virt-inspector(1) Virtualization Support virt-inspector(1)NAMEvirt-inspector - Display operating system version and other information
about a virtual machine
SYNOPSISvirt-inspector [--options] -d domname
virt-inspector [--options] -a disk.img [-a disk.img ...]
Old-style:
virt-inspector domname
virt-inspector disk.img [disk.img ...]
DESCRIPTIONvirt-inspector examines a virtual machine or disk image and tries to
determine the version of the operating system and other information
about the virtual machine.
Virt-inspector produces XML output for feeding into other programs.
In the normal usage, use "virt-inspector -d domname" where "domname" is
the libvirt domain (see: "virsh list --all").
You can also run virt-inspector directly on disk images from a single
virtual machine. Use "virt-inspector -a disk.img". In rare cases a
domain has several block devices, in which case you should list several
-a options one after another, with the first corresponding to the
guest's "/dev/sda", the second to the guest's "/dev/sdb" and so on.
You can also run virt-inspector on install disks, live CDs, bootable
USB keys and similar.
Virt-inspector can only inspect and report upon one domain at a time.
To inspect several virtual machines, you have to run virt-inspector
several times (for example, from a shell script for-loop).
Because virt-inspector needs direct access to guest images, it won't
normally work over remote libvirt connections.
All of the information available from virt-inspector is also available
through the core libguestfs inspection API (see "INSPECTION" in
guestfs(3)). The same information can also be fetched using guestfish
or via libguestfs bindings in many programming languages (see "GETTING
INSPECTION DATA FROM THE LIBGUESTFS API").
OPTIONS--help
Display brief help.
-a file
--add file
Add file which should be a disk image from a virtual machine. If
the virtual machine has multiple block devices, you must supply all
of them with separate -a options.
The format of the disk image is auto-detected. To override this
and force a particular format use the --format=.. option.
-c URI
--connect URI
If using libvirt, connect to the given URI. If omitted, then we
connect to the default libvirt hypervisor.
Libvirt is only used if you specify a "domname" on the command
line. If you specify guest block devices directly (-a), then
libvirt is not used at all.
-d guest
--domain guest
Add all the disks from the named libvirt guest. Domain UUIDs can
be used instead of names.
--echo-keys
When prompting for keys and passphrases, virt-inspector normally
turns echoing off so you cannot see what you are typing. If you
are not worried about Tempest attacks and there is no one else in
the room you can specify this flag to see what you are typing.
--format=raw|qcow2|..
--format
Specify the format of disk images given on the command line. If
this is omitted then the format is autodetected from the content of
the disk image.
If disk images are requested from libvirt, then this program asks
libvirt for this information. In this case, the value of the
format parameter is ignored.
If working with untrusted raw-format guest disk images, you should
ensure the format is always specified.
--keys-from-stdin
Read key or passphrase parameters from stdin. The default is to
try to read passphrases from the user by opening "/dev/tty".
-v
--verbose
Enable verbose messages for debugging.
-V
--version
Display version number and exit.
-x Enable tracing of libguestfs API calls.
--xpath query
Perform an XPath query on the XML on stdin, and print the result on
stdout. In this mode virt-inspector simply runs an XPath query;
all other inspection functions are disabled. See "XPATH QUERIES"
below for some examples.
OLD-STYLE COMMAND LINE ARGUMENTS
Previous versions of virt-inspector allowed you to write either:
virt-inspector disk.img [disk.img ...]
or
virt-inspector guestname
whereas in this version you should use -a or -d respectively to avoid
the confusing case where a disk image might have the same name as a
guest.
For compatibility the old style is still supported.
XML FORMAT
The virt-inspector XML is described precisely in a RELAX NG schema file
"virt-inspector.rng" which is supplied with libguestfs. This section
is just an overview.
The top-level element is <operatingsystems>, and it contains one or
more <operatingsystem> elements. You would only see more than one
<operatingsystem> element if the virtual machine is multi-boot, which
is vanishingly rare in real world VMs.
<operatingsystem>
In the <operatingsystem> tag are various optional fields that describe
the operating system, its architecture, the descriptive "product name"
string, the type of OS and so on, as in this example:
<operatingsystems>
<operatingsystem>
<root>/dev/sda2</root>
<name>windows</name>
<arch>i386</arch>
<distro>windows</distro>
<product_name>Windows 7 Enterprise</product_name>
<product_variant>Client</product_variant>
<major_version>6</major_version>
<minor_version>1</minor_version>
<windows_systemroot>/Windows</windows_systemroot>
<format>installed</format>
In brief, <name> is the class of operating system (something like
"linux" or "windows"), <distro> is the distribution (eg. "fedora" but
many other distros are recognized) and <arch> is the guest
architecture. The other fields are fairly self-explanatory, but
because these fields are taken directly from the libguestfs inspection
API you can find precise information from "INSPECTION" in guestfs(3).
The <root> element is the root filesystem device, but from the point of
view of libguestfs (block devices may have completely different names
inside the VM itself).
<mountpoints>
Un*x-like guests typically have multiple filesystems which are mounted
at various mountpoints, and these are described in the <mountpoints>
element which looks like this:
<operatingsystems>
<operatingsystem>
...
<mountpoints>
<mountpoint dev="/dev/vg_f13x64/lv_root">/</mountpoint>
<mountpoint dev="/dev/sda1">/boot</mountpoint>
</mountpoints>
As with <root>, devices are from the point of view of libguestfs, and
may have completely different names inside the guest. Only mountable
filesystems appear in this list, not things like swap devices.
<filesystems>
<filesystems> is like <mountpoints> but covers all filesystems
belonging to the guest, including swap and empty partitions. (In the
rare case of a multi-boot guest, it covers filesystems belonging to
this OS or shared with this OS and other OSes).
You might see something like this:
<operatingsystems>
<operatingsystem>
...
<filesystems>
<filesystem dev="/dev/vg_f13x64/lv_root">
<type>ext4</type>
<label>Fedora-13-x86_64</label>
<uuid>e6a4db1e-15c2-477b-ac2a-699181c396aa</uuid>
</filesystem>
The optional elements within <filesystem> are the filesystem type, the
label, and the UUID.
<applications>
The related elements <package_format>, <package_management> and
<applications> describe applications installed in the virtual machine.
<package_format>, if present, describes the packaging system used.
Typical values would be "rpm" and "deb".
<package_management>, if present, describes the package manager.
Typical values include "yum", "up2date" and "apt"
<applications> lists the packages or applications installed.
<operatingsystems>
<operatingsystem>
...
<applications>
<application>
<name>coreutils</name>
<version>8.5</version>
<release>1</release>
</application>
The version and release fields may not be available for some types
guests. Other fields are possible, see
"guestfs_inspect_list_applications" in guestfs(3).
<drive_mappings>
For operating systems like Windows which use drive letters, virt-
inspector is able to find out how drive letters map to filesystems.
<operatingsystems>
<operatingsystem>
...
<drive_mappings>
<drive_mapping name="C">/dev/sda2</drive_mapping>
<drive_mapping name="E">/dev/sdb1</drive_mapping>
</drive_mappings>
In the example above, drive C maps to the filesystem on the second
partition on the first disk, and drive E maps to the filesystem on the
first partition on the second disk.
Note that this only covers permanent local filesystem mappings, not
things like network shares. Furthermore NTFS volume mount points may
not be listed here.
<icon>
Virt-inspector is sometimes able to extract an icon or logo for the
guest. The icon is returned as base64-encoded PNG data. Note that the
icon can be very large and high quality.
<operatingsystems>
<operatingsystem>
...
<icon>
iVBORw0KGgoAAAANSUhEUgAAAGAAAABg[.......]
[... many lines of base64 data ...]
</icon>
To display the icon, you have to extract it and convert the base64 data
back to a binary file. Use an XPath query or simply an editor to
extract the data, then use the coreutils base64(1) program to do the
conversion back to a PNG file:
base64 -i -d < icon.data > icon.png
INSPECTING INSTALL DISKS, LIVE CDs
Virt-inspector can detect some operating system installers on install
disks, live CDs, bootable USB keys and more.
In this case the <format> tag will contain "installer" and other fields
may be present to indicate a live CD, network installer, or one part of
a multipart CD. For example:
<operatingsystems>
<operatingsystem>
<root>/dev/sda</root>
<name>linux</name>
<arch>i386</arch>
<distro>ubuntu</distro>
<product_name>Ubuntu 10.10 "Maverick Meerkat"</product_name>
<major_version>10</major_version>
<minor_version>10</minor_version>
<format>installer</format>
<live/>
XPATH QUERIES
Virt-inspector includes built in support for running XPath queries.
The reason for including XPath support directly in virt-inspector is
simply that there are no good and widely available command line
programs that can do XPath queries. The only good one is xmlstarlet(1)
and that is not available on Red Hat Enterprise Linux.
To perform an XPath query, use the --xpath option. Note that in this
mode, virt-inspector simply reads XML from stdin and outputs the query
result on stdout. All other inspection features are disabled in this
mode.
For example:
$ virt-inspector-d Guest | virt-inspector--xpath '//filesystems'
<filesystems>
<filesystem dev="/dev/vg_f13x64/lv_root">
<type>ext4</type>
[...]
$ virt-inspector-d Guest | \
virt-inspector--xpath "string(//filesystem[@dev='/dev/sda1']/type)"
ext4
$ virt-inspector-d Guest | \
virt-inspector--xpath 'string(//icon)' | base64 -i -d | display -
[displays the guest icon, if there is one]
SHELL QUOTING
Libvirt guest names can contain arbitrary characters, some of which
have meaning to the shell such as "#" and space. You may need to quote
or escape these characters on the command line. See the shell manual
page sh(1) for details.
GETTING INSPECTION DATA FROM THE LIBGUESTFS API
In early versions of libguestfs, virt-inspector was a large Perl script
that contained many heuristics for inspecting guests. This had several
problems: in order to do inspection from other tools (like guestfish)
we had to call out to this Perl script; and it privileged Perl over
other languages that libguestfs supports.
By libguestfs 1.8 we had rewritten the Perl code in C, and incorporated
it all into the core libguestfs API (guestfs(3)). Now virt-inspector
is simply a thin C program over the core C API. All of the inspection
information is available from all programming languages that libguestfs
supports, and from guestfish.
For a description of the C inspection API, read "INSPECTION" in
guestfs(3).
For example code using the C inspection API, look for "inspect-vm.c"
which ships with libguestfs.
"inspect-vm.c" has also been translated into other languages. For
example, "inspect_vm.pl" is the Perl translation, and there are other
translations for OCaml, Python, etc. See "USING LIBGUESTFS WITH OTHER
PROGRAMMING LANGUAGES" in guestfs(3) for a list of man pages which
contain this example code.
GETTING INSPECTION DATA FROM GUESTFISH
If you use the guestfish -i option, then the main C inspection API
"guestfs_inspect_os" in guestfs(3) is called. This is equivalent to
the guestfish command "inspect-os". You can also call this guestfish
command by hand.
"inspect-os" performs inspection on the current disk image, returning
the list of operating systems found. Each OS is represented by its
root filesystem device. In the majority of cases, this command prints
nothing (no OSes found), or a single root device, but beware that it
can print multiple lines if there are multiple OSes or if there is an
install CD attached to the guest.
$ guestfish --ro -a F15x32.img
><fs> run
><fs> inspect-os
/dev/vg_f15x32/lv_root
Using the root device, you can fetch further information about the
guest:
><fs> inspect-get-type /dev/vg_f15x32/lv_root
linux
><fs> inspect-get-distro /dev/vg_f15x32/lv_root
fedora
><fs> inspect-get-major-version /dev/vg_f15x32/lv_root
15
><fs> inspect-get-product-name /dev/vg_f15x32/lv_root
Fedora release 15 (Lovelock)
Limitations of guestfish make it hard to assign the root device to a
variable (since guestfish doesn't have variables), so if you want to do
this reproducibly you are better off writing a script using one of the
other languages that the libguestfs API supports.
To list applications, you have to first mount up the disks:
><fs> inspect-get-mountpoints /dev/vg_f15x32/lv_root
/: /dev/vg_f15x32/lv_root
/boot: /dev/vda1
><fs> mount-ro /dev/vg_f15x32/lv_root /
><fs> mount-ro /dev/vda1 /boot
and then call the inspect-list-applications API:
><fs> inspect-list-applications /dev/vg_f15x32/lv_root | head -28
[0] = {
app_name: ConsoleKit
app_display_name:
app_epoch: 0
app_version: 0.4.5
app_release: 1.fc15
app_install_path:
app_trans_path:
app_publisher:
app_url:
app_source_package:
app_summary:
app_description:
}
[1] = {
app_name: ConsoleKit-libs
app_display_name:
app_epoch: 0
app_version: 0.4.5
app_release: 1.fc15
app_install_path:
app_trans_path:
app_publisher:
app_url:
app_source_package:
app_summary:
app_description:
}
To display an icon for the guest, note that filesystems must also be
mounted as above. You can then do:
><fs> inspect-get-icon /dev/vg_f15x32/lv_root | display -
OLD VERSIONS OF VIRT-INSPECTOR
As described above, early versions of libguestfs shipped with a
different virt-inspector program written in Perl (the current version
is written in C). The XML output of the Perl virt-inspector was
different and it could also output in other formats like text.
The old virt-inspector is no longer supported or shipped with
libguestfs.
To confuse matters further, in Red Hat Enterprise Linux 6 we ship two
versions of virt-inspector with different names:
virt-inspector Old Perl version.
virt-inspector2 New C version.
EXIT STATUS
This program returns 0 if successful, or non-zero if there was an
error.
SEE ALSOguestfs(3), guestfish(1), http://www.w3.org/TR/xpath/, base64(1),
xmlstarlet(1), http://libguestfs.org/.
AUTHORS
· Richard W.M. Jones http://people.redhat.com/~rjones/
· Matthew Booth mbooth@redhat.com
COPYRIGHT
Copyright (C) 2010-2012 Red Hat Inc.
LICENSE
This program is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 2 of the License, or (at your
option) any later version.
This program is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
BUGS
To get a list of bugs against libguestfs, use this link:
https://bugzilla.redhat.com/buglist.cgi?component=libguestfs&product=Virtualization+Tools
To report a new bug against libguestfs, use this link:
https://bugzilla.redhat.com/enter_bug.cgi?component=libguestfs&product=Virtualization+Tools
When reporting a bug, please supply:
· The version of libguestfs.
· Where you got libguestfs (eg. which Linux distro, compiled from
source, etc)
· Describe the bug accurately and give a way to reproduce it.
· Run libguestfs-test-tool(1) and paste the complete, unedited output
into the bug report.
libguestfs-1.22.6 2013-08-24 virt-inspector(1)