#!/usr/bin/env bash # Copyright (C) 2018-2021 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA # TODO: once code get fixed, add matching 'check' calls SKIP_WITH_LVMPOLLD=1 . lib/inittest test -f /proc/mdstat && grep -q raid1 /proc/mdstat || \ modprobe raid1 || skip aux lvmconf 'devices/md_component_detection = 1' aux extend_filter_LVMTEST "a|/dev/md|" aux prepare_devs 4 pvcreate "$dev2" aux mdadm_create --metadata=1.0 --level=0 --chunk=64 --raid-devices=2 "$dev1" "$dev2" pvs | tee out not grep pv2 out vgcreate $SHARED $vg "$dev3" "$dev4" # create 2 disk MD raid1 array # by default using metadata format 1.0 with data at the end of device aux mdadm_create --metadata=1.0 --level=1 --chunk=64 --raid-devices=2 "$dev1" "$dev2" mddev=$(< MD_DEV) pvdev=$(< MD_DEV_PV) sleep 3 mdadm --stop "$mddev" # copy fake PV/VG header PV3 -> PV2 (which is however md raid1 leg) dd if="$dev3" of="$dev2" bs=64k count=1 conv=fdatasync # remove VG on PV3 & PV4 vgremove -f $vg sleep 3 aux udev_wait # too bad 'dd' wakes up md array reassembling mdadm --detail "$mddev" || true mdadm --stop "$mddev" || true sleep 3 # print what blkid thinks about each PV for i in "$dev1" "$dev2" "$dev3" "$dev4" do blkid -c /dev/null -w /dev/null "$i" || echo "Unknown signature" done # expect open count for each PV to be 0 dmsetup info -c pvs "$dev2" "$dev3" || true # still expect open count for each PV to be 0 dmsetup info -c pvs "$dev3" "$dev2" || true # and again we expect open count for each PV to be 0 dmsetup info -c dmsetup table # even after 3 second of possible hidden raid array assembling sleep 3 dmsetup info -c # if for any reason array went up - stop it again if mdadm --detail "$mddev" ; then mdadm --stop "$mddev" aux udev_wait should not mdadm --detail "$mddev" fi # now reassemble array from PV1 & PV2 mdadm --assemble --verbose "$mddev" "$dev1" "$dev2" aux udev_wait sleep 1 # and let 'fake hdr' to be fixed from master/primary leg # (when mdadm supports repair) if mdadm --action=repair "$mddev" ; then sleep 1 pvscan -vvvv # should be showing correctly PV3 & PV4 pvs "$dev3" "$dev4" fi