15 Xen to KVM migration guide #
As the KVM virtualization solution is becoming more and more popular among server administrators, many of them need a path to migrate their existing Xen based environments to KVM. As of now, there are no mature tools to automatically convert Xen VMs to KVM. There is, however, a technical solution that helps convert Xen virtual machines to KVM. The following information and procedures help you to perform such a migration.
The migration procedure described in this document is not fully supported by SUSE. We provide it as a guidance only.
15.1 Migration to KVM using virt-v2v
#
This section contains information to help you import virtual machines from
foreign hypervisors (such as Xen) to KVM managed by libvirt
.
This section is focused on converting Linux guests. Converting Microsoft
Windows guests using virt-v2v
is the same as converting
Linux guests, except with regard to handling the Virtual Machine Driver Pack
(VMDP). Additional details on converting Windows guests with the VMDP can
be found separately at
Virtual
Machine Driver Pack documentation.
15.1.1 Introduction to virt-v2v
#
virt-v2v
is a command line tool to convert VM Guests
from a foreign hypervisor to run on KVM managed by libvirt
. It enables
paravirtualized virtio drivers in the converted virtual machine if
possible. A list of supported operating systems and hypervisors follows:
SUSE Linux Enterprise Server
openSUSE
Red Hat Enterprise Linux
Fedora
Microsoft Windows Server 2003 and 2008
Xen
KVM (managed by
libvirt
)
15.1.2 Installing virt-v2v
#
The installation of virt-v2v
is simple:
>
sudo
zypper install virt-v2v
Remember that virt-v2v
requires root
privileges,
so you need to run it either as root
, or via sudo
.
15.1.3 Preparing the virtual machine #
If running virt-v2v
on SLES 12 SP1 or earlier, this
step can be safely skipped. This step can also be ignored if the virtual
machine is fully virtualized or if it runs on SLES 12 SP2 or later.
The Xen virtual machine must have the default kernel installed. To ensure
this, run zypper in kernel-default
on the virtual
machine.
15.1.4 Converting virtual machines to run under KVM managed by libvirt
#
virt-v2v
converts virtual machines from the Xen
hypervisor to run under KVM managed by libvirt
. To learn more about
libvirt
and virsh
, see
Part II, “Managing virtual machines with libvirt
”. Additionally, all
virt-v2v
command line options are explained in the
virt-v2v
manual page (man 1
virt-v2v
).
Before converting a virtual machine, make sure to complete the following steps:
Create a new local storage pool.
virt-v2v
copies the storage of the source virtual machine to a local storage pool managed bylibvirt
(the original disk image remains unchanged). You can create the pool either with Virtual Machine Manager orvirsh
. For more information, see Section 8.2.2, “Managing storage with Virtual Machine Manager” and Section 8.2.1, “Managing storage withvirsh
”.Prepare the local network interface.
Check that the converted virtual machine can use a local network interface on the VM Host Server. It is usually a network bridge. If it is not defined yet, create it with
› › › › .Note: Mappings of network devicesNetwork devices on the source Xen host can be mapped during the conversion process to corresponding network devices on the KVM target host. For example, the Xen bridge
br0
can be mapped to the default KVM network device. Sample mappings can be found in/etc/virt-v2v.conf
. To enable these mappings, modify the XML rule as necessary and ensure the section is not commented out with<!--
and-->
markers. For example:<network type='bridge' name='br0'> <network type='network' name='default'/> </network>
Tip: No network bridgeIf there is no network bridge available, Virtual Machine Manager can optionally create it.
virt-v2v
has the following basic command syntax:
virt-v2v -i INPUT_METHOD -os STORAGE_POOL SOURCE_VM
- input_method
There are two input methods:
libvirt
orlibvirtxml
. See the SOURCE_VM parameter for more information.- storage_pool
The storage pool you already prepared for the target virtual machine.
- source_vm
The source virtual machine to convert. It depends on the INPUT_METHOD parameter: For
libvirt
, specify the name of a libvirt domain. Forlibvirtxml
, specify the path to an XML file containing a libvirt domain specification.
Conversion of a virtual machine takes a lot of system resources, mainly for copying the whole disk image for a virtual machine. Converting a single virtual machine typically takes up to 10 minutes, although virtual machines using very large disk images can take much longer.
15.1.4.1 Conversion based on the libvirt
XML description file #
This section describes how to convert a local Xen virtual machine using
the libvirt
XML configuration file. This method is suitable if the host
is already running the KVM hypervisor. Make sure that the libvirt
XML
file of the source virtual machine, and the libvirt
storage pool
referenced from it are available on the local host.
Obtain the
libvirt
XML description of the source virtual machine.Tip: Obtaining the XML filesTo obtain the
libvirt
XML files of the source virtual machine, you must run the host OS under the Xen kernel. If you already rebooted the host to the KVM-enabled environment, reboot back to the Xen kernel, dump thelibvirt
XML file, and then reboot back to the KVM environment.First identify the source virtual machine under virsh:
#
virsh list Id Name State ---------------------------------------------------- [...] 2 sles12_xen running [...]sles12_xen
is the source virtual machine to convert. Now export its XML and save it tosles12_xen.xml
:#
virsh dumpxml sles12_xen > sles12_xen.xmlVerify that all disk image paths are correct from the KVM host's perspective. This is not a problem when converting on one machine, but might require manual changes when converting using an XML dump from another host.
<source file='/var/lib/libvirt/images/XenPool/SLES.qcow2'/>
Tip: Copying imagesTo avoid copying an image twice, manually copy the disk image(s) directly to the
libvirt
storage pool. Update the source file entries in the XML description file. Thevirt-v2v
process will detect the existing disks and convert them in place.Run
virt-v2v
to convert to KVM virtual machine:#
virt-v2v sles12_xen.xml1 \ -i LIBVIRTXML2 \ -os remote_host.example.com:/exported_dir3 \ --bridge br04 \ -on sles12_kvm5The XML description of the source Xen-based virtual machine.
virt-v2v
will read the information about the source virtual machine from alibvirt
XML file.Storage pool where the target virtual machine disk image will be placed. In this example, the image will be placed on an NFS share
/exported_dir
on theremote_host.example.com
server.The target KVM-based virtual machine will use the network bridge
br0
on the host.The target virtual machine will be renamed to
sles12_kvm
to prevent name collision with the existing virtual machine of the same name.
15.1.4.2 Conversion based on the libvirt
domain name #
This method is useful if you are still running libvirt
under Xen, and
plan to reboot to the KVM hypervisor later.
Find the
libvirt
domain name of the virtual machine you want to convert.#
virsh list Id Name State ---------------------------------------------------- [...] 2 sles12_xen running [...]sles12_xen
is the source virtual machine to convert.Run
virt-v2v
to convert to KVM virtual machine:#
virt-v2v sles12_xen1 \ -i libvirt2 \ -os storage_pool3 \ --network eth04 \ -of qcow25 \ -oa sparse6 \ -on sles12_kvmThe domain name of the Xen-based virtual machine.
virt-v2v
will read the information about the source virtual machine directly from the activelibvirt
connection.The target disk image will be placed in a local
libvirt
storage pool.All guest bridges (or networks) will be connected to a locally managed network.
Format for the disk image of the target virtual machine. Supported options are
raw
orqcow2
.Whether the converted guest disk space will be
sparse
orpreallocated
.
15.1.4.3 Converting a remote Xen virtual machine #
This method is useful if you need to convert a Xen virtual machine
running on a remote host. As virt-v2v
connects to the
remote host via ssh
, ensure the SSH service is running
on the host.
Starting with SLES 12 SP2, virt-v2v
requires a
passwordless SSH connection to the remote host. This means a connection
using an SSH key added to the ssh-agent. See man
ssh-keygen
and man ssh-add
for more details
on this. More information is also available at Book “Security and Hardening Guide”, Chapter 22 “Securing network operations with OpenSSH”.
To connect to a remote libvirt
connection, construct a valid connection
URI relevant for your remote host. In the following example, the remote
host name is remote_host.example.com
, and the user name
for the connection is root
. The connection URI then looks as
follows:
xen+ssh://root@remote_host.example.com/
For more information on libvirt
connection URIs, see
https://libvirt.org/uri.html.
Find the
libvirt
domain name of the remote virtual machine you want to convert.#
virsh -c xen+ssh://root@remote_host.example.com/ list Id Name State ---------------------------------------------------- 1 sles12_xen running [...]sles12_xen
is the source virtual machine to convert.The
virt-v2v
command for the remote connection looks like this:#
virt-v2v sles12_xen \ -i libvirt \ -ic xen+ssh://root@remote_host.example.com/ \ -os local_storage_pool \ --bridge br0
15.1.5 Running converted virtual machines #
After virt-v2v
completes successfully, a new libvirt
domain will be created with the name specified with the
-on
option. If you did not specify -on
,
the same name as the source virtual machine will be used. The new guest can
be managed with standard libvirt
tools, such as virsh
or Virtual Machine Manager.
If you completed the conversion under Xen as described in
Section 15.1.4.2, “Conversion based on the libvirt
domain name”, you may need to reboot the
host machine and boot with the non-Xen kernel.
15.2 Xen to KVM manual migration #
15.2.1 General outline #
The preferred solution to manage virtual machines is based on libvirt
;
for more information, see https://libvirt.org/. It
has several advantages over the manual way of defining and running virtual
machines—libvirt
is cross-platform, supports many hypervisors, has
secure remote management, has virtual networking, and, most of all,
provides a unified abstract layer to manage virtual machines. Therefore the
main focus of this article is on the libvirt
solution.
Generally, the Xen to KVM migration consists of the following basic steps:
Make a backup copy of the original Xen VM Guest.
OPTIONAL: Apply changes specific to paravirtualized guests.
Obtain information about the original Xen VM Guest and update it to KVM equivalents.
Shut down the guest on the Xen host, and run the new one under the KVM hypervisor.
The Xen to KVM migration cannot be done live while the source VM Guest is running. Before running the new KVM-ready VM Guest, you are advised to shut down the original Xen VM Guest.
15.2.2 Back up the Xen VM Guest #
To back up your Xen VM Guest, follow these steps:
Identify the relevant Xen guest you want to migrate, and remember its ID/name.
>
sudo
virsh list --all Id Name State ---------------------------------- 0 Domain-0 running 1 SLES11SP3 running [...]Shut down the guest. You can do this either by shutting down the guest OS, or with
virsh
:>
sudo
virsh shutdown SLES11SP3Back up its configuration to an XML file.
>
sudo
virsh dumpxml SLES11SP3 > sles11sp3.xmlBack up its disk image file. Use the
cp
orrsync
commands to create the backup copy. Remember that it is always a good idea to check the copy with themd5sum
command.After the image file is backed up, you can start the guest again with
>
sudo
virsh start SLES11SP3
15.2.3 Changes specific to paravirtualized guests #
Apply the following changes if you are migrating a paravirtualized Xen
guest. You can do it either on the running guest, or on the stopped guest
using guestfs-tools
.
After applying the changes described in this section, the image file related to the migrated VM Guest will not be usable under Xen anymore.
15.2.3.1 Install the default kernel #
After you install the default kernel, do not try to boot the Xen guest with it, as the system will not boot.
Before cloning the Xen guest disk image for use under the KVM hypervisor, make sure it is bootable without the Xen hypervisor. This is very important for paravirtualized Xen guests as they usually contain a special Xen kernel, and often do not have a complete GRUB 2 boot loader installed.
For SLES 11, update the
/etc/sysconfig/kernel
file. Change theINITRD_MODULES
parameter by removing all Xen drivers and replacing them with virtio drivers. ReplaceINITRD_MODULES="xenblk xennet"
with
INITRD_MODULES="virtio_blk virtio_pci virtio_net virtio_balloon"
For SLES 12, search for
xenblk xennet
in/etc/dracut.conf.d/*.conf
and replace them withvirtio_blk virtio_pci virtio_net virtio_balloon
Paravirtualized Xen guests run a specific Xen kernel. To run the guest under KVM, you need to install the default kernel.
Note: Default kernel is already installedYou do not need to install the default kernel for a fully virtualized guest, as it is already installed.
Enter
rpm -q kernel-default
on the Xen guest to find out whether the default kernel is installed. If not, install it withzypper in kernel-default
.The kernel we are going to use to boot the guest under KVM must have virtio (paravirtualized) drivers available. Run the following command to find out. Do not forget to replace
5.3.18-8
with your kernel version:>
sudo
sudo find /lib/modules/5.3.18-8-default/kernel/drivers/ -name virtio* /lib/modules/5.3.18-8-default/kernel/drivers/block/virtio_blk.ko /lib/modules/5.3.18-8-default/kernel/drivers/char/hw_random/virtio-rng.ko /lib/modules/5.3.18-8-default/kernel/drivers/char/virtio_console.ko /lib/modules/5.3.18-8-default/kernel/drivers/crypto/virtio ...Update
/etc/fstab
. Change any storage devices fromxvda
tovda
.Update the boot loader configuration. Enter
rpm -q grub2
on the Xen guest to find out whether GRUB 2 is already installed. If not, install it withzypper in grub2
.Now make the newly installed default kernel the default for booting the OS. Also remove/update the kernel command line options that may refer to Xen-specific devices. You can do it either with YaST (
› ), or manually:Find the preferred Linux boot menu entry by listing them all:
>
cat /boot/grub2/grub.cfg | grep 'menuentry 'Remember the order number (counted from zero) of the one you newly installed.
Set it as the default boot menu entry:
>
sudo
grub2-set-default NReplace N with the number of the boot menu entry you previously discovered.
Open
/etc/default/grub
for editing, and look for theGRUB_CMDLINE_LINUX_DEFAULT
andGRUB_CMDLINE_LINUX_RECOVERY
options. Remove or update any reference to Xen-specific devices. In the following example, you can replaceroot=/dev/xvda1 disk=/dev/xvda console=xvc
with
root=/dev/vda1 disk=/dev/vda
Note that you need to remove all references to
xvc
-type consoles (such asxvc0
).
Update
device.map
in either the/boot/grub2
or/boot/grub2-efi
directory, whichever that VM uses. Change any storage devices fromxvda
tovda
.To import new default settings, run
grub2-mkconfig -o /boot/grub2/grub.cfg
15.2.3.2 Update the guest for boot under KVM #
Update the system to use the default serial console. List the configured consoles, and remove symbolic links to
xvc?
ones.>
sudo
ls -l /etc/systemd/system/getty.target.wants/ getty@tty1.service -> /usr/lib/systemd/system/getty@.service getty@xvc0.service -> /usr/lib/systemd/system/getty@xvc0.service getty@xvc1.service -> /usr/lib/systemd/system/getty@xvc1.service # rm /etc/systemd/system/getty.target.wants/getty@xvc?.serviceUpdate the
/etc/securetty
file. Replacexvc0
withttyS0
.
15.2.4 Update the Xen VM Guest configuration #
This section describes how to export the configuration of the original
Xen VM Guest, and what particular changes to apply to it so it can be
imported as a KVM guest into libvirt
.
15.2.4.1 Export the Xen VM Guest configuration #
First export the configuration of the guest and save it to a file. For example:
>
sudo
virsh dumpxml SLES11SP3 <domain type='xen'> <name>SLES11SP3</name> <uuid>fa9ea4d7-8f95-30c0-bce9-9e58ffcabeb2</uuid> <memory>524288</memory> <currentMemory>524288</currentMemory> <vcpu>1</vcpu> <bootloader>/usr/bin/pygrub</bootloader> <os> <type>linux</type> </os> <clock offset='utc'/> <on_poweroff>destroy</on_poweroff> <on_reboot>restart</on_reboot> <on_crash>restart</on_crash> <devices> <emulator>/usr/lib/xen/bin/qemu-dm</emulator> <disk type='file' device='disk'> <driver name='file'/> <source file='/var/lib/libvirt/images/SLES_11_SP2_JeOS.x86_64-0.0.2_para.raw'/> <target dev='xvda' bus='xen'/> </disk> <interface type='bridge'> <mac address='00:16:3e:2d:91:c3'/> <source bridge='br0'/> <script path='vif-bridge'/> </interface> <console type='pty'> <target type='xen' port='0'/> </console> <input type='mouse' bus='xen'/> <graphics type='vnc' port='-1' autoport='yes' keymap='en-us'/> </devices> </domain>
You can find detailed information on the libvirt XML format for VM Guest description at https://libvirt.org/formatdomain.html.
15.2.4.2 General changes to the guest configuration #
You need to make a few general changes to the exported Xen guest XML configuration to run it under the KVM hypervisor. The following applies to both fully virtualized and paravirtualized guests. Note that not all of the following XML elements need to be in your specific configuration.
To refer to a node in the XML configuration file, an XPath syntax will be
used throughout this document. For example, to refer to a
<name>
inside the
<domain>
tag
<domain> <name>sles11sp3</name> </domain>
an XPath equivalent /domain/name
will be used.
Change the
type
attribute of the/domain
element fromxen
tokvm
.Remove the
/domain/bootloader
element section.Remove the
/domain/bootloader_args
element section.Change the
/domain/os/type
element value fromlinux
tohvm
.Add
<boot dev="hd"/>
under the/domain/os
element.Add the
arch
attribute to the/domain/os/type
element. Acceptable values arearch=”x86_64”
orarch=”i686”
Change the
/domain/devices/emulator
element from/usr/lib/xen/bin/qemu-dm'
to/usr/bin/qemu-kvm
.For each disk associated with the paravirtualized (PV) guest, change the following:
Change the
name
attribute of the/domain/devices/disk/driver
element fromfile
toqemu
, and add atype
attribute for the disk type. For example, valid options includeraw
andqcow2
.Change the
dev
attribute of the/domain/devices/disk/target
element fromxvda
tovda
.Change the
bus
attribute of the/domain/devices/disk/target
element fromxen
tovirtio
.
For each network interface card, make the following changes:
If there is a
model
defined in/domain/devices/interface
, change itstype
attribute value tovirtio
<model type=”virtio”>
Delete all
/domain/devices/interface/script
sections.Delete all
/domain/devices/interface/target
elements if thedev
attribute starts withvif
orvnet
orveth
. If using a custom network then change thedev
value to that target.
Remove the
/domain/devices/console
element section if it exists.Remove the
/domain/devices/serial
element section if it exists.Change the
bus
attribute on the/domain/devices/input
element fromxen
tops2
.Add the following element for memory ballooning features under the
/domain/devices
element.<memballoon model="virtio"/>
<target dev='hda' bus='ide'/>
controls the
device under which the disk is exposed to the guest OS. The
dev
attribute indicates the "logical" device name. The
actual device name specified is not guaranteed to map to the device name
in the guest OS. Therefore you may need to change the disk mapping on the
boot loader command line. For example, if the boot loader expects a root
disk to be hda2
but KVM still sees it as
sda2
, change the boot loader command line from
[...] root=/dev/hda2 resume=/dev/hda1 [...]
to
[...] root=/dev/sda2 resume=/dev/sda1 [...]
In the case of paravirtualized xvda
devices, change it
to
[...] root=/dev/vda2 resume=/dev/vda1 [...]
Otherwise the VM Guest will refuse to boot in the KVM environment.
15.2.4.3 The target KVM guest configuration #
After having applied all the modifications mentioned above, you end up with the following configuration for your KVM guest:
<domain type='kvm'> <name>SLES11SP3</name> <uuid>fa9ea4d7-8f95-30c0-bce9-9e58ffcabeb2</uuid> <memory>524288</memory> <currentMemory>524288</currentMemory> <vcpu cpuset='0-3'>1</vcpu> <os> <type arch=”x86_64”>hvm</type> <boot dev="hd"/> </os> <clock offset='utc'/> <on_poweroff>destroy</on_poweroff> <on_reboot>restart</on_reboot> <on_crash>restart</on_crash> <devices> <emulator>/usr/bin/qemu-kvm</emulator> <disk type='file' device='disk'> <driver name='qemu' type="raw"/> <source file='/var/lib/libvirt/images/SLES_11_SP2_JeOS.x86_64-0.0.2_para.raw'/> <target dev='vda' bus='virtio'/> </disk> <interface type='bridge'> <mac address='00:16:3e:2d:91:c3'/> <source bridge='br0'/> </interface> <input type='mouse' bus='usb'/> <graphics type='vnc' port='5900' autoport='yes' keymap='en-us'/> <memballoon model="virtio"/> </devices> </domain>
Save the configuration to a file in your home directory, as
SLES11SP3.xml
, for example. After you import it, it will be
copied to the default /etc/libvirt/qemu
directory.
15.2.5 Migrate the VM Guest #
After you updated the VM Guest configuration, and applied necessary changes to the guest OS, shut down the original Xen guest, and run its clone under the KVM hypervisor.
Shut down the guest on the Xen host by running
shutdown -h now
asroot
from the console.Copy the disk files associated with the VM Guest if needed. A default configuration will require the Xen disk files to be copied from
/var/lib/xen/images
to/var/lib/kvm/images
. The/var/lib/kvm/images
directory may need to be created (asroot
) if you have not previously created a VM Guest.Create the new domain, and register it with
libvirt
:>
sudo
virsh define SLES11SP3.xml Domain SLES11SP3 defined from SLES11SP3.xmlVerify that the new guest is seen in the KVM configuration:
>
virsh list –allAfter the domain is created, you can start it:
>
sudo
virsh start SLES11SP3 Domain SLES11SP3 started
15.3 More information #
For more information on libvirt, see https://libvirt.org.
You can find more details on the libvirt
XML format at
https://libvirt.org/formatdomain.html.
For more information on virtualization with Xen and KVM, see the openSUSE Leap documentation at https://documentation.suse.com/.