diskimage-builder/lib/common-functions

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# vim: syntax=sh ts=4 sts=4 sw=2:et
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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.
function tmpfs_check() {
local echo_message=${1:-1}
[ "$DIB_NO_TMPFS" == "0" ] || return 1
[ -r /proc/meminfo ] || return 1
total_kB=$(awk '/^MemTotal/ { print $2 }' /proc/meminfo)
# tmpfs uses by default 50% of the available RAM, so the RAM should be at least
# the double of the minimum tmpfs size required
RAM_NEEDED=$(($DIB_MIN_TMPFS * 2))
[ $total_kB -lt $(($RAM_NEEDED*1024*1024)) ] || return 0
if [ $echo_message == '1' ]; then
echo "WARNING: Not enough RAM to use tmpfs for build. Using ${TMP_DIR:-/tmp}. ($total_kB < ${RAM_NEEDED}G)"
fi
return 1
}
function mk_build_dir () {
TMP_BUILD_DIR=$(mktemp -t -d --tmpdir=${TMP_DIR:-/tmp} image.XXXXXXXX)
TMP_IMAGE_DIR=$(mktemp -t -d --tmpdir=${TMP_DIR:-/tmp} image.XXXXXXXX)
[ $? -eq 0 ] || die "Failed to create tmp directory"
export TMP_BUILD_DIR
if tmpfs_check ; then
sudo mount -t tmpfs tmpfs $TMP_BUILD_DIR
sudo mount -t tmpfs tmpfs $TMP_IMAGE_DIR
sudo chown $(id -u):$(id -g) $TMP_BUILD_DIR $TMP_IMAGE_DIR
fi
trap trap_cleanup EXIT
echo Building in $TMP_BUILD_DIR
export TMP_IMAGE_PATH=$TMP_IMAGE_DIR/image.raw
export OUT_IMAGE_PATH=$TMP_IMAGE_PATH
export TMP_HOOKS_PATH=$TMP_BUILD_DIR/hooks
}
function finish_image () {
if [ -f $1 -a ${OVERWRITE_OLD_IMAGE:-0} -eq 0 ]; then
old_image="${1%.*}"-$(date +%Y.%m.%d-%H.%M.%S).${1##*.}
echo "Old image found. Renaming it to $old_image"
mv "$1" "$old_image"
fi
mv $OUT_IMAGE_PATH $1
echo "Image file $1 created..."
}
function save_image () {
finish_image $1
}
function copy_hooks_not_overwrite () {
_DIR=$(basename $1)
test -d $TMP_HOOKS_PATH/$_DIR || mkdir $TMP_HOOKS_PATH/$_DIR
for _HOOK in $(ls $1); do
if [ ! -f $TMP_HOOKS_PATH/$_DIR/$_HOOK ]; then
cp -t $TMP_HOOKS_PATH/$_DIR -a $1/$_HOOK
else
echo "There is a duplicated hook in your elements: $_ELEMENT/$_DIR/$_HOOK"
exit 1
fi
done
}
function generate_hooks () {
mkdir -p $TMP_HOOKS_PATH
for _ELEMENT in $IMAGE_ELEMENT ; do
for dir in ${ELEMENTS_PATH//:/ } ; do
[ -d $dir/$_ELEMENT ] || continue
for _DIR in $(find $dir/$_ELEMENT -follow -mindepth 1 -maxdepth 1 -type d -not -name tests); do
copy_hooks_not_overwrite $_DIR
done
for _FILE in $(find $dir/$_ELEMENT -follow -maxdepth 1 -type f); do
cp -t $TMP_HOOKS_PATH -a $_FILE
done
break
done
done
}
# Call the supplied break-in routine if the named point is listed in the break
# list.
# $1 the break point.
# $2.. what to call if a break is needed
function check_break () {
if echo "${break:-}" | egrep -e "(,|^)$1(,|$)" -q; then
echo "Starting debug shell. Exit to resume building." >&2
echo At stage $1 >&2
shift
"$@"
echo "Resuming" >&2
fi
}
# Check that a real element has been chosen (prevents foot-guns)
function check_element () {
[ -d $TMP_HOOKS_PATH ] || generate_hooks
}
# Run a hook, looking for a regex in its stdout, and eval the matched lines.
# $1 is the hook to run
# $2 is the regex to look for
function eval_run_d () {
local TEMP=`run_d $1`
echo "$TEMP"
if [ `echo "$TEMP" | grep -s "$2"` ]; then
TEMP=`echo "$TEMP" | grep "$2"`
eval "$TEMP"
fi
}
# Usage: map_nbd $image
# Returns nbd device path
function map_nbd {
(lsmod | grep '^nbd ' >/dev/null) || sudo modprobe nbd max_part=16
if [[ $(qemu-nbd --help | grep cache) == *writeback* ]] ; then
CACHE="--cache=writeback"
else
echo "Warning: qemu-nbd without --cache=writeback is /slow/."
CACHE=""
fi
NBD_DEV=
for i in `seq 0 15`; do
if [ ! -e /sys/block/nbd$i/pid ]; then
NBD_DEV=/dev/nbd$i
# Connect to nbd and wait till it is ready
sudo qemu-nbd -c $NBD_DEV $CACHE $1
if ! timeout 60 sh -c "while ! [ -e /sys/block/nbd$i/pid ]; do sleep 1; done"; then
echo "Couldn't connect $NBD_DEV"
exit 1
fi
break
fi
done
if [ -z "$NBD_DEV" ]; then
echo "No free NBD slots"
exit 1
fi
}
# Delete and unmount the working dir used in extracting kernel/initrd
function unmount_qcow_image () {
sudo umount $WORK_DIR || true
sudo qemu-nbd -d $NBD_DEV >/dev/null || true
sudo rm -rf $WORK_DIR
trap - SIGHUP SIGINT SIGTERM EXIT
}
function mount_qcow_image() {
trap unmount_qcow_image SIGHUP SIGINT SIGTERM EXIT
WORK_DIR=$(mktemp -d)
map_nbd $1
if [ -e "${NBD_DEV}p1" ]; then
sudo mount ${NBD_DEV}p1 $WORK_DIR
else
sudo mount ${NBD_DEV} $WORK_DIR
fi
}
function cleanup_dirs () {
sudo rm -rf $TMP_BUILD_DIR/built
sudo rm -rf $TMP_BUILD_DIR/mnt
if tmpfs_check 0; then
sudo umount -f $TMP_BUILD_DIR $TMP_IMAGE_DIR || true
fi
rm -rf --one-file-system $TMP_BUILD_DIR $TMP_IMAGE_DIR
}
# Run a directory of hooks outside the target (that is, no chrooting).
function run_d() {
check_element
check_break before-$1 bash
if [ -d ${TMP_HOOKS_PATH}/$1.d ] ; then
dib-run-parts ${TMP_HOOKS_PATH}/$1.d
fi
check_break after-$1 bash
}
function detach_loopback() {
local loopdev=$1
# Remove the map if it exists
# If setup on a rhel or derivative the map was created with kpartx not losetup
# and subsequently needs to be removed.
loopdev_name=$(echo $loopdev | sed 's/\/dev\///g')
mapper_name=$(sudo dmsetup ls | grep $loopdev_name | awk '{ print $1 }')
if [ "$mapper_name" ]; then
sudo dmsetup --noudevsync remove $mapper_name
fi
# loopback dev may be tied up a bit by udev events triggered by partition events
for try in $(seq 10 -1 1) ; do
if ! sudo losetup $loopdev || sudo losetup -d $loopdev ; then
return 0
fi
echo $loopdev may be busy, sleeping up to $try more seconds...
sleep 1
done
echo Gave up trying to detach $loopdev
return 1
}
function arg_to_elements() {
for arg do IMAGE_ELEMENT="$IMAGE_ELEMENT $arg" ; done
if [ "$SKIP_BASE" != "1" ]; then
IMAGE_ELEMENT="base $IMAGE_ELEMENT"
fi
if [ "$IS_RAMDISK" == "1" ]; then
IMAGE_ELEMENT="$RAMDISK_ELEMENT $IMAGE_ELEMENT"
fi
echo "Building elements: $IMAGE_ELEMENT"
IMAGE_ELEMENT=$($SCRIPT_HOME/element-info $IMAGE_ELEMENT)
export IMAGE_ELEMENT
echo "Expanded element dependencies to: $IMAGE_ELEMENT"
}
function create_base () {
mkdir $TMP_BUILD_DIR/mnt
export TMP_MOUNT_PATH=$TMP_BUILD_DIR/mnt
# Copy data in to the root.
TARGET_ROOT=$TMP_MOUNT_PATH run_d root
Move /tmp/ccache setup to base element Commit c7d80dd (Cleanup mount points automatically) removed the unmount of $TMP_MOUNT_PATH/tmp/ccache in run_d_in_target() and moved the "rm /tmp/ccache" to elements/base/finalise.d/02-remove-ccache. There are two problems with this: 1) Not unmounting at the end of run_d_in_target() results in tmp/ccache being bind mounted muliple times on top of itself (three times, if you just run `disk-image-create base`). It is eventually unmounted, but somehow the auto unmount code is confused, and tries to unmount it one more time than it was mounted, which results in an error like "umount: /tmp/image.THQkZxQa/mnt/tmp/ccache: not mounted". This doesn't actually break anything, but it's a little messy. 2) "rm /tmp/ccache" in elements/base/finalise.d/02-remove-ccache never succeeds in removing /tmp/ccache, because that hook is invoked by run_d_in_target(), *while* /tmp/ccache is mounted. This present commit solves the above by moving the ccache setup glue out of img-functions and into the base element's root.d. This has the following implications: 1) lib/img-functions is a little cleaner. 2) /tmp/ccache is available in the chroot during the root, extra-data, pre-install, install and post-install stages. It is not available during block-device, finalise and cleanup stages as it will have been automatically unmounted by then. 3) /tmp/ccache won't be setup if you're building an image that doesn't include the base element. Change-Id: Ief4c0a6f4ec622db6c6f652776215684178d8943
2013-10-08 12:53:16 +00:00
if [ -z "$(ls $TMP_MOUNT_PATH | grep -v '^lost+found\|tmp$')" ] ; then
# No root element copied in. Note the test above allows
# root.d elements to put things in /tmp
echo "Failed to deploy the root element."
exit 1
fi
# Configure Image
# Setup resolv.conf so we can chroot to install some packages
if [ -L $TMP_MOUNT_PATH/etc/resolv.conf ] || [ -f $TMP_MOUNT_PATH/etc/resolv.conf ] ; then
sudo mv $TMP_MOUNT_PATH/etc/resolv.conf $TMP_MOUNT_PATH/etc/resolv.conf.ORIG
fi
# Recreate resolv.conf
sudo touch $TMP_MOUNT_PATH/etc/resolv.conf
sudo chmod 777 $TMP_MOUNT_PATH/etc/resolv.conf
# use system configured resolv.conf if available to support internal proxy resolving
if [ -e /etc/resolv.conf ]; then
cat /etc/resolv.conf > $TMP_MOUNT_PATH/etc/resolv.conf
else
echo nameserver 8.8.8.8 > $TMP_MOUNT_PATH/etc/resolv.conf
fi
mount_proc_dev_sys
}
function mount_proc_dev_sys () {
# supporting kernel file systems
sudo mount -t proc none $TMP_MOUNT_PATH/proc
sudo mount --bind /dev $TMP_MOUNT_PATH/dev
sudo mount --bind /dev/pts $TMP_MOUNT_PATH/dev/pts
sudo mount -t sysfs none $TMP_MOUNT_PATH/sys
}
function unmount_dir () {
local pattern="$1" mnts=""
if [ -n "$pattern" ]; then
mnts=`awk '{print $2}' < /proc/mounts | grep "^$pattern" | sort -r`
fi
if [ -n "$mnts" ]; then
sudo umount -fl $mnts || true
fi
}