linux/linux-5.18.11/arch/powerpc/boot/wrapper

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2024-03-22 18:12:32 +00:00
#!/bin/sh
# SPDX-License-Identifier: GPL-2.0-only
# Copyright (C) 2006 Paul Mackerras, IBM Corporation <paulus@samba.org>
# This script takes a kernel binary and optionally an initrd image
# and/or a device-tree blob, and creates a bootable zImage for a
# given platform.
# Options:
# -o zImage specify output file
# -p platform specify platform (links in $platform.o)
# -i initrd specify initrd file
# -d devtree specify device-tree blob
# -s tree.dts specify device-tree source file (needs dtc installed)
# -e esm_blob specify ESM blob for secure images
# -c cache $kernel.strip.gz (use if present & newer, else make)
# -C prefix specify command prefix for cross-building tools
# (strip, objcopy, ld)
# -D dir specify directory containing data files used by script
# (default ./arch/powerpc/boot)
# -W dir specify working directory for temporary files (default .)
# -z use gzip (legacy)
# -Z zsuffix compression to use (gz, xz or none)
# Stop execution if any command fails
set -e
export LC_ALL=C
# Allow for verbose output
if [ "$V" = 1 ]; then
set -x
map="-Map wrapper.map"
fi
# defaults
kernel=
ofile=zImage
platform=of
initrd=
dtb=
dts=
esm_blob=
cacheit=
binary=
compression=.gz
uboot_comp=gzip
pie=
format=
notext=
rodynamic=
# cross-compilation prefix
CROSS=
# mkimage wrapper script
MKIMAGE=$srctree/scripts/mkuboot.sh
# directory for object and other files used by this script
object=arch/powerpc/boot
objbin=$object
dtc=scripts/dtc/dtc
# directory for working files
tmpdir=.
usage() {
echo 'Usage: wrapper [-o output] [-p platform] [-i initrd]' >&2
echo ' [-d devtree] [-s tree.dts] [-e esm_blob]' >&2
echo ' [-c] [-C cross-prefix] [-D datadir] [-W workingdir]' >&2
echo ' [-Z (gz|xz|none)] [--no-compression] [vmlinux]' >&2
exit 1
}
run_cmd() {
if [ "$V" = 1 ]; then
$* 2>&1
else
local msg
set +e
msg=$($* 2>&1)
if [ $? -ne "0" ]; then
echo $msg
exit 1
fi
set -e
fi
}
while [ "$#" -gt 0 ]; do
case "$1" in
-o)
shift
[ "$#" -gt 0 ] || usage
ofile="$1"
;;
-p)
shift
[ "$#" -gt 0 ] || usage
platform="$1"
;;
-i)
shift
[ "$#" -gt 0 ] || usage
initrd="$1"
;;
-d)
shift
[ "$#" -gt 0 ] || usage
dtb="$1"
;;
-e)
shift
[ "$#" -gt 0 ] || usage
esm_blob="$1"
;;
-s)
shift
[ "$#" -gt 0 ] || usage
dts="$1"
;;
-c)
cacheit=y
;;
-C)
shift
[ "$#" -gt 0 ] || usage
CROSS="$1"
;;
-D)
shift
[ "$#" -gt 0 ] || usage
object="$1"
objbin="$1"
;;
-W)
shift
[ "$#" -gt 0 ] || usage
tmpdir="$1"
;;
-z)
compression=.gz
uboot_comp=gzip
;;
-Z)
shift
[ "$#" -gt 0 ] || usage
[ "$1" != "gz" -o "$1" != "xz" -o "$1" != "lzma" -o "$1" != "lzo" -o "$1" != "none" ] || usage
compression=".$1"
uboot_comp=$1
if [ $compression = ".none" ]; then
compression=
uboot_comp=none
fi
if [ $uboot_comp = "gz" ]; then
uboot_comp=gzip
fi
;;
--no-gzip)
# a "feature" of the the wrapper script is that it can be used outside
# the kernel tree. So keeping this around for backwards compatibility.
compression=
uboot_comp=none
;;
-?)
usage
;;
*)
[ -z "$kernel" ] || usage
kernel="$1"
;;
esac
shift
done
if [ -n "$dts" ]; then
if [ ! -r "$dts" -a -r "$object/dts/$dts" ]; then
dts="$object/dts/$dts"
fi
if [ -z "$dtb" ]; then
dtb="$platform.dtb"
fi
$dtc -O dtb -o "$dtb" -b 0 "$dts"
fi
if [ -z "$kernel" ]; then
kernel=vmlinux
fi
LC_ALL=C elfformat="`${CROSS}objdump -p "$kernel" | grep 'file format' | awk '{print $4}'`"
case "$elfformat" in
elf64-powerpcle) format=elf64lppc ;;
elf64-powerpc) format=elf32ppc ;;
elf32-powerpc) format=elf32ppc ;;
esac
ld_version()
{
# Poached from scripts/ld-version.sh, but we don't want to call that because
# this script (wrapper) is distributed separately from the kernel source.
# Extract linker version number from stdin and turn into single number.
awk '{
gsub(".*\\)", "");
gsub(".*version ", "");
gsub("-.*", "");
split($1,a, ".");
print a[1]*100000000 + a[2]*1000000 + a[3]*10000;
exit
}'
}
# Do not include PT_INTERP segment when linking pie. Non-pie linking
# just ignores this option.
LD_VERSION=$(${CROSS}ld --version | ld_version)
LD_NO_DL_MIN_VERSION=$(echo 2.26 | ld_version)
if [ "$LD_VERSION" -ge "$LD_NO_DL_MIN_VERSION" ] ; then
nodl="--no-dynamic-linker"
fi
platformo=$object/"$platform".o
lds=$object/zImage.lds
ext=strip
objflags=-S
tmp=$tmpdir/zImage.$$.o
ksection=.kernel:vmlinux.strip
isection=.kernel:initrd
esection=.kernel:esm_blob
link_address='0x400000'
make_space=y
if [ -n "$esm_blob" -a "$platform" != "pseries" ]; then
echo "ESM blob not support on non-pseries platforms" >&2
exit 1
fi
case "$platform" in
of)
platformo="$object/of.o $object/epapr.o"
make_space=n
;;
pseries)
platformo="$object/pseries-head.o $object/of.o $object/epapr.o"
link_address='0x4000000'
if [ "$format" != "elf32ppc" ]; then
link_address=
pie=-pie
fi
make_space=n
;;
maple)
platformo="$object/of.o $object/epapr.o"
link_address='0x400000'
make_space=n
;;
pmac|chrp)
platformo="$object/of.o $object/epapr.o"
make_space=n
;;
coff)
platformo="$object/crt0.o $object/of.o $object/epapr.o"
lds=$object/zImage.coff.lds
link_address='0x500000'
make_space=n
pie=
;;
miboot|uboot*)
# miboot and U-boot want just the bare bits, not an ELF binary
ext=bin
objflags="-O binary"
tmp="$ofile"
ksection=image
isection=initrd
;;
cuboot*)
binary=y
compression=
case "$platform" in
*-mpc866ads|*-mpc885ads|*-adder875*|*-ep88xc)
platformo=$object/cuboot-8xx.o
;;
*5200*|*-motionpro)
platformo=$object/cuboot-52xx.o
;;
*-pq2fads|*-ep8248e|*-mpc8272*|*-storcenter)
platformo=$object/cuboot-pq2.o
;;
*-mpc824*)
platformo=$object/cuboot-824x.o
;;
*-mpc83*|*-asp834x*)
platformo=$object/cuboot-83xx.o
;;
*-tqm8541|*-mpc8560*|*-tqm8560|*-tqm8555|*-ksi8560*)
platformo=$object/cuboot-85xx-cpm2.o
;;
*-mpc85*|*-tqm85*)
platformo=$object/cuboot-85xx.o
;;
*-amigaone)
link_address='0x800000'
;;
esac
;;
ps3)
platformo="$object/ps3-head.o $object/ps3-hvcall.o $object/ps3.o"
lds=$object/zImage.ps3.lds
compression=
ext=bin
objflags="-O binary --set-section-flags=.bss=contents,alloc,load,data"
ksection=.kernel:vmlinux.bin
isection=.kernel:initrd
link_address=''
make_space=n
pie=
;;
ep88xc|ep405|ep8248e)
platformo="$object/fixed-head.o $object/$platform.o"
binary=y
;;
adder875-redboot)
platformo="$object/fixed-head.o $object/redboot-8xx.o"
binary=y
;;
simpleboot-*)
platformo="$object/fixed-head.o $object/simpleboot.o"
binary=y
;;
asp834x-redboot)
platformo="$object/fixed-head.o $object/redboot-83xx.o"
binary=y
;;
xpedite52*)
link_address='0x1400000'
platformo=$object/cuboot-85xx.o
;;
gamecube|wii)
link_address='0x600000'
platformo="$object/$platform-head.o $object/$platform.o"
;;
microwatt)
link_address='0x500000'
platformo="$object/fixed-head.o $object/$platform.o"
binary=y
;;
treeboot-currituck)
link_address='0x1000000'
;;
treeboot-akebono)
link_address='0x1000000'
;;
treeboot-iss4xx-mpic)
platformo="$object/treeboot-iss4xx.o"
;;
epapr)
platformo="$object/pseries-head.o $object/epapr.o $object/epapr-wrapper.o"
link_address='0x20000000'
pie=-pie
notext='-z notext'
rodynamic=$(if ${CROSS}ld -V 2>&1 | grep -q LLD ; then echo "-z rodynamic"; fi)
;;
mvme5100)
platformo="$object/fixed-head.o $object/mvme5100.o"
binary=y
;;
mvme7100)
platformo="$object/motload-head.o $object/mvme7100.o"
link_address='0x4000000'
binary=y
;;
esac
vmz="$tmpdir/`basename \"$kernel\"`.$ext"
# Calculate the vmlinux.strip size
${CROSS}objcopy $objflags "$kernel" "$vmz.$$"
strip_size=$(${CONFIG_SHELL} "${srctree}/scripts/file-size.sh" "$vmz.$$")
if [ -z "$cacheit" -o ! -f "$vmz$compression" -o "$vmz$compression" -ot "$kernel" ]; then
# recompress the image if we need to
case $compression in
.xz)
xz --check=crc32 -f -6 "$vmz.$$"
;;
.gz)
gzip -n -f -9 "$vmz.$$"
;;
.lzma)
xz --format=lzma -f -6 "$vmz.$$"
;;
.lzo)
lzop -f -9 "$vmz.$$"
;;
*)
# drop the compression suffix so the stripped vmlinux is used
compression=
uboot_comp=none
;;
esac
if [ -n "$cacheit" ]; then
mv -f "$vmz.$$$compression" "$vmz$compression"
else
vmz="$vmz.$$"
fi
else
rm -f $vmz.$$
fi
vmz="$vmz$compression"
if [ "$make_space" = "y" ]; then
# Round the size to next higher MB limit
round_size=$(((strip_size + 0xfffff) & 0xfff00000))
round_size=0x$(printf "%x" $round_size)
link_addr=$(printf "%d" $link_address)
if [ $link_addr -lt $strip_size ]; then
echo "INFO: Uncompressed kernel (size 0x$(printf "%x\n" $strip_size))" \
"overlaps the address of the wrapper($link_address)"
echo "INFO: Fixing the link_address of wrapper to ($round_size)"
link_address=$round_size
fi
fi
# Extract kernel version information, some platforms want to include
# it in the image header
version=`${CROSS}strings "$kernel" | grep '^Linux version [-0-9.]' | \
cut -d' ' -f3`
if [ -n "$version" ]; then
uboot_version="-n Linux-$version"
fi
# physical offset of kernel image
membase=`${CROSS}objdump -p "$kernel" | grep -m 1 LOAD | awk '{print $7}'`
case "$platform" in
uboot)
rm -f "$ofile"
${MKIMAGE} -A ppc -O linux -T kernel -C $uboot_comp -a $membase -e $membase \
$uboot_version -d "$vmz" "$ofile"
if [ -z "$cacheit" ]; then
rm -f "$vmz"
fi
exit 0
;;
uboot-obs600)
rm -f "$ofile"
# obs600 wants a multi image with an initrd, so we need to put a fake
# one in even when building a "normal" image.
if [ -n "$initrd" ]; then
real_rd="$initrd"
else
real_rd=`mktemp`
echo "\0" >>"$real_rd"
fi
${MKIMAGE} -A ppc -O linux -T multi -C gzip -a $membase -e $membase \
$uboot_version -d "$vmz":"$real_rd":"$dtb" "$ofile"
if [ -z "$initrd" ]; then
rm -f "$real_rd"
fi
if [ -z "$cacheit" ]; then
rm -f "$vmz"
fi
exit 0
;;
esac
addsec() {
${CROSS}objcopy $4 $1 \
--add-section=$3="$2" \
--set-section-flags=$3=contents,alloc,load,readonly,data
}
addsec $tmp "$vmz" $ksection $object/empty.o
if [ -z "$cacheit" ]; then
rm -f "$vmz"
fi
if [ -n "$initrd" ]; then
addsec $tmp "$initrd" $isection
fi
if [ -n "$dtb" ]; then
addsec $tmp "$dtb" .kernel:dtb
if [ -n "$dts" ]; then
rm $dtb
fi
fi
if [ -n "$esm_blob" ]; then
addsec $tmp "$esm_blob" $esection
fi
if [ "$platform" != "miboot" ]; then
if [ -n "$link_address" ] ; then
text_start="-Ttext $link_address"
fi
#link everything
${CROSS}ld -m $format -T $lds $text_start $pie $nodl $rodynamic $notext -o "$ofile" $map \
$platformo $tmp $object/wrapper.a
rm $tmp
fi
# Some platforms need the zImage's entry point and base address
base=0x`${CROSS}nm "$ofile" | grep ' _start$' | cut -d' ' -f1`
entry=`${CROSS}objdump -f "$ofile" | grep '^start address ' | cut -d' ' -f3`
if [ -n "$binary" ]; then
mv "$ofile" "$ofile".elf
${CROSS}objcopy -O binary "$ofile".elf "$ofile"
fi
# post-processing needed for some platforms
case "$platform" in
pseries|chrp|maple)
$objbin/addnote "$ofile"
;;
coff)
${CROSS}objcopy -O aixcoff-rs6000 --set-start "$entry" "$ofile"
$objbin/hack-coff "$ofile"
;;
cuboot*)
gzip -n -f -9 "$ofile"
${MKIMAGE} -A ppc -O linux -T kernel -C gzip -a "$base" -e "$entry" \
$uboot_version -d "$ofile".gz "$ofile"
;;
treeboot*)
mv "$ofile" "$ofile.elf"
$objbin/mktree "$ofile.elf" "$ofile" "$base" "$entry"
if [ -z "$cacheit" ]; then
rm -f "$ofile.elf"
fi
exit 0
;;
ps3)
# The ps3's loader supports loading a gzipped binary image from flash
# rom to ram addr zero. The loader then enters the system reset
# vector at addr 0x100. A bootwrapper overlay is used to arrange for
# a binary image of the kernel to be at addr zero, and yet have a
# suitable bootwrapper entry at 0x100. To construct the final rom
# image 512 bytes from offset 0x100 is copied to the bootwrapper
# place holder at symbol __system_reset_kernel. The 512 bytes of the
# bootwrapper entry code at symbol __system_reset_overlay is then
# copied to offset 0x100. At runtime the bootwrapper program copies
# the data at __system_reset_kernel back to addr 0x100.
system_reset_overlay=0x`${CROSS}nm "$ofile" \
| grep ' __system_reset_overlay$' \
| cut -d' ' -f1`
system_reset_overlay=`printf "%d" $system_reset_overlay`
system_reset_kernel=0x`${CROSS}nm "$ofile" \
| grep ' __system_reset_kernel$' \
| cut -d' ' -f1`
system_reset_kernel=`printf "%d" $system_reset_kernel`
overlay_dest="256"
overlay_size="512"
${CROSS}objcopy -O binary "$ofile" "$ofile.bin"
run_cmd dd if="$ofile.bin" of="$ofile.bin" conv=notrunc \
skip=$overlay_dest seek=$system_reset_kernel \
count=$overlay_size bs=1
run_cmd dd if="$ofile.bin" of="$ofile.bin" conv=notrunc \
skip=$system_reset_overlay seek=$overlay_dest \
count=$overlay_size bs=1
odir="$(dirname "$ofile.bin")"
# The ps3's flash loader has a size limit of 16 MiB for the uncompressed
# image. If a compressed image that exceeded this limit is written to
# flash the loader will decompress that image until the 16 MiB limit is
# reached, then enter the system reset vector of the partially decompressed
# image. No warning is issued.
rm -f "$odir"/{otheros,otheros-too-big}.bld
size=$(${CROSS}nm --no-sort --radix=d "$ofile" | egrep ' _end$' | cut -d' ' -f1)
bld="otheros.bld"
if [ $size -gt $((0x1000000)) ]; then
bld="otheros-too-big.bld"
fi
gzip -n --force -9 --stdout "$ofile.bin" > "$odir/$bld"
;;
esac