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<h1>Domain XML format</h1>
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<p>This section describes the XML format used to represent domains, there are
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variations on the format based on the kind of domains run and the options
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used to launch them:</p>
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<h3 id="Normal"><a name="Normal1" id="Normal1">Normal paravirtualized Xen
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guests</a>:</h3>
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<p>The root element must be called <code>domain</code> with no namespace, the
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<code>type</code> attribute indicates the kind of hypervisor used, 'xen' is
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the default value. The <code>id</code> attribute gives the domain id at
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runtime (not however that this may change, for example if the domain is saved
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to disk and restored). The domain has a few children whose order is not
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significant:</p>
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<ul><li>name: the domain name, preferably ASCII based</li><li>memory: the maximum memory allocated to the domain in kilobytes</li><li>vcpu: the number of virtual cpu configured for the domain</li><li>os: a block describing the Operating System, its content will be
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dependent on the OS type
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<ul><li>type: indicate the OS type, always linux at this point</li><li>kernel: path to the kernel on the Domain 0 filesystem</li><li>initrd: an optional path for the init ramdisk on the Domain 0
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filesystem</li><li>cmdline: optional command line to the kernel</li><li>root: the root filesystem from the guest viewpoint, it may be
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passed as part of the cmdline content too</li></ul></li><li>devices: a list of <code>disk</code>, <code>interface</code> and
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<code>console</code> descriptions in no special order</li></ul>
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<p>The format of the devices and their type may grow over time, but the
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following should be sufficient for basic use:</p>
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<p>A <code>disk</code> device indicates a block device, it can have two
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values for the type attribute either 'file' or 'block' corresponding to the 2
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options available at the Xen layer. It has two mandatory children, and one
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optional one in no specific order:</p>
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<ul><li>source with a file attribute containing the path in Domain 0 to the
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file or a dev attribute if using a block device, containing the device
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name ('hda5' or '/dev/hda5')</li><li>target indicates in a dev attribute the device where it is mapped in
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the guest</li><li>readonly an optional empty element indicating the device is
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read-only</li><li>shareable an optional empty element indicating the device
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can be used read/write with other domains</li></ul>
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<p>An <code>interface</code> element describes a network device mapped on the
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guest, it also has a type whose value is currently 'bridge', it also have a
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number of children in no specific order:</p>
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<ul><li>source: indicating the bridge name</li><li>mac: the optional mac address provided in the address attribute</li><li>ip: the optional IP address provided in the address attribute</li><li>script: the script used to bridge the interface in the Domain 0</li><li>target: and optional target indicating the device name.</li></ul>
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<p>A <code>console</code> element describes a serial console connection to
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the guest. It has no children, and a single attribute <code>tty</code> which
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provides the path to the Pseudo TTY on which the guest console can be
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accessed</p>
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<p>Life cycle actions for the domain can also be expressed in the XML format,
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they drive what should be happening if the domain crashes, is rebooted or is
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poweroff. There is various actions possible when this happen:</p>
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<ul><li>destroy: The domain is cleaned up (that's the default normal processing
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in Xen)</li><li>restart: A new domain is started in place of the old one with the same
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configuration parameters</li><li>preserve: The domain will remain in memory until it is destroyed
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manually, it won't be running but allows for post-mortem debugging</li><li>rename-restart: a variant of the previous one but where the old domain
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is renamed before being saved to allow a restart</li></ul>
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<p>The following could be used for a Xen production system:</p>
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<pre><domain>
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...
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<on_reboot>restart</on_reboot>
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<on_poweroff>destroy</on_poweroff>
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<on_crash>rename-restart</on_crash>
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...
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</domain></pre>
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<p>While the format may be extended in various ways as support for more
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hypervisor types and features are added, it is expected that this core subset
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will remain functional in spite of the evolution of the library.</p>
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<h3 id="Fully">
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<a name="Fully1" id="Fully1">Fully virtualized guests</a>
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</h3>
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<p>There is a few things to notice specifically for HVM domains:</p>
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<ul><li>the optional <code><features></code> block is used to enable
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certain guest CPU / system features. For HVM guests the following
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features are defined:
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<ul><li><code>pae</code> - enable PAE memory addressing</li><li><code>apic</code> - enable IO APIC</li><li><code>acpi</code> - enable ACPI bios</li></ul></li><li>the optional <code><clock></code> element is used to specify
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whether the emulated BIOS clock in the guest is synced to either
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<code>localtime</code> or <code>utc</code>. In general Windows will
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want <code>localtime</code> while all other operating systems will
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want <code>utc</code>. The default is thus <code>utc</code></li><li>the <code><os></code> block description is very different, first
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it indicates that the type is 'hvm' for hardware virtualization, then
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instead of a kernel, boot and command line arguments, it points to an os
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boot loader which will extract the boot information from the boot device
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specified in a separate boot element. The <code>dev</code> attribute on
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the <code>boot</code> tag can be one of:
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<ul><li><code>fd</code> - boot from first floppy device</li><li><code>hd</code> - boot from first harddisk device</li><li><code>cdrom</code> - boot from first cdrom device</li></ul></li><li>the <code><devices></code> section includes an emulator entry
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pointing to an additional program in charge of emulating the devices</li><li>the disk entry indicates in the dev target section that the emulation
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for the drive is the first IDE disk device hda. The list of device names
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supported is dependent on the Hypervisor, but for Xen it can be any IDE
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device <code>hda</code>-<code>hdd</code>, or a floppy device
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<code>fda</code>, <code>fdb</code>. The <code><disk></code> element
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also supports a 'device' attribute to indicate what kinda of hardware to
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emulate. The following values are supported:
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<ul><li><code>floppy</code> - a floppy disk controller</li><li><code>disk</code> - a generic hard drive (the default it
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omitted)</li><li><code>cdrom</code> - a CDROM device</li></ul>
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For Xen 3.0.2 and earlier a CDROM device can only be emulated on the
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<code>hdc</code> channel, while for 3.0.3 and later, it can be emulated
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on any IDE channel.</li><li>the <code><devices></code> section also include at least one
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entry for the graphic device used to render the os. Currently there is
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just 2 types possible 'vnc' or 'sdl'. If the type is 'vnc', then an
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additional <code>port</code> attribute will be present indicating the TCP
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port on which the VNC server is accepting client connections.</li></ul>
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<p>It is likely that the HVM description gets additional optional elements
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and attributes as the support for fully virtualized domain expands,
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especially for the variety of devices emulated and the graphic support
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options offered.</p>
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<h3>
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<a name="Net1" id="Net1">Networking interface options</a>
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</h3>
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<p>The networking support in the QEmu and KVM case is more flexible, and
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support a variety of options:</p>
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<ol><li>Userspace SLIRP stack
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<p>Provides a virtual LAN with NAT to the outside world. The virtual
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network has DHCP & DNS services and will give the guest VM addresses
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starting from <code>10.0.2.15</code>. The default router will be
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<code>10.0.2.2</code> and the DNS server will be <code>10.0.2.3</code>.
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This networking is the only option for unprivileged users who need their
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VMs to have outgoing access. Example configs are:</p>
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<pre><interface type='user'/></pre>
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<pre>
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<interface type='user'>
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<mac address="11:22:33:44:55:66"/>
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</interface>
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</pre>
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</li><li>Virtual network
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<p>Provides a virtual network using a bridge device in the host.
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Depending on the virtual network configuration, the network may be
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totally isolated, NAT'ing to an explicit network device, or NAT'ing to
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the default route. DHCP and DNS are provided on the virtual network in
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all cases and the IP range can be determined by examining the virtual
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network config with '<code>virsh net-dumpxml <network
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name></code>'. There is one virtual network called 'default' setup out
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of the box which does NAT'ing to the default route and has an IP range of
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<code>192.168.22.0/255.255.255.0</code>. Each guest will have an
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associated tun device created with a name of vnetN, which can also be
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overridden with the <target> element. Example configs are:</p>
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<pre><interface type='network'>
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<source network='default'/>
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</interface>
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<interface type='network'>
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<source network='default'/>
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<target dev='vnet7'/>
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<mac address="11:22:33:44:55:66"/>
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</interface>
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</pre>
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</li><li>Bridge to to LAN
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<p>Provides a bridge from the VM directly onto the LAN. This assumes
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there is a bridge device on the host which has one or more of the hosts
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physical NICs enslaved. The guest VM will have an associated tun device
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created with a name of vnetN, which can also be overridden with the
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<target> element. The tun device will be enslaved to the bridge.
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The IP range / network configuration is whatever is used on the LAN. This
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provides the guest VM full incoming & outgoing net access just like a
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physical machine. Examples include:</p>
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<pre><interface type='bridge'>
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<source bridge='br0'/>
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</interface>
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<interface type='bridge'>
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<source bridge='br0'/>
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<target dev='vnet7'/>
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<mac address="11:22:33:44:55:66"/>
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</interface></pre>
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</li><li>Generic connection to LAN
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<p>Provides a means for the administrator to execute an arbitrary script
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to connect the guest's network to the LAN. The guest will have a tun
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device created with a name of vnetN, which can also be overridden with the
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<target> element. After creating the tun device a shell script will
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be run which is expected to do whatever host network integration is
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required. By default this script is called /etc/qemu-ifup but can be
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overridden.</p>
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<pre><interface type='ethernet'/>
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<interface type='ethernet'>
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<target dev='vnet7'/>
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<script path='/etc/qemu-ifup-mynet'/>
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</interface></pre>
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</li><li>Multicast tunnel
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<p>A multicast group is setup to represent a virtual network. Any VMs
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whose network devices are in the same multicast group can talk to each
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other even across hosts. This mode is also available to unprivileged
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users. There is no default DNS or DHCP support and no outgoing network
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access. To provide outgoing network access, one of the VMs should have a
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2nd NIC which is connected to one of the first 4 network types and do the
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appropriate routing. The multicast protocol is compatible with that used
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by user mode linux guests too. The source address used must be from the
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multicast address block.</p>
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<pre><interface type='mcast'>
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<source address='230.0.0.1' port='5558'/>
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</interface></pre>
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</li><li>TCP tunnel
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<p>A TCP client/server architecture provides a virtual network. One VM
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provides the server end of the network, all other VMS are configured as
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clients. All network traffic is routed between the VMs via the server.
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This mode is also available to unprivileged users. There is no default
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DNS or DHCP support and no outgoing network access. To provide outgoing
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network access, one of the VMs should have a 2nd NIC which is connected
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to one of the first 4 network types and do the appropriate routing.</p>
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<p>Example server config:</p>
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<pre><interface type='server'>
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<source address='192.168.0.1' port='5558'/>
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</interface></pre>
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<p>Example client config:</p>
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<pre><interface type='client'>
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<source address='192.168.0.1' port='5558'/>
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</interface></pre>
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</li></ol>
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<p>To be noted, options 2, 3, 4 are also supported by Xen VMs, so it is
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possible to use these configs to have networking with both Xen &
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QEMU/KVMs connected to each other.</p>
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<h2>Example configs</h2>
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<p>
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Example configurations for each driver are provide on the
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driver specific pages listed below
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</p>
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<ul><li><a href="drvxen.html#xmlconfig">Xen examples</a></li><li><a href="drvqemu.html#xmlconfig">QEMU/KVM examples</a></li></ul>
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<p id="sponsor">
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Sponsored by:<br /><a href="http://et.redhat.com/"><img src="et.png" alt="Project sponsored by Red Hat Emerging Technology" /></a></p>
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