xref: /freebsd/usr.sbin/bhyve/bhyve.8 (revision a90b9d0159070121c221b966469c3e36d912bf82)
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25.Dd April 26, 2024
26.Dt BHYVE 8
27.Os
28.Sh NAME
29.Nm bhyve
30.Nd "run a guest operating system inside a virtual machine"
31.Sh SYNOPSIS
32.Nm
33.Op Fl aCDeHhPSuWwxY
34.Oo
35.Sm off
36.Fl c\~
37.Oo
38.Op Cm cpus=
39.Ar numcpus
40.Oc
41.Op Cm ,sockets= Ar n
42.Op Cm ,cores= Ar n
43.Op Cm ,threads= Ar n
44.Oc
45.Sm on
46.Oo Fl f
47.Sm off
48.Ar name Cm \&,
49.Oo
50.Cm string No | Cm file
51.Oc
52.Cm \&= Ar data
53.Sm on
54.Oc
55.Oo
56.Sm off
57.Fl G\~
58.Oo Ar w Oc
59.Oo Ar bind_address Cm \&: Oc
60.Ar port
61.Sm on
62.Oc
63.Op Fl k Ar config_file
64.Op Fl K Ar layout
65.Oo Fl l
66.Sm off
67.Ar lpcdev Op Cm \&, Ar conf
68.Sm on
69.Oc
70.Sm off
71.Oo Fl m\~
72.Ar memsize
73.Oo
74.Cm K | Cm k | Cm M | Cm m | Cm G | Cm g | Cm T | Cm t
75.Oc
76.Sm on
77.Oc
78.Op Fl o Ar var Ns Cm = Ns Ar value
79.Op Fl p Ar vcpu Ns Cm \&: Ns Ar hostcpu
80.Op Fl r Ar file
81.Sm off
82.Oo Fl s\~
83.Ar slot Cm \&, Ar emulation Op Cm \&, Ar conf
84.Sm on
85.Oc
86.Op Fl U Ar uuid
87.Ar vmname
88.Nm
89.Fl l Cm help
90.Nm
91.Fl s Cm help
92.Sh DESCRIPTION
93.Nm
94is a hypervisor that runs guest operating systems inside a
95virtual machine.
96It can run guests on amd64 and arm64 platforms with suitable hardware support.
97.Pp
98Parameters such as the number of virtual CPUs, amount of guest memory, and
99I/O connectivity can be specified with command-line parameters.
100.Pp
101.Nm
102is typically used with a boot ROM that can load the guest operating system.
103On arm64 platforms, this is currently required.
104If not using a boot ROM, the guest operating system must be loaded with
105.Xr bhyveload 8
106or a similar boot loader before running
107.Nm ,
108otherwise.
109On amd64, the
110.Pa edk2-bhyve
111package provides a UEFI firmware that can be used to boot the guest;
112on arm64 the
113.Pa u-boot-bhyve-arm64
114package provides a U-Boot image that can be used to boot the guest.
115.Pp
116.Nm
117runs until the guest operating system reboots or an unhandled hypervisor
118exit is detected.
119.Sh OPTIONS
120.Bl -tag -width 10n
121.It Fl a
122The guest's local APIC is configured in xAPIC mode.
123This option only applies to the amd64 platform.
124xAPIC mode is the default setting so this option is redundant.
125It will be deprecated in a future version.
126.It Fl C
127Include guest memory in core files.
128.It Fl c Op Ar setting ...
129Number of guest virtual CPUs
130and/or the CPU topology.
131The default value for each of
132.Ar numcpus ,
133.Ar sockets ,
134.Ar cores ,
135and
136.Ar threads
137is 1.
138If
139.Ar numcpus
140is not specified then it will be calculated from the other arguments.
141The topology must be consistent in that the
142.Ar numcpus
143must equal the product of
144.Ar sockets ,
145.Ar cores ,
146and
147.Ar threads .
148If a
149.Ar setting
150is specified more than once the last one has precedence.
151.Pp
152The maximum number of virtual CPUs defaults to the number of active
153physical CPUs in the system available via the
154.Va hw.vmm.maxcpu
155.Xr sysctl 8
156variable.
157The limit can be adjusted via the
158.Va hw.vmm.maxcpu
159loader tunable.
160.It Fl D
161Destroy the VM on guest initiated power-off.
162.It Fl e
163Force
164.Nm
165to exit when a guest issues an access to an I/O port that is not emulated.
166This is intended for debug purposes and only applies to the amd64 platform.
167.It Fl f Ar name Ns Cm \&, Ns Oo Cm string Ns No | Ns Cm file Ns Oc Ns Cm \&= Ns Ar data
168Add a fw_cfg file
169.Ar name
170to the fw_cfg interface.
171If a
172.Cm string
173is specified, the fw_cfg file contains the string as data.
174If a
175.Cm file
176is specified, bhyve reads the file and adds the file content as fw_cfg data.
177.It Fl G Xo
178.Sm off
179.Oo Ar w Oc
180.Oo Ar bind_address Cm \&: Oc
181.Ar port
182.Sm on
183.Xc
184Start a debug server that uses the GDB protocol to export guest state to a
185debugger.
186An IPv4 TCP socket will be bound to the supplied
187.Ar bind_address
188and
189.Ar port
190to listen for debugger connections.
191Only a single debugger may be attached to the debug server at a time.
192If the option begins with
193.Sq w ,
194.Nm
195will pause execution at the first instruction waiting for a debugger to attach.
196.It Fl H
197Yield the virtual CPU thread when a HLT instruction is detected.
198If this option is not specified, virtual CPUs will use 100% of a host CPU.
199This option applies only to the amd64 platform.
200.It Fl h
201Print help message and exit.
202.It Fl k Ar config_file
203Set configuration variables from a simple, key-value config file.
204Each line of the config file is expected to consist of a config variable
205name, an equals sign
206.Pq Sq = ,
207and a value.
208No spaces are permitted between the variable name, equals sign, or
209value.
210Blank lines and lines starting with
211.Sq #
212are ignored.
213See
214.Xr bhyve_config 5
215for more details.
216.It Fl K Ar layout
217Specify the keyboard layout.
218The value that can be specified sets the file name in
219.Ar /usr/share/bhyve/kbdlayout .
220This specification only works when loaded with UEFI mode for VNC.
221When using a VNC client that supports QEMU Extended Key Event Message (e.g.
222TigerVNC), this option isn't needed.
223When using a VNC client that doesn't support QEMU Extended Key Event Message
224(e.g. tightVNC), the layout defaults to the US keyboard unless specified
225otherwise.
226.It Fl l Cm help
227Print a list of supported LPC devices.
228.It Fl l Ar lpcdev Ns Op Cm \&, Ns Ar conf
229Allow devices behind the LPC PCI-ISA bridge to be configured.
230The only supported devices are the TTY-class devices
231.Cm com1 , com2 , com3 ,
232and
233.Cm com4 ,
234the TPM module
235.Cm tpm ,
236the boot ROM device
237.Cm bootrom ,
238the
239.Cm fwcfg
240type and the debug/test device
241.Cm pc-testdev .
242.Pp
243The possible values for the
244.Ar conf
245argument are listed in the
246.Fl s
247flag description.
248.Pp
249This option applies only to the amd64 platform.
250On arm64, the console and boot ROM devices are configured using the
251more generic
252.Fl o
253option.
254.It Xo
255.Fl m Ar memsize Ns Oo
256.Sm off
257.Cm K | k | M | m | G | g | T | t
258.Sm on
259.Oc
260.Xc
261Set the guest physical memory size.
262This must be the same size that was given to
263.Xr bhyveload 8 .
264.Pp
265The size argument may be suffixed with one of
266.Cm K , M , G
267or
268.Cm T
269(either upper or lower case)
270to indicate a multiple of kilobytes, megabytes, gigabytes, or terabytes.
271If no suffix is given, the value is assumed to be in megabytes.
272.Pp
273The default is 256M.
274.It Fl o Ar var Ns Cm = Ns Ar value
275Set the configuration variable
276.Ar var
277to
278.Ar value .
279See
280.Xr bhyve_config 5
281for configuration options.
282.It Fl P
283Force the guest virtual CPU to exit when a PAUSE instruction is detected.
284This option applies only to the amd64 platform.
285.It Fl p Ar vcpu Ns Cm \& : Ns Ar hostcpu
286Pin guest's virtual CPU
287.Em vcpu
288to
289.Em hostcpu .
290Host CPUs and guest virtual CPUs are numbered starting from 0.
291A
292.Fl p
293option is required for every guest vCPU to be pinned.
294To map a 4 vCPU guest to host CPUs 12-15:
295.Bd -literal
296-p 0:12 -p 1:13 -p 2:14 -p 3:15
297.Ed
298.It Fl r Ar file
299Resume a guest from a snapshot.
300The guest memory contents are restored from
301.Ar file ,
302and the guest device and vCPU state are restored from the file
303.Dq Ar file Ns .kern .
304.Pp
305Note that the current snapshot file format requires that the
306configuration of devices in the new VM match the VM from which the
307snapshot was taken by specifying the same
308.Fl s
309and
310.Fl l
311options.
312The count of vCPUs and memory configuration are read from the snapshot.
313.It Fl S
314Wire guest memory.
315.It Fl s Cm help
316Print a list of supported PCI devices.
317.It Fl s Ar slot Ns Cm \&, Ns Ar emulation Ns Op Cm \&, Ns Ar conf
318Configure a virtual PCI slot and function.
319.Pp
320.Nm
321provides PCI bus emulation and virtual devices that can be attached to
322slots on the bus.
323There are 32 available slots, with the option of providing up to 8 functions
324per slot.
325.Pp
326The
327.Ar slot
328can be specified in one of the following formats:
329.Pp
330.Bl -bullet -compact
331.It
332.Ar pcislot
333.It
334.Sm off
335.Ar pcislot Cm \&: Ar function
336.Sm on
337.It
338.Sm off
339.Ar bus Cm \&: Ar pcislot Cm \&: Ar function
340.Sm on
341.El
342.Pp
343The
344.Ar pcislot
345value is 0 to 31.
346The optional
347.Ar function
348value is 0 to 7.
349The optional
350.Ar bus
351value is 0 to 255.
352If not specified, the
353.Ar function
354value defaults to 0.
355If not specified, the
356.Ar bus
357value defaults to 0.
358.Pp
359See
360.Sx "PCI EMULATION"
361for available options for the
362.Ar emulation
363argument.
364.It Fl U Ar uuid
365Set the universally unique identifier
366.Pq UUID
367in the guest's System Management BIOS System Information structure.
368By default a UUID is generated from the host's hostname and
369.Ar vmname .
370.It Fl u
371RTC keeps UTC time.
372.It Fl W
373Force virtio PCI device emulations to use MSI interrupts instead of MSI-X
374interrupts.
375.It Fl w
376Ignore accesses to unimplemented Model Specific Registers (MSRs).
377This is intended for debug purposes.
378.It Fl x
379The guest's local APIC is configured in x2APIC mode.
380This option applies only to the amd64 platform.
381.It Fl Y
382Disable MPtable generation.
383This option applies only to the amd64 platform.
384.It Ar vmname
385Alphanumeric name of the guest.
386This should be the same as that created by
387.Xr bhyveload 8 .
388.El
389.Sh PCI EMULATION
390.Nm
391provides emulation for various PCI devices.
392They are specified by the
393.Fl s
394.Ar slot,emulation,conf
395configuration's
396.Ar emulation
397argument, which can be one of the following:
398.Bl -tag -width "amd_hostbridge"
399.It Cm hostbridge
400A simple host bridge.
401This is usually configured at slot 0, and is required by most guest
402operating systems.
403.It Cm amd_hostbridge
404Emulation identical to
405.Cm hostbridge
406using a PCI vendor ID of AMD.
407.It Cm passthru
408PCI pass-through device.
409.It Cm virtio-net
410Virtio network interface.
411.It Cm virtio-blk
412Virtio block storage interface.
413.It Cm virtio-scsi
414Virtio SCSI interface.
415.It Cm virtio-9p
416Virtio 9p (VirtFS) interface.
417.It Cm virtio-rnd
418Virtio RNG interface.
419.It Cm virtio-console
420Virtio console interface, which exposes multiple ports
421to the guest in the form of simple char devices for simple IO
422between the guest and host userspaces.
423.It Cm virtio-input
424Virtio input interface.
425.It Cm ahci
426AHCI controller attached to arbitrary devices.
427.It Cm ahci-cd
428AHCI controller attached to an ATAPI CD/DVD.
429.It Cm ahci-hd
430AHCI controller attached to a SATA hard drive.
431.It Cm e1000
432Intel e82545 network interface.
433.It Cm uart
434PCI 16550 serial device.
435.It Cm lpc
436LPC PCI-ISA bridge with COM1, COM2, COM3, and COM4 16550 serial ports,
437a boot ROM, and,
438optionally, a fwcfg type, and the debug/test device.
439The LPC bridge emulation can only be configured on bus 0.
440.It Cm fbuf
441Raw framebuffer device attached to VNC server.
442.It Cm xhci
443eXtensible Host Controller Interface (xHCI) USB controller.
444.It Cm nvme
445NVM Express (NVMe) controller.
446.It Cm hda
447High Definition Audio Controller.
448.El
449.Pp
450The optional parameter
451.Ar conf
452describes the backend for device emulations.
453If
454.Ar conf
455is not specified, the device emulation has no backend and can be
456considered unconnected.
457.Ss Network device backends
458.Sm off
459.Bl -bullet
460.It
461.Xo
462.Cm tap Ar N
463.Op Cm \&,mac= Ar xx:xx:xx:xx:xx:xx
464.Op Cm \&,mtu= Ar N
465.Xc
466.It
467.Xo
468.Cm vmnet Ar N
469.Op Cm \&,mac= Ar xx:xx:xx:xx:xx:xx
470.Op Cm \&,mtu= Ar N
471.Xc
472.It
473.Xo
474.Cm netgraph,path= Ar ADDRESS Cm \&,peerhook= Ar HOOK
475.Op Cm \&,socket= Ar NAME
476.Op Cm \&,hook= Ar HOOK
477.Op Cm \&,mac= Ar xx:xx:xx:xx:xx:xx
478.Op Cm \&,mtu= Ar N
479.Xc
480.It
481.Xo
482.Cm slirp,hostfwd= Ar proto : Ar hostaddr : Ar hostport - Ar guestaddr : Ar guestport
483.Xc
484.El
485.Sm on
486.Pp
487If
488.Cm mac
489is not specified, the MAC address is derived from a fixed OUI, and the
490remaining bytes from an MD5 hash of the slot and function numbers and
491the device name.
492.Pp
493The MAC address is an ASCII string in
494.Xr ethers 5
495format.
496.Pp
497With
498.Cm virtio-net
499devices, the
500.Cm mtu
501parameter can be specified to inform the guest about the largest MTU
502that should be allowed, expressed in bytes.
503.Pp
504With
505.Cm netgraph
506backend, the
507.Cm path
508and
509.Cm peerhook
510parameters must be specified to set the destination node and corresponding hook.
511The optional parameters
512.Cm socket
513and
514.Cm hook
515may be used to set the
516.Xr ng_socket 4
517node name and source hook.
518The
519.Ar ADDRESS ,
520.Ar HOOK ,
521and
522.Ar NAME
523must comply with
524.Xr netgraph 4
525addressing rules.
526.Pp
527The slirp backend can be used to provide a NATed network to the guest.
528This backend has poor performance but does not require any network
529configuration on the host system.
530It depends on the
531.Pa net/libslirp
532port.
533The
534.Cm hostfwd
535option takes a 5-tuple describing how connections from the host are to be
536forwarded to the guest.
537Multiple rules can be specified, separated by semicolons.
538Note that semicolons must be escaped or quoted to prevent the shell from
539interpreting them.
540.Ss Block storage device backends:
541.Bl -bullet
542.Sm off
543.It
544.Ar /filename Op Cm \&, Ar block-device-options
545.It
546.Ar /dev/xxx Op Cm \&, Ar block-device-options
547.Sm on
548.El
549.Pp
550The
551.Ar block-device-options
552are:
553.Bl -tag -width 10n
554.It Cm nocache
555Open the file with
556.Dv O_DIRECT .
557.It Cm direct
558Open the file using
559.Dv O_SYNC .
560.It Cm ro
561Force the file to be opened read-only.
562.It Cm sectorsize= Ns Ar logical Ns Oo Cm \&/ Ns Ar physical Oc
563Specify the logical and physical sector sizes of the emulated disk.
564The physical sector size is optional and is equal to the logical sector size
565if not explicitly specified.
566.It Cm nodelete
567Disable emulation of guest trim requests via
568.Dv DIOCGDELETE
569requests.
570.It Li bootindex= Ns Ar index
571Add the device to the bootorder at
572.Ar index .
573A fwcfg file is used to specify the bootorder.
574The guest firmware may ignore or doesn't support this fwcfg file.
575In that case, this feature doesn't work as expected.
576.El
577.Ss SCSI device backends
578.Bl -bullet
579.Sm off
580.It
581.Pa /dev/cam/ctl Oo Ar pp Cm \&. Ar vp Oc Oo Cm \&, Ar scsi-device-options Oc
582.Sm on
583.El
584.Pp
585The
586.Ar scsi-device-options
587are:
588.Bl -tag -width 10n
589.It Cm iid= Ns Ar IID
590Initiator ID to use when sending requests to specified CTL port.
591The default value is 0.
592.It Li bootindex= Ns Ar index
593Add the device to the bootorder at
594.Ar index .
595A fwcfg file is used to specify the bootorder.
596The guest firmware may ignore or doesn't support this fwcfg file.
597In that case, this feature doesn't work as expected.
598.El
599.Ss 9P device backends
600.Bl -bullet
601.Sm off
602.It
603.Ar sharename Cm = Ar /path/to/share Op Cm \&, Ar 9p-device-options
604.Sm on
605.El
606.Pp
607The
608.Ar 9p-device-options
609are:
610.Bl -tag -width 10n
611.It Cm ro
612Expose the share in read-only mode.
613.El
614.Ss TTY device backends
615.Bl -tag -width 10n
616.It Cm stdio
617Connect the serial port to the standard input and output of
618the
619.Nm
620process.
621.It Ar /dev/xxx
622Use the host TTY device for serial port I/O.
623.El
624.Ss TPM device backends
625.Bl -bullet
626.Sm off
627.It
628.Ar type Ns \&, Ns Ar path Ns Op Cm \&, Ns Ar tpm-device-options
629.Sm on
630.El
631.Pp
632Emulate a TPM device. The argument
633.Ar path
634needs to point to a valid TPM device path, i.e.
635.Pa /dev/tpm0 .
636.El
637.Pp
638Supported options for
639.Ar type :
640.Bl -tag -width 10n
641.It Cm passthru
642pass a physical TPM device through to the guest
643.El
644.Pp
645The
646.Ar tpm-device-options
647are:
648.Bl -tag -width 10n
649.It Cm version= Ns Ar version
650Version of the TPM device according to the TCG specification.
651Defaults to
652.Cm 2.0
653.El
654.Ss Boot ROM device backends
655.Sm off
656.Bl -bullet
657.It
658.Ar romfile Ns Op Cm \&, Ns Ar varfile
659.El
660.Sm on
661.Pp
662Map
663.Ar romfile
664in the guest address space reserved for boot firmware.
665.Pp
666If
667.Ar varfile
668is provided, that file is also mapped in the boot firmware guest
669address space, and any modifications the guest makes will be saved
670to that file.
671.Pp
672Fwcfg types:
673.Bl -tag -width 10n
674.It Ar fwcfg
675The fwcfg interface is used to pass information such as the CPU count
676or ACPI tables to the guest firmware.
677Supported values are
678.Ql bhyve
679and
680.Ql qemu .
681Due to backward compatibility reasons,
682.Ql bhyve
683is the default option.
684When
685.Ql bhyve
686is used, bhyve's fwctl interface is used.
687It currently reports only the CPU count to the guest firmware.
688The
689.Ql qemu
690option uses QEMU's fwcfg interface.
691This interface is widely used and allows user-defined information to
692be passed to the guest.
693It is used for passing the CPU count, ACPI tables, a boot order and
694many other things to the guest.
695Some operating systems such as Fedora CoreOS can be configured by
696qemu's fwcfg interface as well.
697.El
698.Ss Pass-through device backends
699.Sm off
700.Bl -bullet
701.It
702.Cm ppt Ar N Oo , Ar passthru-device-options Oc
703.It
704.Ns Ar bus Cm \&/ Ar slot Cm \&/ Ar function
705.Op , Ar passthru-device-options
706.It
707.Cm pci Ar bus Cm : Ar slot Cm : Ns Ar function
708.Op , Ar passthru-device-options
709.El
710.Sm on
711.Pp
712Connect to a PCI device on the host either named ppt
713.Ns Ar N
714or at the selector described by
715.Ar slot ,
716.Ar bus ,
717and
718.Ar function
719numbers.
720.Pp
721The
722.Ar passthru-device-options
723are:
724.Bl -tag -width 10n
725.It Cm rom= Ns Ar romfile
726Add
727.Ar romfile
728as option ROM to the PCI device.
729The ROM will be loaded by firmware and should be capable of
730initializing the device.
731.It Li bootindex= Ns Ar index
732Add the device to the bootorder at
733.Ar index .
734A fwcfg file is used to specify the bootorder.
735The guest firmware may ignore or doesn't support this fwcfg file.
736In that case, this feature doesn't work as expected.
737.El
738.Pp
739Guest memory must be wired using the
740.Fl S
741option when a pass-through device is configured.
742.Pp
743The host device must have been reserved at boot-time using the
744.Va pptdevs
745loader variable as described in
746.Xr vmm 4 .
747.Ss Virtio console device backends
748.Bl -bullet
749.Sm off
750.It
751.Cm port1= Ns Ar /path/to/port1.sock Ns Op Cm ,port Ns Ar N Cm \&= Ns Ar /path/to/port2.sock No \~ Ar ...
752.Sm on
753.El
754.Pp
755A maximum of 16 ports per device can be created.
756Every port is named and corresponds to a Unix domain socket created by
757.Nm .
758.Nm
759accepts at most one connection per port at a time.
760.Pp
761Limitations:
762.Bl -bullet
763.It
764Due to the lack of destructors in
765.Nm ,
766sockets on the filesystem must be cleaned up manually after
767.Nm
768exits.
769.It
770There is no way to use the
771.Dq console port
772feature, nor the console port
773resize at present.
774.It
775Emergency write is advertised, but no-op at present.
776.El
777.Ss Virtio input device backends:
778.Bl -bullet
779.Sm off
780.It
781.Ar /dev/input/eventX
782.Sm on
783.El
784.Pp
785Send input events of
786.Ar /dev/input/eventX
787to guest by VirtIO Input Interface.
788.Ss Framebuffer device backends
789.Bl -bullet
790.Sm off
791.It
792.Op Cm rfb= Ar ip-and-port
793.Op Cm ,w= Ar width
794.Op Cm ,h= Ar height
795.Op Cm ,vga= Ar vgaconf
796.Op Cm ,wait
797.Op Cm ,password= Ar password
798.Sm on
799.El
800.Pp
801Configuration options are defined as follows:
802.Bl -tag -width 10n
803.It Cm rfb= Ns Ar ip-and-port Pq or Cm tcp= Ns Ar ip-and-port
804An IP address and a port VNC should listen on.
805There are two formats:
806.Pp
807.Bl -bullet -compact
808.It
809.Sm off
810.Op Ar IPv4 Cm \&:
811.Ar port
812.Sm on
813.It
814.Sm off
815.Cm \&[ Ar IPv6%zone Cm \&] Cm \&: Ar port
816.Sm on
817.El
818.Pp
819The default is to listen on localhost IPv4 address and default VNC port 5900.
820An IPv6 address must be enclosed in square brackets and may contain an
821optional zone identifier.
822.It Cm w= Ns Ar width No and Cm h= Ns Ar height
823A display resolution, width and height, respectively.
824If not specified, a default resolution of 1024x768 pixels will be used.
825Minimal supported resolution is 640x480 pixels,
826and maximum is 3840x2160 pixels.
827.It Cm vga= Ns Ar vgaconf
828Possible values for this option are
829.Cm io
830(default),
831.Cm on ,
832and
833.Cm off .
834PCI graphics cards have a dual personality in that they are
835standard PCI devices with BAR addressing, but may also
836implicitly decode legacy VGA I/O space
837.Pq Ad 0x3c0-3df
838and memory space
839.Pq 64KB at Ad 0xA0000 .
840The default
841.Cm io
842option should be used for guests that attempt to issue BIOS calls which result
843in I/O port queries, and fail to boot if I/O decode is disabled.
844.Pp
845The
846.Cm on
847option should be used along with the CSM BIOS capability in UEFI
848to boot traditional BIOS guests that require the legacy VGA I/O and
849memory regions to be available.
850.Pp
851The
852.Cm off
853option should be used for the UEFI guests that assume that
854VGA adapter is present if they detect the I/O ports.
855An example of such a guest is
856.Ox
857in UEFI mode.
858.Pp
859Please refer to the
860.Nm
861.Fx
862wiki page
863.Pq Lk https://wiki.freebsd.org/bhyve
864for configuration notes of particular guests.
865.It Cm wait
866Instruct
867.Nm
868to only boot upon the initiation of a VNC connection, simplifying the
869installation of operating systems that require immediate keyboard input.
870This can be removed for post-installation use.
871.It Cm password= Ns Ar password
872This type of authentication is known to be cryptographically weak and is not
873intended for use on untrusted networks.
874Many implementations will want to use stronger security, such as running
875the session over an encrypted channel provided by IPsec or SSH.
876.El
877.Ss xHCI USB device backends
878.Bl -bullet
879.Sm off
880.It
881.Ar tablet
882.Sm on
883.El
884.Pp
885A USB tablet device that provides precise cursor synchronization
886when using VNC.
887.Ss NVMe device backends
888.Bl -bullet
889.Sm off
890.It
891.Ar devpath
892.Op Cm ,maxq= Ar #
893.Op Cm ,qsz= Ar #
894.Op Cm ,ioslots= Ar #
895.Op Cm ,sectsz= Ar #
896.Op Cm ,ser= Ar #
897.Op Cm ,eui64= Ar #
898.Op Cm ,dsm= Ar opt
899.Sm on
900.El
901.Pp
902Configuration options are defined as follows:
903.Bl -tag -width 10n
904.It Ar devpath
905Accepted device paths are:
906.Ar /dev/blockdev
907or
908.Ar /path/to/image
909or
910.Cm ram= Ns Ar size_in_MiB .
911.It Cm maxq
912Max number of queues.
913.It Cm qsz
914Max elements in each queue.
915.It Cm ioslots
916Max number of concurrent I/O requests.
917.It Cm sectsz
918Sector size (defaults to blockif sector size).
919.It Cm ser
920Serial number with maximum 20 characters.
921.It Cm eui64
922IEEE Extended Unique Identifier (8 byte value).
923.It Cm dsm
924DataSet Management support.
925Supported values are:
926.Cm auto , enable ,
927and
928.Cm disable .
929.El
930.Ss AHCI device backends
931.Bl -bullet
932.It
933.Sm off
934.Op Oo Cm hd\&: | cd\&: Oc Ar path
935.Op Cm ,nmrr= Ar nmrr
936.Op Cm ,ser= Ar #
937.Op Cm ,rev= Ar #
938.Op Cm ,model= Ar #
939.Sm on
940.El
941.Pp
942Configuration options are defined as follows:
943.Bl -tag -width 10n
944.It Cm nmrr
945Nominal Media Rotation Rate, known as RPM.
946Value 1 will indicate device as Solid State Disk.
947Default value is 0, not report.
948.It Cm ser
949Serial Number with maximum 20 characters.
950.It Cm rev
951Revision Number with maximum 8 characters.
952.It Cm model
953Model Number with maximum 40 characters.
954.El
955.Ss HD Audio device backends
956.Bl -bullet
957.It
958.Sm off
959.Op Cm play= Ar playback
960.Op Cm ,rec= Ar recording
961.Sm on
962.El
963.Pp
964Configuration options are defined as follows:
965.Bl -tag -width 10n
966.It Cm play
967Playback device, typically
968.Ar /dev/dsp0 .
969.It Cm rec
970Recording device, typically
971.Ar /dev/dsp0 .
972.El
973.Sh CONFIGURATION VARIABLES
974.Nm
975uses an internal tree of configuration variables to describe global and
976per-device settings.
977When
978.Nm
979starts,
980it parses command line options (including config files) in the order given
981on the command line.
982Each command line option sets one or more configuration variables.
983For example,
984the
985.Fl s
986option creates a new tree node for a PCI device and sets one or more variables
987under that node including the device model and device model-specific variables.
988Variables may be set multiple times during this parsing stage with the final
989value overriding previous values.
990.Pp
991Once all of the command line options have been processed,
992the configuration values are frozen.
993.Nm
994then uses the value of configuration values to initialize device models
995and global settings.
996.Pp
997More details on configuration variables can be found in
998.Xr bhyve_config 5 .
999.Sh CONFIGURATION FILE CREATION
1000The
1001.Fl k
1002flag allows one to provide a path to a configuration file holding all
1003settings, which otherwise would need to be defined by providing a long
1004list of program arguments to
1005.Nm .
1006.Pp
1007There is a very simple way to translate a complex set of program
1008arguments to an equivalent configuration file in
1009.Xr bhyve_config 5
1010format.
1011.Pp
1012Use
1013.Fl o
1014.Ar config.dump=1
1015to make
1016.Nm
1017dump a configuration file representing the used flags and arguments to
1018stdout. You can pipe the output into a file to persist the generated settings.
1019.Pp
1020Make sure to remove the
1021.Ar config.dump
1022line from the resulting configuration file before using it to start
1023.Nm .
1024.Sh DEBUG SERVER
1025The current debug server provides limited support for debuggers.
1026.Ss Registers
1027Each virtual CPU is exposed to the debugger as a thread.
1028.Pp
1029General purpose registers can be queried for each virtual CPU, but other
1030registers such as floating-point and system registers cannot be queried.
1031.Ss Memory
1032Memory (including memory mapped I/O regions) can be read and written
1033by the debugger.
1034Memory operations use virtual addresses that are resolved to physical
1035addresses via the current virtual CPU's active address translation.
1036.Ss Control
1037The running guest can be interrupted by the debugger at any time
1038.Pq for example, by pressing Ctrl-C in the debugger .
1039.Pp
1040Single stepping is only supported on Intel CPUs supporting the MTRAP VM exit.
1041.Pp
1042Breakpoints are supported on Intel CPUs that support single stepping.
1043Note that continuing from a breakpoint while interrupts are enabled in the
1044guest may not work as expected due to timer interrupts firing while single
1045stepping over the breakpoint.
1046.Sh SIGNAL HANDLING
1047.Nm
1048deals with the following signals:
1049.Pp
1050.Bl -tag -width SIGTERM -compact
1051.It SIGTERM
1052Trigger ACPI poweroff for a VM
1053.El
1054.Sh EXIT STATUS
1055Exit status indicates how the VM was terminated:
1056.Pp
1057.Bl -tag -width indent -compact
1058.It 0
1059rebooted
1060.It 1
1061powered off
1062.It 2
1063halted
1064.It 3
1065triple fault
1066.It 4
1067exited due to an error
1068.El
1069.Sh EXAMPLES
1070If not using a boot ROM, the guest operating system must have been loaded with
1071.Xr bhyveload 8
1072or a similar boot loader before
1073.Xr bhyve 4
1074can be run.
1075Otherwise, the boot loader is not needed.
1076.Pp
1077To run a virtual machine with 1GB of memory, two virtual CPUs, a virtio
1078block device backed by the
1079.Pa /my/image
1080filesystem image, and a serial port for the console:
1081.Bd -literal -offset indent
1082bhyve -c 2 -s 0,hostbridge -s 1,lpc -s 2,virtio-blk,/my/image \\
1083  -l com1,stdio -H -P -m 1G vm1
1084.Ed
1085.Pp
1086To do the same on arm64:
1087.Bd -literal -offset indent
1088.Ed
1089bhyve -c 2 -s 0,hostbridge -s 1,virtio-blk,/my/image -o console=stdio \\
1090  -o bootrom=/usr/local/share/u-boot/u-boot-bhyve-arm64/u-boot.bin -m 1G vm1
1091.Pp
1092Run a 24GB single-CPU virtual machine with three network ports, one of which
1093has a MAC address specified:
1094.Bd -literal -offset indent
1095bhyve -s 0,hostbridge -s 1,lpc -s 2:0,virtio-net,tap0 \\
1096  -s 2:1,virtio-net,tap1 \\
1097  -s 2:2,virtio-net,tap2,mac=00:be:fa:76:45:00 \\
1098  -s 3,virtio-blk,/my/image -l com1,stdio \\
1099  -H -P -m 24G bigvm
1100.Ed
1101.Pp
1102Run an 8GB quad-CPU virtual machine with 8 AHCI SATA disks, an AHCI ATAPI
1103CD-ROM, a single virtio network port, an AMD hostbridge, and the console
1104port connected to an
1105.Xr nmdm 4
1106null-modem device.
1107.Bd -literal -offset indent
1108bhyve -c 4 \\
1109  -s 0,amd_hostbridge -s 1,lpc \\
1110  -s 1:0,ahci,hd:/images/disk.1,hd:/images/disk.2,\\
1111hd:/images/disk.3,hd:/images/disk.4,\\
1112hd:/images/disk.5,hd:/images/disk.6,\\
1113hd:/images/disk.7,hd:/images/disk.8,\\
1114cd:/images/install.iso \\
1115  -s 3,virtio-net,tap0 \\
1116  -l com1,/dev/nmdm0A \\
1117  -H -P -m 8G
1118.Ed
1119.Pp
1120Run a UEFI virtual machine with a display resolution of 800 by 600 pixels
1121that can be accessed via VNC at: 0.0.0.0:5900.
1122.Bd -literal -offset indent
1123bhyve -c 2 -m 4G -w -H \\
1124  -s 0,hostbridge \\
1125  -s 3,ahci-cd,/path/to/uefi-OS-install.iso \\
1126  -s 4,ahci-hd,disk.img \\
1127  -s 5,virtio-net,tap0 \\
1128  -s 29,fbuf,tcp=0.0.0.0:5900,w=800,h=600,wait \\
1129  -s 30,xhci,tablet \\
1130  -s 31,lpc -l com1,stdio \\
1131  -l bootrom,/usr/local/share/uefi-firmware/BHYVE_UEFI.fd \\
1132   uefivm
1133.Ed
1134.Pp
1135Run a UEFI virtual machine with a VNC display that is bound to all IPv6
1136addresses on port 5900.
1137.Bd -literal -offset indent
1138bhyve -c 2 -m 4G -w -H \\
1139  -s 0,hostbridge \\
1140  -s 4,ahci-hd,disk.img \\
1141  -s 5,virtio-net,tap0 \\
1142  -s 29,fbuf,tcp=[::]:5900,w=800,h=600 \\
1143  -s 30,xhci,tablet \\
1144  -s 31,lpc -l com1,stdio \\
1145  -l bootrom,/usr/local/share/uefi-firmware/BHYVE_UEFI.fd \\
1146   uefivm
1147.Ed
1148.Pp
1149Run a UEFI virtual machine with a VARS file to save EFI variables.
1150Note that
1151.Nm
1152will write guest modifications to the given VARS file.
1153Be sure to create a per-guest copy of the template VARS file from
1154.Pa /usr .
1155.Bd -literal -offset indent
1156bhyve -c 2 -m 4g -w -H \\
1157  -s 0,hostbridge \\
1158  -s 31,lpc -l com1,stdio \\
1159  -l bootrom,/usr/local/share/uefi-firmware/BHYVE_UEFI_CODE.fd,BHYVE_UEFI_VARS.fd
1160   uefivm
1161.Ed
1162.Pp
1163To create a configuration file
1164.Pa configfile
1165for a virtual machine, use
1166.Fl o
1167.Ar config.dump=1 :
1168.Bd -literal -offset indent
1169/usr/sbin/bhyve -c 2 -m 256 -A -H -P \\
1170  -s 0:0,hostbridge -s 1:0,virtio-net,tap0 \\
1171  -s 2:0,ahci-hd,./vm0.img \\
1172  -s 31,lpc -l com1,stdio \\
1173  -o config.dump=1 vm0 > configfile
1174.Ed
1175.Pp
1176Then use an editor of your choice to remove the line "config.dump=1"
1177from the newly generated
1178.Pa configfile .
1179.Pp
1180To start
1181.Nm
1182using this configuration file, use flag
1183.Fl k :
1184.Bd -literal -offset indent
1185/usr/sbin/bhyve -k configfile vm0
1186.Ed
1187.Sh SEE ALSO
1188.Xr bhyve 4 ,
1189.Xr netgraph 4 ,
1190.Xr ng_socket 4 ,
1191.Xr nmdm 4 ,
1192.Xr vmm 4 ,
1193.Xr bhyve_config 5 ,
1194.Xr ethers 5 ,
1195.Xr bhyvectl 8 ,
1196.Xr bhyveload 8
1197.Pp
1198.Rs
1199.%A Intel
1200.%B 64 and IA-32 Architectures Software Developer’s Manual
1201.%V Volume 3
1202.Re
1203.Sh HISTORY
1204.Nm
1205first appeared in
1206.Fx 10.0 .
1207.Sh AUTHORS
1208.An Neel Natu Aq Mt neel@freebsd.org
1209.An Peter Grehan Aq Mt grehan@freebsd.org
1210