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Virtualization in Fedora 7

Fedora 25

 includes support for both the KVM and the Xen virtualization platforms. For more information on different virtualization platforms, see http://virt.kernelnewbies.org/TechComparison.
 

More information on Xen itself can be found at http://wiki.xensource.com/xenwiki/ and the Fedora Xen page. More information on KVM can be found at http://kvm.qumranet.com/kvmwiki.

Fedora is following the 3.0.x Xen line. Xen 3.0.0 was released in December of 2005 and is incompatible with guests using the previous Xen 2.0.x releases.

Quick Start

Setting up Xen and guests in Fedora 25

 has some significant changes and improvements since the release of Fedora Core 6. The following guide will explain how to set up Xen and KVM, and how to create and manage guests using either the command line or GUI interface.
 

System Requirements

  • For Xen, GRUB, the default boot loader for is required[[FootNote(This is required because the system actually boots the Xen hypervisor and it then starts the Linux kernel. It does this using the MultiBoot standard.)]
  • For KVM, the system must have a CPU with virtualization support.
  • Sufficient storage space for the guest operating systems. A minimal command-line Fedora system requires around 600MB of storage, a standard desktop Fedora system requires around 3GB.
  • Generally speaking, at least 256 megs of RAM per guest plus 256 for the base OS. Practically speaking, it is hard to do work with virtualization with less than 1 GB of RAM.

Requirements for Para-virtualized Guests

Only Xen supports para-virtualized guests. KVM is full virtualization.

Any x86_64, or ia64 CPU is supported for running para-virtualized guests with Xen. For i386 hardware, a CPU with the PAE extension is required. Many older laptops (particularly those based on Pentium Mobile / Centrino) do not have PAE support. To determine if a CPU has PAE support, run the following command:

$ grep pae /proc/cpuinfo
flags           : fpu tsc msr pae mce cx8 apic mtrr mca cmov pat pse36 mmx fxsr sse syscall mmxext 3dnowext 3dnow up ts

The above output shows a CPU that does have PAE support. If the command returns nothing, then the CPU does not have PAE support.

Fully-virtualized guests (HVM/Intel-VT/AMD-V)

To run fully virtualized guests in Xen or KVM, host CPU support is needed. This is typically referred to as Intel VT, or AMD-V. To check for Intel VT support look for the 'vmx' flag, or for AMD-V support check for 'svm' flag:

....For Intel....
flags           : fpu tsc msr pae mce cx8 apic mtrr mca cmov pat pse36 clflush dts acpi mmx fxsr sse sse2 ss ht tm syscall nx lm constant_tsc pni monitor ds_cpl vmx est tm2 cx16 xtpr lahf_lm

....For AMD....
flags           : fpu tsc msr pae mce cx8 apic mtrr mca cmov pat pse36 clflush mmx fxsr sse sse2 ht syscall nx mmxext fxsr_opt rdtscp lm 3dnowext 3dnow pni cx16 lahf_lm cmp_legacy svm cr8_legacy

On some Intel systems, virtualization support needs to be enabled in the BIOS. Please ensure that this has been done before proceeding.

Conventions

Commands which require root privileges are prefixed with the character '#'. To become root, issue the command 'su -' as a normal user and supply the root password.

Installing the Xen Software

When doing a fresh install of Fedora 25

, Xen can be installed by selecting Virtualization in the Base Group in the installer.
 

For an existing Fedora 25

 installation, the Xen kernel and tools can be installed by running the following command:
 

This installs the required packages and their dependencies.  'kernel-xen' contains the Xen-enabled kernel for both the host and guest operating systems as well as the hypervisor.  Also, the 'xen' package will be installed, which contains the user-space tools for interacting with the hypervisor.

Once this is done, there should be an entry in the file <code>/boot/grub/grub.conf</code> for booting the <code>xen</code> kernel. The <code>xen</code> kernel is '''not''' set as the default boot option.

To set GRUB to boot with <code>kernel-xen</code> by default, edit <code>/boot/grub/grub.conf</code> and set the default to the xen [[FootNote(Note that future kernel-xen packages can be set to the default kernel by editing <code>/etc/sysconfig/kernel</code>)]  

This is an example <code>/boot/grub/grub.conf</code> configured to boot into the Xen hypervisor:

<pre>
default=0
timeout=5
splashimage=(hd0,0)/grub/splash.xpm.gz
hiddenmenu
title Fedora (2.6.20-2925.5.fc7xen)
root (hd0,0)
kernel /xen.gz-2.6.20-2925.5.fc7
module /vmlinuz-2.6.20-2925.5.fc7xen ro root=/dev/VolRoot/LogVolRoot rhgb quiet
module /initrd-2.6.20-2925.5.fc7xen.img
title Fedora (2.6.20-1.3084.fc7)
root (hd0,0)
kernel /vmlinuz-2.6.20-1.3084.fc7 ro root=/dev/VolRoot/LogVolRoot rhgb quiet
initrd /initrd-2.6.20-1.3084.fc7.img

Installing the KVM Software

When doing a fresh install of Fedora 25

, KVM can be installed by selecting KVM in the Base Group in the installer.
 

For existing Fedora 25

 installations, the KVM package and virtualization tools can be installed by running the following command:
 

This installs the required packages and their dependencies.  Note that KVM is included in the regular kernel; booting into a special kernel is not required.

== Enabling Xen ==

Once the system is booted into the Xen kernel, check to verify the kernel and that Xen is running:

<pre>
2.6.20-2925.5.fc7xen

Name                              ID Mem(MiB) VCPUs State  Time(s)
Domain-0                           0      610     1 r----- 12492.1

The above output should show that the Xen kernel is loaded and that Domain-0 (the host operating system) is running.

Note that for the default setup, networking for the guest OS (DomU) is bridged. This means that DomU's will get an IP address on the same network as Dom0. If a DHCP server provides addresses, it needs to be configured to give addresses to the guests. Another networking type can be selected by editing /etc/xen/xend-config.sxp

Enabling KVM

After the KVM package is installed, the system should be rebooted in order to load the KVM modules. No other action is required to enable KVM.

Building a Fedora Guest System

With Fedora 25

/ installation of Fedora 25
 guests using anaconda is supported. The installation can be started on the command line via the virt-install program or in the GUI program virt-manager.
 

If the system is booted into the Xen kernel, virt-manager will use Xen as the underlying platform. If the system is booted into the regular kernel, KVM will be used. To activate KVM when virt-manager is running in QEMU mode, check the "Use hardware acceleration" box in the wizard.

Building a Fedora Guest System using virt-install

Start the interactive install process by running the virt-install command-line program:


The following questions about the new guest OS will be presented. This information can also be passed as command line options; run with an argument of <code>--help</code> for more details.  In particular, kickstart options can be passed with <code>-x ks=options</code>.

1. What is the name of your virtual machine?  This is the label that will identify the guest OS. This label will be used for various <code>xm</code> commands and also appear in <code>virt-manager</code> the Gnome-panel Xen applet. In addition, it will be the name of the <code>/etc/xen/<name></code> file that stores the guest's configuration information.
1. How much RAM should be allocated (in megabytes)?  This is the amount of RAM to be allocated for the guest instance in megabytes (eg, 256).  Note that installation with less than 256 megabytes is not recommended.
1. What would you like to use as the disk (path)?  The local path and file name of the file to serve as the disk image for the guest (eg, /home/joe/xenbox1).  This will be exported as a full disk to your guest.
1. How large would you like the disk to be (in gigabytes)? The size of the virtual disk for the guest (only appears if the file specified above does not already exist).  4.0 gigabytes is a reasonable size for a "default" install
1. Would you like to enable graphics support (yes or no): Should the graphical installer be used?
1. What is the install location?  This is the path to a Fedora {{Template:DocsDict/BeatsVer}}
  installation tree in the format used by anaconda.  NFS, FTP, and HTTP locations are all supported.  Examples include:
  * <code>nfs:my.nfs.server.com:/path/to/test2/tree/</code>
* <code>http://my.http.server.com/path/to/tree/</code>
* <code>ftp://my.ftp.server.com/path/to/tree</code>

{{Template:Note}} Installation must be a network type. It is not possible to install from a local disk or CDROM. It is possible, however, to set up an installation tree on the host OS and then export it as an NFS share.

The installation will then commence. If graphics were enabled, a VNC window will open and present the graphical installer. If graphics were not enabled, the standard text installer will appear. Proceed as normal with the installation.

=== Building a Fedora Guest System using <code>virt-manager</code> ===

Start the GUI Virtual Machine Manager by selecting it from the "Applications-->System Tools" menu, or by running the following command as root:
<pre>

1. Choose "Local Xen Host" and click "Connect" in the "Open Connection" dialog window.
1. Click the "New" button at the bottom of the <code>virt-manager</code> window, or select File-->New.
1. A wizard will present the same questions as appear with the <code>virt-install</code> command-line utility (see descriptions above). The wizard assumes that a graphical installation is desired and does not prompt for this option.
1. On the last page of the wizard there is a "Finish" button. When this is clicked, the guest OS is provisioned. After a few moments a VNC window should appear. Proceed with the installation as normal.

=== Building a Fedora Guest System using 'cobbler' and 'koan' ===

Cobbler is a tool for configuring a provisioning server for PXE, Xen, and existing systems. See http://cobbler.et.redhat.com for details.  The following instructions are rather minimal and more configuration options are available.

First, set up a provisioning server:

<pre>
yum install cobbler
man cobbler # read the docs!
cobbler check # validate that the system is configured correctly
cobbler distro add --name=myxendistro --kernel=/path/to/vmlinuz --initrd=/path/to/initrd.img
cobbler profile add --name=myxenprofile --distro==myxendistro [--kickstart=/path/to/kickstart] 
cobbler list # review the configuration
cobbler sync # apply the configuration to the filesystem

Alternatively, cobbler can import a Fedora rsync mirror and create profiles automatically from there. Some of the imported distros will be Xen profiles and some will be for bare metal. Usage of the Xen profiles will be required. See the manpage for details.

cobbler import --mirror=rsync://your-fedora-mirror --mirror-name=fedoracobbler sync

On the system that will host the image:

yum install koan
koan --virt --profile=myxenprofile --server=hostname-of-cobbler-server

After Installation

When the installation of the guest operating system is complete, it can be managed using the GUI virt-manager program or on the command line using virsh.

Managing Virtual Machines graphically with virt-manager

Start the GUI Virtual Machine Manager by selecting it from the "Applications-->System Tools" menue, or by running the following command:


{1} If you are not root, you will be prompted to enter the root password. Choose<code>Run unprivileged</code> to operate in a read-only non-root mode.

* Choose "Local Xen Host" and click "Connect" in the "Open Connection" dialog window.
* The list of virtual machines is displayed in the main window. The first machine is called "Domain 0"; this is the host computer.
* If a machine is not listed, it is probably not running. To start up a machine select "File-->Restore a saved machine..." and select the file that serves as the guest's disk.
* The display lists the status, CPU and memory usage for each machine. Additional statistics can be selected under the "View" menu.
* Double click the name of a machine to open the virtual console.
* From the virtual console, select "View-->Details" to access the machine's properties and change its hardware configuration
* To access the serial console (if there is a problem with the graphical console) select "View-->Serial Console"

For further information about <code>virt-manager</code> consult the [http://virt-manager.et.redhat.com/ project website] 

Bugs in the <code>virt-manager</code> tool should be reported in [http://bugzilla.redhat.com BugZilla]  against the 'virt-manager' component

=== Managing Virtual Machines from the command line with <code>virsh</code> ===

Virtual machines can be managed on the command line with the <code>virsh</code> utility. The <code>virsh</code> utility is built around the libvirt management API and has a number of advantages over the traditional Xen <code>xm</code> tool:

* virsh has a stable set of commands whose syntax & semantics will be preserved across updates to Xen.
* virsh can be used as an unprivileged user for read-only operations (eg listing domains, getting info, etc)
* virsh will (in future) be able to manage QEMU, VMWare, etc machines in additional to Xen, since libvirt is hypervisor agnostic.

To start a new virtual machine from an XML vm definition:

<pre>

To list the virtual machines currently running, use:

<pre>

To gracefully power off a guest use:
<pre>

To save a snapshot of the machine to a file of your choosing:
<pre>

To restore a previously saved snapshot:
<pre>

To export the XML config associated with a virtual machine:
<pre>

For a complete list of commands available for use with <code>virsh</code> run:
<pre>

Or consult the manual page <code>virsh(1)</code>

Bugs in the <code>virsh</code> tool should be reported in [http://bugzilla.redhat.com BugZilla]  against the 'libvirt' component

=== Managing Virtual Machines from the command line with <code>qemu-kvm</code> ===

KVM virtual machines can be managed in the command line using the 'qemu-kvm' command.


=== Managing Virtual Machines from the command line with <code>xm</code> ===

In addition to the <code>virsh</code> command, virtual machines can also be managed on the command line with the Xen-specific <code>xm</code> utility. To power on a virtual machine and attach a serial console, use:

<pre>

To list the virtual machines currently running, use:

<pre>

To power off a guest use:
<pre>

To save a snapshot of the machine to a file:
<pre>

To restore a previously saved snapshot:
<pre>

To display <code>top</code>-like statistics for all running machines:
<pre>

For a complete list of commands available for use with <code>xm</code> run:
<pre>

Bugs in the <code>xm</code> tool should be reported in [http://bugzilla.redhat.com BugZilla]  against the 'xen' component

= Troubleshooting =

== SELinux ==

The SELinux policy in Fedora {{Template:DocsDict/BeatsVer}}
  has the neccessary rules to allow use of Xen with SELinux enabled. The main caveat to be aware of is that any file backed disk images need to be in a special directory - /var/lib/xen/images.  This applies both to regular disk images, and ISO images.  Block device backed disks are already labelled correctly to allow them to pass SELinux checks.
  
== Log files ==

There are two log files stored on the host system to assist with debugging Xen related problems. The file <code>/var/log/xen/xend.log</code> holds the same information reported with '<code>xm log</code>. Unfortunately these log messages are often very short and contain little useful information. The following is the output of trying to create a domain running the kernel for NetBSD/xen.

<pre>
[2005-06-27 02:23:02 xend]  ERROR (SrvBase:163) op=create: Error creating domain:(0, 'Error')
Traceback (most recent call last):
File "/usr/lib/python2.4/site-packages/xen/xend/server/SrvBase.py", line 107, in _perform
val = op_method(op, req)
File "/usr/lib/python2.4/site-packages/xen/xend/server/SrvDomainDir.py", line 71, in op_create
raise XendError("Error creating domain: " + str(ex))
XendError: Error creating domain: (0, 'Error')

The second file, /var/log/xen/xend-debug.log usually contains much more detailed information. Trying to start the NetBSD/xen kernel will result in the following log output:

ERROR: Will only load images built for Xen v3.0
ERROR: Actually saw: 'GUEST_OS=netbsd,GUEST_VER=2.0,XEN_VER=2.0,LOADER=generic,BSD_SYMTAB'
ERROR: Error constructing guest OS

When reporting errors, always include the output from both /var/log/xen/xend.log and /var/log/xen/xend-debug.log.

If starting a fully-virtualized domains (ie to run unmodified OS) there are also logs in /var/log/xen/qemu-dm*.log which can contain useful information.

Finally, hypervisor logs can be seen by running the command

xm dmesg

Serial Console

Host serial console access

For more difficult problems, serial console can be very helpful. If the Xen kernel itself has died and the hypervisor has generated an error, there is no way to record the error persistently on the local host. Serial console lets you capture it on a remote host.

The Xen host must be setup for serial console output, and a remote host must exist to capture it. For the console output, set the appropriate options in /etc/grub.conf:

title Fedora Core (2.6.17-1.2600.fc6xen)
root (hd0,2)
kernel /xen.gz-2.6.17-1.2600.fc6 com1=38400,8n1 sync_console
module /vmlinuz-2.6.17-1.2600.fc6xen ro root=LABEL=/ rhgb quiet console=ttyS0 console=tty pnpacpi=off
module /initrd-2.6.17-1.2600.fc6xen.img

for a 38400-bps serial console on com1 (ie. /dev/ttyS0 on Linux.) The "sync_console" works around a problem that can cause hangs with asynchronous hypervisor console output, and the "pnpacpi=off" works around a problem that breaks input on serial console. "console=ttyS0 console=tty" means that kernel errors get logged both on the normal VGA console and on serial console. Once that is done, install and set up ttywatch to capture the information on a remote host connected by a standard null-modem cable. For example, on the remote host:


Will log output from /dev/ttyS0 into a file /var/log/ttywatch/myhost.log

=== Paravirt guest serial console access ===

Para-virtualized guest OS will automatically have a serial console configured, and plumbed through to the Domain-0 OS. This can be accessed from the command line using

<pre>

Alternatively, the graphical <code>virt-manager</code> program can display the serial console. Simply display the 'console' or 'details' window for the guest & select 'View -> Serial console' from the menu bar.

=== Fullyvirt guest serial console access ===

Fully-virtualized guest OS will automatically have a serial console configured, but the guest kernel will not be configured to use this out of the box. To enable the guest console in a Linux fully-virt guest, edit the /etc/grub.conf in the guest and add 'console=ttyS0 console=tty0'. This ensures that all kernel messages get sent to the serial console, and the regular graphical console. The serial console can then be access in same way as paravirt guests:

<pre>

Alternatively, the graphical <code>virt-manager</code> program can display the serial console. Simply display the 'console' or 'details' window for the guest & select 'View -> Serial console' from the menu bar.

== Accessing data on a guest disk image ==

There are two tools which can help greatly in accessing data within a guest disk image: ''lomount'' and ''kpartx''.

{{Template:Warning}} Remember never to do this while the guest is up and running, as it could corrupt the filesystem:

* '''lomount'''

<pre>

lomount only works with small disk images and cannot deal with LVM volumes, so for more complex cases, kpartx (from the ''device-mapper-multipath'' RPM) is preferred:

* '''kpartx'''

<pre>
add map guest1p1 : 0 208782 linear /dev/xen/guest1 63
add map guest1p2 : 0 16563015 linear /dev/xen/guest1 208845

Note that this only works for block devices, not for images installed on regular files. To use file images, set up a loopback device for the file first:

/dev/loop0
add map loop0p1 : 0 208782 linear /dev/loop0 63
add map loop0p2 : 0 12370050 linear /dev/loop0 208845

In this case we have added an image formatted as a default Fedora install, so it has two partitions: one /boot, and one LVM volume containing everything else. They are accessible under /dev/mapper:

brw-rw---- 1 root disk 253,  6 Jun  6 10:32 xen-guest1
brw-rw---- 1 root disk 253, 14 Jun  6 11:13 guest1p1
brw-rw---- 1 root disk 253, 15 Jun  6 11:13 guest1p2

To access LVM volumes on the second partition, rescan LVM with <code>vgscan</code> and activate the volume group on that partition (named "VolGroup00" by default) with <code>vgchange -ay</code>:

<pre>
Reading all physical volumes.  This may take a while...
Found volume group "VolGroup00" using metadata type lvm2
2 logical volume(s) in volume group "VolGroup00" now active
LV        VG         Attr   LSize   Origin Snap%  Move Log Copy%
LogVol00  VolGroup00 -wi-a-   5.06G
LogVol01  VolGroup00 -wi-a- 800.00M
...

{{Template:Warning}} Note: '''always''' remember to deactivate the logical volumes with "vgchange -an", remove the partitions with "kpartx -d", and (if appropriate) delete the loop device with "losetup -d" after performing the above steps. The default volume group name for a Fedora install is always the same, it is important to avoid activating two volume group of the same name at the same time.  LVM will cope as best it can, but it is not possible to distinguish between these two groups on the command line. In addition, if the volume group is active on the host and the guest at the same time, it can cause filesystem corruption.

== Frequently Asked Questions ==

* Q: I am trying to start the xend service and nothing happens, then when I do a <code>xm list1 I get the following:

<pre>
Error: Error connecting to xend: Connection refused.  Is xend running?

Alternatively, I run xend start manually and get the following error:

ERROR: Could not obtain handle on privileged command interface (2 = No such file or directory)
Traceback (most recent call last):
File "/usr/sbin/xend", line 33, in ?
from xen.xend.server import SrvDaemon
File "/usr/lib/python2.4/site-packages/xen/xend/server/SrvDaemon.py", line 21, in ?
import relocate
File "/usr/lib/python2.4/site-packages/xen/xend/server/relocate.py", line 26, in ?
from xen.xend import XendDomain
File "/usr/lib/python2.4/site-packages/xen/xend/XendDomain.py", line 33, in ?
import XendDomainInfo
File "/usr/lib/python2.4/site-packages/xen/xend/XendDomainInfo.py", line 37, in ?
import image
File "/usr/lib/python2.4/site-packages/xen/xend/image.py", line 30, in ?
xc = xen.lowlevel.xc.xc()
RuntimeError: (2, 'No such file or directory')

A: You have rebooted your host into a kernel that is not a xen-hypervisor kernel. Yes I did this myself in testing :)

You either need to select the xen-hypervisor kernel at boot time or set the xen-hypervisor kernel as default in your grub.conf file.

  • Q. When creating a guest the message "Invalid argument" is displayed.

A. This usually indicates that the kernel image you are trying to boot is incompatible with the hypervisor. This will be seen if trying to run a FC5 (non-PAE) kernel on FC6 (which is PAE only), or if trying to run a bare metal kernel.

  • Q. When I do a yum update and get a new kernel, the grub.conf default kernel switches back to the bare-metal kernel instead of the Xen kernel

A. The default kernel RPM can be changed in /etc/sysconfig/kernel. If it is set to 'kernel-xen', then the Xenified kernel will always be set as default option in grub.conf

Getting Help

If the Troubleshooting section above does not help you to solve your problem, check the Red Hat Bugzilla for existing bug reports on Xen in FC6. The product is "Fedora Core", and the component is "kernel" for bugs related to the xen kernel and "xen" for bugs related to the tools. These reports contain useful advice from fellow xen testers and often describe work-arounds.

For general Xen issues and useful information check the Xen project documentation , and mailing list archives .

Finally, discussion on Fedora Xen support issues occur on the Fedora Xen mailing list

References

Footnotes