Current Path : /compat/linux/proc/68247/root/usr/share/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/68247/root/usr/share/pc-sysinstall/backend/functions-bsdlabel.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-bsdlabel.sh 240320 2012-09-10 16:25:52Z jpaetzel $ # Functions related to disk operations using bsdlabel # Check if we are are provided a geli password on the nextline of the config check_for_enc_pass() { CURLINE="${1}" get_next_cfg_line "${CFGF}" "${CURLINE}" echo ${VAL} | grep -q "^encpass=" 2>/dev/null if [ $? -eq 0 ] ; then # Found a password, return it get_value_from_string "${VAL}" return fi export VAL="" return }; # On check on the disk-label line if we have any extra vars for this device get_fs_line_xvars() { ACTIVEDEV="${1}" LINE="${2}" echo $LINE | cut -d ' ' -f 4 | grep -q '(' 2>/dev/null if [ $? -ne 0 ] ; then return ; fi # See if we are looking for ZFS specific options echo $LINE | grep -q '^ZFS' 2>/dev/null if [ $? -eq 0 ] ; then ZTYPE="NONE" ZFSVARS="`echo $LINE | cut -d ' ' -f 4-20 |cut -d '(' -f 2- | cut -d ')' -f 1 | xargs`" echo $ZFSVARS | grep -qE "^(disk|file|mirror|raidz(1|2|3)?|spare|log|cache):" 2>/dev/null if [ $? -eq 0 ] ; then ZTYPE=`echo $ZFSVARS | cut -f1 -d:` ZFSVARS=`echo $ZFSVARS | sed "s|$ZTYPE: ||g" | sed "s|$ZTYPE:||g"` fi # Return the ZFS options if [ "${ZTYPE}" = "NONE" ] ; then VAR="${ACTIVEDEV} ${ZFSVARS}" else VAR="${ZTYPE} ${ACTIVEDEV} ${ZFSVARS}" fi export VAR return fi # End of ZFS block # See if we are looking for UFS specific newfs options echo $LINE | grep -q '^UFS' 2>/dev/null if [ $? -eq 0 ] ; then FSVARS="`echo $LINE | cut -d '(' -f 2- | cut -d ')' -f 1 | xargs`" VAR="${FSVARS}" export VAR return fi # If we got here, set VAR to empty and export export VAR="" return }; # Init each zfs mirror disk with a boot sector so we can failover setup_zfs_mirror_parts() { _nZFS="" ZTYPE="`echo ${1} | awk '{print $1}'`" # Using mirroring, setup boot partitions on each disk _mirrline="`echo ${1} | sed 's|mirror ||g' | sed 's|raidz1 ||g' | sed 's|raidz2 ||g' | sed 's|raidz3 ||g' | sed 's|raidz ||g'`" for _zvars in $_mirrline do echo "Looping through _zvars: $_zvars" >>${LOGOUT} echo "$_zvars" | grep -q "${2}" 2>/dev/null if [ $? -eq 0 ] ; then continue ; fi if [ -z "$_zvars" ] ; then continue ; fi is_disk "$_zvars" >/dev/null 2>/dev/null if [ $? -eq 0 ] ; then echo "Setting up ZFS disk $_zvars" >>${LOGOUT} init_gpt_full_disk "$_zvars" >/dev/null 2>/dev/null rc_halt "gpart add -a 4k -t freebsd-zfs ${_zvars}" >/dev/null 2>/dev/null rc_halt "gpart bootcode -b /boot/pmbr -p /boot/gptzfsboot -i 1 ${_zvars}" >/dev/null 2>/dev/null _nZFS="$_nZFS ${_zvars}p2" else _nZFS="$_nZFS ${_zvars}" fi done echo "$ZTYPE $2 `echo $_nZFS | tr -s ' '`" } ; # Function which creates a unique label name for the specified mount gen_glabel_name() { MOUNT="$1" TYPE="$2" NUM="0" MAXNUM="20" if [ "$TYPE" = "ZFS" ] ; then NAME="zpool" elif [ "$MOUNT" = "/" ] ; then NAME="rootfs" else # If doing a swap partition, also rename it if [ "${TYPE}" = "SWAP" ] then NAME="swap" else NAME="`echo $MOUNT | sed 's|/||g' | sed 's| ||g'`" fi fi # Loop through and break when we find our first available label while Z=1 do glabel status | grep -q "${NAME}${NUM}" 2>/dev/null if [ $? -ne 0 ] then break else NUM=$((NUM+1)) fi if [ $NUM -gt $MAXNUM ] then exit_err "Cannot allocate additional glabel name for $NAME" break fi done export VAL="${NAME}${NUM}" }; # Function to determine the size we can safely use when 0 is specified get_autosize() { # Disk tag to look for dTag="$1" # Total MB Avail get_disk_mediasize_mb "$2" local _aSize=$VAL while read line do # Check for data on this slice echo $line | grep -q "^${_dTag}-part=" 2>/dev/null if [ $? -ne 0 ] ; then continue ; fi get_value_from_string "${line}" STRING="$VAL" # Get the size of this partition SIZE=`echo $STRING | tr -s '\t' ' ' | cut -d ' ' -f 2` if [ $SIZE -eq 0 ] ; then continue ; fi _aSize=`expr $_aSize - $SIZE` done <${CFGF} # Pad the size a bit _aSize=`expr $_aSize - 2` VAL="$_aSize" export VAL }; # Function to setup partitions using gpart setup_gpart_partitions() { local _dTag="$1" local _pDisk="$2" local _wSlice="$3" local _sNum="$4" local _pType="$5" FOUNDPARTS="1" USEDAUTOSIZE=0 # Lets read in the config file now and setup our partitions if [ "${_pType}" = "gpt" ] ; then CURPART="2" elif [ "${_pType}" = "apm" ] ; then CURPART="3" else PARTLETTER="a" CURPART="1" if [ "${_pType}" = "mbr" ] ; then rc_halt "gpart create -s BSD ${_wSlice}" fi fi while read line do # Check for data on this slice echo $line | grep -q "^${_dTag}-part=" 2>/dev/null if [ $? -eq 0 ] then FOUNDPARTS="0" # Found a slice- entry, lets get the slice info get_value_from_string "${line}" STRING="$VAL" # We need to split up the string now, and pick out the variables FS=`echo $STRING | tr -s '\t' ' ' | cut -d ' ' -f 1` SIZE=`echo $STRING | tr -s '\t' ' ' | cut -d ' ' -f 2` MNT=`echo $STRING | tr -s '\t' ' ' | cut -d ' ' -f 3` # Check if we have a .eli extension on this FS echo ${FS} | grep -q ".eli" 2>/dev/null if [ $? -eq 0 ] then FS="`echo ${FS} | cut -d '.' -f 1`" ENC="ON" check_for_enc_pass "${line}" if [ "${VAL}" != "" ] ; then # We have a user supplied password, save it for later ENCPASS="${VAL}" fi else ENC="OFF" fi # Check if the user tried to setup / as an encrypted partition check_for_mount "${MNT}" "/" if [ $? -eq 0 -a "${ENC}" = "ON" ] then export USINGENCROOT="0" fi # Now check that these values are sane case $FS in UFS|UFS+S|UFS+J|UFS+SUJ|ZFS|SWAP) ;; *) exit_err "ERROR: Invalid file system specified on $line" ;; esac # Check that we have a valid size number expr $SIZE + 1 >/dev/null 2>/dev/null if [ $? -ne 0 ]; then exit_err "ERROR: The size specified on $line is invalid" fi # Check that the mount-point starts with / echo "$MNT" | grep -qe "^/" -e "^none" 2>/dev/null if [ $? -ne 0 ]; then exit_err "ERROR: The mount-point specified on $line is invalid" fi if [ "$SIZE" = "0" ] then if [ $USEDAUTOSIZE -eq 1 ] ; then exit_err "ERROR: You can not have two partitions with a size of 0 specified!" fi case ${_pType} in gpt|apm) get_autosize "${_dTag}" "$_pDisk" ;; *) get_autosize "${_dTag}" "$_wSlice" ;; esac SOUT="-s ${VAL}M" USEDAUTOSIZE=1 else SOUT="-s ${SIZE}M" fi # Check if we found a valid root partition check_for_mount "${MNT}" "/" if [ $? -eq 0 ] ; then export FOUNDROOT="1" if [ "${CURPART}" = "2" -a "$_pType" = "gpt" ] ; then export FOUNDROOT="0" fi if [ "${CURPART}" = "3" -a "$_pType" = "apm" ] ; then export FOUNDROOT="0" fi if [ "${CURPART}" = "1" -a "$_pType" = "mbr" ] ; then export FOUNDROOT="0" fi if [ "${CURPART}" = "1" -a "$_pType" = "gptslice" ] ; then export FOUNDROOT="0" fi fi check_for_mount "${MNT}" "/boot" if [ $? -eq 0 ] ; then export USINGBOOTPART="0" if [ "${CURPART}" != "2" -a "${_pType}" = "gpt" ] ; then exit_err "/boot partition must be first partition" fi if [ "${CURPART}" != "3" -a "${_pType}" = "apm" ] ; then exit_err "/boot partition must be first partition" fi if [ "${CURPART}" != "1" -a "${_pType}" = "mbr" ] ; then exit_err "/boot partition must be first partition" fi if [ "${CURPART}" != "1" -a "${_pType}" = "gptslice" ] ; then exit_err "/boot partition must be first partition" fi if [ "${FS}" != "UFS" -a "${FS}" != "UFS+S" -a "${FS}" != "UFS+J" -a "${FS}" != "UFS+SUJ" ] ; then exit_err "/boot partition must be formatted with UFS" fi fi # Generate a unique label name for this mount gen_glabel_name "${MNT}" "${FS}" PLABEL="${VAL}" # Get any extra options for this fs / line if [ "${_pType}" = "gpt" ] ; then get_fs_line_xvars "${_pDisk}p${CURPART}" "${STRING}" elif [ "${_pType}" = "apm" ] ; then get_fs_line_xvars "${_pDisk}s${CURPART}" "${STRING}" else get_fs_line_xvars "${_wSlice}${PARTLETTER}" "${STRING}" fi XTRAOPTS="$VAR" # Check if using zfs mirror echo ${XTRAOPTS} | grep -q -e "mirror" -e "raidz" if [ $? -eq 0 -a "$FS" = "ZFS" ] ; then if [ "${_pType}" = "gpt" -o "${_pType}" = "gptslice" ] ; then XTRAOPTS=$(setup_zfs_mirror_parts "$XTRAOPTS" "${_pDisk}p${CURPART}") elif [ "${_pType}" = "apm" ] ; then XTRAOPTS=$(setup_zfs_mirror_parts "$XTRAOPTS" "${_pDisk}s${CURPART}") else XTRAOPTS=$(setup_zfs_mirror_parts "$XTRAOPTS" "${_wSlice}${PARTLETTER}") fi fi # Figure out the gpart type to use case ${FS} in ZFS) PARTYPE="freebsd-zfs" ;; SWAP) PARTYPE="freebsd-swap" ;; *) PARTYPE="freebsd-ufs" ;; esac # Create the partition if [ "${_pType}" = "gpt" ] ; then if [ "$CURPART" = "2" ] ; then # If this is GPT, make sure first partition is aligned to 4k sleep 2 rc_halt "gpart add -a 4k ${SOUT} -t ${PARTYPE} ${_pDisk}" else sleep 2 rc_halt "gpart add ${SOUT} -t ${PARTYPE} ${_pDisk}" fi elif [ "${_pType}" = "gptslice" ]; then sleep 2 rc_halt "gpart add ${SOUT} -t ${PARTYPE} ${_wSlice}" elif [ "${_pType}" = "apm" ]; then sleep 2 rc_halt "gpart add ${SOUT} -t ${PARTYPE} ${_pDisk}" else sleep 2 rc_halt "gpart add ${SOUT} -t ${PARTYPE} -i ${CURPART} ${_wSlice}" fi # Check if this is a root / boot partition, and stamp the right loader for TESTMNT in `echo ${MNT} | sed 's|,| |g'` do if [ "${TESTMNT}" = "/" -a -z "${BOOTTYPE}" ] ; then BOOTTYPE="${PARTYPE}" fi if [ "${TESTMNT}" = "/boot" ] ; then BOOTTYPE="${PARTYPE}" fi done # Save this data to our partition config dir if [ "${_pType}" = "gpt" ] ; then _dFile="`echo $_pDisk | sed 's|/|-|g'`" echo "${FS}#${MNT}#${ENC}#${PLABEL}#GPT#${XTRAOPTS}" >${PARTDIR}/${_dFile}p${CURPART} # Clear out any headers sleep 2 dd if=/dev/zero of=${_pDisk}p${CURPART} count=2048 2>/dev/null # If we have a enc password, save it as well if [ -n "${ENCPASS}" ] ; then echo "${ENCPASS}" >${PARTDIR}-enc/${_dFile}p${CURPART}-encpass fi elif [ "${_pType}" = "apm" ] ; then _dFile="`echo $_pDisk | sed 's|/|-|g'`" echo "${FS}#${MNT}#${ENC}#${PLABEL}#GPT#${XTRAOPTS}" >${PARTDIR}/${_dFile}s${CURPART} # Clear out any headers sleep 2 dd if=/dev/zero of=${_pDisk}s${CURPART} count=2048 2>/dev/null # If we have a enc password, save it as well if [ -n "${ENCPASS}" ] ; then echo "${ENCPASS}" >${PARTDIR}-enc/${_dFile}s${CURPART}-encpass fi else # MBR Partition or GPT slice _dFile="`echo $_wSlice | sed 's|/|-|g'`" echo "${FS}#${MNT}#${ENC}#${PLABEL}#MBR#${XTRAOPTS}#${IMAGE}" >${PARTDIR}/${_dFile}${PARTLETTER} # Clear out any headers sleep 2 dd if=/dev/zero of=${_wSlice}${PARTLETTER} count=2048 2>/dev/null # If we have a enc password, save it as well if [ -n "${ENCPASS}" ] ; then echo "${ENCPASS}" >${PARTDIR}-enc/${_dFile}${PARTLETTER}-encpass fi fi # Increment our parts counter if [ "$_pType" = "gpt" -o "$_pType" = "apm" ] ; then CURPART=$((CURPART+1)) # If this is a gpt/apm partition, # we can continue and skip the MBR part letter stuff continue else CURPART=$((CURPART+1)) if [ "$CURPART" = "3" ] ; then CURPART="4" ; fi fi # This partition letter is used, get the next one case ${PARTLETTER} in a) PARTLETTER="b" ;; b) PARTLETTER="d" ;; d) PARTLETTER="e" ;; e) PARTLETTER="f" ;; f) PARTLETTER="g" ;; g) PARTLETTER="h" ;; h) PARTLETTER="ERR" ;; *) exit_err "ERROR: bsdlabel only supports up to letter h for partitions." ;; esac fi # End of subsection locating a slice in config echo $line | grep -q "^commitDiskLabel" 2>/dev/null if [ $? -eq 0 -a "${FOUNDPARTS}" = "0" ] then # If this is the boot disk, stamp the right gptboot if [ ! -z "${BOOTTYPE}" -a "$_pType" = "gpt" ] ; then case ${BOOTTYPE} in freebsd-ufs) rc_halt "gpart bootcode -p /boot/gptboot -i 1 ${_pDisk}" ;; freebsd-zfs) rc_halt "gpart bootcode -p /boot/gptzfsboot -i 1 ${_pDisk}" ;; esac fi # Make sure to stamp the MBR loader if [ "$_pType" = "mbr" ] ; then rc_halt "gpart bootcode -b /boot/boot ${_wSlice}" fi # Found our flag to commit this label setup, check that we found at least 1 partition if [ "${CURPART}" = "1" ] ; then exit_err "ERROR: commitDiskLabel was called without any partition entries for it!" fi break fi done <${CFGF} }; # Reads through the config and sets up a BSDLabel for the given slice populate_disk_label() { if [ -z "${1}" ] then exit_err "ERROR: populate_disk_label() called without argument!" fi # Set some vars from the given working slice diskid="`echo $1 | cut -d ':' -f 1`" disk="`echo $1 | cut -d ':' -f 1 | sed 's|-|/|g'`" slicenum="`echo $1 | cut -d ':' -f 2`" type="`echo $1 | cut -d ':' -f 3`" # Set WRKSLICE based upon format we are using if [ "$type" = "mbr" ] ; then wrkslice="${diskid}s${slicenum}" fi if [ "$type" = "apm" ] ; then wrkslice="${diskid}s${slicenum}" fi if [ "$type" = "gpt" -o "$type" = "gptslice" ] ; then wrkslice="${diskid}p${slicenum}" fi if [ ! -e "${SLICECFGDIR}/${wrkslice}" ] ; then exit_err "ERROR: Missing SLICETAG data. This shouldn't happen - please let the developers know" fi disktag="`cat ${SLICECFGDIR}/${wrkslice}`" slicedev="`echo $wrkslice | sed 's|-|/|g'`" # Setup the partitions with gpart setup_gpart_partitions "${disktag}" "${disk}" "${slicedev}" "${slicenum}" "${type}" }; # Function which reads in the disk slice config, and performs it setup_disk_label() { # We are ready to start setting up the label, lets read the config and do the actions # First confirm that we have a valid WORKINGSLICES if [ -z "${WORKINGSLICES}" ]; then exit_err "ERROR: No slices were setup! Please report this to the maintainers" fi # Check that the slices we have did indeed get setup and gpart worked for i in $WORKINGSLICES do disk="`echo $i | cut -d '-' -f 1`" pnum="`echo $i | cut -d '-' -f 2`" type="`echo $i | cut -d '-' -f 3`" if [ "$type" = "mbr" -a ! -e "${disk}s${pnum}" ] ; then exit_err "ERROR: The partition ${i} doesn't exist! gpart failure!" fi if [ "$type" = "gpt" -a ! -e "${disk}p${pnum}" ] ; then exit_err "ERROR: The partition ${i} doesn't exist! gpart failure!" fi if [ "$type" = "apm" -a ! -e "${disk}s${pnum}" ] ; then exit_err "ERROR: The partition ${i} doesn't exist! gpart failure!" fi if [ "$type" = "gptslice" -a ! -e "${disk}p${pnum}" ] ; then exit_err "ERROR: The partition ${i} doesn't exist! gpart failure!" fi done # Setup some files which we'll be referring to export LABELLIST="${TMPDIR}/workingLabels" rm $LABELLIST >/dev/null 2>/dev/null # Set our flag to determine if we've got a valid root partition in this setup export FOUNDROOT="-1" # Check if we are using a /boot partition export USINGBOOTPART="1" # Set encryption on root check export USINGENCROOT="1" # Make the tmp directory where we'll store FS info & mount-points rm -rf ${PARTDIR} >/dev/null 2>/dev/null mkdir -p ${PARTDIR} >/dev/null 2>/dev/null rm -rf ${PARTDIR}-enc >/dev/null 2>/dev/null mkdir -p ${PARTDIR}-enc >/dev/null 2>/dev/null for i in $WORKINGSLICES do populate_disk_label "${i}" done # Check if we made a root partition if [ "$FOUNDROOT" = "-1" ] then exit_err "ERROR: No root (/) partition specified!!" fi # Check if we made a root partition if [ "$FOUNDROOT" = "1" -a "${USINGBOOTPART}" != "0" ] then exit_err "ERROR: (/) partition isn't first partition on disk!" fi if [ "${USINGENCROOT}" = "0" -a "${USINGBOOTPART}" != "0" ] then exit_err "ERROR: Can't encrypt (/) with no (/boot) partition!" fi }; check_fstab_mbr() { local SLICE local FSTAB if [ -z "$2" ] then return 1 fi SLICE="$1" FSTAB="$2/etc/fstab" if [ -f "${FSTAB}" ] then PARTLETTER=`echo "$SLICE" | sed -E 's|^.+([a-h])$|\1|'` cat "${FSTAB}" | awk '{ print $2 }' | grep -qE '^/$' 2>&1 if [ $? -eq 0 ] then if [ "${PARTLETTER}" = "a" ] then FOUNDROOT="0" else FOUNDROOT="1" fi ROOTIMAGE="1" export FOUNDROOT export ROOTIMAGE fi cat "${FSTAB}" | awk '{ print $2 }' | grep -qE '^/boot$' 2>&1 if [ $? -eq 0 ] then if [ "${PARTLETTER}" = "a" ] then USINGBOOTPART="0" else exit_err "/boot partition must be first partition" fi export USINGBOOTPART fi return 0 fi return 1 }; check_fstab_gpt() { local SLICE local FSTAB if [ -z "$2" ] then return 1 fi SLICE="$1" FSTAB="$2/etc/fstab" if [ -f "${FSTAB}" ] then PARTNUMBER=`echo "${SLICE}" | sed -E 's|^.+p([0-9]*)$|\1|'` cat "${FSTAB}" | awk '{ print $2 }' | grep -qE '^/$' 2>&1 if [ $? -eq 0 ] then if [ "${PARTNUMBER}" = "2" ] then FOUNDROOT="0" else FOUNDROOT="1" fi ROOTIMAGE="1" export FOUNDROOT export ROOTIMAGE fi cat "${FSTAB}" | awk '{ print $2 }' | grep -qE '^/boot$' 2>&1 if [ $? -eq 0 ] then if [ "${PARTNUMBER}" = "2" ] then USINGBOOTPART="0" else exit_err "/boot partition must be first partition" fi export USINGBOOTPART fi return 0 fi return 1 }; check_disk_layout() { local SLICES local TYPE local DISK local RES local F DISK="$1" TYPE="MBR" if [ -z "${DISK}" ] then return 1 fi SLICES_MBR=`ls /dev/${DISK}s[1-4]*[a-h]* 2>/dev/null` SLICES_GPT=`ls /dev/${DISK}p[0-9]* 2>/dev/null` SLICES_SLICE=`ls /dev/${DISK}[a-h]* 2>/dev/null` if [ -n "${SLICES_MBR}" ] then SLICES="${SLICES_MBR}" TYPE="MBR" RES=0 fi if [ -n "${SLICES_GPT}" ] then SLICES="${SLICES_GPT}" TYPE="GPT" RES=0 fi if [ -n "${SLICES_SLICE}" ] then SLICES="${SLICES_SLICE}" TYPE="MBR" RES=0 fi for slice in ${SLICES} do F=1 mount ${slice} /mnt 2>/dev/null if [ $? -ne 0 ] then continue fi if [ "${TYPE}" = "MBR" ] then check_fstab_mbr "${slice}" "/mnt" F="$?" elif [ "${TYPE}" = "GPT" ] then check_fstab_gpt "${slice}" "/mnt" F="$?" fi if [ ${F} -eq 0 ] then umount /mnt break fi umount /mnt done return ${RES} };