Files
lbmk/include/vendor.sh
T
Leah Rowe 2edd583aee Add ThinkPad X270 coreboot port from Kat Inskip
Courtesy of Kat Inskip who ported this board.

Headphone output doesn't work at the moment, due to incorrect verb.
Intel VBT is also wrong. Both are taken from another board.

This will be amended later with the correct verb and VBT.

Signed-off-by: Leah Rowe <leah@libreboot.org>
2026-02-21 08:26:44 +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) 2023-2025 Leah Rowe <leah@libreboot.org>
# These are variables and functions, extending the functionality of
# inject.sh, to be used with lbmk; they are kept separate here, so that
# the main inject.sh can be as similar as possible between lbmk and cbmk,
# so that cherry-picking lbmk patches into cbmk yields fewer merge conflicts.
# When reading this file, you should imagine that it is part of inject.sh,
# with inject.sh concatenated onto vendor.sh; they are inexorably intertwined.
# The main "mk" script sources vendor.sh first, and then inject.sh, in lbmk.
e6400_unpack="$xbmkpwd/src/bios_extract/dell_inspiron_1100_unpacker.py"
me7updateparser="$xbmkpwd/util/me7_update_parser/me7_update_parser.py"
pfs_extract="$xbmkpwd/src/biosutilities/Dell_PFS_Extract.py"
uefiextract="$xbmkpwd/elf/uefitool/uefiextract"
bsdtar="$xbmkpwd/elf/libarchive/bsdtar"
bsdunzip="$xbmkpwd/elf/libarchive/bsdunzip"
vendir="vendorfiles"
appdir="$vendir/app"
vfix="DO_NOT_FLASH_YET._FIRST,_INJECT_FILES_VIA_INSTRUCTIONS_ON_LIBREBOOT.ORG_"
# lbmk-specific extension to the "checkvars" variable (not suitable for cbmk)
checkvarschk="CONFIG_INCLUDE_SMSC_SCH5545_EC_FW CONFIG_HAVE_MRC \
CONFIG_HAVE_ME_BIN CONFIG_LENOVO_TBFW_BIN CONFIG_VGA_BIOS_FILE \
CONFIG_FSP_M_FILE CONFIG_FSP_S_FILE CONFIG_KBC1126_FW1 CONFIG_KBC1126_FW2"
# lbmk-specific extensions to the "checkvars" variable (not suitable for cbmk)
checkvarsxbmk="CONFIG_ME_BIN_PATH CONFIG_SMSC_SCH5545_EC_FW_FILE \
CONFIG_FSP_FULL_FD CONFIG_KBC1126_FW1_OFFSET CONFIG_KBC1126_FW2_OFFSET \
CONFIG_FSP_USE_REPO CONFIG_VGA_BIOS_ID CONFIG_BOARD_DELL_E6400 \
CONFIG_FSP_S_CBFS CONFIG_HAVE_REFCODE_BLOB CONFIG_REFCODE_BLOB_FILE \
CONFIG_FSP_FD_PATH CONFIG_IFD_BIN_PATH CONFIG_MRC_FILE CONFIG_FSP_M_CBFS"
# lbmk-specific extensions; general variables
cbdir=""
cbfstoolref=""
has_hashes=""
hashfile=""
kbc1126_ec_dump=""
mecleaner=""
mfs=""
nuke=""
rom=""
vcfg=""
xromsize=""
_7ztest=""
_dest=""
_dl=""
_dl_bin=""
_me=""
_metmp=""
_pre_dest=""
# lbmk-specific extensions; declared in pkg.cfg files in config/vendor/
DL_hash=""
DL_url=""
DL_url_bkup=""
E6400_VGA_bin_hash=""
E6400_VGA_DL_hash=""
E6400_VGA_DL_url=""
E6400_VGA_DL_url_bkup=""
E6400_VGA_offset=""
E6400_VGA_romname=""
EC_FW1_hash=""
EC_FW2_hash=""
EC_hash=""
EC_url=""
EC_url_bkup=""
FSPFD_hash=""
FSPM_bin_hash=""
FSPS_bin_hash=""
ME11bootguard=""
ME11delta=""
ME11pch=""
ME11sku=""
ME11version=""
MEshrink=""
ME_bin_hash=""
MEclean=""
MRC_bin_hash=""
MRC_refcode_cbtree=""
MRC_refcode_gbe=""
REF_bin_hash=""
SCH5545EC_bin_hash=""
SCH5545EC_DL_hash=""
SCH5545EC_DL_url=""
SCH5545EC_DL_url_bkup=""
TBFW_bin_hash=""
TBFW_hash=""
TBFW_size=""
TBFW_url=""
TBFW_url_bkup=""
XBMKmecleaner=""
download()
{
if [ $# -lt 1 ]; then
err "No argument given" "download" "$@"
fi
export PATH="$PATH:/sbin"
board="$1"
if check_target; then
readkconfig download
fi
}
getfiles()
{
if [ -n "$CONFIG_HAVE_ME_BIN" ];then
fetch intel_me "$DL_url" "$DL_url_bkup" "$DL_hash" \
"$CONFIG_ME_BIN_PATH" curl "$ME_bin_hash"
fi
if [ -n "$CONFIG_INCLUDE_SMSC_SCH5545_EC_FW" ]; then
fetch sch5545ec "$SCH5545EC_DL_url" "$SCH5545EC_DL_url_bkup" \
"$SCH5545EC_DL_hash" "$CONFIG_SMSC_SCH5545_EC_FW_FILE" \
"curl" "$SCH5545EC_bin_hash"
fi
if [ -n "$CONFIG_KBC1126_FW1" ]; then
fetch kbc1126ec "$EC_url" "$EC_url_bkup" "$EC_hash" \
"$CONFIG_KBC1126_FW1" curl "$EC_FW1_hash"
fi
if [ -n "$CONFIG_KBC1126_FW2" ]; then
fetch kbc1126ec "$EC_url" "$EC_url_bkup" "$EC_hash" \
"$CONFIG_KBC1126_FW2" curl "$EC_FW2_hash"
fi
if [ -n "$CONFIG_VGA_BIOS_FILE" ]; then
fetch e6400vga "$E6400_VGA_DL_url" "$E6400_VGA_DL_url_bkup" \
"$E6400_VGA_DL_hash" "$CONFIG_VGA_BIOS_FILE" "curl" \
"$E6400_VGA_bin_hash"
fi
if [ -n "$CONFIG_HAVE_MRC" ]; then
fetch "mrc" "$MRC_url" "$MRC_url_bkup" "$MRC_hash" \
"$CONFIG_MRC_FILE" "curl" "$MRC_bin_hash"
fi
if [ -n "$CONFIG_REFCODE_BLOB_FILE" ]; then
fetch "refcode" "$MRC_url" "$MRC_url_bkup" "$MRC_hash" \
"$CONFIG_REFCODE_BLOB_FILE" "curl" "$REF_bin_hash"
fi
if [ -n "$CONFIG_LENOVO_TBFW_BIN" ]; then
fetch "tbfw" "$TBFW_url" "$TBFW_url_bkup" "$TBFW_hash" \
"$CONFIG_LENOVO_TBFW_BIN" "curl" "$TBFW_bin_hash"
fi
if [ -n "$CONFIG_FSP_M_FILE" ]; then
fetch "fsp" "$CONFIG_FSP_FD_PATH" "$CONFIG_FSP_FD_PATH" \
"$FSPFD_hash" "$CONFIG_FSP_M_FILE" "copy" "$FSPM_bin_hash"
fi
if [ -n "$CONFIG_FSP_S_FILE" ]; then
fetch "fsp" "$CONFIG_FSP_FD_PATH" "$CONFIG_FSP_FD_PATH" \
"$FSPFD_hash" "$CONFIG_FSP_S_FILE" "copy" "$FSPS_bin_hash"
fi
}
fetch()
{
dl_type="$1"
dl="$2"
dl_bkup="$3"
dlsum="$4"
_dest="${5##*../}"
_pre_dest="$XBMK_CACHE/tmpdl/check"
dlop="$6"
binsum="$7"
if [ -z "$binsum" ]; then
err "binsum is empty (no checksum)" "fetch" "$@"
fi
_dl="$XBMK_CACHE/file/$dlsum" # internet file to extract from e.g. .exe
_dl_bin="$XBMK_CACHE/file/$binsum" # extracted file e.g. me.bin
if [ "$5" = "/dev/null" ]; then
return 0
fi
# an extracted vendor file will be placed in pre_dest first, for
# verifying its checksum. if it matches, it is later moved to _dest
remkdir "${_pre_dest%/*}" "$appdir"
# HACK: if grabbing fsp from coreboot, fix the path for lbmk
if [ "$dl_type" = "fsp" ]
then
dl="${dl##*../}"
_cdp="$dl"
if [ ! -f "$_cdp" ]; then
_cdp="$cbdir/$_cdp"
fi
if [ -f "$_cdp" ]; then
dl="$_cdp"
fi
dl_bkup="${dl_bkup##*../}"
_cdp="$dl_bkup"
if [ ! -f "$_cdp" ]; then
_cdp="$cbdir/$_cdp"
fi
if [ -f "$_cdp" ]; then
dl_bkup="$_cdp"; :
fi
fi
# download the file (from the internet) to extract from:
xbget "$dlop" "$dl" "$dl_bkup" "$_dl" "$dlsum"
x_ rm -Rf "${_dl}_extracted"
# skip extraction if a cached extracted file exists:
( xbget copy "$_dl_bin" "$_dl_bin" "$_dest" "$binsum" 2>/dev/null ) || :
if [ -f "$_dest" ]; then
return 0
fi
x_ xbmkdir "${_dest%/*}"
if [ "$dl_type" != "fsp" ]; then
extract_archive "$_dl" "$appdir" || \
[ "$dl_type" = "e6400vga" ] || \
err "$_dest $dl_type: !extract" "fetch" "$@"
fi
x_ extract_$dl_type "$_dl" "$appdir"
set -u -e
# some functions don't output directly to the given file, _pre_dest.
# instead, they put multiple files there, but we need the one matching
# the given hashsum. So, search for a matching file via bruteforce:
( fx_ "mkdst $binsum" x_ find "${_pre_dest%/*}" -type f ) || :
if ! bad_checksum "$binsum" "$_dest"; then
if [ -f "$_dest" ]; then
return 0
fi
fi
if [ -z "$binsum" ]; then
printf "'%s': checksum undefined\n" "$_dest" 1>&2
fi
if [ -L "$_dest" ]; then
printf "WARNING: '%s' is a link!\n" "$_dest" 1>&2
else
x_ rm -f "$_dest"
fi
err "Can't safely extract '$_dest', for board '$board'" "fetch" "$@"
}
mkdst()
{
if bad_checksum "$1" "$2" 2>/dev/null; then
x_ rm -f "$2"
else
x_ mv "$2" "$_dl_bin"
x_ cp "$_dl_bin" "$_dest"
exit 1
fi
}
extract_intel_me()
{
if e "$mecleaner" f missing; then
err "$cbdir: me_cleaner missing" "extract_intel_me" "$@"
fi
mfs=""
_7ztest="$xbtmp/metmp/a"
_metmp="$xbtmp/me.bin"
x_ rm -f "$_metmp" "$xbtmp/a"
x_ rm -Rf "$_7ztest"
# maintain compatibility with older configs
# because in the past, shrink was assumed
if [ -z "$MEshrink" ]; then
MEshrink="y"
fi
if [ "$MEshrink" != "y" ] && [ "$MEshrink" != "n" ]; then
err "MEshrink set badly on '$board' vendor config"
fi
if [ "$ME11bootguard" = "y" ]; then
mfs="--whitelist MFS"
if [ -z "$ME11delta" ] || [ -z "$ME11version" ] || \
[ -z "$ME11sku" ] || [ -z "$ME11pch" ]; then
err "$board: ME11delta/ME11version/ME11sku/ME11pch" \
"extract_intel_me" "$@"
fi
x_ ./mk -f deguard
fi
set +u +e
( fx_ find_me x_ find "$xbmkpwd/$appdir" -type f ) || :; :
set -u -e
if [ "$ME11bootguard" != "y" ]; then
x_ mv "$_metmp" "$_pre_dest"
else
( apply_deguard_hack ) || \
err "deguard error on '$_dest'" "extract_intel_me" "$@"; :
fi
}
# bruteforce Intel ME extraction.
# must be called inside a subshell.
find_me()
{
if [ -f "$_metmp" ]; then
# we found me.bin, so we stop searching
exit 1
elif [ -L "$1" ]; then
return 0
fi
_7ztest="${_7ztest}a"
_keep="" # -k: keep fptr modules even if they can be removed
_pass="" # -p: skip fptr check
_r="-r" # re-locate modules
_trunc="-t" # -t: truncate the ME size
if [ -n "$mfs" ] || [ "$MEclean" = "n" ]; then
_r=""
fi
if [ "$MEshrink" != "y" ]; then
_r=""
_trunc=""
mfs=""
fi
if [ "$MEclean" = "n" ]; then
_keep="-k"
_pass="-p"
_trunc=""
# TODO: should we also blank mfs and _r here?
fi
if "$mecleaner" $mfs $_r $_keep $_pass $_trunc -O "$xbtmp/a" \
-M "$_metmp" "$1" || [ -f "$_metmp" ]; then
# me.bin extracted from a full image with ifd, then shrunk
:
elif "$mecleaner" $mfs $_r $_pass $_keep $_trunc -O "$_metmp" "$1" || \
[ -f "$_metmp" ]; then
# me.bin image already present, and we shrunk it
:
elif "$me7updateparser" $_keep -O "$_metmp" "$1"; then
# thinkpad sandybridge me.bin image e.g. x220/t420
:
elif extract_archive "$1" "$_7ztest"; then
# scan newly extracted archive within extracted archive
:
else
# could not extract anything, so we'll try the next file
return 0
fi
if [ -f "$_metmp" ]; then
# we found me.bin, so we stop searching
exit 1
else
# if the subshell does exit 1, we found me.bin, so exit 1
( fx_ find_me x_ find "$_7ztest" -type f ) || exit 1; :
fi
}
apply_deguard_hack()
{
x_ cd src/deguard
x_ ./finalimage.py --delta "data/delta/$ME11delta" \
--version "$ME11version" --pch "$ME11pch" --sku "$ME11sku" \
--fake-fpfs data/fpfs/zero --input "$_metmp" --output "$_pre_dest"
}
extract_archive()
{
if innoextract "$1" -d "$2"; then
:
elif python "$pfs_extract" "$1" -e; then
:
elif 7z x "$1" -o"$2"; then
:
elif "$bsdtar" -C "$2" -xf "$1"; then
:
elif "$bsdunzip" "$1" -d "$2"; then
:
else
return 1
fi
if [ -d "${_dl}_extracted" ]; then
x_ cp -R "${_dl}_extracted" "$2"
fi
}
extract_kbc1126ec()
{
( extract_kbc1126ec_dump ) || \
err "$board: can't extract kbc1126 fw" "extract_kbc1126ec" "$@"
# throw error if either file is missing
x_ e "$appdir/ec.bin.fw1" f
x_ e "$appdir/ec.bin.fw2" f
x_ cp "$appdir/"ec.bin.fw* "${_pre_dest%/*}/"
}
extract_kbc1126ec_dump()
{
x_ cd "$appdir/"
if mv Rompaq/68*.BIN ec.bin; then
:
elif unar -D ROM.CAB Rom.bin; then
:
elif unar -D Rom.CAB Rom.bin; then
:
elif unar -D 68*.CAB Rom.bin; then
:
else
err "!kbc1126 unar" "extract_kbc1126ec" "$@"
fi
if [ ! -f "ec.bin" ]; then
x_ mv Rom.bin ec.bin
fi
if x_ e ec.bin f; then
x_ "$kbc1126_ec_dump" ec.bin
fi
}
extract_e6400vga()
{
set +u +e
if [ -z "$E6400_VGA_offset" ] || [ -z "$E6400_VGA_romname" ]; then
err "$board: E6400_VGA_romname/E6400_VGA_offset unset" \
"extract_e6400vga" "$@"
fi
tail -c +$E6400_VGA_offset "$_dl" | gunzip > "$appdir/bios.bin" || :
(
x_ cd "$appdir"
x_ e "bios.bin" f
"$e6400_unpack" bios.bin || printf "TODO: fix dell extract util\n"
) || err "can't extract e6400 vga rom" "extract_e6400vga" "$@"
x_ cp "$appdir/$E6400_VGA_romname" "$_pre_dest"
}
extract_sch5545ec()
{
# full system ROM (UEFI), to extract with UEFIExtract:
_bios="${_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!
x_ "$uefiextract" "$_bios"
x_ cp "$_sch5545ec_fw" "$_pre_dest"
}
# 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()
{
if [ -z "$TBFW_size" ]; then
err "$board: TBFW_size unset" "extract_tbfw" "$@"
fi
fx_ copytb x_ find "$appdir" -type f -name "TBT.bin"
}
copytb()
{
if [ -f "$1" ] && [ ! -L "$1" ]; then
x_ dd if=/dev/null of="$1" bs=1 seek=$TBFW_size
x_ mv "$1" "$_pre_dest"
return 1
fi
}
extract_fsp()
{
x_ python "$cbdir/3rdparty/fsp/Tools/SplitFspBin.py" split -f "$1" \
-o "${_pre_dest%/*}" -n "Fsp.fd"
}
setvfile()
{
[ -n "$vcfg" ] && for c in $checkvarschk
do
do_getvfile="n"
vcmd="[ \"\${$c}\" != \"/dev/null\" ] && [ -n \"\${$c}\" ]"
eval "$vcmd && do_getvfile=\"y\""
if [ "$do_getvfile" = "y" ]; then
if getvfile "$@"; then
return 0
fi
fi
done && return 1; :
}
getvfile()
{
if e "config/vendor/$vcfg/pkg.cfg" f missing; then
return 1
fi
. "config/vendor/$vcfg/pkg.cfg" || \
err "Can't read 'config/vendor/$vcfg/pkg.cfg'" "getvfile" "$@"
bootstrap
if [ $# -gt 0 ]; then
# download vendor files
getfiles
else
# inject vendor files
fx_ prep x_ find "$tmpromdir" -maxdepth 1 -type f -name "*.rom"
( check_vendor_hashes ) || \
err "$archive: Can't verify hashes" "getvfile" "$@"; :
fi
}
bootstrap()
{
cbdir="src/coreboot/$tree"
kbc1126_ec_dump="$xbmkpwd/$cbdir/util/kbc1126/kbc1126_ec_dump"
cbfstool="elf/coreboot/$tree/cbfstool"
rmodtool="elf/coreboot/$tree/rmodtool"
mecleaner="$xbmkpwd/$cbdir/util/me_cleaner/me_cleaner.py"
if [ "$XBMKmecleaner" = "y" ]; then
mecleaner="$xbmkpwd/src/me_cleaner/me_cleaner.py"
fi
x_ ./mk -f coreboot "${cbdir##*/}"
x_ ./mk -f me_cleaner
x_ ./mk -b bios_extract
x_ ./mk -b biosutilities
x_ ./mk -b uefitool
x_ ./mk -b libarchive # for bsdtar and bsdunzip
if [ -d "${kbc1126_ec_dump%/*}" ]; then
x_ make -C "$cbdir/util/kbc1126"
fi
if [ -n "$MRC_refcode_cbtree" ]; then
cbfstoolref="elf/coreboot/$MRC_refcode_cbtree/cbfstool"
x_ ./mk -d coreboot "$MRC_refcode_cbtree"; :
fi
}
prep()
{
_xrom="$1"
_xromname="${1##*/}"
_xromnew="${_xrom%/*}/${_xromname#"$vfix"}"
if [ "$nuke" = "nuke" ]; then
_xromnew="${_xrom%/*}/$vfix${_xrom##*/}"
fi
if e "$_xrom" f missing; then
return 0
fi
if [ -z "${_xromname#"$vfix"}" ]; then
err "$_xromname / $vfix: name match" "prep" "$@"
fi
# Remove the prefix and 1-byte pad
if [ "${_xromname#"$vfix"}" != "$_xromname" ] \
&& [ "$nuke" != "nuke" ]; then
unpad_one_byte "$_xrom"
x_ mv "$_xrom" "$_xromnew"
_xrom="$_xromnew"
fi
if [ "$nuke" = "nuke" ]; then
( mksha512 "$_xrom" "vendorhashes" ) || err; :
fi
if ! add_vfiles "$_xrom"; then
# no need to insert files. we will later
# still process MAC addresses as required
return 1
fi
if [ "$nuke" = "nuke" ]; then
pad_one_byte "$_xrom"
x_ mv "$_xrom" "$_xromnew"
fi
}
mksha512()
{
build_sbase
if [ "${1%/*}" != "$1" ]; then
x_ cd "${1%/*}"
fi
x_ "$sha512sum" ./"${1##*/}" >> "$2" || \
err "!sha512sum \"$1\" > \"$2\"" "mksha512" "$@"
}
add_vfiles()
{
rom="$1"
if [ "$has_hashes" != "y" ] && [ "$nuke" != "nuke" ]; then
printf "'%s' has no hash file. Skipping.\n" "$archive" 1>&2
return 1
elif [ "$has_hashes" = "y" ] && [ "$nuke" = "nuke" ]; then
printf "'%s' has a hash file. Skipping nuke.\n" "$archive" 1>&2
return 1
fi
if [ -n "$CONFIG_HAVE_REFCODE_BLOB" ]; then
vfile "fallback/refcode" "$CONFIG_REFCODE_BLOB_FILE" "stage"
fi
if [ "$CONFIG_HAVE_MRC" = "y" ]; then
vfile "mrc.bin" "$CONFIG_MRC_FILE" "mrc" "0xfffa0000"
fi
if [ "$CONFIG_HAVE_ME_BIN" = "y" ]; then
vfile IFD "$CONFIG_ME_BIN_PATH" me
fi
if [ -n "$CONFIG_KBC1126_FW1" ]; then
vfile ecfw1.bin "$CONFIG_KBC1126_FW1" raw \
"$CONFIG_KBC1126_FW1_OFFSET"
fi
if [ -n "$CONFIG_KBC1126_FW2" ]; then
vfile ecfw2.bin "$CONFIG_KBC1126_FW2" raw \
"$CONFIG_KBC1126_FW2_OFFSET"
fi
if [ -n "$CONFIG_VGA_BIOS_FILE" ] && [ -n "$CONFIG_VGA_BIOS_ID" ]; then
vfile "pci$CONFIG_VGA_BIOS_ID.rom" "$CONFIG_VGA_BIOS_FILE" \
optionrom
fi
if [ "$CONFIG_INCLUDE_SMSC_SCH5545_EC_FW" = "y" ] && \
[ -n "$CONFIG_SMSC_SCH5545_EC_FW_FILE" ]; then
vfile sch5545_ecfw.bin "$CONFIG_SMSC_SCH5545_EC_FW_FILE" raw
fi
if [ -z "$CONFIG_FSP_USE_REPO" ] && [ -z "$CONFIG_FSP_FULL_FD" ] && \
[ -n "$CONFIG_FSP_M_FILE" ]; then
vfile "$CONFIG_FSP_M_CBFS" "$CONFIG_FSP_M_FILE" fsp --xip
fi
if [ -z "$CONFIG_FSP_USE_REPO" ] && [ -z "$CONFIG_FSP_FULL_FD" ] && \
[ -n "$CONFIG_FSP_S_FILE" ]; then
vfile "$CONFIG_FSP_S_CBFS" "$CONFIG_FSP_S_FILE" fsp
fi
xchanged="y"
printf "ROM image successfully patched: %s\n" "$rom"
}
vfile()
{
if [ "$2" = "/dev/null" ]; then
return 0
fi
cbfsname="$1"
_dest="${2##*../}"
blobtype="$3"
_offset=""
if [ "$blobtype" = "fsp" ] && [ $# -gt 3 ]; then
_offset="$4"
elif [ $# -gt 3 ] && _offset="-b $4" && [ -z "$4" ]; then
err "$rom: offset given but empty (undefined)" "vfile" "$@"
fi
if [ "$nuke" != "nuke" ]; then
x_ e "$_dest" f
fi
if [ "$cbfsname" = "IFD" ]; then
if [ "$nuke" = "nuke" ]; then
x_ "$ifdtool" $ifdprefix --nuke $blobtype "$rom" \
-O "$rom"
else
x_ "$ifdtool" $ifdprefix -i $blobtype:$_dest "$rom" \
-O "$rom"
fi
elif [ "$nuke" = "nuke" ]; then
x_ "$cbfstool" "$rom" remove -n "$cbfsname"
elif [ "$blobtype" = "stage" ]; then
# the only stage we handle is refcode
x_ rm -f "$xbtmp/refcode"
x_ "$rmodtool" -i "$_dest" -o "$xbtmp/refcode"
x_ "$cbfstool" "$rom" add-stage -f "$xbtmp/refcode" \
-n "$cbfsname" -t stage
else
x_ "$cbfstool" "$rom" add -f "$_dest" -n "$cbfsname" \
-t $blobtype $_offset
fi
xchanged="y"
}
# must be called from a subshell
check_vendor_hashes()
{
build_sbase
x_ cd "$tmpromdir"
if [ "$has_hashes" != "n" ] && [ "$nuke" != "nuke" ]; then
( x_ "$sha512sum" -c "$hashfile" ) || \
x_ sha1sum -c "$hashfile"
fi
x_ rm -f "$hashfile"
}