NAME
Sys::Virt::Domain - Represent & manage a libvirt guest domain
DESCRIPTION
The Sys::Virt::Domain
module represents a guest domain managed by the virtual machine monitor.
METHODS
- my $id = $dom->get_id()
-
Returns an integer with a locally unique identifier for the domain.
- my $uuid = $dom->get_uuid()
-
Returns a 16 byte long string containing the raw globally unique identifier (UUID) for the domain.
- my $uuid = $dom->get_uuid_string()
-
Returns a printable string representation of the raw UUID, in the format 'XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX'.
- my $name = $dom->get_name()
-
Returns a string with a locally unique name of the domain
- my $hostname = $dom->get_hostname($flags=0)
-
Returns a string representing the hostname of the guest.
$flags
can be zero or more of - my $str = $dom->get_metadata($type, $uri, $flags =0)
-
Returns the metadata element of type
$type
associated with the domain. If$type
isSys::Virt::Domain::METADATA_ELEMENT
then the$uri
parameter specifies the XML namespace to retrieve, otherwise$uri
should beundef
. The optional$flags
parameter defaults to zero. - $dom->set_metadata($type, $val, $key, $uri, $flags=0)
-
Sets the metadata element of type
$type
to hold the value$val
. If$type
isSys::Virt::Domain::METADATA_ELEMENT
then the$key
and$uri
elements specify an XML namespace to use, otherwise they should both beundef
. The optional$flags
parameter defaults to zero. - $dom->is_active()
-
Returns a true value if the domain is currently running
- $dom->is_persistent()
-
Returns a true value if the domain has a persistent configuration file defined
- $dom->is_updated()
-
Returns a true value if the domain is running and has a persistent configuration file defined that is out of date compared to the current live config.
- my $xml = $dom->get_xml_description($flags=0)
-
Returns an XML document containing a complete description of the domain's configuration. The optional $flags parameter controls generation of the XML document, defaulting to 0 if omitted. It can be one or more of the XML DUMP constants listed later in this document.
- my $type = $dom->get_os_type()
-
Returns a string containing the name of the OS type running within the domain.
- $dom->create($flags)
-
Start a domain whose configuration was previously defined using the
define_domain
method in Sys::Virt. The$flags
parameter accepts one of the DOMAIN CREATION constants documented later, and defaults to 0 if omitted. - $dom->create_with_files($fds, $flags)
-
Start a domain whose configuration was previously defined using the
define_domain
method in Sys::Virt. The$fds
parameter is an array of UNIX file descriptors which will be passed to the init process of the container. This is only supported with container based virtualization.The$flags
parameter accepts one of the DOMAIN CREATION constants documented later, and defaults to 0 if omitted. - $dom->undefine()
-
Remove the configuration associated with a domain previously defined with the
define_domain
method in Sys::Virt. If the domain is running, you probably want to use theshutdown
ordestroy
methods instead. - $dom->suspend()
-
Temporarily stop execution of the domain, allowing later continuation by calling the
resume
method. - $dom->resume()
-
Resume execution of a domain previously halted with the
suspend
method. - $dom->pm_wakeup()
-
Wakeup the guest from power management suspend state
- $dom->pm_suspend_for_duration($target, $duration, $flags=0)
-
Tells the guest OS to enter the power management suspend state identified by
$target
. The$target
parameter should be one of the NODE SUSPEND CONSTANTS listed inSys::Virt
. The$duration
specifies when the guest should automatically wakeup. The$flags
parameter is optional and defaults to zero. - $dom->save($filename, $dxml=undef, $params=undef, $flags=0)
-
Take a snapshot of the domain's state and save the information to the file named in the
$filename
parameter. The domain can later be restored from this file with therestore_domain
method on the Sys::Virt object. The optional$dxml
parameter can be used to alter portions of the domain XML that will be used when performing restore. The$params
parameter is a hash reference whose keys is a subset of the SAVE / RESTORE PARAMETER CONSTANTS. The$flags
parameter accepts one of the SAVE / RESTORE FLAG CONSTANTS described later and defaults to zero. - $dom->managed_save($flags=0)
-
Take a snapshot of the domain's state and save the information to a managed save location. The domain will be automatically restored with this state when it is next started. The
$flags
parameter is unused and defaults to zero. - $bool = $dom->has_managed_save_image($flags=0)
-
Return a non-zero value if the domain has a managed save image that will be used at next start. The
$flags
parameter is unused and defaults to zero. - $dom->managed_save_remove($flags=0)
-
Remove the current managed save image, causing the guest to perform a full boot next time it is started. The
$flags
parameter is unused and defaults to zero. - $dom->managed_save_define_xml($xml, $flags=0)
-
Update the XML of the managed save image to
$xml
. The$flags
parameter is unused and defaults to zero. - $xml = $dom->managed_save_get_xml_description($flags=0)
-
Get the XML in the managed save image. The
$flags
parameter accepts the following constants - $dom->core_dump($filename[, $flags])
-
Trigger a core dump of the guest virtual machine, saving its memory image to
$filename
so it can be analysed by tools such ascrash
. The optional$flags
flags parameter is currently unused and if omitted will default to 0. - $dom->core_dump_format($filename, $format, [, $flags])
-
Trigger a core dump of the guest virtual machine, saving its memory image to
$filename
so it can be analysed by tools such ascrash
. The$format
parameter is one of the core dump format constants. The optional$flags
flags parameter is currently unused and if omitted will default to 0.- Sys::Virt::Domain::CORE_DUMP_FORMAT_RAW
-
The raw ELF format
- Sys::Virt::Domain::CORE_DUMP_FORMAT_KDUMP_ZLIB
-
The zlib compressed ELF format
- Sys::Virt::Domain::CORE_DUMP_FORMAT_KDUMP_SNAPPY
-
The snappy compressed ELF format
- Sys::Virt::Domain::CORE_DUMP_FORMAT_KDUMP_LZO
-
The lzo compressed ELF format
- Sys::Virt::Domain::CORE_DUMP_FORMAT_WIN_DMP
-
The Windows dump format
- $dom->destroy()
-
Immediately poweroff the machine. This is equivalent to removing the power plug. The guest OS is given no time to cleanup / save state. For a clean poweroff sequence, use the
shutdown
method instead. - my $info = $dom->get_info()
-
Returns a hash reference summarising the execution state of the domain. The elements of the hash are as follows:
- maxMem
-
The maximum memory allowed for this domain, in kilobytes
- memory
-
The current memory allocated to the domain in kilobytes
- cpuTime
-
The amount of CPU time used by the domain
- nrVirtCpu
-
The current number of virtual CPUs enabled in the domain
- state
-
The execution state of the machine, which will be one of the constants &Sys::Virt::Domain::STATE_*.
- my ($state, $reason) = $dom->get_state()
-
Returns an array whose values specify the current state of the guest, and the reason for it being in that state. The
$state
values are the same as for theget_info
API, and the$reason
values come from:- Sys::Virt::Domain::STATE_CRASHED_UNKNOWN
-
It is not known why the domain has crashed
- Sys::Virt::Domain::STATE_CRASHED_PANICKED
-
The domain has crashed due to a kernel panic
- Sys::Virt::Domain::STATE_NOSTATE_UNKNOWN
-
It is not known why the domain has no state
- Sys::Virt::Domain::STATE_PAUSED_DUMP
-
The guest is paused due to a core dump operation
- Sys::Virt::Domain::STATE_PAUSED_FROM_SNAPSHOT
-
The guest is paused due to a snapshot
- Sys::Virt::Domain::STATE_PAUSED_IOERROR
-
The guest is paused due to an I/O error
- Sys::Virt::Domain::STATE_PAUSED_MIGRATION
-
The guest is paused due to migration
- Sys::Virt::Domain::STATE_PAUSED_SAVE
-
The guest is paused due to a save operation
- Sys::Virt::Domain::STATE_PAUSED_UNKNOWN
-
It is not known why the domain has paused
- Sys::Virt::Domain::STATE_PAUSED_USER
-
The guest is paused at admin request
- Sys::Virt::Domain::STATE_PAUSED_WATCHDOG
-
The guest is paused due to the watchdog
- Sys::Virt::Domain::STATE_PAUSED_SHUTTING_DOWN
-
The guest is paused while domain shutdown takes place
- Sys::Virt::Domain::STATE_PAUSED_SNAPSHOT
-
The guest is paused while a snapshot takes place
- Sys::Virt::Domain::STATE_PAUSED_CRASHED
-
The guest is paused due to a kernel panic
- Sys::Virt::Domain::STATE_PAUSED_STARTING_UP
-
The guest is paused as it is being started up.
- Sys::Virt::Domain::STATE_PAUSED_POSTCOPY
-
The guest is paused as post-copy migration is taking place
- Sys::Virt::Domain::STATE_PAUSED_POSTCOPY_FAILED
-
The guest is paused as post-copy migration failed
- Sys::Virt::Domain::STATE_PAUSED_API_ERROR
-
The guest is paused as a result of failed resume operation at the end of some APIs which internally suspend guests.
- Sys::Virt::Domain::STATE_RUNNING_BOOTED
-
The guest is running after being booted
- Sys::Virt::Domain::STATE_RUNNING_FROM_SNAPSHOT
-
The guest is running after restore from snapshot
- Sys::Virt::Domain::STATE_RUNNING_MIGRATED
-
The guest is running after migration
- Sys::Virt::Domain::STATE_RUNNING_MIGRATION_CANCELED
-
The guest is running after migration abort
- Sys::Virt::Domain::STATE_RUNNING_RESTORED
-
The guest is running after restore from file
- Sys::Virt::Domain::STATE_RUNNING_SAVE_CANCELED
-
The guest is running after save cancel
- Sys::Virt::Domain::STATE_RUNNING_UNKNOWN
-
It is not known why the domain has started
- Sys::Virt::Domain::STATE_RUNNING_UNPAUSED
-
The guest is running after a resume
- Sys::Virt::Domain::STATE_RUNNING_WAKEUP
-
The guest is running after wakeup from power management suspend
- Sys::Virt::Domain::STATE_RUNNING_CRASHED
-
The guest was restarted after crashing
- Sys::Virt::Domain::STATE_RUNNING_POSTCOPY
-
The guest is running but post-copy is taking place
- Sys::Virt::Domain::STATE_RUNNING_POSTCOPY_FAILED
-
The guest is running, but migration failed in post-copy
- Sys::Virt::Domain::STATE_BLOCKED_UNKNOWN
-
The guest is blocked for an unknown reason
- Sys::Virt::Domain::STATE_SHUTDOWN_UNKNOWN
-
It is not known why the domain has shutdown
- Sys::Virt::Domain::STATE_SHUTDOWN_USER
-
The guest is shutdown due to admin request
- Sys::Virt::Domain::STATE_SHUTOFF_CRASHED
-
The guest is shutoff after a crash
- Sys::Virt::Domain::STATE_SHUTOFF_DESTROYED
-
The guest is shutoff after being destroyed
- Sys::Virt::Domain::STATE_SHUTOFF_FAILED
-
The guest is shutoff due to a virtualization failure
- Sys::Virt::Domain::STATE_SHUTOFF_FROM_SNAPSHOT
-
The guest is shutoff after a snapshot
- Sys::Virt::Domain::STATE_SHUTOFF_MIGRATED
-
The guest is shutoff after migration
- Sys::Virt::Domain::STATE_SHUTOFF_SAVED
-
The guest is shutoff after a save
- Sys::Virt::Domain::STATE_SHUTOFF_SHUTDOWN
-
The guest is shutoff due to controlled shutdown
- Sys::Virt::Domain::STATE_SHUTOFF_UNKNOWN
-
It is not known why the domain has shutoff
- Sys::Virt::Domain::STATE_SHUTOFF_DAEMON
-
The daemon stopped the guest due to a failure
- Sys::Virt::Domain::STATE_PMSUSPENDED_UNKNOWN
-
It is not known why the domain was suspended to RAM
- Sys::Virt::Domain::STATE_PMSUSPENDED_DISK_UNKNOWN
-
It is not known why the domain was suspended to disk
- my $info = $dom->get_control_info($flags=0)
-
Returns a hash reference providing information about the control channel. The returned keys in the hash are
state
-
One of the CONTROL INFO constants listed later
details
-
Currently unused, always 0.
stateTime
-
The elapsed time since the control channel entered the current state.
- my $time = $dom->get_time($flags=0);
-
Get the current time of the guest, in seconds and nanoseconds. The
$flags
parameter is currently unused and defaults to zero. The return value is an array ref with two elements, the first contains the time in seconds, the second contains the remaining nanoseconds. - $dom->set_time($secs, $nsecs, $flags=0);
-
Set the current time of the guest, in seconds and nanoseconds. The
$flags
parameter accepts one of - $dom->set_user_password($username, $password, $flags=0);
-
Update the password for account
$username
to be$password
.$password
is the clear-text password string unless the PASSWORD_ENCRYPTED flag is set. - $dom->rename($newname, $flags=0)
-
Change the name of an inactive guest to be
$newname
. The$flags
parameter is currently unused and defaults to zero. - my @errs = $dom->get_disk_errors($flags=0)
-
Returns a list of all disk errors that have occurred on the backing store for the guest's virtual disks. The returned array elements are hash references, containing two keys
path
-
The path of the disk with an error
error
-
The error type
- $dom->send_key($keycodeset, $holdtime, \@keycodes, $flags=0)
-
Sends a sequence of keycodes to the guest domain. The
$keycodeset
should be one of the constants listed later in the KEYCODE SET section.$holdtiem
is the duration, in milliseconds, to keep the key pressed before releasing it and sending the next keycode.@keycodes
is an array reference containing the list of keycodes to send to the guest. The elements in the array should be keycode values from the specified keycode set.$flags
is currently unused. - my $info = $dom->get_block_info($dev, $flags=0)
-
Returns a hash reference summarising the disk usage of the host backing store for a guest block device. The
$dev
parameter should be the path to the backing store on the host.$flags
is currently unused and defaults to 0 if omitted. The returned hash contains the following elements- capacity
-
Logical size in bytes of the block device backing image *
- allocation
-
Highest allocated extent in bytes of the block device backing image
- physical
-
Physical size in bytes of the container of the backing image
- $dom->set_max_memory($mem)
-
Set the maximum memory for the domain to the value
$mem
. The value of the$mem
parameter is specified in kilobytes. - $mem = $dom->get_max_memory()
-
Returns the current maximum memory allowed for this domain in kilobytes.
- $dom->set_memory($mem, $flags)
-
Set the current memory for the domain to the value
$mem
. The value of the$mem
parameter is specified in kilobytes. This must be less than, or equal to the domain's max memory limit. The$flags
parameter can control whether the update affects the live guest, or inactive config, defaulting to modifying the current state. - $dom->set_memory_stats_period($period, $flags)
-
Set the period on which guests memory stats are refreshed, with
$period
being a value in seconds. The$flags
parameter is currently unused. - $dom->shutdown()
-
Request that the guest OS perform a graceful shutdown and poweroff. This usually requires some form of cooperation from the guest operating system, such as responding to an ACPI signal, or a guest agent process. For an immediate, forceful poweroff, use the
destroy
method instead. - $dom->reboot([$flags])
-
Request that the guest OS perform a graceful shutdown and optionally restart. The optional
$flags
parameter is currently unused and if omitted defaults to zero. - $dom->reset([$flags])
-
Perform a hardware reset of the virtual machine. The guest OS is given no opportunity to shutdown gracefully. The optional
$flags
parameter is currently unused and if omitted defaults to zero. - $dom->get_max_vcpus()
-
Return the maximum number of vcpus that are configured for the domain
- $dom->attach_device($xml[, $flags])
-
Hotplug a new device whose configuration is given by
$xml
, to the running guest. The optional <$flags> parameter defaults to 0, but can accept one of the device hotplug flags described later. - $dom->detach_device($xml[, $flags])
-
Hotunplug an existing device whose configuration is given by
$xml
, from the running guest. The optional <$flags> parameter defaults to 0, but can accept one of the device hotplug flags described later. - $dom->detach_device_alias($alias[, $flags])
-
Hotunplug an existing device which is identified by
$alias
. The optional <$flags> parameter defaults to 0, but can accept one of the device hotplug flags described later. - $dom->update_device($xml[, $flags])
-
Update the configuration of an existing device. The new configuration is given by
$xml
. The optional <$flags> parameter defaults to 0 but can accept one of the device hotplug flags described later. - $data = $dom->block_peek($path, $offset, $size[, $flags])
-
Peek into the guest disk
$path
, at byte$offset
capturing$size
bytes of data. The returned scalar may contain embedded NULLs. The optional$flags
parameter is currently unused and if omitted defaults to zero. - $data = $dom->memory_peek($offset, $size[, $flags])
-
Peek into the guest memory at byte
$offset
virtual address, capturing$size
bytes of memory. The return scalar may contain embedded NULLs. The optional$flags
parameter is currently unused and if omitted defaults to zero. - $flag = $dom->get_autostart();
-
Return a true value if the guest domain is configured to automatically start upon boot. Return false, otherwise
- $dom->set_autostart($flag)
-
Set the state of the autostart flag, which determines whether the guest will automatically start upon boot of the host OS
- $dom->set_vcpus($count, [$flags])
-
Set the number of virtual CPUs in the guest VM to
$count
. The optional$flags
parameter can be used to control whether the setting changes the live config or inactive config. - $dom->set_vcpu($cpumap, $state, [$flags])
-
Set the state of the CPUs in
$cpumap
to$state
. The$flags
parameter defaults to zero if not present. - $count = $dom->get_vcpus([$flags])
-
Get the number of virtual CPUs in the guest VM. The optional
$flags
parameter can be used to control whether to query the setting of the live config or inactive config. - $dom->set_guest_vcpus($cpumap, $state, [$flags=0])
-
Set the online status of the guest OS CPUs. The
$cpumap
parameter describes the set of CPUs to modify (e.g. "0-3,^1").$state
is either 1 to set the CPUs online, or 0 to set them offline. The$flags
parameter is currently unused and defaults to 0. - $info $dom->get_guest_vcpus([$flags=0])
-
Query information about the guest OS CPUs. The returned data is a hash reference with the following keys.
- vcpus
-
String containing bitmap representing CPU ids reported currently known to the guest.
- online
-
String containing bitmap representing CPU ids that are currently online in the guest.
- offlinable
-
String containing bitmap representing CPU ids that can be offlined in the guest.
The
$flags
parameter is currently unused and defaults to 0. - $type = $dom->get_scheduler_type()
-
Return the scheduler type for the guest domain
- $stats = $dom->block_stats($path)
-
Fetch the current I/O statistics for the block device given by
$path
. The returned hash reference contains keys forrd_req
-
Number of read requests
rd_bytes
-
Number of bytes read
wr_req
-
Number of write requests
wr_bytes
-
Number of bytes written
errs
-
Some kind of error count
- my $params = $dom->get_scheduler_parameters($flags=0)
-
Return the set of scheduler tunable parameters for the guest, as a hash reference. The precise set of keys in the hash are specific to the hypervisor.
- $dom->set_scheduler_parameters($params, $flags=0)
-
Update the set of scheduler tunable parameters. The value names for tunables vary, and can be discovered using the
get_scheduler_params
call - my $params = $dom->get_memory_parameters($flags=0)
-
Return a hash reference containing the set of memory tunable parameters for the guest. The keys in the hash are one of the constants MEMORY PARAMETERS described later. The
$flags
parameter accepts one or more the CONFIG OPTION constants documented later, and defaults to 0 if omitted. - $dom->set_memory_parameters($params, $flags=0)
-
Update the memory tunable parameters for the guest. The
$params
should be a hash reference whose keys are one of the MEMORY PARAMETERS constants. The$flags
parameter accepts one or more the CONFIG OPTION constants documented later, and defaults to 0 if omitted. - my $params = $dom->get_blkio_parameters($flags=0)
-
Return a hash reference containing the set of blkio tunable parameters for the guest. The keys in the hash are one of the constants BLKIO PARAMETERS described later. The
$flags
parameter accepts one or more the CONFIG OPTION constants documented later, and defaults to 0 if omitted. - $dom->set_blkio_parameters($params, $flags=0)
-
Update the blkio tunable parameters for the guest. The
$params
should be a hash reference whose keys are one of the BLKIO PARAMETERS constants. The$flags
parameter accepts one or more the CONFIG OPTION constants documented later, and defaults to 0 if omitted. - $stats = $dom->get_block_iotune($disk, $flags=0)
-
Return a hash reference containing the set of blkio tunable parameters for the guest disk
$disk
. The keys in the hash are one of the constants BLOCK IOTUNE PARAMETERS described later. - $dom->set_block_iotune($disk, $params, $flags=0);
-
Update the blkio tunable parameters for the guest disk
$disk
. The$params
should be a hash reference whose keys are one of the BLOCK IOTUNE PARAMETERS constants. - my $params = $dom->get_interface_parameters($intf, $flags=0)
-
Return a hash reference containing the set of interface tunable parameters for the guest. The keys in the hash are one of the constants INTERFACE PARAMETERS described later.
- $dom->set_interface_parameters($intf, $params, $flags=0)
-
Update the interface tunable parameters for the guest. The
$params
should be a hash reference whose keys are one of the INTERFACE PARAMETERS constants. - my $params = $dom->get_numa_parameters($flags=0)
-
Return a hash reference containing the set of numa tunable parameters for the guest. The keys in the hash are one of the constants NUMA PARAMETERS described later. The
$flags
parameter accepts one or more the CONFIG OPTION constants documented later, and defaults to 0 if omitted. - $dom->set_numa_parameters($params, $flags=0)
-
Update the numa tunable parameters for the guest. The
$params
should be a hash reference whose keys are one of the NUMA PARAMETERS constants. The$flags
parameter accepts one or more the CONFIG OPTION constants documented later, and defaults to 0 if omitted. - my $params = $dom->get_perf_events($flags=0)
-
Return a hash reference containing the set of performance events that are available for the guest. The keys in the hash are one of the constants PERF EVENTS described later. The
$flags
parameter accepts one or more the CONFIG OPTION constants documented later, and defaults to 0 if omitted. - $dom->set_perf_events($params, $flags=0)
-
Update the enabled state for performance events for the guest. The
$params
should be a hash reference whose keys are one of the PERF EVENTS constants. The$flags
parameter accepts one or more the CONFIG OPTION constants documented later, and defaults to 0 if omitted. - $dom->block_resize($disk, $newsize, $flags=0)
-
Resize the disk
$disk
to have new size$newsize
KB. If the disk is backed by a special image format, the actual resize is done by the hypervisor. If the disk is backed by a raw file, or block device, the resize must be done prior to invoking this API call, and it merely updates the hypervisor's view of the disk size. The following flags may be used - $dom->interface_stats($path)
-
Fetch the current I/O statistics for the block device given by
$path
. The returned hash contains keys forrx_bytes
-
Total bytes received
rx_packets
-
Total packets received
rx_errs
-
Total packets received with errors
rx_drop
-
Total packets drop at reception
tx_bytes
-
Total bytes transmitted
tx_packets
-
Total packets transmitted
tx_errs
-
Total packets transmitted with errors
tx_drop
-
Total packets dropped at transmission.
- $dom->memory_stats($flags=0)
-
Fetch the current memory statistics for the guest domain. The
$flags
parameter is currently unused and can be omitted. The returned hash contains keys forswap_in
-
Data read from swap space
swap_out
-
Data written to swap space
major_fault
-
Page fault involving disk I/O
minor_fault
-
Page fault not involving disk I/O
unused
-
Memory not used by the system
available
-
Total memory seen by guest
rss
-
Resident set size. Size of memory resident in host RAM.
- $info = $dom->get_security_label()
-
Fetch information about the security label assigned to the guest domain. The returned hash reference has two keys,
model
gives the name of the security model in effect (e.g.selinux
), whilelabel
provides the name of the security label applied to the domain. This method only returns information about the first security label. To retrieve all labels, useget_security_label_list
. - @info = $dom->get_security_label_list()
-
Fetches information about all security labels assigned to the guest domain. The elements in the returned array are all hash references, whose keys are as described for
get_security_label
. - $ddom = $dom->migrate(destcon, \%params, flags=0)
-
Migrate a domain to an alternative host. The
destcon
parameter should be aSys::Virt
connection to the remote target host. Theflags
parameter takes one or more of theSys::Virt::Domain::MIGRATE_XXX
constants described later in this document. The%params
parameter is a hash reference used to set various parameters for the migration operation, with the following valid keys.Sys::Virt::Domain::MIGRATE_PARAM_URI
-
The URI to use for initializing the domain migration. It takes a hypervisor specific format. The uri_transports element of the hypervisor capabilities XML includes details of the supported URI schemes. When omitted libvirt will auto-generate suitable default URI. It is typically only necessary to specify this URI if the destination host has multiple interfaces and a specific interface is required to transmit migration data.
Sys::Virt::Domain::MIGRATE_PARAM_DEST_NAME
-
The name to be used for the domain on the destination host. Omitting this parameter keeps the domain name the same. This field is only allowed to be used with hypervisors that support domain renaming during migration.
Sys::Virt::Domain::MIGRATE_PARAM_DEST_XML
-
The new configuration to be used for the domain on the destination host. The configuration must include an identical set of virtual devices, to ensure a stable guest ABI across migration. Only parameters related to host side configuration can be changed in the XML. Hypervisors which support this field will forbid migration if the provided XML would cause a change in the guest ABI. This field cannot be used to rename the domain during migration (use VIR_MIGRATE_PARAM_DEST_NAME field for that purpose). Domain name in the destination XML must match the original domain name.
Omitting this parameter keeps the original domain configuration. Using this field with hypervisors that do not support changing domain configuration during migration will result in a failure.
Sys::Virt::Domain::MIGRATE_PARAM_GRAPHICS_URI
-
URI to use for migrating client's connection to domain's graphical console as VIR_TYPED_PARAM_STRING. If specified, the client will be asked to automatically reconnect using these parameters instead of the automatically computed ones. This can be useful if, e.g., the client does not have a direct access to the network virtualization hosts are connected to and needs to connect through a proxy. The URI is formed as follows:
protocol://hostname[:port]/[?parameters]
where protocol is either "spice" or "vnc" and parameters is a list of protocol specific parameters separated by '&'. Currently recognized parameters are "tlsPort" and "tlsSubject". For example,
spice://target.host.com:1234/?tlsPort=4567
Sys::Virt::Domain::MIGRATE_PARAM_BANDWIDTH
-
The maximum bandwidth (in MiB/s) that will be used for migration. If set to 0 or omitted, libvirt will choose a suitable default. Some hypervisors do not support this feature and will return an error if this field is used and is not 0.
Sys::Virt::Domain::MIGRATE_PARAM_BANDWIDTH_POSTCOPY
-
The maximum bandwidth (in MiB/s) that will be used for migration during post-copy phase. If set to 0 or omitted, libvirt will choose a suitable default. Some hypervisors do not support this feature and return an error if this field is used and is not 0.
Sys::Virt::Domain::MIGRATE_PARAM_LISTEN_ADDRESS
-
The address on which to listen for incoming migration connections. If omitted, libvirt will listen on the wildcard address (0.0.0.0 or ::). This default may be a security risk if guests, or other untrusted users have the ability to connect to the virtualization host, thus use of an explicit restricted listen address is recommended.
Sys::Virt::Domain::MIGRATE_PARAM_DISK_PORT
-
Port that destination server should use for incoming disks migration. Type is VIR_TYPED_PARAM_INT. If set to 0 or omitted, libvirt will choose a suitable default. At the moment this is only supported by the QEMU driver.
Sys::Virt::Domain::MIGRATE_PARAM_MIGRATE_DISKS
-
The list of disks to migrate when doing block storage migration. In contrast to other parameters whose values are plain strings, the parameter value should be an array reference, whose elements are in turn strings representing the disk target names.
Sys::Virt::Domain::MIGRATE_PARAM_COMPRESSION
-
The type of compression method use use, either
xbzrle
ormt
. Sys::Virt::Domain::MIGRATE_PARAM_COMPRESSION_MT_THREADS
-
The number of compression threads to use
Sys::Virt::Domain::MIGRATE_PARAM_COMPRESSION_MT_DTHREADS
-
The number of decompression threads
Sys::Virt::Domain::MIGRATE_PARAM_COMPRESSION_MT_LEVEL
-
The compression level from 0 (no compression) to 9 (maximum compression)
Sys::Virt::Domain::MIGRATE_PARAM_COMPRESSION_XBZRLE_CACHE
-
The size of the cache for xbzrle compression
Sys::Virt::Domain::MIGRATE_PARAM_PERSIST_XML
-
The alternative persistent XML config to copy
Sys::Virt::Domain::MIGRATE_PARAM_AUTO_CONVERGE_INITIAL
-
The initial percentage to throttle guest vCPUs
Sys::Virt::Domain::MIGRATE_PARAM_AUTO_CONVERGE_INCREMENT
-
The additional percentage step size to throttle guest vCPUs if progress is not made
Sys::Virt::Domain::MIGRATE_PARAM_PARALLEL_CONNECTIONS
-
The number of connections used during parallel migration.
Sys::Virt::Domain::MIGRATE_PARAM_TLS_DESTINATION
-
Override the destination host name used for TLS verification. Normally the TLS certificate from the destination host must match the host's name for TLS verification to succeed. When the certificate does not match the destination hostname and the expected certificate's hostname is known, this parameter can be used to pass this expected hostname when starting the migration.
Sys::Virt::Domain::MIGRATE_PARAM_DISKS_URI
-
The URI to use for initializing the domain migration for storage. It takes a hypervisor specific format. The uri_transports element of the hypervisor capabilities XML includes details of the supported URI schemes. When omitted libvirt will auto-generate suitable default URI. It is typically only necessary to specify this URI if the destination host has multiple interfaces and a specific interface is required to transmit storage data.
Sys::Virt::Domain::MIGRATE_PARAM_ZLIB_LEVEL
-
The level of compression for zlib. Accepted values are in range 0-9. 0 is no compression, 1 is maximum speed and 9 is maximum compression.
Sys::Virt::Domain::MIGRATE_PARAM_ZSTD_LEVEL
-
The level of compression for zstd. Accepted values are in range 0-20. 0 is no compression, 1 is maximum speed and 20 is maximum compression.
- $ddom = $dom->migrate(destcon, flags=0, dname=undef, uri=undef, bandwidth=0)
-
Migrate a domain to an alternative host. Use of positional parameters with
migrate
is deprecated in favour of passing a hash reference as described above. - $ddom = $dom->migrate2(destcon, dxml, flags, dname, uri, bandwidth)
-
Migrate a domain to an alternative host. This method is deprecated in favour of passing a hash ref to
migrate
. - $ddom = $dom->migrate_to_uri(desturi, \%params, flags=0)
-
Migrate a domain to an alternative host. The
desturi
parameter should be a valid libvirt connection URI for the remote target host. Theflags
parameter takes one or more of theSys::Virt::Domain::MIGRATE_XXX
constants described later in this document. The%params
parameter is a hash reference used to set various parameters for the migration operation, with the same keys described for themigrate
API. - $dom->migrate_to_uri(desturi, flags, dname, bandwidth)
-
Migrate a domain to an alternative host. Use of positional parameters with
migrate_to_uri
is deprecated in favour of passing a hash reference as described above. - $dom->migrate_to_uri2(dconnuri, miguri, dxml, flags, dname, bandwidth)
-
Migrate a domain to an alternative host. This method is deprecated in favour of passing a hash ref to
migrate_to_uri
. - $dom->migrate_set_max_downtime($downtime, $flags=0)
-
Set the maximum allowed downtime during migration of the guest. A longer downtime makes it more likely that migration will complete, at the cost of longer time blackout for the guest OS at the switch over point. The
downtime
parameter is measured in milliseconds. The$flags
parameter is currently unused and defaults to zero. - $downtime = $dom->migrate_get_max_downtime($flags=0) Get the current value of the maximum downtime allowed during a migration of a guest. The returned <downtime> value is measured in milliseconds. The
$flags
parameter is currently unused and defaults to zero. - $dom->migrate_set_max_speed($bandwidth, $flags=0)
-
Set the maximum allowed bandwidth during migration of the guest. The
bandwidth
parameter is measured in MB/second. The$flags
parameter takes zero or more of the constants: - $bandwidth = $dom->migrate_get_max_speed($flags=0)
-
Get the maximum allowed bandwidth during migration fo the guest. The returned <bandwidth> value is measured in MB/second. The
$flags
parameter is accepts the same constants asmigrate_set_max_speed
. - $dom->migrate_set_compression_cache($cacheSize, $flags=0)
-
Set the maximum allowed compression cache size during migration of the guest. The
cacheSize
parameter is measured in bytes. The$flags
parameter is currently unused and defaults to zero. - $cacheSize = $dom->migrate_get_compression_cache($flags=0)
-
Get the maximum allowed compression cache size during migration of the guest. The returned <bandwidth> value is measured in bytes. The
$flags
parameter is currently unused and defaults to zero. - $dom->migrate_start_post_copy($flags=0)
-
Switch the domain from pre-copy to post-copy mode. This requires that the original migrate command had the
Sys::Virt::Domain::MIGRATE_POST_COPY
flag specified. - $dom->inject_nmi($flags)
-
Trigger an NMI in the guest virtual machine. The
$flags
parameter is currently unused and defaults to 0. - $dom->open_console($st, $devname, $flags)
-
Open the text console for a serial, parallel or paravirt console device identified by
$devname
, connecting it to the stream$st
. If$devname
is undefined, the default console will be opened.$st
must be aSys::Virt::Stream
object used for bi-directional communication with the console.$flags
is currently unused, defaulting to 0. - $dom->open_channel($st, $devname, $flags)
-
Open the text console for a data channel device identified by
$devname
, connecting it to the stream$st
.$st
must be aSys::Virt::Stream
object used for bi-directional communication with the channel.$flags
is currently unused, defaulting to 0. - $dom->open_graphics($idx, $fd, $flags)
-
Open the graphics console for a guest, identified by
$idx
, counting from 0. The$fd
should be a file descriptor for an anonymous socket pair. The$flags
argument should be one of the constants listed at the end of this document, and defaults to 0. - $fd = $dom->open_graphics_fd($idx, $flags)
-
Open the graphics console for a guest, identified by
$idx
, counting from 0. The$flags
argument should be one of the constants listed at the end of this document, and defaults to 0. The return value will be a file descriptor connected to the console which must be closed when no longer needed. This method is preferred overopen_graphics
since it will work correctly under sVirt mandatory access control policies. - my $mimetype = $dom->screenshot($st, $screen, $flags)
-
Capture a screenshot of the virtual machine's monitor. The
$screen
parameter controls which monitor is captured when using a multi-head or multi-card configuration.$st
must be aSys::Virt::Stream
object from which the data can be read.$flags
is currently unused and defaults to 0. The mimetype of the screenshot is returned - @vcpuinfo = $dom->get_vcpu_info($flags=0)
-
Obtain information about the state of all virtual CPUs in a running guest domain. The returned list will have one element for each vCPU, where each elements contains a hash reference. The keys in the hash are,
number
the vCPU number,cpu
the physical CPU on which the vCPU is currently scheduled,cpuTime
the cumulative execution time of the vCPU,state
the running state andaffinity
giving the allowed scheduler placement. The value foraffinity
is a string representing a bitmask against physical CPUs, 8 cpus per character. To extract the bits use theunpack
function with theb*
template. NB Thestate
,cpuTime
,cpu
values are only available if using$flags
value of 0, and the domain is currently running; otherwise they will all be set to zero. - $dom->pin_vcpu($vcpu, $mask)
-
Pin the virtual CPU given by index
$vcpu
to physical CPUs given by$mask
. The$mask
is a string representing a bitmask against physical CPUs, 8 cpus per character. - $mask = $dom->get_emulator_pin_info()
-
Obtain information about the CPU affinity of the emulator process. The returned
$mask
is a bitstring against physical CPUs, 8 cpus per character. To extract the bits use theunpack
function with theb*
template. - $dom->pin_emulator($newmask, $flags=0)
-
Pin the emulator threads to the physical CPUs identified by the affinity in
$newmask
. The$newmask
is a bitstring against the physical CPUa, 8 cpus per character. To create a suitable bitstring, use thevec
function with a value of1
for theBITS
parameter. - @iothreadinfo = $dom->get_iothread_info($flags=0)
-
Obtain information about the state of all IOThreads in a running guest domain. The returned list will have one element for each IOThread, where each elements contains a hash reference. The keys in the hash are,
number
the IOThread number andaffinity
giving the allowed scheduler placement. The value foraffinity
is a string representing a bitmask against physical CPUs, 8 cpus per character. To extract the bits use theunpack
function with theb*
template. - $dom->pin_iothread($iothread, $mask)
-
Pin the IOThread given by index
$iothread
to physical CPUs given by$mask
. The$mask
is a string representing a bitmask against physical CPUs, 8 cpus per character. - $dom->add_iothread($iothread, $flags=0)
-
Add a new IOThread by the
$iothread
value to the guest domain. The$flags
parameter accepts one or more the CONFIG OPTION constants documented later, and defaults to 0 if omitted. - $dom->del_iothread($iothread, $flags=0)
-
Delete an existing IOThread by the
$iothread
value from the guest domain. The$flags
parameter accepts one or more the CONFIG OPTION constants documented later, and defaults to 0 if omitted. - $dom->set_iothread($iothread, $params, $flags=0)
-
Set parameters for the IOThread by the
$iothread
value on the guest domain. The$params
parameter is a hash reference whose keys are theIOTHREAD STATS
constants documented later. The$flags
parameter accepts one or more the CONFIG OPTION constants documented later, and defaults to 0 if omitted. - my @stats = $dom->get_cpu_stats($startCpu, $numCpus, $flags=0)
-
Requests the guests host physical CPU usage statistics, starting from host CPU <$startCpu> counting up to
$numCpus
. If$startCpu
is -1 and$numCpus
is 1, then the utilization across all CPUs is returned. Returns an array of hash references, each element containing stats for one CPU. - my $info = $dom->get_job_info()
-
Returns a hash reference summarising the execution state of the background job. The elements of the hash are as follows:
- type
-
The type of job, one of the JOB TYPE constants listed later in this document.
- timeElapsed
-
The elapsed time in milliseconds
- timeRemaining
-
The expected remaining time in milliseconds. Only set if the
type
is JOB_UNBOUNDED. - dataTotal
-
The total amount of data expected to be processed by the job, in bytes.
- dataProcessed
-
The current amount of data processed by the job, in bytes.
- dataRemaining
-
The expected amount of data remaining to be processed by the job, in bytes.
- memTotal
-
The total amount of memory expected to be processed by the job, in bytes.
- memProcessed
-
The current amount of memory processed by the job, in bytes.
- memRemaining
-
The expected amount of memory remaining to be processed by the job, in bytes.
- fileTotal
-
The total amount of file expected to be processed by the job, in bytes.
- fileProcessed
-
The current amount of file processed by the job, in bytes.
- fileRemaining
-
The expected amount of file remaining to be processed by the job, in bytes.
- my ($type, $stats) = $dom->get_job_stats($flags=0)
-
Returns an array summarising the execution state of the background job. The
$type
value is one of the JOB TYPE constants listed later in this document. The$stats
value is a hash reference, whose elements are one of the following constants.- type
-
The type of job, one of the JOB TYPE constants listed later in this document.
The
$flags
parameter defaults to zero and can take one of the following constants. - Sys::Virt::Domain::JOB_TIME_ELAPSED
-
The elapsed time in milliseconds
- Sys::Virt::Domain::JOB_TIME_ELAPSED_NET
-
Time in milliseconds since the beginning of the migration job NOT including the time required to transfer control flow from the source host to the destination host.
- Sys::Virt::Domain::JOB_TIME_REMAINING
-
The expected remaining time in milliseconds. Only set if the
type
is JOB_UNBOUNDED. - Sys::Virt::Domain::JOB_DATA_TOTAL
-
The total amount of data expected to be processed by the job, in bytes.
- Sys::Virt::Domain::JOB_DATA_PROCESSED
-
The current amount of data processed by the job, in bytes.
- Sys::Virt::Domain::JOB_DATA_REMAINING
-
The expected amount of data remaining to be processed by the job, in bytes.
- Sys::Virt::Domain::JOB_MEMORY_TOTAL
-
The total amount of memory expected to be processed by the job, in bytes.
- Sys::Virt::Domain::JOB_MEMORY_PROCESSED
-
The current amount of memory processed by the job, in bytes.
- Sys::Virt::Domain::JOB_MEMORY_REMAINING
-
The expected amount of memory remaining to be processed by the job, in bytes.
- Sys::Virt::Domain::JOB_MEMORY_CONSTANT
-
The number of pages filled with a constant byte which have been transferred
- Sys::Virt::Domain::JOB_MEMORY_NORMAL
-
The number of pages transferred without any compression
- Sys::Virt::Domain::JOB_MEMORY_NORMAL_BYTES
-
The number of bytes transferred without any compression
- Sys::Virt::Domain::JOB_MEMORY_BPS
-
The bytes per second transferred
- Sys::Virt::Domain::JOB_MEMORY_DIRTY_RATE
-
The number of memory pages dirtied per second
- Sys::Virt::Domain::JOB_MEMORY_PAGE_SIZE
-
The memory page size in bytes
- Sys::Virt::Domain::JOB_MEMORY_ITERATION
-
The total number of iterations over guest memory
- Sys::Virt::Domain::JOB_MEMORY_POSTCOPY_REQS
-
The number of page requests received from the destination host during post-copy migration.
- Sys::Virt::Domain::JOB_DISK_TOTAL
-
The total amount of file expected to be processed by the job, in bytes.
- Sys::Virt::Domain::JOB_DISK_PROCESSED
-
The current amount of file processed by the job, in bytes.
- Sys::Virt::Domain::JOB_DISK_REMAINING
-
The expected amount of file remaining to be processed by the job, in bytes.
- Sys::Virt::Domain::JOB_DISK_BPS
-
The bytes per second transferred
- Sys::Virt::Domain::JOB_AUTO_CONVERGE_THROTTLE
-
The percentage by which vCPUs are currently throttled
- Sys::Virt::Domain::JOB_COMPRESSION_CACHE
-
The size of the compression cache in bytes
- Sys::Virt::Domain::JOB_COMPRESSION_BYTES
-
The number of compressed bytes transferred
- Sys::Virt::Domain::JOB_COMPRESSION_PAGES
-
The number of compressed pages transferred
- Sys::Virt::Domain::JOB_COMPRESSION_CACHE_MISSES
-
The number of changing pages not in compression cache
- Sys::Virt::Domain::JOB_COMPRESSION_OVERFLOW
-
The number of changing pages in the compression cache but sent uncompressed since the compressed page was larger than the non-compressed page.
- Sys::Virt::Domain::JOB_DOWNTIME
-
The number of milliseconds of downtime expected during migration switchover.
- Sys::Virt::Domain::JOB_DOWNTIME_NET
-
Real measured downtime (ms) NOT including the time required to transfer control flow from the source host to the destination host.
- Sys::Virt::Domain::JOB_SETUP_TIME
-
The number of milliseconds of time doing setup of the job
- Sys::Virt::Domain::JOB_OPERATION
-
The type of operation associated with the job
- Sys::Virt::Domain::JOB_SUCCESS
-
Whether the job was successfully completed.
- Sys::Virt::Domain::JOB_DISK_TEMP_TOTAL
-
Possible total temporary disk space for the job in bytes
- Sys::Virt::Domain::JOB_DISK_TEMP_USED
-
Current total temporary disk space for the job in bytes
- Sys::Virt::Domain::JOB_ERRMSG
-
The error message from a failed job
The values for the Sys::Virt::Domain::JOB_OPERATION field are
- Sys::Virt::Domain::JOB_OPERATION_UNKNOWN
-
No known job type
- Sys::Virt::Domain::JOB_OPERATION_START
-
The guest is starting
- Sys::Virt::Domain::JOB_OPERATION_SAVE
-
The guest is saving to disk
- Sys::Virt::Domain::JOB_OPERATION_RESTORE
-
The guest is restoring from disk
- Sys::Virt::Domain::JOB_OPERATION_MIGRATION_IN
-
The guest is migrating in from another host
- Sys::Virt::Domain::JOB_OPERATION_MIGRATION_OUT
-
The guest is migrating out to another host
- Sys::Virt::Domain::JOB_OPERATION_SNAPSHOT
-
The guest is saving a snapshot
- Sys::Virt::Domain::JOB_OPERATION_SNAPSHOT_REVERT
-
The guest is reverting to a snapshot
- Sys::Virt::Domain::JOB_OPERATION_DUMP
-
The guest is saving a crash dump
- Sys::Virt::Domain::JOB_OPERATION_BACKUP
-
The guest is performing a block backup
- Sys::Virt::Domain::JOB_OPERATION_SNAPSHOT_DELETE
-
The guest is deleting a snapshot
- $dom->abort_job($flags=0)
-
Aborts the currently executing job. Valid
$flags
include: - my $info = $dom->get_block_job_info($path, $flags=0)
-
Returns a hash reference summarising the execution state of the block job. The
$path
parameter should be the fully qualified path of the block device being changed. Valid$flags
include: - $dom->set_block_job_speed($path, $bandwidth, $flags=0)
-
Change the maximum I/O bandwidth used by the block job that is currently executing for
$path
. The$bandwidth
argument is specified in MB/s. The$flags
parameter can take the bitwise union of the values: - $dom->abort_block_job($path, $flags=0)
-
Abort the current job that is executing for the block device associated with
$path
- $dom->block_pull($path, $bandwidth, $flags=0)
-
Merge the backing files associated with
$path
into the top level file. The$bandwidth
parameter specifies the maximum I/O rate to allow in MB/s. The$flags
parameter can take the bitwise union of the values: - $dom->block_rebase($path, $base, $bandwidth, $flags=0)
-
Switch the backing path associated with
$path
to instead use$base
. The$bandwidth
parameter specifies the maximum I/O rate to allow in MB/s. The$flags
parameter can take the bitwise union of the values: - $dom->block_copy($path, $destxml, $params, $flags=0)
-
Copy contents of a disk image <$path> into the target volume described by
$destxml
which follows the schema of the <disk> element in the domain XML. The$params
parameter is a hash of optional parameters to control the process - $dom->block_commit($path, $base, $top, $bandwidth, $flags=0)
-
Commit changes there were made to the temporary top level file
$top
. Takes all the differences between$top
and$base
and merge them into$base
. The$bandwidth
parameter specifies the maximum I/O rate to allow in MB/s. The$flags
parameter can take the bitwise union of the values: - $count = $dom->num_of_snapshots()
-
Return the number of saved snapshots of the domain
- @names = $dom->list_snapshot_names()
-
List the names of all saved snapshots. The names can be used with the
lookup_snapshot_by_name
- @snapshots = $dom->list_snapshots()
-
Return a list of all snapshots currently known to the domain. The elements in the returned list are instances of the Sys::Virt::DomainSnapshot class. This method requires O(n) RPC calls, so the
list_all_snapshots
method is recommended as a more efficient alternative. - my @snapshots = $dom->list_all_snapshots($flags)
-
Return a list of all domain snapshots associated with this domain. The elements in the returned list are instances of the Sys::Virt::DomainSnapshot class. The
$flags
parameter can be used to filter the list of return domain snapshots. - my $snapshot = $dom->get_snapshot_by_name($name)
-
Return the domain snapshot with a name of
$name
. The returned object is an instance of the Sys::Virt::DomainSnapshot class. - $dom->has_current_snapshot()
-
Returns a true value if the domain has a currently active snapshot
- $snapshot = $dom->current_snapshot()
-
Returns the currently active snapshot for the domain.
- $snapshot = $dom->create_snapshot($xml[, $flags])
-
Create a new snapshot from the
$xml
. The$flags
parameter accepts the SNAPSHOT CREATION constants listed inSys::Virt::DomainSnapshots
. - my @checkpoints = $dom->list_all_checkpoints($flags)
-
Return a list of all domain checkpoints associated with this domain. The elements in the returned list are instances of the Sys::Virt::DomainCheckpoint class. The
$flags
parameter can be used to filter the list of return domain checkpoints. - my $checkpoint = $dom->get_checkpoint_by_name($name)
-
Return the domain checkpoint with a name of
$name
. The returned object is an instance of the Sys::Virt::DomainCheckpoint class. - $checkpoint = $dom->create_checkpoint($xml[, $flags])
-
Create a new checkpoint from the
$xml
. The$flags
parameter accepts the CHECKPOINT CREATION constants listed inSys::Virt::DomainCheckpoints
. - $dom->backup_begin($backupxml, $checkpointxml=undef, $flags=0);
-
Start a point-in-time backup job for the specified disks of a running domain. The
$backupxml
parameter describes the backup operation, including which disks to use. The optional$checkpointxml
parameter can be used to create a checkpoint covering to the same point in time as the backup. The optional$flags
parameter can be one of the following constants: - $xml = $dom->backup_get_xml_description($flags=0);
-
Get the XML description of the currently executing backup job. If there is no backup job then an error is raised.
- $dom->fs_trim($mountPoint, $minimum, $flags=0);
-
Issue an FS_TRIM command to the device at
$mountPoint
to remove chunks of unused space that are at least$minimum
bytes in length.$flags
is currently unused and defaults to zero. - $dom->fs_freeze(\@mountPoints, $flags=0);
-
Freeze all the filesystems associated with the
@mountPoints
array reference. If <@mountPoints> is an empty list, then all filesystems will be frozen.$flags
is currently unused and defaults to zero. - $dom->fs_thaw(\@mountPoints, $flags=0);
-
Thaw all the filesystems associated with the
@mountPoints
array reference. If <@mountPoints> is an empty list, then all filesystems will be thawed.$flags
is currently unused and defaults to zero. - @fslist = $dom->get_fs_info($flags=0);
-
Obtain a list of all guest filesystems. The returned list will contain one element for each filesystem, whose value will be a hash reference with the following keys
- name
-
The name of the guest device that is mounted
- fstype
-
The filesystem type (e.g. 'ext4', 'fat', 'ntfs', etc)
- mountpoint
-
The location in the filesystem tree of the mount
- devalias
-
An array reference containing list of device aliases associated with the guest device. The device aliases correspond to disk target names in the guest XML configuration
- @nics = $dom->get_interface_addresses($src, $flags=0);
-
Obtain a list of all guest network interfaces. The
$src
parameter is one of the constants- Sys::Virt::Domain::INTERFACE_ADDRESSES_SRC_LEASE
-
Extract the DHCP server lease information
- Sys::Virt::Domain::INTERFACE_ADDRESSES_SRC_AGENT
-
Query the guest OS via an agent
- Sys::Virt::Domain::INTERFACE_ADDRESSES_SRC_ARP
-
Extract from the local ARP tables
The returned list will contain one element for each interface. The values in the list will be a hash reference with the following keys
- name
-
The name of the guest interface that is mounted
- hwaddr
-
The hardware address, aka MAC, if available.
- addrs
-
An array reference containing list of IP addresses associated with the guest NIC. Each element in the array is a further hash containing
- addr
-
The IP address string
- prefix
-
The IP address network prefix
- type
-
The IP address type (IPv4 vs IPv6)
- $dom->send_process_signal($pid, $signum, $flags=0);
-
Send the process
$pid
the signal$signum
. The$signum
value must be one of the constants listed later, not a POSIX or Linux signal value.$flags
is currently unused and defaults to zero. - $dom->set_block_threshold($dev, $threshold, $flags=0);
-
Set the threshold level for delivering the EVENT_ID_BLOCK_THRESHOLD if the device or backing chain element described by
$dev
is written beyond the set$threshold
level. The threshold level is unset once the event fires. The event might not be delivered at all if libvirtd was not running at the moment when the threshold was reached. - $dom->set_lifecycle_action($type, $action, $flags=0)
-
Changes the actions of lifecycle events for domain represented as <on_$type>$action</on_$type> in the domain XML.
- $info = $dom->get_launch_security_info($flags=0)
-
Get information about the domain launch security policy.
$flags
is currently unused and defaults to zero. The returned hash may contain the following keys- Sys::Virt::Domain::LAUNCH_SECURITY_SEV_MEASUREMENT
-
The AMD SEV launch measurement
- Sys::Virt::Domain::LAUNCH_SECURITY_SEV_API_MAJOR
-
The host SEV API major version
- Sys::Virt::Domain::LAUNCH_SECURITY_SEV_API_MINOR
-
The host SEV API minor version
- Sys::Virt::Domain::LAUNCH_SECURITY_SEV_BUILD_ID
-
The host SEV firmware build ID
- Sys::Virt::Domain::LAUNCH_SECURITY_SEV_POLICY
-
The guest SEV policy
- $dom->set_launch_security_state(\%params, $flags=0)
-
Set information about the domain launch security state.
$flags
is currently unused and defaults to zero. The provided hash may contain the following keys- Sys::Virt::Domain::LAUNCH_SECURITY_SEV_SECRET
-
The SEV secret string to inject
- Sys::Virt::Domain::LAUNCH_SECURITY_SEV_SECRET_HEADER
-
The SEV secret header string to inject
- Sys::Virt::Domain::LAUNCH_SECURITY_SEV_SECRET_SET_ADDRESS
-
The address at which to inject the SEV secret. If omitted it can be automatically determined from the firmware
- $info = $dom->get_guest_info($types, $flags=0)
-
Get information about the domain guest configuration. The
$types
parameter determines what pieces of information are returned and should be the bitwise or of the following constants:- Sys::Virt::Domain::GUEST_INFO_USERS
-
Active user information
- Sys::Virt::Domain::GUEST_INFO_OS
-
Misc operating system information
- Sys::Virt::Domain::GUEST_INFO_TIMEZONE
-
The guest timezone
- Sys::Virt::Domain::GUEST_INFO_HOSTNAME
-
The guest hostname
- Sys::Virt::Domain::GUEST_INFO_FILESYSTEM
-
Filesystem mount information
- Sys::Virt::Domain::GUEST_INFO_DISKS
-
Block device information
- Sys::Virt::Domain::GUEST_INFO_INTERFACES
-
Network interfaces information
$flags
is currently unused and defaults to zero. - $dom->set_agent_response_timeout($timeout, $flags=0)
-
Set the amount of time to wait for the agent to respond to a command.
$timeout
is a positive integer representing the number of seconds to wait, or one of the constants:- Sys::Virt::Domain::AGENT_RESPONSE_TIMEOUT_BLOCK
-
Wait forever with no timeout
- Sys::Virt::Domain::AGENT_RESPONSE_TIMEOUT_NOWAIT
-
Don't want at all, return immediately
- Sys::Virt::Domain::AGENT_RESPONSE_TIMEOUT_DEFAULT
-
Use the hypervisor driver's default timeout
The
$flags
parameter is currently unused and defaults to zero. -
Retrieve the list of authorized SSH keys for the user account
$user
. The$flags
parameter is currently unused and defaults to zero. -
Update the list of authorized SSH keys for the user account
$user
. The@keys
parameter should be an array reference containing the new keys, if any. The default behaviour is to set the authorized SSH keys to the exact set specified in@keys
. This can be modified via the$flags
parameter which takes the following constants- Sys::Virt::Domain::AUTHORIZED_SSH_KEYS_SET_APPEND
-
Append
@keys
to the current set of keys, rather than replacing the existing keys. - Sys::Virt::Domain::AUTHORIZED_SSH_KEYS_SET_REMOVE
-
Remove
@keys
from the current set of keys, rather than replacing the existing keys. It is not an error if the keys do not exist.
- my @msgs = $dom->get_messages($flags=0)
-
Retrieve a list of messages associated with the domain. The optional
$flags
parameter can accept zero or more of - $dom->start_dirty_rate_calc($dom, $secs, $flags=0)
-
Request calculation of the domain's memory dirty rate over the next
$secs
seconds.$flags
accepts one or more of - $dom->fd_associate($name, \@fds, $flags=0)
-
Associate a set of file descriptors in
@fds
with the domain, giving them the name$name
. If$flags
is non-zero, it can take one or more of:
CONSTANTS
A number of the APIs take a flags
parameter. In most cases passing a value of zero will be satisfactory. Some APIs, however, accept named constants to alter their behaviour. This section documents the current known constants.
DOMAIN STATE
The domain state constants are useful in interpreting the state
key in the hash returned by the get_info
method.
- Sys::Virt::Domain::STATE_NOSTATE
-
The domain is active, but is not running / blocked (e.g. idle)
- Sys::Virt::Domain::STATE_RUNNING
-
The domain is active and running
- Sys::Virt::Domain::STATE_BLOCKED
-
The domain is active, but execution is blocked
- Sys::Virt::Domain::STATE_PAUSED
-
The domain is active, but execution has been paused
- Sys::Virt::Domain::STATE_SHUTDOWN
-
The domain is active, but in the shutdown phase
- Sys::Virt::Domain::STATE_SHUTOFF
-
The domain is inactive, and shut down.
- Sys::Virt::Domain::STATE_CRASHED
-
The domain is inactive, and crashed.
- Sys::Virt::Domain::STATE_PMSUSPENDED
-
The domain is active, but in power management suspend state
CONTROL INFO
The following constants can be used to determine what the guest domain control channel status is
- Sys::Virt::Domain::CONTROL_ERROR
-
The control channel has a fatal error
- Sys::Virt::Domain::CONTROL_OK
-
The control channel is ready for jobs
- Sys::Virt::Domain::CONTROL_OCCUPIED
-
The control channel is busy
- Sys::Virt::Domain::CONTROL_JOB
-
The control channel is busy with a job
If the status is Sys::Virt::Domain::CONTROL_ERROR
, then one of the following constants describes the reason
- Sys::Virt::Domain::CONTROL_ERROR_REASON_NONE
-
There is no reason for the error available
- Sys::Virt::Domain::CONTROL_ERROR_REASON_UNKNOWN
-
The reason for the error is unknown
- Sys::Virt::Domain::CONTROL_ERROR_REASON_INTERNAL
-
There was an internal error in libvirt
- Sys::Virt::Domain::CONTROL_ERROR_REASON_MONITOR
-
There was an error speaking to the monitor
DOMAIN CREATION
The following constants can be used to control the behaviour of domain creation
- Sys::Virt::Domain::START_PAUSED
-
Keep the guest vCPUs paused after starting the guest
- Sys::Virt::Domain::START_AUTODESTROY
-
Automatically destroy the guest when the connection is closed (or fails)
- Sys::Virt::Domain::START_BYPASS_CACHE
-
Do not use OS I/O cache if starting a domain with a saved state image
- Sys::Virt::Domain::START_FORCE_BOOT
-
Boot the guest, even if there was a saved snapshot
- Sys::Virt::Domain::START_VALIDATE
-
Validate the XML document against the XML schema
- Sys::Virt::Domain::START_RESET_NVRAM
-
Reset the firmware NVRAM state from its original template
DOMAIN DEFINE
The following constants can be used to control the behaviour of domain define operations
KEYCODE SETS
The following constants define the set of supported keycode sets
- Sys::Virt::Domain::KEYCODE_SET_LINUX
-
The Linux event subsystem keycodes
- Sys::Virt::Domain::KEYCODE_SET_XT
-
The original XT keycodes
- Sys::Virt::Domain::KEYCODE_SET_ATSET1
-
The AT Set1 keycodes (aka XT)
- Sys::Virt::Domain::KEYCODE_SET_ATSET2
-
The AT Set2 keycodes (aka AT)
- Sys::Virt::Domain::KEYCODE_SET_ATSET3
-
The AT Set3 keycodes (aka PS2)
- Sys::Virt::Domain::KEYCODE_SET_OSX
-
The OS-X keycodes
- Sys::Virt::Domain::KEYCODE_SET_XT_KBD
-
The XT keycodes from the Linux Keyboard driver
- Sys::Virt::Domain::KEYCODE_SET_USB
-
The USB HID keycode set
- Sys::Virt::Domain::KEYCODE_SET_WIN32
-
The Windows keycode set
- Sys::Virt::Domain::KEYCODE_SET_QNUM
-
The XT keycode set, with the extended scancodes using the high bit of the first byte, instead of the low bit of the second byte.
- Sys::Virt::Domain::KEYCODE_SET_RFB
-
A deprecated alias for
Sys::Virt::Domain::KEYCODE_SET_QNUM
MEMORY PEEK
The following constants can be used with the memory_peek
method's flags parameter
- Sys::Virt::Domain::MEMORY_VIRTUAL
-
Indicates that the offset is using virtual memory addressing.
- Sys::Virt::Domain::MEMORY_PHYSICAL
-
Indicates that the offset is using physical memory addressing.
VCPU STATE
The following constants are useful when interpreting the virtual CPU run state
- Sys::Virt::Domain::VCPU_OFFLINE
-
The virtual CPU is not online
- Sys::Virt::Domain::VCPU_RUNNING
-
The virtual CPU is executing code
- Sys::Virt::Domain::VCPU_BLOCKED
-
The virtual CPU is waiting to be scheduled
VCPU HOST PLACEMENT STATE
The following constants are useful when interpreting the virtual CPU host placement
- Sys::Virt::Domain::VCPU_INFO_CPU_OFFLINE
-
The virtual CPU is not online
- Sys::Virt::Domain::VCPU_INFO_CPU_UNAVAILABLE
-
The virtual CPU placement is not available from this hypervisor
OPEN GRAPHICS CONSTANTS
The following constants are used when opening a connection to the guest graphics server
OPEN CONSOLE CONSTANTS
The following constants are used when opening a connection to the guest console
- Sys::Virt::Domain::OPEN_CONSOLE_FORCE
-
Force opening of the console, disconnecting any other open session
- Sys::Virt::Domain::OPEN_CONSOLE_SAFE
-
Check if the console driver supports safe operations
OPEN CHANNEL CONSTANTS
The following constants are used when opening a connection to the guest channel
- Sys::Virt::Domain::OPEN_CHANNEL_FORCE
-
Force opening of the channel, disconnecting any other open session
XML DUMP OPTIONS
The following constants are used to control the information included in the XML configuration dump
- Sys::Virt::Domain::XML_INACTIVE
-
Report the persistent inactive configuration for the guest, even if it is currently running.
- Sys::Virt::Domain::XML_SECURE
-
Include security sensitive information in the XML dump, such as passwords.
- Sys::Virt::Domain::XML_UPDATE_CPU
-
Update the CPU model definition to match the current executing state.
- Sys::Virt::Domain::XML_MIGRATABLE
-
Update the XML to allow migration to older versions of libvirt
DEVICE HOTPLUG OPTIONS
The following constants are used to control device hotplug operations
- Sys::Virt::Domain::DEVICE_MODIFY_CURRENT
-
Modify the domain in its current state
- Sys::Virt::Domain::DEVICE_MODIFY_LIVE
-
Modify only the live state of the domain
- Sys::Virt::Domain::DEVICE_MODIFY_CONFIG
-
Modify only the persistent config of the domain
- Sys::Virt::Domain::DEVICE_MODIFY_FORCE
-
Force the device to be modified
MEMORY OPTIONS
The following constants are used to control memory change operations
- Sys::Virt::Domain::MEM_CURRENT
-
Modify the current state
- Sys::Virt::Domain::MEM_LIVE
-
Modify only the live state of the domain
- Sys::Virt::Domain::MEM_CONFIG
-
Modify only the persistent config of the domain
- Sys::Virt::Domain::MEM_MAXIMUM
-
Modify the maximum memory value
CONFIG OPTIONS
The following constants are used to control what configuration a domain update changes
- Sys::Virt::Domain::AFFECT_CURRENT
-
Modify the current state
- Sys::Virt::Domain::AFFECT_LIVE
-
Modify only the live state of the domain
- Sys::Virt::Domain::AFFECT_CONFIG
-
Modify only the persistent config of the domain
MIGRATE OPTIONS
The following constants are used to control how migration is performed
- Sys::Virt::Domain::MIGRATE_LIVE
-
Migrate the guest without interrupting its execution on the source host.
- Sys::Virt::Domain::MIGRATE_PEER2PEER
-
Manage the migration process over a direct peer-2-peer connection between the source and destination host libvirtd daemons.
- Sys::Virt::Domain::MIGRATE_TUNNELLED
-
Tunnel the migration data over the libvirt daemon connection, rather than the native hypervisor data transport. Requires PEER2PEER flag to be set.
- Sys::Virt::Domain::MIGRATE_PERSIST_DEST
-
Make the domain persistent on the destination host, defining its configuration file upon completion of migration.
- Sys::Virt::Domain::MIGRATE_UNDEFINE_SOURCE
-
Remove the domain's persistent configuration after migration completes successfully.
- Sys::Virt::Domain::MIGRATE_PAUSED
-
Do not re-start execution of the guest CPUs on the destination host after migration completes.
- Sys::Virt::Domain::MIGRATE_NON_SHARED_DISK
-
Copy the complete contents of the disk images during migration
- Sys::Virt::Domain::MIGRATE_NON_SHARED_INC
-
Copy the incrementally changed contents of the disk images during migration
- Sys::Virt::Domain::MIGRATE_CHANGE_PROTECTION
-
Do not allow changes to the virtual domain configuration while migration is taking place. This option is automatically implied if doing a peer-2-peer migration.
- Sys::Virt::Domain::MIGRATE_UNSAFE
-
Migrate even if the compatibility check indicates the migration will be unsafe to the guest.
- Sys::Virt::Domain::MIGRATE_OFFLINE
-
Migrate the guest config if the guest is not currently running
- Sys::Virt::Domain::MIGRATE_COMPRESSED
-
Enable compression of the migration data stream
- Sys::Virt::Domain::MIGRATE_ABORT_ON_ERROR
-
Abort if an I/O error occurs on the disk
- Sys::Virt::Domain::MIGRATE_AUTO_CONVERGE
-
Force convergence of the migration operation by throttling guest runtime
- Sys::Virt::Domain::MIGRATE_RDMA_PIN_ALL
-
Pin memory for RDMA transfer
- Sys::Virt::Domain::MIGRATE_POSTCOPY
-
Enable support for post-copy migration
- Sys::Virt::Domain::MIGRATE_TLS
-
Setting this flag will cause the migration to attempt to use the TLS environment configured by the hypervisor in order to perform the migration. If incorrectly configured on either source or destination, the migration will fail.
- Sys::Virt::Domain::MIGRATE_PARALLEL
-
Send memory pages to the destination host through several network connections. See
Sys::Virt::Domain::MIGRATE_PARAM_PARALLEL_*
parameters for configuring the parallel migration. - Sys::Virt::Domain::MIGRATE_NON_SHARED_SYNCHRONOUS_WRITES
-
Force the guest writes which happen when copying disk images for non-shared storage migration to be synchronously written to the destination. This ensures the storage migration converges for VMs doing heavy I/O on fast local storage and slow mirror.
- Sys::Virt::Domain::MIGRATE_POSTCOPY_RESUME
-
Resume migration which failed in post-copy phase.
- Sys::Virt::Domain::MIGRATE_ZEROCOPY
-
Attempt to avoid copying data. This is a request, not a guarantee and may apply to either one or both directions of data transfer at discretion of the hypervisor implementation.
UNDEFINE CONSTANTS
The following constants can be used when undefining virtual domain configurations
- Sys::Virt::Domain::UNDEFINE_MANAGED_SAVE
-
Also remove any managed save image when undefining the virtual domain
- Sys::Virt::Domain::UNDEFINE_SNAPSHOTS_METADATA
-
Also remove any snapshot metadata when undefining the virtual domain.
- Sys::Virt::Domain::UNDEFINE_NVRAM
-
Also remove any NVRAM state file when undefining the virtual domain.
- Sys::Virt::Domain::UNDEFINE_KEEP_NVRAM
-
keep NVRAM state file when undefining the virtual domain.
- Sys::Virt::Domain::UNDEFINE_CHECKPOINTS_METADATA
-
Also remove any checkpoint metadata when undefining the virtual domain.
- Sys::Virt::Domain::UNDEFINE_TPM
-
Also remove any TPM state when undefining the virtual domain.
- Sys::Virt::Domain::UNDEFINE_KEEP_TPM
-
Keep TPM state when undefining the virtual domain.
JOB TYPES
The following constants describe the different background job types.
- Sys::Virt::Domain::JOB_NONE
-
No job is active
- Sys::Virt::Domain::JOB_BOUNDED
-
A job with a finite completion time is active
- Sys::Virt::Domain::JOB_UNBOUNDED
-
A job with an unbounded completion time is active
- Sys::Virt::Domain::JOB_COMPLETED
-
The job has finished, but isn't cleaned up
- Sys::Virt::Domain::JOB_FAILED
-
The job has hit an error, but isn't cleaned up
- Sys::Virt::Domain::JOB_CANCELLED
-
The job was aborted at user request, but isn't cleaned up
MEMORY PARAMETERS
The following constants are useful when getting/setting memory parameters for guests
- Sys::Virt::Domain::MEMORY_HARD_LIMIT
-
The maximum memory the guest can use.
- Sys::Virt::Domain::MEMORY_SOFT_LIMIT
-
The memory upper limit enforced during memory contention.
- Sys::Virt::Domain::MEMORY_MIN_GUARANTEE
-
The minimum memory guaranteed to be reserved for the guest.
- Sys::Virt::Domain::MEMORY_SWAP_HARD_LIMIT
-
The maximum swap the guest can use.
- Sys::Virt::Domain::MEMORY_PARAM_UNLIMITED
-
The value of an unlimited memory parameter
BLKIO PARAMETERS
The following parameters control I/O tuning for the domain as a whole
- Sys::Virt::Domain::BLKIO_WEIGHT
-
The I/O weight parameter
- Sys::Virt::Domain::BLKIO_DEVICE_WEIGHT
-
The per-device I/O weight parameter
- Sys::Virt::Domain::BLKIO_DEVICE_READ_BPS
-
The per-device I/O bytes read per second
- Sys::Virt::Domain::BLKIO_DEVICE_READ_IOPS
-
The per-device I/O operations read per second
- Sys::Virt::Domain::BLKIO_DEVICE_WRITE_BPS
-
The per-device I/O bytes write per second
- Sys::Virt::Domain::BLKIO_DEVICE_WRITE_IOPS
-
The per-device I/O operations write per second
BLKIO TUNING PARAMETERS
The following parameters control I/O tuning for an individual guest disk.
- Sys::Virt::Domain::BLOCK_IOTUNE_TOTAL_BYTES_SEC
-
The total bytes processed per second.
- Sys::Virt::Domain::BLOCK_IOTUNE_READ_BYTES_SEC
-
The bytes read per second.
- Sys::Virt::Domain::BLOCK_IOTUNE_WRITE_BYTES_SEC
-
The bytes written per second.
- Sys::Virt::Domain::BLOCK_IOTUNE_TOTAL_IOPS_SEC
-
The total I/O operations processed per second.
- Sys::Virt::Domain::BLOCK_IOTUNE_READ_IOPS_SEC
-
The I/O operations read per second.
- Sys::Virt::Domain::BLOCK_IOTUNE_WRITE_IOPS_SEC
-
The I/O operations written per second.
- Sys::Virt::Domain::BLOCK_IOTUNE_TOTAL_BYTES_SEC_MAX
-
The maximum total bytes processed per second.
- Sys::Virt::Domain::BLOCK_IOTUNE_READ_BYTES_SEC_MAX
-
The maximum bytes read per second.
- Sys::Virt::Domain::BLOCK_IOTUNE_WRITE_BYTES_SEC_MAX
-
The maximum bytes written per second.
- Sys::Virt::Domain::BLOCK_IOTUNE_TOTAL_IOPS_SEC_MAX
-
The maximum total I/O operations processed per second.
- Sys::Virt::Domain::BLOCK_IOTUNE_READ_IOPS_SEC_MAX
-
The maximum I/O operations read per second.
- Sys::Virt::Domain::BLOCK_IOTUNE_WRITE_IOPS_SEC_MAX
-
The maximum I/O operations written per second.
- Sys::Virt::Domain::BLOCK_IOTUNE_SIZE_IOPS_SEC
-
The maximum I/O operations per second
- Sys::Virt::Domain::BLOCK_IOTUNE_GROUP_NAME
-
A string representing a group name to allow sharing of I/O throttling quota between multiple drives
- Sys::Virt::Domain::BLOCK_IOTUNE_TOTAL_BYTES_SEC_MAX_LENGTH
-
The duration in seconds allowed for maximum total bytes processed per second.
- Sys::Virt::Domain::BLOCK_IOTUNE_READ_BYTES_SEC_MAX_LENGTH
-
The duration in seconds allowed for maximum bytes read per second.
- Sys::Virt::Domain::BLOCK_IOTUNE_WRITE_BYTES_SEC_MAX_LENGTH
-
The duration in seconds allowed for maximum bytes written per second.
- Sys::Virt::Domain::BLOCK_IOTUNE_TOTAL_IOPS_SEC_MAX_LENGTH
-
The duration in seconds allowed for maximum total I/O operations processed per second.
- Sys::Virt::Domain::BLOCK_IOTUNE_READ_IOPS_SEC_MAX_LENGTH
-
The duration in seconds allowed for maximum I/O operations read per second.
- Sys::Virt::Domain::BLOCK_IOTUNE_WRITE_IOPS_SEC_MAX_LENGTH
-
The duration in seconds allowed for maximum I/O operations written per second.
SCHEDULER CONSTANTS
- Sys::Virt::Domain::SCHEDULER_CAP
-
The VM cap tunable
- Sys::Virt::Domain::SCHEDULER_CPU_SHARES
-
The CPU shares tunable
- Sys::Virt::Domain::SCHEDULER_LIMIT
-
The VM limit tunable
- Sys::Virt::Domain::SCHEDULER_RESERVATION
-
The VM reservation tunable
- Sys::Virt::Domain::SCHEDULER_SHARES
-
The VM shares tunable
- Sys::Virt::Domain::SCHEDULER_VCPU_PERIOD
-
The VCPU period tunable
- Sys::Virt::Domain::SCHEDULER_VCPU_QUOTA
-
The VCPU quota tunable
- Sys::Virt::Domain::SCHEDULER_GLOBAL_PERIOD
-
The VM global period tunable
- Sys::Virt::Domain::SCHEDULER_GLOBAL_QUOTA
-
The VM global quota tunable
- Sys::Virt::Domain::SCHEDULER_WEIGHT
-
The VM weight tunable
NUMA PARAMETERS
The following constants are useful when getting/setting the guest NUMA memory policy
- Sys::Virt::Domain::NUMA_MODE
-
The NUMA policy mode
- Sys::Virt::Domain::NUMA_NODESET
-
The NUMA nodeset mask
The following constants are useful when interpreting the Sys::Virt::Domain::NUMA_MODE
parameter value
- Sys::Virt::Domain::NUMATUNE_MEM_STRICT
-
Allocation is mandatory from the mask nodes
- Sys::Virt::Domain::NUMATUNE_MEM_PREFERRED
-
Allocation is preferred from the masked nodes
- Sys::Virt::Domain::NUMATUNE_MEM_INTERLEAVE
-
Allocation is interleaved across all masked nodes
- Sys::Virt::Domain::NUMATUNE_MEM_RESTRICTIVE
-
Allocation is determined by the host using the masked nodes.
INTERFACE PARAMETERS
The following constants are useful when getting/setting the per network interface tunable parameters
- Sys::Virt::Domain::BANDWIDTH_IN_AVERAGE
-
The average inbound bandwidth
- Sys::Virt::Domain::BANDWIDTH_IN_PEAK
-
The peak inbound bandwidth
- Sys::Virt::Domain::BANDWIDTH_IN_BURST
-
The burstable inbound bandwidth
- Sys::Virt::Domain::BANDWIDTH_IN_FLOOR
-
The minimum inbound bandwidth
- Sys::Virt::Domain::BANDWIDTH_OUT_AVERAGE
-
The average outbound bandwidth
- Sys::Virt::Domain::BANDWIDTH_OUT_PEAK
-
The peak outbound bandwidth
- Sys::Virt::Domain::BANDWIDTH_OUT_BURST
-
The burstable outbound bandwidth
PERF EVENTS
The following constants defined performance events which can be monitored for a guest
- Sys::Virt::Domain::PERF_PARAM_CMT
-
The CMT event counter which can be used to measure the usage of cache (bytes) by applications running on the platform. It corresponds to the "perf.cmt" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_MBML
-
The MBML event counter which can be used to monitor the amount of data (bytes/s) sent through the memory controller on the socket. It corresponds to the "perf.mbml" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_MBMT
-
The MBMT event counter which can be used to monitor total system bandwidth (bytes/s) from one level of cache to another. It corresponds to the "perf.mbmt" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_CACHE_MISSES
-
The cache_misses perf event counter which can be used to measure the count of cache misses by applications running on the platform. It corresponds to the "perf.cache_misses" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_CACHE_REFERENCES
-
The cache_references perf event counter which can be used to measure the count of cache hits by applications running on the platform. It corresponds to the "perf.cache_references" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_CPU_CYCLES
-
The cpu_cycles perf event counter which can be used to measure how many cpu cycles one instruction needs. It corresponds to the "perf.cpu_cycles" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_INSTRUCTIONS
-
The instructions perf event counter which can be used to measure the count of instructions by applications running on the platform. It corresponds to the "perf.instructions" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_BRANCH_INSTRUCTIONS
-
The branch_instructions perf event counter which can be used to measure the count of instructions by applications running on the platform. It corresponds to the "perf.branch_instructions" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_BRANCH_MISSES
-
The branch_misses perf event which can be used to measure the count of branch misses by applications running on the platform. It corresponds to the "perf.branch_misses" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_BUS_CYCLES The bus_cycles perf event counter which can be used to measure the count of bus cycles by applications running on the platform. It corresponds to the "perf.bus_cycles" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_STALLED_CYCLES_FRONTEND The stalled_cycles_frontend perf event counter which can be used to measure the count of stalled cpu cycles in the frontend of the instruction processor pipeline by applications running on the platform. It corresponds to the "perf.stalled_cycles_frontend" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_STALLED_CYCLES_BACKEND The stalled_cycles_backend perf event counter which can be used to measure the count of stalled cpu cycles in the backend of the instruction processor pipeline by application running on the platform. It corresponds to the "perf.stalled_cycles_backend" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_REF_CPU_CYCLES The ref_cpu_cycles perf event counter which can be used to measure the count of total cpu cycles not affected by CPU frequency scaling by applications running on the platform. It corresponds to the "perf.ref_cpu_cycles" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_CPU_CLOCK The cpu_clock perf event counter which can be used to measure the count of cpu clock time by applications running on the platform. It corresponds to the "perf.cpu_clock" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_TASK_CLOCK The task_clock perf event counter which can be used to measure the count of task clock time by applications running on the platform. It corresponds to the "perf.task_clock" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_PAGE_FAULTS The page_faults perf event counter which can be used to measure the count of page faults by applications running on the platform. It corresponds to the "perf.page_faults" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_CONTEXT_SWITCHES The context_switches perf event counter which can be used to measure the count of context switches by applications running on the platform. It corresponds to the "perf.context_switches" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_CPU_MIGRATIONS The cpu_migrations perf event counter which can be used to measure the count of cpu migrations by applications running on the platform. It corresponds to the "perf.cpu_migrations" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_PAGE_FAULTS_MIN The page_faults_min perf event counter which can be used to measure the count of minor page faults by applications running on the platform. It corresponds to the "perf.page_faults_min" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_PAGE_FAULTS_MAJ The page_faults_maj perf event counter which can be used to measure the count of major page faults by applications running on the platform. It corresponds to the "perf.page_faults_maj" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_ALIGNMENT_FAULTS The alignment_faults perf event counter which can be used to measure the count of alignment faults by applications running on the platform. It corresponds to the "perf.alignment_faults" field in the *Stats APIs.
- Sys::Virt::Domain::PERF_PARAM_EMULATION_FAULTS The emulation_faults perf event counter which can be used to measure the count of emulation faults by applications running on the platform. It corresponds to the "perf.emulation_faults" field in the *Stats APIs.
IOTHREAD STATS
The following constants defined IOThread statistics which can be monitored for a guest
- Sys::Virt::Domain::IOTHREAD_PARAM_POLL_MAX_NS
-
The maximum polling time that can be used by polling algorithm in ns. The polling time starts at 0 (zero) and is the time spent by the guest to process IOThread data before returning the CPU to the host. The polling time will be dynamically modified over time based on the poll_grow and poll_shrink parameters provided.
- Sys::Virt::Domain::IOTHREAD_PARAM_POLL_GROW
-
This provides a value for the dynamic polling adjustment algorithm to use to grow its polling interval up to the poll_max_ns value.
- Sys::Virt::Domain::IOTHREAD_PARAM_POLL_SHRINK
-
This provides a value for the dynamic polling adjustment algorithm to use to shrink its polling interval when the polling interval exceeds the poll_max_ns value.
- Sys::Virt::Domain::IOTHREAD_PARAM_THREAD_POOL_MIN
-
Sets the lower bound for thread pool size. A value of -1 disables this bound leaving hypervisor use its default value, though this value is not accepted for running domains. Due to internal implementation it's recommended to set lower and upper bounds separately.
- Sys::Virt::Domain::IOTHREAD_PARAM_THREAD_POOL_MAX
-
Sets the upper bound for thread pool size. A value of -1 disables this bound leaving hypervisor use its default value, though this value is not accepted for running domains. Since the upper band has to be equal to or greater than lower bound value of 0 is not accepted. Due to internal implementation it's recommended to set lower and upper bounds separately.
VCPU FLAGS
The following constants are useful when getting/setting the VCPU count for a guest
- Sys::Virt::Domain::VCPU_LIVE
-
Flag to request the live value
- Sys::Virt::Domain::VCPU_CONFIG
-
Flag to request the persistent config value
- Sys::Virt::Domain::VCPU_CURRENT
-
Flag to request the current config value
- Sys::Virt::Domain::VCPU_MAXIMUM
-
Flag to request adjustment of the maximum vCPU value
- Sys::Virt::Domain::VCPU_GUEST
-
Flag to request the guest VCPU mask
- Sys::Virt::Domain::VCPU_HOTPLUGGABLE
-
Flag to make vcpus added hot(un)pluggable
STATE CHANGE EVENTS
The following constants allow domain state change events to be interpreted. The events contain both a state change, and a reason.
- Sys::Virt::Domain::EVENT_DEFINED
-
Indicates that a persistent configuration has been defined for the domain.
- Sys::Virt::Domain::EVENT_DEFINED_ADDED
-
The defined configuration is newly added
- Sys::Virt::Domain::EVENT_DEFINED_UPDATED
-
The defined configuration is an update to an existing configuration
- Sys::Virt::Domain::EVENT_DEFINED_RENAMED
-
The defined configuration is a rename of an existing configuration
- Sys::Virt::Domain::EVENT_DEFINED_FROM_SNAPSHOT
-
The defined configuration was restored from a snapshot
- Sys::Virt::Domain::EVENT_RESUMED
-
The domain has resumed execution
- Sys::Virt::Domain::EVENT_RESUMED_MIGRATED
-
The domain resumed because migration has completed. This is emitted on the destination host.
- Sys::Virt::Domain::EVENT_RESUMED_UNPAUSED
-
The domain resumed because the admin unpaused it.
- Sys::Virt::Domain::EVENT_RESUMED_FROM_SNAPSHOT
-
The domain resumed because it was restored from a snapshot
- Sys::Virt::Domain::EVENT_RESUMED_POSTCOPY
-
The domain resumed but post-copy is running in background
- Sys::Virt::Domain::EVENT_RESUMED_POSTCOPY_FAILED
-
The domain is running, but migration failed in post-copy.
- Sys::Virt::Domain::EVENT_STARTED
-
The domain has started running
- Sys::Virt::Domain::EVENT_STARTED_BOOTED
-
The domain was booted from shutoff state
- Sys::Virt::Domain::EVENT_STARTED_MIGRATED
-
The domain started due to an incoming migration
- Sys::Virt::Domain::EVENT_STARTED_RESTORED
-
The domain was restored from saved state file
- Sys::Virt::Domain::EVENT_STARTED_FROM_SNAPSHOT
-
The domain was restored from a snapshot
- Sys::Virt::Domain::EVENT_STARTED_WAKEUP
-
The domain was woken up from suspend
- Sys::Virt::Domain::EVENT_STOPPED
-
The domain has stopped running
- Sys::Virt::Domain::EVENT_STOPPED_CRASHED
-
The domain stopped because guest operating system has crashed
- Sys::Virt::Domain::EVENT_STOPPED_DESTROYED
-
The domain stopped because administrator issued a destroy command.
- Sys::Virt::Domain::EVENT_STOPPED_FAILED
-
The domain stopped because of a fault in the host virtualization environment.
- Sys::Virt::Domain::EVENT_STOPPED_MIGRATED
-
The domain stopped because it was migrated to another machine.
- Sys::Virt::Domain::EVENT_STOPPED_SAVED
-
The domain was saved to a state file
- Sys::Virt::Domain::EVENT_STOPPED_SHUTDOWN
-
The domain stopped due to graceful shutdown of the guest.
- Sys::Virt::Domain::EVENT_STOPPED_FROM_SNAPSHOT
-
The domain was stopped due to a snapshot
- Sys::Virt::Domain::EVENT_SHUTDOWN
-
The domain has shutdown but is not yet stopped
- Sys::Virt::Domain::EVENT_SUSPENDED
-
The domain has stopped executing, but still exists
- Sys::Virt::Domain::EVENT_SUSPENDED_MIGRATED
-
The domain has been suspended due to offline migration
- Sys::Virt::Domain::EVENT_SUSPENDED_PAUSED
-
The domain has been suspended due to administrator pause request.
- Sys::Virt::Domain::EVENT_SUSPENDED_IOERROR
-
The domain has been suspended due to a block device I/O error.
- Sys::Virt::Domain::EVENT_SUSPENDED_FROM_SNAPSHOT
-
The domain has been suspended due to resume from snapshot
- Sys::Virt::Domain::EVENT_SUSPENDED_WATCHDOG
-
The domain has been suspended due to the watchdog triggering
- Sys::Virt::Domain::EVENT_SUSPENDED_RESTORED
-
The domain has been suspended due to restore from saved state
- Sys::Virt::Domain::EVENT_SUSPENDED_API_ERROR
-
The domain has been suspended due to an API error
- Sys::Virt::Domain::EVENT_SUSPENDED_POSTCOPY
-
The domain has been suspended for post-copy migration
- Sys::Virt::Domain::EVENT_SUSPENDED_POSTCOPY_FAILED
-
The domain has been suspended due post-copy migration failing
- Sys::Virt::Domain::EVENT_UNDEFINED
-
The persistent configuration has gone away
- Sys::Virt::Domain::EVENT_PMSUSPENDED
-
The domain has stopped running
- Sys::Virt::Domain::EVENT_CRASHED
-
The domain has crashed
EVENT ID CONSTANTS
- Sys::Virt::Domain::EVENT_ID_LIFECYCLE
-
Domain lifecycle events
- Sys::Virt::Domain::EVENT_ID_REBOOT
-
Soft / warm reboot events
- Sys::Virt::Domain::EVENT_ID_RTC_CHANGE
-
RTC clock adjustments
- Sys::Virt::Domain::EVENT_ID_IO_ERROR
-
File IO errors, typically from disks
- Sys::Virt::Domain::EVENT_ID_WATCHDOG
-
Watchdog device triggering
- Sys::Virt::Domain::EVENT_ID_GRAPHICS
-
Graphics client connections.
- Sys::Virt::Domain::EVENT_ID_IO_ERROR_REASON
-
File IO errors, typically from disks, with a root cause
- Sys::Virt::Domain::EVENT_ID_CONTROL_ERROR
-
Errors from the virtualization control channel
- Sys::Virt::Domain::EVENT_ID_BLOCK_JOB
-
Completion status of asynchronous block jobs, identified by source file name.
- Sys::Virt::Domain::EVENT_ID_BLOCK_JOB_2
-
Completion status of asynchronous block jobs, identified by target device name.
- Sys::Virt::Domain::EVENT_ID_DISK_CHANGE
-
Changes in disk media
- Sys::Virt::Domain::EVENT_ID_TRAY_CHANGE
-
CDROM media tray state
- Sys::Virt::Domain::EVENT_ID_PMSUSPEND
-
Power management initiated suspend to RAM
- Sys::Virt::Domain::EVENT_ID_PMSUSPEND_DISK
-
Power management initiated suspend to Disk
- Sys::Virt::Domain::EVENT_ID_PMWAKEUP
-
Power management initiated wakeup
- Sys::Virt::Domain::EVENT_ID_BALLOON_CHANGE
-
Balloon target changes
- Sys::Virt::Domain::EVENT_ID_DEVICE_ADDED
-
Asynchronous guest device addition
- Sys::Virt::Domain::EVENT_ID_DEVICE_REMOVED
-
Asynchronous guest device removal
- Sys::Virt::Domain::EVENT_ID_TUNABLE
-
Changes of any domain tuning parameters. The callback will be provided with a hash listing all changed parameters. The later DOMAIN TUNABLE constants can be useful when accessing the hash keys
- Sys::Virt::Domain::EVENT_ID_AGENT_LIFECYCLE
-
Domain guest agent lifecycle events. The
state
parameter to the callback will match one of the constants- Sys::Virt::Domain::EVENT_AGENT_LIFECYCLE_STATE_CONNECTED
-
The agent is now connected
- Sys::Virt::Domain::EVENT_AGENT_LIFECYCLE_STATE_DISCONNECTED
-
The agent is now disconnected
The second parameter,
reason
, matches one of the following constants - Sys::Virt::Domain::EVENT_ID_MIGRATION_ITERATION
-
Domain migration progress iteration. The
iteration
parameter to the callback will specify the number of iterations migration has made over guest RAM. - Sys::Virt::Domain::EVENT_ID_JOB_COMPLETED
-
Domain background job completion notification. The callback provides a hash containing the job stats. The keys in the hash are the same as those used with the
Sys::Virt::Domain::get_job_stats()
method. - Sys::Virt::Domain::EVENT_ID_DEVICE_REMOVAL_FAILED
-
Guest device removal has failed.
- Sys::Virt::Domain::EVENT_ID_METADATA_CHANGE
-
The domain metadata has changed
- Sys::Virt::Domain::EVENT_ID_BLOCK_THRESHOLD
-
The event occurs when the hypervisor detects that the given storage element was written beyond the point specified by threshold. The event is useful for thin-provisioned storage.
- Sys::Virt::Domain::EVENT_ID_MEMORY_FAILURE
-
The event occurs when the hypervisor detects hardware memory corruption.
- Sys::Virt::Domain::EVENT_ID_MEMORY_DEVICE_SIZE_CHANGE
-
The event occurs when the guest accepts a request to change the memory device size.
IO ERROR EVENT CONSTANTS
These constants describe what action was taken due to the IO error.
- Sys::Virt::Domain::EVENT_IO_ERROR_NONE
-
No action was taken, the error was ignored & reported as success to guest
- Sys::Virt::Domain::EVENT_IO_ERROR_PAUSE
-
The guest is paused since the error occurred
- Sys::Virt::Domain::EVENT_IO_ERROR_REPORT
-
The error has been reported to the guest OS
WATCHDOG EVENT CONSTANTS
These constants describe what action was taken due to the watchdog firing
- Sys::Virt::Domain::EVENT_WATCHDOG_NONE
-
No action was taken, the watchdog was ignored
- Sys::Virt::Domain::EVENT_WATCHDOG_PAUSE
-
The guest is paused since the watchdog fired
- Sys::Virt::Domain::EVENT_WATCHDOG_POWEROFF
-
The guest is powered off after the watchdog fired
- Sys::Virt::Domain::EVENT_WATCHDOG_RESET
-
The guest is reset after the watchdog fired
- Sys::Virt::Domain::EVENT_WATCHDOG_SHUTDOWN
-
The guest attempted to gracefully shutdown after the watchdog fired
- Sys::Virt::Domain::EVENT_WATCHDOG_DEBUG
-
No action was taken, the watchdog was logged
- Sys::Virt::Domain::EVENT_WATCHDOG_INJECTNMI
-
An NMI was injected into the guest after the watchdog fired
GRAPHICS EVENT PHASE CONSTANTS
These constants describe the phase of the graphics connection
- Sys::Virt::Domain::EVENT_GRAPHICS_CONNECT
-
The initial client connection
- Sys::Virt::Domain::EVENT_GRAPHICS_INITIALIZE
-
The client has been authenticated & the connection is running
- Sys::Virt::Domain::EVENT_GRAPHICS_DISCONNECT
-
The client has disconnected
GRAPHICS EVENT ADDRESS CONSTANTS
These constants describe the format of the address
- Sys::Virt::Domain::EVENT_GRAPHICS_ADDRESS_IPV4
-
An IPv4 address
- Sys::Virt::Domain::EVENT_GRAPHICS_ADDRESS_IPV6
-
An IPv6 address
- Sys::Virt::Domain::EVENT_GRAPHICS_ADDRESS_UNIX
-
An UNIX socket path address
DISK CHANGE EVENT CONSTANTS
These constants describe the reason for a disk change event
- Sys::Virt::Domain::EVENT_DISK_CHANGE_MISSING_ON_START
-
The disk media was cleared, as its source was missing when attempting to start the guest
- Sys::Virt::Domain::EVENT_DISK_DROP_MISSING_ON_START
-
The disk device was dropped, as its source was missing when attempting to start the guest
TRAY CHANGE CONSTANTS
These constants describe the reason for a tray change event
- Sys::Virt::Domain::EVENT_TRAY_CHANGE_CLOSE
-
The tray was closed
- Sys::Virt::Domain::EVENT_TRAY_CHANGE_OPEN
-
The tray was opened
DOMAIN BLOCK JOB TYPE CONSTANTS
The following constants identify the different types of domain block jobs
- Sys::Virt::Domain::BLOCK_JOB_TYPE_UNKNOWN
-
An unknown block job type
- Sys::Virt::Domain::BLOCK_JOB_TYPE_PULL
-
The block pull job type
- Sys::Virt::Domain::BLOCK_JOB_TYPE_COPY
-
The block copy job type
- Sys::Virt::Domain::BLOCK_JOB_TYPE_COMMIT
-
The block commit job type
- Sys::Virt::Domain::BLOCK_JOB_TYPE_ACTIVE_COMMIT
-
The block active commit job type
- Sys::Virt::Domain::BLOCK_JOB_TYPE_BACKUP
-
The block backup job type
DOMAIN BLOCK JOB COMPLETION CONSTANTS
The following constants can be used to determine the completion status of a block job
- Sys::Virt::Domain::BLOCK_JOB_COMPLETED
-
A successfully completed block job
- Sys::Virt::Domain::BLOCK_JOB_FAILED
-
An unsuccessful block job
- Sys::Virt::Domain::BLOCK_JOB_CANCELED
-
A block job canceled by the user
- Sys::Virt::Domain::BLOCK_JOB_READY
-
A block job is running
DOMAIN BLOCK REBASE CONSTANTS
The following constants are useful when rebasing block devices
- Sys::Virt::Domain::BLOCK_REBASE_SHALLOW
-
Limit copy to top of source backing chain
- Sys::Virt::Domain::BLOCK_REBASE_REUSE_EXT
-
Reuse existing external file for copy
- Sys::Virt::Domain::BLOCK_REBASE_COPY_RAW
-
Make destination file raw
- Sys::Virt::Domain::BLOCK_REBASE_COPY
-
Start a copy job
- Sys::Virt::Domain::BLOCK_REBASE_COPY_DEV
-
Treat destination as a block device instead of file
- Sys::Virt::Domain::BLOCK_REBASE_RELATIVE
-
Keep backing chain referenced using relative names
DOMAIN BLOCK COPY CONSTANTS
The following constants are useful when copying block devices
- Sys::Virt::Domain::BLOCK_COPY_SHALLOW
-
Limit copy to top of source backing chain
- Sys::Virt::Domain::BLOCK_COPY_REUSE_EXT
-
Reuse existing external file for copy
- Sys::Virt::Domain::BLOCK_COPY_TRANSIENT_JOB
-
Don't force usage of recoverable job for the copy operation
- Sys::Virt::Domain::BLOCK_COPY_SYNCHRONOUS_WRITES
-
Force the copy job to synchronously propagate guest writes into the destination image, so that the copy is guaranteed to converge
DOMAIN BLOCK JOB ABORT CONSTANTS
The following constants are useful when aborting job copy jobs
- Sys::Virt::Domain::BLOCK_JOB_ABORT_ASYNC
-
Request only, do not wait for completion
- Sys::Virt::Domain::BLOCK_JOB_ABORT_PIVOT
-
Pivot to mirror when ending a copy job
DOMAIN BLOCK COMMIT JOB CONSTANTS
The following constants are useful with block commit job types
- Sys::Virt::Domain::BLOCK_COMMIT_DELETE
-
Delete any files that are invalid after commit
- Sys::Virt::Domain::BLOCK_COMMIT_SHALLOW
-
NULL base means next backing file, not whole chain
- Sys::Virt::Domain::BLOCK_COMMIT_ACTIVE
-
Allow two phase commit when top is active layer
- Sys::Virt::Domain::BLOCK_COMMIT_RELATIVE
-
Keep backing chain referenced using relative names
DOMAIN SAVE / RESTORE FLAG CONSTANTS
The following constants can be used when saving or restoring virtual machines
- Sys::Virt::Domain::SAVE_BYPASS_CACHE
-
Do not use OS I/O cache when saving state.
- Sys::Virt::Domain::SAVE_PAUSED
-
Mark the saved state as paused to prevent the guest CPUs starting upon restore.
- Sys::Virt::Domain::SAVE_RUNNING
-
Mark the saved state as running to allow the guest CPUs to start upon restore.
- Sys::Virt::Domain::SAVE_RESET_NVRAM
-
Reset the firmware NVRAM state from its original template
SAVE / RESTORE PARAMETER CONSTANTS
- Sys::Virt::Domain::SAVE_PARAM_FILE
-
Specify the save state file to save to or restore from.
- Sys::Virt::Domain::SAVE_PARAM_DXML
-
Used to adjust guest xml on restore, e.g. to alter a device while domain is stopped.
DOMAIN CORE DUMP CONSTANTS
The following constants can be used when triggering domain core dumps
- Sys::Virt::Domain::DUMP_LIVE
-
Do not pause execution while dumping the guest
- Sys::Virt::Domain::DUMP_CRASH
-
Crash the guest after completing the core dump
- Sys::Virt::Domain::DUMP_BYPASS_CACHE
-
Do not use OS I/O cache when writing core dump
- Sys::Virt::Domain::DUMP_RESET
-
Reset the virtual machine after finishing the dump
- Sys::Virt::Domain::DUMP_MEMORY_ONLY
-
Only include guest RAM in the dump, not the device state
DESTROY CONSTANTS
The following constants are useful when terminating guests using the destroy
API.
- Sys::Virt::Domain::DESTROY_DEFAULT
-
Destroy the guest using the default approach
- Sys::Virt::Domain::DESTROY_GRACEFUL
-
Destroy the guest in a graceful manner
- Sys::Virt::Domain::DESTROY_REMOVE_LOGS
-
Delete log files associated with the guest
SHUTDOWN CONSTANTS
The following constants are useful when requesting that a guest terminate using the shutdown
API
- Sys::Virt::Domain::SHUTDOWN_DEFAULT
-
Shutdown using the hypervisor's default mechanism
- Sys::Virt::Domain::SHUTDOWN_GUEST_AGENT
-
Shutdown by issuing a command to a guest agent
- Sys::Virt::Domain::SHUTDOWN_ACPI_POWER_BTN
-
Shutdown by injecting an ACPI power button press
- Sys::Virt::Domain::SHUTDOWN_INITCTL
-
Shutdown by talking to initctl (containers only)
- Sys::Virt::Domain::SHUTDOWN_SIGNAL
-
Shutdown by sending SIGTERM to the init process
- Sys::Virt::Domain::SHUTDOWN_PARAVIRT
-
Shutdown by issuing a paravirt power control command
REBOOT CONSTANTS
The following constants are useful when requesting that a guest terminate using the reboot
API
- Sys::Virt::Domain::REBOOT_DEFAULT
-
Reboot using the hypervisor's default mechanism
- Sys::Virt::Domain::REBOOT_GUEST_AGENT
-
Reboot by issuing a command to a guest agent
- Sys::Virt::Domain::REBOOT_ACPI_POWER_BTN
-
Reboot by injecting an ACPI power button press
- Sys::Virt::Domain::REBOOT_INITCTL
-
Reboot by talking to initctl (containers only)
- Sys::Virt::Domain::REBOOT_SIGNAL
-
Reboot by sending SIGHUP to the init process
- Sys::Virt::Domain::REBOOT_PARAVIRT
-
Reboot by issuing a paravirt power control command
METADATA CONSTANTS
The following constants are useful when reading/writing metadata about a guest
- Sys::Virt::Domain::METADATA_TITLE
-
The short human friendly title of the guest
- Sys::Virt::Domain::METADATA_DESCRIPTION
-
The long free text description of the guest
- Sys::Virt::Domain::METADATA_ELEMENT
-
The structured metadata elements for the guest
DISK ERROR CONSTANTS
The following constants are useful when interpreting disk error codes
- Sys::Virt::Domain::DISK_ERROR_NONE
-
No error
- Sys::Virt::Domain::DISK_ERROR_NO_SPACE
-
The host storage has run out of free space
- Sys::Virt::Domain::DISK_ERROR_UNSPEC
-
An unspecified error has occurred.
MEMORY STATISTIC CONSTANTS
- Sys::Virt::Domain::MEMORY_STAT_SWAP_IN
-
Swap in
- Sys::Virt::Domain::MEMORY_STAT_SWAP_OUT
-
Swap out
- Sys::Virt::Domain::MEMORY_STAT_MINOR_FAULT
-
Minor faults
- Sys::Virt::Domain::MEMORY_STAT_MAJOR_FAULT
-
Major faults
- Sys::Virt::Domain::MEMORY_STAT_RSS
-
Resident memory
- Sys::Virt::Domain::MEMORY_STAT_UNUSED
-
Unused memory
- Sys::Virt::Domain::MEMORY_STAT_AVAILABLE
-
Available memory
- Sys::Virt::Domain::MEMORY_STAT_ACTUAL_BALLOON
-
Actual balloon limit
- Sys::Virt::Domain::MEMORY_STAT_USABLE
-
Amount of usable memory
- Sys::Virt::Domain::MEMORY_STAT_LAST_UPDATE
-
Time of last stats refresh from guest
- Sys::Virt::Domain::MEMORY_STAT_DISK_CACHES
-
Disk cache size
- Sys::Virt::Domain::MEMORY_STAT_HUGETLB_PGALLOC
-
The amount of successful huge page allocations
- Sys::Virt::Domain::MEMORY_STAT_HUGETLB_PGFAIL
-
The amount of failed huge page allocations
DOMAIN LIST CONSTANTS
The following constants can be used when listing domains
- Sys::Virt::Domain::LIST_ACTIVE
-
Only list domains that are currently active (running, or paused)
- Sys::Virt::Domain::LIST_AUTOSTART
-
Only list domains that are set to automatically start on boot
- Sys::Virt::Domain::LIST_HAS_SNAPSHOT
-
Only list domains that have a stored snapshot
- Sys::Virt::Domain::LIST_INACTIVE
-
Only list domains that are currently inactive (shutoff, saved)
- Sys::Virt::Domain::LIST_MANAGEDSAVE
-
Only list domains that have current managed save state
- Sys::Virt::Domain::LIST_NO_AUTOSTART
-
Only list domains that are not set to automatically start on boto
- Sys::Virt::Domain::LIST_NO_MANAGEDSAVE
-
Only list domains that do not have any managed save state
- Sys::Virt::Domain::LIST_NO_SNAPSHOT
-
Only list domains that do not have a stored snapshot
- Sys::Virt::Domain::LIST_OTHER
-
Only list domains that are not running, paused or shutoff
- Sys::Virt::Domain::LIST_PAUSED
-
Only list domains that are paused
- Sys::Virt::Domain::LIST_PERSISTENT
-
Only list domains which have a persistent config
- Sys::Virt::Domain::LIST_RUNNING
-
Only list domains that are currently running
- Sys::Virt::Domain::LIST_SHUTOFF
-
Only list domains that are currently shutoff
- Sys::Virt::Domain::LIST_TRANSIENT
-
Only list domains that do not have a persistent config
- Sys::Virt::Domain::LIST_HAS_CHECKPOINT
-
Only list domains that have a stored checkpoint
- Sys::Virt::Domain::LIST_NO_CHECKPOINT
-
Only list domains that do not have a stored checkpoint
SEND KEY CONSTANTS
The following constants are to be used with the send_key
API
- Sys::Virt::Domain::SEND_KEY_MAX_KEYS
-
The maximum number of keys that can be sent in a single call to
send_key
BLOCK STATS CONSTANTS
The following constants provide the names of well known block stats fields
- Sys::Virt::Domain::BLOCK_STATS_ERRS
-
The number of I/O errors
- Sys::Virt::Domain::BLOCK_STATS_FLUSH_REQ
-
The number of flush requests
- Sys::Virt::Domain::BLOCK_STATS_FLUSH_TOTAL_TIMES
-
The time spent processing flush requests
- Sys::Virt::Domain::BLOCK_STATS_READ_BYTES
-
The amount of data read
- Sys::Virt::Domain::BLOCK_STATS_READ_REQ
-
The number of read requests
- Sys::Virt::Domain::BLOCK_STATS_READ_TOTAL_TIMES
-
The time spent processing read requests
- Sys::Virt::Domain::BLOCK_STATS_WRITE_BYTES
-
The amount of data written
- Sys::Virt::Domain::BLOCK_STATS_WRITE_REQ
-
The number of write requests
- Sys::Virt::Domain::BLOCK_STATS_WRITE_TOTAL_TIMES
-
The time spent processing write requests
CPU STATS CONSTANTS
The following constants provide the names of well known cpu stats fields
- Sys::Virt::Domain::CPU_STATS_CPUTIME
-
The total CPU time, including both hypervisor and vCPU time.
- Sys::Virt::Domain::CPU_STATS_USERTIME
-
THe total time in kernel
- Sys::Virt::Domain::CPU_STATS_SYSTEMTIME
-
The total time in userspace
- Sys::Virt::Domain::CPU_STATS_VCPUTIME
-
The total vCPU time.
CPU STATS CONSTANTS
The following constants provide the names of well known schedular parameters
- Sys::Virt::SCHEDULER_EMULATOR_PERIOD
-
The duration of the time period for scheduling the emulator
- Sys::Virt::SCHEDULER_EMULATOR_QUOTA
-
The quota for the emulator in one schedular time period
- Sys::Virt::SCHEDULER_IOTHREAD_PERIOD
-
The duration of the time period for scheduling the iothread
- Sys::Virt::SCHEDULER_IOTHREAD_QUOTA
-
The quota for the iothread in one schedular time period
DOMAIN STATS FLAG CONSTANTS
The following constants are used as flags when requesting bulk domain stats from Sys::Virt::get_all_domain_stats
.
- Sys::Virt::Domain::GET_ALL_STATS_ACTIVE
-
Include stats for active domains
- Sys::Virt::Domain::GET_ALL_STATS_INACTIVE
-
Include stats for inactive domains
- Sys::Virt::Domain::GET_ALL_STATS_OTHER
-
Include stats for other domains
- Sys::Virt::Domain::GET_ALL_STATS_PAUSED
-
Include stats for paused domains
- Sys::Virt::Domain::GET_ALL_STATS_PERSISTENT
-
Include stats for persistent domains
- Sys::Virt::Domain::GET_ALL_STATS_RUNNING
-
Include stats for running domains
- Sys::Virt::Domain::GET_ALL_STATS_SHUTOFF
-
Include stats for shutoff domains
- Sys::Virt::Domain::GET_ALL_STATS_TRANSIENT
-
Include stats for transient domains
- Sys::Virt::Domain::GET_ALL_STATS_ENFORCE_STATS
-
Require that all requested stats fields are returned
- Sys::Virt::Domain::GET_ALL_STATS_BACKING
-
Get stats for image backing files too
- Sys::Virt::Domain::GET_ALL_STATS_NOWAIT
-
Skip stats if they can't be acquired without waiting
DOMAIN STATS FIELD CONSTANTS
The following constants are used to control which fields are returned for stats queries.
- Sys::Virt::Domain::STATS_BALLOON
-
Balloon statistics
- Sys::Virt::Domain::STATS_BLOCK
-
Block device info
- Sys::Virt::Domain::STATS_CPU_TOTAL
-
CPU usage info
- Sys::Virt::Domain::STATS_INTERFACE
-
Network interface info
- Sys::Virt::Domain::STATS_STATE
-
General lifecycle state
- Sys::Virt::Domain::STATS_VCPU
-
Virtual CPU info
- Sys::Virt::Domain::STATS_PERF
-
Performance event counter values
- Sys::Virt::Domain::STATS_IOTHREAD
-
IOThread performance statistics values
- Sys::Virt::Domain::STATS_MEMORY
-
Memory bandwidth statistics values
- Sys::Virt::Domain::STATS_DIRTYRATE
-
Memory dirty rate statistics
- Sys::Virt::Domain::STATS_VM
-
Hypervisor-specific stats fields for given VM
PROCESS SIGNALS
The following constants provide the names of signals which can be sent to guest processes. They mostly correspond to POSIX signal names.
- Sys::Virt::Domain::PROCESS_SIGNAL_NOP
-
SIGNOP
- Sys::Virt::Domain::PROCESS_SIGNAL_HUP
-
SIGHUP
- Sys::Virt::Domain::PROCESS_SIGNAL_INT
-
SIGINT
- Sys::Virt::Domain::PROCESS_SIGNAL_QUIT
-
SIGQUIT
- Sys::Virt::Domain::PROCESS_SIGNAL_ILL
-
SIGILL
- Sys::Virt::Domain::PROCESS_SIGNAL_TRAP
-
SIGTRAP
- Sys::Virt::Domain::PROCESS_SIGNAL_ABRT
-
SIGABRT
- Sys::Virt::Domain::PROCESS_SIGNAL_BUS
-
SIGBUS
- Sys::Virt::Domain::PROCESS_SIGNAL_FPE
-
SIGFPE
- Sys::Virt::Domain::PROCESS_SIGNAL_KILL
-
SIGKILL
- Sys::Virt::Domain::PROCESS_SIGNAL_USR1
-
SIGUSR1
- Sys::Virt::Domain::PROCESS_SIGNAL_SEGV
-
SIGSEGV
- Sys::Virt::Domain::PROCESS_SIGNAL_USR2
-
SIGUSR2
- Sys::Virt::Domain::PROCESS_SIGNAL_PIPE
-
SIGPIPE
- Sys::Virt::Domain::PROCESS_SIGNAL_ALRM
-
SIGALRM
- Sys::Virt::Domain::PROCESS_SIGNAL_TERM
-
SIGTERM
- Sys::Virt::Domain::PROCESS_SIGNAL_STKFLT
-
SIGSTKFLT
- Sys::Virt::Domain::PROCESS_SIGNAL_CHLD
-
SIGCHLD
- Sys::Virt::Domain::PROCESS_SIGNAL_CONT
-
SIGCONT
- Sys::Virt::Domain::PROCESS_SIGNAL_STOP
-
SIGSTOP
- Sys::Virt::Domain::PROCESS_SIGNAL_TSTP
-
SIGTSTP
- Sys::Virt::Domain::PROCESS_SIGNAL_TTIN
-
SIGTTIN
- Sys::Virt::Domain::PROCESS_SIGNAL_TTOU
-
SIGTTOU
- Sys::Virt::Domain::PROCESS_SIGNAL_URG
-
SIGURG
- Sys::Virt::Domain::PROCESS_SIGNAL_XCPU
-
SIGXCPU
- Sys::Virt::Domain::PROCESS_SIGNAL_XFSZ
-
SIGXFSZ
- Sys::Virt::Domain::PROCESS_SIGNAL_VTALRM
-
SIGVTALRM
- Sys::Virt::Domain::PROCESS_SIGNAL_PROF
-
SIGPROF
- Sys::Virt::Domain::PROCESS_SIGNAL_WINCH
-
SIGWINCH
- Sys::Virt::Domain::PROCESS_SIGNAL_POLL
-
SIGPOLL
- Sys::Virt::Domain::PROCESS_SIGNAL_PWR
-
SIGPWR
- Sys::Virt::Domain::PROCESS_SIGNAL_SYS
-
SIGSYS
- Sys::Virt::Domain::PROCESS_SIGNAL_RT0
-
SIGRT0
- Sys::Virt::Domain::PROCESS_SIGNAL_RT1
-
SIGRT1
- Sys::Virt::Domain::PROCESS_SIGNAL_RT2
-
SIGRT2
- Sys::Virt::Domain::PROCESS_SIGNAL_RT3
-
SIGRT3
- Sys::Virt::Domain::PROCESS_SIGNAL_RT4
-
SIGRT4
- Sys::Virt::Domain::PROCESS_SIGNAL_RT5
-
SIGRT5
- Sys::Virt::Domain::PROCESS_SIGNAL_RT6
-
SIGRT6
- Sys::Virt::Domain::PROCESS_SIGNAL_RT7
-
SIGRT7
- Sys::Virt::Domain::PROCESS_SIGNAL_RT8
-
SIGRT8
- Sys::Virt::Domain::PROCESS_SIGNAL_RT9
-
SIGRT9
- Sys::Virt::Domain::PROCESS_SIGNAL_RT10
-
SIGRT10
- Sys::Virt::Domain::PROCESS_SIGNAL_RT11
-
SIGRT11
- Sys::Virt::Domain::PROCESS_SIGNAL_RT12
-
SIGRT12
- Sys::Virt::Domain::PROCESS_SIGNAL_RT13
-
SIGRT13
- Sys::Virt::Domain::PROCESS_SIGNAL_RT14
-
SIGRT14
- Sys::Virt::Domain::PROCESS_SIGNAL_RT15
-
SIGRT15
- Sys::Virt::Domain::PROCESS_SIGNAL_RT16
-
SIGRT16
- Sys::Virt::Domain::PROCESS_SIGNAL_RT17
-
SIGRT17
- Sys::Virt::Domain::PROCESS_SIGNAL_RT18
-
SIGRT18
- Sys::Virt::Domain::PROCESS_SIGNAL_RT19
-
SIGRT19
- Sys::Virt::Domain::PROCESS_SIGNAL_RT20
-
SIGRT20
- Sys::Virt::Domain::PROCESS_SIGNAL_RT21
-
SIGRT21
- Sys::Virt::Domain::PROCESS_SIGNAL_RT22
-
SIGRT22
- Sys::Virt::Domain::PROCESS_SIGNAL_RT23
-
SIGRT23
- Sys::Virt::Domain::PROCESS_SIGNAL_RT24
-
SIGRT24
- Sys::Virt::Domain::PROCESS_SIGNAL_RT25
-
SIGRT25
- Sys::Virt::Domain::PROCESS_SIGNAL_RT26
-
SIGRT26
- Sys::Virt::Domain::PROCESS_SIGNAL_RT27
-
SIGRT27
- Sys::Virt::Domain::PROCESS_SIGNAL_RT28
-
SIGRT28
- Sys::Virt::Domain::PROCESS_SIGNAL_RT29
-
SIGRT29
- Sys::Virt::Domain::PROCESS_SIGNAL_RT30
-
SIGRT30
- Sys::Virt::Domain::PROCESS_SIGNAL_RT31
-
SIGRT31
- Sys::Virt::Domain::PROCESS_SIGNAL_RT32
-
SIGRT32
DOMAIN TUNABLE CONSTANTS
The following constants are useful when accessing domain tuning parameters in APIs and events
- Sys::Virt::Domain::TUNABLE_CPU_CPU_SHARES
-
Proportional CPU weight
- Sys::Virt::Domain::TUNABLE_CPU_EMULATORPIN
-
Emulator thread CPU pinning mask
- Sys::Virt::Domain::TUNABLE_CPU_EMULATOR_PERIOD
-
Emulator thread CPU period
- Sys::Virt::Domain::TUNABLE_CPU_EMULATOR_QUOTA
-
Emulator thread CPU quota
- Sys::Virt::Domain::TUNABLE_CPU_IOTHREAD_PERIOD
-
Iothread thread CPU period
- Sys::Virt::Domain::TUNABLE_CPU_IOTHREAD_QUOTA
-
Iothread thread CPU quota
- Sys::Virt::Domain::TUNABLE_CPU_VCPUPIN
-
VCPU thread pinning mask
- Sys::Virt::Domain::TUNABLE_CPU_VCPU_PERIOD
-
VCPU thread period
- Sys::Virt::Domain::TUNABLE_CPU_VCPU_QUOTA
-
VCPU thread quota
- Sys::Virt::Domain::TUNABLE_CPU_GLOBAL_PERIOD
-
VM global period
- Sys::Virt::Domain::TUNABLE_CPU_GLOBAL_QUOTA
-
VM global quota
- Sys::Virt::Domain::TUNABLE_BLKDEV_DISK
-
The name of guest disks
- Sys::Virt::Domain::TUNABLE_BLKDEV_READ_BYTES_SEC
-
Read throughput in bytes per sec
- Sys::Virt::Domain::TUNABLE_BLKDEV_READ_IOPS_SEC
-
Read throughput in I/O operations per sec
- Sys::Virt::Domain::TUNABLE_BLKDEV_TOTAL_BYTES_SEC
-
Total throughput in bytes per sec
- Sys::Virt::Domain::TUNABLE_BLKDEV_TOTAL_IOPS_SEC
-
Total throughput in I/O operations per sec
- Sys::Virt::Domain::TUNABLE_BLKDEV_WRITE_BYTES_SEC
-
Write throughput in bytes per sec
- Sys::Virt::Domain::TUNABLE_BLKDEV_WRITE_IOPS_SEC
-
Write throughput in I/O operations per sec
- Sys::Virt::Domain::TUNABLE_BLKDEV_READ_BYTES_SEC_MAX
-
Maximum read throughput in bytes per sec
- Sys::Virt::Domain::TUNABLE_BLKDEV_READ_IOPS_SEC_MAX
-
Maximum read throughput in I/O operations per sec
- Sys::Virt::Domain::TUNABLE_BLKDEV_TOTAL_BYTES_SEC_MAX
-
Maximum total throughput in bytes per sec
- Sys::Virt::Domain::TUNABLE_BLKDEV_TOTAL_IOPS_SEC_MAX
-
Maximum total throughput in I/O operations per sec
- Sys::Virt::Domain::TUNABLE_BLKDEV_WRITE_BYTES_SEC_MAX
-
Maximum write throughput in bytes per sec
- Sys::Virt::Domain::TUNABLE_BLKDEV_WRITE_IOPS_SEC_MAX
-
Maximum write throughput in I/O operations per sec
- Sys::Virt::Domain::TUNABLE_BLKDEV_SIZE_IOPS_SEC
-
The maximum I/O operations per second
- Sys::Virt::Domain::TUNABLE_BLKDEV_TOTAL_BYTES_SEC_MAX_LENGTH
-
The duration in seconds allowed for maximum total bytes processed per second.
- Sys::Virt::Domain::TUNABLE_BLKDEV_READ_BYTES_SEC_MAX_LENGTH
-
The duration in seconds allowed for maximum bytes read per second.
- Sys::Virt::Domain::TUNABLE_BLKDEV_WRITE_BYTES_SEC_MAX_LENGTH
-
The duration in seconds allowed for maximum bytes written per second.
- Sys::Virt::Domain::TUNABLE_BLKDEV_TOTAL_IOPS_SEC_MAX_LENGTH
-
The duration in seconds allowed for maximum total I/O operations processed per second.
- Sys::Virt::Domain::TUNABLE_BLKDEV_READ_IOPS_SEC_MAX_LENGTH
-
The duration in seconds allowed for maximum I/O operations read per second.
- Sys::Virt::Domain::TUNABLE_BLKDEV_WRITE_IOPS_SEC_MAX_LENGTH
-
The duration in seconds allowed for maximum I/O operations written per second.
- Sys::Virt::Domain::TUNABLE_BLKDEV_GROUP_NAME
-
The name of the blkdev group
- Sys::Virt::Domain::TUNABLE_IOTHREADSPIN
-
The I/O threads pinning
DOMAIN LIFECYCLE CONSTANTS
The following constants are useful when setting action for lifecycle events.
- Sys::Virt::Domain::LIFECYCLE_POWEROFF
-
The poweroff lifecycle event type
- Sys::Virt::Domain::LIFECYCLE_REBOOT
-
The reboot lifecycle event type
- Sys::Virt::Domain::LIFECYCLE_CRASH
-
The crash lifecycle event type
DOMAIN LIFECYCLE ACTION CONSTANTS
- Sys::Virt::Domain::LIFECYCLE_ACTION_DESTROY
-
The destroy lifecycle action
- Sys::Virt::Domain::LIFECYCLE_ACTION_RESTART
-
The restart lifecycle action
- Sys::Virt::Domain::LIFECYCLE_ACTION_RESTART_RENAME
-
The restart-rename lifecycle action
- Sys::Virt::Domain::LIFECYCLE_ACTION_PRESERVE
-
The preserve lifecycle action
- Sys::Virt::Domain::LIFECYCLE_ACTION_COREDUMP_DESTROY
-
The coredump-destroy lifecycle action
- Sys::Virt::Domain::LIFECYCLE_ACTION_COREDUMP_RESTART
-
The coredump-restart lifecycle action
MEMORY FAILURE ACTION CONSTANTS
- Sys::Virt::Domain::EVENT_MEMORY_FAILURE_ACTION_IGNORE
-
The failure could be ignored
- Sys::Virt::Domain::EVENT_MEMORY_FAILURE_ACTION_INJECT
-
An MCE was injected to the guest
- Sys::Virt::Domain::EVENT_MEMORY_FAILURE_ACTION_FATAL
-
The failure is non-recoverable and the hypervisor was not able to handle it
- Sys::Virt::Domain::EVENT_MEMORY_FAILURE_ACTION_RESET
-
The failure is non-recoverable and the guest was not able to handle it.
MEMORY FAILURE RECIPIENT CONSTANTS
- Sys::Virt::Domain::EVENT_MEMORY_FAILURE_RECIPIENT_HYPERVISOR
-
The memory failure was in hypervisor address space
- Sys::Virt::Domain::EVENT_MEMORY_FAILURE_RECIPIENT_GUEST
-
The memory failure was in guest address space
MEMORY FAILURE FLAG CONSTANTS
- Sys::Virt::Domain::MEMORY_FAILURE_ACTION_REQUIRED
-
Whether the flag is action-required or action-optional
- Sys::Virt::Domain::MEMORY_FAILURE_RECURSIVE
-
The failure occurred while the previous fault was being handled.
MEMORY DIRTY RATE STATUS CONSTANTS
- Sys::Virt::Domain::DIRTYRATE_UNSTARTED
-
The dirty rate is not being measured currently.
- Sys::Virt::Domain::DIRTYRATE_MEASURING
-
The dity rate is in the process of being measured
- Sys::Virt::Domain::DIRTYRATE_MEASURED
-
The dirty rate has been measured
AUTHORS
Daniel P. Berrange <berrange@redhat.com>
COPYRIGHT
Copyright (C) 2006 Red Hat Copyright (C) 2006-2007 Daniel P. Berrange
LICENSE
This program is free software; you can redistribute it and/or modify it under the terms of either the GNU General Public License as published by the Free Software Foundation (either version 2 of the License, or at your option any later version), or, the Artistic License, as specified in the Perl README file.
SEE ALSO
Sys::Virt, Sys::Virt::Error, http://libvirt.org