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Fix get_pool_params to only read params.
Add poolmetadataspare option to get_pool_params.
Move all profile code into update_pool_params.
Move recalculate code into pool_manip.c
Few unecessary comments were written to on-disc metadata.
Use outfc() to have comments only in archived files.
(may also save couple bytes in ringbuffer).
TODO: needed validation against newline char...
Cache pools are similar as with thin pools.
Add (needs %s) - since cache has currently
a bit strange need for extra few kb over
our default 4M extent size so make it more obvious.
When EOF is detect - it could be either 'Ctrl+C'
or empty stdin.
For Ctrl+C there is visual ^C sign.
For EOF print 'n' so decision is clear in debug print.
This is addendum for commit 6dc7b783c8.
LVM1 format stores the ALLOCATABLE flag directly in PV header, not
in VG metadata. So the code needs to be fixed further to work
properly for lvm1 format so that the correct PV header is written
(the flag is set only if the PV is in some VG, unset otherwise).
Before the patch:
$ lvs -o name,active vg/lvol1 --driverloaded n
WARNING: Activation disabled. No device-mapper interaction will beattempted.
LV Active
lvol1 active
With this patch applied:
$ lvs -o name,active vg/lvol1 --driverloaded n
WARNING: Activation disabled. No device-mapper interaction will be attempted.
LV Active
lvol1 unknown
The same for active_{locally,remotely,exclusively} fields.
Also, rename headings for these fields (ActLocal/ActRemote/ActExcl).
If the lv_info call fails for whatever reason/INFO dm ioctl fails or
the dm driver communication is disabled (--driverloaded n), make
sure we always display "unknown" for LVSINFO fields as that's exactly
what happens - we don't know the state.
Before the patch:
$ lvs -o name,device_open --driverloaded n
WARNING: Activation disabled. No device-mapper interaction will be attempted.
Command failed with status code 5.
With this patch applied:
$ lvs -o name,device_open --driverloaded n
WARNING: Activation disabled. No device-mapper interaction will be attempted.
LV DevOpen
lvol1 unknown
Like other binary fields we already have:
$ lvs -o name,zero vg/lvx vg/pool vg/pool1
LV Zero
lvx unknown
pool
pool1 zero
$ lvs -o name,zero vg/lvx vg/pool vg/pool1 --binary
LV Zero
lvx -1
pool 0
pool1 1
Currently, we have two modes of activation, an unnamed nominal mode
(which I will refer to as "complete") and "partial" mode. The
"complete" mode requires that a volume group be 'complete' - that
is, no missing PVs. If there are any missing PVs, no affected LVs
are allowed to activate - even RAID LVs which might be able to
tolerate a failure. The "partial" mode allows anything to be
activated (or at least attempted). If a non-redundant LV is
missing a portion of its addressable space due to a device failure,
it will be replaced with an error target. RAID LVs will either
activate or fail to activate depending on how badly their
redundancy is compromised.
This patch adds a third option, "degraded" mode. This mode can
be selected via the '--activationmode {complete|degraded|partial}'
option to lvchange/vgchange. It can also be set in lvm.conf.
The "degraded" activation mode allows RAID LVs with a sufficient
level of redundancy to activate (e.g. a RAID5 LV with one device
failure, a RAID6 with two device failures, or RAID1 with n-1
failures). RAID LVs with too many device failures are not allowed
to activate - nor are any non-redundant LVs that may have been
affected. This patch also makes the "degraded" mode the default
activation mode.
The degraded activation mode does not yet work in a cluster. A
new cluster lock flag (LCK_DEGRADED_MODE) will need to be created
to make that work. Currently, there is limited space for this
extra flag and I am looking for possible solutions. One possible
solution is to usurp LCK_CONVERT, as it is not used. When the
locking_type is 3, the degraded mode flag simply gets dropped and
the old ("complete") behavior is exhibited.
We have 1/"descriptive word"/"yes" for 1 and 0/"no" for 0.
For example (the new recognized values are "yes" and "no"):
$ lvs -o name,device_open fedora vg/lvol1 vg/lvol2
LV DevOpen
root open
swap open
lvol1 open
lvol2
$ lvs -o name,device_open fedora vg/lvol1 vg/lvol2 -S 'device_open=open'
LV DevOpen
root open
swap open
lvol1 open
$ lvs -o name,device_open fedora vg/lvol1 vg/lvol2 -S 'device_open=1'
LV DevOpen
root open
swap open
lvol1 open
$ lvs -o name,device_open fedora vg/lvol1 vg/lvol2 -S 'device_open=yes'
LV DevOpen
root open
swap open
lvol1 open
$ lvs -o name,device_open fedora vg/lvol1 vg/lvol2 -S 'device_open=0'
LV DevOpen
lvol2
$ lvs -o name,device_open fedora vg/lvol1 vg/lvol2 -S 'device_open=no'
LV DevOpen
lvol2
So all attribute reporting functions are all in one section of code
for quick orientation (all these functions are defined in the order
of their attribute character displayed in pv/vg/lv_attr field).
lv_active_{locally,remotely,exclusively} display the original
"lv_active" field in a more separate way so that we can create
selection criteria in a binary-based form (yes/no).
The macros for reserved value definition makes the process a bit easier,
but there's still a place for improvement and make this even more
transparent. We can optimize and provide better automatism here later on.
Also respect --binary arg and/or report/binary_values_as_numeric
when displaying unknown values. If textual form is used, use "unknown",
if numeric value is used, use "-1" (which we already use to denote
unknown numeric values in other reports like lv_kernel_major and
lv_kernel_minor).
All binary attr fields have synonyms so selection criteria can use
either 0/1 or words to match against the field value (base type
for these binary fields is numeric one - DM_REPORT_FIELD_TYPE_NUMBER
so words are registered as reserved values):
pv_allocatable - "allocatable"
pv_exported - "exported"
pv_missing - "missing"
vg_extendable - "extendable"
vg_exported - "exported"
vg_partial - "partial"
vg_clustered - "clustered"
lv_initial_image_sync - "initial image sync", "sync"
lv_image_synced_names - "image synced", "synced"
lv_merging_names - "merging"
lv_converting_names - "converting"
lv_allocation_locked - "allocation locked", "locked"
lv_fixed_minor - "fixed minor", "fixed"
lv_merge_failed - "merge failed", "failed"
For example, these three are all equivalent:
$ lvs -o name,fixed_minor -S 'fixed_minor=fixed'
LV FixMin
lvol8 fixed minor
$ lvs -o name,fixed_minor -S 'fixed_minor="fixed minor"'
LV FixMin
lvol8 fixed minor
$ lvs -o name,fixed_minor -S 'fixed_minor=1'
LV FixMin
lvol8 fixed minor
The same with binary output - it has no effect on this functionality:
$ lvs -o name,fixed_minor --binary -S 'fixed_minor=fixed'
LV FixMin
lvol8 1
$ lvs -o name,fixed_minor --binary -S 'fixed_minor="fixed
minor"'
LV FixMin
lvol8 1
[1] f20/~ # lvs -o name,fixed_minor --binary -S 'fixed_minor=1'
LV FixMin
lvol8 1
The --binary option, if used, causes all the binary values reported
in reporting commands to be displayed as "0" or "1" instead of descriptive
literal values (value "unknown" is still used for values that could not be
determined).
Also, add report/binary_values_as_numeric lvm.conf option with the same
functionality as the --binary option (the --binary option prevails
if both --binary cmd option and report/binary_values_as_numeric lvm.conf
option is used at the same time). The report/binary_values_as_numeric is
also profilable.
This makes it easier to use and check lvm reporting command output in scripts.
Physical Volume Fields:
pv_allocatable - Whether this device can be used for allocation.
pv_exported - Whether this device is exported.
pv_missing - Whether this device is missing in system.
Volume Group Fields:
vg_permissions - VG permissions.
vg_extendable - Whether VG is extendable.
vg_exported - Whether VG is exported.
vg_partial - Whether VG is partial.
vg_allocation_policy - VG allocation policy.
vg_clustered - Whether VG is clustered.
Logical Volume Fields:
lv_volume_type - LV volume type.
lv_initial_image_sync - Whether mirror/RAID images underwent initial resynchronization.
lv_image_synced - Whether mirror/RAID image is synchronized.
lv_merging - Whether snapshot LV is being merged to origin.
lv_converting - Whether LV is being converted.
lv_allocation_policy - LV allocation policy.
lv_allocation_locked - Whether LV is locked against allocation changes.
lv_fixed_minor - Whether LV has fixed minor number assigned.
lv_merge_failed - Whether snapshot merge failed.
lv_snapshot_invalid - Whether snapshot LV is invalid.
lv_target_type - Kernel target type the LV is related to.
lv_health_status - LV health status.
lv_skip_activation - Whether LV is skipped on activation.
Logical Volume Info Fields
lv_permissions - LV permissions.
lv_suspended - Whether LV is suspended.
lv_live_table - Whether LV has live table present.
lv_inactive_table - Whether LV has inactive table present.
lv_device_open - Whether LV device is open.
LVSINFO is exactly the same as existing LVS report type,
but it has the "struct lvinfo" populated in addition for
use - this is useful for fields that display the status
of the LV device itself (e.g. suspended state, tables
present/missing...).
Currently, such properties are reported within the "lv_attr"
field so separation is unnecessary - the "lvinfo" call
to populate the "struct lvinfo" is directly a part of the
field reporting function - _lvstatus_disp/lv_attr_dup.
With upcoming patches, we'd like the lv_attr field bits
to be separated into their own fields. To avoid calling
"lvinfo" fn as many times as there are fields requiring
the "lv_info" structure to be populated while reporting
one row related to one LV, we're separating former LVS
into LVS and LVSINFO report type. With this, there's
just one "lvinfo" call for one report row and LV reporting
fields will take the info needed from this struct then,
hence reusing it and not calling "lvinfo" fn on their own.
The get_lv_type_name helps with translating volume type
to human readable form (can be used in reports or
various messages if needed).
The lv_is_linear and lv_is_striped complete the set of
lv_is_* functions that identify exact volume types.
Mention parent LV as well as the LV triggering the warning.
Still leaves some confusing cases but its not worth fixing them
at the moment.
(Thin pool inactive but a thin volume active => deactivate thin vol.
Inactive mirror/raid with pvmove in progress => complete pvmove and
active&deactivate mirror/raid.
If new VG already exists it requires some LVs to be inactive
unnecessarily.)
