1
0
mirror of git://sourceware.org/git/lvm2.git synced 2024-12-22 17:35:59 +03:00
Commit Graph

26 Commits

Author SHA1 Message Date
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
e0828e885b cleanup: drop unneded check for mem
Revert missed to drop this extra check.
2015-11-13 11:17:06 +01:00
Peter Rajnoha
1e729c47d2 str_list: do not support str lists without mempools
Do not support str lists without mempools. Instead, create temporary
mempool where necessary (currently only _get_report_options fn).
2015-11-11 16:09:52 +01:00
Zdenek Kabelac
f6d2528f64 cleanup: drop unneeded header file 2015-11-09 10:22:51 +01:00
Peter Rajnoha
77605457e7 str_list: add str_list_destroy function
The str_list_destroy function may be called to cleanup memory when
the list is not used anymore and the list itself was not allocated
from the memory pool.
2015-10-30 15:47:56 +01:00
Peter Rajnoha
0d5b1294f0 str_list: add str_list_to_str and str_to_str_list functions
The str_list_to_str and str_to_str_list are helper functions to
convert string list to a single string and vice versa.
2015-10-30 15:47:56 +01:00
Peter Rajnoha
097d14e64e str_list: also allow memory allocation without memory pool 2015-10-30 15:47:55 +01:00
Alasdair G Kergon
9506760c7e datastruct: Add str_list_add_list. 2015-03-26 18:30:37 +00:00
Peter Rajnoha
f4e56b2829 cleanup: consolidate lv_layout and lv_role reporting
This patch makes the keyword combinations found in "lv_layout" and
"lv_role" much more understandable - there were some ambiguities
for some of the combinations which lead to confusion before.

Now, the scheme used is:

LAYOUTS ("how the LV is laid out"):
===================================
[linear] (all segments have number of stripes = 1)

[striped] (all segments have number of stripes > 1)

[linear,striped] (mixed linear and striped)

raid (raid layout always reported together with raid level, raid layout == image + metadata LVs underneath that make up raid LV)
  [raid,raid1]
  [raid,raid10]
  [raid,raid4]
  [raid,raid5] (exact sublayout not specified during creation - default one used - raid5_ls)
    [raid,raid5,raid5_ls]
    [raid,raid5,raid6_rs]
    [raid,raid5,raid5_la]
    [raid,raid5,raid5_ra]
  [raid6,raid] (exact sublayout not specified during creation - default one used - raid6_zr)
    [raid,raid6,raid6_zr]
    [raid,raid6,raid6_nc]
    [raid,raid6,raid6_ns]

[mirror] (mirror layout == log + image LVs underneath that make up mirror LV)

thin (thin layout always reported together with sublayout)
  [thin,sparse] (thin layout == allocated out of thin pool)
  [thin,pool] (thin pool layout == data + metadata volumes underneath that make up thin pool LV, not supposed to be used for direct use!!!)

[cache] (cache layout == allocated out of cache pool in conjunction with cache origin)
  [cache,pool] (cache pool layout == data + metadata volumes underneath that make up cache pool LV, not supposed to be used for direct use!!!)

[virtual] (virtual layout == not hitting disk underneath, currently this layout denotes only 'zero' device used for origin,thickorigin role)

[unknown] (either error state or missing recognition for such layout)

ROLES ("what's the purpose or use of the LV - what is its role"):
=================================================================
- each LV has either of these two roles at least:  [public] (public LV that users may use freely to write their data to)

  [public] (public LV that users may use freely to write their data to)
  [private] (private LV that LVM maintains; not supposed to be directly used by user to write his data to)

- and then some special-purpose roles in addition to that:

  [origin,thickorigin] (origin for thick-style snapshot; "thick" as opposed to "thin")
  [origin,multithickorigin] (there are more than 2 thick-style snapshots for this origin)
  [origin,thinorigin] (origin for thin snapshot)
  [origin,multithinorigin] (there are more than 2 thin snapshots for this origin)
  [origin,extorigin] (external origin for thin snapshot)
  [origin,multiextoriginl (there are more than 2 thin snapshots using this external origin)
  [origin,cacheorigin] (cache origin)

  [snapshot,thicksnapshot] (thick-style snapshot; "thick" as opposed to "thin")
  [snapshot,thinsnapshot] (thin-style snapshot)

  [raid,metadata] (raid metadata LV)
  [raid,image] (raid image LV)

  [mirror,image] (mirror image LV)
  [mirror,log] (mirror log LV)
  [pvmove] (pvmove LV)

  [thin,pool,data] (thin pool data LV)
  [thin,pool,metadata] (thin pool metadata LV)

  [cache,pool,data] (cache pool data LV)
  [cache,pool,metadata] (cache pool metadata LV)

  [pool,spare] (pool spare LV - common role of LV that makes it used for both thin and cache repairs)
2014-08-25 16:14:40 +02:00
Peter Rajnoha
e8bbcda2a3 Add lv_layout_and_type fn, lv_layout and lv_type reporting fields.
The lv_layout and lv_type fields together help with LV identification.
We can do basic identification using the lv_attr field which provides
 very condensed view. In contrast to that, the new lv_layout and lv_type
fields provide more detialed information on exact layout and type used
for LVs.

For top-level LVs which are pure types not combined with any
other LV types, the lv_layout value is equal to lv_type value.

For non-top-level LVs which may be combined with other types,
the lv_layout describes the underlying layout used, while the
lv_type describes the use/type/usage of the LV.

These two new fields are both string lists so selection (-S/--select)
criteria can be defined using the list operators easily:
  [] for strict matching
  {} for subset matching.

For example, let's consider this:

$ lvs -a -o name,vg_name,lv_attr,layout,type
  LV                    VG     Attr       Layout       Type
  [lvol1_pmspare]       vg     ewi------- linear       metadata,pool,spare
  pool                  vg     twi-a-tz-- pool,thin    pool,thin
  [pool_tdata]          vg     rwi-aor--- level10,raid data,pool,thin
  [pool_tdata_rimage_0] vg     iwi-aor--- linear       image,raid
  [pool_tdata_rimage_1] vg     iwi-aor--- linear       image,raid
  [pool_tdata_rimage_2] vg     iwi-aor--- linear       image,raid
  [pool_tdata_rimage_3] vg     iwi-aor--- linear       image,raid
  [pool_tdata_rmeta_0]  vg     ewi-aor--- linear       metadata,raid
  [pool_tdata_rmeta_1]  vg     ewi-aor--- linear       metadata,raid
  [pool_tdata_rmeta_2]  vg     ewi-aor--- linear       metadata,raid
  [pool_tdata_rmeta_3]  vg     ewi-aor--- linear       metadata,raid
  [pool_tmeta]          vg     ewi-aor--- level1,raid  metadata,pool,thin
  [pool_tmeta_rimage_0] vg     iwi-aor--- linear       image,raid
  [pool_tmeta_rimage_1] vg     iwi-aor--- linear       image,raid
  [pool_tmeta_rmeta_0]  vg     ewi-aor--- linear       metadata,raid
  [pool_tmeta_rmeta_1]  vg     ewi-aor--- linear       metadata,raid
  thin_snap1            vg     Vwi---tz-k thin         snapshot,thin
  thin_snap2            vg     Vwi---tz-k thin         snapshot,thin
  thin_vol1             vg     Vwi-a-tz-- thin         thin
  thin_vol2             vg     Vwi-a-tz-- thin         multiple,origin,thin

Which is a situation with thin pool, thin volumes and thin snapshots.
We can see internal 'pool_tdata' volume that makes up thin pool has
actually a level10 raid layout and the internal 'pool_tmeta' has
level1 raid layout. Also, we can see that 'thin_snap1' and 'thin_snap2'
are both thin snapshots while 'thin_vol1' is thin origin (having
multiple snapshots).

Such reporting scheme provides much better base for selection criteria
in addition to providing more detailed information, for example:

$ lvs -a -o name,vg_name,lv_attr,layout,type -S 'type=metadata'
LV                   VG   Attr       Layout      Type
[lvol1_pmspare]      vg   ewi------- linear      metadata,pool,spare
[pool_tdata_rmeta_0] vg   ewi-aor--- linear      metadata,raid
[pool_tdata_rmeta_1] vg   ewi-aor--- linear      metadata,raid
[pool_tdata_rmeta_2] vg   ewi-aor--- linear      metadata,raid
[pool_tdata_rmeta_3] vg   ewi-aor--- linear      metadata,raid
[pool_tmeta]         vg   ewi-aor--- level1,raid metadata,pool,thin
[pool_tmeta_rmeta_0] vg   ewi-aor--- linear      metadata,raid
[pool_tmeta_rmeta_1] vg   ewi-aor--- linear      metadata,raid

(selected all LVs which are related to metadata of any type)

lvs -a -o name,vg_name,lv_attr,layout,type -S 'type={metadata,thin}'
LV           VG   Attr       Layout      Type
[pool_tmeta] vg   ewi-aor--- level1,raid metadata,pool,thin

(selected all LVs which hold metadata related to thin)

lvs -a -o name,vg_name,lv_attr,layout,type -S 'type={thin,snapshot}'
LV         VG   Attr       Layout     Type
thin_snap1 vg   Vwi---tz-k thin       snapshot,thin
thin_snap2 vg   Vwi---tz-k thin       snapshot,thin

(selected all LVs which are thin snapshots)

lvs -a -o name,vg_name,lv_attr,layout,type -S 'layout=raid'
LV           VG   Attr       Layout       Type
[pool_tdata] vg   rwi-aor--- level10,raid data,pool,thin
[pool_tmeta] vg   ewi-aor--- level1,raid  metadata,pool,thin

(selected all LVs with raid layout, any raid layout)

lvs -a -o name,vg_name,lv_attr,layout,type -S 'layout={raid,level1}'
  LV           VG   Attr       Layout      Type
  [pool_tmeta] vg   ewi-aor--- level1,raid metadata,pool,thin

(selected all LVs with raid level1 layout exactly)

And so on...
2014-08-15 14:50:38 +02:00
Peter Rajnoha
5abdb52fdc report: select: refactor: move str_list to libdm
The list of strings is used quite frequently and we'd like to reuse
this simple structure for report selection support too. Make it part
of libdevmapper for general reuse throughout the code.

This also simplifies the LVM code a bit since we don't need to
include and manage lvm-types.h anymore (the string list was the
only structure defined there).
2014-06-17 16:27:20 +02:00
Zdenek Kabelac
462835faa0 Switch to return void
List delete cannot fail, so there is no reason to test for error.
2012-02-08 12:52:58 +00:00
Zdenek Kabelac
64dff85ce4 Preserve const for char pointer
Keep char pointers 'const'  (introduced with cling commit).
2010-11-11 12:32:33 +00:00
Alasdair Kergon
eb82bd0525 Extend cling allocation policy to recognise PV tags (cling_by_tags).
Add allocation/cling_tag_list to lvm.conf.
2010-11-09 12:34:40 +00:00
Dave Wysochanski
0589e19fd7 Update error return and comments for lvm_list_vg_names/uuids.
The two liblvm functions that return a list of vgnames and vguuids use
cmd->mem to allocate the list.  Make it clear to the caller that this
memory will be freed when the LVM handle is freed.

Clean up and clarify the return value of the functions.  In the
case of a memory allocation error, add a couple log_errnos to the internal
code, and make it clear that memory allocation returns a NULL pointer.
If there are no VGs in the system, the list returned is an empty list.

Make a note of the fact that currently we return hidden VG names, how
these can be detected (always start with "#"), and that they should
not be used.


Author: Dave Wysochanski <dwysocha@redhat.com>
2009-07-27 11:00:17 +00:00
Alasdair Kergon
2c44337bd5 Right, a simple build (without options) is working again. 2008-11-03 22:14:30 +00:00
Alasdair Kergon
c51b9fff19 Use stack return macros throughout. 2008-01-30 13:19:47 +00:00
Alasdair Kergon
9eea0107ba Fix strdup memory leak in str_list_dup(). 2007-09-17 16:02:46 +00:00
Alasdair Kergon
be6845999b Fix inconsistent licence notices: executables are GPLv2; libraries LGPLv2.1. 2007-08-20 20:55:30 +00:00
Jim Meyering
08c9ff434b Add "const" attributes where possible: first cut. 2007-08-07 09:06:05 +00:00
Alasdair Kergon
2262b32057 Use hash, bitset, malloc, pool from libdevmapper. 2005-10-16 23:03:59 +00:00
Alasdair Kergon
6606c3ae81 Update copyright notices. 2004-03-30 19:35:44 +00:00
Alasdair Kergon
5071196631 More str_list fns. 2004-03-08 15:23:01 +00:00
Alasdair Kergon
ac21f47034 more str_list fns 2003-10-15 20:04:29 +00:00
Alasdair Kergon
13057fe53f str_list_del 2003-10-15 20:01:12 +00:00
Alasdair Kergon
aa37899857 Extract some common functions. 2003-09-17 20:35:57 +00:00