path: root/liveinit.tpl

#!/bin/ash
#
# Copyright 2004  Slackware Linux, Inc., Concord, CA, USA
# Copyright 2007, 2008, 2009, 2010, 2012  Patrick J. Volkerding, Sebeka, MN, USA
# Copyright 2015, 2016, 2017, 2018  Eric Hameleers, Eindhoven, NL
# All rights reserved.
#
# Redistribution and use of this script, with or without modification, is
# permitted provided that the following conditions are met:
#
# 1. Redistributions of this script must retain the above copyright
#    notice, this list of conditions and the following disclaimer.
#
#  THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
#  WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
#  MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.  IN NO
#  EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
#  SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
#  PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
#  OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
#  WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
#  OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
#  ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#
##################################################################################
# Changelog
# 10-Dec-2012 <mozes@slackware.com>
#  * Added support for the official Kernel parameters to select root filesystem
#    type ('rootfstype') and pause before attempting to mount the root filesystem
#    ('rootdelay').  The original parameters may continue to be used.
# 23-Oct-2015 <alien@slackware.com>
#  * Modified for booting as a Live filesystem.
##################################################################################

# The ISO creation script will create a filesystem with this label.
# Nevertheless, the user may have copied the ISO content to a different device.
MEDIALABEL="@MEDIALABEL@"

LIVEMAIN="@LIVEMAIN@"
MARKER="@MARKER@"
PERSISTENCE="@PERSISTENCE@"

DISTRO="@DISTRO@"
CDISTRO="@CDISTRO@"
VERSION="@VERSION@"

LIVEUID="@LIVEUID@"

LIVEMEDIA=""
LIVEPATH=""

DISTROCFG="@DISTRO@_os.cfg"
CFGACTION=""

# What extensions do we support for squashfs modules?
SQ_EXT_AVAIL="@SQ_EXT_AVAIL@"

# Defaults for keyboard, language and timezone:
DEF_KBD=@DEF_KBD@
DEF_LOCALE=@DEF_LOCALE@
DEF_TZ=@DEF_TZ@

# By default, let the media determine if we can write persistent changes:
# However, if we define TORAM=1, we will also set VIRGIN=1 since we want
# to avoid anything that writes to disk after we copy the OS to RAM.
VIRGIN=0

# If set to '1', existing persistent data will be wiped:
WIPE_PERSISTENCE=0

# Used for debugging the init;
# Set DEBUG to '1' to enable explicit pauses; '2' enables verbose script exec;
# and '4' dumps you into a debug shell right before the switch_root:
DEBUG=0
DEBUGV=" "

# Masochists can copy the live environment into RAM:
TORAM=0

# The default number of loop devices the Live OS will use (if you have
# a large number of addon modules, this value may be too low).
# Can be changed by the 'maxloops=' boot parameter:
MAXLOOPS=96

# By default we do not touch local hard disks (raid, lvm, btrfs):
LOCALHD=0

# Usability tweaks:
TWEAKS=""

# Deal with freetype's sub-pixel hinting.
# Enable the new v40 interpreter only if /etc/profile.d/freetype.sh is found.
# Otherwise (or in case 'tweaks=nsh' is passed at boot) disable the new
# interpreter and fall back to the old v35 interpreter.
SPH=1

# Perhaps we need to blacklist some kernel module(s):
BLACKLIST=""

# NFS root support:
HNMAC=""
HNMAC_ALLOWED="YES"
INTERFACE=""
NFSHOST=""

# Max wait time for DHCP client to configure an interface:
DHCPWAIT=20

INITRD=$(cat /initrd-name)
WAIT=$(cat /wait-for-root)
KEYMAP=$(cat /keymap)
LUKSVOL=$(cat /luksdev)
INIT=/sbin/init

PATH="/sbin:/bin:/usr/sbin:/usr/bin"

# Mount /proc and /sys:
mount -n proc /proc -t proc
mount -n sysfs /sys -t sysfs
mount -n tmpfs /run -t tmpfs -o mode=0755

if grep devtmpfs /proc/filesystems 1>/dev/null 2>/dev/null ; then
  DEVTMPFS=1
  mount -n devtmpfs /dev -t devtmpfs
fi	

# Parse command line
for ARG in $(cat /proc/cmdline); do
  case $ARG in
    0|1|2|3|4|5|6|S|s|single)
      RUNLEVEL=$ARG
    ;;
    blacklist=*)
      BLACKLIST=$(echo $ARG | cut -f2 -d=)
    ;;
    debug)
      DEBUG=1
    ;;
    debug=*)
      DEBUG=$(echo $ARG | cut -f2 -d=)
      DEBUGV="-v"
    ;;
    dhcpwait=*)
      DHCPWAIT=$(echo $ARG | cut -f2 -d=)
    ;;
    hostname=*)
      # generic syntax: hostname=newname[,qualifier]
      LIVE_HOSTNAME=$(echo $ARG | cut -f2 -d= | cut -f1 -d,)
      if [ "$(echo $ARG | cut -f2 -d= | cut -f2 -d,)" = "fixed" ]; then
        Keep hostname fixed i.e. never add a MAC address suffix:
        HNMAC_ALLOWED="NO"
      fi
    ;;
    init=*)
      INIT=$(echo $ARG | cut -f2 -d=)
    ;;
    kbd=*)
      KEYMAP=$(echo $ARG | cut -f2 -d=)
    ;;
    livemain=*)
      LIVEMAIN=$(echo $ARG | cut -f2 -d=)
    ;;
    livemedia=*)
      # generic syntax: livemedia=/dev/sdX
      # ISO syntax: livemedia=/dev/sdX:/path/to/slackwarelive.iso
      LM=$(echo $ARG | cut -f2 -d=)
      LIVEMEDIA=$(echo $LM | cut -f1 -d:)
      LIVEPATH=$(echo $LM | cut -f2 -d:)
      unset LM
    ;;
    livepw=*)
      LIVEPW=$(echo $ARG | cut -f2 -d=)
    ;;
    load=*)
      LOAD=$(echo $ARG | cut -f2 -d=)
    ;;
    locale=*)
      LOCALE=$(echo $ARG | cut -f2 -d=)
    ;;
    localhd)
      LOCALHD=1
    ;;
    luksvol=*)
      # Format: luksvol=file1[:/mountpoint1][,file1[:/mountpoint2],...]
      LUKSVOL=$(echo $ARG | cut -f2 -d=)
    ;;
    maxloops=*)
      MAXLOOPS=$(echo $ARG | cut -f2 -d=)
    ;;
    nfsroot=*)
      # nfsroot=192.168.0.1:/path/to/liveslak
      NFSHOST=$(echo $ARG | cut -f2 -d= |cut -f1 -d:)
      NFSPATH=$(echo $ARG | cut -f2 -d= |cut -f2 -d:)
    ;;
    nic=*)
      # nic=<driver>:<interface>:<dhcp|static>[:ipaddr:netmask[:gateway]]
      ENET=$(echo $ARG | cut -f2 -d=)
    ;;
    cfg=*)
      CFGACTION=$(echo $ARG | cut -f2 -d=)
      if [ "${CFGACTION}" = "skip" ]; then DISTROCFG="" ; fi
    ;;
    noload=*)
      NOLOAD=$(echo $ARG | cut -f2 -d=)
    ;;
    nop)
      VIRGIN=1
    ;;
    nop=*)
      if [ "$(echo $ARG | cut -f2 -d=)" = "wipe" ]; then
        WIPE_PERSISTENCE=1
      fi
    ;;
    persistence=*)
      PERSISTENCE=$(echo $ARG | cut -f2 -d=)
    ;;
    rescue)
      RESCUE=1
    ;;
    swap)
      USE_SWAP=1
    ;;
    rootpw=*)
      ROOTPW=$(echo $ARG | cut -f2 -d=)
    ;;
    toram)
      TORAM=1
      VIRGIN=1 # prevent writes to disk since we are supposed to run from RAM
    ;;
    tweaks=*)
      # Comma-separated set of usability tweaks.
      # nga: no glamor 2d acceleration.
      # nsh: no sub-pixel hinting in freetype.
      # tpb: trackpoint scrolling while pressing middle mouse button.
      # syn: start synaptics daemon and extend X.Org capabilities.
      # ssh: start SSH daemon (disabled by default).
      TWEAKS=$(echo $ARG | cut -f2 -d=)
    ;;
    tz=*)
      TZ=$(echo $ARG | cut -f2 -d=)
    ;;
    waitforroot=*|rootdelay=*)
      WAIT=$(echo $ARG | cut -f2 -d=)
    ;;
    xkb=*)
      XKB=$(echo $ARG | cut -f2 -d=)
    ;;
  esac
done

# Verbose boot script execution:
[ $DEBUG -ge 2 ] && set -x

debugit () {
  if [ $DEBUG -eq 0 -o $DEBUG -gt 3 ]; then
    return
  elif [ $DEBUG -le 2 ]; then
    echo "DEBUG>> -- blkid info -- :"
    blkid | while read LINE ; do echo "DEBUG>> $LINE" ; done
    echo "DEBUG>> -- mount info -- :"
    mount | while read LINE ; do echo "DEBUG>> $LINE" ; done
  fi
  echo "DEBUG>> -- Press ENTER to continue -- : "
  read JUNK
  return
}

rescue() {
  echo
  if [ "x$1" != "x" ]; then
    echo "$1"
  else
    echo "RESCUE mode"
    echo
    echo "        You can try to fix or rescue your system now. If you want"
    echo "        to boot into your fixed system, mount your root filesystem"
    echo "        read-only under /mnt:"
    echo
    echo "            # mount -o ro -t filesystem root_device /mnt"
  fi
  echo
  echo "        Type 'exit' when things are done."
  echo
  /bin/sh
}

# If udevd is available, use it to generate block devices
# else use mdev to read sysfs and generate the needed devices 
if [ -x /sbin/udevd -a -x /sbin/udevadm ]; then
  /sbin/udevd --daemon --resolve-names=never
  /sbin/udevadm trigger --subsystem-match=block --action=add
  if [ -n "$NFSHOST" ]; then
    # We also need network devices if NFS root is requested:
    if [ -z "$(/sbin/udevadm trigger --subsystem-match=net --action=add -v -n |rev |cut -d/ -f1 |rev |grep -v lo)" ]; then
      /sbin/udevadm trigger $DEBUGV
    else
      /sbin/udevadm trigger --subsystem-match=net --action=add $DEBUGV
    fi
  fi
  /sbin/udevadm settle --timeout=10
else
  [ "$DEVTMPFS" != "1" ] && mdev -s
fi

# Load kernel modules (ideally this was already done by udev):
if [ ! -d /lib/modules/$(uname -r) ]; then
  echo "${MARKER}:  No kernel modules found for Linux $(uname -r)."
elif [ -x ./load_kernel_modules ]; then # use load_kernel_modules script:
  echo "${MARKER}:  Loading kernel modules from initrd image:"
  . ./load_kernel_modules 1>/dev/null 2>/dev/null
else # load modules (if any) in order:
  if ls /lib/modules/$(uname -r)/*.*o 1> /dev/null 2> /dev/null ; then
    echo "${MARKER}:  Loading kernel modules from initrd image:"
    for module in /lib/modules/$(uname -r)/*.*o ; do
      /sbin/modprobe $module 1>/dev/null 2>/dev/null
    done
    unset module
  fi
fi

# Sometimes the devices need extra time to be available.
# A root filesystem on USB is a good example of that.
sleep $WAIT
# Fire at least one blkid:
blkid 1>/dev/null 2>/dev/null

if [ "$RESCUE" = "" ]; then 
  if [ $LOCALHD -eq 1 ]; then
    # We will initialize RAID/LVM/BTRFS on local harddisks:
    # Initialize RAID:
    if [ -x /sbin/mdadm ]; then
      # If /etc/mdadm.conf is present, udev should DTRT on its own;
      # If not, we'll make one and go from there:
      if [ ! -r /etc/mdadm.conf ]; then
        /sbin/mdadm -E -s >/etc/mdadm.conf
        /sbin/mdadm -S -s
        /sbin/mdadm -A -s
        # This seems to make the kernel see partitions more reliably:
        fdisk -l /dev/md* 1> /dev/null 2> /dev/null
      fi
    fi

    # Initialize LVM:
    if [ -x /sbin/vgchange ]; then
      mkdir -p /var/lock/lvm      # this avoids useless warnings
      /sbin/vgchange -ay --ignorelockingfailure 2>/dev/null
      /sbin/udevadm settle --timeout=10
    fi

    # Scan for btrfs multi-device filesystems:
    if [ -x /sbin/btrfs ]; then
      /sbin/btrfs device scan
    fi
  fi

  # --------------------------------------------------------------------- #
  #                     SLACKWARE LIVE - START                            #
  # --------------------------------------------------------------------- #

  ## Support functions ##

  cidr_cvt() {
    # Function to convert the netmask from CIDR format to dot notation.
    # Number of args to shift, 255..255, first non-255 byte, zeroes
    set -- $(( 5 - ($1 / 8) )) 255 255 255 255 $(( (255 << (8 - ($1 % 8))) & 255 )) 0 0 0
    [ $1 -gt 1 ] && shift $1 || shift
    echo ${1-0}.${2-0}.${3-0}.${4-0}
  }

  get_dhcpcd_pid() {
    # Find the location of the PID file of dhcpcd:
    MYDEV="$1"
    if [ -s /run/dhcpcd/dhcpcd-${MYDEV}.pid ]; then
      echo "/run/dhcpcd/dhcpcd-${MYDEV}.pid"
    elif [ -s /run/dhcpcd-${MYDEV}.pid ]; then
      echo "/run/dhcpcd-${MYDEV}.pid"
    fi
    echo UNKNOWNLOC
  }

  setnet() {
    # Find and configure the network interface for NFS root support.
    # Assume nothing about the method of network configuration:
    ENET_MODE="ask"

    echo "${MARKER}:  Configuring network interface for NFS mount."

    # Does the commandline have NIC information for us?
    # Format is 'nic=driver:interface:<dhcp|static>:ip:mask:gw'
    if [ -n "$ENET" ]; then
      DRIVER=$(echo $ENET |cut -f1 -d:)
      INTERFACE=$(echo $ENET |cut -f2 -d:)
      ENET_MODE=$(echo $ENET |cut -f3 -d:)
      if [ "$ENET_MODE" = "static" ]; then
        IPADDR=$(echo $ENET |cut -f4 -d:)
        NETMASK=$(echo $ENET |cut -f5 -d:)
        # We allow for CIDR notation of the netmask (0 < NETMASK < 25):
        if [ "$(echo $NETMASK |tr -cd '\.')" != "..." ]; then
          NETMASK=$(cidr_cvt $NETMASK)
        fi
        # Determine BROADCAST:
        eval $(ipcalc -b $IPADDR $NETMASK)
        # Not mandatory:
        GATEWAY=$(echo $ENET | cut -f6 -d:)
      fi
    fi

    # If no interface is present the cmdline should have provided a driver:
    if [ $(cat /proc/net/dev |grep ':' |sed -e "s/^ *//" |cut -f1 -d: |grep -v lo |wc -l) -eq 0 ]; then
      if [ "x${DRIVER}" != "x" ]; then
        # This takes silent care of 'DRIVER=auto' as well...
        modprobe ${DRIVER} 1>/dev/null 2>/dev/null
      fi
    fi

    # Let's determine the interface:
    if [ "x$INTERFACE" = "x" -o "$INTERFACE" = "auto" ]; then
      # Cmdline did not provide a nic or it's "auto" to let dhcpcd find out:
      for EDEV in $(cat /proc/net/dev |grep ':' |sed -e "s/^ *//" |cut -f1 -d: |grep -v lo) ; do
        if grep -q $(echo ${EDEV}: |cut -f 1 -d :): /proc/net/wireless ; then
          continue # skip wireless interfaces
        fi
        # If this configures an interface, we're done with dhcpcd afterwards:
        /sbin/dhcpcd -L -p -t $DHCPWAIT $EDEV &
      done
      unset EDEV
      # Wait at most DHCPWAIT seconds for a DHCP-configured interface to appear:
      for ITER in $(seq 0 $DHCPWAIT); do
        if $(ip -f inet -o addr show | grep -v " lo " 1>/dev/null 2>/dev/null)
        then
          # Found one!
          break
        fi
        sleep 1
      done
      # What interface did dhcpcd configure?
      INTERFACE=""
      for EDEV in $(cat /proc/net/dev |grep ':' |sed -e "s/^ *//" |cut -f1 -d: |grep -v lo); do
        if [ -s $(get_dhcpcd_pid $EDEV) ]; then
          INTERFACE="${EDEV}"
          break
        fi
      done
      unset EDEV
    fi

    if [ "x$INTERFACE" = "x" ]; then
      # Failed to find a configured interface... desperate measure:
      echo "${MARKER}:  Failed to find network interface... trouble ahead."
      INTERFACE="eth0"
    fi

    # We know our INTERFACE, so let's configure it:
    if [ "$ENET_MODE" = "ask" -o "$ENET_MODE" = "dhcp" ]; then
      # Invoke dhcpcd only if it was not called yet:
      if [ ! -s $(get_dhcpcd_pid $INTERFACE) ]; then
        /sbin/dhcpcd -L -p -t $DHCPWAIT $INTERFACE
      fi
    else
      # Kill dhcpcd if we used it to find a statically configured interface:
      if [ -s $(get_dhcpcd_pid $INTERFACE) ]; then
        /sbin/dhcpcd -k $INTERFACE
      fi
      # Static IP address requires IPADDRESS, NETMASK, NETMASK at a minimum:
      ifconfig $INTERFACE $IPADDR netmask $NETMASK broadcast $BROADCAST
      if [ -n "$GATEWAY" ]; then
        route add default gw $GATEWAY metric 1
      fi
    fi

    # Store the interface MAC address so we may modify the hostname with it:
    HNMAC=$(ip link show ${INTERFACE} |grep link/ether |tr -s ' ' |cut -d ' ' -f3 |tr -d ':')

  } # End setnet()

  find_loop() {
    # The losetup of busybox is different from the real losetup - watch out!
    lodev=$(losetup -f)
    if [ -z "$lodev" ]; then
      # We exhausted the available loop devices, so create the block device:
      for NOD in $(seq 0 ${MAXLOOPS}); do
        if [ ! -b /dev/loop${NOD} ]; then
          mknod -m660 /dev/loop${NOD} b 7 ${NOD}
          break
        fi
      done
      lodev=/dev/loop${NOD}
    elif [ ! -b $lodev ]; then
      # We exhausted the available loop devices, so create the block device:
      mknod -m660 $lodev b 7 $(echo $lodev |sed 's%/dev/loop%%')
    fi
    echo "$lodev"
  }

  mod_base() {
    MY_MOD="$1"

    echo $(basename ${MY_MOD}) |rev |cut -d. -f2- |rev
  }

  find_mod() {
    MY_LOC="$1"

    ( for MY_EXT in ${SQ_EXT_AVAIL} ; do
        echo "$(find ${MY_LOC} -name "*.${MY_EXT}" 2>/dev/null)"
      done
    ) | sort
  }

  find_modloc() {
    MY_LOC="$1"
    MY_BASE="$2"

    if [ $TORAM -ne 0 ]; then
      # If we need to copy the module to RAM, we need a place for that:
      mkdir -p /mnt/live/toram
      # Copy the module to RAM before mounting it, preserving relative path:
      MODNAME="$(basename ${MY_LOC})"
      MODRELPATH="$(dirname ${MY_LOC} |sed "s,$MY_BASE,,")"
      mkdir -p /mnt/live/toram/${MODRELPATH}
      cp "${MY_LOC}" "/mnt/live/toram/${MODRELPATH}"
      MY_LOC="/mnt/live/toram/${MODRELPATH}/${MODNAME}"
    fi

    echo "${MY_LOC}"
  }

  load_modules() {
    # SUBSYS can be 'system', 'addons', 'optional':
    SUBSYS="$1"

    # Find all supported modules:
    for MODULE in $(find_mod /mnt/media/${LIVEMAIN}/${SUBSYS}/) ; do
      # Strip path and extension from the modulename:
      MODBASE="$(mod_base ${MODULE})"
      if [ "$SUBSYS" = "optional" ]; then
        # Load one or more optionals by using boot parameter 'load':
        # load=mod1[,mod2[,mod3]]
        if [ -z "$LOAD" -o -z "$(echo ",${LOAD}," |grep -i ",$(echo $MODBASE |cut -d- -f2),")" ]; then
          continue
        fi
      elif [ "$SUBSYS" = "addons" ]; then
        # Skip loading one or more addons by using boot parameter 'noload':
        # noload=mod1[,mod2[,mod3]]
        if [ -n "$NOLOAD" -a -n "$(echo ",${NOLOAD}," |grep -i ",$(echo $MODBASE |cut -d- -f2),")" ]; then
          echo "$MODBASE" >> /mnt/live/modules/skipped
          continue
        fi
      fi
      MODLOC=$(find_modloc ${MODULE} /mnt/media)
      if [ -d /mnt/live/modules/${MODBASE} ]; then
        echo "${MARKER}:  duplicate $SUBSYS module '${MODBASE}', excluding it from the overlay."
        echo "$MODBASE" >> /mnt/live/modules/dupes
      else
        mkdir /mnt/live/modules/${MODBASE}
        mount -t squashfs -o loop ${MODLOC} /mnt/live/modules/${MODBASE}
        if [ $? -eq 0 ]; then
          if echo ${MODBASE} | grep -q ^0000 -a ; then
            echo "${MARKER}:  ${CDISTRO} Live based on liveslak-${VERSION} #$(cat /mnt/live/modules/${MODBASE}/${MARKER})"
          fi
          RODIRS=":/mnt/live/modules/${MODBASE}${RODIRS}"
          # 0099-* are the Live customizations, exclude those for setup2hd:
          if ! echo ${MODBASE} | grep -q ^0099 ; then
            FS2HD=":/mnt/live/modules/${MODBASE}${FS2HD}"
          fi
        else
          echo "${MARKER}:  Failed to mount $SUBSYS module '${MODBASE}', excluding it from the overlay."
            echo "$MODBASE" >> /mnt/live/modules/failed
        fi
      fi
    done
  }

  ## End support functions ##

  # We need a mounted filesystem here to be able to do a switch_root later,
  # so we create one in RAM:
  if [ $TORAM -eq 1 ]; then
    RAMSIZE=90%  # need to be able to load the entire OS in RAM
  else
    RAMSIZE=50%  # the default value.
  fi
  mount -t tmpfs -o defaults,size=${RAMSIZE} none /mnt

  # Find the Slackware Live media.
  # TIP: Increase WAIT to give USB devices a chance to be seen by the kernel.
  mkdir /mnt/media
  if [ -n "$NFSHOST" ]; then
    # NFS root.  First configure our network interface:
    setnet
    # Mount the NFS share and hope for the best:
    mount -t nfs -o nolock,vers=3 $NFSHOST:$NFSPATH /mnt/media
    LIVEALL="$NFSHOST:$NFSPATH"
    LIVEMEDIA="$LIVEALL"
    # No writing on NFS exports, overlayfs does not support it:
    VIRGIN=1
  elif [ -z "$LIVEMEDIA" ]; then
    # LIVEMEDIA not specified on the boot commandline using "livemedia="
    # Filter out the block devices, only look at partitions at first:
    LIVEALL=$(blkid |grep LABEL="\"$MEDIALABEL\"" |cut -d: -f1 |grep "[0-9]$")
    LIVEMEDIA=$(blkid |grep LABEL="\"$MEDIALABEL\"" |cut -d: -f1 |grep "[0-9]$" |head -1)
    if [ ! -z "$LIVEMEDIA" ]; then
      # That was easy... we found the media straight away.
      # Determine filesystem type ('iso9660' means we found a CDROM/DVD)
      LIVEFS=$(blkid $LIVEMEDIA |rev |cut -d'"' -f2 |rev)
      mount -t $LIVEFS -o ro $LIVEMEDIA /mnt/media
    else
      LIVEALL=$(blkid |grep LABEL="\"$MEDIALABEL\"" |cut -d: -f1 |grep -v "[0-9]$")
      LIVEMEDIA=$(blkid |grep LABEL="\"$MEDIALABEL\"" |cut -d: -f1 |grep -v "[0-9]$" |head -1)
      if [ ! -z "$LIVEMEDIA" ]; then
        # We found a block device with the correct label (non-UEFI media).
        # Determine filesystem type ('iso9660' means we found a CDROM/DVD)
        LIVEFS=$(blkid $LIVEMEDIA |rev |cut -d'"' -f2 |rev)
        mount -t $LIVEFS -o ro $LIVEMEDIA /mnt/media
      else
        # Bummer... label not found; the ISO was extracted to a different device.
        # Separate partitions from block devices, look at partitions first:
        for SLDEVICE in $(blkid |cut -d: -f1 |grep "[0-9]$") $(blkid |cut -d: -f1 |grep -v "[0-9]$") ; do
          SLFS=$(blkid $SLDEVICE |rev |cut -d'"' -f2 |rev)
          mount -t $SLFS -o ro $SLDEVICE /mnt/media
          if [ -d /mnt/media/${LIVEMAIN} ]; then
            # Found our media!
            LIVEALL=$SLDEVICE
            LIVEMEDIA=$SLDEVICE
            LIVEFS=$(blkid $LIVEMEDIA |rev |cut -d'"' -f2 |rev)
            break
          else
            umount $SLDEVICE
            unset SLDEVICE
          fi
        done
      fi
    fi
    if [ -n "$LIVEMEDIA" ]; then
      # Gotcha!
      break
    fi
    sleep 1
  else
    # LIVEMEDIA was specified on the boot commandline using "livemedia="
    if [ "$LIVEMEDIA" != "scandev" -a ! -b "$LIVEMEDIA" ]; then
      # Passed a UUID or LABEL?
      LIVEALL=$(findfs UUID=$LIVEMEDIA 2>/dev/null) || LIVEALL=$(findfs LABEL=$LIVEMEDIA 2>/dev/null)
      LIVEMEDIA="$LIVEALL"
    else
      LIVEALL="$LIVEMEDIA"
    fi
    if [ -z "$LIVEALL" ]; then
      echo "${MARKER}:  Live media '$LIVEMEDIA' not found... trouble ahead."
    else
      if [ -n "$LIVEPATH" -a "$LIVEPATH" != "$LIVEMEDIA" ]; then
        # Boot option used: "livemedia=/dev/sdX:/path/to/live.iso",
        # or: "livemedia=scandev:/path/to/live.iso",
        # instead of just: "livemedia=/dev/sdX".
        #
        # First mount the partition and then loopmount the ISO:
        SUPERMNT=/mnt/super_$(od -An -N1 -tu1 /dev/urandom |tr -d ' ')
        mkdir -p ${SUPERMNT}
        #
        if [ "$LIVEMEDIA" = "scandev" ]; then
          # Scan partitions to find the one with the ISO and set LIVEMEDIA:
          echo "${MARKER}:  Scanning for '$LIVEPATH'..."
          for ISOPART in $(blkid |cut -d: -f1 |grep "[0-9]$") $(blkid |cut -d: -f1 |grep -v "[0-9]$") ; do
            PARTFS=$(blkid $ISOPART |rev |cut -d'"' -f2 |rev)
            # Abuse the $SUPERMNT a bit, we will actually use it later:
            mount -t $PARTFS -o ro $ISOPART ${SUPERMNT}
            if [ -f ${SUPERMNT}/${LIVEPATH} ]; then
              # Found our ISO!
              LIVEMEDIA=$ISOPART
              umount $ISOPART
              unset ISOPART
              break
            else
              umount $ISOPART
            fi
          done
          if [ -n "$ISOPART" ]; then
            echo "${MARKER}:  Partition scan unable to find ISO, trouble ahead."
          fi
        fi
        # At this point we know $LIVEMEDIA - either because the bootparameter
        # specified it or else because the 'scandev' found it for us:
        SUPERFS=$(blkid $LIVEMEDIA |rev |cut -d'"' -f2 |rev)
        mount -t $SUPERFS -o ro $LIVEMEDIA ${SUPERMNT}
        if [ -f "${SUPERMNT}/$LIVEPATH" ]; then
          LIVEFS=$(blkid "${SUPERMNT}/$LIVEPATH" |rev |cut -d'"' -f2 |rev)
          LIVEALL="${SUPERMNT}/$LIVEPATH"
          LIVEMEDIA="$LIVEALL"
          MOUNTOPTS="loop"
        fi
      fi
      LIVEFS=$(blkid $LIVEMEDIA |rev |cut -d'"' -f2 |rev)
      mount -t $LIVEFS -o ${MOUNTOPTS:-ro} $LIVEMEDIA /mnt/media
    fi
  fi

  # Finished determining the media availability, it should be mounted now.

  if [ ! -z "$LIVEMEDIA" ]; then
    echo "${MARKER}:  Live media found at ${LIVEMEDIA}."
    if [ ! -d /mnt/media/${LIVEMAIN} ]; then
      echo "${MARKER}:  However, live media was not mounted... trouble ahead."
    fi
    if [ "$LIVEMEDIA" != "$LIVEALL" ]; then
      echo "${MARKER}:  NOTE: Multiple partitions with '$MEDIALABEL' label were found ($(echo $LIVEALL))... success not guaranteed."
    fi
  else
    echo "${MARKER}:  No live media found... trouble ahead."
    echo "${MARKER}:  Try adding \"rootdelay=20\" to the boot command."
    debugit
    rescue
  fi

  debugit

  # liveslak can optionally load a OS config file "@DISTRO@_os.cfg"
  # which contains "VARIABLE=value" lines, where VARIABLE is one of
  # the following variables that are used below in the live init script:
  #   BLACKLIST, KEYMAP, LIVE_HOSTNAME, LOAD, LOCALE, LUKSVOL,
  #   NOLOAD, RUNLEVEL, TWEAKS, TZ, XKB. 
  if [ -z "$CFGACTION" ]; then
    # Read OS configuration from disk file if present and set any variable
    # from that file if it has not yet been defined in the init script
    # (prevent this by adding 'cfg=skip' to the boot commandline).
    if [ -f "/mnt/media/${LIVEMAIN}/${DISTROCFG}" ]; then
      echo "${MARKER}:  Reading config from /${LIVEMAIN}/${DISTROCFG}"
      for LIVEPARM in \
        BLACKLIST KEYMAP LIVE_HOSTNAME LOAD LOCALE LUKSVOL \
        NOLOAD RUNLEVEL TWEAKS TZ XKB ;
      do
        if [ -n "${LIVEPARM}" ]; then
          eval $(grep -w ${LIVEPARM} /mnt/media/${LIVEMAIN}/${DISTROCFG})
        fi
      done
    fi
  elif [ "$CFGACTION" = "write" ]; then
    # Write liveslak OS parameters to disk:
    echo > /mnt/media/${LIVEMAIN}/${DISTROCFG} 2>/dev/null
    if [ $? -ne 0 ]; then
      echo "${MARKER}:  Live media read-only, cannot write config file."
    else
      echo "${MARKER}:  Writing config to /${LIVEMAIN}/${DISTROCFG}"
      for LIVEPARM in \
        BLACKLIST KEYMAP LIVE_HOSTNAME LOAD LOCALE LUKSVOL \
        NOLOAD RUNLEVEL TWEAKS TZ XKB ;
      do
        if [ -n "$(eval echo \$$LIVEPARM)" ]; then
          echo $LIVEPARM=$(eval echo \$$LIVEPARM) >> /mnt/media/${LIVEMAIN}/${DISTROCFG}
        fi 
      done
    fi
  fi

  # Some variables require a value before continuing, so if they were not set
  # on the boot commandline nor in a config file, we take care of it now:
  if [ -z "$KEYMAP" ]; then
    KEYMAP="${DEF_KBD}"
  fi
  if [ -z "$TZ" ]; then
    TZ="${DEF_TZ}"
  fi
  if [ -z "$LOCALE" ]; then
    LOCALE="${DEF_LOCALE}"
  fi

  # Load a custom keyboard mapping:
  if [ -n "$KEYMAP" ]; then
    echo "${MARKER}:  Loading '$KEYMAP' keyboard mapping:"
    tar xzOf /etc/keymaps.tar.gz ${KEYMAP}.bmap | loadkmap
  fi

  # Start assembling our live system components below /mnt/live :
  mkdir /mnt/live

  # Mount our squashed modules (.sxz or other supported extension)
  mkdir /mnt/live/modules

  if [ $TORAM -ne 0 ]; then
    echo "${MARKER}:  Copying Live modules to RAM, please be patient."
  fi

  # Modules were created in specific order and will be mounted in that order.
  # In the lowerdirs parameter for the overlay, the module with the highest
  # number (i.e. created last) will be leftmost in a colon-separated list:
  RODIRS=""
  FS2HD=""

  # First, the base Slackware system components:
  load_modules system

  # Next, the add-on (3rd party etc) components, if any:
  # Remember, module name must adhere to convention: "NNNN-modname-*.sxz"
  # where 'N' is a digit and 'modname' must not contain a dash '-'.
  load_modules addons

  # And finally any explicitly requested optionals (like nvidia drivers):
  # Remember, module name must adhere to convention: "NNNN-modname-*.sxz"
  # where 'N' is a digit and 'modname' must not contain a dash '-'.
  load_modules optional

  # Get rid of the starting colon:
  RODIRS=$(echo $RODIRS |cut -c2-)
  FS2HD=$(echo $FS2HD |cut -c2-)

  if [ $TORAM -ne 0 ]; then
    echo "${MARKER}:  Live OS copied to RAM, you can remove the Live medium."
    if [ "LIVEFS" = "iso9660" ]; then
      eject ${LIVEMEDIA}
    fi
  fi

  # Setup persistence in case our media is writable, *and* the user
  # has created a directory "persistence" in the root of the media.
  # otherwise we let the block changes accumulate in RAM only.

  # Create the mount point for the writable upper directory of the overlay:
  # Assume the default to be a readonly media - we write to RAM:
  UPPERDIR=/mnt/live/changes
  OVLWORK=/mnt/live/.ovlwork
  if [ "$VIRGIN" = "0" ]; then
    if [ "LIVEFS" != "iso9660" -a -d /mnt/media/${PERSISTENCE} ]; then
      # Looks OK, but we need to remount the media in order to write
      # to the persistence directory:
      mount -o remount,rw /mnt/media
      # Try a write... just to be dead sure:
      if touch /mnt/media/${PERSISTENCE}/.rwtest 2>/dev/null && rm /mnt/media/${PERSISTENCE}/.rwtest 2>/dev/null ; then
        # Writable media and we are allowed to write to it.
        if [ "$WIPE_PERSISTENCE" = "1" -o -f /mnt/media/${PERSISTENCE}/.wipe ]; then
          echo "${MARKER}:  Wiping existing persistent data in '/${PERSISTENCE}'."
          rm -f /mnt/media/${PERSISTENCE}/.wipe 2>/dev/null
          find /mnt/media/${PERSISTENCE}/ -mindepth 1 -exec rm -rf {} \; 2>/dev/null
        fi
        echo "${MARKER}:  Writing persistent changes to media directory '/${PERSISTENCE}'."
        UPPERDIR=/mnt/media/${PERSISTENCE}
        OVLWORK=/mnt/media/.ovlwork
      fi
    elif [ "LIVEFS" != "iso9660" -a -f /mnt/media/${PERSISTENCE}.img ]; then
      # Use a container file; the filesystem needs to be writable:
      mount -o remount,rw /mnt/media
      # Find a free loop device to mount the persistence container file:
      prdev=$(find_loop)
      prdir=$(basename ${PERSISTENCE})_$(od -An -N1 -tu1 /dev/urandom |tr -d ' ')
      mkdir -p /mnt/live/${prdir}
      losetup $prdev /mnt/media/${PERSISTENCE}.img
      # Check if the persistence container is LUKS encrypted:
      if cryptsetup isLuks $prdev 1>/dev/null 2>/dev/null ; then
        echo "Unlocking LUKS encrypted persistence file '/${PERSISTENCE}.img'"
        cryptsetup luksOpen $prdev $(basename ${PERSISTENCE}) </dev/tty0 >/dev/tty0 2>&1
        if [ $? -ne 0 ]; then
          echo "${MARKER}:  Failed to unlock persistence file '/${PERSISTENCE}.img'."
          echo "${MARKER}:  Falling back to RAM."
        else
          # LUKS properly unlocked; from now on use the mapper device instead:
          prdev=/dev/mapper/$(basename ${PERSISTENCE})
        fi
      fi
      prfs=$(blkid $prdev |rev |cut -d'"' -f2 |rev)
      mount -t $prfs $prdev /mnt/live/${prdir} 2>/dev/null
      if [ $? -ne 0 ]; then
        echo "${MARKER}:  Failed to mount persistence file '/${PERSISTENCE}.img'."
        echo "${MARKER}:  Falling back to RAM."
      else
        if [ "$WIPE_PERSISTENCE" = "1" -o -f /mnt/live/${prdir}/$(basename ${PERSISTENCE})/.wipe ]; then
          echo "${MARKER}:  Wiping existing persistent data in '/${PERSISTENCE}.img'."
          rm -f /mnt/live/${prdir}/$(basename ${PERSISTENCE})/.wipe 2>/dev/null
          find /mnt/live/${prdir}/$(basename ${PERSISTENCE})/ -mindepth 1 -exec rm -rf {} \; 2>/dev/null
        fi
        echo "${MARKER}:  Writing persistent changes to file '/${PERSISTENCE}.img'."
        UPPERDIR=/mnt/live/${prdir}/$(basename ${PERSISTENCE})
        OVLWORK=/mnt/live/${prdir}/.ovlwork
      fi
    fi
  else
    echo "${MARKER}:  Writing changes to RAM - no persistence:"
    if [ ! -z "$LUKSVOL" ]; then
      # Even without persistence, we need to be able to write to the partition
      # if we are using a LUKS container file:
      mount -o remount,rw /mnt/media
    fi
  fi

  debugit

  # Create the writable upper directory, plus the workdir which is required
  # for overlay to function (the two must be in the same POSIX filesystem):
  [ ! -d ${UPPERDIR} ] && mkdir -p ${UPPERDIR}
  [ ! -d ${OVLWORK} ] && mkdir -p ${OVLWORK}

  # Create the overlays of readonly and writable directories:
  mkdir -p /mnt/${LIVEMAIN}fs
  mkdir -p /mnt/overlay
  # We are going to use a readonly overlay of the unmodified filesystem
  # as source for 'setup2hd':
  mount -t overlay -o lowerdir=${FS2HD} overlay /mnt/${LIVEMAIN}fs
  # And this is the actual Live overlay:
  mount -t overlay -o workdir=${OVLWORK},upperdir=${UPPERDIR},lowerdir=${RODIRS} overlay /mnt/overlay
  MNTSTAT=$?
  if [ "$VIRGIN" = "0" ]; then
    if [ $MNTSTAT -ne 0 ]; then
      # Failed to create the persistent overlay - try without persistence:
      echo "${MARKER}:  Failed to create persistent overlay, attempting to continue in RAM."
      # Clean up and re-create upper and work directories:
      rmdir $UPPERDIR 2>/dev/null
      rmdir $OVLWORK 2>/dev/null
      [ -n "${prdir}" ] && rmdir /mnt/live/${prdir} 2>/dev/null
      VIRGIN=1
      UPPERDIR=/mnt/live/changes
      OVLWORK=/mnt/live/.ovlwork
      mkdir -p ${UPPERDIR}
      mkdir -p ${OVLWORK}
      mount -t overlay -o workdir=${OVLWORK},upperdir=${UPPERDIR},lowerdir=${RODIRS} overlay /mnt/overlay
    else
      # Use a predictable name "changes" for the changes-directory which we can
      # use later to squash its contents into a new .sxz module if needed.
      # Will be a directory when there's no persistence, otherwise a bind-mount.
      mkdir -p /mnt/live/changes
      mount --rbind ${UPPERDIR} /mnt/live/changes
    fi
  fi

  debugit

  # Make the underpinning RAM fs accessible in the live system (for fun):
  mkdir -p /mnt/overlay/mnt/live
  mount --rbind /mnt/live /mnt/overlay/mnt/live
  mkdir -p /mnt/overlay/mnt/${LIVEMAIN}fs
  mount --bind /mnt/${LIVEMAIN}fs /mnt/overlay/mnt/${LIVEMAIN}fs

  # Same for the Linux filesystem on the USB stick:
  mkdir -p /mnt/overlay/mnt/livemedia
  if [ $TORAM -eq 0 ]; then
    mount --bind /mnt/media /mnt/overlay/mnt/livemedia
  else
    # For PXE server we need to provide kernel and initrd too,
    # not just the modules:
    cp -af /mnt/media/boot /mnt/live/toram/
    mount --bind /mnt/live/toram /mnt/overlay/mnt/livemedia
  fi

  if [ ! -z "$USE_SWAP" ]; then
    # Use any available swap device:
    for SWAPD in $(blkid |grep TYPE="\"swap\"" |cut -d: -f1) ; do
      echo "${MARKER}:  Enabling swapping to '$SWAPD'"
      echo "$SWAPD  swap  swap defaults  0  0" >> /mnt/overlay/etc/fstab
    done
  fi

  if [ ! -z "$KEYMAP" ]; then
    # Configure custom keyboard mapping in console and X:
    echo "${MARKER}:  Switching live console to '$KEYMAP' keyboard"
    cat <<EOT > /mnt/overlay/etc/rc.d/rc.keymap
#!/bin/sh
# Load the keyboard map.  More maps are in /usr/share/kbd/keymaps.
if [ -x /usr/bin/loadkeys ]; then
 /usr/bin/loadkeys ${KEYMAP}
fi
EOT
    chmod 755 /mnt/overlay/etc/rc.d/rc.keymap
    echo "KEYMAP=${KEYMAP}" > /mnt/overlay/etc/vconsole.conf
  fi
  if [ ! -z "$KEYMAP" -o ! -z "$XKB" ]; then
    # Set a keyboard mapping in X.Org, derived from the console map if needed:
    # Variable XKB can be set to "XkbLayout,XkbVariant,XkbOptions".
    # For example "xkb=ch,fr,compose:sclk,grp:alt_shift_toggle"
    # Note that the XkbOptions can be several comma-separated values.
    # The XkbLayout and XkbVariant values must not contain commas.
    # You can set just the XkbVariant by adding something like "kbd=ch xkb=,fr"

    # Catch a missing comma in the "$XKB" string value which messes with 'cut':
    XKB="$XKB,"
    XKBLAYOUT=$(echo $XKB |cut -d, -f1)
    XKBVARIANT=$(echo $XKB |cut -d, -f2)
    XKBOPTIONS=$(echo $XKB |cut -d, -f3-)
    # Ensure that XKBLAYOUT gets a value;
    # XKBVARIANT and XKBOPTIONS are allowed to be empty.
    if [ -z "$XKBLAYOUT" ]; then
      if [ -z "$KEYMAP" ]; then
        XKBLAYOUT="us"
      else
        XKBLAYOUT="$(echo $KEYMAP |cut -c1-2)"
      fi
    fi
  else
    XKBLAYOUT="us"
  fi
  echo "${MARKER}:  Switching live X desktop to '$XKBLAYOUT' keyboard"

  if [ "$XKBLAYOUT" != "us" ]; then
    # If the layout is not 'us' then add 'us' as a secondary nevertheless:
    XKBLAYOUT="$XKBLAYOUT,us"
    XKBVARIANT="$XKBVARIANT,"
  fi

  if [ -z "$XKBOPTIONS" ]; then
    # If the user did not specify any X keyboard options then we will
    # determine a set of sane defaults:
    if [ "$XKBLAYOUT" != "us" ]; then
      # User should be able to switch between layouts (Alt-Shift toggles).
      # Also, many languages use the AltGr key, so we will use Shift-AltGr
      # (press them, then release them, then enter your two keys of choice)
      # as the Compose Key - see "/usr/share/X11/xkb/rules/xorg.lst":
      XKBOPTIONS="grp:alt_shift_toggle,grp_led:scroll,lv3:ralt_switch_multikey"
    else
      # For US keyboard we just define the Compose Key as before:
      XKBOPTIONS="lv3:ralt_switch_multikey"
    fi
  fi
  mkdir -p /mnt/overlay/etc/X11/xorg.conf.d
  echo > /mnt/overlay/etc/X11/xorg.conf.d/30-keyboard.conf
  cat <<EOT >> /mnt/overlay/etc/X11/xorg.conf.d/30-keyboard.conf
Section "InputClass"
  Identifier "keyboard-all"
  MatchIsKeyboard "on"
  MatchDevicePath "/dev/input/event*"
  Driver "evdev"
  Option "XkbLayout" "$XKBLAYOUT"
EOT
  if [ -z "$XKBVARIANT" ]; then
    cat <<EOT >> /mnt/overlay/etc/X11/xorg.conf.d/30-keyboard.conf
  #Option "XkbVariant" "$XKBVARIANT"
EOT
  else
    cat <<EOT >> /mnt/overlay/etc/X11/xorg.conf.d/30-keyboard.conf
  Option "XkbVariant" "$XKBVARIANT"
EOT
  fi
  cat <<EOT >> /mnt/overlay/etc/X11/xorg.conf.d/30-keyboard.conf
  Option "XkbOptions" "$XKBOPTIONS"
EndSection
EOT

  if [ ! -z "$LOCALE" ]; then
    # Configure custom locale:
    echo "${MARKER}:  Switching to '$LOCALE' locale"
    sed -i -e "s/^ *export LANG=.*/export LANG=${LOCALE}/" /mnt/overlay/etc/profile.d/lang.sh
    echo "LANG=${LOCALE}" > /mnt/overlay/etc/locale.conf
  fi

  if [ ! -z "$TZ" -a -f /mnt/overlay/usr/share/zoneinfo/${TZ} ]; then
    # Configure custom timezone:
    echo "${MARKER}:  Configuring timezone '$TZ'"
    cp /mnt/overlay/usr/share/zoneinfo/${TZ} /mnt/overlay/etc/localtime
    rm -f /mnt/overlay/etc/localtime-copied-from
    ln -s /usr/share/zoneinfo/${TZ} /mnt/overlay/etc/localtime-copied-from
    # Configure the hardware clock to be interpreted as localtime and not UTC:
    cat <<EOT > /mnt/overlay/etc/hardwareclock
# /etc/hardwareclock
#
# Tells how the hardware clock time is stored.
# You should run timeconfig to edit this file.
localtime
EOT
    # QT5 expects "/etc/localtime" to be a symlink. Slackware's file is a real
    # file so QT5 fails to determine the timezone and falls back to UTC. Fix:
    echo ${TZ} > /mnt/overlay/etc/timezone

    # KDE4 and PLASMA5 user timezone re-configuration:
    if [ -f /mnt/overlay/home/${LIVEUID}/.kde/share/config/ktimezonedrc ]; then
      sed -i -e "s%^LocalZone=.*%LocalZone=${TZ}%" \
        /mnt/overlay/home/${LIVEUID}/.kde/share/config/ktimezonedrc
    fi
    if [ -f /mnt/overlay/home/${LIVEUID}/.config/ktimezonedrc ]; then
      sed -i -e "s%^LocalZone=.*%LocalZone=${TZ}%" \
        /mnt/overlay/home/${LIVEUID}/.config/ktimezonedrc
    fi
  fi

  if [ ! -z "$LIVEPW" ]; then
    # User entered a custom live password on the boot commandline:
    echo "${MARKER}:  Changing password for user '${LIVEUID}'."
    chroot /mnt/overlay /usr/sbin/chpasswd <<EOPW
${LIVEUID}:${LIVEPW}
EOPW
  fi

  if [ ! -z "$ROOTPW" ]; then
    # User entered a custom root password on the boot commandline:
    echo "${MARKER}:  Changing password for user 'root'."
    chroot /mnt/overlay /usr/sbin/chpasswd <<EOPW
root:${ROOTPW}
EOPW
  fi

  if [ ! -z "$HNMAC" -a "$HNMAC_ALLOWED" = "YES" ]; then
    # We are booting from the network, give it a unique hostname:
    if [ -z "$LIVE_HOSTNAME" ]; then
      LIVE_HOSTNAME="@DARKSTAR@-${HNMAC}"
    else
      LIVE_HOSTNAME="${LIVE_HOSTNAME}-${HNMAC}"
    fi
  fi

  if [ ! -z "$LIVE_HOSTNAME" ]; then
    # User entered a custom hostname on the boot commandline:
    echo "${MARKER}:  Changing hostname to '$LIVE_HOSTNAME'."
    echo "${LIVE_HOSTNAME}.example.net" > /mnt/overlay/etc/HOSTNAME
    if [ -f /mnt/overlay/etc/NetworkManager/NetworkManager.conf ]; then
      sed -i -e "s/^hostname=.*/hostname=${LIVE_HOSTNAME}/" \
        /mnt/overlay/etc/NetworkManager/NetworkManager.conf
    fi
    sed -i -e "s/^\(127.0.0.1\t*\)@DARKSTAR@.*/\1${LIVE_HOSTNAME}.example.net ${LIVE_HOSTNAME}/" /mnt/overlay/etc/hosts
  fi

  if [ -n "$NFSHOST" -a -s $(get_dhcpcd_pid $INTERFACE) ]; then
    # Ensure that dhcpcd will find its configuration:
    mount --bind /var/lib/dhcpcd /mnt/overlay/var/lib/dhcpcd
    mkdir -p /mnt/overlay/run/dhcpcd
    mount --bind /run/dhcpcd /mnt/overlay/run/dhcpcd
    cat /etc/resolv.conf > /mnt/overlay/etc/resolv.conf

    # Disable NetworkManager:
    chmod -x /mnt/overlay/etc/rc.d/rc.networkmanager

    # De-configure rc.inet1:
    cat <<EOT > /mnt/overlay/etc/rc.d/rc.inet1.conf
IFNAME[0]="$INTERFACE"
IPADDR[0]=""
NETMASK[0]=""
USE_DHCP[0]=""
DHCP_HOSTNAME[0]=""
GATEWAY=""
DEBUG_ETH_UP="no"
EOT
  fi

  # Tweaks:
  for TWEAK in $(echo $TWEAKS |tr ',' ' '); do 
    if [ "$TWEAK" = "nga" ]; then
      # Disable glamor 2D acceleration (QEMU needs this):
      cat <<EOT > /mnt/overlay/etc/X11/xorg.conf.d/20-noglamor.conf
Section "Device"
  Identifier "modesetting"
  Driver "modesetting"
  Option "AccelMethod" "none"
EndSection
EOT
    elif [ "$TWEAK" = "nsh" ]; then
      SPH=0
    elif [ "$TWEAK" = "tpb" ]; then
      # Enable scrolling with TrackPoint while pressing the middle mouse button.
      # Note: if this does not work for your TrackPoint,
      # replace "TPPS/2 IBM TrackPoint" with the name found in "xinput --list"
      cat <<EOT > /mnt/overlay/etc/X11/xorg.conf.d/20-trackpoint.conf
Section "InputClass"
        Identifier      "Trackpoint Wheel Emulation"
        MatchProduct    "TPPS/2 IBM TrackPoint|DualPoint Stick|Synaptics Inc. Composite TouchPad / TrackPoint|ThinkPad USB Keyboard with TrackPoint|USB Trackpoint pointing device|Composite TouchPad / TrackPoint"
        MatchDevicePath "/dev/input/event*"
        Option          "Emulate3Buttons"       "true"
        Option          "EmulateWheel"          "true"
        Option          "EmulateWheelTimeout"   "200"
        Option          "EmulateWheelButton"    "2"
        Option          "XAxisMapping"          "6 7"
        Option          "YAxisMapping"          "4 5"
EndSection
EOT
    elif [ "$TWEAK" = "syn" ]; then
      # Enable syndaemon for better management of Synaptics touchpad.
      mkdir -p /mnt/overlay/etc/xdg/autostart
      cat <<EOT > /mnt/overlay/etc/xdg/autostart/syndaemon.desktop 
[Desktop Entry]
Version=1.0
Name=Synaptics deamon
Comment=Enable proper communication with Synaptics touchpad
Exec=syndaemon -d -t -k -i 1
Terminal=false
Type=Application
Categories=
GenericName=
X-GNOME-Autostart-Phase=Initialization
X-KDE-autostart-phase=1
X-MATE-Autostart-Phase=Initialization
EOT
      # Extend what's in /usr/share/X11/xorg.conf.d/50-synaptics.conf
      cat <<EOT > /mnt/overlay/etc/X11/xorg.conf.d/50-synaptics.conf
# Use "synclient -l" to see all available options
# Use "man synaptics" for details about what the options do
Section "InputClass"
        Identifier "touchpad"
        Driver "synaptics"
        MatchDevicePath "/dev/input/event*"
        MatchIsTouchpad "on"
        Option "TapButton1" "1"
        Option "TapButton2" "2"
        Option "TapButton3" "3"
        Option "VertTwoFingerScroll"   "1"
        Option "HorizTwoFingerScroll"  "1"
        Option "VertEdgeScroll"        "1"
EndSection
EOT
    elif [ "$TWEAK" = "ssh" ]; then
      # Enable SSH daemon (disabled by default for security reasons):
      chmod +x /mnt/overlay/etc/rc.d/rc.sshd
    fi
  done # End Tweaks.

  # After parsing the tweaks, we know what to do with freetype's rendering:
  if [ ! -f /mnt/overlay/etc/profile.d/freetype.sh ]; then
    # Old freetype - disable sub-pixel hinting:
    SPH=0
  else
    # First, remove anything about sub-pixel hinting that could be enabled,
    # then decide what to do:
    sed -e 's/^ *[^# ]/#&/' -i /mnt/overlay/etc/profile.d/freetype.sh
    sed -e 's/^ *[^# ]/#&/' -i /mnt/overlay/etc/profile.d/freetype.csh
    rm -f /mnt/overlay/etc/fonts/conf.d/10-hinting-slight.conf
    rm -f /mnt/overlay/etc/fonts/conf.d/11-lcdfilter-default.conf
    rm -f /mnt/overlay/home/${LIVEUID}/.Xresources
  fi
  if [ $SPH -eq 1 ]; then
    # Enable the new v40 interpreter in freetype (bash and c-shell):
    cat <<EOT >> /mnt/overlay/etc/profile.d/freetype.sh
export FREETYPE_PROPERTIES="truetype:interpreter-version=40"
EOT
    cat <<EOT >> /mnt/overlay/etc/profile.d/freetype.csh
setenv FREETYPE_PROPERTIES "truetype:interpreter-version=40"
EOT
    # Adapt the font configuration:
    ln -s /etc/fonts/conf.avail/10-hinting-slight.conf /mnt/overlay/etc/fonts/conf.d/
    ln -s /etc/fonts/conf.avail/11-lcdfilter-default.conf /mnt/overlay/etc/fonts/conf.d/
    cat <<EOT > /mnt/overlay/home/${LIVEUID}/.Xresources
Xft.dpi: 96
Xft.antialias: 1
Xft.hinting: 1
Xft.hintstyle: hintslight
Xft.lcdfilter: lcddefault
Xft.rgba: rgb
Xft.autohint: 0
EOT
  elif [ -f /mnt/overlay/etc/profile.d/freetype.sh ]; then
    # Explicitly configure the non-default old v35 interpreter in freetype:
    cat <<EOT >> /mnt/overlay/etc/profile.d/freetype.sh
export FREETYPE_PROPERTIES="truetype:interpreter-version=35"
EOT
    cat <<EOT >> /mnt/overlay/etc/profile.d/freetype.csh
setenv FREETYPE_PROPERTIES "truetype:interpreter-version=35"
EOT
  fi # End Sub-Pixel Hinting

  # Blacklist kernel modules if requested:
  if [ ! -z "$BLACKLIST" ]; then
    mkdir -p /mnt/overlay/etc/modprobe.d
    echo "#Slackware Live blacklist" > /mnt/overlay/etc/modprobe.d/BLACKLIST-live.conf
    for kernelmod in $(echo $BLACKLIST |tr ',' ' '); do
      echo "blacklist $kernelmod" >> /mnt/overlay/etc/modprobe.d/BLACKLIST-live.conf
    done
  fi

  # Find out if the user enabled any optional/addon kernel modules:
  RUN_DEPMOD=0
  for MOD in $(cat /sys/block/loop*/loop/backing_file |grep -E "optional|addons")
  do
    if [ -d /mnt/live/modules/$(mod_base $MOD)/lib/modules/$(uname -r)/ ]
    then
      # Found kernel modules directory; we need to make a 'depmod' call.
      RUN_DEPMOD=1
    fi
  done
  if [ $RUN_DEPMOD -eq 1 ]; then
    # This costs a few seconds in additional boot-up time unfortunately:
    echo "${MARKER}: Additional kernel module(s) found... need a bit"
    chroot /mnt/overlay /sbin/depmod -a
  fi
  unset RUN_DEPMOD

  # Delete ALSA state file, the Live OS may be booted on different computers:
  rm -f /mnt/overlay/var/lib/alsa/asound.state

  # In case of network boot, do not kill the network, umount NFS prematurely
  #  or stop udevd on shutdown:
  if [ -n "$NFSHOST" ]; then
    sed -i /mnt/overlay/etc/rc.d/rc.0 \
      -e "/on \/ type nfs/s%grep -q 'on / type nfs'%egrep -q 'on / type (nfs|tmpfs)'%" \
      -e '/umount.*nfs/s/nfs,//' \
      -e 's/rc.udev force-stop/rc.udev stop/' \
      -e 's/$(pgrep mdmon)/& $(pgrep udevd)/'
  fi

  # Copy contents of rootcopy directory (may be empty) to overlay:
  cp -af /mnt/media/${LIVEMAIN}/rootcopy/* /mnt/overlay/ 2>/dev/null

  # Bind any LUKS container into the Live filesystem:
  if [ ! -z "$LUKSVOL" ]; then
    for luksvol in $(echo $LUKSVOL |tr ',' ' '); do
      luksfil="$(echo $luksvol |cut -d: -f1)"
      luksmnt="$(echo $luksvol |cut -d: -f2)"
      luksnam="$(echo $(basename $luksfil) |tr '.' '_')"
      if [ "$luksmnt" = "$luksfil" ]; then
        # No optional mount point specified, so we use the default: /home/
        luksmnt="/home"
      fi

      # Find a free loop device:
      lodev=$(find_loop)

      losetup $lodev /mnt/media/$luksfil
      echo "Unlocking LUKS encrypted container '$luksfil' at mount point '$luksmnt'"
      cryptsetup luksOpen $lodev $luksnam </dev/tty0 >/dev/tty0 2>&1
      if [ $? -ne 0 ]; then
        echo "${MARKER}:  Failed to unlock LUKS container '$luksfil'... trouble ahead."
      else
        # Create the mount directory if it does not exist (unlikely):
        mkdir -p /mnt/overlay/$luksmnt

        # Let Slackware mount the unlocked container:
        luksfs=$(blkid /dev/mapper/$luksnam |rev |cut -d'"' -f2 |rev)
        if ! grep -q /dev/mapper/$luksnam /mnt/overlay/etc/fstab ; then
          echo "/dev/mapper/$luksnam  $luksmnt  $luksfs  defaults  1  1" >> /mnt/overlay/etc/fstab
        fi
        # On shutdown, ensure that the container gets locked again:
        if ! grep -q "$luksnam $luksmnt" /mnt/overlay/etc/crypttab ; then
          echo "$luksnam $luksmnt" >> /mnt/overlay/etc/crypttab
        fi
      fi
    done
  fi

  [ $DEBUG -gt 3 ] && rescue "DEBUG SHELL"

  # --------------------------------------------------------------------- #
  #                     SLACKWARE LIVE - !END!                            #
  # --------------------------------------------------------------------- #

  # Minimal changes to the original Slackware init follow:

  # Switch to real root partition:
  /sbin/udevadm settle --timeout=10
  echo 0x0100 > /proc/sys/kernel/real-root-dev

  if [ ! -r /mnt/overlay/${INIT} ]; then
    echo "ERROR:  No ${INIT} found on rootdev (or not mounted).  Trouble ahead."
    echo "        You can try to fix it. Type 'exit' when things are done." 
    echo
    /bin/sh
  fi
else
  rescue
fi

# Need to make sure OPTIONS+="db_persist" exists for all dm devices
# That should be handled in /sbin/mkinitrd now
/sbin/udevadm info --cleanup-db
/sbin/udevadm control --exit

unset ERR
umount /proc
umount /sys
umount /run 2>/dev/null
# We disable the filesystem checking code in /etc/rc.d/rc.S,
# so we need to keep the fs writable here.
#mount -o ro,remount /mnt/overlay 2>/dev/null
echo "${MARKER}:  Slackware Live system is ready."

echo "${MARKER}:  exiting"
exec switch_root /mnt/overlay $INIT $RUNLEVEL