Current Path : /compat/linux/proc/self/root/usr/src/usr.sbin/pc-sysinstall/backend/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //compat/linux/proc/self/root/usr/src/usr.sbin/pc-sysinstall/backend/functions-cleanup.sh |
#!/bin/sh #- # Copyright (c) 2010 iXsystems, Inc. All rights reserved. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions # are met: # 1. Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # 2. Redistributions in binary form must reproduce the above copyright # notice, this list of conditions and the following disclaimer in the # documentation and/or other materials provided with the distribution. # # THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``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 OR CONTRIBUTORS 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. # # $FreeBSD: release/9.1.0/usr.sbin/pc-sysinstall/backend/functions-cleanup.sh 240320 2012-09-10 16:25:52Z jpaetzel $ # Functions which perform the final cleanup after an install # Finishes up with ZFS setup before unmounting zfs_cleanup_unmount() { # Loop through our FS and see if we have any ZFS partitions to cleanup for PART in `ls ${PARTDIR}` do PARTDEV=`echo $PART | sed 's|-|/|g'` PARTFS="`cat ${PARTDIR}/${PART} | cut -d '#' -f 1`" PARTMNT="`cat ${PARTDIR}/${PART} | cut -d '#' -f 2`" ZPOOLNAME=$(get_zpool_name "${PARTDEV}") if [ "$PARTFS" = "ZFS" ] then # Check if we have multiple zfs mounts specified for ZMNT in `echo ${PARTMNT} | sed 's|,| |g'` do if [ "${ZMNT}" = "/" ] then # Make sure we haven't already added the zfs boot line when # Creating a dedicated "/boot" partition cat ${FSMNT}/boot/loader.conf 2>/dev/null | grep -q "vfs.root.mountfrom=" 2>/dev/null if [ $? -ne 0 ] ; then echo "vfs.root.mountfrom=\"zfs:${ZPOOLNAME}/ROOT/default\"" >> ${FSMNT}/boot/loader.conf fi export FOUNDZFSROOT="${ZPOOLNAME}" fi done FOUNDZFS="1" fi done if [ -n "${FOUNDZFS}" ] then # Check if we need to add our ZFS flags to rc.conf, src.conf and loader.conf cat ${FSMNT}/boot/loader.conf 2>/dev/null | grep -q 'zfs_load="YES"' 2>/dev/null if [ $? -ne 0 ] then echo 'zfs_load="YES"' >>${FSMNT}/boot/loader.conf fi cat ${FSMNT}/etc/rc.conf 2>/dev/null | grep -q 'zfs_enable="YES"' 2>/dev/null if [ $? -ne 0 ] then echo 'zfs_enable="YES"' >>${FSMNT}/etc/rc.conf fi sleep 2 # Copy over any ZFS cache data cp /boot/zfs/* ${FSMNT}/boot/zfs/ # Copy the hostid so that our zfs cache works cp /etc/hostid ${FSMNT}/etc/hostid fi # Loop through our FS and see if we have any ZFS partitions to cleanup for PART in `ls ${PARTDIR}` do PARTDEV=`echo $PART | sed 's|-|/|g'` PARTFS="`cat ${PARTDIR}/${PART} | cut -d '#' -f 1`" PARTMNT="`cat ${PARTDIR}/${PART} | cut -d '#' -f 2`" PARTENC="`cat ${PARTDIR}/${PART} | cut -d '#' -f 3`" ZPOOLNAME=$(get_zpool_name "${PARTDEV}") if [ "$PARTFS" = "ZFS" ] then # Create a list of zpool names we can export echo $ZPOOLEXPORTS | grep -q "$ZPOOLNAME " if [ $? -ne 0 ] ; then export ZPOOLEXPORTS="$ZPOOLNAME $ZPOOLEXPORTS" fi # Check if we have multiple zfs mounts specified for ZMNT in `echo ${PARTMNT} | sed 's|,| |g'` do ZMNT="`echo $ZMNT | cut -d '(' -f 1`" PARTMNTREV="${ZMNT} ${PARTMNTREV}" done for ZMNT in ${PARTMNTREV} do if [ "${ZMNT}" = "/" ] ; then continue ; fi # Some ZFS like /swap aren't mounted, and dont need unmounting mount | grep -q "${FSMNT}${ZMNT}" if [ $? -eq 0 ] ; then rc_halt "zfs unmount ${ZPOOLNAME}${ZMNT}" rc_halt "zfs set mountpoint=${ZMNT} ${ZPOOLNAME}${ZMNT}" fi sleep 2 done fi done }; # Function which performs the specific setup for using a /boot partition setup_dedicated_boot_part() { ROOTFS="${1}" ROOTFSTYPE="${2}" BOOTFS="${3}" BOOTMNT="${4}" # Set the root mount in loader.conf echo "vfs.root.mountfrom=\"${ROOTFSTYPE}:${ROOTFS}\"" >> ${FSMNT}/boot/loader.conf rc_halt "mkdir -p ${FSMNT}/${BOOTMNT}/boot" rc_halt "mv ${FSMNT}/boot/* ${FSMNT}${BOOTMNT}/boot/" rc_halt "mv ${FSMNT}${BOOTMNT}/boot ${FSMNT}/boot/" rc_halt "umount ${BOOTFS}" rc_halt "mount ${BOOTFS} ${FSMNT}${BOOTMNT}" rc_halt "rmdir ${FSMNT}/boot" # Strip the '/' from BOOTMNT before making symlink BOOTMNTNS="`echo ${BOOTMNT} | sed 's|/||g'`" rc_halt "chroot ${FSMNT} ln -s ${BOOTMNTNS}/boot /boot" }; # Function which creates the /etc/fstab for the installed system setup_fstab() { FSTAB="${FSMNT}/etc/fstab" rm ${FSTAB} >/dev/null 2>/dev/null # Create the header echo "# Device Mountpoint FStype Options Dump Pass" >> ${FSTAB} # Loop through the partitions, and start creating /etc/fstab for PART in `ls ${PARTDIR}` do PARTDEV=`echo $PART | sed 's|-|/|g'` PARTFS="`cat ${PARTDIR}/${PART} | cut -d '#' -f 1`" PARTMNT="`cat ${PARTDIR}/${PART} | cut -d '#' -f 2`" PARTENC="`cat ${PARTDIR}/${PART} | cut -d '#' -f 3`" PARTLABEL="`cat ${PARTDIR}/${PART} | cut -d '#' -f 4`" # Unset EXT EXT="" # Set mount options for file-systems case $PARTFS in UFS+J) MNTOPTS="rw,noatime,async" ;; SWAP) MNTOPTS="sw" ;; *) MNTOPTS="rw,noatime" ;; esac # Figure out if we are using a glabel, or the raw name for this entry if [ -n "${PARTLABEL}" ] then DEVICE="label/${PARTLABEL}" else # Check if using encryption if [ "${PARTENC}" = "ON" ] ; then EXT=".eli" fi if [ "${PARTFS}" = "UFS+J" ] ; then EXT="${EXT}.journal" fi DEVICE="${PARTDEV}${EXT}" fi # Set our ROOTFSTYPE for loader.conf if necessary check_for_mount "${PARTMNT}" "/" if [ $? -eq 0 ] ; then if [ "${PARTFS}" = "ZFS" ] ; then ROOTFSTYPE="zfs" ZPOOLNAME=$(get_zpool_name "${PARTDEV}") ROOTFS="${ZPOOLNAME}/ROOT/default" else ROOTFS="${DEVICE}" ROOTFSTYPE="ufs" fi fi # Only create non-zfs partitions if [ "${PARTFS}" != "ZFS" ] then # Make sure geom_journal is loaded if [ "${PARTFS}" = "UFS+J" ] ; then setup_gjournal fi # Save the BOOTFS for call at the end if [ "${PARTMNT}" = "/boot" ] ; then BOOTFS="${PARTDEV}${EXT}" BOOTMNT="${BOOT_PART_MOUNT}" PARTMNT="${BOOTMNT}" fi # Echo out the fstab entry now if [ "${PARTFS}" = "SWAP" ] then echo "/dev/${DEVICE} none swap ${MNTOPTS} 0 0" >> ${FSTAB} else echo "/dev/${DEVICE} ${PARTMNT} ufs ${MNTOPTS} 1 1" >> ${FSTAB} fi fi # End of ZFS Check done # Setup some specific PC-BSD fstab options if [ "$INSTALLTYPE" != "FreeBSD" ] then echo "procfs /proc procfs rw 0 0" >> ${FSTAB} echo "linprocfs /compat/linux/proc linprocfs rw 0 0" >> ${FSTAB} fi # If we have a dedicated /boot, run the post-install setup of it now if [ ! -z "${BOOTMNT}" ] ; then setup_dedicated_boot_part "${ROOTFS}" "${ROOTFSTYPE}" "${BOOTFS}" "${BOOTMNT}" fi }; # Setup our disk mirroring with gmirror setup_gmirror() { cat ${FSMNT}/boot/loader.conf 2>/dev/null | grep -q 'geom_mirror_load="YES"' 2>/dev/null if [ $? -ne 0 ] then echo 'geom_mirror_load="YES"' >>${FSMNT}/boot/loader.conf fi }; # Function which saves geli keys and sets up loading of them at boot setup_geli_loading() { # Make our keys dir mkdir -p ${FSMNT}/boot/keys >/dev/null 2>/dev/null cd ${GELIKEYDIR} for KEYFILE in `ls` do # Figure out the partition name based on keyfile name removing .key PART="`echo ${KEYFILE} | cut -d '.' -f 1`" PARTDEV="`echo ${PART} | sed 's|-|/|g'`" PARTNAME="`echo ${PART} | sed 's|-dev-||g'`" rc_halt "geli configure -b ${PARTDEV}" # If no passphrase, setup key files if [ ! -e "${PARTDIR}-enc/${PART}-encpass" ] ; then echo "geli_${PARTNAME}_keyfile0_load=\"YES\"" >> ${FSMNT}/boot/loader.conf echo "geli_${PARTNAME}_keyfile0_type=\"${PARTNAME}:geli_keyfile0\"" >> ${FSMNT}/boot/loader.conf echo "geli_${PARTNAME}_keyfile0_name=\"/boot/keys/${PARTNAME}.key\"" >> ${FSMNT}/boot/loader.conf # Copy the key to the disk rc_halt "cp ${GELIKEYDIR}/${KEYFILE} ${FSMNT}/boot/keys/${PARTNAME}.key" fi done # Make sure we have geom_eli set to load at boot cat ${FSMNT}/boot/loader.conf 2>/dev/null | grep -q 'geom_eli_load="YES"' 2>/dev/null if [ $? -ne 0 ] then echo 'geom_eli_load="YES"' >>${FSMNT}/boot/loader.conf fi }; # Function to generate a random hostname if none was specified gen_hostname() { RAND="`jot -r 1 1 9000`" if [ "$INSTALLTYPE" = "FreeBSD" ] then VAL="freebsd-${RAND}" else VAL="pcbsd-${RAND}" fi export VAL }; # Function which sets up the hostname for the system setup_hostname() { get_value_from_cfg hostname HOSTNAME="${VAL}" # If we don't have a hostname, make one up if [ -z "${HOSTNAME}" ] then gen_hostname HOSTNAME="${VAL}" fi # Clean up any saved hostname cat ${FSMNT}/etc/rc.conf | grep -v "hostname=" >${FSMNT}/etc/rc.conf.new mv ${FSMNT}/etc/rc.conf.new ${FSMNT}/etc/rc.conf # Set the hostname now echo_log "Setting hostname: ${HOSTNAME}" echo "hostname=\"${HOSTNAME}\"" >> ${FSMNT}/etc/rc.conf sed -i -e "s|my.domain|${HOSTNAME} ${HOSTNAME}|g" ${FSMNT}/etc/hosts }; # Check and make sure geom_journal is enabled on the system setup_gjournal() { # Make sure we have geom_journal set to load at boot cat ${FSMNT}/boot/loader.conf 2>/dev/null | grep -q 'geom_journal_load="YES"' 2>/dev/null if [ $? -ne 0 ] then echo 'geom_journal_load="YES"' >>${FSMNT}/boot/loader.conf fi }; # Function which sets the root password from the install config set_root_pw() { # Get the plaintext string get_value_from_cfg_with_spaces rootPass local PW="${VAL}" # Get the encrypted string get_value_from_cfg_with_spaces rootEncPass local ENCPW="${VAL}" # If we don't have a root pass, return if [ -z "${PW}" -a -z "${ENCPW}" ] ; then return 0 ; fi echo_log "Setting root password" # Check if setting plaintext password if [ -n "${PW}" ] ; then echo "${PW}" > ${FSMNT}/.rootpw run_chroot_cmd "cat /.rootpw | pw usermod root -h 0" rc_halt "rm ${FSMNT}/.rootpw" fi # Check if setting encrypted password if [ -n "${ENCPW}" ] ; then echo "${ENCPW}" > ${FSMNT}/.rootpw run_chroot_cmd "cat /.rootpw | pw usermod root -H 0" rc_halt "rm ${FSMNT}/.rootpw" fi }; run_final_cleanup() { # Check if we need to run any gmirror setup ls ${MIRRORCFGDIR}/* >/dev/null 2>/dev/null if [ $? -eq 0 ] then # Lets setup gmirror now setup_gmirror fi # Check if we need to save any geli keys ls ${GELIKEYDIR}/* >/dev/null 2>/dev/null if [ $? -eq 0 ] then # Lets setup geli loading setup_geli_loading fi # Set a hostname on the install system setup_hostname # Set the root_pw if it is specified set_root_pw # Generate the fstab for the installed system setup_fstab };