mirror of
https://github.com/AsahiLinux/u-boot
synced 2024-12-29 22:43:10 +00:00
35821a25c1
This adds keyword devicetree-overlay as an alias for fdtoverlays in extlinux (sysboot) and pxe to better follow the Boot Loader Specification [1], improves documentation around them by adding an example for both fdtoverlays and devicetree-overlay and the environment variable required for this feature. The link for the spec is updated to the current one. [1] https://systemd.io/BOOT_LOADER_SPECIFICATION/ Signed-off-by: Edoardo Tomelleri <e.tomell@gmail.com> Reviewed-by: Neil Armstrong <neil.armstrong@linaro.org> Reviewed-by: Ramon Fried <rfried.dev@gmail.com>
441 lines
18 KiB
ReStructuredText
441 lines
18 KiB
ReStructuredText
.. SPDX-License-Identifier: GPL-2.0+
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Generic Distro Configuration Concept
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====================================
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Linux distributions are faced with supporting a variety of boot mechanisms,
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environments or bootloaders (PC BIOS, EFI, U-Boot, Barebox, ...). This makes
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life complicated. Worse, bootloaders such as U-Boot have a configurable set
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of features, and each board chooses to enable a different set of features.
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Hence, distros typically need to have board-specific knowledge in order to
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set up a bootable system.
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This document defines a common set of U-Boot features that are required for
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a distro to support the board in a generic fashion. Any board wishing to
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allow distros to install and boot in an out-of-the-box fashion should enable
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all these features. Linux distros can then create a single set of boot
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support/install logic that targets these features. This will allow distros
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to install on many boards without the need for board-specific logic.
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In fact, some of these features can be implemented by any bootloader, thus
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decoupling distro install/boot logic from any knowledge of the bootloader.
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This model assumes that boards will load boot configuration files from a
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regular storage mechanism (eMMC, SD card, USB Disk, SATA disk, etc.) with
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a standard partitioning scheme (MBR, GPT). Boards that cannot support this
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storage model are outside the scope of this document, and may still need
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board-specific installer/boot-configuration support in a distro.
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To some extent, this model assumes that a board has a separate boot flash
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that contains U-Boot, and that the user has somehow installed U-Boot to this
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flash before running the distro installer. Even on boards that do not conform
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to this aspect of the model, the extent of the board-specific support in the
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distro installer logic would be to install a board-specific U-Boot package to
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the boot partition during installation. This distro-supplied U-Boot can still
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implement the same features as on any other board, and hence the distro's boot
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configuration file generation logic can still be board-agnostic.
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Locating Bootable Disks
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-----------------------
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Typical desktop/server PCs search all (or a user-defined subset of) attached
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storage devices for a bootable partition, then load the bootloader or boot
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configuration files from there. A U-Boot board port that enables the features
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mentioned in this document will search for boot configuration files in the
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same way.
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Thus, distros do not need to manipulate any kind of bootloader-specific
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configuration data to indicate which storage device the system should boot
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from.
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Distros simply need to install the boot configuration files (see next
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section) in an ext2/3/4 or FAT partition, mark the partition bootable (via
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the MBR bootable flag, or GPT legacy_bios_bootable attribute), and U-Boot (or
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any other bootloader) will find those boot files and execute them. This is
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conceptually identical to creating a grub2 configuration file on a desktop
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PC.
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Note that in the absence of any partition that is explicitly marked bootable,
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U-Boot falls back to searching the first valid partition of a disk for boot
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configuration files. Other bootloaders are recommended to do the same, since
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I believe that partition table bootable flags aren't so commonly used outside
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the realm of x86 PCs.
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U-Boot can also search for boot configuration files from a TFTP server.
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Boot Configuration Files
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------------------------
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The standard format for boot configuration files is that of extlinux.conf, as
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handled by U-Boot's "syslinux" (disk) or "pxe boot" (network). This is roughly
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as specified at `Boot Loader Specification`_:
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... with the exceptions that the Boot Loader Specification document:
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* Prescribes a separate configuration per boot menu option, whereas U-Boot
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lumps all options into a single extlinux.conf file. Hence, U-Boot searches
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for /extlinux/extlinux.conf then /boot/extlinux/extlinux.conf on disk, or
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pxelinux.cfg/default over the network.
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* Does not document the fdtdir option, which automatically selects the DTB to
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pass to the kernel.
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See also doc/README.pxe under 'pxe file format'.
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One example extlinux.conf generated by the Fedora installer is::
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# extlinux.conf generated by anaconda
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ui menu.c32
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menu autoboot Welcome to Fedora. Automatic boot in # second{,s}. Press a key for options.
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menu title Fedora Boot Options.
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menu hidden
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timeout 50
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#totaltimeout 9000
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default Fedora (3.17.0-0.rc4.git2.1.fc22.armv7hl+lpae) 22 (Rawhide)
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label Fedora (3.17.0-0.rc4.git2.1.fc22.armv7hl) 22 (Rawhide)
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kernel /boot/vmlinuz-3.17.0-0.rc4.git2.1.fc22.armv7hl
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append ro root=UUID=8eac677f-8ea8-4270-8479-d5ddbb797450 console=ttyS0,115200n8 LANG=en_US.UTF-8 drm.debug=0xf
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fdtdir /boot/dtb-3.17.0-0.rc4.git2.1.fc22.armv7hl
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initrd /boot/initramfs-3.17.0-0.rc4.git2.1.fc22.armv7hl.img
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label Fedora (3.17.0-0.rc4.git2.1.fc22.armv7hl+lpae) 22 (Rawhide)
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kernel /boot/vmlinuz-3.17.0-0.rc4.git2.1.fc22.armv7hl+lpae
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append ro root=UUID=8eac677f-8ea8-4270-8479-d5ddbb797450 console=ttyS0,115200n8 LANG=en_US.UTF-8 drm.debug=0xf
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fdtdir /boot/dtb-3.17.0-0.rc4.git2.1.fc22.armv7hl+lpae
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initrd /boot/initramfs-3.17.0-0.rc4.git2.1.fc22.armv7hl+lpae.img
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label Fedora-0-rescue-8f6ba7b039524e0eb957d2c9203f04bc (0-rescue-8f6ba7b039524e0eb957d2c9203f04bc)
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kernel /boot/vmlinuz-0-rescue-8f6ba7b039524e0eb957d2c9203f04bc
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initrd /boot/initramfs-0-rescue-8f6ba7b039524e0eb957d2c9203f04bc.img
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append ro root=UUID=8eac677f-8ea8-4270-8479-d5ddbb797450 console=ttyS0,115200n8
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fdtdir /boot/dtb-3.16.0-0.rc6.git1.1.fc22.armv7hl+lpae
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One example of hand-crafted extlinux.conf::
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menu title Select kernel
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timeout 100
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label Arch with uart devicetree overlay
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kernel /arch/Image.gz
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initrd /arch/initramfs-linux.img
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fdt /dtbs/arch/board.dtb
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fdtoverlays /dtbs/arch/overlay/uart0-gpio0-1.dtbo
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append console=ttyS0,115200 console=tty1 rw root=UUID=fc0d0284-ca84-4194-bf8a-4b9da8d66908
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label Arch with uart devicetree overlay but with Boot Loader Specification keys
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kernel /arch/Image.gz
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initrd /arch/initramfs-linux.img
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devicetree /dtbs/arch/board.dtb
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devicetree-overlay /dtbs/arch/overlay/uart0-gpio0-1.dtbo
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append console=ttyS0,115200 console=tty1 rw root=UUID=fc0d0284-ca84-4194-bf8a-4b9da8d66908
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Another hand-crafted network boot configuration file is::
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TIMEOUT 100
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MENU TITLE TFTP boot options
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LABEL jetson-tk1-emmc
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MENU LABEL ../zImage root on Jetson TK1 eMMC
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LINUX ../zImage
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FDTDIR ../
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APPEND console=ttyS0,115200n8 console=tty1 loglevel=8 rootwait rw earlyprintk root=PARTUUID=80a5a8e9-c744-491a-93c1-4f4194fd690b
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LABEL venice2-emmc
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MENU LABEL ../zImage root on Venice2 eMMC
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LINUX ../zImage
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FDTDIR ../
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APPEND console=ttyS0,115200n8 console=tty1 loglevel=8 rootwait rw earlyprintk root=PARTUUID=5f71e06f-be08-48ed-b1ef-ee4800cc860f
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LABEL sdcard
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MENU LABEL ../zImage, root on 2GB sdcard
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LINUX ../zImage
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FDTDIR ../
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APPEND console=ttyS0,115200n8 console=tty1 loglevel=8 rootwait rw earlyprintk root=PARTUUID=b2f82cda-2535-4779-b467-094a210fbae7
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LABEL fedora-installer-fk
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MENU LABEL Fedora installer w/ Fedora kernel
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LINUX fedora-installer/vmlinuz
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INITRD fedora-installer/initrd.img.orig
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FDTDIR fedora-installer/dtb
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APPEND loglevel=8 ip=dhcp inst.repo=http://10.0.0.2/mirrors/fedora/linux/development/rawhide/armhfp/os/ rd.shell cma=64M
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U-Boot Implementation
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=====================
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Enabling the distro options
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---------------------------
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In your board's defconfig, enable the DISTRO_DEFAULTS option by adding
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a line with "CONFIG_DISTRO_DEFAULTS=y". If you want to enable this
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from Kconfig itself, for e.g. all boards using a specific SoC then
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add a "imply DISTRO_DEFAULTS" to your SoC CONFIG option.
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TO BE UPDATED:
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In your board configuration file, include the following::
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#ifndef CONFIG_SPL_BUILD
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#include <config_distro_bootcmd.h>
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#endif
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The first of those headers primarily enables a core set of U-Boot features,
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such as support for MBR and GPT partitions, ext* and FAT filesystems, booting
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raw zImage and initrd (rather than FIT- or uImage-wrapped files), etc. Network
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boot support is also enabled here, which is useful in order to boot distro
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installers given that distros do not commonly distribute bootable install
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media for non-PC targets at present.
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Finally, a few options that are mostly relevant only when using U-Boot-
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specific boot.scr scripts are enabled. This enables distros to generate a
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U-Boot-specific boot.scr script rather than extlinux.conf as the boot
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configuration file. While doing so is fully supported, and
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CONFIG_DISTRO_DEFAULTS exposes enough parameterization to boot.scr to
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allow for board-agnostic boot.scr content, this document recommends that
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distros generate extlinux.conf rather than boot.scr. extlinux.conf is intended
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to work across multiple bootloaders, whereas boot.scr will only work with
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U-Boot. TODO: document the contract between U-Boot and boot.scr re: which
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environment variables a generic boot.scr may rely upon.
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The second of those headers sets up the default environment so that $bootcmd
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is defined in a way that searches attached disks for boot configuration files,
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and executes them if found.
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Required Environment Variables
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------------------------------
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The U-Boot "syslinux" and "pxe boot" commands require a number of environment
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variables be set. Default values for these variables are often hard-coded into
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CONFIG_EXTRA_ENV_SETTINGS in the board's U-Boot configuration file, so that
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the user doesn't have to configure them.
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fdt_addr:
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Mandatory for any system that provides the DTB in HW (e.g. ROM) and wishes
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to pass that DTB to Linux, rather than loading a DTB from the boot
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filesystem. Prohibited for any other system.
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If specified a DTB to boot the system must be available at the given
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address.
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fdt_addr_r:
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Mandatory. The location in RAM where the DTB will be loaded or copied to when
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processing the fdtdir/devicetreedir or fdt/devicetree options in
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extlinux.conf.
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This is mandatory even when fdt_addr is provided, since extlinux.conf must
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always be able to provide a DTB which overrides any copy provided by the HW.
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A size of 1MB for the FDT/DTB seems reasonable.
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fdtoverlay_addr_r:
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Mandatory. The location in RAM where DTB overlays will be temporarily
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stored and then applied in the load order to the fdt blob stored at the
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address indicated in the fdt_addr_r environment variable.
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fdtfile:
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Mandatory. the name of the DTB file for the specific board for instance
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the espressobin v5 board the value is "marvell/armada-3720-espressobin.dtb"
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while on a clearfog pro it is "armada-388-clearfog-pro.dtb" in the case of
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a board providing its firmware based DTB this value can be used to override
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the DTB with a different DTB. fdtfile will automatically be set for you if
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it matches the format ${soc}-${board}.dtb which covers most 32 bit use cases.
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AArch64 generally does not match as the Linux kernel put the dtb files under
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SoC vendor directories.
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ramdisk_addr_r:
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Mandatory. The location in RAM where the initial ramdisk will be loaded to
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when processing the initrd option in extlinux.conf.
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It is recommended that this location be highest in RAM out of fdt_addr_r,
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kernel_addr_r, and ramdisk_addr_r, so that the RAM disk can vary in size
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and use any available RAM.
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kernel_addr_r:
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Mandatory. The location in RAM where the kernel will be loaded to when
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processing the kernel option in the extlinux.conf.
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The kernel should be located within the first 128M of RAM in order for the
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kernel CONFIG_AUTO_ZRELADDR option to work, which is likely enabled on any
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distro kernel. Since the kernel will decompress itself to 0x8000 after the
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start of RAM, kernel_addr_r should not overlap that area, or the kernel will
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have to copy itself somewhere else first before decompression.
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A size of 16MB for the kernel is likely adequate.
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kernel_comp_addr_r:
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Optional. This is only required if user wants to boot Linux from a compressed
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Image(.gz, .bz2, .lzma, .lzo) using the booti command. It represents the
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location in RAM where the compressed Image will be decompressed temporarily.
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Once the decompression is complete, the decompressed data will be moved to
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kernel_addr_r for booting.
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kernel_comp_size:
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Optional. This is only required if user wants to boot Linux from a compressed
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Image using booti command. It represents the size of the compressed file. The
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size has to at least the size of loaded image for decompression to succeed.
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pxefile_addr_r:
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Mandatory. The location in RAM where extlinux.conf will be loaded to prior
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to processing.
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A size of 1MB for extlinux.conf is more than adequate.
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scriptaddr:
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Mandatory, if the boot script is boot.scr rather than extlinux.conf. The
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location in RAM where boot.scr will be loaded to prior to execution.
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A size of 1MB for extlinux.conf is more than adequate.
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For suggestions on memory locations for ARM systems, you must follow the
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guidelines specified in Documentation/arm/Booting in the Linux kernel tree.
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For a commented example of setting these values, please see the definition of
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MEM_LAYOUT_ENV_SETTINGS in include/configs/tegra124-common.h.
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Boot Target Configuration
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-------------------------
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The `config_distro_bootcmd.h` file defines $bootcmd and many helper command
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variables that automatically search attached disks for boot configuration files
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and execute them. Boards must provide configure <config_distro_bootcmd.h> so
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that it supports the correct set of possible boot device types. To provide this
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configuration, simply define macro BOOT_TARGET_DEVICES prior to including
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<config_distro_bootcmd.h>. For example::
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#ifndef CONFIG_SPL_BUILD
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#define BOOT_TARGET_DEVICES(func) \
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func(MMC, mmc, 1) \
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func(MMC, mmc, 0) \
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func(USB, usb, 0) \
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func(PXE, pxe, na) \
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func(DHCP, dhcp, na)
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#include <config_distro_bootcmd.h>
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#endif
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Each entry in the macro defines a single boot device (e.g. a specific eMMC
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device or SD card) or type of boot device (e.g. USB disk). The parameters to
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the func macro (passed in by the internal implementation of the header) are:
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- Upper-case disk type (DHCP, HOST, IDE, MMC, NVME, PXE, SATA, SCSI, UBIFS, USB,
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VIRTIO).
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- Lower-case disk type (same options as above).
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- ID of the specific disk (MMC only) or ignored for other types.
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User Configuration
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==================
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Once the user has installed U-Boot, it is expected that the environment will
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be reset to the default values in order to enable $bootcmd and friends, as set
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up by <config_distro_bootcmd.h>. After this, various environment variables may
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be altered to influence the boot process:
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boot_targets:
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The list of boot locations searched.
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Example: mmc0, mmc1, usb, pxe
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Entries may be removed or re-ordered in this list to affect the boot order.
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boot_prefixes:
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For disk-based booting, the list of directories within a partition that are
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searched for boot configuration files (extlinux.conf, boot.scr).
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Example: / /boot/
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Entries may be removed or re-ordered in this list to affect the set of
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directories which are searched.
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boot_scripts:
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The name of U-Boot style boot.scr files that $bootcmd searches for.
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Example: boot.scr.uimg boot.scr
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(Typically we expect extlinux.conf to be used, but execution of boot.scr is
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maintained for backwards-compatibility.)
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Entries may be removed or re-ordered in this list to affect the set of
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filenames which are supported.
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scan_dev_for_extlinux:
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If you want to disable extlinux.conf on all disks, set the value to something
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innocuous, e.g. setenv scan_dev_for_extlinux true.
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scan_dev_for_scripts:
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If you want to disable boot.scr on all disks, set the value to something
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innocuous, e.g. setenv scan_dev_for_scripts true.
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boot_net_usb_start:
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If you want to prevent USB enumeration by distro boot commands which execute
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network operations, set the value to something innocuous, e.g. setenv
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boot_net_usb_start true. This would be useful if you know your Ethernet
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device is not attached to USB, and you wish to increase boot speed by
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avoiding unnecessary actions.
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boot_net_pci_enum:
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If you want to prevent PCI enumeration by distro boot commands which execute
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network operations, set the value to something innocuous, e.g. setenv
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boot_net_pci_enum true. This would be useful if you know your Ethernet
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device is not attached to PCI, and you wish to increase boot speed by
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avoiding unnecessary actions.
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Interactively booting from a specific device at the u-boot prompt
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=================================================================
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For interactively booting from a user-selected device at the u-boot command
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prompt, the environment provides predefined bootcmd_<target> variables for
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every target defined in boot_targets, which can be run be the user.
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If the target is a storage device, the format of the target is always
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<device type><device number>, e.g. mmc0. Specifying the device number is
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mandatory for storage devices, even if only support for a single instance
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of the storage device is actually implemented.
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For network targets (dhcp, pxe), only the device type gets specified;
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they do not have a device number.
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Examples:
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- run bootcmd_usb0
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boots from the first USB mass storage device
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- run bootcmd_mmc1
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boots from the second MMC device
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- run bootcmd_pxe
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boots by tftp using a pxelinux.cfg
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The list of possible targets consists of:
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- network targets
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* dhcp
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* pxe
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- storage targets (to which a device number must be appended)
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* mmc
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* sata
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* scsi
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* ide
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* usb
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* virtio
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Other *boot* variables than the ones defined above are only for internal use
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of the boot environment and are not guaranteed to exist or work in the same
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way in future u-boot versions. In particular the <device type>_boot
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variables (e.g. mmc_boot, usb_boot) are a strictly internal implementation
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detail and must not be used as a public interface.
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.. _`Boot Loader Specification`: https://systemd.io/BOOT_LOADER_SPECIFICATION/
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.. sectionauthor:: (C) Copyright 2014 Red Hat Inc.
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.. sectionauthor:: Copyright (c) 2014-2015, NVIDIA CORPORATION. All rights reserved.
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.. sectionauthor:: Copyright (C) 2015 K. Merker <merker@debian.org>
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