GRUB2

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GRUB2 (GRand Unified Bootloader versão 2) É o substituto do original GRUB, referido como "GRUB Legacy". O GRUB2 possui uma base de código completamente separada do GRUB Legacy e apresenta uma nova sintaxe tipo shell para capacidades de scripts avançados.

Para uma abordagem rápida, veja GRUB2 Quick Start.

Se estiver migrando do GRUB Legacy para o GRUB2, consulte GRUB2 Migration.

Instalação

O pacote sys-boot/grub is slotted. Ambos grub-0.97 (GRUB Legacy) e grub-2.02 podem ser instalados ao mesmo tempo; No entanto, apenas uma versão de cada vez pode ser instalada no Master Boot Record (MBR) de um disco rígido.

Pré-requisitos

Por padrão, o GRUB2 adivinhará um destino de plataforma padrão no momento da compilação. Isso pode ser substituído com a variável GRUB_PLATFORMS em make.conf.

FILE /etc/portage/make.confExemplo de configuração da variável GRUB_PLATFORMS para plataformas EMU, EFI, e PC
GRUB_PLATFORMS="emu efi-32 efi-64 pc"

As seguintes plataformas são suportadas dependendo da CPU de destino:

Target
Platform i386 ia64 mips mipsel powerpc spac64 x86_64
arc No No No Yes No No No
coreboot Yes No No No No No 32-bit
efi Yes Yes No No No No Yes
emu Yes Yes Yes Yes Yes Yes Yes
ieee1275 Yes No No No Yes Yes 32-bit
loongson No No No Yes No No No
multiboot Yes No No No No No 32-bit
qemu Yes No No No No No 32-bit
qemu-mips No No Yes No No No No
pc Yes No No No No No 32-bit
Note
Sempre que as variáveis GRUB_PLATFORMS são ajustadas, o GRUB2 precisará ser recompilado para construir o binário alterado. Certifique-se de utilizar as opções --newuse --deep como mostrado na seção emerge abaixo.

Os perfis amd64 permitem suporte para funcionalidade EFI por padrão. Ao usar um sistema baseado em BIOS, defina em GRUB_PLATFORMS: "emu" para evitar dependências desnecessárias.

USE flags

USE flags for sys-boot/grub GNU GRUB boot loader

debug Enable extra debug codepaths, like asserts and extra output. If you want to get meaningful backtraces see https://wiki.gentoo.org/wiki/Project:Quality_Assurance/Backtraces global
device-mapper Enable support for device-mapper from sys-fs/lvm2 local
doc Add extra documentation (API, Javadoc, etc). It is recommended to enable per package instead of globally global
efiemu Build and install the efiemu runtimes local
fonts Build and install fonts for the gfxterm module local
libzfs Enable support for sys-fs/zfs local
mount Build and install the grub-mount utility local
multislot Allow concurrent installation of sys-boot/grub SLOT 0 and sys-boot/grub SLOT 2 by renaming all programs. local
nls Add Native Language Support (using gettext - GNU locale utilities) global
sdl Add support for Simple Direct Layer (media library) global
static !!do not set this during bootstrap!! Causes binaries to be statically linked instead of dynamically global
test Workaround to pull in packages needed to run with FEATURES=test. Portage-2.1.2 handles this internally, so don't set it in make.conf/package.use anymore global
themes Build and install GRUB themes (starfield) local
truetype Build and install grub-mkfont conversion utility local

Emerge

Para instalar o GRUB2 utilize a sintaxe emerge normalmente:

root #emerge --ask --newuse --deep sys-boot/grub:2

Softwares Adicionais

Opcionalmente, instale o utilitário os-prober (fornecido através do pacote sys-boot/os-prober ) já possuindo o GRUB2. Para outros sistemas operacionais, execute o comando grub-mkconfig. Na maioria dos casos, isso permitirá que o GRUB2 detecte automaticamente outros sistemas operacionais, incluindo o Windows 7, 8.1, 10, outras distribuições Linux, etc.

root #emerge --ask --newuse sys-boot/os-prober

O GRUB2 (e opcionalmente sys-boot/os-prober) instalado não ativa automaticamente o gerenciador de inicialização. Estes apenas instalam o software no sistema operativo, mas para instalar o gerenciador de inicialização no próprio sistema (para que seja utilizado quando inicia o sistema), é necessário tomar medidas adicionais, que está na seção de Configuração.

Configuração

Há dois aspectos importantes para a configuração do GRUB2:

  1. Instalação do software GRUB2 como gerenciador de inicialização do sistema.
  2. Configuração do gerenciador de inicialização GRUB2.

The installation of GRUB2 software is specific to the type of system, and is covered in Installing the boot loader. First we cover the configuration of the boot loader itself.

Main configuration file

The grub-mkconfig script is used to generate a grub configuration. It uses the scripts under /etc/grub.d/* together with the /etc/default/grub configuration file to generate the final /boot/grub/grub.cfg - the only configuration file used by GRUB2 itself.

File Format Edits recommended? Description
/usr/sbin/grub-mkconfig POSIX shell script No Installed as part of the sys-boot/grub:2 package. Run this script to generate /boot/grub/grub.cfg after configuring the files described below.
/boot/grub/grub.cfg GRUB2 shell script No The file generated by grub-mkconfig. This file is evaluated by GRUB2's built-in script interpreter and doesn't necessarily support all POSIX commands or syntax. See the scripting reference in the GRUB manual for supported features. Be aware that modifications to this file won't persist to the next time grub-mkconfig is run.
/etc/grub.d/* POSIX shell scripts Maybe Each script under /etc/grub.d/* that has its execute bit set is evaluated in sequence, and the stdout is concatenated to form the final /boot/grub/grub.cfg (or whatever file is given to the grub-mkconfig -o option). These scripts use the current system shell and therefore can use any supported syntax. Ideally they should be POSIX-compatible scripts, and the output script must be compatible with the GRUB2 interpreter. It may be necessary to disable or add scripts. For instance, to add menu items that couldn't be automatically generated.
/boot/grub/custom.cfg GRUB2 shell script Maybe The /etc/grub.d/41_custom script will reference this file to be read in at boot time if it exists. This file provides a place to add additional entries or commands and does not require regeneration of the main grub.cfg file.
/etc/default/grub POSIX shell script Yes In most cases this is the only file that should be modified directly. It is mainly used to assign variables used by the scripts in /etc/grub.d to generate a working configuration file. See GRUB2 configuration variables or the official reference for supported variables.

GRUB2 does not require the administrator to manually maintain a boot option configuration (as is the case with boot loaders such as GRUB Legacy and LILO). Instead it can generate its configuration file (/boot/grub/grub.cfg) using the grub-mkconfig command. This utility will use the scripts in /etc/grub.d/ and the settings in /etc/default/grub.

Warning
The grub-mkconfig utility does not work properly when using software RAID. Manual configuration of the scripts in /etc/grub.d/ is necessary, as otherwise after installation the system will be left in a non-bootable state.

After modifying one or more settings, run the grub-mkconfig utility with the -o option pointing to the output file located at /boot/grub/grub.cfg (this is GRUB2's default output location):

root #grub-mkconfig -o /boot/grub/grub.cfg
Generating grub.cfg ...
Found linux image: /boot/vmlinuz-3.3.0-gentoo
done

Each time the grub-mkconfig utility is called a new configuration will be generated.

Warning
If grub-mkconfig does not report any found entries then no entries were found. In this case GRUB2 will offer no boot selections when upon system restart which may be a tricky, time consuming situation to resolve. Make sure the output is satisfactory before restarting the system.

Setting configuration parameters

The following variables in /etc/default/grub are the most common ones to set to control how GRUB2 will function:

Variable Explanation Default value
GRUB_DEFAULT Defines the default menu entry selected on boot. May be a numeric index, a menu title, or "saved". Defaults to first detected entry.
GRUB_TIMEOUT Delay (in seconds) before booting default menu entry. Set to 0 to boot immediately or -1 to wait indefinitely. The default is 5 seconds.
GRUB_CMDLINE_LINUX Parameters to be passed on the kernel command line for all Linux menu entries. For instance, to support hibernation, users will need to add GRUB_CMDLINE_LINUX="resume=/dev/sdXY" with /dev/sdXY being the swap partition.
GRUB_CMDLINE_LINUX_DEFAULT Parameters to be passed on the kernel command line for non-recovery Linux menu entries.
GRUB_DEVICE The initial root device (i.e. the kernel's root= parameter). Set this to override the grub-mkconfig command's root device auto-detection. For example, GRUB_DEVICE=/dev/ram0 will force root=/dev/ram0 to be used in the kernel command line.

For a more complete list, please refer to the GRUB2 configuration variables sub-page.

After modifying the parameters, regenerate the GRUB2 configuration file with grub-mkconfig.

Enabling or disabling configuration scripts

The directory /etc/grub.d/ contains the scripts that grub-mkconfig uses to generate a grub.cfg file. By default the contents of this directory should be similar to the following:

user $ls /etc/grub.d/
00_header  10_linux  20_linux_xen  30_os-prober  40_custom  41_custom README

GRUB2 will use all installed scripts that are marked as executable (which by default, they all are). To disable any of the scripts simply remove the executable bit from the script's file permissions using the chmod command. In the following example every script but 00_header and 10_linux are disabled:

root #chmod -x /etc/grub.d/{20_linux_xen,30_os-prober,40_custom,41_custom}

After modifying the scripts (or removing the executable bit), regenerate the GRUB2 configuration file using grub-mkconfig.

Manipulating configuration scripts

Some features or GRUB2 functionalities are only possible to be exploited by modifying the configuration scripts. For instance, to support dual-booting with FreeBSD, the following manipulation needs to be done.

Change the /etc/grub.d/40_custom script to:

FILE /etc/grub.d/40_customAdding an entry for dual booting
menuentry "FreeBSD" --class freebsd --class bsd --class os {
 insmod ufs2
 insmod bsd
 set root=(hd0,1)
 kfreebsd /boot/kernel/kernel
 kfreebsd_loadenv /boot/device.hints
 set kFreeBSD.vfs.root.mountfrom=ufs:/dev/ada0s1a
 set kFreeBSD.vfs.root.mountfrom.options=rw
 set kFreeBSD.hw.psm.synaptics_support=1
}

/dev/sda1 or (hd0,1) is the partition in which FreeBSD resides. If the normal UFS install was used for the FreeBSD partition then /dev/sda1 is a container (something like a logical partition). It consists of the swap and root partition. Verify the 40_custom script is executable by running ls -la /etc/grub.d/40_custom. If the executable bit is not set then set it using the chmod u+x 40_custom command.

Note
Users familiar with how GRUB Legacy numbered partitions should note that GRUB2 numbers partitions starting from 1, not 0.

Next install GRUB2 using the grub-install command and update GRUB2's configuration file:

root #grub-install /dev/sda
root #grub-mkconfig -o /boot/grub/grub.cfg

Installing the boot loader

Installing GRUB2 as the system's boot loader depends on how the system is meant to boot (through BIOS or UEFI) and how the disk on which the boot loader should be installed is partitioned (using MBR or GPT partition layout).

This article covers the following situations:

Select the installation instructions appropriate for the system.

BIOS with MBR

Note
When the system is meant to dual-boot with Microsoft Windows, make sure that the system itself does not have an UEFI firmware. Even when such systems are booted in 'legacy BIOS' mode, Microsoft Windows will refuse to boot.

Make sure that the /boot location is available - if this uses a separate partition, make sure that it is mounted:

root #mount /boot

Run the grub-install command to copy the relevant files to /boot/grub. On the PC platform, this also installs a boot image to the Master Boot Record (MBR) or a partition's boot sector. If all goes well, after running grub-install an output such as the one below is to be expected:

root #grub-install /dev/sda
Installation finished. No error reported.

grub-install accepts a --target option to set the CPU architecture and system platform. If unspecified, grub-install will attempt to guess the proper values; on an amd64/x86 system it will use i386-pc by default. grub-install also accepts a --boot-directory option to tell the GRUB2 installer which directory to look for GRUB2's boot files. This defaults to the current /boot but is useful when trying to move a root partition.

Partitioning for BIOS with MBR

Be sure to leave enough free space before the first partition. Starting the first partition at sector 2048 leaves at least 1 MiB of disk space for the master boot record. It is recommended (but not mandatory) to create an additional partition for GRUB called the BIOS boot partition. This partition just needs to be defined, but not formatted. It is only needed if the system is later migrated to the GPT partition layout. When sticking with MBR, this is not needed.


If the Gentoo installation instructions were followed, this BIOS boot partition will already be available.

BIOS with GPT

Note
When the system is meant to dual-boot with Microsoft Windows, make sure that the system itself does not have an UEFI firmware. Even when such systems are booted in 'legacy BIOS' mode, Microsoft Windows will refuse to boot. Also, older Microsoft Windows systems might not support GPT. It is possible to use a hybrid MBR-GPT approach; see Hybrid partition table.

If a /boot partition is needed, start by mounting the /boot partition:

root #mount /boot

If all goes well, after running the grub-install command an output such as the one below is to be expected:

root #grub-install /dev/sda
Installation finished. No error reported.

grub-install accepts a --target option to set the CPU architecture and system platform. If unspecified, grub-install will attempt to guess the correct values; on an amd64/x86 system it will use i386-pc by default. grub-install also accepts a --boot-directory option to tell the GRUB2 installer which directory to look in for GRUB2's boot files. This defaults to the current /boot but is useful when trying to move a root partition.

Partitioning for BIOS with GPT

When a GPT partition table is present on the system, a small BIOS boot partition with type EF02 (which is different from the EFI System Partition (ESP) which has type EF00) will need to be available. 1 MiB will be enough to work, but 2-4 MiB is a safer option. This BIOS boot partition will hold the stage 2 of the bootloader. BIOS boot partitions do not need to be formatted with a filesystem; the grub-install command will overwrite any existing filesystem with one of its own.

Important
The BIOS boot partition is not the same partition that is commonly mounted at /boot. The /boot and BIOS boot are different partitions and should be handled separately. The BIOS boot partition should not be regularly mounted on the system (i.e., it should not be defined in /etc/fstab). The /boot partition can be regularly mounted with no issues and therefore can be present in the /etc/fstab file.

To set a partition as a BIOS partition use the command-line tool parted (sys-block/parted) by typing (change 1 to the number of the partition to mark as a BIOS boot partition!):

(parted)set 1 bios_grub on

With sys-apps/gptfdisk's cgdisk utility, this is accomplished by setting the partition type to 0xEF02 and giving it a label of gptbios.

An EFI System Partition is not required, but it would be sensible to make sure that the BIOS boot partition is large enough to be converted to one, should the system motherboard later be upgraded to an UEFI board.

The following is the output of pressing the p key using the gdisk utility on a GPT-partitioned disk with both a BIOS boot [0xEF02] partition and an EFI [0xEF00] partition:

root #gdisk /dev/sdc
GPT fdisk (gdisk) version 0.8.1
 
Partition table scan:
  MBR: protective
  BSD: not present
  APM: not present
  GPT: present
 
Found valid GPT with protective MBR; using GPT.
 
Command (? for help): p
Disk /dev/sdc: 976773168 sectors, 465.8 GiB
Logical sector size: 512 bytes
Disk identifier (GUID): AA369F4D-37A4-4C0D-A357-DC24B99A6337
Partition table holds up to 128 entries
First usable sector is 34, last usable sector is 976773134
Partitions will be aligned on 2048-sector boundaries
Total free space is 2014 sectors (1007.0 KiB)
 
Number  Start (sector)    End (sector)  Size       Code  Name
   1            2048       828377087   395.0 GiB   8E00  Linux LVM
   2       828377088       891291647   30.0 GiB    0700  Microsoft basic data
   3       891291648       975177727   40.0 GiB    0700  Microsoft basic data
   4       975177728       976754687   770.0 MiB   8300  Linux filesystem
   5       976754688       976756735   1024.0 KiB  EF02  BIOS boot partition
   6       976756736       976773134   8.0 MiB     EF00  EFI System
 
Command (? for help): 
Note
The 0x hexadecimal prefix does not need to be entered for GPT when using fdisk.

Using the same setup, the parted utility gives output with slightly different syntax:

root #parted /dev/sdc
GNU Parted 3.0
Using /dev/sdc
(parted) print
...
Sector size (logical/physical): 512B/512B
Partition Table: gpt
  
Number  Start   End    Size    File system  Name                  Flags
 1      1049kB  424GB  424GB                Linux LVM             lvm
 2      424GB   456GB  32.2GB               Microsoft basic data
 3      456GB   499GB  42.9GB               Microsoft basic data
 4      499GB   500GB  807MB   ext2         Linux filesystem
 5      500GB   500GB  1049kB               BIOS boot partition   bios_grub
 6      500GB   500GB  8396kB               EFI System            boot
  
(parted)

Creating partitions in gdisk is straightforward for users familiar with the fdisk partitioning utility. After starting gdisk, type n (for new) in the main menu, provide beginning and end sectors (if needed), and set the partition type to EF00 for an EFI system partition.

Users who have followed the Gentoo installation instructions will already have the proper partitioning layout set up.

UEFI with GPT

Make sure that the /boot location is available - if this uses a separate partition, make sure that it is mounted:

root #mount /boot

Run the grub-install command to copy the relevant files to /boot/grub. This should install GRUB2 in /boot/grub, copy the core image to /boot/efi/EFI/gentoo/grubx64.efi, and call efibootmgr to add a boot entry.

root #grub-install --efi-directory=/boot/efi
Installation finished. No error reported.

The above command assumes the vfat EFI System Partition (ESP) is mounted at /boot/efi. If the ESP is mounted directly at /boot, use --efi-directory=/boot.

grub-install also accepts a --target option to set the CPU architecture and system platform. If unspecified, grub-install will attempt to guess the proper values; on an AMD64 UEFI-booted system it will use x86_64-efi by default. grub-install also accepts a --boot-directory option to tell the GRUB2 installer which directory to look for GRUB2's boot files. This defaults to /boot but is useful when trying to move a root partition.

Partitioning for UEFI with GPT

For UEFI GPT boot using GRUB2, the system must have a dedicated EFI partition containing a FAT filesystem.

The EFI partition can replace having a /boot partition on /dev/sda1 by having a /boot/efi partition on /dev/sda1. This is to say a successful UEFI boot scenario using GRUB2 can operate with two partitions total (three total if a swap partition is needed): a root partition and an EFI partition. Using this configuration, the /boot folder will be located in the root / partition (at /boot) and the EFI partition will mount in the boot folder (at /boot/efi). For further clarification, see the example /etc/fstab file below.

FILE /etc/fstabExample of an UEFI capable /etc/fstab file with a swap partition:
/dev/sda1		/boot/efi	vfat		noauto,noatime	1 2
/dev/sda2		none		swap		sw		0 0
/dev/sda3		/		ext4		noatime		0 1

Generating a 100MB partition for /boot/efi should provide plenty of space for holding multiple

  • .efi files (multiple entries will most likely not be needed; most systems will only use one).

Create the partition using the partitioning tool of choice. The gdisk (sys-apps/gptfdisk) and parted (sys-block/parted) tools fit nicely for this purpose. When using the gdisk utility, be sure to use type EF00.

Proceed to create a FAT filesystem on the EFI system partition using mkfs.fat and add it to /etc/fstab by following the example below:

root #mkfs.fat -F 32 -n efi-boot /dev/sda1
root #mkdir /boot/efi
FILE /etc/fstabAdding the /boot/efi mount entry
/dev/sda1		/boot/efi	vfat		noauto,noatime	1 2
root #mount /boot/efi
Note
It is helpful to set the GRUB_PLATFORMS variable in /etc/portage/make.conf. This will assist GRUB2 in determining what options to use when detecting the proper EFI target. For 32-bit UEFI systems use efi-32. For 64-bit use efi-64.
Important
In order for GRUB2 to install properly, the EFI directory must be mounted and the efivars kernel module must be loaded before the grub-install command will complete successfully.

Alternative: using the default UEFI firmware location

If the system's UEFI firmware fails to find GRUB2's EFI bootloader file, using the default boot loader location should provide a working solution. This circumvents the boot menu managed by efibootmgr and thus offers reduced functionality, but is less error prone. To do this, verify the EFI partition is mounted at /boot/efi then copy the file grubx64.efi located at /boot/efi/EFI/gentoo/grubx64.efi to /boot/efi/EFI/BOOT/BOOTX64.EFI. This example assumes a 64-bit UEFI system, adjust accordingly for 32-bit UEFI systems.

Extended features

GRUB2 has many features that make it a very powerful boot loader. It supports:

  • Booting from UEFI platforms.
  • Booting from GPT partitioned drives without needing a hybrid MBR (hybrid MBR can enabled as needed for compatibility or portability).
  • Booting from a btrfs formatted /boot partition.
  • Booting from a ZFS pool.
  • Booting directly from a btrfs raid set without needing an initramfs for early mount setup.
  • Booting directly from logical volume management (such as LVM2).
  • Booting with support for DM-RAID (RAID 0, 1, 4, 5, 6, 9 and 10).
  • Booting from encrypted devices (LUKS).

Some specific features are explained in more detail next.

Chainloading

GRUB2 was built with a truly improved chainload mode when compared to GRUB Legacy. To chainload another boot loader, use the chainloader option.

FILE /etc/grub.d/40_customChainloading another bootloader
menuentry "Custom Super-bootloader example" {
     insmod part_msdos
     insmod chain
     chainloader (hd1,1)+1
}

For more information on chainloading, please see the Chainloading sub-page.

Using framebuffer display

To have GRUB2 use a framebuffer graphical display, re-emerge GRUB with the truetype USE flag enabled. This will install a default True Type font as well as a font conversion utility.

root #emerge --ask --newuse sys-boot/grub:2

Proceed to configure the default GRUB2 configuration file located at /etc/default/grub. For example:

FILE /etc/default/grubFramebuffer related settings
# Set resolution and color depth
GRUB_GFXMODE=1366x768x32
 
# Keep resolution when loading the kernel
GRUB_GFXPAYLOAD_LINUX=keep
 
# Set a background image
GRUB_BACKGROUND="/boot/grub/bg.png"
 
# Use a custom font, converted using grub-mkfont utility
GRUB_FONT="/boot/grub/fonts/roboto.pf2"

In order to find out what display modes the system's graphics card supports, use the following commands on the GRUB2 shell:

(grub)insmod all_video
(grub)videoinfo

Troubleshooting

Most of the issues can be resolved by ensuring that the partition layout is correct. Make sure enough space is available before the first partition of the disk, or optionally make sure that a BIOS boot partition is available. Also verify that /boot/grub/grub.cfg was correctly generated with grub-mkconfig, or generate one with a custom menu entry.

For more GRUB2 troubleshooting, please refer to the Troubleshooting sub-article.

Motherboard firmware not finding the .EFI file

Some motherboard manufacturers seem to only support one location for the .EFI file in the EFI System Partition (ESP). If this seems to be the case, simply move GRUB's default file to the /efi/boot/ location. First, make sure the ESP is mounted. Presuming the ESP is mounted at /boot/efi (as suggested in the Handbook), execute:

root #mkdir -p /boot/efi/efi/boot
root #cp /boot/efi/efi/gentoo/grubx64.efi /boot/efi/efi/boot/bootx64.efi

This should aid the motherboard firmware in loading the GRUB executable. Reboot the system to see if the firmware now correctly loads GRUB.

os-prober and UEFI in chroot

The sys-boot/os-prober utility is used to discover alternate installs, such as Microsoft Windows. To function properly, it needs to have access to information from the live environment's udev to test for the EFI System Partition.

Run these commands in the host environment to provide the required files (example shows Gentoo mounted on /mnt/gentoo like in the Handbook):

root #mkdir -p /mnt/gentoo/run/udev
root #mount -o bind /run/udev /mnt/gentoo/run/udev
root #mount --make-rslave /mnt/gentoo/run/udev

Installing a new kernel

Whenever a new kernel is installed, GRUB2 must be reconfigured to recognize it. This can be done using grub-mkconfig, as shown below, or can be done manually.

Note
Make sure the /boot partition is mounted for this step.
root #grub-mkconfig -o /boot/grub/grub.cfg
Generating grub.cfg ...
Found linux image: /boot/kernel-3.3.8-gentoo
Found initrd image: /boot/initramfs-genkernel-x86_64-3.3.8-gentoo
Found linux image: /boot/kernel-3.2.12-gentoo
Found initrd image: /boot/initramfs-genkernel-x86_64-3.2.12-gentoo
done

Note that GRUB2 only needs to be reconfigured, not reinstalled to the boot drive's Master Boot Record (MBR). On the other hand, when GRUB2 itself has been upgraded it does need to be reinstalled on the boot drive, but usually does not need to be reconfigured.

See also

There are a few specific GRUB2 resources available:

  • In Chainloading the use of GRUB2 to boot other boot loaders is described. This is important to read when dual-booting systems, or when GRUB2 needs to be configured to boot ISO files.
  • In Advanced storage the necessary steps are documented on how to install and use GRUB2 on more advanced storage situations, such as software RAID, logical volumes or encrypted file systems.
  • In Configuration variables an exhaustive list of GRUB2 configuration variables, as used by /etc/default/grub, is documented.
  • In Troubleshooting a list of common GRUB2 errors (with their solutions) is presented.
  • In Hybrid partition table the use of a mixed MBR/GPT setup is documented, as well as how to use such hybrid partition layout with GRUB2.

External resources

For more information, please see: