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openwrt/target/linux/loongarch64/base-files/lib/upgrade/platform.sh
Weijie Gao 7fcb82665e loongarch64: new target 
Add target for Loongson LoongArch64-based boards.

LoongArch is a new RISC ISA developed by Loongson. It's a bit like
MIPS or RISC-V. LoongArch includes both 32-bit and 64-bit versions
(LoongArch32/LoongArch64).

Loongson 3A5000 and 3A6000 are the two existing CPUs of LoongArch64
and is used for PC products. It's BIOS supports ACPI and UEFI-only
boot. These CPUs supports SMP and SMT.

At present only LoongArch64 is supported by linux kernel.

Toolchain requirement:
binutils >= 2.40
gcc >= 13.1

For details, please check the following links:
https://lwn.net/Articles/861951/
https://loongson.github.io/LoongArch-Documentation/README-EN.html

Signed-off-by: Weijie Gao <hackpascal@gmail.com>
2024-05-04 14:14:16 +08:00

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# SPDX-License-Identifier: GPL-2.0-or-later
RAMFS_COPY_BIN="/usr/sbin/blkid"
platform_check_image() {
local board=$(board_name)
local diskdev partdev diff
[ "$#" -gt 1 ] && return 1
v "Board is ${board}"
export_bootdevice && export_partdevice diskdev 0 || {
v "platform_check_image: Unable to determine upgrade device"
return 1
}
get_partitions "/dev/$diskdev" bootdisk
v "Extract boot sector from the image"
get_image_dd "$1" of=/tmp/image.bs count=63 bs=512b
get_partitions /tmp/image.bs image
#compare tables
diff="$(grep -F -x -v -f /tmp/partmap.bootdisk /tmp/partmap.image)"
rm -f /tmp/image.bs /tmp/partmap.bootdisk /tmp/partmap.image
if [ -n "$diff" ]; then
v "Partition layout has changed. Full image will be written."
ask_bool 0 "Abort" && exit 1
return 0
fi
}
platform_copy_config() {
local partdev parttype=ext4
if export_partdevice partdev 1; then
part_magic_fat "/dev/$partdev" && parttype=vfat
mount -t $parttype -o rw,noatime "/dev/$partdev" /mnt
cp -af "$UPGRADE_BACKUP" "/mnt/$BACKUP_FILE"
umount /mnt
else
v "ERROR: Unable to find partition to copy config data to"
fi
sleep 5
}
# To avoid writing over any firmware
# files (e.g ubootefi.var or firmware/X/ aka EBBR)
# Copy efi/openwrt and efi/boot from the new image
# to the existing ESP
platform_do_upgrade_efi_system_partition() {
local image_file=$1
local target_partdev=$2
local image_efisp_start=$3
local image_efisp_size=$4
v "Updating ESP on ${target_partdev}"
NEW_ESP_DIR="/mnt/new_esp_loop"
CUR_ESP_DIR="/mnt/cur_esp"
mkdir "${NEW_ESP_DIR}"
mkdir "${CUR_ESP_DIR}"
get_image_dd "$image_file" of="/tmp/new_efi_sys_part.img" \
skip="$image_efisp_start" count="$image_efisp_size"
mount -t vfat -o loop -o ro /tmp/new_efi_sys_part.img "${NEW_ESP_DIR}"
if [ ! -d "${NEW_ESP_DIR}/efi/boot" ]; then
v "ERROR: Image does not contain EFI boot files (/efi/boot)"
return 1
fi
mount -t vfat "/dev/$partdev" "${CUR_ESP_DIR}"
for d in $(find "${NEW_ESP_DIR}/efi/" -mindepth 1 -maxdepth 1 -type d); do
v "Copying ${d}"
newdir_bname=$(basename "${d}")
rm -rf "${CUR_ESP_DIR}/efi/${newdir_bname}"
cp -r "${d}" "${CUR_ESP_DIR}/efi"
v "rm -rf \"${CUR_ESP_DIR}/efi/${newdir_bname}\""
v "cp -r \"${d}\" \"${CUR_ESP_DIR}/efi\""
done
umount "${NEW_ESP_DIR}"
umount "${CUR_ESP_DIR}"
}
platform_do_upgrade() {
local board=$(board_name)
local diskdev partdev diff
export_bootdevice && export_partdevice diskdev 0 || {
v "platform_do_upgrade: Unable to determine upgrade device"
return 1
}
sync
if [ "$UPGRADE_OPT_SAVE_PARTITIONS" = "1" ]; then
get_partitions "/dev/$diskdev" bootdisk
v "Extract boot sector from the image"
get_image_dd "$1" of=/tmp/image.bs count=63 bs=512b
get_partitions /tmp/image.bs image
#compare tables
diff="$(grep -F -x -v -f /tmp/partmap.bootdisk /tmp/partmap.image)"
else
diff=1
fi
# Only change the partition table if sysupgrade -p is set,
# otherwise doing so could interfere with embedded "single storage"
# (e.g SoC boot from SD card) setups, as well as other user
# created storage (like uvol)
if [ -n "$diff" ] && [ "${UPGRADE_OPT_SAVE_PARTITIONS}" = "0" ]; then
# Need to remove partitions before dd, otherwise the partitions
# that are added after will have minor numbers offset
partx -d - "/dev/$diskdev"
get_image_dd "$1" of="/dev/$diskdev" bs=4096 conv=fsync
# Separate removal and addtion is necessary; otherwise, partition 1
# will be missing if it overlaps with the old partition 2
partx -a - "/dev/$diskdev"
return 0
fi
#iterate over each partition from the image and write it to the boot disk
while read part start size; do
if export_partdevice partdev $part; then
v "Writing image to /dev/$partdev..."
if [ "$part" = "1" ]; then
platform_do_upgrade_efi_system_partition \
$1 $partdev $start $size || return 1
else
v "Normal partition, doing DD"
get_image_dd "$1" of="/dev/$partdev" ibs=512 obs=1M skip="$start" \
count="$size" conv=fsync
fi
else
v "Unable to find partition $part device, skipped."
fi
done < /tmp/partmap.image
local parttype=ext4
if (blkid > /dev/null) && export_partdevice partdev 1; then
part_magic_fat "/dev/$partdev" && parttype=vfat
mount -t $parttype -o rw,noatime "/dev/$partdev" /mnt
if export_partdevice partdev 2; then
THIS_PART_BLKID=$(blkid -o value -s PARTUUID "/dev/${partdev}")
v "Setting rootfs PARTUUID=${THIS_PART_BLKID}"
sed -i "s/\(PARTUUID=\)[a-f0-9-]\+/\1${THIS_PART_BLKID}/ig" \
/mnt/efi/openwrt/grub.cfg
fi
umount /mnt
fi
# Provide time for the storage medium to flush before system reset
# (despite the sync/umount it appears NVMe etc. do it in the background)
sleep 5
}
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