There are cases to want a synthetic information whether the legacy BIOS
or U-Boot boot scheme, or the EFI boot scheme, are enabled, without
resorting to testing all and each platforms.
This is already the cae in grub2 itself, for the configuration of the
BIOS/U-Boot boot partition, and builtin modules and configuration on one
hand, and the EFI builtin modules and configuraiton on the other hand.
It is also the case for mender-grubenv, which will want to know if
either or both are enabled, but without having to resort to testing all
the cases.
Add two new symbols, that each represent those conditions:
* BR2_TARGET_GRUB2_HAS_LEGACY_BOOT
* BR2_TARGET_GRUB2_HAS_EFI_BOOT
Each target selects the appropriate bool, which makes it much more
simple for other packages such as mender-grubenv to check if grub legacy
or EFI is selected.
And of course, we also make use of those symbols in grub2 itself, to
simplify the conditions for showing.hiding legacy and EFI options.
Additionally (but that does not merit being in its own patch), add a
comment on the closing 'endif' for the EFI part.
Signed-off-by: Adam Duskett <aduskett@gmail.com>
[yann.morin.1998@free.fr:
- s/BR2_TARGET_GRUB_/BR2_TARGET_GRUB2_/
- rename variables anyway
- use variables in grub2 itself
]
Signed-off-by: Yann E. MORIN <yann.morin.1998@free.fr>
Cc: Köry Maincent <kory.maincent@bootlin.com>
Notes on using Grub2 for BIOS-based platforms
=============================================
1. Create a disk image
dd if=/dev/zero of=disk.img bs=1M count=32
2. Partition it (either legacy or GPT style partitions work)
cfdisk disk.img
- Create one partition, type Linux, for the root
filesystem. The only constraint is to make sure there
is enough free space *before* the first partition to
store Grub2. Leaving 1 MB of free space is safe.
3. Setup loop device and loop partitions
sudo losetup -f disk.img
sudo partx -a /dev/loop0
4. Prepare the root partition
sudo mkfs.ext3 -L root /dev/loop0p1
sudo mount /dev/loop0p1 /mnt
sudo tar -C /mnt -xf output/images/rootfs.tar
sudo umount /mnt
5. Install Grub2
sudo ./output/host/sbin/grub-bios-setup \
-b ./output/host/lib/grub/i386-pc/boot.img \
-c ./output/images/grub.img -d . /dev/loop0
6. Cleanup loop device
sudo partx -d /dev/loop0
sudo losetup -d /dev/loop0
7. Your disk.img is ready!
Using genimage
--------------
If you use genimage to generate your complete image,
installing Grub can be tricky. Here is how to achieve Grub's
installation with genimage:
partition boot {
in-partition-table = "no"
image = "path_to_boot.img"
offset = 0
size = 512
}
partition grub {
in-partition-table = "no"
image = "path_to_grub.img"
offset = 512
}
The result is not byte to byte identical to what
grub-bios-setup does but it works anyway.
To test your BIOS image in Qemu
-------------------------------
qemu-system-{i386,x86-64} -hda disk.img
Notes on using Grub2 for x86/x86_64 EFI-based platforms
=======================================================
1. Create a disk image
dd if=/dev/zero of=disk.img bs=1M count=32
2. Partition it with GPT partitions
cgdisk disk.img
- Create a first partition, type EF00, for the
bootloader and kernel image
- Create a second partition, type 8300, for the root
filesystem.
3. Setup loop device and loop partitions
sudo losetup -f disk.img
sudo partx -a /dev/loop0
4. Prepare the boot partition
sudo mkfs.vfat -n boot /dev/loop0p1
sudo mount /dev/loop0p1 /mnt
sudo cp -a output/images/efi-part/* /mnt/
sudo cp output/images/bzImage /mnt/
sudo umount /mnt
5. Prepare the root partition
sudo mkfs.ext3 -L root /dev/loop0p2
sudo mount /dev/loop0p2 /mnt
sudo tar -C /mnt -xf output/images/rootfs.tar
sudo umount /mnt
6 Cleanup loop device
sudo partx -d /dev/loop0
sudo losetup -d /dev/loop0
7. Your disk.img is ready!
To test your i386/x86-64 EFI image in Qemu
------------------------------------------
1. Download the EFI BIOS for Qemu
Version IA32 or X64 depending on the chosen Grub2
platform (i386-efi vs. x86-64-efi)
https://www.kraxel.org/repos/jenkins/edk2/
(or use one provided by your distribution as OVMF)
2. Extract, and rename OVMF.fd to bios.bin and
CirrusLogic5446.rom to vgabios-cirrus.bin.
3. qemu-system-{i386,x86-64} -L ovmf-dir/ -hda disk.img
4. Make sure to pass pci=nocrs to the kernel command line,
to workaround a bug in the EFI BIOS regarding the
EFI framebuffer.
Notes on using Grub2 for ARM u-boot-based platforms
===================================================
The following steps show how to use the Grub2 arm-uboot platform
support in the simplest way possible and with a single
buildroot-generated filesystem.
1. Load qemu_arm_vexpress_defconfig
2. Enable u-boot with the vexpress_ca9x4 board name and with
u-boot.elf image format.
3. Enable grub2 for the arm-uboot platform.
4. Enable "Install kernel image to /boot in target" in the kernel
menu to populate a /boot directory with zImage in it.
5. The upstream u-boot vexpress_ca9x4 doesn't have CONFIG_API enabled
by default, which is required.
Before building, patch u-boot (for example, make u-boot-extract to
edit the source before building) file
include/configs/vexpress_common.h to define:
#define CONFIG_API
#define CONFIG_SYS_MMC_MAX_DEVICE 1
6. Create a custom grub2 config file with the following contents and
set its path in BR2_TARGET_GRUB2_CFG:
set default="0"
set timeout="5"
menuentry "Buildroot" {
set root='(hd0)'
linux /boot/zImage root=/dev/mmcblk0 console=ttyAMA0
devicetree /boot/vexpress-v2p-ca9.dtb
}
7. Create a custom builtin config file with the following contents
and set its path in BR2_TARGET_GRUB2_BUILTIN_CONFIG:
set root=(hd0)
set prefix=/boot/grub
8. Create a custom post-build script which copies files from
${BINARIES_DIR}/boot-part to $(TARGET_DIR)/boot (set its path in
BR2_ROOTFS_POST_BUILD_SCRIPT):
#!/bin/sh
cp -r ${BINARIES_DIR}/boot-part/* ${TARGET_DIR}/boot/
9. make
10. Run qemu with:
qemu-system-arm -M vexpress-a9 -kernel output/images/u-boot -m 1024 \
-nographic -sd output/images/rootfs.ext2
11. In u-boot, stop at the prompt and run grub2 with:
=> ext2load mmc 0:0 ${loadaddr} /boot/grub/grub.img
=> bootm
12. This should bring the grub2 menu, upon which selecting the "Buildroot"
entry should boot Linux.
Notes on using Grub2 for Aarch64 EFI-based platforms
====================================================
The following steps show how to use the Grub2 arm64-efi platform,
using qemu and EFI firmware built for qemu.
1. Load aarch64_efi_defconfig
2. make
3. Download the EFI firmware for qemu aarch64
https://www.kraxel.org/repos/jenkins/edk2/
(or use one provided by your distribution as OVMF-aarch64 or AAVMF)
4. Run qemu with:
qemu-system-aarch64 -M virt -cpu cortex-a57 -m 512 -nographic \
-bios <path/to/EDK2>/QEMU_EFI.fd -hda output/images/disk.img \
-netdev user,id=eth0 -device virtio-net-device,netdev=eth0
5. This should bring the grub2 menu, upon which selecting the
"Buildroot" entry should boot Linux.
