Sometimes, when a new domain is to be created it may come handy to know the capabilities of the hypervisor so the correct combination of devices and drivers is used. For example, when management application is considering the mode for a host device's passthrough there are several options depending not only on host, but on hypervisor in question too. If the hypervisor is qemu then it needs to be more recent to support VFIO, while legacy KVM is achievable just fine with older qemus.
The main difference between
virConnectGetCapabilities
and the emulator capabilities API is, the former one aims more on
the host capabilities (e.g. NUMA topology, security models in
effect, etc.) while the latter one specializes on the hypervisor
capabilities.
While the Driver Capabilities provides the host capabilities (e.g NUMA topology, security models in effect, etc.), the Domain Capabilities provides the hypervisor specific capabilities for Management Applications to query and make decisions regarding what to utilize.
The Domain Capabilities can provide information such as the correct combination of devices and drivers that are supported. Knowing which host and hypervisor specific options are available or supported would allow the management application to choose an appropriate mode for a pass-through host device as well as which adapter to utilize.
A new query interface was added to the virConnect API's to retrieve the XML listing of the set of domain capabilities (Since 1.2.7):
virConnectGetDomainCapabilities
The root element that emulator capability XML document starts with has
name domainCapabilities
. It contains at least four direct
child elements:
<domainCapabilities> <path>/usr/bin/qemu-system-x86_64</path> <domain>kvm</domain> <machine>pc-i440fx-2.1</machine> <arch>x86_64</arch> ... </domainCapabilities>
path
domain
machine
arch
Before any devices capability occurs, there might be a info on domain wide capabilities, e.g. virtual CPUs:
<domainCapabilities> ... <vcpu max='255'/> ... </domainCapabilities>
vcpu
Sometimes users might want to tweak some BIOS knobs or use
UEFI. For cases like that, os
element exposes what values can be passed to its children.
<domainCapabilities> ... <os supported='yes'> <loader supported='yes'> <value>/usr/share/OVMF/OVMF_CODE.fd</value> <enum name='type'> <value>rom</value> <value>pflash</value> </enum> <enum name='readonly'> <value>yes</value> <value>no</value> </enum> </loader> </os> ... <domainCapabilities>
For the loader
element, the following can occur:
value
type
rom
) or
an UEFI binary (pflash
). This refers to
type
attribute of the <loader/>
element.readonly
readonly
attribute of the
<loader/> element.
Another set of XML elements describe the supported devices and their
capabilities. All devices occur as children of the main
devices
element.
<domainCapabilities> ... <devices> <disk supported='yes'> <enum name='diskDevice'> <value>disk</value> <value>cdrom</value> <value>floppy</value> <value>lun</value> </enum> ... </disk> <hostdev supported='no'/> </devices> </domainCapabilities>
Reported capabilities are expressed as an enumerated list of available
options for each of the element or attribute. For example, the
<disk/> element has an attribute device
which can
support the values disk
, cdrom
,
floppy
, or lun
.
Disk capabilities are exposed under disk
element. For
instance:
<domainCapabilities> ... <devices> <disk supported='yes'> <enum name='diskDevice'> <value>disk</value> <value>cdrom</value> <value>floppy</value> <value>lun</value> </enum> <enum name='bus'> <value>ide</value> <value>fdc</value> <value>scsi</value> <value>virtio</value> <value>xen</value> <value>usb</value> <value>uml</value> <value>sata</value> <value>sd</value> </enum> </disk> ... </devices> </domainCapabilities>
diskDevice
device
attribute of the <disk/>
element.bus
bus
attribute of the <target/>
element for a <disk/>.Some host devices can be passed through to a guest (e.g. USB, PCI and SCSI). Well, only if the following is enabled:
<domainCapabilities> ... <devices> <hostdev supported='yes'> <enum name='mode'> <value>subsystem</value> <value>capabilities</value> </enum> <enum name='startupPolicy'> <value>default</value> <value>mandatory</value> <value>requisite</value> <value>optional</value> </enum> <enum name='subsysType'> <value>usb</value> <value>pci</value> <value>scsi</value> </enum> <enum name='capsType'> <value>storage</value> <value>misc</value> <value>net</value> </enum> <enum name='pciBackend'> <value>default</value> <value>kvm</value> <value>vfio</value> <value>xen</value> </enum> </hostdev> </devices> </domainCapabilities>
mode
mode
attribute of the <hostdev/>
element.startupPolicy
startupPolicy
attribute of the
<hostdev/> element.subsysType
type
attribute of the <hostdev/>
element in case of mode="subsystem"
.capsType
type
attribute of the <hostdev/>
element in case of mode="capabilities"
.pciBackend
name
attribute of the <driver/>
element.One more set of XML elements describe the supported features and
their capabilities. All features occur as children of the main
features
element.
<domainCapabilities> ... <features> <gic supported='yes'> <enum name='version'> <value>2</value> <value>3</value> </enum> </gic> </features> </domainCapabilities>
Reported capabilities are expressed as an enumerated list of
possible values for each of the elements or attributes. For example, the
gic
element has an attribute version
which can
support the values 2
or 3
.
For information about the purpose of each feature, see the relevant section in the domain XML documentation.
GIC capabilities are exposed under the gic
element.
version
version
attribute of the
gic
element.