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boot-patcher.sh
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boot-patcher.sh
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#!/sbin/sh
# LazyFlasher boot image patcher script by jcadduono
tmp=/tmp/kernel-flasher
console=$(cat /tmp/console)
[ "$console" ] || console=/proc/$$/fd/1
cd "$tmp"
. config.sh
chmod -R 755 "$bin"
rm -rf "$ramdisk" "$split_img"
mkdir "$ramdisk"
print() {
if [ "$1" ]; then
echo "ui_print - $1" > "$console"
else
echo "ui_print " > "$console"
fi
echo
}
abort() {
[ "$1" ] && {
print "Error: $1!"
print "Aborting..."
}
exit 1
}
## start install methods
# find the location of the boot block
find_boot() {
verify_block() {
boot_block=$(readlink -f "$boot_block")
# if the boot block is a file, we must use dd
if [ -f "$boot_block" ]; then
use_dd=true
# if the boot block is a block device, we use flash_image when possible
elif [ -b "$boot_block" ]; then
case "$boot_block" in
/dev/block/bml*|/dev/block/mtd*|/dev/block/mmc*)
use_dd=false ;;
*)
use_dd=true ;;
esac
# otherwise we have to keep trying other locations
else
return 1
fi
print "Found boot partition at: $boot_block"
}
# if we already have boot block set then verify and use it
[ "$boot_block" ] && verify_block && return
# otherwise, time to go hunting!
if [ -f /etc/recovery.fstab ]; then
# recovery fstab v1
boot_block=$(awk '$1 == "/boot" {print $3}' /etc/recovery.fstab)
[ "$boot_block" ] && verify_block && return
# recovery fstab v2
boot_block=$(awk '$2 == "/boot" {print $1}' /etc/recovery.fstab)
[ "$boot_block" ] && verify_block && return
fi
for fstab in /fstab.*; do
[ -f "$fstab" ] || continue
# device fstab v2
boot_block=$(awk '$2 == "/boot" {print $1}' "$fstab")
[ "$boot_block" ] && verify_block && return
# device fstab v1
boot_block=$(awk '$1 == "/boot" {print $3}' "$fstab")
[ "$boot_block" ] && verify_block && return
done
if [ -f /proc/emmc ]; then
# emmc layout
boot_block=$(awk '$4 == "\"boot\"" {print $1}' /proc/emmc)
[ "$boot_block" ] && boot_block=/dev/block/$(echo "$boot_block" | cut -f1 -d:) && verify_block && return
fi
if [ -f /proc/mtd ]; then
# mtd layout
boot_block=$(awk '$4 == "\"boot\"" {print $1}' /proc/mtd)
[ "$boot_block" ] && boot_block=/dev/block/$(echo "$boot_block" | cut -f1 -d:) && verify_block && return
fi
if [ -f /proc/dumchar_info ]; then
# mtk layout
boot_block=$(awk '$1 == "/boot" {print $5}' /proc/dumchar_info)
[ "$boot_block" ] && verify_block && return
fi
abort "Unable to find boot block location"
}
# dump boot and unpack the android boot image
dump_boot() {
print "Dumping & unpacking original boot image..."
cd "$tmp"
if $use_dd; then
dd if="$boot_block" of=boot.img
else
dump_image "$boot_block" boot.img
fi
[ $? = 0 ] || abort "Unable to read boot partition"
"$bin/bootimg" xvf boot.img "$split_img" ||
abort "Unpacking boot image failed"
}
# determine the format the ramdisk was compressed in
determine_ramdisk_format() {
magicbytes=$(hexdump -vn2 -e '2/1 "%.2x"' "$split_img/ramdisk")
case "$magicbytes" in
425a) rdformat=bzip2; decompress="$bin/bzip2 -dc" ;;
1f8b|1f9e) rdformat=gzip; decompress="gzip -dc" ;;
0422) rdformat=lz4; decompress="$bin/lz4 -d" ;;
0221) rdformat=lz4l; decompress="$bin/lz4 -d" ;;
894c) rdformat=lzo; decompress="lzop -dc" ;;
5d00) rdformat=lzma; decompress="lzma -dc" ;;
fd37) rdformat=xz; decompress="xz -dc" ;;
*) abort "Unknown ramdisk compression format ($magicbytes)" ;;
esac
print "Detected ramdisk compression format: $rdformat"
command -v $decompress || abort "Unable to find archiver for $rdformat"
[ "$ramdisk_compression" ] && rdformat=$ramdisk_compression
case "$rdformat" in
bzip2) compress="$bin/bzip2 -9c" ;;
gzip) compress="gzip -9c" ;;
lz4) compress="$bin/lz4 -9" ;;
lz4l) compress="$bin/lz4 -9l" ;;
lzo) compress="lzop -9c" ;;
lzma) compress="$bin/xz --format=lzma --lzma1=dict=16MiB -9";
abort "LZMA ramdisk compression is currently unsupported" ;;
xz) compress="$bin/xz --check=crc32 --lzma2=dict=16MiB -9";
abort "XZ ramdisk compression is currently unsupported" ;;
*) abort "Unknown ramdisk compression format ($rdformat)" ;;
esac
command -v $compress || abort "Unable to find archiver for $rdformat"
}
# extract the old ramdisk contents
dump_ramdisk() {
cd "$ramdisk"
$decompress < "$split_img/ramdisk" | cpio -i
[ $? != 0 ] && abort "Unpacking ramdisk failed"
}
# if the actual boot ramdisk exists inside a parent one, use that instead
dump_embedded_ramdisk() {
[ -f "$ramdisk/sbin/ramdisk.cpio" ] || return
print "Found embedded boot ramdisk!"
mv "$ramdisk" "$ramdisk-root"
mkdir "$ramdisk"
cd "$ramdisk"
cpio -i < "$ramdisk-root/sbin/ramdisk.cpio" ||
abort "Failed to unpack embedded boot ramdisk"
}
# execute all scripts in patch.d
patch_ramdisk() {
print "Running ramdisk patching scripts..."
cd "$tmp"
find patch.d/ -type f | sort > patchfiles
while read -r patchfile; do
print "Executing: $(basename "$patchfile")"
env="$tmp/patch.d-env" sh "$patchfile" ||
abort "Script failed: $(basename "$patchfile")"
done < patchfiles
}
# if we moved the parent ramdisk, we should rebuild the embedded one
build_embedded_ramdisk() {
[ -d "$ramdisk-root" ] || return
print "Building new embedded boot ramdisk..."
cd "$ramdisk"
find | cpio -o -H newc > "$ramdisk-root/sbin/ramdisk.cpio"
rm -rf "$ramdisk"
mv "$ramdisk-root" "$ramdisk"
}
# build the new ramdisk
build_ramdisk() {
print "Building new ramdisk ($rdformat)..."
cd "$ramdisk"
echo "Listing ramdisk contents by size:"
find -type f -exec du -a "{}" + | sort -n | awk '{ total += $1; print } END { print "Total size: "total }'
find | cpio -o -H newc | $compress > "$tmp/ramdisk-new"
}
# build the new boot image
build_boot() {
cd "$tmp"
print "Building new boot image..."
kernel=
rd=
dtb=
for image in \
zImage zImage-dtb Image Image-dtb \
Image.gz Image.gz-dtb Image.lz4 Image.lz4-dtb \
Image.fit
do
if [ -s $image ]; then
kernel=$image
print "Found replacement kernel $image!"
break
fi
done
if [ -s ramdisk-new ]; then
rd=ramdisk-new
print "Found replacement ramdisk image!"
fi
if [ -s dtb.img ]; then
dtb=dtb.img
print "Found replacement device tree image!"
fi
"$bin/bootimg" cvf boot-new.img "$split_img" \
${kernel:+--kernel "$kernel"} \
${rd:+--ramdisk "$rd"} \
${dtb:+--dt "$dtb"} \
--hash ||
abort "Repacking boot image failed"
}
# append Samsung enforcing tag to prevent warning at boot
samsung_tag() {
if getprop ro.product.manufacturer | grep -iq '^samsung$'; then
echo "SEANDROIDENFORCE" >> "$tmp/boot-new.img"
fi
}
# sign the boot image with futility if it was a ChromeOS boot image
sign_chromeos() {
[ -f "$split_img/chromeos" ] || return
print "Signing ChromeOS boot image..."
cd "$tmp"
mv boot-new.img boot-new-unsigned.img
echo " " > empty
# sign the new boot image (using AOSP dev kernel test-keys)
"$bin/futility" vbutil_kernel \
--pack boot-new.img \
--vmlinuz boot-new-unsigned.img \
--config empty --bootloader empty \
--verbose --arch "$arch" --version 1 \
--keyblock chromeos/kernel.keyblock \
--signprivate chromeos/kernel_data_key.vbprivk \
--flags 0x1 || abort "Failed to sign ChromeOS boot image!"
}
# backup old boot image
backup_boot() {
[ "$boot_backup" ] || return
print "Backing up original boot image to $boot_backup..."
cd "$tmp"
mkdir -p "$(dirname "$boot_backup")"
cp -f boot.img "$boot_backup"
}
# verify that the boot image exists and can fit the partition
verify_size() {
print "Verifying boot image size..."
cd "$tmp"
[ -s boot-new.img ] || abort "New boot image not found!"
old_sz=$(wc -c < boot.img)
new_sz=$(wc -c < boot-new.img)
if [ "$new_sz" -gt "$old_sz" ]; then
size_diff=$((new_sz - old_sz))
print " Partition size: $old_sz bytes"
print "Boot image size: $new_sz bytes"
abort "Boot image is $size_diff bytes too large for partition"
fi
}
# write the new boot image to boot block
write_boot() {
print "Writing new boot image to memory..."
cd "$tmp"
if $use_dd; then
dd if=boot-new.img of="$boot_block"
else
flash_image "$boot_block" boot-new.img
fi
[ $? = 0 ] || abort "Failed to write boot image! You may need to restore your boot partition"
}
## end install methods
## start boot image patching
find_boot
dump_boot
determine_ramdisk_format
dump_ramdisk
dump_embedded_ramdisk
patch_ramdisk
build_embedded_ramdisk
build_ramdisk
build_boot
samsung_tag
sign_chromeos
verify_size
backup_boot
write_boot
## end boot image patching