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Commit Graph

13 Commits

Author SHA1 Message Date
Zdenek Kabelac
0c3a09f1d7 tests: adapt for new cache-pool zeroing 2016-07-27 16:20:57 +02:00
David Teigland
f54253d396 tests: add SKIP_WITH_LVMLOCKD
to all tests that don't already used vgcreate $SHARED
2016-02-23 09:28:48 -06:00
Zdenek Kabelac
fcbef05aae doc: change fsf address
Hmm rpmlint suggest fsf is using a different address these days,
so lets keep it up-to-date
2016-01-21 12:11:37 +01:00
Zdenek Kabelac
4159680a0e tests: use more SKIP
Speed-up check_lvmpolld.
2015-10-27 16:00:09 +01:00
Zdenek Kabelac
8cb79dad0b pool: fix removal of pool metadata spare
Since we support device stack of pools over pool
(thin-pool with cache data volume) the existing code
is no longer able to detect orphan _pmspare.

So instead do a _pmspare check after volume removal,
and remove spare afterwards.
2014-11-13 13:09:07 +01:00
Zdenek Kabelac
27574d0e41 tests: use bigger metadata
Until resolved - use bigger then 4MB cache pool metadata.
2014-07-17 16:27:39 +02:00
Zdenek Kabelac
d7065f154e tests: updates for new lvconvert 2014-07-11 13:32:52 +02:00
Jonathan Brassow
5ebff6cc9f pvmove: Enable all-or-nothing (atomic) pvmoves
pvmove can be used to move single LVs by name or multiple LVs that
lie within the specified PV range (e.g. /dev/sdb1:0-1000).  When
moving more than one LV, the portions of those LVs that are in the
range to be moved are added to a new temporary pvmove LV.  The LVs
then point to the range in the pvmove LV, rather than the PV
range.

Example 1:
	We have two LVs in this example.  After they were
	created, the first LV was grown, yeilding two segments
	in LV1.  So, there are two LVs with a total of three
	segments.

	Before pvmove:
	      ---------  ---------   ---------
	      | LV1s0 |  | LV2s0 |   | LV1s1 |
	      ---------  ---------   ---------
	         |           |           |
	   -------------------------------------
	PV | 000 - 255 | 256 - 511 | 512 - 767 |
	   -------------------------------------

	After pvmove inserts the temporary pvmove LV:
	          ---------   ---------   ---------
	          | LV1s0 |   | LV2s0 |   | LV1s1 |
	          ---------   ---------   ---------
	              |           |           |
	        -------------------------------------
	pvmove0 |   seg 0   |   seg 1   |   seg 2   |
	        -------------------------------------
	              |           |           |
	        -------------------------------------
	PV      | 000 - 255 | 256 - 511 | 512 - 767 |
	        -------------------------------------

	Each of the affected LV segments now point to a
	range of blocks in the pvmove LV, which purposefully
	corresponds to the segments moved from the original
	LVs into the temporary pvmove LV.

The current implementation goes on from here to mirror the temporary
pvmove LV by segment.  Further, as the pvmove LV is activated, only
one of its segments is actually mirrored (i.e. "moving") at a time.
The rest are either complete or not addressed yet.  If the pvmove
is aborted, those segments that are completed will remain on the
destination and those that are not yet addressed or in the process
of moving will stay on the source PV.  Thus, it is possible to have
a partially completed move - some LVs (or certain segments of LVs)
on the source PV and some on the destination.

Example 2:
	What 'example 1' might look if it was half-way
	through the move.
	             ---------   ---------   ---------
	             | LV1s0 |   | LV2s0 |   | LV1s1 |
	             ---------   ---------   ---------
	                 |           |           |
	           -------------------------------------
	pvmove0    |   seg 0   |   seg 1   |   seg 2   |
	           -------------------------------------
	                 |           |           |
	                 |     -------------------------
	source PV        |     | 256 - 511 | 512 - 767 |
	                 |     -------------------------
	                 |           ||
	           -------------------------
	dest PV    | 000 - 255 | 256 - 511 |
	           -------------------------

This update allows the user to specify that they would like the
pvmove mirror created "by LV" rather than "by segment".  That is,
the pvmove LV becomes an image in an encapsulating mirror along
with the allocated copy image.

Example 3:
	A pvmove that is performed "by LV" rather than "by segment".

	                   ---------   ---------
	                   | LV1s0 |   | LV2s0 |
	                   ---------   ---------
	                       |           |
	                 -------------------------
	        pvmove0  |  * LV-level mirror *  |
	                 -------------------------
                             /                \
	   pvmove_mimage0   /          pvmove_mimage1
	   -------------------------   -------------------------
	   |   seg 0   |   seg 1   |   |   seg 0   |   seg 1   |
	   -------------------------   -------------------------
	        |            |               |           |
	   -------------------------   -------------------------
	   | 000 - 255 | 256 - 511 |   | 000 - 255 | 256 - 511 |
	   -------------------------   -------------------------
	           source PV                    dest PV

The thing that differentiates a pvmove done in this way and a simple
"up-convert" from linear to mirror is the preservation of the
distinct segments.  A normal up-convert would simply allocate the
necessary space with no regard for segment boundaries.  The pvmove
operation must preserve the segments because they are the critical
boundary between the segments of the LVs being moved.  So, when the
pvmove copy image is allocated, all corresponding segments must be
allocated.  The code that merges ajoining segments that are part of
the same LV when the metadata is written must also be avoided in
this case.  This method of mirroring is unique enough to warrant its
own definitional macro, MIRROR_BY_SEGMENTED_LV.  This joins the two
existing macros: MIRROR_BY_SEG (for original pvmove) and MIRROR_BY_LV
(for user created mirrors).

The advantages of performing pvmove in this way is that all of the
LVs affected can be moved together.  It is an all-or-nothing approach
that leaves all LV segments on the source PV if the move is aborted.
Additionally, a mirror log can be used (in the future) to provide tracking
of progress; allowing the copy to continue where it left off in the event
there is a deactivation.
2014-06-17 22:59:36 -05:00
Zdenek Kabelac
5c5177c37c tests: rename test to inittest
We are getting into problem when we use 'test' for commands like
should/not/...

So avoid overloading test name and change it to inittest.
2014-06-10 10:51:27 +02:00
Zdenek Kabelac
f919a255b7 tests: lvconvert needs --yes 2014-05-20 22:50:33 +02:00
Zdenek Kabelac
2e9792121f tests: add have_cache and have_raid
Need to be aware of build options, when system would be
configure without raid or cache support
2014-05-20 21:50:30 +02:00
Zdenek Kabelac
47b15b805e tests: updates
Add some vgremove calls.
Remove uneeded test for some unused commands.
Add tests for missing commands.
2014-02-27 13:01:04 +01:00
Jonathan Brassow
ee89ac7b88 pvmove: Disallow pvmove of cache LVs
Skip over LVs that have a cache LV in their tree of LV dependencies
when performing a pvmove.

This means that users cannot move a cache pool or a cache LV's origin -
even when that cache LV is used as part of another LV (e.g. a thin pool).

The new test (pvmove-cache-segtypes.sh) currently builds up various LV
stacks that incorporate cache LVs.  pvmove tests are then performed to
ensure that cache related LVs are /not/ moved.  Once pvmove is enabled
for cache, those tests will switch to ensuring that the LVs /are/
moved.
2014-02-24 12:25:18 -06:00