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This provides better hints when trying to resize the fs on top of an LV.
Also needs a3f6d2f593 for proper operation.
❯ lvs -o name,size vg/swap
lv_name lv_size
swap 60.00m
Before:
❯ lvextend -L72m vg/swap
Size of logical volume vg/swap changed from 60.00 MiB (15 extents) to 72.00 MiB (18 extents).
Logical volume vg/swap successfully resized.
❯ lvreduce -L60m vg/swap
File system swap found on vg/swap.
File system device usage is not available from libblkid.
❯ lvreduce -L50m vg/swap
Rounding size to boundary between physical extents: 52.00 MiB.
File system swap found on vg/swap.
File system device usage is not available from libblkid.
After:
❯ lvextend -L72m vg/swap
Size of logical volume vg/swap changed from 60.00 MiB (15 extents) to 72.00 MiB (18 extents).
Logical volume vg/swap successfully resized.
❯ lvreduce -L60m vg/swap
File system swap found on vg/swap.
File system size (60.00 MiB) is equal to the requested size (60.00 MiB).
File system reduce is not needed, skipping.
Size of logical volume vg/swap changed from 72.00 MiB (18 extents) to 60.00 MiB (15 extents).
Logical volume vg/swap successfully resized.
❯ lvreduce -L50m vg/swap
Rounding size to boundary between physical extents: 52.00 MiB.
File system swap found on vg/swap.
File system size (60.00 MiB) is larger than the requested size (52.00 MiB).
File system reduce is required and not supported (swap).
blkid does not report FSLASTBLOCK for a swap device. However, blkid
does report FSSIZE for swap devices, so use this field (and including
the header size which is of FSBLOCKSIZE for the swap) instead to
set the "filesystem last block" which is used subsequently for
further calculations and conditions.
We already detect msdos partition table. If it is empty, that is, there
is just the partition header and no actual partitions defined, then the
filter-partitioned passes, otherwise not.
Do the same for GPT partition table.
New config setting sanlock_align_size can be used to configure
the sanlock lease size that lvmlockd will use on 4K disks.
By default, lvmlockd and sanlock use 8MiB align_size (lease size)
on 4K disks, which supports up to 2000 hosts (and max host_id.)
This can be reduced to 1, 2 or 4 (in MiB), to reduce lease i/o.
The reduced sizes correspond to smaller max hosts/host_id:
1 MiB = 250 hosts
2 MiB = 500 hosts
4 MiB = 1000 hosts
8 MiB = 2000 hosts (default)
(Disks with 512 byte sectors always use 1MiB leases and support
2000 hosts/host_id, and are not affected by this.)
In cases user is sure he is not using his 'rootfs' or 'swap' on LVs
managed with his command - it possible to completely bypass pinning
process to RAM which may eventually slightly speedup command execution,
(however at the risk the process can be eventually delayed by swapping).
Basicaly use this only at your risk...
TODO: add some dmeventd support for this.
Previously, lvmlockd detected the end of the lvmlock LV
by doing i/o to it until an i/o error was returned.
This triggered sanlock warning messages, so use the LV
size to avoid accessing beyond the end of the device.
Previously, every lvcreate would refresh the lvmlock LV
in case another machine had extended it. This involves
a lot of unnecessary work in most cases, so now compare
the LV size and device size to detect when a refresh is
needed.
lvremove of a thin lv while the pool is inactive would
leave the pool locked but inactive.
lvcreate of a thin snapshot while the pool is inactive
would leave the pool locked but inactive.
lvcreate of a thin lv could activate the pool to check
a threshold before the pool lock was acquired in lvmlockd.
The lv_hash wasn't being passed to the seg-specific text import
functions, so they were doing many find_lv() calls which consumes
a lot of time when there are many LVs in the metadata.
Older gcc doesn't really like complex types (buffer, struct) to be
initialized without extra {} around such type.
So pick any other 'single type' var from a struct and set it to 0,
rest will do the compiler without emitting a warning.
Revert 373372c8ab and instead update
our validation code to handle LVs with empty segment - currently
we should need this only for pvmove operation, thus such LV should
have name 'pvmove%u'.
This fixes a problem where user tried i.e. pvmove on a VG with single
PV - as reported: https://github.com/lvmteam/lvm2/issues/148
Reported-by: bob@redhat.com
The option can be used in multiple ways (like --cachesettings):
--integritysettings key=val
--integritysettings 'key1=val1 key2=val2'
--integritysettings key1=val1 --integritysettings key2=val2
Use with lvcreate or lvconvert when integrity is first enabled
to configure:
journal_sectors
journal_watermark
commit_time
bitmap_flush_interval
allow_discards
Use with lvchange to configure (only while inactive):
journal_watermark
commit_time
bitmap_flush_interval
allow_discards
lvchange --integritysettings "" clears any previously configured
settings, so dm-integrity will use its own defaults.
lvs -a -o integritysettings displays configured settings.
log/command_log_report config setting defaults to 1 now if json or json_std
output format is used (either by setting report/output_format config
setting or using --reportformat cmd line arg).
This means that if we use json/json_std output format, the command log
messages are then part of the json output too, not interleaved as
unstructured text mixed with the json output.
If log/command_log_report is set explicitly in the config, then we still
respect that, no matter what output format is used currently. In this
case, users can still separate and redirect the output by using
LVM_OUT_FD, LVM_ERR_FD and LVM_REPORT_FD so that the different types
do not interleave with the json/json_std output.
In case of different PV sizes in a VG, the lvm2 allocator falls short
to define extended segments resiliently asked for 100%FREE RaidLV extension
and a RAID distinct allocation check fails. Fix is to release a memory pool
on the resulting error path.
Until the lvm2 allocator gets enhanced (WIP) to do such complex (and other)
allocations proper, a workaround is to extend a RaidLV to any free space on
its already allocated PVs by defining those PVs on the lvextend command line
then iteratively run further such lvextend commands to extend it to its
final intended size. Mind, this may be a non-trivial extension interation.
The cmd struct is now required in many more functions, and
it's added as a function arg for most direct dev-cache function
calls. The cmd struct is added to struct device (dev->cmd) so
that it can be accessed in many other cases where dev-cache
functions are being called from places where getting the cmd
struct is too difficult.
The dm devs cache is separate from the ordinary dev cache,
so give the function names distinct prefixes, using
"dm_devs_cache" to prefix dm devs cache functions.
When a PV is stacked on an LV, the PV needs to be
dropped from bcache before the LV is processed.
The LV can be found in dev-cache using its name
rather than the devno.
The list of dm devs was in the cmd struct and had a
different lifetime than the radix trees referencing
those dm devs. Now the list and radix trees are
created and destroyed together.