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lbmk/include/rom.sh
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Leah Rowe f272c4d1c4 rom.sh: support "fspgop" init mode
for all intents and purposes, this functions like libgfxinit
corebootfb, but uses intel fsp's video initialisation instead
of coreboot's native initialisation code

this is currently in use on the x2e n150 mainboard, whose
config is dubiously named "libgfxinit_corebootfb"

now the config can be renamed, and will be, in the next commit.

Signed-off-by: Leah Rowe <leah@libreboot.org>
2025-09-28 23:18:50 +01:00

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# SPDX-License-Identifier: GPL-3.0-or-later
# Copyright (c) 2014-2016,2020-2021,2023-2025 Leah Rowe <leah@libreboot.org>
# Copyright (c) 2021-2022 Ferass El Hafidi <vitali64pmemail@protonmail.com>
# Copyright (c) 2022 Caleb La Grange <thonkpeasant@protonmail.com>
# Copyright (c) 2022-2023 Alper Nebi Yasak <alpernebiyasak@gmail.com>
# Copyright (c) 2023-2024 Riku Viitanen <riku.viitanen@protonmail.com>
grubdata="config/data/grub"
buildser()
{
if [ "$1" = "pico" ]; then
x_ cmake -DPICO_BOARD="$2" \
-DPICO_SDK_PATH="$picosdk" -B "$sersrc/build" "$sersrc" && \
x_ cmake --build "$sersrc/build"
elif [ "$1" = "stm32" ]; then
x_ make -C "$sersrc" libopencm3-just-make \
BOARD=$2 && x_ make -C "$sersrc" BOARD=$2
fi
x_ mkdir -p "bin/serprog_$1"
x_ mv "$serx" "bin/serprog_$1/serprog_$2.${serx##*.}"
}
copyps1bios()
{
if [ "$dry" = ":" ]; then
return 0
fi
remkdir "bin/playstation"
x_ cp src/pcsx-redux/src/mips/openbios/openbios.bin bin/playstation
printf "MIT License\n\nCopyright (c) 2019-2025 PCSX-Redux authors\n\n" \
> bin/playstation/COPYING.txt || \
err "can't write PCSX Redux copyright info" "copyps1bios" "$@"
x_ cat config/snippet/mit >>bin/playstation/COPYING.txt || \
err "can't copy MIT license snippet" "copyps1bios" "$@"
}
mkpayload_grub()
{
eval "`setvars "" grub_modules grub_install_modules`"
$dry eval "`setcfg "$grubdata/module/$tree"`"
$dry x_ rm -f "$srcdir/grub.elf"
$dry x_ "$srcdir/grub-mkstandalone" \
--grub-mkimage="$srcdir/grub-mkimage" \
-O i386-coreboot -o "$srcdir/grub.elf" -d "${srcdir}/grub-core/" \
--fonts= --themes= --locales= --modules="$grub_modules" \
--install-modules="$grub_install_modules" \
"/boot/grub/grub_default.cfg=${srcdir}/.config" \
"/boot/grub/grub.cfg=$grubdata/memdisk.cfg"; :
}
corebootpremake()
{
if [ "$XBMK_RELEASE" = "y" ] && [ "$release" = "n" ]; then
return 0
fi
$dry cook_coreboot_config
fx_ check_coreboot_util printf "cbfstool\nifdtool\n"
printf "%s\n" "${version%%-*}" > "$srcdir/.coreboot-version" || \
err "!mk $srcdir .coreboot-version" "corebootpremake" "$@"
if [ -z "$mode" ] && [ "$target" != "$tree" ]; then
x_ ./mk download "$target"
fi
}
cook_coreboot_config()
{
if [ -z "$mode" ] && [ -f "$srcdir/.config" ]; then
printf "CONFIG_CCACHE=y\n" >> "$srcdir/.config" || \
err "can't cook '$srcdir'" "cook_coreboot_config" "$@"
fi
}
check_coreboot_util()
{
if [ "$badhash" = "y" ]; then
x_ rm -f "elf/coreboot/$tree/$1"
fi
if e "elf/coreboot/$tree/$1" f; then
return 0
fi
utilelfdir="elf/coreboot/$tree"
utilsrcdir="src/coreboot/$tree/util/$1"
utilmode=""
if [ -n "$mode" ]; then
utilmode="clean"
fi
x_ make -C "$utilsrcdir" $utilmode -j$XBMK_THREADS $makeargs
if [ -n "$mode" ]; then
# TODO: is this rm command needed?
x_ rm -Rf "$utilelfdir"
return 0
elif [ -n "$mode" ] || [ -f "$utilelfdir/$1" ]; then
return 0
fi
x_ mkdir -p "$utilelfdir"
x_ cp "$utilsrcdir/$1" "$utilelfdir"
if [ "$1" = "cbfstool" ]; then
x_ cp "$utilsrcdir/rmodtool" "$utilelfdir"
fi
}
coreboot_pad_one_byte()
{
if [ "$XBMK_RELEASE" = "y" ] && [ "$release" = "n" ]; then
return 0
fi
$dry pad_one_byte "$srcdir/build/coreboot.rom"
}
mkcorebootbin()
{
if [ "$XBMK_RELEASE" = "y" ] && [ "$release" = "n" ]; then
return 0
fi
$dry check_coreboot_util cbfstool
$dry check_coreboot_util ifdtool
for y in "$target_dir/config"/*; do
defconfig="$y"
mkcorebootbin_real
done
mkcoreboottar
}
mkcorebootbin_real()
{
if [ "$target" = "$tree" ]; then
return 0
fi
tmprom="$xbtmp/coreboot.rom"
initmode="${defconfig##*/}"
displaymode="${initmode##*_}"
if [ "$displaymode" = "$initmode" ]; then
# blank it for "normal" or "fspgop" configs:
displaymode=""
fi
initmode="${initmode%%_*}"
cbfstool="elf/coreboot/$tree/cbfstool"
elfrom="elf/coreboot/$tree/$target/$initmode"
if [ -n "$displaymode" ]; then
elfrom="${elfrom}_$displaymode"
fi
elfrom="$elfrom/coreboot.rom"
$dry x_ cp "$elfrom" "$tmprom"
$dry unpad_one_byte "$tmprom"
if [ -n "$payload_uboot" ] && [ "$payload_uboot" != "amd64" ] && \
[ "$payload_uboot" != "i386" ] && [ "$payload_uboot" != "arm64" ]
then
err "'$target' defines bad u-boot type '$payload_uboot'" \
"mkcorebootbin_real" "$@"
fi
if [ -n "$payload_uboot" ] && [ "$payload_uboot" != "arm64" ]; then
payload_seabios="y"
fi
if [ -z "$uboot_config" ]; then
uboot_config="default"
fi
if [ "$payload_grub" = "y" ]; then
payload_seabios="y"
fi
if [ "$payload_seabios" = "y" ] && [ "$payload_uboot" = "arm64" ]; then
$dry err "$target: U-Boot(arm) and SeaBIOS/GRUB both enabled" \
"mkcorebootbin_real" "$@"
fi
if [ -z "$grub_scan_disk" ]; then
grub_scan_disk="nvme ahci ata"
fi
if [ -z "$grubtree" ]; then
grubtree="default"
fi
grubelf="elf/grub/$grubtree/$grubtree/payload/grub.elf"
if [ "$payload_memtest" != "y" ]; then
payload_memtest="n"
fi
if [ "$(uname -m)" != "x86_64" ]; then
payload_memtest="n"
fi
if [ "$payload_grubsea" = "y" ] && [ "$initmode" = "normal" ]; then
payload_grubsea="n"
fi
if [ "$payload_grub" != "y" ]; then
payload_grubsea="n"
fi
if $dry grep "CONFIG_PAYLOAD_NONE=y" "$defconfig"; then
if [ "$payload_seabios" = "y" ]; then
pname="seabios"
$dry add_seabios
fi
if [ "$payload_uboot" = "arm64" ]; then
pname="uboot"
$dry add_uboot
fi
else
pname="custom"
$dry cprom
fi; :
}
# in our design, SeaBIOS is also responsible for starting either
# a GRUB or U-Boot payload. this is because SeaBIOS is generally
# a more reliable codebase, so it's less likely to cause a brick
# during testing and development, or user configuration. if one
# of the u-boot or grub payloads fails, the user still has a
# functional SeaBIOS setup to fall back on. watch:
add_seabios()
{
if [ -n "$payload_uboot" ] && [ "$payload_uboot" != "arm64" ]; then
# we must add u-boot first, because it's added as a flat
# binary at a specific offset for secondary program loader
$dry add_uboot
fi
_seabioself="elf/seabios/default/default/$initmode/bios.bin.elf"
[ "$initmode" = "fspgop" ] && \
_seabioself="elf/seabios/default/default/libgfxinit/bios.bin.elf"
_seaname="fallback/payload"
if [ "$payload_grubsea" = "y" ]; then
_seaname="seabios.elf"
fi
cbfs "$tmprom" "$_seabioself" "$_seaname"
x_ "$cbfstool" "$tmprom" add-int -i 3000 -n etc/ps2-keyboard-spinup
opexec="2"
if [ "$initmode" = "vgarom" ]; then
opexec="0"
fi
x_ "$cbfstool" "$tmprom" add-int -i $opexec -n etc/pci-optionrom-exec
x_ "$cbfstool" "$tmprom" add-int -i 0 -n etc/optionroms-checksum
if [ "$initmode" = "libgfxinit" ] || [ "$initmode" = "fspgop" ]; then
cbfs "$tmprom" "$seavgabiosrom" vgaroms/seavgabios.bin raw
fi
if [ "$payload_memtest" = "y" ]; then
# because why not have memtest?
cbfs "$tmprom" "elf/memtest86plus/memtest.bin" img/memtest
fi
if [ "$payload_grub" = "y" ]; then
add_grub
fi
if [ "$payload_grubsea" != "y" ]; then
# ROM image where SeaBIOS doesn't load grub/u-boot first.
# U-Boot/GRUB available in ESC menu if enabled for the board
cprom
fi
# now make "SeaUBoot" and "SeaGRUB" images, where SeaBIOS auto-loads
# SeaBIOS or U-Boot first; users can bypass this by pressing ESC
# in the SeaBIOS menu, to boot devices using SeaBIOS itself instead
if [ "$payload_uboot" = "amd64" ] && \
[ "$displaymode" != "txtmode" ] && \
[ "$initmode" != "normal" ] && [ "$payload_grubsea" != "y" ]; then
pname="seauboot"
cprom "seauboot"
fi
if [ "$payload_grub" = "y" ]; then
pname="seagrub"
mkseagrub
fi
}
add_grub()
{
# path in CBFS for the GRUB payload
_grubname="img/grub2"
if [ "$payload_grubsea" = "y" ]; then
_grubname="fallback/payload"
fi
cbfs "$tmprom" "$grubelf" "$_grubname"
printf "set grub_scan_disk=\"%s\"\n" "$grub_scan_disk" \
> "$xbtmp/tmpcfg" || \
err "$target: !insert scandisk" "add_grub" "$@"
cbfs "$tmprom" "$xbtmp/tmpcfg" scan.cfg raw
if [ "$initmode" != "normal" ] && [ "$displaymode" != "txtmode" ]; then
cbfs "$tmprom" "$grubdata/background/background1280x800.png" \
"background.png" raw
fi
}
mkseagrub()
{
if [ "$payload_grubsea" = "y" ]; then
pname="grub"
else
cbfs "$tmprom" "$grubdata/bootorder" bootorder raw
fi
fx_ cprom x_ find "$grubdata/keymap" -type f -name "*.gkb"
}
add_uboot()
{
if [ "$displaymode" = "txtmode" ]; then
printf "cb/%s: Cannot use U-Boot in text mode\n" \
"$target" 1>&2
return 0
elif [ "$initmode" = "normal" ]; then
printf "cb/%s: Cannot use U-Boot in normal initmode\n" \
"$target" 1>&2
return 0
fi
# TODO: re-work to allow each coreboot target to say which ub tree
# instead of hardcoding as in the current logic below:
# aarch64 targets:
ubcbfsargs=""
ubpath="fallback/payload"
ubtree="default"
ubtarget="$target"
# override for x86/x86_64 targets:
if [ -n "$payload_uboot" ] && [ "$payload_uboot" != "arm64" ]; then
ubcbfsargs="-l 0x1110000 -e 0x1110000" # 64-bit and 32-bit
# on 64-bit, 0x1120000 is the SPL, with a stub that
# loads it, located at 0x1110000
ubpath="img/u-boot" # 64-bit
ubtree="x86_64"
ubtarget="amd64coreboot"
if [ "$payload_uboot" = "i386" ]
then
ubpath="u-boot" # 32-bit
ubtree="x86"
ubtarget="i386coreboot"; :
fi
fi
ubdir="elf/u-boot/$ubtree/$ubtarget/$uboot_config"
# aarch64 targets:
ubootelf="$ubdir/u-boot.elf"
if [ ! -f "$ubootelf" ]; then
ubootelf="$ubdir/u-boot"
fi
# override for x86/x86_64 targets:
if [ "$payload_uboot" = "i386" ]; then
ubootelf="$ubdir/u-boot-dtb.bin"
elif [ "$payload_uboot" = "amd64" ]; then
ubootelf="$ubdir/u-boot-x86-with-spl.bin" # EFI-compatible
fi
cbfs "$tmprom" "$ubootelf" "$ubpath" $ubcbfsargs
if [ "$payload_seabios" != "y" ]; then
cprom
fi
}
# prepare the final image in bin/ for user installation:
cprom()
{
cpcmd="cp"
tmpnew=""
newrom="bin/$target/${pname}_${target}_$initmode.rom"
if [ -n "$displaymode" ]; then
newrom="${newrom%.rom}_$displaymode.rom"
fi
if [ $# -gt 0 ] && [ "${1%.gkb}" != "$1" ]; then
tmpnew="${1##*/}"
newrom="${newrom%.rom}_${tmpnew%.gkb}.rom"
fi
irom="$tmprom"
if [ $# -gt 0 ]; then
irom="$(mktemp || err "!mk irom, $(echo "$@")")" || \
err "can't copy rom" "cprom" "$@"
x_ cp "$tmprom" "$irom" && cpcmd="mv"
if [ "${1%.gkb}" != "$1" ]; then
cbfs "$irom" "$grubdata/keymap/$tmpnew" keymap.gkb raw
elif [ "$1" = "seauboot" ]; then
cbfs "$irom" "$grubdata/bootorder_uboot" bootorder raw
fi
fi
printf "Creating new %s image: '%s'\n" "$projectname" "$newrom"
x_ mkdir -p "bin/$target"
x_ $cpcmd "$irom" "$newrom"
}
cbfs()
{
ccmd="add-payload"
lzma="-c lzma"
if [ $# -gt 3 ] && [ $# -lt 5 ]; then
ccmd="add"
lzma="-t $4"
elif [ $# -gt 4 ] && [ "$5" = "0x1110000" ]; then
ccmd="add-flat-binary" && \
lzma="-c lzma -l 0x1110000 -e 0x1110000"
fi
x_ "$cbfstool" "$1" $ccmd -f "$2" -n "$3" $lzma
}
# for release files:
mkcoreboottar()
{
if [ "$target" != "$tree" ] && [ "$XBMK_RELEASE" = "y" ] && \
[ "$release" != "n" ]; then
$dry mkrom_tarball "bin/$target" && \
$dry x_ ./mk inject "bin/${relname}_${target}.tar.xz" nuke; :
fi
}