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# . this file to load the following utility functions
#
# mtdev "name"
#  return (output) the character device name for flash parition "name"
#  /proc/mtd has the general form:
#    dev:    size   erasesize  name
#    mtd5: 00020000 00020000 "FIS directory"
#  use this rather than hard-wiring the device because the partition
#  table can change - looking in /proc/mtd is more reliable.
mtdev(){
	sed -n 's!^\(mtd[0-9][0-9]*\):[^"]*"'"$1"'"$!/dev/\1!p' /proc/mtd
}
#
# mtblockdev "name"
#  as mtdev but output the name of the block (not character) device
mtblockdev(){
	sed -n 's!^mtd\([0-9][0-9]*\):[^"]*"'"$1"'"$!/dev/mtdblock\1!p' /proc/mtd
}
#
# mtsize "name"
#  the size of the partition as a hexadecimal value (with 0x at the front)
mtsize(){
	sed -n 's!^mtd[0-9][0-9]*: \([^ ]*\)[^"]*"'"$1"'"$!0x\1!p' /proc/mtd
}
#
# sysvalmatch "section" "name" 'pattern' "configuration file"
# sysvalof "section" "name" "configuration file"
# sysval "section" "name"
#  outputs the value of the SysConf variable 'name' from section 'section',
#  this is a bit gross, when it gets a match it copies the value to the
#  hold space, if no match it jumps over the copy, at the end ($) it copies
#  the hold space to the pattern space and prints the result, thus it only
#  ever prints the last match
# BUG FIX: busybox sed doesn't initialise the hold space and crashes if it
#  is used before initialisation, so temporarily this script does it's own
#  tail by hand.
# NOTE: these functions should only be used internally, add entries to 'config'
#  below if necessary.  This is because 'config' does the defaulting and in the
#  recovering case (zero or absent SysConf) /etc/default/sysconf only contains
#  the hw_addr entry!
sysvalmatch(){
	# sed -n '/^\['"$1"'\]$/,/^\[.*\]$/s/^'"$2"'=\('"$3"'\)$/\1/;tH;bE;:H;h;:E;$g;$p' "$4"
	sed -n '/^\['"$1"'\]$/,/^\[.*\]$/s/^'"$2"'=\('"$3"'\)$/\1/p' "$4" | sed -n '$p'
}
sysvalof(){
	sysvalmatch "$1" "$2" '.*' "$3"
}
sysval(){
	sysvalof "$1" "$2" /etc/default/sysconf
}
#
# config "value"
#  convenience callers for specific values to avoid mis-typing in scripts
#  NOTE: this function does the defaulting, 'sysval' does not!  Validity
#  of the sysconf file is determined by the presence of the all important
#  hw_addr.
config(){
	local mac
	mac=
	test -r /etc/default/sysconf &&
		mac="$(sysvalmatch network hw_addr '[0-9A-Za-z][0-9A-Za-z]:[0-9A-Za-z][0-9A-Za-z]:[0-9A-Za-z][0-9A-Za-z]:[0-9A-Za-z][0-9A-Za-z]:[0-9A-Za-z][0-9A-Za-z]:[0-9A-Za-z][0-9A-Za-z]' /etc/default/sysconf)"
	if test -n "$mac"
	then
		case "$1" in
		mac)	echo "$mac";;
		host)	if test -n "$(sysval network disk_server_name)"
			then
				sysval network disk_server_name
			elif test -n "$(sysval network default_server_name)"
			then
				sysval network default_server_name
			else
				echo "$mac" | sed -n 's/^..:..:..:\(..\):\(..\):\(..\)$/LKG\1\2\3/p'
			fi;;
		domain)	sysval network w_d_name;;
		iface)  if test -n "$(sysval network lan_interface)"
			then
				sysval network lan_interface
			else
				echo eth0
			fi;;
		ip)	if test -n "$(sysval network ip_addr)"
			then
				sysval network ip_addr
			else
				echo 192.168.1.77
			fi;;
		netmask)sysval network netmask;;
		gateway)sysval network gateway;;
		dns)	sysval network dns_server1;;
		dns2)	sysval network dns_server2;;
		dns3)	sysval network dns_server3;;
		boot)	if test -n "$(sysval network bootproto)"
			then
				sysval network bootproto
			else
				echo dhcp
			fi;;
		valid)	return 0;;
		*)	return 1;;
		esac
	else
		# These are the defaults for an invalid mac address, use the compiled
		# in hardware address.
		case "$1" in
		mac)	echo "00:02:B3:02:02:01";;
		host)	echo "brokenslug";;
		iface)  echo eth0;;
		ip)	echo 192.168.1.77;;
		boot)	echo dhcp;;
		*)	return 1;;
		esac
	fi
}
#
# checkif "iface"
#  Validate an interface name by making sure that it exists
#  in /proc/net/dev (and is not lo).  The listing outputs the
#  interface followed by a :, the check function looks for
#  something of the form '$1[a-zA-Z0-9]*:' and outputs the
#  part preceding the ':'
checkif(){
	sed -n '/^[ 	]*lo:/d;s/^[ 	]*\('"$1"'[a-zA-Z0-9]*\):.*$/\1/p;tE;d;:E;q' /proc/net/dev
}
#
# checkmount "mountpoint"
#  tests an already mounted mountpoint to see whether to attempt to
#  boot with this as root.  Returns success if it appears ok.
checkmount(){
	# basic test for init (the kernel will try to load this)
	# but require a shell in bin/sh and no .recovery too
	test	\( ! -f "$1/.recovery" \) -a \
		\( -d "$1/initrd" -o -d "$1/mnt" \) -a \
		\( -x "$1/bin/sh" -o -h "$1/bin/sh" \) -a \
		\( -x "$1/sbin/init" -o -h "$1/sbin/init" -o \
		-x "$1/etc/init" -o -h "$1/etc/init" -o \
		-x "$1/bin/init" -o -h "$1/bin/init" \)
}
#
# swivel "new root" "old root"
#  NOTE: the arguments must be paths relative to /, bad things
#  will happen if the arguments themselves start with /
#  Pivot to a new root.  This does all the fancy pivot_root stuff
#  including closing streams and does a umount /proc - it doesn't
#  matter if this fails (failure codes are ignored), but if /proc
#  was mounted it must be restored by the caller on return.
#  Normally this function never returns!
#  On return 0,1,2 are connected to /dev/console - this may not
#  have been true before!
swivel() {
	cd "$1"
	exec <&- >&- 2>&-
	# This is just-in-case the called mounted /proc and was
	# unable to close it because of the streams
	umount /proc 2>/dev/null
	if pivot_root . "$2"
	then
		# everything must move out of the old root, this process
		# is $2/bin/sh so it must die, IO is redirected
		# just in case - typically it will be to a device so it
		# won't hold the old root open.
		# the exec here is the first point at which the old root
		# is unused - before the exec regardless of the close of
		# 0,1,2 above ash still has *this* shell script open!
		# (it's on fd 10).
		# init closes all file descriptors, there's no point
		# supplying it with fds.
		exec "$2/usr/sbin/chroot" . bin/sh -c "\
			test -x sbin/init && exec sbin/init
			test -x etc/init && exec etc/init
			test -x bin/init && exec bin/init
			leds -A +gr1 '!g1'
			sleep 10 >/.recovery
			sync;sync;sync
			exit 1"
	fi
	#
	# recovery - must restore the old root
	cd "$2"
	sbin/pivot_root . "$1"
	# cd is back to $1 - either pivot_root doesn't change it and the
	# chroot above was not executed, or pivot_root does change it and
	# has just changed it back!
	exec <>/dev/console >&0 2>&0
}
#
# ifup "interface"
#  bring that interface up with the configured ip and other
#  information
ifup(){
	local ip hostname router subnet iface HOSTNAME NETMASK BROADCAST

	iface="$1"
	ip="$(config ip)"
	hostname="$(config host)"
	router="$(config gateway)"
	broadcast=

	if test -n "$ip"
	then
		# only if an ip was specified
		subnet="$(config netmask)"
	else
		ip=192.168.1.77
	fi

	# First try udhcpc - note that the /boot/udhcpc.script
	# simply records the values returned and the udhcpc
	# is not left running so this will only work for
	# the lease length time!
	ifconfig "$iface" up
	if test "$(config boot)" != static
	then
		test -n "$hostname" && HOSTNAME="-H $hostname"
		# The script writes the required shell variable assignments
		# to file descriptor 9
		eval $(udhcpc -i "$iface" -n -q -r "$ip" $HOSTNAME -s /boot/udhcpc.script 9>&1 >/dev/null)
	fi

	test -n "$broadcast" && BROADCAST="broadcast $broadcast"
	test -n "$subnet" && NETMASK="netmask $subnet"

	if ifconfig "$iface" "$ip" $NETMASK $BROADCAST
	then
		for route in $router
		do
			route add default gw "$route" dev "$iface"
		done
		return 0
	else
		ifconfig "$iface" down
		return 1
	fi
}
#
# ifdown "interface"
#  take the interface down
ifdown(){
	ifconfig "$1" down
}
#
# mountflash "flash device" "flash root directory" {mount options}
#  Finds and mounts the flash file system on the given directory
mountflash() {
	local ffsdev ffsdir

	ffsdev="$1"
	test -n "$ffsdev" -a -b "$ffsdev" || {
		echo "$0: unable to find flash file system to copy ($ffsdev)" >&2
		return 1
	}
	shift

	ffsdir="$1"
	test -n "$ffsdir" -a -d "$ffsdir" || {
		echo "$0: mountflash $ffsdir: not a directory (internal error)" >&2
		return 1
	}
	shift

	mount -t jffs2 "$@" "$ffsdev" "$ffsdir" || {
		echo "$0: $ffsdev: unable to mount flash file system on $ffsdir" >&2
		return 1
	}
	return 0
}
#
# umountflash [-r] "flash device"
#  unmount any instance of the given flash device, if -r is specified a mount on
#  root is an error, otherwise a mount on root is ignored (and remains).
umountflash() {
	local rootok ffsno ffsdev
	rootok=1
	case "$1" in
	-r)	rootok=
		shift;;
	esac
	#
	# The argument is ffsdev
	ffsdev="$1"
	ffsno="$(devio "<<$ffsdev" prd)"
	test -n "$ffsno" -a "$ffsno" -ge 0 || {
		echo "$0: $ffsdev: device number $ffsno is not valid, cannot continue." >&2
		return 1
	}
	#
	# Make sure that Flashdisk isn't mounted on /
	if test -z "$rootok" -a "$(devio "<</etc/init.d/sysconfsetup" prd)" -eq "$ffsno"
	then
		echo "$0: $ffsdev is mounted on /, use turnup ram" >&2
		return 1
	fi
	#
	# The function is currently always used interactively, so output 
	echo "$0: umounting any existing mount of $ffsdev" >&2
	#
	# check each mount point, do this last first because otherwise nested
	# mounts of ffsdev cannot be umounted.
	ffs_umount() {
		local device mp type options stuff

		read device mp type options stuff
		test -z "$device" && return 0

		# handle following entries first
		ffs_umount || return 1

		# handle this entry, since this is currently only used for unmounting
		# the flash root partition we know a file which must exist...
		case "$mp/$type" in
		//jffs2);; # skip /
		*/jffs2)test "$(devio "<<$mp/etc/init.d/sysconfsetup" prd 2>/dev/null)" -ne "$ffsno" ||
			umount "$mp" || {
				echo "$0: $mp: unable to umount $ffsdev" >&2
				return 1
			};;
		esac

		return 0
	}
	#
	ffs_umount </proc/mounts || {
		echo "$0: umount $ffsdev from all mount points then re-run reflash" >&2
		return 1
	}

	return 0
}