Xen

The Xen hypervisor requires kernel level support which is included in recent Linux kernels and is built into the linux and linux-lts Arch kernel packages. To run HVM domU, the physical hardware must have either Intel VT-x or AMD-V (SVM) virtualization support. In order to verify this, run the following command when the Xen hypervisor is not running:

$ grep -E "(vmx|svm)" --color=always /proc/cpuinfo

If the above command does not produce output, then hardware virtualization support is unavailable and your hardware is unable to run HVM domU (or you are already running the Xen hypervisor). If you believe the CPU supports one of these features you should access the host system's BIOS configuration menu during the boot process and look if options related to virtualization support have been disabled. If such an option exists and is disabled, then enable it, boot the system and repeat the above command. The Xen hypervisor also supports PCI passthrough where PCI devices can be passed directly to the domU even in the absence of dom0 support for the device. In order to use PCI passthrough, the CPU must support IOMMU/VT-d.

To install the Xen hypervisor, install the xen^AUR package. It provides the Xen hypervisor, current xl interface and all configuration and support files, including systemd services. To run most VMs, you will also need to install xen-qemu^AUR.

For BIOS support in VMs, install . For UEFI support, install . To boot VM-local kernels inside of a PVH VM, install .

It is recommended that xen and its components are built in a clean environment, either in a VM or a chroot. When building Xen, there are environmental variables that can be passed to makepkg.

1. build_stubdom -- Build the components to run Xen stubdoms, mainly for dom0 disaggregation. Components for stubdom are broken off into xen-stubdom if built. Defaults to false.
2. boot_dir-- Your boot directory. Defaults to /boot.
3. efi_dir, efi_mountpoint -- Your EFI directory and mountpoint. Defaults to /boot.

Pass these arguments to makepkg as variables:

$ build_stubdom=true efi_dir="/boot/EFI" makepkg

will be also built for the man pages and documentation.  If you choose to build stubdom support, a  package will be built. 

The boot loader must be modified to load a special Xen kernel ( or in the case of UEFI ) which is then used to boot the normal kernel. To do this a new bootloader entry is needed.

Xen supports booting from UEFI as specified in Xen EFI systems. It also might be necessary to use efibootmgr to set boot order and other parameters.

First, ensure the file is in the EFI system partition along with your kernel and ramdisk files.

Second, Xen requires an ASCII (no UTF-8, UTC-16, etc) configuration file that specifies what kernel should be booted as dom0. This file must be placed in the same EFI system partition as the binary. Xen looks for several configuration files and uses the first one it finds. The order of search starts with the extension of the binary's name replaced by , then drops trailing name components at , and until a match is found. Typically, a single file named is used with the system requirements, such as:

Add a new EFI-type loader entry. See Systemd-boot#EFI Shells or other EFI applications for more details. For example:

It is possible to boot an EFI kernel directly from UEFI by using EFISTUB.

Drop to the build-in UEFI shell and call the EFI file directly. For example:

Shell> fs0:
FS0:\> xen.efi

Note that a configuration file in the EFI system partition is still required as outlined above. In addition, a different configuration file may be specified with the parameter. For example:

Shell> fs0:
FS0:\> xen.efi -cfg=xen-rescue.cfg

These additional configuration files must reside in the same directory as the Xen EFI binary and linux stub files.

Xen supports booting from system firmware configured as BIOS.

For GRUB users, install the package for booting dom0 as well as building PvGrub2 images for booting user domains.

The file can be edited to customize the Xen boot commands. For example, to allocate 512 MiB of RAM to dom0 at boot, modify by replacing the line:

#GRUB_CMDLINE_XEN_DEFAULT=""

with

GRUB_CMDLINE_XEN_DEFAULT="dom0_mem=512M"

More information on GRUB configuration keys for Xen can be found in the GRUB documentation.

After customizing the options, update the bootloader configuration with the following command:

# grub-mkconfig -o /boot/grub/grub.cfg

More information on using the GRUB bootloader is available at GRUB.

Besides the usual platform targets, the package builds GRUB for three additional targets that can be used to boot Xen guests: i386-xen, i386-xen_pvh, and x86_64-xen. To create a boot image from one of these targets, first create a GRUB configuration file. Depending on your preference, this file can either locate and load a GRUB configuration file in the guest or it could manage more of the boot process from dom0. Assuming all that is needed is to locate and load a configuration file in the guest, add the following to a file,

and then create a GRUB/Tips and tricks#GRUB standalone image that will incorporate that file:

 # grub-mkstandalone -O x86_64-xen -o /usr/lib/xen/boot/pv-grub2-x86_64-xen "/boot/grub/grub.cfg=./grub.cfg"

Lastly, add that image as value of the kernel in the domU configuration file (for a 64-bit guest in this example):

 kernel = "/usr/lib/xen/boot/pv-grub2-x86_64-xen"

More examples of configuring GRUB images for GRUB guests can be found in the Xen Project's PvGrub2 documentation.

For Syslinux users, add a stanza like this to your :

LABEL xen
    MENU LABEL Xen
    KERNEL mboot.c32
    APPEND ../xen-X.Y.Z.gz --- ../vmlinuz-linux console=tty0 root=/dev/sdaX ro --- ../initramfs-linux.img

where X.Y.Z is your xen version and /dev/sdaX is your root partition.

This also requires (and ) to be in the same directory as . If you do not have in , copy it from:

# cp /usr/lib/syslinux/bios/mboot.c32 /boot/syslinux

Xen requires that network communications between domU and the dom0 (and beyond) be set up manually. The use of both DHCP and static addressing is possible, and the choice should be determined by the network topology. Complex setups are possible, see the Networking article on the Xen wiki for details and for scripts for various networking configurations. A basic bridged network, in which a virtual switch is created in dom0 that every domU is attached to, can be set up by creating a network bridge with the expected name .

See Network bridge#Creating a bridge for details.

See Systemd-networkd#Bridge interface for details.

Gnome's Network Manager can sometime be troublesome. If following the bridge creation section outlined in the bridges section of the wiki are unclear or do not work, then the following steps may work.

Open the Network Settings and disable the interface you wish to use in your bridge (ex enp5s0). Edit the setting to off and uncheck "connect automatically."

Create a new bridge connection profile by clicking on the "+" symbol in the bottom left of the network settings. Optionally, run:

# nm-connection-editor

to bring up the window immediately. Once the window opens, select Bridge.

Click "Add" next to the "Bridged Connections" and select the interface you wished to use in your bridge (ex. Ethernet). Select the device mac address that corresponds to the interface you intend to use and save the settings

If your bridge is going to receive an IP address via DHCP, leave the IPv4/IPv6 sections as they are. If DHCP is not running for this particular connection, make sure to give your bridge an IP address. Needless to say, all connections will fail if an IP address is not assigned to the bridge. If you forget to add the IP address when you first create the bridge, it can always be edited later.

Now, as root, run:

# nmcli con show

You should see a connection that matches the name of the bridge you just created. Highlight and copy the UUID on that connection, and then run (again as root):

# nmcli con up <UUID OF CONNECTION>

A new connection should appear under the network settings. It may take 30 seconds to a minute. To confirm that it is up and running, run:

# brctl show

to show a list of active bridges.

Reboot. If everything works properly after a reboot (ie. bridge starts automatically), then you are all set.

<optional> In your network settings, remove the connection profile on your bridge interface that does NOT connect to the bridge. This just keeps things from being confusing later on.

The Xen dom0 requires the , xenconsoled.service, and to be started and possibly enabled.

Reboot your dom0 host and ensure that the Xen kernel boots correctly and that all settings survive a reboot. A properly set up dom0 should report the following when you run as root:

Of course, the Mem, VCPUs and Time columns will be different depending on machine configuration and uptime. The important thing is that dom0 is listed.

In addition to the required steps above, see best practices for running Xen which includes information on allocating a fixed amount of memory and how to dedicate (pin) a CPU core for dom0 use. It also may be beneficial to create a xenfs filesystem mount point by including in /etc/fstab

none /proc/xen xenfs defaults 0 0

Review Xen Project Best Practices before using Xen.

Xen supports a number of different types of "hard disks" including Logical Volumes, raw partitions, and image files. To create a sparse file, that will grow to a maximum of 10GiB, called , use:

$ truncate -s 10G domU.img

If file IO speed is of greater importance than domain portability, using Logical Volumes or raw partitions may be a better choice.

Xen may present any partition / disk available to the host machine to a domain as either a partition or disk. This means that, for example, an LVM partition on the host can appear as a hard drive (and hold multiple partitions) to a domain. Note that making sub-partitons on a partition will make accessing those partitions on the host machine more difficult. See the kpartx man page for information on how to map out partitions within a partition.

Each domU requires a separate configuration file that is used to create the virtual machine. Full details about the configuration files can be found at the Xen Wiki or the man page. Both HVM and PV domU share some components of the configuration file. These include

name = "domU"
memory = 512
disk = [ "file:/path/to/ISO,sdb,r", "phy:/path/to/partition,sda1,w" ]
vif = [ 'mac=00:16:3e:XX:XX:XX,bridge=xenbr0' ]

The is the name by which the xl tools manage the domU and needs to be unique across all domU. The includes information about both the the installation media () and the partition created for the domU phy. If an image file is being used instead of a physical partition, the needs to be changed to . The defines a network controller. The MAC block is reserved for Xen domains, so the last three digits of the must be randomly filled in (hex values 0-9 and a-f only).

If a domU should be started on boot, create a symlink to the configuration file in and ensure the service is set up correctly. Some useful commands for managing domU are:

# xl top
# xl list
# xl console domUname
# xl shutdown domUname
# xl destroy domUname

Either you have not booted into the Xen system, or xen modules listed in script are not installed.

Check the guest's kernel is located correctly, check the file for spelling mistakes (like using instead of ).

If creating HVM fails with:

libxl: error: libxl_dm.c:3131:device_model_spawn_outcome: Domain 33:domain 33 device model: spawn failed (rc=-3)
libxl: error: libxl_dm.c:3351:device_model_postconfig_done: Domain 33:Post DM startup configs failed, rc=-3
libxl: error: libxl_create.c:1837:domcreate_devmodel_started: Domain 33:device model did not start: -3
libxl: error: libxl_aoutils.c:646:libxl__kill_xs_path: Device Model already exited

You have missed to install numactl.

Press until you get back to a prompt, rebuild its initramfs described.

This is caused by /etc/udev/rules.d/xend.rules. Xend is deprecated and not used, so it is safe to remove that file.