lbmk/script/roms

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#!/usr/bin/env sh
# SPDX-License-Identifier: GPL-3.0-or-later
# Copyright (c) 2014-2016,2020-2021,2023-2024 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 Riku Viitanen <riku.viitanen@protonmail.com>
set -u -e
. "include/lib.sh"
seavgabiosrom="elf/seabios/default/libgfxinit/vgabios.bin"
cfgsdir="config/coreboot"
rp2040src="src/pico-serprog"
rp2040x="$rp2040src/build/pico_serprog.uf2"
picosdk="src/pico-sdk"
stm32src="src/stm32-vserprog"
stm32x="$stm32src/stm32-vserprog.hex"
tmpcfg="$tmpdir/tmpcfg"
# Disable all payloads by default.
# target.cfg files have to specifically enable [a] payload(s)
pv="payload_uboot payload_grub_withseabios payload_seabios payload_memtest t"
pv="$pv payload_seabios_withgrub payload_seabios_grubonly payload_grub"
v="romdir cbrom initmode displaymode cbcfg targetdir tree release ubootelf"
v="$v grub_timeout board grub_scan_disk uboot_config grubtree grubelf tmpmv"
eval "$(setvars "n" $pv)"
eval "$(setvars "" $v boards targets serprogdir ser)"
main()
{
while [ $# -gt 0 ]; do
[ "$1" = "list" ] && eval "x_ ls -1 config/coreboot; return 0"
[ "$1" = "serprog" ] && shift && eval "mkserprog $@; return 0"
[ "$1" = "all" ] && shift && continue
boards="$1 $boards"; shift 1
done
[ -n "$boards" ] || boards="$(ls -1 config/coreboot)" || \
$err "Cannot generate list of boards for building"
for x in $boards; do
[ -d "config/coreboot/$x/config" ] && configure_target "$x" \
&& build_payloads && build_board && [ -d "bin/$board" ] \
&& targets="$targets, $x"; continue
done
# [ -z "$targets" ] && $err "No ROM images were compiled"
printf "Check these ROM directories in bin/: %s\n" "${targets#, }"
printf "DO NOT flash images from elf/ - use bin/ instead. ALSO:\n"
printf "%s\n" "$kbnotice"
}
mkserprog()
{
[ -z "${1+x}" ] && badcmd
[ "$1" != "rp2040" ] && [ "$1" != "stm32" ] && $err "bad command"
[ "$1" = "rp2040" ] && serprogdir="$picosdk/src/boards/include/boards"
[ "$1" = "stm32" ] && serprogdir="$stm32src/boards"
eval "[ -d \"\$${1}src\" ] || x_ ./update trees -f \"\${${1}src##*/}\""
x_ mkdir -p "bin/serprog_$1"
[ $# -gt 1 ] && [ "$2" = "list" ] && serlist "$serprogdir" && return 0
ser="$1" && shift
targets="$@" && [ -z "$targets" ] && targets="$(serlist "$serprogdir")"
for board in $targets; do
mkserprogfw "$ser" "$board"
done
[ "$xbmk_release" = "y" ] && mkrom_tarball "bin/serprog_$1"; return 0
}
mkserprogfw()
{
if [ "$1" = "rp2040" ]; then
x_ cmake -DPICO_BOARD="$2" -DPICO_SDK_PATH="$picosdk" \
-B "$rp2040src/build" "$rp2040src"
x_ cmake --build "$rp2040src/build"
else
x_ make -C "$stm32src" libopencm3-just-make BOARD=$2
x_ make -C "$stm32src" BOARD=$2
fi
eval "x_ mv \"\$${1}x\" \"bin/serprog_$1/serprog_$2.\${${1}x##*.}\""
printf "Look in bin/serprog_%s/ for images\n" "$1"
}
serlist()
{
basename -a -s .h "$1/"*.h || $err "$1: can't list boards"
}
configure_target()
{
eval "$(setvars "n" $pv) $(setvars "" $v)"
board="$1"
targetdir="$cfgsdir/$board"
[ -f "$targetdir/target.cfg" ] || $err "$board: target.cfg missing"
# Override the above defaults using target.cfg
. "$targetdir/target.cfg"
[ -z "$grub_scan_disk" ] && grub_scan_disk="nvme ahci ata"
make GRUB multi-tree and re-add xhci patches Re-add xHCI only on haswell and broadwell machines, where they are needed. Otherwise, keep the same GRUB code. The xHCI patches were removed because they caused issues on Sandybridge-based Dell Latitude laptops. See: https://codeberg.org/libreboot/lbmk/issues/216 The issue was not reported elsewhere, including on the Haswell/Broadwell hardware where they are needed, but the build system could only build one version of GRUB. The older machines do not need xHCI patches, because they either do not have xHCI patches, or work (in GRUB) because they're in EHCI mode when running the payload. So, the problem is that we need the xHCI patches for GRUB on Haswell/Broadwell hardware, but the patches break Sandybridge hardware, and we only had the one build of GRUB. To mitigate this problem, the build system now supports building multiple revisions of GRUB, with different patches, and each given coreboot target can say which GRUB tree to use by setting this in target.cfg: grubtree="xhci" In the above example, the "xhci" tree would be used. Some generic GRUB config has been moved to config/data/grub/ and config/grub/ now looks like config/coreboot/ - also, the grub.cfg file (named "payload" in each tree) is copied to the GRUB source tree as ".config", then added to GRUB's memdisk in the same way, as grub.cfg. Several other design changes had to be made because of this: * grub.cfg in memdisk no longer automatically jumps to one in CBFS, but now shows a menuentry for it if available * Certain commands in script/trees are disabled for GRUB, such as *config make commands. * gnulib is now defined in config/submodule/grub/, instead of config/git/grub - and this mitigates an existing bug where downloading gnulib first would make grub no longer possible to download in lbmk. The coreboot option CONFIG_FINALIZE_USB_ROUTE_XHCI has been re-enabled on: Dell OptiPlex 9020 MT, Dell OptiPlex 9020 SFF, Lenovo ThinkPad T440p and Lenovo ThinkPad W541 - now USB should work again in GRUB. The GRUB payload has been re-enabled on HP EliteBook 820 G2. This change will enable per-board GRUB optimisation in the future. For example, we hardcode what partitions and LVMs GRUB scans because * is slow on ICH7-based machines, due to GRUB's design. On other machines, * is reasonably fast, for automatically enumerating the list of devices for boot. Use of * (and other wildcards) could enable our GRUB payload to automatically boot more distros, with minimal fuss. This can be done at a later date, in subsequent revisions. Signed-off-by: Leah Rowe <leah@libreboot.org>
2024-06-01 22:01:30 +00:00
[ -n "$grubtree" ] || grubtree="default"
grubelf="elf/grub/$grubtree/payload/grub.elf"
safer, simpler error handling in lbmk in shell scripts, a function named the same as a program included in the $PATH will override that program. for example, you could make a function called ls() and this would override the standand "ls". in lbmk, a part of it was first trying to run the "fail" command, deferring to "err", because some scripts call fail() which does some minor cleanup before calling err. in most cases, fail() is not defined, and it's possible that the user could have a program called "fail" in their $PATH, the behaviour of which we could not determine, and it could have disastrous effects. lbmk error handling has been re-engineered in such a way that the err function is defined in a variable, which defaults to err_ which calls err_, so defined under include/err.sh. in functions that require cleanup prior to error handling, a fail() function is still defined, and err is overridden, thus: err="fail" this change has made xx_() obsolete, so now only x_ is used. the x_ function is a wrapper that can be used to run a command and exit with non-zero status (from lbmk) if the command fails. the xx_ command did the same thing, but called fail() which would have called err(); now everything is $err example: rm -f "$filename" || err "could not delete file" this would now be: rm -f "$filename" || $err "could not delete file" overriding of err= must be done *after* including err.sh. for example: err="fail" . "include/err.sh" ^ this is wrong. instead, one must do: . "include/err.sh" err="fail" this is because err is set as a global variable under err.sh the new error handling is much cleaner, and safer. it also reduces the chance of mistakes such as: calling err when you meant to call fail. this is because the standard way is now to call $err, so you set err="fail" at the top of the script and all is well. Signed-off-by: Leah Rowe <leah@libreboot.org>
2024-03-27 01:19:39 +00:00
[ -z "$tree" ] && $err "$board: tree not defined"
[ "$payload_memtest" != "y" ] && payload_memtest="n"
[ "$(uname -m)" = "x86_64" ] || payload_memtest="n"
[ "$payload_grub_withseabios" = "y" ] && eval "$(setvars "y" \
payload_grub payload_seabios payload_seabios_withgrub)"
[ "$payload_seabios_withgrub" = "y" ] && payload_seabios="y"
[ "$payload_seabios_grubonly" = "y" ] && \
eval "$(setvars "y" payload_seabios payload_seabios_withgrub)"
# The reverse logic must not be applied. If SeaBIOS-with-GRUB works,
# that doesn't mean GRUB-with-SeaBIOS will, e.g. VGA ROM execution
[ "$payload_grub" != "y" ] && [ "$payload_seabios" != "y" ] && \
[ "$payload_uboot" != "y" ] && $err "'$board' defines no payload"
[ "$payload_uboot" = "y" ] || payload_uboot="n"
[ -n "$uboot_config" ] || uboot_config="default"
[ "$xbmk_release" = "y" ] && [ "$release" = "n" ] && return 1
[ "$board" = "$tree" ] && return 1; return 0
}
build_payloads()
{
romdir="bin/$board"
cbdir="src/coreboot/$board"
[ "$board" = "$tree" ] || cbdir="src/coreboot/$tree"
cbfstool="elf/cbfstool/$tree/cbfstool"
cbrom="$cbdir/build/coreboot.rom"
[ -f "$cbfstool" ] || x_ ./update trees -b coreboot utils $tree
[ "$payload_memtest" = "y" ] && x_ ./update trees -b memtest86plus
[ "$payload_seabios" = "y" ] && x_ ./update trees -b seabios
if [ "$payload_grub" = "y" ] || [ "$payload_seabios_withgrub" = "y" ] \
|| [ "$payload_seabios_grubonly" = "y" ]; then
[ -f "$grubelf" ] || x_ ./update trees -b grub $grubtree
fi
[ "$payload_uboot" = "y" ] || return 0
x_ ./update trees -b u-boot $board
ubdir="elf/u-boot/$board/$uboot_config"
ubootelf="$ubdir/u-boot.elf" && [ ! -f "$ubootelf" ] && \
ubootelf="$ubdir/u-boot"
[ -f "$ubootelf" ] || $err "$board: Can't find u-boot"; return 0
}
build_board()
{
x_ rm -Rf "$romdir"
for it in "normal" "vgarom" "libgfxinit"; do
initmode="$it"
hmode="vesafb"
[ "$initmode" = "vgarom" ] || hmode="corebootfb"
modes="$hmode txtmode"
for y in $modes; do
displaymode="$y"
[ "$initmode" = "normal" ] && \
[ "$displaymode" != "txtmode" ] && continue
cbcfg="$targetdir/config/${initmode}_$displaymode"
[ "$initmode" = "normal" ] && cbcfg="${cbcfg%_*}"
e "$cbcfg" f not || build_roms; x_ rm -f "$cbrom"
done
done
}
build_roms()
{
x_ ./update trees -b coreboot $board
_cbrom="$cbelfdir/$board/${initmode}_$displaymode"
[ "$initmode" = "normal" ] && _cbrom="${_cbrom%"_$displaymode"}"
_cbrom="$_cbrom/coreboot.rom"
cbrom="$(mktemp -t coreboot_rom.XXXXXXXXXX)"
x_ cp "$_cbrom" "$cbrom"
[ "$payload_memtest" != "y" ] || cbfs "$cbrom"
"elf/memtest86plus/memtest.bin" img/memtest
[ "$payload_seabios" = "y" ] && build_seabios_roms
[ "$payload_grub" != "y" ] || build_grub_roms "$cbrom" "grub"
[ "$payload_uboot" = "y" ] || return 0
x_ cp "$_cbrom" "$cbrom"
build_uboot_roms
}
build_seabios_roms()
{
if [ "$payload_seabios_withgrub" = "y" ]; then
t="$(mktemp -t coreboot_rom.XXXXXXXXXX)"
x_ cp "$cbrom" "$t"
build_grub_roms "$t" "seabios_withgrub"
else
t="$(mkSeabiosRom "$cbrom" "fallback/payload")" || \
safer, simpler error handling in lbmk in shell scripts, a function named the same as a program included in the $PATH will override that program. for example, you could make a function called ls() and this would override the standand "ls". in lbmk, a part of it was first trying to run the "fail" command, deferring to "err", because some scripts call fail() which does some minor cleanup before calling err. in most cases, fail() is not defined, and it's possible that the user could have a program called "fail" in their $PATH, the behaviour of which we could not determine, and it could have disastrous effects. lbmk error handling has been re-engineered in such a way that the err function is defined in a variable, which defaults to err_ which calls err_, so defined under include/err.sh. in functions that require cleanup prior to error handling, a fail() function is still defined, and err is overridden, thus: err="fail" this change has made xx_() obsolete, so now only x_ is used. the x_ function is a wrapper that can be used to run a command and exit with non-zero status (from lbmk) if the command fails. the xx_ command did the same thing, but called fail() which would have called err(); now everything is $err example: rm -f "$filename" || err "could not delete file" this would now be: rm -f "$filename" || $err "could not delete file" overriding of err= must be done *after* including err.sh. for example: err="fail" . "include/err.sh" ^ this is wrong. instead, one must do: . "include/err.sh" err="fail" this is because err is set as a global variable under err.sh the new error handling is much cleaner, and safer. it also reduces the chance of mistakes such as: calling err when you meant to call fail. this is because the standard way is now to call $err, so you set err="fail" at the top of the script and all is well. Signed-off-by: Leah Rowe <leah@libreboot.org>
2024-03-27 01:19:39 +00:00
$err "build_seabios_roms: cannot build tmprom"
newrom="$romdir/seabios_${board}_${initmode}_$displaymode"
[ "$initmode" = "normal" ] && newrom="$romdir/seabios" \
&& newrom="${newrom}_${board}_$initmode"
cprom cp "$t" "$newrom.rom"
fi
x_ rm -f "$t"
}
# Make separate ROM images with GRUB payload
build_grub_roms()
{
tmprom="$1"
payload1="$2" # allow values: grub, seabios, seabios_withgrub
grub_cbfs="fallback/payload"
if [ "$payload1" = "grub" ] && [ "$payload_grub_withseabios" = "y" ]
then
tmpmv="$(mkSeabiosRom "$tmprom" "seabios.elf")" || \
safer, simpler error handling in lbmk in shell scripts, a function named the same as a program included in the $PATH will override that program. for example, you could make a function called ls() and this would override the standand "ls". in lbmk, a part of it was first trying to run the "fail" command, deferring to "err", because some scripts call fail() which does some minor cleanup before calling err. in most cases, fail() is not defined, and it's possible that the user could have a program called "fail" in their $PATH, the behaviour of which we could not determine, and it could have disastrous effects. lbmk error handling has been re-engineered in such a way that the err function is defined in a variable, which defaults to err_ which calls err_, so defined under include/err.sh. in functions that require cleanup prior to error handling, a fail() function is still defined, and err is overridden, thus: err="fail" this change has made xx_() obsolete, so now only x_ is used. the x_ function is a wrapper that can be used to run a command and exit with non-zero status (from lbmk) if the command fails. the xx_ command did the same thing, but called fail() which would have called err(); now everything is $err example: rm -f "$filename" || err "could not delete file" this would now be: rm -f "$filename" || $err "could not delete file" overriding of err= must be done *after* including err.sh. for example: err="fail" . "include/err.sh" ^ this is wrong. instead, one must do: . "include/err.sh" err="fail" this is because err is set as a global variable under err.sh the new error handling is much cleaner, and safer. it also reduces the chance of mistakes such as: calling err when you meant to call fail. this is because the standard way is now to call $err, so you set err="fail" at the top of the script and all is well. Signed-off-by: Leah Rowe <leah@libreboot.org>
2024-03-27 01:19:39 +00:00
$err "build_grub_roms 1 $board: can't build tmprom"
elif [ "$payload1" != "grub" ] && [ "$payload_seabios_withgrub" = "y" ]
then
grub_cbfs="img/grub2"
tmpmv="$(mkSeabiosRom "$tmprom" fallback/payload)" || \
safer, simpler error handling in lbmk in shell scripts, a function named the same as a program included in the $PATH will override that program. for example, you could make a function called ls() and this would override the standand "ls". in lbmk, a part of it was first trying to run the "fail" command, deferring to "err", because some scripts call fail() which does some minor cleanup before calling err. in most cases, fail() is not defined, and it's possible that the user could have a program called "fail" in their $PATH, the behaviour of which we could not determine, and it could have disastrous effects. lbmk error handling has been re-engineered in such a way that the err function is defined in a variable, which defaults to err_ which calls err_, so defined under include/err.sh. in functions that require cleanup prior to error handling, a fail() function is still defined, and err is overridden, thus: err="fail" this change has made xx_() obsolete, so now only x_ is used. the x_ function is a wrapper that can be used to run a command and exit with non-zero status (from lbmk) if the command fails. the xx_ command did the same thing, but called fail() which would have called err(); now everything is $err example: rm -f "$filename" || err "could not delete file" this would now be: rm -f "$filename" || $err "could not delete file" overriding of err= must be done *after* including err.sh. for example: err="fail" . "include/err.sh" ^ this is wrong. instead, one must do: . "include/err.sh" err="fail" this is because err is set as a global variable under err.sh the new error handling is much cleaner, and safer. it also reduces the chance of mistakes such as: calling err when you meant to call fail. this is because the standard way is now to call $err, so you set err="fail" at the top of the script and all is well. Signed-off-by: Leah Rowe <leah@libreboot.org>
2024-03-27 01:19:39 +00:00
$err "build_grub_roms 2 $board: can't build tmprom"
fi
[ -n "$tmpmv" ] && [ -f "$tmpmv" ] && x_ mv "$tmpmv" "$tmprom"
# we only need insert grub.elf once, for each coreboot config:
cbfs "$tmprom" "$grubelf" "$grub_cbfs"
printf "set grub_scan_disk=\"%s\"\n" "$grub_scan_disk" > "$tmpcfg" || \
$err "set grub_scan_disk, $grub_scan_disk, $tmpcfg"
cbfs "$tmprom" "$tmpcfg" scan.cfg raw
printf "set timeout=%s\n" "$grub_timeout" > "$tmpcfg" || $err "!time"
[ -z "$grub_timeout" ] || cbfs "$tmprom" "$tmpcfg" timeout.cfg raw
newrom="$romdir/${payload1}_${board}_${initmode}_$displaymode.rom"
[ "$initmode" = "normal" ] && newrom="$romdir/${payload1}_" \
&& newrom="$newrom${board}_$initmode.rom"
cprom cp "$tmprom" "$newrom"
if [ "$payload_seabios_withgrub" = "y" ] && \
[ "$payload1" != "grub" ]; then
cbfs "$tmprom" "$grubdata/bootorder" bootorder raw
cprom cp "$tmprom" "${newrom%.rom}_grubfirst.rom"
if [ "$payload_seabios_grubonly" = "y" ]; then
x_ "$cbfstool" "$tmprom" add-int -i 0 \
-n etc/show-boot-menu
cprom cp "$tmprom" "${newrom%.rom}_grubonly.rom"
fi
fi
}
# make a rom in /tmp/ and then print the path of that ROM
mkSeabiosRom() {
tmprom="$(mktemp -t coreboot_rom.XXXXXXXXXX)" # 1=cbrom, 2=cbfs path
_seabioself="elf/seabios/default/$initmode/bios.bin.elf"
x_ cp "$1" "$tmprom"
cbfs "$tmprom" "$_seabioself" "$2"
x_ "$cbfstool" "$tmprom" add-int -i 3000 -n etc/ps2-keyboard-spinup
z="2"; [ "$initmode" = "vgarom" ] && z="0"
x_ "$cbfstool" "$tmprom" add-int -i $z -n etc/pci-optionrom-exec
x_ "$cbfstool" "$tmprom" add-int -i 0 -n etc/optionroms-checksum
[ "$initmode" != "libgfxinit" ] || cbfs "$tmprom" "$seavgabiosrom" \
vgaroms/seavgabios.bin raw
printf "%s\n" "$tmprom"
}
build_uboot_roms()
{
tmprom="$(mktemp -t coreboot_rom.XXXXXXXXXX)"
newrom="$romdir/uboot_payload_${board}_${initmode}_$displaymode.rom"
x_ cp "$cbrom" "$tmprom"
cbfs "$tmprom" "$ubootelf" "fallback/payload"
cprom mv "$tmprom" "$newrom"
}
cprom()
{
printf "Creating target image: %s\n" "$3"
x_ mkdir -p "${3%/*}"
x_ $1 "$2" "$3"
[ "$xbmk_release" = "y" ] && mksha512sum "$3" "vendorhashes" && \
x_ ./vendor inject -r "$3" -b "$board" -n nuke; return 0
}
main $@