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xburst-tools/qiboot/6410-partition-sd.sh
Christopher Hall 683fc5a92a My revised version of the partition tool 
The fdisk and mkfs was factored out into a shell function
so that it is easier to create dirfferent partition layouts.

The default case was left the same as the original script

The partitions can be specified as percentages of the
available space (after Qi reserved space has been taken out)
by providing a comma separated list of values:
e.g. 25,0,50
Which would create partitions 1 and 3 with 25% and 50%
of the usable capacity. Partitions 2 and 4 would not be
assigned.

Signed-off-by: Christopher Hall <hsw@openmoko.com>
2009-03-11 07:32:15 +00:00

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#!/bin/sh
# 6410 SD Boot formatter
# (C) 2008 Openmoko, Inc
# Author: Andy Green <andy@openmoko.com>
# LAYOUT (if partition parameter is not specified)
# Partition table, then
# VFAT takes up remaining space here
# then...
#
EXT3_ROOTFS_SECTORS=$(( 256 * 1024 * 2 ))
EXT3_BACKUP_FS_SECTORS=$(( 8 * 1024 * 2 ))
QI_ALLOCATION=$(( 256 * 2 ))
#
# lastly fixed stuff: 8KByte initial boot, sig, padding
#
# ----------------------
echo "s3c6410 bootable SD partitioning utility"
echo "(C) Openmoko, Inc Andy Green <andy@openmoko.com>"
echo
# these are fixed in iROM
QI_INITIAL=$(( 8 * 2 ))
SIG=1
# display usage message and exit
# any arguments are displayed as an error message
USAGE()
{
echo
[ -z "$1" ] || echo ERROR: $*
echo
echo 'This formats a SD card for usage on SD Card boot'
echo ' on 6410 based systems'
echo
echo Usage: $(basename "$0") '<device> <card> <bootloader> <partition>'
echo ' device = disk device name for SD Card, e.g. sde /dev/sdf'
echo ' card = sd | sdhc'
echo ' bootloader = /path/to/qi-binary'
echo ' partition = vfat | NN | NN,NN | NN,NN,NN | NN,NN,NN,NN | no'
echo ' * vfat -> main-vfat[rest] + rootfs[256M] + backupfs[8M]'
echo ' NN -> rootfs1[NN%] + .. + rootfs4[NN%]'
echo ' NN=0 -> will skip the partition'
echo ' no -> leave partitions alone'
echo
echo 'Note: * => default action if no parameter specified'
echo ' sum(NN) must be in [1..100]'
echo
echo 'e.g. '$(basename "$0")' sdb sdhc images/qi 0,30,0,45'
echo ' will format an SDHC with partition 2 receiving 20% and partition 4'
echo ' receiving 45% of the disk capacity and the remaining 35% will be'
echo ' unused.'
echo ' Capacity is calculated after subtracting the space reserved for Qi.'
echo ' Partitions 1 and 3 will not be used.'
exit 1
}
[ -z "$1" -o -z "$2" -o -z "$3" ] && USAGE 'Missing arguments'
dev="$1"
card="$2"
qi="$3"
partition="$4"
case "${card}" in
[sS][dD][hH][cC])
PADDING=1025
;;
[sS][dD])
PADDING=1
;;
*)
USAGE "${card} is an unknown card type"
esac
# the amount of space that must remain unused at the end of the disk
REAR_SECTORS=$(( $QI_ALLOCATION + $QI_INITIAL + $SIG + $PADDING ))
# validate parameters
[ -b "${dev}" ] || dev="/dev/${dev}"
[ -b "${dev}" ] || USAGE "${dev} is not a valid block device"
[ X"${dev}" = X"${dev%%[0-9]}" ] || USAGE "${dev} is a partition, please use device: perhaps ${dev%%[0-9]}"
echo "Checking for mounted partitions..."
grep "${dev}" /proc/mounts && USAGE "partitions on ${dev} are mounted, please unmount them"
[ -e "${qi}" ] || USAGE "bootloader file: ${qi} does not exist"
# get size of device
bytes=$(echo p | fdisk "${dev}" 2>&1 | sed '/^Disk.*, \([0-9]*\) bytes/s//\1/p;d')
SECTORS=$(($bytes / 512))
[ -z "$SECTORS" ] && USAGE "could not find size for ${dev}"
[ "$SECTORS" -le 0 ] && USAGE "invalid size: '${SECTORS}' for ${dev}"
echo "${dev} is $SECTORS 512-byte blocks"
# Partition and format a disk (or SD card)
# Parameters to format function are:
#
# device -> device to partition e.g. /dev/sdX
#
# Partition 1 parameters:
#
# label -> file system volume label e.g. rootfs
# sizeMB -> size of the partition in MB e.g. 256
# fstype -> filesystem type e.g. ext2, ext3, vfat (look at /sbin/mkfs.* for others)
#
# Notes: 1. Repeat "label, sizeMB, fstype" for partitions 2..4
# 2. Partitions 2..4 are optional
# 3. Do not repeat device parameter
# 4. To skip a partition use: 'null 0 none' for that partition
FORMAT()
{
local device label sizeMB fstype p partition flag skip
device="$1"; shift
(
p=0
flag=0
echo o
while [ $# -gt 0 ]
do
label="$1"; shift
sizeMB="$1"; shift
fstype="$1"; shift
p=$((${p} + 1))
skip=NO
[ ${sizeMB} -le 0 ] && skip=YES
case "${label}" in
[nN][uU][lL][lL])
skip=YES
;;
*)
;;
esac
case "${skip}" in
[yY][eE][sS]|[yY])
;;
*)
echo n
echo p
echo ${p}
echo
echo +${sizeMB}M
case "${fstype}" in
[vV][fF][aA][tT]|[mM][sS][dD][oO][sS])
echo t
# fdisk is "helpful" & will auto select partition if there is only one
# so do not output partition number if this is the first partition
[ "${flag}" -eq 1 ] && echo ${p}
echo 0b
;;
*)
;;
esac
flag=1
;;
esac
done
echo p
echo w
echo q
) | fdisk "${device}"
p=0
while [ $# -gt 0 ]
do
label="$1"; shift
sizeMB="$1"; shift
fstype="$1"; shift
p=$((${p} + 1))
partition="${dev}${p}"
skip=NO
[ ${sizeMB} -eq 0 ] && skip=YES
case "${label}" in
[nN][uU][lL][lL])
skip=YES
;;
esac
case "${skip}" in
[yY][eE][sS]|[yY])
echo "Skipping: ${partition}"
;;
*)
echo "Formatting: ${partition} -> ${fstype}[${sizeMB}MB]"
case "${fstype}" in
[vV][fF][aA][tT]|[mM][sS][dD][oO][sS])
mkfs.${fstype} -n "${label}" "${partition}"
;;
*)
mkfs.${fstype} -L "${label}" "${partition}"
;;
esac
;;
esac
done
}
# format the disk
case "${partition}" in
# this case also hadles the default case (i.e. empty string: "")
[vV][fF][aA][tT]|"")
EXT3_TOTAL_SECTORS=$(( $EXT3_ROOTFS_SECTORS + $EXT3_BACKUP_FS_SECTORS ))
FAT_SECTORS=$(( $SECTORS - $EXT3_TOTAL_SECTORS - $REAR_SECTORS ))
FAT_MB=$(( $FAT_SECTORS / 2048 ))
EXT3_ROOTFS_MB=$(( ${EXT3_ROOTFS_SECTORS} / 2048 ))
EXT3_BACKUP_FS_MB=$(( ${EXT3_BACKUP_FS_SECTORS} / 2048 ))
echo Creating VFAT partition of ${FAT_MB} MB
echo Creating Linux partition of ${EXT3_ROOTFS_MB} MB
echo Creating backup Linux partition of ${EXT3_BACKUP_FS_MB} MB
FORMAT "${dev}" \
main-vfat "${FAT_MB}" vfat \
rootfs "${EXT3_ROOTFS_MB}" ext3 \
backupfs "${EXT3_BACKUP_FS_MB}" ext3
;;
# decode partition or partition list
*,*|100|[1-9][0-9]|[1-9])
arg="${partition},"
for v in 1 2 3 4
do
eval n${v}="\${arg%%,*}"
eval n${v}="\${n${v}:-0}"
arg="${arg#*,},"
done
total=$(( ${n1} + ${n2} + ${n3} + ${n4} ))
echo Percentage of disk partitioned = ${total}%
[ ${total} -gt 100 -o ${total} -lt 1 ] && USAGE partition: "'${partition}' => ${total}% outside [1..100]"
EXT3_TOTAL_SECTORS=$(( $SECTORS - $REAR_SECTORS ))
EXT3_ROOTFS1_SECTORS=$(( $EXT3_TOTAL_SECTORS * $n1 / 100 ))
EXT3_ROOTFS2_SECTORS=$(( $EXT3_TOTAL_SECTORS * $n2 / 100 ))
EXT3_ROOTFS3_SECTORS=$(( $EXT3_TOTAL_SECTORS * $n3 / 100 ))
EXT3_ROOTFS4_SECTORS=$(( $EXT3_TOTAL_SECTORS * $n4 / 100 ))
EXT3_ROOTFS1_MB=$(( ${EXT3_ROOTFS1_SECTORS} / 2048 ))
EXT3_ROOTFS2_MB=$(( ${EXT3_ROOTFS2_SECTORS} / 2048 ))
EXT3_ROOTFS3_MB=$(( ${EXT3_ROOTFS3_SECTORS} / 2048 ))
EXT3_ROOTFS4_MB=$(( ${EXT3_ROOTFS4_SECTORS} / 2048 ))
echo Creating Linux partition 1 of ${EXT3_ROOTFS1_MB} MB
echo Creating Linux partition 2 of ${EXT3_ROOTFS2_MB} MB
echo Creating Linux partition 3 of ${EXT3_ROOTFS3_MB} MB
echo Creating Linux partition 4 of ${EXT3_ROOTFS4_MB} MB
FORMAT "${dev}" \
rootfs1 "${EXT3_ROOTFS1_MB}" ext3 \
rootfs2 "${EXT3_ROOTFS2_MB}" ext3 \
rootfs3 "${EXT3_ROOTFS3_MB}" ext3 \
rootfs4 "${EXT3_ROOTFS4_MB}" ext3
;;
[Nn]*)
# do not format
;;
*)
USAGE "'${partition}' is an unknown partition config"
;;
esac
# copy the full bootloader image to the right place after the
# partitioned area
echo
echo Installing Qi bootloader from: ${qi}
dd if="${qi}" of="${dev}" bs=512 count=512 \
seek=$(( $SECTORS - $REAR_SECTORS ))
dd if="${qi}" of="${dev}" bs=512 \
seek=$(( $SECTORS - $REAR_SECTORS + $QI_ALLOCATION )) \
count=$QI_INITIAL
dd if=/dev/zero of="${dev}" bs=512 \
seek=$(( $SECTORS - $REAR_SECTORS + $QI_ALLOCATION + $QI_INITIAL )) \
count=$(( $SIG + $PADDING ))
# done
echo
echo "**** completed"
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