18e35893f7
When I tried to build CentOS8 image for AArch64 I got error saying that MBR is not supported. So make sure that it will not be used by default. Change-Id: Ib67ab7f808d727c3c61932c540d398dbe723972f
544 lines
17 KiB
Bash
544 lines
17 KiB
Bash
#!/bin/bash
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# Copyright 2012 Hewlett-Packard Development Company, L.P.
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# All Rights Reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License"); you may
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# not use this file except in compliance with the License. You may obtain
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# a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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# License for the specific language governing permissions and limitations
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# under the License.
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# This is the "internal" verison of dib-run-parts. If you modify
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# this, be aware that it needs to run both inside and outside the
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# chroot environment, so it needs to be very generic.
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DIB_RUN_PARTS=${_LIB}/dib-run-parts
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function tmpfs_check() {
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local echo_message=${1:-1}
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[ "$DIB_NO_TMPFS" == "0" ] || return 1
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[ -r /proc/meminfo ] || return 1
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total_kB=$(awk '/^MemTotal/ { print $2 }' /proc/meminfo)
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# tmpfs uses by default 50% of the available RAM, so the RAM should be at least
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# the double of the minimum tmpfs size required
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RAM_NEEDED=$(($DIB_MIN_TMPFS * 2))
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[ $total_kB -lt $(($RAM_NEEDED*1024*1024)) ] || return 0
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if [ $echo_message == '1' ]; then
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echo "WARNING: Not enough RAM to use tmpfs for build. Using ${TMP_DIR:-/tmp}. ($total_kB < ${RAM_NEEDED}G)"
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fi
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return 1
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}
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function mk_build_dir () {
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TMP_BUILD_DIR=$(mktemp -t -d --tmpdir=${TMP_DIR:-/tmp} dib_build.XXXXXXXX)
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TMP_IMAGE_DIR=$(mktemp -t -d --tmpdir=${TMP_DIR:-/tmp} dib_image.XXXXXXXX)
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[ $? -eq 0 ] || die "Failed to create tmp directory"
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export TMP_BUILD_DIR
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if tmpfs_check ; then
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sudo mount -t tmpfs tmpfs $TMP_BUILD_DIR
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sudo mount -t tmpfs tmpfs $TMP_IMAGE_DIR
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sudo chown $(id -u):$(id -g) $TMP_BUILD_DIR $TMP_IMAGE_DIR
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fi
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trap trap_cleanup EXIT
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echo Building in $TMP_BUILD_DIR
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export TMP_IMAGE_DIR
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export OUT_IMAGE_PATH=$TMP_IMAGE_PATH
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export TMP_HOOKS_PATH=$TMP_BUILD_DIR/hooks
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}
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function finish_image () {
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if [ -f $1 -a ${OVERWRITE_OLD_IMAGE:-0} -eq 0 ]; then
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old_image="${1%.*}"-$(date +%Y.%m.%d-%H.%M.%S).${1##*.}
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echo "Old image found. Renaming it to $old_image"
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mv "$1" "$old_image"
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if [ -f "$1.md5" ]; then
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mv "$1.md5" "$old_image.md5"
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fi
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if [ -f "$1.sha256" ]; then
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mv "$1.sha256" "$old_image.sha256"
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fi
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fi
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mv $OUT_IMAGE_PATH $1
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if [ "$DIB_CHECKSUM" == "1" ]; then
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# NOTE(pabelanger): Read image into memory once and generate
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# both checksum files.
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# NOTE(ianw): we've seen issues with this waiting for
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# our outfilter.py wrapper when containerised (probably due to
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# no tty). Waiting for just these processes is a bit of hacky
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# workaround ...
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declare -a wait_for
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md5sum $1 > $1.md5 & wait_for+=($!)
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sha256sum $1 > $1.sha256 & wait_for+=($!)
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wait "${wait_for[@]}"
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fi
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echo "Image file $1 created..."
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}
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function save_image () {
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finish_image $1
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}
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function copy_hooks_not_overwrite () {
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_DIR=$(basename $1)
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test -d $TMP_HOOKS_PATH/$_DIR || mkdir $TMP_HOOKS_PATH/$_DIR
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for _HOOK in $(ls $1); do
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if [ ! -f $TMP_HOOKS_PATH/$_DIR/$_HOOK ]; then
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echo "Copying hooks $1/$_HOOK"
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cp -t $TMP_HOOKS_PATH/$_DIR -a $1/$_HOOK
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else
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echo "There is a duplicated hook in your elements: $_ELEMENT/$_DIR/$_HOOK"
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exit 1
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fi
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done
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}
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function generate_hooks () {
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local xtrace
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xtrace=$(set +o | grep xtrace)
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set +o xtrace
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local dir
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local file
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eval declare -A image_elements=($(get_image_element_array))
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mkdir -p $TMP_HOOKS_PATH
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for i in "${!image_elements[@]}"; do
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local element=$i
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local element_dir=${image_elements[$i]}
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echo "Copying hooks for ${element}"
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for dir in $(find $element_dir \
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-follow -mindepth 1 -maxdepth 1 \
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-type d \
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-not -name tests \
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-not -name __pycache__); do
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copy_hooks_not_overwrite $dir
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done
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for file in $(find $element_dir \
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-follow -maxdepth 1 \
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-type f \
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-not -name '*.pyc'); do
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cp -t $TMP_HOOKS_PATH -a $file
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done
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done
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$xtrace
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}
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# Call the supplied break-in routine if the named point is listed in the break
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# list.
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# $1 the break point.
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# $2.. what to call if a break is needed
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function check_break () {
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if echo "${break:-}" | egrep -e "(,|^)$1(,|$)" -q; then
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echo "Starting debug shell. Exit to resume building." >&2
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echo At stage $1 >&2
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shift
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"$@"
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echo "Resuming" >&2
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fi
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}
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# Check that a real element has been chosen (prevents foot-guns)
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function check_element () {
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[ -d $TMP_HOOKS_PATH ] || generate_hooks
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}
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# Run a hook, looking for a regex in its stdout, and eval the matched lines.
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# $1 is the hook to run
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# $2 is the regex to look for
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function eval_run_d () {
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local run_output=$(mktemp)
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trap "rm -f $run_output; check_break after-error ${break_cmd:-bash}" ERR
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run_d $1 $run_output
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if grep -q "$2" $run_output; then
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local temp=$(grep "$2" $run_output)
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eval "$temp"
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fi
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rm $run_output
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trap - ERR
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}
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# Get any process that appears to be running in $TMP_BUILD_DIR
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function _get_chroot_processes () {
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# Deselect kernel threads, and use a python script to avoid
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# forking lots and lots of readlink / grep processes on a busy
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# system.
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ps --ppid 2 -p 2 --deselect -o pid= | xargs ${DIB_PYTHON_EXEC:-python} -c '
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import os
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import sys
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for pid in sys.argv[2:]:
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try:
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root = os.readlink("/proc/%s/root" % pid)
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except:
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continue
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if sys.argv[1] in root:
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print("%s" % pid)
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' $TMP_BUILD_DIR
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}
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function kill_chroot_processes () {
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local xtrace
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xtrace=$(set +o | grep xtrace)
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set +o xtrace
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local pidname
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if [ -z "${1}" ]; then
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echo "ERROR: no chroot directory specified"
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exit 1
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fi
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for pid in $(_get_chroot_processes); do
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# If there are open files from the chroot, just kill the process using
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# these files. This is racy, but good enough
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pidname=$(cat $piddir/comm 2>/dev/null || echo "unknown")
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echo "Killing chroot process: '${pidname}($pid)'"
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sudo kill $pid
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done
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$xtrace
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}
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function cleanup_build_dir () {
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if ! timeout 10 sh -c " while ! sudo rm -rf $TMP_BUILD_DIR/built; do sleep 1; done"; then
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echo "ERROR: unable to cleanly remove $TMP_BUILD_DIR/built"
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exit 1
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fi
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sudo rm -rf $TMP_BUILD_DIR/mnt
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kill_chroot_processes $TMP_BUILD_DIR
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if tmpfs_check 0; then
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# If kill_chroot_processes did not succeed then we have to wait for
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# init to reap the orphaned chroot processes
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if ! timeout 120 sh -c "while ! sudo umount -f $TMP_BUILD_DIR; do sleep 1; done"; then
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echo "ERROR: failed to umount the $TMP_BUILD_DIR tmpfs mount point"
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exit 1
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fi
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fi
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rm -rf --one-file-system $TMP_BUILD_DIR
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}
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function cleanup_image_dir () {
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kill_chroot_processes $TMP_IMAGE_DIR
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if tmpfs_check 0; then
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if ! timeout 120 sh -c "while ! sudo umount -f $TMP_IMAGE_DIR; do sleep 1; done"; then
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echo "ERROR: failed to umount the $TMP_IMAGE_DIR tmpfs mount point"
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exit 1
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fi
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fi
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rm -rf --one-file-system $TMP_IMAGE_DIR
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}
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function cleanup_temp_python_exec () {
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if [ ! -z "$DIB_ORIGINAL_PATH" ]; then
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export PATH=$DIB_ORIGINAL_PATH
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fi
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rm "$DIB_PYTHON_EXEC_TMP/python" || true
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rmdir "$DIB_PYTHON_EXEC_TMP" || true
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}
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# Run a directory of hooks outside the target (that is, no chrooting).
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function run_d() {
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check_element
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check_break before-$1 ${break_cmd:-bash}
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if [ -d ${TMP_HOOKS_PATH}/$1.d ] ; then
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echo "Running hooks from ${TMP_HOOKS_PATH}/$1.d"
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if [ -n "$2" ]; then
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${DIB_RUN_PARTS} ${TMP_HOOKS_PATH}/$1.d | tee $2
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if [[ ${PIPESTATUS[0]} != 0 ]]; then
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return 1
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fi
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else
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${DIB_RUN_PARTS} ${TMP_HOOKS_PATH}/$1.d
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fi
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fi
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check_break after-$1 bash
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}
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function _arg_defaults_hack() {
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# The block-device configuration looks in all elements for a
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# "block-device-default.yaml" file. The "vm" element used to
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# provide the default block-device, which was fine when there was
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# only one option; but now we have mbr, gpt & efi versions.
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#
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# So now the vm element has a dependency on the block-device
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# element, which several different elements can provide. However,
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# for backwards compatability we need to ensure you can still
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# build without specifying it. Thus if we see the vm element, but
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# no block-device-* element, we will automatically add the old
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# default MBR.
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#
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# Note that you can still override this by setting
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# DIB_BLOCK_DEVICE_CONFIG; any value there will be taken over the
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# element defaults. In this case you'd have "block-device-mbr" as
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# an element, but it wouldn't actually be used for configuration.
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#
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# XXX: if this is becoming a common problem, we could have some
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# sort of "element-defaults" that maps a "element-deps" entry to a
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# default.
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local vm_seen
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local blockdev_seen
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local elements
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for arg do
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if [[ "$arg" =~ "vm" ]]; then
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vm_seen=1
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elif [[ "$arg" =~ "block-device-" ]]; then
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blockdev_seen=1
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fi
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elements="$elements $arg"
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done
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if [[ -n "${vm_seen}" && -z "${blockdev_seen}" ]]; then
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if [[ "arm64 aarch64" =~ $ARCH ]] ; then
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elements="$elements block-device-efi"
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else
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elements="$elements block-device-mbr"
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fi
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fi
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echo $elements
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}
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function arg_to_elements() {
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for arg do IMAGE_ELEMENT="$IMAGE_ELEMENT $arg" ; done
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IMAGE_ELEMENT="$(_arg_defaults_hack $IMAGE_ELEMENT)"
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if [ "$SKIP_BASE" != "1" ]; then
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IMAGE_ELEMENT="base $IMAGE_ELEMENT"
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fi
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if [ "$IS_RAMDISK" == "1" ]; then
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IMAGE_ELEMENT="$RAMDISK_ELEMENT $IMAGE_ELEMENT"
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fi
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echo "Building elements: $IMAGE_ELEMENT"
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export IMAGE_ELEMENT
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# element-info will output bash code to create
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# * IMAGE_ELEMENT
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# legacy list of elements
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#
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# * IMAGE_ELEMENT_YAML
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# YAML dictionary with key=element, value=path
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#
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# import os
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# import yaml
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# yaml.load(os.getenv('IMAGE_ELEMENT_YAML')
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#
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# * function get_image_element_array
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# Function to create Bash associative-array. Since bash can not
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# export array variables, we provide a function to populate the
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# variables.
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#
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# # we need the eval, it expands the string for the array create
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# eval declare -A image_elements=($(get_image_element_array))
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# for i in ${!image_elements[@]}; do
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# element=$i
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# path=${image_elements[$i]
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# done
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elinfo_out="$(element-info --env $IMAGE_ELEMENT)"
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if [ $? -ne 0 ]; then
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echo "ERROR: element-info failed to expand elements."
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exit 1
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fi
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eval "$elinfo_out"
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echo "Expanded element dependencies to: $IMAGE_ELEMENT"
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}
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function create_base () {
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mkdir $TMP_BUILD_DIR/mnt
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# Make sure the / inside the chroot is owned by root
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# If it is not owned by root, some Ubuntu bionic packages will fail
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# path validation at install time.
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sudo chown root.root $TMP_BUILD_DIR/mnt
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export TMP_MOUNT_PATH=$TMP_BUILD_DIR/mnt
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# Copy data in to the root.
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TARGET_ROOT=$TMP_MOUNT_PATH run_d root
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if [ -z "$(ls $TMP_MOUNT_PATH | grep -v '^lost+found\|tmp$')" ] ; then
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# No root element copied in. Note the test above allows
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# root.d elements to put things in /tmp
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echo "Failed to deploy the root element."
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exit 1
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fi
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# Configure Image
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# Save resolv.conf as created by the initial install. Note the
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# .ORIG file is an exported interface -- it may be modified and we
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# will copy it back in during finalisation of the image.
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# Note that we use -L and -f to test here as test (and bash [[)
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# return false with -e if the link target does not exist.
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if [ -L $TMP_MOUNT_PATH/etc/resolv.conf ] || [ -f $TMP_MOUNT_PATH/etc/resolv.conf ] ; then
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sudo mv $TMP_MOUNT_PATH/etc/resolv.conf $TMP_MOUNT_PATH/etc/resolv.conf.ORIG
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fi
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# Recreate resolv.conf
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sudo touch $TMP_MOUNT_PATH/etc/resolv.conf
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sudo chmod 777 $TMP_MOUNT_PATH/etc/resolv.conf
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# use system configured resolv.conf if available to support internal proxy resolving
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if [ -e /etc/resolv.conf ]; then
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cat /etc/resolv.conf > $TMP_MOUNT_PATH/etc/resolv.conf
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else
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echo nameserver 8.8.8.8 > $TMP_MOUNT_PATH/etc/resolv.conf
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fi
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mount_proc_dev_sys
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}
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# Get mount options for mounting /dev/pts
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# Kernel commit https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/commit/?id=eedf265aa003b4781de24cfed40a655a664457e6
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# introduced in v4.7 allows multiple instances of devpts. However,
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# some distributions are running older kernels so we need to take
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# care on what options we use to mount a new instance of devpts
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# filesystem since it's not completely independent. The best thing
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# to do is to simply use the existing mount options.
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function mount_dev_pts_options() {
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echo "-o $(findmnt --first-only /dev/pts --noheadings --output OPTIONS)"
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}
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function mount_proc_dev_sys () {
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# supporting kernel file systems
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sudo mount -t proc none $TMP_MOUNT_PATH/proc
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sudo mount --bind /dev $TMP_MOUNT_PATH/dev
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sudo mount -t devpts $(mount_dev_pts_options) devpts $TMP_MOUNT_PATH/dev/pts
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sudo mount -t sysfs none $TMP_MOUNT_PATH/sys
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}
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# Recursively unmount directories under a given directory DIR
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# usage:
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# unmount_dir DIR
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function unmount_dir {
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local dir="$1"
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local real_dir
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local mnts
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local split_mounts
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local found_mountpoint
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if [ ! -d $dir ]; then
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echo "*** $dir is not a directory"
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return 0
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fi
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# get rid of any symlink elements in the incoming path, because
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# /proc/mounts is the real path
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real_dir=$(readlink -e $dir)
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# populate the exported mountpoints
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IFS='|' read -ra split_mounts <<< "$DIB_MOUNTPOINTS"
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# note the "/" on real_dir ... we are just looking for things
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# mounted *underneath* this directory.
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mnts=$(awk '{print $2}' < /proc/mounts | grep "^$real_dir/" | sort -r)
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for m in $mnts; do
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# check if suffix is in array
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found_mountpoint=false
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for mountpoint in "${split_mounts[@]}"; do
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if [[ "$mountpoint" != "/" ]]; then
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if [[ "$m" == *$mountpoint ]]; then
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echo "Mountpoint $m managed by block device; skipping"
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found_mountpoint=true
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break
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fi
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fi
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done
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if [ $found_mountpoint == false ]; then
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# unmount the directory as it is not managed by block device
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echo "Unmount $m"
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sudo umount -fl $m || true
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fi
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done
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}
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# Create YAML config file for the block device layer
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# The order here is: use the one the user provides - if there is
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# none provided, fall back to the possible one element which
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# defines a fallback configuration.
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# Parameters:
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# - name of the to be created config file
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function block_device_create_config_file {
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# nosiy; we manually trace
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local xtrace
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xtrace=$(set +o | grep xtrace)
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set +o xtrace
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local config_yaml="$1"
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if [[ ${DIB_BLOCK_DEVICE_CONFIG:-} == file://* ]]; then
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cp $(echo ${DIB_BLOCK_DEVICE_CONFIG} | cut -c 8-) ${config_yaml}
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echo "Using file-based block-device config: ${DIB_BLOCK_DEVICE_CONFIG}"
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$xtrace
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|
return
|
|
fi
|
|
if [ -n "${DIB_BLOCK_DEVICE_CONFIG:-}" ]; then
|
|
printf "%s" "${DIB_BLOCK_DEVICE_CONFIG}" >${config_yaml}
|
|
echo "User specified block-device config from DIB_BLOCK_DEVICE_CONFIG"
|
|
$xtrace
|
|
return
|
|
fi
|
|
|
|
# Search the elements for a matching block-device config.
|
|
# XXX: first match wins?
|
|
echo "Searching elements for block-device[-${ARCH}].yaml ..."
|
|
eval declare -A image_elements=($(get_image_element_array))
|
|
for i in ${!image_elements[@]}; do
|
|
local cfg
|
|
# look for arch specific version first, then default
|
|
if [[ "ppc64le ppc64el" =~ $ARCH ]] ; then
|
|
# NOTE(tonyb): ppc64el and ppc64le are the same archttechture, it's
|
|
# just different distro's have different names. So if we're either
|
|
# of them pick the block-device-ppc64el.yaml file
|
|
cfg=${image_elements[$i]}/block-device-ppc64el.yaml
|
|
else
|
|
cfg=${image_elements[$i]}/block-device-${ARCH}.yaml
|
|
fi
|
|
if [ -e ${cfg} ]; then
|
|
cp ${cfg} ${config_yaml}
|
|
echo "Using block-device config: ${cfg}"
|
|
$xtrace
|
|
return
|
|
else
|
|
cfg=${image_elements[$i]}/block-device-default.yaml
|
|
if [ -e ${cfg} ]; then
|
|
cp ${cfg} ${config_yaml}
|
|
echo "Using block-device config: ${cfg}"
|
|
$xtrace
|
|
return
|
|
fi
|
|
fi
|
|
done
|
|
echo "... done"
|
|
|
|
# how did this get here?
|
|
if [ -e ${config_yaml} ]; then
|
|
die "${config_yaml} exists?"
|
|
fi
|
|
|
|
echo "Using default block-device fallback config"
|
|
# If no config is there (until now) use the default config
|
|
|
|
cat >${config_yaml} <<EOF
|
|
- local_loop:
|
|
name: image0
|
|
mkfs:
|
|
name: mkfs_root
|
|
mount:
|
|
mount_point: /
|
|
fstab:
|
|
options: "defaults"
|
|
fsck-passno: 1
|
|
EOF
|
|
|
|
$xtrace
|
|
}
|