diskimage-builder/diskimage_builder/lib/img-functions

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#!/bin/bash
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# Copyright 2012 Hewlett-Packard Development Company, L.P.
# All Rights Reserved.
#
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# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
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# http://www.apache.org/licenses/LICENSE-2.0
#
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# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
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function unmount_image () {
# Calling sync before helps ensure the mount isn't busy when you unmount it.
# Previously observing having disk corruption issues; one possibility is
# qemu-nbd not flushing dirty pages on disconnect?
# https://bugs.launchpad.net/diskimage-builder/+bug/1214388
sync
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# unmount from the chroot
# Don't use TMP_MOUNT_PATH here, it might not have been set.
unmount_dir "$TMP_BUILD_DIR/mnt"
if [ -n "$EXTRA_DETACH" ]; then
$EXTRA_DETACH
fi
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if [ -n "$EXTRA_UNMOUNT" ]; then
$EXTRA_UNMOUNT
fi
}
function trap_cleanup() {
exitval=$?
cleanup
exit $exitval
}
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function cleanup () {
unmount_image
${DIB_PYTHON_EXEC} ${_LIB}/dib-block-device.py umount
cleanup_build_dir
cleanup_image_dir
}
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# Helper function to run a command inside the chroot
function run_in_target () {
cmd="$@"
# -E to preserve http_proxy
ORIG_HOME=$HOME
export HOME=/root
# Force an empty TMPDIR inside the chroot. There is no need to use an user
# defined tmp dir which may not exist in the chroot.
# Bug: #1330290
# Force the inclusion of a typical set of dirs in PATH, this is needed for guest
# distros that have path elements not in the host PATH.
sudo -E chroot $TMP_MOUNT_PATH env -u TMPDIR -u VIRTUAL_ENV PATH="\$PATH:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin" sh -c "$cmd"
export HOME=$ORIG_HOME
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}
# Helper function to run a directory of scripts inside the chroot
function run_d_in_target () {
check_element
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# If we can find a directory of hooks to run in the target filesystem, bind
# mount it into the target and then execute run-parts in a chroot
if [ -d ${TMP_HOOKS_PATH}/$1.d ] ; then
sudo mkdir $TMP_MOUNT_PATH/tmp/in_target.d
# Copy dib-run-parts to be visible inside chroot. Note we leave
# this here because in the future we might like to use a
# different in-chroot runner that doesn't rely on the chroot
# having bash/glibc/etc (containers, micro-images, etc).
sudo cp ${DIB_RUN_PARTS} ${TMP_HOOKS_PATH}
# Note that bind mounting R/O is a two step process, and it
# wasn't until later util-linux that "bind,ro" worked as a
# single step, see
# https://git.kernel.org/cgit/utils/util-linux/util-linux.git/commit/?id=9ac77b8a78452eab0612523d27fee52159f5016a
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sudo mount --bind ${TMP_HOOKS_PATH} $TMP_MOUNT_PATH/tmp/in_target.d
sudo mount -o remount,ro,bind ${TMP_HOOKS_PATH} $TMP_MOUNT_PATH/tmp/in_target.d
check_break before-$1 run_in_target bash
[ -z "$break_outside_target" ] && in_target_arg="run_in_target" || in_target_arg=
trap "check_break after-error $in_target_arg ${break_cmd:-bash}" ERR
run_in_target /tmp/in_target.d/dib-run-parts /tmp/in_target.d/$1.d
trap - ERR
check_break after-$1 run_in_target bash
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sudo umount -f $TMP_MOUNT_PATH/tmp/in_target.d
if ! timeout 10 sh -c " while ! sudo rmdir $TMP_MOUNT_PATH/tmp/in_target.d; do sleep 1; done"; then
echo "ERROR: unable to cleanly remove $TMP_MOUNT_PATH/tmp/in_target.d"
exit 1
fi
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fi
}
function finalise_base () {
TARGET_ROOT=$TMP_MOUNT_PATH run_d cleanup
# Finalise resolv.conf
#
# NOTE(ianw): the /etc/resolv.conf.ORIG file is an
# external interface; elements might put a resolv.conf they
# want in the final image into this file.
#
# In create_base() we replaced/created the initial resolv.conf
# inside the image with a copy of the "outside" version so that
# resolving during the build will work.
#
# If that file has been replace with a symlink (resolvconf package
# can do this), or marked immutable, then don't restore the
# original version, just leave it alone.
if [ -L $TMP_MOUNT_PATH/etc/resolv.conf ] || \
lsattr $TMP_MOUNT_PATH/etc/resolv.conf | grep '^....i' >/dev/null ; then
# We're keeping the contents of resolv.conf set in the elements,
# so remove the old saved file
sudo rm -f $TMP_MOUNT_PATH/etc/resolv.conf.ORIG
else
# Remove the resolv.conf we created and put the original (or
# perhaps modified) version back.
sudo rm -f $TMP_MOUNT_PATH/etc/resolv.conf
# Note that we use -L and -f to test here as test (and bash [[)
# return false with -e if the link target does not exist.
if [ -L $TMP_MOUNT_PATH/etc/resolv.conf.ORIG ] || [ -f $TMP_MOUNT_PATH/etc/resolv.conf.ORIG ] ; then
sudo mv $TMP_MOUNT_PATH/etc/resolv.conf.ORIG $TMP_MOUNT_PATH/etc/resolv.conf
fi
fi
# Cleanup /tmp in the guest, so there is less cruft left there
unmount_dir $TMP_MOUNT_PATH/tmp
find $TMP_MOUNT_PATH/tmp -maxdepth 1 -mindepth 1 | xargs sudo rm -rf --one-file-system
# Truncate /var/log files in preparation for first boot
sudo find ${TMP_MOUNT_PATH}/var/log -type f -exec cp /dev/null '{}' \;
# also /root logs
sudo find ${TMP_MOUNT_PATH}/root -name \*.log -type f -delete
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}
function compress_and_save_image () {
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# Recreate our image to throw away unnecessary data
test $IMAGE_TYPE != qcow2 && COMPRESS_IMAGE=""
if [ -n "$QEMU_IMG_OPTIONS" ]; then
EXTRA_OPTIONS="-o $QEMU_IMG_OPTIONS"
else
EXTRA_OPTIONS=""
fi
if [ "$IMAGE_TYPE" = "raw" ]; then
mv $TMP_IMAGE_PATH $1-new
elif [ "$IMAGE_TYPE" == "tgz" ]; then
$DIB_GZIP_BIN -9 < $IMAGE_NAME.tar > $1-new
rm $IMAGE_NAME.tar
elif [ "$IMAGE_TYPE" == "vhd" ]; then
cp $TMP_IMAGE_PATH $1-intermediate
vhd-util convert -s 0 -t 1 -i $1-intermediate -o $1-intermediate
vhd-util convert -s 1 -t 2 -i $1-intermediate -o $1-new
# The previous command creates a .bak file
rm $1-intermediate.bak
OUT_IMAGE_PATH=$1-new
else
echo "Converting image using qemu-img convert"
qemu-img convert ${COMPRESS_IMAGE:+-c} -f raw -O $IMAGE_TYPE $EXTRA_OPTIONS $TMP_IMAGE_PATH $1-new
fi
OUT_IMAGE_PATH=$1-new
finish_image $1
}
function do_extra_package_install () {
# Install any packages that were requested with the -p command line option
if [ "$INSTALL_PACKAGES" != "" ]; then
run_in_target install-packages ${INSTALL_PACKAGES[@]}
fi
}
function copy_elements_lib () {
sudo mkdir -p $TMP_MOUNT_PATH/lib/diskimage-builder
sudo cp -t $TMP_MOUNT_PATH/lib/diskimage-builder $_LIB/elements-functions
}
# Dig up the initrd and kernel.
function select_boot_kernel_initrd () {
TARGET_ROOT=$1
BOOTDIR=$TARGET_ROOT/boot
if [ -n "${DIB_BAREMETAL_KERNEL_PATTERN:-}" -a -n "${DIB_BAREMETAL_INITRD_PATTERN:-}" ]; then
KERNEL=$(basename $(eval ls -1rv "$BOOTDIR/${DIB_BAREMETAL_KERNEL_PATTERN}" | head -1))
RAMDISK=$(basename $(eval ls -1rv "$BOOTDIR/${DIB_BAREMETAL_INITRD_PATTERN}" | head -1))
elif [ -f $TARGET_ROOT/etc/redhat-release ]; then
# Prioritize PAE if present
KERNEL=$(ls -1rv $BOOTDIR/vmlinuz* | grep PAE | grep -v debug | head -1 || echo "")
KERNEL=${KERNEL:-$(ls -1rv $BOOTDIR/vmlinuz* | grep -v debug | head -1 || echo "")}
if [ ! $KERNEL ]; then
echo "No suitable kernel found."
exit 1
fi
KERNEL=$(basename $KERNEL)
KERNEL_VERSION=${KERNEL#vmlinuz-}
RAMDISK=$(basename $(ls $BOOTDIR/initramfs-$KERNEL_VERSION.img) || echo "")
if [ ! $RAMDISK ]; then
echo "Can't find an initramfs for the $KERNEL_VERSION version of the kernel."
exit 1
fi
elif [ -f $TARGET_ROOT/etc/debian_version ]; then
KERNEL=$(basename $(ls -1rv $BOOTDIR/vmlinu*generic 2>/dev/null || ls -1rv $BOOTDIR/vmlinu* | head -1))
RAMDISK=$(basename $(ls -1rv $BOOTDIR/initrd*generic 2>/dev/null || ls -1rv $BOOTDIR/initrd* | head -1))
if [ -f $TARGET_ROOT/dib-signed-kernel-version ] ; then
. $TARGET_ROOT/dib-signed-kernel-version
fi
if [ -n "${DIB_SIGNED_KERNEL_VERSION:-}" ]; then
echo "Using signed kernel $DIB_SIGNED_KERNEL_VERSION"
KERNEL=$(basename $(ls -1rv $BOOTDIR/vmlinu*generic.efi.signed 2>/dev/null))
fi
elif [ -f $TARGET_ROOT/etc/SuSE-release ]; then
KERNEL=$(basename $(readlink -e $BOOTDIR/vmlinuz))
RAMDISK=$(basename $(readlink -e $BOOTDIR/initrd))
elif [[ -f "${TARGET_ROOT}"/etc/gentoo-release ]]; then
KERNEL="$(basename $(ls -1rv $BOOTDIR/vmlinuz-* | head -n 1))"
RAMDISK="$(basename $(ls -1rv $BOOTDIR/initramfs-* | head -n 1))"
elif [[ $DISTRO_NAME = opensuse ]]; then
KERNEL=$(basename $(readlink -e $BOOTDIR/vmlinuz))
RAMDISK=$(basename $(readlink -e $BOOTDIR/initrd))
else
echo "ERROR: Unable to detect operating system"
exit 1
fi
}