https://bugzilla.redhat.com/show_bug.cgi?id=1363586
Commit id '27758859' introduced the "NO_OVERWRITE" flag check for
file system backends; however, the implementation, documentation,
and algorithm was inconsistent. For the "flag" description for the
API the flag was described as "Do not overwrite existing pool";
however, within the storage backend code the flag is described
as "it probes to determine if filesystem already exists on the
target device, renurning an error if exists".
The code itself was implemented using the paradigm to set up the
superblock probe by creating a filter that would cause the code
to only search for the provided format type. If that type wasn't
found, then the algorithm would return success allowing the caller
to format the device. If the format type already existed on the
device, then the code would fail indicating that the a filesystem
of the same type existed on the device.
The result is that if someone had a file system of one type on the
device, it was possible to overwrite it if a different format type
was specified in updated XML effectively trashing whatever was on
the device already.
This patch alters what NO_OVERWRITE does for a file system backend
to be more realistic and consistent with what should be expected when
the caller requests to not overwrite the data on the disk.
Rather than filter results based on the expected format type, the
code will allow success/failure be determined solely on whether the
blkid_do_probe calls finds some known format on the device. This
adjustment also allows removal of the virStoragePoolProbeResult
enum that was under utilized.
If it does find a formatted file system different errors will be
generated indicating a file system of a specific type already exists
or a file system of some other type already exists.
In the original virsh support commit id 'ddcd5674', the description
for '--no-overwrite' within the 'pool-build' command help output
has an ambiguous "of this type" included in the short description.
Compared to the longer description within the "Build a given pool."
section of the virsh.pod file it's more apparent that the meaning
of this flag would cause failure if a probe of the target already
has a filesystem.
So this patch also modifies the short description to just be the
antecedent of the 'overwrite' flag, which matches the API description.
This patch also modifies the grammar in virsh.pod for no-overwrite
as well as reworking the paragraph formats to make it easier to read.
Signed-off-by: John Ferlan <jferlan@redhat.com>
Rename virStorageBackendFileSystemProbe and to virStorageBackendBLKIDFindFS
and move to the more common storage_backend module.
Create a shim virStorageBackendDeviceIsEmpty which will make the call
to the virStorageBackendBLKIDFindFS and check the return value.
Signed-off-by: John Ferlan <jferlan@redhat.com>
The code at the very bottom of the DAC secdriver that calls
chown() should be fine with read-only data. If something needs to
be prepared it should have been done beforehand.
Signed-off-by: Michal Privoznik <mprivozn@redhat.com>
The public virSecret object has a single "usage_id" field
but the virSecretDef object has a different 'char *' field
for each usage type, but the code all assumes every usage
type has a corresponding single string. Get rid of the
pointless union in virSecretDef and just use "usage_id"
everywhere. This doesn't impact public XML format, only
the internal handling.
Signed-off-by: Daniel P. Berrange <berrange@redhat.com>
https://bugzilla.redhat.com/show_bug.cgi?id=1349696
As it turns out using only the 'parent' to achieve the goal of a
consistent vHBA parent has issues with reboots where the scsi_hostX
parent could change to scsi_hostY causing either failure to create
the vHBA or usage of the wrong HBA for our vHBA.
Thus add the ability to search for the "parent" by the parent wwnn/
wwpn values or just a fabric_name if someone only cares to ensure
usage of the same SAN for the vHBA.
Move the check for an already existing vHBA to the top of the function.
No sense in first decoding a provided parent if the next thing we're going
to do is fail if a provided wwnn/wwpn already exists.
Signed-off-by: John Ferlan <jferlan@redhat.com>
https://bugzilla.redhat.com/show_bug.cgi?id=1332019
This function will essentially be a wrapper to virStorageVolInfo in order
to provide a mechanism to have the "physical" size of the volume returned
instead of the "allocation" size. This will provide similar capabilities to
the virDomainBlockInfo which can return both allocation and physical of a
domain storage volume.
NB: Since we're reusing the _virStorageVolInfo and not creating a new
_virStorageVolInfoFlags structure, we'll need to generate the rpc APIs
remoteStorageVolGetInfoFlags and remoteDispatchStorageVolGetInfoFlags
(although both were originally created from gendispatch.pl and then
just copied into daemon/remote.c and src/remote/remote_driver.c).
The new API will allow the usage of a VIR_STORAGE_VOL_GET_PHYSICAL flag
and will make the decision to return the physical or allocation value
into the allocation field.
In order to get that physical value, virStorageBackendUpdateVolTargetInfoFD
adds logic to fill in physical value matching logic in qemuStorageLimitsRefresh
used by virDomainBlockInfo when the domain is inactive.
Signed-off-by: John Ferlan <jferlan@redhat.com>
Instead of having duplicated code in qemuStorageLimitsRefresh and
virStorageBackendUpdateVolTargetInfo to get capacity specific data
about the storage backing source or volume -- create a common API
to handle the details for both.
As a side effect, virStorageFileProbeFormatFromBuf returns to being
a local/static helper to virstoragefile.c
For the QEMU code - if the probe is done, then the format is saved so
as to avoid future such probes.
For the storage backend code, there is no need to deal with the probe
since we cannot call the new API if target->format == NONE.
Signed-off-by: John Ferlan <jferlan@redhat.com>
Instead of having duplicated code in qemuStorageLimitsRefresh and
virStorageBackendUpdateVolTargetInfoFD to fill in the storage backing
source or volume allocation, capacity, and physical values - create a
common API that will handle the details for both.
The common API will fill in "default" capacity values as well - although
those more than likely will be overridden by subsequent code. Having just
one place to make the determination of what the values should be will
make things be more consistent.
For the QEMU code - the data filled in will be for inactive domains
for the GetBlockInfo and DomainGetStatsOneBlock API's. For the storage
backend code - the data will be filled in during the volume updates.
Signed-off-by: John Ferlan <jferlan@redhat.com>
Commit id '03e750f3' added support for checking the PLOOP type; however,
it used 'target.type' which no storage code ever fills in, so it will
never be set. Change to just vol->type (could use vol->target.format
as well).
We had a lot of rados_conf_set and check works.
Use helper virStorageBackendRBDRADOSConfSet for them.
Signed-off-by: Chen Hanxiao <chenhanxiao@gmail.com>
We have couple of functions that operate over NULL terminated
lits of strings. However, our naming sucks:
virStringJoin
virStringFreeList
virStringFreeListCount
virStringArrayHasString
virStringGetFirstWithPrefix
We can do better:
virStringListJoin
virStringListFree
virStringListFreeCount
virStringListHasString
virStringListGetFirstWithPrefix
Signed-off-by: Michal Privoznik <mprivozn@redhat.com>
New line character in name of storagepool is now forbidden because it
mess virsh output and can be confusing for users.
Validation of name is done in driver, after parsing XML to avoid
problems with dissappeared pools which was already created with
new-line char in name.
Signed-off-by: Michal Privoznik <mprivozn@redhat.com>
https://bugzilla.redhat.com/show_bug.cgi?id=1366460
When using the --overwrite switch on a pool-build or pool-create, the
The mkfs.ext{2|3|4} commands use mke2fs which requires using the '-F' switch
in order to force overwriting the current filesystem on the whole disk.
Likewise, the mkfs.vfat command uses mkfs.fat which requires using the '-I'
switch in order to force overwriting the current filesystem on the whole disk.
Rather than use stack allocated state context pointers, let's allocate and
free the state context pointer. In doing so, we'll shrink the code a bit
since many routines perform the same initialization sequence.
Signed-off-by: John Ferlan <jferlan@redhat.com>
Since none of the callers check the status, let's just alter it to
a static void.
While we're at it - scrap the local runtime variable and just do the
math in the VIR_DEBUG directly.
Signed-off-by: John Ferlan <jferlan@redhat.com>
A LUKS volume uses the volume secret type just like the QCOW2 secret, so
adjust the loading of the default secrets to handle any volume that the
virStorageFileGetMetadataFromBuf code has deemed to be an encrypted volume
to search for the volume's secret. This lookup is done by volume usage
where the usage is expected to be the path to volume.
https://bugzilla.redhat.com/show_bug.cgi?id=1362349
When adding the ability to build the pool during the start pool processing
using the similar flags as buildPool processing would use, the code was
essentially cut-n-pasted from storagePoolCreateXML. However, that included
a call to virStoragePoolObjRemove which shouldn't happen within the
storagePoolCreate path since that'll remove the pool from the list of
pools only to be rediscovered if libvirtd restarts.
So on failure, just fail and return as we should expect
There was a missing check for vol->target.encryption being NULL
at one particular place (modified by commit a48c71411) which caused a crash
when user attempted to create a raw volume using a non-raw file volume as
source.
Resolves: https://bugzilla.redhat.com/show_bug.cgi?id=1363636
Signed-off-by: Erik Skultety <eskultet@redhat.com>
Let's cleanly differentiate what wiping a volume does for ploop and
other volumes so it's more readable what is done for each one instead of
branching out multiple times in different parts of the same function.
Signed-off-by: Martin Kletzander <mkletzan@redhat.com>
Some functions use volume specification merely to use the target path
from it. Let's change it to pass the path only so that it can be used
for other files than just volumes.
Signed-off-by: Martin Kletzander <mkletzan@redhat.com>
This is done in order to call them in next patches from each other and
definitions would be missing otherwise.
Signed-off-by: Martin Kletzander <mkletzan@redhat.com>
https://bugzilla.redhat.com/show_bug.cgi?id=1356436
Commit id '56057900' altered the discovery of iSCSI node targets by
using the "--op nonpersistent". This caused issues for clean environments
or if by chance a "-m node -o delete" was executed.
Since each iSCSI Storage Pool has the required iSCSI target path, use
that and the virISCSINodeNew API in order to generate the iSCSI node record.
The current LUKS support has a "luks" volume type which has
a "luks" encryption format.
This partially makes sense if you consider the QEMU shorthand
syntax only requires you to specify a format=luks, and it'll
automagically uses "raw" as the next level driver. QEMU will
however let you override the "raw" with any other driver it
supports (vmdk, qcow, rbd, iscsi, etc, etc)
IOW the intention though is that the "luks" encryption format
is applied to all disk formats (whether raw, qcow2, rbd, gluster
or whatever). As such it doesn't make much sense for libvirt
to say the volume type is "luks" - we should be saying that it
is a "raw" file, but with "luks" encryption applied.
IOW, when creating a storage volume we should use this XML
<volume>
<name>demo.raw</name>
<capacity>5368709120</capacity>
<target>
<format type='raw'/>
<encryption format='luks'>
<secret type='passphrase' uuid='0a81f5b2-8403-7b23-c8d6-21ccd2f80d6f'/>
</encryption>
</target>
</volume>
and when configuring a guest disk we should use
<disk type='file' device='disk'>
<driver name='qemu' type='raw'/>
<source file='/home/berrange/VirtualMachines/demo.raw'/>
<target dev='sda' bus='scsi'/>
<encryption format='luks'>
<secret type='passphrase' uuid='0a81f5b2-8403-7b23-c8d6-21ccd2f80d6f'/>
</encryption>
</disk>
This commit thus removes the "luks" storage volume type added
in
commit 318ebb36f1
Author: John Ferlan <jferlan@redhat.com>
Date: Tue Jun 21 12:59:54 2016 -0400
util: Add 'luks' to the FileTypeInfo
The storage file probing code is modified so that it can probe
the actual encryption formats explicitly, rather than merely
probing existance of encryption and letting the storage driver
guess the format.
The rest of the code is then adapted to deal with
VIR_STORAGE_FILE_RAW w/ VIR_STORAGE_ENCRYPTION_FORMAT_LUKS
instead of just VIR_STORAGE_FILE_LUKS.
The commit mentioned above was included in libvirt v2.0.0.
So when querying volume XML this will be a change in behaviour
vs the 2.0.0 release - it'll report 'raw' instead of 'luks'
for the volume format, but still report 'luks' for encryption
format. I think this change is OK because the storage driver
did not include any support for creating volumes, nor starting
guets with luks volumes in v2.0.0 - that only since then.
Clearly if we change this we must do it before v2.1.0 though.
Signed-off-by: Daniel P. Berrange <berrange@redhat.com>
As gluster natively supports multiple hosts for failover reasons we can
easily add the support to the storage driver code in libvirt.
Extract the code setting an individual host into a separate function and
call them in a loop. The new code also tries to keep the debug log
entries sane.
Commit id '5e46d7d6' did not take into account that usage of a luks
volume will require usage of the master key encrypted passphrase for
a QEMU environment. So rather than allow creation of something that
won't be usable, just fail the creation.
Partially resolves:
https://bugzilla.redhat.com/show_bug.cgi?id=1301021
If the volume xml was looking to create a luks volume take the necessary
steps in order to make that happen.
The processing will be:
1. create a temporary file (virStorageBackendCreateQemuImgSecretPath)
1a. use the storage driver state dir path that uses the pool and
volume name as a base.
2. create a secret object (virStorageBackendCreateQemuImgSecretObject)
2a. use an alias combinding the volume name and "_luks0"
2b. add the file to the object
3. create/add luks options to the commandline (virQEMUBuildLuksOpts)
3a. at the very least a "key-secret=%s" using the secret object alias
3b. if found in the XML the various "cipher" and "ivgen" options
Signed-off-by: John Ferlan <jferlan@redhat.com>
Vz containers are able to use ploop volumes from storage pools
to work upon.
To use filesystem type volume, pool name and volume name should be
specifaed in <source> :
<filesystem type='volume' accessmode='passthrough'>
<driver type='ploop' format='ploop'/>
<source pool='guest_images' volume='TEST_POOL_CT'/>
<target dir='/'/>
</filesystem>
The information about pool and volume is stored in ct dom configuration:
<StorageURL>libvirt://localhost/pool_name/vol_name</StorageURL>
and can be easily obtained via PrlVmDevHd_GetStorageURL sdk call.
The only shorcoming: if storage pool is moved somewhere the ct
should be redefined in order to refresh the information aboot path
to root.hdd
Signed-off-by: Olga Krishtal <okrishtal@virtuozzo.com>
The modification of .volWipe callback wipes ploop volume using one of
given wiping algorithm: dod, nnsa, etc.
However, in case of ploop volume we need to reinitialize root.hds and DiskDescriptor.xml.
v2:
- added check on ploop tools presens
- virCommandAddArgFormat changed to virCommandAddArg
Signed-off-by: Olga Krishtal <okrishtal@virtuozzo.com>
In order to use more common code and set up for a future type, modify the
encryption secret to allow the "usage" attribute or the "uuid" attribute
to define the secret. The "usage" in the case of a volume secret would be
the path to the volume as dictated by the backwards compatibility brought
on by virStorageGenerateQcowEncryption where it set up the usage field as
the vol->target.path and didn't allow someone to provide it. This carries
into virSecretObjListFindByUsageLocked which takes the secret usage attribute
value from from the domain disk definition and compares it against the
usage type from the secret definition. Since none of the code dealing
with qcow/qcow2 encryption secrets uses usage for lookup, it's a mostly
cosmetic change. The real usage comes in a future path where the encryption
is expanded to be a luks volume and the secret will allow definition of
the usage field.
This code will make use of the virSecretLookup{Parse|Format}Secret common code.
Signed-off-by: John Ferlan <jferlan@redhat.com>
https://bugzilla.redhat.com/show_bug.cgi?id=1316370
Consider the following disk for a domain:
<disk type='volume' device='cdrom'>
<driver name='qemu' type='raw'/>
<auth username='libvirt'>
<secret type='iscsi' usage='libvirtiscsi'/>
</auth>
<source pool='iscsi-secret-pool' volume='unit:0:0:0' mode='direct' startupPolicy='optional'/>
<target dev='sda' bus='scsi'/>
<readonly/>
<address type='drive' controller='0' bus='0' target='0' unit='0'/>
</disk>
Now, startupPolicy is currently not allowed for iscsi disks, so
one would expect an error message to be thrown. But what a
surprise is waiting for users if they try to start up such
domain:
==15724== Invalid free() / delete / delete[] / realloc()
==15724== at 0x4C2B1F0: free (vg_replace_malloc.c:473)
==15724== by 0x54B7A69: virFree (viralloc.c:582)
==15724== by 0x552DC90: virStorageAuthDefFree (virstoragefile.c:1549)
==15724== by 0x552F023: virStorageSourceClear (virstoragefile.c:2055)
==15724== by 0x552F054: virStorageSourceFree (virstoragefile.c:2067)
==15724== by 0x55556AA: virDomainDiskDefFree (domain_conf.c:1562)
==15724== by 0x5557ABE: virDomainDefFree (domain_conf.c:2547)
==15724== by 0x1B43CC42: qemuProcessStop (qemu_process.c:5918)
==15724== by 0x1B43BA2E: qemuProcessStart (qemu_process.c:5511)
==15724== by 0x1B48993E: qemuDomainObjStart (qemu_driver.c:7050)
==15724== by 0x1B489B9A: qemuDomainCreateWithFlags (qemu_driver.c:7104)
==15724== by 0x1B489C01: qemuDomainCreate (qemu_driver.c:7122)
==15724== Address 0x21cfbb90 is 0 bytes inside a block of size 48 free'd
==15724== at 0x4C2B1F0: free (vg_replace_malloc.c:473)
==15724== by 0x54B7A69: virFree (viralloc.c:582)
==15724== by 0x552DC90: virStorageAuthDefFree (virstoragefile.c:1549)
==15724== by 0x12D1C8D4: virStorageTranslateDiskSourcePool (storage_driver.c:3475)
==15724== by 0x1B4396E4: qemuProcessPrepareDomain (qemu_process.c:4896)
==15724== by 0x1B43B880: qemuProcessStart (qemu_process.c:5466)
==15724== by 0x1B48993E: qemuDomainObjStart (qemu_driver.c:7050)
==15724== by 0x1B489B9A: qemuDomainCreateWithFlags (qemu_driver.c:7104)
==15724== by 0x1B489C01: qemuDomainCreate (qemu_driver.c:7122)
==15724== by 0x561CA97: virDomainCreate (libvirt-domain.c:6787)
==15724== by 0x12B6FD: remoteDispatchDomainCreate (remote_dispatch.h:4116)
==15724== by 0x12B61A: remoteDispatchDomainCreateHelper (remote_dispatch.h:4092)
The problem is, in virStorageTranslateDiskSourcePool disk
def->src->auth is freed, but the pointer is not set to NULL. So
later, when qemuProcessStop starts to free the domain definition,
virStorageAuthDefFree() tries to free the memory again, instead
of jumping out immediately.
Signed-off-by: Michal Privoznik <mprivozn@redhat.com>
Create a function to return a temporary file path to be used in a mkostemp
type call using the path to the stateDir + pool->def->name + vol->name
Signed-off-by: John Ferlan <jferlan@redhat.com>
The VIR_STORAGE_POOL_EVENT_REFRESHED constant does not
reflect any change in the lifecycle of the storage pool.
It should thus not be part of the storage pool lifecycle
event set, but rather be a top level event in its own
right. Thus we introduce VIR_STORAGE_POOL_EVENT_ID_REFRESH
to replace it.
Signed-off-by: Daniel P. Berrange <berrange@redhat.com>
In the unlikely case the iSCSI session path exists, but does not
contain an entry starting with "target", we would silently use
an initialized value.
Rewrite the function to correctly report errors.
The directories we iterate over are unlikely to contain any entries
starting with a dot, other than '.' and '..' which is already skipped
by virDirRead.
Move the enum into a new src/util/virsecret.h, rename it to be
virSecretLookupType. Add a src/util/virsecret.h in order to perform
a couple of simple operations on the secret XML and virSecretLookupTypeDef
for clearing and copying.
This includes quite a bit of collateral damage, but the goal is to remove
the "virStorage*" and replace with the virSecretLookupType so that it's
easier to to add new lookups that aren't necessarily storage pool related.
Signed-off-by: John Ferlan <jferlan@redhat.com>
Every driver provides a refreshPool impl, and many other critical
places in the code unconditionally call it without checking if
it exists, so this check is pointless
Create a helper virStorageBackendCreateQemuImgSetOptions to set either
the qemu-img -o options or the previous mechanism using -F
Signed-off-by: John Ferlan <jferlan@redhat.com>
Since we support QEMU 0.12 and later, checking for support of specific flags
added prior to that isn't necessary.
Thus start with the base of having the "-o options" available for the
qemu-img create option and then determine whether we have the compat
option for qcow2 files (which would be necessary up through qemu 2.0
where the default changes to compat 0.11).
Adjust test to no long check for NONE and FLAG options as well was removing
results of tests that would use that option.
Signed-off-by: John Ferlan <jferlan@redhat.com>
Implement storage pool event callbacks for START, STOP, DEFINE, UNDEFINED
and REFRESHED in functions when a storage pool is created/started/stopped
etc. accordingly
Split out a helper from virStorageBackendCreateQemuImgCmdFromVol
to check the encryption - soon a new encryption sheriff will be
patroling and that'll mean all sorts of new checks.
Signed-off-by: John Ferlan <jferlan@redhat.com>
Commit 5e54361c added virStoragePoolObjClearVols before refreshPool
to prevent duplicate volume entries.
However it is not needed here because we're not refreshing the pool yet,
just checking for the existence of the refresh callback.
The actual refresh is done via virStorageVolFDStreamCloseCb
in virStorageVolPoolRefreshThread, which already calls
virStoragePoolObjClearVols.
Rather than have virCommandRun just spit out the error, allow callers
to decide to pass the exitstatus so the caller can make intelligent
decisions based on the error.
Commit id 'df1011ca8' modified virStorageBackendDiskDeleteVol to use
"dmsetup remove --force" to remove the volume, but left things in an
inconsistent state since the partition still existed on the disk and
only the device mapper device (/dev/dm-#) was removed.
Prior to commit '1895b421' (or '1ffd82bb' and '471e1c4e'), this could
go unnoticed since virStorageBackendDiskRefreshPool wasn't called.
However, the pool would be unusable since the /dev/dm-# device would
be removed even though the partition was not removed unless a multipathd
restart reset the link. That would of course make the volume appear again
in the pool after a refresh or pool start after libvirt reload.
This patch removes the 'dmsetup' logic and re-implements the partition
deletion logic for device mapper devices. The removal of the partition
via 'parted rm --script #' will cause udev device change logic to allow
multipathd to handle removing the dm-* device associated with the partition.
https://bugzilla.redhat.com/show_bug.cgi?id=1265694
Commit id '020135dc' didn't quite get the algorithm correct when a
device mapper source ended with a non numeric value (e.g. ends with
an alphabet value).
This patch modifies the 'part_separator' logic to add the "p" separator
to the attempted target path name only when specified as part_separator='yes'.
For a source name that already ends with a number, the logic doesn't change
as the part separator would need to be there.
For a source name that ends with something other than a number, this allows
the possibility that a "p" separator can be added. The default for one of
these source devices is to not add the separator.
The key for device mapper and the need for a partition separator "p" is
the presence of a number in the last character of the device name link
in /dev/mapper. A name such as "/dev/mapper/mpatha1" would generate
a "/dev/mapper/mpatha1p1" partition, while "/dev/mapper/mpatha" would
generate partition "/dev/mapper/mpatha1". Similarly for a device
mapper entry not using friendly names or an alias, a device such as
"/dev/mapper/3600a0b80005b10ca00005ad656fd8d93" would generate a
paritition "/dev/mapper/3600a0b80005b10ca00005ad656fd8d93p1", while
a device such as "/dev/mapper/3600a0b80005b10ca00005e115729093f" would
generate a partition "/dev/mapper/3600a0b80005b10ca00005e115729093f1".
The long number is the WWID of the device. It's also possible to assign
an alias for a device mapper entry, that alias follows the same rules
with respect to ending with a number or not when adding a "p" to create
the target device path.
Prior to calling the 'refreshPool' during CreatePool or UploadPool
operations, we need to clear the pool; otherwise, the pool will
have duplicated entries.
https://bugzilla.redhat.com/show_bug.cgi?id=1318993
Commit id 'dd519a294' caused a regression cloning a volume into a
logical pool by removing just the 'allocation' adjustment during
storageVolCreateXMLFrom. Combined with the change to not require the
new volume input XML to have a capacity listed (commit id 'e3f1d2a8')
left the possibility that a zero allocation value (e.g., not provided)
would create a thin/sparse logical volume. When a thin lv becomes fully
populated, then LVM sets the partition 'inactive' and the subsequent
fdatasync() fails.
Add a new 'has_allocation' flag to be set at XML parse time to indicate
that allocation was provided. This is done so that if it's not provided
the create-from code uses the capacity value since we document that if
omitted, the volume will be fully allocated at time of creation.
For a logical backend, that creation time is 'createVol', while for a
file backend, creation doesn't set the size, but the 'createRaw' called
during buildVolFrom will decide whether the file is sparse or not based
on the provided capacity and allocation value.
For volume clones that provide different allocation and capacity values
to allow for sparse files, there is no change.
We had both and the only difference was that the latter also included
information about multifunction setting. The problem with that was that
we couldn't use functions made for only one of the structs (e.g.
parsing). To consolidate those two structs, use the one in virpci.h,
include that in domain_conf.h and add the multifunction member in it.
Signed-off-by: Martin Kletzander <mkletzan@redhat.com>
Remove all the plumbing needed for the different qcow-create/kvm-img
non-raw file creation.
We can drop the error messages because CreateQemuImg will thrown an
error for us but with slightly less fidelity (unable to find qemu-img),
which I think is acceptable given the unlikeliness of that error in
practice.
This an ubuntu/debian packaging convention. At one point it may have
been an actually different binary, but at least as of ubuntu precise
(the oldest supported ubuntu distro, released april 2012) kvm-img is
just a symlink to qemu-img for back compat.
I think it's safe to drop support for it
qcow-create was a crippled qemu-img impl that shipped with xen. I
think supporting this was only relevant for really old distros
that didn't have a proper qemu package, like early RHEL5. I think
it's fair to drop support
By default, `zfs create -V ...` reserves space for the entire volsize,
plus some extra (which attempts to account for overhead).
If `zfs create -s -V ...` is used instead, zvols are (fully) sparse.
A middle ground (partial allocation) can be achieved with
`zfs create -s -o refreservation=... -V ...`. Both libvirt and ZFS
support this approach, so the ZFS storage backend should support it.
Signed-off-by: Richard Laager <rlaager@wiktel.com>
In case of ploop volume, target path of the volume is the path to the
directory that contains image file named root.hds and DiskDescriptor.xml.
While using uploadVol and downloadVol callbacks we need to open root.hds
itself.
Upload or download operations with ploop volume are only allowed when
images do not have snapshots. Otherwise operation fails.
Signed-off-by: Olga Krishtal <okrishtal@virtuozzo.com>
Signed-off-by: Ján Tomko <jtomko@redhat.com>
Refreshes meta-information such as allocation, capacity, format, etc.
Ploop volumes differ from other volume types. Path to volume is the path
to directory with image file root.hds and DiskDescriptor.xml.
https://openvz.org/Ploop/format
Due to this fact, operations of opening the volume have to be done once
again. get the information.
To decide whether the given volume is ploops one, it is necessary to check
the presence of root.hds and DiskDescriptor.xml files in volumes' directory.
Only in this case the volume can be manipulated as the ploops one.
Such strategy helps us to resolve problems that might occure, when we
upload some other volume type from ploop source.
Signed-off-by: Olga Krishtal <okrishtal@virtuozzo.com>
Signed-off-by: Ján Tomko <jtomko@redhat.com>
Recursively deletes whole directory of a ploop volume.
To delete ploop image it has to be unmounted.
Signed-off-by: Olga Krishtal <okrishtal@virtuozzo.com>
These callbacks let us to create ploop volumes in dir, fs and etc. pools.
If a ploop volume was created via buildVol callback, then this volume
is an empty ploop device with DiskDescriptor.xml.
If the volume was created via .buildFrom - then its content is similar to
input volume content.
Signed-off-by: Olga Krishtal <okrishtal@virtuozzo.com>
Signed-off-by: Ján Tomko <jtomko@redhat.com>
Ploop image consists of directory with two files: ploop image itself,
called root.hds and DiskDescriptor.xml that contains information about
ploop device: https://openvz.org/Ploop/format.
Such volume are difficult to manipulate in terms of existing volume types
because they are neither a single files nor a directory.
This patch introduces new volume type - ploop. This volume type is used
by ploop volume's exclusively.
Signed-off-by: Olga Krishtal <okrishtal@virtuozzo.com>
Signed-off-by: Ján Tomko <jtomko@redhat.com>
We use device-mapper to enumerate all dm devices, and filter out
the list of multipath devices by checking the target_type string
name. The code however cancels all scanning if we encounter
target_type=NULL
I don't know how to reproduce that situation, but a user was hitting
it in their setup, and inspecting the lvm2/device-mapper code shows
many places where !target_type is explicitly ignored and processing
continues on to the next device. So I think we should do the same
https://bugzilla.redhat.com/show_bug.cgi?id=1069317
I tried compiling libvirt with older gcc and probably because I used
different configure options I got some shadowed declarations.
Signed-off-by: Martin Kletzander <mkletzan@redhat.com>
If the pool creation thread happens to detect the luns in
the scsi target, the size parameters will be calculated as
part of the refreshPool called from storagePoolCreate().
This means the virStoragePoolFCRefreshThread (commit id
'512b874') waiting to run and "refresh" the pool will
essentially double the allocation and capacity values.
A separate refresh would correct the values.
To avoid this, the FCRefreshThread needs to reinitialize
the pool size values prior to calling virStorageBackendSCSIFindLUs
which eventually calls virStorageBackendSCSINewLun and
updates the size values for each volume found.
After the recent commits the build didn't work for me. Fix it by
using size_t as the callback argument is using and the correct
formatter. The attempted fixup to use %llu as a formatter was wrong.
This reverts commit bb5f2dc91f.
The "if (vol->target.format != VIR_STORAGE_FILE_RAW)" check in the
createVol backend. This check is bogus because virStorageVolDefParseXML()
in conf/storage_conf.c sets target.format only if volOptions in
virStoragePoolTypeInfo has formatFromString set, and that's not the
case the zfs backend.
So the check always fails and breaks volume creation.
This reverts commit 6682d6219d.
The "if (vol->target.format != VIR_STORAGE_FILE_RAW)" check in the
createVol backend. This check is bogus because virStorageVolDefParseXML()
in conf/storage_conf.c sets target.format only if volOptions in
virStoragePoolTypeInfo has formatFromString set, and that's not the
case the logical backend.
So the check always fails and breaks volume creation.
While trying to build with -Os couple of compile errors showed
up.
conf/domain_conf.c: In function 'virDomainChrRemove':
conf/domain_conf.c:13666:24: error: 'ret' may be used uninitialized in this function [-Werror=maybe-uninitialized]
virDomainChrDefPtr ret, **arrPtr = NULL;
^
Compiler fails to see that @ret is used only if set in the loop,
but whatever, there's no harm in initializing the variable.
In vboxAttachDrivesNew and _vboxAttachDrivesOld compiler thinks
that @rc may be used uninitialized. Well, not directly, but maybe
after some optimization. Yet again, no harm in initializing a
variable.
In file included from ./util/virthread.h:26:0,
from ./datatypes.h:28,
from vbox/vbox_tmpl.c:43,
from vbox/vbox_V3_1.c:37:
vbox/vbox_tmpl.c: In function '_vboxAttachDrivesOld':
./util/virerror.h:181:5: error: 'rc' may be used uninitialized in this function [-Werror=maybe-uninitialized]
virReportErrorHelper(VIR_FROM_THIS, code, __FILE__, \
^
In file included from vbox/vbox_V3_1.c:37:0:
vbox/vbox_tmpl.c:1041:14: note: 'rc' was declared here
nsresult rc;
^
Yet again, one uninitialized variable:
qemu/qemu_driver.c: In function 'qemuDomainBlockCommit':
qemu/qemu_driver.c:17194:9: error: 'baseSource' may be used uninitialized in this function [-Werror=maybe-uninitialized]
qemuDomainPrepareDiskChainElement(driver, vm, baseSource,
^
And another one:
storage/storage_backend_logical.c: In function 'virStorageBackendLogicalMatchPoolSource.isra.2':
storage/storage_backend_logical.c:618:33: error: 'thisSource' may be used uninitialized in this function [-Werror=maybe-uninitialized]
thisSource->devices[j].path))
^
Signed-off-by: Michal Privoznik <mprivozn@redhat.com>
Found by inspection - after calling virStoragePoolObjAssignDef the
pool is part of the driver->pools.objs list and the failure path
for the virStoragePoolObjSaveDef will use virStoragePoolObjRemove
to remove the pool from the objs list which will unlock and free
the pool pointer (as pools->objs[i] during the loop). Since the call
doesn't clear the pool address from the callee, we need to set it
to NULL; otherwise, the virStoragePoolObjUnlock in the cleanup: code
will fail miserably.
Generates a false positive for Coverity, but it turns out there's no need
to check ret == -1 since if VIR_APPEND_ELEMENT is successful, the local
vol pointer is cleared anyway.
Signed-off-by: John Ferlan <jferlan@redhat.com>
Found by my Coverity checker - virCheckFlags call could return -1, but
not virCommandFree(destroy_cmd).
Signed-off-by: John Ferlan <jferlan@redhat.com>
%zu is not always synonymous with uint64_t; on 32-bit machines,
size_t is only 32 bits. Prefer "%lld"/'unsigned long long' when
the variable is under our control, and "%"PRIu64 when we are
stuck with 'uint64_t' from RBD.
Fixes errors such as:
../../src/storage/storage_backend_rbd.c: In function 'virStorageBackendRBDVolWipe':
../../src/storage/storage_backend_rbd.c:1281:15: error: format '%zu' expects argument of type 'size_t', but argument 8 has type 'uint64_t {aka long long unsigned int}' [-Werror=format=]
VIR_DEBUG("Need to wipe %zu bytes from RBD image %s/%s",
^
../../src/util/virlog.h:90:73: note: in definition of macro 'VIR_DEBUG_INT'
virLogMessage(src, VIR_LOG_DEBUG, filename, linenr, funcname, NULL, __VA_ARGS__)
^
../../src/storage/storage_backend_rbd.c:1281:5: note: in expansion of macro 'VIR_DEBUG'
VIR_DEBUG("Need to wipe %zu bytes from RBD image %s/%s",
^
Signed-off-by: Eric Blake <eblake@redhat.com>
Checking whether x > 0 before looping over [0..x] items doesn't make
sense and multi-line body must have curly brackets around it.
Best viewed with '-w'.
Signed-off-by: Martin Kletzander <mkletzan@redhat.com>
This reverts commit 611a278fa4.
According to the original commit message, this is dead code:
It is highly unlikely that a backend will know how to create a
volume from a different volume (buildVolFrom) and not know how to
create an empty volume (createVol).
Since Ceph version Infernalis (9.2.0) the new fast-diff mechanism
of RBD allows for querying actual volume usage.
Prior to this version there was no easy and fast way to query how
much allocation a RBD volume had inside a Ceph cluster.
To use the fast-diff feature it needs to be enabled per RBD image
and is only supported by Ceph cluster running version Infernalis
(9.2.0) or newer.
Without the fast-diff feature enabled libvirt will report an allocation
identical to the image capacity. This is how libvirt behaves currently.
'virsh vol-info rbd/image2' might output for example:
Name: image2
Type: network
Capacity: 1,00 GiB
Allocation: 124,00 MiB
Newly created volumes will have the fast-diff feature enabled if the
backing Ceph cluster supports it.
Signed-off-by: Wido den Hollander <wido@widodh.nl>
In commit 0b15f920 there is a #ifdef which requires LIBRBD_VERSION_CODE
266 or newer for rbd_diff_iterate2()
rbd_diff_iterate2() is available since 266, so this if-statement should
require anything newer than 265.
Signed-off-by: Wido den Hollander <wido@widodh.nl>
As more and more features are added to RBD volumes we will need to
call this method more often.
By moving it into a internal function we can re-use code inside the
storage backend.
Signed-off-by: Wido den Hollander <wido@widodh.nl>
It is highly unlikely that a backend will know how to create a
volume from a different volume (buildVolFrom) and not know how to
create an empty volume (createVol). But:
1) we call the function without any prior check so if that's the
case we would SIGSEGV immediatelly
2) it's better to be safe than sorry.
Signed-off-by: Michal Privoznik <mprivozn@redhat.com>
Firstly, we realloc internal list to hold new item (=volume that
will be potentially created) and then we check whether we
actually know how to create it. If we don't we consume more
memory than we really need for no good reason.
Signed-off-by: Michal Privoznik <mprivozn@redhat.com>
Do not store the return value of called functions in the same variable
as the (future) return value of the current function.
This makes tracking the origin of the value easier and reduces
the chance of introducing a new point of exit without resetting
the return value back to -1.
The virStringListLength function does not ever modify the passed
string list. It merely counts the items in it. Make sure that we
reflect this bit in the function header.
Signed-off-by: Michal Privoznik <mprivozn@redhat.com>
(crobinso: fix up spacing and squash in sheepdog bit suggested
by Andrea)
This was only used in debugging messages and not in any real code.
Ceph/RBD uses uint64_t for sizes internally and they can be printed
with %zu without any need for casting.
Signed-off-by: Wido den Hollander <wido@widodh.nl>
Through the years the RBD storage pool code hasn't maintained the
same or correct coding standard which applies to libvirt.
This patch doesn't change any logic in the code, it only applies
the proper coding standards to the code where possible without
making large changes.
This way the code style used in this storage pool is consistent
throughout the whole file.
Signed-off-by: Wido den Hollander <wido@widodh.nl>
Rather than have a unwieldy regex string - split it up into its components
each having it's own #define and then combine in a different #define
Signed-off-by: John Ferlan <jferlan@redhat.com>
There are slight differences in various ZFS implementations.
Specifically, ZFS on FreeBSD requires to set value of 'volmode'
option to 'dev' to expose volumes as raw disk device (that's what
we need) rather than geom provides, for example.
With ZFS on Linux, however, such option is not available and
volumes exposed like we need by default.
To make our implementation more flexible, only pass 'volmode'
when it's supported. Support is checked by parsing usage
information of the 'zfs get' command.
Rather than a loop reallocating space to build the regex, just allocate
it once up front, then if there's more than 1 nextent, append a comma and
another regex_unit string.
Signed-off-by: John Ferlan <jferlan@redhat.com>
The 'stripes' value is described as the "Number of stripes or mirrors in
a logical volume". So add "mirror" and anything that starts with "raid"
to the list of segtypes that can have an 'nextents' value greater than one.
Use of raid segtypes (raid1, raid4, raid5*, raid6*, and raid10) is favored
over mirror in more recent lvm code.
Signed-off-by: John Ferlan <jferlan@redhat.com>
Rather than preallocating a set number of elements, then walking through
the extents and adjusting the specific element in place, use the APPEND
macros to handle that chore.
Signed-off-by: John Ferlan <jferlan@redhat.com>
Create a helper routine in order to parse any extents information
including the extent size, length, and the device string contained
within the generated 'lvs' output string.
A future patch would then be able to avoid the code more cleanly
Signed-off-by: John Ferlan <jferlan@redhat.com>
By opening a RBD volume in Read-Only we do not register a
watcher on the header object inside the Ceph cluster.
Refreshing a volume only calls rbd_stat() which is a operation
which does not write to a RBD image.
This allows us to use a cephx user which has no write
permissions if we would want to use the libvirt storage pool
for informational purposes only.
It also saves us a write into the Ceph cluster which should
speed up refreshing a RBD pool.
rbd_open_read_only() is available in all librbd versions which
also support rbd_open().
Signed-off-by: Wido den Hollander <wido@widodh.nl>
RBD supports cloning by creating a snapshot, protecting it and create
a child image based on that snapshot afterwards.
The RBD storage driver will try to find a snapshot with zero deltas between
the current state of the original volume and the snapshot.
If such a snapshot is found a clone/child image will be created using
the rbd_clone2() function from librbd.
rbd_clone2() is available in librbd since Ceph version Dumpling (0.67) which
dates back to August 2013.
It will use the same features, strip size and stripe count as the parent image.
This implementation will only create a single snapshot on the parent image if
never changes. This reduces the amount of snapshots created for that RBD image
which benefits the performance of the Ceph cluster.
During build the decision will be made to use either rbd_diff_iterate() or
rbd_diff_iterate2().
The latter is faster, but only available on Ceph versions after 0.94 (Hammer).
Cloning is only supported if RBD format 2 is used. All images created by libvirt
are already format 2.
If a RBD format 1 image is used as the original volume the backend will report
a VIR_ERR_OPERATION_UNSUPPORTED error.
Signed-off-by: Wido den Hollander <wido@widodh.nl>
Using VIR_STORAGE_VOL_WIPE_ALG_TRIM a RBD volume can be trimmed down
to 0 bytes using rbd_discard()
Effectively all the data on the volume will be lost/gone, but the volume
remains available for use afterwards.
Starting at offset 0 the storage pool will call rbd_discard() in stripe
size * count increments which is usually 4MB. Stripe size being 4MB and
count 1.
rbd_discard() is available since Ceph version Dumpling (0.67) which dates
back to August 2013.
Signed-off-by: Wido den Hollander <wido@widodh.nl>
This new algorithm adds support for wiping volumes using TRIM.
It does not overwrite all the data in a volume, but it tells the
backing storage pool/driver that all bytes in a volume can be
discarded.
It depends on the backing storage pool how this is handled.
A SCSI backend might send UNMAP commands to remove all data present
on a LUN.
A Ceph backend might use rbd_discard() to instruct the Ceph cluster
that all data on that RBD volume can be discarded.
Signed-off-by: Wido den Hollander <wido@widodh.nl>
When wiping the RBD image will be filled with zeros started
at offset 0 and until the end of the volume.
This will result in the RBD volume growing to it's full allocation
on the Ceph cluster. All data on the volume will be overwritten
however, making it unavailable.
It does NOT take any RBD snapshots into account. The original data
might still be in a snapshot of that RBD volume.
Signed-off-by: Wido den Hollander <wido@widodh.nl>
Use the cast of (virStorageVolWipeAlgorithm) adding the missing case:'s
(VIR_STORAGE_VOL_WIPE_ALG_ZERO and VIR_STORAGE_VOL_WIPE_ALG_LAST).
Additionally, the old code would also still run the SCRUB command on
default since it didn't go to cleanup when a invalid flag was supplied.
We now go to cleanup and exit if a invalid flag would be provided.
Signed-off-by: Wido den Hollander <wido@widodh.nl>
When commit id '82c1740a' made changes to the output format (changing from
using a ',' separator to '#'), the examples in the lvs output from the
comments weren't changed.
Additionally, the two new fields added ('segtype' and 'stripes') were
not included in the output, leaving it well confusing.
This patch fixes the sample output, adds a 'striped' example, and makes
other comment related adjustments for long line and spacing between followup
'NB' remarks (while I'm there).
Signed-off-by: John Ferlan <jferlan@redhat.com>
https://bugzilla.redhat.com/show_bug.cgi?id=1265694
In order to be able to process disk storage pool's using a multipath
device to handle the partitions, libvirt_parthelper will need a way to
not automatically add a partition separator "p" to the generated device
name for each partition found. This is designed to mimic the multipath
features known as 'user_friendly_names' and custom 'alias' name.
If the part_separator attribute is set to "no", then generation of the
multipath partition name will not include the "p" partition separator
unless the source device path name ends with a number. The generated
partition names that get passed back to libvirt are processed in order
to find the device mapper multipath (dm-#) path device.
For example, device path "/dev/mapper/mpatha" would create partitions
"/dev/mapper/mpatha1", "/dev/mapper/mpatha2", etc. instead of
"/dev/mapper/mpathap1", "/dev/mapper/mpathap2", etc. If the device
path ends with a number "/dev/mapper/mpatha1", then the algorithm
to generate names "/dev/mapper/mpatha1p1", "/dev/mapper/mpatha1p2", etc.
would be utilized.
Signed-off-by: John Ferlan <jferlan@redhat.com>
This was reported in bug #1298024 where r would be filled with the
return code of rbd_open().
Should rbd_snap_unprotect() fail for any reason the virReportSystemError
call would return 'Success' since rbd_open() succeeded.
https://bugzilla.redhat.com/show_bug.cgi?id=1298024
Signed-off-by: Wido den Hollander <wido@widodh.nl>
If no port number was provided for a storage pool libvirt defaults to
port 6789; however, librbd/librados already default to 6789 when no port
number is provided.
In the future Ceph will switch to a new port for the Ceph monitors since
port 6789 is already assigned to a different application by IANA.
Port 6789 is assigned to SMC-HTTPS and Ceph now has port 3300 assigned as
the 'Ceph monitor' port.
In this case it is the best solution to not hardcode any port number into
libvirt and let librados handle the connection.
Only if a user specifies a different port number we pass it down to librados,
otherwise we leave it blank.
Signed-off-by: Wido den Hollander <wido@widodh.nl>
merge
It could happen that rbd_list() returns X names, but that while
refreshing the pool one of those RBD images is removed from Ceph
through a different route then libvirt.
We do not need to error out in such case, we can simply ignore the
volume and continue.
error : volStorageBackendRBDRefreshVolInfo:289 :
failed to open the RBD image 'vol-998': No such file or directory
It could also be that one or more Placement Groups (PGs) inside Ceph
are inactive due to a system failure.
If that happens it could be that some RBD images can not be refreshed
and a timeout will be raised by librados.
error : volStorageBackendRBDRefreshVolInfo:289 :
failed to open the RBD image 'vol-893': Connection timed out
Ignore the error and continue to refresh the rest of the pool's
contents.
Signed-off-by: Wido den Hollander <wido@widodh.nl>
It could be that we error out while the RBD image has not been
opened yet. This would cause us to call rbd_close() on pointer
which has not been initialized.
Set it to NULL by default and only close if it is not NULL.
Signed-off-by: Wido den Hollander <wido@widodh.nl>
Commit id 'aeb1078ab' added a buildPool option and failure path which
calls virStoragePoolObjRemove, which unlocks the pool, clears the 'pool'
variable, and goto cleanup. However, at cleanup virStoragePoolObjUnlock
is called without check if pool is non NULL.
This used to return 'unkown' and that was not correct.
A vol-dumpxml now returns:
<volume type='network'>
<name>image3</name>
<key>libvirt/image3</key>
<source>
</source>
<capacity unit='bytes'>10737418240</capacity>
<allocation unit='bytes'>10737418240</allocation>
<target>
<path>libvirt/image3</path>
<format type='raw'/>
</target>
</volume>
The RBD driver will now error out if a different format than RAW
is provided when creating a volume.
Signed-off-by: Wido den Hollander <wido@widodh.nl>
Valgrind complained:
==28277== 38 bytes in 1 blocks are definitely lost in loss record 298 of 957
==28277== at 0x4A06A2E: malloc (vg_replace_malloc.c:270)
==28277== by 0x82D7F57: __vasprintf_chk (in /lib64/libc-2.12.so)
==28277== by 0x52EF16A: virVasprintfInternal (stdio2.h:199)
==28277== by 0x52EF25C: virAsprintfInternal (virstring.c:514)
==28277== by 0x52B1FA9: virFileBuildPath (virfile.c:2831)
==28277== by 0x19B1947C: storageDriverAutostart (storage_driver.c:191)
==28277== by 0x19B196A7: storageStateAutoStart (storage_driver.c:307)
==28277== by 0x538527E: virStateInitialize (libvirt.c:793)
==28277== by 0x11D7CF: daemonRunStateInit (libvirtd.c:947)
==28277== by 0x52F4694: virThreadHelper (virthread.c:206)
==28277== by 0x6E08A50: start_thread (in /lib64/libpthread-2.12.so)
==28277== by 0x82BE93C: clone (in /lib64/libc-2.12.so)
Signed-off-by: Michael Chapman <mike@very.puzzling.org>
The initial commit '74951eade' did not include the proper check for whether
any flags are supported by the driver.
Even though the driver doesn't support VIR_STORAGE_VOL_DELETE_ZEROED,
it still checks and allows the processing to continue
Also add the new VIR_STORAGE_VOL_DELETE_WITH_SNAPSHOTS since it is handled
as of commit id '3c7590e0a'.
https://bugzilla.redhat.com/show_bug.cgi?id=830056
Add flags handling to the virStoragePoolCreate and virStoragePoolCreateXML
API's which will allow the caller to provide the capability for the storage
pool create API's to also perform a pool build during creation rather than
requiring the additional buildPool step. This will allow transient pools
to be defined, built, and started.
The new flags are:
* VIR_STORAGE_POOL_CREATE_WITH_BUILD
Perform buildPool without any flags passed.
* VIR_STORAGE_POOL_CREATE_WITH_BUILD_OVERWRITE
Perform buildPool using VIR_STORAGE_POOL_BUILD_OVERWRITE flag.
* VIR_STORAGE_POOL_CREATE_WITH_BUILD_NO_OVERWRITE
Perform buildPool using VIR_STORAGE_POOL_BUILD_NO_OVERWRITE flag.
It is up to the backend to handle the processing of build flags. The
overwrite and no-overwrite flags are mutually exclusive.
NB:
This patch is loosely based upon code originally authored by Osier
Yang that were not reviewed and pushed, see:
https://www.redhat.com/archives/libvir-list/2012-July/msg01328.html
Commit id '71b803ac' assumed that the storage pool source device path
was required for a 'logical' pool. This resulted in a failure to start
a pool without any device path defined.
So, adjust the virStorageBackendLogicalMatchPoolSource logic to
return success if at least the pool name matches the vgs output
when no pool source device path is/are provided.
https://bugzilla.redhat.com/show_bug.cgi?id=1270709
When a volume wipe is successful, perform a volume refresh afterwards to
update any volume data that may be used in future volume commands, such as
volume resize. For a raw file volume, a wipe could truncate the file and
a followup volume resize the capacity may fail because the volume target
allocation isn't updated to reflect the wipe activity.
The only caller always passes 0 for the extent start.
Drop the 'extent_start' parameter, as well as the mention of extents
from the function name.
Change off_t extent_length to unsigned long long wipe_len, as well as the
'remain' variable.
Return -1:
* on all failures of fdatasync. Instead of propagating -errno
all the way up to the virStorageVolWipe API, which is documented
to return 0 or -1.
* after a partial wipe. If safewrite failed, we would re-use the
non-negative return value of lseek (which should be 0 in this case,
because that's the only offset we seek to).
https://bugzilla.redhat.com/show_bug.cgi?id=1025230
Add a new helper virStorageBackendLogicalMatchPoolSource to compare the
pool's source name against the output from a 'pvs' command to list all
volume group physical volume data on the host. In addition, compare the
pool's source device list against the particular volume group's device
list to ensure the source device(s) listed for the pool match what the
was listed for the volume group.
Then for pool startup or check API's we need to call this new API in
order to ensure that the pool we're about to start or declare active
during checkPool has a valid definition vs. the running host.
Rework virStorageBackendLogicalFindPoolSources a bit to create a
helper virStorageBackendLogicalGetPoolSources that will make the
pvs call in order to generate a list of associated pv_name and vg_name's.
A future patch will make use of this for start/check processing to
ensure the storage pool source definition matches expectations.
https://bugzilla.redhat.com/show_bug.cgi?id=1025230
When determining whether a FS pool is mounted, rather than assuming that
the FS pool is mounted just because the target.path is in the mount list,
let's make sure that the FS pool source matches what is mounted
