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#!/usr/bin/env bash
#
# Copyright (C) 2017 Red Hat <contact@redhat.com>
#
#
# Author: Kefu Chai <kchai@redhat.com>
# Author: David Zafman <dzafman@redhat.com>
#
# 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.
#
source $CEPH_ROOT/qa/standalone/ceph-helpers.sh
warnings=10
function run() {
local dir=$1
shift
export CEPH_MON="127.0.0.1:7140" # git grep '\<7140\>' : there must be only one
export CEPH_ARGS
CEPH_ARGS+="--fsid=$(uuidgen) --auth-supported=none "
CEPH_ARGS+="--mon-host=$CEPH_MON "
local funcs=${@:-$(set | sed -n -e 's/^\(TEST_[0-9a-z_]*\) .*/\1/p')}
for func in $funcs ; do
setup $dir || return 1
# set warning amount in case default changes
run_mon $dir a --mon_osd_warn_num_repaired=$warnings || return 1
run_mgr $dir x || return 1
ceph osd pool create foo 8 || return 1
$func $dir || return 1
teardown $dir || return 1
done
}
function setup_osds() {
local count=$1
shift
local type=$1
for id in $(seq 0 $(expr $count - 1)) ; do
run_osd${type} $dir $id || return 1
done
wait_for_clean || return 1
}
function get_state() {
local pgid=$1
local sname=state
ceph --format json pg dump pgs 2>/dev/null | \
jq -r ".pg_stats | .[] | select(.pgid==\"$pgid\") | .$sname"
}
function rados_put() {
local dir=$1
local poolname=$2
local objname=${3:-SOMETHING}
for marker in AAA BBB CCCC DDDD ; do
printf "%*s" 1024 $marker
done > $dir/ORIGINAL
#
# get and put an object, compare they are equal
#
rados --pool $poolname put $objname $dir/ORIGINAL || return 1
}
function rados_get() {
local dir=$1
local poolname=$2
local objname=${3:-SOMETHING}
local expect=${4:-ok}
#
# Expect a failure to get object
#
if [ $expect = "fail" ];
then
! rados --pool $poolname get $objname $dir/COPY
return
fi
#
# Expect hang trying to get object
#
if [ $expect = "hang" ];
then
timeout 5 rados --pool $poolname get $objname $dir/COPY
test "$?" = "124"
return
fi
#
# get an object, compare with $dir/ORIGINAL
#
rados --pool $poolname get $objname $dir/COPY || return 1
diff $dir/ORIGINAL $dir/COPY || return 1
rm $dir/COPY
}
function rados_get_data() {
local inject=$1
shift
local dir=$1
local poolname=pool-rep
local objname=obj-$inject-$$
local pgid=$(get_pg $poolname $objname)
rados_put $dir $poolname $objname || return 1
inject_$inject rep data $poolname $objname $dir 0 || return 1
rados_get $dir $poolname $objname || return 1
wait_for_clean
COUNT=$(ceph pg $pgid query | jq '.info.stats.stat_sum.num_objects_repaired')
test "$COUNT" = "1" || return 1
flush_pg_stats
COUNT=$(ceph pg dump --format=json-pretty | jq ".pg_map.osd_stats_sum.num_shards_repaired")
test "$COUNT" = "1" || return 1
local object_osds=($(get_osds $poolname $objname))
local primary=${object_osds[0]}
local bad_peer=${object_osds[1]}
inject_$inject rep data $poolname $objname $dir 0 || return 1
inject_$inject rep data $poolname $objname $dir 1 || return 1
# Force primary to pull from the bad peer, so we can repair it too!
set_config osd $primary osd_debug_feed_pullee $bad_peer || return 1
rados_get $dir $poolname $objname || return 1
# Wait until automatic repair of bad peer is done
wait_for_clean || return 1
inject_$inject rep data $poolname $objname $dir 0 || return 1
inject_$inject rep data $poolname $objname $dir 2 || return 1
rados_get $dir $poolname $objname || return 1
wait_for_clean
COUNT=$(ceph pg $pgid query | jq '.info.stats.stat_sum.num_objects_repaired')
test "$COUNT" = "3" || return 1
flush_pg_stats
COUNT=$(ceph pg dump --format=json-pretty | jq ".pg_map.osd_stats_sum.num_shards_repaired")
test "$COUNT" = "4" || return 1
inject_$inject rep data $poolname $objname $dir 0 || return 1
inject_$inject rep data $poolname $objname $dir 1 || return 1
inject_$inject rep data $poolname $objname $dir 2 || return 1
rados_get $dir $poolname $objname hang || return 1
wait_for_clean
# After hang another repair couldn't happen, so count stays the same
COUNT=$(ceph pg $pgid query | jq '.info.stats.stat_sum.num_objects_repaired')
test "$COUNT" = "3" || return 1
flush_pg_stats
COUNT=$(ceph pg dump --format=json-pretty | jq ".pg_map.osd_stats_sum.num_shards_repaired")
test "$COUNT" = "4" || return 1
}
function TEST_rados_get_with_eio() {
local dir=$1
setup_osds 4 || return 1
local poolname=pool-rep
create_pool $poolname 1 1 || return 1
wait_for_clean || return 1
rados_get_data eio $dir || return 1
delete_pool $poolname
}
function TEST_rados_repair_warning() {
local dir=$1
local OBJS=$(expr $warnings + 1)
setup_osds 4 || return 1
local poolname=pool-rep
create_pool $poolname 1 1 || return 1
wait_for_clean || return 1
local poolname=pool-rep
local objbase=obj-warn
local inject=eio
for i in $(seq 1 $OBJS)
do
rados_put $dir $poolname ${objbase}-$i || return 1
inject_$inject rep data $poolname ${objbase}-$i $dir 0 || return 1
rados_get $dir $poolname ${objbase}-$i || return 1
done
local pgid=$(get_pg $poolname ${objbase}-1)
local object_osds=($(get_osds $poolname ${objbase}-1))
local primary=${object_osds[0]}
local bad_peer=${object_osds[1]}
wait_for_clean
COUNT=$(ceph pg $pgid query | jq '.info.stats.stat_sum.num_objects_repaired')
test "$COUNT" = "$OBJS" || return 1
flush_pg_stats
COUNT=$(ceph pg dump --format=json-pretty | jq ".pg_map.osd_stats_sum.num_shards_repaired")
test "$COUNT" = "$OBJS" || return 1
ceph health | grep -q "Too many repaired reads on 1 OSDs" || return 1
ceph health detail | grep -q "osd.$primary had $OBJS reads repaired" || return 1
ceph health mute OSD_TOO_MANY_REPAIRS
set -o pipefail
# Should mute this
ceph health | $(! grep -q "Too many repaired reads on 1 OSDs") || return 1
set +o pipefail
for i in $(seq 1 $OBJS)
do
inject_$inject rep data $poolname ${objbase}-$i $dir 0 || return 1
inject_$inject rep data $poolname ${objbase}-$i $dir 1 || return 1
# Force primary to pull from the bad peer, so we can repair it too!
set_config osd $primary osd_debug_feed_pullee $bad_peer || return 1
rados_get $dir $poolname ${objbase}-$i || return 1
done
wait_for_clean
COUNT=$(ceph pg $pgid query | jq '.info.stats.stat_sum.num_objects_repaired')
test "$COUNT" = "$(expr $OBJS \* 2)" || return 1
flush_pg_stats
COUNT=$(ceph pg dump --format=json-pretty | jq ".pg_map.osd_stats_sum.num_shards_repaired")
test "$COUNT" = "$(expr $OBJS \* 3)" || return 1
# Give mon a chance to notice additional OSD and unmute
# The default tick time is 5 seconds
CHECKTIME=10
LOOPS=0
while(true)
do
sleep 1
if ceph health | grep -q "Too many repaired reads on 2 OSDs"
then
break
fi
LOOPS=$(expr $LOOPS + 1)
if test "$LOOPS" = "$CHECKTIME"
then
echo "Too many repaired reads not seen after $CHECKTIME seconds"
return 1
fi
done
ceph health detail | grep -q "osd.$primary had $(expr $OBJS \* 2) reads repaired" || return 1
ceph health detail | grep -q "osd.$bad_peer had $OBJS reads repaired" || return 1
delete_pool $poolname
}
# Test backfill with unfound object
function TEST_rep_backfill_unfound() {
local dir=$1
local objname=myobject
local lastobj=300
# Must be between 1 and $lastobj
local testobj=obj250
export CEPH_ARGS
CEPH_ARGS+=' --osd_min_pg_log_entries=5 --osd_max_pg_log_entries=10'
setup_osds 3 || return 1
local poolname=test-pool
create_pool $poolname 1 1 || return 1
wait_for_clean || return 1
ceph pg dump pgs
rados_put $dir $poolname $objname || return 1
local -a initial_osds=($(get_osds $poolname $objname))
local last_osd=${initial_osds[-1]}
kill_daemons $dir TERM osd.${last_osd} 2>&2 < /dev/null || return 1
ceph osd down ${last_osd} || return 1
ceph osd out ${last_osd} || return 1
ceph pg dump pgs
dd if=/dev/urandom of=${dir}/ORIGINAL bs=1024 count=4
for i in $(seq 1 $lastobj)
do
rados --pool $poolname put obj${i} $dir/ORIGINAL || return 1
done
inject_eio rep data $poolname $testobj $dir 0 || return 1
inject_eio rep data $poolname $testobj $dir 1 || return 1
activate_osd $dir ${last_osd} || return 1
ceph osd in ${last_osd} || return 1
sleep 15
for tmp in $(seq 1 100); do
state=$(get_state 2.0)
echo $state | grep backfill_unfound
if [ "$?" = "0" ]; then
break
fi
echo "$state "
sleep 1
done
ceph pg dump pgs
ceph pg 2.0 list_unfound | grep -q $testobj || return 1
# Command should hang because object is unfound
timeout 5 rados -p $poolname get $testobj $dir/CHECK
test $? = "124" || return 1
ceph pg 2.0 mark_unfound_lost delete
wait_for_clean || return 1
for i in $(seq 1 $lastobj)
do
if [ obj${i} = "$testobj" ]; then
# Doesn't exist anymore
! rados -p $poolname get $testobj $dir/CHECK || return 1
else
rados --pool $poolname get obj${i} $dir/CHECK || return 1
diff -q $dir/ORIGINAL $dir/CHECK || return 1
fi
done
rm -f ${dir}/ORIGINAL ${dir}/CHECK
delete_pool $poolname
}
# Test recovery with unfound object
function TEST_rep_recovery_unfound() {
local dir=$1
local objname=myobject
local lastobj=100
# Must be between 1 and $lastobj
local testobj=obj75
setup_osds 3 || return 1
local poolname=test-pool
create_pool $poolname 1 1 || return 1
wait_for_clean || return 1
ceph pg dump pgs
rados_put $dir $poolname $objname || return 1
local -a initial_osds=($(get_osds $poolname $objname))
local last_osd=${initial_osds[-1]}
kill_daemons $dir TERM osd.${last_osd} 2>&2 < /dev/null || return 1
ceph osd down ${last_osd} || return 1
ceph osd out ${last_osd} || return 1
ceph pg dump pgs
dd if=/dev/urandom of=${dir}/ORIGINAL bs=1024 count=4
for i in $(seq 1 $lastobj)
do
rados --pool $poolname put obj${i} $dir/ORIGINAL || return 1
done
inject_eio rep data $poolname $testobj $dir 0 || return 1
inject_eio rep data $poolname $testobj $dir 1 || return 1
activate_osd $dir ${last_osd} || return 1
ceph osd in ${last_osd} || return 1
sleep 15
for tmp in $(seq 1 100); do
state=$(get_state 2.0)
echo $state | grep -v recovering
if [ "$?" = "0" ]; then
break
fi
echo "$state "
sleep 1
done
ceph pg dump pgs
ceph pg 2.0 list_unfound | grep -q $testobj || return 1
# Command should hang because object is unfound
timeout 5 rados -p $poolname get $testobj $dir/CHECK
test $? = "124" || return 1
ceph pg 2.0 mark_unfound_lost delete
wait_for_clean || return 1
for i in $(seq 1 $lastobj)
do
if [ obj${i} = "$testobj" ]; then
# Doesn't exist anymore
! rados -p $poolname get $testobj $dir/CHECK || return 1
else
rados --pool $poolname get obj${i} $dir/CHECK || return 1
diff -q $dir/ORIGINAL $dir/CHECK || return 1
fi
done
rm -f ${dir}/ORIGINAL ${dir}/CHECK
delete_pool $poolname
}
# This is a filestore only test because it requires data digest in object info
function TEST_rep_read_unfound() {
local dir=$1
local objname=myobject
setup_osds 3 _filestore || return 1
ceph osd pool delete foo foo --yes-i-really-really-mean-it || return 1
local poolname=test-pool
create_pool $poolname 1 1 || return 1
ceph osd pool set $poolname size 2
wait_for_clean || return 1
ceph pg dump pgs
dd if=/dev/urandom bs=8k count=1 of=$dir/ORIGINAL
rados -p $poolname put $objname $dir/ORIGINAL
local primary=$(get_primary $poolname $objname)
local other=$(get_not_primary $poolname $objname)
dd if=/dev/urandom bs=8k count=1 of=$dir/CORRUPT
objectstore_tool $dir $primary $objname set-bytes $dir/CORRUPT || return 1
objectstore_tool $dir $other $objname set-bytes $dir/CORRUPT || return 1
timeout 30 rados -p $poolname get $objname $dir/tmp &
sleep 5
flush_pg_stats
ceph --format=json pg dump pgs | jq '.'
if ! ceph --format=json pg dump pgs | jq '.pg_stats | .[0].state' | grep -q recovery_unfound
then
echo "Failure to get to recovery_unfound state"
return 1
fi
objectstore_tool $dir $other $objname set-bytes $dir/ORIGINAL || return 1
wait
if ! cmp $dir/ORIGINAL $dir/tmp
then
echo "Bad data after primary repair"
return 1
fi
}
main osd-rep-recov-eio.sh "$@"
# Local Variables:
# compile-command: "cd ../../../build ; make -j4 && ../qa/run-standalone.sh osd-rep-recov-eio.sh"
# End:
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