ceph/qa/workunits/ceph-helpers.sh
Kefu Chai 6cb4503a40 qa/workunits/ceph-helpers: do not error out if is_clean
it would be a race otherwise, because we cannot be sure that the cluster
pgs are not all clean or not when run_osd() returns, but we can be sure
that they are expected to active+clean after a while. that's what
wait_for_clean() does.

Signed-off-by: Kefu Chai <kchai@redhat.com>
2017-04-12 17:32:44 +08:00

1660 lines
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#!/bin/bash
#
# Copyright (C) 2013,2014 Cloudwatt <libre.licensing@cloudwatt.com>
# Copyright (C) 2014,2015 Red Hat <contact@redhat.com>
# Copyright (C) 2014 Federico Gimenez <fgimenez@coit.es>
#
# Author: Loic Dachary <loic@dachary.org>
# Author: Federico Gimenez <fgimenez@coit.es>
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU Library Public License as published by
# the Free Software Foundation; either version 2, or (at your option)
# any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Library Public License for more details.
#
TIMEOUT=300
PG_NUM=4
: ${CEPH_BUILD_VIRTUALENV:=/tmp}
if type xmlstarlet > /dev/null 2>&1; then
XMLSTARLET=xmlstarlet
elif type xml > /dev/null 2>&1; then
XMLSTARLET=xml
else
echo "Missing xmlstarlet binary!"
exit 1
fi
if [ `uname` = FreeBSD ]; then
SED=gsed
else
SED=sed
fi
#! @file ceph-helpers.sh
# @brief Toolbox to manage Ceph cluster dedicated to testing
#
# Example use case:
#
# ~~~~~~~~~~~~~~~~{.sh}
# source ceph-helpers.sh
#
# function mytest() {
# # cleanup leftovers and reset mydir
# setup mydir
# # create a cluster with one monitor and three osds
# run_mon mydir a
# run_osd mydir 0
# run_osd mydir 2
# run_osd mydir 3
# # put and get an object
# rados --pool rbd put GROUP /etc/group
# rados --pool rbd get GROUP /tmp/GROUP
# # stop the cluster and cleanup the directory
# teardown mydir
# }
# ~~~~~~~~~~~~~~~~
#
# The focus is on simplicity and efficiency, in the context of
# functional tests. The output is intentionally very verbose
# and functions return as soon as an error is found. The caller
# is also expected to abort on the first error so that debugging
# can be done by looking at the end of the output.
#
# Each function is documented, implemented and tested independently.
# When modifying a helper, the test and the documentation are
# expected to be updated and it is easier of they are collocated. A
# test for a given function can be run with
#
# ~~~~~~~~~~~~~~~~{.sh}
# ceph-helpers.sh TESTS test_get_osds
# ~~~~~~~~~~~~~~~~
#
# and all the tests (i.e. all functions matching test_*) are run
# with:
#
# ~~~~~~~~~~~~~~~~{.sh}
# ceph-helpers.sh TESTS
# ~~~~~~~~~~~~~~~~
#
# A test function takes a single argument : the directory dedicated
# to the tests. It is expected to not create any file outside of this
# directory and remove it entirely when it completes successfully.
#
##
# Cleanup any leftovers found in **dir** via **teardown**
# and reset **dir** as an empty environment.
#
# @param dir path name of the environment
# @return 0 on success, 1 on error
#
function setup() {
local dir=$1
teardown $dir || return 1
mkdir -p $dir
}
function test_setup() {
local dir=$dir
setup $dir || return 1
test -d $dir || return 1
setup $dir || return 1
test -d $dir || return 1
teardown $dir
}
#######################################################################
##
# Kill all daemons for which a .pid file exists in **dir** and remove
# **dir**. If the file system in which **dir** is btrfs, delete all
# subvolumes that relate to it.
#
# @param dir path name of the environment
# @return 0 on success, 1 on error
#
function teardown() {
local dir=$1
kill_daemons $dir KILL
if [ `uname` != FreeBSD ] \
&& [ $(stat -f -c '%T' .) == "btrfs" ]; then
__teardown_btrfs $dir
fi
rm -fr $dir
}
function __teardown_btrfs() {
local btrfs_base_dir=$1
local btrfs_root=$(df -P . | tail -1 | awk '{print $NF}')
local btrfs_dirs=$(cd $btrfs_base_dir; sudo btrfs subvolume list . -t | awk '/^[0-9]/ {print $4}' | grep "$btrfs_base_dir/$btrfs_dir")
for subvolume in $btrfs_dirs; do
sudo btrfs subvolume delete $btrfs_root/$subvolume
done
}
function test_teardown() {
local dir=$dir
setup $dir || return 1
teardown $dir || return 1
! test -d $dir || return 1
}
#######################################################################
##
# Sends a signal to a single daemon.
# This is a helper function for kill_daemons
#
# After the daemon is sent **signal**, its actual termination
# will be verified by sending it signal 0. If the daemon is
# still alive, kill_daemon will pause for a few seconds and
# try again. This will repeat for a fixed number of times
# before kill_daemon returns on failure. The list of
# sleep intervals can be specified as **delays** and defaults
# to:
#
# 0.1 0.2 1 1 1 2 3 5 5 5 10 10 20 60 60 60 120
#
# This sequence is designed to run first a very short sleep time (0.1)
# if the machine is fast enough and the daemon terminates in a fraction of a
# second. The increasing sleep numbers should give plenty of time for
# the daemon to die even on the slowest running machine. If a daemon
# takes more than a few minutes to stop (the sum of all sleep times),
# there probably is no point in waiting more and a number of things
# are likely to go wrong anyway: better give up and return on error.
#
# @param pid the process id to send a signal
# @param send_signal the signal to send
# @param delays sequence of sleep times before failure
#
function kill_daemon() {
set -x
local pid=$(cat $1)
local send_signal=$2
local delays=${3:-0.1 0.2 1 1 1 2 3 5 5 5 10 10 20 60 60 60 120}
local exit_code=1
for try in $delays ; do
if kill -$send_signal $pid 2> /dev/null ; then
exit_code=1
else
exit_code=0
break
fi
send_signal=0
sleep $try
done;
return $exit_code
}
function test_kill_daemon() {
local dir=$1
setup $dir || return 1
run_mon $dir a --osd_pool_default_size=1 || return 1
run_mgr $dir x || return 1
run_osd $dir 0 || return 1
name_prefix=osd
for pidfile in $(find $dir 2>/dev/null | grep $name_prefix'[^/]*\.pid') ; do
#
# sending signal 0 won't kill the daemon
# waiting just for one second instead of the default schedule
# allows us to quickly verify what happens when kill fails
# to stop the daemon (i.e. it must return false)
#
! kill_daemon $pidfile 0 1 || return 1
#
# killing just the osd and verify the mon still is responsive
#
kill_daemon $pidfile TERM || return 1
done
ceph osd dump | grep "osd.0 down" || return 1
name_prefix=mgr
for pidfile in $(find $dir 2>/dev/null | grep $name_prefix'[^/]*\.pid') ; do
#
# kill the mgr
#
kill_daemon $pidfile TERM || return 1
done
name_prefix=mon
for pidfile in $(find $dir 2>/dev/null | grep $name_prefix'[^/]*\.pid') ; do
#
# kill the mon and verify it cannot be reached
#
kill_daemon $pidfile TERM || return 1
! timeout 60 ceph --connect-timeout 60 status || return 1
done
teardown $dir || return 1
}
##
# Kill all daemons for which a .pid file exists in **dir**. Each
# daemon is sent a **signal** and kill_daemons waits for it to exit
# during a few minutes. By default all daemons are killed. If a
# **name_prefix** is provided, only the daemons for which a pid
# file is found matching the prefix are killed. See run_osd and
# run_mon for more information about the name conventions for
# the pid files.
#
# Send TERM to all daemons : kill_daemons $dir
# Send KILL to all daemons : kill_daemons $dir KILL
# Send KILL to all osds : kill_daemons $dir KILL osd
# Send KILL to osd 1 : kill_daemons $dir KILL osd.1
#
# If a daemon is sent the TERM signal and does not terminate
# within a few minutes, it will still be running even after
# kill_daemons returns.
#
# If all daemons are kill successfully the function returns 0
# if at least one daemon remains, this is treated as an
# error and the function return 1.
#
# @param dir path name of the environment
# @param signal name of the first signal (defaults to TERM)
# @param name_prefix only kill match daemons (defaults to all)
# @param delays sequence of sleep times before failure
# @return 0 on success, 1 on error
#
function kill_daemons() {
local trace=$(shopt -q -o xtrace && echo true || echo false)
$trace && shopt -u -o xtrace
local dir=$1
local signal=${2:-TERM}
local name_prefix=$3 # optional, osd, mon, osd.1
local delays=$4 #optional timing
local status=0
local pids=""
for pidfile in $(find $dir 2>/dev/null | grep $name_prefix'[^/]*\.pid') ; do
run_in_background pids kill_daemon $pidfile $signal $delays
done
wait_background pids
status=$?
$trace && shopt -s -o xtrace
return $status
}
function test_kill_daemons() {
local dir=$1
setup $dir || return 1
run_mon $dir a --osd_pool_default_size=1 || return 1
run_mgr $dir x || return 1
run_osd $dir 0 || return 1
#
# sending signal 0 won't kill the daemon
# waiting just for one second instead of the default schedule
# allows us to quickly verify what happens when kill fails
# to stop the daemon (i.e. it must return false)
#
! kill_daemons $dir 0 osd 1 || return 1
#
# killing just the osd and verify the mon still is responsive
#
kill_daemons $dir TERM osd || return 1
ceph osd dump | grep "osd.0 down" || return 1
#
# kill the mgr
#
kill_daemons $dir TERM mgr || return 1
#
# kill the mon and verify it cannot be reached
#
kill_daemons $dir TERM || return 1
! timeout 60 ceph --connect-timeout 60 status || return 1
teardown $dir || return 1
}
#######################################################################
##
# Run a monitor by the name mon.**id** with data in **dir**/**id**.
# The logs can be found in **dir**/mon.**id**.log and the pid file
# is **dir**/mon.**id**.pid and the admin socket is
# **dir**/**id**/ceph-mon.**id**.asok.
#
# The remaining arguments are passed verbatim to ceph-mon --mkfs
# and the ceph-mon daemon.
#
# Two mandatory arguments must be provided: --fsid and --mon-host
# Instead of adding them to every call to run_mon, they can be
# set in the CEPH_ARGS environment variable to be read implicitly
# by every ceph command.
#
# The CEPH_CONF variable is expected to be set to /dev/null to
# only rely on arguments for configuration.
#
# Examples:
#
# CEPH_ARGS="--fsid=$(uuidgen) "
# CEPH_ARGS+="--mon-host=127.0.0.1:7018 "
# run_mon $dir a # spawn a mon and bind port 7018
# run_mon $dir a --debug-filestore=20 # spawn with filestore debugging
#
# If mon_initial_members is not set, the default rbd pool is deleted
# and replaced with a replicated pool with less placement groups to
# speed up initialization. If mon_initial_members is set, no attempt
# is made to recreate the rbd pool because it would hang forever,
# waiting for other mons to join.
#
# A **dir**/ceph.conf file is created but not meant to be used by any
# function. It is convenient for debugging a failure with:
#
# ceph --conf **dir**/ceph.conf -s
#
# @param dir path name of the environment
# @param id mon identifier
# @param ... can be any option valid for ceph-mon
# @return 0 on success, 1 on error
#
function run_mon() {
local dir=$1
shift
local id=$1
shift
local data=$dir/$id
ceph-mon \
--id $id \
--mkfs \
--mon-data=$data \
--run-dir=$dir \
"$@" || return 1
ceph-mon \
--id $id \
--mon-osd-full-ratio=.99 \
--mon-data-avail-crit=1 \
--paxos-propose-interval=0.1 \
--osd-crush-chooseleaf-type=0 \
--erasure-code-dir=$CEPH_LIB \
--plugin-dir=$CEPH_LIB \
--debug-mon 20 \
--debug-ms 20 \
--debug-paxos 20 \
--chdir= \
--mon-data=$data \
--log-file=$dir/\$name.log \
--admin-socket=$dir/\$cluster-\$name.asok \
--mon-cluster-log-file=$dir/log \
--run-dir=$dir \
--pid-file=$dir/\$name.pid \
--mon-allow-pool-delete \
"$@" || return 1
cat > $dir/ceph.conf <<EOF
[global]
fsid = $(get_config mon $id fsid)
mon host = $(get_config mon $id mon_host)
EOF
if test -z "$(get_config mon $id mon_initial_members)" ; then
ceph osd pool delete rbd rbd --yes-i-really-really-mean-it || return 1
ceph osd pool create rbd $PG_NUM || return 1
fi
}
function test_run_mon() {
local dir=$1
setup $dir || return 1
run_mon $dir a --mon-initial-members=a || return 1
# rbd has not been deleted / created, hence it has pool id 0
ceph osd dump | grep "pool 0 'rbd'" || return 1
kill_daemons $dir || return 1
run_mon $dir a || return 1
# rbd has been deleted / created, hence it does not have pool id 0
! ceph osd dump | grep "pool 0 'rbd'" || return 1
local size=$(CEPH_ARGS='' ceph --format=json daemon $dir/ceph-mon.a.asok \
config get osd_pool_default_size)
test "$size" = '{"osd_pool_default_size":"3"}' || return 1
! CEPH_ARGS='' ceph status || return 1
CEPH_ARGS='' ceph --conf $dir/ceph.conf status || return 1
kill_daemons $dir || return 1
run_mon $dir a --osd_pool_default_size=1 || return 1
local size=$(CEPH_ARGS='' ceph --format=json daemon $dir/ceph-mon.a.asok \
config get osd_pool_default_size)
test "$size" = '{"osd_pool_default_size":"1"}' || return 1
kill_daemons $dir || return 1
CEPH_ARGS="$CEPH_ARGS --osd_pool_default_size=2" \
run_mon $dir a || return 1
local size=$(CEPH_ARGS='' ceph --format=json daemon $dir/ceph-mon.a.asok \
config get osd_pool_default_size)
test "$size" = '{"osd_pool_default_size":"2"}' || return 1
kill_daemons $dir || return 1
teardown $dir || return 1
}
#######################################################################
function run_mgr() {
local dir=$1
shift
local id=$1
shift
local data=$dir/$id
ceph-mgr \
--id $id \
--erasure-code-dir=$CEPH_LIB \
--plugin-dir=$CEPH_LIB \
--debug-mgr 20 \
--debug-objecter 20 \
--debug-ms 20 \
--debug-paxos 20 \
--chdir= \
--mgr-data=$data \
--log-file=$dir/\$name.log \
--admin-socket=$dir/\$cluster-\$name.asok \
--run-dir=$dir \
--pid-file=$dir/\$name.pid \
"$@" || return 1
}
#######################################################################
##
# Create (prepare) and run (activate) an osd by the name osd.**id**
# with data in **dir**/**id**. The logs can be found in
# **dir**/osd.**id**.log, the pid file is **dir**/osd.**id**.pid and
# the admin socket is **dir**/**id**/ceph-osd.**id**.asok.
#
# The remaining arguments are passed verbatim to ceph-osd.
#
# Two mandatory arguments must be provided: --fsid and --mon-host
# Instead of adding them to every call to run_osd, they can be
# set in the CEPH_ARGS environment variable to be read implicitly
# by every ceph command.
#
# The CEPH_CONF variable is expected to be set to /dev/null to
# only rely on arguments for configuration.
#
# The run_osd function creates the OSD data directory with ceph-disk
# prepare on the **dir**/**id** directory and relies on the
# activate_osd function to run the daemon.
#
# Examples:
#
# CEPH_ARGS="--fsid=$(uuidgen) "
# CEPH_ARGS+="--mon-host=127.0.0.1:7018 "
# run_osd $dir 0 # prepare and activate an osd using the monitor listening on 7018
#
# @param dir path name of the environment
# @param id osd identifier
# @param ... can be any option valid for ceph-osd
# @return 0 on success, 1 on error
#
function run_osd() {
local dir=$1
shift
local id=$1
shift
local osd_data=$dir/$id
local ceph_disk_args
ceph_disk_args+=" --statedir=$dir"
ceph_disk_args+=" --sysconfdir=$dir"
ceph_disk_args+=" --prepend-to-path="
mkdir -p $osd_data
ceph-disk $ceph_disk_args \
prepare $osd_data || return 1
activate_osd $dir $id "$@"
}
function test_run_osd() {
local dir=$1
setup $dir || return 1
run_mon $dir a || return 1
run_mgr $dir x || return 1
run_osd $dir 0 || return 1
local backfills=$(CEPH_ARGS='' ceph --format=json daemon $dir//ceph-osd.0.asok \
config get osd_max_backfills)
echo "$backfills" | grep --quiet 'osd_max_backfills' || return 1
run_osd $dir 1 --osd-max-backfills 20 || return 1
local backfills=$(CEPH_ARGS='' ceph --format=json daemon $dir//ceph-osd.1.asok \
config get osd_max_backfills)
test "$backfills" = '{"osd_max_backfills":"20"}' || return 1
CEPH_ARGS="$CEPH_ARGS --osd-max-backfills 30" run_osd $dir 2 || return 1
local backfills=$(CEPH_ARGS='' ceph --format=json daemon $dir//ceph-osd.2.asok \
config get osd_max_backfills)
test "$backfills" = '{"osd_max_backfills":"30"}' || return 1
teardown $dir || return 1
}
#######################################################################
##
# Shutdown and remove all traces of the osd by the name osd.**id**.
#
# The OSD is shutdown with the TERM signal. It is then removed from
# the auth list, crush map, osd map etc and the files associated with
# it are also removed.
#
# @param dir path name of the environment
# @param id osd identifier
# @return 0 on success, 1 on error
#
function destroy_osd() {
local dir=$1
local id=$2
kill_daemons $dir TERM osd.$id || return 1
ceph osd out osd.$id || return 1
ceph auth del osd.$id || return 1
ceph osd crush remove osd.$id || return 1
ceph osd rm $id || return 1
teardown $dir/$id || return 1
rm -fr $dir/$id
}
function test_destroy_osd() {
local dir=$1
setup $dir || return 1
run_mon $dir a || return 1
run_mgr $dir x || return 1
run_osd $dir 0 || return 1
destroy_osd $dir 0 || return 1
! ceph osd dump | grep "osd.$id " || return 1
teardown $dir || return 1
}
#######################################################################
##
# Run (activate) an osd by the name osd.**id** with data in
# **dir**/**id**. The logs can be found in **dir**/osd.**id**.log,
# the pid file is **dir**/osd.**id**.pid and the admin socket is
# **dir**/**id**/ceph-osd.**id**.asok.
#
# The remaining arguments are passed verbatim to ceph-osd.
#
# Two mandatory arguments must be provided: --fsid and --mon-host
# Instead of adding them to every call to activate_osd, they can be
# set in the CEPH_ARGS environment variable to be read implicitly
# by every ceph command.
#
# The CEPH_CONF variable is expected to be set to /dev/null to
# only rely on arguments for configuration.
#
# The activate_osd function expects a valid OSD data directory
# in **dir**/**id**, either just created via run_osd or re-using
# one left by a previous run of ceph-osd. The ceph-osd daemon is
# run indirectly via ceph-disk activate.
#
# The activate_osd function blocks until the monitor reports the osd
# up. If it fails to do so within $TIMEOUT seconds, activate_osd
# fails.
#
# Examples:
#
# CEPH_ARGS="--fsid=$(uuidgen) "
# CEPH_ARGS+="--mon-host=127.0.0.1:7018 "
# activate_osd $dir 0 # activate an osd using the monitor listening on 7018
#
# @param dir path name of the environment
# @param id osd identifier
# @param ... can be any option valid for ceph-osd
# @return 0 on success, 1 on error
#
function activate_osd() {
local dir=$1
shift
local id=$1
shift
local osd_data=$dir/$id
local ceph_disk_args
ceph_disk_args+=" --statedir=$dir"
ceph_disk_args+=" --sysconfdir=$dir"
ceph_disk_args+=" --prepend-to-path="
local ceph_args="$CEPH_ARGS"
ceph_args+=" --osd-backfill-full-ratio=.99"
ceph_args+=" --osd-failsafe-full-ratio=.99"
ceph_args+=" --osd-journal-size=100"
ceph_args+=" --osd-scrub-load-threshold=2000"
ceph_args+=" --osd-data=$osd_data"
ceph_args+=" --chdir="
ceph_args+=" --erasure-code-dir=$CEPH_LIB"
ceph_args+=" --plugin-dir=$CEPH_LIB"
ceph_args+=" --osd-class-dir=$CEPH_LIB"
ceph_args+=" --run-dir=$dir"
ceph_args+=" --debug-osd=20"
ceph_args+=" --log-file=$dir/\$name.log"
ceph_args+=" --pid-file=$dir/\$name.pid"
ceph_args+=" --osd-max-object-name-len 460"
ceph_args+=" --osd-max-object-namespace-len 64"
ceph_args+=" "
ceph_args+="$@"
mkdir -p $osd_data
CEPH_ARGS="$ceph_args " ceph-disk $ceph_disk_args \
activate \
--mark-init=none \
$osd_data || return 1
[ "$id" = "$(cat $osd_data/whoami)" ] || return 1
wait_for_osd up $id || return 1
}
function test_activate_osd() {
local dir=$1
setup $dir || return 1
run_mon $dir a || return 1
run_mgr $dir x || return 1
run_osd $dir 0 || return 1
local backfills=$(CEPH_ARGS='' ceph --format=json daemon $dir//ceph-osd.0.asok \
config get osd_max_backfills)
echo "$backfills" | grep --quiet 'osd_max_backfills' || return 1
kill_daemons $dir TERM osd || return 1
activate_osd $dir 0 --osd-max-backfills 20 || return 1
local backfills=$(CEPH_ARGS='' ceph --format=json daemon $dir//ceph-osd.0.asok \
config get osd_max_backfills)
test "$backfills" = '{"osd_max_backfills":"20"}' || return 1
teardown $dir || return 1
}
#######################################################################
##
# Wait until the OSD **id** is either up or down, as specified by
# **state**. It fails after $TIMEOUT seconds.
#
# @param state either up or down
# @param id osd identifier
# @return 0 on success, 1 on error
#
function wait_for_osd() {
local state=$1
local id=$2
status=1
for ((i=0; i < $TIMEOUT; i++)); do
echo $i
if ! ceph osd dump | grep "osd.$id $state"; then
sleep 1
else
status=0
break
fi
done
return $status
}
function test_wait_for_osd() {
local dir=$1
setup $dir || return 1
run_mon $dir a --osd_pool_default_size=1 || return 1
run_mgr $dir x || return 1
run_osd $dir 0 || return 1
wait_for_osd up 0 || return 1
kill_daemons $dir TERM osd || return 1
wait_for_osd down 0 || return 1
( TIMEOUT=1 ; ! wait_for_osd up 0 ) || return 1
teardown $dir || return 1
}
#######################################################################
##
# Display the list of OSD ids supporting the **objectname** stored in
# **poolname**, as reported by ceph osd map.
#
# @param poolname an existing pool
# @param objectname an objectname (may or may not exist)
# @param STDOUT white space separated list of OSD ids
# @return 0 on success, 1 on error
#
function get_osds() {
local poolname=$1
local objectname=$2
local osds=$(ceph --format xml osd map $poolname $objectname 2>/dev/null | \
$XMLSTARLET sel -t -m "//acting/osd" -v . -o ' ')
# get rid of the trailing space
echo $osds
}
function test_get_osds() {
local dir=$1
setup $dir || return 1
run_mon $dir a --osd_pool_default_size=2 || return 1
run_mgr $dir x || return 1
run_osd $dir 0 || return 1
run_osd $dir 1 || return 1
wait_for_clean || return 1
get_osds rbd GROUP | grep --quiet '^[0-1] [0-1]$' || return 1
teardown $dir || return 1
}
#######################################################################
##
# Wait for the monitor to form quorum (optionally, of size N)
#
# @param timeout duration (lower-bound) to wait for quorum to be formed
# @param quorumsize size of quorum to wait for
# @return 0 on success, 1 on error
#
function wait_for_quorum() {
local timeout=$1
local quorumsize=$2
if [[ -z "$timeout" ]]; then
timeout=300
fi
if [[ -z "$quorumsize" ]]; then
timeout $timeout ceph mon_status --format=json >&/dev/null || return 1
return 0
fi
no_quorum=1
wait_until=$((`date +%s` + $timeout))
while [[ $(date +%s) -lt $wait_until ]]; do
jqfilter='.quorum | length == '$quorumsize
jqinput="$(timeout $timeout ceph mon_status --format=json 2>/dev/null)"
res=$(echo $jqinput | jq "$jqfilter")
if [[ "$res" == "true" ]]; then
no_quorum=0
break
fi
done
return $no_quorum
}
#######################################################################
##
# Return the PG of supporting the **objectname** stored in
# **poolname**, as reported by ceph osd map.
#
# @param poolname an existing pool
# @param objectname an objectname (may or may not exist)
# @param STDOUT a PG
# @return 0 on success, 1 on error
#
function get_pg() {
local poolname=$1
local objectname=$2
ceph --format xml osd map $poolname $objectname 2>/dev/null | \
$XMLSTARLET sel -t -m "//pgid" -v . -n
}
function test_get_pg() {
local dir=$1
setup $dir || return 1
run_mon $dir a --osd_pool_default_size=1 || return 1
run_mgr $dir x || return 1
run_osd $dir 0 || return 1
wait_for_clean || return 1
get_pg rbd GROUP | grep --quiet '^[0-9]\.[0-9a-f][0-9a-f]*$' || return 1
teardown $dir || return 1
}
#######################################################################
##
# Return the value of the **config**, obtained via the config get command
# of the admin socket of **daemon**.**id**.
#
# @param daemon mon or osd
# @param id mon or osd ID
# @param config the configuration variable name as found in config_opts.h
# @param STDOUT the config value
# @return 0 on success, 1 on error
#
function get_config() {
local daemon=$1
local id=$2
local config=$3
CEPH_ARGS='' \
ceph --format xml daemon $dir/ceph-$daemon.$id.asok \
config get $config 2> /dev/null | \
$XMLSTARLET sel -t -m "//$config" -v . -n
}
function test_get_config() {
local dir=$1
# override the default config using command line arg and check it
setup $dir || return 1
run_mon $dir a --osd_pool_default_size=1 || return 1
test $(get_config mon a osd_pool_default_size) = 1 || return 1
run_mgr $dir x || return 1
run_osd $dir 0 --osd_max_scrubs=3 || return 1
test $(get_config osd 0 osd_max_scrubs) = 3 || return 1
teardown $dir || return 1
}
#######################################################################
##
# Set the **config** to specified **value**, via the config set command
# of the admin socket of **daemon**.**id**
#
# @param daemon mon or osd
# @param id mon or osd ID
# @param config the configuration variable name as found in config_opts.h
# @param value the config value
# @return 0 on success, 1 on error
#
function set_config() {
local daemon=$1
local id=$2
local config=$3
local value=$4
CEPH_ARGS='' \
ceph --format xml daemon $dir/ceph-$daemon.$id.asok \
config set $config $value 2> /dev/null | \
$XMLSTARLET sel -Q -t -m "//success" -v .
}
function test_set_config() {
local dir=$1
setup $dir || return 1
run_mon $dir a --osd_pool_default_size=1 || return 1
test $(get_config mon a ms_crc_header) = true || return 1
set_config mon a ms_crc_header false || return 1
test $(get_config mon a ms_crc_header) = false || return 1
set_config mon a ms_crc_header true || return 1
test $(get_config mon a ms_crc_header) = true || return 1
teardown $dir || return 1
}
#######################################################################
##
# Return the OSD id of the primary OSD supporting the **objectname**
# stored in **poolname**, as reported by ceph osd map.
#
# @param poolname an existing pool
# @param objectname an objectname (may or may not exist)
# @param STDOUT the primary OSD id
# @return 0 on success, 1 on error
#
function get_primary() {
local poolname=$1
local objectname=$2
ceph --format xml osd map $poolname $objectname 2>/dev/null | \
$XMLSTARLET sel -t -m "//acting_primary" -v . -n
}
function test_get_primary() {
local dir=$1
setup $dir || return 1
run_mon $dir a --osd_pool_default_size=1 || return 1
local osd=0
run_mgr $dir x || return 1
run_osd $dir $osd || return 1
wait_for_clean || return 1
test $(get_primary rbd GROUP) = $osd || return 1
teardown $dir || return 1
}
#######################################################################
##
# Return the id of any OSD supporting the **objectname** stored in
# **poolname**, as reported by ceph osd map, except the primary.
#
# @param poolname an existing pool
# @param objectname an objectname (may or may not exist)
# @param STDOUT the OSD id
# @return 0 on success, 1 on error
#
function get_not_primary() {
local poolname=$1
local objectname=$2
local primary=$(get_primary $poolname $objectname)
ceph --format xml osd map $poolname $objectname 2>/dev/null | \
$XMLSTARLET sel -t -m "//acting/osd[not(.='$primary')]" -v . -n | \
head -1
}
function test_get_not_primary() {
local dir=$1
setup $dir || return 1
run_mon $dir a --osd_pool_default_size=2 || return 1
run_mgr $dir x || return 1
run_osd $dir 0 || return 1
run_osd $dir 1 || return 1
wait_for_clean || return 1
local primary=$(get_primary rbd GROUP)
local not_primary=$(get_not_primary rbd GROUP)
test $not_primary != $primary || return 1
test $not_primary = 0 -o $not_primary = 1 || return 1
teardown $dir || return 1
}
#######################################################################
##
# Run ceph-objectstore-tool against the OSD **id** using the data path
# **dir**. The OSD is killed with TERM prior to running
# ceph-objectstore-tool because access to the data path is
# exclusive. The OSD is restarted after the command completes. The
# objectstore_tool returns after all PG are active+clean again.
#
# @param dir the data path of the OSD
# @param id the OSD id
# @param ... arguments to ceph-objectstore-tool
# @param STDIN the input of ceph-objectstore-tool
# @param STDOUT the output of ceph-objectstore-tool
# @return 0 on success, 1 on error
#
# The value of $ceph_osd_args will be passed to restarted osds
#
function objectstore_tool() {
local dir=$1
shift
local id=$1
shift
local osd_data=$dir/$id
kill_daemons $dir TERM osd.$id >&2 < /dev/null || return 1
ceph-objectstore-tool \
--data-path $osd_data \
--journal-path $osd_data/journal \
"$@" || return 1
activate_osd $dir $id $ceph_osd_args >&2 || return 1
wait_for_clean >&2
}
function test_objectstore_tool() {
local dir=$1
setup $dir || return 1
run_mon $dir a --osd_pool_default_size=1 || return 1
local osd=0
run_mgr $dir x || return 1
run_osd $dir $osd || return 1
wait_for_clean || return 1
rados --pool rbd put GROUP /etc/group || return 1
objectstore_tool $dir $osd GROUP get-bytes | \
diff - /etc/group
! objectstore_tool $dir $osd NOTEXISTS get-bytes || return 1
teardown $dir || return 1
}
#######################################################################
##
# Predicate checking if there is an ongoing recovery in the
# cluster. If any of the recovering_{keys,bytes,objects}_per_sec
# counters are reported by ceph status, it means recovery is in
# progress.
#
# @return 0 if recovery in progress, 1 otherwise
#
function get_is_making_recovery_progress() {
local progress=$(ceph --format xml status 2>/dev/null | \
$XMLSTARLET sel \
-t -m "//pgmap/recovering_keys_per_sec" -v . -o ' ' \
-t -m "//pgmap/recovering_bytes_per_sec" -v . -o ' ' \
-t -m "//pgmap/recovering_objects_per_sec" -v .)
test -n "$progress"
}
function test_get_is_making_recovery_progress() {
local dir=$1
setup $dir || return 1
run_mon $dir a || return 1
run_mgr $dir x || return 1
! get_is_making_recovery_progress || return 1
teardown $dir || return 1
}
#######################################################################
##
# Return the number of active PGs in the cluster. A PG is active if
# ceph pg dump pgs reports it both **active** and **clean** and that
# not **stale**.
#
# @param STDOUT the number of active PGs
# @return 0 on success, 1 on error
#
function get_num_active_clean() {
local expression="("
expression+="contains(.,'active') and "
expression+="contains(.,'clean') and "
expression+="not(contains(.,'stale'))"
expression+=")"
# xmlstarlet 1.3.0 (which is on Ubuntu precise)
# add extra new lines that must be ignored with
# grep -v '^$'
ceph --format xml pg dump pgs 2>/dev/null | \
$XMLSTARLET sel -t -m "//pg_stat/state[$expression]" -v . -n | \
grep -cv '^$'
}
function test_get_num_active_clean() {
local dir=$1
setup $dir || return 1
run_mon $dir a --osd_pool_default_size=1 || return 1
run_mgr $dir x || return 1
run_osd $dir 0 || return 1
wait_for_clean || return 1
local num_active_clean=$(get_num_active_clean)
test "$num_active_clean" = $PG_NUM || return 1
teardown $dir || return 1
}
#######################################################################
##
# Return the number of PGs in the cluster, according to
# ceph pg dump pgs.
#
# @param STDOUT the number of PGs
# @return 0 on success, 1 on error
#
function get_num_pgs() {
ceph --format xml status 2>/dev/null | \
$XMLSTARLET sel -t -m "//pgmap/num_pgs" -v .
}
function test_get_num_pgs() {
local dir=$1
setup $dir || return 1
run_mon $dir a --osd_pool_default_size=1 || return 1
run_mgr $dir x || return 1
run_osd $dir 0 || return 1
wait_for_clean || return 1
local num_pgs=$(get_num_pgs)
test "$num_pgs" -gt 0 || return 1
teardown $dir || return 1
}
#######################################################################
##
# Return the date and time of the last completed scrub for **pgid**,
# as reported by ceph pg dump pgs. Note that a repair also sets this
# date.
#
# @param pgid the id of the PG
# @param STDOUT the date and time of the last scrub
# @return 0 on success, 1 on error
#
function get_last_scrub_stamp() {
local pgid=$1
local sname=${2:-last_scrub_stamp}
ceph --format xml pg dump pgs 2>/dev/null | \
$XMLSTARLET sel -t -m "//pg_stat[pgid='$pgid']/$sname" -v .
}
function test_get_last_scrub_stamp() {
local dir=$1
setup $dir || return 1
run_mon $dir a --osd_pool_default_size=1 || return 1
run_mgr $dir x || return 1
run_osd $dir 0 || return 1
wait_for_clean || return 1
stamp=$(get_last_scrub_stamp 1.0)
test -n "$stamp" || return 1
teardown $dir || return 1
}
#######################################################################
##
# Predicate checking if the cluster is clean, i.e. all of its PGs are
# in a clean state (see get_num_active_clean for a definition).
#
# @return 0 if the cluster is clean, 1 otherwise
#
function is_clean() {
num_pgs=$(get_num_pgs)
test $num_pgs != 0 || return 1
test $(get_num_active_clean) = $num_pgs || return 1
}
function test_is_clean() {
local dir=$1
setup $dir || return 1
run_mon $dir a --osd_pool_default_size=1 || return 1
run_mgr $dir x || return 1
run_osd $dir 0 || return 1
wait_for_clean || return 1
is_clean || return 1
teardown $dir || return 1
}
#######################################################################
##
# Return a list of numbers that are increasingly larger and whose
# total is **timeout** seconds. It can be used to have short sleep
# delay while waiting for an event on a fast machine. But if running
# very slowly the larger delays avoid stressing the machine even
# further or spamming the logs.
#
# @param timeout sum of all delays, in seconds
# @return a list of sleep delays
#
function get_timeout_delays() {
local trace=$(shopt -q -o xtrace && echo true || echo false)
$trace && shopt -u -o xtrace
local timeout=$1
local first_step=${2:-1}
local i
local total="0"
i=$first_step
while test "$(echo $total + $i \<= $timeout | bc -l)" = "1"; do
echo -n "$i "
total=$(echo $total + $i | bc -l)
i=$(echo $i \* 2 | bc -l)
done
if test "$(echo $total \< $timeout | bc -l)" = "1"; then
echo -n $(echo $timeout - $total | bc -l)
fi
$trace && shopt -s -o xtrace
}
function test_get_timeout_delays() {
test "$(get_timeout_delays 1)" = "1 " || return 1
test "$(get_timeout_delays 5)" = "1 2 2" || return 1
test "$(get_timeout_delays 6)" = "1 2 3" || return 1
test "$(get_timeout_delays 7)" = "1 2 4 " || return 1
test "$(get_timeout_delays 8)" = "1 2 4 1" || return 1
test "$(get_timeout_delays 1 .1)" = ".1 .2 .4 .3" || return 1
test "$(get_timeout_delays 1.5 .1)" = ".1 .2 .4 .8 " || return 1
test "$(get_timeout_delays 5 .1)" = ".1 .2 .4 .8 1.6 1.9" || return 1
test "$(get_timeout_delays 6 .1)" = ".1 .2 .4 .8 1.6 2.9" || return 1
test "$(get_timeout_delays 6.3 .1)" = ".1 .2 .4 .8 1.6 3.2 " || return 1
test "$(get_timeout_delays 20 .1)" = ".1 .2 .4 .8 1.6 3.2 6.4 7.3" || return 1
}
#######################################################################
##
# Wait until the cluster becomes clean or if it does not make progress
# for $TIMEOUT seconds.
# Progress is measured either via the **get_is_making_recovery_progress**
# predicate or if the number of clean PGs changes (as returned by get_num_active_clean)
#
# @return 0 if the cluster is clean, 1 otherwise
#
function wait_for_clean() {
local num_active_clean=-1
local cur_active_clean
local -a delays=($(get_timeout_delays $TIMEOUT .1))
local -i loop=0
test $(get_num_pgs) != 0 || return 1
while true ; do
# Comparing get_num_active_clean & get_num_pgs is used to determine
# if the cluster is clean. That's almost an inline of is_clean() to
# get more performance by avoiding multiple calls of get_num_active_clean.
cur_active_clean=$(get_num_active_clean)
test $cur_active_clean = $(get_num_pgs) && break
if test $cur_active_clean != $num_active_clean ; then
loop=0
num_active_clean=$cur_active_clean
elif get_is_making_recovery_progress ; then
loop=0
elif (( $loop >= ${#delays[*]} )) ; then
ceph report
return 1
fi
sleep ${delays[$loop]}
loop+=1
done
return 0
}
function test_wait_for_clean() {
local dir=$1
setup $dir || return 1
run_mon $dir a --osd_pool_default_size=1 || return 1
run_mgr $dir x || return 1
! TIMEOUT=1 wait_for_clean || return 1
run_osd $dir 0 || return 1
wait_for_clean || return 1
teardown $dir || return 1
}
#######################################################################
##
# Run repair on **pgid** and wait until it completes. The repair
# function will fail if repair does not complete within $TIMEOUT
# seconds.
#
# @param pgid the id of the PG
# @return 0 on success, 1 on error
#
function repair() {
local pgid=$1
local last_scrub=$(get_last_scrub_stamp $pgid)
ceph pg repair $pgid
wait_for_scrub $pgid "$last_scrub"
}
function test_repair() {
local dir=$1
setup $dir || return 1
run_mon $dir a --osd_pool_default_size=1 || return 1
run_mgr $dir x || return 1
run_osd $dir 0 || return 1
wait_for_clean || return 1
repair 1.0 || return 1
kill_daemons $dir KILL osd || return 1
! TIMEOUT=1 repair 1.0 || return 1
teardown $dir || return 1
}
#######################################################################
##
# Run scrub on **pgid** and wait until it completes. The pg_scrub
# function will fail if repair does not complete within $TIMEOUT
# seconds. The pg_scrub is complete whenever the
# **get_last_scrub_stamp** function reports a timestamp different from
# the one stored before starting the scrub.
#
# @param pgid the id of the PG
# @return 0 on success, 1 on error
#
function pg_scrub() {
local pgid=$1
local last_scrub=$(get_last_scrub_stamp $pgid)
ceph pg scrub $pgid
wait_for_scrub $pgid "$last_scrub"
}
function pg_deep_scrub() {
local pgid=$1
local last_scrub=$(get_last_scrub_stamp $pgid last_deep_scrub_stamp)
ceph pg deep-scrub $pgid
wait_for_scrub $pgid "$last_scrub" last_deep_scrub_stamp
}
function test_pg_scrub() {
local dir=$1
setup $dir || return 1
run_mon $dir a --osd_pool_default_size=1 || return 1
run_mgr $dir x || return 1
run_osd $dir 0 || return 1
wait_for_clean || return 1
pg_scrub 1.0 || return 1
kill_daemons $dir KILL osd || return 1
! TIMEOUT=1 pg_scrub 1.0 || return 1
teardown $dir || return 1
}
#######################################################################
##
# Run the *command* and expect it to fail (i.e. return a non zero status).
# The output (stderr and stdout) is stored in a temporary file in *dir*
# and is expected to contain the string *expected*.
#
# Return 0 if the command failed and the string was found. Otherwise
# return 1 and cat the full output of the command on stderr for debug.
#
# @param dir temporary directory to store the output
# @param expected string to look for in the output
# @param command ... the command and its arguments
# @return 0 on success, 1 on error
#
function expect_failure() {
local dir=$1
shift
local expected="$1"
shift
local success
if "$@" > $dir/out 2>&1 ; then
success=true
else
success=false
fi
if $success || ! grep --quiet "$expected" $dir/out ; then
cat $dir/out >&2
return 1
else
return 0
fi
}
function test_expect_failure() {
local dir=$1
setup $dir || return 1
expect_failure $dir FAIL bash -c 'echo FAIL ; exit 1' || return 1
# the command did not fail
! expect_failure $dir FAIL bash -c 'echo FAIL ; exit 0' > $dir/out || return 1
grep --quiet FAIL $dir/out || return 1
# the command failed but the output does not contain the expected string
! expect_failure $dir FAIL bash -c 'echo UNEXPECTED ; exit 1' > $dir/out || return 1
! grep --quiet FAIL $dir/out || return 1
teardown $dir || return 1
}
#######################################################################
##
# Given the *last_scrub*, wait for scrub to happen on **pgid**. It
# will fail if scrub does not complete within $TIMEOUT seconds. The
# repair is complete whenever the **get_last_scrub_stamp** function
# reports a timestamp different from the one given in argument.
#
# @param pgid the id of the PG
# @param last_scrub timestamp of the last scrub for *pgid*
# @return 0 on success, 1 on error
#
function wait_for_scrub() {
local pgid=$1
local last_scrub="$2"
local sname=${3:-last_scrub_stamp}
for ((i=0; i < $TIMEOUT; i++)); do
if test "$last_scrub" != "$(get_last_scrub_stamp $pgid $sname)" ; then
return 0
fi
sleep 1
done
return 1
}
function test_wait_for_scrub() {
local dir=$1
setup $dir || return 1
run_mon $dir a --osd_pool_default_size=1 || return 1
run_mgr $dir x || return 1
run_osd $dir 0 || return 1
wait_for_clean || return 1
local pgid=1.0
ceph pg repair $pgid
local last_scrub=$(get_last_scrub_stamp $pgid)
wait_for_scrub $pgid "$last_scrub" || return 1
kill_daemons $dir KILL osd || return 1
last_scrub=$(get_last_scrub_stamp $pgid)
! TIMEOUT=1 wait_for_scrub $pgid "$last_scrub" || return 1
teardown $dir || return 1
}
#######################################################################
##
# Return 0 if the erasure code *plugin* is available, 1 otherwise.
#
# @param plugin erasure code plugin
# @return 0 on success, 1 on error
#
function erasure_code_plugin_exists() {
local plugin=$1
local status
local grepstr
local s
case `uname` in
FreeBSD) grepstr="Cannot open.*$plugin" ;;
*) grepstr="$plugin.*No such file" ;;
esac
s=$(ceph osd erasure-code-profile set TESTPROFILE plugin=$plugin 2>&1)
local status=$?
if [ $status -eq 0 ]; then
ceph osd erasure-code-profile rm TESTPROFILE
elif ! echo $s | grep --quiet "$grepstr" ; then
status=1
# display why the string was rejected.
echo $s
fi
return $status
}
function test_erasure_code_plugin_exists() {
local dir=$1
setup $dir || return 1
run_mon $dir a || return 1
run_mgr $dir x || return 1
erasure_code_plugin_exists jerasure || return 1
! erasure_code_plugin_exists FAKE || return 1
teardown $dir || return 1
}
#######################################################################
##
# Display all log files from **dir** on stdout.
#
# @param dir directory in which all data is stored
#
function display_logs() {
local dir=$1
find $dir -maxdepth 1 -name '*.log' | \
while read file ; do
echo "======================= $file"
cat $file
done
}
function test_display_logs() {
local dir=$1
setup $dir || return 1
run_mon $dir a || return 1
kill_daemons $dir || return 1
display_logs $dir > $dir/log.out
grep --quiet mon.a.log $dir/log.out || return 1
teardown $dir || return 1
}
#######################################################################
##
# Spawn a command in background and save the pid in the variable name
# passed in argument. To make the output reading easier, the output is
# prepend with the process id.
#
# Example:
# pids1=""
# run_in_background pids1 bash -c 'sleep 1; exit 1'
#
# @param pid_variable the variable name (not value) where the pids will be stored
# @param ... the command to execute
# @return only the pid_variable output should be considered and used with **wait_background**
#
function run_in_background() {
local pid_variable=$1
shift;
# Execute the command and prepend the output with its pid
# We enforce to return the exit status of the command and not the awk one.
("$@" |& awk '{ a[i++] = $0 }END{for (i = 0; i in a; ++i) { print "'$$': " a[i]} }'; return ${PIPESTATUS[0]}) >&2 &
eval "$pid_variable+=\" $!\""
}
function test_run_in_background() {
local pids
run_in_background pids sleep 1
run_in_background pids sleep 1
test $(echo $pids | wc -w) = 2 || return 1
wait $pids || return 1
}
#######################################################################
##
# Wait for pids running in background to complete.
# This function is usually used after a **run_in_background** call
# Example:
# pids1=""
# run_in_background pids1 bash -c 'sleep 1; exit 1'
# wait_background pids1
#
# @param pids The variable name that contains the active PIDS. Set as empty at then end of the function.
# @return returns 1 if at least one process exits in error unless returns 0
#
function wait_background() {
# We extract the PIDS from the variable name
pids=${!1}
return_code=0
for pid in $pids; do
if ! wait $pid; then
# If one process failed then return 1
return_code=1
fi
done
# We empty the variable reporting that all process ended
eval "$1=''"
return $return_code
}
function test_wait_background() {
local pids=""
run_in_background pids bash -c "sleep 1; exit 1"
run_in_background pids bash -c "sleep 2; exit 0"
wait_background pids
if [ $? -ne 1 ]; then return 1; fi
run_in_background pids bash -c "sleep 1; exit 0"
run_in_background pids bash -c "sleep 2; exit 0"
wait_background pids
if [ $? -ne 0 ]; then return 1; fi
if [ ! -z "$pids" ]; then return 1; fi
}
#######################################################################
##
# Call the **run** function (which must be defined by the caller) with
# the **dir** argument followed by the caller argument list.
#
# If the **run** function returns on error, all logs found in **dir**
# are displayed for diagnostic purposes.
#
# **teardown** function is called when the **run** function returns
# (on success or on error), to cleanup leftovers. The CEPH_CONF is set
# to /dev/null and CEPH_ARGS is unset so that the tests are protected from
# external interferences.
#
# It is the responsibility of the **run** function to call the
# **setup** function to prepare the test environment (create a temporary
# directory etc.).
#
# The shell is required (via PS4) to display the function and line
# number whenever a statement is executed to help debugging.
#
# @param dir directory in which all data is stored
# @param ... arguments passed transparently to **run**
# @return 0 on success, 1 on error
#
function main() {
local dir=td/$1
shift
shopt -s -o xtrace
PS4='${BASH_SOURCE[0]}:$LINENO: ${FUNCNAME[0]}: '
export PATH=${CEPH_BUILD_VIRTUALENV}/ceph-disk-virtualenv/bin:${CEPH_BUILD_VIRTUALENV}/ceph-detect-init-virtualenv/bin:.:$PATH # make sure program from sources are preferred
#export PATH=$CEPH_ROOT/src/ceph-disk/virtualenv/bin:$CEPH_ROOT/src/ceph-detect-init/virtualenv/bin:.:$PATH # make sure program from sources are preferred
export CEPH_CONF=/dev/null
unset CEPH_ARGS
local code
if run $dir "$@" ; then
code=0
else
display_logs $dir
code=1
fi
teardown $dir || return 1
return $code
}
#######################################################################
function run_tests() {
shopt -s -o xtrace
PS4='${BASH_SOURCE[0]}:$LINENO: ${FUNCNAME[0]}: '
export PATH=${CEPH_BUILD_VIRTUALENV}/ceph-disk-virtualenv/bin:${CEPH_BUILD_VIRTUALENV}/ceph-detect-init-virtualenv/bin:.:$PATH # make sure program from sources are preferred
#export PATH=$CEPH_ROOT/src/ceph-disk/virtualenv/bin:$CEPH_ROOT/src/ceph-detect-init/virtualenv/bin:.:$PATH # make sure program from sources are preferred
export CEPH_MON="127.0.0.1:7109" # git grep '\<7109\>' : there must be only one
export CEPH_ARGS
CEPH_ARGS+="--fsid=$(uuidgen) --auth-supported=none "
CEPH_ARGS+="--mon-host=$CEPH_MON "
export CEPH_CONF=/dev/null
local funcs=${@:-$(set | sed -n -e 's/^\(test_[0-9a-z_]*\) .*/\1/p')}
local dir=td/ceph-helpers
for func in $funcs ; do
$func $dir || return 1
done
}
if test "$1" = TESTS ; then
shift
run_tests "$@"
fi
# Local Variables:
# compile-command: "cd ../../src ; make -j4 && ../qa/workunits/ceph-helpers.sh TESTS # test_get_config"
# End: