ceph/qa/workunits/rbd/rbd_mirror_helpers.sh
Mykola Golub dda32847e8 qa/workunits/rbd: don't use deprecated syntax
Signed-off-by: Mykola Golub <mgolub@mirantis.com>
2017-04-20 14:29:14 +02:00

876 lines
21 KiB
Bash
Executable File

#!/bin/sh
#
# rbd_mirror_helpers.sh - shared rbd-mirror daemon helper functions
#
# The scripts starts two ("local" and "remote") clusters using mstart.sh script,
# creates a temporary directory, used for cluster configs, daemon logs, admin
# socket, temporary files, and launches rbd-mirror daemon.
#
# There are several env variables useful when troubleshooting a test failure:
#
# RBD_MIRROR_NOCLEANUP - if not empty, don't run the cleanup (stop processes,
# destroy the clusters and remove the temp directory)
# on exit, so it is possible to check the test state
# after failure.
# RBD_MIRROR_TEMDIR - use this path when creating the temporary directory
# (should not exist) instead of running mktemp(1).
# RBD_MIRROR_ARGS - use this to pass additional arguments to started
# rbd-mirror daemons.
# RBD_MIRROR_VARGS - use this to pass additional arguments to vstart.sh
# when starting clusters.
#
# The cleanup can be done as a separate step, running the script with
# `cleanup ${RBD_MIRROR_TEMDIR}' arguments.
#
# Note, as other workunits tests, rbd_mirror.sh expects to find ceph binaries
# in PATH.
#
# Thus a typical troubleshooting session:
#
# From Ceph src dir (CEPH_SRC_PATH), start the test in NOCLEANUP mode and with
# TEMPDIR pointing to a known location:
#
# cd $CEPH_SRC_PATH
# PATH=$CEPH_SRC_PATH:$PATH
# RBD_MIRROR_NOCLEANUP=1 RBD_MIRROR_TEMDIR=/tmp/tmp.rbd_mirror \
# ../qa/workunits/rbd/rbd_mirror.sh
#
# After the test failure cd to TEMPDIR and check the current state:
#
# cd /tmp/tmp.rbd_mirror
# ls
# less rbd-mirror.cluster1_daemon.$pid.log
# ceph --cluster cluster1 -s
# ceph --cluster cluster1 -s
# rbd --cluster cluster2 -p mirror ls
# rbd --cluster cluster2 -p mirror journal status --image test
# ceph --admin-daemon rbd-mirror.cluster1_daemon.cluster1.$pid.asok help
# ...
#
# Also you can execute commands (functions) from the script:
#
# cd $CEPH_SRC_PATH
# export RBD_MIRROR_TEMDIR=/tmp/tmp.rbd_mirror
# ../qa/workunits/rbd/rbd_mirror.sh status
# ../qa/workunits/rbd/rbd_mirror.sh stop_mirror cluster1
# ../qa/workunits/rbd/rbd_mirror.sh start_mirror cluster2
# ../qa/workunits/rbd/rbd_mirror.sh flush cluster2
# ...
#
# Eventually, run the cleanup:
#
# cd $CEPH_SRC_PATH
# RBD_MIRROR_TEMDIR=/tmp/tmp.rbd_mirror \
# ../qa/workunits/rbd/rbd_mirror.sh cleanup
#
CLUSTER1=cluster1
CLUSTER2=cluster2
POOL=mirror
PARENT_POOL=mirror_parent
TEMPDIR=
CEPH_ROOT=$(readlink -f $(dirname $0)/../../../src)
CEPH_BIN=.
CEPH_SRC=.
if [ -e CMakeCache.txt ]; then
CEPH_SRC=${CEPH_ROOT}
CEPH_ROOT=${PWD}
CEPH_BIN=./bin
# needed for ceph CLI under cmake
export LD_LIBRARY_PATH=${CEPH_ROOT}/lib:${LD_LIBRARY_PATH}
export PYTHONPATH=${PYTHONPATH}:${CEPH_SRC}/pybind
for x in ${CEPH_ROOT}/lib/cython_modules/lib* ; do
export PYTHONPATH="${PYTHONPATH}:${x}"
done
fi
# These vars facilitate running this script in an environment with
# ceph installed from packages, like teuthology. These are not defined
# by default.
#
# RBD_MIRROR_USE_EXISTING_CLUSTER - if set, do not start and stop ceph clusters
# RBD_MIRROR_USE_RBD_MIRROR - if set, use an existing instance of rbd-mirror
# running as ceph client $CEPH_ID. If empty,
# this script will start and stop rbd-mirror
#
# Functions
#
# Parse a value in format cluster[:instance] and set cluster and instance vars.
set_cluster_instance()
{
local val=$1
local cluster_var_name=$2
local instance_var_name=$3
cluster=${val%:*}
instance=${val##*:}
if [ "${instance}" = "${val}" ]; then
# instance was not specified, use default
instance=0
fi
eval ${cluster_var_name}=${cluster}
eval ${instance_var_name}=${instance}
}
daemon_asok_file()
{
local local_cluster=$1
local cluster=$2
local instance
set_cluster_instance "${local_cluster}" local_cluster instance
if [ -n "${RBD_MIRROR_USE_RBD_MIRROR}" ]; then
echo $(ceph-conf --cluster $local_cluster --name "client.${CEPH_ID}" 'admin socket')
else
echo "${TEMPDIR}/rbd-mirror.${local_cluster}_daemon.${instance}.${cluster}.asok"
fi
}
daemon_pid_file()
{
local cluster=$1
local instance
set_cluster_instance "${cluster}" cluster instance
if [ -n "${RBD_MIRROR_USE_RBD_MIRROR}" ]; then
echo $(ceph-conf --cluster $cluster --name "client.${CEPH_ID}" 'pid file')
else
echo "${TEMPDIR}/rbd-mirror.${cluster}_daemon.${instance}.pid"
fi
}
testlog()
{
echo $(date '+%F %T') $@ | tee -a "${TEMPDIR}/rbd-mirror.test.log" >&2
}
expect_failure()
{
local expected="$1" ; shift
local out=${TEMPDIR}/expect_failure.out
if "$@" > ${out} 2>&1 ; then
cat ${out} >&2
return 1
fi
if [ -z "${expected}" ]; then
return 0
fi
if ! grep -q "${expected}" ${out} ; then
cat ${out} >&2
return 1
fi
return 0
}
setup()
{
local c
trap cleanup INT TERM EXIT
if [ -n "${RBD_MIRROR_TEMDIR}" ]; then
test -d "${RBD_MIRROR_TEMDIR}" ||
mkdir "${RBD_MIRROR_TEMDIR}"
TEMPDIR="${RBD_MIRROR_TEMDIR}"
cd ${TEMPDIR}
else
TEMPDIR=`mktemp -d`
fi
if [ -z "${RBD_MIRROR_USE_EXISTING_CLUSTER}" ]; then
cd ${CEPH_ROOT}
${CEPH_SRC}/mstart.sh ${CLUSTER1} -n ${RBD_MIRROR_VARGS}
${CEPH_SRC}/mstart.sh ${CLUSTER2} -n ${RBD_MIRROR_VARGS}
rm -f ${TEMPDIR}/${CLUSTER1}.conf
ln -s $(readlink -f run/${CLUSTER1}/ceph.conf) \
${TEMPDIR}/${CLUSTER1}.conf
rm -f ${TEMPDIR}/${CLUSTER2}.conf
ln -s $(readlink -f run/${CLUSTER2}/ceph.conf) \
${TEMPDIR}/${CLUSTER2}.conf
cd ${TEMPDIR}
fi
ceph --cluster ${CLUSTER1} osd pool create ${POOL} 64 64
ceph --cluster ${CLUSTER1} osd pool create ${PARENT_POOL} 64 64
ceph --cluster ${CLUSTER2} osd pool create ${PARENT_POOL} 64 64
ceph --cluster ${CLUSTER2} osd pool create ${POOL} 64 64
rbd --cluster ${CLUSTER1} mirror pool enable ${POOL} pool
rbd --cluster ${CLUSTER2} mirror pool enable ${POOL} pool
rbd --cluster ${CLUSTER1} mirror pool enable ${PARENT_POOL} image
rbd --cluster ${CLUSTER2} mirror pool enable ${PARENT_POOL} image
rbd --cluster ${CLUSTER1} mirror pool peer add ${POOL} ${CLUSTER2}
rbd --cluster ${CLUSTER2} mirror pool peer add ${POOL} ${CLUSTER1}
rbd --cluster ${CLUSTER1} mirror pool peer add ${PARENT_POOL} ${CLUSTER2}
rbd --cluster ${CLUSTER2} mirror pool peer add ${PARENT_POOL} ${CLUSTER1}
}
cleanup()
{
test -n "${RBD_MIRROR_NOCLEANUP}" && return
local cluster instance
set +e
for cluster in "${CLUSTER1}" "${CLUSTER2}"; do
for instance in `seq 0 9`; do
stop_mirror "${cluster}:${instance}"
done
done
if [ -z "${RBD_MIRROR_USE_EXISTING_CLUSTER}" ]; then
cd ${CEPH_ROOT}
${CEPH_SRC}/mstop.sh ${CLUSTER1}
${CEPH_SRC}/mstop.sh ${CLUSTER2}
else
ceph --cluster ${CLUSTER1} osd pool rm ${POOL} ${POOL} --yes-i-really-really-mean-it
ceph --cluster ${CLUSTER2} osd pool rm ${POOL} ${POOL} --yes-i-really-really-mean-it
ceph --cluster ${CLUSTER1} osd pool rm ${PARENT_POOL} ${PARENT_POOL} --yes-i-really-really-mean-it
ceph --cluster ${CLUSTER2} osd pool rm ${PARENT_POOL} ${PARENT_POOL} --yes-i-really-really-mean-it
fi
test "${RBD_MIRROR_TEMDIR}" = "${TEMPDIR}" ||
rm -Rf ${TEMPDIR}
}
start_mirror()
{
local cluster=$1
local instance
set_cluster_instance "${cluster}" cluster instance
test -n "${RBD_MIRROR_USE_RBD_MIRROR}" && return
rbd-mirror \
--cluster ${cluster} \
--pid-file=$(daemon_pid_file "${cluster}:${instance}") \
--log-file=${TEMPDIR}/rbd-mirror.${cluster}_daemon.${instance}.log \
--admin-socket=${TEMPDIR}/rbd-mirror.${cluster}_daemon.${instance}.\$cluster.asok \
--rbd-mirror-delete-retry-interval=5 \
--rbd-mirror-image-state-check-interval=5 \
--rbd-mirror-journal-poll-age=1 \
--rbd-mirror-pool-replayers-refresh-interval=5 \
--debug-rbd=30 --debug-journaler=30 \
--debug-rbd_mirror=30 \
--daemonize=true \
${RBD_MIRROR_ARGS}
}
stop_mirror()
{
local cluster=$1
local sig=$2
test -n "${RBD_MIRROR_USE_RBD_MIRROR}" && return
local pid
pid=$(cat $(daemon_pid_file "${cluster}") 2>/dev/null) || :
if [ -n "${pid}" ]
then
kill ${sig} ${pid}
for s in 1 2 4 8 16 32; do
sleep $s
ps auxww | awk -v pid=${pid} '$2 == pid {print; exit 1}' && break
done
ps auxww | awk -v pid=${pid} '$2 == pid {print; exit 1}'
fi
rm -f $(daemon_asok_file "${cluster}" "${CLUSTER1}")
rm -f $(daemon_asok_file "${cluster}" "${CLUSTER2}")
rm -f $(daemon_pid_file "${cluster}")
}
admin_daemon()
{
local cluster=$1 ; shift
local instance
set_cluster_instance "${cluster}" cluster instance
local asok_file=$(daemon_asok_file "${cluster}:${instance}" "${cluster}")
test -S "${asok_file}"
ceph --admin-daemon ${asok_file} $@
}
status()
{
local cluster daemon image_pool image
for cluster in ${CLUSTER1} ${CLUSTER2}
do
echo "${cluster} status"
ceph --cluster ${cluster} -s
echo
for image_pool in ${POOL} ${PARENT_POOL}
do
echo "${cluster} ${image_pool} images"
rbd --cluster ${cluster} -p ${image_pool} ls
echo
echo "${cluster} ${image_pool} mirror pool status"
rbd --cluster ${cluster} -p ${image_pool} mirror pool status --verbose
echo
for image in `rbd --cluster ${cluster} -p ${image_pool} ls 2>/dev/null`
do
echo "image ${image} info"
rbd --cluster ${cluster} -p ${image_pool} info ${image}
echo
echo "image ${image} journal status"
rbd --cluster ${cluster} -p ${image_pool} journal status --image ${image}
echo
done
done
done
local ret
for cluster in "${CLUSTER1}" "${CLUSTER2}"
do
local pid_file=$(daemon_pid_file ${cluster} )
if [ ! -e ${pid_file} ]
then
echo "${cluster} rbd-mirror not running or unknown" \
"(${pid_file} not exist)"
continue
fi
local pid
pid=$(cat ${pid_file} 2>/dev/null) || :
if [ -z "${pid}" ]
then
echo "${cluster} rbd-mirror not running or unknown" \
"(can't find pid using ${pid_file})"
ret=1
continue
fi
echo "${daemon} rbd-mirror process in ps output:"
if ps auxww |
awk -v pid=${pid} 'NR == 1 {print} $2 == pid {print; exit 1}'
then
echo
echo "${cluster} rbd-mirror not running" \
"(can't find pid $pid in ps output)"
ret=1
continue
fi
echo
local asok_file=$(daemon_asok_file ${cluster} ${cluster})
if [ ! -S "${asok_file}" ]
then
echo "${cluster} rbd-mirror asok is unknown (${asok_file} not exits)"
ret=1
continue
fi
echo "${cluster} rbd-mirror status"
ceph --admin-daemon ${asok_file} rbd mirror status
echo
done
return ${ret}
}
flush()
{
local cluster=$1
local pool=$2
local image=$3
local cmd="rbd mirror flush"
if [ -n "${image}" ]
then
cmd="${cmd} ${pool}/${image}"
fi
admin_daemon "${cluster}" ${cmd}
}
test_image_replay_state()
{
local cluster=$1
local pool=$2
local image=$3
local test_state=$4
local current_state=stopped
admin_daemon "${cluster}" help |
fgrep "\"rbd mirror status ${pool}/${image}\"" &&
admin_daemon "${cluster}" rbd mirror status ${pool}/${image} |
grep -i 'state.*Replaying' &&
current_state=started
test "${test_state}" = "${current_state}"
}
wait_for_image_replay_state()
{
local cluster=$1
local pool=$2
local image=$3
local state=$4
local s
# TODO: add a way to force rbd-mirror to update replayers
for s in 1 2 4 8 8 8 8 8 8 8 8 16 16; do
sleep ${s}
test_image_replay_state "${cluster}" "${pool}" "${image}" "${state}" && return 0
done
return 1
}
wait_for_image_replay_started()
{
local cluster=$1
local pool=$2
local image=$3
wait_for_image_replay_state "${cluster}" "${pool}" "${image}" started
}
wait_for_image_replay_stopped()
{
local cluster=$1
local pool=$2
local image=$3
wait_for_image_replay_state "${cluster}" "${pool}" "${image}" stopped
}
get_position()
{
local cluster=$1
local pool=$2
local image=$3
local id_regexp=$4
# Parse line like below, looking for the first position
# [id=, commit_position=[positions=[[object_number=1, tag_tid=3, entry_tid=9], [object_number=0, tag_tid=3, entry_tid=8], [object_number=3, tag_tid=3, entry_tid=7], [object_number=2, tag_tid=3, entry_tid=6]]]]
local status_log=${TEMPDIR}/${CLUSTER2}-${pool}-${image}.status
rbd --cluster ${cluster} -p ${pool} journal status --image ${image} |
tee ${status_log} >&2
sed -nEe 's/^.*\[id='"${id_regexp}"',.*positions=\[\[([^]]*)\],.*state=connected.*$/\1/p' \
${status_log}
}
get_master_position()
{
local cluster=$1
local pool=$2
local image=$3
get_position "${cluster}" "${pool}" "${image}" ''
}
get_mirror_position()
{
local cluster=$1
local pool=$2
local image=$3
get_position "${cluster}" "${pool}" "${image}" '..*'
}
wait_for_replay_complete()
{
local local_cluster=$1
local cluster=$2
local pool=$3
local image=$4
local s master_pos mirror_pos last_mirror_pos
local master_tag master_entry mirror_tag mirror_entry
while true; do
for s in 0.2 0.4 0.8 1.6 2 2 4 4 8 8 16 16 32 32; do
sleep ${s}
flush "${local_cluster}" "${pool}" "${image}"
master_pos=$(get_master_position "${cluster}" "${pool}" "${image}")
mirror_pos=$(get_mirror_position "${cluster}" "${pool}" "${image}")
test -n "${master_pos}" -a "${master_pos}" = "${mirror_pos}" && return 0
test "${mirror_pos}" != "${last_mirror_pos}" && break
done
test "${mirror_pos}" = "${last_mirror_pos}" && return 1
last_mirror_pos="${mirror_pos}"
# handle the case where the mirror is ahead of the master
master_tag=$(echo "${master_pos}" | grep -Eo "tag_tid=[0-9]*" | cut -d'=' -f 2)
mirror_tag=$(echo "${mirror_pos}" | grep -Eo "tag_tid=[0-9]*" | cut -d'=' -f 2)
master_entry=$(echo "${master_pos}" | grep -Eo "entry_tid=[0-9]*" | cut -d'=' -f 2)
mirror_entry=$(echo "${mirror_pos}" | grep -Eo "entry_tid=[0-9]*" | cut -d'=' -f 2)
test "${master_tag}" = "${mirror_tag}" -a ${master_entry} -le ${mirror_entry} && return 0
done
return 1
}
test_status_in_pool_dir()
{
local cluster=$1
local pool=$2
local image=$3
local state_pattern=$4
local description_pattern=$5
local status_log=${TEMPDIR}/${cluster}-${image}.mirror_status
rbd --cluster ${cluster} -p ${pool} mirror image status ${image} |
tee ${status_log} >&2
grep "state: .*${state_pattern}" ${status_log} || return 1
grep "description: .*${description_pattern}" ${status_log} || return 1
}
wait_for_status_in_pool_dir()
{
local cluster=$1
local pool=$2
local image=$3
local state_pattern=$4
local description_pattern=$5
for s in 1 2 4 8 8 8 8 8 8 8 8 16 16; do
sleep ${s}
test_status_in_pool_dir ${cluster} ${pool} ${image} ${state_pattern} ${description_pattern} && return 0
done
return 1
}
create_image()
{
local cluster=$1 ; shift
local pool=$1 ; shift
local image=$1 ; shift
local size=128
if [ -n "$1" ]; then
size=$1
shift
fi
rbd --cluster ${cluster} -p ${pool} create --size ${size} \
--image-feature layering,exclusive-lock,journaling $@ ${image}
}
set_image_meta()
{
local cluster=$1
local pool=$2
local image=$3
local key=$4
local val=$5
rbd --cluster ${cluster} -p ${pool} image-meta set ${image} $key $val
}
remove_image()
{
local cluster=$1
local pool=$2
local image=$3
rbd --cluster=${cluster} -p ${pool} snap purge ${image}
rbd --cluster=${cluster} -p ${pool} rm ${image}
}
remove_image_retry()
{
local cluster=$1
local pool=$2
local image=$3
for s in 1 2 4 8 16 32; do
remove_image ${cluster} ${pool} ${image} && return 0
sleep ${s}
done
return 1
}
clone_image()
{
local cluster=$1
local parent_pool=$2
local parent_image=$3
local parent_snap=$4
local clone_pool=$5
local clone_image=$6
rbd --cluster ${cluster} clone ${parent_pool}/${parent_image}@${parent_snap} \
${clone_pool}/${clone_image} --image-feature layering,exclusive-lock,journaling
}
disconnect_image()
{
local cluster=$1
local pool=$2
local image=$3
rbd --cluster ${cluster} -p ${pool} journal client disconnect \
--image ${image}
}
create_snapshot()
{
local cluster=$1
local pool=$2
local image=$3
local snap=$4
rbd --cluster ${cluster} -p ${pool} snap create ${image}@${snap}
}
remove_snapshot()
{
local cluster=$1
local pool=$2
local image=$3
local snap=$4
rbd --cluster ${cluster} -p ${pool} snap rm ${image}@${snap}
}
rename_snapshot()
{
local cluster=$1
local pool=$2
local image=$3
local snap=$4
local new_snap=$5
rbd --cluster ${cluster} -p ${pool} snap rename ${image}@${snap} ${image}@${new_snap}
}
purge_snapshots()
{
local cluster=$1
local pool=$2
local image=$3
rbd --cluster ${cluster} -p ${pool} snap purge ${image}
}
protect_snapshot()
{
local cluster=$1
local pool=$2
local image=$3
local snap=$4
rbd --cluster ${cluster} -p ${pool} snap protect ${image}@${snap}
}
unprotect_snapshot()
{
local cluster=$1
local pool=$2
local image=$3
local snap=$4
rbd --cluster ${cluster} -p ${pool} snap unprotect ${image}@${snap}
}
wait_for_snap_present()
{
local cluster=$1
local pool=$2
local image=$3
local snap_name=$4
local s
for s in 1 2 4 8 8 8 8 8 8 8 8 16 16 16 16 32 32 32 32; do
sleep ${s}
rbd --cluster ${cluster} -p ${pool} info ${image}@${snap_name} || continue
return 0
done
return 1
}
write_image()
{
local cluster=$1
local pool=$2
local image=$3
local count=$4
local size=$5
test -n "${size}" || size=4096
rbd --cluster ${cluster} -p ${pool} bench ${image} --io-type write \
--io-size ${size} --io-threads 1 --io-total $((size * count)) \
--io-pattern rand
}
stress_write_image()
{
local cluster=$1
local pool=$2
local image=$3
local duration=$(awk 'BEGIN {srand(); print int(10 * rand()) + 5}')
timeout ${duration}s ceph_test_rbd_mirror_random_write \
--cluster ${cluster} ${pool} ${image} \
--debug-rbd=20 --debug-journaler=20 \
2> ${TEMPDIR}/rbd-mirror-random-write.log || true
}
compare_images()
{
local pool=$1
local image=$2
local rmt_export=${TEMPDIR}/${CLUSTER2}-${pool}-${image}.export
local loc_export=${TEMPDIR}/${CLUSTER1}-${pool}-${image}.export
rm -f ${rmt_export} ${loc_export}
rbd --cluster ${CLUSTER2} -p ${pool} export ${image} ${rmt_export}
rbd --cluster ${CLUSTER1} -p ${pool} export ${image} ${loc_export}
cmp ${rmt_export} ${loc_export}
rm -f ${rmt_export} ${loc_export}
}
demote_image()
{
local cluster=$1
local pool=$2
local image=$3
rbd --cluster=${cluster} mirror image demote ${pool}/${image}
}
promote_image()
{
local cluster=$1
local pool=$2
local image=$3
local force=$4
rbd --cluster=${cluster} mirror image promote ${pool}/${image} ${force}
}
set_pool_mirror_mode()
{
local cluster=$1
local pool=$2
local mode=$3
rbd --cluster=${cluster} -p ${pool} mirror pool enable ${mode}
}
disable_mirror()
{
local cluster=$1
local pool=$2
local image=$3
rbd --cluster=${cluster} mirror image disable ${pool}/${image}
}
enable_mirror()
{
local cluster=$1
local pool=$2
local image=$3
rbd --cluster=${cluster} mirror image enable ${pool}/${image}
}
test_image_present()
{
local cluster=$1
local pool=$2
local image=$3
local test_state=$4
local image_id=$5
local current_state=deleted
local current_image_id
current_image_id=$(get_image_id ${cluster} ${pool} ${image})
test -n "${current_image_id}" &&
test -z "${image_id}" -o "${image_id}" = "${current_image_id}" &&
current_state=present
test "${test_state}" = "${current_state}"
}
wait_for_image_present()
{
local cluster=$1
local pool=$2
local image=$3
local state=$4
local image_id=$5
local s
test -n "${image_id}" ||
image_id=$(get_image_id ${cluster} ${pool} ${image})
# TODO: add a way to force rbd-mirror to update replayers
for s in 0.1 1 2 4 8 8 8 8 8 8 8 8 16 16 32 32; do
sleep ${s}
test_image_present \
"${cluster}" "${pool}" "${image}" "${state}" "${image_id}" &&
return 0
done
return 1
}
get_image_id()
{
local cluster=$1
local pool=$2
local image=$3
rbd --cluster=${cluster} -p ${pool} info ${image} |
sed -ne 's/^.*block_name_prefix: rbd_data\.//p'
}
request_resync_image()
{
local cluster=$1
local pool=$2
local image=$3
local image_id_var_name=$1
eval "${image_id_var_name}='$(get_image_id ${cluster} ${pool} ${image})'"
eval 'test -n "$'${image_id_var_name}'"'
rbd --cluster=${cluster} -p ${pool} mirror image resync ${image}
}
#
# Main
#
if [ "$#" -gt 0 ]
then
if [ -z "${RBD_MIRROR_TEMDIR}" ]
then
echo "RBD_MIRROR_TEMDIR is not set" >&2
exit 1
fi
TEMPDIR="${RBD_MIRROR_TEMDIR}"
cd ${TEMPDIR}
$@
exit $?
fi
set -xe
setup