#!/bin/sh # Functions related to disk operations using newfs # Function which performs the ZFS magic setup_zfs_filesystem() { PART="$1" PARTFS="$2" PARTMNT="$3" EXT="$4" PARTGEOM="$5" ZPOOLOPTS="$6" ROOTSLICE="`echo ${PART} | rev | cut -b 2- | rev`" ZPOOLNAME=$(get_zpool_name "${PART}") # Sleep a few moments, let the disk catch its breath sleep 5 sync # Check if we have some custom zpool arguments and use them if so if [ ! -z "${ZPOOLOPTS}" ] ; then rc_halt "zpool create -m none -f ${ZPOOLNAME} ${ZPOOLOPTS}" else # No zpool options, create pool on single device rc_halt "zpool create -m none -f ${ZPOOLNAME} ${PART}${EXT}" fi # Disable atime for this zfs partition, speed increase rc_nohalt "zfs set atime=off ${ZPOOLNAME}" # Check if we have multiple zfs mounts specified for i in `echo ${PARTMNT} | sed 's|,| |g'` do # Check if we ended up with needing a zfs bootable partition if [ "${i}" = "/" -o "${i}" = "/boot" ] then if [ "${PARTGEOM}" = "MBR" ] then # Lets stamp the proper ZFS boot loader echo_log "Setting up ZFS boot loader support" rc_halt "zpool set bootfs=${ZPOOLNAME} ${ZPOOLNAME}" rc_halt "zpool export ${${ZPOOLNAME}" rc_halt "dd if=/boot/zfsboot of=/dev/${ROOTSLICE} count=1" rc_halt "dd if=/boot/zfsboot of=/dev/${PART}${EXT} skip=1 seek=1024" rc_halt "zpool import ${ZPOOLNAME}" fi fi done }; # Runs newfs on all the partiions which we've setup with bsdlabel setup_filesystems() { # Create the keydir rm -rf ${GELIKEYDIR} >/dev/null 2>/dev/null mkdir ${GELIKEYDIR} # Lets go ahead and read through the saved partitions we created, and determine if we need to run # newfs on any of them for PART in `ls ${PARTDIR}` do if [ ! -e "/dev/${PART}" ] then exit_err "ERROR: The partition ${PART} does not exist. Failure in bsdlabel?" fi 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`" PARTGEOM="`cat ${PARTDIR}/${PART} | cut -d ':' -f 5`" PARTXTRAOPTS="`cat ${PARTDIR}/${PART} | cut -d ':' -f 6`" # Make sure journaling isn't enabled on this device if [ -e "/dev/${PART}.journal" ] then rc_nohalt "gjournal stop -f ${PART}.journal" rc_nohalt "gjournal clear ${PART}" fi # Setup encryption if necessary if [ "${PARTENC}" = "ON" -a "${PARTFS}" != "SWAP" ] then echo_log "Creating geli provider for ${PART}" rc_halt "dd if=/dev/random of=${GELIKEYDIR}/${PART}.key bs=64 count=1" rc_halt "geli init -b -s 4096 -P -K ${GELIKEYDIR}/${PART}.key /dev/${PART}" rc_halt "geli attach -p -k ${GELIKEYDIR}/${PART}.key /dev/${PART}" EXT=".eli" else # No Encryption EXT="" fi case ${PARTFS} in UFS) echo_log "NEWFS: /dev/${PART} - ${PARTFS}" sleep 2 rc_halt "newfs /dev/${PART}${EXT}" sleep 2 rc_halt "sync" rc_halt "glabel label ${PARTLABEL} /dev/${PART}${EXT}" rc_halt "sync" sleep 2 ;; UFS+S) echo_log "NEWFS: /dev/${PART} - ${PARTFS}" sleep 2 rc_halt "newfs -U /dev/${PART}${EXT}" sleep 2 rc_halt "sync" rc_halt "glabel label ${PARTLABEL} /dev/${PART}${EXT}" rc_halt "sync" sleep 2 ;; UFS+J) echo_log "NEWFS: /dev/${PART} - ${PARTFS}" sleep 2 rc_halt "newfs /dev/${PART}${EXT}" sleep 2 rc_halt "gjournal label -f /dev/${PART}${EXT}" sleep 2 rc_halt "newfs -O 2 -J /dev/${PART}${EXT}.journal" sleep 2 rc_halt "sync" rc_halt "glabel label ${PARTLABEL} /dev/${PART}${EXT}.journal" rc_halt "sync" sleep 2 ;; ZFS) echo_log "NEWFS: /dev/${PART} - ${PARTFS}" setup_zfs_filesystem "${PART}" "${PARTFS}" "${PARTMNT}" "${EXT}" "${PARTGEOM}" "${PARTXTRAOPTS}" ;; SWAP) rc_halt "sync" rc_halt "glabel label ${PARTLABEL} /dev/${PART}${EXT}" rc_halt "sync" sleep 2 ;; *) exit_err "ERROR: Got unknown file-system type $PARTFS" ;; esac done };