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lvm2/test/shell/lvconvert-mirror-basic.sh
Petr Rockai f2a3f0fe3d Tidy the shell tests into their own subdir. We now have:
- test/lib -- infrastructure and helper code
- test/api -- liblvm2app API tests
- test/unit -- C-based unit tests
- test/shell -- shell-based functional tests
2011-11-21 00:15:42 +00:00

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# Copyright (C) 2010 Red Hat, Inc. All rights reserved.
#
# This copyrighted material is made available to anyone wishing to use,
# modify, copy, or redistribute it subject to the terms and conditions
# of the GNU General Public License v.2.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software Foundation,
# Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
. lib/test
log_name_to_count()
{
if [ "$1" = "mirrored" ]; then
echo 2
elif [ "$1" = "disk" ]; then
echo 1
else
echo 0
fi
}
# FIXME: For test_[up|down]convert, I'd still like to be able
# to specifiy devices - especially if I can do partial PV
# specification for down-converts. It may even be wise to
# do one round through these tests without specifying the PVs
# to use and one round where we do.
# test_lvconvert
# start_mirror_count: The '-m' argument to create with
# start_log_type: core|disk|mirrored
# final_mirror_count: The '-m' argument to convert to
# final_log_type: core|disk|mirrored
# active: Whether the LV should be active when the convert happens
#
# Exmaple: Convert 3-way disk-log mirror to
# 2-way disk-log mirror while not active
# -> test_lvconvert 2 disk 3 disk 0
test_lvconvert()
{
local start_count=$1
local start_count_p1=$(($start_count + 1))
local start_log_type=$2
local finish_count=$3
local finish_count_p1=$(($finish_count + 1))
local finish_log_type=$4
local dev_array=($dev1 $dev2 $dev3 $dev4 $dev5)
local start_log_count
local finish_log_count
local max_log_count
local alloc=""
local active=true
local i
test "$5" = "active" && active=false
#test $finish_count -gt $start_count && up=true
# Do we have enough devices for the mirror images?
if [ $start_count_p1 -gt ${#dev_array[@]} ]; then
echo "Action requires too many devices"
return 1
fi
# Do we have enough devices for the mirror images?
if [ $finish_count_p1 -gt ${#dev_array[@]} ]; then
echo "Action requires too many devices"
return 1
fi
start_log_count=`log_name_to_count $start_log_type`
finish_log_count=`log_name_to_count $finish_log_type`
if [ $finish_log_count -gt $start_log_count ]; then
max_log_count=$finish_log_count
else
max_log_count=$start_log_count
fi
if [ $start_count -gt 0 ]; then
# Are there extra devices for the log or do we overlap
if [ $(($start_count_p1 + $start_log_count)) -gt ${#dev_array[@]} ]; then
alloc="--alloc anywhere"
fi
lvcreate -l2 -m $start_count --mirrorlog $start_log_type \
-n $lv1 $vg $alloc
check mirror_legs $vg $lv1 $start_count_p1
# FIXME: check mirror log
else
lvcreate -l2 -n $lv1 $vg
fi
lvs -a -o name,copy_percent,devices $vg
if ! $active; then
lvchange -an $vg/$lv1
fi
# Are there extra devices for the log or do we overlap
if [ $(($finish_count_p1 + $finish_log_count)) -gt ${#dev_array[@]} ]; then
alloc="--alloc anywhere"
fi
lvconvert -m $finish_count --mirrorlog $finish_log_type \
$vg/$lv1 $alloc
if ! $active; then
lvchange -ay $vg/$lv1
fi
check mirror_no_temporaries $vg $lv1
if [ "$finish_count_p1" -eq 1 ]; then
check linear $vg $lv1
else
if test -n "$alloc"; then
check mirror_nonredundant $vg $lv1
else
check mirror $vg $lv1
fi
check mirror_legs $vg $lv1 $finish_count_p1
fi
}
aux prepare_vg 5 16
test_many() {
i=$1
for j in $(seq 0 3); do
for k in core disk mirrored; do
for l in core disk mirrored; do
if test "$i" -eq "$j" && test "$k" = "$l"; then continue; fi
: ----------------------------------------------------
: "Testing mirror conversion -m$i/$k -> -m$j/$l"
: ----------------------------------------------------
test_lvconvert $i $k $j $l 0
lvremove -ff $vg
test_lvconvert $i $k $j $l 1
lvremove -ff $vg
done
done
done
}