2012-10-09 18:32:11 +04:00
#!/bin/sh
# Copyright (C) 2012 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
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. lib/inittest
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test -e LOCAL_LVMPOLLD && skip
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prepare_lvs( ) {
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lvremove -f $vg
lvcreate -L10M -n $lv1 $vg
lvcreate -L8M -n $lv2 $vg
}
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#
# Main
#
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aux have_thin 1 0 0 || skip
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aux prepare_pvs 4 64
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# build one large PV
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vgcreate $vg1 $( head -n 3 DEVICES)
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# 32bit linux kernels are fragille with device size >= 16T
# maybe uname -m [ x86_64 | i686 ]
TSIZE = 64T
aux can_use_16T || TSIZE = 15T
lvcreate -s -l 100%FREE -n $lv $vg1 --virtualsize $TSIZE
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aux extend_filter_LVMTEST
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pvcreate " $DM_DEV_DIR / $vg1 / $lv "
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vgcreate $vg -s 64K $( tail -n+4 DEVICES) " $DM_DEV_DIR / $vg1 / $lv "
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lvcreate -L1T -n $lv1 $vg
invalid lvconvert --yes -c 8M --type thin --poolmetadatasize 1G $vg /$lv1
# needs some --cachepool or --thinpool
invalid lvconvert --yes --poolmetadatasize 1G $vg /$lv1
lvremove -f $vg
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# create mirrored LVs for data and metadata volumes
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lvcreate -aey -L10M --type mirror -m1 --mirrorlog core -n $lv1 $vg
Mirror/Thin: Disallow thinpools on mirror logical volumes
The same corner cases that exist for snapshots on mirrors exist for
any logical volume layered on top of mirror. (One example is when
a mirror image fails and a non-repair LVM command is the first to
detect it via label reading. In this case, the LVM command will hang
and prevent the necessary LVM repair command from running.) When
a better alternative exists, it makes no sense to allow a new target
to stack on mirrors as a new feature. Since, RAID is now capable of
running EX in a cluster and thin is not active-active aware, it makes
sense to pair these two rather than mirror+thinpool.
As further background, here are some additional comments that I made
when addressing a bug related to mirror+thinpool:
(https://bugzilla.redhat.com/show_bug.cgi?id=919604#c9)
I am going to disallow thin* on top of mirror logical volumes.
Users will have to use the "raid1" segment type if they want this.
This bug has come down to a choice between:
1) Disallowing thin-LVs from being used as PVs.
2) Disallowing thinpools on top of mirrors.
The problem is that the code in dev_manager.c:device_is_usable() is unable
to tell whether there is a mirror device lower in the stack from the device
being checked. Pretty much anything layered on top of a mirror will suffer
from this problem. (Snapshots are a good example of this; and option #1
above has been chosen to deal with them. This can also be seen in
dev_manager.c:device_is_usable().) When a mirror failure occurs, the
kernel blocks all I/O to it. If there is an LVM command that comes along
to do the repair (or a different operation that requires label reading), it
would normally avoid the mirror when it sees that it is blocked. However,
if there is a snapshot or a thin-LV that is on a mirror, the above code
will not detect the mirror underneath and will issue label reading I/O.
This causes the command to hang.
Choosing #1 would mean that thin-LVs could never be used as PVs - even if
they are stacked on something other than mirrors.
Choosing #2 means that thinpools can never be placed on mirrors. This is
probably better than we think, since it is preferred that people use the
"raid1" segment type in the first place. However, RAID* cannot currently
be used in a cluster volume group - even in EX-only mode. Thus, a complete
solution for option #2 must include the ability to activate RAID logical
volumes (and perform RAID operations) in a cluster volume group. I've
already begun working on this.
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lvcreate -aey -L10M -n $lv2 $vg
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lvchange -an $vg /$lv1
Mirror/Thin: Disallow thinpools on mirror logical volumes
The same corner cases that exist for snapshots on mirrors exist for
any logical volume layered on top of mirror. (One example is when
a mirror image fails and a non-repair LVM command is the first to
detect it via label reading. In this case, the LVM command will hang
and prevent the necessary LVM repair command from running.) When
a better alternative exists, it makes no sense to allow a new target
to stack on mirrors as a new feature. Since, RAID is now capable of
running EX in a cluster and thin is not active-active aware, it makes
sense to pair these two rather than mirror+thinpool.
As further background, here are some additional comments that I made
when addressing a bug related to mirror+thinpool:
(https://bugzilla.redhat.com/show_bug.cgi?id=919604#c9)
I am going to disallow thin* on top of mirror logical volumes.
Users will have to use the "raid1" segment type if they want this.
This bug has come down to a choice between:
1) Disallowing thin-LVs from being used as PVs.
2) Disallowing thinpools on top of mirrors.
The problem is that the code in dev_manager.c:device_is_usable() is unable
to tell whether there is a mirror device lower in the stack from the device
being checked. Pretty much anything layered on top of a mirror will suffer
from this problem. (Snapshots are a good example of this; and option #1
above has been chosen to deal with them. This can also be seen in
dev_manager.c:device_is_usable().) When a mirror failure occurs, the
kernel blocks all I/O to it. If there is an LVM command that comes along
to do the repair (or a different operation that requires label reading), it
would normally avoid the mirror when it sees that it is blocked. However,
if there is a snapshot or a thin-LV that is on a mirror, the above code
will not detect the mirror underneath and will issue label reading I/O.
This causes the command to hang.
Choosing #1 would mean that thin-LVs could never be used as PVs - even if
they are stacked on something other than mirrors.
Choosing #2 means that thinpools can never be placed on mirrors. This is
probably better than we think, since it is preferred that people use the
"raid1" segment type in the first place. However, RAID* cannot currently
be used in a cluster volume group - even in EX-only mode. Thus, a complete
solution for option #2 must include the ability to activate RAID logical
volumes (and perform RAID operations) in a cluster volume group. I've
already begun working on this.
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# conversion fails for mirror segment type
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fail lvconvert --thinpool $vg /$lv1
# cannot use same LV
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invalid lvconvert --yes --thinpool $vg /$lv2 --poolmetadata $vg /$lv2
Mirror/Thin: Disallow thinpools on mirror logical volumes
The same corner cases that exist for snapshots on mirrors exist for
any logical volume layered on top of mirror. (One example is when
a mirror image fails and a non-repair LVM command is the first to
detect it via label reading. In this case, the LVM command will hang
and prevent the necessary LVM repair command from running.) When
a better alternative exists, it makes no sense to allow a new target
to stack on mirrors as a new feature. Since, RAID is now capable of
running EX in a cluster and thin is not active-active aware, it makes
sense to pair these two rather than mirror+thinpool.
As further background, here are some additional comments that I made
when addressing a bug related to mirror+thinpool:
(https://bugzilla.redhat.com/show_bug.cgi?id=919604#c9)
I am going to disallow thin* on top of mirror logical volumes.
Users will have to use the "raid1" segment type if they want this.
This bug has come down to a choice between:
1) Disallowing thin-LVs from being used as PVs.
2) Disallowing thinpools on top of mirrors.
The problem is that the code in dev_manager.c:device_is_usable() is unable
to tell whether there is a mirror device lower in the stack from the device
being checked. Pretty much anything layered on top of a mirror will suffer
from this problem. (Snapshots are a good example of this; and option #1
above has been chosen to deal with them. This can also be seen in
dev_manager.c:device_is_usable().) When a mirror failure occurs, the
kernel blocks all I/O to it. If there is an LVM command that comes along
to do the repair (or a different operation that requires label reading), it
would normally avoid the mirror when it sees that it is blocked. However,
if there is a snapshot or a thin-LV that is on a mirror, the above code
will not detect the mirror underneath and will issue label reading I/O.
This causes the command to hang.
Choosing #1 would mean that thin-LVs could never be used as PVs - even if
they are stacked on something other than mirrors.
Choosing #2 means that thinpools can never be placed on mirrors. This is
probably better than we think, since it is preferred that people use the
"raid1" segment type in the first place. However, RAID* cannot currently
be used in a cluster volume group - even in EX-only mode. Thus, a complete
solution for option #2 must include the ability to activate RAID logical
volumes (and perform RAID operations) in a cluster volume group. I've
already begun working on this.
2013-09-12 00:58:44 +04:00
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prepare_lvs
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# conversion fails for internal volumes
# can't use --readahead with --poolmetadata
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invalid lvconvert --thinpool $vg /$lv1 --poolmetadata $vg /$lv2 --readahead 512
lvconvert --yes --thinpool $vg /$lv1 --poolmetadata $vg /$lv2
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prepare_lvs
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lvconvert --yes -c 64 --stripes 2 --thinpool $vg /$lv1 --readahead 48
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lvremove -f $vg
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# Swaping of metadata volume
lvcreate -L1T -n $lv1 $vg
lvcreate -L32 -n $lv2 $vg
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lvconvert --yes -c 8M --type thin-pool $vg /$lv1 2>& 1 | tee err
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# Check tther is warning for large chunk size and zeroing enabled
grep "Pool zeroing and large" err
UUID = $( get lv_field $vg /$lv2 uuid)
# Fail is pool is active
# TODO maybe detect inactive pool and deactivate
fail lvconvert --yes --thinpool $vg /$lv1 --poolmetadata $lv2
lvchange -an $vg
lvconvert --yes --thinpool $vg /$lv1 --poolmetadata $lv2
check lv_field $vg /${ lv1 } _tmeta uuid " $UUID "
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lvremove -f $vg
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# test with bigger sizes
lvcreate -L1T -n $lv1 $vg
lvcreate -L8M -n $lv2 $vg
lvcreate -L1M -n $lv3 $vg
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# chunk size is bigger then size of thin pool data
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fail lvconvert --yes -c 1G --thinpool $vg /$lv3
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# stripes can't be used with poolmetadata
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invalid lvconvert --stripes 2 --thinpool $vg /$lv1 --poolmetadata $vg /$lv2
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# too small metadata (<2M)
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fail lvconvert --yes -c 64 --thinpool $vg /$lv1 --poolmetadata $vg /$lv3
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# too small chunk size fails
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invalid lvconvert -c 4 --thinpool $vg /$lv1 --poolmetadata $vg /$lv2
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# too big chunk size fails
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invalid lvconvert -c 2G --thinpool $vg /$lv1 --poolmetadata $vg /$lv2
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# negative chunk size fails
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invalid lvconvert -c -256 --thinpool $vg /$lv1 --poolmetadata $vg /$lv2
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# non multiple of 64KiB fails
invalid lvconvert -c 88 --thinpool $vg /$lv1 --poolmetadata $vg /$lv2
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# cannot use same LV for pool and convertion
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invalid lvconvert --yes --thinpool $vg /$lv3 -T $vg /$lv3
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# Warning about smaller then suggested
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lvconvert --yes -c 256 --thinpool $vg /$lv1 --poolmetadata $vg /$lv2 2>& 1 | tee err
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grep "WARNING: Chunk size is smaller" err
lvremove -f $vg
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lvcreate -L1T -n $lv1 $vg
lvcreate -L32G -n $lv2 $vg
# Warning about bigger then needed
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lvconvert --yes --thinpool $vg /$lv1 --poolmetadata $vg /$lv2 2>& 1 | tee err
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grep "WARNING: Maximum" err
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lvremove -f $vg
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if test " $TSIZE " = 64T; then
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lvcreate -L24T -n $lv1 $vg
# Warning about bigger then needed (24T data and 16G -> 128K chunk)
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lvconvert --yes -c 64 --thinpool $vg /$lv1 2>& 1 | tee err
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grep "WARNING: Chunk size is too small" err
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lvremove -f $vg
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fi
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#lvs -a -o+chunk_size,stripe_size,seg_pe_ranges
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####################################
# Prohibites thin pool conversions #
####################################
lvcreate -L32 -n $lv1 $vg
lvcreate -L16 -n $lv2 $vg
lvconvert --yes --thinpool $vg /$lv1
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not aux have_cache 1 3 0 || fail lvconvert --yes --type cache-pool $vg /$lv1
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fail lvconvert --yes --type mirror -m1 $vg /$lv1
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not aux have_raid 1 0 0 || fail lvconvert --yes --type raid1 -m1 $vg /$lv1
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fail lvconvert --yes --type snapshot $vg /$lv1 $vg /$lv2
fail lvconvert --yes --type snapshot $vg /$lv2 $vg /$lv1
fail lvconvert --yes --type thin-pool $vg /$lv1
lvremove -f $vg
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vgremove -ff $vg
