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08a75d1f0e
freebsd-dev/release/tools/vmimage.subr
Glen Barber 08a75d1f0e Create the arm64/aarch64 VM disk image as MBR instead of 
GPT scheme.  UEFI needs to know the unique partition GUID
with GPT, which changes each time.  Specifically, the QEMU
EFI BIOS file has this hard-coded.[1]

Since the GPT labels are now unavailable, unconditionally
label the root filesystem as 'rootfs' with newfs(8), since
it does not hurt anything anywhere else.  For the arm64 case,
'/' is mounted from /dev/ufs/rootfs; for all other VM images,
'/' is mounted from /dev/gpt/rootfs.

Unfortunately, since the /dev/gpt/swapfs label is also lost,
set NOSWAP=1 for the arm64/aarch64 images.  This is temporary,
until I figure out a scalable solution to this.  But, a certain
piece of softare was written "very fast", and ended up living
for 15 years.  We can deal with this for a week or so.

Information from:	andrew, emaste [1]
Sponsored by:	The FreeBSD Foundation
2015-04-23 01:04:14 +00:00

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#!/bin/sh
#
# $FreeBSD$
#
#
# Common functions for virtual machine image build scripts.
#
export PATH="/bin:/usr/bin:/sbin:/usr/sbin:/usr/local/bin:/usr/local/sbin"
trap "cleanup" INT QUIT TRAP ABRT TERM
write_partition_layout() {
if [ -z "${NOSWAP}" ]; then
SWAPOPT="-p freebsd-swap/swapfs::1G"
fi
_OBJDIR="$(make -C ${WORLDDIR} -V .OBJDIR)"
if [ -d "${_OBJDIR%%/usr/src}/${TARGET}.${TARGET_ARCH}" ]; then
BOOTFILES="/${_OBJDIR%%/usr/src}/${TARGET}.${TARGET_ARCH}/usr/src/sys/boot"
else
BOOTFILES="/${_OBJDIR}/sys/boot"
fi
case "${TARGET}:${TARGET_ARCH}" in
amd64:amd64 | i386:i386)
mkimg -s gpt -b ${BOOTFILES}/i386/pmbr/pmbr \
-p freebsd-boot/bootfs:=${BOOTFILES}/i386/gptboot/gptboot \
${SWAPOPT} \
-p freebsd-ufs/rootfs:=${VMBASE} \
-o ${VMIMAGE}
;;
arm64:aarch64)
mkimg -s mbr \
-p efi:=${BOOTFILES}/efi/boot1/boot1.efifat \
-p freebsd:=${VMBASE} \
-o ${VMIMAGE}
;;
powerpc:powerpc*)
mkimg -s apm \
-p apple-boot/bootfs:=${BOOTFILES}/powerpc/boot1.chrp/boot1.hfs \
${SWAPOPT} \
-p freebsd-ufs/rootfs:=${VMBASE} \
-o ${VMIMAGE}
;;
*)
# ENOTSUPP
return 1
;;
esac
return 0
}
err() {
printf "${@}\n"
cleanup
return 1
}
cleanup() {
if [ -c "${DESTDIR}/dev/null" ]; then
umount_loop ${DESTDIR}/dev 2>/dev/null
fi
umount_loop ${DESTDIR}
if [ ! -z "${mddev}" ]; then
mdconfig -d -u ${mddev}
fi
return 0
}
vm_create_base() {
# Creates the UFS root filesystem for the virtual machine disk,
# written to the formatted disk image with mkimg(1).
mkdir -p ${DESTDIR}
truncate -s ${VMSIZE} ${VMBASE}
mddev=$(mdconfig -f ${VMBASE})
newfs -L rootfs /dev/${mddev}
mount /dev/${mddev} ${DESTDIR}
return 0
}
vm_copy_base() {
# Creates a new UFS root filesystem and copies the contents of the
# current root filesystem into it. This produces a "clean" disk
# image without any remnants of files which were created temporarily
# during image-creation and have since been deleted (e.g., downloaded
# package archives).
mkdir -p ${DESTDIR}/old
mdold=$(mdconfig -f ${VMBASE})
mount /dev/${mdold} ${DESTDIR}/old
truncate -s ${VMSIZE} ${VMBASE}.tmp
mkdir -p ${DESTDIR}/new
mdnew=$(mdconfig -f ${VMBASE}.tmp)
newfs -L rootfs /dev/${mdnew}
mount /dev/${mdnew} ${DESTDIR}/new
tar -cf- -C ${DESTDIR}/old . | tar -xUf- -C ${DESTDIR}/new
umount_loop /dev/${mdold}
rmdir ${DESTDIR}/old
mdconfig -d -u ${mdold}
umount_loop /dev/${mdnew}
rmdir ${DESTDIR}/new
tunefs -j enable /dev/${mdnew}
mdconfig -d -u ${mdnew}
mv ${VMBASE}.tmp ${VMBASE}
}
vm_install_base() {
# Installs the FreeBSD userland/kernel to the virtual machine disk.
cd ${WORLDDIR} && \
make DESTDIR=${DESTDIR} \
installworld installkernel distribution || \
err "\n\nCannot install the base system to ${DESTDIR}."
echo '# Custom /etc/fstab for FreeBSD VM images' \
> ${DESTDIR}/etc/fstab
echo "/dev/${ROOTLABEL}/rootfs / ufs rw 1 1" \
>> ${DESTDIR}/etc/fstab
if [ -z "${NOSWAP}" ]; then
echo '/dev/gpt/swapfs none swap sw 0 0' \
>> ${DESTDIR}/etc/fstab
fi
mkdir -p ${DESTDIR}/dev
mount -t devfs devfs ${DESTDIR}/dev
chroot ${DESTDIR} /usr/bin/newaliases
chroot ${DESTDIR} /etc/rc.d/ldconfig forcestart
umount_loop ${DESTDIR}/dev
cp /etc/resolv.conf ${DESTDIR}/etc/resolv.conf
return 0
}
vm_extra_install_base() {
# Prototype. When overridden, runs extra post-installworld commands
# as needed, based on the target virtual machine image or cloud
# provider image target.
return 0
}
vm_extra_enable_services() {
if [ ! -z "${VM_RC_LIST}" ]; then
for _rcvar in ${VM_RC_LIST}; do
echo ${_rcvar}_enable="YES" >> ${DESTDIR}/etc/rc.conf
done
fi
return 0
}
vm_extra_install_packages() {
if [ -z "${VM_EXTRA_PACKAGES}" ]; then
return 0
fi
mkdir -p ${DESTDIR}/dev
mount -t devfs devfs ${DESTDIR}/dev
chroot ${DESTDIR} env ASSUME_ALWAYS_YES=yes \
/usr/sbin/pkg bootstrap -y
chroot ${DESTDIR} env ASSUME_ALWAYS_YES=yes \
/usr/sbin/pkg install -y ${VM_EXTRA_PACKAGES}
umount_loop ${DESTDIR}/dev
return 0
}
vm_extra_install_ports() {
# Prototype. When overridden, installs additional ports within the
# virtual machine environment.
return 0
}
vm_extra_pre_umount() {
# Prototype. When overridden, installs additional ports within the
# virtual machine environment.
rm -f ${DESTDIR}/etc/resolv.conf
return 0
}
vm_extra_pkg_rmcache() {
if [ -e ${DESTDIR}/usr/local/sbin/pkg ]; then
chroot ${DESTDIR} env ASSUME_ALWAYS_YES=yes \
/usr/local/sbin/pkg clean -y -a
fi
return 0
}
umount_loop() {
DIR=$1
i=0
sync
while ! umount ${DIR}; do
i=$(( $i + 1 ))
if [ $i -ge 10 ]; then
# This should never happen. But, it has happened.
echo "Cannot umount(8) ${DIR}"
echo "Something has gone horribly wrong."
return 1
fi
sleep 1
done
return 0
}
vm_create_disk() {
echo "Creating image... Please wait."
echo
write_partition_layout || return 1
return 0
}
vm_extra_create_disk() {
return 0
}
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