#!/bin/sh # # Copyright (c) 2005 Poul-Henning Kamp. # 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. # # $FreeBSD$ # set -e ####################################################################### # # Setup default values for all controlling variables. # These values can be overridden from the config file(s) # ####################################################################### # Name of this NanoBSD build. (Used to construct workdir names) NANO_NAME=full # Source tree directory NANO_SRC=/usr/src # Where nanobsd additional files live under the source tree NANO_TOOLS=tools/tools/nanobsd # Where cust_pkg() finds packages to install NANO_PACKAGE_DIR=${NANO_SRC}/${NANO_TOOLS}/Pkg NANO_PACKAGE_LIST="*" # Object tree directory # default is subdir of /usr/obj #NANO_OBJ="" # The directory to put the final images # default is ${NANO_OBJ} #NANO_DISKIMGDIR="" # Parallel Make NANO_PMAKE="make -j 3" # The default name for any image we create. NANO_IMGNAME="_.disk.full" # Options to put in make.conf during buildworld only CONF_BUILD=' ' # Options to put in make.conf during installworld only CONF_INSTALL=' ' # Options to put in make.conf during both build- & installworld. CONF_WORLD=' ' # Kernel config file to use NANO_KERNEL=GENERIC # Customize commands. NANO_CUSTOMIZE="" # Late customize commands. NANO_LATE_CUSTOMIZE="" # Newfs paramters to use NANO_NEWFS="-b 4096 -f 512 -i 8192 -O1 -U" # The drive name of the media at runtime NANO_DRIVE=ad0 # Target media size in 512 bytes sectors NANO_MEDIASIZE=1200000 # Number of code images on media (1 or 2) NANO_IMAGES=2 # 0 -> Leave second image all zeroes so it compresses better. # 1 -> Initialize second image with a copy of the first NANO_INIT_IMG2=1 # Size of code file system in 512 bytes sectors # If zero, size will be as large as possible. NANO_CODESIZE=0 # Size of configuration file system in 512 bytes sectors # Cannot be zero. NANO_CONFSIZE=2048 # Size of data file system in 512 bytes sectors # If zero: no partition configured. # If negative: max size possible NANO_DATASIZE=0 # Size of the /etc ramdisk in 512 bytes sectors NANO_RAM_ETCSIZE=10240 # Size of the /tmp+/var ramdisk in 512 bytes sectors NANO_RAM_TMPVARSIZE=10240 # Media geometry, only relevant if bios doesn't understand LBA. NANO_SECTS=63 NANO_HEADS=16 # boot0 flags/options and configuration NANO_BOOT0CFG="-o packet -s 1 -m 3" NANO_BOOTLOADER="boot/boot0sio" # Backing type of md(4) device # Can be "file" or "swap" NANO_MD_BACKING="file" # Progress Print level PPLEVEL=3 ####################################################################### # Not a variable at this time NANO_ARCH=`uname -p` ####################################################################### # # The functions which do the real work. # Can be overridden from the config file(s) # ####################################################################### clean_build ( ) ( pprint 2 "Clean and create object directory (${MAKEOBJDIRPREFIX})" if ! rm -rf ${MAKEOBJDIRPREFIX} > /dev/null 2>&1 ; then chflags -R noschg ${MAKEOBJDIRPREFIX} rm -r ${MAKEOBJDIRPREFIX} fi mkdir -p ${MAKEOBJDIRPREFIX} printenv > ${MAKEOBJDIRPREFIX}/_.env ) make_conf_build ( ) ( pprint 2 "Construct build make.conf ($NANO_MAKE_CONF_BUILD)" echo "${CONF_WORLD}" > ${NANO_MAKE_CONF_BUILD} echo "${CONF_BUILD}" >> ${NANO_MAKE_CONF_BUILD} ) build_world ( ) ( pprint 2 "run buildworld" pprint 3 "log: ${MAKEOBJDIRPREFIX}/_.bw" cd ${NANO_SRC} env TARGET_ARCH=${NANO_ARCH} ${NANO_PMAKE} \ __MAKE_CONF=${NANO_MAKE_CONF_BUILD} buildworld \ > ${MAKEOBJDIRPREFIX}/_.bw 2>&1 ) build_kernel ( ) ( pprint 2 "build kernel ($NANO_KERNEL)" pprint 3 "log: ${MAKEOBJDIRPREFIX}/_.bk" if [ -f ${NANO_KERNEL} ] ; then cp ${NANO_KERNEL} ${NANO_SRC}/sys/${NANO_ARCH}/conf fi (cd ${NANO_SRC}; # unset these just in case to avoid compiler complaints # when cross-building unset TARGET_CPUTYPE unset TARGET_BIG_ENDIAN env TARGET_ARCH=${NANO_ARCH} ${NANO_PMAKE} buildkernel \ __MAKE_CONF=${NANO_MAKE_CONF_BUILD} KERNCONF=`basename ${NANO_KERNEL}` \ > ${MAKEOBJDIRPREFIX}/_.bk 2>&1 ) ) clean_world ( ) ( if [ "${NANO_OBJ}" != "${MAKEOBJDIRPREFIX}" ]; then pprint 2 "Clean and create object directory (${NANO_OBJ})" if ! rm -rf ${NANO_OBJ} > /dev/null 2>&1 ; then chflags -R noschg ${NANO_OBJ} rm -r ${NANO_OBJ} fi mkdir -p ${NANO_OBJ} ${NANO_WORLDDIR} printenv > ${NANO_OBJ}/_.env else pprint 2 "Clean and create world directory (${NANO_WORLDDIR})" if ! rm -rf ${NANO_WORLDDIR}/ > /dev/null 2>&1 ; then chflags -R noschg ${NANO_WORLDDIR} rm -rf ${NANO_WORLDDIR} fi mkdir -p ${NANO_WORLDDIR} fi ) make_conf_install ( ) ( pprint 2 "Construct install make.conf ($NANO_MAKE_CONF_INSTALL)" echo "${CONF_WORLD}" > ${NANO_MAKE_CONF_INSTALL} echo "${CONF_INSTALL}" >> ${NANO_MAKE_CONF_INSTALL} ) install_world ( ) ( pprint 2 "installworld" pprint 3 "log: ${NANO_OBJ}/_.iw" cd ${NANO_SRC} env TARGET_ARCH=${NANO_ARCH} \ ${NANO_PMAKE} __MAKE_CONF=${NANO_MAKE_CONF_INSTALL} installworld \ DESTDIR=${NANO_WORLDDIR} \ > ${NANO_OBJ}/_.iw 2>&1 chflags -R noschg ${NANO_WORLDDIR} ) install_etc ( ) ( pprint 2 "install /etc" pprint 3 "log: ${NANO_OBJ}/_.etc" cd ${NANO_SRC} env TARGET_ARCH=${NANO_ARCH} \ ${NANO_PMAKE} __MAKE_CONF=${NANO_MAKE_CONF_INSTALL} distribution \ DESTDIR=${NANO_WORLDDIR} \ > ${NANO_OBJ}/_.etc 2>&1 # make.conf doesn't get created by default, but some ports need it # so they can spam it. cp /dev/null ${NANO_WORLDDIR}/etc/make.conf ) install_kernel ( ) ( pprint 2 "install kernel" pprint 3 "log: ${NANO_OBJ}/_.ik" cd ${NANO_SRC} env TARGET_ARCH=${NANO_ARCH} ${NANO_PMAKE} installkernel \ DESTDIR=${NANO_WORLDDIR} \ __MAKE_CONF=${NANO_MAKE_CONF_INSTALL} KERNCONF=`basename ${NANO_KERNEL}` \ > ${NANO_OBJ}/_.ik 2>&1 ) run_customize() ( pprint 2 "run customize scripts" for c in $NANO_CUSTOMIZE do pprint 2 "customize \"$c\"" pprint 3 "log: ${NANO_OBJ}/_.cust.$c" pprint 4 "`type $c`" ( $c ) > ${NANO_OBJ}/_.cust.$c 2>&1 done ) run_late_customize() ( pprint 2 "run late customize scripts" for c in $NANO_LATE_CUSTOMIZE do pprint 2 "late customize \"$c\"" pprint 3 "log: ${NANO_OBJ}/_.late_cust.$c" pprint 4 "`type $c`" ( $c ) > ${NANO_OBJ}/_.late_cust.$c 2>&1 done ) setup_nanobsd ( ) ( pprint 2 "configure nanobsd setup" pprint 3 "log: ${NANO_OBJ}/_.dl" ( cd ${NANO_WORLDDIR} # Move /usr/local/etc to /etc/local so that the /cfg stuff # can stomp on it. Otherwise packages like ipsec-tools which # have hardcoded paths under ${prefix}/etc are not tweakable. if [ -d usr/local/etc ] ; then ( mkdir -p etc/local cd usr/local/etc find . -print | cpio -dumpl ../../../etc/local cd .. rm -rf etc ln -s ../../etc/local etc ) fi for d in var etc do # link /$d under /conf # we use hard links so we have them both places. # the files in /$d will be hidden by the mount. # XXX: configure /$d ramdisk size mkdir -p conf/base/$d conf/default/$d find $d -print | cpio -dumpl conf/base/ done echo "$NANO_RAM_ETCSIZE" > conf/base/etc/md_size echo "$NANO_RAM_TMPVARSIZE" > conf/base/var/md_size # pick up config files from the special partition echo "mount -o ro /dev/${NANO_DRIVE}s3" > conf/default/etc/remount # Put /tmp on the /var ramdisk (could be symlink already) rmdir tmp || true rm tmp || true ln -s var/tmp tmp ) > ${NANO_OBJ}/_.dl 2>&1 ) setup_nanobsd_etc ( ) ( pprint 2 "configure nanobsd /etc" ( cd ${NANO_WORLDDIR} # create diskless marker file touch etc/diskless # Make root filesystem R/O by default echo "root_rw_mount=NO" >> etc/defaults/rc.conf # save config file for scripts echo "NANO_DRIVE=${NANO_DRIVE}" > etc/nanobsd.conf echo "/dev/${NANO_DRIVE}s1a / ufs ro 1 1" > etc/fstab echo "/dev/${NANO_DRIVE}s3 /cfg ufs rw,noauto 2 2" >> etc/fstab mkdir -p cfg ) ) prune_usr() ( # Remove all empty directories in /usr find ${NANO_WORLDDIR}/usr -type d -depth -print | while read d do rmdir $d > /dev/null 2>&1 || true done ) create_i386_diskimage ( ) ( pprint 2 "build diskimage" pprint 3 "log: ${NANO_OBJ}/_.di" ( echo $NANO_MEDIASIZE $NANO_IMAGES \ $NANO_SECTS $NANO_HEADS \ $NANO_CODESIZE $NANO_CONFSIZE $NANO_DATASIZE | awk ' { printf "# %s\n", $0 # size of cylinder in sectors cs = $3 * $4 # number of full cylinders on media cyl = int ($1 / cs) # output fdisk geometry spec, truncate cyls to 1023 if (cyl <= 1023) print "g c" cyl " h" $4 " s" $3 else print "g c" 1023 " h" $4 " s" $3 if ($7 > 0) { # size of data partition in full cylinders dsl = int (($7 + cs - 1) / cs) } else { dsl = 0; } # size of config partition in full cylinders csl = int (($6 + cs - 1) / cs) if ($5 == 0) { # size of image partition(s) in full cylinders isl = int ((cyl - dsl - csl) / $2) } else { isl = int (($5 + cs - 1) / cs) } # First image partition start at second track print "p 1 165 " $3, isl * cs - $3 c = isl * cs; # Second image partition (if any) also starts offset one # track to keep them identical. if ($2 > 1) { print "p 2 165 " $3 + c, isl * cs - $3 c += isl * cs; } # Config partition starts at cylinder boundary. print "p 3 165 " c, csl * cs c += csl * cs # Data partition (if any) starts at cylinder boundary. if ($7 > 0) { print "p 4 165 " c, dsl * cs } else if ($7 < 0 && $1 > c) { print "p 4 165 " c, $1 - c } else if ($1 < c) { print "Disk space overcommitted by", \ c - $1, "sectors" > "/dev/stderr" exit 2 } # Force slice 1 to be marked active. This is necessary # for booting the image from a USB device to work. print "a 1" } ' > ${NANO_OBJ}/_.fdisk IMG=${NANO_DISKIMGDIR}/${NANO_IMGNAME} MNT=${NANO_OBJ}/_.mnt mkdir -p ${MNT} if [ "${NANO_MD_BACKING}" = "swap" ] ; then MD=`mdconfig -a -t swap -s ${NANO_MEDIASIZE} -x ${NANO_SECTS} \ -y ${NANO_HEADS}` else echo "Creating md backing file..." dd if=/dev/zero of=${IMG} bs=${NANO_SECTS}b \ count=`expr ${NANO_MEDIASIZE} / ${NANO_SECTS}` MD=`mdconfig -a -t vnode -f ${IMG} -x ${NANO_SECTS} \ -y ${NANO_HEADS}` fi trap "echo 'Running exit trap code' ; df -i ${MNT} ; umount ${MNT} || true ; mdconfig -d -u $MD" 1 2 15 EXIT fdisk -i -f ${NANO_OBJ}/_.fdisk ${MD} fdisk ${MD} # XXX: params # XXX: pick up cached boot* files, they may not be in image anymore. boot0cfg -B -b ${NANO_WORLDDIR}/${NANO_BOOTLOADER} ${NANO_BOOT0CFG} ${MD} bsdlabel -w -B -b ${NANO_WORLDDIR}/boot/boot ${MD}s1 bsdlabel ${MD}s1 # Create first image newfs ${NANO_NEWFS} /dev/${MD}s1a mount /dev/${MD}s1a ${MNT} df -i ${MNT} echo "Copying worlddir..." ( cd ${NANO_WORLDDIR} && find . -print | cpio -dump ${MNT} ) df -i ${MNT} echo "Generating mtree..." ( cd ${MNT} && mtree -c ) > ${NANO_OBJ}/_.mtree ( cd ${MNT} && du -k ) > ${NANO_OBJ}/_.du umount ${MNT} if [ $NANO_IMAGES -gt 1 -a $NANO_INIT_IMG2 -gt 0 ] ; then # Duplicate to second image (if present) echo "Duplicating to second image..." dd if=/dev/${MD}s1 of=/dev/${MD}s2 bs=64k mount /dev/${MD}s2a ${MNT} for f in ${MNT}/etc/fstab ${MNT}/conf/base/etc/fstab do sed -i "" "s/${NANO_DRIVE}s1/${NANO_DRIVE}s2/g" $f done umount ${MNT} fi # Create Config slice newfs ${NANO_NEWFS} /dev/${MD}s3 # XXX: fill from where ? # Create Data slice, if any. if [ $NANO_DATASIZE -ne 0 ] ; then newfs ${NANO_NEWFS} /dev/${MD}s4 # XXX: fill from where ? fi if [ "${NANO_MD_BACKING}" = "swap" ] ; then echo "Writing out ${NANO_IMGNAME}..." dd if=/dev/${MD} of=${IMG} bs=64k fi echo "Writing out _.disk.image..." dd if=/dev/${MD}s1 of=${NANO_DISKIMGDIR}/_.disk.image bs=64k mdconfig -d -u $MD trap - 1 2 15 EXIT ) > ${NANO_OBJ}/_.di 2>&1 ) # i386 and amd64 are identical for disk images create_amd64_diskimage ( ) ( create_i386_diskimage ) last_orders () ( # Redefine this function with any last orders you may have # after the build completed, for instance to copy the finished # image to a more convenient place: # cp ${NANO_DISKIMGDIR}/_.disk.image /home/ftp/pub/nanobsd.disk ) ####################################################################### # # Optional convenience functions. # ####################################################################### ####################################################################### # Common Flash device geometries # FlashDevice () { if [ -d ${NANO_TOOLS} ] ; then . ${NANO_TOOLS}/FlashDevice.sub else . ${NANO_SRC}/${NANO_TOOLS}/FlashDevice.sub fi sub_FlashDevice $1 $2 } ####################################################################### # USB device geometries # # Usage: # UsbDevice Generic 1000 # a generic flash key sold as having 1GB # # This function will set NANO_MEDIASIZE, NANO_HEADS and NANO_SECTS for you. # # Note that the capacity of a flash key is usually advertised in MB or # GB, *not* MiB/GiB. As such, the precise number of cylinders available # for C/H/S geometry may vary depending on the actual flash geometry. # # The following generic device layouts are understood: # generic An alias for generic-hdd. # generic-hdd 255H 63S/T xxxxC with no MBR restrictions. # generic-fdd 64H 32S/T xxxxC with no MBR restrictions. # # The generic-hdd device is preferred for flash devices larger than 1GB. # UsbDevice () { a1=`echo $1 | tr '[:upper:]' '[:lower:]'` case $a1 in generic-fdd) NANO_HEADS=64 NANO_SECTS=32 NANO_MEDIASIZE=$(( $2 * 1000 * 1000 / 512 )) ;; generic|generic-hdd) NANO_HEADS=255 NANO_SECTS=63 NANO_MEDIASIZE=$(( $2 * 1000 * 1000 / 512 )) ;; *) echo "Unknown USB flash device" exit 2 ;; esac } ####################################################################### # Setup serial console cust_comconsole () ( # Enable getty on console sed -i "" -e /tty[du]0/s/off/on/ ${NANO_WORLDDIR}/etc/ttys # Disable getty on syscons devices sed -i "" -e '/^ttyv[0-8]/s/ on/ off/' ${NANO_WORLDDIR}/etc/ttys # Tell loader to use serial console early. echo " -h" > ${NANO_WORLDDIR}/boot.config ) ####################################################################### # Allow root login via ssh cust_allow_ssh_root () ( sed -i "" -e '/PermitRootLogin/s/.*/PermitRootLogin yes/' \ ${NANO_WORLDDIR}/etc/ssh/sshd_config ) ####################################################################### # Install the stuff under ./Files cust_install_files () ( cd ${NANO_TOOLS}/Files find . -print | grep -Ev '/(CVS|\.svn)' | cpio -dumpv ${NANO_WORLDDIR} ) ####################################################################### # Install packages from ${NANO_PACKAGE_DIR} cust_pkg () ( # Copy packages into chroot mkdir -p ${NANO_WORLDDIR}/Pkg ( cd ${NANO_PACKAGE_DIR} find ${NANO_PACKAGE_LIST} -print | cpio -dumpv ${NANO_WORLDDIR}/Pkg ) # Count & report how many we have to install todo=`ls ${NANO_WORLDDIR}/Pkg | wc -l` echo "=== TODO: $todo" ls ${NANO_WORLDDIR}/Pkg echo "===" while true do # Record how many we have now have=`ls ${NANO_WORLDDIR}/var/db/pkg | wc -l` # Attempt to install more packages # ...but no more than 200 at a time due to pkg_add's internal # limitations. chroot ${NANO_WORLDDIR} sh -c \ 'ls Pkg/*tbz | xargs -n 200 pkg_add -F' || true # See what that got us now=`ls ${NANO_WORLDDIR}/var/db/pkg | wc -l` echo "=== NOW $now" ls ${NANO_WORLDDIR}/var/db/pkg echo "===" if [ $now -eq $todo ] ; then echo "DONE $now packages" break elif [ $now -eq $have ] ; then echo "FAILED: Nothing happened on this pass" exit 2 fi done rm -rf ${NANO_WORLDDIR}/Pkg ) ####################################################################### # Convenience function: # Register $1 as customize function. customize_cmd () { NANO_CUSTOMIZE="$NANO_CUSTOMIZE $1" } ####################################################################### # Convenience function: # Register $1 as late customize function to run just before # image creation. late_customize_cmd () { NANO_LATE_CUSTOMIZE="$NANO_LATE_CUSTOMIZE $1" } ####################################################################### # # All set up to go... # ####################################################################### # Progress Print # Print $2 at level $1. pprint() { if [ "$1" -le $PPLEVEL ]; then runtime=$(( `date +%s` - $NANO_STARTTIME )) printf "%s %.${1}s %s\n" "`date -u -r $runtime +%H:%M:%S`" "#####" "$2" 1>&3 fi } usage () { ( echo "Usage: $0 [-bikqvw] [-c config_file]" echo " -b suppress builds (both kernel and world)" echo " -i suppress disk image build" echo " -k suppress buildkernel" echo " -n add -DNO_CLEAN to buildworld, buildkernel, etc" echo " -q make output more quite" echo " -v make output more verbose" echo " -w suppress buildworld" echo " -c specify config file" ) 1>&2 exit 2 } ####################################################################### # Parse arguments do_clean=true do_kernel=true do_world=true do_image=true set +e args=`getopt bc:hiknqvw $*` if [ $? -ne 0 ] ; then usage exit 2 fi set -e set -- $args for i do case "$i" in -b) do_world=false do_kernel=false shift ;; -k) do_kernel=false shift ;; -c) . "$2" shift shift ;; -h) usage ;; -i) do_image=false shift ;; -n) do_clean=false shift ;; -q) PPLEVEL=$(($PPLEVEL - 1)) shift ;; -v) PPLEVEL=$(($PPLEVEL + 1)) shift ;; -w) do_world=false shift ;; --) shift break esac done if [ $# -gt 0 ] ; then echo "$0: Extraneous arguments supplied" usage fi ####################################################################### # Setup and Export Internal variables # test -n "${NANO_OBJ}" || NANO_OBJ=/usr/obj/nanobsd.${NANO_NAME}/ test -n "${MAKEOBJDIRPREFIX}" || MAKEOBJDIRPREFIX=${NANO_OBJ} test -n "${NANO_DISKIMGDIR}" || NANO_DISKIMGDIR=${NANO_OBJ} NANO_WORLDDIR=${NANO_OBJ}/_.w NANO_MAKE_CONF_BUILD=${MAKEOBJDIRPREFIX}/make.conf.build NANO_MAKE_CONF_INSTALL=${NANO_OBJ}/make.conf.install if [ -d ${NANO_TOOLS} ] ; then true elif [ -d ${NANO_SRC}/${NANO_TOOLS} ] ; then NANO_TOOLS=${NANO_SRC}/${NANO_TOOLS} else echo "NANO_TOOLS directory does not exist" 1>&2 exit 1 fi if $do_clean ; then true else NANO_PMAKE="${NANO_PMAKE} -DNO_CLEAN" fi export MAKEOBJDIRPREFIX export NANO_ARCH export NANO_CODESIZE export NANO_CONFSIZE export NANO_CUSTOMIZE export NANO_DATASIZE export NANO_DRIVE export NANO_HEADS export NANO_IMAGES export NANO_IMGNAME export NANO_MAKE_CONF_BUILD export NANO_MAKE_CONF_INSTALL export NANO_MEDIASIZE export NANO_NAME export NANO_NEWFS export NANO_OBJ export NANO_PMAKE export NANO_SECTS export NANO_SRC export NANO_TOOLS export NANO_WORLDDIR export NANO_BOOT0CFG export NANO_BOOTLOADER ####################################################################### # And then it is as simple as that... # File descriptor 3 is used for logging output, see pprint exec 3>&1 NANO_STARTTIME=`date +%s` pprint 1 "NanoBSD image ${NANO_NAME} build starting" if $do_world ; then if $do_clean ; then clean_build else pprint 2 "Using existing build tree (as instructed)" fi make_conf_build build_world else pprint 2 "Skipping buildworld (as instructed)" fi if $do_kernel ; then build_kernel else pprint 2 "Skipping buildkernel (as instructed)" fi clean_world make_conf_install install_world install_etc setup_nanobsd_etc install_kernel run_customize setup_nanobsd prune_usr run_late_customize if $do_image ; then create_${NANO_ARCH}_diskimage else pprint 2 "Skipping image build (as instructed)" fi last_orders pprint 1 "NanoBSD image ${NANO_NAME} completed"