xref: /openbmc/qemu/qga/qapi-schema.json (revision fca9d723)
1# *-*- Mode: Python -*-*
2# vim: filetype=python
3
4##
5# = General note concerning the use of guest agent interfaces
6#
7# "unsupported" is a higher-level error than the errors that individual
8# commands might document. The caller should always be prepared to receive
9# QERR_UNSUPPORTED, even if the given command doesn't specify it, or doesn't
10# document any failure mode at all.
11##
12
13##
14# = QEMU guest agent protocol commands and structs
15##
16
17{ 'pragma': { 'doc-required': true } }
18
19# Whitelists to permit QAPI rule violations; think twice before you
20# add to them!
21{ 'pragma': {
22    # Commands allowed to return a non-dictionary:
23    'returns-whitelist': [
24        'guest-file-open',
25        'guest-fsfreeze-freeze',
26        'guest-fsfreeze-freeze-list',
27        'guest-fsfreeze-status',
28        'guest-fsfreeze-thaw',
29        'guest-get-time',
30        'guest-set-vcpus',
31        'guest-sync',
32        'guest-sync-delimited' ] } }
33
34##
35# @guest-sync-delimited:
36#
37# Echo back a unique integer value, and prepend to response a
38# leading sentinel byte (0xFF) the client can check scan for.
39#
40# This is used by clients talking to the guest agent over the
41# wire to ensure the stream is in sync and doesn't contain stale
42# data from previous client. It must be issued upon initial
43# connection, and after any client-side timeouts (including
44# timeouts on receiving a response to this command).
45#
46# After issuing this request, all guest agent responses should be
47# ignored until the response containing the unique integer value
48# the client passed in is returned. Receival of the 0xFF sentinel
49# byte must be handled as an indication that the client's
50# lexer/tokenizer/parser state should be flushed/reset in
51# preparation for reliably receiving the subsequent response. As
52# an optimization, clients may opt to ignore all data until a
53# sentinel value is receiving to avoid unnecessary processing of
54# stale data.
55#
56# Similarly, clients should also precede this *request*
57# with a 0xFF byte to make sure the guest agent flushes any
58# partially read JSON data from a previous client connection.
59#
60# @id: randomly generated 64-bit integer
61#
62# Returns: The unique integer id passed in by the client
63#
64# Since: 1.1
65##
66{ 'command': 'guest-sync-delimited',
67  'data':    { 'id': 'int' },
68  'returns': 'int' }
69
70##
71# @guest-sync:
72#
73# Echo back a unique integer value
74#
75# This is used by clients talking to the guest agent over the
76# wire to ensure the stream is in sync and doesn't contain stale
77# data from previous client. All guest agent responses should be
78# ignored until the provided unique integer value is returned,
79# and it is up to the client to handle stale whole or
80# partially-delivered JSON text in such a way that this response
81# can be obtained.
82#
83# In cases where a partial stale response was previously
84# received by the client, this cannot always be done reliably.
85# One particular scenario being if qemu-ga responses are fed
86# character-by-character into a JSON parser. In these situations,
87# using guest-sync-delimited may be optimal.
88#
89# For clients that fetch responses line by line and convert them
90# to JSON objects, guest-sync should be sufficient, but note that
91# in cases where the channel is dirty some attempts at parsing the
92# response may result in a parser error.
93#
94# Such clients should also precede this command
95# with a 0xFF byte to make sure the guest agent flushes any
96# partially read JSON data from a previous session.
97#
98# @id: randomly generated 64-bit integer
99#
100# Returns: The unique integer id passed in by the client
101#
102# Since: 0.15.0
103##
104{ 'command': 'guest-sync',
105  'data':    { 'id': 'int' },
106  'returns': 'int' }
107
108##
109# @guest-ping:
110#
111# Ping the guest agent, a non-error return implies success
112#
113# Since: 0.15.0
114##
115{ 'command': 'guest-ping' }
116
117##
118# @guest-get-time:
119#
120# Get the information about guest's System Time relative to
121# the Epoch of 1970-01-01 in UTC.
122#
123# Returns: Time in nanoseconds.
124#
125# Since: 1.5
126##
127{ 'command': 'guest-get-time',
128  'returns': 'int' }
129
130##
131# @guest-set-time:
132#
133# Set guest time.
134#
135# When a guest is paused or migrated to a file then loaded
136# from that file, the guest OS has no idea that there
137# was a big gap in the time. Depending on how long the
138# gap was, NTP might not be able to resynchronize the
139# guest.
140#
141# This command tries to set guest's System Time to the
142# given value, then sets the Hardware Clock (RTC) to the
143# current System Time. This will make it easier for a guest
144# to resynchronize without waiting for NTP. If no @time is
145# specified, then the time to set is read from RTC. However,
146# this may not be supported on all platforms (i.e. Windows).
147# If that's the case users are advised to always pass a
148# value.
149#
150# @time: time of nanoseconds, relative to the Epoch
151#        of 1970-01-01 in UTC.
152#
153# Returns: Nothing on success.
154#
155# Since: 1.5
156##
157{ 'command': 'guest-set-time',
158  'data': { '*time': 'int' } }
159
160##
161# @GuestAgentCommandInfo:
162#
163# Information about guest agent commands.
164#
165# @name: name of the command
166#
167# @enabled: whether command is currently enabled by guest admin
168#
169# @success-response: whether command returns a response on success
170#                    (since 1.7)
171#
172# Since: 1.1.0
173##
174{ 'struct': 'GuestAgentCommandInfo',
175  'data': { 'name': 'str', 'enabled': 'bool', 'success-response': 'bool' } }
176
177##
178# @GuestAgentInfo:
179#
180# Information about guest agent.
181#
182# @version: guest agent version
183#
184# @supported_commands: Information about guest agent commands
185#
186# Since: 0.15.0
187##
188{ 'struct': 'GuestAgentInfo',
189  'data': { 'version': 'str',
190            'supported_commands': ['GuestAgentCommandInfo'] } }
191##
192# @guest-info:
193#
194# Get some information about the guest agent.
195#
196# Returns: @GuestAgentInfo
197#
198# Since: 0.15.0
199##
200{ 'command': 'guest-info',
201  'returns': 'GuestAgentInfo' }
202
203##
204# @guest-shutdown:
205#
206# Initiate guest-activated shutdown. Note: this is an asynchronous
207# shutdown request, with no guarantee of successful shutdown.
208#
209# @mode: "halt", "powerdown" (default), or "reboot"
210#
211# This command does NOT return a response on success. Success condition
212# is indicated by the VM exiting with a zero exit status or, when
213# running with --no-shutdown, by issuing the query-status QMP command
214# to confirm the VM status is "shutdown".
215#
216# Since: 0.15.0
217##
218{ 'command': 'guest-shutdown', 'data': { '*mode': 'str' },
219  'success-response': false }
220
221##
222# @guest-file-open:
223#
224# Open a file in the guest and retrieve a file handle for it
225#
226# @path: Full path to the file in the guest to open.
227#
228# @mode: open mode, as per fopen(), "r" is the default.
229#
230# Returns: Guest file handle on success.
231#
232# Since: 0.15.0
233##
234{ 'command': 'guest-file-open',
235  'data':    { 'path': 'str', '*mode': 'str' },
236  'returns': 'int' }
237
238##
239# @guest-file-close:
240#
241# Close an open file in the guest
242#
243# @handle: filehandle returned by guest-file-open
244#
245# Returns: Nothing on success.
246#
247# Since: 0.15.0
248##
249{ 'command': 'guest-file-close',
250  'data': { 'handle': 'int' } }
251
252##
253# @GuestFileRead:
254#
255# Result of guest agent file-read operation
256#
257# @count: number of bytes read (note: count is *before*
258#         base64-encoding is applied)
259#
260# @buf-b64: base64-encoded bytes read
261#
262# @eof: whether EOF was encountered during read operation.
263#
264# Since: 0.15.0
265##
266{ 'struct': 'GuestFileRead',
267  'data': { 'count': 'int', 'buf-b64': 'str', 'eof': 'bool' } }
268
269##
270# @guest-file-read:
271#
272# Read from an open file in the guest. Data will be base64-encoded.
273# As this command is just for limited, ad-hoc debugging, such as log
274# file access, the number of bytes to read is limited to 48 MB.
275#
276# @handle: filehandle returned by guest-file-open
277#
278# @count: maximum number of bytes to read (default is 4KB, maximum is 48MB)
279#
280# Returns: @GuestFileRead on success.
281#
282# Since: 0.15.0
283##
284{ 'command': 'guest-file-read',
285  'data':    { 'handle': 'int', '*count': 'int' },
286  'returns': 'GuestFileRead' }
287
288##
289# @GuestFileWrite:
290#
291# Result of guest agent file-write operation
292#
293# @count: number of bytes written (note: count is actual bytes
294#         written, after base64-decoding of provided buffer)
295#
296# @eof: whether EOF was encountered during write operation.
297#
298# Since: 0.15.0
299##
300{ 'struct': 'GuestFileWrite',
301  'data': { 'count': 'int', 'eof': 'bool' } }
302
303##
304# @guest-file-write:
305#
306# Write to an open file in the guest.
307#
308# @handle: filehandle returned by guest-file-open
309#
310# @buf-b64: base64-encoded string representing data to be written
311#
312# @count: bytes to write (actual bytes, after base64-decode),
313#         default is all content in buf-b64 buffer after base64 decoding
314#
315# Returns: @GuestFileWrite on success.
316#
317# Since: 0.15.0
318##
319{ 'command': 'guest-file-write',
320  'data':    { 'handle': 'int', 'buf-b64': 'str', '*count': 'int' },
321  'returns': 'GuestFileWrite' }
322
323
324##
325# @GuestFileSeek:
326#
327# Result of guest agent file-seek operation
328#
329# @position: current file position
330#
331# @eof: whether EOF was encountered during file seek
332#
333# Since: 0.15.0
334##
335{ 'struct': 'GuestFileSeek',
336  'data': { 'position': 'int', 'eof': 'bool' } }
337
338##
339# @QGASeek:
340#
341# Symbolic names for use in @guest-file-seek
342#
343# @set: Set to the specified offset (same effect as 'whence':0)
344# @cur: Add offset to the current location (same effect as 'whence':1)
345# @end: Add offset to the end of the file (same effect as 'whence':2)
346#
347# Since: 2.6
348##
349{ 'enum': 'QGASeek', 'data': [ 'set', 'cur', 'end' ] }
350
351##
352# @GuestFileWhence:
353#
354# Controls the meaning of offset to @guest-file-seek.
355#
356# @value: Integral value (0 for set, 1 for cur, 2 for end), available
357#         for historical reasons, and might differ from the host's or
358#         guest's SEEK_* values (since: 0.15)
359# @name: Symbolic name, and preferred interface
360#
361# Since: 2.6
362##
363{ 'alternate': 'GuestFileWhence',
364  'data': { 'value': 'int', 'name': 'QGASeek' } }
365
366##
367# @guest-file-seek:
368#
369# Seek to a position in the file, as with fseek(), and return the
370# current file position afterward. Also encapsulates ftell()'s
371# functionality, with offset=0 and whence=1.
372#
373# @handle: filehandle returned by guest-file-open
374#
375# @offset: bytes to skip over in the file stream
376#
377# @whence: Symbolic or numeric code for interpreting offset
378#
379# Returns: @GuestFileSeek on success.
380#
381# Since: 0.15.0
382##
383{ 'command': 'guest-file-seek',
384  'data':    { 'handle': 'int', 'offset': 'int',
385               'whence': 'GuestFileWhence' },
386  'returns': 'GuestFileSeek' }
387
388##
389# @guest-file-flush:
390#
391# Write file changes bufferred in userspace to disk/kernel buffers
392#
393# @handle: filehandle returned by guest-file-open
394#
395# Returns: Nothing on success.
396#
397# Since: 0.15.0
398##
399{ 'command': 'guest-file-flush',
400  'data': { 'handle': 'int' } }
401
402##
403# @GuestFsfreezeStatus:
404#
405# An enumeration of filesystem freeze states
406#
407# @thawed: filesystems thawed/unfrozen
408#
409# @frozen: all non-network guest filesystems frozen
410#
411# Since: 0.15.0
412##
413{ 'enum': 'GuestFsfreezeStatus',
414  'data': [ 'thawed', 'frozen' ] }
415
416##
417# @guest-fsfreeze-status:
418#
419# Get guest fsfreeze state. error state indicates
420#
421# Returns: GuestFsfreezeStatus ("thawed", "frozen", etc., as defined below)
422#
423# Note: This may fail to properly report the current state as a result of
424#       some other guest processes having issued an fs freeze/thaw.
425#
426# Since: 0.15.0
427##
428{ 'command': 'guest-fsfreeze-status',
429  'returns': 'GuestFsfreezeStatus' }
430
431##
432# @guest-fsfreeze-freeze:
433#
434# Sync and freeze all freezable, local guest filesystems. If this
435# command succeeded, you may call @guest-fsfreeze-thaw later to
436# unfreeze.
437#
438# Note: On Windows, the command is implemented with the help of a
439#       Volume Shadow-copy Service DLL helper. The frozen state is limited
440#       for up to 10 seconds by VSS.
441#
442# Returns: Number of file systems currently frozen. On error, all filesystems
443#          will be thawed. If no filesystems are frozen as a result of this call,
444#          then @guest-fsfreeze-status will remain "thawed" and calling
445#          @guest-fsfreeze-thaw is not necessary.
446#
447# Since: 0.15.0
448##
449{ 'command': 'guest-fsfreeze-freeze',
450  'returns': 'int' }
451
452##
453# @guest-fsfreeze-freeze-list:
454#
455# Sync and freeze specified guest filesystems.
456# See also @guest-fsfreeze-freeze.
457#
458# @mountpoints: an array of mountpoints of filesystems to be frozen.
459#               If omitted, every mounted filesystem is frozen.
460#               Invalid mount points are ignored.
461#
462# Returns: Number of file systems currently frozen. On error, all filesystems
463#          will be thawed.
464#
465# Since: 2.2
466##
467{ 'command': 'guest-fsfreeze-freeze-list',
468  'data':    { '*mountpoints': ['str'] },
469  'returns': 'int' }
470
471##
472# @guest-fsfreeze-thaw:
473#
474# Unfreeze all frozen guest filesystems
475#
476# Returns: Number of file systems thawed by this call
477#
478# Note: if return value does not match the previous call to
479#       guest-fsfreeze-freeze, this likely means some freezable
480#       filesystems were unfrozen before this call, and that the
481#       filesystem state may have changed before issuing this
482#       command.
483#
484# Since: 0.15.0
485##
486{ 'command': 'guest-fsfreeze-thaw',
487  'returns': 'int' }
488
489##
490# @GuestFilesystemTrimResult:
491#
492# @path: path that was trimmed
493# @error: an error message when trim failed
494# @trimmed: bytes trimmed for this path
495# @minimum: reported effective minimum for this path
496#
497# Since: 2.4
498##
499{ 'struct': 'GuestFilesystemTrimResult',
500  'data': {'path': 'str',
501           '*trimmed': 'int', '*minimum': 'int', '*error': 'str'} }
502
503##
504# @GuestFilesystemTrimResponse:
505#
506# @paths: list of @GuestFilesystemTrimResult per path that was trimmed
507#
508# Since: 2.4
509##
510{ 'struct': 'GuestFilesystemTrimResponse',
511  'data': {'paths': ['GuestFilesystemTrimResult']} }
512
513##
514# @guest-fstrim:
515#
516# Discard (or "trim") blocks which are not in use by the filesystem.
517#
518# @minimum: Minimum contiguous free range to discard, in bytes. Free ranges
519#           smaller than this may be ignored (this is a hint and the guest
520#           may not respect it).  By increasing this value, the fstrim
521#           operation will complete more quickly for filesystems with badly
522#           fragmented free space, although not all blocks will be discarded.
523#           The default value is zero, meaning "discard every free block".
524#
525# Returns: A @GuestFilesystemTrimResponse which contains the
526#          status of all trimmed paths. (since 2.4)
527#
528# Since: 1.2
529##
530{ 'command': 'guest-fstrim',
531  'data': { '*minimum': 'int' },
532  'returns': 'GuestFilesystemTrimResponse' }
533
534##
535# @guest-suspend-disk:
536#
537# Suspend guest to disk.
538#
539# This command attempts to suspend the guest using three strategies, in this
540# order:
541#
542# - systemd hibernate
543# - pm-utils (via pm-hibernate)
544# - manual write into sysfs
545#
546# This command does NOT return a response on success. There is a high chance
547# the command succeeded if the VM exits with a zero exit status or, when
548# running with --no-shutdown, by issuing the query-status QMP command to
549# to confirm the VM status is "shutdown". However, the VM could also exit
550# (or set its status to "shutdown") due to other reasons.
551#
552# The following errors may be returned:
553#
554# - If suspend to disk is not supported, Unsupported
555#
556# Notes: It's strongly recommended to issue the guest-sync command before
557#        sending commands when the guest resumes
558#
559# Since: 1.1
560##
561{ 'command': 'guest-suspend-disk', 'success-response': false }
562
563##
564# @guest-suspend-ram:
565#
566# Suspend guest to ram.
567#
568# This command attempts to suspend the guest using three strategies, in this
569# order:
570#
571# - systemd suspend
572# - pm-utils (via pm-suspend)
573# - manual write into sysfs
574#
575# IMPORTANT: guest-suspend-ram requires working wakeup support in
576# QEMU. You should check QMP command query-current-machine returns
577# wakeup-suspend-support: true before issuing this command. Failure in
578# doing so can result in a suspended guest that QEMU will not be able to
579# awaken, forcing the user to power cycle the guest to bring it back.
580#
581# This command does NOT return a response on success. There are two options
582# to check for success:
583#
584# 1. Wait for the SUSPEND QMP event from QEMU
585# 2. Issue the query-status QMP command to confirm the VM status is
586#    "suspended"
587#
588# The following errors may be returned:
589#
590# - If suspend to ram is not supported, Unsupported
591#
592# Notes: It's strongly recommended to issue the guest-sync command before
593#        sending commands when the guest resumes
594#
595# Since: 1.1
596##
597{ 'command': 'guest-suspend-ram', 'success-response': false }
598
599##
600# @guest-suspend-hybrid:
601#
602# Save guest state to disk and suspend to ram.
603#
604# This command attempts to suspend the guest by executing, in this order:
605#
606# - systemd hybrid-sleep
607# - pm-utils (via pm-suspend-hybrid)
608#
609# IMPORTANT: guest-suspend-hybrid requires working wakeup support in
610# QEMU. You should check QMP command query-current-machine returns
611# wakeup-suspend-support: true before issuing this command. Failure in
612# doing so can result in a suspended guest that QEMU will not be able to
613# awaken, forcing the user to power cycle the guest to bring it back.
614#
615# This command does NOT return a response on success. There are two options
616# to check for success:
617#
618# 1. Wait for the SUSPEND QMP event from QEMU
619# 2. Issue the query-status QMP command to confirm the VM status is
620#    "suspended"
621#
622# The following errors may be returned:
623#
624# - If hybrid suspend is not supported, Unsupported
625#
626# Notes: It's strongly recommended to issue the guest-sync command before
627#        sending commands when the guest resumes
628#
629# Since: 1.1
630##
631{ 'command': 'guest-suspend-hybrid', 'success-response': false }
632
633##
634# @GuestIpAddressType:
635#
636# An enumeration of supported IP address types
637#
638# @ipv4: IP version 4
639#
640# @ipv6: IP version 6
641#
642# Since: 1.1
643##
644{ 'enum': 'GuestIpAddressType',
645  'data': [ 'ipv4', 'ipv6' ] }
646
647##
648# @GuestIpAddress:
649#
650# @ip-address: IP address
651#
652# @ip-address-type: Type of @ip-address (e.g. ipv4, ipv6)
653#
654# @prefix: Network prefix length of @ip-address
655#
656# Since: 1.1
657##
658{ 'struct': 'GuestIpAddress',
659  'data': {'ip-address': 'str',
660           'ip-address-type': 'GuestIpAddressType',
661           'prefix': 'int'} }
662
663##
664# @GuestNetworkInterfaceStat:
665#
666# @rx-bytes: total bytes received
667#
668# @rx-packets: total packets received
669#
670# @rx-errs: bad packets received
671#
672# @rx-dropped: receiver dropped packets
673#
674# @tx-bytes: total bytes transmitted
675#
676# @tx-packets: total packets transmitted
677#
678# @tx-errs: packet transmit problems
679#
680# @tx-dropped: dropped packets transmitted
681#
682# Since: 2.11
683##
684{ 'struct': 'GuestNetworkInterfaceStat',
685  'data': {'rx-bytes': 'uint64',
686            'rx-packets': 'uint64',
687            'rx-errs': 'uint64',
688            'rx-dropped': 'uint64',
689            'tx-bytes': 'uint64',
690            'tx-packets': 'uint64',
691            'tx-errs': 'uint64',
692            'tx-dropped': 'uint64'
693           } }
694
695##
696# @GuestNetworkInterface:
697#
698# @name: The name of interface for which info are being delivered
699#
700# @hardware-address: Hardware address of @name
701#
702# @ip-addresses: List of addresses assigned to @name
703#
704# @statistics: various statistic counters related to @name
705#              (since 2.11)
706#
707# Since: 1.1
708##
709{ 'struct': 'GuestNetworkInterface',
710  'data': {'name': 'str',
711           '*hardware-address': 'str',
712           '*ip-addresses': ['GuestIpAddress'],
713           '*statistics': 'GuestNetworkInterfaceStat' } }
714
715##
716# @guest-network-get-interfaces:
717#
718# Get list of guest IP addresses, MAC addresses
719# and netmasks.
720#
721# Returns: List of GuestNetworkInfo on success.
722#
723# Since: 1.1
724##
725{ 'command': 'guest-network-get-interfaces',
726  'returns': ['GuestNetworkInterface'] }
727
728##
729# @GuestLogicalProcessor:
730#
731# @logical-id: Arbitrary guest-specific unique identifier of the VCPU.
732#
733# @online: Whether the VCPU is enabled.
734#
735# @can-offline: Whether offlining the VCPU is possible. This member
736#               is always filled in by the guest agent when the structure is
737#               returned, and always ignored on input (hence it can be omitted
738#               then).
739#
740# Since: 1.5
741##
742{ 'struct': 'GuestLogicalProcessor',
743  'data': {'logical-id': 'int',
744           'online': 'bool',
745           '*can-offline': 'bool'} }
746
747##
748# @guest-get-vcpus:
749#
750# Retrieve the list of the guest's logical processors.
751#
752# This is a read-only operation.
753#
754# Returns: The list of all VCPUs the guest knows about. Each VCPU is put on the
755#          list exactly once, but their order is unspecified.
756#
757# Since: 1.5
758##
759{ 'command': 'guest-get-vcpus',
760  'returns': ['GuestLogicalProcessor'] }
761
762##
763# @guest-set-vcpus:
764#
765# Attempt to reconfigure (currently: enable/disable) logical processors inside
766# the guest.
767#
768# The input list is processed node by node in order. In each node @logical-id
769# is used to look up the guest VCPU, for which @online specifies the requested
770# state. The set of distinct @logical-id's is only required to be a subset of
771# the guest-supported identifiers. There's no restriction on list length or on
772# repeating the same @logical-id (with possibly different @online field).
773# Preferably the input list should describe a modified subset of
774# @guest-get-vcpus' return value.
775#
776# Returns: The length of the initial sublist that has been successfully
777#          processed. The guest agent maximizes this value. Possible cases:
778#
779#          - 0:
780#            if the @vcpus list was empty on input. Guest state
781#            has not been changed. Otherwise,
782#          - Error:
783#            processing the first node of @vcpus failed for the
784#            reason returned. Guest state has not been changed.
785#            Otherwise,
786#          - < length(@vcpus):
787#            more than zero initial nodes have been processed,
788#            but not the entire @vcpus list. Guest state has
789#            changed accordingly. To retrieve the error
790#            (assuming it persists), repeat the call with the
791#            successfully processed initial sublist removed.
792#            Otherwise,
793#          - length(@vcpus):
794#            call successful.
795#
796# Since: 1.5
797##
798{ 'command': 'guest-set-vcpus',
799  'data':    {'vcpus': ['GuestLogicalProcessor'] },
800  'returns': 'int' }
801
802##
803# @GuestDiskBusType:
804#
805# An enumeration of bus type of disks
806#
807# @ide: IDE disks
808# @fdc: floppy disks
809# @scsi: SCSI disks
810# @virtio: virtio disks
811# @xen: Xen disks
812# @usb: USB disks
813# @uml: UML disks
814# @sata: SATA disks
815# @sd: SD cards
816# @unknown: Unknown bus type
817# @ieee1394: Win IEEE 1394 bus type
818# @ssa: Win SSA bus type
819# @fibre: Win fiber channel bus type
820# @raid: Win RAID bus type
821# @iscsi: Win iScsi bus type
822# @sas: Win serial-attaches SCSI bus type
823# @mmc: Win multimedia card (MMC) bus type
824# @virtual: Win virtual bus type
825# @file-backed-virtual: Win file-backed bus type
826#
827# Since: 2.2; 'Unknown' and all entries below since 2.4
828##
829{ 'enum': 'GuestDiskBusType',
830  'data': [ 'ide', 'fdc', 'scsi', 'virtio', 'xen', 'usb', 'uml', 'sata',
831            'sd', 'unknown', 'ieee1394', 'ssa', 'fibre', 'raid', 'iscsi',
832            'sas', 'mmc', 'virtual', 'file-backed-virtual' ] }
833
834
835##
836# @GuestPCIAddress:
837#
838# @domain: domain id
839# @bus: bus id
840# @slot: slot id
841# @function: function id
842#
843# Since: 2.2
844##
845{ 'struct': 'GuestPCIAddress',
846  'data': {'domain': 'int', 'bus': 'int',
847           'slot': 'int', 'function': 'int'} }
848
849##
850# @GuestDiskAddress:
851#
852# @pci-controller: controller's PCI address (fields are set to -1 if invalid)
853# @bus-type: bus type
854# @bus: bus id
855# @target: target id
856# @unit: unit id
857# @serial: serial number (since: 3.1)
858# @dev: device node (POSIX) or device UNC (Windows) (since: 3.1)
859#
860# Since: 2.2
861##
862{ 'struct': 'GuestDiskAddress',
863  'data': {'pci-controller': 'GuestPCIAddress',
864           'bus-type': 'GuestDiskBusType',
865           'bus': 'int', 'target': 'int', 'unit': 'int',
866           '*serial': 'str', '*dev': 'str'} }
867
868##
869# @GuestFilesystemInfo:
870#
871# @name: disk name
872# @mountpoint: mount point path
873# @type: file system type string
874# @used-bytes: file system used bytes (since 3.0)
875# @total-bytes: non-root file system total bytes (since 3.0)
876# @disk: an array of disk hardware information that the volume lies on,
877#        which may be empty if the disk type is not supported
878#
879# Since: 2.2
880##
881{ 'struct': 'GuestFilesystemInfo',
882  'data': {'name': 'str', 'mountpoint': 'str', 'type': 'str',
883           '*used-bytes': 'uint64', '*total-bytes': 'uint64',
884           'disk': ['GuestDiskAddress']} }
885
886##
887# @guest-get-fsinfo:
888#
889# Returns: The list of filesystems information mounted in the guest.
890#          The returned mountpoints may be specified to
891#          @guest-fsfreeze-freeze-list.
892#          Network filesystems (such as CIFS and NFS) are not listed.
893#
894# Since: 2.2
895##
896{ 'command': 'guest-get-fsinfo',
897  'returns': ['GuestFilesystemInfo'] }
898
899##
900# @guest-set-user-password:
901#
902# @username: the user account whose password to change
903# @password: the new password entry string, base64 encoded
904# @crypted: true if password is already crypt()d, false if raw
905#
906# If the @crypted flag is true, it is the caller's responsibility
907# to ensure the correct crypt() encryption scheme is used. This
908# command does not attempt to interpret or report on the encryption
909# scheme. Refer to the documentation of the guest operating system
910# in question to determine what is supported.
911#
912# Not all guest operating systems will support use of the
913# @crypted flag, as they may require the clear-text password
914#
915# The @password parameter must always be base64 encoded before
916# transmission, even if already crypt()d, to ensure it is 8-bit
917# safe when passed as JSON.
918#
919# Returns: Nothing on success.
920#
921# Since: 2.3
922##
923{ 'command': 'guest-set-user-password',
924  'data': { 'username': 'str', 'password': 'str', 'crypted': 'bool' } }
925
926##
927# @GuestMemoryBlock:
928#
929# @phys-index: Arbitrary guest-specific unique identifier of the MEMORY BLOCK.
930#
931# @online: Whether the MEMORY BLOCK is enabled in guest.
932#
933# @can-offline: Whether offlining the MEMORY BLOCK is possible.
934#               This member is always filled in by the guest agent when the
935#               structure is returned, and always ignored on input (hence it
936#               can be omitted then).
937#
938# Since: 2.3
939##
940{ 'struct': 'GuestMemoryBlock',
941  'data': {'phys-index': 'uint64',
942           'online': 'bool',
943           '*can-offline': 'bool'} }
944
945##
946# @guest-get-memory-blocks:
947#
948# Retrieve the list of the guest's memory blocks.
949#
950# This is a read-only operation.
951#
952# Returns: The list of all memory blocks the guest knows about.
953#          Each memory block is put on the list exactly once, but their order
954#          is unspecified.
955#
956# Since: 2.3
957##
958{ 'command': 'guest-get-memory-blocks',
959  'returns': ['GuestMemoryBlock'] }
960
961##
962# @GuestMemoryBlockResponseType:
963#
964# An enumeration of memory block operation result.
965#
966# @success: the operation of online/offline memory block is successful.
967# @not-found: can't find the corresponding memoryXXX directory in sysfs.
968# @operation-not-supported: for some old kernels, it does not support
969#                           online or offline memory block.
970# @operation-failed: the operation of online/offline memory block fails,
971#                    because of some errors happen.
972#
973# Since: 2.3
974##
975{ 'enum': 'GuestMemoryBlockResponseType',
976  'data': ['success', 'not-found', 'operation-not-supported',
977           'operation-failed'] }
978
979##
980# @GuestMemoryBlockResponse:
981#
982# @phys-index: same with the 'phys-index' member of @GuestMemoryBlock.
983#
984# @response: the result of memory block operation.
985#
986# @error-code: the error number.
987#              When memory block operation fails, we assign the value of
988#              'errno' to this member, it indicates what goes wrong.
989#              When the operation succeeds, it will be omitted.
990#
991# Since: 2.3
992##
993{ 'struct': 'GuestMemoryBlockResponse',
994  'data': { 'phys-index': 'uint64',
995            'response': 'GuestMemoryBlockResponseType',
996            '*error-code': 'int' }}
997
998##
999# @guest-set-memory-blocks:
1000#
1001# Attempt to reconfigure (currently: enable/disable) state of memory blocks
1002# inside the guest.
1003#
1004# The input list is processed node by node in order. In each node @phys-index
1005# is used to look up the guest MEMORY BLOCK, for which @online specifies the
1006# requested state. The set of distinct @phys-index's is only required to be a
1007# subset of the guest-supported identifiers. There's no restriction on list
1008# length or on repeating the same @phys-index (with possibly different @online
1009# field).
1010# Preferably the input list should describe a modified subset of
1011# @guest-get-memory-blocks' return value.
1012#
1013# Returns: The operation results, it is a list of @GuestMemoryBlockResponse,
1014#          which is corresponding to the input list.
1015#
1016#          Note: it will return NULL if the @mem-blks list was empty on input,
1017#          or there is an error, and in this case, guest state will not be
1018#          changed.
1019#
1020# Since: 2.3
1021##
1022{ 'command': 'guest-set-memory-blocks',
1023  'data':    {'mem-blks': ['GuestMemoryBlock'] },
1024  'returns': ['GuestMemoryBlockResponse'] }
1025
1026##
1027# @GuestMemoryBlockInfo:
1028#
1029# @size: the size (in bytes) of the guest memory blocks,
1030#        which are the minimal units of memory block online/offline
1031#        operations (also called Logical Memory Hotplug).
1032#
1033# Since: 2.3
1034##
1035{ 'struct': 'GuestMemoryBlockInfo',
1036  'data': {'size': 'uint64'} }
1037
1038##
1039# @guest-get-memory-block-info:
1040#
1041# Get information relating to guest memory blocks.
1042#
1043# Returns: @GuestMemoryBlockInfo
1044#
1045# Since: 2.3
1046##
1047{ 'command': 'guest-get-memory-block-info',
1048  'returns': 'GuestMemoryBlockInfo' }
1049
1050##
1051# @GuestExecStatus:
1052#
1053# @exited: true if process has already terminated.
1054# @exitcode: process exit code if it was normally terminated.
1055# @signal: signal number (linux) or unhandled exception code
1056#          (windows) if the process was abnormally terminated.
1057# @out-data: base64-encoded stdout of the process
1058# @err-data: base64-encoded stderr of the process
1059#            Note: @out-data and @err-data are present only
1060#            if 'capture-output' was specified for 'guest-exec'
1061# @out-truncated: true if stdout was not fully captured
1062#                 due to size limitation.
1063# @err-truncated: true if stderr was not fully captured
1064#                 due to size limitation.
1065#
1066# Since: 2.5
1067##
1068{ 'struct': 'GuestExecStatus',
1069  'data': { 'exited': 'bool', '*exitcode': 'int', '*signal': 'int',
1070            '*out-data': 'str', '*err-data': 'str',
1071            '*out-truncated': 'bool', '*err-truncated': 'bool' }}
1072##
1073# @guest-exec-status:
1074#
1075# Check status of process associated with PID retrieved via guest-exec.
1076# Reap the process and associated metadata if it has exited.
1077#
1078# @pid: pid returned from guest-exec
1079#
1080# Returns: GuestExecStatus on success.
1081#
1082# Since: 2.5
1083##
1084{ 'command': 'guest-exec-status',
1085  'data':    { 'pid': 'int' },
1086  'returns': 'GuestExecStatus' }
1087
1088##
1089# @GuestExec:
1090# @pid: pid of child process in guest OS
1091#
1092# Since: 2.5
1093##
1094{ 'struct': 'GuestExec',
1095  'data': { 'pid': 'int'} }
1096
1097##
1098# @guest-exec:
1099#
1100# Execute a command in the guest
1101#
1102# @path: path or executable name to execute
1103# @arg: argument list to pass to executable
1104# @env: environment variables to pass to executable
1105# @input-data: data to be passed to process stdin (base64 encoded)
1106# @capture-output: bool flag to enable capture of
1107#                  stdout/stderr of running process. defaults to false.
1108#
1109# Returns: PID on success.
1110#
1111# Since: 2.5
1112##
1113{ 'command': 'guest-exec',
1114  'data':    { 'path': 'str', '*arg': ['str'], '*env': ['str'],
1115               '*input-data': 'str', '*capture-output': 'bool' },
1116  'returns': 'GuestExec' }
1117
1118
1119##
1120# @GuestHostName:
1121# @host-name: Fully qualified domain name of the guest OS
1122#
1123# Since: 2.10
1124##
1125{ 'struct': 'GuestHostName',
1126  'data':   { 'host-name': 'str' } }
1127
1128##
1129# @guest-get-host-name:
1130#
1131# Return a name for the machine.
1132#
1133# The returned name is not necessarily a fully-qualified domain name, or even
1134# present in DNS or some other name service at all. It need not even be unique
1135# on your local network or site, but usually it is.
1136#
1137# Returns: the host name of the machine on success
1138#
1139# Since: 2.10
1140##
1141{ 'command': 'guest-get-host-name',
1142  'returns': 'GuestHostName' }
1143
1144
1145##
1146# @GuestUser:
1147# @user: Username
1148# @domain: Logon domain (windows only)
1149# @login-time: Time of login of this user on the computer. If multiple
1150#              instances of the user are logged in, the earliest login time is
1151#              reported. The value is in fractional seconds since epoch time.
1152#
1153# Since: 2.10
1154##
1155{ 'struct': 'GuestUser',
1156  'data': { 'user': 'str', 'login-time': 'number', '*domain': 'str' } }
1157
1158##
1159# @guest-get-users:
1160# Retrieves a list of currently active users on the VM.
1161#
1162# Returns: A unique list of users.
1163#
1164# Since: 2.10
1165##
1166{ 'command': 'guest-get-users',
1167  'returns': ['GuestUser'] }
1168
1169##
1170# @GuestTimezone:
1171#
1172# @zone: Timezone name. These values may differ depending on guest/OS and
1173#        should only be used for informational purposes.
1174# @offset: Offset to UTC in seconds, negative numbers for time zones west of
1175#          GMT, positive numbers for east
1176#
1177# Since: 2.10
1178##
1179{ 'struct': 'GuestTimezone',
1180  'data':   { '*zone': 'str', 'offset': 'int' } }
1181
1182##
1183# @guest-get-timezone:
1184#
1185# Retrieves the timezone information from the guest.
1186#
1187# Returns: A GuestTimezone dictionary.
1188#
1189# Since: 2.10
1190##
1191{ 'command': 'guest-get-timezone',
1192  'returns': 'GuestTimezone' }
1193
1194##
1195# @GuestOSInfo:
1196#
1197# @kernel-release:
1198# * POSIX: release field returned by uname(2)
1199# * Windows: build number of the OS
1200# @kernel-version:
1201# * POSIX: version field returned by uname(2)
1202# * Windows: version number of the OS
1203# @machine:
1204# * POSIX: machine field returned by uname(2)
1205# * Windows: one of x86, x86_64, arm, ia64
1206# @id:
1207# * POSIX: as defined by os-release(5)
1208# * Windows: contains string "mswindows"
1209# @name:
1210# * POSIX: as defined by os-release(5)
1211# * Windows: contains string "Microsoft Windows"
1212# @pretty-name:
1213# * POSIX: as defined by os-release(5)
1214# * Windows: product name, e.g. "Microsoft Windows 10 Enterprise"
1215# @version:
1216# * POSIX: as defined by os-release(5)
1217# * Windows: long version string, e.g. "Microsoft Windows Server 2008"
1218# @version-id:
1219# * POSIX: as defined by os-release(5)
1220# * Windows: short version identifier, e.g. "7" or "20012r2"
1221# @variant:
1222# * POSIX: as defined by os-release(5)
1223# * Windows: contains string "server" or "client"
1224# @variant-id:
1225# * POSIX: as defined by os-release(5)
1226# * Windows: contains string "server" or "client"
1227#
1228# Notes:
1229#
1230# On POSIX systems the fields @id, @name, @pretty-name, @version, @version-id,
1231# @variant and @variant-id follow the definition specified in os-release(5).
1232# Refer to the manual page for exact description of the fields. Their values
1233# are taken from the os-release file. If the file is not present in the system,
1234# or the values are not present in the file, the fields are not included.
1235#
1236# On Windows the values are filled from information gathered from the system.
1237#
1238# Since: 2.10
1239##
1240{ 'struct': 'GuestOSInfo',
1241  'data': {
1242      '*kernel-release': 'str', '*kernel-version': 'str',
1243      '*machine': 'str', '*id': 'str', '*name': 'str',
1244      '*pretty-name': 'str', '*version': 'str', '*version-id': 'str',
1245      '*variant': 'str', '*variant-id': 'str' } }
1246
1247##
1248# @guest-get-osinfo:
1249#
1250# Retrieve guest operating system information
1251#
1252# Returns: @GuestOSInfo
1253#
1254# Since: 2.10
1255##
1256{ 'command': 'guest-get-osinfo',
1257  'returns': 'GuestOSInfo' }
1258
1259##
1260# @GuestDeviceAddressPCI:
1261#
1262# @vendor-id: vendor ID
1263# @device-id: device ID
1264#
1265# Since: 5.2
1266##
1267{ 'struct': 'GuestDeviceAddressPCI',
1268  'data': { 'vendor-id': 'uint16', 'device-id': 'uint16' } }
1269
1270##
1271# @GuestDeviceAddress:
1272#
1273# Address of the device
1274# - @pci: address of PCI device, since: 5.2
1275#
1276# Since: 5.2
1277##
1278{ 'union': 'GuestDeviceAddress',
1279  'data': { 'pci': 'GuestDeviceAddressPCI' } }
1280
1281##
1282# @GuestDeviceInfo:
1283#
1284# @driver-name: name of the associated driver
1285# @driver-date: driver release date in format YYYY-MM-DD
1286# @driver-version: driver version
1287#
1288# Since: 5.2
1289##
1290{ 'struct': 'GuestDeviceInfo',
1291  'data': {
1292      'driver-name': 'str',
1293      '*driver-date': 'str',
1294      '*driver-version': 'str',
1295      '*address': 'GuestDeviceAddress'
1296  } }
1297
1298##
1299# @guest-get-devices:
1300#
1301# Retrieve information about device drivers in Windows guest
1302#
1303# Returns: @GuestDeviceInfo
1304#
1305# Since: 5.2
1306##
1307{ 'command': 'guest-get-devices',
1308  'returns': ['GuestDeviceInfo'] }
1309