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29 Commits

Author SHA1 Message Date
David Teigland
96b777167c cov: clean up pvid and vgid usage
pvid and vgid are sometimes a null-terminated string, and
other times a 'struct id', and the two types were often
cast between each other.  When a struct id was cast to a char
pointer, the resulting string would not necessarily be null
terminated.  Casting a null-terminated string id to a
struct id is fine, but is still avoided when possible.

A struct id is:  int8_t uuid[ID_LEN]
A string id is:  char pvid[ID_LEN + 1]

A convention is introduced to help distinguish them:

- variables and struct fields named "pvid" or "vgid"
  should be null-terminated strings.

- variables and struct fields named "pv_id" or "vg_id"
  should be struct id's.

- examples:
  char pvid[ID_LEN + 1];
  char vgid[ID_LEN + 1];
  struct id pv_id;
  struct id vg_id;

Function names also attempt to follow this convention.

Avoid casting between the two types as much as possible,
with limited exceptions when known to be safe and clearly
commented.

Avoid using variations of strcpy and strcmp, and instead
use memcpy/memcmp with ID_LEN (with similar limited
exceptions possible.)
2021-08-16 11:31:15 -05:00
David Teigland
83fe6e720f device usage based on devices file
The LVM devices file lists devices that lvm can use.  The default
file is /etc/lvm/devices/system.devices, and the lvmdevices(8)
command is used to add or remove device entries.  If the file
does not exist, or if lvm.conf includes use_devicesfile=0, then
lvm will not use a devices file.  When the devices file is in use,
the regex filter is not used, and the filter settings in lvm.conf
or on the command line are ignored.

LVM records devices in the devices file using hardware-specific
IDs, such as the WWID, and attempts to use subsystem-specific
IDs for virtual device types.  These device IDs are also written
in the VG metadata.  When no hardware or virtual ID is available,
lvm falls back using the unstable device name as the device ID.
When devnames are used, lvm performs extra scanning to find
devices if their devname changes, e.g. after reboot.

When proper device IDs are used, an lvm command will not look
at devices outside the devices file, but when devnames are used
as a fallback, lvm will scan devices outside the devices file
to locate PVs on renamed devices.  A config setting
search_for_devnames can be used to control the scanning for
renamed devname entries.

Related to the devices file, the new command option
--devices <devnames> allows a list of devices to be specified for
the command to use, overriding the devices file.  The listed
devices act as a sort of devices file in terms of limiting which
devices lvm will see and use.  Devices that are not listed will
appear to be missing to the lvm command.

Multiple devices files can be kept in /etc/lvm/devices, which
allows lvm to be used with different sets of devices, e.g.
system devices do not need to be exposed to a specific application,
and the application can use lvm on its own set of devices that are
not exposed to the system.  The option --devicesfile <filename> is
used to select the devices file to use with the command.  Without
the option set, the default system devices file is used.

Setting --devicesfile "" causes lvm to not use a devices file.

An existing, empty devices file means lvm will see no devices.

The new command vgimportdevices adds PVs from a VG to the devices
file and updates the VG metadata to include the device IDs.
vgimportdevices -a will import all VGs into the system devices file.

LVM commands run by dmeventd not use a devices file by default,
and will look at all devices on the system.  A devices file can
be created for dmeventd (/etc/lvm/devices/dmeventd.devices)  If
this file exists, lvm commands run by dmeventd will use it.

Internal implementaion:

- device_ids_read - read the devices file
  . add struct dev_use (du) to cmd->use_devices for each devices file entry
- dev_cache_scan - get /dev entries
  . add struct device (dev) to dev_cache for each device on the system
- device_ids_match - match devices file entries to /dev entries
  . match each du on cmd->use_devices to a dev in dev_cache, using device ID
  . on match, set du->dev, dev->id, dev->flags MATCHED_USE_ID
- label_scan - read lvm headers and metadata from devices
  . filters are applied, those that do not need data from the device
  . filter-deviceid skips devs without MATCHED_USE_ID, i.e.
    skips /dev entries that are not listed in the devices file
  . read lvm label from dev
  . filters are applied, those that use data from the device
  . read lvm metadata from dev
  . add info/vginfo structs for PVs/VGs (info is "lvmcache")
- device_ids_find_renamed_devs - handle devices with unstable devname ID
  where devname changed
  . this step only needed when devs do not have proper device IDs,
    and their dev names change, e.g. after reboot sdb becomes sdc.
  . detect incorrect match because PVID in the devices file entry
    does not match the PVID found when the device was read above
  . undo incorrect match between du and dev above
  . search system devices for new location of PVID
  . update devices file with new devnames for PVIDs on renamed devices
  . label_scan the renamed devs
- continue with command processing
2021-02-23 16:43:32 -06:00
David Teigland
3a8e41a67b metadata: import device name hint from metadata
Start by using it in a comment for a missing PV.
2019-09-30 11:38:10 -05:00
David Teigland
ba7ff96faf improve reading and repairing vg metadata
The fact that vg repair is implemented as a part of vg read
has led to a messy and complicated implementation of vg_read,
and limited and uncontrolled repair capability.  This splits
read and repair apart.

Summary
-------

- take all kinds of various repairs out of vg_read
- vg_read no longer writes anything
- vg_read now simply reads and returns vg metadata
- vg_read ignores bad or old copies of metadata
- vg_read proceeds with a single good copy of metadata
- improve error checks and handling when reading
- keep track of bad (corrupt) copies of metadata in lvmcache
- keep track of old (seqno) copies of metadata in lvmcache
- keep track of outdated PVs in lvmcache
- vg_write will do basic repairs
- new command vgck --updatemetdata will do all repairs

Details
-------

- In scan, do not delete dev from lvmcache if reading/processing fails;
  the dev is still present, and removing it makes it look like the dev
  is not there.  Records are now kept about the problems with each PV
  so they be fixed/repaired in the appropriate places.

- In scan, record a bad mda on failure, and delete the mda from
  mda in use list so it will not be used by vg_read or vg_write,
  only by repair.

- In scan, succeed if any good mda on a device is found, instead of
  failing if any is bad.  The bad/old copies of metadata should not
  interfere with normal usage while good copies can be used.

- In scan, add a record of old mdas in lvmcache for later, do not repair
  them while reading, and do not let them prevent us from finding and
  using a good copy of metadata from elsewhere.  One result is that
  "inconsistent metadata" is no longer a read error, but instead a
  record in lvmcache that can be addressed separate from the read.

- Treat a dev with no good mdas like a dev with no mdas, which is an
  existing case we already handle.

- Don't use a fake vg "handle" for returning an error from vg_read,
  or the vg_read_error function for getting that error number;
  just return null if the vg cannot be read or used, and an error_flags
  arg with flags set for the specific kind of error (which can be used
  later for determining the kind of repair.)

- Saving an original copy of the vg metadata, for purposes of reverting
  a write, is now done explicitly in vg_read instead of being hidden in
  the vg_make_handle function.

- When a vg is not accessible due to "access restrictions" but is
  otherwise fine, return the vg through the new error_vg arg so that
  process_each_pv can skip the PVs in the VG while processing.
  (This is a temporary accomodation for the way process_each_pv
  tracks which devs have been looked at, and can be dropped later
  when process_each_pv implementation dev tracking is changed.)

- vg_read does not try to fix or recover a vg, but now just reads the
  metadata, checks access restrictions and returns it.
  (Checking access restrictions might be better done outside of vg_read,
   but this is a later improvement.)

- _vg_read now simply makes one attempt to read metadata from
  each mda, and uses the most recent copy to return to the caller
  in the form of a 'vg' struct.
  (bad mdas were excluded during the scan and are not retried)
  (old mdas were not excluded during scan and are retried here)

- vg_read uses _vg_read to get the latest copy of metadata from mdas,
  and then makes various checks against it to produce warnings,
  and to check if VG access is allowed (access restrictions include:
  writable, foreign, shared, clustered, missing pvs).

- Things that were previously silently/automatically written by vg_read
  that are now done by vg_write, based on the records made in lvmcache
  during the scan and read:
  . clearing the missing flag
  . updating old copies of metadata
  . clearing outdated pvs
  . updating pv header flags

- Bad/corrupt metadata are now repaired; they were not before.

Test changes
------------

- A read command no longer writes the VG to repair it, so add a write
  command to do a repair.
  (inconsistent-metadata, unlost-pv)

- When a missing PV is removed from a VG, and then the device is
  enabled again, vgck --updatemetadata is needed to clear the
  outdated PV before it can be used again, where it wasn't before.
  (lvconvert-repair-policy, lvconvert-repair-raid, lvconvert-repair,
   mirror-vgreduce-removemissing, pv-ext-flags, unlost-pv)

Reading bad/old metadata
------------------------

- "bad metadata": the mda_header or metadata text has invalid fields
  or can't be parsed by lvm.  This is a form of corruption that would
  not be caused by known failure scenarios.  A checksum error is
  typically included among the errors reported.

- "old metadata": a valid copy of the metadata that has a smaller seqno
  than other copies of the metadata.  This can happen if the device
  failed, or io failed, or lvm failed while commiting new metadata
  to all the metadata areas.  Old metadata on a PV that has been
  removed from the VG is the "outdated" case below.

When a VG has some PVs with bad/old metadata, lvm can simply ignore
the bad/old copies, and use a good copy.  This is why there are
multiple copies of the metadata -- so it's available even when some
of the copies cannot be used.  The bad/old copies do not have to be
repaired before the VG can be used (the repair can happen later.)

A PV with no good copies of the metadata simply falls back to being
treated like a PV with no mdas; a common and harmless configuration.

When bad/old metadata exists, lvm warns the user about it, and
suggests repairing it using a new metadata repair command.
Bad metadata in particular is something that users will want to
investigate and repair themselves, since it should not happen and
may indicate some other problem that needs to be fixed.

PVs with bad/old metadata are not the same as missing devices.
Missing devices will block various kinds of VG modification or
activation, but bad/old metadata will not.

Previously, lvm would attempt to repair bad/old metadata whenever
it was read.  This was unnecessary since lvm does not require every
copy of the metadata to be used.  It would also hide potential
problems that should be investigated by the user.  It was also
dangerous in cases where the VG was on shared storage.  The user
is now allowed to investigate potential problems and decide how
and when to repair them.

Repairing bad/old metadata
--------------------------

When label scan sees bad metadata in an mda, that mda is removed
from the lvmcache info->mdas list.  This means that vg_read will
skip it, and not attempt to read/process it again.  If it was
the only in-use mda on a PV, that PV is treated like a PV with
no mdas.  It also means that vg_write will also skip the bad mda,
and not attempt to write new metadata to it.  The only way to
repair bad metadata is with the metadata repair command.

When label scan sees old metadata in an mda, that mda is kept
in the lvmcache info->mdas list.  This means that vg_read will
read/process it again, and likely see the same mismatch with
the other copies of the metadata.  Like the label_scan, the
vg_read will simply ignore the old copy of the metadata and
use the latest copy.  If the command is modifying the vg
(e.g. lvcreate), then vg_write, which writes new metadata to
every mda on info->mdas, will write the new metadata to the
mda that had the old version.  If successful, this will resolve
the old metadata problem (without needing to run a metadata
repair command.)

Outdated PVs
------------

An outdated PV is a PV that has an old copy of VG metadata
that shows it is a member of the VG, but the latest copy of
the VG metadata does not include this PV.  This happens if
the PV is disconnected, vgreduce --removemissing is run to
remove the PV from the VG, then the PV is reconnected.
In this case, the outdated PV needs have its outdated metadata
removed and the PV used flag needs to be cleared.  This repair
will be done by the subsequent repair command.  It is also done
if vgremove is run on the VG.

MISSING PVs
-----------

When a device is missing, most commands will refuse to modify
the VG.  This is the simple case.  More complicated is when
a command is allowed to modify the VG while it is missing a
device.

When a VG is written while a device is missing for one of it's PVs,
the VG metadata is written to disk with the MISSING flag on the PV
with the missing device.  When the VG is next used, it is treated
as if the PV with the MISSING flag still has a missing device, even
if that device has reappeared.

If all LVs that were using a PV with the MISSING flag are removed
or repaired so that the MISSING PV is no longer used, then the
next time the VG metadata is written, the MISSING flag will be
dropped.

Alternative methods of clearing the MISSING flag are:

vgreduce --removemissing will remove PVs with missing devices,
or PVs with the MISSING flag where the device has reappeared.

vgextend --restoremissing will clear the MISSING flag on PVs
where the device has reappeared, allowing the VG to be used
normally.  This must be done with caution since the reappeared
device may have old data that is inconsistent with data on other PVs.

Bad mda repair
--------------

The new command:
vgck --updatemetadata VG

first uses vg_write to repair old metadata, and other basic
issues mentioned above (old metadata, outdated PVs, pv_header
flags, MISSING_PV flags).  It will also go further and repair
bad metadata:

. text metadata that has a bad checksum
. text metadata that is not parsable
. corrupt mda_header checksum and version fields

(To keep a clean diff, #if 0 is added around functions that
are replaced by new code.  These commented functions are
removed by the following commit.)
2019-06-07 15:54:04 -05:00
David Teigland
904e1e3d26 Place the first PE at 1 MiB for all defaults
. When using default settings, this commit should change
  nothing.  The first PE continues to be placed at 1 MiB
  resulting in a metadata area size of 1020 KiB (for
  4K page sizes; slightly smaller for larger page sizes.)

. When default_data_alignment is disabled in lvm.conf,
  align pe_start at 1 MiB, based on a default metadata area
  size that adapts to the page size.  Previously, disabling
  this option would result in mda_size that was too small
  for common use, and produced a 64 KiB aligned pe_start.

. Customized pe_start and mda_size values continue to be
  set as before in lvm.conf and command line.

. Remove the configure option for setting default_data_alignment
  at build time.

. Improve alignment related option descriptions.

. Add section about alignment to pvcreate man page.

Previously, DEFAULT_PVMETADATASIZE was 255 sectors.
However, the fact that the config setting named
"default_data_alignment" has a default value of 1 (MiB)
meant that DEFAULT_PVMETADATASIZE was having no effect.

The metadata area size is the space between the start of
the metadata area (page size offset from the start of the
device) and the first PE (1 MiB by default due to
default_data_alignment 1.)  The result is a 1020 KiB metadata
area on machines with 4KiB page size (1024 KiB - 4 KiB),
and smaller on machines with larger page size.

If default_data_alignment was set to 0 (disabled), then
DEFAULT_PVMETADATASIZE 255 would take effect, and produce a
metadata area that was 188 KiB and pe_start of 192 KiB.
This was too small for common use.

This is fixed by making the default metadata area size a
computed value that matches the value produced by
default_data_alignment.
2018-11-26 16:36:50 -06:00
Joe Thornber
286c1ba336 device_mapper: rename libdevmapper.h -> all.h
I'm paranoid a file will include the global one in /usr/include
by accident.
2018-06-08 12:31:45 +01:00
Joe Thornber
ccc35e2647 device-mapper: Fork libdm internally.
The device-mapper directory now holds a copy of libdm source.  At
the moment this code is identical to libdm.  Over time code will
migrate out to appropriate places (see doc/refactoring.txt).

The libdm directory still exists, and contains the source for the
libdevmapper shared library, which we will continue to ship (though
not neccessarily update).

All code using libdm should now use the version in device-mapper.
2018-05-16 13:00:50 +01:00
Joe Thornber
7f97c7ea9a build: Don't generate symlinks in include/ dir
As we start refactoring the code to break dependencies (see doc/refactoring.txt),
I want us to use full paths in the includes (eg, #include "base/data-struct/list.h").
This makes it more obvious when we're breaking abstraction boundaries, eg, including a file in
metadata/ from base/
2018-05-14 10:30:20 +01:00
Zdenek Kabelac
876c4a1b3b tidy: declaration names match implementation
Put in sync some naming used for function declaration and
actual in-code implementation.
2017-07-20 19:16:41 +02:00
Peter Rajnoha
4cbaaa5c98 pv: add is_used_pv fn 2016-02-15 12:44:46 +01:00
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
Peter Rajnoha
f01b7afa19 pv: add 'mem' arg for pv_uuid_dup and pv_name_dup 2015-09-21 14:21:42 +02:00
Zdenek Kabelac
30a81e5989 cleanup: self compilable headers 2013-12-12 13:28:19 +01:00
Petr Rockai
dc3a071145 metadata: Add a pv_label accessor (go from a PV to its label). 2013-11-17 21:41:27 +01:00
Petr Rockai
a2034e9a99 metadata: Add lvmcache_info_mda_free as a companion to pv_mda_free. 2013-11-17 21:41:27 +01:00
Peter Rajnoha
732859d21f refactor: rename embedding area -> bootloader area 2013-05-28 12:37:22 +02:00
Peter Rajnoha
9dbe25709e pv_header_extension: add support for reading PV header extension (flags & Embedding Area)
New tools with PV header extension support will read the extension
if it exists and it's not an error if it does not exist (so old PVs
will still work seamlessly with new tools).

Old tools without PV header extension support will just ignore any
extension.

As for the Embedding Area location information (its start and size),
there are actually two places where this is stored:
  - PV header extension
  - VG metadata

The VG metadata contains a copy of what's written in the PV header
extension about the Embedding Area location (NULL value is not copied):

    physical_volumes {
        pv0 {
          id = "AkSSRf-difg-fCCZ-NjAN-qP49-1zzg-S0Fd4T"
          device = "/dev/sda"     # Hint only

          status = ["ALLOCATABLE"]
          flags = []
          dev_size = 262144       # 128 Megabytes
          pe_start = 67584
          pe_count = 23   # 92 Megabytes
          ea_start = 2048
          ea_size = 65536 # 32 Megabytes
        }
    }

The new metadata fields are "ea_start" and "ea_size".
This is mostly useful when restoring the PV by using existing
metadata backups (e.g. pvcreate --restorefile ...).

New tools does not require these two fields to exist in VG metadata,
they're not compulsory. Therefore, reading old VG metadata which doesn't
contain any Embedding Area information will not end up with any kind
of error but only a debug message that the ea_start and ea_size values
were not found.

Old tools just ignore these extra fields in VG metadata.
2013-02-26 11:27:23 +01:00
Peter Rajnoha
60c5d4c42f pv_header_extension: add supporting infrastructure for PV header extension (flags & Embedding Area)
PV header extension comes just beyond the existing PV header base:

PV header base (existing):
 - uuid
 - device size
 - null-terminated list of Data Areas
 - null-terminater list of MetaData Areas

PV header extension:
 - extension version
 - flags
 - null-terminated list of Embedding Areas

This patch also adds "eas" (Embedding Areas) list to lvmcache (lvmcache_info)
and it also adds support for common operations on the list (just like for
already existing "das" - Data Areas list):
 - lvmcache_add_ea
 - lvmcache_update_eas
 - lvmcache_foreach_ea
 - lvmcache_del_eas

Also, add ea_start and ea_size to struct physical_volume for processing
PV Embedding Area location throughout the code (currently only one
Embedding Area is supported, though the definition on disk allows for
more if needed in the future...).

Also, define FMT_EAS format flag to mark that the format actually
supports Embedding Areas (currently format-text only).
2013-02-26 11:25:16 +01:00
Alasdair Kergon
3cac20f850 Defer writing PV labels to vg_write.
Store label_sector only in struct physical_volume.
2011-06-01 19:29:31 +00:00
Peter Rajnoha
51aed1992f Add old_uuid field to struct physical_volume so we can still reference a PV
with its old UUID when we're changig it (the cache as well as metadata area
index has the old uuid that we need to use to access the information!)
2011-02-21 12:31:28 +00:00
Peter Rajnoha
56280d0d3a Initialise a new PV-based format instance for a PV that is being created. 2011-02-21 12:12:32 +00:00
Alasdair Kergon
eacd3a0916 fix header #defines 2010-10-25 12:01:59 +00:00
Dave Wysochanski
0ca1492ca5 Fix copyright dates on new files lib/metadata/{lv|vg|pv}.[ch]. 2010-09-30 20:47:18 +00:00
Dave Wysochanski
b184f791d4 Add pv_name_dup() and pv_fmt_dup() helper functions. 2010-09-30 14:09:22 +00:00
Dave Wysochanski
1cd292af8f Add pv_mda_size, pv_mda_free, and pv_used functions, call from 'disp' functions. 2010-09-30 14:09:10 +00:00
Dave Wysochanski
c508945ca9 Add pv_tags_dup, vg_tags_dup, lv_tags_dup functions that call tags_format_and_copy. 2010-09-30 14:08:19 +00:00
Dave Wysochanski
254d672dcc Add pv_uuid_dup, vg_uuid_dup, and lv_uuid_dup, and call id_format_and_copy.
Add supporting functions for pv_uuid, vg_uuid, and lv_uuid.
Call new function id_format_and_copy.  Use 'const' where appropriate.
Add "_dup" suffix to indicate memory is being allocated.
Call {pv|vg|lv}_uuid_dup from lvm2app uuid functions.
2010-09-30 14:07:47 +00:00
Dave Wysochanski
14663348d0 Add {pv|vg|lv}_attr_dup() functions and refactor 'disp' functions.
Move the creating of the 'attr' strings into a common function so
they can be called from the 'disp' functions as well as the new
'get' property functions.
Add "_dup" suffix to indicate memory is allocated.
Refactor pvstatus_disp to take pv argument and call pv_attr_dup().
2010-09-30 13:52:55 +00:00
Dave Wysochanski
b88b638d6e Add lib/metadata/pv.[ch] new files.
Apparently git cvsexportcommit does not properly add new files
from a git commit.
2010-09-30 13:15:42 +00:00