HVM domains (Hardware VM), in contrast to PV domains (Paravirtualized domains), allow one to create domains based on any OS for which one has an installation ISO. For example, this allows one to have Windows-based VMs in Qubes.
Interested readers might want to check [this article](https://blog.invisiblethings.org/2012/03/03/windows-support-coming-to-qubes.html) to learn why it took so long for Qubes OS to support HVM domains (Qubes 1 only supported Linux based PV domains).
Now we need to install an OS inside this VM. This can done by attaching an installation ISO to and starting the VM (this can currently only be done from command line, but in the future we will surely add an option to do this also from the manager):
The above command assumes the installation ISO was transferred to Dom0 (copied using `dd` command from an installation CDROM for example). If one wishes to use the actual physical media without copying it first to a file, then one can just pass `/dev/cdrom` as an argument to `--cdrom`:
Next the VM will start booting from the attached CDROM device (which in the example above just happens to be a Windows 7 installation disk). Depending on the OS that is being installed in the VM one might be required to start the VM several times (as is the case with Windows 7 installations), because whenever the installer wants to "reboot the system" it actually shutdowns the VM and Qubes won't automatically start it. Several invocations of qvm-start command (as shown above) might be needed.
**Note:** If your Windows installation gets stuck at the glowing Windows logo, you might want to read [Issue 2488](https://github.com/QubesOS/qubes-issues/issues/2488) for a solution.
Sometimes one wants to download the installation ISO from the Web and use it for HVM creation. For security reasons, networking is disabled for Qubes Dom0, which makes it impossible to download an ISO within Dom0. Qubes also does not provide any easy to use mechanisms for copying files between AppVMs and Dom0 and generally tries to discourage such actions. Due to these factors it would be inconvenient to require that the installation ISO for an HVM domain be always located in Dom0. The good news, however, is that this is indeed not required. One can use the following syntax when specifying the location of an installation ISO (such as the Windows 7 installation ISO):
Assuming that an installation ISO named `ubuntu-12.10-desktop-i386.iso` has been downloaded in `work-web` AppVM and is located within the `/home/user/Downloads` directory within this AppVM, one can immediately create a new HVM using this ISO as an installation media with the following command issued in Dom0:
Just like standard paravirtualized AppVMs, the HVM domains get fixed IP addresses centrally assigned by Qubes. Normally Qubes agent scripts running within each AppVM are responsible for setting up networking within the VM according the configuration created by Qubes. Such centrally managed networking infrastructure allows for [advanced networking configuration](https://blog.invisiblethings.org/2011/09/28/playing-with-qubes-networking-for-fun.html).
A generic HVM domain such as a standard Windows or Ubuntu installation, however, has no Qubes agent scripts running inside it initially and thus requires manual networking configuration so that it match the values assigned by Qubes for this domain.
Even though we do have a small DHCP server that runs inside HVM untrusted stub domain to make the manual network configuration not necessary for many VMs, this won't work for most modern Linux distributions which contain Xen networking PV drivers (but not Qubes tools) built in which bypass the stub-domain networking (their net frontends connect directly to the net backend in the netvm). In this instance our DHCP server is not useful.
In order to manually configure networking in a VM, one should first find out the IP/netmask/gateway assigned to the particular VM by Qubes. This can be seen e.g. in the Qubes Manager in the VM's properties:
Alternatively, one can use `qvm-ls -n` command to obtain the same information. One should configure the networking within the HVM according to those settings (IP/netmask/gateway). One should set DNS addresses to the same IP as gateway.
**Note:** If one plans on installing Qubes Tools for Windows guests (see below) it is 'not' necessary to configure networking manually as described in this section, because the tools will take care of setting the networking automatically for such Windows domains.
Just like normal AppVMs, the HVM domains can also be cloned either using a command-line `qvm-clone` command or via manager's 'Clone VM' option in the right-click menu.
The cloned VM will get identical root and private image and will essentially be an identical of the original VM except that it will get a different MAC address for the networking interface:
Note how the MAC addresses differ between those two otherwise identical VMs. The IP addresses assigned by Qubes will also be different of course to allow networking to function properly:
HVM domains (including Windows VMs) can be [assigned PCI devices](/doc/assigning-devices/) just like normal AppVMs. E.g. one can assign one of the USB controllers to the Windows VM and should be able to use various devices that require Windows software, such as phones, electronic devices that are configured via FTDI, etc.
One problem at the moment however, is that after the whole system gets suspended into S3 sleep and subsequently resumed, some attached devices may stop working and should be restarted within the VM. This can be achieved under a Windows HVM by opening the Device Manager, selecting the actual device (such as a USB controller), 'Disabling' the device, and then 'Enabling' the device again. This is illustrated on the screenshot below: