7 # Binaires array for fusing
8 declare -a FUSING_BINARY_ARRAY
9 declare -i FUSING_BINARY_NUM=0
12 declare -i FUS_ENTRY_NUM=0
13 declare -i ab_option=0
15 # binary name | part number | bs | label | fs type
16 declare -a PART_TABLE=(
17 "boot.img" 1 4M boot_a vfat
18 "rootfs.img" 2 4M rootfs_a ext4
19 "system-data.img" 3 4M system-data ext4
20 "user.img" 5 4M user ext4
21 "modules.img" 6 4M module_a ext4
22 "ramdisk.img" 7 4M ramdisk_a ext4
23 "ramdisk-recovery.img" 8 4M ramdisk-recovery_a ext4
24 "hal.img" 10 4M hal_a ext4
25 "boot.img" 11 4M boot_b vfat
26 "rootfs.img" 12 4M rootfs_b ext4
27 "modules.img" 13 4M module_b ext4
28 "ramdisk.img" 14 4M ramdisk_b ext4
29 "ramdisk-recovery.img" 15 4M ramdisk-recovery_b ext4
30 "hal.img" 16 4M hal_b ext4
32 declare -a PART_TABLE_B=(
33 "boot.img" 11 4M boot_b vfat
34 "rootfs.img" 12 4M rootfs_b ext4
35 "modules.img" 13 4M module_b ext4
36 "ramdisk.img" 14 4M ramdisk_b ext4
37 "ramdisk-recovery.img" 15 4M ramdisk-recovery_b ext4
38 "hal.img" 16 4M hal_b ext4
41 declare -r -i PART_TABLE_COL=5
42 declare -r -i PART_TABLE_ROW=${#PART_TABLE[*]}/${PART_TABLE_COL}
43 declare -r -i PART_TABLE_ROW_B=${#PART_TABLE_B[*]}/${PART_TABLE_COL}
45 # partition table support
46 function get_index_use_name () {
47 local -r binary_name=$1
49 for ((idx=0;idx<$PART_TABLE_ROW;idx++)); do
50 if [ ${PART_TABLE[idx * ${PART_TABLE_COL} + 0]} == "$binary_name" ]; then
55 # return out of bound index
59 # partition table support
60 function get_index_use_name_to_b () {
61 local -r binary_name=$1
63 for ((idx=0;idx<$PART_TABLE_ROW_B;idx++)); do
64 if [ ${PART_TABLE_B[idx * ${PART_TABLE_COL} + 0]} == "$binary_name" ]; then
69 # return out of bound index
73 function print_message () {
84 function check_ddversion () {
86 # before coreutils dd 8.24, dd doesn't support "status=progress"
87 # and the option causes fusing failure. For backward compatibility,
88 # do not use the option for old dd
89 local version=(`dd --version | head -1 | grep -o '[0-9]\+'`)
90 local major=${version[0]}
91 local minor=${version[1]}
93 if [ $major -lt 8 ]; then
95 elif [ $major -eq 8 -a $minor -lt 24 ]; then
100 function fusing_image () {
101 if [ $ab_option == 2 ] ; then
102 echo "Skip to update Partitoin A"
105 local -r fusing_img=$1
107 # get binary info using basename
108 get_index_use_name $(basename "$fusing_img")
109 local -r -i part_idx=$?
111 if [ $part_idx -ne $PART_TABLE_ROW ];then
112 local -r num=${PART_TABLE[${part_idx} * ${PART_TABLE_COL} + 1]}
113 if [ "${num}" == "" ]; then
114 local -r blktype=disk
116 local -r blktype=part
118 local -r device=/dev/`lsblk ${DEVICE} -o TYPE,KNAME | awk "/^${blktype}.*[a-z]${num}\$/ { print \\\$2 }"`
119 local -r bs=${PART_TABLE[${part_idx} * ${PART_TABLE_COL} + 2]}
121 echo "Not supported binary: $fusing_img"
125 local -r input_size=`du -b $fusing_img | awk '{print $1}'`
126 local -r input_size_mb=`expr $input_size / 1024 / 1024`
128 print_message 2 "[Fusing $1 ($input_size_mb MiB)]"
129 if [ "$blktype" == "part" ]; then
130 local MOUNT_PART=`mount | grep $device`
131 if [ "$MOUNT_PART" != "" ]; then
135 if [ $OLD_DD == 1 ]; then
136 dd if=$fusing_img | pv -s $input_size | dd of=$device bs=$bs
138 dd if=$fusing_img of=$device bs=$bs status=progress oflag=direct
142 function fusing_image_to_b () {
143 if [ $ab_option == 0 ] ; then
144 echo "Skip to update Partitoin B"
147 local -r fusing_img=$1
149 # get binary info using basename
150 get_index_use_name_to_b $(basename "$fusing_img")
152 local -r -i part_idx=$?
154 if [ $part_idx -ne $PART_TABLE_ROW_B ];then
155 local -r num=${PART_TABLE_B[${part_idx} * ${PART_TABLE_COL} + 1]}
156 if [ "${num}" == "" ]; then
157 local -r blktype=disk
159 local -r blktype=part
161 local -r device=/dev/`lsblk ${DEVICE} -o TYPE,KNAME | awk "/^${blktype}.*[a-z]${num}\$/ { print \\\$2 }"`
162 local -r bs=${PART_TABLE_B[${part_idx} * ${PART_TABLE_COL} + 2]}
164 echo "Not supported binary: $fusing_img"
168 local -r input_size=`du -b $fusing_img | awk '{print $1}'`
169 local -r input_size_mb=`expr $input_size / 1024 / 1024`
171 print_message 2 "[Fusing $1 ($input_size_mb MiB)]"
172 if [ "$blktype" == "part" ]; then
173 local MOUNT_PART=`mount | grep $device`
174 if [ "$MOUNT_PART" != "" ]; then
178 if [ $OLD_DD == 1 ]; then
179 dd if=$fusing_img | pv -s $input_size | dd of=$device bs=$bs
181 dd if=$fusing_img of=$device bs=$bs status=progress oflag=direct
185 function fuse_image_tarball () {
187 local -r temp_dir="tar_tmp"
190 tar xvf $filepath -C $temp_dir
196 fusing_image_to_b $file
204 function fuse_image () {
206 if [ "$FUSING_BINARY_NUM" == 0 ]; then
210 for ((fuse_idx = 0 ; fuse_idx < $FUSING_BINARY_NUM ; fuse_idx++))
212 local filename=${FUSING_BINARY_ARRAY[fuse_idx]}
216 fuse_image_tarball $filename
219 fusing_image $filename
220 fusing_image_to_b $filename
228 function mkpart_3 () {
229 # NOTE: if your sfdisk version is less than 2.26.0, then you should use following sfdisk command:
230 # sfdisk --in-order --Linux --unit M $DISK <<-__EOF__
232 # NOTE: sfdisk 2.26 doesn't support units other than sectors and marks --unit option as deprecated.
233 # The input data needs to contain multipliers (MiB) instead.
234 local version=(`sfdisk -v | grep -o '[0-9]\+'`)
235 local major=${version[0]}
236 local minor=${version[1]}
238 local support_delete=0
240 if [ $major -gt 2 ]; then
242 if [ $major -eq 2 -a $minor -ge 28 ]; then
246 if [ $major -eq 2 -a $minor -ge 26 ]; then
251 if [ $sfdisk_new == 0 ]; then
252 echo "$(tput setaf 3)$(tput bold)NOTICE: Your sfdisk ${version[0]}.${version[1]} version is too old. Update Latest sfdisk!"
257 local -r DISK=$DEVICE
258 local -r SIZE=`sfdisk -s $DISK`
259 local -r SIZE_MB=$((SIZE >> 10))
262 local -r ROOTFS_SZ=3072
263 local -r DATA_SZ=1344
264 local -r MODULE_SZ=32
265 local -r RAMDISK_SZ=32
266 local -r RAMDISK_RECOVERY_SZ=32
270 local -r RESERVED1_SZ=64
271 local -r RESERVED2_SZ=125
272 local -r EXTEND_SZ=36
274 let "USER_SZ = $SIZE_MB - $BOOT_SZ * 2 - $ROOTFS_SZ * 2 - $DATA_SZ - $MODULE_SZ * 2 - $RAMDISK_SZ * 2 - $RAMDISK_RECOVERY_SZ * 2 - $INFORM_SZ - $EXTEND_SZ - $HAL_SZ * 2 - $RESERVED1_SZ - $RESERVED2_SZ - $PARAM_SZ"
276 local -r BOOT_A=${PART_TABLE[0 * ${PART_TABLE_COL} + 3]}
277 local -r ROOTFS_A=${PART_TABLE[1 * ${PART_TABLE_COL} + 3]}
278 local -r SYSTEMDATA=${PART_TABLE[2 * ${PART_TABLE_COL} + 3]}
279 local -r USER=${PART_TABLE[3 * ${PART_TABLE_COL} + 3]}
280 local -r MODULE_A=${PART_TABLE[4 * ${PART_TABLE_COL} + 3]}
281 local -r RAMDISK_A=${PART_TABLE[5 * ${PART_TABLE_COL} + 3]}
282 local -r RAMDISK_RECOVERY_A=${PART_TABLE[6 * ${PART_TABLE_COL} + 3]}
283 local -r INFORM=inform
284 local -r HAL_A=${PART_TABLE[7 * ${PART_TABLE_COL} + 3]}
285 local -r BOOT_B=${PART_TABLE[8 * ${PART_TABLE_COL} + 3]}
286 local -r ROOTFS_B=${PART_TABLE[9 * ${PART_TABLE_COL} + 3]}
287 local -r MODULE_B=${PART_TABLE[10 * ${PART_TABLE_COL} + 3]}
288 local -r RAMDISK_B=${PART_TABLE[11 * ${PART_TABLE_COL} + 3]}
289 local -r RAMDISK_RECOVERY_B=${PART_TABLE[12 * ${PART_TABLE_COL} + 3]}
290 local -r HAL_B=${PART_TABLE[13 * ${PART_TABLE_COL} + 3]}
291 local -r RESERVED0=reserved0
292 local -r RESERVED1=reserved1
293 local -r RESERVED2=reserved2
295 if [[ $USER_SZ -le 100 ]]
297 echo "We recommend to use more than 8GB disk"
301 echo "================================================"
302 echo "Label dev size"
303 echo "================================================"
304 echo $BOOT_A" " $DISK"1 " $BOOT_SZ "MB"
305 echo $ROOTFS_A" " $DISK"2 " $ROOTFS_SZ "MB"
306 echo $SYSTEMDATA" " $DISK"3 " $DATA_SZ "MB"
307 echo "[Extend]"" " $DISK"4"
308 echo " "$USER" " $DISK"5 " $USER_SZ "MB"
309 echo " "$MODULE_A" " $DISK"6 " $MODULE_SZ "MB"
310 echo " "$RAMDISK_A" " $DISK"7 " $RAMDISK_SZ "MB"
311 echo " "$RAMDISK_RECOVERY_A" " $DISK"8 " $RAMDISK_RECOVERY_SZ "MB"
312 echo " "$INFORM" " $DISK"9 " $INFORM_SZ "MB"
313 echo " "$HAL_A" " $DISK"10 " $HAL_SZ "MB"
314 echo " "$BOOT_B" " $DISK"11 " $BOOT_SZ "MB"
315 echo " "$ROOTFS_B" " $DISK"12 " $ROOTFS_SZ "MB"
316 echo " "$MODULE_B" " $DISK"13 " $MODULE_SZ "MB"
317 echo " "$RAMDISK_B" " $DISK"14 " $RAMDISK_SZ "MB"
318 echo " "$RAMDISK_RECOVERY_B" " $DISK"15 " $RAMDISK_RECOVERY_SZ "MB"
319 echo " "$HAL_B" " $DISK"16 " $HAL_SZ "MB"
320 echo " "$RESERVED0" " $DISK"17 " $PARAM_SZ "MB"
321 echo " "$RESERVED1" " $DISK"18 " $RESERVED1_SZ "MB"
322 echo " "$RESERVED2" " $DISK"19 " $RESERVED2_SZ "MB"
324 local MOUNT_LIST=`mount | grep $DISK | awk '{print $1}'`
325 for mnt in $MOUNT_LIST
330 echo "Remove partition table..."
331 dd if=/dev/zero of=$DISK bs=512 count=32 conv=notrunc
333 if [ $support_delete == 1 ]; then
334 sfdisk --delete $DISK
338 for ((idx=0; idx < $PART_TABLE_ROW; idx++)); do
339 NR=${PART_TABLE[idx * ${PART_TABLE_COL} + 1]}
340 eval "PART_LABEL_NR_${NR}=${PART_TABLE[idx * ${PART_TABLE_COL} + 3]}"
343 sfdisk $DISK <<-__EOF__
345 ${DEVICE}1 : start=4MiB, size=${BOOT_SZ}MiB, type= C12A7328-F81F-11D2-BA4B-00A0C93EC93B, name=${PART_LABEL_NR_1}
346 ${DEVICE}2 : size=${ROOTFS_SZ}MiB, name=${PART_LABEL_NR_2}
347 ${DEVICE}3 : size=${DATA_SZ}MiB, name=${PART_LABEL_NR_3}
348 ${DEVICE}4 : size=${EXTEND_SZ}MiB, name=none
349 ${DEVICE}5 : size=${USER_SZ}MiB, name=${PART_LABEL_NR_5}
350 ${DEVICE}6 : size=${MODULE_SZ}MiB, name=${PART_LABEL_NR_6}
351 ${DEVICE}7 : size=${RAMDISK_SZ}MiB, name=${PART_LABEL_NR_7}
352 ${DEVICE}8 : size=${RAMDISK_RECOVERY_SZ}MiB, name=${PART_LABEL_NR_8}
353 ${DEVICE}9 : size=${INFORM_SZ}MiB, name=inform
354 ${DEVICE}10: size=${HAL_SZ}MiB, name=${PART_LABEL_NR_10}
355 ${DEVICE}11: size=${BOOT_SZ}MiB, type= C12A7328-F81F-11D2-BA4B-00A0C93EC93B, name=${PART_LABEL_NR_11}
356 ${DEVICE}12: size=${ROOTFS_SZ}MiB, name=${PART_LABEL_NR_12}
357 ${DEVICE}13: size=${MODULE_SZ}MiB, name=${PART_LABEL_NR_13}
358 ${DEVICE}14: size=${RAMDISK_SZ}MiB, name=${PART_LABEL_NR_14}
359 ${DEVICE}15: size=${RAMDISK_RECOVERY_SZ}MiB, name=${PART_LABEL_NR_15}
360 ${DEVICE}16: size=${HAL_SZ}MiB, name=${PART_LABEL_NR_16}
361 ${DEVICE}17: size=${PARAM_SZ}MiB, name=reserved0
362 ${DEVICE}18: size=${RESERVED1_SZ}MiB, name=reserved1
363 ${DEVICE}19: size=${RESERVED2_SZ}MiB, name=reserved2
367 for ((idx=0;idx<$PART_TABLE_ROW;idx++)); do
368 local PART=/dev/`lsblk ${DISK} -o TYPE,KNAME | awk "/^part.*[a-z]${PART_TABLE[$idx * ${PART_TABLE_COL} + 1]}\$/ { print \\\$2 }"`
369 if [ "${PART_TABLE[$idx * ${PART_TABLE_COL} + 4]}" == "vfat" ]; then
370 mkfs.vfat -F 16 ${PART} -n ${PART_TABLE[$idx * ${PART_TABLE_COL} + 3]}
371 if [ $? -eq 1 ]; then
372 echo "Failed to format as FAT filesystem"
375 elif [ "${PART_TABLE[$idx * ${PART_TABLE_COL} + 4]}" == "ext4" ]; then
376 mkfs.ext4 -q ${PART} -L ${PART_TABLE[$idx * ${PART_TABLE_COL} + 3]} -F
378 echo "Skip to format for unknown filesystem type ${PART_TABLE[$idx * ${PART_TABLE_COL} + 4]} for part$idx, ${PART_TABLE[$idx * ${PART_TABLE_COL} + 3]}"
382 local -r PART9=/dev/`lsblk ${DISK} -o TYPE,KNAME | grep part | awk '{ print $2 }' | grep -G "[a-z]9\$"`
383 mkfs.ext4 -q ${PART9} -L $INFORM -F -O ^metadata_csum
385 # create "reboot-param.bin" file in inform partition for passing reboot parameter
386 # It should be done only once upon partition format.
387 if [ -d mnt_tmp ]; then
388 echo "Remove the existing mnt_tmp directory!!"
392 mount -t ext4 ${PART9} ./mnt_tmp
393 echo "norm" > ./mnt_tmp/reboot-param.bin
394 echo "norm" > ./mnt_tmp/reboot-param.info
395 echo "a" > ./mnt_tmp/partition-ab.info
396 echo "1" > ./mnt_tmp/partition-ab-cloned.info
397 echo "0" > ./mnt_tmp/upgrade-status.info
399 # To check the status of partition. (default "ok")
400 echo "ok" > ./mnt_tmp/partition-a-status.info
401 echo "ok" > ./mnt_tmp/partition-b-status.info
407 local -r PART17=/dev/`lsblk ${DISK} -o TYPE,KNAME | grep part | awk '{ print $2 }' | grep -G "[a-z]17\$"`
408 mkfs.ext4 -q ${PART17} -L $RESERVED0 -F
410 local -r PART18=/dev/`lsblk ${DISK} -o TYPE,KNAME | grep part | awk '{ print $2 }' | grep -G "[a-z]18\$"`
411 mkfs.ext4 -q ${PART18} -L $RESERVED1 -F
413 local -r PART19=/dev/`lsblk ${DISK} -o TYPE,KNAME | grep part | awk '{ print $2 }' | grep -G "[a-z]19\$"`
414 mkfs.ext4 -q ${PART19} -L $RESERVED2 -F
417 function show_usage () {
419 echo " sudo ./sd_fusing*.sh -d <device> [-b <path> <path> ..] [--format] [--update [b] ]"
420 echo " -d : device ndoe "
422 echo " --update : If want to update Image about B Partition, use --update option with b"
423 echo " Otherwise, it will be updated to both partition"
426 function check_partition_format () {
427 if [ "$FORMAT" != "2" ]; then
428 echo "-----------------------"
429 echo "Skip $DEVICE format"
430 echo "-----------------------"
434 echo "-------------------------------"
435 echo "Start $DEVICE format"
438 echo "End $DEVICE format"
439 echo "-------------------------------"
443 function check_args () {
444 if [ "$DEVICE" == "" ]; then
445 echo -n "$(tput setaf 3)$(tput bold)$DEVICE will be formatted, Is it OK? [y/<n>] "
451 if [ "$DEVICE" != "" ]; then
452 echo "Device: $DEVICE"
455 if [ "$FUSING_BINARY_NUM" != 0 ]; then
456 echo "Fusing binary: "
457 for ((bid = 0 ; bid < $FUSING_BINARY_NUM ; bid++))
459 echo " ${FUSING_BINARY_ARRAY[bid]}"
464 if [ "$FORMAT" == "1" ]; then
466 echo "$(tput setaf 3)$(tput bold)$DEVICE will be formatted, Is it OK? [y/<n>]"
469 if [ "$input" == "y" ] || [ "$input" == "Y" ]; then
477 function check_device () {
478 if [ ! -b "$DEVICE" ]; then
479 echo "No such device: $DEVICE"
483 local REMOVABLE=`lsblk $DEVICE -nd -o RM | grep 1 | wc -l`
484 if [ "$REMOVABLE" == "0" ]; then
486 echo "$(tput setaf 3)$(tput bold)$DEVICE is not a removable disk, Is it OK? [y/<n>]"
489 if [ "$input" != "y" ] && [ "$input" != "Y" ]; then
494 if [ ! -w "$DEVICE" ]; then
495 echo "Write not permitted: $DEVICE"
500 function print_logo () {
502 echo "Raspberry Pi4 downloader, version 1.0.7"
508 function add_fusing_binary() {
509 local declare binary_name=$1
511 if [ "$binary_name" != "" ]; then
512 if [ -f "$binary_name" ]; then
513 FUSING_BINARY_ARRAY[$FUSING_BINARY_NUM]=$binary_name
515 FUSING_BINARY_NUM=$((FUSING_BINARY_NUM + 1))
517 echo "No such file: $binary_name"
523 declare -i binary_option=0
525 while test $# -ne 0; do
545 if [ "$1" == "b" ] ; then
553 if [ $binary_option == 1 ];then
554 add_fusing_binary $option
556 echo "Unkown command: $option"
565 check_partition_format