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|
#!/usr/bin/env bash
#
# Copyright (C) 2018 Red Hat <contact@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
function run() {
local dir=$1
shift
export CEPH_MON="127.0.0.1:7180" # git grep '\<7180\>' : there must be only one
export CEPH_ARGS
CEPH_ARGS+="--fsid=$(uuidgen) --auth-supported=none "
CEPH_ARGS+="--mon-host=$CEPH_MON "
CEPH_ARGS+="--osd_min_pg_log_entries=5 --osd_max_pg_log_entries=10 "
CEPH_ARGS+="--fake_statfs_for_testing=3686400 "
CEPH_ARGS+="--osd_max_backfills=10 "
CEPH_ARGS+="--osd_mclock_override_recovery_settings=true "
export objects=600
export poolprefix=test
local funcs=${@:-$(set | sed -n -e 's/^\(TEST_[0-9a-z_]*\) .*/\1/p')}
for func in $funcs ; do
setup $dir || return 1
$func $dir || return 1
teardown $dir || return 1
done
}
function get_num_in_state() {
local state=$1
local expression
expression+="select(contains(\"${state}\"))"
ceph --format json pg dump pgs 2>/dev/null | \
jq ".pg_stats | [.[] | .state | $expression] | length"
}
function wait_for_not_state() {
local state=$1
local num_in_state=-1
local cur_in_state
local -a delays=($(get_timeout_delays $2 5))
local -i loop=0
flush_pg_stats || return 1
while test $(get_num_pgs) == 0 ; do
sleep 1
done
while true ; do
cur_in_state=$(get_num_in_state ${state})
test $cur_in_state = "0" && break
if test $cur_in_state != $num_in_state ; then
loop=0
num_in_state=$cur_in_state
elif (( $loop >= ${#delays[*]} )) ; then
ceph pg dump pgs
return 1
fi
sleep ${delays[$loop]}
loop+=1
done
return 0
}
function wait_for_not_backfilling() {
local timeout=$1
wait_for_not_state backfilling $timeout
}
function wait_for_not_activating() {
local timeout=$1
wait_for_not_state activating $timeout
}
# All tests are created in an environment which has fake total space
# of 3600K (3686400) which can hold 600 6K replicated objects or
# 200 18K shards of erasure coded objects. For a k=3, m=2 EC pool
# we have a theoretical 54K object but with the chunk size of 4K
# and a rounding of 4K to account for the chunks is 36K max object
# which is ((36K / 3) + 4K) * 200 = 3200K which is 88% of
# 3600K for a shard.
# Create 2 pools with size 1
# Write enough data that only 1 pool pg can fit per osd
# Incresase the pool size to 2
# On 3 OSDs this should result in 1 OSD with overlapping replicas,
# so both pools can't fit. We assume pgid 1.0 and 2.0 won't
# map to the same 2 OSDs.
# At least 1 pool shouldn't have room to backfill
# All other pools should go active+clean
function TEST_backfill_test_simple() {
local dir=$1
local pools=2
local OSDS=3
run_mon $dir a || return 1
run_mgr $dir x || return 1
export CEPH_ARGS
for osd in $(seq 0 $(expr $OSDS - 1))
do
run_osd $dir $osd || return 1
done
ceph osd set-backfillfull-ratio .85
for p in $(seq 1 $pools)
do
create_pool "${poolprefix}$p" 1 1
ceph osd pool set "${poolprefix}$p" size 1 --yes-i-really-mean-it
done
wait_for_clean || return 1
# This won't work is if the 2 pools primary and only osds
# are the same.
dd if=/dev/urandom of=$dir/datafile bs=1024 count=4
for o in $(seq 1 $objects)
do
for p in $(seq 1 $pools)
do
rados -p "${poolprefix}$p" put obj$o $dir/datafile
done
done
ceph pg dump pgs
for p in $(seq 1 $pools)
do
ceph osd pool set "${poolprefix}$p" size 2
done
sleep 30
wait_for_not_backfilling 1200 || return 1
wait_for_not_activating 60 || return 1
ERRORS=0
if [ "$(ceph pg dump pgs | grep +backfill_toofull | wc -l)" != "1" ];
then
echo "One pool should have been in backfill_toofull"
ERRORS="$(expr $ERRORS + 1)"
fi
expected="$(expr $pools - 1)"
if [ "$(ceph pg dump pgs | grep active+clean | wc -l)" != "$expected" ];
then
echo "$expected didn't finish backfill"
ERRORS="$(expr $ERRORS + 1)"
fi
ceph pg dump pgs
if [ $ERRORS != "0" ];
then
return 1
fi
for i in $(seq 1 $pools)
do
delete_pool "${poolprefix}$i"
done
kill_daemons $dir || return 1
! grep -q "num_bytes mismatch" $dir/osd.*.log || return 1
}
# Create 8 pools of size 1 on 20 OSDs
# Write 4K * 600 objects (only 1 pool pg can fit on any given osd)
# Increase pool size to 2
# At least 1 pool shouldn't have room to backfill
# All other pools should go active+clean
function TEST_backfill_test_multi() {
local dir=$1
local pools=8
local OSDS=20
run_mon $dir a || return 1
run_mgr $dir x || return 1
export CEPH_ARGS
for osd in $(seq 0 $(expr $OSDS - 1))
do
run_osd $dir $osd || return 1
done
ceph osd set-backfillfull-ratio .85
for p in $(seq 1 $pools)
do
create_pool "${poolprefix}$p" 1 1
ceph osd pool set "${poolprefix}$p" size 1 --yes-i-really-mean-it
done
wait_for_clean || return 1
dd if=/dev/urandom of=$dir/datafile bs=1024 count=4
for o in $(seq 1 $objects)
do
for p in $(seq 1 $pools)
do
rados -p "${poolprefix}$p" put obj$o $dir/datafile
done
done
ceph pg dump pgs
for p in $(seq 1 $pools)
do
ceph osd pool set "${poolprefix}$p" size 2
done
sleep 30
wait_for_not_backfilling 1200 || return 1
wait_for_not_activating 60 || return 1
ERRORS=0
full="$(ceph pg dump pgs | grep +backfill_toofull | wc -l)"
if [ "$full" -lt "1" ];
then
echo "At least one pool should have been in backfill_toofull"
ERRORS="$(expr $ERRORS + 1)"
fi
expected="$(expr $pools - $full)"
if [ "$(ceph pg dump pgs | grep active+clean | wc -l)" != "$expected" ];
then
echo "$expected didn't finish backfill"
ERRORS="$(expr $ERRORS + 1)"
fi
ceph pg dump pgs
ceph status
ceph status --format=json-pretty > $dir/stat.json
eval SEV=$(jq '.health.checks.PG_BACKFILL_FULL.severity' $dir/stat.json)
if [ "$SEV" != "HEALTH_WARN" ]; then
echo "PG_BACKFILL_FULL severity $SEV not HEALTH_WARN"
ERRORS="$(expr $ERRORS + 1)"
fi
eval MSG=$(jq '.health.checks.PG_BACKFILL_FULL.summary.message' $dir/stat.json)
if [ "$MSG" != "Low space hindering backfill (add storage if this doesn't resolve itself): 4 pgs backfill_toofull" ]; then
echo "PG_BACKFILL_FULL message '$MSG' mismatched"
ERRORS="$(expr $ERRORS + 1)"
fi
rm -f $dir/stat.json
if [ $ERRORS != "0" ];
then
return 1
fi
for i in $(seq 1 $pools)
do
delete_pool "${poolprefix}$i"
done
# Work around for http://tracker.ceph.com/issues/38195
kill_daemons $dir #|| return 1
! grep -q "num_bytes mismatch" $dir/osd.*.log || return 1
}
# To make sure that when 2 pg try to backfill at the same time to
# the same target. This might be covered by the simple test above
# but this makes sure we get it.
#
# Create 10 pools of size 2 and identify 2 that have the same
# non-primary osd.
# Delete all other pools
# Set size to 1 and write 4K * 600 to each pool
# Set size back to 2
# The 2 pools should race to backfill.
# One pool goes active+clean
# The other goes acitve+...+backfill_toofull
function TEST_backfill_test_sametarget() {
local dir=$1
local pools=10
local OSDS=5
run_mon $dir a || return 1
run_mgr $dir x || return 1
export CEPH_ARGS
for osd in $(seq 0 $(expr $OSDS - 1))
do
run_osd $dir $osd || return 1
done
ceph osd set-backfillfull-ratio .85
for p in $(seq 1 $pools)
do
create_pool "${poolprefix}$p" 1 1
ceph osd pool set "${poolprefix}$p" size 2
done
sleep 5
wait_for_clean || return 1
ceph pg dump pgs
# Find 2 pools with a pg that distinct primaries but second
# replica on the same osd.
local PG1
local POOLNUM1
local pool1
local chk_osd1
local chk_osd2
local PG2
local POOLNUM2
local pool2
for p in $(seq 1 $pools)
do
ceph pg map ${p}.0 --format=json | jq '.acting[]' > $dir/acting
local test_osd1=$(head -1 $dir/acting)
local test_osd2=$(tail -1 $dir/acting)
if [ $p = "1" ];
then
PG1="${p}.0"
POOLNUM1=$p
pool1="${poolprefix}$p"
chk_osd1=$test_osd1
chk_osd2=$test_osd2
elif [ $chk_osd1 != $test_osd1 -a $chk_osd2 = $test_osd2 ];
then
PG2="${p}.0"
POOLNUM2=$p
pool2="${poolprefix}$p"
break
fi
done
rm -f $dir/acting
if [ "$pool2" = "" ];
then
echo "Failure to find appropirate PGs"
return 1
fi
for p in $(seq 1 $pools)
do
if [ $p != $POOLNUM1 -a $p != $POOLNUM2 ];
then
delete_pool ${poolprefix}$p
fi
done
ceph osd pool set $pool1 size 1 --yes-i-really-mean-it
ceph osd pool set $pool2 size 1 --yes-i-really-mean-it
wait_for_clean || return 1
dd if=/dev/urandom of=$dir/datafile bs=1024 count=4
for i in $(seq 1 $objects)
do
rados -p $pool1 put obj$i $dir/datafile
rados -p $pool2 put obj$i $dir/datafile
done
ceph osd pool set $pool1 size 2
ceph osd pool set $pool2 size 2
sleep 30
wait_for_not_backfilling 1200 || return 1
wait_for_not_activating 60 || return 1
ERRORS=0
if [ "$(ceph pg dump pgs | grep +backfill_toofull | wc -l)" != "1" ];
then
echo "One pool should have been in backfill_toofull"
ERRORS="$(expr $ERRORS + 1)"
fi
if [ "$(ceph pg dump pgs | grep active+clean | wc -l)" != "1" ];
then
echo "One didn't finish backfill"
ERRORS="$(expr $ERRORS + 1)"
fi
ceph pg dump pgs
if [ $ERRORS != "0" ];
then
return 1
fi
delete_pool $pool1
delete_pool $pool2
kill_daemons $dir || return 1
! grep -q "num_bytes mismatch" $dir/osd.*.log || return 1
}
# 2 pools can't both backfill to a target which has other data
# 1 of the pools has objects that increase from 1024 to 2611 bytes
#
# Write to fill pool which is size 1
# Take fill pool osd down (other 2 pools must go to the remaining OSDs
# Save an export of data on fill OSD and restart it
# Write an intial 1K to pool1 which has pg 2.0
# Export 2.0 from non-fillpool OSD don't wait for it to start-up
# Take down fillpool OSD
# Put 1K object version of 2.0 on fillpool OSD
# Put back fillpool data on fillpool OSD
# With fillpool down write 2611 byte objects
# Take down $osd and bring back $fillosd simultaneously
# Wait for backfilling
# One PG will be able to backfill its remaining data
# One PG must get backfill_toofull
function TEST_backfill_multi_partial() {
local dir=$1
local EC=$2
local pools=2
local OSDS=3
run_mon $dir a || return 1
run_mgr $dir x || return 1
export CEPH_ARGS
for osd in $(seq 0 $(expr $OSDS - 1))
do
run_osd $dir $osd || return 1
done
ceph osd set-backfillfull-ratio .85
ceph osd set-require-min-compat-client luminous
create_pool fillpool 1 1
ceph osd pool set fillpool size 1 --yes-i-really-mean-it
for p in $(seq 1 $pools)
do
create_pool "${poolprefix}$p" 1 1
ceph osd pool set "${poolprefix}$p" size 2
done
wait_for_clean || return 1
# Partially fill an osd
# We have room for 600 6K replicated objects, if we create 2611 byte objects
# there is 3600K - (2611 * 600) = 2070K, so the fill pool and one
# replica from the other 2 is 85% of 3600K
dd if=/dev/urandom of=$dir/datafile bs=2611 count=1
for o in $(seq 1 $objects)
do
rados -p fillpool put obj-fill-${o} $dir/datafile
done
local fillosd=$(get_primary fillpool obj-fill-1)
osd=$(expr $fillosd + 1)
if [ "$osd" = "$OSDS" ]; then
osd="0"
fi
kill_daemon $dir/osd.$fillosd.pid TERM
ceph osd out osd.$fillosd
_objectstore_tool_nodown $dir $fillosd --op export-remove --pgid 1.0 --file $dir/fillexport.out || return 1
activate_osd $dir $fillosd || return 1
ceph pg dump pgs
dd if=/dev/urandom of=$dir/datafile bs=1024 count=1
for o in $(seq 1 $objects)
do
rados -p "${poolprefix}1" put obj-1-${o} $dir/datafile
done
ceph pg dump pgs
# The $osd OSD is started, but we don't wait so we can kill $fillosd at the same time
_objectstore_tool_nowait $dir $osd --op export --pgid 2.0 --file $dir/export.out
kill_daemon $dir/osd.$fillosd.pid TERM
_objectstore_tool_nodown $dir $fillosd --force --op remove --pgid 2.0
_objectstore_tool_nodown $dir $fillosd --op import --pgid 2.0 --file $dir/export.out || return 1
_objectstore_tool_nodown $dir $fillosd --op import --pgid 1.0 --file $dir/fillexport.out || return 1
ceph pg dump pgs
sleep 20
ceph pg dump pgs
# re-write everything
dd if=/dev/urandom of=$dir/datafile bs=2611 count=1
for o in $(seq 1 $objects)
do
for p in $(seq 1 $pools)
do
rados -p "${poolprefix}$p" put obj-${p}-${o} $dir/datafile
done
done
kill_daemon $dir/osd.$osd.pid TERM
ceph osd out osd.$osd
activate_osd $dir $fillosd || return 1
ceph osd in osd.$fillosd
sleep 30
wait_for_not_backfilling 1200 || return 1
wait_for_not_activating 60 || return 1
flush_pg_stats || return 1
ceph pg dump pgs
ERRORS=0
if [ "$(get_num_in_state backfill_toofull)" != "1" ];
then
echo "One PG should be in backfill_toofull"
ERRORS="$(expr $ERRORS + 1)"
fi
if [ "$(get_num_in_state active+clean)" != "2" ];
then
echo "Two PGs should be active+clean after one PG completed backfill"
ERRORS="$(expr $ERRORS + 1)"
fi
if [ $ERRORS != "0" ];
then
return 1
fi
delete_pool fillpool
for i in $(seq 1 $pools)
do
delete_pool "${poolprefix}$i"
done
kill_daemons $dir || return 1
! grep -q "num_bytes mismatch" $dir/osd.*.log || return 1
}
# Make sure that the amount of bytes already on the replica doesn't
# cause an out of space condition
#
# Create 1 pool and write 4K * 600 objects
# Remove 25% (150) of the objects with one OSD down (noout set)
# Increase the size of the remaining 75% (450) of the objects to 6K
# Bring back down OSD
# The pool should go active+clean
function TEST_backfill_grow() {
local dir=$1
local poolname="test"
local OSDS=3
run_mon $dir a || return 1
run_mgr $dir x || return 1
for osd in $(seq 0 $(expr $OSDS - 1))
do
run_osd $dir $osd || return 1
done
ceph osd set-backfillfull-ratio .85
create_pool $poolname 1 1
ceph osd pool set $poolname size 3
sleep 5
wait_for_clean || return 1
dd if=/dev/urandom of=${dir}/4kdata bs=1k count=4
for i in $(seq 1 $objects)
do
rados -p $poolname put obj$i $dir/4kdata
done
local PG=$(get_pg $poolname obj1)
# Remember primary during the backfill
local primary=$(get_primary $poolname obj1)
local otherosd=$(get_not_primary $poolname obj1)
ceph osd set noout
kill_daemons $dir TERM $otherosd || return 1
rmobjects=$(expr $objects / 4)
for i in $(seq 1 $rmobjects)
do
rados -p $poolname rm obj$i
done
dd if=/dev/urandom of=${dir}/6kdata bs=6k count=1
for i in $(seq $(expr $rmobjects + 1) $objects)
do
rados -p $poolname put obj$i $dir/6kdata
done
activate_osd $dir $otherosd || return 1
ceph tell osd.$primary debug kick_recovery_wq 0
sleep 2
wait_for_clean || return 1
delete_pool $poolname
kill_daemons $dir || return 1
! grep -q "num_bytes mismatch" $dir/osd.*.log || return 1
}
# Create a 5 shard EC pool on 6 OSD cluster
# Fill 1 OSD with 2600K of data take that osd down.
# Write the EC pool on 5 OSDs
# Take down 1 (must contain an EC shard)
# Bring up OSD with fill data
# Not enought room to backfill to partially full OSD
function TEST_ec_backfill_simple() {
local dir=$1
local EC=$2
local pools=1
local OSDS=6
local k=3
local m=2
local ecobjects=$(expr $objects / $k)
run_mon $dir a || return 1
run_mgr $dir x || return 1
export CEPH_ARGS
for osd in $(seq 0 $(expr $OSDS - 1))
do
run_osd $dir $osd || return 1
done
ceph osd set-backfillfull-ratio .85
create_pool fillpool 1 1
ceph osd pool set fillpool size 1 --yes-i-really-mean-it
# Partially fill an osd
# We have room for 200 18K replicated objects, if we create 13K objects
# there is only 3600K - (13K * 200) = 1000K which won't hold
# a k=3 shard below ((18K / 3) + 4K) * 200 = 2000K
# Actual usage per shard is 8K * 200 = 1600K because 18K/3 is 6K which
# rounds to 8K. The 2000K is the ceiling on the 18K * 200 = 3600K logical
# bytes in the pool.
dd if=/dev/urandom of=$dir/datafile bs=1024 count=13
for o in $(seq 1 $ecobjects)
do
rados -p fillpool put obj$o $dir/datafile
done
local fillosd=$(get_primary fillpool obj1)
osd=$(expr $fillosd + 1)
if [ "$osd" = "$OSDS" ]; then
osd="0"
fi
sleep 5
kill_daemon $dir/osd.$fillosd.pid TERM
ceph osd out osd.$fillosd
sleep 2
ceph osd erasure-code-profile set ec-profile k=$k m=$m crush-failure-domain=osd technique=reed_sol_van plugin=jerasure || return 1
for p in $(seq 1 $pools)
do
ceph osd pool create "${poolprefix}$p" 1 1 erasure ec-profile
done
# Can't wait for clean here because we created a stale pg
#wait_for_clean || return 1
sleep 5
ceph pg dump pgs
dd if=/dev/urandom of=$dir/datafile bs=1024 count=18
for o in $(seq 1 $ecobjects)
do
for p in $(seq 1 $pools)
do
rados -p "${poolprefix}$p" put obj$o $dir/datafile
done
done
kill_daemon $dir/osd.$osd.pid TERM
ceph osd out osd.$osd
activate_osd $dir $fillosd || return 1
ceph osd in osd.$fillosd
sleep 30
ceph pg dump pgs
wait_for_not_backfilling 1200 || return 1
wait_for_not_activating 60 || return 1
ceph pg dump pgs
ERRORS=0
if [ "$(ceph pg dump pgs | grep -v "^1.0" | grep +backfill_toofull | wc -l)" != "1" ]; then
echo "One pool should have been in backfill_toofull"
ERRORS="$(expr $ERRORS + 1)"
fi
if [ $ERRORS != "0" ];
then
return 1
fi
delete_pool fillpool
for i in $(seq 1 $pools)
do
delete_pool "${poolprefix}$i"
done
kill_daemons $dir || return 1
}
function osdlist() {
local OSDS=$1
local excludeosd=$2
osds=""
for osd in $(seq 0 $(expr $OSDS - 1))
do
if [ $osd = $excludeosd ];
then
continue
fi
if [ -n "$osds" ]; then
osds="${osds} "
fi
osds="${osds}${osd}"
done
echo $osds
}
# Create a pool with size 1 and fill with data so that only 1 EC shard can fit.
# Write data to 2 EC pools mapped to the same OSDs (excluding filled one)
# Remap the last OSD to partially full OSD on both pools
# The 2 pools should race to backfill.
# One pool goes active+clean
# The other goes acitve+...+backfill_toofull
function TEST_ec_backfill_multi() {
local dir=$1
local EC=$2
local pools=2
local OSDS=6
local k=3
local m=2
local ecobjects=$(expr $objects / $k)
run_mon $dir a || return 1
run_mgr $dir x || return 1
export CEPH_ARGS
for osd in $(seq 0 $(expr $OSDS - 1))
do
run_osd $dir $osd || return 1
done
# This test requires that shards from 2 different pools
# fit on a given OSD, but both will not fix. I'm using
# making the fillosd plus 1 shard use 75% of the space,
# leaving not enough to be under the 85% set here.
ceph osd set-backfillfull-ratio .85
ceph osd set-require-min-compat-client luminous
create_pool fillpool 1 1
ceph osd pool set fillpool size 1 --yes-i-really-mean-it
# Partially fill an osd
# We have room for 200 18K replicated objects, if we create 9K objects
# there is only 3600K - (9K * 200) = 1800K which will only hold
# one k=3 shard below ((12K / 3) + 4K) * 200 = 1600K
# The actual data will be (12K / 3) * 200 = 800K because the extra
# is the reservation padding for chunking.
dd if=/dev/urandom of=$dir/datafile bs=1024 count=9
for o in $(seq 1 $ecobjects)
do
rados -p fillpool put obj$o $dir/datafile
done
local fillosd=$(get_primary fillpool obj1)
ceph osd erasure-code-profile set ec-profile k=3 m=2 crush-failure-domain=osd technique=reed_sol_van plugin=jerasure || return 1
nonfillosds="$(osdlist $OSDS $fillosd)"
for p in $(seq 1 $pools)
do
ceph osd pool create "${poolprefix}$p" 1 1 erasure ec-profile
ceph osd pg-upmap "$(expr $p + 1).0" $nonfillosds
done
# Can't wait for clean here because we created a stale pg
#wait_for_clean || return 1
sleep 15
ceph pg dump pgs
dd if=/dev/urandom of=$dir/datafile bs=1024 count=12
for o in $(seq 1 $ecobjects)
do
for p in $(seq 1 $pools)
do
rados -p "${poolprefix}$p" put obj$o-$p $dir/datafile
done
done
ceph pg dump pgs
for p in $(seq 1 $pools)
do
ceph osd pg-upmap $(expr $p + 1).0 ${nonfillosds% *} $fillosd
done
sleep 30
wait_for_not_backfilling 1200 || return 1
wait_for_not_activating 60 || return 1
ceph pg dump pgs
ERRORS=0
if [ "$(ceph pg dump pgs | grep -v "^1.0" | grep +backfill_toofull | wc -l)" != "1" ];
then
echo "One pool should have been in backfill_toofull"
ERRORS="$(expr $ERRORS + 1)"
fi
if [ "$(ceph pg dump pgs | grep -v "^1.0" | grep active+clean | wc -l)" != "1" ];
then
echo "One didn't finish backfill"
ERRORS="$(expr $ERRORS + 1)"
fi
if [ $ERRORS != "0" ];
then
return 1
fi
delete_pool fillpool
for i in $(seq 1 $pools)
do
delete_pool "${poolprefix}$i"
done
kill_daemons $dir || return 1
}
# Similar to TEST_ec_backfill_multi but one of the ec pools
# already had some data on the target OSD
# Create a pool with size 1 and fill with data so that only 1 EC shard can fit.
# Write a small amount of data to 1 EC pool that still includes the filled one
# Take down fillosd with noout set
# Write data to 2 EC pools mapped to the same OSDs (excluding filled one)
# Remap the last OSD to partially full OSD on both pools
# The 2 pools should race to backfill.
# One pool goes active+clean
# The other goes acitve+...+backfill_toofull
function SKIP_TEST_ec_backfill_multi_partial() {
local dir=$1
local EC=$2
local pools=2
local OSDS=5
local k=3
local m=2
local ecobjects=$(expr $objects / $k)
local lastosd=$(expr $OSDS - 1)
run_mon $dir a || return 1
run_mgr $dir x || return 1
export CEPH_ARGS
for osd in $(seq 0 $(expr $OSDS - 1))
do
run_osd $dir $osd || return 1
done
# This test requires that shards from 2 different pools
# fit on a given OSD, but both will not fix. I'm using
# making the fillosd plus 1 shard use 75% of the space,
# leaving not enough to be under the 85% set here.
ceph osd set-backfillfull-ratio .85
ceph osd set-require-min-compat-client luminous
create_pool fillpool 1 1
ceph osd pool set fillpool size 1 --yes-i-really-mean-it
# last osd
ceph osd pg-upmap 1.0 $lastosd
# Partially fill an osd
# We have room for 200 18K replicated objects, if we create 9K objects
# there is only 3600K - (9K * 200) = 1800K which will only hold
# one k=3 shard below ((12K / 3) + 4K) * 200 = 1600K
# The actual data will be (12K / 3) * 200 = 800K because the extra
# is the reservation padding for chunking.
dd if=/dev/urandom of=$dir/datafile bs=1024 count=9
for o in $(seq 1 $ecobjects)
do
rados -p fillpool put obj$o $dir/datafile
done
local fillosd=$(get_primary fillpool obj1)
ceph osd erasure-code-profile set ec-profile k=3 m=2 crush-failure-domain=osd technique=reed_sol_van plugin=jerasure || return 1
nonfillosds="$(osdlist $OSDS $fillosd)"
for p in $(seq 1 $pools)
do
ceph osd pool create "${poolprefix}$p" 1 1 erasure ec-profile
ceph osd pg-upmap "$(expr $p + 1).0" $(seq 0 $lastosd)
done
# Can't wait for clean here because we created a stale pg
#wait_for_clean || return 1
sleep 15
ceph pg dump pgs
dd if=/dev/urandom of=$dir/datafile bs=1024 count=1
for o in $(seq 1 $ecobjects)
do
rados -p "${poolprefix}1" put obj$o-1 $dir/datafile
done
for p in $(seq 1 $pools)
do
ceph osd pg-upmap "$(expr $p + 1).0" $(seq 0 $(expr $lastosd - 1))
done
ceph pg dump pgs
#ceph osd set noout
#kill_daemons $dir TERM osd.$lastosd || return 1
dd if=/dev/urandom of=$dir/datafile bs=1024 count=12
for o in $(seq 1 $ecobjects)
do
for p in $(seq 1 $pools)
do
rados -p "${poolprefix}$p" put obj$o-$p $dir/datafile
done
done
ceph pg dump pgs
# Now backfill lastosd by adding back into the upmap
for p in $(seq 1 $pools)
do
ceph osd pg-upmap "$(expr $p + 1).0" $(seq 0 $lastosd)
done
#activate_osd $dir $lastosd || return 1
#ceph tell osd.0 debug kick_recovery_wq 0
sleep 30
ceph pg dump pgs
wait_for_not_backfilling 1200 || return 1
wait_for_not_activating 60 || return 1
ceph pg dump pgs
ERRORS=0
if [ "$(ceph pg dump pgs | grep -v "^1.0" | grep +backfill_toofull | wc -l)" != "1" ];
then
echo "One pool should have been in backfill_toofull"
ERRORS="$(expr $ERRORS + 1)"
fi
if [ "$(ceph pg dump pgs | grep -v "^1.0" | grep active+clean | wc -l)" != "1" ];
then
echo "One didn't finish backfill"
ERRORS="$(expr $ERRORS + 1)"
fi
if [ $ERRORS != "0" ];
then
return 1
fi
delete_pool fillpool
for i in $(seq 1 $pools)
do
delete_pool "${poolprefix}$i"
done
kill_daemons $dir || return 1
}
function SKIP_TEST_ec_backfill_multi_partial() {
local dir=$1
local EC=$2
local pools=2
local OSDS=6
run_mon $dir a || return 1
run_mgr $dir x || return 1
export CEPH_ARGS
for osd in $(seq 0 $(expr $OSDS - 1))
do
run_osd $dir $osd || return 1
done
# Below we need to fit 3200K in 3600K which is 88%
# so set to 90%
ceph osd set-backfillfull-ratio .90
ceph osd set-require-min-compat-client luminous
create_pool fillpool 1 1
ceph osd pool set fillpool size 1 --yes-i-really-mean-it
# Partially fill an osd
# We have room for 200 48K ec objects, if we create 4k replicated objects
# there is 3600K - (4K * 200) = 2800K which won't hold 2 k=3 shard
# of 200 12K objects which takes ((12K / 3) + 4K) * 200 = 1600K each.
# On the other OSDs 2 * 1600K = 3200K which is 88% of 3600K.
dd if=/dev/urandom of=$dir/datafile bs=1024 count=4
for o in $(seq 1 $objects)
do
rados -p fillpool put obj$o $dir/datafile
done
local fillosd=$(get_primary fillpool obj1)
osd=$(expr $fillosd + 1)
if [ "$osd" = "$OSDS" ]; then
osd="0"
fi
sleep 5
kill_daemon $dir/osd.$fillosd.pid TERM
ceph osd out osd.$fillosd
sleep 2
ceph osd erasure-code-profile set ec-profile k=3 m=2 crush-failure-domain=osd technique=reed_sol_van plugin=jerasure || return 1
for p in $(seq 1 $pools)
do
ceph osd pool create "${poolprefix}$p" 1 1 erasure ec-profile
done
# Can't wait for clean here because we created a stale pg
#wait_for_clean || return 1
sleep 5
ceph pg dump pgs
dd if=/dev/urandom of=$dir/datafile bs=1024 count=12
for o in $(seq 1 $objects)
do
for p in $(seq 1 $pools)
do
rados -p "${poolprefix}$p" put obj$o $dir/datafile
done
done
#ceph pg map 2.0 --format=json | jq '.'
kill_daemon $dir/osd.$osd.pid TERM
ceph osd out osd.$osd
_objectstore_tool_nodown $dir $osd --op export --pgid 2.0 --file $dir/export.out
_objectstore_tool_nodown $dir $fillosd --op import --pgid 2.0 --file $dir/export.out
activate_osd $dir $fillosd || return 1
ceph osd in osd.$fillosd
sleep 30
wait_for_not_backfilling 1200 || return 1
wait_for_not_activating 60 || return 1
ERRORS=0
if [ "$(ceph pg dump pgs | grep -v "^1.0" | grep +backfill_toofull | wc -l)" != "1" ];
then
echo "One pool should have been in backfill_toofull"
ERRORS="$(expr $ERRORS + 1)"
fi
if [ "$(ceph pg dump pgs | grep -v "^1.0" | grep active+clean | wc -l)" != "1" ];
then
echo "One didn't finish backfill"
ERRORS="$(expr $ERRORS + 1)"
fi
ceph pg dump pgs
if [ $ERRORS != "0" ];
then
return 1
fi
delete_pool fillpool
for i in $(seq 1 $pools)
do
delete_pool "${poolprefix}$i"
done
kill_daemons $dir || return 1
}
# Create 1 EC pool
# Write 200 12K objects ((12K / 3) + 4K) *200) = 1600K
# Take 1 shard's OSD down (with noout set)
# Remove 50 objects ((12K / 3) + 4k) * 50) = 400K
# Write 150 36K objects (grow 150 objects) 2400K
# But there is already 1600K usage so backfill
# would be too full if it didn't account for existing data
# Bring back down OSD so it must backfill
# It should go active+clean taking into account data already there
function TEST_ec_backfill_grow() {
local dir=$1
local poolname="test"
local OSDS=6
local k=3
local m=2
local ecobjects=$(expr $objects / $k)
run_mon $dir a || return 1
run_mgr $dir x || return 1
for osd in $(seq 0 $(expr $OSDS - 1))
do
run_osd $dir $osd || return 1
done
ceph osd set-backfillfull-ratio .85
ceph osd set-require-min-compat-client luminous
ceph osd erasure-code-profile set ec-profile k=$k m=$m crush-failure-domain=osd technique=reed_sol_van plugin=jerasure || return 1
ceph osd pool create $poolname 1 1 erasure ec-profile
wait_for_clean || return 1
dd if=/dev/urandom of=${dir}/12kdata bs=1k count=12
for i in $(seq 1 $ecobjects)
do
rados -p $poolname put obj$i $dir/12kdata
done
local PG=$(get_pg $poolname obj1)
# Remember primary during the backfill
local primary=$(get_primary $poolname obj1)
local otherosd=$(get_not_primary $poolname obj1)
ceph osd set noout
kill_daemons $dir TERM $otherosd || return 1
rmobjects=$(expr $ecobjects / 4)
for i in $(seq 1 $rmobjects)
do
rados -p $poolname rm obj$i
done
dd if=/dev/urandom of=${dir}/36kdata bs=1k count=36
for i in $(seq $(expr $rmobjects + 1) $ecobjects)
do
rados -p $poolname put obj$i $dir/36kdata
done
activate_osd $dir $otherosd || return 1
ceph tell osd.$primary debug kick_recovery_wq 0
sleep 2
wait_for_clean || return 1
delete_pool $poolname
kill_daemons $dir || return 1
}
main osd-backfill-space "$@"
# Local Variables:
# compile-command: "make -j4 && ../qa/run-standalone.sh osd-backfill-space.sh"
# End:
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