diskimage-builder/diskimage_builder/elements/sysprep/bin/extract-image

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#!/bin/bash
# Intended to be called from the root.d cloud-image script as follows:
# $TMP_HOOKS_PATH/bin/extract-image $BASE_IMAGE_FILE $BASE_IMAGE_TAR $IMAGE_LOCATION $CACHED_IMAGE
if [ ${DIB_DEBUG_TRACE:-0} -gt 0 ]; then
set -x
fi
set -eu
set -o pipefail
BASE_IMAGE_FILE=$1
BASE_IMAGE_TAR=$2
IMAGE_LOCATION=$3
CACHED_IMAGE=$4
CACHED_TAR=$DIB_IMAGE_CACHE/$BASE_IMAGE_TAR
DIB_LOCAL_IMAGE=${DIB_LOCAL_IMAGE:-""}
TAR_LOCK=$CACHED_TAR.lock
# GPT GUIDs of interest.
# See https://en.wikipedia.org/wiki/GUID_Partition_Table#Partition_type_GUIDs
# also https://systemd.io/BOOT_LOADER_SPECIFICATION/
GUID_EFI="c12a7328-f81f-11d2-ba4b-00a0c93ec93b"
GUID_LINUX_BOOT="bc13c2ff-59e6-4262-a352-b275fd6f7172"
function extract_image() {
if [ -n "$DIB_OFFLINE" -a -f "$CACHED_TAR" ] ; then
echo "Not checking freshness of cached $CACHED_TAR."
else
if [ -z "$DIB_LOCAL_IMAGE" ]; then
echo "Fetching Base Image"
# There seems to be some bad Fedora mirrors returning http 404's for the cloud image.
# If the image fails to download due to a 404 we retry once.
set +e
$TMP_HOOKS_PATH/bin/cache-url $IMAGE_LOCATION $CACHED_IMAGE
RV=$?
set -e
if [ "$RV" == "44" ] ; then
$TMP_HOOKS_PATH/bin/cache-url $IMAGE_LOCATION $CACHED_IMAGE
elif [ "$RV" != "0" ] ; then
exit 1
fi
fi
if [ ! -f $CACHED_TAR -o \
$CACHED_IMAGE -nt $CACHED_TAR ] ; then
echo "Repacking base image as tarball."
WORKING=$(mktemp --tmpdir=${TMP_DIR:-/tmp} -d)
EACTION="rm -r $WORKING"
trap "$EACTION" EXIT
echo "Working in $WORKING"
RAW_FILE=$(mktemp --tmpdir=$WORKING XXXXXX.raw)
if [ "${CACHED_IMAGE: -3}" == ".xz" ] ; then
QCOW2_FILE=$(mktemp --tmpdir=$WORKING XXXXXX.qcow2)
# This leaves the old image in place so cache-url wont get it again
unxz --stdout $CACHED_IMAGE > $QCOW2_FILE
CACHED_IMAGE=$QCOW2_FILE
fi
qemu-img convert -f qcow2 -O raw $CACHED_IMAGE $RAW_FILE
# kpartx fails if no /dev/loop* exists, "losetup -f" prints first unused
# loop device and creates it if it doesn't exist
LOOPDEV_BASE=$(basename $(sudo losetup -f))
# add partition mappings
sudo kpartx -av $RAW_FILE
# If running inside Docker, make our nodes manually, because udev will not be working.
if [ -f /.dockerenv ]; then
sudo dmsetup --noudevsync mknodes
fi
if ! timeout 5 sh -c "while ! ls /dev/mapper/${LOOPDEV_BASE}p* ; do sleep 1; done"; then
echo "Error: Could not find any ${LOOPDEV_BASE} devices"
exit 1
fi
EACTION="sudo kpartx -d $RAW_FILE ; $EACTION"
trap "$EACTION" EXIT
ROOT_LOOPDEV=""
BOOT_LOOPDEV=""
EFI_LOOPDEV=""
LOOPDEVS=$(ls /dev/mapper/${LOOPDEV_BASE}p* | sort -r)
for LOOPDEV in ${LOOPDEVS}; do
lsblk --all --nodeps -P --output-all $LOOPDEV
fstype=$(lsblk --all --nodeps --noheadings --output FSTYPE $LOOPDEV)
label=$(lsblk --all --nodeps --noheadings --output LABEL $LOOPDEV)
part_type_name=$(lsblk --all --nodeps --noheadings --output PARTTYPENAME $LOOPDEV || echo "")
part_type=$(lsblk --all --nodeps --noheadings --output PARTTYPE $LOOPDEV)
if [ -z "${fstype}" ]; then
# Ignore block device with no filesystem type
continue
fi
# look for EFI partition to mount at /boot/efi either by GUID or
# label convention
if [ -z "$EFI_LOOPDEV" ]; then
if [[ ${part_type} == ${GUID_EFI} || ${part_type_name} == "EFI System" ]]; then
EFI_LOOPDEV=$LOOPDEV
continue
fi
fi
# look for EFI partition to mount at /boot/efi either by GUID or
# label convention.
if [ -z "$BOOT_LOOPDEV" ]; then
if [[ ${part_type} == ${GUID_LINUX_BOOT} || ${label} == "boot" ]]; then
BOOT_LOOPDEV=$LOOPDEV
continue
fi
fi
if [ -z "$ROOT_LOOPDEV" ]; then
ROOT_LOOPDEV=$LOOPDEV
continue
fi
done
mkdir $WORKING/mnt
if [ "xfs" = "$(sudo blkid -o value -s TYPE $ROOT_LOOPDEV)" ]; then
# mount xfs with nouuid, just in case that uuid is already mounted
# use ro to avoid/workaround xfs uuid issues on older
# kernels with newer rhel images which seem to set
# flags to generate unique uuid's:
# xfs superblock has incompatible features (0x4)
# we don't need to worry about this, we just want the data
MOUNTOPTS="-o nouuid,ro"
else
MOUNTOPTS=""
fi
sudo mount $MOUNTOPTS $ROOT_LOOPDEV $WORKING/mnt
EACTION="sudo umount -f $WORKING/mnt ; $EACTION"
trap "$EACTION" EXIT
if [ ! -z "$BOOT_LOOPDEV" ]; then
# mount to /boot
sudo mount $BOOT_LOOPDEV $WORKING/mnt/boot
EACTION="sudo umount -f $BOOT_LOOPDEV ; $EACTION"
trap "$EACTION" EXIT
fi
if [ ! -z "$EFI_LOOPDEV" ]; then
# mount to /boot/efi
sudo mount $EFI_LOOPDEV $WORKING/mnt/boot/efi
EACTION="sudo umount -f $EFI_LOOPDEV ; $EACTION"
trap "$EACTION" EXIT
fi
# find out if chroot tar has full xattr support
if [ 0 == `sudo chroot $WORKING/mnt bin/tar --help | grep -c xattrs-exclude` ]; then
TAROPTS="--no-xattrs"
else
TAROPTS="--xattrs --xattrs-include=* --xattrs-exclude=security.selinux"
fi
# Chroot in so that we get the correct uid/gid
sudo chroot $WORKING/mnt bin/tar $TAROPTS -cz . > $WORKING/tmp.tar
mv $WORKING/tmp.tar $CACHED_TAR
else
echo "Using cached tar from $CACHED_TAR"
fi
fi
# Extract the base image (use --numeric-owner to avoid UID/GID mismatch between
# image tarball and host OS e.g. when building Fedora image on an openSUSE host)
# Include all xattrs except selinux because the selinux ones cause issues in our
# chroot environment, and we restore all of those at the end of the build anyway.
echo "Extracting base root image from $CACHED_TAR"
sudo tar -C $TARGET_ROOT --numeric-owner --xattrs --xattrs-include='*' --xattrs-exclude='security.selinux' -xzf $CACHED_TAR
}
(
echo "Getting $TAR_LOCK: $(date)"
# Wait up to 20 minutes for another process to download
if ! flock -w 1200 9 ; then
echo "Did not get $TAR_LOCK: $(date)"
exit 1
fi
extract_image
) 9> $TAR_LOCK