#!/bin/sh # # builder_common.sh # # Copyright (c) 2004-2015 Electric Sheep Fencing, LLC # Copyright (C) 2014 Ermal Luçi # All rights reserved. # # NanoBSD portions of the code # Copyright (c) 2005 Poul-Henning Kamp. # and copied from nanobsd.sh # All rights reserved. # # FreeSBIE portions of the code # Copyright (c) 2005 Dario Freni # and copied from FreeSBIE project # 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 pfSense PROJECT ``AS IS'' AND ANY # EXPRESSED 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 pfSense PROJECT OR # ITS 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. # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions are met: # if [ -n "${IMAGES_FINAL_DIR}" -a "${IMAGES_FINAL_DIR}" != "/" ]; then mkdir -p ${IMAGES_FINAL_DIR} else echo "IMAGES_FINAL_DIR is not defined" print_error_pfS fi lc() { echo "${1}" | tr '[[:upper:]]' '[[:lower:]]' } git_last_commit() { export CURRENT_COMMIT=$(git -C ${BUILDER_ROOT} log -1 --format='%H') export CURRENT_AUTHOR=$(git -C ${BUILDER_ROOT} log -1 --format='%an') echo ">>> Last known commit $CURRENT_AUTHOR - $CURRENT_COMMIT" echo "$CURRENT_COMMIT" > $SCRATCHDIR/build_commit_info.txt } # Create core pkg repository core_pkg_create_repo() { if [ ! -d "${CORE_PKG_PATH}/All" ]; then return fi echo -n ">>> Creating core packages repository... " if pkg repo -q "${CORE_PKG_PATH}"; then echo "Done!" else echo "Failed!" print_error_pfS fi } # Create core pkg (base, kernel) core_pkg_create() { local _template="${1}" local _flavor="${2}" local _version="${3}" local _root="${4}" local _filter="${5}" [ -d "${CORE_PKG_TMP}" ] \ && rm -rf ${CORE_PKG_TMP} local _templates_path=${BUILDER_TOOLS}/templates/core_pkg/${_template} local _template_metadir=${_templates_path}/metadir local _metadir=${CORE_PKG_TMP}/${_template}_metadir if [ ! -d ${_template_metadir} ]; then echo "ERROR: Template dir not found for pkg ${_template}" exit fi mkdir -p ${CORE_PKG_TMP} cp -r ${_template_metadir} ${_metadir} local _manifest=${_metadir}/+MANIFEST local _plist=${CORE_PKG_TMP}/${_template}_plist local _exclude_plist=${CORE_PKG_TMP}/${_template}_exclude_plist if [ -f "${_templates_path}/pkg-plist" ]; then cp ${_templates_path}/pkg-plist ${_plist} else if [ -n "${_filter}" ]; then _filter="-name ${_filter}" fi (cd ${_root} && find . ${_filter} -type f -or -type l | sed 's,^.,,' | sort -u) > ${_plist} fi if [ -f "${_templates_path}/exclude_plist" ]; then cp ${_templates_path}/exclude_plist ${_exclude_plist} else touch ${_exclude_plist} fi sed \ -i '' \ -e "s,%%PRODUCT_NAME%%,${PRODUCT_NAME},g" \ -e "s,%%PRODUCT_URL%%,${PRODUCT_URL},g" \ -e "s,%%FLAVOR%%,${_flavor},g" \ -e "s,%%VERSION%%,${_version},g" \ ${_metadir}/* \ ${_plist} \ ${exclude_plist} if [ -f "${_exclude_plist}" ]; then sort -u ${_exclude_plist} > ${_plist}.exclude mv ${_plist} ${_plist}.tmp comm -23 ${_plist}.tmp ${_plist}.exclude > ${_plist} rm -f ${_plist}.tmp ${plist}.exclude fi mkdir -p ${CORE_PKG_PATH}/All if ! pkg create -o ${CORE_PKG_PATH}/All -p ${_plist} -r ${_root} -m ${_metadir}; then echo ">>> ERROR: Error building package ${_template} ${_flavor}" print_error_pfS fi } # This routine will output that something went wrong print_error_pfS() { echo echo "####################################" echo "Something went wrong, check errors!" >&2 echo "####################################" echo echo "NOTE: a lot of times you can run './build.sh --clean-builder' to resolve." echo if [ "$1" != "" ]; then echo $1 fi [ -n "${LOGFILE}" -a -f "${LOGFILE}" ] && \ echo "Log saved on ${LOGFILE}" && \ tail -n20 ${LOGFILE} >&2 echo kill $$ exit 1 } prestage_on_ram_setup() { [ -d "${STAGE_CHROOT_DIR}" ] \ || mkdir -p ${STAGE_CHROOT_DIR} [ -d "${FINAL_CHROOT_DIR}" ] \ || mkdir -p ${FINAL_CHROOT_DIR} _AVAIL_MEM=$(($(sysctl -n hw.usermem) / 1024 / 1024)) if [ $_AVAIL_MEM -lt 2000 ]; then echo ">>> Builder has less than 2GiB RAM skipping memory disks" return else echo "######################################################################################" echo echo ">>> Builder has more than 2GiB RAM enabling memory disks" echo ">>> WARNING: Remember to remove these memory disks by running $0 --disable-memorydisks" echo echo "######################################################################################" fi if df /dev/ufs/prestagebacking >/dev/null 2>&1; then echo ">>> Detected preexisting memory disk enabled for ${STAGE_CHROOT_DIR}." else mdconfig -a -t swap -u 10001 -s ${MEMORYDISK_SIZE} newfs -L prestagebacking -U /dev/md10001 mount /dev/ufs/prestagebacking ${STAGE_CHROOT_DIR} fi if df /dev/ufs/finalstagebacking >/dev/null 2>&1; then echo ">>> Detected preexisting memory disk enabled for ${FINAL_CHROOT_DIR}." else mdconfig -a -t swap -u 10002 -s ${MEMORYDISK_SIZE} newfs -L finalstagebacking -U /dev/md10002 mount /dev/ufs/finalstagebacking ${FINAL_CHROOT_DIR} fi } prestage_on_ram_cleanup() { if [ -c /dev/md10001 ]; then if [ -d ${STAGE_CHROOT_DIR} ]; then umount ${STAGE_CHROOT_DIR} fi mdconfig -d -u 10001 fi if [ -c /dev/md10002 ]; then if [ -d ${FINAL_CHROOT_DIR} ]; then umount ${FINAL_CHROOT_DIR} fi mdconfig -d -u 10002 fi } # This routine will verify that the kernel has been # installed OK to the staging area. ensure_kernel_exists() { if [ ! -f "$1/boot/kernel/kernel.gz" ]; then echo ">>> ERROR: Could not locate $1/boot/kernel.gz" print_error_pfS fi KERNEL_SIZE=$(stat -f "%z" $1/boot/kernel/kernel.gz) if [ "$KERNEL_SIZE" -lt 3500 ]; then echo ">>> ERROR: Kernel $1/boot/kernel.gz appears to be smaller than it should be: $KERNEL_SIZE" print_error_pfS fi } get_pkg_name() { echo "${PRODUCT_NAME}-${1}-${CORE_PKG_VERSION}" } # This routine builds all related kernels build_all_kernels() { # Set KERNEL_BUILD_PATH if it has not been set if [ -z "${KERNEL_BUILD_PATH}" ]; then KERNEL_BUILD_PATH=$SCRATCHDIR/kernels echo ">>> KERNEL_BUILD_PATH has not been set. Setting to ${KERNEL_BUILD_PATH}!" fi [ -d "${KERNEL_BUILD_PATH}" ] \ && rm -rf ${KERNEL_BUILD_PATH} # Build embedded kernel for BUILD_KERNEL in $BUILD_KERNELS; do unset KERNCONF unset KERNEL_DESTDIR unset KERNELCONF unset KERNEL_NAME export KERNCONF=$BUILD_KERNEL export KERNEL_DESTDIR="$KERNEL_BUILD_PATH/$BUILD_KERNEL" export KERNELCONF="${FREEBSD_SRC_DIR}/sys/${TARGET}/conf/$BUILD_KERNEL" export KERNEL_NAME=${BUILD_KERNEL} LOGFILE="${BUILDER_LOGS}/kernel.${KERNCONF}.${TARGET}.log" echo ">>> Building $BUILD_KERNEL kernel." | tee -a ${LOGFILE} if [ ! -e "${FREEBSD_SRC_DIR}/sys/${TARGET}/conf/${BUILD_KERNEL}" ]; then echo ">>> ERROR: Could not find $KERNELCONF" print_error_pfS fi if [ -n "${NO_BUILDKERNEL}" -a -f "${CORE_PKG_PATH}/All/$(get_pkg_name kernel-${KERNEL_NAME}).txz" ]; then echo ">>> NO_BUILDKERNEL set, skipping build" | tee -a ${LOGFILE} continue fi export SRC_CONF=${SRC_CONF} buildkernel echo ">>> Staging $BUILD_KERNEL kernel..." | tee -a ${LOGFILE} installkernel ensure_kernel_exists $KERNEL_DESTDIR echo -n ">>> Creating pkg of $KERNEL_NAME-debug kernel to staging area..." | tee -a ${LOGFILE} core_pkg_create kernel-debug ${KERNEL_NAME} ${CORE_PKG_VERSION} ${KERNEL_DESTDIR} \*.symbols find ${KERNEL_DESTDIR} -name '*.symbols' -type f -delete echo -n ">>> Creating pkg of $KERNEL_NAME kernel to staging area..." | tee -a ${LOGFILE} core_pkg_create kernel ${KERNEL_NAME} ${CORE_PKG_VERSION} ${KERNEL_DESTDIR} rm -rf $KERNEL_DESTDIR 2>&1 1>/dev/null echo ".Done" | tee -a ${LOGFILE} done } install_default_kernel() { if [ -z "${1}" ]; then echo ">>> ERROR: install_default_kernel called without a kernel config name"| tee -a ${LOGFILE} print_error_pfS fi export KERNEL_NAME="${1}" echo -n ">>> Installing kernel to be used by image ${KERNEL_NAME}..." | tee -a ${LOGFILE} # Copy kernel package to chroot, otherwise pkg won't find it to install if ! pkg_chroot_add ${FINAL_CHROOT_DIR} kernel-${KERNEL_NAME}; then echo ">>> ERROR: Error installing kernel package $(get_pkg_name kernel-${KERNEL_NAME}).txz" | tee -a ${LOGFILE} print_error_pfS fi # Lock kernel to avoid user end up removing it for any reason pkg_chroot ${FINAL_CHROOT_DIR} lock -q -y $(get_pkg_name kernel-${KERNEL_NAME}) if [ ! -f $FINAL_CHROOT_DIR/boot/kernel/kernel.gz ]; then echo ">>> ERROR: No kernel installed on $FINAL_CHROOT_DIR and the resulting image will be unusable. STOPPING!" | tee -a ${LOGFILE} print_error_pfS fi mkdir -p $FINAL_CHROOT_DIR/pkgs if [ -z "${2}" -o -n "${INSTALL_EXTRA_KERNELS}" ]; then cp ${CORE_PKG_PATH}/All/$(get_pkg_name kernel-${KERNEL_NAME}).txz $FINAL_CHROOT_DIR/pkgs if [ -n "${INSTALL_EXTRA_KERNELS}" ]; then for _EXTRA_KERNEL in $INSTALL_EXTRA_KERNELS; do _EXTRA_KERNEL_PATH=${CORE_PKG_PATH}/All/$(get_pkg_name kernel-${_EXTRA_KERNEL}).txz if [ -f "${_EXTRA_KERNEL_PATH}" ]; then echo -n ". adding ${_EXTRA_KERNEL_PATH} on image /pkgs folder" cp ${_EXTRA_KERNEL_PATH} $FINAL_CHROOT_DIR/pkgs else echo ">>> ERROR: Requested kernel $(get_pkg_name kernel-${_EXTRA_KERNEL}).txz was not found to be put on image /pkgs folder!" print_error_pfS fi done fi fi echo "Done." | tee -a ${LOGFILE} unset KERNEL_NAME } # Creates a full update file create_Full_update_tarball() { mkdir -p $UPDATESDIR customize_stagearea_for_image "fullupdate" install_default_kernel ${DEFAULT_KERNEL} rm -rf ${FINAL_CHROOT_DIR}/cf rm -rf ${FINAL_CHROOT_DIR}/conf rm -f ${FINAL_CHROOT_DIR}/etc/rc.conf rm -f ${FINAL_CHROOT_DIR}/etc/pwd.db 2>/dev/null rm -f ${FINAL_CHROOT_DIR}/etc/group 2>/dev/null rm -f ${FINAL_CHROOT_DIR}/etc/spwd.db 2>/dev/null rm -f ${FINAL_CHROOT_DIR}/etc/passwd 2>/dev/null rm -f ${FINAL_CHROOT_DIR}/etc/master.passwd 2>/dev/null rm -f ${FINAL_CHROOT_DIR}/etc/fstab 2>/dev/null rm -f ${FINAL_CHROOT_DIR}/etc/bogons 2>/dev/null # Remove loader.conf and friends. Ticket #560 rm ${FINAL_CHROOT_DIR}/boot/loader.conf 2>/dev/null rm ${FINAL_CHROOT_DIR}/boot/loader.conf.local 2>/dev/null # Old systems will run (pre|post)_upgrade_command from /tmp if [ -f ${FINAL_CHROOT_DIR}/usr/local/share/${PRODUCT_NAME}/pre_upgrade_command ]; then cp -p \ ${FINAL_CHROOT_DIR}/usr/local/share/${PRODUCT_NAME}/pre_upgrade_command \ ${FINAL_CHROOT_DIR}/tmp fi if [ -f ${FINAL_CHROOT_DIR}/usr/local/share/${PRODUCT_NAME}/post_upgrade_command ]; then cp -p \ ${FINAL_CHROOT_DIR}/usr/local/share/${PRODUCT_NAME}/post_upgrade_command \ ${FINAL_CHROOT_DIR}/tmp fi echo ">>> Creating ${UPDATES_TARBALL_FILENAME} ..." | tee -a ${LOGFILE} tar --exclude=./dev -czPf ${UPDATES_TARBALL_FILENAME} -C ${FINAL_CHROOT_DIR} . } # Outputs various set variables aka env print_flags() { echo printf " Product version: %s\n" $PRODUCT_VERSION printf " Stage DIR: %s\n" $STAGE_CHROOT_DIR printf " Updates dir: %s\n" $UPDATESDIR printf " Image Preparation Stage DIR: %s\n" $FINAL_CHROOT_DIR printf " Source DIR: %s\n" $FREEBSD_SRC_DIR printf " FreeBSD repository: %s\n" $FREEBSD_REPO_BASE printf " FreeBSD-src branch: %s\n" $FREEBSD_BRANCH printf " FreeBSD original branch: %s\n" $FREEBSD_PARENT_BRANCH printf " BUILD_KERNELS: %s\n" $BUILD_KERNELS printf " Git Branch or Tag: %s\n" $GIT_REPO_BRANCH_OR_TAG printf " MODULES_OVERRIDE: %s\n" $MODULES_OVERRIDE printf " VMDK_DISK_CAPACITY_IN_GB: %s\n" $VMDK_DISK_CAPACITY_IN_GB printf " OVA_FIRST_PART_SIZE_IN_GB: %s\n" $OVA_FIRST_PART_SIZE_IN_GB printf " OVA_SWAP_PART_SIZE_IN_GB: %s\n" $OVA_SWAP_PART_SIZE_IN_GB printf " OVFTEMPLATE: %s\n" $OVFTEMPLATE printf " OVFVMDK: %s\n" $OVFVMDK printf " SRC_CONF: %s\n" $SRC_CONF printf " ISOPATH: %s\n" $ISOPATH printf " MEMSTICKPATH: %s\n" $MEMSTICKPATH printf " UPDATES_TARBALL_FILENAME: %s\n" $UPDATES_TARBALL_FILENAME if [ -n "$SHOW_ENV" ]; then for LINE in $(env | egrep -v '(terminal|PASS|NAME|USER|SSH|GROUP|HOST)'); do echo "SHOW_ENV: $LINE" done fi echo } # This builds FreeBSD (make buildworld) # Imported from FreeSBIE make_world() { LOGFILE=${BUILDER_LOGS}/buildworld.${TARGET} if [ -n "${NO_BUILDWORLD}" ]; then echo ">>> NO_BUILDWORLD set, skipping build" | tee -a ${LOGFILE} return fi # Set SRC_CONF variable if it's not already set. if [ -z "${SRC_CONF}" ]; then echo ">>> SRC_CONF is unset make sure this is what you want!" | tee -a ${LOGFILE} else echo ">>> Setting SRC_CONF to $SRC_CONF" | tee -a ${LOGFILE} fi # Set default parameters export MAKE_ARGS="${MAKEJ_WORLD} __MAKE_CONF=${MAKE_CONF} SRCCONF=${SRC_CONF} TARGET=${TARGET} TARGET_ARCH=${TARGET_ARCH}" echo ">>> LOGFILE set to $LOGFILE." | tee -a ${LOGFILE} makeargs="${MAKE_ARGS}" echo ">>> Building world for ${TARGET} architecture... (Starting - $(LC_ALL=C date))" | tee -a ${LOGFILE} echo ">>> Builder is running the command: env LOCAL_ITOOLS=\"${EXTRA_TOOLS}\" script -aq $LOGFILE make -C ${FREEBSD_SRC_DIR} -DNO_CLEAN ${makeargs} buildworld" | tee -a ${LOGFILE} (env LOCAL_ITOOLS="${EXTRA_TOOLS}" script -aq $LOGFILE make -C ${FREEBSD_SRC_DIR} -DNO_CLEAN ${makeargs} buildworld || print_error_pfS;) | egrep '^>>>' | tee -a ${LOGFILE} echo ">>> Building world for ${TARGET} architecture... (Finished - $(LC_ALL=C date))" | tee -a ${LOGFILE} LOGFILE=${BUILDER_LOGS}/installworld.${TARGET} echo ">>> LOGFILE set to $LOGFILE." | tee -a ${LOGFILE} # Create if cleaned up makeargs="${MAKE_ARGS} DESTDIR=${STAGE_CHROOT_DIR} WITHOUT_TOOLCHAIN=1" echo ">>> Installing world for ${TARGET} architecture... (Starting - $(LC_ALL=C date))" | tee -a ${LOGFILE} echo ">>> Builder is running the command: env LOCAL_ITOOLS=\"${EXTRA_TOOLS}\" script -aq $LOGFILE make -C ${FREEBSD_SRC_DIR} ${makeargs} installworld" | tee -a ${LOGFILE} (env LOCAL_ITOOLS="${EXTRA_TOOLS}" script -aq $LOGFILE make -C ${FREEBSD_SRC_DIR} ${makeargs} installworld || print_error_pfS;) | egrep '^>>>' | tee -a ${LOGFILE} echo ">>> Installing world for ${TARGET} architecture... (Finished - $(LC_ALL=C date))" | tee -a ${LOGFILE} makeargs="${MAKE_ARGS} DESTDIR=${STAGE_CHROOT_DIR}" echo ">>> Distribution world for ${TARGET} architecture... (Starting - $(LC_ALL=C date))" | tee -a ${LOGFILE} echo ">>> Builder is running the command: script -aq $LOGFILE make -C ${FREEBSD_SRC_DIR} ${makeargs} distribution " | tee -a ${LOGFILE} (script -aq $LOGFILE make -C ${FREEBSD_SRC_DIR} ${makeargs} distribution || print_error_pfS;) | egrep '^>>>' | tee -a ${LOGFILE} echo ">>> Distribution world for ${TARGET} architecture... (Finished - $(LC_ALL=C date))" | tee -a ${LOGFILE} [ -d "${STAGE_CHROOT_DIR}/usr/local/bin" ] \ || mkdir -p ${STAGE_CHROOT_DIR}/usr/local/bin makeargs="${MAKE_ARGS} DESTDIR=${STAGE_CHROOT_DIR}" echo ">>> Building and installing crypto tools and athstats for ${TARGET} architecture... (Starting - $(LC_ALL=C date))" | tee -a ${LOGFILE} echo ">>> Builder is running the command: script -aq $LOGFILE make -C ${FREEBSD_SRC_DIR}/tools/tools/crypto ${makeargs} clean all install " | tee -a ${LOGFILE} (script -aq $LOGFILE make -C ${FREEBSD_SRC_DIR}/tools/tools/crypto ${makeargs} clean all install || print_error_pfS;) | egrep '^>>>' | tee -a ${LOGFILE} echo ">>> Builder is running the command: script -aq $LOGFILE make -C ${FREEBSD_SRC_DIR}/tools/tools/ath/athstats ${makeargs} clean" | tee -a ${LOGFILE} (script -aq $LOGFILE make -C ${FREEBSD_SRC_DIR}/tools/tools/ath/athstats ${makeargs} clean || print_error_pfS;) | egrep '^>>>' | tee -a ${LOGFILE} echo ">>> Builder is running the command: script -aq $LOGFILE make -C ${FREEBSD_SRC_DIR}/tools/tools/ath/athstats ${makeargs} all" | tee -a ${LOGFILE} (script -aq $LOGFILE make -C ${FREEBSD_SRC_DIR}/tools/tools/ath/athstats ${makeargs} all || print_error_pfS;) | egrep '^>>>' | tee -a ${LOGFILE} echo ">>> Builder is running the command: script -aq $LOGFILE make -C ${FREEBSD_SRC_DIR}/tools/tools/ath/athstats ${makeargs} install" | tee -a ${LOGFILE} (script -aq $LOGFILE make -C ${FREEBSD_SRC_DIR}/tools/tools/ath/athstats ${makeargs} install || print_error_pfS;) | egrep '^>>>' | tee -a ${LOGFILE} echo ">>> Building and installing crypto tools and athstats for ${TARGET} architecture... (Finished - $(LC_ALL=C date))" | tee -a ${LOGFILE} unset makeargs } # This routine originated in nanobsd.sh nanobsd_set_flash_details () { a1=$(echo $1 | tr '[:upper:]' '[:lower:]') # Source: # SanDisk CompactFlash Memory Card # Product Manual # Version 10.9 # Document No. 20-10-00038 # April 2005 # Table 2-7 # NB: notice math error in SDCFJ-4096-388 line. # case "${a1}" in 1024|1024m|1024mb|1g) NANO_MEDIASIZE=$((997129216/512)) ;; 2048|2048m|2048mb|2g) NANO_MEDIASIZE=$((1989999616/512)) ;; 4096|4096m|4096mb|4g) NANO_MEDIASIZE=$((3989999616/512)) ;; 8192|8192m|8192mb|8g) NANO_MEDIASIZE=$((7989999616/512)) ;; 16384|16384m|16384mb|16g) NANO_MEDIASIZE=$((15989999616/512)) ;; *) echo "Unknown Flash capacity" exit 2 ;; esac NANO_HEADS=16 NANO_SECTS=63 echo ">>> [nanoo] $1" echo ">>> [nanoo] NANO_MEDIASIZE: $NANO_MEDIASIZE" echo ">>> [nanoo] NANO_HEADS: $NANO_HEADS" echo ">>> [nanoo] NANO_SECTS: $NANO_SECTS" echo ">>> [nanoo] NANO_BOOT0CFG: $NANO_BOOT0CFG" } # This routine originated in nanobsd.sh create_nanobsd_diskimage () { if [ -z "${1}" ]; then echo ">>> ERROR: Type of image has not been specified" print_error_pfS fi if [ -z "${2}" ]; then echo ">>> ERROR: Size of image has not been specified" print_error_pfS fi if [ "${1}" = "nanobsd" ]; then # It's serial export NANO_BOOTLOADER="boot/boot0sio" elif [ "${1}" = "nanobsd-vga" ]; then # It's vga export NANO_BOOTLOADER="boot/boot0" else echo ">>> ERROR: Type of image to create unknown" print_error_pfS fi if [ -z "${2}" ]; then echo ">>> ERROR: Media size(s) not specified." print_error_pfS fi if [ -z "${2}" ]; then echo ">>> ERROR: FLASH_SIZE is not set." print_error_pfS fi LOGFILE=${BUILDER_LOGS}/${1}.${TARGET} # Prepare folder to be put in image customize_stagearea_for_image "${1}" install_default_kernel ${DEFAULT_KERNEL} "no" echo ">>> Fixing up NanoBSD Specific items..." | tee -a ${LOGFILE} echo "nanobsd" > $FINAL_CHROOT_DIR/etc/platform local BOOTCONF=${FINAL_CHROOT_DIR}/boot.config local LOADERCONF=${FINAL_CHROOT_DIR}/boot/loader.conf if [ "${1}" = "nanobsd" ]; then # Tell loader to use serial console early. echo "-S115200 -h" >> ${BOOTCONF} # Remove old console options if present. [ -f "${LOADERCONF}" ] \ && sed -i "" -Ee "/(console|boot_multicons|boot_serial|hint.uart)/d" ${LOADERCONF} # Activate serial console+video console in loader.conf echo 'loader_color="NO"' >> ${LOADERCONF} echo 'beastie_disable="YES"' >> ${LOADERCONF} echo 'boot_serial="YES"' >> ${LOADERCONF} echo 'console="comconsole"' >> ${LOADERCONF} echo 'comconsole_speed="115200"' >> ${LOADERCONF} fi echo 'autoboot_delay="5"' >> ${LOADERCONF} for _NANO_MEDIASIZE in ${2}; do if [ -z "${_NANO_MEDIASIZE}" ]; then continue; fi echo ">>> building NanoBSD(${1}) disk image with size ${_NANO_MEDIASIZE} for platform (${TARGET})..." | tee -a ${LOGFILE} echo "" > $BUILDER_LOGS/nanobsd_cmds.sh IMG="${IMAGES_FINAL_DIR}/${PRODUCT_NAME}-${PRODUCT_VERSION}-${_NANO_MEDIASIZE}-${TARGET}-${1}${TIMESTAMP_SUFFIX}.img" IMGUPDATE="${IMAGES_FINAL_DIR}/${PRODUCT_NAME}-${PRODUCT_VERSION}-${_NANO_MEDIASIZE}-${TARGET}-${1}-upgrade${TIMESTAMP_SUFFIX}.img" nanobsd_set_flash_details ${_NANO_MEDIASIZE} # These are defined in FlashDevice and on builder_default.sh 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" } ' > ${IMAGES_FINAL_DIR}/_.fdisk MNT=${IMAGES_FINAL_DIR}/_.mnt mkdir -p ${MNT} dd if=/dev/zero of=${IMG} bs=${NANO_SECTS}b \ count=0 seek=$((${NANO_MEDIASIZE}/${NANO_SECTS})) 2>&1 >> ${LOGFILE} MD=$(mdconfig -a -t vnode -f ${IMG} -x ${NANO_SECTS} -y ${NANO_HEADS}) trap "mdconfig -d -u ${MD}; return" 1 2 15 EXIT fdisk -i -f ${IMAGES_FINAL_DIR}/_.fdisk ${MD} 2>&1 >> ${LOGFILE} fdisk ${MD} 2>&1 >> ${LOGFILE} boot0cfg -B -b ${FINAL_CHROOT_DIR}/${NANO_BOOTLOADER} ${NANO_BOOT0CFG} ${MD} 2>&1 >> ${LOGFILE} # Create first image bsdlabel -m i386 -w -B -b ${FINAL_CHROOT_DIR}/boot/boot ${MD}s1 2>&1 >> ${LOGFILE} bsdlabel -m i386 ${MD}s1 2>&1 >> ${LOGFILE} local _label=$(lc ${PRODUCT_NAME}) newfs -L ${_label}0 ${NANO_NEWFS} /dev/${MD}s1a 2>&1 >> ${LOGFILE} mount /dev/ufs/${_label}0 ${MNT} if [ $? -ne 0 ]; then echo ">>> ERROR: Something wrong happened during mount of first slice image creation. STOPPING!" | tee -a ${LOGFILE} print_error_pfS fi # Consider the unmounting as well trap "umount /dev/ufs/${_label}0; mdconfig -d -u ${MD}; return" 1 2 15 EXIT clone_directory_contents ${FINAL_CHROOT_DIR} ${MNT} # Set NanoBSD image size echo "${_NANO_MEDIASIZE}" > ${MNT}/etc/nanosize.txt rm -f $MNT/cf/conf/* 2>/dev/null echo "/dev/ufs/${_label}0 / ufs ro,sync,noatime 1 1" > ${MNT}/etc/fstab if [ $NANO_CONFSIZE -gt 0 ] ; then echo "/dev/ufs/cf /cf ufs ro,sync,noatime 1 1" >> ${MNT}/etc/fstab fi umount ${MNT} # Restore the original trap trap "mdconfig -d -u ${MD}; return" 1 2 15 EXIT # Setting NANO_IMAGES to 1 and NANO_INIT_IMG2 will tell # NanoBSD to only create one partition. We default to 2 # partitions in case anything happens to the first the # operator can boot from the 2nd and should be OK. # Before just going to use dd for duplicate think! # The images are created as sparse so lets take advantage # of that by just exec some commands. if [ $NANO_IMAGES -gt 1 -a $NANO_INIT_IMG2 -gt 0 ] ; then # Duplicate to second image (if present) echo ">>> Creating NanoBSD second slice by duplicating first slice." | tee -a ${LOGFILE} # Create second image dd if=/dev/${MD}s1 of=/dev/${MD}s2 conv=sparse bs=64k 2>&1 >> ${LOGFILE} tunefs -L ${_label}1 /dev/${MD}s2a 2>&1 >> ${LOGFILE} mount /dev/ufs/${_label}1 ${MNT} if [ $? -ne 0 ]; then echo ">>> ERROR: Something wrong happened during mount of second slice image creation. STOPPING!" | tee -a ${LOGFILE} print_error_pfS fi # Consider the unmounting as well trap "umount /dev/ufs/${_label}1; mdconfig -d -u ${MD}; return" 1 2 15 EXIT echo "/dev/ufs/${_label}1 / ufs ro,sync,noatime 1 1" > ${MNT}/etc/fstab if [ $NANO_CONFSIZE -gt 0 ] ; then echo "/dev/ufs/cf /cf ufs ro,sync,noatime 1 1" >> ${MNT}/etc/fstab fi umount ${MNT} # Restore the trap back trap "mdconfig -d -u ${MD}; return" 1 2 15 EXIT fi # Create Data slice, if any. # Note the changing of the variable to NANO_CONFSIZE # from NANO_DATASIZE. We also added glabel support # and populate the Product configuration from the /cf # directory located in FINAL_CHROOT_DIR if [ $NANO_CONFSIZE -gt 0 ] ; then echo ">>> Creating /cf area to hold config.xml" newfs -L cf ${NANO_NEWFS} /dev/${MD}s3 2>&1 >> ${LOGFILE} # Mount data partition and copy contents of /cf # Can be used later to create custom default config.xml while building mount /dev/ufs/cf ${MNT} if [ $? -ne 0 ]; then echo ">>> ERROR: Something wrong happened during mount of cf slice image creation. STOPPING!" | tee -a ${LOGFILE} print_error_pfS fi # Consider the unmounting as well trap "umount /dev/ufs/cf; mdconfig -d -u ${MD}; return" 1 2 15 EXIT clone_directory_contents ${FINAL_CHROOT_DIR}/cf ${MNT} umount ${MNT} # Restore the trap back trap "mdconfig -d -u ${MD}; return" 1 2 15 EXIT else ">>> [nanoo] NANO_CONFSIZE is not set. Not adding a /conf partition.. You sure about this??" | tee -a ${LOGFILE} fi echo ">>> [nanoo] Creating NanoBSD upgrade file from first slice..." | tee -a ${LOGFILE} dd if=/dev/${MD}s1 of=$IMGUPDATE conv=sparse bs=64k 2>&1 >> ${LOGFILE} mdconfig -d -u $MD # Restore default action trap "-" 1 2 15 EXIT # Check each image and ensure that they are over # 3 megabytes. If either image is under 20 megabytes # in size then error out. IMGSIZE=$(stat -f "%z" ${IMG}) IMGUPDATESIZE=$(stat -f "%z" ${IMGUPDATE}) CHECKSIZE="20040710" if [ "$IMGSIZE" -lt "$CHECKSIZE" ]; then echo ">>> ERROR: Something went wrong when building NanoBSD. The image size is under 20 megabytes!" | tee -a ${LOGFILE} print_error_pfS fi if [ "$IMGUPDATESIZE" -lt "$CHECKSIZE" ]; then echo ">>> ERROR: Something went wrong when building NanoBSD upgrade image. The image size is under 20 megabytes!" | tee -a ${LOGFILE} print_error_pfS fi # Wrap up the show, Johnny echo ">>> NanoBSD Image completed for size: $_NANO_MEDIASIZE." | tee -a ${LOGFILE} gzip -qf $IMG & _bg_pids="${_bg_pids}${_bg_pids:+ }$!" gzip -qf $IMGUPDATE & _bg_pids="${_bg_pids}${_bg_pids:+ }$!" done unset IMG unset IMGUPDATE unset IMGUPDATESIZE unset IMGSIZE ls -lah $IMAGES_FINAL_DIR } # This routine creates a ova image that contains # a ovf and vmdk file. These files can be imported # right into vmware or virtual box. # (and many other emulation platforms) # http://www.vmware.com/pdf/ovf_whitepaper_specification.pdf create_ova_image() { # XXX create a .ovf php creator that you can pass: # 1. populatedSize # 2. license # 3. product name # 4. version # 5. number of network interface cards # 6. allocationUnits # 7. capacity # 8. capacityAllocationUnits LOGFILE=${BUILDER_LOGS}/ova.${TARGET}.log [ -d "${OVA_TMP}" ] \ && rm -rf ${OVA_TMP} mkdir -p ${OVA_TMP} # Prepare folder to be put in image customize_stagearea_for_image "ova" install_default_kernel ${DEFAULT_KERNEL} "no" # Fill fstab echo ">>> Installing platform specific items..." | tee -a ${LOGFILE} echo "/dev/gpt/${PRODUCT_NAME} / ufs rw 0 0" > ${FINAL_CHROOT_DIR}/etc/fstab echo "/dev/gpt/swap0 none swap sw 0 0" >> ${FINAL_CHROOT_DIR}/etc/fstab # Create / partition echo -n ">>> Creating / partition... " | tee -a ${LOGFILE} makefs \ -B little \ -o label=${PRODUCT_NAME} \ -s ${OVA_FIRST_PART_SIZE_IN_GB}g \ ${OVA_TMP}/${OVFUFS} \ ${FINAL_CHROOT_DIR} 2>&1 >> ${LOGFILE} if [ $? -ne 0 -o ! -f ${OVA_TMP}/${OVFUFS} ]; then if [ -f ${OVA_TMP}/${OVFUFS} ]; then rm -f ${OVA_TMP}/${OVFUFS} fi echo "Failed!" | tee -a ${LOGFILE} echo ">>> ERROR: Error creating vmdk / partition. STOPPING!" | tee -a ${LOGFILE} print_error_pfS fi echo "Done!" | tee -a ${LOGFILE} # Create raw disk echo -n ">>> Creating raw disk... " | tee -a ${LOGFILE} mkimg \ -s gpt \ -f raw \ -b /boot/pmbr \ -p freebsd-boot:=/boot/gptboot \ -p freebsd-ufs/${PRODUCT_NAME}:=${OVA_TMP}/${OVFUFS} \ -p freebsd-swap/swap0::${OVA_SWAP_PART_SIZE} \ -o ${OVA_TMP}/${OVFRAW} 2>&1 >> ${LOGFILE} if [ $? -ne 0 -o ! -f ${OVA_TMP}/${OVFRAW} ]; then if [ -f ${OVA_TMP}/${OVFUFS} ]; then rm -f ${OVA_TMP}/${OVFUFS} fi if [ -f ${OVA_TMP}/${OVFRAW} ]; then rm -f ${OVA_TMP}/${OVFRAW} fi echo "Failed!" | tee -a ${LOGFILE} echo ">>> ERROR: Error creating temporary vmdk image. STOPPING!" | tee -a ${LOGFILE} print_error_pfS fi echo "Done!" | tee -a ${LOGFILE} # We don't need it anymore rm -f ${OVA_TMP}/${OVFUFS} >/dev/null 2>&1 # Convert raw to vmdk echo -n ">>> Creating vmdk disk... " | tee -a ${LOGFILE} vmdktool -z9 -v ${OVA_TMP}/${OVFVMDK} ${OVA_TMP}/${OVFRAW} if [ $? -ne 0 -o ! -f ${OVA_TMP}/${OVFVMDK} ]; then if [ -f ${OVA_TMP}/${OVFRAW} ]; then rm -f ${OVA_TMP}/${OVFRAW} fi if [ -f ${OVA_TMP}/${OVFVMDK} ]; then rm -f ${OVA_TMP}/${OVFVMDK} fi echo "Failed!" | tee -a ${LOGFILE} echo ">>> ERROR: Error creating vmdk image. STOPPING!" | tee -a ${LOGFILE} print_error_pfS fi echo "Done!" | tee -a ${LOGFILE} rm -f ${OVA_TMP}/i${OVFRAW} ova_setup_ovf_template echo -n ">>> Writing final ova image... " | tee -a ${LOGFILE} # Create OVA file for vmware gtar -C ${OVA_TMP} -cpf ${OVAPATH} ${PRODUCT_NAME}.ovf ${OVFVMDK} echo "Done!" | tee -a ${LOGFILE} rm -f ${OVA_TMP}/${OVFVMDK} >/dev/null 2>&1 echo ">>> OVA created: $(LC_ALL=C date)" | tee -a ${LOGFILE} } # called from create_ova_image ova_setup_ovf_template() { if [ ! -f ${OVFTEMPLATE} ]; then echo ">>> ERROR: OVF template file (${OVFTEMPLATE}) not found." print_error_pfS fi # OperatingSystemSection (${PRODUCT_NAME}.ovf) # 42 FreeBSD 32-Bit # 78 FreeBSD 64-Bit if [ "${TARGET}" = "amd64" ]; then local _os_id="78" local _os_type="freebsd64Guest" local _os_descr="FreeBSD 64-Bit" elif [ "${TARGET}" = "i386" ]; then local _os_id="42" local _os_type="freebsdGuest" local _os_descr="FreeBSD" else echo ">>> ERROR: Platform not supported for OVA (${TARGET})" print_error_pfS fi local POPULATED_SIZE=$(du -d0 -k $FINAL_CHROOT_DIR | cut -f1) local POPULATED_SIZE_IN_BYTES=$((${POPULATED_SIZE}*1024)) local VMDK_FILE_SIZE=$(stat -f "%z" ${OVA_TMP}/${OVFVMDK}) sed \ -e "s,%%VMDK_FILE_SIZE%%,${VMDK_FILE_SIZE},g" \ -e "s,%%VMDK_DISK_CAPACITY_IN_GB%%,${VMDK_DISK_CAPACITY_IN_GB},g" \ -e "s,%%POPULATED_SIZE_IN_BYTES%%,${POPULATED_SIZE_IN_BYTES},g" \ -e "s,%%OS_ID%%,${_os_id},g" \ -e "s,%%OS_TYPE%%,${_os_type},g" \ -e "s,%%OS_DESCR%%,${_os_descr},g" \ -e "s,%%PRODUCT_NAME%%,${PRODUCT_NAME},g" \ -e "s,%%PRODUCT_VERSION%%,${PRODUCT_VERSION},g" \ -e "s,%%PRODUCT_URL%%,${PRODUCT_URL},g" \ -e "/^%%PRODUCT_LICENSE%%/r ${BUILDER_ROOT}/license.txt" \ -e "/^%%PRODUCT_LICENSE%%/d" \ ${OVFTEMPLATE} > ${OVA_TMP}/${PRODUCT_NAME}.ovf } # Cleans up previous builds clean_builder() { # Clean out directories echo ">>> Cleaning up previous build environment...Please wait!" staginareas_clean_each_run if [ -d "${STAGE_CHROOT_DIR}" ]; then BASENAME=$(basename ${STAGE_CHROOT_DIR}) echo -n ">>> Cleaning ${STAGE_CHROOT_DIR} ..." chflags -R noschg ${STAGE_CHROOT_DIR} 2>&1 >/dev/null rm -rf ${STAGE_CHROOT_DIR}/* 2>/dev/null echo "Done." fi if [ -z "${NO_CLEAN_FREEBSD_OBJ}" -a -d "${FREEBSD_SRC_DIR}" ]; then OBJTREE=$(env TARGET=${TARGET} TARGET_ARCH=${TARGET_ARCH} make -C ${FREEBSD_SRC_DIR} -V OBJTREE) if [ -d "${OBJTREE}" ]; then echo -n ">>> Cleaning FreeBSD objects dir staging..." echo -n "." chflags -R noschg ${OBJTREE} 2>&1 >/dev/null echo -n "." rm -rf ${OBJTREE}/* echo "Done!" fi if [ -d "${KERNEL_BUILD_PATH}" ]; then echo -n ">>> Cleaning previously built kernel stage area..." rm -rf $KERNEL_BUILD_PATH/* echo "Done!" fi fi mkdir -p $KERNEL_BUILD_PATH echo -n ">>> Cleaning previously built images..." rm -rf $IMAGES_FINAL_DIR/* rm -rf $STAGINGAREA/* echo "Done!" if [ -z "${NO_CLEAN_FREEBSD_SRC}" ]; then if [ -d "$FREEBSD_SRC_DIR" ]; then echo -n ">>> Ensuring $FREEBSD_SRC_DIR is clean..." rm -rf ${FREEBSD_SRC_DIR} echo "Done!" fi fi echo -n ">>> Cleaning previous builder logs..." if [ -d "$BUILDER_LOGS" ]; then rm -rf ${BUILDER_LOGS} fi mkdir -p ${BUILDER_LOGS} echo "Done!" echo ">>> Cleaning of builder environment has finished." } clone_directory_contents() { if [ ! -d "$1" -o ! -d "$2" ]; then if [ -z "${LOGFILE}" ]; then echo ">>> ERROR: Argument $1 supplied is not a directory!" else echo ">>> ERROR: Argument $1 supplied is not a directory!" | tee -a ${LOGFILE} fi print_error_pfS fi echo -n ">>> Using TAR to clone $1 to $2 ..." tar -C ${1} -c -f - . | tar -C ${2} -x -p -f - echo "Done!" } clone_to_staging_area() { # Clone everything to the final staging area echo -n ">>> Cloning everything to ${STAGE_CHROOT_DIR} staging area..." LOGFILE=${BUILDER_LOGS}/cloning.${TARGET}.log tar -C ${PRODUCT_SRC} -c -f - . | \ tar -C ${STAGE_CHROOT_DIR} -x -p -f - if [ -f ${STAGE_CHROOT_DIR}/etc/master.passwd ]; then chroot ${STAGE_CHROOT_DIR} cap_mkdb /etc/master.passwd chroot ${STAGE_CHROOT_DIR} pwd_mkdb /etc/master.passwd fi mkdir -p ${STAGE_CHROOT_DIR}/etc/mtree mtree -Pcp ${STAGE_CHROOT_DIR}/var > ${STAGE_CHROOT_DIR}/etc/mtree/var.dist mtree -Pcp ${STAGE_CHROOT_DIR}/etc > ${STAGE_CHROOT_DIR}/etc/mtree/etc.dist if [ -d ${STAGE_CHROOT_DIR}/usr/local/etc ]; then mtree -Pcp ${STAGE_CHROOT_DIR}/usr/local/etc > ${STAGE_CHROOT_DIR}/etc/mtree/localetc.dist fi ## Add buildtime and lastcommit information # This is used for detecting updates. echo "$BUILTDATESTRING" > $STAGE_CHROOT_DIR/etc/version.buildtime # Record last commit info if it is available. if [ -f $SCRATCHDIR/build_commit_info.txt ]; then cp $SCRATCHDIR/build_commit_info.txt $STAGE_CHROOT_DIR/etc/version.lastcommit fi local _exclude_files="${CORE_PKG_TMP}/base_exclude_files" sed \ -e "s,%%PRODUCT_NAME%%,${PRODUCT_NAME},g" \ -e "s,%%FLAVOR%%,${_flavor},g" \ -e "s,%%VERSION%%,${_version},g" \ ${BUILDER_TOOLS}/templates/core_pkg/base/exclude_files \ > ${_exclude_files} mkdir -p ${STAGE_CHROOT_DIR}/usr/local/share/${PRODUCT_NAME} >/dev/null 2>&1 mtree \ -c \ -k uid,gid,mode,size,flags,sha256digest \ -p ${STAGE_CHROOT_DIR} \ -X ${_exclude_files} \ > ${STAGE_CHROOT_DIR}/usr/local/share/${PRODUCT_NAME}/base.mtree tar \ -C ${STAGE_CHROOT_DIR} \ -cJf ${STAGE_CHROOT_DIR}/usr/local/share/${PRODUCT_NAME}/base.txz \ -X ${_exclude_files} \ . setup_pkg_repo \ ${STAGE_CHROOT_DIR}${PKG_REPO_PATH} \ ${TARGET} \ ${TARGET_ARCH} \ ${PKG_REPO_CONF_BRANCH} \ "release" core_pkg_create repo "" ${CORE_PKG_VERSION} ${STAGE_CHROOT_DIR} setup_pkg_repo \ ${STAGE_CHROOT_DIR}${PKG_REPO_PATH} \ ${TARGET} \ ${TARGET_ARCH} \ ${PKG_REPO_CONF_BRANCH} core_pkg_create repo-devel "" ${CORE_PKG_VERSION} ${STAGE_CHROOT_DIR} rm -f ${STAGE_CHROOT_DIR}${PKG_REPO_PATH} core_pkg_create rc "" ${CORE_PKG_VERSION} ${STAGE_CHROOT_DIR} core_pkg_create base "" ${CORE_PKG_VERSION} ${STAGE_CHROOT_DIR} core_pkg_create base-nanobsd "" ${CORE_PKG_VERSION} ${STAGE_CHROOT_DIR} core_pkg_create default-config "" ${CORE_PKG_VERSION} ${STAGE_CHROOT_DIR} local DEFAULTCONF=${STAGE_CHROOT_DIR}/conf.default/config.xml # Change default interface names to match vmware driver sed -i '' -e 's,em0,vmx0,' -e 's,em1,vmx1,' ${DEFAULTCONF} core_pkg_create default-config-vmware "" ${CORE_PKG_VERSION} ${STAGE_CHROOT_DIR} # Restore default values to be used by serial package sed -i '' -e 's,vmx0,em0,' -e 's,vmx1,em1,' ${DEFAULTCONF} # Activate serial console in config.xml # If it was there before, clear the setting to be sure we don't add it twice. sed -i "" -e "/ /d" ${DEFAULTCONF} # Enable serial in the config sed -i "" -e "s/ <\/system>/ \\$(echo -e \\\n) <\/system>/" ${DEFAULTCONF} echo force > ${STAGE_CHROOT_DIR}/cf/conf/enableserial_force core_pkg_create default-config-serial "" ${CORE_PKG_VERSION} ${STAGE_CHROOT_DIR} rm -f ${STAGE_CHROOT_DIR}/cf/conf/enableserial_force rm -f ${STAGE_CHROOT_DIR}/cf/conf/config.xml # Make sure pkg is present pkg_bootstrap ${STAGE_CHROOT_DIR} echo "Done!" } create_final_staging_area() { if [ -z "${FINAL_CHROOT_DIR}" ]; then echo ">>> ERROR: FINAL_CHROOT_DIR is not set, cannot continue!" | tee -a ${LOGFILE} print_error_pfS fi if [ -d "${FINAL_CHROOT_DIR}" ]; then echo -n ">>> Previous ${FINAL_CHROOT_DIR} detected cleaning up..." | tee -a ${LOGFILE} chflags -R noschg ${FINAL_CHROOT_DIR} 2>&1 1>/dev/null rm -rf ${FINAL_CHROOT_DIR}/* 2>&1 1>/dev/null echo "Done." | tee -a ${LOGFILE} fi echo ">>> Preparing Final image staging area: $(LC_ALL=C date)" 2>&1 | tee -a ${LOGFILE} echo ">>> Cloning ${STAGE_CHROOT_DIR} to ${FINAL_CHROOT_DIR}" 2>&1 | tee -a ${LOGFILE} clone_directory_contents ${STAGE_CHROOT_DIR} ${FINAL_CHROOT_DIR} if [ ! -f $FINAL_CHROOT_DIR/sbin/init ]; then echo ">>> ERROR: Something went wrong during cloning -- Please verify!" 2>&1 | tee -a ${LOGFILE} print_error_pfS fi } customize_stagearea_for_image() { # Prepare final stage area create_final_staging_area pkg_chroot_add ${FINAL_CHROOT_DIR} rc if [ "${1}" = "nanobsd" -o \ "${1}" = "nanobsd-vga" ]; then mkdir -p ${FINAL_CHROOT_DIR}/root/var/db \ ${FINAL_CHROOT_DIR}/root/var/cache \ ${FINAL_CHROOT_DIR}/var/db/pkg \ ${FINAL_CHROOT_DIR}/var/cache/pkg mv -f ${FINAL_CHROOT_DIR}/var/db/pkg ${FINAL_CHROOT_DIR}/root/var/db mv -f ${FINAL_CHROOT_DIR}/var/cache/pkg ${FINAL_CHROOT_DIR}/root/var/cache ln -sf ../../root/var/db/pkg ${FINAL_CHROOT_DIR}/var/db/pkg ln -sf ../../root/var/cache/pkg ${FINAL_CHROOT_DIR}/var/cache/pkg pkg_chroot_add ${FINAL_CHROOT_DIR} base-nanobsd else pkg_chroot_add ${FINAL_CHROOT_DIR} base fi if [ -n "${IS_RELEASE}" ]; then pkg_chroot_add ${FINAL_CHROOT_DIR} repo else pkg_chroot_add ${FINAL_CHROOT_DIR} repo-devel fi if [ "${1}" = "iso" -o \ "${1}" = "memstick" -o \ "${1}" = "memstickserial" -o \ "${1}" = "memstickadi" ]; then install_bsdinstaller mkdir -p ${FINAL_CHROOT_DIR}/pkgs cp ${CORE_PKG_PATH}/All/*default-config*.txz ${FINAL_CHROOT_DIR}/pkgs fi if [ "${1}" = "nanobsd" -o \ "${1}" = "memstickserial" -o \ "${1}" = "memstickadi" ]; then pkg_chroot_add ${FINAL_CHROOT_DIR} default-config-serial elif [ "${1}" = "ova" ]; then pkg_chroot_add ${FINAL_CHROOT_DIR} default-config-vmware else pkg_chroot_add ${FINAL_CHROOT_DIR} default-config fi } create_distribution_tarball() { mkdir -p ${FINAL_CHROOT_DIR}/install tar -C ${FINAL_CHROOT_DIR} --exclude ./install --exclude ./pkgs -cJf ${FINAL_CHROOT_DIR}/install/${PRODUCT_NAME}.txz . } create_iso_image() { LOGFILE=${BUILDER_LOGS}/isoimage.${TARGET} echo ">>> Building bootable ISO image for ${TARGET}" | tee -a ${LOGFILE} if [ -z "${DEFAULT_KERNEL}" ]; then echo ">>> ERROR: Could not identify DEFAULT_KERNEL to install on image!" | tee -a ${LOGFILE} print_error_pfS fi customize_stagearea_for_image "iso" install_default_kernel ${DEFAULT_KERNEL} echo cdrom > $FINAL_CHROOT_DIR/etc/platform FSLABEL=$(echo ${PRODUCT_NAME} | tr '[:lower:]' '[:upper:]') echo "/dev/iso9660/${FSLABEL} / cd9660 ro 0 0" > ${FINAL_CHROOT_DIR}/etc/fstab # This check is for supporting create memstick/ova images echo -n ">>> Running command: script -aq $LOGFILE makefs -t cd9660 -o bootimage=\"i386;${FINAL_CHROOT_DIR}/boot/cdboot \"-o no-emul-boot -o rockridge " | tee -a ${LOGFILE} echo "-o label=${FSLABEL} -o publisher=\"${PRODUCT_NAME} project.\" $ISOPATH ${FINAL_CHROOT_DIR}" | tee -a ${LOGFILE} create_distribution_tarball # Remove /rescue from iso since cd9660 cannot deal with hardlinks rm -rf ${FINAL_CHROOT_DIR}/rescue makefs -t cd9660 -o bootimage="i386;${FINAL_CHROOT_DIR}/boot/cdboot" -o no-emul-boot -o rockridge \ -o label=${FSLABEL} -o publisher="${PRODUCT_NAME} project." $ISOPATH ${FINAL_CHROOT_DIR} 2>&1 >> ${LOGFILE} if [ $? -ne 0 -o ! -f $ISOPATH ]; then if [ -f ${ISOPATH} ]; then rm -f $ISOPATH fi echo ">>> ERROR: Something wrong happened during ISO image creation. STOPPING!" | tee -a ${LOGFILE} print_error_pfS fi gzip -qf $ISOPATH & _bg_pids="${_bg_pids}${_bg_pids:+ }$!" echo ">>> ISO created: $(LC_ALL=C date)" | tee -a ${LOGFILE} } create_memstick_image() { LOGFILE=${BUILDER_LOGS}/memstick.${TARGET} if [ "${MEMSTICKPATH}" = "" ]; then echo ">>> MEMSTICKPATH is empty skipping generation of memstick image!" | tee -a ${LOGFILE} return fi if [ ! -d ${FINAL_CHROOT_DIR}/boot ]; then customize_stagearea_for_image "memstick" install_default_kernel ${DEFAULT_KERNEL} fi echo cdrom > $FINAL_CHROOT_DIR/etc/platform echo ">>> Creating memstick to ${MEMSTICKPATH}." 2>&1 | tee -a ${LOGFILE} echo "/dev/ufs/${PRODUCT_NAME} / ufs ro 0 0" > ${FINAL_CHROOT_DIR}/etc/fstab echo "kern.cam.boot_delay=10000" >> ${FINAL_CHROOT_DIR}/boot/loader.conf.local create_distribution_tarball makefs -B little -o label=${PRODUCT_NAME} ${MEMSTICKPATH} ${FINAL_CHROOT_DIR} if [ $? -ne 0 ]; then if [ -f ${MEMSTICKPATH} ]; then rm -f $MEMSTICKPATH fi echo ">>> ERROR: Something wrong happened during MEMSTICK image creation. STOPPING!" | tee -a ${LOGFILE} print_error_pfS fi MD=$(mdconfig -a -t vnode -f $MEMSTICKPATH) # Just in case trap "mdconfig -d -u ${MD}" 1 2 15 EXIT gpart create -s BSD ${MD} 2>&1 >> ${LOGFILE}| gpart bootcode -b ${FINAL_CHROOT_DIR}/boot/boot ${MD} 2>&1 >> ${LOGFILE} gpart add -t freebsd-ufs ${MD} 2>&1 >> ${LOGFILE} trap "-" 1 2 15 EXIT mdconfig -d -u ${MD} 2>&1 | tee -a ${LOGFILE} gzip -qf $MEMSTICKPATH & _bg_pids="${_bg_pids}${_bg_pids:+ }$!" echo ">>> MEMSTICK created: $(LC_ALL=C date)" | tee -a ${LOGFILE} } create_memstick_serial_image() { LOGFILE=${BUILDER_LOGS}/memstickserial.${TARGET} if [ "${MEMSTICKSERIALPATH}" = "" ]; then echo ">>> MEMSTICKSERIALPATH is empty skipping generation of memstick image!" | tee -a ${LOGFILE} return fi if [ ! -d ${FINAL_CHROOT_DIR}/boot ]; then customize_stagearea_for_image "memstickserial" install_default_kernel ${DEFAULT_KERNEL} fi echo cdrom > $FINAL_CHROOT_DIR/etc/platform echo "/dev/ufs/${PRODUCT_NAME} / ufs ro 0 0" > ${FINAL_CHROOT_DIR}/etc/fstab echo "kern.cam.boot_delay=10000" >> ${FINAL_CHROOT_DIR}/boot/loader.conf.local echo ">>> Creating serial memstick to ${MEMSTICKSERIALPATH}." 2>&1 | tee -a ${LOGFILE} BOOTCONF=${FINAL_CHROOT_DIR}/boot.config LOADERCONF=${FINAL_CHROOT_DIR}/boot/loader.conf echo ">>> Activating serial console..." 2>&1 | tee -a ${LOGFILE} # Activate serial console in boot.config if [ -f ${BOOTCONF} ]; then sed -i "" '/-D$/d' ${BOOTCONF} fi echo "-S115200 -D" >> ${BOOTCONF} # Remove old console options if present. [ -f "${LOADERCONF}" ] \ && sed -i "" -Ee "/(console|boot_multicons|boot_serial)/d" ${LOADERCONF} # Activate serial console+video console in loader.conf echo 'boot_multicons="YES"' >> ${LOADERCONF} echo 'boot_serial="YES"' >> ${LOADERCONF} echo 'console="comconsole,vidconsole"' >> ${LOADERCONF} echo 'comconsole_speed="115200"' >> ${LOADERCONF} create_distribution_tarball makefs -B little -o label=${PRODUCT_NAME} ${MEMSTICKSERIALPATH} ${FINAL_CHROOT_DIR} if [ $? -ne 0 ]; then if [ -f ${MEMSTICKSERIALPATH} ]; then rm -f $MEMSTICKSERIALPATH fi echo ">>> ERROR: Something wrong happened during MEMSTICKSERIAL image creation. STOPPING!" | tee -a ${LOGFILE} print_error_pfS fi MD=$(mdconfig -a -t vnode -f $MEMSTICKSERIALPATH) # Just in case trap "mdconfig -d -u ${MD}" 1 2 15 EXIT gpart create -s BSD ${MD} 2>&1 >> ${LOGFILE} gpart bootcode -b ${FINAL_CHROOT_DIR}/boot/boot ${MD} 2>&1 >> ${LOGFILE} gpart add -t freebsd-ufs ${MD} 2>&1 >> ${LOGFILE} trap "-" 1 2 15 EXIT mdconfig -d -u ${MD} 2>&1 >> ${LOGFILE} gzip -qf $MEMSTICKSERIALPATH & _bg_pids="${_bg_pids}${_bg_pids:+ }$!" echo ">>> MEMSTICKSERIAL created: $(LC_ALL=C date)" | tee -a ${LOGFILE} } create_memstick_adi_image() { LOGFILE=${BUILDER_LOGS}/memstickadi${TARGET} if [ "${MEMSTICKADIPATH}" = "" ]; then echo ">>> MEMSTICKADIPATH is empty skipping generation of memstick image!" | tee -a ${LOGFILE} return fi if [ ! -d ${FINAL_CHROOT_DIR}/boot ]; then customize_stagearea_for_image "memstickadi" install_default_kernel ${DEFAULT_KERNEL} fi echo cdrom > $FINAL_CHROOT_DIR/etc/platform echo "/dev/ufs/${PRODUCT_NAME} / ufs ro 0 0" > ${FINAL_CHROOT_DIR}/etc/fstab echo "kern.cam.boot_delay=10000" >> ${FINAL_CHROOT_DIR}/boot/loader.conf.local echo ">>> Creating serial memstick to ${MEMSTICKADIPATH}." 2>&1 | tee -a ${LOGFILE} BOOTCONF=${FINAL_CHROOT_DIR}/boot.config LOADERCONF=${FINAL_CHROOT_DIR}/boot/loader.conf echo ">>> Activating serial console..." 2>&1 | tee -a ${LOGFILE} # Activate serial console in boot.config if [ -f ${BOOTCONF} ]; then sed -i "" '/-[Dh]$/d' ${BOOTCONF} fi echo "-S115200 -h" >> ${BOOTCONF} # Remove old console options if present. [ -f "${LOADERCONF}" ] \ && sed -i "" -Ee "/(console|boot_multicons|boot_serial|hint.uart)/d" ${LOADERCONF} # Activate serial console+video console in loader.conf echo 'boot_serial="YES"' >> ${LOADERCONF} echo 'console="comconsole"' >> ${LOADERCONF} echo 'comconsole_speed="115200"' >> ${LOADERCONF} echo 'comconsole_port="0x2F8"' >> ${LOADERCONF} echo 'hint.uart.0.flags="0x00"' >> ${LOADERCONF} echo 'hint.uart.1.flags="0x10"' >> ${LOADERCONF} create_distribution_tarball makefs -B little -o label=${PRODUCT_NAME} ${MEMSTICKADIPATH} ${FINAL_CHROOT_DIR} if [ $? -ne 0 ]; then if [ -f ${MEMSTICKADIPATH} ]; then rm -f $MEMSTICKADIPATH fi echo ">>> ERROR: Something wrong happened during MEMSTICKADI image creation. STOPPING!" | tee -a ${LOGFILE} print_error_pfS fi MD=$(mdconfig -a -t vnode -f $MEMSTICKADIPATH) # Just in case trap "mdconfig -d -u ${MD}" 1 2 15 EXIT gpart create -s BSD ${MD} 2>&1 >> ${LOGFILE} gpart bootcode -b ${FINAL_CHROOT_DIR}/boot/boot ${MD} 2>&1 >> ${LOGFILE} gpart add -t freebsd-ufs ${MD} 2>&1 >> ${LOGFILE} trap "-" 1 2 15 EXIT mdconfig -d -u ${MD} 2>&1 >> ${LOGFILE} gzip -qf $MEMSTICKADIPATH & _bg_pids="${_bg_pids}${_bg_pids:+ }$!" echo ">>> MEMSTICKADI created: $(LC_ALL=C date)" | tee -a ${LOGFILE} } # Create pkg conf on desired place with desired arch/branch setup_pkg_repo() { if [ -z "${4}" ]; then return fi local _target="${1}" local _arch="${2}" local _target_arch="${3}" local _branch="${4}" local _release="${5}" if [ -n "${_release}" ]; then local _template="${PKG_REPO_TEMPLATE}" else local _template="${PKG_REPO_DEVEL_TEMPLATE}" fi if [ -z "${_template}" -o ! -f "${_template}" ]; then echo ">>> ERROR: It was not possible to find pkg conf template ${_template}" print_error_pfS fi mkdir -p $(dirname ${_target}) >/dev/null 2>&1 sed \ -e "s/%%ARCH%%/${_arch}_${_target_arch}/" \ -e "s/%%GIT_REPO_BRANCH_OR_TAG%%/${_branch}/g" \ -e "s,%%PKG_REPO_SERVER%%,${PKG_REPO_SERVER},g" \ -e "s/%%PRODUCT_NAME%%/${PRODUCT_NAME}/g" \ ${_template} \ > ${_target} } # This routine ensures any ports / binaries that the builder # system needs are on disk and ready for execution. builder_setup() { # If Product-builder is already installed, just leave if pkg info -e -q ${PRODUCT_NAME}-builder; then return fi if [ ! -f ${PKG_REPO_PATH} ]; then [ -d $(dirname ${PKG_REPO_PATH}) ] \ || mkdir -p $(dirname ${PKG_REPO_PATH}) update_freebsd_sources local _arch=$(uname -m) setup_pkg_repo \ ${PKG_REPO_PATH} \ ${_arch} \ ${_arch} \ ${PKG_REPO_CONF_BRANCH} fi pkg install ${PRODUCT_NAME}-builder } # Updates FreeBSD sources update_freebsd_sources() { if [ "${1}" = "full" ]; then local _full=1 local _clone_params="" else local _full=0 local _clone_params="--depth 1 --single-branch" fi if [ ! -d "${FREEBSD_SRC_DIR}" ]; then mkdir -p ${FREEBSD_SRC_DIR} fi if [ -n "${NO_BUILDWORLD}" -a -n "${NO_BUILDKERNEL}" ]; then echo ">>> NO_BUILDWORLD and NO_BUILDKERNEL set, skipping update of freebsd sources" | tee -a ${LOGFILE} return fi echo -n ">>> Obtaining FreeBSD sources ${FREEBSD_BRANCH}..." local _FREEBSD_BRANCH=${FREEBSD_BRANCH:-"devel"} local _CLONE=1 if [ -d "${FREEBSD_SRC_DIR}/.git" ]; then CUR_BRANCH=$(cd ${FREEBSD_SRC_DIR} && git branch | grep '^\*' | cut -d' ' -f2) if [ ${_full} -eq 0 -a "${CUR_BRANCH}" = "${_FREEBSD_BRANCH}" ]; then _CLONE=0 ( cd ${FREEBSD_SRC_DIR} && git clean -fd; git fetch origin; git reset --hard origin/${_FREEBSD_BRANCH} ) 2>&1 | grep -C3 -i -E 'error|fatal' else rm -rf ${FREEBSD_SRC_DIR} fi fi if [ ${_CLONE} -eq 1 ]; then ( git clone --branch ${_FREEBSD_BRANCH} ${_clone_params} ${FREEBSD_REPO_BASE} ${FREEBSD_SRC_DIR} ) 2>&1 | grep -C3 -i -E 'error|fatal' fi if [ ! -d "${FREEBSD_SRC_DIR}/.git" ]; then echo ">>> ERROR: It was not possible to clone FreeBSD src repo" print_error_pfS fi if [ -n "${GIT_FREEBSD_COSHA1}" ]; then ( cd ${FREEBSD_SRC_DIR} && git checkout ${GIT_FREEBSD_COSHA1} ) 2>&1 | grep -C3 -i -E 'error|fatal' fi echo "Done!" } pkg_chroot() { local _root="${1}" shift if [ $# -eq 0 ]; then return -1 fi if [ -z "${_root}" -o "${_root}" = "/" -o ! -d "${_root}" ]; then return -1 fi mkdir -p \ ${SCRATCHDIR}/pkg_cache \ ${_root}/var/cache/pkg \ ${_root}/dev /sbin/mount -t nullfs ${SCRATCHDIR}/pkg_cache ${_root}/var/cache/pkg /sbin/mount -t devfs devfs ${_root}/dev cp -f /etc/resolv.conf ${_root}/etc/resolv.conf touch ${BUILDER_LOGS}/install_pkg_install_ports.txt script -aq ${BUILDER_LOGS}/install_pkg_install_ports.txt pkg -c ${_root} $@ >/dev/null 2>&1 rm -f ${_root}/etc/resolv.conf /sbin/umount -f ${_root}/dev /sbin/umount -f ${_root}/var/cache/pkg } pkg_chroot_add() { if [ -z "${1}" -o -z "${2}" ]; then return 1 fi local _target="${1}" local _pkg="$(get_pkg_name ${2}).txz" if [ ! -d "${_target}" ]; then echo ">>> ERROR: Target dir ${_target} not found" print_error_pfS fi if [ ! -f ${CORE_PKG_PATH}/All/${_pkg} ]; then echo ">>> ERROR: Package ${_pkg} not found" print_error_pfS fi cp ${CORE_PKG_PATH}/All/${_pkg} ${_target} pkg_chroot ${_target} add /${_pkg} rm -f ${_target}/${_pkg} } pkg_bootstrap() { local _root=${1:-"${STAGE_CHROOT_DIR}"} setup_pkg_repo \ ${_root}${PKG_REPO_PATH} \ ${TARGET} \ ${TARGET_ARCH} \ ${PKG_REPO_CONF_BRANCH} \ ${IS_RELEASE} pkg_chroot ${_root} bootstrap -f } # This routine assists with installing various # freebsd ports files into the pfsenese-fs staging # area. install_pkg_install_ports() { local MAIN_PKG="${1}" if [ -z "${MAIN_PKG}" ]; then MAIN_PKG=${PRODUCT_NAME} fi echo ">>> Installing pkg repository in chroot (${STAGE_CHROOT_DIR})..." [ -d ${STAGE_CHROOT_DIR}/var/cache/pkg ] || \ mkdir -p ${STAGE_CHROOT_DIR}/var/cache/pkg [ -d ${SCRATCHDIR}/pkg_cache ] || \ mkdir -p ${SCRATCHDIR}/pkg_cache echo ">>> Installing built ports (packages) in chroot (${STAGE_CHROOT_DIR})... (starting)" pkg_chroot ${STAGE_CHROOT_DIR} install ${MAIN_PKG} ${custom_package_list} pkg_chroot ${STAGE_CHROOT_DIR} autoremove echo ">>> Installing built ports (packages) in chroot (${STAGE_CHROOT_DIR})... (finshied)" } install_bsdinstaller() { echo ">>> Installing BSDInstaller in chroot (${FINAL_CHROOT_DIR})... (starting)" pkg_chroot ${FINAL_CHROOT_DIR} install -f bsdinstaller sed -i '' -e "s,%%PRODUCT_NAME%%,${PRODUCT_NAME}," \ -e "s,%%PRODUCT_VERSION%%,${PRODUCT_VERSION}," \ -e "s,%%ARCH%%,${TARGET}," \ ${FINAL_CHROOT_DIR}/usr/local/share/dfuibe_lua/conf/pfSense.lua \ ${FINAL_CHROOT_DIR}/usr/local/share/dfuibe_lua/conf/pfSense_rescue.lua echo ">>> Installing BSDInstaller in chroot (${FINAL_CHROOT_DIR})... (finished)" } staginareas_clean_each_run() { echo -n ">>> Cleaning build directories: " if [ -d "${FINAL_CHROOT_DIR}" ]; then BASENAME=$(basename ${FINAL_CHROOT_DIR}) echo -n "$BASENAME " chflags -R noschg ${FINAL_CHROOT_DIR} 2>&1 >/dev/null rm -rf ${FINAL_CHROOT_DIR}/* 2>/dev/null fi echo "Done!" } # Imported from FreeSBIE buildkernel() { if [ -n "${NO_BUILDKERNEL}" ]; then echo ">>> NO_BUILDKERNEL set, skipping build" | tee -a ${LOGFILE} return fi if [ -z "${KERNCONF}" ]; then echo ">>> ERROR: No kernel configuration defined probably this is not what you want! STOPPING!" | tee -a ${LOGFILE} print_error_pfS fi if [ -n "${KERNELCONF}" ]; then export KERNCONFDIR=$(dirname ${KERNELCONF}) export KERNCONF=$(basename ${KERNELCONF}) fi SRCCONFBASENAME=$(basename ${SRC_CONF}) echo ">>> KERNCONFDIR: ${KERNCONFDIR}" echo ">>> ARCH: ${TARGET}" echo ">>> SRC_CONF: ${SRCCONFBASENAME}" makeargs="${MAKEJ_KERNEL} SRCCONF=${SRC_CONF} __MAKE_CONF=${MAKE_CONF} TARGET_ARCH=${TARGET_ARCH} TARGET=${TARGET}" echo ">>> Builder is running the command: script -aq $LOGFILE make -DNO_KERNELCLEAN $makeargs buildkernel KERNCONF=${KERNCONF}" | tee -a $LOGFILE (script -q $LOGFILE make -C ${FREEBSD_SRC_DIR} -DNO_KERNELCLEAN $makeargs buildkernel KERNCONF=${KERNCONF} || print_error_pfS;) | egrep '^>>>' } # Imported from FreeSBIE installkernel() { if [ -z "${KERNCONF}" ]; then echo ">>> ERROR: No kernel configuration defined probably this is not what you want! STOPPING!" | tee -a ${LOGFILE} print_error_pfS fi if [ -n "${KERNELCONF}" ]; then export KERNCONFDIR=$(dirname ${KERNELCONF}) export KERNCONF=$(basename ${KERNELCONF}) fi mkdir -p ${STAGE_CHROOT_DIR}/boot makeargs="${MAKEJ_KERNEL} SRCCONF=${SRC_CONF} __MAKE_CONF=${MAKE_CONF} TARGET_ARCH=${TARGET_ARCH} TARGET=${TARGET} DESTDIR=${KERNEL_DESTDIR}" echo ">>> Builder is running the command: script -aq $LOGFILE make ${makeargs} installkernel KERNCONF=${KERNCONF}" | tee -a $LOGFILE (script -aq $LOGFILE make -C ${FREEBSD_SRC_DIR} ${makeargs} installkernel KERNCONF=${KERNCONF} || print_error_pfS;) | egrep '^>>>' gzip -f9 $KERNEL_DESTDIR/boot/kernel/kernel } # Launch is ran first to setup a few variables that we need # Imported from FreeSBIE launch() { if [ "$(id -u)" != "0" ]; then echo "Sorry, this must be done as root." fi echo ">>> Operation $0 has started at $(date)" } finish() { echo ">>> Operation $0 has ended at $(date)" } pkg_repo_rsync() { local _repo_path="${1}" if [ -n "${DO_NOT_UPLOAD}" -o -z "${_repo_path}" -o ! -d "${_repo_path}" ]; then return fi if [ -z "${LOGFILE}" ]; then local _logfile="/dev/null" else local _logfile="${LOGFILE}" fi echo -n ">>> Sending updated repository to ${PKG_RSYNC_HOSTNAME}... " | tee -a ${_logfile} if script -aq ${_logfile} rsync -ave "ssh -p ${PKG_RSYNC_SSH_PORT}" \ --timeout=60 --delete-delay ${_repo_path} \ ${PKG_RSYNC_USERNAME}@${PKG_RSYNC_HOSTNAME}:${PKG_RSYNC_DESTDIR} >/dev/null 2>&1 then echo "Done!" | tee -a ${_logfile} else echo "Failed!" | tee -a ${_logfile} echo ">>> ERROR: An error occurred sending repo to remote hostname" print_error_pfS fi } poudriere_create_patch() { local _jail_patch="${SCRATCHDIR}/poudriere_jail.${GIT_REPO_BRANCH_OR_TAG}.patch" if [ -z "${FREEBSD_PARENT_BRANCH}" ]; then echo ">>> ERROR: FREEBSD_PARENT_BRANCH is not set" fi LOGFILE=${BUILDER_LOGS}/poudriere.log # Get FreeBSD source and apply patches update_freebsd_sources full [ -f "${_jail_patch}" ] && \ rm -f "${_jail_patch}" # Create a big patch with all our changes to use on jail ( \ cd ${FREEBSD_SRC_DIR} && \ git diff $(git merge-base origin/${FREEBSD_PARENT_BRANCH} ${FREEBSD_BRANCH}) > ${_jail_patch} ) >/dev/null 2>&1 # Check if patch was created if [ ! -s "${_jail_patch}" ]; then echo ">>> ERROR: Patch does not exist or is empty, aborting..." | tee -a ${LOGFILE} print_error_pfS fi } poudriere_possible_archs() { local _arch=$(uname -m) local _archs="i386.i386" # IF host is amd64, we'll create both repos, and if possible armv6 if [ "${_arch}" = "amd64" ]; then _archs="amd64.amd64 ${_archs}" if [ -f /usr/local/bin/qemu-arm-static ]; then # Make sure binmiscctl is ok /usr/local/etc/rc.d/qemu_user_static forcestart >/dev/null 2>&1 if binmiscctl lookup armv6 >/dev/null 2>&1; then _archs="${_archs} arm.armv6" fi fi fi if [ -n "${ARCH_LIST}" ]; then local _found=0 for _desired_arch in ${ARCH_LIST}; do _found=0 for _possible_arch in ${_archs}; do if [ "${_desired_arch}" = "${_possible_arch}" ]; then _found=1 break fi done if [ ${_found} -eq 0 ]; then echo ">>> ERROR: Impossible to build for arch: ${_desired_arch}" print_error_pfS fi done _archs="${ARCH_LIST}" fi echo ${_archs} } poudriere_jail_name() { local _jail_arch="${1}" if [ -z "${_jail_arch}" ]; then return 1 fi # Poudriere doesn't like periods in jail names _jail_arch=$(echo "${_jail_arch}" | tr '.' '_') echo "${PRODUCT_NAME}_${GIT_REPO_BRANCH_OR_TAG}_${_jail_arch}" } poudriere_create_ports_tree() { LOGFILE=${BUILDER_LOGS}/poudriere.log if ! poudriere ports -l | grep -q -E "^${POUDRIERE_PORTS_NAME}[[:blank:]]"; then local _branch="" if [ -z "${POUDRIERE_PORTS_GIT_URL}" ]; then echo ">>> ERROR: POUDRIERE_PORTS_GIT_URL is not defined" print_error_pfS fi if [ -n "${POUDRIERE_PORTS_GIT_BRANCH}" ]; then _branch="-B ${POUDRIERE_PORTS_GIT_BRANCH}" fi echo -n ">>> Creating poudriere ports tree, it may take some time... " | tee -a ${LOGFILE} if ! script -aq ${LOGFILE} poudriere ports -c -p "${POUDRIERE_PORTS_NAME}" -m git ${_branch} >/dev/null 2>&1; then echo "" | tee -a ${LOGFILE} echo ">>> ERROR: Error creating poudriere ports tree, aborting..." | tee -a ${LOGFILE} print_error_pfS fi echo "Done!" | tee -a ${LOGFILE} fi } poudriere_init() { local _error=0 local _archs=$(poudriere_possible_archs) local _jail_patch="${SCRATCHDIR}/poudriere_jail.${GIT_REPO_BRANCH_OR_TAG}.patch" LOGFILE=${BUILDER_LOGS}/poudriere.log # Sanity checks if [ -z "${ZFS_TANK}" ]; then echo ">>> ERROR: \$ZFS_TANK is empty" | tee -a ${LOGFILE} error=1 fi if [ -z "${ZFS_ROOT}" ]; then echo ">>> ERROR: \$ZFS_ROOT is empty" | tee -a ${LOGFILE} error=1 fi if [ -z "${POUDRIERE_PORTS_NAME}" ]; then echo ">>> ERROR: \$POUDRIERE_PORTS_NAME is empty" | tee -a ${LOGFILE} error=1 fi if [ ${_error} -eq 1 ]; then print_error_pfS fi # Check if zpool exists if ! zpool list ${ZFS_TANK} >/dev/null 2>&1; then echo ">>> ERROR: ZFS tank ${ZFS_TANK} not found, please create it and try again..." | tee -a ${LOGFILE} print_error_pfS fi # Check if zfs rootfs exists if ! zfs list ${ZFS_TANK}${ZFS_ROOT} >/dev/null 2>&1; then echo ">>> ERROR: ZFS filesystem ${ZFS_TANK}${ZFS_ROOT} not found, please create it and try again..." | tee -a ${LOGFILE} print_error_pfS fi # Make sure poudriere is installed if ! pkg info --quiet poudriere; then echo ">>> Installing poudriere..." | tee -a ${LOGFILE} if ! pkg install poudriere >/dev/null 2>&1; then echo ">>> ERROR: poudriere was not installed, aborting..." | tee -a ${LOGFILE} print_error_pfS fi fi # Create poudriere.conf if [ -z "${POUDRIERE_PORTS_GIT_URL}" ]; then echo ">>> ERROR: POUDRIERE_PORTS_GIT_URL is not defined" print_error_pfS fi echo ">>> Creating poudriere.conf" | tee -a ${LOGFILE} cat </usr/local/etc/poudriere.conf ZPOOL=${ZFS_TANK} ZROOTFS=${ZFS_ROOT} RESOLV_CONF=/etc/resolv.conf BASEFS=/usr/local/poudriere USE_PORTLINT=no USE_TMPFS=yes NOLINUX=yes DISTFILES_CACHE=/usr/ports/distfiles CHECK_CHANGED_OPTIONS=yes CHECK_CHANGED_DEPS=yes ATOMIC_PACKAGE_REPOSITORY=yes COMMIT_PACKAGES_ON_FAILURE=no GIT_URL="${POUDRIERE_PORTS_GIT_URL}" EOF # Remove old jails for jail_arch in ${_archs}; do jail_name=$(poudriere_jail_name ${jail_arch}) if poudriere jail -i -j "${jail_name}" >/dev/null 2>&1; then echo ">>> Poudriere jail ${jail_name} already exists, deleting it..." | tee -a ${LOGFILE} poudriere jail -d -j "${jail_name}" >/dev/null 2>&1 fi done # Remove old ports tree if poudriere ports -l | grep -q -E "^${POUDRIERE_PORTS_NAME}[[:blank:]]"; then echo ">>> Poudriere ports tree ${POUDRIERE_PORTS_NAME} already exists, deleting it..." | tee -a ${LOGFILE} poudriere ports -d -p "${POUDRIERE_PORTS_NAME}" fi poudriere_create_patch local native_xtools="" # Now we are ready to create jails for jail_arch in ${_archs}; do jail_name=$(poudriere_jail_name ${jail_arch}) if [ "${jail_arch}" = "arm.armv6" ]; then native_xtools="-x" else native_xtools="" fi echo -n ">>> Creating jail ${jail_name}, it may take some time... " | tee -a ${LOGFILE} # XXX: Change -m to git when it's available in poudriere if ! script -aq ${LOGFILE} poudriere jail -c -j "${jail_name}" -v ${FREEBSD_PARENT_BRANCH} \ -a ${jail_arch} -m svn -P ${_jail_patch} ${native_xtools} >/dev/null 2>&1; then echo "" | tee -a ${LOGFILE} echo ">>> ERROR: Error creating jail ${jail_name}, aborting..." | tee -a ${LOGFILE} print_error_pfS fi echo "Done!" | tee -a ${LOGFILE} done poudriere_create_ports_tree echo ">>> Poudriere is now configured!" | tee -a ${LOGFILE} } poudriere_update_jails() { local _archs=$(poudriere_possible_archs) local _jail_patch="${SCRATCHDIR}/poudriere_jail.${GIT_REPO_BRANCH_OR_TAG}.patch" LOGFILE=${BUILDER_LOGS}/poudriere.log poudriere_create_patch local native_xtools="" for jail_arch in ${_archs}; do jail_name=$(poudriere_jail_name ${jail_arch}) if ! poudriere jail -i -j "${jail_name}" >/dev/null 2>&1; then echo ">>> Poudriere jail ${jail_name} not found, skipping..." | tee -a ${LOGFILE} continue fi if [ "${jail_arch}" = "arm.armv6" ]; then native_xtools="-x" else native_xtools="" fi echo -n ">>> Updating jail ${jail_name}, it may take some time... " | tee -a ${LOGFILE} if ! script -aq ${LOGFILE} poudriere jail -u -j "${jail_name}" -P ${_jail_patch} ${native_xtools} >/dev/null 2>&1; then echo "" | tee -a ${LOGFILE} echo ">>> ERROR: Error updating jail ${jail_name}, aborting..." | tee -a ${LOGFILE} print_error_pfS fi echo "Done!" | tee -a ${LOGFILE} done } poudriere_update_ports() { LOGFILE=${BUILDER_LOGS}/poudriere.log # Create ports tree if necessary if ! poudriere ports -l | grep -q -E "^${POUDRIERE_PORTS_NAME}[[:blank:]]"; then poudriere_create_ports_tree else echo -n ">>> Reseting local changes on ports tree ${POUDRIERE_PORTS_NAME}... " | tee -a ${LOGFILE} script -aq ${LOGFILE} git -C "/usr/local/poudriere/ports/${POUDRIERE_PORTS_NAME}" reset --hard >/dev/null 2>&1 script -aq ${LOGFILE} git -C "/usr/local/poudriere/ports/${POUDRIERE_PORTS_NAME}" clean -fd >/dev/null 2>&1 echo "Done!" | tee -a ${LOGFILE} echo -n ">>> Updating ports tree ${POUDRIERE_PORTS_NAME}... " | tee -a ${LOGFILE} script -aq ${LOGFILE} poudriere ports -u -p "${POUDRIERE_PORTS_NAME}" >/dev/null 2>&1 echo "Done!" | tee -a ${LOGFILE} fi } poudriere_bulk() { local _archs=$(poudriere_possible_archs) LOGFILE=${BUILDER_LOGS}/poudriere.log if [ -z "${DO_NOT_UPLOAD}" -a -z "${PKG_RSYNC_HOSTNAME}" ]; then echo ">>> ERROR: PKG_RSYNC_HOSTNAME is not set" print_error_pfS fi poudriere_create_ports_tree [ -d /usr/local/etc/poudriere.d ] || \ mkdir -p /usr/local/etc/poudriere.d if [ -f "${BUILDER_TOOLS}/conf/pfPorts/make.conf" ]; then cp -f "${BUILDER_TOOLS}/conf/pfPorts/make.conf" /usr/local/etc/poudriere.d/${POUDRIERE_PORTS_NAME}-make.conf fi # Change version of pfSense meta ports for snapshots if [ -z "${_IS_RELEASE}" ]; then for meta_pkg in ${PRODUCT_NAME} ${PRODUCT_NAME}-vmware; do local _meta_pkg_version="$(echo "${PRODUCT_VERSION}" | sed 's,DEVELOPMENT,ALPHA,')-${DATESTRING}" sed -i '' -e "/^DISTVERSION/ s,^.*,DISTVERSION= ${_meta_pkg_version}," \ /usr/local/poudriere/ports/${POUDRIERE_PORTS_NAME}/security/${meta_pkg}/Makefile done fi for jail_arch in ${_archs}; do jail_name=$(poudriere_jail_name ${jail_arch}) if ! poudriere jail -i -j "${jail_name}" >/dev/null 2>&1; then echo ">>> Poudriere jail ${jail_name} not found, skipping..." | tee -a ${LOGFILE} continue fi if [ -f "${POUDRIERE_BULK}.${jail_arch}" ]; then _ref_bulk="${POUDRIERE_BULK}.${jail_arch}" else _ref_bulk="${POUDRIERE_BULK}" fi _bulk=${SCRATCHDIR}/poudriere_bulk.${GIT_REPO_BRANCH_OR_TAG} sed -e "s,%%PRODUCT_NAME%%,${PRODUCT_NAME},g" ${_ref_bulk} > ${_bulk} if ! poudriere bulk -f ${_bulk} -j ${jail_name} -p ${POUDRIERE_PORTS_NAME}; then echo ">>> ERROR: Something went wrong..." print_error_pfS fi echo ">>> Cleaning up old packages from repo..." if ! poudriere pkgclean -f ${_bulk} -j ${jail_name} -p ${POUDRIERE_PORTS_NAME} -y; then echo ">>> ERROR: Something went wrong..." print_error_pfS fi # ./ is intentional, it's a rsync trick to make it chdir to directory before send it pkg_repo_rsync "/usr/local/poudriere/data/packages/./${jail_name}-${POUDRIERE_PORTS_NAME}" done } # This routine is called to write out to stdout # a string. The string is appended to $SNAPSHOTSLOGFILE # and we scp the log file to the builder host if # needed for the real time logging functions. snapshots_update_status() { if [ -z "${SNAPSHOTS}" -o -z "$1" ]; then return fi echo $1 echo "`date` -|- $1" >> $SNAPSHOTSLOGFILE if [ -z "${DO_NOT_UPLOAD}" -a -n "${RSYNCIP}" ]; then LU=`cat $SNAPSHOTSLASTUPDATE` CT=`date "+%H%M%S"` # Only update every minute if [ "$LU" != "$CT" ]; then ssh ${RSYNCUSER}@${RSYNCIP} "mkdir -p ${RSYNCLOGS}" scp -q $SNAPSHOTSLOGFILE ${RSYNCUSER}@${RSYNCIP}:${RSYNCLOGS}/build.log date "+%H%M%S" > $SNAPSHOTSLASTUPDATE fi fi } # Copy the current log file to $filename.old on # the snapshot www server (real time logs) snapshots_rotate_logfile() { if [ -z "${DO_NOT_UPLOAD}" -a -n "${RSYNCIP}" ]; then scp -q $SNAPSHOTSLOGFILE ${RSYNCUSER}@${RSYNCIP}:${RSYNCLOGS}/build.log.old fi # Cleanup log file rm -f $SNAPSHOTSLOGFILE; touch $SNAPSHOTSLOGFILE rm -f $SNAPSHOTSLASTUPDATE; touch $SNAPSHOTSLASTUPDATE } snapshots_create_latest_symlink() { local _image="${1}" if [ -z "${_image}" ]; then return fi if [ -z "${TIMESTAMP_SUFFIX}" ]; then return fi if [ -f "${_image}.gz" ]; then local _image_fixed="${_image}.gz" elif [ -f "${_image}" ]; then local _image_fixed=${_image} else return fi local _symlink=$(echo ${_image_fixed} | sed "s,${TIMESTAMP_SUFFIX},-latest,") ln -sf $(basename ${_image_fixed}) ${_symlink} ln -sf $(basename ${_image}).sha256 ${_symlink}.sha256 } snapshots_copy_to_staging_nanobsd() { for NANOTYPE in nanobsd nanobsd-vga; do for FILESIZE in ${1}; do FILENAMEFULL="${PRODUCT_NAME}-${PRODUCT_VERSION}-${FILESIZE}-${TARGET}-${NANOTYPE}${TIMESTAMP_SUFFIX}.img.gz" FILENAMEUPGRADE="${PRODUCT_NAME}-${PRODUCT_VERSION}-${FILESIZE}-${TARGET}-${NANOTYPE}-upgrade${TIMESTAMP_SUFFIX}.img.gz" mkdir -p $STAGINGAREA/nanobsd mkdir -p $STAGINGAREA/nanobsdupdates cp -l $IMAGES_FINAL_DIR/$FILENAMEFULL $STAGINGAREA/nanobsd/ 2>/dev/null cp -l $IMAGES_FINAL_DIR/$FILENAMEUPGRADE $STAGINGAREA/nanobsdupdates 2>/dev/null if [ -f $STAGINGAREA/nanobsd/$FILENAMEFULL ]; then sha256 $STAGINGAREA/nanobsd/$FILENAMEFULL > $STAGINGAREA/nanobsd/$FILENAMEFULL.sha256 2>/dev/null fi if [ -f $STAGINGAREA/nanobsdupdates/$FILENAMEUPGRADE ]; then sha256 $STAGINGAREA/nanobsdupdates/$FILENAMEUPGRADE > $STAGINGAREA/nanobsdupdates/$FILENAMEUPGRADE.sha256 2>/dev/null fi # Copy NanoBSD auto update: if [ -f $STAGINGAREA/nanobsdupdates/$FILENAMEUPGRADE ]; then cp -l $STAGINGAREA/nanobsdupdates/$FILENAMEUPGRADE $STAGINGAREA/latest-${NANOTYPE}-$FILESIZE.img.gz 2>/dev/null sha256 $STAGINGAREA/latest-${NANOTYPE}-$FILESIZE.img.gz > $STAGINGAREA/latest-${NANOTYPE}-$FILESIZE.img.gz.sha256 2>/dev/null # NOTE: Updates need a file with output similar to date output # Use the file generated at start of snapshots_dobuilds() to be consistent on times cp $BUILTDATESTRINGFILE $STAGINGAREA/version-${NANOTYPE}-$FILESIZE fi done done } snapshots_copy_to_staging_iso_updates() { local _img="" for _img in ${ISOPATH} ${MEMSTICKPATH} ${MEMSTICKSERIALPATH}; do if [ ! -f "${_img}.gz" ]; then continue fi sha256 ${_img}.gz > ${_img}.sha256 cp -l ${_img}* $STAGINGAREA/ 2>/dev/null snapshots_create_latest_symlink ${STAGINGAREA}/$(basename ${_img}) done if [ -f "${UPDATES_TARBALL_FILENAME}" ]; then sha256 ${UPDATES_TARBALL_FILENAME} > ${UPDATES_TARBALL_FILENAME}.sha256 cp -l ${UPDATES_TARBALL_FILENAME}* $STAGINGAREA/ 2>/dev/null snapshots_create_latest_symlink ${STAGINGAREA}/$(basename ${UPDATES_TARBALL_FILENAME}) fi if [ "${TARGET}" = "amd64" -a -f "${MEMSTICKADIPATH}.gz" ]; then sha256 ${MEMSTICKADIPATH}.gz > ${MEMSTICKADIPATH}.sha256 cp -l ${MEMSTICKADIPATH}* $STAGINGAREA/ 2>/dev/null snapshots_create_latest_symlink ${STAGINGAREA}/$(basename ${MEMSTICKADIPATH}) fi # NOTE: Updates need a file with output similar to date output # Use the file generated at start of snapshots_dobuilds() to be consistent on times if [ -z "${_IS_RELEASE}" ]; then cp $BUILTDATESTRINGFILE $STAGINGAREA/version 2>/dev/null fi } snapshots_scp_files() { if [ -z "${RSYNC_COPY_ARGUMENTS}" ]; then RSYNC_COPY_ARGUMENTS="-ave ssh --timeout=60 --bwlimit=${RSYNCKBYTELIMIT}" #--bwlimit=50 fi snapshots_update_status ">>> Copying core pkg repo to ${PKG_RSYNC_HOSTNAME}" # Add ./ before last directory, it's rsync trick to make it chdir to parent directory before send pkg_repo_rsync $(echo "${CORE_PKG_PATH}" | sed -E 's,/$,,; s,/([^/]*)$,/./\1,') snapshots_update_status ">>> Finished copying core pkg repo" snapshots_update_status ">>> Copying files to ${RSYNCIP}" # Ensure directory(s) are available ssh ${RSYNCUSER}@${RSYNCIP} "mkdir -p ${RSYNCPATH}/livecd_installer" ssh ${RSYNCUSER}@${RSYNCIP} "mkdir -p ${RSYNCPATH}/updates" ssh ${RSYNCUSER}@${RSYNCIP} "mkdir -p ${RSYNCPATH}/nanobsd" if [ -d $STAGINGAREA/virtualization ]; then ssh ${RSYNCUSER}@${RSYNCIP} "mkdir -p ${RSYNCPATH}/virtualization" fi ssh ${RSYNCUSER}@${RSYNCIP} "mkdir -p ${RSYNCPATH}/.updaters" # ensure permissions are correct for r+w ssh ${RSYNCUSER}@${RSYNCIP} "chmod -R ug+rw ${RSYNCPATH}/." rsync $RSYNC_COPY_ARGUMENTS $STAGINGAREA/${PRODUCT_NAME}-*iso* \ ${RSYNCUSER}@${RSYNCIP}:${RSYNCPATH}/livecd_installer/ rsync $RSYNC_COPY_ARGUMENTS $STAGINGAREA/${PRODUCT_NAME}-memstick* \ ${RSYNCUSER}@${RSYNCIP}:${RSYNCPATH}/livecd_installer/ rsync $RSYNC_COPY_ARGUMENTS $STAGINGAREA/${PRODUCT_NAME}-*Update* \ ${RSYNCUSER}@${RSYNCIP}:${RSYNCPATH}/updates/ rsync $RSYNC_COPY_ARGUMENTS $STAGINGAREA/nanobsd/* \ ${RSYNCUSER}@${RSYNCIP}:${RSYNCPATH}/nanobsd/ rsync $RSYNC_COPY_ARGUMENTS $STAGINGAREA/nanobsdupdates/* \ ${RSYNCUSER}@${RSYNCIP}:${RSYNCPATH}/updates/ if [ -d $STAGINGAREA/virtualization ]; then rsync $RSYNC_COPY_ARGUMENTS $STAGINGAREA/virtualization/* \ ${RSYNCUSER}@${RSYNCIP}:${RSYNCPATH}/virtualization/ fi # Rather than copy these twice, use ln to link to the latest one. ssh ${RSYNCUSER}@${RSYNCIP} "rm -f ${RSYNCPATH}/.updaters/latest.tgz" ssh ${RSYNCUSER}@${RSYNCIP} "rm -f ${RSYNCPATH}/.updaters/latest.tgz.sha256" LATESTFILENAME=$(basename ${UPDATES_TARBALL_FILENAME}) ssh ${RSYNCUSER}@${RSYNCIP} "ln -s ${RSYNCPATH}/updates/${LATESTFILENAME} \ ${RSYNCPATH}/.updaters/latest.tgz" ssh ${RSYNCUSER}@${RSYNCIP} "ln -s ${RSYNCPATH}/updates/${LATESTFILENAME}.sha256 \ ${RSYNCPATH}/.updaters/latest.tgz.sha256" for i in ${FLASH_SIZE} do ssh ${RSYNCUSER}@${RSYNCIP} "rm -f ${RSYNCPATH}/.updaters/latest-nanobsd-${i}.img.gz" ssh ${RSYNCUSER}@${RSYNCIP} "rm -f ${RSYNCPATH}/.updaters/latest-nanobsd-${i}.img.gz.sha256" ssh ${RSYNCUSER}@${RSYNCIP} "rm -f ${RSYNCPATH}/.updaters/latest-nanobsd-vga-${i}.img.gz" ssh ${RSYNCUSER}@${RSYNCIP} "rm -f ${RSYNCPATH}/.updaters/latest-nanobsd-vga-${i}.img.gz.sha256" FILENAMEUPGRADE="${PRODUCT_NAME}-${PRODUCT_VERSION}-${i}-${TARGET}-nanobsd-upgrade${TIMESTAMP_SUFFIX}.img.gz" ssh ${RSYNCUSER}@${RSYNCIP} "ln -s ${RSYNCPATH}/updates/${FILENAMEUPGRADE} \ ${RSYNCPATH}/.updaters/latest-nanobsd-${i}.img.gz" ssh ${RSYNCUSER}@${RSYNCIP} "ln -s ${RSYNCPATH}/updates/${FILENAMEUPGRADE}.sha256 \ ${RSYNCPATH}/.updaters/latest-nanobsd-${i}.img.gz.sha256" FILENAMEUPGRADE="${PRODUCT_NAME}-${PRODUCT_VERSION}-${i}-${TARGET}-nanobsd-vga-upgrade${TIMESTAMP_SUFFIX}.img.gz" ssh ${RSYNCUSER}@${RSYNCIP} "ln -s ${RSYNCPATH}/updates/${FILENAMEUPGRADE} \ ${RSYNCPATH}/.updaters/latest-nanobsd-vga-${i}.img.gz" ssh ${RSYNCUSER}@${RSYNCIP} "ln -s ${RSYNCPATH}/updates/${FILENAMEUPGRADE}.sha256 \ ${RSYNCPATH}/.updaters/latest-nanobsd-vga-${i}.img.gz.sha256" done rsync $RSYNC_COPY_ARGUMENTS $STAGINGAREA/version* \ ${RSYNCUSER}@${RSYNCIP}:${RSYNCPATH}/.updaters snapshots_update_status ">>> Finished copying files." }