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libvirt/docs/formatnode.html.in
Moshe Levi ac3ed2085f nodedev: add RDMA and tx-udp_tnl-segmentation NIC capabilities
Adding functionality to libvirt that will allow
it query the interface for the availability of RDMA and
tx-udp_tnl-segmentation Offloading NIC capabilities

Here is an example of the feature XML definition:

<device>
<name>net_eth4_90_e2_ba_5e_a5_45</name>
  <path>/sys/devices/pci0000:00/0000:00:03.0/0000:08:00.1/net/eth4</path>
  <parent>pci_0000_08_00_1</parent>
  <capability type='net'>
    <interface>eth4</interface>
    <address>90:e2:ba:5e:a5:45</address>
    <link speed='10000' state='up'/>
    <feature name='rx'/>
    <feature name='tx'/>
    <feature name='sg'/>
    <feature name='tso'/>
    <feature name='gso'/>
    <feature name='gro'/>
    <feature name='rxvlan'/>
    <feature name='txvlan'/>
    <feature name='rxhash'/>
    <feature name='rdma'/>
    <feature name='txudptnl'/>
    <capability type='80203'/>
  </capability>
</device>
2015-07-21 07:08:35 -04:00

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XML

<?xml version="1.0" encoding="UTF-8"?>
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<h1>Node devices XML format</h1>
<ul id="toc"></ul>
<h2><a name="NodedevAttributes">Node Device XML</a></h2>
<p>
There are several libvirt functions, all with the
prefix <code>virNodeDevice</code>, which deal with management of
host devices that can be handed to guests via passthrough as
&lt;hostdev&gt; elements
in <a href="formatdomain.html#elementsHostDev">the domain XML</a>.
These devices are represented as a hierarchy, where a device on
a bus has a parent of the bus controller device; the root of the
hierarchy is the node named "computer".
</p>
<p>
When represented in XML, a node device uses the
top-level <code>device</code> element, with the following
elements present according to the type of device:
</p>
<dl>
<dt><code>name</code></dt>
<dd>The name for this device. The name will be alphanumeric,
with words separated by underscore. For many devices, the
name is just the bus type and address, as in
"pci_0000_00_02_1" or "usb_1_5_3", but some devices are able
to provide more specific names, such as
"net_eth1_00_27_13_6a_fe_00".
</dd>
<dt><code>parent</code></dt>
<dd>If this element is present, it names the parent device (that
is, a controller to which this node belongs).
</dd>
<dt><code>capability</code></dt>
<dd>This node appears for each capability that libvirt
associates with a node. A mandatory
attribute <code>type</code> lists which category the device
belongs to, and controls which further subelements will be
present to describe the node:
<dl>
<dt><code>system</code></dt>
<dd>Describes the overall host. Sub-elements include:
<dl>
<dt><code>product</code></dt>
<dd>If present, a simple text string giving the product
name of the system.</dd>
<dt><code>hardware</code></dt>
<dd>Describes the hardware of the system, including
sub-elements for <code>vendor</code>, <code>version</code>,
<code>serial</code>, and <code>uuid</code>.</dd>
<dt><code>firmware</code></dt>
<dd>Describes the firmware of the system, including
sub-elements for <code>vendor</code>, <code>version</code>,
and <code>release_date</code>.</dd>
</dl>
</dd>
<dt><code>pci</code></dt>
<dd>Describes a device on the host's PCI bus. Sub-elements
include:
<dl>
<dt><code>domain</code></dt>
<dd>Which domain the device belongs to.</dd>
<dt><code>bus</code></dt>
<dd>Which bus within the domain.</dd>
<dt><code>slot</code></dt>
<dd>Which slot within the bus.</dd>
<dt><code>function</code></dt>
<dd>Which function within the slot.</dd>
<dt><code>product</code></dt>
<dd>Product details from the device ROM, including an
attribute <code>id</code> with the hexadecimal product
id, and an optional text description of that id.</dd>
<dt><code>vendor</code></dt>
<dd>Vendor details from the device ROM, including an
attribute <code>id</code> with the hexadecimal vendor
id, and an optional text name of that vendor.</dd>
<dt><code>iommuGroup</code></dt>
<dd>
This optional element describes the "IOMMU group" this
device belongs to. If the element exists, it has a
mandatory <code>number</code> attribute which tells
the group number used for management of the group (all
devices in group "n" will be found in
"/sys/kernel/iommu_groups/n"). It will also have a
list of <code>address</code> subelements, each
containing the PCI address of a device in the same
group. The toplevel device will itself be included in
this list.
</dd>
<dt><code>capability</code></dt>
<dd>
This optional element can occur multiple times. If it
exists, it has a mandatory <code>type</code> attribute
which will be set to
either <code>physical_function</code>
or <code>virtual_functions</code>. If the type
is <code>physical_function</code>, there will be a
single <code>address</code> subelement which contains
the PCI address of the SRIOV Physical Function (PF)
that is the parent of this device (and this device is,
by implication, an SRIOV Virtual Function (VF)). If
the type is <code>virtual_functions</code>, then this
device is an SRIOV PF, and the capability element will
have a list of <code>address</code> subelements, one
for each VF on this PF.
</dd>
<dt><code>numa</code></dt>
<dd>
This optional element contains information on the PCI device
with respect to NUMA. For example, the optional
<code>node</code> attribute tells which NUMA node is the PCI
device associated with.
</dd>
<dt><code>pci-express</code></dt>
<dd>
This optional element contains information on PCI Express part of
the device. For example, it can contain a child element
<code>link</code> which addresses the PCI Express device's link.
While a device has its own capabilities
(<code>validity='cap'</code>), the actual run time capabilities
are negotiated on the device initialization
(<code>validity='sta'</code>). The <code>link</code> element then
contains three attributes: <code>port</code> which says in which
port is the device plugged in, <code>speed</code> (in
GigaTransfers per second) and <code>width</code> for the number
of lanes used. Since the port can't be negotiated, it's not
exposed in <code>./pci-express/link/[@validity='sta']</code>.
</dd>
</dl>
</dd>
<dt><code>usb_device</code></dt>
<dd>Describes a device on the host's USB bus, based on its
location within the bus. Sub-elements include:
<dl>
<dt><code>bus</code></dt>
<dd>Which bus the device belongs to.</dd>
<dt><code>device</code></dt>
<dd>Which device within the bus.</dd>
<dt><code>product</code></dt>
<dd>Product details from the device ROM, including an
attribute <code>id</code> with the hexadecimal product
id, and an optional text description of that id.</dd>
<dt><code>vendor</code></dt>
<dd>Vendor details from the device ROM, including an
attribute <code>id</code> with the hexadecimal vendor
id, and an optional text name of that vendor.</dd>
</dl>
</dd>
<dt><code>usb</code></dt>
<dd>Describes a USB device, based on its advertised driver
interface. Sub-elements include:
<dl>
<dt><code>number</code></dt>
<dd>The device number.</dd>
<dt><code>class</code></dt>
<dd>The device class.</dd>
<dt><code>subclass</code></dt>
<dd>The device subclass.</dd>
<dt><code>protocol</code></dt>
<dd>The device protocol.</dd>
<dt><code>description</code></dt>
<dd>If present, a description of the device.</dd>
</dl>
</dd>
<dt><code>net</code></dt>
<dd>Describes a device capable for use as a network
interface. Sub-elements include:
<dl>
<dt><code>interface</code></dt>
<dd>The interface name tied to this device.</dd>
<dt><code>address</code></dt>
<dd>If present, the MAC address of the device.</dd>
<dt><code>link</code></dt>
<dd>Optional to reflect the status of the link. It has
two optional attributes: <code>speed</code> in Mbits per
second and <code>state</code> to tell the state of the
link. So far, the whole element is just for output,
not setting.
</dd>
<dt><code>feature</code></dt>
<dd>If present, the hw offloads supported by this network
interface. Possible features are:
<dl>
<dt><code>rx</code></dt><dd>rx-checksumming</dd>
<dt><code>tx</code></dt><dd>tx-checksumming</dd>
<dt><code>sg</code></dt><dd>scatter-gather</dd>
<dt><code>tso</code></dt><dd>tcp-segmentation-offload</dd>
<dt><code>ufo</code></dt><dd>udp-fragmentation-offload</dd>
<dt><code>gso</code></dt><dd>generic-segmentation-offload</dd>
<dt><code>gro</code></dt><dd>generic-receive-offload</dd>
<dt><code>lro</code></dt><dd>large-receive-offload</dd>
<dt><code>rxvlan</code></dt><dd>rx-vlan-offload</dd>
<dt><code>txvlan</code></dt><dd>tx-vlan-offload</dd>
<dt><code>ntuple</code></dt><dd>ntuple-filters</dd>
<dt><code>rxhash</code></dt><dd>receive-hashing</dd>
<dt><code>rdma</code></dt><dd>remote-direct-memory-access</dd>
<dt><code>txudptnl</code></dt><dd>tx-udp-tunnel-segmentation</dd>
</dl>
</dd>
<dt><code>capability</code></dt>
<dd>A network protocol exposed by the device, where the
attribute <code>type</code> can be "80203" for IEEE
802.3, or "80211" for various flavors of IEEE 802.11.
</dd>
</dl>
</dd>
<dt><code>scsi_host</code></dt>
<dd>Describes a SCSI host device. Sub-elements include:
<dl>
<dt><code>host</code></dt>
<dd>The SCSI host number.</dd>
<dt><code>unique_id</code></dt>
<dd>On input, this optionally provides the value from the
'unique_id' file found in the scsi_host's directory. To
view the values of all 'unique_id' files, use <code>find -H
/sys/class/scsi_host/host{0..9}/unique_id |
xargs grep '[0-9]'</code>. On output, if the unique_id
file exists, the value from the file will be displayed.
This can be used in order to help uniquely identify the
scsi_host adapter in a <a href="formatstorage.html">
Storage Pool</a>. <span class="since">Since 1.2.7</span>
</dd>
<dt><code>capability</code></dt>
<dd>Current capabilities include "vports_ops" (indicates
vport operations are supported) and "fc_host". "vport_ops"
could contain two optional sub-elements: <code>vports</code>,
and <code>max_vports</code>. <code>vports</code> shows the
number of vport in use. <code>max_vports</code> shows the
maximum vports the HBA supports. "fc_host" implies following
sub-elements: <code>wwnn</code>, <code>wwpn</code>, and
<code>fabric_wwn</code>.
</dd>
</dl>
</dd>
<dt><code>scsi</code></dt>
<dd>Describes a SCSI device. Sub-elements include:
<dl>
<dt><code>host</code></dt>
<dd>The SCSI host containing the device.</dd>
<dt><code>bus</code></dt>
<dd>The bus within the host.</dd>
<dt><code>target</code></dt>
<dd>The target within the bus.</dd>
<dt><code>lun</code></dt>
<dd>The lun within the target.</dd>
<dt><code>type</code></dt>
<dd>The type of SCSI device.</dd>
</dl>
</dd>
<dt><code>storage</code></dt>
<dd>Describes a device usable for storage. Sub-elements
include:
<dl>
<dt><code>block</code></dt>
<dd>A block device file name that accesses the storage
present on the device.</dd>
<dt><code>bus</code></dt>
<dd>If present, the name of the bus the device is found
on.</dd>
<dt><code>drive_type</code></dt>
<dd>The type of the drive, such as "disk" or
"cdrom".</dd>
<dt><code>model</code></dt>
<dd>Any model information available from the
device.</dd>
<dt><code>vendor</code></dt>
<dd>Any vendor information available from the
device.</dd>
<dt><code>serial</code></dt>
<dd>Any serial number information available from the
device.</dd>
<dt><code>size</code></dt>
<dd>For fixed-size storage, the amount of storage
available.</dd>
<dt><code>capability</code></dt>
<dd>If present, an additional capability is listed via
the attribute <code>type</code>. Current capabilities
include "hotpluggable" and "removable", with the
latter implying the following
sub-elements: <code>media_available</code> (0 or
1), <code>media_size</code>,
and <code>media_label</code>.</dd>
</dl>
</dd>
</dl>
</dd>
</dl>
<h2><a name="nodeExample">Examples</a></h2>
<p>The following are some example node device XML outputs:</p>
<pre>
&lt;device&gt;
&lt;name&gt;computer&lt;/name&gt;
&lt;capability type='system'&gt;
&lt;product&gt;2241B36&lt;/product&gt;
&lt;hardware&gt;
&lt;vendor&gt;LENOVO&lt;/vendor&gt;
&lt;version&gt;ThinkPad T500&lt;/version&gt;
&lt;serial&gt;R89055N&lt;/serial&gt;
&lt;uuid&gt;c9488981-5049-11cb-9c1c-993d0230b4cd&lt;/uuid&gt;
&lt;/hardware&gt;
&lt;firmware&gt;
&lt;vendor&gt;LENOVO&lt;/vendor&gt;
&lt;version&gt;6FET82WW (3.12 )&lt;/version&gt;
&lt;release_date&gt;11/26/2009&lt;/release_date&gt;
&lt;/firmware&gt;
&lt;/capability&gt;
&lt;/device&gt;
&lt;device&gt;
&lt;name&gt;net_eth1_00_27_13_6a_fe_00&lt;/name&gt;
&lt;parent&gt;pci_0000_00_19_0&lt;/parent&gt;
&lt;capability type='net'&gt;
&lt;interface&gt;eth1&lt;/interface&gt;
&lt;address&gt;00:27:13:6a:fe:00&lt;/address&gt;
&lt;capability type='80203'/&gt;
&lt;/capability&gt;
&lt;/device&gt;
&lt;device&gt;
&lt;name&gt;pci_0000_02_00_0&lt;/name&gt;
&lt;path&gt;/sys/devices/pci0000:00/0000:00:04.0/0000:02:00.0&lt;/path&gt;
&lt;parent&gt;pci_0000_00_04_0&lt;/parent&gt;
&lt;driver&gt;
&lt;name&gt;igb&lt;/name&gt;
&lt;/driver&gt;
&lt;capability type='pci'&gt;
&lt;domain&gt;0&lt;/domain&gt;
&lt;bus&gt;2&lt;/bus&gt;
&lt;slot&gt;0&lt;/slot&gt;
&lt;function&gt;0&lt;/function&gt;
&lt;product id='0x10c9'&gt;82576 Gigabit Network Connection&lt;/product&gt;
&lt;vendor id='0x8086'&gt;Intel Corporation&lt;/vendor&gt;
&lt;capability type='virt_functions'&gt;
&lt;address domain='0x0000' bus='0x02' slot='0x10' function='0x0'/&gt;
&lt;address domain='0x0000' bus='0x02' slot='0x10' function='0x2'/&gt;
&lt;address domain='0x0000' bus='0x02' slot='0x10' function='0x4'/&gt;
&lt;address domain='0x0000' bus='0x02' slot='0x10' function='0x6'/&gt;
&lt;address domain='0x0000' bus='0x02' slot='0x11' function='0x0'/&gt;
&lt;address domain='0x0000' bus='0x02' slot='0x11' function='0x2'/&gt;
&lt;address domain='0x0000' bus='0x02' slot='0x11' function='0x4'/&gt;
&lt;/capability&gt;
&lt;iommuGroup number='12'&gt;
&lt;address domain='0x0000' bus='0x02' slot='0x00' function='0x0'/&gt;
&lt;address domain='0x0000' bus='0x02' slot='0x00' function='0x1'/&gt;
&lt;/iommuGroup&gt;
&lt;pci-express&gt;
&lt;link validity='cap' port='1' speed='2.5' width='1'/&gt;
&lt;link validity='sta' speed='2.5' width='1'/&gt;
&lt;/pci-express&gt;
&lt;/capability&gt;
&lt;/device&gt;
</pre>
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