Files
lbmk/resources/scripts/build/boot/roms_helper
T
Leah Rowe b55cc19f41 coreboot: AMD Fam10/15: don't build GCC-GNAT
do this with board.cfg option:

crossgcc_ada="n"

add this environmental variable when building
crossgcc, if crossgcc_ada="n":

BUILD_LANGUAGES=c

This avoids building the GNAT/Ada compiler in GCC.
Coreboot 4.11 is only used for some AGESA boards
that don't need Ada (their video init is the old
style, written in C, it's not libgfxinit)

Signed-off-by: Leah Rowe <leah@libreboot.org>
2023-07-09 11:20:56 +01:00

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#!/usr/bin/env sh
# helper script: create ROM images for a given mainboard
#
# Copyright (C) 2020,2021,2023 Leah Rowe <info@minifree.org>
# Copyright (C) 2021,2022 Ferass El Hafidi
# <vitali64pmemail@protonmail.com>
# Copyright (C) 2022 Caleb La Grange <thonkpeasant@protonmail.com>
# Copyright (C) 2022 Alper Nebi Yasak <alpernebiyasak@gmail.com>
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
# This script assumes that the working directory is the root
# of git or release archive
[ "x${DEBUG+set}" = 'xset' ] && set -v
set -u -e
projectname="$(cat projectname)"
kmapdir="resources/grub/keymap"
displaymodes=""
payloads=""
keyboard_layouts=""
while [ $# -gt 0 ]; do
case ${1} in
-d)
displaymodes="${displaymodes}${2}"
shift ;;
-p)
payloads="${payloads}${2}"
shift ;;
-k)
keyboard_layouts="${keyboard_layouts}${2}"
shift ;;
*)
board=${1} ;;
esac
shift
done
printf "\n\nboard is %s , kb is %s , displaymode is %s , payloads is %s\n" \
${board} ${keyboard_layouts} ${displaymodes} ${payloads} 1>&2
if [ ! -d "resources/coreboot/${board}" ]; then
printf "build/roms: Target not defined: %s\n" ${board}
exit 1
fi
if [ ! -f "resources/coreboot/${board}/board.cfg" ]; then
printf "build/roms: Missing board.cfg for target: %s\n" ${board}
exit 1
fi
grub_scan_disk="undefined"
cbtree="undefined"
romtype="normal" # optional parameter in board.cfg. "normal" is default
arch="undefined"
# Disable all payloads by default.
# board.cfg files have to specifically enable [a] payload(s)
payload_grub="n"
payload_grub_withseabios="n" # seabios chainloaded from grub
payload_seabios="n"
payload_seabios_withgrub="n" # i386-coreboot grub from SeaBIOS boot menu
seabios_opromloadonly="0"
payload_memtest="n"
payload_uboot="n"
uboot_config="undefined"
# ditto option whether to compile ada in crossgcc:
crossgcc_ada="y" # yes by default
# Override the above defaults using board.cfg
. "resources/coreboot/${board}/board.cfg"
if [ "${grub_scan_disk}" = "undefined" ]; then
printf "build/roms: Target '%s' does not define grub_scan_disk. " \
${board}
printf "Defaulting to 'both'.\n"
grub_scan_disk="both"
fi
if [ "${grub_scan_disk}" != "both" ] && \
[ "${grub_scan_disk}" != "ata" ] && \
[ "${grub_scan_disk}" != "ahci" ]; then
printf "build/roms: Target '%s' defines bad grub_scan_disk option. " \
${board}
printf "Defaulting to 'both'.\n"
grub_scan_disk="both"
# erroring out would be silly. just use the default
fi
if [ "${cbtree}" = "undefined" ]; then
printf "build/roms: Target '%s' does not define a coreboot tree. " \
${board}
printf "Skipping build.\n"
exit 1
fi
if [ "${arch}" = "undefined" ]; then
printf "build/roms: Target '%s' does not define a CPU type. " \
${board}
printf "Skipping build.\n"
exit 1
fi
if [ "${seabios_opromloadonly}" != "0" ] && \
[ "${seabios_opromloadonly}" != "1" ]; then
seabios_opromloadonly="0"
fi
if [ "${payload_memtest}" != "n" ] && \
[ "${payload_memtest}" != "y" ]; then
payload_memtest="n"
fi
if [ "${payload_grub_withseabios}" = "y" ]; then
payload_grub="y"
fi
if [ "${payload_grub_withseabios}" = "y" ]; then
payload_seabios="y"
payload_seabios_withgrub="y"
fi
if [ "${payload_seabios_withgrub}" = "y" ]; then
payload_seabios="y"
fi
# NOTE: reverse logic must NOT be applied. If SeaBIOS-with-GRUB works, that
# doesn't necessarily mean GRUb-with-SeaBIOS will. For example, the board
# might have an external GPU, where it's recommended to boot SeaBIOS first
if [ "${payload_grub}" != "y" ] && [ "${payload_seabios}" != "y" ] \
&& [ "${payload_uboot}" != "y" ]; then
for configfile in "resources/coreboot/${board}/config/"*; do
if [ ! -e "${configfile}" ]; then
continue
fi
printf "ERROR build/roms: Target '%s' defines no payload. " \
${board}
printf "Exiting.\n"
exit 1
done
fi
if [ "${payload_uboot}" != "n" ] && \
[ "${payload_uboot}" != "y" ]; then
payload_uboot="n"
fi
if [ "${payload_uboot}" = "y" ] && \
[ "${uboot_config}" = "undefined" ]; then
uboot_config="default"
fi
# ada support needed for libgfxinit submodule
if [ "${crossgcc_ada}" != "y" ] && [ "${crossgcc_ada}" != "n" ]; then
crossgcc_ada="y"
fi
# Override all payload directives with cmdline args
# (do not override crossgcc_ada)
if [ ! -z ${payloads} ]; then
echo "setting payloads $payloads"
payload_grub="n"
payload_grub_withseabios="n" # seabios chainloaded from grub
payload_seabios="n"
payload_seabios_withgrub="n" # i386-coreboot grub from SeaBIOS menu
payload_uboot="n"
seabios_opromloadonly="0"
payload_memtest="n"
for payload in ${payloads} ; do
eval "payload_${payload}=y"
done
fi
romdir="bin/${board}"
cbdir="coreboot/${board}"
if [ "${board}" != "${cbtree}" ]; then
cbdir="coreboot/${cbtree}"
fi
cbfstool="cbutils/${cbtree}/cbfstool"
corebootrom="${cbdir}/build/coreboot.rom"
seavgabiosrom="payload/seabios/seavgabios.bin"
./build module cbutils ${cbtree} || exit 1
if [ ! -d "${cbdir}" ]; then
./download coreboot ${cbtree}
fi
cat version > "${cbdir}/.coreboot-version"
if [ "${crossgcc_ada}" = "n" ]; then
export BUILD_LANGUAGES=c
fi
if [ "${arch}" = "x86_32" ] || [ "${arch}" = "x86_64" ]; then
if [ ! -d "${cbdir}/util/crossgcc/xgcc/i386-elf/" ]; then
# Even for 64-bit machines, coreboot builds 32-bit ROM
# images, so we only need to worry about i386-elf
make -C "${cbdir}" crossgcc-i386 CPUS=$(nproc)
fi
case "$(uname -m)" in
x86*|i*86|amd64) : ;;
*) export CROSS_COMPILE=i386-elf- ;;
esac
elif [ "${arch}" = "ARMv7" ]; then
if [ ! -d "${cbdir}/util/crossgcc/xgcc/arm-eabi/" ]; then
make -C "${cbdir}" crossgcc-arm CPUS=$(nproc)
fi
case "$(uname -m)" in
arm|arm32|armv6*|armv7*) : ;;
*) export CROSS_COMPILE=arm-eabi- ;;
esac
elif [ "${arch}" = "AArch64" ]; then
if [ ! -d "${cbdir}/util/crossgcc/xgcc/aarch64-elf/" ]; then
make -C "${cbdir}" crossgcc-aarch64 CPUS=$(nproc)
fi
# aarch64 also needs armv7 toolchain for arm-trusted-firmware
if [ ! -d "${cbdir}/util/crossgcc/xgcc/arm-eabi/" ]; then
make -C "${cbdir}" crossgcc-arm CPUS=$(nproc)
fi
case "$(uname -m)" in
arm64|aarch64) : ;;
*) export CROSS_COMPILE=aarch64-elf- ;;
esac
fi
export PATH="$(pwd)/${cbdir}/util/crossgcc/xgcc/bin:$PATH"
if [ ! -f "${seavgabiosrom}" ] \
|| [ ! -f payload/seabios/seabios_libgfxinit.elf ] \
|| [ ! -f payload/seabios/seabios_vgarom.elf ] \
|| [ ! -f payload/seabios/seabios_normal.elf ]; then
if [ "${payload_seabios}" = "y" ]; then
./build payload seabios
elif [ "${payload_grub}" = "y" ] \
&& [ "${payload_grub_withseabios}" = "y" ]; then
./build payload seabios
fi
fi
if [ "${payload_memtest}" = "y" ]; then
if [ ! -f "memtest86plus/memtest" ]; then
./build module memtest86plus
fi
fi
[ -d "${romdir}/" ] || mkdir -p "${romdir}/"
rm -f "${romdir}"/*
if [ "${payload_grub}" = "y" ] \
|| [ "${payload_seabios_withgrub}" = "y" ]; then
if [ -f "payload/grub/grub_usqwerty.cfg" ]; then
sha1sumcmd="sha1sum resources/grub/config/grub.cfg"
grubrefchecksum="$(${sha1sumcmd} | awk '{print $1}')"
sha1sumcmd="sha1sum payload/grub/grub_usqwerty.cfg"
grubbuildchecksum="$(${sha1sumcmd} | awk '{print $1}')"
if [ "${grubrefchecksum}" != "${grubbuildchecksum}" ]; then
rm -Rf payload/grub/
printf "Changes detected to GRUB. Re-building now:\n"
fi
else
printf "Required GRUB payloads not yet built. Building now:\n"
rm -Rf payload/grub/ # just in case
fi
for keymapfile in ${kmapdir}/*; do
if [ ! -f "${keymapfile}" ]; then
continue
fi
keymap="${keymapfile##*/}"
keymap="${keymap%.gkb}"
grubelf="payload/grub/grub_${keymap}.elf"
grubcfg="payload/grub/grub_${keymap}.cfg"
grubtestcfg="payload/grub/grub_${keymap}_test.cfg"
if [ ! -f "${grubelf}" ] || [ ! -f "${grubcfg}" ] || \
[ ! -f "${grubtestcfg}" ]; then
./build payload grub
fi
done
fi
if [ "${payload_uboot}" = "y" ]; then
if [ "${uboot_config}" = "default" ]; then
ubdir="payload/u-boot/${board}"
else
ubdir="payload/u-boot/${board}/${uboot_config}"
fi
if [ -f "${ubdir}/u-boot.elf" ]; then
ubootelf="${ubdir}/u-boot.elf"
elif [ -f "${ubdir}/u-boot" ]; then
ubootelf="${ubdir}/u-boot"
else
printf "Required U-Boot payload not yet built. Building now\n"
rm -Rf "payload/u-boot/${board}" # just in case
./build payload u-boot "${board}"
fi
fi
# it is assumed that no other work will be done on the ROM
# after calling this function. therefore this function is "final"
moverom() {
rompath="$1"
newrompath="$2"
cuttype="$3"
printf "\nCreating new ROM image: %s\n" "${newrompath}"
if [ "${cuttype}" = "4MiB IFD BIOS region" ]; then
dd if=${rompath} of=${newrompath} bs=1 \
skip=$(($(stat -c %s ${rompath}) - 0x400000)) \
count=4194304
else
cp ${rompath} ${newrompath}
fi
for romsize in 4 8 16; do
ifdgbe="descriptors/ich9m/ich9fdgbe_${romsize}m.bin"
if [ "${cuttype}" = "${romsize}MiB ICH9 IFD NOR flash" ]; then
if [ ! -f "${ifdgbe}" ]; then
./build descriptors ich9m
fi
dd if=${ifdgbe} of=${newrompath} bs=1 count=12k \
conv=notrunc
fi
cmpstr="${romsize}MiB ICH9 IFD NOGBE NOR flash"
ifdgbe="descriptors/ich9m/ich9fdnogbe_${romsize}m.bin"
if [ "${cuttype}" = "${cmpstr}" ]; then
if [ ! -f "${ifdgbe}" ]; then
./build descriptors ich9m
fi
dd if=${ifdgbe} of=${newrompath} bs=1 count=4k \
conv=notrunc
fi
done
if [ "${cuttype}" = "i945 laptop" ]; then
dd if=${newrompath} of=top64k.bin bs=1 \
skip=$(($(stat -c %s ${newrompath}) - 0x10000)) \
count=64k
dd if=top64k.bin of=${newrompath} bs=1 \
seek=$(($(stat -c %s ${newrompath}) - 0x20000)) \
count=64k conv=notrunc
rm -f top64k.bin
fi
}
# expected: configs must not specify a payload
mkCoreboot() {
cbdir="${1}" # eg. coreboot/default
cbcfgpath="${2}" # eg. resources/coreboot/e6400nvidia_4mb/config/normal
if [ ! -f "${cbcfgpath}" ]; then
printf "\nmkCoreboot: coreboot config '%s' does not exist. " \
${cbcfgpath}
printf "Skipping build.\n"
return 0
fi
cat version > "${cbdir}/.coreboot-version"
(
if [ -f "${cbfstool}" ]; then
mv "${cbfstool}" "${cbdir}/cbfstool"
fi
cd "${cbdir}"
make distclean
cd -
if [ -f "${cbdir}/cbfstool" ]; then
mv "${cbdir}/cbfstool" "${cbfstool}"
fi
)
cp "${cbcfgpath}" "${cbdir}"/.config
(
cd "${cbdir}"
make -j$(nproc)
)
}
# make a rom in /tmp/ and then print the path of that ROM
mkSeabiosRom() {
target_cbrom="${1}" # rom to insert seabios in. will not be touched
# (a tmpfile will be made instead)
target_seabios_cbfs_path="${2}" # e.g. fallback/payload
target_opromloadonly="${3}" # TODO: purge (useless setting)
target_initmode="${4}" # e.g. libgfxinit
target_seabioself="payload/seabios/seabios_${target_initmode}.elf"
target_seavgabios_rom="payload/seabios/seavgabios.bin"
tmprom=$(mktemp -t coreboot_rom.XXXXXXXXXX)
cp "${target_cbrom}" "${tmprom}"
"${cbfstool}" "${tmprom}" add-payload -f "${target_seabioself}" \
-n ${target_seabios_cbfs_path} -c lzma || exit 1
"${cbfstool}" "${tmprom}" add-int -i 3000 -n etc/ps2-keyboard-spinup \
|| exit 1
if [ "${target_initmode}" = "normal" ] \
|| [ "${target_initmode}" = "libgfxinit" ]; then
"${cbfstool}" "${tmprom}" add-int -i 2 \
-n etc/pci-optionrom-exec || exit 1
elif [ "${target_initmode}" = "vgarom" ]; then # coreboot executes it
"${cbfstool}" "${tmprom}" add-int -i 0 \
-n etc/pci-optionrom-exec || exit 1
fi # for undefined modes, don't add this integer. use SeaBIOS defaults
"${cbfstool}" "${tmprom}" add-int -i 0 -n etc/optionroms-checksum \
|| exit 1
"${cbfstool}" "${tmprom}" add-int -i ${target_opromloadonly} \
-n etc/only-load-option-roms || exit 1
if [ "${target_initmode}" = "libgfxinit" ]; then
"${cbfstool}" "${tmprom}" add -f "${target_seavgabios_rom}" \
-n vgaroms/seavgabios.bin -t raw || exit 1
fi
printf "%s\n" "${tmprom}"
}
# make a rom in /tmp/ and then print the path of that ROM
mkUbootRom() {
target_cbrom="${1}" # rom to insert u-boot in. it won't be touched
# (a tmpfile will be made instead)
target_uboot_cbfs_path="${2}" # e.g. fallback/payload
target_uboot_config="${3}"
cbfstool_path="${4}"
if [ "${target_uboot_config}" = "default" ]; then
target_ubdir="payload/u-boot/${board}"
else
target_ubdir="payload/u-boot/${board}/${target_uboot_config}"
fi
if [ -f "${target_ubdir}/u-boot.elf" ]; then
target_ubootelf="${target_ubdir}/u-boot.elf"
elif [ -f "${target_ubdir}/u-boot" ]; then
target_ubootelf="${target_ubdir}/u-boot"
fi
tmprom=$(mktemp -t coreboot_rom.XXXXXXXXXX)
cp "${target_cbrom}" "${tmprom}"
"${cbfstool}" "${tmprom}" add-payload -f "${target_ubootelf}" \
-n ${target_uboot_cbfs_path} -c lzma || exit 1
printf "%s\n" "${tmprom}"
}
# make a rom in /tmp/ and then print the path of that ROM
mkGrubRom() {
target_keymap="${1}"
target_cbrom="${2}"
target_grubelf_cbfs_path="${3}" # e.g. fallback/payload
grubelf="payload/grub/grub_${target_keymap}.elf"
grubcfg="payload/grub/grub_${target_keymap}.cfg"
grubtestcfg="payload/grub/grub_${target_keymap}_test.cfg"
tmprom=$(mktemp -t coreboot_rom.XXXXXXXXXX) || exit 1
cp "${target_cbrom}" "${tmprom}" || exit 1
"${cbfstool}" "${tmprom}" add-payload -f "${grubelf}" \
-n ${target_grubelf_cbfs_path} -c lzma || exit 1
tmpgrubcfg=$(mktemp -t grub.cfg.XXXXXXXXXX)
tmpgrubtestcfg=$(mktemp -t grubtest.cfg.XXXXXXXXXX)
if [ "${grub_scan_disk}" = "ahci" ]; then
sed \
's/set\ grub_scan_disk=\"both\"/set\ grub_scan_disk=\"ahci\"/' \
"${grubcfg}" > "${tmpgrubcfg}"
sed \
's/set\ grub_scan_disk=\"both\"/set\ grub_scan_disk=\"ahci\"/' \
"${grubtestcfg}" > "${tmpgrubtestcfg}"
elif [ "${grub_scan_disk}" = "ata" ]; then
sed \
's/set\ grub_scan_disk=\"both\"/set\ grub_scan_disk=\"ata\"/' \
"${grubcfg}" > "${tmpgrubcfg}"
sed \
's/set\ grub_scan_disk=\"both\"/set\ grub_scan_disk=\"ata\"/' \
"${grubtestcfg}" > "${tmpgrubtestcfg}"
else
cp "${grubcfg}" "${tmpgrubcfg}"
cp "${grubtestcfg}" "${tmpgrubtestcfg}"
fi
"${cbfstool}" "${tmprom}" add -f "${tmpgrubcfg}" -n grub.cfg -t raw \
|| exit 1
"${cbfstool}" "${tmprom}" add -f "${tmpgrubtestcfg}" -n grubtest.cfg \
-t raw || exit 1
rm -f "${tmpgrubcfg}" "${tmpgrubtestcfg}"
backgroundfile="background1280x800.png"
if [ "${board}" = "x60" ] || [ "${board}" = "t60_intelgpu" ]; then
# TODO: don't hardcode this. do it in board.cfg per board
backgroundfile="background1024x768.png"
fi
backgroundfile="resources/grub/background/${backgroundfile}"
"${cbfstool}" "${tmprom}" add -f ${backgroundfile} -n background.png \
-t raw || exit 1
printf "%s\n" "${tmprom}"
}
# Make separate ROM images with GRUB payload, for each supported keymap
mkRomsWithGrub() {
tmprompath="${1}"
initmode="${2}"
displaymode="${3}"
firstpayloadname="${4}" # allow values: grub, seabios, seabios_withgrub
x=${tmprompath}
y=${seabios_opromloadonly}
z=${initmode}
if [ "${payload_grub_withseabios}" = "y" ] \
&& [ "${firstpayloadname}" = "grub" ]; then
mv "$(mkSeabiosRom "${x}" "seabios.elf" "${y}" "${z}")" \
"${tmprompath}"
elif [ "${payload_seabios_withgrub}" ] \
&& [ "${firstpayloadname}" != "grub" ]; then
mv "$(mkSeabiosRom "${x}" "fallback/payload" "$y" "$z")" \
"${tmprompath}"
fi
keymaps=""
if [ -z ${keyboard_layouts} ]; then
for kmapfile in "${kmapdir}"/*
do
keymaps="${keymaps} ${kmapfile}"
done
else
for keymapname in ${keyboard_layouts}; do
keymaps="${keymaps} ${kmapdir}/${keymapname}.gkb"
done
fi
for keymapfile in ${keymaps}; do
echo "keymaps is $keymaps, keymapfile is $keymapfile"
if [ ! -f "${keymapfile}" ]; then
continue
fi
keymap="${keymapfile##*/}"
keymap="${keymap%.gkb}"
grub_path_in_cbfs="fallback/payload"
if [ "${firstpayloadname}" != "grub" ]; then
grub_path_in_cbfs="img/grub2"
fi
# evil bofh rfc 2646 compliance hack
x=${keymap}
y=${tmprompath}
z=${grub_path_in_cbfs}
tmpgrubrom="$(mkGrubRom "${x}" "${y}" "${z}")"
if [ "${initmode}" = "normal" ]; then
newrompath="${romdir}/${firstpayloadname}_${board}_"
newrompath="${newrompath}${initmode}_${keymap}.rom"
else
newrompath="${romdir}/${firstpayloadname}_${board}_"
newrompath="${newrompath}${initmode}_${displaymode}_"
newrompath="${newrompath}${keymap}.rom"
fi
moverom "${tmpgrubrom}" "${newrompath}" "${romtype}"
rm -f "${tmpgrubrom}"
done
}
# Main ROM building function. This calls all other functions
mkRoms() {
cbcfgpath="${1}"
displaymode="${2}"
initmode="${3}"
if [ ! -f "${cbcfgpath}" ]; then
printf "'%s' does not exist. Skipping build for %s %s %s\n" \
${cbcfgpath} ${board} \
${displaymode} ${initmode}
return 0
fi
mkCoreboot "${cbdir}" "${cbcfgpath}"
if [ "${displaymode}" = "txtmode" ] \
&& [ "${payload_memtest}" = "y" ]; then
"${cbfstool}" "${corebootrom}" add-payload \
-f memtest86plus/memtest -n img/memtest \
-c lzma || exit 1
fi
if [ "${payload_seabios}" = "y" ]; then
if [ "${payload_seabios_withgrub}" = "n" ]; then
x=${corebootrom}
y=${seabios_opromloadonly}
z=${initmode}
t=$(mkSeabiosRom "$x" "fallback/payload" "$y" "$z")
if [ "${initmode}" = "normal" ]; then
newrompath="${romdir}/seabios_${board}_"
newrompath="${newrompath}${initmode}.rom"
else
newrompath="${romdir}/seabios_${board}_"
newrompath="${newrompath}${initmode}_"
newrompath="${newrompath}${displaymode}.rom"
fi
moverom "${t}" "${newrompath}" "${romtype}"
rm -f "${t}"
else
tmprom=$(mktemp -t coreboot_rom.XXXXXXXXXX)
cp "${corebootrom}" "${tmprom}"
mkRomsWithGrub "${tmprom}" "${initmode}" \
"${displaymode}" "seabios_withgrub"
rm -f "${tmprom}"
fi
fi
if [ "${payload_grub}" = "y" ]; then
mkRomsWithGrub "${corebootrom}" "${initmode}" \
"${displaymode}" "grub"
fi
if [ "${payload_uboot}" = "y" ]; then
x=${corebootrom}
y=${uboot_config}
z=${cbfstool}
tmpubootrom="$(mkUbootRom "$x" "fallback/payload" "$y" "$z")"
if [ "${initmode}" = "normal" ]; then
newrompath="${romdir}/uboot_payload_${board}_"
newrompath="${newrompath}${initmode}.rom"
else
newrompath="${romdir}/uboot_payload_${board}_"
newrompath="${newrompath}${initmode}_${displaymode}.rom"
fi
moverom "${tmpubootrom}" "${newrompath}" "${romtype}"
rm -f "${tmpubootrom}"
fi
}
if [ -z ${displaymodes} ]; then
initmode="libgfxinit"
for displaymode in corebootfb txtmode; do
cbcfgpath="resources/coreboot/${board}/config/${initmode}_"
cbcfgpath="${cbcfgpath}${displaymode}"
mkRoms "${cbcfgpath}" "${displaymode}" "${initmode}"
done
initmode="vgarom"
for displaymode in vesafb txtmode; do
cbcfgpath="resources/coreboot/${board}/config/${initmode}_"
cbcfgpath="${cbcfgpath}${displaymode}"
mkRoms "${cbcfgpath}" "${displaymode}" "${initmode}"
done
initmode="normal"
displaymode="txtmode"
cbcfgpath="resources/coreboot/${board}/config/${initmode}"
mkRoms "${cbcfgpath}" "${displaymode}" "${initmode}"
else
echo "special displaymode defined as $displaymodes"
initmode="libgfxinit"
for displaymode in ${displaymodes}; do
cbcfgpath="resources/coreboot/${board}/config/${initmode}_"
cbcfgpath="${cbcfgpath}${displaymode}"
mkRoms "${cbcfgpath}" "${displaymode}" "${initmode}"
done
initmode="vgarom"
for displaymode in ${displaymodes}; do
cbcfgpath="resources/coreboot/${board}/config/${initmode}_"
cbcfgpath="${cbcfgpath}${displaymode}"
mkRoms "${cbcfgpath}" "${displaymode}" "${initmode}"
done
fi
(
cd "${cbdir}"
make distclean
)