#!/usr/bin/env bash # Copyright (C) 2018 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 SKIP_WITH_LVMPOLLD=1 . lib/inittest which mkfs.ext4 || skip aux have_integrity 1 5 0 || skip # Avoid 4K ramdisk devices on older kernels aux kernel_at_least 5 10 || export LVM_TEST_PREFER_BRD=0 mnt="mnt" mkdir -p $mnt aux prepare_devs 6 64 # Use awk instead of anoyingly long log out from printf #printf "%0.sA" {1..16384} >> fileA awk 'BEGIN { while (z++ < 16384) printf "A" }' > fileA awk 'BEGIN { while (z++ < 16384) printf "B" }' > fileB awk 'BEGIN { while (z++ < 16384) printf "C" }' > fileC # generate random data dd if=/dev/urandom of=randA bs=512K count=2 dd if=/dev/urandom of=randB bs=512K count=3 dd if=/dev/urandom of=randC bs=512K count=4 _prepare_vg() { vgcreate $SHARED $vg "$dev1" "$dev2" "$dev3" "$dev4" pvs } _add_new_data_to_mnt() { mkfs.ext4 "$DM_DEV_DIR/$vg/$lv1" mount "$DM_DEV_DIR/$vg/$lv1" $mnt # add original data cp randA $mnt cp randB $mnt cp randC $mnt mkdir $mnt/1 cp fileA $mnt/1 cp fileB $mnt/1 cp fileC $mnt/1 mkdir $mnt/2 cp fileA $mnt/2 cp fileB $mnt/2 cp fileC $mnt/2 } _add_more_data_to_mnt() { mkdir $mnt/more cp fileA $mnt/more cp fileB $mnt/more cp fileC $mnt/more cp randA $mnt/more cp randB $mnt/more cp randC $mnt/more } _verify_data_on_mnt() { diff randA $mnt/randA diff randB $mnt/randB diff randC $mnt/randC diff fileA $mnt/1/fileA diff fileB $mnt/1/fileB diff fileC $mnt/1/fileC diff fileA $mnt/2/fileA diff fileB $mnt/2/fileB diff fileC $mnt/2/fileC } _verify_data_on_lv() { lvchange -ay $vg/$lv1 mount "$DM_DEV_DIR/$vg/$lv1" $mnt _verify_data_on_mnt rm $mnt/randA rm $mnt/randB rm $mnt/randC rm -rf $mnt/1 rm -rf $mnt/2 umount $mnt lvchange -an $vg/$lv1 } aux lvmconf \ 'activation/raid_fault_policy = "allocate"' aux prepare_dmeventd # raid1, one device fails, dmeventd calls repair vgcreate $SHARED $vg "$dev1" "$dev2" "$dev3" "$dev4" lvcreate --type raid1 -m 2 --raidintegrity y --ignoremonitoring -l 8 -n $lv1 $vg "$dev1" "$dev2" "$dev3" lvchange --monitor y $vg/$lv1 lvs -a -o+devices $vg aux wait_recalc $vg/${lv1}_rimage_0 aux wait_recalc $vg/${lv1}_rimage_1 aux wait_recalc $vg/${lv1}_rimage_2 aux wait_for_sync $vg $lv1 _add_new_data_to_mnt aux disable_dev "$dev2" # wait for dmeventd to call lvconvert --repair which should # replace dev2 with dev4 sync sleep 5 lvs -a -o+devices $vg | tee out not grep "$dev2" out grep "$dev4" out _add_more_data_to_mnt _verify_data_on_mnt aux enable_dev "$dev2" lvs -a -o+devices $vg | tee out not grep "$dev2" out grep "$dev4" out grep "$dev1" out grep "$dev3" out umount $mnt lvchange -an $vg/$lv1 _verify_data_on_lv lvremove $vg/$lv1 vgremove -ff $vg # raid1, two devices fail, dmeventd calls repair vgcreate $SHARED $vg "$dev1" "$dev2" "$dev3" "$dev4" "$dev5" lvcreate --type raid1 -m 2 --raidintegrity y --ignoremonitoring -l 8 -n $lv1 $vg "$dev1" "$dev2" "$dev3" lvchange --monitor y $vg/$lv1 lvs -a -o+devices $vg aux wait_recalc $vg/${lv1}_rimage_0 aux wait_recalc $vg/${lv1}_rimage_1 aux wait_recalc $vg/${lv1}_rimage_2 aux wait_for_sync $vg $lv1 _add_new_data_to_mnt aux disable_dev "$dev2" aux disable_dev "$dev1" # wait for dmeventd to call lvconvert --repair which should # replace dev1 and dev2 with dev4 and dev5 sync sleep 5 lvs -a -o+devices $vg | tee out not grep "$dev1" out not grep "$dev2" out grep "$dev4" out grep "$dev5" out grep "$dev3" out _add_more_data_to_mnt _verify_data_on_mnt aux enable_dev "$dev1" aux enable_dev "$dev2" lvs -a -o+devices $vg | tee out not grep "$dev1" out not grep "$dev2" out grep "$dev4" out grep "$dev5" out grep "$dev3" out umount $mnt lvchange -an $vg/$lv1 _verify_data_on_lv lvremove $vg/$lv1 vgremove -ff $vg # raid6, one device fails, dmeventd calls repair vgcreate $SHARED $vg "$dev1" "$dev2" "$dev3" "$dev4" "$dev5" "$dev6" lvcreate --type raid6 --raidintegrity y --ignoremonitoring -l 8 -n $lv1 $vg "$dev1" "$dev2" "$dev3" "$dev4" "$dev5" lvchange --monitor y $vg/$lv1 lvs -a -o+devices $vg aux wait_recalc $vg/${lv1}_rimage_0 aux wait_recalc $vg/${lv1}_rimage_1 aux wait_recalc $vg/${lv1}_rimage_2 aux wait_recalc $vg/${lv1}_rimage_3 aux wait_recalc $vg/${lv1}_rimage_4 aux wait_for_sync $vg $lv1 _add_new_data_to_mnt aux disable_dev "$dev2" # wait for dmeventd to call lvconvert --repair which should # replace dev2 with dev6 sync sleep 5 lvs -a -o+devices $vg | tee out not grep "$dev2" out grep "$dev6" out _add_more_data_to_mnt _verify_data_on_mnt aux enable_dev "$dev2" lvs -a -o+devices $vg | tee out not grep "$dev2" out grep "$dev6" out umount $mnt lvchange -an $vg/$lv1 _verify_data_on_lv lvremove $vg/$lv1 vgremove -ff $vg # raid10, one device fails, dmeventd calls repair vgcreate $SHARED $vg "$dev1" "$dev2" "$dev3" "$dev4" "$dev5" lvcreate --type raid10 --raidintegrity y --ignoremonitoring -l 8 -n $lv1 $vg "$dev1" "$dev2" "$dev3" "$dev4" lvchange --monitor y $vg/$lv1 lvs -a -o+devices $vg aux wait_recalc $vg/${lv1}_rimage_0 aux wait_recalc $vg/${lv1}_rimage_1 aux wait_recalc $vg/${lv1}_rimage_2 aux wait_recalc $vg/${lv1}_rimage_3 aux wait_for_sync $vg $lv1 _add_new_data_to_mnt aux disable_dev "$dev1" # wait for dmeventd to call lvconvert --repair which should # replace dev1 with dev5 sync sleep 5 lvs -a -o+devices $vg | tee out not grep "$dev1" out grep "$dev5" out _add_more_data_to_mnt _verify_data_on_mnt aux enable_dev "$dev1" lvs -a -o+devices $vg | tee out not grep "$dev1" out grep "$dev5" out umount $mnt lvchange -an $vg/$lv1 _verify_data_on_lv lvremove $vg/$lv1 vgremove -ff $vg