Ubuntu Manpage: Sys::Virt - Represent and manage a libvirt hypervisor connection

Provided by: libsys-virt-perl_10.0.0-1build2_amd64

NAME

       Sys::Virt - Represent and manage a libvirt hypervisor connection

SYNOPSIS

         my $conn = Sys::Virt->new(uri => $uri);

         my @domains = $conn->list_domains();

         foreach my $dom (@domains) {
           print "Domain ", $dom->get_id, " ", $dom->get_name, "\n";
         }

DESCRIPTION

       The Sys::Virt module provides a Perl XS binding to the libvirt virtual machine management APIs. This
       allows machines running within arbitrary virtualization containers to be managed with a consistent API.

CALLBACK HANDLING

       Each callback registration routine returns a $callbackID (except for "domain_event_register" and
       "register_close_callback"). This return value must be retained and used for callback deregistration.

       IMPORTANT: All callbacks must be deregistered (including the ones registered using
       "domain_event_register" and "register_close_callback"); failing to do so prevents the "Sys::Virt" object
       from being garbage collected and the connection to "libvirtd" from being closed.

ERROR HANDLING

       Any operations in the Sys::Virt API which have failure scenarios will result in an instance of the
       Sys::Virt::Error module being thrown. To catch these errors, simply wrap the method in an eval block:

         eval { my $conn = Sys::Virt->new(uri => $uri); };
         if ($@) {
           print STDERR "Unable to open connection to $addr" . $@->message . "\n";
         }

       For details of the information contained in the error objects, consult the Sys::Virt::Error manual page.

METHODS

my $conn = Sys::Virt->new(uri => $uri, readonly => $ro, flags => $flags);
Attach to the virtualization host identified by "uri". The "uri" parameter may be omitted, in which
case the default connection made will be to the local Xen hypervisor. Some example URIs include:

xen:///
Xen on the local machine

test:///default
Dummy "in memory" driver for test suites

qemu:///system
System-wide driver for QEMU / KVM virtualization

qemu:///session
Per-user driver for QEMU virtualization

qemu+tls://somehost/system
System-wide QEMU driver on "somehost" using TLS security

xen+tcp://somehost/
Xen driver on "somehost" using TCP / SASL security

For further details consult "http://libvirt.org/uri.html"

If the optional "readonly" parameter is supplied, then an unprivileged connection to the hypervisor
will be attempted. If it is not supplied, then it defaults to making a fully privileged connection to
the hypervisor. If the calling application is not running as root, it may be necessary to provide
authentication callbacks.

If the optional "auth" parameter is set to a non-zero value, authentication will be enabled during
connection, using the default set of credential gathering callbacks. The default callbacks prompt for
credentials on the console, so are not suitable for graphical applications. For such apps a custom
implementation should be supplied. The "credlist" parameter should be an array reference listing the
set of credential types that will be supported. The credential constants in this module can be used
as values in this list. The "callback" parameter should be a subroutine reference containing the code
necessary to gather the credentials. When invoked it will be supplied with a single parameter, an
array reference of requested credentials. The elements of the array are hash references, with keys
"type" giving the type of credential, "prompt" giving a user descriptive user prompt, "challenge"
giving name of the credential required. The answer should be collected from the user, and returned by
setting the "result" key. This key may already be set with a default result if applicable

As a simple example returning hardcoded credentials

my $uri = "qemu+tcp://192.168.122.1/system";
my $username = "test";
my $password = "123456";

my $con = Sys::Virt->new(uri => $uri,
auth => 1,
credlist => [
Sys::Virt::CRED_AUTHNAME,
Sys::Virt::CRED_PASSPHRASE,
],
callback =>
sub {
my $creds = shift;

foreach my $cred (@{$creds}) {
if ($cred->{type} == Sys::Virt::CRED_AUTHNAME) {
$cred->{result} = $username;
}
if ($cred->{type} == Sys::Virt::CRED_PASSPHRASE) {
$cred->{result} = $password;
}
}
return 0;
});

For backwards compatibility with earlier releases, the "address" parameter is accepted as a synonym
for the "uri" parameter. The use of "uri" is recommended for all newly written code.

$conn->set_identity($identity, $flags=0)
Change the identity that is used for access control over the connection. Normally the remote daemon
will use the identity associated with the UNIX domain socket that the app opens. Only a privileged
client is usually able to override this. The $identity should be a hash reference whose keys are one
of the IDENTITY constants. The $flags parameter is currently unused, and defaults to 0 if omitted.

my $st = $conn->new_stream($flags)
Create a new stream, with the given flags

my $dom = $conn->create_domain($xml, $flags=0);
Create a new domain based on the XML description passed into the $xml parameter. The returned object
is an instance of the Sys::Virt::Domain class. This method is not available with unprivileged
connections to the hypervisor. The $flags parameter accepts one of the DOMAIN CREATION constants
documented in Sys::Virt::Domain, and defaults to 0 if omitted.

my $dom = $conn->create_domain_with_files($xml, $fds, $flags=0);
Create a new domain based on the XML description passed into the $xml parameter. The returned object
is an instance of the Sys::Virt::Domain class. This method is not available with unprivileged
connections to the hypervisor. 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 in
Sys::Virt::Domain, and defaults to 0 if omitted.

my $dom = $conn->define_domain($xml, $flags=0);
Defines, but does not start, a new domain based on the XML description passed into the $xml
parameter. The returned object is an instance of the Sys::Virt::Domain class. This method is not
available with unprivileged connections to the hypervisor. The defined domain can be later started by
calling the "create" method on the returned "Sys::Virt::Domain" object. The $flags parameter accepts
one of the DOMAIN DEFINE constants documented in Sys::Virt::Domain, and defaults to 0 if omitted.

my $net = $conn->create_network($xml, $flags=0);
Create a new network based on the XML description passed into the $xml parameter. The returned object
is an instance of the Sys::Virt::Network class. This method is not available with unprivileged
connections to the hypervisor. The $flags parameter accepts one of the NETWORK CREATION constants
documented in Sys::Virt::Network, and defaults to 0 if omitted.

my $net = $conn->define_network($xml, $flags=0);
Defines, but does not start, a new network based on the XML description passed into the $xml
parameter. The returned object is an instance of the Sys::Virt::Network class. This method is not
available with unprivileged connections to the hypervisor. The defined network can be later started
by calling the "create" method on the returned "Sys::Virt::Network" object. The $flags parameter
accepts one of the NETWORK DEFINE constants documented in Sys::Virt::Network, and defaults to 0 if
omitted.

my $nwfilter = $conn->define_nwfilter($xml, $flags=0);
Defines a new network filter based on the XML description passed into the $xml parameter. The
returned object is an instance of the Sys::Virt::NWFilter class. This method is not available with
unprivileged connections to the hypervisor. The $flags parameter accepts one of the NWFILTER DEFINE
constants documented in Sys::Virt::NWFilter, and defaults to 0 if omitted.

my $binding = $conn->create_nwfilter_binding($xml, $flags=0);
Create a new network filter binding based on the XML description passed into the $xml parameter. The
returned object is an instance of the Sys::Virt::NWFilterBinding class. The $flags parameter accepts
one of the NETWORK FILTER BINDING CREATION constants documented in Sys::Virt::NWFilterBinding, and
defaults to 0 if omitted.

my $secret = $conn->define_secret($xml, $flags=0);
Defines a new secret based on the XML description passed into the $xml parameter. The returned object
is an instance of the Sys::Virt::Secret class. This method is not available with unprivileged
connections to the hypervisor. The $flags parameter accepts one of the SECRET DEFINE constants
documented in Sys::Virt::Secret, and defaults to 0 if omitted.

my $pool = $conn->create_storage_pool($xml);
Create a new storage pool based on the XML description passed into the $xml parameter. The returned
object is an instance of the Sys::Virt::StoragePool class. This method is not available with
unprivileged connections to the hypervisor.

my $pool = $conn->define_storage_pool($xml, $flags=0);
Defines, but does not start, a new storage pol based on the XML description passed into the $xml
parameter. The returned object is an instance of the Sys::Virt::StoragePool class. This method is not
available with unprivileged connections to the hypervisor. The defined pool can be later started by
calling the "create" method on the returned "Sys::Virt::StoragePool" object. The $flags parameter
accepts one of the STORAGE POOL DEFINE constants documented in Sys::Virt::StoragePool, and defaults
to 0 if omitted.

my $pool = $conn->create_interface($xml);
Create a new interface based on the XML description passed into the $xml parameter. The returned
object is an instance of the Sys::Virt::Interface class. This method is not available with
unprivileged connections to the hypervisor.

my $iface = $conn->define_interface($xml, $flags=0);
Defines, but does not start, a new interface based on the XML description passed into the $xml
parameter. The returned object is an instance of the Sys::Virt::Interface class. This method is not
available with unprivileged connections to the hypervisor. The defined interface can be later started
by calling the "create" method on the returned "Sys::Virt::Interface" object. The $flags parameter
accepts one of the INTERFACE DEFINE constants documented in Sys::Virt::Interface, and defaults to 0
if omitted.

my $dev = $conn->create_node_device($xml, $flags=0);
Create a new virtual node device based on the XML description passed into the $xml parameter. The
returned object is an instance of the Sys::Virt::NodeDevice class. This method is not available with
unprivileged connections to the hypervisor. The $flags parameter accepts one of the NODE DEVICE
CREATION constants documented in Sys::Virt::NodeDevice, and defaults to 0 if omitted.

my $dev = $conn->define_node_device($xml, $flags=0);
Defines, but does not start, a new node dev based on the XML description passed into the $xml
parameter. The returned object is an instance of the Sys::Virt::NodeDevice class. This method is not
available with unprivileged connections to the hypervisor. The defined node device can be later
started by calling the "create" method on the returned "Sys::Virt::NodeDevice" object. The $flags
parameter accepts one of the NODE DEVICE DEFINE constants documented in Sys::Virt::NodeDevice, and
defaults to 0 if omitted.

my @doms = $conn->list_domains()
Return a list of all running domains currently known to the hypervisor. The elements in the returned
list are instances of the Sys::Virt::Domain class. This method requires O(n) RPC calls, so the
"list_all_domains" method is recommended as a more efficient alternative.

my $nids = $conn->num_of_domains()
Return the number of running domains known to the hypervisor. This can be used as the "maxids"
parameter to "list_domain_ids".

my @domIDs = $conn->list_domain_ids($maxids)
Return a list of all domain IDs currently known to the hypervisor. The IDs can be used with the
"get_domain_by_id" method.

my @doms = $conn->list_defined_domains()
Return a list of all domains defined, but not currently running, on the hypervisor. The elements in
the returned list are instances of the Sys::Virt::Domain class. This method requires O(n) RPC calls,
so the "list_all_domains" method is recommended as a more efficient alternative.

my $ndoms = $conn->num_of_defined_domains()
Return the number of running domains known to the hypervisor. This can be used as the "maxnames"
parameter to "list_defined_domain_names".

my @names = $conn->list_defined_domain_names($maxnames)
Return a list of names of all domains defined, but not currently running, on the hypervisor. The
names can be used with the "get_domain_by_name" method.

my @doms = $conn->list_all_domains($flags)
Return a list of all domains currently known to the hypervisor, whether running or shutoff. The
elements in the returned list are instances of the Sys::Virt::Domain class. The $flags parameter can
be used to filter the list of returned domains.

my @nets = $conn->list_networks()
Return a list of all networks currently known to the hypervisor. The elements in the returned list
are instances of the Sys::Virt::Network class. This method requires O(n) RPC calls, so the
"list_all_networks" method is recommended as a more efficient alternative.

my $nnets = $conn->num_of_networks()
Return the number of running networks known to the hypervisor. This can be used as the "maxids"
parameter to "list_network_ids".

my @netNames = $conn->list_network_names($maxnames)
Return a list of all network names currently known to the hypervisor. The names can be used with the
"get_network_by_name" method.

my @nets = $conn->list_defined_networks()
Return a list of all networks defined, but not currently running, on the hypervisor. The elements in
the returned list are instances of the Sys::Virt::Network class. This method requires O(n) RPC calls,
so the "list_all_networks" method is recommended as a more efficient alternative.

my $nnets = $conn->num_of_defined_networks()
Return the number of running networks known to the host. This can be used as the "maxnames" parameter
to "list_defined_network_names".

my @names = $conn->list_defined_network_names($maxnames)
Return a list of names of all networks defined, but not currently running, on the host. The names can
be used with the "get_network_by_name" method.

my @nets = $conn->list_all_networks($flags)
Return a list of all networks currently known to the hypervisor, whether running or shutoff. The
elements in the returned list are instances of the Sys::Virt::Network class. The $flags parameter can
be used to filter the list of returned networks.

my @pools = $conn->list_storage_pools()
Return a list of all storage pools currently known to the host. The elements in the returned list are
instances of the Sys::Virt::StoragePool class. This method requires O(n) RPC calls, so the
"list_all_storage_pools" method is recommended as a more efficient alternative.

my $npools = $conn->num_of_storage_pools()
Return the number of running storage pools known to the hypervisor. This can be used as the "maxids"
parameter to "list_storage_pool_names".

my @poolNames = $conn->list_storage_pool_names($maxnames)
Return a list of all storage pool names currently known to the hypervisor. The IDs can be used with
the "get_network_by_id" method.

my @pools = $conn->list_defined_storage_pools()
Return a list of all storage pools defined, but not currently running, on the host. The elements in
the returned list are instances of the Sys::Virt::StoragePool class. This method requires O(n) RPC
calls, so the "list_all_storage_pools" method is recommended as a more efficient alternative.

my $npools = $conn->num_of_defined_storage_pools()
Return the number of running networks known to the host. This can be used as the "maxnames" parameter
to "list_defined_storage_pool_names".

my @names = $conn->list_defined_storage_pool_names($maxnames)
Return a list of names of all storage pools defined, but not currently running, on the host. The
names can be used with the "get_storage_pool_by_name" method.

my @pools = $conn->list_all_storage_pools($flags)
Return a list of all storage pools currently known to the hypervisor, whether running or shutoff. The
elements in the returned list are instances of the Sys::Virt::StoragePool class. The $flags parameter
can be used to filter the list of returned pools.

my @devs = $conn->list_node_devices($capability)
Return a list of all devices currently known to the host OS. The elements in the returned list are
instances of the Sys::Virt::NodeDevice class. The optional "capability" parameter allows the list to
be restricted to only devices with a particular capability type. This method requires O(n) RPC calls,
so the "list_all_node_devices" method is recommended as a more efficient alternative.

my $ndevs = $conn->num_of_node_devices($capability[, $flags])
Return the number of host devices known to the hypervisor. This can be used as the "maxids" parameter
to "list_node_device_names". The "capability" parameter allows the list to be restricted to only
devices with a particular capability type, and should be left as "undef" if the full list is
required. The optional <flags> parameter is currently unused and defaults to 0 if omitted.

my @devNames = $conn->list_node_device_names($capability, $maxnames[, $flags])
Return a list of all host device names currently known to the hypervisor. The names can be used with
the "get_node_device_by_name" method. The "capability" parameter allows the list to be restricted to
only devices with a particular capability type, and should be left as "undef" if the full list is
required. The optional <flags> parameter is currently unused and defaults to 0 if omitted.

my @devs = $conn->list_all_node_devices($flags)
Return a list of all node devices currently known to the hypervisor. The elements in the returned
list are instances of the Sys::Virt::NodeDevice class. The $flags parameter can be used to filter the
list of returned devices.

my @ifaces = $conn->list_interfaces()
Return a list of all network interfaces currently known to the hypervisor. The elements in the
returned list are instances of the Sys::Virt::Interface class. This method requires O(n) RPC calls,
so the "list_all_interfaces" method is recommended as a more efficient alternative.

my $nifaces = $conn->num_of_interfaces()
Return the number of running interfaces known to the hypervisor. This can be used as the "maxnames"
parameter to "list_interface_names".

my @names = $conn->list_interface_names($maxnames)
Return a list of all interface names currently known to the hypervisor. The names can be used with
the "get_interface_by_name" method.

my @ifaces = $conn->list_defined_interfaces()
Return a list of all network interfaces currently known to the hypervisor. The elements in the
returned list are instances of the Sys::Virt::Interface class. This method requires O(n) RPC calls,
so the "list_all_interfaces" method is recommended as a more efficient alternative.

my $nifaces = $conn->num_of_defined_interfaces()
Return the number of inactive interfaces known to the hypervisor. This can be used as the "maxnames"
parameter to "list_defined_interface_names".

my @names = $conn->list_defined_interface_names($maxnames)
Return a list of inactive interface names currently known to the hypervisor. The names can be used
with the "get_interface_by_name" method.

my @ifaces = $conn->list_all_interfaces($flags)
Return a list of all interfaces currently known to the hypervisor, whether running or shutoff. The
elements in the returned list are instances of the Sys::Virt::Interface class. The $flags parameter
can be used to filter the list of returned interfaces.

my @ifaces = $conn->list_secrets()
Return a list of all secrets currently known to the hypervisor. The elements in the returned list are
instances of the Sys::Virt::Secret class. This method requires O(n) RPC calls, so the
"list_all_secrets" method is recommended as a more efficient alternative.

my $nuuids = $conn->num_of_secrets()
Return the number of secrets known to the hypervisor. This can be used as the "maxuuids" parameter to
"list_secrets".

my @uuids = $conn->list_secret_uuids($maxuuids)
Return a list of all secret uuids currently known to the hypervisor. The uuids can be used with the
"get_secret_by_uuid" method.

my @secrets = $conn->list_all_secrets($flags)
Return a list of all secrets currently known to the hypervisor. The elements in the returned list are
instances of the Sys::Virt::Network class. The $flags parameter can be used to filter the list of
returned secrets.

my @nwfilters = $conn->list_nwfilters()
Return a list of all nwfilters currently known to the hypervisor. The elements in the returned list
are instances of the Sys::Virt::NWFilter class. This method requires O(n) RPC calls, so the
"list_all_nwfilters" method is recommended as a more efficient alternative.

my $nnwfilters = $conn->num_of_nwfilters()
Return the number of running nwfilters known to the hypervisor. This can be used as the "maxids"
parameter to "list_nwfilter_names".

my @filterNames = $conn->list_nwfilter_names($maxnames)
Return a list of all nwfilter names currently known to the hypervisor. The names can be used with the
"get_nwfilter_by_name" method.

my @nwfilters = $conn->list_all_nwfilters($flags)
Return a list of all nwfilters currently known to the hypervisor. The elements in the returned list
are instances of the Sys::Virt::NWFilter class. The $flags parameter is currently unused and
defaults to zero.

my @bindings = $conn->list_all_nwfilter_bindings($flags)
Return a list of all nwfilter bindings currently known to the hypervisor. The elements in the
returned list are instances of the Sys::Virt::NWFilterBinding class. The $flags parameter is
currently unused and defaults to zero.

$conn->define_save_image_xml($file, $dxml, $flags=0)
Update the XML associated with a virtual machine's save image. The $file parameter is the fully
qualified path to the save image XML, while $dxml is the new XML document to write. The $flags
parameter is currently unused and defaults to zero.

$xml = $conn->get_save_image_xml_description($file, $flags=1)
Retrieve the current XML configuration associated with the virtual machine's save image identified by
$file. The $flags parameter accepts the same constants as
"Sys::Virt::Domain::managed_save_get_xml_description".

my $dom = $conn->get_domain_by_name($name)
Return the domain with a name of $name. The returned object is an instance of the Sys::Virt::Domain
class.

my $dom = $conn->get_domain_by_id($id)
Return the domain with a local id of $id. The returned object is an instance of the Sys::Virt::Domain
class.

my $dom = $conn->get_domain_by_uuid($uuid)
Return the domain with a globally unique id of $uuid. The returned object is an instance of the
Sys::Virt::Domain class.

my $net = $conn->get_network_by_name($name)
Return the network with a name of $name. The returned object is an instance of the Sys::Virt::Network
class.

my $net = $conn->get_network_by_uuid($uuid)
Return the network with a globally unique id of $uuid. The returned object is an instance of the
Sys::Virt::Network class.

my $pool = $conn->get_storage_pool_by_name($name)
Return the storage pool with a name of $name. The returned object is an instance of the
Sys::Virt::StoragePool class.

my $pool = $conn->get_storage_pool_by_uuid($uuid)
Return the storage pool with a globally unique id of $uuid. The returned object is an instance of the
Sys::Virt::StoragePool class.

my $pool = $conn->get_storage_pool_by_volume($vol)
Return the storage pool with a storage volume $vol. The $vol parameter must be an instance of the
Sys::Virt::StorageVol class. The returned object is an instance of the Sys::Virt::StoragePool class.

my $pool = $conn->get_storage_pool_by_target_path($path)
Return the storage pool with a target path of $path. The returned object is an instance of the
Sys::Virt::StoragePool class.

my $vol = $conn->get_storage_volume_by_path($path)
Return the storage volume with a location of $path. The returned object is an instance of the
Sys::Virt::StorageVol class.

my $vol = $conn->get_storage_volume_by_key($key)
Return the storage volume with a globally unique id of $key. The returned object is an instance of
the Sys::Virt::StorageVol class.

my $dev = $conn->get_node_device_by_name($name)
Return the node device with a name of $name. The returned object is an instance of the
Sys::Virt::NodeDevice class.

my $dev = $conn->get_node_device_scsihost_by_wwn($wwnn, $wwpn, $flags=0)
Return the node device which is a SCSI host identified by $wwnn and $wwpn. The $flags parameter is
unused and defaults to zero. The returned object is an instance of the Sys::Virt::NodeDevice class.

my $iface = $conn->get_interface_by_name($name)
Return the interface with a name of $name. The returned object is an instance of the
Sys::Virt::Interface class.

my $iface = $conn->get_interface_by_mac($mac)
Return the interface with a MAC address of $mac. The returned object is an instance of the
Sys::Virt::Interface class.

my $sec = $conn->get_secret_by_uuid($uuid)
Return the secret with a globally unique id of $uuid. The returned object is an instance of the
Sys::Virt::Secret class.

my $sec = $conn->get_secret_by_usage($usageType, $usageID)
Return the secret with a usage type of $usageType, identified by $usageID. The returned object is an
instance of the Sys::Virt::Secret class.

my $nwfilter = $conn->get_nwfilter_by_name($name)
Return the domain with a name of $name. The returned object is an instance of the Sys::Virt::NWFilter
class.

my $nwfilter = $conn->get_nwfilter_by_uuid($uuid)
Return the nwfilter with a globally unique id of $uuid. The returned object is an instance of the
Sys::Virt::NWFilter class.

my $binding = $conn->get_nwfilter_binding_by_port_dev($name)
Return the network filter binding for the port device $name. The returned object is an instance of
the Sys::Virt::NWFilterBinding class.

my $xml = $conn->find_storage_pool_sources($type, $srcspec[, $flags])
Probe for available storage pool sources for the pool of type $type. The $srcspec parameter can be
"undef", or a parameter to refine the discovery process, for example a server hostname for NFS
discovery. The $flags parameter is optional, and if omitted defaults to zero. The returned scalar is
an XML document describing the discovered storage pool sources.

my @stats = $conn->get_all_domain_stats($stats, \@doms=undef, $flags=0);
Get a list of all statistics for domains known to the hypervisor. The $stats parameter controls
which data fields to return and should be a combination of the DOMAIN STATS FIELD CONSTANTS.

The optional @doms parameter is a list of Sys::Virt::Domain objects to return stats for. If this is
undefined, then all domains will be returned. The $flags method can be used to filter the list of
returned domains.

The return data for the method is a list, one element for each domain. The element will be a hash
with two keys, "dom" pointing to an instance of "Sys::Virt::Domain" and "data" pointing to another
hash reference containing the actual statistics.

$conn->interface_change_begin($flags)
Begin a transaction for changing the configuration of one or more network interfaces

$conn->interface_change_commit($flags)
Complete a transaction for changing the configuration of one or more network interfaces

$conn->interface_change_rollback($flags)
Abort a transaction for changing the configuration of one or more network interfaces

$conn->restore_domain($savefile, $dxml=undef, $params=undef, $flags=0)
Recreate a domain from the saved state file given in the $savefile parameter. The optional $dxml
parameter can be used to alter portions of the domain XML. 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.

$conn->get_max_vcpus($domtype)
Return the maximum number of vcpus that can be configured for a domain of type $domtype

my $hostname = $conn->get_hostname()
Return the name of the host with which this connection is associated.

my $uri = $conn->get_uri()
Return the URI associated with the open connection. This may be different from the URI used when
initially connecting to libvirt, when 'auto-probing' or drivers occurs.

my $xml = $conn->get_sysinfo()
Return an XML documenting representing the host system information, typically obtained from SMBIOS
tables.

my $type = $conn->get_type()
Return the type of virtualization backend accessed by this hypervisor object. Currently the only
supported type is "Xen".

my $xml = $conn->domain_xml_from_native($format, $config);
Convert the native hypervisor configuration $config which is in format <$format> into libvirrt domain
XML. Valid values of $format vary between hypervisor drivers.

my $config = $conn->domain_xml_to_native($format, $xml)
Convert the libvirt domain XML configuration $xml to a native hypervisor configuration in format
$format

my $ver = $conn->get_version()
Return the complete version number as a string encoded in the formula "(major * 1000000) + (minor *
1000) + micro".

my $ver = $conn->get_major_version
Return the major version number of the libvirt library.

my $ver = $conn->get_minor_version
Return the minor version number of the libvirt library.

my $ver = $conn->get_micro_version
Return the micro version number of the libvirt library.

my $ver = $conn->get_library_version
Return the version number of the API associated with the active connection. This differs from
"get_version" in that if the connection is to a remote libvirtd daemon, it will return the API
version of the remote libvirt, rather than the local client.

$conn->is_secure()
Returns a true value if the current connection is secure against network interception. This implies
either use of UNIX sockets, or encryption with a TCP stream.

$conn->is_encrypted()
Returns a true value if the current connection data stream is encrypted.

$conn->is_alive()
Returns a true value if the connection is alive, as determined by keep-alive packets or other recent
RPC traffic.

$conn->set_keep_alive($interval, $count)
Change the operation of the keep alive protocol to send $count packets spaced $interval seconds apart
before considering the connection dead.

my $info = $con->get_node_info()
Returns a hash reference summarising the capabilities of the host node. The elements of the hash are
as follows:

memory
The amount of physical memory in the host

model
The model of the CPU, eg x86_64

cpus
The total number of logical CPUs.

mhz The peak MHZ of the CPU

nodes
The number of NUMA cells

sockets
The number of CPU sockets

cores
The number of cores per socket

threads
The number of threads per core

NB, more accurate information about the total number of CPUs and those online can be obtained using
the "get_node_cpu_map" method.

my ($totcpus, $onlinemap, $totonline) = $con->get_node_cpu_map();
Returns an array containing information about the CPUs available on the host. The first element,
"totcpus", specifies the total number of CPUs available to the host regardless of their online stat.
The second element, "onlinemap", provides a bitmap detailing which CPUs are currently online. The
third element, "totonline", specifies the total number of online CPUs. The values in the bitmap can
be extracted using the "unpack" method as follows:

my @onlinemap = split(//, unpack("b*", $onlinemap));

my $info = $con->get_node_cpu_stats($cpuNum=-1, $flags=0)
Returns a hash reference providing information about the host CPU statistics. If <$cpuNum> is
omitted, it defaults to "Sys::Virt::NODE_CPU_STATS_ALL_CPUS" which causes it to return cumulative
information for all CPUs in the host. If $cpuNum is zero or larger, it returns information just for
the specified number. The $flags parameter is currently unused and defaults to zero. The fields in
the returned hash reference are

kernel
The time spent in kernelspace

user
The time spent in userspace

idle
The idle time

iowait
The I/O wait time

utilization
The overall percentage utilization.

my $info = $con->get_node_memory_stats($cellNum=-1, $flags=0)
Returns a hash reference providing information about the host memory statistics. If <$cellNum> is
omitted, it defaults to "Sys::Virt::NODE_MEMORY_STATS_ALL_CELLS" which causes it to return cumulative
information for all NUMA cells in the host. If $cellNum is zero or larger, it returns information
just for the specified number. The $flags parameter is currently unused and defaults to zero. The
fields in the returned hash reference are

total
The total memory

free
The free memory

buffers
The memory consumed by buffers

cached
The memory consumed for cache

my $params = $conn->get_node_memory_parameters($flags=0)
Return a hash reference containing the set of memory tunable parameters for the node. The keys in the
hash are one of the constants MEMORY PARAMETERS described later. The $flags parameter is currently
unused, and defaults to 0 if omitted.

$conn->set_node_memory_parameters($params, $flags=0)
Update the memory tunable parameters for the node. The $params should be a hash reference whose keys
are one of the MEMORY PARAMETERS constants. The $flags parameter is currently unused, and defaults to
0 if omitted.

$info = $conn->get_node_sev_info($flags=0)
Get the AMD SEV information for the host. $flags is currently unused and defaults to 0 if omitted.
The returned hash contains the following keys:

Sys::Virt::SEV_CBITPOS
The CBit position

Sys::Virt::SEV_CERT_CHAIN
The certificate chain

Sys::Virt::SEV_PDH
Platform diffie-hellman key

Sys::Virt::SEV_REDUCED_PHYS_BITS
The number of physical address bits used by SEV

Sys::Virt::SEV_MAX_GUESTS
Maximum number of SEV guests that can be launched

Sys::Virt::SEV_MAX_ES_GUESTS
Maximum number of SEV-ES guests that can be launched

Sys::Virt::SEV_CPU0_ID
The SEV firmware ID for CPU 0

$conn->node_suspend_for_duration($target, $duration, $flags=0)
Suspend the the host, using mode $target which is one of the NODE SUSPEND constants listed later. The
$duration parameter controls how long the node is suspended for before waking up.

$conn->domain_event_register($callback)
Register a callback to received notifications of domain state change events. Only a single callback
can be registered with each connection instance. The callback will be invoked with four parameters,
an instance of "Sys::Virt" for the connection, an instance of "Sys::Virt::Domain" for the domain
changing state, and a "event" and "detail" arguments, corresponding to the event constants defined in
the "Sys::Virt::Domain" module. Before discarding the connection object, the callback must be
deregistered, otherwise the connection object memory will never be released in garbage collection.

$conn->domain_event_deregister()
Unregister a callback, allowing the connection object to be garbage collected.

$callbackID = $conn->domain_event_register_any($dom, $eventID, $callback)
Register a callback to received notifications of domain events. The $dom parameter can be "undef" to
request events on all known domains, or a specific "Sys::Virt::Domain" object to filter events. The
$eventID parameter is one of the EVENT ID constants described later in this document. The $callback
is a subroutine reference that will receive the events.

All callbacks receive a "Sys::Virt" connection as the first parameter and a "Sys::Virt::Domain"
object indicating the domain on which the event occurred as the second parameter. Subsequent
parameters vary according to the event type

EVENT_ID_LIFECYCLE
Extra "event" and "detail" parameters defining the lifecycle transition that occurred.

EVENT_ID_REBOOT
No extra parameters

EVENT_ID_RTC_CHANGE
The "utcoffset" gives the offset from UTC in seconds

EVENT_ID_WATCHDOG
The "action" defines the action that is taken as a result of the watchdog triggering. One of the
WATCHDOG constants described later

EVENT_ID_IO_ERROR
The "srcPath" is the file on the host which had the error. The "devAlias" is the unique device
alias from the guest configuration associated with "srcPath". The "action" is the action taken as
a result of the error, one of the IO ERROR constants described later

EVENT_ID_GRAPHICS
The "phase" is the stage of the connection, one of the GRAPHICS PHASE constants described later.
The "local" and "remote" parameters follow with the details of the local and remote network
addresses. The "authScheme" describes how the user was authenticated (if at all). Finally
"identities" is an array ref containing authenticated identities for the user, if any.

The return value is a unique callback ID that must be used when unregistering the event.

$conn->domain_event_deregister_any($callbackID)
Unregister a callback, associated with the $callbackID previously obtained from
"domain_event_register_any".

$callbackID = $conn->network_event_register_any($net, $eventID, $callback)
Register a callback to received notifications of network events. The $net parameter can be "undef"
to request events on all known networks, or a specific "Sys::Virt::Network" object to filter events.
The $eventID parameter is one of the EVENT ID constants described later in this document. The
$callback is a subroutine reference that will receive the events.

All callbacks receive a "Sys::Virt" connection as the first parameter and a "Sys::Virt::Network"
object indicating the network on which the event occurred as the second parameter. Subsequent
parameters vary according to the event type

EVENT_ID_LIFECYCLE
Extra "event" and "detail" parameters defining the lifecycle transition that occurred.

The return value is a unique callback ID that must be used when unregistering the event.

$conn->network_event_deregister_any($callbackID)
Unregister a callback, associated with the $callbackID previously obtained from
"network_event_register_any".

$callbackID = $conn->storage_pool_event_register_any($pool, $eventID, $callback)
Register a callback to received notifications of storage pool events. The $pool parameter can be
"undef" to request events on all known storage pools, or a specific "Sys::Virt::StoragePool" object
to filter events. The $eventID parameter is one of the EVENT ID constants described later in this
document. The $callback is a subroutine reference that will receive the events.

All callbacks receive a "Sys::Virt" connection as the first parameter and a "Sys::Virt::StoragePool"
object indicating the storage pool on which the event occurred as the second parameter. Subsequent
parameters vary according to the event type

EVENT_ID_LIFECYCLE
Extra "event" and "detail" parameters defining the lifecycle transition that occurred.

EVENT_ID_REFRESH
No extra parameters.

The return value is a unique callback ID that must be used when unregistering the event.

$conn->storage_pool_event_deregister_any($callbackID)
Unregister a callback, associated with the $callbackID previously obtained from
"storage_pool_event_register_any".

$callbackID = $conn->node_device_event_register_any($dev, $eventID, $callback)
Register a callback to received notifications of node device events. The $dev parameter can be
"undef" to request events on all known node devices, or a specific "Sys::Virt::NodeDevice" object to
filter events. The $eventID parameter is one of the EVENT ID constants described later in this
document. The $callback is a subroutine reference that will receive the events.

All callbacks receive a "Sys::Virt" connection as the first parameter and a "Sys::Virt::NodeDevice"
object indicating the node device on which the event occurred as the second parameter. Subsequent
parameters vary according to the event type

EVENT_ID_LIFECYCLE
Extra "event" and "detail" parameters defining the lifecycle transition that occurred.

The return value is a unique callback ID that must be used when unregistering the event.

$conn->node_device_event_deregister_any($callbackID)
Unregister a callback, associated with the $callbackID previously obtained from
"node_device_event_register_any".

$callbackID = $conn->secret_event_register_any($secret, $eventID, $callback)
Register a callback to received notifications of secret events. The $secret parameter can be "undef"
to request events on all known secrets, or a specific "Sys::Virt::Secret" object to filter events.
The $eventID parameter is one of the EVENT ID constants described later in this document. The
$callback is a subroutine reference that will receive the events.

All callbacks receive a "Sys::Virt" connection as the first parameter and a "Sys::Virt::Secret"
object indicating the secret on which the event occurred as the second parameter. Subsequent
parameters vary according to the event type

EVENT_ID_LIFECYCLE
Extra "event" and "detail" parameters defining the lifecycle transition that occurred.

EVENT_ID_VALUE_CHANGED
No extra parameters.

The return value is a unique callback ID that must be used when unregistering the event.

$conn->secret_event_deregister_any($callbackID)
Unregister a callback, associated with the $callbackID previously obtained from
"secret_event_register_any".

$conn->register_close_callback($coderef);
Register a callback to be invoked when the connection is closed. The callback will be invoked with
two parameters, the $conn it was registered against, and the reason for the close event. The reason
value will be one of the "CLOSE REASON CONSTANTS" listed later in this document.

$conn->unregister_close_callback();
Remove the previously registered close callback.

my $xml = $con->baseline_cpu(\@xml, $flags=0)
Given an array ref whose elements are XML documents describing host CPUs, compute the baseline CPU
model that is operable across all hosts. The XML for the baseline CPU model is returned. The optional
$flags parameter can take one of

Sys::Virt::BASELINE_CPU_EXPAND_FEATURES
Expand the CPU definition to list all feature flags, even those implied by the model name.

Sys::Virt::BASELINE_CPU_MIGRATABLE
Only include features which can be live migrated.

my $xml = $con->baseline_hypervisor_cpu($emulator, $arch, $machine, $virttype, \@xml, $flags=0)
Given an array ref whose elements are XML documents describing host CPUs, compute the baseline CPU
model that is operable across all hosts. The XML for the baseline CPU model is returned. Either
$emulator or $arch must be a valid string referring to an emulator binary or an architecture name
respectively. The $machine parameter is an optional name of a guest machine, and $virttype is an
optional name of the virtualization type. The optional $flags parameter accepts the same values as
"baseline_cpu".

@names = $con->get_cpu_model_names($arch, $flags=0)
Get a list of valid CPU models names for the architecture given by $arch. The $arch value should be
one of the architectures listed in the capabilities XML document. The $flags parameter is currently
unused and defaults to 0.

my $info = $con->get_node_security_model()
Returns a hash reference summarising the security model of the host node. There are two keys in the
hash, "model" specifying the name of the security model (eg 'selinux') and "doi" specifying the
'domain of interpretation' for security labels.

my $xml = $con->get_capabilities();
Returns an XML document describing the hypervisor capabilities

my $xml = $con->get_domain_capabilities($emulator, $arch, $machine, $virttype, flags=0);
Returns an XML document describing the capabilities of the requested guest configuration. Either
$emulator or $arch must be a valid string referring to an emulator binary or an architecture name
respectively. The $machine parameter is an optional name of a guest machine, and $virttype is an
optional name of the virtualization type. $flags is unused and defaults to zero.

my $xml = $con->get_storage_pool_capabilities($flags=0);
Returns an XML document describing the storage pool driver capabilities (e.g. which storage pool
types are supported and so on). $flags is currently unused and defaults to zero.

my $result = $con->compare_cpu($xml, $flags=0);
Checks whether the CPU definition in $xml is compatible with the current hypervisor connection. This
can be used to determine whether it is safe to migrate a guest to this host. The returned result is
one of the constants listed later The optional $flags parameter can take one of the following
constants

Sys::Virt::COMPARE_CPU_FAIL_INCOMPATIBLE
Raise a fatal error if the CPUs are not compatible, instead of just returning a special error
code.

Sys::Virt::COMPARE_CPU_VALIDATE_XML
Validate input XML document against the RNG schema.

my $result = $con->compare_hypervisor_cpu($emulator, $arch, $machine, $virttype, $xml, $flags=0);
Checks whether the CPU definition in $xml is compatible with the current hypervisor connection. This
can be used to determine whether it is safe to migrate a guest to this host. Either $emulator or
$arch must be a valid string referring to an emulator binary or an architecture name respectively.
The $machine parameter is an optional name of a guest machine, and $virttype is an optional name of
the virtualization type. The returned result is one of the constants listed later The optional $flags
parameter can take the same values as the "compare_cpu" method.

$mem = $con->get_node_free_memory();
Returns the current free memory on the host

@mem = $con->get_node_cells_free_memory($start, $end);
Returns the free memory on each NUMA cell between $start and $end.

@pages = $con->get_node_free_pages(\@pagesizes, $start, $end);
Returns information about the number of pages free on each NUMA cell between $start and $end
inclusive. The @pagesizes parameter should be an arrayref specifying which pages sizes information
should be returned for. Information about supported page sizes is available in the capabilities XML.
The returned array has an element for each NUMA cell requested. The elements are hash references with
two keys, 'cell' specifies the NUMA cell number and 'pages' specifies the free page information for
that cell. The 'pages' value is another hash reference where the keys are the page sizes and the
values are the free count for that size.

$con->node_alloc_pages(\@pages, $start, $end, $flags=0)
Allocate further huge pages for the reserved dev. The <\@pages> parameter is an array reference with
one entry per page size to allocate for. Each entry is a further array reference where the first
element is the page size and the second element is the page count. The same number of pages will be
allocated on each NUMA node in the range $start to $end inclusive. The $flags parameter accepts two
constants

Sys::Virt::NODE_ALLOC_PAGES_ADD
The requested number of pages will be added to the existing huge page reservation.

Sys::Virt::NODE_ALLOC_PAGES_SET
The huge page reservation will be set to exactly the requested number

CONSTANTS

       The following sets of constants are useful when dealing with APIs in this package

   CONNECTION
       When opening a connection the following constants can be used:

       Sys::Virt::CONNECT_RO
           Request a read-only connection

       Sys::Virt::CONNECT_NO_ALIASES
           Prevent the resolution of URI aliases

   CREDENTIAL TYPES
       When providing authentication callbacks, the following constants indicate the type  of  credential  being
       requested

       Sys::Virt::CRED_AUTHNAME
           Identity to act as

       Sys::Virt::CRED_USERNAME
           Identity to authorize as

       Sys::Virt::CRED_CNONCE
           Client supplies a nonce

       Sys::Virt::CRED_REALM
           Authentication realm

       Sys::Virt::CRED_ECHOPROMPT
           Challenge response non-secret

       Sys::Virt::CRED_NOECHOPROMPT
           Challenge response secret

       Sys::Virt::CRED_PASSPHRASE
           Passphrase secret

       Sys::Virt::CRED_LANGUAGE
           RFC 1766 language code

       Sys::Virt::CRED_EXTERNAL
           Externally provided credential

   IDENTITY CONSTANTS
       The following constants are useful to change the connection identity

       Sys::Virt::IDENTITY_USER_NAME
           The process user name

       Sys::Virt::IDENTITY_UNIX_USER_ID
           The process UNIX user ID

       Sys::Virt::IDENTITY_GROUP_NAME
           The process group name

       Sys::Virt::IDENTITY_UNIX_GROUP_ID
           The process UNIX group ID

       Sys::Virt::IDENTITY_PROCESS_ID
           The process ID.

       Sys::Virt::IDENTITY_PROCESS_TIME
           The process start time.

       Sys::Virt::IDENTITY_SASL_USER_NAME
           The SASL authenticated user name

       Sys::Virt::IDENTITY_X509_DISTINGUISHED_NAME
           The X509 certificate distinguished name for the TLS connection

       Sys::Virt::IDENTITY_SELINUX_CONTEXT
           The SELinux process context

   CPU COMPARISON CONSTANTS
       Sys::Virt::CPU_COMPARE_INCOMPATIBLE
           This host is missing one or more CPU features in the CPU description

       Sys::Virt::CPU_COMPARE_IDENTICAL
           The host has an identical CPU description

       Sys::Virt::CPU_COMPARE_SUPERSET
           The host offers a superset of the CPU descriptoon

   NODE SUSPEND CONSTANTS
       Sys::Virt::NODE_SUSPEND_TARGET_MEM
           Suspends to memory (equivalent of S3 on x86 architectures)

       Sys::Virt::NODE_SUSPEND_TARGET_DISK
           Suspends to disk (equivalent of S5 on x86 architectures)

       Sys::Virt::NODE_SUSPEND_TARGET_HYBRID
           Suspends to memory and disk (equivalent of S3+S5 on x86 architectures)

   NODE VCPU CONSTANTS
       Sys::Virt::NODE_CPU_STATS_ALL_CPUS
           Request statistics for all CPUs

   NODE MEMORY CONSTANTS
       Sys::Virt::NODE_MEMORY_STATS_ALL_CELLS
           Request statistics for all memory cells

   MEMORY PARAMETERS
       The following constants are used to name memory parameters of the node

       Sys::Virt::NODE_MEMORY_SHARED_FULL_SCANS
           How many times all mergeable areas have been scanned.

       Sys::Virt::NODE_MEMORY_SHARED_PAGES_SHARED
           How many the shared memory pages are being used.

       Sys::Virt::NODE_MEMORY_SHARED_PAGES_SHARING
           How many sites are sharing the pages

       Sys::Virt::NODE_MEMORY_SHARED_PAGES_TO_SCAN
           How many present pages to scan before the shared memory service goes to sleep

       Sys::Virt::NODE_MEMORY_SHARED_PAGES_UNSHARED
           How many pages unique but repeatedly checked for merging.

       Sys::Virt::NODE_MEMORY_SHARED_PAGES_VOLATILE
           How many pages changing too fast to be placed in a tree.

       Sys::Virt::NODE_MEMORY_SHARED_SLEEP_MILLISECS
           How many milliseconds the shared memory service should sleep before next scan.

       Sys::Virt::NODE_MEMORY_SHARED_MERGE_ACROSS_NODES
           Whether pages can be merged across NUMA nodes

   CLOSE REASON CONSTANTS
       The  following constants related to the connection close callback, describe the reason for the closing of
       the connection.

       Sys::Virt::CLOSE_REASON_CLIENT
           The client application requested the connection be closed

       Sys::Virt::CLOSE_REASON_EOF
           End-of-file was encountered reading data from the connection

       Sys::Virt::CLOSE_REASON_ERROR
           An I/O error was encountered reading/writing data from/to the connection

       Sys::Virt::CLOSE_REASON_KEEPALIVE
           The connection keepalive timer triggered due to lack of response from the server

   CPU STATS CONSTANTS
       The following constants provide the names of known CPU stats fields

       Sys::Virt::NODE_CPU_STATS_IDLE
           Time spent idle

       Sys::Virt::NODE_CPU_STATS_IOWAIT
           Time spent waiting for I/O to complete

       Sys::Virt::NODE_CPU_STATS_KERNEL
           Time spent executing kernel code

       Sys::Virt::NODE_CPU_STATS_USER
           Time spent executing user code

       Sys::Virt::NODE_CPU_STATS_INTR
           Time spent processing interrupts

       Sys::Virt::NODE_CPU_STATS_UTILIZATION
           Percentage utilization of the CPU.

   MEMORY STAS CONSTANTS
       The following constants provide the names of known memory stats fields

       Sys::Virt::NODE_MEMORY_STATS_BUFFERS
           The amount of memory consumed by I/O buffers

       Sys::Virt::NODE_MEMORY_STATS_CACHED
           The amount of memory consumed by disk cache

       Sys::Virt::NODE_MEMORY_STATS_FREE
           The amount of free memory

       Sys::Virt::NODE_MEMORY_STATS_TOTAL
           The total amount of memory

   IP address constants
       The following constants are used to interpret IP address types

       Sys::Virt::IP_ADDR_TYPE_IPV4
           An IPv4 address type

       Sys::Virt::IP_ADDR_TYPE_IPV6
           An IPv6 address type

BUGS

       Hopefully none, but the XS code needs to be audited to ensure it is not leaking memory.

AUTHORS

       Daniel P. Berrange <berrange@redhat.com>

COPYRIGHT

       Copyright (C) 2006-2009 Red Hat Copyright (C) 2006-2009 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.

NAME

SYNOPSIS

DESCRIPTION

CALLBACK HANDLING

ERROR HANDLING

METHODS

CONSTANTS

BUGS

AUTHORS

COPYRIGHT

LICENSE

SEE ALSO