1VIRT-WHAT(1) Virtualization Support VIRT-WHAT(1)
2
3
4
6 virt-what - detect if we are running in a virtual machine
7
9 virt-what [options]
10
12 "virt-what" is a shell script which can be used to detect if the
13 program is running in a virtual machine.
14
15 The program prints out a list of "facts" about the virtual machine,
16 derived from heuristics. One fact is printed per line.
17
18 If nothing is printed and the script exits with code 0 (no error), then
19 it can mean either that the program is running on bare-metal or the
20 program is running inside a type of virtual machine which we don't know
21 about or cannot detect.
22
24 alibaba_cloud
25 alibaba_cloud-ebm
26 This is a cloud computing service based on Alibaba Cloud.
27
28 Status: contributed by Weisson.
29
30 aws Amazon Web Services.
31
32 Note that virt-what will print this fact for baremetal AWS
33 instances, which you might not consider to be true virtualization.
34 In this case other facts (eg. "kvm" or "xen") would not be present.
35
36 Status: contributed by Qi Guo, Vitaly Kuznetsov, confirmed by RWMJ.
37
38 bhyve
39 This is a bhyve (FreeBSD hypervisor) guest.
40
41 Status: contributed by Leonardo Brondani Schenkel.
42
43 docker
44 This is a Docker container.
45
46 Status: confirmed by Charles Nguyen
47
48 google_cloud
49 This is running on Google Cloud Platform / Google Compute Engine.
50
51 Status: confirmed by RWMJ
52
53 hyperv
54 This is Microsoft Hyper-V hypervisor.
55
56 Status: confirmed by RWMJ
57
58 ibm_power-kvm
59 This is an IBM POWER KVM guest.
60
61 Status: contributed by Adrian Likins.
62
63 ibm_power-lpar_shared
64 ibm_power-lpar_dedicated
65 This is an IBM POWER LPAR (hardware partition) in either shared or
66 dedicated mode.
67
68 Status: contributed by Adrian Likins.
69
70 ibm_systemz
71 This is an IBM SystemZ (or other S/390) hardware partitioning
72 system. Additional facts listed below may also be printed.
73
74 ibm_systemz-direct
75 This is Linux running directly on a IBM SystemZ hardware
76 partitioning system.
77
78 This is expected to be a highly unusual configuration - if you see
79 this result you should treat it with suspicion.
80
81 Status: not confirmed
82
83 ibm_systemz-lpar
84 This is Linux running directly on an LPAR on an IBM SystemZ
85 hardware partitioning system.
86
87 Status: confirmed by Thomas Huth
88
89 ibm_systemz-zvm
90 This is a z/VM guest running in an LPAR on an IBM SystemZ hardware
91 partitioning system.
92
93 Status: confirmed by RWMJ using a Fedora guest running in z/VM
94
95 ibm_systemz-kvm
96 This is a KVM guest running on an IBM System Z hardware system.
97
98 Status: contributed by Thomas Huth
99
100 illumos-lx
101 The guest is running on Illumos with a Linux syscall emulation
102 layer.
103
104 Status: contributed by Steve Mokris
105
106 ldoms
107 The guest appears to be running on an Linux SPARC system with
108 Oracle VM Server for SPARC (Logical Domains) support.
109
110 Status: contributed by Darren Kenny
111
112 ldoms-control
113 The is the Oracle VM Server for SPARC (Logical Domains) control
114 domain.
115
116 Status: contributed by Darren Kenny
117
118 ldoms-guest
119 The is the Oracle VM Server for SPARC (Logical Domains) guest
120 domain.
121
122 Status: contributed by Darren Kenny
123
124 ldoms-io
125 The is the Oracle VM Server for SPARC (Logical Domains) I/O domain.
126
127 Status: contributed by Darren Kenny
128
129 ldoms-root
130 The is the Oracle VM Server for SPARC (Logical Domains) Root
131 domain.
132
133 Status: contributed by Darren Kenny
134
135 linux_vserver
136 This is printed for backwards compatibility with older virt-what
137 which could not distinguish between a Linux VServer container guest
138 and host.
139
140 linux_vserver-guest
141 This process is running in a Linux VServer container.
142
143 Status: contributed by BarXX Metin
144
145 linux_vserver-host
146 This process is running as the Linux VServer host (VxID 0).
147
148 Status: contributed by BarXX Metin and Elan Ruusamaee
149
150 lxc This process is running in a Linux LXC container.
151
152 Status: contributed by Marc Fournier
153
154 kvm This guest is running on the KVM hypervisor using hardware
155 acceleration.
156
157 Note that if the hypervisor is using software acceleration you
158 should not see this, but should see the "qemu" fact instead.
159
160 Status: confirmed by RWMJ.
161
162 lkvm
163 This guest is running on the KVM hypervisor using hardware
164 acceleration, and the userspace component of the hypervisor is lkvm
165 (a.k.a kvmtool).
166
167 Status: contributed by Andrew Jones
168
169 nutanix_ahv
170 The guest is running inside Nutanix Acropolis Hypervisor (AHV).
171
172 Status: confirmed by RWMJ.
173
174 openvz
175 The guest appears to be running inside an OpenVZ or Virtuozzo
176 container.
177
178 Status: contributed by Evgeniy Sokolov
179
180 ovirt
181 The guest is running on an oVirt node. (See also "rhev" below).
182
183 Status: contributed by RWMJ, not confirmed
184
185 parallels
186 The guest is running inside Parallels Virtual Platform (Parallels
187 Desktop, Parallels Server).
188
189 Status: contributed by Justin Clift
190
191 podman
192 This is a Podman container.
193
194 Status: contributed by Jordan Webb
195
196 powervm_lx86
197 The guest is running inside IBM PowerVM Lx86 Linux/x86 emulator.
198
199 Status: data originally supplied by Jeffrey Scheel, confirmed by
200 Yufang Zhang and RWMJ
201
202 qemu
203 This is QEMU hypervisor using software emulation.
204
205 Note that for KVM (hardware accelerated) guests you should not see
206 this.
207
208 Status: confirmed by RWMJ.
209
210 rhev
211 The guest is running on a Red Hat Enterprise Virtualization (RHEV)
212 node.
213
214 Status: confirmed by RWMJ
215
216 redhat
217 The guest is running on the Red Hat hypervisor.
218
219 Status: confirmed by RWMJ
220
221 uml This is a User-Mode Linux (UML) guest.
222
223 Status: contributed by Laurent Leonard
224
225 virt
226 Some sort of virtualization appears to be present, but we are not
227 sure what it is. In some very rare corner cases where we know that
228 virtualization is hard to detect, we will try a timing attack to
229 see if certain machine instructions are running much more slowly
230 than they should be, which would indicate virtualization. In this
231 case, the generic fact "virt" is printed.
232
233 virtage
234 This is Hitachi Virtualization Manager (HVM) Virtage hardware
235 partitioning system.
236
237 Status: data supplied by Bhavna Sarathy, not confirmed
238
239 virtualbox
240 This is a VirtualBox guest.
241
242 Status: contributed by Laurent Leonard
243
244 virtualpc
245 The guest appears to be running on Microsoft VirtualPC.
246
247 Status: not confirmed
248
249 vmm This is a vmm (OpenBSD hypervisor) guest.
250
251 Status: contributed by Jasper Lievisse Adriaanse.
252
253 vmware
254 The guest appears to be running on VMware hypervisor.
255
256 Status: confirmed by RWMJ
257
258 xen The guest appears to be running on Xen hypervisor.
259
260 Status: confirmed by RWMJ
261
262 xen-dom0
263 This is the Xen dom0 (privileged domain).
264
265 Status: confirmed by RWMJ
266
267 xen-domU
268 This is a Xen domU (paravirtualized guest domain).
269
270 Status: confirmed by RWMJ
271
272 xen-hvm
273 This is a Xen guest fully virtualized (HVM).
274
275 Status: confirmed by RWMJ
276
278 Programs that use or wrap "virt-what" should check that the exit status
279 is 0 before they attempt to parse the output of the command.
280
281 A non-zero exit status indicates some error, for example, an
282 unrecognized command line argument. If the exit status is non-zero
283 then the output "facts" (if any were printed) cannot be guaranteed and
284 should be ignored.
285
286 The exit status does not have anything to do with whether the program
287 is running on baremetal or under virtualization, nor with whether
288 "virt-what" managed detection "correctly" (which is basically
289 unknowable given the large variety of virtualization systems out there
290 and that some systems deliberately emulate others).
291
293 "virt-what" is designed so that you can easily run it from other
294 programs or wrap it up in a library.
295
296 Your program should check the exit status (see the section above).
297
298 Some programming languages (notably Python: issue 1652) erroneously
299 mask the "SIGPIPE" signal and do not restore it when executing
300 subprocesses. "virt-what" is a shell script and some shell commands do
301 not work correctly when you do this. You may see warnings from
302 "virt-what" similar to this:
303
304 echo: write error: Broken pipe
305
306 The solution is to set the "SIGPIPE" signal handler back to "SIG_DFL"
307 before running "virt-what".
308
310 Most of the time, using this program is the wrong thing to do. Instead
311 you should detect the specific features you actually want to use. (As
312 an example, if you wanted to issue Xen hypervisor commands you would
313 look for the "/proc/xen/privcmd" file).
314
315 However people keep asking for this, so we provide it. There are a few
316 legitimate uses:
317
318 Bug reporting tool
319 If you think that virtualization could affect how your program
320 runs, then you might use "virt-what" to report this in a bug
321 reporting tool.
322
323 Status display and monitoring tools
324 You might include this information in status and monitoring
325 programs.
326
327 System tuning (sometimes)
328 You might use this program to tune an operating system so it runs
329 better as a virtual machine of a particular hypervisor. However if
330 installing paravirtualized drivers, it's better to check for the
331 specific features your drivers need (eg. for the presence of PCI
332 devices).
333
335 <http://people.redhat.com/~rjones/virt-what/>,
336 <http://www.vmware.com/>,
337 <http://www.microsoft.com/windows/products/winfamily/virtualpc>,
338 <http://xensource.com/>, <http://bellard.org/qemu/>,
339 <http://kvm.qumranet.com/>, <http://openvz.org/>
340
342 Richard W.M. Jones <rjones @ redhat . com>
343
345 (C) Copyright 2008-2022 Red Hat Inc.,
346 <http://people.redhat.com/~rjones/virt-what/>
347
348 This program is free software; you can redistribute it and/or modify it
349 under the terms of the GNU General Public License as published by the
350 Free Software Foundation; either version 2 of the License, or (at your
351 option) any later version.
352
353 This program is distributed in the hope that it will be useful, but
354 WITHOUT ANY WARRANTY; without even the implied warranty of
355 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
356 General Public License for more details.
357
358 You should have received a copy of the GNU General Public License along
359 with this program; if not, write to the Free Software Foundation, Inc.,
360 675 Mass Ave, Cambridge, MA 02139, USA.
361
363 Bugs can be viewed on the Red Hat Bugzilla page:
364 <https://bugzilla.redhat.com/>.
365
366 If you find a bug in virt-what, please follow these steps to report it:
367
368 1. Check for existing bug reports
369 Go to <https://bugzilla.redhat.com/> and search for similar bugs.
370 Someone may already have reported the same bug, and they may even
371 have fixed it.
372
373 2. Capture debug and error messages
374 Run
375
376 virt-what > virt-what.log 2>&1
377
378 and keep virt-what.log. It may contain error messages which you
379 should submit with your bug report.
380
381 3. Get version of virt-what.
382 Run
383
384 virt-what --version
385
386 4. Submit a bug report.
387 Go to <https://bugzilla.redhat.com/> and enter a new bug. Please
388 describe the problem in as much detail as possible.
389
390 Remember to include the version numbers (step 3) and the debug
391 messages file (step 2) and as much other detail as possible.
392
393 5. Assign the bug to rjones @ redhat.com
394 Assign or reassign the bug to rjones @ redhat.com (without the
395 spaces). You can also send me an email with the bug number if you
396 want a faster response.
397
398
399
400virt-what-1.25 2022-08-17 VIRT-WHAT(1)