kernel() {

    for a in ${BASH_ARGV[*]} ; do
      if [[ $next == "1" ]] ; then
          eval "$1='$a'"

      if [[ $a == "-c" ]] ; then


build() {

    get_kernel kernel_name
    bash /root/watch.sh $GENIMG  $kernel_name &

help() {
    cat <<HELPEOF
This hook simply waits for mkinitcpio to finish and copies the finished ramdisk and kernel to UEFI

# vim: set ft=sh ts=4 sw=4 et:

File: /root/watch.sh



EFI_IMAGE="$EFI_DIR/$(basename $2 | sed 's@linux@arch@g')"
EFI_INITRD="$EFI_DIR/$(basename $1 | sed 's@linux@arch@g')"

function do_copy(){
        cp $INITRD $EFI_INITRD
        cp $IMAGE $EFI_IMAGE
        echo "Synced $INITRD to $EFI_DIR"

while [ : ]; do

    if [[ ! -d "/proc/$PPID" ]]; then
        exit 1
    sleep 1


Then simply add efistub_copy to the list of hooks in /etc/mkinitcpio.conf


There are various ways of booting EFISTUB kernels. Those described here are:

  1. Using rEFInd UEFI Boot Manager
  2. Using Gummiboot Boot Manager
  3. Using UEFI Shell
  4. Using efibootmgr entry

Using rEFInd

rEFInd is a fork of rEFIt Boot Manager (used in Intel Macs) by Rod Smith (author is GPT-fdisk). rEFInd fixes many issues in rEFIt with respect to non-Mac UEFI booting and also has support for booting EFISTUB kernels and contains some features specific to them. More info about rEFInd support for EFISTUB is at http://www.rodsbooks.com/refind/linux.html .

There are two ways of installing rEFInd:

  • Using the precompiled binaries provided by upstream at http://sourceforge.net/projects/refind/: If you downloaded the precompiled binaries provided by upstream, then setup rEFInd as follows (/boot/efi is UEFISYS partition mountpoint):
  1. Extract the refind-bin-*.zip file.
  2. Copy refind directory to /boot/efi/EFI/arch/refind
  3. Rename /boot/efi/EFI/arch/refind/refind.conf-sample to /boot/efi/EFI/arch/refind/refind.conf and edit it according to your needs. It is possible define boot entries within refind.conf itself. Follow the example menuentries defined in /boot/efi/EFI/arch/refind/refind.conf to create your own.
Note: The above steps are automatically done in refind-efi-x86_64 and refind-efi-x86_64-gitAUR.

After setting up, create /boot/efi/EFI/arch/refind_linux.conf with the kernel parameters to be used to EFISTUB kernel by rEFInd. An example file is shown below.

"Boot with defaults" "root=/dev/sdaX ro rootfstype=ext4 add_efi_memmap"
"Boot to Terminal"   "root=/dev/sdaX ro rootfstype=ext4 add_efi_memmap 3"

These options are displayed as a submenu by rEFInd. The sub-menu can be accessed by using "+" or "insert" keys.

In non-Mac systems create an entry for rEFInd using efibootmgr.

# efibootmgr -c -g -d /dev/sdX -p Y -w -L "Arch Linux (rEFInd)" -l '\\EFI\\arch\\refind\\refindx64.efi'

"X" is the partition number containing the bootloader.

In case of Apple Macs, try mactel-bootAUR for an experimental "bless" utility for Linux. If that does not work, use "bless" form within OSX to set rEFInd as default bootloader. Assuming UEFISYS partition is mounted at /mnt/efi within OSX, do

$ sudo bless --setBoot --folder /mnt/efi/EFI/refind --file /mnt/efi/EFI/refind/refindx64.efi

Using gummiboot

Gummiboot is a UEFI Boot Manager which provides a nice menu for EFISTUB Kernels. It is a new program and relatively untested compared to rEFInd . It is available in AUR as gummiboot-efi-x86_64AUR and gummiboot-efi-x86_64-gitAUR. See http://freedesktop.org/wiki/Software/gummiboot for more info.

Using UEFI Shell

It is possible to launch EFISTUB kernel form UEFI Shell as if its a normal UEFI application. In this case the kernel parameters are passed as normal parameters to the launched EFISTUB kernel file.

> fs0:
> cd \EFI\arch
> vmlinuz-arch.efi root=/dev/sdaX ro rootfstype=ext4 add_efi_memmap initrd=\EFI\arch\initramfs-arch.img

Using efibootmgr entry

Note: Some UEFI firmwares may not support embedding command line parameters to uefi applications in the boot entries

It is possible to directly embed the kernel parameters within the boot entry created by efibootmgr. Do (as root)

# echo "root=/dev/sdaX ro rootfstype=ext4 add_efi_memmap initrd=\\EFI\\arch\\initramfs-arch.img" | iconv -f ascii -t ucs2 | efibootmgr -c -g -d /dev/sda -p 1 -L "Archlinux (EFISTUB)" -l "\EFI\arch\vmlinuz-arch.efi" -@ -
Note: The trailing hyphen after --append-binary-args or -@ is required to instruct efibootmgr to read the parameters from STDIN (standard input). The code should be --append-binary-args - or -@ - .

More info about efibootmgr at UEFI#efibootmgr. Forum post https://bbs.archlinux.org/viewtopic.php?pid=1090040#p1090040 .

Some firmwares may have trouble with the "initrd path" when piping in ucs-2 as shown above. In this case, one may put vmlinuz-linux.efi and the initramfs in the root of the ESP and adjust the efibootmgr entry accordingly.


GRUB(2) contains its own filesystem drivers and does not rely on the firmware to access the files. It can directly read files from /boot and does not require the kernel and initramfs files to be in the UEFISYS partition. Detailed information at GRUB#UEFI_systems_2. For bzr development version try AUR package - grub-efi-x86_64-bzrAUR.

GRUB Legacy Fedora

GRUB Legacy upstream sources (and the package Archlinux ships) do not support UEFI. However Fedora/Redhat's fork contains UEFI patches provided by Intel. The patched sources are at https://github.com/vathpela/grub-fedora . GRUB-Legacy-Fedora contains its own filesystem drivers (including ext4) and does not rely on the firmware to access the files. Thus it can directly read files form /boot and does not require the kernel and initramfs files to be in the UEFISYS partition. AUR package - grub-legacy-fedora-efi-x86_64-gitAUR (only for x86_64 UEFI).

Note: Fedora developers have mentioned that after the release of Fedora 17, grub-legacy-fedora development will stop and Fedora will be switching to GRUB(2) as the default UEFI bootloader from F18 onwards. Fedora already uses GRUB(2) as its default BIOS bootloader since F16. Users are recommended to switch to EFISTUB or GRUB(2) instead.


ELILO is the UEFI version of LILO Boot Loader. It was originally created for Intel Itanium systems which supported only EFI (precursor to UEFI). It is the oldest UEFI bootloader for Linux. It is still in development but happens at a very slow pace. Upstream provided compiled binaries are available at http://sourceforge.net/projects/elilo/ . Elilo config file elilo.conf is similar to LILO's config file. AUR package - elilo-x86_64AUR (only for x86_64 UEFI).


EFILINUX is a reference implementation of a UEFI Linux bootloader and precursor to Kenrel EFISTUB support. It is considered to be a alpha quality software (as on 16-MAY-2012). Upstream sources are at https://github.com/mfleming/efilinux . and the usage instructions are at http://thread.gmane.org/gmane.linux.kernel/1172645 and http://article.gmane.org/gmane.linux.kernel/1175060 . AUR packages - efilinux-x86_64AUR and efilinux-x86_64-gitAUR (only for x86_64 UEFI).

See also