Files
lbmk/include/vendor.sh
T
Leah Rowe 9884e5ed1b T480/T480S: Support fetching ThunderBolt firmware
Though not used in coreboot builds, and not injected into the
builds in any way, these files are now created seperately when
handling T480/T480s vendor files:

vendorfiles/t480/tb.bin
vendorfiles/t480s/tb.bin

These are created by extracting Lenovo's ThunderBolt firmware
from update files. The updated firmware fixes a bug; older firmware
enabled debug commands that wrote logs to the TB controller's
own flash IC, and it'd get full up with logs, bricking the controller.
If you've already been screwed by this, you must flash externally,
using a padded firmware from Lenovo's updates.

Lenovo's own updater requires creating a boot CD or booting
Windows. This patch in lbmk auto-downloads just the firmware,
and you can flash it externally.

You could simply do this as a matter of course, when installing
Libreboot. You are recommended to update the Lenovo UEFI/EC firmwares
first, before installing Libreboot; please look at the Libreboot
documentation to know exactly which versions.

Then dump the ThunderBolt firmware first, to be sure, and then you
can flash these files. Flashing these updates will prevent the bug
described here:

https://pcsupport.lenovo.com/us/en/products/laptops-and-netbooks/thinkpad-t-series-laptops/thinkpad-t480-type-20l5-20l6/20l5/solutions/ht508988

You can download Lenovo's installers for various ThinkPad models
there, including T480s/T480s. It is these downloads that this lbmk
patch uses, to extract those files directly.

Signed-off-by: Leah Rowe <leah@libreboot.org>
2024-12-18 02:28:29 +00:00

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# SPDX-License-Identifier: GPL-3.0-only
# Copyright (c) 2022 Caleb La Grange <thonkpeasant@protonmail.com>
# Copyright (c) 2022 Ferass El Hafidi <vitali64pmemail@protonmail.com>
# Copyright (c) 2023-2024 Leah Rowe <leah@libreboot.org>
e6400_unpack="$PWD/src/bios_extract/dell_inspiron_1100_unpacker.py"
me7updateparser="$PWD/util/me7_update_parser/me7_update_parser.py"
pfs_extract="$PWD/src/biosutilities/Dell_PFS_Extract.py"
uefiextract="$PWD/elf/uefitool/uefiextract"
vendir="vendorfiles"
appdir="$vendir/app"
cbcfgsdir="config/coreboot"
cv="CONFIG_HAVE_ME_BIN CONFIG_ME_BIN_PATH CONFIG_INCLUDE_SMSC_SCH5545_EC_FW \
CONFIG_SMSC_SCH5545_EC_FW_FILE CONFIG_KBC1126_FIRMWARE CONFIG_KBC1126_FW1 \
CONFIG_KBC1126_FW2 CONFIG_KBC1126_FW1_OFFSET CONFIG_KBC1126_FW2_OFFSET \
CONFIG_VGA_BIOS_FILE CONFIG_VGA_BIOS_ID CONFIG_BOARD_DELL_E6400 \
CONFIG_HAVE_MRC CONFIG_MRC_FILE CONFIG_HAVE_REFCODE_BLOB \
CONFIG_REFCODE_BLOB_FILE CONFIG_GBE_BIN_PATH CONFIG_IFD_BIN_PATH \
CONFIG_LENOVO_TBFW_BIN"
eval `setvars "" EC_url_bkup EC_hash DL_hash DL_url_bkup MRC_refcode_gbe vcfg \
E6400_VGA_DL_hash E6400_VGA_DL_url E6400_VGA_DL_url_bkup E6400_VGA_offset \
E6400_VGA_romname SCH5545EC_DL_url_bkup SCH5545EC_DL_hash _dest tree \
mecleaner kbc1126_ec_dump MRC_refcode_cbtree new_mac _dl SCH5545EC_DL_url \
archive EC_url boarddir rom cbdir DL_url nukemode cbfstoolref vrelease \
verify _7ztest ME11bootguard ME11delta ME11version ME11sku ME11pch \
IFD_platform ifdprefix cdir sdir _me _metmp mfs TBFW_url_bkup TBFW_url \
TBFW_hash $cv`
vendor_download()
{
[ $# -gt 0 ] || $err "No argument given"; export PATH="$PATH:/sbin"
board="$1"; readcfg && readkconfig && bootstrap && getfiles; :
}
readkconfig()
{
check_defconfig "$boarddir" 1>"$TMPDIR/vendorcfg.list" && return 1
rm -f "$TMPDIR/tmpcbcfg" || $err "!rm -f \"$TMPDIR/tmpcbcfg\""
while read -r cbcfgfile; do
for cbc in $cv; do
rm -f "$TMPDIR/tmpcbcfg2" || \
$err "!rm $TMPDIR/tmpcbcfg2"
grep "$cbc" "$cbcfgfile" 1>"$TMPDIR/tmpcbcfg2" \
2>/dev/null || :
[ -f "$TMPDIR/tmpcbcfg2" ] || continue
cat "$TMPDIR/tmpcbcfg2" >> "$TMPDIR/tmpcbcfg" || \
$err "!cat $TMPDIR/tmpcbcfg2"
done
done < "$TMPDIR/vendorcfg.list"
eval `setcfg "$TMPDIR/tmpcbcfg"`
for c in CONFIG_HAVE_MRC CONFIG_HAVE_ME_BIN CONFIG_KBC1126_FIRMWARE \
CONFIG_VGA_BIOS_FILE CONFIG_INCLUDE_SMSC_SCH5545_EC_FW \
CONFIG_LENOVO_TBFW_BIN; do
eval "[ \"\${$c}\" = \"/dev/null\" ] && continue"
eval "[ -z \"\${$c}\" ] && continue"
eval `setcfg "config/vendor/$vcfg/pkg.cfg"`; return 0
done
printf "Vendor files not needed for: %s\n" "$board" 1>&2; return 1
}
bootstrap()
{
x_ ./mk -f coreboot ${cbdir##*/}
mk -b uefitool biosutilities bios_extract
[ -d "${kbc1126_ec_dump%/*}" ] && x_ make -C "$cbdir/util/kbc1126"
[ -n "$MRC_refcode_cbtree" ] && \
cbfstoolref="elf/cbfstool/$MRC_refcode_cbtree/cbfstool" && \
x_ ./mk -d coreboot $MRC_refcode_cbtree; return 0
}
getfiles()
{
[ -z "$CONFIG_HAVE_ME_BIN" ] || fetch intel_me "$DL_url" \
"$DL_url_bkup" "$DL_hash" "$CONFIG_ME_BIN_PATH"
[ -z "$CONFIG_INCLUDE_SMSC_SCH5545_EC_FW" ] || fetch sch5545ec \
"$SCH5545EC_DL_url" "$SCH5545EC_DL_url_bkup" "$SCH5545EC_DL_hash" \
"$CONFIG_SMSC_SCH5545_EC_FW_FILE"
[ -z "$CONFIG_KBC1126_FIRMWARE" ] || fetch kbc1126ec "$EC_url" \
"$EC_url_bkup" "$EC_hash" "$CONFIG_KBC1126_FW1"
[ -z "$CONFIG_VGA_BIOS_FILE" ] || fetch e6400vga "$E6400_VGA_DL_url" \
"$E6400_VGA_DL_url_bkup" "$E6400_VGA_DL_hash" "$CONFIG_VGA_BIOS_FILE"
[ -z "$CONFIG_HAVE_MRC" ] || fetch "mrc" "$MRC_url" "$MRC_url_bkup" \
"$MRC_hash" "$CONFIG_MRC_FILE"
[ -z "$CONFIG_LENOVO_TBFW_BIN" ] || fetch "tbfw" "$TBFW_url" \
"$TBFW_url_bkup" "$TBFW_hash" "$CONFIG_LENOVO_TBFW_BIN"; return 0
}
fetch()
{
dl_type="$1"; dl="$2"; dl_bkup="$3"; dlsum="$4"; _dest="${5##*../}"
[ "$5" = "/dev/null" ] && return 0; _dl="$XBMK_CACHE/file/$dlsum"
download "$dl" "$dl_bkup" "$_dl" "$dlsum"
rm -Rf "${_dl}_extracted" || $err "!rm -Rf ${_ul}_extracted"
e "$_dest" f && return 0
mkdir -p "${_dest%/*}" || $err "mkdirs: !mkdir -p ${_dest%/*}"
remkdir "$appdir"; extract_archive "$_dl" "$appdir" || \
[ "$dl_type" = "e6400vga" ] || $err "mkd $_dest $dl_type: !extract"
eval "extract_$dl_type"; set -u -e
e "$_dest" f missing && $err "!extract_$dl_type"; :
}
extract_intel_me()
{
e "$mecleaner" f not && $err "$cbdir: me_cleaner missing"
cdir="$PWD/$appdir"
_me="$PWD/$_dest"
_metmp="$PWD/tmp/me.bin"
mfs="" && [ "$ME11bootguard" = "y" ] && mfs="--whitelist MFS" && \
chkvars ME11delta ME11version ME11sku ME11pch
[ "$ME11bootguard" = "y" ] && x_ ./mk -f deguard
x_ mkdir -p tmp
extract_intel_me_bruteforce
if [ "$ME11bootguard" = "y" ]; then
apply_me11_deguard_mod
else
mv "$_metmp" "$_me" || $err "!mv $_metmp" "$_me"
fi
}
extract_intel_me_bruteforce()
{
[ $# -gt 0 ] && cdir="$1"
e "$_metmp" f && return 0
[ -z "$sdir" ] && sdir="$(mktemp -d)"
mkdir -p "$sdir" || $err "extract_intel_me: !mkdir -p \"$sdir\""
set +u +e
(
[ "${cdir#/a}" != "$cdir" ] && cdir="${cdir#/}"
cd "$cdir" || $err "extract_intel_me: !cd \"$cdir\""
for i in *; do
[ -f "$_metmp" ] && break
[ -L "$i" ] && continue
if [ -f "$i" ]; then
_r="-r" && [ -n "$mfs" ] && _r=""
"$mecleaner" $mfs $_r -t -O "$sdir/vendorfile" \
-M "$_metmp" "$i" && break
"$mecleaner" $mfs $_r -t -O "$_metmp" "$i" && break
"$me7updateparser" -O "$_metmp" "$i" && break
_7ztest="${_7ztest}a"
extract_archive "$i" "$_7ztest" || continue
extract_intel_me_bruteforce "$cdir/$_7ztest"
elif [ -d "$i" ]; then
extract_intel_me_bruteforce "$cdir/$i"
else
continue
fi
cdir="$1"; [ "${cdir#/a}" != "$cdir" ] && cdir="${cdir#/}"
cd "$cdir" || :
done
)
rm -Rf "$sdir" || $err "extract_intel_me: !rm -Rf $sdir"
}
apply_me11_deguard_mod()
{
(
x_ cd src/deguard/
./finalimage.py --delta "data/delta/$ME11delta" \
--version "$ME11version" \
--pch "$ME11pch" --sku "$ME11sku" --fake-fpfs data/fpfs/zero \
--input "$_metmp" --output "$_me" || \
$err "Error running deguard for $_me"
) || $err "Error running deguard for $_me"
}
extract_archive()
{
geteltorito "$1" > "$2/vendor.img" || \
innoextract "$1" -d "$2" || python "$pfs_extract" "$1" -e || 7z x \
"$1" -o"$2" || unar "$1" -o "$2" || unzip "$1" -d "$2" || return 1
[ ! -d "${_dl}_extracted" ] || cp -R "${_dl}_extracted" "$2" || \
$err "!mv '${_dl}_extracted' '$2'"; :
}
extract_kbc1126ec()
{
e "$kbc1126_ec_dump" f missing && $err "$cbdir: kbc1126 util missing"
(
x_ cd "$appdir/"; mv Rompaq/68*.BIN ec.bin || :
if [ ! -f "ec.bin" ]; then
unar -D ROM.CAB Rom.bin || unar -D Rom.CAB Rom.bin || \
unar -D 68*.CAB Rom.bin || $err "can't extract Rom.bin"
x_ mv Rom.bin ec.bin
fi
[ -f ec.bin ] || $err "extract_kbc1126_ec $board: can't extract"
"$kbc1126_ec_dump" ec.bin || $err "!1126ec $board extract ecfw"
) || $err "can't extract kbc1126 ec firmware"
e "$appdir/ec.bin.fw1" f not && $err "$board: kbc1126ec fetch failed"
e "$appdir/ec.bin.fw2" f not && $err "$board: kbc1126ec fetch failed"
cp "$appdir/"ec.bin.fw* "${_dest%/*}/" || $err "!cp 1126ec $_dest"
}
extract_e6400vga()
{
set +u +e
chkvars E6400_VGA_offset E6400_VGA_romname
tail -c +$E6400_VGA_offset "$_dl" | gunzip > "$appdir/bios.bin" || :
(
x_ cd "$appdir"
[ -f "bios.bin" ] || $err "extract_e6400vga: can't extract bios.bin"
"$e6400_unpack" bios.bin || printf "TODO: fix dell extract util\n"
) || $err "can't extract e6400 vga rom"
cp "$appdir/$E6400_VGA_romname" "$_dest" || \
$err "extract_e6400vga $board: can't copy vga rom to $_dest"
}
extract_sch5545ec()
{
# full system ROM (UEFI), to extract with UEFIExtract:
_bios="${_dl}_extracted/Firmware/1 $dlsum -- 1 System BIOS vA.28.bin"
# this is the SCH5545 firmware, inside of the extracted UEFI ROM:
_sch5545ec_fw="$_bios.dump/4 7A9354D9-0468-444A-81CE-0BF617D890DF"
_sch5545ec_fw="$_sch5545ec_fw/54 D386BEB8-4B54-4E69-94F5-06091F67E0D3"
_sch5545ec_fw="$_sch5545ec_fw/0 Raw section/body.bin" # <-- this!
"$uefiextract" "$_bios" || $err "sch5545 !extract"
cp "$_sch5545ec_fw" "$_dest" || $err "$_dest: !sch5545 copy"
}
# Lenovo ThunderBolt firmware updates:
# https://pcsupport.lenovo.com/us/en/products/laptops-and-netbooks/thinkpad-t-series-laptops/thinkpad-t480-type-20l5-20l6/20l5/solutions/ht508988
extract_tbfw()
{
x_ mkdir -p tmp
find "$appdir" -type f -name "TBT.bin" > "tmp/tb.txt" || \
$err "extract_tbfw $_dest: Can't extract TBT.bin"
while read -r f; do
[ -f "$f" ] || continue
[ -L "$f" ] && continue
cp "$f" "tmp/tb.bin" || \
$err "extract_tbfw $_dest: Can't copy TBT.bin"
break
done < "tmp/tb.txt"
dd if=/dev/null of=tmp/tb.bin bs=1 seek=1048576 || \
$err "extract_tbfw $_dest: Can't pad TBT.bin"
cp "tmp/tb.bin" "$_dest" || $err "extract_tbfw $_dest: copy error"; :
}
vendor_inject()
{
set +u +e; [ $# -lt 1 ] && $err "No options specified."
[ "$1" = "listboards" ] && eval "ls -1 config/coreboot || :; exit 0"
archive="$1"; while getopts n:r:b:m: option; do
case "$option" in
n) nukemode="$OPTARG" ;;
r) rom="$OPTARG" ;;
b) board="$OPTARG" ;;
m) new_mac="$OPTARG"; chkvars new_mac ;;
*) : ;;
esac
done
check_board || return 0
[ "$nukemode" = "nuke" ] || x_ ./vendor download $board
[ "$vrelease" != "y" ] && patch_rom "$rom"
[ "$vrelease" = "y" ] && patch_release_roms; :
}
check_board()
{
failcheck="y" && check_release "$archive" && failcheck="n"
if [ "$failcheck" = "y" ]; then
[ -f "$rom" ] || $err "check_board \"$rom\": invalid path"
[ -z "${rom+x}" ] && $err "check_board: no rom specified"
[ -n "${board+x}" ] || board="$(detect_board "$rom")"
else
vrelease="y"; board="$(detect_board "$archive")"
fi
readcfg || return 1; return 0
}
check_release()
{
[ -f "$archive" ] || return 1
[ "${archive##*.}" = "xz" ] || return 1
printf "%s\n" "Release archive $archive detected"
}
# This function tries to determine the board from the filename of the rom.
# It will only succeed if the filename is not changed from the build/download
detect_board()
{
path="$1"; filename="$(basename "$path")"
case "$filename" in
grub_*|seagrub_*|custom_*)
board="$(echo "$filename" | cut -d '_' -f2-3)" ;;
seabios_withgrub_*)
board="$(echo "$filename" | cut -d '_' -f3-4)" ;;
*.tar.xz) _stripped_prefix="${filename#*_}"
board="${_stripped_prefix%.tar.xz}" ;;
*) $err "detect_board $filename: could not detect board type"
esac; printf "%s\n" "$board"
}
readcfg()
{
if [ "$board" = "serprog_rp2040" ] || \
[ "$board" = "serprog_stm32" ]; then
return 1
fi; boarddir="$cbcfgsdir/$board"
eval `setcfg "$boarddir/target.cfg"`; chkvars vcfg tree
cbdir="src/coreboot/$tree"
cbfstool="elf/cbfstool/$tree/cbfstool"
mecleaner="$PWD/$cbdir/util/me_cleaner/me_cleaner.py"
kbc1126_ec_dump="$PWD/$cbdir/util/kbc1126/kbc1126_ec_dump"
cbfstool="elf/cbfstool/$tree/cbfstool"
ifdtool="elf/ifdtool/$tree/ifdtool"
[ -n "$IFD_platform" ] && ifdprefix="-p $IFD_platform"
x_ ./mk -d coreboot $tree
}
patch_release_roms()
{
remkdir "tmp/romdir"; tar -xf "$archive" -C "tmp/romdir" || \
$err "patch_release_roms: !tar -xf \"$archive\" -C \"tmp/romdir\""
for x in "tmp/romdir/bin/"*/*.rom ; do
patch_rom "$x"
done
(
cd "tmp/romdir/bin/"* || $err "patch roms: !cd tmp/romdir/bin/*"
# NOTE: For compatibility with older rom releases, defer to sha1
[ "$verify" != "y" ] || [ "$nukemode" = "nuke" ] || \
sha512sum --status -c vendorhashes || \
sha1sum --status -c vendorhashes || sha512sum --status -c \
blobhashes || sha1sum --status -c blobhashes || \
$err "patch_release_roms: ROMs did not match expected hashes"
) || $err "can't verify vendor hashes"
[ -n "$new_mac" ] && for x in "tmp/romdir/bin/"*/*.rom ; do
[ -f "$x" ] && modify_gbe "$x"
done
x_ mkdir -p bin/release
mv tmp/romdir/bin/* bin/release/ || $err "$board: !mv release roms"
}
patch_rom()
{
rom="$1"
readkconfig || exit 0
[ "$CONFIG_HAVE_MRC" = "y" ] && inject "mrc.bin" "$CONFIG_MRC_FILE" \
"mrc" "0xfffa0000"
[ -n "$CONFIG_HAVE_REFCODE_BLOB" ] && inject "fallback/refcode" \
"$CONFIG_REFCODE_BLOB_FILE" "stage"
[ "$CONFIG_HAVE_ME_BIN" = "y" ] && inject IFD "$CONFIG_ME_BIN_PATH" me
[ "$CONFIG_KBC1126_FIRMWARE" = "y" ] && inject ecfw1.bin \
"$CONFIG_KBC1126_FW1" raw "$CONFIG_KBC1126_FW1_OFFSET" && inject \
ecfw2.bin "$CONFIG_KBC1126_FW2" raw "$CONFIG_KBC1126_FW2_OFFSET"
[ -n "$CONFIG_VGA_BIOS_FILE" ] && [ -n "$CONFIG_VGA_BIOS_ID" ] && \
inject "pci$CONFIG_VGA_BIOS_ID.rom" "$CONFIG_VGA_BIOS_FILE" optionrom
[ "$CONFIG_INCLUDE_SMSC_SCH5545_EC_FW" = "y" ] && \
[ -n "$CONFIG_SMSC_SCH5545_EC_FW_FILE" ] && \
inject sch5545_ecfw.bin "$CONFIG_SMSC_SCH5545_EC_FW_FILE" raw
[ -n "$new_mac" ] && [ "$vrelease" != "y" ] && modify_gbe "$rom"
printf "ROM image successfully patched: %s\n" "$rom"
}
inject()
{
[ $# -lt 3 ] && $err "$@, $rom: usage: inject name path type (offset)"
[ "$2" = "/dev/null" ] && return 0; verify="y"
eval `setvars "" cbfsname _dest _t _offset`
cbfsname="$1"; _dest="${2##*../}"; _t="$3"
[ $# -gt 3 ] && _offset="-b $4" && [ -z "$4" ] && \
$err "inject $@, $rom: offset passed, but empty (not defined)"
e "$_dest" f n && [ "$nukemode" != "nuke" ] && $err "!inject $dl_type"
if [ "$cbfsname" = "IFD" ]; then
[ "$nukemode" = "nuke" ] || "$ifdtool" $ifdprefix -i \
$_t:$_dest "$rom" -O "$rom" || \
$err "failed: inject '$_t' '$_dest' on '$rom'"
[ "$nukemode" != "nuke" ] || "$ifdtool" $ifdprefix --nuke $_t \
"$rom" -O "$rom" || $err "$rom: !nuke IFD/$_t"; return 0
elif [ "$nukemode" = "nuke" ]; then
"$cbfstool" "$rom" remove -n "$cbfsname" || \
$err "inject $rom: can't remove $cbfsname"; return 0
fi
[ "$_t" != "stage" ] || "$cbfstool" "$rom" add-stage -f \
"$_dest" -n "$cbfsname" -t stage -c lzma || $err "$rom: !add ref"
[ "$_t" = "stage" ] || "$cbfstool" "$rom" add -f "$_dest" \
-n "$cbfsname" -t $_t $_offset || $err "$rom !add $_t ($_dest)"; :
}
modify_gbe()
{
chkvars CONFIG_GBE_BIN_PATH
e "${CONFIG_GBE_BIN_PATH##*../}" f n && $err "missing gbe file"
x_ make -C util/nvmutil
x_ cp "${CONFIG_GBE_BIN_PATH##*../}" "$TMPDIR/gbe"
x_ "util/nvmutil/nvm" "$TMPDIR/gbe" setmac $new_mac
"$ifdtool" $ifdprefix -i GbE:"$TMPDIR/gbe" "$1" -O "$1" || \
$err "Cannot insert modified GbE region into target image."
}