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#!/bin/ash
#
# Functions library :: for Linux Live scripts 5.x.y
# Author: Tomas M. <http://www.linux-live.org>
#
# modified by Urs Beyerle, PSI
# - to allow LiveCD mounted over nfs
# - add scsi_mod, sd_mod for usb-storage module
# - only with boot option "automount", all devices in fstab are rw automounted
# - remove detect of CD and Floppy (done by fstab-sync)
# - add sr_mod (USB CDROM support)
# - add SATA to modprobe_usb_modules -> modprobe_usb_sata_modules
# - add fscache (for SL5)
# - add ide-cd, sr_mod, cdrom (for SL5 cdrom support)
# - add aufs (unionfs replacement)
# - to allow LiveCD mounted over NFS (for diskless client)
# - add functions get_dhcp_lease() and load_network_modules()
# - add ata_piix to modprobe_usb_sata_modules
# - works with unionfs 2.x
# - better detection of network card in case of diskless client
# - add sg, sata_nv module
# - to allow LiveCD mounted over CIFS (for diskless client)
#
# ===========================================================
# user interface functions
# ===========================================================
# echolog
# $1 = text to show and to write to /var/log/messages
#
echolog()
{
echo "LIVECD:" "$@" >>/var/log/livedbg
echo "$@"
}
# debug
# commands executed when debug boot parameter is present
#
debug()
{
echo
echo "====="
echo ": Debugging started. Here is the root shell for you."
echo ": Type your desired command or hit Ctrl+D to continue booting."
echo
ash
}
# header
# $1 = text to show
#
header()
{
echolog "[0;1m$1[0;0m"
}
fatal()
{
header "Fatal error occured - $1"
echolog "Something went wrong and we can't continue booting :("
echolog "You may explore the system by using simple commands like ls, lsmod, mount, etc."
echolog "You may also try to hit Ctrl+D. Booting will continue. Use at your own risk."
echolog "To be safe, hit Ctrl+Alt+Delete to reboot."
echolog
ash
}
# ===========================================================
# text processing functions
# ===========================================================
# egrep_o is a replacement for "egrep -o". It prints only the last
# matching text
# $1 = regular expression
#
egrep_o()
{
cat | egrep "$1" | sed -r "s/.*($1).*/\\1/"
}
# look into cmdline and echo $1 back if $1 is set
# $1 = value name, case sensitive, for example livecd_subdir
# $2 = file to use instead /proc/cmdline, optional
#
cmdline_parameter()
{
CMDLINE=/proc/cmdline
if [ "$2" != "" ]; then CMDLINE="$2"; fi
cat "$CMDLINE" | egrep_o "(^|[[:space:]]+)$1(\$|=|[[:space:]]+)" | egrep_o "$1"
}
# look into cmdline and echo value of $1 option
# $1 = value name, case sensitive, for example livecd_subdir
# $2 = file to use instead /proc/cmdline, optional
#
cmdline_value()
{
CMDLINE=/proc/cmdline
if [ "$2" != "" ]; then CMDLINE="$2"; fi
cat "$CMDLINE" | egrep_o "(^|[[:space:]]+)$1=([^[:space:]]+)" | egrep_o "=.*" | cut -b 2- | tail -n 1
}
# ===========================================================
# system functions
# ===========================================================
# modprobe module $1, including all dependencies, suppress all messages
# (own function because modprobe in busybox doesn't work with gzipped modules)
# $1 = module name, eg. ehci-hcd
# $2 = optional argument
#
modprobe_module()
{
if [ "$1" = "" ]; then return 1; fi
PRINTK=`cat /proc/sys/kernel/printk`
echo "0" >/proc/sys/kernel/printk
KERNEL="`uname -r`"; LSMOD=/tmp/lsmod
MODULEDEPS="`cat /lib/modules/$KERNEL/modules.dep | egrep \"$1\\.ko(\\.gz)?:\"`"
for MODULE in `echo $MODULEDEPS | cut -d ":" -f 2-` `echo $MODULEDEPS | cut -d ":" -f 1`; do
MODULE=${MODULE%%:}; # remove : at the end, a bug
TMPMOD="/tmp/`basename $MODULE .gz`";
# if the module is not loaded already
if [ "`cat $LSMOD 2>/dev/null | egrep \"^$TMPMOD\\\$\"`" = "" ]; then
gunzip -c $MODULE 2>/dev/null >$TMPMOD
if [ $? -ne 0 ]; then cp $MODULE $TMPMOD; fi # can't gunzip? copy
insmod $TMPMOD $2; err=$?
### insmod $TMPMOD $2 >/dev/null 2>/dev/null; err=$?
if [ "$err" -eq 0 ]; then echo $TMPMOD >>$LSMOD; fi # module log
rm $TMPMOD
fi
done
echo "$PRINTK" >/proc/sys/kernel/printk
if [ "$err" -ne 0 ]; then echolog "error inserting module $1 ($err)"; fi
return $err
}
# Mount device $1 to $2
# $1 = /dev device to mount, eg. /dev/hda1
# $2 = mountpoint, eg. /mnt/hda1
# $3 = mount options, for example "loop", "ro", or "remount,rw"
#
mount_device()
{
mkdir -p $2
if [ "$3" != "" ]; then OPTIONS="-o $3"; else OPTIONS=""; fi
PRINTK=`cat /proc/sys/kernel/printk`
echo "0" >/proc/sys/kernel/printk
mount -t auto $1 $2 $OPTIONS >/dev/null 2>/dev/null
err=$?
if [ "$err" -ne 0 ]; then rmdir $2 2>/dev/null; fi
echo "$PRINTK" >/proc/sys/kernel/printk
return $err
}
# ===========================================================
# live module functions
# ===========================================================
# Create module
# call mksquashfs with apropriate arguments
# $1 = directory which will be compressed to squashfs module
# $2 = output .mo file
# $3 = optional -keep-as-directory argument
#
create_module()
{
mksquashfs $1 $2 $3 >/dev/null
if [ $? -ne 0 ]; then return 1; fi
chmod oga-x $2 # remove execute attrib
}
# Mount .mo module to destination directory
# $1 = path to .mo livecd compressed module
# $2 = destination folder
#
mount_module()
{
mount -t squashfs -o loop,ro $1 $2
}
# Insert a directory tree $2 to an union specified by $1
# Top-level read-write branch is specified by it's index 0
# $1 = union absolute path (starting with /)
# $2 = path to data directory
#
union_insert_dir()
{
which unionctl >/dev/null 2>&1
if [ $? -eq 0 ]; then
# unionfs 1.x or aufs
unionctl "$1" --add --after 0 --mode ro "$2"
else
# unionfs 2.x
mount -t unionfs -o remount,add=:${2}=ro none "$1"
fi
}
# List all modules in all directories (base, modules, optional)
# and filter out unneeded optional modules (not specified by load= kernel parameter)
# $1 = root directory of mounted DATAdir
#
list_modules()
{
LOAD="`cmdline_value load`"
ls -A1d $1/*.mo $1/*/*.mo 2>/dev/null | while read LINE; do
MODNAME="`basename $LINE .mo`"
if [ "$LOAD" != "*" -a "`echo $LINE | grep optional`" != "" -a "`echo $LOAD | egrep \"(^|,)$MODNAME(\\\$|,)\"`" = "" ]; then continue
else echo $LINE; fi
done
}
# Insert one single .mo module to the union
# $1 = union absolute path (starting with /)
# $2 = module.mo full path
# $3 = destination folder, where images will be mounted to
#
union_insert_module()
{
TARGET="$3/`basename $2`"
while [ -e $TARGET ]; do TARGET=$TARGET.X; done
mkdir -p $TARGET
mount_module $2 $TARGET
if [ $? -ne 0 ]; then echo "can't read module data"; return 1; fi
union_insert_dir $1 $TARGET;
}
# Insert all .mo modules, in $2 directory and subdirectories, to the union
# $1 = union absolute path (starting with /)
# $2 = LiveCD data dir (with directories /base, /modules, etc.)
# $3 = destination folder, where images will be mounted to
#
union_insert_modules()
{
PRINTK=`cat /proc/sys/kernel/printk`
echo "0" >/proc/sys/kernel/printk
list_modules $2 | while read MODULE; do
echo " -> `basename $MODULE`"
union_insert_module $1 $MODULE $3
done
echo "$PRINTK" >/proc/sys/kernel/printk
}
# Copy modules to RAM directory
# $1 = data directory
# $2 = target directory in RAM
#
copy_to_ram()
{
cp -R $1/* $2
if [ $? -ne 0 ]; then fatal "can't copy to RAM, not enough memory?"; fi
}
# Copy content of "rootcopy" directory on the CD to $2 (union, usually)
# $1 = source
# $2 = destination
#
copy_rootchanges()
{
cp -a $1/rootcopy/* $2 2>/dev/null # could be empty
}
# ===========================================================
# discovery functions
# ===========================================================
# List all CD-ROMs
# by using /proc entries
#
list_cdrom_devices()
{
if [ "`cmdline_parameter nocd`" != "" ]; then return 1; fi
for CDDEVICE in `cat /proc/sys/dev/cdrom/info | head -n 3 | tail -n 1 | cut -d ":" -f 2`; do
echo "/dev/$CDDEVICE"
done
}
# List all partition devices
# take list of all partitions and output unique disks.
# Return empty result when nohd parameter was given.
#
list_partition_devices()
{
if [ "`cmdline_parameter nohd`" != "" ]; then return 1; fi
cat /proc/partitions | grep -v loop | sed -r "s/^[0-9[:space:]]+/\/dev\//" | grep /dev/
}
# List all disk devices
#
list_disk_devices()
{
list_partition_devices | egrep -v "[0-9]"
}
# List all block devices
#
list_block_devices()
{
list_cdrom_devices
list_partition_devices
}
# Try to mount all disks, partitions and cdroms and Find where the LiveCD is.
# If LiveCD found in the device, echo dirname of it's directory,
# and leave the device mounted. Mounting is not ro, but without any argument.
# $1 = directory where devices will be mounted
# added: mount $NFSROOT to /$1/nfs if NFSROOT is set. and search there for LiveCD
#
find_live_data_dir()
{
if [ "$NFSROOT" != "" ]; then
DIR="/$1/nfs"
mkdir -p $DIR
# disable kernel warnings
PRINTK=`cat /proc/sys/kernel/printk`
echo "0" >/proc/sys/kernel/printk
# try to mount nfs dir
mount -t nfs -o $NFSOPT $NFSROOT $DIR
# enable kernel warnings
echo "$PRINTK" >/proc/sys/kernel/printk
fi
if [ "$CIFSROOT" != "" ]; then
DIR="/$1/cifs"
mkdir -p $DIR
# disable kernel warnings
PRINTK=`cat /proc/sys/kernel/printk`
echo "0" >/proc/sys/kernel/printk
# try to mount cifs dir
mount -t cifs $CIFSROOT $DIR -o ro,$CIFSOPTS
# enable kernel warnings
echo "$PRINTK" >/proc/sys/kernel/printk
fi
PRINTK=`cat /proc/sys/kernel/printk`
echo "0" >/proc/sys/kernel/printk
if [ "$DIR" = "" ]; then
list_block_devices | while read DEVICE; do
DIR="/$1/`basename $DEVICE`"
mount_device $DEVICE $DIR
if [ $? -ne 0 ]; then continue; fi
# FOUND=`find $DIR -name livecd.sgn -type f | head -n 1`
FOUND=`ls -A1d $DIR/livecd.sgn $DIR/*/livecd.sgn 2>/dev/null | head -n 1`
if [ "$FOUND" = "" ]; then umount $DIR 2>/dev/null; rmdir $DIR 2>/dev/null
else dirname "$FOUND"; return 1; fi
done
else
# FOUND=`find $DIR -name livecd.sgn -type f | head -n 1`
FOUND=`ls -A1d $DIR/livecd.sgn $DIR/*/livecd.sgn 2>/dev/null | head -n 1`
if [ "$FOUND" != "" ]; then
dirname "$FOUND"
fi
fi
echo "$PRINTK" >/proc/sys/kernel/printk
}
# ===========================================================
# hardware preparation functions
# ===========================================================
# Create block devices to /dev described by /sys entries
#
create_block_devices()
{
echolog "creating /dev entries for block devices"
ls -A1d /sys/block/*/dev /sys/block/*/*/dev 2>/dev/null | grep -v loop | while read BLOCK; do
DEVICE="/dev/`basename \`dirname $BLOCK\``"
if [ ! -b $DEVICE ]; then
MINORMAJOR="`head -n 1 $BLOCK | tr ':' ' '`"
mknod $DEVICE b $MINORMAJOR
fi
done
}
# modprobe kernel modules needed for the LiveCD
#
modprobe_essential_modules()
{
echolog "starting loop device support"
modprobe_module loop max_loop=32
echolog "starting cdrom support"
modprobe_module ide_cd
modprobe_module ide-cd
modprobe_module sr_mod
modprobe_module cdrom
echolog "starting cdrom filesystem support"
modprobe_module isofs
echolog "starting squashfs support"
modprobe_module squashfs
echolog "starting unionfs/aufs support"
modprobe_module unionfs
modprobe_module aufs
echolog "starting vfat support"
# modprobe_module nls_cp437
# modprobe_module nls_iso8859-1
# modprobe_module nls_iso8859-2
modprobe_module vfat
echolog "starting ntfs support"
modprobe_module ntfs
modprobe_module nls_utf8
create_block_devices
}
# modprobe kernel modules needed for USB masstorage devices
#
modprobe_usb_sata_modules()
{
echolog "starting USB and SATA support"
modprobe_module ehci-hcd
modprobe_module ohci-hcd
modprobe_module uhci-hcd
modprobe_module scsi_mod
modprobe_module libata
modprobe_module ata_piix
modprobe_module ahci
modprobe_module sata_nv
modprobe_module sg
modprobe_module sd_mod
modprobe_module sr_mod
modprobe_module usb-storage
echolog "waiting for USB devices, max 8 seconds"
sleep 8
create_block_devices
}
# modprobe nfs kernel modules
#
modprobe_nfs_modules()
{
echolog "starting nfs support"
modprobe_module lockd
modprobe_module fscache
modprobe_module nfs_acl
modprobe_module nfs
}
# modprobe cifs kernel module
#
modprobe_cifs_modules()
{
echolog "starting cifs support"
modprobe_module cifs
}
# enable/disable CD autoejecting when unmounted
# $1 = 1|0 ... enable|disable
#
cd_autoeject()
{
echo $1 >/proc/sys/dev/cdrom/autoeject
}
# Disable DMA if nodma boot parameter is present
#
setup_dma()
{
if [ ! "`cmdline_parameter nodma`" = "" ]; then
for DEVICE in `list_cdrom_devices` `list_disk_devices`; do
echolog "setting DMA support off for $DEVICE"
hdparm -d 0 $DEVICE
done
fi
}
# create correct fstab file in $1/etc/fstab and create apropriate
# mount directories in $1
# $1 = root directory (union)
#
activate_fstab()
{
mkdir -p $1/etc
FSTAB="$1/etc/fstab"
echo "tmpfs / tmpfs defaults 0 0" >$FSTAB
echo "devpts /dev/pts devpts gid=5,mode=620 0 0" >>$FSTAB
echo "proc /proc proc defaults 0 0" >>$FSTAB
# all the rest will be done by runlast or by fstab-sync
# search for SWAP done later in /etc/rc.sysinit
}
# ===========================================================
# functions used for LiveCD on NFS
# ===========================================================
# load network modules, if NFSROOT is set
# Urs Beyerle, PSI
#
# network devices found ?
#
found_nic()
{
found="1"
for iface in eth0 eth1 eth2 eth3 eth4 eth5; do
# nic already found ?
echo $FOUND_IFACE | grep -q $iface
if [ $? -ne 0 ]; then
ifconfig $iface > /dev/null 2>&1
if [ $? -eq 0 ]; then
FOUND_IFACE="$FOUND_IFACE $iface"
found="0"
fi
fi
done
return $found
}
# 1. load network driver defined by kernel parameter nic
#
load_network_module_nic()
{
NIC="`cmdline_value nic`"
if [ -n "$NIC" ]; then
echolog "load module $NIC"
modprobe_module $NIC
fi
}
# 2. auto probe for network card drivers
#
load_network_module_auto()
{
echolog "auto-detection of network driver ..."
FOUND_NICS=""
KERNEL="`uname -r`"
NETDRIVERS="`find /lib/modules/$KERNEL/kernel/drivers/net | grep -v mii | grep .ko | cut -d"/" -f8 | cut -d"." -f1 | uniq`"
for driver in $NETDRIVERS; do
modprobe_module $driver > /dev/null 2>&1
found_nic
if [ $? -eq 0 ]; then
echolog "found network card $driver"
echolog "load module $driver"
FOUND_NICS="$FOUND_NICS $driver"
else
rmmod $driver > /dev/null 2>&1
fi
done
# clean up: remove unused modules until driver "mii"
LOADED_DRIVERS="`lsmod | grep -v Module | cut -d" " -f1`"
for driver in $LOADED_DRIVERS; do
[ "$driver" = "mii" ] && break
[ "$driver" = "ntfs" ] && break
[ "$driver" = "vfat" ] && break
do_not_remove=""
for nic in $FOUND_NICS; do
echo $driver | grep -q $nic
[ $? -eq 0 ] && do_not_remove="$driver"
done
[ ! $do_not_remove ] && rmmod $driver > /dev/null 2>&1
done
}
# 3. detecting network card from pcitable list
#
load_network_module_pcitable()
{
PCITABLE=/bin/pcitable
NICS=`lspci -n | awk '/Class 0200/ {print $4}' | tr ':' ' ' \
| while read x y ; do grep "0x$x.*0x$y" $PCITABLE \
| awk '$3 !~ /"unknown"/ {print $3}' | tr -d '"' ; done`
if [ -n "$NICS" ]; then
echolog "found network card(s): $NICS"
for driver in $NICS; do
echolog "load module $driver"
modprobe_module $driver
done
fi
}
# 4. ask the user for a network driver
#
load_network_module_ask()
{
echo "ERROR: No network card detected!"
echo "Type in your network card driver (e.g. tg3, e1000). "
echo "Or ask your system administrator for help."
echo -n "Network card driver: "
read driver
echo "load module $driver"
modprobe_module $driver
}
# Try to find a network driver
#
load_network_modules()
{
echolog "load network modules"
# mii maybe need by NIC driver
modprobe_module mii
FOUND_IFACE=""
load_network_module_nic
found_nic || load_network_module_auto
[ "$FOUND_IFACE" ] || load_network_module_pcitable
[ "$FOUND_IFACE" ] || load_network_module_ask
# remove mii, if not needed
rmmod mii > /dev/null 2>&1
}
# get DHCP lease
# Urs Beyerle, PSI
#
get_dhcp_lease()
{
# create /dev/urandom (needed by udhcpc)
mknod /dev/urandom c 1 9
for iface in eth0 eth1 eth2 eth3 eth4 eth5; do
# interface up ?
ifconfig $iface > /dev/null 2>&1
if [ $? -eq 0 ]; then
# get dhcp lease
echolog "try to get DHCP lease on $iface"
udhcpc --now --quit --interface=$iface --script=/bin/udhcpc.script
[ $? -eq 0 ] && return
echo "ERROR: couldn't get DHCP lease on $iface."
fi
done
}