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#!/bin/sh
# . this file to load the following utility functions
#
# hardware
# the 'Hardware' string from cpuinfo
hardware(){
sed -n 's!^Hardware *: !!p' /proc/cpuinfo
}
#
# machine
# outputs an identifier of the current machine - i.e. the board
# slugos is running on.
machine(){
case "$(hardware)" in
*Coyote*) echo coyote;;
*IXDPG425*) echo ixdpg425;;
*WRV54G*) echo wrv54g;;
*IXDP425*) echo ixdp425;;
*IXDP465*) echo ixdp465;;
*IXCDP1100*) echo ixcdp1100*;;
*Avila*) echo avila;;
*Loft*) echo loft;;
*NAS?100d*) echo nas100d;;
*DSM?G600*) echo dsmg600;;
*NSLU2*) echo nslu2;;
*FSG?3*) echo fsg3;;
*) echo unknown;;
esac
}
#
# single_user_ok
# if the machine is capable of single user interaction return
# true, else return false. The result of this function is
# preempted by setting SULOGIN to 'yes' or 'ok' in /etc/default/rcS
single_user_ok() {
# list known good machines in the 'case'
test "$SULOGIN" = yes -o "$SULOGIN" = ok ||
case "$(machine)" in
ixdp*|avila|loft)
test "$SULOGIN" != never;;
*) return 1;;
esac
}
#
# load_functions "source"
# load the functions in '/sbin/source' - relies on /sbin/source being
# a shell script and having support for this function.
load_functions(){
test -n "$1" -a -x "/sbin/$1" && . "/sbin/$1" || {
echo "$0: /sbin/$1: script not found" >&2
return 1
}
}
#
# 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',
# if there are multiple definitions only the last is output
# NOTE: these functions should only be used internally, add entries to 'config'
# below if necessary. This is because 'config' does the defaulting.
sysvalmatch(){
sed -n '/^\['"$1"'\]$/,/^\[.*\]$/s/^'"$2"'=\('"$3"'\)$/\1/p' "$4" | sed -n '$p'
}
sysvalof(){
sysvalmatch "$1" "$2" '.*' "$3"
}
sysval(){
test -r "$config_root/etc/default/sysconf" &&
sysvalof "$1" "$2" "$config_root/etc/default/sysconf"
}
#
# syssection "section"
# outputs all the values from the given section changed to the format "name value"
# (i.e. the '=' is dropped).
syssection(){
test -r "$config_root/etc/default/sysconf" &&
sed -n '/^\['"$1"'\]$/,/^\[.*\]$/s/^\([^=]*\)=\(.*\)$/\1 \2/p' "$config_root/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!
# config_root: if set this will override the root where config/sysval
# looks for /etc/default/sysconf
config(){
local mac
mac="$(test -r /proc/net/maclist &&
sed -n '/^[0-9A-Za-z][0-9A-Za-z]:[0-9A-Za-z][0-9A-Za-z]:[0-9A-Za-z][0-9A-Za-z]:[0-9A-Za-z][0-9A-Za-z]:[0-9A-Za-z][0-9A-Za-z]:[0-9A-Za-z][0-9A-Za-z]$/p' /proc/net/maclist |
sed -n 1p)"
#
case "$1" in
mac) test -n "$mac" && echo "$mac";;
host) if test -n "$(sysval network disk_server_name)"
then
sysval network disk_server_name
elif test -n "$(sysval network default_server_name)"
then
sysval network default_server_name
elif test -n "$mac"
then
echo "$mac" | sed -n 's/^\(..\):\(..\):\(..\):\(..\):\(..\):\(..\)$/slug\1\2\3\4\5\6/p'
else
# because we want the name to remain constant:
echo "brokenslug"
fi;;
domain) sysval network w_d_name;;
iface) if test -n "$(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) test -r "$config_root/etc/default/sysconf" -a -n "$mac";;
*) return 1;;
esac
}
#
# 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 too
test \( -d "$1/mnt" \) -a \
\( -d "$1/dev" \) -a \
\( -x "$1/bin/sh" -o -h "$1/bin/sh" \) -a \
\( -x "$1/usr/sbin/chroot" -o -h "$1/usr/sbin/chroot" -o \
-x "$1/sbin/chroot" -o -h "$1/sbin/chroot" \) -a \
\( -x "$1/sbin/init" -o -h "$1/sbin/init" -o \
-x "$1/etc/init" -o -h "$1/etc/init" -o \
-x "$1/bin/init" -o -h "$1/bin/init" \)
}
#
# minimaldevnodes "mountpoint"
# tests an already mounted mountpoint to see if a very minimal
# set of devices exists or can be created in dev, and returns
# failure if not. This is required for booting to an nfsroot
# with an empty dev directory, as commonly occurs when the rootfs
# is created from a tar.gz image. This is also required for mdev.
minimaldevnodes(){
[ -c "$1/dev/console" ] || mknod -m 600 "$1/dev/console" c 5 1 || return 1
[ -c "$1/dev/null" ] || mknod -m 666 "$1/dev/null" c 1 3 || return 1
[ -c "$1/dev/tty0" ] || mknod -m 644 "$1/dev/tty0" c 4 0 || return 1
return 0
}
#
# 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.
# NOTE: this used to use $2/usr/sbin/chroot, however on
# linux / is already . when the command is executed
# therefore it is essential to use the local (new root)
# chroot to ensure it gets the correct shared libraries.
if test -x usr/sbin/chroot -o -h usr/sbin/chroot
then
chroot=usr/sbin/chroot
elif test -x sbin/chroot -o -h sbin/chroot
then
chroot=sbin/chroot
else
chroot=chroot
fi
#
exec "$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
mount -t sysfs sysfs /mnt
echo -n timer >/mnt/class/leds/ready/trigger
echo -n timer >/mnt/class/leds/status/trigger
echo -n 80 >/mnt/class/leds/ready/frequency
echo -n 80 >/mnt/class/leds/status/frequency
umount /mnt
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"
# Pause a moment in case link negotiation takes a while
sleep 3
# 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 $0" >&2
return 1
}
return 0
}
#
# uuid_by_partition
# output a list of partitions and their UUIDs
uuid_by_partition() {
blkid -c /dev/null -s UUID | sed -n 's/^\([^:]*\): .*UUID="\([^"]*\)".*$/\1 \2/p'
}
#
# partition_of uuid
# return the partition corresponding to the UUID
partition_of() {
sed -n 's/^\([^ ]*\) '"$1"'$/\1/p'
}
|