#!/bin/sh # set -e export PATH="/root/usr/bin:/root/usr/sbin:/root/bin:/root/sbin:/usr/bin:/usr/sbin:/bin:/sbin" echo "/root/lib" >> /etc/ld.so.conf echo "/root/usr/lib" >> /etc/ld.so.conf mountpoint="/live/image" alt_mountpoint="/media" LIVE_MEDIA_PATH="live" root_persistence="live-rw" home_persistence="home-rw" root_snapshot_label="live-sn" home_snapshot_label="home-sn" USERNAME="user" USERFULLNAME="Live user" HOSTNAME="host" mkdir -p "${mountpoint}" tried="/tmp/tried" # Create /etc/mtab for debug purpose and future syncs if [ ! -d /etc ] then mkdir /etc/ fi if [ ! -f /etc/mtab ] then touch /etc/mtab fi . /scripts/live-helpers if [ ! -f /live.vars ] then touch /live.vars fi Arguments () { PRESEEDS="" LOCATIONS="" for ARGUMENT in $(cat /proc/cmdline) do case "${ARGUMENT}" in skipconfig) NOACCESSIBILITY="Yes" NOFASTBOOT="Yes" NOFSTAB="Yes" NONETWORKING="Yes" export NOACCESSIBILITY NOFASTBOOT NOFSTAB NONETWORKING ;; access=*) ACCESS="${ARGUMENT#access=}" export ACCESS ;; console=*) DEFCONSOLE="${ARGUMENT#*=}" export DEFCONSOLE ;; BOOTIF=*) BOOTIF="${x#BOOTIF=}" ;; debug) DEBUG="Yes" export DEBUG set -x ;; dhcp) # Force dhcp even while netbooting # Use for debugging in case somebody works on fixing dhclient DHCP="Force"; export DHCP ;; nodhcp) unset DHCP ;; ethdevice=*) DEVICE="${ARGUMENT#ethdevice=}" ETHDEVICE="${DEVICE}" export DEVICE ETHDEVICE ;; ethdevice-timeout=*) ETHDEV_TIMEOUT="${ARGUMENT#ethdevice-timeout=}" export ETHDEV_TIMEOUT ;; fetch=*) FETCH="${ARGUMENT#fetch=}" export FETCH ;; forcepersistentfsck) FORCEPERSISTENTFSCK="Yes" export FORCEPERSISTENTFSCK ;; ftpfs=*) FTPFS="${ARGUMENT#ftpfs=}" export FTPFS ;; httpfs=*) HTTPFS="${ARGUMENT#httpfs=}" export HTTPFS ;; iscsi=*) ISCSI="${ARGUMENT#iscsi=}" #ip:port - separated by ; ISCSI_PORTAL="${ISCSI%;*}" if echo "${ISCSI_PORTAL}" | grep -q , ; then ISCSI_SERVER="${ISCSI_PORTAL%,*}" ISCSI_PORT="${ISCSI_PORTAL#*,}" fi #target name ISCSI_TARGET="${ISCSI#*;}" export ISCSI ISCSI_PORTAL ISCSI_TARGET ISCSI_SERVER ISCSI_PORT ;; isofrom=*|fromiso=*) FROMISO="${ARGUMENT#*=}" export FROMISO ;; ignore_uuid) IGNORE_UUID="Yes" export IGNORE_UUID ;; integrity-check) INTEGRITY_CHECK="Yes" export INTEGRITY_CHECK ;; ip=*) STATICIP="${ARGUMENT#ip=}" if [ -z "${STATICIP}" ] then STATICIP="frommedia" fi export STATICIP ;; live-getty) LIVE_GETTY="1" export LIVE_GETTY ;; live-media=*|bootfrom=*) LIVE_MEDIA="${ARGUMENT#*=}" export LIVE_MEDIA ;; live-media-encryption=*|encryption=*) LIVE_MEDIA_ENCRYPTION="${ARGUMENT#*=}" export LIVE_MEDIA_ENCRYPTION ;; live-media-offset=*) LIVE_MEDIA_OFFSET="${ARGUMENT#live-media-offset=}" export LIVE_MEDIA_OFFSET ;; live-media-path=*) LIVE_MEDIA_PATH="${ARGUMENT#live-media-path=}" export LIVE_MEDIA_PATH ;; live-media-timeout=*) LIVE_MEDIA_TIMEOUT="${ARGUMENT#live-media-timeout=}" export LIVE_MEDIA_TIMEOUT ;; module=*) MODULE="${ARGUMENT#module=}" export MODULE ;; netboot=*) NETBOOT="${ARGUMENT#netboot=}" export NETBOOT ;; nfsopts=*) NFSOPTS="${ARGUMENT#nfsopts=}" export NFSOPTS ;; nfscow=*) NFS_COW="${ARGUMENT#nfscow=}" export NFS_COW ;; noaccessibility) NOACCESSIBILITY="Yes" export NOACCESSIBILITY ;; nofastboot) NOFASTBOOT="Yes" export NOFASTBOOT ;; nofstab) NOFSTAB="Yes" export NOFSTAB ;; nonetworking) NONETWORKING="Yes" export NONETWORKING ;; ramdisk-size=*) ramdisk_size="${ARGUMENT#ramdisk-size=}" ;; swapon) SWAPON="Yes" export SWAPON ;; persistent) PERSISTENT="Yes" export PERSISTENT ;; persistent=*) PERSISTENT="${ARGUMENT#persistent=}" if [ -z "${PERSISTENT}" ] then PERSISTENT="Yes" fi export PERSISTENT ;; persistent-path=*) PERSISTENT_PATH="${ARGUMENT#persistent-path=}" export PERSISTENT_PATH ;; persistent-subtext=*) root_persistence="${root_persistence}-${ARGUMENT#persistent-subtext=}" home_persistence="${home_persistence}-${ARGUMENT#persistent-subtext=}" root_snapshot_label="${root_snapshot_label}-${ARGUMENT#persistent-subtext=}" home_snapshot_label="${home_snapshot_label}-${ARGUMENT#persistent-subtext=}" ;; nopersistent) NOPERSISTENT="Yes" export NOPERSISTENT ;; noprompt) NOPROMPT="Yes" export NOPROMPT ;; noprompt=*) NOPROMPT="${ARGUMENT#noprompt=}" export NOPROMPT ;; quickusbmodules) QUICKUSBMODULES="Yes" export QUICKUSBMODULES ;; preseed/file=*|file=*) LOCATIONS="${ARGUMENT#*=} ${LOCATIONS}" export LOCATIONS ;; nopreseed) NOPRESEED="Yes" export NOPRESEED ;; */*=*) question="${ARGUMENT%%=*}" value="${ARGUMENT#*=}" PRESEEDS="${PRESEEDS}\"${question}=${value}\" " export PRESEEDS ;; showmounts) SHOWMOUNTS="Yes" export SHOWMOUNTS ;; silent) SILENT="Yes" export SILENT ;; todisk=*) TODISK="${ARGUMENT#todisk=}" export TODISK ;; toram) TORAM="Yes" export TORAM ;; toram=*) TORAM="Yes" MODULETORAM="${ARGUMENT#toram=}" export TORAM MODULETORAM ;; exposedroot) EXPOSED_ROOT="Yes" export EXPOSED_ROOT ;; plainroot) PLAIN_ROOT="Yes" export PLAIN_ROOT ;; skipunion) SKIP_UNION_MOUNTS="Yes" export SKIP_UNION_MOUNTS ;; root=*) ROOT="${ARGUMENT#root=}" export ROOT ;; union=*) UNIONTYPE="${ARGUMENT#union=}" export UNIONTYPE ;; esac done # sort of compatibility with netboot.h from linux docs if [ -z "${NETBOOT}" ] then if [ "${ROOT}" = "/dev/nfs" ] then NETBOOT="nfs" export NETBOOT elif [ "${ROOT}" = "/dev/cifs" ] then NETBOOT="cifs" export NETBOOT fi fi if [ -z "${MODULE}" ] then MODULE="filesystem" export MODULE fi if [ -z "${UNIONTYPE}" ] then UNIONTYPE="aufs" export UNIONTYPE fi } is_live_path () { DIRECTORY="${1}" if [ -d "${DIRECTORY}"/"${LIVE_MEDIA_PATH}" ] then for FILESYSTEM in squashfs ext2 ext3 ext4 xfs dir jffs2 do if [ "$(echo ${DIRECTORY}/${LIVE_MEDIA_PATH}/*.${FILESYSTEM})" != "${DIRECTORY}/${LIVE_MEDIA_PATH}/*.${FILESYSTEM}" ] then return 0 fi done fi return 1 } matches_uuid () { if [ "${IGNORE_UUID}" ] || [ ! -e /conf/uuid.conf ] then return 0 fi path="${1}" uuid="$(cat /conf/uuid.conf)" for try_uuid_file in "${path}/.disk/live-uuid"* do [ -e "${try_uuid_file}" ] || continue try_uuid="$(cat "${try_uuid_file}")" if [ "${uuid}" = "${try_uuid}" ] then return 0 fi done return 1 } get_backing_device () { case "${1}" in *.squashfs|*.ext2|*.ext3|*.ext4|*.jffs2) echo $(setup_loop "${1}" "loop" "/sys/block/loop*" '0' "${LIVE_MEDIA_ENCRYPTION}" "${2}") ;; *.dir) echo "directory" ;; *) panic "Unrecognized live filesystem: ${1}" ;; esac } match_files_in_dir () { # Does any files match pattern ${1} ? local pattern="${1}" if [ "$(echo ${pattern})" != "${pattern}" ] then return 0 fi return 1 } mount_images_in_directory () { directory="${1}" rootmnt="${2}" mac="${3}" if match_files_in_dir "${directory}/${LIVE_MEDIA_PATH}/*.squashfs" || match_files_in_dir "${directory}/${LIVE_MEDIA_PATH}/*.ext2" || match_files_in_dir "${directory}/${LIVE_MEDIA_PATH}/*.ext3" || match_files_in_dir "${directory}/${LIVE_MEDIA_PATH}/*.ext4" || match_files_in_dir "${directory}/${LIVE_MEDIA_PATH}/*.jffs2" || match_files_in_dir "${directory}/${LIVE_MEDIA_PATH}/*.dir" then [ -n "${mac}" ] && adddirectory="${directory}/${LIVE_MEDIA_PATH}/${mac}" setup_unionfs "${directory}/${LIVE_MEDIA_PATH}" "${rootmnt}" "${adddirectory}" else panic "No supported filesystem images found at /${LIVE_MEDIA_PATH}." fi } is_nice_device () { sysfs_path="${1#/sys}" if /lib/udev/path_id "${sysfs_path}" | egrep -q "ID_PATH=(usb|pci-|platform-sata_mv|platform-orion-ehci|platform-mmc|platform-mxsdhci|)" then return 0 elif echo "${sysfs_path}" | grep -q '^/block/vd[a-z]$' then return 0 elif echo ${sysfs_path} | grep -q "^/block/dm-" then return 0 elif echo ${sysfs_path} | grep -q "^/block/mtdblock" then return 0 fi return 1 } copy_live_to () { copyfrom="${1}" copytodev="${2}" copyto="${copyfrom}_swap" if [ -z "${MODULETORAM}" ] then size=$(fs_size "" ${copyfrom}/${LIVE_MEDIA_PATH} "used") else MODULETORAMFILE="${copyfrom}/${LIVE_MEDIA_PATH}/${MODULETORAM}" if [ -f "${MODULETORAMFILE}" ] then size=$( expr $(ls -la ${MODULETORAMFILE} | awk '{print $5}') / 1024 + 5000 ) else log_warning_msg "Error: toram-module ${MODULETORAM} (${MODULETORAMFILE}) could not be read." return 1 fi fi if [ "${copytodev}" = "ram" ] then # copying to ram: freespace=$(awk '/^MemFree:/{f=$2} /^Cached:/{c=$2} END{print f+c}' /proc/meminfo) mount_options="-o size=${size}k" free_string="memory" fstype="tmpfs" dev="/dev/shm" else # it should be a writable block device if [ -b "${copytodev}" ] then dev="${copytodev}" free_string="space" fstype=$(get_fstype "${dev}") freespace=$(fs_size "${dev}") else log_warning_msg "${copytodev} is not a block device." return 1 fi fi if [ "${freespace}" -lt "${size}" ] then log_warning_msg "Not enough free ${free_string} (${freespace}k free, ${size}k needed) to copy live media in ${copytodev}." return 1 fi # Custom ramdisk size if [ -z "${mount_options}" ] && [ -n "${ramdisk_size}" ] then # FIXME: should check for wrong values mount_options="-o size=${ramdisk_size}" fi # begin copying (or uncompressing) mkdir "${copyto}" log_begin_msg "mount -t ${fstype} ${mount_options} ${dev} ${copyto}" mount -t "${fstype}" ${mount_options} "${dev}" "${copyto}" if [ "${extension}" = "tgz" ] then cd "${copyto}" tar zxf "${copyfrom}/${LIVE_MEDIA_PATH}/$(basename ${FETCH})" rm -f "${copyfrom}/${LIVE_MEDIA_PATH}/$(basename ${FETCH})" mount -r -o move "${copyto}" "${rootmnt}" cd "${OLDPWD}" else if [ -n "${MODULETORAMFILE}" ] then if [ -x /bin/rsync ] then echo " * Copying $MODULETORAMFILE to RAM" 1>/dev/console rsync -a --progress ${MODULETORAMFILE} ${copyto} 1>/dev/console # copy only the filesystem module else cp ${MODULETORAMFILE} ${copyto} # copy only the filesystem module fi else if [ -x /bin/rsync ] then echo " * Copying whole medium to RAM" 1>/dev/console rsync -a --progress ${copyfrom}/* ${copyto} 1>/dev/console # "cp -a" from busybox also copies hidden files else mkdir -p ${copyto}/${LIVE_MEDIA_PATH} cp -a ${copyfrom}/${LIVE_MEDIA_PATH}/* ${copyto}/${LIVE_MEDIA_PATH} if [ -e ${copyfrom}/${LIVE_MEDIA_PATH}/.disk ] then cp -a ${copyfrom}/${LIVE_MEDIA_PATH}/.disk ${copyto} fi fi fi umount ${copyfrom} mount -r -o move ${copyto} ${copyfrom} fi rmdir ${copyto} return 0 } do_netsetup () { modprobe -q af_packet # For DHCP udevadm trigger udevadm settle [ -n "$ETHDEV_TIMEOUT" ] || ETHDEV_TIMEOUT=15 echo "Using timeout of $ETHDEV_TIMEOUT seconds for network configuration." if [ -z "${NETBOOT}" ] && [ -z "${FETCH}" ] && \ [ -z "${HTTPFS}" ] && [ -z "${FTPFS}" ] then # support for Syslinux IPAPPEND parameter # it sets the BOOTIF variable on the kernel parameter if [ -n "${BOOTIF}" ] then # pxelinux sets BOOTIF to a value based on the mac address of the # network card used to PXE boot, so use this value for DEVICE rather # than a hard-coded device name from initramfs.conf. this facilitates # network booting when machines may have multiple network cards. # pxelinux sets BOOTIF to 01-$mac_address # strip off the leading "01-", which isn't part of the mac # address temp_mac=${BOOTIF#*-} # convert to typical mac address format by replacing "-" with ":" bootif_mac="" IFS='-' for x in $temp_mac do if [ -z "$bootif_mac" ] then bootif_mac="$x" else bootif_mac="$bootif_mac:$x" fi done unset IFS # look for devices with matching mac address, and set DEVICE to # appropriate value if match is found. for device in /sys/class/net/* do if [ -f "$device/address" ] then current_mac=$(cat "$device/address") if [ "$bootif_mac" = "$current_mac" ] then DEVICE=${device##*/} break fi fi done fi # if ethdevice was not specified on the kernel command line # make sure we try to get a working network configuration # for *every* present network device (except for loopback of course) if [ -z "$ETHDEVICE" ] ; then echo "If you want to boot from a specific device use bootoption ethdevice=..." for device in /sys/class/net/*; do dev=${device##*/} ; if [ "$dev" != "lo" ] ; then ETHDEVICE="$ETHDEVICE $dev" fi done fi # split args of ethdevice=eth0,eth1 into "eth0 eth1" for device in $(echo $ETHDEVICE | sed 's/,/ /g') ; do devlist="$devlist $device" done # this is tricky (and ugly) because ipconfig sometimes just hangs/runs into # an endless loop; iff execution fails give it two further tries, that's # why we use '$devlist $devlist $devlist' for the other for loop for dev in $devlist $devlist $devlist ; do echo "Executing ipconfig -t $ETHDEV_TIMEOUT $dev" ipconfig -t "$ETHDEV_TIMEOUT" $dev | tee -a /netboot.config & jobid=$! sleep "$ETHDEV_TIMEOUT" ; sleep 1 if [ -r /proc/"$jobid"/status ] ; then echo "Killing job $jobid for device $dev as ipconfig ran into recursion..." kill -9 $jobid fi # if configuration of device worked we should have an assigned # IP address, iff so let's use the according as $DEVICE for later usage # simple and primitive approach which seems to work fine if ifconfig $dev | grep -q 'inet.*addr:' ; then export DEVICE="$dev" break fi done else for interface in ${DEVICE}; do ipconfig -t "$ETHDEV_TIMEOUT" ${interface} | tee /netboot-${interface}.config [ -e /tmp/net-${interface}.conf ] && . /tmp/net-${interface}.conf if [ "$IPV4ADDR" != "0.0.0.0" ] then break fi done fi for interface in ${DEVICE}; do # source relevant ipconfig output OLDHOSTNAME=${HOSTNAME} [ -e /tmp/net-${interface}.conf ] && . /tmp/net-${interface}.conf [ -z ${HOSTNAME} ] && HOSTNAME=${OLDHOSTNAME} export HOSTNAME if [ -n "${interface}" ] then HWADDR="$(cat /sys/class/net/${interface}/address)" fi if [ ! -e "/etc/resolv.conf" ] then echo "Creating /etc/resolv.conf" if [ -n "${DNSDOMAIN}" ] then echo "domain ${DNSDOMAIN}" > /etc/resolv.conf echo "search ${DNSDOMAIN}" >> /etc/resolv.conf fi for i in ${IPV4DNS0} ${IPV4DNS1} ${IPV4DNS1} do if [ -n "$i" ] && [ "$i" != 0.0.0.0 ] then echo "nameserver $i" >> /etc/resolv.conf fi done fi # Check if we have a network device at all if ! ls /sys/class/net/"$interface" > /dev/null 2>&1 && \ ! ls /sys/class/net/eth0 > /dev/null 2>&1 && \ ! ls /sys/class/net/wlan0 > /dev/null 2>&1 && \ ! ls /sys/class/net/ath0 > /dev/null 2>&1 && \ ! ls /sys/class/net/ra0 > /dev/null 2>&1 then panic "No supported network device found, maybe a non-mainline driver is required." fi done } do_netmount() { do_netsetup if [ "${NFSROOT}" = "auto" ] then NFSROOT=${ROOTSERVER}:${ROOTPATH} fi rc=1 if ( [ -n "${FETCH}" ] || [ -n "${HTTPFS}" ] || [ -n "${FTPFS}" ] ) then do_httpmount return $? fi if [ "${NFSROOT#*:}" = "${NFSROOT}" ] && [ "$NETBOOT" != "cifs" ] then NFSROOT=${ROOTSERVER}:${NFSROOT} fi log_begin_msg "Trying netboot from ${NFSROOT}" if [ "${NETBOOT}" != "nfs" ] && do_cifsmount then rc=0 elif do_nfsmount then NETBOOT="nfs" export NETBOOT rc=0 fi log_end_msg return ${rc} } do_iscsi() { do_netsetup #modprobe ib_iser modprobe iscsi_tcp local debugopt="" [ "${DEBUG}" == "Yes" ] && debugopt="-d 8" #FIXME this name is supposed to be unique - some date + ifconfig hash? ISCSI_INITIATORNAME="iqn.1993-08.org.debian.live:01:$(echo "${HWADDR}" | sed -e s/://g)" export ISCSI_INITIATORNAME if [ -n "${ISCSI_SERVER}" ] ; then iscsistart $debugopt -i "${ISCSI_INITIATORNAME}" -t "${ISCSI_TARGET}" -g 1 -a "${ISCSI_SERVER}" -p "${ISCSI_PORT}" else iscsistart $debugopt -i "${ISCSI_INITIATORNAME}" -t "${ISCSI_TARGET}" -g 1 -a "${ISCSI_PORTAL}" -p 3260 fi if [ $? != 0 ] then panic "Failed to log into iscsi target" fi local host="$(ls -d /sys/class/scsi_host/host*/device/iscsi_host:host* \ /sys/class/scsi_host/host*/device/iscsi_host/host* | sed -e 's:/device.*::' -e 's:.*host::')" if [ -n "${host}" ] then local devices="" local i=0 while [ -z "${devices}" -a $i -lt 60 ] do sleep 1 devices="$(ls -d /sys/class/scsi_device/${host}*/device/block:* \ /sys/class/scsi_device/${host}*/device/block/* | sed -e 's!.*[:/]!!')" i=$(expr $i + 1) echo -ne $i\\r done for dev in $devices do if check_dev "null" "/dev/$dev" then NETBOOT="iscsi" export NETBOOT return 0; fi done panic "Failed to locate a live device on iSCSI devices (tried: $devices)." else panic "Failed to locate iSCSI host in /sys" fi } do_httpmount () { rc=1 for webfile in HTTPFS FTPFS FETCH do local url="$(eval echo \"\$\{${webfile}\}\")" local extension="$(echo "${url}" | sed 's/\(.*\)\.\(.*\)/\2/')" if [ -n "$url" ] then case "${extension}" in iso|squashfs|tgz|tar) if [ "${extension}" = "iso" ] then mkdir -p "${alt_mountpoint}" dest="${alt_mountpoint}" else local dest="${mountpoint}/${LIVE_MEDIA_PATH}" mount -t ramfs ram "${mountpoint}" mkdir -p "${dest}" fi if [ "${webfile}" = "FETCH" ] then case "$url" in tftp*) ip="$(dirname $url | sed -e 's|tftp://||g' -e 's|/.*$||g')" rfile="$(echo $url | sed -e "s|tftp://$ip||g")" lfile="$(basename $url)" log_begin_msg "Trying tftp -g -b 10240 -r $rfile -l ${dest}/$lfile $ip" tftp -g -b 10240 -r $rfile -l ${dest}/$lfile $ip ;; *) log_begin_msg "Trying wget ${url} -O ${dest}/$(basename ${url})" wget "${url}" -O "${dest}/$(basename ${url})" ;; esac else log_begin_msg "Trying to mount ${url} on ${dest}/$(basename ${url})" if [ "${webfile}" = "FTPFS" ] then FUSE_MOUNT="curlftpfs" url="$(dirname ${url})" else FUSE_MOUNT="httpfs" fi modprobe fuse $FUSE_MOUNT "${url}" "${dest}" ROOT_PID="$(minips h -C "$FUSE_MOUNT" | { read x y ; echo "$x" ; } )" fi [ ${?} -eq 0 ] && rc=0 [ "${extension}" = "tgz" ] && live_dest="ram" if [ "${extension}" = "iso" ] then isoloop=$(setup_loop "${dest}/$(basename "${url}")" "loop" "/sys/block/loop*" "" '') mount -t iso9660 "${isoloop}" "${mountpoint}" rc=${?} fi break ;; *) log_begin_msg "Unrecognized archive extension for ${url}" ;; esac fi done if [ ${rc} != 0 ] then if [ -d "${alt_mountpoint}" ] then umount "${alt_mountpoint}" rmdir "${alt_mountpoint}" fi umount "${mountpoint}" elif [ "${webfile}" != "FETCH" ] ; then NETBOOT="${webfile}" export NETBOOT fi return ${rc} } do_nfsmount () { rc=1 modprobe -q nfs if [ -z "${NFSOPTS}" ] then NFSOPTS="" fi log_begin_msg "Trying nfsmount -o nolock -o ro ${NFSOPTS} ${NFSROOT} ${mountpoint}" # FIXME: This while loop is an ugly HACK round an nfs bug i=0 while [ "$i" -lt 60 ] do nfsmount -o nolock -o ro ${NFSOPTS} "${NFSROOT}" "${mountpoint}" && rc=0 && break sleep 1 i="$(($i + 1))" done return ${rc} } do_cifsmount () { rc=1 if [ -x "/sbin/mount.cifs" ] then if [ -z "${NFSOPTS}" ] then CIFSOPTS="-ouser=root,password=" else CIFSOPTS="${NFSOPTS}" fi log_begin_msg "Trying mount.cifs ${NFSROOT} ${mountpoint} ${CIFSOPTS}" modprobe -q cifs if mount.cifs "${NFSROOT}" "${mountpoint}" "${CIFSOPTS}" then rc=0 fi fi return ${rc} } do_snap_copy () { fromdev="${1}" todir="${2}" snap_type="${3}" size=$(fs_size "${fromdev}" "" "used") if [ -b "${fromdev}" ] then log_success_msg "Copying snapshot ${fromdev} to ${todir}..." # look for free mem if [ -n "${HOMEMOUNTED}" -a "${snap_type}" = "HOME" ] then todev=$(awk -v pat="$(base_path ${todir})" '$2 == pat { print $1 }' /proc/mounts) freespace=$(df -k | awk '/'${todev}'/{print $4}') else freespace=$(awk '/^MemFree:/{f=$2} /^Cached:/{c=$2} END{print f+c}' /proc/meminfo) fi tomount="/mnt/tmpsnap" if [ ! -d "${tomount}" ] then mkdir -p "${tomount}" fi fstype=$(get_fstype "${fromdev}") if [ -n "${fstype}" ] then # Copying stuff... mount -o ro -t "${fstype}" "${fromdev}" "${tomount}" || log_warning_msg "Error in mount -t ${fstype} -o ro ${fromdev} ${tomount}" cp -a "${tomount}"/* ${todir} umount "${tomount}" else log_warning_msg "Unrecognized fstype: ${fstype} on ${fromdev}:${snap_type}" fi rmdir "${tomount}" if echo ${fromdev} | grep -qs loop then losetup -d "${fromdev}" fi return 0 else log_warning_msg "Unable to find the snapshot ${snap_type} medium" return 1 fi } find_snap () { # Look for ${snap_label}.* in block devices snap_label="${1}" black_listed_devices="${2}" if [ "${PERSISTENT}" != "nofiles" ] then # search for image files snapdata=$(find_files "${PERSISTENT_PATH}${snap_label}.squashfs ${PERSISTENT_PATH}${snap_label}.cpio.gz ${PERSISTENT_PATH}${snap_label}.ext2 ${PERSISTENT_PATH}${snap_label}.ext3 ${PERSISTENT_PATH}${snap_label}.ext4 ${PERSISTENT_PATH}${snap_label}.jffs2" "${black_listed_devices}") fi if [ -z "${snapdata}" ] then snapdata=$(find_cow_device "${snap_label}" "${black_listed_devices}") fi echo "${snapdata}" } try_snap () { # copy the contents of previously found snapshot to ${snap_mount} # and remember the device and filename for resync on exit in live-boot.init snapdata="${1}" snap_mount="${2}" snap_type="${3}" snap_relpath="${4}" if [ -z "${snap_relpath}" ] then # root snapshot, default usage snap_relpath="/" else # relative snapshot (actually used just for "/home" snapshots) snap_mount="${2}${snap_relpath}" fi if [ -n "${snapdata}" ] && [ ! -b "${snapdata}" ] then log_success_msg "found snapshot: ${snapdata}" snapdev="$(echo ${snapdata} | cut -f1 -d ' ')" snapback="$(echo ${snapdata} | cut -f2 -d ' ')" snapfile="$(echo ${snapdata} | cut -f3 -d ' ')" if ! try_mount "${snapdev}" "${snapback}" "ro" then break fi RES="0" if echo "${snapfile}" | grep -qs '\(squashfs\|ext2\|ext3\|ext4\|jffs2\)' then # squashfs, jffs2 or ext2/ext3/ext4 snapshot dev=$(get_backing_device "${snapback}/${snapfile}") do_snap_copy "${dev}" "${snap_mount}" "${snap_type}" RES="$?" else # cpio.gz snapshot # Unfortunately klibc's cpio is incompatible with the # rest of the world; everything else requires -u -d, # while klibc doesn't implement them. Try to detect # whether it's in use. cpiopath="$(which cpio)" || true if [ "$cpiopath" ] && grep -aq /lib/klibc "$cpiopath" then cpioargs= else cpioargs='--unconditional --make-directories' fi if [ -s "${snapback}/${snapfile}" ] then BEFOREDIR="$(pwd)" cd "${snap_mount}" && zcat "${snapback}/${snapfile}" | $cpiopath $cpioargs --extract --preserve-modification-time --no-absolute-filenames --sparse 2>/dev/null RES="$?" cd "${BEFOREDIR}" else log_warning_msg "${snapback}/${snapfile} is empty, adding it for sync on reboot." RES="0" fi if [ "${RES}" != "0" ] then log_warning_msg "failure to \"zcat ${snapback}/${snapfile} | $cpiopath $cpioargs --extract --preserve-modification-time --no-absolute-filenames --sparse\"" fi fi umount "${snapback}" || log_warning_msg "failure to \"umount ${snapback}\"" if [ "${RES}" != "0" ] then log_warning_msg "Impossible to include the ${snapfile} Snapshot file" fi elif [ -b "${snapdata}" ] then # Try to find if it could be a snapshot partition dev="${snapdata}" log_success_msg "found snapshot ${snap_type} device on ${dev}" if echo "${dev}" | grep -qs loop then # strange things happens, user confused? snaploop=$( losetup ${dev} | awk '{print $3}' | tr -d '()' ) snapfile=$(basename ${snaploop}) snapdev=$(awk -v pat="$( dirname ${snaploop})" '$2 == pat { print $1 }' /proc/mounts) else snapdev="${dev}" fi if ! do_snap_copy "${dev}" "${snap_mount}" "${snap_type}" then log_warning_msg "Impossible to include the ${snap_type} Snapshot (i)" return 1 else if [ -n "${snapfile}" ] then # it was a loop device, user confused umount ${snapdev} fi fi else log_warning_msg "Impossible to include the ${snap_type} Snapshot (o)" return 1 fi echo "export ${snap_type}SNAP=${snap_relpath}:${snapdev}:${snapfile}" >> snapshot.conf # for resync on reboot/halt return 0 } setup_unionfs () { image_directory="${1}" rootmnt="${2}" addimage_directory="${3}" case ${UNIONTYPE} in aufs|unionfs) modprobe -q -b ${UNIONTYPE} if ! cut -f2 /proc/filesystems | grep -q "^${UNIONTYPE}\$" && [ -x /bin/unionfs-fuse ] then echo "${UNIONTYPE} not available, falling back to unionfs-fuse." echo "This might be really slow." UNIONTYPE="unionfs-fuse" fi ;; esac if [ "${UNIONTYPE}" = unionfs-fuse ] then modprobe fuse fi # run-init can't deal with images in a subdir, but we're going to # move all of these away before it runs anyway. No, we're not, # put them in / since move-mounting them into / breaks mono and # some other apps. croot="/" # Let's just mount the read-only file systems first rofslist="" if [ "${UNIONTYPE}" = "aufs" ] then roopt="rr" noxino_opt="noxino," elif [ "${UNIONTYPE}" = "unionfs-fuse" ] then roopt="RO" else roopt="ro" fi if [ -z "${PLAIN_ROOT}" ] then # Read image names from ${MODULE}.module if it exists if [ -e "${image_directory}/filesystem.${MODULE}.module" ] then for IMAGE in $(cat ${image_directory}/filesystem.${MODULE}.module) do image_string="${image_string} ${image_directory}/${IMAGE}" done elif [ -e "${image_directory}/${MODULE}.module" ] then for IMAGE in $(cat ${image_directory}/${MODULE}.module) do image_string="${image_string} ${image_directory}/${IMAGE}" done else # ${MODULE}.module does not exist, create a list of images for FILESYSTEM in squashfs ext2 ext3 ext4 xfs jffs2 dir do for IMAGE in "${image_directory}"/*."${FILESYSTEM}" do if [ -e "${IMAGE}" ] then image_string="${image_string} ${IMAGE}" fi done done if [ -n "${addimage_directory}" ] && [ -d "${addimage_directory}" ] then for FILESYSTEM in squashfs ext2 ext3 ext4 xfs jffs2 dir do for IMAGE in "${addimage_directory}"/*."${FILESYSTEM}" do if [ -e "${IMAGE}" ] then image_string="${image_string} ${IMAGE}" fi done done fi # Now sort the list image_string="$(echo ${image_string} | sed -e 's/ /\n/g' | sort )" fi [ -n "${MODULETORAMFILE}" ] && image_string="${image_directory}/$(basename ${MODULETORAMFILE})" mkdir -p "${croot}" for image in ${image_string} do imagename=$(basename "${image}") export image devname maybe_break live-realpremount log_begin_msg "Running /scripts/live-realpremount" run_scripts /scripts/live-realpremount log_end_msg if [ -d "${image}" ] then # it is a plain directory: do nothing rofslist="${image} ${rofslist}" elif [ -f "${image}" ] then if losetup --help 2>&1 | grep -q -- "-r\b" then backdev=$(get_backing_device "${image}" "-r") else backdev=$(get_backing_device "${image}") fi fstype=$(get_fstype "${backdev}") if [ "${fstype}" = "unknown" ] then panic "Unknown file system type on ${backdev} (${image})" fi if [ -z "${fstype}" ] then fstype="${imagename##*.}" log_warning_msg "Unknown file system type on ${backdev} (${image}), assuming ${fstype}." fi if [ "${UNIONTYPE}" != "unionmount" ] then mpoint="${croot}/${imagename}" rofslist="${mpoint} ${rofslist}" else mpoint="${rootmnt}" rofslist="${rootmnt} ${rofslist}" fi mkdir -p "${mpoint}" log_begin_msg "Mounting \"${image}\" on \"${mpoint}\" via \"${backdev}\"" mount -t "${fstype}" -o ro,noatime "${backdev}" "${mpoint}" || panic "Can not mount ${backdev} (${image}) on ${mpoint}" log_end_msg fi done else # we have a plain root system mkdir -p "${croot}/filesystem" log_begin_msg "Mounting \"${image_directory}\" on \"${croot}/filesystem\"" mount -t $(get_fstype "${image_directory}") -o ro,noatime "${image_directory}" "${croot}/filesystem" || \ panic "Can not mount ${image_directory} on ${croot}/filesystem" && \ rofslist="${croot}/filesystem ${rofslist}" # probably broken: mount -o bind ${croot}/filesystem $mountpoint log_end_msg fi mkdir -p /cow # Looking for "${root_persistence}" device or file if [ -n "${PERSISTENT}" ] && [ -z "${NOPERSISTENT}" ] then if [ -z "${QUICKUSBMODULES}" ] then # Load USB modules num_block=$(ls -l /sys/block | wc -l) for module in sd_mod uhci-hcd ehci-hcd ohci-hcd usb-storage do modprobe -q -b ${module} done udevadm trigger udevadm settle # For some reason, udevsettle does not block in this scenario, # so we sleep for a little while. # # See https://bugs.launchpad.net/ubuntu/+source/casper/+bug/84591 for timeout in 5 4 3 2 1 do sleep 1 if [ $(ls -l /sys/block | wc -l) -gt ${num_block} ] then break fi done fi # search for label and files (this could be hugely optimized) cowprobe=$(find_cow_device "${root_persistence}") if [ -b "${cowprobe}" ] then # Blacklist /cow device, to avoid inconsistent setups for overlapping snapshots # makes sense to have both persistence for /cow and /home mounted, maybe also with # snapshots to be sure to really store some e.g key config files, # but not on the same media blacklistdev="${cowprobe}" PERSISTENCE_IS_ON="1" export PERSISTENCE_IS_ON fi # homecow just mount something on /home, this should be generalized some way homecow=$(find_cow_device "${home_persistence}" "${blacklistdev}") if [ -b "${homecow}" ] then PERSISTENCE_IS_ON="1" export PERSISTENCE_IS_ON fi root_snapdata=$(find_snap "${root_snapshot_label}" "${blacklistdev}") # This second type should be removed when snapshot will get smarter, # hence when "/etc/live-snapshot*list" will be supported also by # ext2|ext3|ext4|jffs2 snapshot types. home_snapdata=$(find_snap "${home_snapshot_label}" "${blacklistdev}") if [ -b "${cowprobe}" ] then cowdevice=${cowprobe} cow_fstype=$(get_fstype "${cowprobe}") cow_mountopt="rw,noatime" if [ "${FORCEPERSISTENTFSCK}" = "Yes" ] then fsck -y ${cowdevice} fi else log_warning_msg "Unable to find the persistent medium" cowdevice="tmpfs" cow_fstype="tmpfs" cow_mountopt="rw,noatime,mode=755" fi elif [ -n "${NFS_COW}" ] && [ -z "${NOPERSISTENT}" ] then # check if there are any nfs options if echo ${NFS_COW}|grep -q ',' then nfs_cow_opts="-o nolock,$(echo ${NFS_COW}|cut -d, -f2-)" nfs_cow=$(echo ${NFS_COW}|cut -d, -f1) else nfs_cow_opts="-o nolock" nfs_cow=${NFS_COW} fi mac="$(get_mac)" if [ -n "${mac}" ] then cowdevice=$(echo ${nfs_cow}|sed "s/client_mac_address/${mac}/") cow_fstype="nfs" else panic "unable to determine mac address" fi else cowdevice="tmpfs" cow_fstype="tmpfs" cow_mountopt="rw,noatime,mode=755" fi if [ "${UNIONTYPE}" != "unionmount" ] then if [ "${cow_fstype}" = "nfs" ] then log_begin_msg \ "Trying nfsmount ${nfs_cow_opts} ${cowdevice} /cow" nfsmount ${nfs_cow_opts} ${cowdevice} /cow || \ panic "Can not mount ${cowdevice} (n: ${cow_fstype}) on /cow" else mount -t ${cow_fstype} -o ${cow_mountopt} ${cowdevice} /cow || \ panic "Can not mount ${cowdevice} (o: ${cow_fstype}) on /cow" fi fi rofscount=$(echo ${rofslist} |wc -w) if [ ${rofscount} -ne 1 ] then panic "only one RO file system supported with exposedroot: ${rofslist}" fi rofs=${rofslist%% } if [ -n "${EXPOSED_ROOT}" ] then mount --bind ${rofs} ${rootmnt} || \ panic "bind mount of ${rofs} failed" if [ -z "${SKIP_UNION_MOUNTS}" ] then cow_dirs='/var/tmp /var/lock /var/run /var/log /var/spool /home /var/lib/live' else cow_dirs='' fi else cow_dirs="/" fi if [ "${cow_fstype}" != "tmpfs" ] && [ "${cow_dirs}" != "/" ] && [ "${UNIONTYPE}" = "unionmount" ] then true # FIXME: Maybe it does, I don't really know. #panic "unionmount does not support subunions (${cow_dirs})." fi unionmountopts="" unionmountpoint="" for dir in ${cow_dirs}; do mkdir -p /cow${dir} unionmountpoint="${rootmnt}${dir}" unionrw="/cow${dir}" unionro="${rofs}${dir}" # We don't handle spaces and other junk gracefully here, hopefully not needed. case "${UNIONTYPE}" in unionfs-fuse) unionmountopts="-o cow -o noinitgroups -o default_permissions -o allow_other -o use_ino -o suid" unionmountopts="${unionmountopts} ${unionrw}=RW:${unionro}=RO" ( sysctl -w fs.file-max=391524 ; ulimit -HSn 16384 unionfs-fuse ${unionmountopts} "${unionmountpoint}" ) && \ ( mkdir -p /run/initramfs pidof unionfs-fuse >> /run/initramfs/sendsigs.omit || true ) ;; unionmount) unionmountopts="-t ${cow_fstype} -o noatime,union,${cow_mountopt} ${cowdevice}" mount_full $unionmountopts "${unionmountpoint}" ;; *) unionmountopts="-o noatime,${noxino_opt}dirs=${unionrw}=rw:${unionro}=${roopt}" mount -t ${UNIONTYPE} ${unionmountopts} ${UNIONTYPE} "${unionmountpoint}" ;; esac || \ panic "mount ${UNIONTYPE} on ${unionmountpoint} failed with option ${unionmountopts}" done # Correct the permissions of /: chmod 0755 "${rootmnt}" # tmpfs file systems touch /etc/fstab mkdir -p "${rootmnt}/live" mount -t tmpfs tmpfs ${rootmnt}/live # Adding other custom mounts if [ -n "${PERSISTENT}" ] && [ -z "${NOPERSISTENT}" ] then # directly mount /home # FIXME: add a custom mounts configurable system if [ -b "${homecow}" ] then mount -t $(get_fstype "${homecow}") -o rw,noatime "${homecow}" "${rootmnt}/home" export HOMEMOUNTED=1 # used to proper calculate free space in do_snap_copy() else log_warning_msg "Unable to find the persistent home medium" fi # Look for other snapshots to copy in try_snap "${root_snapdata}" "${rootmnt}" "ROOT" # This second type should be removed when snapshot grow smarter try_snap "${home_snapdata}" "${rootmnt}" "HOME" "/home" fi if [ -n "${SHOWMOUNTS}" ] then for d in ${rofslist} do mkdir -p "${rootmnt}/live/${d##*/}" case d in *.dir) # do nothing # mount -o bind "${d}" "${rootmnt}/live/${d##*/}" ;; *) case "${UNIONTYPE}" in unionfs-fuse) mount -o bind "${d}" "${rootmnt}/live/${d##*/}" ;; *) mount -o move "${d}" "${rootmnt}/live/${d##*/}" ;; esac ;; esac done fi # shows cow fs on /cow for use by live-snapshot mkdir -p "${rootmnt}/live/cow" mount -o move /cow "${rootmnt}/live/cow" >/dev/null 2>&1 || mount -o bind /cow "${rootmnt}/live/cow" || log_warning_msg "Unable to move or bind /cow to ${rootmnt}/live/cow" } check_dev () { sysdev="${1}" devname="${2}" skip_uuid_check="${3}" # support for fromiso=.../isofrom=.... if [ -n "$FROMISO" ] then ISO_DEVICE=$(dirname $FROMISO) if ! [ -b $ISO_DEVICE ] then # to support unusual device names like /dev/cciss/c0d0p1 # as well we have to identify the block device name, let's # do that for up to 15 levels i=15 while [ -n "$ISO_DEVICE" ] && [ "$i" -gt 0 ] do ISO_DEVICE=$(dirname ${ISO_DEVICE}) [ -b "$ISO_DEVICE" ] && break i=$(($i -1)) done fi if [ "$ISO_DEVICE" = "/" ] then echo "Warning: device for bootoption isofrom= ($FROMISO) not found.">>/live-boot.log else fs_type=$(get_fstype "${ISO_DEVICE}") if is_supported_fs ${fs_type} then mkdir /isofrom mount -t $fs_type "$ISO_DEVICE" /isofrom ISO_NAME="$(echo $FROMISO | sed "s|$ISO_DEVICE||")" loopdevname=$(setup_loop "/isofrom/${ISO_NAME}" "loop" "/sys/block/loop*" "" '') devname="${loopdevname}" else echo "Warning: unable to mount $ISO_DEVICE." >>/live-boot.log fi fi fi if [ -z "${devname}" ] then devname=$(sys2dev "${sysdev}") fi if [ -d "${devname}" ] then mount -o bind "${devname}" $mountpoint || continue if is_live_path $mountpoint then echo $mountpoint return 0 else umount $mountpoint fi fi [ -e "$devname" ] || continue if [ -n "${LIVE_MEDIA_OFFSET}" ] then loopdevname=$(setup_loop "${devname}" "loop" "/sys/block/loop*" "${LIVE_MEDIA_OFFSET}" '') devname="${loopdevname}" fi fstype=$(get_fstype "${devname}") if is_supported_fs ${fstype} then devuid=$(blkid -o value -s UUID "$devname") [ -n "$devuid" ] && grep -qs "\<$devuid\>" $tried && continue mount -t ${fstype} -o ro,noatime "${devname}" ${mountpoint} || continue [ -n "$devuid" ] && echo "$devuid" >> $tried if is_live_path ${mountpoint} && \ ([ "${skip_uuid_check}" ] || matches_uuid ${mountpoint}) then echo ${mountpoint} return 0 else umount ${mountpoint} fi fi if [ -n "${LIVE_MEDIA_OFFSET}" ] then losetup -d "${loopdevname}" fi return 1 } find_livefs () { timeout="${1}" # don't start autodetection before timeout has expired if [ -n "${LIVE_MEDIA_TIMEOUT}" ] then if [ "${timeout}" -lt "${LIVE_MEDIA_TIMEOUT}" ] then return 1 fi fi # first look at the one specified in the command line case "${LIVE_MEDIA}" in removable-usb) for sysblock in $(echo /sys/block/* | tr ' ' '\n' | grep -vE "/(loop|ram|dm-|fd)") do if [ "$(cat ${sysblock}/removable)" = "1" ] then if readlink ${sysblock} | grep -q usb then for dev in $(subdevices "${sysblock}") do if check_dev "${dev}" then return 0 fi done fi fi done return 1 ;; removable) for sysblock in $(echo /sys/block/* | tr ' ' '\n' | grep -vE "/(loop|ram|dm-|fd)") do if [ "$(cat ${sysblock}/removable)" = "1" ] then for dev in $(subdevices "${sysblock}") do if check_dev "${dev}" then return 0 fi done fi done return 1 ;; *) if [ ! -z "${LIVE_MEDIA}" ] then if check_dev "null" "${LIVE_MEDIA}" "skip_uuid_check" then return 0 fi fi ;; esac # or do the scan of block devices # prefer removable devices over non-removable devices, so scan them first for sysblock in $(echo /sys/block/* | tr ' ' '\n' | egrep -v "/(loop|ram|dm-|fd)") do if [ "$(cat ${sysblock}/removable)" = "1" ] then removable_devices_to_scan="$removable_devices_to_scan $sysblock" else nonremovable_devices_to_scan="$nonremovable_devices_to_scan $sysblock" fi done devices_to_scan="$removable_devices_to_scan $nonremovable_devices_to_scan" for sysblock in $devices_to_scan do devname=$(sys2dev "${sysblock}") [ -e "$devname" ] || continue fstype=$(get_fstype "${devname}") if /lib/udev/cdrom_id ${devname} > /dev/null then if check_dev "null" "${devname}" then return 0 fi elif is_nice_device "${sysblock}" then for dev in $(subdevices "${sysblock}") do if check_dev "${dev}" then return 0 fi done elif [ "${fstype}" = "squashfs" -o \ "${fstype}" = "btrfs" -o \ "${fstype}" = "ext2" -o \ "${fstype}" = "ext3" -o \ "${fstype}" = "ext4" -o \ "${fstype}" = "jffs2" ] then # This is an ugly hack situation, the block device has # an image directly on it. It's hopefully # live-boot, so take it and run with it. ln -s "${devname}" "${devname}.${fstype}" echo "${devname}.${fstype}" return 0 fi done return 1 } integrity_check () { media_mountpoint="${1}" log_begin_msg "Checking media integrity" cd ${media_mountpoint} /bin/md5sum -c md5sum.txt < /dev/tty8 > /dev/tty8 RC="${?}" log_end_msg if [ "${RC}" -eq 0 ] then log_success_msg "Everything ok, will reboot in 10 seconds." sleep 10 cd / umount ${media_mountpoint} sync echo u > /proc/sysrq-trigger echo b > /proc/sysrq-trigger else panic "Not ok, a media defect is likely, switch to VT8 for details." fi } mountroot () { if [ -x /scripts/local-top/cryptroot ]; then /scripts/local-top/cryptroot fi exec 6>&1 exec 7>&2 exec > live-boot.log exec 2>&1 tail -f live-boot.log >&7 & tailpid="${!}" # Ensure 'panic' function is overridden . /scripts/live-functions Arguments maybe_break live-premount log_begin_msg "Running /scripts/live-premount" run_scripts /scripts/live-premount log_end_msg # Needed here too because some things (*cough* udev *cough*) # changes the timeout if [ ! -z "${NETBOOT}" ] || [ ! -z "${FETCH}" ] || [ ! -z "${HTTPFS}" ] || [ ! -z "${FTPFS}" ] then if do_netmount then livefs_root="${mountpoint}" else panic "Unable to find a live file system on the network" fi else if [ -n "${ISCSI_PORTAL}" ] then do_iscsi && livefs_root="${mountpoint}" elif [ -n "${PLAIN_ROOT}" ] && [ -n "${ROOT}" ] then # Do a local boot from hd livefs_root=${ROOT} else if [ -x /usr/bin/memdiskfind ] then MEMDISK=$(/usr/bin/memdiskfind) if [ $? -eq 0 ] then # We found a memdisk, set up phram modprobe phram phram=memdisk,${MEMDISK} # Load mtdblock, the memdisk will be /dev/mtdblock0 modprobe mtdblock fi fi # Scan local devices for the image i=0 while [ "$i" -lt 60 ] do livefs_root=$(find_livefs ${i}) if [ -n "${livefs_root}" ] then break fi sleep 1 i="$(($i + 1))" done fi fi if [ -z "${livefs_root}" ] then panic "Unable to find a medium containing a live file system" fi if [ "${INTEGRITY_CHECK}" ] then integrity_check "${livefs_root}" fi if [ "${TORAM}" ] then live_dest="ram" elif [ "${TODISK}" ] then live_dest="${TODISK}" fi if [ "${live_dest}" ] then log_begin_msg "Copying live media to ${live_dest}" copy_live_to "${livefs_root}" "${live_dest}" log_end_msg fi # if we do not unmount the ISO we can't run "fsck /dev/ice" later on # because the mountpoint is left behind in /proc/mounts, so let's get # rid of it when running from RAM if [ -n "$FROMISO" ] && [ "${TORAM}" ] then losetup -d /dev/loop0 grep -q /isofrom /proc/mounts && umount /isofrom fi if [ -n "${MODULETORAMFILE}" ] || [ -n "${PLAIN_ROOT}" ] then setup_unionfs "${livefs_root}" "${rootmnt}" else mac="$(get_mac)" mac="$(echo ${mac} | sed 's/-//g')" mount_images_in_directory "${livefs_root}" "${rootmnt}" "${mac}" fi if [ -n "${ROOT_PID}" ] ; then echo "${ROOT_PID}" > "${rootmnt}"/live/root.pid fi log_end_msg # unionfs-fuse needs /dev to be bind-mounted for the duration of # live-bottom; udev's init script will take care of things after that if [ "${UNIONTYPE}" = unionfs-fuse ] then mount -n -o bind /dev "${rootmnt}/dev" fi # Move to the new root filesystem so that programs there can get at it. if [ ! -d /root/live/image ] then mkdir -p /root/live/image mount --move /live/image /root/live/image fi # aufs2 in kernel versions around 2.6.33 has a regression: # directories can't be accessed when read for the first the time, # causing a failure for example when accessing /var/lib/fai # when booting FAI, this simple workaround solves it ls /root/* >/dev/null 2>&1 # copy snapshot configuration if exists if [ -f snapshot.conf ] then log_begin_msg "Copying snapshot.conf to ${rootmnt}/etc/live/boot.d" if [ ! -d "${rootmnt}/etc/live/boot.d" ] then mkdir -p "${rootmnt}/etc/live/boot.d" fi cp snapshot.conf "${rootmnt}/etc/live/boot.d/" log_end_msg fi if [ -f /etc/resolv.conf ] && [ ! -s ${rootmnt}/etc/resolv.conf ] then log_begin_msg "Copying /etc/resolv.conf to ${rootmnt}/etc/resolv.conf" cp -v /etc/resolv.conf ${rootmnt}/etc/resolv.conf log_end_msg fi maybe_break live-bottom log_begin_msg "Running /scripts/live-bottom\n" run_scripts /scripts/live-bottom log_end_msg if [ "${UNIONFS}" = unionfs-fuse ] then umount "${rootmnt}/dev" fi exec 1>&6 6>&- exec 2>&7 7>&- kill ${tailpid} [ -w "${rootmnt}/var/log/" ] && cp live-boot.log "${rootmnt}/var/log/" 2>/dev/null }