#!/bin/ash . /etc/initrd.defaults backup() { echo -ne "\033[0G\033[0K" } strlen() { if [ -z "$1" ] then echo "usage: strlen " die fi eval echo "\${#${1}}" } parse_opt() { case "$1" in *\=*) local key_name="`echo "$1" | cut -f1 -d=`" local key_len=`strlen key_name` local value_start=$((key_len+2)) echo "$1" | cut -c ${value_start}- ;; esac } modules_load() { for module in $* do echo ${module} >> /etc/modules/extra_load done modules_scan extra_load } modules_scan() { local MODS [ -d /etc/modules/${1} ] || touch /etc/modules/${1} [ -f /etc/modules/${1} ] && MODS=`cat /etc/modules/${1}` for x in ${MODS} do MLOAD=`echo ${MLIST} | sed -e "s/.*${x}.*/${x}/"` if [ "${MLIST}" = "${x}" ] # Only module to no-load then echo -e "${BOLD} ::${NORMAL} Skipping ${x}..." elif [ "${MLOAD}" = "${MLIST}" ] # == No change == No specified no-load then [ -n "${DEBUG}" ] && echo -ne "${BOLD} ::${NORMAL} Checking for ${x}..." # find -name does not work since the return status is always zero if find /lib/modules | grep /"${x}${KSUFF}" >/dev/null 2>&1 then echo -ne "${BOLD} ::${NORMAL} Scanning for ${x}..." modprobe ${x} -n backup echo -ne "${NORMAL}" fi else echo -e "${BOLD} ::${NORMAL} Skipping ${x}..." fi done } findcdmount() { if [ "$#" -gt "0" ] then for x in $* do # Check for a block device to mount if [ -b "${x}" ] then good_msg "Attempting to mount media:- ${x}" if [ -z "${CDROOT_DEV}" ] then mount -r -t auto ${x} ${NEW_ROOT}/mnt/cdrom \ > /dev/null 2>&1 else mount -r -t iso9660 ${x} ${NEW_ROOT}/mnt/cdrom \ > /dev/null 2>&1 fi if [ "$?" = '0' ] then # Check for a LiveCD if [ -f ${NEW_ROOT}/mnt/cdrom/${SUBDIR}/livecd ] then REAL_ROOT="${x}" break else umount ${NEW_ROOT}/mnt/cdrom fi fi fi done if [ "${REAL_ROOT}" != '' ] then good_msg "Media found on ${x}" fi fi } findkeymount() { if [ "$#" -gt "0" ] then for x in $* do # Check for a block device to mount if [ -b "${x}" ] then if [ ${crypt_silent} = '' ] then good_msg "Attempting to mount key media:- ${x}" fi mount -r -t auto ${x} ${NEW_ROOT}/mnt/keydev \ > /dev/null 2>&1 if [ "$?" = '0' ] then # Check for the key if [ -e ${NEW_ROOT}/mnt/keydev/${LUKS_ROOT_KEY} ] then LUKS_ROOT_KEYDEV="${x}" umount ${NEW_ROOT}/mnt/keydev break else umount ${NEW_ROOT}/mnt/keydev fi fi fi done if [ "${LUKS_ROOT_KEYDEV}" != '' ] then if [ ${crypt_silent} = '' ] then good_msg "Key media found on ${x}" fi fi fi } cache_cd_contents() { # Check loop file exists and cache to ramdisk if DO_cache is enabled if [ "${LOOPTYPE}" != "noloop" ] && [ "${LOOPTYPE}" != "sgimips" ] then check_loop if [ "${DO_cache}" ] then # TODO: Check the size of the image versus the size of our tmpfs # along with the amount of available RAM and increase tmpfs size # if necessary. (Not having awk sucks...) # z=0 # for i in $(cat /proc/meminfo | grep -e ^MemFree -e ^Cached | \ # cut -d: -f2 | cut -dk -f1 | sed -e "s/^\s*//") ; do # z=$(($z + $i)) ; done # echo $z good_msg "Copying loop file for caching..." cp -a ${NEW_ROOT}/mnt/cdrom/${LOOP} ${NEW_ROOT}/mnt/${LOOP} if [ $? -ne 0 ] then bad_msg "Failed to cache the loop file! Lack of space?" rm -rf ${NEW_ROOT}/mnt/livecd.* 2>/dev/null rm -rf ${NEW_ROOT}/mnt/zisofs 2>/dev/null else LOOPEXT='../' fi fi fi } mount_sysfs() { if [ "${KV_2_6_OR_GREATER}" ] then # Udev is semi-broken on non /sys sysfs mount points. mount -t sysfs /sys /sys >/dev/null 2>&1 ret=$? # sysfs mount failed .. udev wont work fall back to devfs if available [ "$ret" -eq '0' ] || USE_UDEV_NORMAL=0 fi } # 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 /) # $2 = path to data directory # union_insert_dir() { # detect branch 0 because newer unionfs doesn't support "0,1,2" BRANCH_0="/"$(/sbin/unionctl $1 --list | cut -d/ -f2- | cut -d'(' -f1) /sbin/unionctl $1 --add --after $BRANCH_0 --mode ro $2 if [ $? = '0' ] then good_msg "Addition of $2 to $1 after branch $BRANCH_0 successful" fi } findnfsmount() { if [ "${IP}" != '' ] || busybox udhcpc -R rootpath -n -s /bin/udhcpc.scripts then [ -e /rootpath ] && NFSROOT=`cat /rootpath` if [ "${NFSROOT}" = '' ] then # Obtain NFSIP OPTIONS=`busybox dmesg | grep rootserver | sed -e "s/,/ /g"` for OPTION in $OPTIONS do if [ `echo $OPTION | sed -e "s/=/ /g" | cut -d " " -f 1` = 'rootserver' ] then NFSIP=`echo $OPTION | sed -e "s/=/ /g" | cut -d " " -f 2` fi done # Obtain NFSPATH OPTIONS=`busybox dmesg | grep rootpath | sed -e "s/,/ /g"` for OPTION in $OPTIONS do if [ `echo $OPTION | sed -e "s/=/ /g" | cut -d " " -f 1` = 'rootpath' ] then NFSPATH=`echo $OPTION | sed -e "s/=/ /g" | cut -d " " -f 2` fi done # Setup NFSROOT if [ "${NFSIP}" != '' ] && [ "$NFSPATH" != '' ] then NFSROOT="${NFSIP}:${NFSPATH}" else bad_msg "The DHCP Server did not send a valid root-path." bad_msg "Please check your DHCP setup, or provide a nfsroot=<...> parameter." fi fi if [ "${NFSROOT}" != '' ] then if [ "${CDROOT}" != '0' ] then good_msg "Attempting to mount NFS CD image on ${NFSROOT}" mount -t nfs -o ro,nolock,rsize=1024,wsize=1024 ${NFSROOT} ${NEW_ROOT}/mnt/cdrom if [ "$?" = '0' ] then REAL_ROOT="/dev/nfs" else bad_msg "NFS Mounting failed. Is the path corrent ?" fi else good_msg "Attemping to mount NFS root on ${NFSROOT}" mount -t nfs -o ro,nolock,rsize=1024,wsize=1024 ${NFSROOT} ${NEW_ROOT} if [ "$?" = '0' ] then REAL_ROOT="/dev/nfs" else bad_msg "NFS Mounting failed. Is the path correct ?" fi # FIXME: Need to start portmap and the other rpc daemons in order to # FIXME: remount rw. fi fi fi } kill_devfsd() { killall devfsd > /dev/null 2>&1 } check_loop() { if [ "${LOOP}" = '' -o ! -e "mnt/cdrom/${LOOP}" ] then bad_msg "Invalid loop location: ${LOOP}" bad_msg 'Please export LOOP with a valid location, or reboot and pass a proper loop=...' bad_msg 'kernel command line!' run_shell fi } run_shell() { /bin/ash } runUdev() { mount -t tmpfs -o size=100k udev /dev mkdir /dev/pts mkdir /dev/shm echo > /proc/sys/kernel/hotplug /sbin/udevd --daemon mkdir -p /dev/.udev/queue /sbin/udevtrigger good_msg 'Letting udev process events' loop=0 while test -d /dev/.udev/queue; do sleep 1; test "$loop" -gt 30 && break loop=$(($loop + 1)) done good_msg "Udev finished proccsing after $loop iterations" killall udevd > /dev/null 2>&1 ln -snf /proc/self/fd /dev/fd ln -snf /proc/self/fd/0 /dev/stdin ln -snf /proc/self/fd/1 /dev/stdout ln -snf /proc/self/fd/2 /dev/stderr ln -snf /proc/kcore /dev/core } runmdev() { # busybox udev replacement mdev -s # catch udev hotplug events echo /sbin/mdev > /proc/sys/kernel/hotplug } test_success() { error_string=$1 error_string="${error_string:-run command}" # If last command failed send error message and fall back to a shell if [ "$?" != '0' ] then bad_msg 'Failed to $1; failing back to the shell...' run_shell fi } good_msg() { msg_string=$1 msg_string="${msg_string:-...}" echo -e "${GOOD}>>${NORMAL}${BOLD} ${msg_string} ${NORMAL}" } bad_msg() { msg_string=$1 msg_string="${msg_string:-...}" splash 'verbose' > /dev/null & echo -e "${BAD}!!${NORMAL}${BOLD} ${msg_string} ${NORMAL}" } warn_msg() { msg_string=$1 msg_string="${msg_string:-...}" echo -e "${WARN}**${NORMAL}${BOLD} ${msg_string} ${NORMAL}" } bind_mount_dev() { # bind-mount /dev/ so that loop devices can be found mount -o bind ${NEW_ROOT}/dev /dev } start_dev_mgr() { # Check udev is available... if [ "${KV_2_6_OR_GREATER}" -a ! "${USE_UDEV_NORMAL}" -eq '0' ] then USE_UDEV_NORMAL=1 else USE_UDEV_NORMAL=0 fi if [ "${USE_UDEV_NORMAL}" -eq '1' ] then cd /sys [ "${DO_slowusb}" ] && sleep 10 kill_devfsd good_msg 'Activating mdev' # runUdev runmdev [ "${DO_slowusb}" ] && sleep 20 cd / else good_msg 'Activating devfs' mount -t devfs devfs /dev 2>/dev/null devfsd /dev -np fi } bootstrapCD() { # Locate the cdrom device with our media on it. # CDROM DEVICES DEVICES="/dev/cdroms/* /dev/ide/cd/* /dev/sr*" # USB Keychain/Storage DEVICES="$DEVICES /dev/sd*" # IDE devices DEVICES="$DEVICES /dev/hd*" # USB using the USB Block Driver DEVICES="$DEVICES /dev/ubd* /dev/ubd/*" # iSeries devices DEVICES="$DEVICES /dev/iseries/vcd*" # The device was specified on the command line. Shold we even be doing a # scan at this point? I think not. [ -n "${CDROOT_DEV}" ] && DEVICES="$DEVICES ${CDROOT_DEV}" findcdmount $DEVICES } bootstrapKey() { # Locate the device with our key on it. # USB Keychain/Storage KEYDEVS="/dev/sd*" # CDROM DEVICES KEYDEVS="${KEYDEVS} /dev/cdroms/* /dev/ide/cd/* /dev/sr*" # IDE devices KEYDEVS="${KEYDEVS} /dev/hd*" # USB using the USB Block Driver KEYDEVS="${KEYDEVS} /dev/ubd* /dev/ubd/*" # iSeries devices KEYDEVS="${KEYDEVs} /dev/iseries/vcd*" findkeymount ${KEYDEVS} } cmdline_hwopts() { # Scan CMDLINE for any "doscsi" or "noscsi"-type arguments local FOUND local TMP_HWOPTS for x in $HWOPTS do for y in $CMDLINE do if [ "${y}" = "do${x}" ] then MY_HWOPTS="${MY_HWOPTS} $x" elif [ "${y}" = "no${x}" ] then MY_HWOPTS="`echo ${MY_HWOPTS} | sed -e \"s/${x}//g\" -`" fi done done # Shouldnt need to sort this as the following loop should figure out the # duplicates and strip them out #MY_HWOPTS=`echo ${MY_HWOPTS}| sort` for x in ${MY_HWOPTS} do FOUND=0 for y in ${TMP_HWOPTS} do if [ "${y}" = "${x}" ] then FOUND=1 fi done if [ ! "${FOUND}" = '1' ] then TMP_HWOPTS="${TMP_HWOPTS} ${x}" fi done MY_HWOPTS=${TMP_HWOPTS} } load_modules() { # Load modules listed in MY_HWOPTS if /lib/modules exists if [ -d '/lib/modules' ] then good_msg 'Loading modules' # Load appropriate kernel modules for modules in $MY_HWOPTS do modules_scan $modules eval DO_`echo $modules | sed 's/-//'`=1 done else good_msg 'Skipping module load; no modules in the initrd!' fi } detect_sbp2_devices() { # http://www.linux1394.org/sbp2.php # /proc # /proc/scsi/sbp2/0, /proc/scsi/sbp2/1, etc. # # You may manually add/remove SBP-2 devices via the procfs with: # add-single-device or remove-single-device , # where: # # = host (starting at zero for first SCSI adapter) # = bus (normally zero) # = target (starting at zero for first SBP-2 device) # - lun (normally zero) # e.g. To manually add/detect a new SBP-2 device # echo "scsi add-single-device 0 0 0 0" > /proc/scsi/scsi # e.g. To manually remove a SBP-2 device after it's been unplugged # echo "scsi remove-single-device 0 0 0 0" > /proc/scsi/scsi # e.g. To check to see which SBP-2/SCSI devices are currently registered # cat /proc/scsi/scsi [ -e /proc/scsi/scsi ] && echo 'scsi add-single-device 0 0 0 0' > /proc/scsi/scsi } setup_keymap() { if [ "${DO_keymap}" ] then if [ ! -e /dev/vc/0 -a ! -e /dev/tty0 ] then DEVBIND=1 mount -o bind ${NEW_ROOT}/dev /dev fi [ ! -e /dev/tty0 ] && ln -s /dev/tty1 /dev/tty0 chooseKeymap [ "${DEVBIND}" -eq '1' ] && umount /dev if [ -e /etc/sysconfig/keyboard -a "${CDROOT}" -eq '1' ] then mkdir -p ${NEW_ROOT}/etc/sysconfig/ cp /etc/sysconfig/keyboard ${NEW_ROOT}/etc/sysconfig/keyboard fi fi } chooseKeymap() { good_msg "Loading keymaps" cat /lib/keymaps/keymapList read -t 10 -p '<< Load keymap (Enter for default): ' keymap case ${keymap} in 1|azerty) keymap=azerty ;; 2|be) keymap=be ;; 3|bg) keymap=bg ;; 4|br-a) keymap=br-a ;; 5|br-l) keymap=br-l ;; 6|by) keymap=by ;; 7|cf) keymap=cf ;; 8|croat) keymap=croat ;; 9|cz) keymap=cz ;; 10|de) keymap=de ;; 11|dk) keymap=dk ;; 12|dvorak) keymap=dvorak ;; 13|es) keymap=es ;; 14|et) keymap=et ;; 15|fi) keymap=fi ;; 16|fr) keymap=fr ;; 17|gr) keymap=gr ;; 18|hu) keymap=hu ;; 19|il) keymap=il ;; 20|is) keymap=is ;; 21|it) keymap=it ;; 22|jp) keymap=jp ;; 23|la) keymap=la ;; 24|lt) keymap=lt ;; 25|mk) keymap=mk ;; 26|nl) keymap=nl ;; 27|no) keymap=no ;; 28|pl) keymap=pl ;; 29|pt) keymap=pt ;; 30|ro) keymap=ro ;; 31|ru) keymap=ru ;; 32|se) keymap=se ;; 33|sg) keymap=sg ;; 34|sk-y) keymap=sk-y ;; 35|sk-z) keymap=sk-z ;; 36|slovene) keymap=slovene ;; 37|trf) keymap=trf ;; 38|trq) keymap=trq ;; 39|ua) keymap=ua ;; 40|uk) keymap=uk ;; 41|us) keymap=us ;; 42|wangbe) keymap=wangbe ;; esac if [ -e /lib/keymaps/${keymap}.map ] then good_msg "Loading the ''${keymap}'' keymap" loadkmap < /lib/keymaps/${keymap}.map # xkeymap=${keymap} # echo ${keymap} | egrep -e "[0-9]+" >/dev/null 2>&1 # if [ "$?" -eq '0' ] # then # xkeymap=`tail -n 7 /lib/keymaps/keymapList | grep ${keymap} | sed -r "s/.*\s+${keymap}\s+([a-z-]+).*/\1/g" | egrep -v 1` # fi mkdir -p /etc/sysconfig # echo "XKEYBOARD=${xkeymap}" > /etc/sysconfig/keyboard echo "XKEYBOARD=${keymap}" > /etc/sysconfig/keyboard elif [ "$keymap" = '' ] then echo good_msg "Keeping default keymap" else bad_msg "Sorry, but keymap ''${keymap}'' is invalid!" chooseKeymap fi } startVolumes() { #good_msg 'Checking if volumes need to be started...' # Here, we check for /dev/device-mapper, and if it exists, we setup a # a symlink, which should hopefully fix bug #142775 and bug #147015 if [ -e /dev/device-mapper ] && [ ! -e /dev/mapper/control ] then mkdir -p /dev/mapper ln -sf /dev/device-mapper /dev/mapper/control fi if [ "${USE_DMRAID_NORMAL}" -eq '1' ] then if [ -e '/sbin/dmraid' ] then good_msg "Activating Device-Mapper RAID(s)" if [ '${DMRAID_OPTS}' = '' ] then /sbin/dmraid -ay else /sbin/dmraid -ay ${DMRAID_OPTS} fi fi fi if [ "${USE_LVM2_NORMAL}" -eq '1' ] then if [ -e '/bin/vgscan' -a -e '/bin/vgchange' ] then for dev in ${RAID_DEVICES} do setup_md_device "${dev}" done good_msg "Scanning for Volume Groups" /bin/vgscan --ignorelockingfailure --mknodes 2>/dev/null good_msg "Activating Volume Groups" /bin/vgchange -ay --ignorelockingfailure 2>/dev/null # Disable EVMS since lvm2 is activated and they dont work together. if [ "${USE_EVMS2_NORMAL}" -eq '1' ] then bad_msg "Disabling EVMS Support because LVM2 started" bad_msg "Do not add dolvm2 to the cmdline if this is not what you want" bad_msg "LVM2 and EVMS do not work well together" USE_EVMS2_NORMAL=0 fi else bad_msg "vgscan or vgchange not found: skipping LVM2 volume group activation!" fi fi if [ "${USE_EVMS2_NORMAL}" -eq '1' ] then if [ -e '/sbin/evms_activate' ] then good_msg "Activating EVMS" evms_activate fi fi } # Open a LUKS device # $1 LUKS device # $2 LUKS name openLUKS() { LUKS_DEVICE="$1" LUKS_NAME="$2" if [ -e /sbin/cryptsetup ] then while [ 1 ] do if [ "${LUKS_DEVICE}" = '' ] then # LUKS device could not be opened. Prompt user for device. bad_msg "The LUKS ${LUKS_NAME} block device is not detected." echo " Please specify a ${LUKS_NAME} LUKS device to open, "q" to skip, or "shell" for a shell..." echo -n "LUKS ${LUKS_NAME}() :: " read LUKS_DEVICE continue elif [ "${LUKS_DEVICE}" = 'shell' ] then run_shell LUKS_DEVICE='' continue elif [ "${LUKS_DEVICE}" = 'q' ] then break else setup_md_device ${LUKS_DEVICE} if cryptsetup isLuks ${LUKS_DEVICE} then good_msg "Opening LUKS device ${LUKS_DEVICE}" cryptsetup luksOpen ${LUKS_DEVICE} ${LUKS_NAME} if [ ! "$?" -eq '0' ] then bad_msg "Failed open LUKS device ${LUKS_DEVICE}" else break fi else bad_msg "The LUKS device ${LUKS_DEVICE} does not contain a LUKS header" fi fi LUKS_DEVICE='' done else bad_msg "The initrd does not support LUKS" fi } startLUKS() { if [ -n "${LUKS_ROOT}" ] then openLUKS "${LUKS_ROOT}" "root" if [ -n "${REAL_ROOT}" ] then # Rescan volumes startVolumes else REAL_ROOT="/dev/mapper/root" fi fi if [ -n "${LUKS_SWAP}" ] then openLUKS "${LUKS_SWAP}" "swap" break fi } sdelay() { # Sleep a specific number of seconds if SDELAY is set otherwise only sleep # 1 second if [ -n "${SDELAY}" ] then sleep ${SDELAY} else sleep 1 fi } quiet_kmsg() { # if QUIET is set make the kernel less chatty [ -n "$QUIET" ] && echo '0' > /proc/sys/kernel/printk } verbose_kmsg() { # if QUIET is set make the kernel less chatty [ -n "$QUIET" ] && echo '6' > /proc/sys/kernel/printk } cdupdate() { if [ "${CDROOT}" -eq '1' ] then if [ -x /${NEW_ROOT}/mnt/cdrom/cdupdate.sh ] then good_msg "Running cdupdate.sh" ${NEW_ROOT}/mnt/cdrom/cdupdate.sh if [ "$?" != '0' ] then bad_msg "Executing cdupdate.sh failed!" run_shell fi else good_msg 'No cdupdate.sh script found, skipping...' fi fi } setup_md_device() { local device [ -z "$1" ] && device="${REAL_ROOT}" || device="$1" [ -z "${device}" ] && return # LiveCD if [ `echo ${device}|sed -e 's#\(luks:\)\?\(/dev/md\)[[:digit:]]\+#\2#'` = "/dev/md" ] then good_msg 'Detected real_root as a md device. Setting up the device node...' MD_NUMBER=`echo ${device}|sed -e 's#\(luks:\)\?/dev/md\([[:digit:]]\+\)#\2#'` if [ ! -e /dev/md${MD_NUMBER} ] then mknod /dev/md${MD_NUMBER} b 9 ${MD_NUMBER} >/dev/null 2>&1 [ "$?" -ne 0 ] && bad_msg "Creation of /dev/md${MD_NUMBER} failed..." fi mdstart ${MDPART} /dev/md${MD_NUMBER} fi } rundebugshell() { if [ -n "$DEBUG" ] then good_msg 'Starting debug shell as requested by "debug" option.' good_msg 'Type "exit" to continue with normal bootup.' [ -x /bin/sh ] && /bin/sh || /bin/ash fi } setup_unionfs() { if [ "${USE_UNIONFS_NORMAL}" -eq '1' ] then # Directory used for rw changes in union mount filesystem UNION=/union MEMORY=/memory if [ -z "$UID" ] then CHANGES=$MEMORY/unionfs_changes/default else CHANGES=$MEMORY/unionfs_changes/$UID fi mkdir -p ${MEMORY} mkdir -p ${UNION} good_msg "Loading unionfs module" modprobe unionfs > /dev/null 2>&1 if [ -n "${UNIONFS}" ] then CHANGESDEV=${UNIONFS} good_msg "mounting $CHANGESDEV to $MEMORY for unionfs support" mount -t auto $CHANGESDEV $MEMORY # mount tmpfs only in the case when changes= boot parameter was # empty or we were not able to mount the storage device ret=$? if [ "${ret}" -ne 0 ] then bad_msg "mount of $CHANGESDEV failed falling back to ramdisk based unionfs" mount -t tmpfs tmpfs $MEMORY fi if [ "${CDROOT}" -eq '1' -a ! -f ${MEMORY}/livecd.unionfs ] then umount $MEMORY bad_msg "failed to find livecd.unionfs file on $CHANGESDEV" bad_msg "create a livecd.unionfs file on this device if you wish to use it for unionfs" bad_msg "falling back to ramdisk based unionfs for safety" mount -t tmpfs tmpfs $MEMORY fi else good_msg "Mounting ramdisk to $MEMORY for unionfs support..." mount -t tmpfs tmpfs $MEMORY fi mkdir -p $CHANGES mount -t unionfs -o dirs=$CHANGES=rw unionfs ${UNION} ret=$? if [ "${ret}" -ne 0 ] then bad_msg "Can't setup union ${UNION} in directory!" USE_UNIONFS_NORMAL=0 fi else USE_UNIONFS_NORMAL=0 fi } #suspend_resume() { # [ -x /sbin/resume ] || return 0 # /sbin/resume # local ret=$? # if [ "${ret}" -eq 0 ]; then # exit 0 # fi # return 0 #} suspend2_resume() { if [ -d /proc/suspend2 ] || [ -d /sys/power/suspend2 ]; then local splash_theme if grep "splash=" /proc/cmdline > /dev/null 2>&1; then splash_theme=`cat /proc/cmdline | sed 's/.*splash=/splash=/' | sed 's/ .*//' | sed 's/.*theme://' | sed 's/,.*//'` fi local suspend2_userui_program="/sys/power/suspend2/user_interface/program" local suspend2_do_resume="/sys/power/suspend2/do_resume" # # Backward compatibility # if [ -e /proc/suspend2 ]; then suspend2_userui_program="/proc/suspend2/userui_program" suspend2_do_resume="/proc/suspend2/do_resume" fi modules_scan suspend2 if which suspend2ui_text > /dev/null 2>&1; then which suspend2ui_text > "${suspend2_userui_program}" fi if [ -n "${splash_theme}" ]; then ln -s /etc/splash/${splash_theme} /etc/splash/suspend2 if which suspend2ui_fbsplash > /dev/null 2>&1; then which suspend2ui_fbsplash > "${suspend2_userui_program}" fi fi echo > "${suspend2_do_resume}" fi }