xref: /openbmc/qemu/qapi/block-core.json (revision 80e5db30)
1# -*- Mode: Python -*-
2
3##
4# == QAPI block core definitions (vm unrelated)
5##
6
7# QAPI common definitions
8{ 'include': 'common.json' }
9
10##
11# @SnapshotInfo:
12#
13# @id: unique snapshot id
14#
15# @name: user chosen name
16#
17# @vm-state-size: size of the VM state
18#
19# @date-sec: UTC date of the snapshot in seconds
20#
21# @date-nsec: fractional part in nano seconds to be used with date-sec
22#
23# @vm-clock-sec: VM clock relative to boot in seconds
24#
25# @vm-clock-nsec: fractional part in nano seconds to be used with vm-clock-sec
26#
27# Since: 1.3
28#
29##
30{ 'struct': 'SnapshotInfo',
31  'data': { 'id': 'str', 'name': 'str', 'vm-state-size': 'int',
32            'date-sec': 'int', 'date-nsec': 'int',
33            'vm-clock-sec': 'int', 'vm-clock-nsec': 'int' } }
34
35##
36# @ImageInfoSpecificQCow2:
37#
38# @compat: compatibility level
39#
40# @lazy-refcounts: #optional on or off; only valid for compat >= 1.1
41#
42# @corrupt: #optional true if the image has been marked corrupt; only valid for
43#           compat >= 1.1 (since 2.2)
44#
45# @refcount-bits: width of a refcount entry in bits (since 2.3)
46#
47# Since: 1.7
48##
49{ 'struct': 'ImageInfoSpecificQCow2',
50  'data': {
51      'compat': 'str',
52      '*lazy-refcounts': 'bool',
53      '*corrupt': 'bool',
54      'refcount-bits': 'int'
55  } }
56
57##
58# @ImageInfoSpecificVmdk:
59#
60# @create-type: The create type of VMDK image
61#
62# @cid: Content id of image
63#
64# @parent-cid: Parent VMDK image's cid
65#
66# @extents: List of extent files
67#
68# Since: 1.7
69##
70{ 'struct': 'ImageInfoSpecificVmdk',
71  'data': {
72      'create-type': 'str',
73      'cid': 'int',
74      'parent-cid': 'int',
75      'extents': ['ImageInfo']
76  } }
77
78##
79# @ImageInfoSpecific:
80#
81# A discriminated record of image format specific information structures.
82#
83# Since: 1.7
84##
85{ 'union': 'ImageInfoSpecific',
86  'data': {
87      'qcow2': 'ImageInfoSpecificQCow2',
88      'vmdk': 'ImageInfoSpecificVmdk',
89      # If we need to add block driver specific parameters for
90      # LUKS in future, then we'll subclass QCryptoBlockInfoLUKS
91      # to define a ImageInfoSpecificLUKS
92      'luks': 'QCryptoBlockInfoLUKS'
93  } }
94
95##
96# @ImageInfo:
97#
98# Information about a QEMU image file
99#
100# @filename: name of the image file
101#
102# @format: format of the image file
103#
104# @virtual-size: maximum capacity in bytes of the image
105#
106# @actual-size: #optional actual size on disk in bytes of the image
107#
108# @dirty-flag: #optional true if image is not cleanly closed
109#
110# @cluster-size: #optional size of a cluster in bytes
111#
112# @encrypted: #optional true if the image is encrypted
113#
114# @compressed: #optional true if the image is compressed (Since 1.7)
115#
116# @backing-filename: #optional name of the backing file
117#
118# @full-backing-filename: #optional full path of the backing file
119#
120# @backing-filename-format: #optional the format of the backing file
121#
122# @snapshots: #optional list of VM snapshots
123#
124# @backing-image: #optional info of the backing image (since 1.6)
125#
126# @format-specific: #optional structure supplying additional format-specific
127# information (since 1.7)
128#
129# Since: 1.3
130#
131##
132{ 'struct': 'ImageInfo',
133  'data': {'filename': 'str', 'format': 'str', '*dirty-flag': 'bool',
134           '*actual-size': 'int', 'virtual-size': 'int',
135           '*cluster-size': 'int', '*encrypted': 'bool', '*compressed': 'bool',
136           '*backing-filename': 'str', '*full-backing-filename': 'str',
137           '*backing-filename-format': 'str', '*snapshots': ['SnapshotInfo'],
138           '*backing-image': 'ImageInfo',
139           '*format-specific': 'ImageInfoSpecific' } }
140
141##
142# @ImageCheck:
143#
144# Information about a QEMU image file check
145#
146# @filename: name of the image file checked
147#
148# @format: format of the image file checked
149#
150# @check-errors: number of unexpected errors occurred during check
151#
152# @image-end-offset: #optional offset (in bytes) where the image ends, this
153#                    field is present if the driver for the image format
154#                    supports it
155#
156# @corruptions: #optional number of corruptions found during the check if any
157#
158# @leaks: #optional number of leaks found during the check if any
159#
160# @corruptions-fixed: #optional number of corruptions fixed during the check
161#                     if any
162#
163# @leaks-fixed: #optional number of leaks fixed during the check if any
164#
165# @total-clusters: #optional total number of clusters, this field is present
166#                  if the driver for the image format supports it
167#
168# @allocated-clusters: #optional total number of allocated clusters, this
169#                      field is present if the driver for the image format
170#                      supports it
171#
172# @fragmented-clusters: #optional total number of fragmented clusters, this
173#                       field is present if the driver for the image format
174#                       supports it
175#
176# @compressed-clusters: #optional total number of compressed clusters, this
177#                       field is present if the driver for the image format
178#                       supports it
179#
180# Since: 1.4
181#
182##
183{ 'struct': 'ImageCheck',
184  'data': {'filename': 'str', 'format': 'str', 'check-errors': 'int',
185           '*image-end-offset': 'int', '*corruptions': 'int', '*leaks': 'int',
186           '*corruptions-fixed': 'int', '*leaks-fixed': 'int',
187           '*total-clusters': 'int', '*allocated-clusters': 'int',
188           '*fragmented-clusters': 'int', '*compressed-clusters': 'int' } }
189
190##
191# @MapEntry:
192#
193# Mapping information from a virtual block range to a host file range
194#
195# @start: the start byte of the mapped virtual range
196#
197# @length: the number of bytes of the mapped virtual range
198#
199# @data: whether the mapped range has data
200#
201# @zero: whether the virtual blocks are zeroed
202#
203# @depth: the depth of the mapping
204#
205# @offset: #optional the offset in file that the virtual sectors are mapped to
206#
207# @filename: #optional filename that is referred to by @offset
208#
209# Since: 2.6
210#
211##
212{ 'struct': 'MapEntry',
213  'data': {'start': 'int', 'length': 'int', 'data': 'bool',
214           'zero': 'bool', 'depth': 'int', '*offset': 'int',
215           '*filename': 'str' } }
216
217##
218# @BlockdevCacheInfo:
219#
220# Cache mode information for a block device
221#
222# @writeback:   true if writeback mode is enabled
223# @direct:      true if the host page cache is bypassed (O_DIRECT)
224# @no-flush:    true if flush requests are ignored for the device
225#
226# Since: 2.3
227##
228{ 'struct': 'BlockdevCacheInfo',
229  'data': { 'writeback': 'bool',
230            'direct': 'bool',
231            'no-flush': 'bool' } }
232
233##
234# @BlockDeviceInfo:
235#
236# Information about the backing device for a block device.
237#
238# @file: the filename of the backing device
239#
240# @node-name: #optional the name of the block driver node (Since 2.0)
241#
242# @ro: true if the backing device was open read-only
243#
244# @drv: the name of the block format used to open the backing device. As of
245#       0.14.0 this can be: 'blkdebug', 'bochs', 'cloop', 'cow', 'dmg',
246#       'file', 'file', 'ftp', 'ftps', 'host_cdrom', 'host_device',
247#       'http', 'https', 'luks', 'nbd', 'parallels', 'qcow',
248#       'qcow2', 'raw', 'vdi', 'vmdk', 'vpc', 'vvfat'
249#       2.2: 'archipelago' added, 'cow' dropped
250#       2.3: 'host_floppy' deprecated
251#       2.5: 'host_floppy' dropped
252#       2.6: 'luks' added
253#       2.8: 'replication' added, 'tftp' dropped
254#
255# @backing_file: #optional the name of the backing file (for copy-on-write)
256#
257# @backing_file_depth: number of files in the backing file chain (since: 1.2)
258#
259# @encrypted: true if the backing device is encrypted
260#
261# @encryption_key_missing: true if the backing device is encrypted but an
262#                          valid encryption key is missing
263#
264# @detect_zeroes: detect and optimize zero writes (Since 2.1)
265#
266# @bps: total throughput limit in bytes per second is specified
267#
268# @bps_rd: read throughput limit in bytes per second is specified
269#
270# @bps_wr: write throughput limit in bytes per second is specified
271#
272# @iops: total I/O operations per second is specified
273#
274# @iops_rd: read I/O operations per second is specified
275#
276# @iops_wr: write I/O operations per second is specified
277#
278# @image: the info of image used (since: 1.6)
279#
280# @bps_max: #optional total throughput limit during bursts,
281#                     in bytes (Since 1.7)
282#
283# @bps_rd_max: #optional read throughput limit during bursts,
284#                        in bytes (Since 1.7)
285#
286# @bps_wr_max: #optional write throughput limit during bursts,
287#                        in bytes (Since 1.7)
288#
289# @iops_max: #optional total I/O operations per second during bursts,
290#                      in bytes (Since 1.7)
291#
292# @iops_rd_max: #optional read I/O operations per second during bursts,
293#                         in bytes (Since 1.7)
294#
295# @iops_wr_max: #optional write I/O operations per second during bursts,
296#                         in bytes (Since 1.7)
297#
298# @bps_max_length: #optional maximum length of the @bps_max burst
299#                            period, in seconds. (Since 2.6)
300#
301# @bps_rd_max_length: #optional maximum length of the @bps_rd_max
302#                               burst period, in seconds. (Since 2.6)
303#
304# @bps_wr_max_length: #optional maximum length of the @bps_wr_max
305#                               burst period, in seconds. (Since 2.6)
306#
307# @iops_max_length: #optional maximum length of the @iops burst
308#                             period, in seconds. (Since 2.6)
309#
310# @iops_rd_max_length: #optional maximum length of the @iops_rd_max
311#                                burst period, in seconds. (Since 2.6)
312#
313# @iops_wr_max_length: #optional maximum length of the @iops_wr_max
314#                                burst period, in seconds. (Since 2.6)
315#
316# @iops_size: #optional an I/O size in bytes (Since 1.7)
317#
318# @group: #optional throttle group name (Since 2.4)
319#
320# @cache: the cache mode used for the block device (since: 2.3)
321#
322# @write_threshold: configured write threshold for the device.
323#                   0 if disabled. (Since 2.3)
324#
325# Since: 0.14.0
326#
327##
328{ 'struct': 'BlockDeviceInfo',
329  'data': { 'file': 'str', '*node-name': 'str', 'ro': 'bool', 'drv': 'str',
330            '*backing_file': 'str', 'backing_file_depth': 'int',
331            'encrypted': 'bool', 'encryption_key_missing': 'bool',
332            'detect_zeroes': 'BlockdevDetectZeroesOptions',
333            'bps': 'int', 'bps_rd': 'int', 'bps_wr': 'int',
334            'iops': 'int', 'iops_rd': 'int', 'iops_wr': 'int',
335            'image': 'ImageInfo',
336            '*bps_max': 'int', '*bps_rd_max': 'int',
337            '*bps_wr_max': 'int', '*iops_max': 'int',
338            '*iops_rd_max': 'int', '*iops_wr_max': 'int',
339            '*bps_max_length': 'int', '*bps_rd_max_length': 'int',
340            '*bps_wr_max_length': 'int', '*iops_max_length': 'int',
341            '*iops_rd_max_length': 'int', '*iops_wr_max_length': 'int',
342            '*iops_size': 'int', '*group': 'str', 'cache': 'BlockdevCacheInfo',
343            'write_threshold': 'int' } }
344
345##
346# @BlockDeviceIoStatus:
347#
348# An enumeration of block device I/O status.
349#
350# @ok: The last I/O operation has succeeded
351#
352# @failed: The last I/O operation has failed
353#
354# @nospace: The last I/O operation has failed due to a no-space condition
355#
356# Since: 1.0
357##
358{ 'enum': 'BlockDeviceIoStatus', 'data': [ 'ok', 'failed', 'nospace' ] }
359
360##
361# @BlockDeviceMapEntry:
362#
363# Entry in the metadata map of the device (returned by "qemu-img map")
364#
365# @start: Offset in the image of the first byte described by this entry
366#         (in bytes)
367#
368# @length: Length of the range described by this entry (in bytes)
369#
370# @depth: Number of layers (0 = top image, 1 = top image's backing file, etc.)
371#         before reaching one for which the range is allocated.  The value is
372#         in the range 0 to the depth of the image chain - 1.
373#
374# @zero: the sectors in this range read as zeros
375#
376# @data: reading the image will actually read data from a file (in particular,
377#        if @offset is present this means that the sectors are not simply
378#        preallocated, but contain actual data in raw format)
379#
380# @offset: if present, the image file stores the data for this range in
381#          raw format at the given offset.
382#
383# Since: 1.7
384##
385{ 'struct': 'BlockDeviceMapEntry',
386  'data': { 'start': 'int', 'length': 'int', 'depth': 'int', 'zero': 'bool',
387            'data': 'bool', '*offset': 'int' } }
388
389##
390# @DirtyBitmapStatus:
391#
392# An enumeration of possible states that a dirty bitmap can report to the user.
393#
394# @frozen: The bitmap is currently in-use by a backup operation or block job,
395#          and is immutable.
396#
397# @disabled: The bitmap is currently in-use by an internal operation and is
398#            read-only. It can still be deleted.
399#
400# @active: The bitmap is actively monitoring for new writes, and can be cleared,
401#          deleted, or used for backup operations.
402#
403# Since: 2.4
404##
405{ 'enum': 'DirtyBitmapStatus',
406  'data': ['active', 'disabled', 'frozen'] }
407
408##
409# @BlockDirtyInfo:
410#
411# Block dirty bitmap information.
412#
413# @name: #optional the name of the dirty bitmap (Since 2.4)
414#
415# @count: number of dirty bytes according to the dirty bitmap
416#
417# @granularity: granularity of the dirty bitmap in bytes (since 1.4)
418#
419# @status: current status of the dirty bitmap (since 2.4)
420#
421# Since: 1.3
422##
423{ 'struct': 'BlockDirtyInfo',
424  'data': {'*name': 'str', 'count': 'int', 'granularity': 'uint32',
425           'status': 'DirtyBitmapStatus'} }
426
427##
428# @BlockInfo:
429#
430# Block device information.  This structure describes a virtual device and
431# the backing device associated with it.
432#
433# @device: The device name associated with the virtual device.
434#
435# @type: This field is returned only for compatibility reasons, it should
436#        not be used (always returns 'unknown')
437#
438# @removable: True if the device supports removable media.
439#
440# @locked: True if the guest has locked this device from having its media
441#          removed
442#
443# @tray_open: #optional True if the device's tray is open
444#             (only present if it has a tray)
445#
446# @dirty-bitmaps: #optional dirty bitmaps information (only present if the
447#                 driver has one or more dirty bitmaps) (Since 2.0)
448#
449# @io-status: #optional @BlockDeviceIoStatus. Only present if the device
450#             supports it and the VM is configured to stop on errors
451#             (supported device models: virtio-blk, ide, scsi-disk)
452#
453# @inserted: #optional @BlockDeviceInfo describing the device if media is
454#            present
455#
456# Since:  0.14.0
457##
458{ 'struct': 'BlockInfo',
459  'data': {'device': 'str', 'type': 'str', 'removable': 'bool',
460           'locked': 'bool', '*inserted': 'BlockDeviceInfo',
461           '*tray_open': 'bool', '*io-status': 'BlockDeviceIoStatus',
462           '*dirty-bitmaps': ['BlockDirtyInfo'] } }
463
464##
465# @query-block:
466#
467# Get a list of BlockInfo for all virtual block devices.
468#
469# Returns: a list of @BlockInfo describing each virtual block device
470#
471# Since: 0.14.0
472#
473# Example:
474#
475# -> { "execute": "query-block" }
476# <- {
477#       "return":[
478#          {
479#             "io-status": "ok",
480#             "device":"ide0-hd0",
481#             "locked":false,
482#             "removable":false,
483#             "inserted":{
484#                "ro":false,
485#                "drv":"qcow2",
486#                "encrypted":false,
487#                "file":"disks/test.qcow2",
488#                "backing_file_depth":1,
489#                "bps":1000000,
490#                "bps_rd":0,
491#                "bps_wr":0,
492#                "iops":1000000,
493#                "iops_rd":0,
494#                "iops_wr":0,
495#                "bps_max": 8000000,
496#                "bps_rd_max": 0,
497#                "bps_wr_max": 0,
498#                "iops_max": 0,
499#                "iops_rd_max": 0,
500#                "iops_wr_max": 0,
501#                "iops_size": 0,
502#                "detect_zeroes": "on",
503#                "write_threshold": 0,
504#                "image":{
505#                   "filename":"disks/test.qcow2",
506#                   "format":"qcow2",
507#                   "virtual-size":2048000,
508#                   "backing_file":"base.qcow2",
509#                   "full-backing-filename":"disks/base.qcow2",
510#                   "backing-filename-format":"qcow2",
511#                   "snapshots":[
512#                      {
513#                         "id": "1",
514#                         "name": "snapshot1",
515#                         "vm-state-size": 0,
516#                         "date-sec": 10000200,
517#                         "date-nsec": 12,
518#                         "vm-clock-sec": 206,
519#                         "vm-clock-nsec": 30
520#                      }
521#                   ],
522#                   "backing-image":{
523#                       "filename":"disks/base.qcow2",
524#                       "format":"qcow2",
525#                       "virtual-size":2048000
526#                   }
527#                }
528#             },
529#             "type":"unknown"
530#          },
531#          {
532#             "io-status": "ok",
533#             "device":"ide1-cd0",
534#             "locked":false,
535#             "removable":true,
536#             "type":"unknown"
537#          },
538#          {
539#             "device":"floppy0",
540#             "locked":false,
541#             "removable":true,
542#             "type":"unknown"
543#          },
544#          {
545#             "device":"sd0",
546#             "locked":false,
547#             "removable":true,
548#             "type":"unknown"
549#          }
550#       ]
551#    }
552#
553##
554{ 'command': 'query-block', 'returns': ['BlockInfo'] }
555
556
557##
558# @BlockDeviceTimedStats:
559#
560# Statistics of a block device during a given interval of time.
561#
562# @interval_length: Interval used for calculating the statistics,
563#                   in seconds.
564#
565# @min_rd_latency_ns: Minimum latency of read operations in the
566#                     defined interval, in nanoseconds.
567#
568# @min_wr_latency_ns: Minimum latency of write operations in the
569#                     defined interval, in nanoseconds.
570#
571# @min_flush_latency_ns: Minimum latency of flush operations in the
572#                        defined interval, in nanoseconds.
573#
574# @max_rd_latency_ns: Maximum latency of read operations in the
575#                     defined interval, in nanoseconds.
576#
577# @max_wr_latency_ns: Maximum latency of write operations in the
578#                     defined interval, in nanoseconds.
579#
580# @max_flush_latency_ns: Maximum latency of flush operations in the
581#                        defined interval, in nanoseconds.
582#
583# @avg_rd_latency_ns: Average latency of read operations in the
584#                     defined interval, in nanoseconds.
585#
586# @avg_wr_latency_ns: Average latency of write operations in the
587#                     defined interval, in nanoseconds.
588#
589# @avg_flush_latency_ns: Average latency of flush operations in the
590#                        defined interval, in nanoseconds.
591#
592# @avg_rd_queue_depth: Average number of pending read operations
593#                      in the defined interval.
594#
595# @avg_wr_queue_depth: Average number of pending write operations
596#                      in the defined interval.
597#
598# Since: 2.5
599##
600{ 'struct': 'BlockDeviceTimedStats',
601  'data': { 'interval_length': 'int', 'min_rd_latency_ns': 'int',
602            'max_rd_latency_ns': 'int', 'avg_rd_latency_ns': 'int',
603            'min_wr_latency_ns': 'int', 'max_wr_latency_ns': 'int',
604            'avg_wr_latency_ns': 'int', 'min_flush_latency_ns': 'int',
605            'max_flush_latency_ns': 'int', 'avg_flush_latency_ns': 'int',
606            'avg_rd_queue_depth': 'number', 'avg_wr_queue_depth': 'number' } }
607
608##
609# @BlockDeviceStats:
610#
611# Statistics of a virtual block device or a block backing device.
612#
613# @rd_bytes:      The number of bytes read by the device.
614#
615# @wr_bytes:      The number of bytes written by the device.
616#
617# @rd_operations: The number of read operations performed by the device.
618#
619# @wr_operations: The number of write operations performed by the device.
620#
621# @flush_operations: The number of cache flush operations performed by the
622#                    device (since 0.15.0)
623#
624# @flush_total_time_ns: Total time spend on cache flushes in nano-seconds
625#                       (since 0.15.0).
626#
627# @wr_total_time_ns: Total time spend on writes in nano-seconds (since 0.15.0).
628#
629# @rd_total_time_ns: Total_time_spend on reads in nano-seconds (since 0.15.0).
630#
631# @wr_highest_offset: The offset after the greatest byte written to the
632#                     device.  The intended use of this information is for
633#                     growable sparse files (like qcow2) that are used on top
634#                     of a physical device.
635#
636# @rd_merged: Number of read requests that have been merged into another
637#             request (Since 2.3).
638#
639# @wr_merged: Number of write requests that have been merged into another
640#             request (Since 2.3).
641#
642# @idle_time_ns: #optional Time since the last I/O operation, in
643#                nanoseconds. If the field is absent it means that
644#                there haven't been any operations yet (Since 2.5).
645#
646# @failed_rd_operations: The number of failed read operations
647#                        performed by the device (Since 2.5)
648#
649# @failed_wr_operations: The number of failed write operations
650#                        performed by the device (Since 2.5)
651#
652# @failed_flush_operations: The number of failed flush operations
653#                           performed by the device (Since 2.5)
654#
655# @invalid_rd_operations: The number of invalid read operations
656#                          performed by the device (Since 2.5)
657#
658# @invalid_wr_operations: The number of invalid write operations
659#                         performed by the device (Since 2.5)
660#
661# @invalid_flush_operations: The number of invalid flush operations
662#                            performed by the device (Since 2.5)
663#
664# @account_invalid: Whether invalid operations are included in the
665#                   last access statistics (Since 2.5)
666#
667# @account_failed: Whether failed operations are included in the
668#                  latency and last access statistics (Since 2.5)
669#
670# @timed_stats: Statistics specific to the set of previously defined
671#               intervals of time (Since 2.5)
672#
673# Since: 0.14.0
674##
675{ 'struct': 'BlockDeviceStats',
676  'data': {'rd_bytes': 'int', 'wr_bytes': 'int', 'rd_operations': 'int',
677           'wr_operations': 'int', 'flush_operations': 'int',
678           'flush_total_time_ns': 'int', 'wr_total_time_ns': 'int',
679           'rd_total_time_ns': 'int', 'wr_highest_offset': 'int',
680           'rd_merged': 'int', 'wr_merged': 'int', '*idle_time_ns': 'int',
681           'failed_rd_operations': 'int', 'failed_wr_operations': 'int',
682           'failed_flush_operations': 'int', 'invalid_rd_operations': 'int',
683           'invalid_wr_operations': 'int', 'invalid_flush_operations': 'int',
684           'account_invalid': 'bool', 'account_failed': 'bool',
685           'timed_stats': ['BlockDeviceTimedStats'] } }
686
687##
688# @BlockStats:
689#
690# Statistics of a virtual block device or a block backing device.
691#
692# @device: #optional If the stats are for a virtual block device, the name
693#          corresponding to the virtual block device.
694#
695# @node-name: #optional The node name of the device. (Since 2.3)
696#
697# @stats:  A @BlockDeviceStats for the device.
698#
699# @parent: #optional This describes the file block device if it has one.
700#          Contains recursively the statistics of the underlying
701#          protocol (e.g. the host file for a qcow2 image). If there is
702#          no underlying protocol, this field is omitted
703#
704# @backing: #optional This describes the backing block device if it has one.
705#           (Since 2.0)
706#
707# Since: 0.14.0
708##
709{ 'struct': 'BlockStats',
710  'data': {'*device': 'str', '*node-name': 'str',
711           'stats': 'BlockDeviceStats',
712           '*parent': 'BlockStats',
713           '*backing': 'BlockStats'} }
714
715##
716# @query-blockstats:
717#
718# Query the @BlockStats for all virtual block devices.
719#
720# @query-nodes: #optional If true, the command will query all the block nodes
721#               that have a node name, in a list which will include "parent"
722#               information, but not "backing".
723#               If false or omitted, the behavior is as before - query all the
724#               device backends, recursively including their "parent" and
725#               "backing". (Since 2.3)
726#
727# Returns: A list of @BlockStats for each virtual block devices.
728#
729# Since: 0.14.0
730#
731# Example:
732#
733# -> { "execute": "query-blockstats" }
734# <- {
735#       "return":[
736#          {
737#             "device":"ide0-hd0",
738#             "parent":{
739#                "stats":{
740#                   "wr_highest_offset":3686448128,
741#                   "wr_bytes":9786368,
742#                   "wr_operations":751,
743#                   "rd_bytes":122567168,
744#                   "rd_operations":36772
745#                   "wr_total_times_ns":313253456
746#                   "rd_total_times_ns":3465673657
747#                   "flush_total_times_ns":49653
748#                   "flush_operations":61,
749#                   "rd_merged":0,
750#                   "wr_merged":0,
751#                   "idle_time_ns":2953431879,
752#                   "account_invalid":true,
753#                   "account_failed":false
754#                }
755#             },
756#             "stats":{
757#                "wr_highest_offset":2821110784,
758#                "wr_bytes":9786368,
759#                "wr_operations":692,
760#                "rd_bytes":122739200,
761#                "rd_operations":36604
762#                "flush_operations":51,
763#                "wr_total_times_ns":313253456
764#                "rd_total_times_ns":3465673657
765#                "flush_total_times_ns":49653,
766#                "rd_merged":0,
767#                "wr_merged":0,
768#                "idle_time_ns":2953431879,
769#                "account_invalid":true,
770#                "account_failed":false
771#             }
772#          },
773#          {
774#             "device":"ide1-cd0",
775#             "stats":{
776#                "wr_highest_offset":0,
777#                "wr_bytes":0,
778#                "wr_operations":0,
779#                "rd_bytes":0,
780#                "rd_operations":0
781#                "flush_operations":0,
782#                "wr_total_times_ns":0
783#                "rd_total_times_ns":0
784#                "flush_total_times_ns":0,
785#                "rd_merged":0,
786#                "wr_merged":0,
787#                "account_invalid":false,
788#                "account_failed":false
789#             }
790#          },
791#          {
792#             "device":"floppy0",
793#             "stats":{
794#                "wr_highest_offset":0,
795#                "wr_bytes":0,
796#                "wr_operations":0,
797#                "rd_bytes":0,
798#                "rd_operations":0
799#                "flush_operations":0,
800#                "wr_total_times_ns":0
801#                "rd_total_times_ns":0
802#                "flush_total_times_ns":0,
803#                "rd_merged":0,
804#                "wr_merged":0,
805#                "account_invalid":false,
806#                "account_failed":false
807#             }
808#          },
809#          {
810#             "device":"sd0",
811#             "stats":{
812#                "wr_highest_offset":0,
813#                "wr_bytes":0,
814#                "wr_operations":0,
815#                "rd_bytes":0,
816#                "rd_operations":0
817#                "flush_operations":0,
818#                "wr_total_times_ns":0
819#                "rd_total_times_ns":0
820#                "flush_total_times_ns":0,
821#                "rd_merged":0,
822#                "wr_merged":0,
823#                "account_invalid":false,
824#                "account_failed":false
825#             }
826#          }
827#       ]
828#    }
829#
830##
831{ 'command': 'query-blockstats',
832  'data': { '*query-nodes': 'bool' },
833  'returns': ['BlockStats'] }
834
835##
836# @BlockdevOnError:
837#
838# An enumeration of possible behaviors for errors on I/O operations.
839# The exact meaning depends on whether the I/O was initiated by a guest
840# or by a block job
841#
842# @report: for guest operations, report the error to the guest;
843#          for jobs, cancel the job
844#
845# @ignore: ignore the error, only report a QMP event (BLOCK_IO_ERROR
846#          or BLOCK_JOB_ERROR)
847#
848# @enospc: same as @stop on ENOSPC, same as @report otherwise.
849#
850# @stop: for guest operations, stop the virtual machine;
851#        for jobs, pause the job
852#
853# @auto: inherit the error handling policy of the backend (since: 2.7)
854#
855# Since: 1.3
856##
857{ 'enum': 'BlockdevOnError',
858  'data': ['report', 'ignore', 'enospc', 'stop', 'auto'] }
859
860##
861# @MirrorSyncMode:
862#
863# An enumeration of possible behaviors for the initial synchronization
864# phase of storage mirroring.
865#
866# @top: copies data in the topmost image to the destination
867#
868# @full: copies data from all images to the destination
869#
870# @none: only copy data written from now on
871#
872# @incremental: only copy data described by the dirty bitmap. Since: 2.4
873#
874# Since: 1.3
875##
876{ 'enum': 'MirrorSyncMode',
877  'data': ['top', 'full', 'none', 'incremental'] }
878
879##
880# @BlockJobType:
881#
882# Type of a block job.
883#
884# @commit: block commit job type, see "block-commit"
885#
886# @stream: block stream job type, see "block-stream"
887#
888# @mirror: drive mirror job type, see "drive-mirror"
889#
890# @backup: drive backup job type, see "drive-backup"
891#
892# Since: 1.7
893##
894{ 'enum': 'BlockJobType',
895  'data': ['commit', 'stream', 'mirror', 'backup'] }
896
897##
898# @BlockJobInfo:
899#
900# Information about a long-running block device operation.
901#
902# @type: the job type ('stream' for image streaming)
903#
904# @device: The job identifier. Originally the device name but other
905#          values are allowed since QEMU 2.7
906#
907# @len: the maximum progress value
908#
909# @busy: false if the job is known to be in a quiescent state, with
910#        no pending I/O.  Since 1.3.
911#
912# @paused: whether the job is paused or, if @busy is true, will
913#          pause itself as soon as possible.  Since 1.3.
914#
915# @offset: the current progress value
916#
917# @speed: the rate limit, bytes per second
918#
919# @io-status: the status of the job (since 1.3)
920#
921# @ready: true if the job may be completed (since 2.2)
922#
923# Since: 1.1
924##
925{ 'struct': 'BlockJobInfo',
926  'data': {'type': 'str', 'device': 'str', 'len': 'int',
927           'offset': 'int', 'busy': 'bool', 'paused': 'bool', 'speed': 'int',
928           'io-status': 'BlockDeviceIoStatus', 'ready': 'bool'} }
929
930##
931# @query-block-jobs:
932#
933# Return information about long-running block device operations.
934#
935# Returns: a list of @BlockJobInfo for each active block job
936#
937# Since: 1.1
938##
939{ 'command': 'query-block-jobs', 'returns': ['BlockJobInfo'] }
940
941##
942# @block_passwd:
943#
944# This command sets the password of a block device that has not been open
945# with a password and requires one.
946#
947# The two cases where this can happen are a block device is created through
948# QEMU's initial command line or a block device is changed through the legacy
949# @change interface.
950#
951# In the event that the block device is created through the initial command
952# line, the VM will start in the stopped state regardless of whether '-S' is
953# used.  The intention is for a management tool to query the block devices to
954# determine which ones are encrypted, set the passwords with this command, and
955# then start the guest with the @cont command.
956#
957# Either @device or @node-name must be set but not both.
958#
959# @device: #optional the name of the block backend device to set the password on
960#
961# @node-name: #optional graph node name to set the password on (Since 2.0)
962#
963# @password: the password to use for the device
964#
965# Returns: nothing on success
966#          If @device is not a valid block device, DeviceNotFound
967#          If @device is not encrypted, DeviceNotEncrypted
968#
969# Notes:  Not all block formats support encryption and some that do are not
970#         able to validate that a password is correct.  Disk corruption may
971#         occur if an invalid password is specified.
972#
973# Since: 0.14.0
974#
975# Example:
976#
977# -> { "execute": "block_passwd", "arguments": { "device": "ide0-hd0",
978#                                                "password": "12345" } }
979# <- { "return": {} }
980#
981##
982{ 'command': 'block_passwd', 'data': {'*device': 'str',
983                                      '*node-name': 'str', 'password': 'str'} }
984
985##
986# @block_resize:
987#
988# Resize a block image while a guest is running.
989#
990# Either @device or @node-name must be set but not both.
991#
992# @device: #optional the name of the device to get the image resized
993#
994# @node-name: #optional graph node name to get the image resized (Since 2.0)
995#
996# @size:  new image size in bytes
997#
998# Returns: nothing on success
999#          If @device is not a valid block device, DeviceNotFound
1000#
1001# Since: 0.14.0
1002#
1003# Example:
1004#
1005# -> { "execute": "block_resize",
1006#      "arguments": { "device": "scratch", "size": 1073741824 } }
1007# <- { "return": {} }
1008#
1009##
1010{ 'command': 'block_resize', 'data': { '*device': 'str',
1011                                       '*node-name': 'str',
1012                                       'size': 'int' }}
1013
1014##
1015# @NewImageMode:
1016#
1017# An enumeration that tells QEMU how to set the backing file path in
1018# a new image file.
1019#
1020# @existing: QEMU should look for an existing image file.
1021#
1022# @absolute-paths: QEMU should create a new image with absolute paths
1023# for the backing file. If there is no backing file available, the new
1024# image will not be backed either.
1025#
1026# Since: 1.1
1027##
1028{ 'enum': 'NewImageMode',
1029  'data': [ 'existing', 'absolute-paths' ] }
1030
1031##
1032# @BlockdevSnapshotSync:
1033#
1034# Either @device or @node-name must be set but not both.
1035#
1036# @device: #optional the name of the device to generate the snapshot from.
1037#
1038# @node-name: #optional graph node name to generate the snapshot from (Since 2.0)
1039#
1040# @snapshot-file: the target of the new image. If the file exists, or
1041# if it is a device, the snapshot will be created in the existing
1042# file/device. Otherwise, a new file will be created.
1043#
1044# @snapshot-node-name: #optional the graph node name of the new image (Since 2.0)
1045#
1046# @format: #optional the format of the snapshot image, default is 'qcow2'.
1047#
1048# @mode: #optional whether and how QEMU should create a new image, default is
1049#        'absolute-paths'.
1050##
1051{ 'struct': 'BlockdevSnapshotSync',
1052  'data': { '*device': 'str', '*node-name': 'str',
1053            'snapshot-file': 'str', '*snapshot-node-name': 'str',
1054            '*format': 'str', '*mode': 'NewImageMode' } }
1055
1056##
1057# @BlockdevSnapshot:
1058#
1059# @node: device or node name that will have a snapshot created.
1060#
1061# @overlay: reference to the existing block device that will become
1062#           the overlay of @node, as part of creating the snapshot.
1063#           It must not have a current backing file (this can be
1064#           achieved by passing "backing": "" to blockdev-add).
1065#
1066# Since: 2.5
1067##
1068{ 'struct': 'BlockdevSnapshot',
1069  'data': { 'node': 'str', 'overlay': 'str' } }
1070
1071##
1072# @DriveBackup:
1073#
1074# @job-id: #optional identifier for the newly-created block job. If
1075#          omitted, the device name will be used. (Since 2.7)
1076#
1077# @device: the device name or node-name of a root node which should be copied.
1078#
1079# @target: the target of the new image. If the file exists, or if it
1080#          is a device, the existing file/device will be used as the new
1081#          destination.  If it does not exist, a new file will be created.
1082#
1083# @format: #optional the format of the new destination, default is to
1084#          probe if @mode is 'existing', else the format of the source
1085#
1086# @sync: what parts of the disk image should be copied to the destination
1087#        (all the disk, only the sectors allocated in the topmost image, from a
1088#        dirty bitmap, or only new I/O).
1089#
1090# @mode: #optional whether and how QEMU should create a new image, default is
1091#        'absolute-paths'.
1092#
1093# @speed: #optional the maximum speed, in bytes per second
1094#
1095# @bitmap: #optional the name of dirty bitmap if sync is "incremental".
1096#          Must be present if sync is "incremental", must NOT be present
1097#          otherwise. (Since 2.4)
1098#
1099# @compress: #optional true to compress data, if the target format supports it.
1100#            (default: false) (since 2.8)
1101#
1102# @on-source-error: #optional the action to take on an error on the source,
1103#                   default 'report'.  'stop' and 'enospc' can only be used
1104#                   if the block device supports io-status (see BlockInfo).
1105#
1106# @on-target-error: #optional the action to take on an error on the target,
1107#                   default 'report' (no limitations, since this applies to
1108#                   a different block device than @device).
1109#
1110# Note: @on-source-error and @on-target-error only affect background
1111# I/O.  If an error occurs during a guest write request, the device's
1112# rerror/werror actions will be used.
1113#
1114# Since: 1.6
1115##
1116{ 'struct': 'DriveBackup',
1117  'data': { '*job-id': 'str', 'device': 'str', 'target': 'str',
1118            '*format': 'str', 'sync': 'MirrorSyncMode', '*mode': 'NewImageMode',
1119            '*speed': 'int', '*bitmap': 'str', '*compress': 'bool',
1120            '*on-source-error': 'BlockdevOnError',
1121            '*on-target-error': 'BlockdevOnError' } }
1122
1123##
1124# @BlockdevBackup:
1125#
1126# @job-id: #optional identifier for the newly-created block job. If
1127#          omitted, the device name will be used. (Since 2.7)
1128#
1129# @device: the device name or node-name of a root node which should be copied.
1130#
1131# @target: the device name or node-name of the backup target node.
1132#
1133# @sync: what parts of the disk image should be copied to the destination
1134#        (all the disk, only the sectors allocated in the topmost image, or
1135#        only new I/O).
1136#
1137# @speed: #optional the maximum speed, in bytes per second. The default is 0,
1138#         for unlimited.
1139#
1140# @compress: #optional true to compress data, if the target format supports it.
1141#            (default: false) (since 2.8)
1142#
1143# @on-source-error: #optional the action to take on an error on the source,
1144#                   default 'report'.  'stop' and 'enospc' can only be used
1145#                   if the block device supports io-status (see BlockInfo).
1146#
1147# @on-target-error: #optional the action to take on an error on the target,
1148#                   default 'report' (no limitations, since this applies to
1149#                   a different block device than @device).
1150#
1151# Note: @on-source-error and @on-target-error only affect background
1152# I/O.  If an error occurs during a guest write request, the device's
1153# rerror/werror actions will be used.
1154#
1155# Since: 2.3
1156##
1157{ 'struct': 'BlockdevBackup',
1158  'data': { '*job-id': 'str', 'device': 'str', 'target': 'str',
1159            'sync': 'MirrorSyncMode',
1160            '*speed': 'int',
1161            '*compress': 'bool',
1162            '*on-source-error': 'BlockdevOnError',
1163            '*on-target-error': 'BlockdevOnError' } }
1164
1165##
1166# @blockdev-snapshot-sync:
1167#
1168# Generates a synchronous snapshot of a block device.
1169#
1170# For the arguments, see the documentation of BlockdevSnapshotSync.
1171#
1172# Returns: nothing on success
1173#          If @device is not a valid block device, DeviceNotFound
1174#
1175# Since: 0.14.0
1176#
1177# Example:
1178#
1179# -> { "execute": "blockdev-snapshot-sync",
1180#      "arguments": { "device": "ide-hd0",
1181#                     "snapshot-file":
1182#                     "/some/place/my-image",
1183#                     "format": "qcow2" } }
1184# <- { "return": {} }
1185#
1186##
1187{ 'command': 'blockdev-snapshot-sync',
1188  'data': 'BlockdevSnapshotSync' }
1189
1190
1191##
1192# @blockdev-snapshot:
1193#
1194# Generates a snapshot of a block device.
1195#
1196# Create a snapshot, by installing 'node' as the backing image of
1197# 'overlay'. Additionally, if 'node' is associated with a block
1198# device, the block device changes to using 'overlay' as its new active
1199# image.
1200#
1201# For the arguments, see the documentation of BlockdevSnapshot.
1202#
1203# Since: 2.5
1204#
1205# Example:
1206#
1207# -> { "execute": "blockdev-add",
1208#      "arguments": { "options": { "driver": "qcow2",
1209#                                  "node-name": "node1534",
1210#                                  "file": { "driver": "file",
1211#                                            "filename": "hd1.qcow2" },
1212#                                  "backing": "" } } }
1213#
1214# <- { "return": {} }
1215#
1216# -> { "execute": "blockdev-snapshot",
1217#      "arguments": { "node": "ide-hd0",
1218#                     "overlay": "node1534" } }
1219# <- { "return": {} }
1220#
1221##
1222{ 'command': 'blockdev-snapshot',
1223  'data': 'BlockdevSnapshot' }
1224
1225##
1226# @change-backing-file:
1227#
1228# Change the backing file in the image file metadata.  This does not
1229# cause QEMU to reopen the image file to reparse the backing filename
1230# (it may, however, perform a reopen to change permissions from
1231# r/o -> r/w -> r/o, if needed). The new backing file string is written
1232# into the image file metadata, and the QEMU internal strings are
1233# updated.
1234#
1235# @image-node-name: The name of the block driver state node of the
1236#                   image to modify. The "device" argument is used
1237#                   to verify "image-node-name" is in the chain
1238#                   described by "device".
1239#
1240# @device:          The device name or node-name of the root node that owns
1241#                   image-node-name.
1242#
1243# @backing-file:    The string to write as the backing file.  This
1244#                   string is not validated, so care should be taken
1245#                   when specifying the string or the image chain may
1246#                   not be able to be reopened again.
1247#
1248# Returns: Nothing on success
1249#
1250#          If "device" does not exist or cannot be determined, DeviceNotFound
1251#
1252# Since: 2.1
1253##
1254{ 'command': 'change-backing-file',
1255  'data': { 'device': 'str', 'image-node-name': 'str',
1256            'backing-file': 'str' } }
1257
1258##
1259# @block-commit:
1260#
1261# Live commit of data from overlay image nodes into backing nodes - i.e.,
1262# writes data between 'top' and 'base' into 'base'.
1263#
1264# @job-id: #optional identifier for the newly-created block job. If
1265#          omitted, the device name will be used. (Since 2.7)
1266#
1267# @device:  the device name or node-name of a root node
1268#
1269# @base:   #optional The file name of the backing image to write data into.
1270#                    If not specified, this is the deepest backing image.
1271#
1272# @top:    #optional The file name of the backing image within the image chain,
1273#                    which contains the topmost data to be committed down. If
1274#                    not specified, this is the active layer.
1275#
1276# @backing-file:  #optional The backing file string to write into the overlay
1277#                           image of 'top'.  If 'top' is the active layer,
1278#                           specifying a backing file string is an error. This
1279#                           filename is not validated.
1280#
1281#                           If a pathname string is such that it cannot be
1282#                           resolved by QEMU, that means that subsequent QMP or
1283#                           HMP commands must use node-names for the image in
1284#                           question, as filename lookup methods will fail.
1285#
1286#                           If not specified, QEMU will automatically determine
1287#                           the backing file string to use, or error out if
1288#                           there is no obvious choice. Care should be taken
1289#                           when specifying the string, to specify a valid
1290#                           filename or protocol.
1291#                           (Since 2.1)
1292#
1293#                    If top == base, that is an error.
1294#                    If top == active, the job will not be completed by itself,
1295#                    user needs to complete the job with the block-job-complete
1296#                    command after getting the ready event. (Since 2.0)
1297#
1298#                    If the base image is smaller than top, then the base image
1299#                    will be resized to be the same size as top.  If top is
1300#                    smaller than the base image, the base will not be
1301#                    truncated.  If you want the base image size to match the
1302#                    size of the smaller top, you can safely truncate it
1303#                    yourself once the commit operation successfully completes.
1304#
1305# @speed:  #optional the maximum speed, in bytes per second
1306#
1307# Returns: Nothing on success
1308#          If commit or stream is already active on this device, DeviceInUse
1309#          If @device does not exist, DeviceNotFound
1310#          If image commit is not supported by this device, NotSupported
1311#          If @base or @top is invalid, a generic error is returned
1312#          If @speed is invalid, InvalidParameter
1313#
1314# Since: 1.3
1315#
1316# Example:
1317#
1318# -> { "execute": "block-commit",
1319#      "arguments": { "device": "virtio0",
1320#                     "top": "/tmp/snap1.qcow2" } }
1321# <- { "return": {} }
1322#
1323##
1324{ 'command': 'block-commit',
1325  'data': { '*job-id': 'str', 'device': 'str', '*base': 'str', '*top': 'str',
1326            '*backing-file': 'str', '*speed': 'int' } }
1327
1328##
1329# @drive-backup:
1330#
1331# Start a point-in-time copy of a block device to a new destination.  The
1332# status of ongoing drive-backup operations can be checked with
1333# query-block-jobs where the BlockJobInfo.type field has the value 'backup'.
1334# The operation can be stopped before it has completed using the
1335# block-job-cancel command.
1336#
1337# For the arguments, see the documentation of DriveBackup.
1338#
1339# Returns: nothing on success
1340#          If @device is not a valid block device, GenericError
1341#
1342# Since: 1.6
1343#
1344# Example:
1345#
1346# -> { "execute": "drive-backup",
1347#      "arguments": { "device": "drive0",
1348#                     "sync": "full",
1349#                     "target": "backup.img" } }
1350# <- { "return": {} }
1351#
1352##
1353{ 'command': 'drive-backup', 'boxed': true,
1354  'data': 'DriveBackup' }
1355
1356##
1357# @blockdev-backup:
1358#
1359# Start a point-in-time copy of a block device to a new destination.  The
1360# status of ongoing blockdev-backup operations can be checked with
1361# query-block-jobs where the BlockJobInfo.type field has the value 'backup'.
1362# The operation can be stopped before it has completed using the
1363# block-job-cancel command.
1364#
1365# For the arguments, see the documentation of BlockdevBackup.
1366#
1367# Returns: nothing on success
1368#          If @device is not a valid block device, DeviceNotFound
1369#
1370# Since: 2.3
1371#
1372# Example:
1373# -> { "execute": "blockdev-backup",
1374#      "arguments": { "device": "src-id",
1375#                     "sync": "full",
1376#                     "target": "tgt-id" } }
1377# <- { "return": {} }
1378#
1379##
1380{ 'command': 'blockdev-backup', 'boxed': true,
1381  'data': 'BlockdevBackup' }
1382
1383
1384##
1385# @query-named-block-nodes:
1386#
1387# Get the named block driver list
1388#
1389# Returns: the list of BlockDeviceInfo
1390#
1391# Since: 2.0
1392#
1393# Example:
1394#
1395# -> { "execute": "query-named-block-nodes" }
1396# <- { "return": [ { "ro":false,
1397#                    "drv":"qcow2",
1398#                    "encrypted":false,
1399#                    "file":"disks/test.qcow2",
1400#                    "node-name": "my-node",
1401#                    "backing_file_depth":1,
1402#                    "bps":1000000,
1403#                    "bps_rd":0,
1404#                    "bps_wr":0,
1405#                    "iops":1000000,
1406#                    "iops_rd":0,
1407#                    "iops_wr":0,
1408#                    "bps_max": 8000000,
1409#                    "bps_rd_max": 0,
1410#                    "bps_wr_max": 0,
1411#                    "iops_max": 0,
1412#                    "iops_rd_max": 0,
1413#                    "iops_wr_max": 0,
1414#                    "iops_size": 0,
1415#                    "write_threshold": 0,
1416#                    "image":{
1417#                       "filename":"disks/test.qcow2",
1418#                       "format":"qcow2",
1419#                       "virtual-size":2048000,
1420#                       "backing_file":"base.qcow2",
1421#                       "full-backing-filename":"disks/base.qcow2",
1422#                       "backing-filename-format":"qcow2",
1423#                       "snapshots":[
1424#                          {
1425#                             "id": "1",
1426#                             "name": "snapshot1",
1427#                             "vm-state-size": 0,
1428#                             "date-sec": 10000200,
1429#                             "date-nsec": 12,
1430#                             "vm-clock-sec": 206,
1431#                             "vm-clock-nsec": 30
1432#                          }
1433#                       ],
1434#                       "backing-image":{
1435#                           "filename":"disks/base.qcow2",
1436#                           "format":"qcow2",
1437#                           "virtual-size":2048000
1438#                       }
1439#                    } } ] }
1440#
1441##
1442{ 'command': 'query-named-block-nodes', 'returns': [ 'BlockDeviceInfo' ] }
1443
1444##
1445# @drive-mirror:
1446#
1447# Start mirroring a block device's writes to a new destination. target
1448# specifies the target of the new image. If the file exists, or if it
1449# is a device, it will be used as the new destination for writes. If
1450# it does not exist, a new file will be created. format specifies the
1451# format of the mirror image, default is to probe if mode='existing',
1452# else the format of the source.
1453#
1454# See DriveMirror for parameter descriptions
1455#
1456# Returns: nothing on success
1457#          If @device is not a valid block device, GenericError
1458#
1459# Since: 1.3
1460#
1461# Example:
1462#
1463# -> { "execute": "drive-mirror",
1464#      "arguments": { "device": "ide-hd0",
1465#                     "target": "/some/place/my-image",
1466#                     "sync": "full",
1467#                     "format": "qcow2" } }
1468# <- { "return": {} }
1469#
1470##
1471{ 'command': 'drive-mirror', 'boxed': true,
1472  'data': 'DriveMirror' }
1473
1474##
1475# @DriveMirror:
1476#
1477# A set of parameters describing drive mirror setup.
1478#
1479# @job-id: #optional identifier for the newly-created block job. If
1480#          omitted, the device name will be used. (Since 2.7)
1481#
1482# @device:  the device name or node-name of a root node whose writes should be
1483#           mirrored.
1484#
1485# @target: the target of the new image. If the file exists, or if it
1486#          is a device, the existing file/device will be used as the new
1487#          destination.  If it does not exist, a new file will be created.
1488#
1489# @format: #optional the format of the new destination, default is to
1490#          probe if @mode is 'existing', else the format of the source
1491#
1492# @node-name: #optional the new block driver state node name in the graph
1493#             (Since 2.1)
1494#
1495# @replaces: #optional with sync=full graph node name to be replaced by the new
1496#            image when a whole image copy is done. This can be used to repair
1497#            broken Quorum files. (Since 2.1)
1498#
1499# @mode: #optional whether and how QEMU should create a new image, default is
1500#        'absolute-paths'.
1501#
1502# @speed:  #optional the maximum speed, in bytes per second
1503#
1504# @sync: what parts of the disk image should be copied to the destination
1505#        (all the disk, only the sectors allocated in the topmost image, or
1506#        only new I/O).
1507#
1508# @granularity: #optional granularity of the dirty bitmap, default is 64K
1509#               if the image format doesn't have clusters, 4K if the clusters
1510#               are smaller than that, else the cluster size.  Must be a
1511#               power of 2 between 512 and 64M (since 1.4).
1512#
1513# @buf-size: #optional maximum amount of data in flight from source to
1514#            target (since 1.4).
1515#
1516# @on-source-error: #optional the action to take on an error on the source,
1517#                   default 'report'.  'stop' and 'enospc' can only be used
1518#                   if the block device supports io-status (see BlockInfo).
1519#
1520# @on-target-error: #optional the action to take on an error on the target,
1521#                   default 'report' (no limitations, since this applies to
1522#                   a different block device than @device).
1523# @unmap: #optional Whether to try to unmap target sectors where source has
1524#         only zero. If true, and target unallocated sectors will read as zero,
1525#         target image sectors will be unmapped; otherwise, zeroes will be
1526#         written. Both will result in identical contents.
1527#         Default is true. (Since 2.4)
1528#
1529# Since: 1.3
1530##
1531{ 'struct': 'DriveMirror',
1532  'data': { '*job-id': 'str', 'device': 'str', 'target': 'str',
1533            '*format': 'str', '*node-name': 'str', '*replaces': 'str',
1534            'sync': 'MirrorSyncMode', '*mode': 'NewImageMode',
1535            '*speed': 'int', '*granularity': 'uint32',
1536            '*buf-size': 'int', '*on-source-error': 'BlockdevOnError',
1537            '*on-target-error': 'BlockdevOnError',
1538            '*unmap': 'bool' } }
1539
1540##
1541# @BlockDirtyBitmap:
1542#
1543# @node: name of device/node which the bitmap is tracking
1544#
1545# @name: name of the dirty bitmap
1546#
1547# Since: 2.4
1548##
1549{ 'struct': 'BlockDirtyBitmap',
1550  'data': { 'node': 'str', 'name': 'str' } }
1551
1552##
1553# @BlockDirtyBitmapAdd:
1554#
1555# @node: name of device/node which the bitmap is tracking
1556#
1557# @name: name of the dirty bitmap
1558#
1559# @granularity: #optional the bitmap granularity, default is 64k for
1560#               block-dirty-bitmap-add
1561#
1562# Since: 2.4
1563##
1564{ 'struct': 'BlockDirtyBitmapAdd',
1565  'data': { 'node': 'str', 'name': 'str', '*granularity': 'uint32' } }
1566
1567##
1568# @block-dirty-bitmap-add:
1569#
1570# Create a dirty bitmap with a name on the node, and start tracking the writes.
1571#
1572# Returns: nothing on success
1573#          If @node is not a valid block device or node, DeviceNotFound
1574#          If @name is already taken, GenericError with an explanation
1575#
1576# Since: 2.4
1577#
1578# Example:
1579#
1580# -> { "execute": "block-dirty-bitmap-add",
1581#      "arguments": { "node": "drive0", "name": "bitmap0" } }
1582# <- { "return": {} }
1583#
1584##
1585{ 'command': 'block-dirty-bitmap-add',
1586  'data': 'BlockDirtyBitmapAdd' }
1587
1588##
1589# @block-dirty-bitmap-remove:
1590#
1591# Stop write tracking and remove the dirty bitmap that was created
1592# with block-dirty-bitmap-add.
1593#
1594# Returns: nothing on success
1595#          If @node is not a valid block device or node, DeviceNotFound
1596#          If @name is not found, GenericError with an explanation
1597#          if @name is frozen by an operation, GenericError
1598#
1599# Since: 2.4
1600#
1601# Example:
1602#
1603# -> { "execute": "block-dirty-bitmap-remove",
1604#      "arguments": { "node": "drive0", "name": "bitmap0" } }
1605# <- { "return": {} }
1606#
1607##
1608{ 'command': 'block-dirty-bitmap-remove',
1609  'data': 'BlockDirtyBitmap' }
1610
1611##
1612# @block-dirty-bitmap-clear:
1613#
1614# Clear (reset) a dirty bitmap on the device, so that an incremental
1615# backup from this point in time forward will only backup clusters
1616# modified after this clear operation.
1617#
1618# Returns: nothing on success
1619#          If @node is not a valid block device, DeviceNotFound
1620#          If @name is not found, GenericError with an explanation
1621#
1622# Since: 2.4
1623#
1624# Example:
1625#
1626# -> { "execute": "block-dirty-bitmap-clear",
1627#      "arguments": { "node": "drive0", "name": "bitmap0" } }
1628# <- { "return": {} }
1629#
1630##
1631{ 'command': 'block-dirty-bitmap-clear',
1632  'data': 'BlockDirtyBitmap' }
1633
1634##
1635# @blockdev-mirror:
1636#
1637# Start mirroring a block device's writes to a new destination.
1638#
1639# @job-id: #optional identifier for the newly-created block job. If
1640#          omitted, the device name will be used. (Since 2.7)
1641#
1642# @device: The device name or node-name of a root node whose writes should be
1643#          mirrored.
1644#
1645# @target: the id or node-name of the block device to mirror to. This mustn't be
1646#          attached to guest.
1647#
1648# @replaces: #optional with sync=full graph node name to be replaced by the new
1649#            image when a whole image copy is done. This can be used to repair
1650#            broken Quorum files.
1651#
1652# @speed:  #optional the maximum speed, in bytes per second
1653#
1654# @sync: what parts of the disk image should be copied to the destination
1655#        (all the disk, only the sectors allocated in the topmost image, or
1656#        only new I/O).
1657#
1658# @granularity: #optional granularity of the dirty bitmap, default is 64K
1659#               if the image format doesn't have clusters, 4K if the clusters
1660#               are smaller than that, else the cluster size.  Must be a
1661#               power of 2 between 512 and 64M
1662#
1663# @buf-size: #optional maximum amount of data in flight from source to
1664#            target
1665#
1666# @on-source-error: #optional the action to take on an error on the source,
1667#                   default 'report'.  'stop' and 'enospc' can only be used
1668#                   if the block device supports io-status (see BlockInfo).
1669#
1670# @on-target-error: #optional the action to take on an error on the target,
1671#                   default 'report' (no limitations, since this applies to
1672#                   a different block device than @device).
1673#
1674# Returns: nothing on success.
1675#
1676# Since: 2.6
1677#
1678# Example:
1679#
1680# -> { "execute": "blockdev-mirror",
1681#      "arguments": { "device": "ide-hd0",
1682#                     "target": "target0",
1683#                     "sync": "full" } }
1684# <- { "return": {} }
1685#
1686##
1687{ 'command': 'blockdev-mirror',
1688  'data': { '*job-id': 'str', 'device': 'str', 'target': 'str',
1689            '*replaces': 'str',
1690            'sync': 'MirrorSyncMode',
1691            '*speed': 'int', '*granularity': 'uint32',
1692            '*buf-size': 'int', '*on-source-error': 'BlockdevOnError',
1693            '*on-target-error': 'BlockdevOnError' } }
1694
1695##
1696# @block_set_io_throttle:
1697#
1698# Change I/O throttle limits for a block drive.
1699#
1700# Since QEMU 2.4, each device with I/O limits is member of a throttle
1701# group.
1702#
1703# If two or more devices are members of the same group, the limits
1704# will apply to the combined I/O of the whole group in a round-robin
1705# fashion. Therefore, setting new I/O limits to a device will affect
1706# the whole group.
1707#
1708# The name of the group can be specified using the 'group' parameter.
1709# If the parameter is unset, it is assumed to be the current group of
1710# that device. If it's not in any group yet, the name of the device
1711# will be used as the name for its group.
1712#
1713# The 'group' parameter can also be used to move a device to a
1714# different group. In this case the limits specified in the parameters
1715# will be applied to the new group only.
1716#
1717# I/O limits can be disabled by setting all of them to 0. In this case
1718# the device will be removed from its group and the rest of its
1719# members will not be affected. The 'group' parameter is ignored.
1720#
1721# See BlockIOThrottle for parameter descriptions.
1722#
1723# Returns: Nothing on success
1724#          If @device is not a valid block device, DeviceNotFound
1725#
1726# Since: 1.1
1727#
1728# Example:
1729#
1730# -> { "execute": "block_set_io_throttle",
1731#      "arguments": { "id": "ide0-1-0",
1732#                     "bps": 1000000,
1733#                     "bps_rd": 0,
1734#                     "bps_wr": 0,
1735#                     "iops": 0,
1736#                     "iops_rd": 0,
1737#                     "iops_wr": 0,
1738#                     "bps_max": 8000000,
1739#                     "bps_rd_max": 0,
1740#                     "bps_wr_max": 0,
1741#                     "iops_max": 0,
1742#                     "iops_rd_max": 0,
1743#                     "iops_wr_max": 0,
1744#                     "bps_max_length": 60,
1745#                     "iops_size": 0 } }
1746# <- { "return": {} }
1747##
1748{ 'command': 'block_set_io_throttle', 'boxed': true,
1749  'data': 'BlockIOThrottle' }
1750
1751##
1752# @BlockIOThrottle:
1753#
1754# A set of parameters describing block throttling.
1755#
1756# @device: #optional Block device name (deprecated, use @id instead)
1757#
1758# @id: #optional The name or QOM path of the guest device (since: 2.8)
1759#
1760# @bps: total throughput limit in bytes per second
1761#
1762# @bps_rd: read throughput limit in bytes per second
1763#
1764# @bps_wr: write throughput limit in bytes per second
1765#
1766# @iops: total I/O operations per second
1767#
1768# @iops_rd: read I/O operations per second
1769#
1770# @iops_wr: write I/O operations per second
1771#
1772# @bps_max: #optional total throughput limit during bursts,
1773#                     in bytes (Since 1.7)
1774#
1775# @bps_rd_max: #optional read throughput limit during bursts,
1776#                        in bytes (Since 1.7)
1777#
1778# @bps_wr_max: #optional write throughput limit during bursts,
1779#                        in bytes (Since 1.7)
1780#
1781# @iops_max: #optional total I/O operations per second during bursts,
1782#                      in bytes (Since 1.7)
1783#
1784# @iops_rd_max: #optional read I/O operations per second during bursts,
1785#                         in bytes (Since 1.7)
1786#
1787# @iops_wr_max: #optional write I/O operations per second during bursts,
1788#                         in bytes (Since 1.7)
1789#
1790# @bps_max_length: #optional maximum length of the @bps_max burst
1791#                            period, in seconds. It must only
1792#                            be set if @bps_max is set as well.
1793#                            Defaults to 1. (Since 2.6)
1794#
1795# @bps_rd_max_length: #optional maximum length of the @bps_rd_max
1796#                               burst period, in seconds. It must only
1797#                               be set if @bps_rd_max is set as well.
1798#                               Defaults to 1. (Since 2.6)
1799#
1800# @bps_wr_max_length: #optional maximum length of the @bps_wr_max
1801#                               burst period, in seconds. It must only
1802#                               be set if @bps_wr_max is set as well.
1803#                               Defaults to 1. (Since 2.6)
1804#
1805# @iops_max_length: #optional maximum length of the @iops burst
1806#                             period, in seconds. It must only
1807#                             be set if @iops_max is set as well.
1808#                             Defaults to 1. (Since 2.6)
1809#
1810# @iops_rd_max_length: #optional maximum length of the @iops_rd_max
1811#                                burst period, in seconds. It must only
1812#                                be set if @iops_rd_max is set as well.
1813#                                Defaults to 1. (Since 2.6)
1814#
1815# @iops_wr_max_length: #optional maximum length of the @iops_wr_max
1816#                                burst period, in seconds. It must only
1817#                                be set if @iops_wr_max is set as well.
1818#                                Defaults to 1. (Since 2.6)
1819#
1820# @iops_size: #optional an I/O size in bytes (Since 1.7)
1821#
1822# @group: #optional throttle group name (Since 2.4)
1823#
1824# Since: 1.1
1825##
1826{ 'struct': 'BlockIOThrottle',
1827  'data': { '*device': 'str', '*id': 'str', 'bps': 'int', 'bps_rd': 'int',
1828            'bps_wr': 'int', 'iops': 'int', 'iops_rd': 'int', 'iops_wr': 'int',
1829            '*bps_max': 'int', '*bps_rd_max': 'int',
1830            '*bps_wr_max': 'int', '*iops_max': 'int',
1831            '*iops_rd_max': 'int', '*iops_wr_max': 'int',
1832            '*bps_max_length': 'int', '*bps_rd_max_length': 'int',
1833            '*bps_wr_max_length': 'int', '*iops_max_length': 'int',
1834            '*iops_rd_max_length': 'int', '*iops_wr_max_length': 'int',
1835            '*iops_size': 'int', '*group': 'str' } }
1836
1837##
1838# @block-stream:
1839#
1840# Copy data from a backing file into a block device.
1841#
1842# The block streaming operation is performed in the background until the entire
1843# backing file has been copied.  This command returns immediately once streaming
1844# has started.  The status of ongoing block streaming operations can be checked
1845# with query-block-jobs.  The operation can be stopped before it has completed
1846# using the block-job-cancel command.
1847#
1848# The node that receives the data is called the top image, can be located in
1849# any part of the chain (but always above the base image; see below) and can be
1850# specified using its device or node name. Earlier qemu versions only allowed
1851# 'device' to name the top level node; presence of the 'base-node' parameter
1852# during introspection can be used as a witness of the enhanced semantics
1853# of 'device'.
1854#
1855# If a base file is specified then sectors are not copied from that base file and
1856# its backing chain.  When streaming completes the image file will have the base
1857# file as its backing file.  This can be used to stream a subset of the backing
1858# file chain instead of flattening the entire image.
1859#
1860# On successful completion the image file is updated to drop the backing file
1861# and the BLOCK_JOB_COMPLETED event is emitted.
1862#
1863# @job-id: #optional identifier for the newly-created block job. If
1864#          omitted, the device name will be used. (Since 2.7)
1865#
1866# @device: the device or node name of the top image
1867#
1868# @base:   #optional the common backing file name.
1869#                    It cannot be set if @base-node is also set.
1870#
1871# @base-node: #optional the node name of the backing file.
1872#                       It cannot be set if @base is also set. (Since 2.8)
1873#
1874# @backing-file: #optional The backing file string to write into the top
1875#                          image. This filename is not validated.
1876#
1877#                          If a pathname string is such that it cannot be
1878#                          resolved by QEMU, that means that subsequent QMP or
1879#                          HMP commands must use node-names for the image in
1880#                          question, as filename lookup methods will fail.
1881#
1882#                          If not specified, QEMU will automatically determine
1883#                          the backing file string to use, or error out if there
1884#                          is no obvious choice.  Care should be taken when
1885#                          specifying the string, to specify a valid filename or
1886#                          protocol.
1887#                          (Since 2.1)
1888#
1889# @speed:  #optional the maximum speed, in bytes per second
1890#
1891# @on-error: #optional the action to take on an error (default report).
1892#            'stop' and 'enospc' can only be used if the block device
1893#            supports io-status (see BlockInfo).  Since 1.3.
1894#
1895# Returns: Nothing on success. If @device does not exist, DeviceNotFound.
1896#
1897# Since: 1.1
1898#
1899# Example:
1900#
1901# -> { "execute": "block-stream",
1902#      "arguments": { "device": "virtio0",
1903#                     "base": "/tmp/master.qcow2" } }
1904# <- { "return": {} }
1905#
1906##
1907{ 'command': 'block-stream',
1908  'data': { '*job-id': 'str', 'device': 'str', '*base': 'str',
1909            '*base-node': 'str', '*backing-file': 'str', '*speed': 'int',
1910            '*on-error': 'BlockdevOnError' } }
1911
1912##
1913# @block-job-set-speed:
1914#
1915# Set maximum speed for a background block operation.
1916#
1917# This command can only be issued when there is an active block job.
1918#
1919# Throttling can be disabled by setting the speed to 0.
1920#
1921# @device: The job identifier. This used to be a device name (hence
1922#          the name of the parameter), but since QEMU 2.7 it can have
1923#          other values.
1924#
1925# @speed:  the maximum speed, in bytes per second, or 0 for unlimited.
1926#          Defaults to 0.
1927#
1928# Returns: Nothing on success
1929#          If no background operation is active on this device, DeviceNotActive
1930#
1931# Since: 1.1
1932##
1933{ 'command': 'block-job-set-speed',
1934  'data': { 'device': 'str', 'speed': 'int' } }
1935
1936##
1937# @block-job-cancel:
1938#
1939# Stop an active background block operation.
1940#
1941# This command returns immediately after marking the active background block
1942# operation for cancellation.  It is an error to call this command if no
1943# operation is in progress.
1944#
1945# The operation will cancel as soon as possible and then emit the
1946# BLOCK_JOB_CANCELLED event.  Before that happens the job is still visible when
1947# enumerated using query-block-jobs.
1948#
1949# For streaming, the image file retains its backing file unless the streaming
1950# operation happens to complete just as it is being cancelled.  A new streaming
1951# operation can be started at a later time to finish copying all data from the
1952# backing file.
1953#
1954# @device: The job identifier. This used to be a device name (hence
1955#          the name of the parameter), but since QEMU 2.7 it can have
1956#          other values.
1957#
1958# @force: #optional whether to allow cancellation of a paused job (default
1959#         false).  Since 1.3.
1960#
1961# Returns: Nothing on success
1962#          If no background operation is active on this device, DeviceNotActive
1963#
1964# Since: 1.1
1965##
1966{ 'command': 'block-job-cancel', 'data': { 'device': 'str', '*force': 'bool' } }
1967
1968##
1969# @block-job-pause:
1970#
1971# Pause an active background block operation.
1972#
1973# This command returns immediately after marking the active background block
1974# operation for pausing.  It is an error to call this command if no
1975# operation is in progress.  Pausing an already paused job has no cumulative
1976# effect; a single block-job-resume command will resume the job.
1977#
1978# The operation will pause as soon as possible.  No event is emitted when
1979# the operation is actually paused.  Cancelling a paused job automatically
1980# resumes it.
1981#
1982# @device: The job identifier. This used to be a device name (hence
1983#          the name of the parameter), but since QEMU 2.7 it can have
1984#          other values.
1985#
1986# Returns: Nothing on success
1987#          If no background operation is active on this device, DeviceNotActive
1988#
1989# Since: 1.3
1990##
1991{ 'command': 'block-job-pause', 'data': { 'device': 'str' } }
1992
1993##
1994# @block-job-resume:
1995#
1996# Resume an active background block operation.
1997#
1998# This command returns immediately after resuming a paused background block
1999# operation.  It is an error to call this command if no operation is in
2000# progress.  Resuming an already running job is not an error.
2001#
2002# This command also clears the error status of the job.
2003#
2004# @device: The job identifier. This used to be a device name (hence
2005#          the name of the parameter), but since QEMU 2.7 it can have
2006#          other values.
2007#
2008# Returns: Nothing on success
2009#          If no background operation is active on this device, DeviceNotActive
2010#
2011# Since: 1.3
2012##
2013{ 'command': 'block-job-resume', 'data': { 'device': 'str' } }
2014
2015##
2016# @block-job-complete:
2017#
2018# Manually trigger completion of an active background block operation.  This
2019# is supported for drive mirroring, where it also switches the device to
2020# write to the target path only.  The ability to complete is signaled with
2021# a BLOCK_JOB_READY event.
2022#
2023# This command completes an active background block operation synchronously.
2024# The ordering of this command's return with the BLOCK_JOB_COMPLETED event
2025# is not defined.  Note that if an I/O error occurs during the processing of
2026# this command: 1) the command itself will fail; 2) the error will be processed
2027# according to the rerror/werror arguments that were specified when starting
2028# the operation.
2029#
2030# A cancelled or paused job cannot be completed.
2031#
2032# @device: The job identifier. This used to be a device name (hence
2033#          the name of the parameter), but since QEMU 2.7 it can have
2034#          other values.
2035#
2036# Returns: Nothing on success
2037#          If no background operation is active on this device, DeviceNotActive
2038#
2039# Since: 1.3
2040##
2041{ 'command': 'block-job-complete', 'data': { 'device': 'str' } }
2042
2043##
2044# @BlockdevDiscardOptions:
2045#
2046# Determines how to handle discard requests.
2047#
2048# @ignore:      Ignore the request
2049# @unmap:       Forward as an unmap request
2050#
2051# Since: 1.7
2052##
2053{ 'enum': 'BlockdevDiscardOptions',
2054  'data': [ 'ignore', 'unmap' ] }
2055
2056##
2057# @BlockdevDetectZeroesOptions:
2058#
2059# Describes the operation mode for the automatic conversion of plain
2060# zero writes by the OS to driver specific optimized zero write commands.
2061#
2062# @off:      Disabled (default)
2063# @on:       Enabled
2064# @unmap:    Enabled and even try to unmap blocks if possible. This requires
2065#            also that @BlockdevDiscardOptions is set to unmap for this device.
2066#
2067# Since: 2.1
2068##
2069{ 'enum': 'BlockdevDetectZeroesOptions',
2070  'data': [ 'off', 'on', 'unmap' ] }
2071
2072##
2073# @BlockdevAioOptions:
2074#
2075# Selects the AIO backend to handle I/O requests
2076#
2077# @threads:     Use qemu's thread pool
2078# @native:      Use native AIO backend (only Linux and Windows)
2079#
2080# Since: 1.7
2081##
2082{ 'enum': 'BlockdevAioOptions',
2083  'data': [ 'threads', 'native' ] }
2084
2085##
2086# @BlockdevCacheOptions:
2087#
2088# Includes cache-related options for block devices
2089#
2090# @direct:      #optional enables use of O_DIRECT (bypass the host page cache;
2091#               default: false)
2092# @no-flush:    #optional ignore any flush requests for the device (default:
2093#               false)
2094#
2095# Since: 1.7
2096##
2097{ 'struct': 'BlockdevCacheOptions',
2098  'data': { '*direct': 'bool',
2099            '*no-flush': 'bool' } }
2100
2101##
2102# @BlockdevDriver:
2103#
2104# Drivers that are supported in block device operations.
2105#
2106# @host_device: Since 2.1
2107# @host_cdrom: Since 2.1
2108# @gluster: Since 2.7
2109# @nbd: Since 2.8
2110# @nfs: Since 2.8
2111# @replication: Since 2.8
2112# @ssh: Since 2.8
2113#
2114# Since: 2.0
2115##
2116{ 'enum': 'BlockdevDriver',
2117  'data': [ 'archipelago', 'blkdebug', 'blkverify', 'bochs', 'cloop',
2118            'dmg', 'file', 'ftp', 'ftps', 'gluster', 'host_cdrom',
2119            'host_device', 'http', 'https', 'luks', 'nbd', 'nfs', 'null-aio',
2120            'null-co', 'parallels', 'qcow', 'qcow2', 'qed', 'quorum', 'raw',
2121            'replication', 'ssh', 'vdi', 'vhdx', 'vmdk', 'vpc',
2122            'vvfat' ] }
2123
2124##
2125# @BlockdevOptionsFile:
2126#
2127# Driver specific block device options for the file backend.
2128#
2129# @filename:    path to the image file
2130# @aio:         #optional AIO backend (default: threads) (since: 2.8)
2131#
2132# Since: 1.7
2133##
2134{ 'struct': 'BlockdevOptionsFile',
2135  'data': { 'filename': 'str',
2136            '*aio': 'BlockdevAioOptions' } }
2137
2138##
2139# @BlockdevOptionsNull:
2140#
2141# Driver specific block device options for the null backend.
2142#
2143# @size:    #optional size of the device in bytes.
2144# @latency-ns: #optional emulated latency (in nanoseconds) in processing
2145#              requests. Default to zero which completes requests immediately.
2146#              (Since 2.4)
2147#
2148# Since: 2.2
2149##
2150{ 'struct': 'BlockdevOptionsNull',
2151  'data': { '*size': 'int', '*latency-ns': 'uint64' } }
2152
2153##
2154# @BlockdevOptionsVVFAT:
2155#
2156# Driver specific block device options for the vvfat protocol.
2157#
2158# @dir:         directory to be exported as FAT image
2159# @fat-type:    #optional FAT type: 12, 16 or 32
2160# @floppy:      #optional whether to export a floppy image (true) or
2161#               partitioned hard disk (false; default)
2162# @label:       #optional set the volume label, limited to 11 bytes. FAT16 and
2163#               FAT32 traditionally have some restrictions on labels, which are
2164#               ignored by most operating systems. Defaults to "QEMU VVFAT".
2165#               (since 2.4)
2166# @rw:          #optional whether to allow write operations (default: false)
2167#
2168# Since: 1.7
2169##
2170{ 'struct': 'BlockdevOptionsVVFAT',
2171  'data': { 'dir': 'str', '*fat-type': 'int', '*floppy': 'bool',
2172            '*label': 'str', '*rw': 'bool' } }
2173
2174##
2175# @BlockdevOptionsGenericFormat:
2176#
2177# Driver specific block device options for image format that have no option
2178# besides their data source.
2179#
2180# @file:        reference to or definition of the data source block device
2181#
2182# Since: 1.7
2183##
2184{ 'struct': 'BlockdevOptionsGenericFormat',
2185  'data': { 'file': 'BlockdevRef' } }
2186
2187##
2188# @BlockdevOptionsLUKS:
2189#
2190# Driver specific block device options for LUKS.
2191#
2192# @key-secret: #optional the ID of a QCryptoSecret object providing
2193#              the decryption key (since 2.6). Mandatory except when
2194#              doing a metadata-only probe of the image.
2195#
2196# Since: 2.6
2197##
2198{ 'struct': 'BlockdevOptionsLUKS',
2199  'base': 'BlockdevOptionsGenericFormat',
2200  'data': { '*key-secret': 'str' } }
2201
2202
2203##
2204# @BlockdevOptionsGenericCOWFormat:
2205#
2206# Driver specific block device options for image format that have no option
2207# besides their data source and an optional backing file.
2208#
2209# @backing:     #optional reference to or definition of the backing file block
2210#               device (if missing, taken from the image file content). It is
2211#               allowed to pass an empty string here in order to disable the
2212#               default backing file.
2213#
2214# Since: 1.7
2215##
2216{ 'struct': 'BlockdevOptionsGenericCOWFormat',
2217  'base': 'BlockdevOptionsGenericFormat',
2218  'data': { '*backing': 'BlockdevRef' } }
2219
2220##
2221# @Qcow2OverlapCheckMode:
2222#
2223# General overlap check modes.
2224#
2225# @none:        Do not perform any checks
2226#
2227# @constant:    Perform only checks which can be done in constant time and
2228#               without reading anything from disk
2229#
2230# @cached:      Perform only checks which can be done without reading anything
2231#               from disk
2232#
2233# @all:         Perform all available overlap checks
2234#
2235# Since: 2.2
2236##
2237{ 'enum': 'Qcow2OverlapCheckMode',
2238  'data': [ 'none', 'constant', 'cached', 'all' ] }
2239
2240##
2241# @Qcow2OverlapCheckFlags:
2242#
2243# Structure of flags for each metadata structure. Setting a field to 'true'
2244# makes qemu guard that structure against unintended overwriting. The default
2245# value is chosen according to the template given.
2246#
2247# @template: Specifies a template mode which can be adjusted using the other
2248#            flags, defaults to 'cached'
2249#
2250# Since: 2.2
2251##
2252{ 'struct': 'Qcow2OverlapCheckFlags',
2253  'data': { '*template':       'Qcow2OverlapCheckMode',
2254            '*main-header':    'bool',
2255            '*active-l1':      'bool',
2256            '*active-l2':      'bool',
2257            '*refcount-table': 'bool',
2258            '*refcount-block': 'bool',
2259            '*snapshot-table': 'bool',
2260            '*inactive-l1':    'bool',
2261            '*inactive-l2':    'bool' } }
2262
2263##
2264# @Qcow2OverlapChecks:
2265#
2266# Specifies which metadata structures should be guarded against unintended
2267# overwriting.
2268#
2269# @flags:   set of flags for separate specification of each metadata structure
2270#           type
2271#
2272# @mode:    named mode which chooses a specific set of flags
2273#
2274# Since: 2.2
2275##
2276{ 'alternate': 'Qcow2OverlapChecks',
2277  'data': { 'flags': 'Qcow2OverlapCheckFlags',
2278            'mode':  'Qcow2OverlapCheckMode' } }
2279
2280##
2281# @BlockdevOptionsQcow2:
2282#
2283# Driver specific block device options for qcow2.
2284#
2285# @lazy-refcounts:        #optional whether to enable the lazy refcounts
2286#                         feature (default is taken from the image file)
2287#
2288# @pass-discard-request:  #optional whether discard requests to the qcow2
2289#                         device should be forwarded to the data source
2290#
2291# @pass-discard-snapshot: #optional whether discard requests for the data source
2292#                         should be issued when a snapshot operation (e.g.
2293#                         deleting a snapshot) frees clusters in the qcow2 file
2294#
2295# @pass-discard-other:    #optional whether discard requests for the data source
2296#                         should be issued on other occasions where a cluster
2297#                         gets freed
2298#
2299# @overlap-check:         #optional which overlap checks to perform for writes
2300#                         to the image, defaults to 'cached' (since 2.2)
2301#
2302# @cache-size:            #optional the maximum total size of the L2 table and
2303#                         refcount block caches in bytes (since 2.2)
2304#
2305# @l2-cache-size:         #optional the maximum size of the L2 table cache in
2306#                         bytes (since 2.2)
2307#
2308# @refcount-cache-size:   #optional the maximum size of the refcount block cache
2309#                         in bytes (since 2.2)
2310#
2311# @cache-clean-interval:  #optional clean unused entries in the L2 and refcount
2312#                         caches. The interval is in seconds. The default value
2313#                         is 0 and it disables this feature (since 2.5)
2314#
2315# Since: 1.7
2316##
2317{ 'struct': 'BlockdevOptionsQcow2',
2318  'base': 'BlockdevOptionsGenericCOWFormat',
2319  'data': { '*lazy-refcounts': 'bool',
2320            '*pass-discard-request': 'bool',
2321            '*pass-discard-snapshot': 'bool',
2322            '*pass-discard-other': 'bool',
2323            '*overlap-check': 'Qcow2OverlapChecks',
2324            '*cache-size': 'int',
2325            '*l2-cache-size': 'int',
2326            '*refcount-cache-size': 'int',
2327            '*cache-clean-interval': 'int' } }
2328
2329
2330##
2331# @BlockdevOptionsArchipelago:
2332#
2333# Driver specific block device options for Archipelago.
2334#
2335# @volume:              Name of the Archipelago volume image
2336#
2337# @mport:               #optional The port number on which mapperd is
2338#                       listening. This is optional
2339#                       and if not specified, QEMU will make Archipelago
2340#                       use the default port (1001).
2341#
2342# @vport:               #optional The port number on which vlmcd is
2343#                       listening. This is optional
2344#                       and if not specified, QEMU will make Archipelago
2345#                       use the default port (501).
2346#
2347# @segment:             #optional The name of the shared memory segment
2348#                       Archipelago stack is using. This is optional
2349#                       and if not specified, QEMU will make Archipelago
2350#                       use the default value, 'archipelago'.
2351# Since: 2.2
2352##
2353{ 'struct': 'BlockdevOptionsArchipelago',
2354  'data': { 'volume': 'str',
2355            '*mport': 'int',
2356            '*vport': 'int',
2357            '*segment': 'str' } }
2358
2359##
2360# @BlockdevOptionsSsh:
2361#
2362# @server:              host address
2363#
2364# @path:                path to the image on the host
2365#
2366# @user:                #optional user as which to connect, defaults to current
2367#                       local user name
2368#
2369# TODO: Expose the host_key_check option in QMP
2370#
2371# Since: 2.8
2372##
2373{ 'struct': 'BlockdevOptionsSsh',
2374  'data': { 'server': 'InetSocketAddress',
2375            'path': 'str',
2376            '*user': 'str' } }
2377
2378
2379##
2380# @BlkdebugEvent:
2381#
2382# Trigger events supported by blkdebug.
2383#
2384# Since: 2.0
2385##
2386{ 'enum': 'BlkdebugEvent', 'prefix': 'BLKDBG',
2387  'data': [ 'l1_update', 'l1_grow_alloc_table', 'l1_grow_write_table',
2388            'l1_grow_activate_table', 'l2_load', 'l2_update',
2389            'l2_update_compressed', 'l2_alloc_cow_read', 'l2_alloc_write',
2390            'read_aio', 'read_backing_aio', 'read_compressed', 'write_aio',
2391            'write_compressed', 'vmstate_load', 'vmstate_save', 'cow_read',
2392            'cow_write', 'reftable_load', 'reftable_grow', 'reftable_update',
2393            'refblock_load', 'refblock_update', 'refblock_update_part',
2394            'refblock_alloc', 'refblock_alloc_hookup', 'refblock_alloc_write',
2395            'refblock_alloc_write_blocks', 'refblock_alloc_write_table',
2396            'refblock_alloc_switch_table', 'cluster_alloc',
2397            'cluster_alloc_bytes', 'cluster_free', 'flush_to_os',
2398            'flush_to_disk', 'pwritev_rmw_head', 'pwritev_rmw_after_head',
2399            'pwritev_rmw_tail', 'pwritev_rmw_after_tail', 'pwritev',
2400            'pwritev_zero', 'pwritev_done', 'empty_image_prepare' ] }
2401
2402##
2403# @BlkdebugInjectErrorOptions:
2404#
2405# Describes a single error injection for blkdebug.
2406#
2407# @event:       trigger event
2408#
2409# @state:       #optional the state identifier blkdebug needs to be in to
2410#               actually trigger the event; defaults to "any"
2411#
2412# @errno:       #optional error identifier (errno) to be returned; defaults to
2413#               EIO
2414#
2415# @sector:      #optional specifies the sector index which has to be affected
2416#               in order to actually trigger the event; defaults to "any
2417#               sector"
2418#
2419# @once:        #optional disables further events after this one has been
2420#               triggered; defaults to false
2421#
2422# @immediately: #optional fail immediately; defaults to false
2423#
2424# Since: 2.0
2425##
2426{ 'struct': 'BlkdebugInjectErrorOptions',
2427  'data': { 'event': 'BlkdebugEvent',
2428            '*state': 'int',
2429            '*errno': 'int',
2430            '*sector': 'int',
2431            '*once': 'bool',
2432            '*immediately': 'bool' } }
2433
2434##
2435# @BlkdebugSetStateOptions:
2436#
2437# Describes a single state-change event for blkdebug.
2438#
2439# @event:       trigger event
2440#
2441# @state:       #optional the current state identifier blkdebug needs to be in;
2442#               defaults to "any"
2443#
2444# @new_state:   the state identifier blkdebug is supposed to assume if
2445#               this event is triggered
2446#
2447# Since: 2.0
2448##
2449{ 'struct': 'BlkdebugSetStateOptions',
2450  'data': { 'event': 'BlkdebugEvent',
2451            '*state': 'int',
2452            'new_state': 'int' } }
2453
2454##
2455# @BlockdevOptionsBlkdebug:
2456#
2457# Driver specific block device options for blkdebug.
2458#
2459# @image:           underlying raw block device (or image file)
2460#
2461# @config:          #optional filename of the configuration file
2462#
2463# @align:           #optional required alignment for requests in bytes,
2464#                   must be power of 2, or 0 for default
2465#
2466# @inject-error:    #optional array of error injection descriptions
2467#
2468# @set-state:       #optional array of state-change descriptions
2469#
2470# Since: 2.0
2471##
2472{ 'struct': 'BlockdevOptionsBlkdebug',
2473  'data': { 'image': 'BlockdevRef',
2474            '*config': 'str',
2475            '*align': 'int',
2476            '*inject-error': ['BlkdebugInjectErrorOptions'],
2477            '*set-state': ['BlkdebugSetStateOptions'] } }
2478
2479##
2480# @BlockdevOptionsBlkverify:
2481#
2482# Driver specific block device options for blkverify.
2483#
2484# @test:    block device to be tested
2485#
2486# @raw:     raw image used for verification
2487#
2488# Since: 2.0
2489##
2490{ 'struct': 'BlockdevOptionsBlkverify',
2491  'data': { 'test': 'BlockdevRef',
2492            'raw': 'BlockdevRef' } }
2493
2494##
2495# @QuorumReadPattern:
2496#
2497# An enumeration of quorum read patterns.
2498#
2499# @quorum: read all the children and do a quorum vote on reads
2500#
2501# @fifo: read only from the first child that has not failed
2502#
2503# Since: 2.2
2504##
2505{ 'enum': 'QuorumReadPattern', 'data': [ 'quorum', 'fifo' ] }
2506
2507##
2508# @BlockdevOptionsQuorum:
2509#
2510# Driver specific block device options for Quorum
2511#
2512# @blkverify:      #optional true if the driver must print content mismatch
2513#                  set to false by default
2514#
2515# @children:       the children block devices to use
2516#
2517# @vote-threshold: the vote limit under which a read will fail
2518#
2519# @rewrite-corrupted: #optional rewrite corrupted data when quorum is reached
2520#                     (Since 2.1)
2521#
2522# @read-pattern: #optional choose read pattern and set to quorum by default
2523#                (Since 2.2)
2524#
2525# Since: 2.0
2526##
2527{ 'struct': 'BlockdevOptionsQuorum',
2528  'data': { '*blkverify': 'bool',
2529            'children': [ 'BlockdevRef' ],
2530            'vote-threshold': 'int',
2531            '*rewrite-corrupted': 'bool',
2532            '*read-pattern': 'QuorumReadPattern' } }
2533
2534##
2535# @GlusterTransport:
2536#
2537# An enumeration of Gluster transport types
2538#
2539# @tcp:   TCP   - Transmission Control Protocol
2540#
2541# @unix:  UNIX  - Unix domain socket
2542#
2543# Since: 2.7
2544##
2545{ 'enum': 'GlusterTransport',
2546  'data': [ 'unix', 'tcp' ] }
2547
2548
2549##
2550# @GlusterServer:
2551#
2552# Captures the address of a socket
2553#
2554# Details for connecting to a gluster server
2555#
2556# @type:       Transport type used for gluster connection
2557#
2558# This is similar to SocketAddress, only distinction:
2559#
2560# 1. GlusterServer is a flat union, SocketAddress is a simple union.
2561#    A flat union is nicer than simple because it avoids nesting
2562#    (i.e. more {}) on the wire.
2563#
2564# 2. GlusterServer lacks case 'fd', since gluster doesn't let you
2565#    pass in a file descriptor.
2566#
2567# GlusterServer is actually not Gluster-specific, its a
2568# compatibility evolved into an alternate for SocketAddress.
2569#
2570# Since: 2.7
2571##
2572{ 'union': 'GlusterServer',
2573  'base': { 'type': 'GlusterTransport' },
2574  'discriminator': 'type',
2575  'data': { 'unix': 'UnixSocketAddress',
2576            'tcp': 'InetSocketAddress' } }
2577
2578##
2579# @BlockdevOptionsGluster:
2580#
2581# Driver specific block device options for Gluster
2582#
2583# @volume:      name of gluster volume where VM image resides
2584#
2585# @path:        absolute path to image file in gluster volume
2586#
2587# @server:      gluster servers description
2588#
2589# @debug:       #optional libgfapi log level (default '4' which is Error)
2590#               (Since 2.8)
2591#
2592# @logfile:     #optional libgfapi log file (default /dev/stderr) (Since 2.8)
2593#
2594# Since: 2.7
2595##
2596{ 'struct': 'BlockdevOptionsGluster',
2597  'data': { 'volume': 'str',
2598            'path': 'str',
2599            'server': ['GlusterServer'],
2600            '*debug': 'int',
2601            '*logfile': 'str' } }
2602
2603##
2604# @ReplicationMode:
2605#
2606# An enumeration of replication modes.
2607#
2608# @primary: Primary mode, the vm's state will be sent to secondary QEMU.
2609#
2610# @secondary: Secondary mode, receive the vm's state from primary QEMU.
2611#
2612# Since: 2.8
2613##
2614{ 'enum' : 'ReplicationMode', 'data' : [ 'primary', 'secondary' ] }
2615
2616##
2617# @BlockdevOptionsReplication:
2618#
2619# Driver specific block device options for replication
2620#
2621# @mode: the replication mode
2622#
2623# @top-id: #optional In secondary mode, node name or device ID of the root
2624#          node who owns the replication node chain. Must not be given in
2625#          primary mode.
2626#
2627# Since: 2.8
2628##
2629{ 'struct': 'BlockdevOptionsReplication',
2630  'base': 'BlockdevOptionsGenericFormat',
2631  'data': { 'mode': 'ReplicationMode',
2632            '*top-id': 'str' } }
2633
2634##
2635# @NFSTransport:
2636#
2637# An enumeration of NFS transport types
2638#
2639# @inet:        TCP transport
2640#
2641# Since: 2.8
2642##
2643{ 'enum': 'NFSTransport',
2644  'data': [ 'inet' ] }
2645
2646##
2647# @NFSServer:
2648#
2649# Captures the address of the socket
2650#
2651# @type:        transport type used for NFS (only TCP supported)
2652#
2653# @host:        host address for NFS server
2654#
2655# Since: 2.8
2656##
2657{ 'struct': 'NFSServer',
2658  'data': { 'type': 'NFSTransport',
2659            'host': 'str' } }
2660
2661##
2662# @BlockdevOptionsNfs:
2663#
2664# Driver specific block device option for NFS
2665#
2666# @server:                  host address
2667#
2668# @path:                    path of the image on the host
2669#
2670# @user:                    #optional UID value to use when talking to the
2671#                           server (defaults to 65534 on Windows and getuid()
2672#                           on unix)
2673#
2674# @group:                   #optional GID value to use when talking to the
2675#                           server (defaults to 65534 on Windows and getgid()
2676#                           in unix)
2677#
2678# @tcp-syn-count:           #optional number of SYNs during the session
2679#                           establishment (defaults to libnfs default)
2680#
2681# @readahead-size:          #optional set the readahead size in bytes (defaults
2682#                           to libnfs default)
2683#
2684# @page-cache-size:         #optional set the pagecache size in bytes (defaults
2685#                           to libnfs default)
2686#
2687# @debug:                   #optional set the NFS debug level (max 2) (defaults
2688#                           to libnfs default)
2689#
2690# Since: 2.8
2691##
2692{ 'struct': 'BlockdevOptionsNfs',
2693  'data': { 'server': 'NFSServer',
2694            'path': 'str',
2695            '*user': 'int',
2696            '*group': 'int',
2697            '*tcp-syn-count': 'int',
2698            '*readahead-size': 'int',
2699            '*page-cache-size': 'int',
2700            '*debug': 'int' } }
2701
2702##
2703# @BlockdevOptionsCurl:
2704#
2705# Driver specific block device options for the curl backend.
2706#
2707# @filename:    path to the image file
2708#
2709# Since: 1.7
2710##
2711{ 'struct': 'BlockdevOptionsCurl',
2712  'data': { 'filename': 'str' } }
2713
2714##
2715# @BlockdevOptionsNbd:
2716#
2717# Driver specific block device options for NBD.
2718#
2719# @server:      NBD server address
2720#
2721# @export:      #optional export name
2722#
2723# @tls-creds:   #optional TLS credentials ID
2724#
2725# Since: 2.8
2726##
2727{ 'struct': 'BlockdevOptionsNbd',
2728  'data': { 'server': 'SocketAddress',
2729            '*export': 'str',
2730            '*tls-creds': 'str' } }
2731
2732##
2733# @BlockdevOptionsRaw:
2734#
2735# Driver specific block device options for the raw driver.
2736#
2737# @offset:      #optional position where the block device starts
2738# @size:        #optional the assumed size of the device
2739#
2740# Since: 2.8
2741##
2742{ 'struct': 'BlockdevOptionsRaw',
2743  'base': 'BlockdevOptionsGenericFormat',
2744  'data': { '*offset': 'int', '*size': 'int' } }
2745
2746##
2747# @BlockdevOptions:
2748#
2749# Options for creating a block device.  Many options are available for all
2750# block devices, independent of the block driver:
2751#
2752# @driver:        block driver name
2753# @node-name:     #optional the node name of the new node (Since 2.0).
2754#                 This option is required on the top level of blockdev-add.
2755# @discard:       #optional discard-related options (default: ignore)
2756# @cache:         #optional cache-related options
2757# @read-only:     #optional whether the block device should be read-only
2758#                 (default: false)
2759# @detect-zeroes: #optional detect and optimize zero writes (Since 2.1)
2760#                 (default: off)
2761#
2762# Remaining options are determined by the block driver.
2763#
2764# Since: 1.7
2765##
2766{ 'union': 'BlockdevOptions',
2767  'base': { 'driver': 'BlockdevDriver',
2768            '*node-name': 'str',
2769            '*discard': 'BlockdevDiscardOptions',
2770            '*cache': 'BlockdevCacheOptions',
2771            '*read-only': 'bool',
2772            '*detect-zeroes': 'BlockdevDetectZeroesOptions' },
2773  'discriminator': 'driver',
2774  'data': {
2775      'archipelago':'BlockdevOptionsArchipelago',
2776      'blkdebug':   'BlockdevOptionsBlkdebug',
2777      'blkverify':  'BlockdevOptionsBlkverify',
2778      'bochs':      'BlockdevOptionsGenericFormat',
2779      'cloop':      'BlockdevOptionsGenericFormat',
2780      'dmg':        'BlockdevOptionsGenericFormat',
2781      'file':       'BlockdevOptionsFile',
2782      'ftp':        'BlockdevOptionsCurl',
2783      'ftps':       'BlockdevOptionsCurl',
2784      'gluster':    'BlockdevOptionsGluster',
2785      'host_cdrom': 'BlockdevOptionsFile',
2786      'host_device':'BlockdevOptionsFile',
2787      'http':       'BlockdevOptionsCurl',
2788      'https':      'BlockdevOptionsCurl',
2789# TODO iscsi: Wait for structured options
2790      'luks':       'BlockdevOptionsLUKS',
2791      'nbd':        'BlockdevOptionsNbd',
2792      'nfs':        'BlockdevOptionsNfs',
2793      'null-aio':   'BlockdevOptionsNull',
2794      'null-co':    'BlockdevOptionsNull',
2795      'parallels':  'BlockdevOptionsGenericFormat',
2796      'qcow2':      'BlockdevOptionsQcow2',
2797      'qcow':       'BlockdevOptionsGenericCOWFormat',
2798      'qed':        'BlockdevOptionsGenericCOWFormat',
2799      'quorum':     'BlockdevOptionsQuorum',
2800      'raw':        'BlockdevOptionsRaw',
2801# TODO rbd: Wait for structured options
2802      'replication':'BlockdevOptionsReplication',
2803# TODO sheepdog: Wait for structured options
2804      'ssh':        'BlockdevOptionsSsh',
2805      'vdi':        'BlockdevOptionsGenericFormat',
2806      'vhdx':       'BlockdevOptionsGenericFormat',
2807      'vmdk':       'BlockdevOptionsGenericCOWFormat',
2808      'vpc':        'BlockdevOptionsGenericFormat',
2809      'vvfat':      'BlockdevOptionsVVFAT'
2810  } }
2811
2812##
2813# @BlockdevRef:
2814#
2815# Reference to a block device.
2816#
2817# @definition:      defines a new block device inline
2818# @reference:       references the ID of an existing block device. An
2819#                   empty string means that no block device should be
2820#                   referenced.
2821#
2822# Since: 1.7
2823##
2824{ 'alternate': 'BlockdevRef',
2825  'data': { 'definition': 'BlockdevOptions',
2826            'reference': 'str' } }
2827
2828##
2829# @blockdev-add:
2830#
2831# Creates a new block device. If the @id option is given at the top level, a
2832# BlockBackend will be created; otherwise, @node-name is mandatory at the top
2833# level and no BlockBackend will be created.
2834#
2835# For the arguments, see the documentation of BlockdevOptions.
2836#
2837# Note: This command is still a work in progress.  It doesn't support all
2838# block drivers among other things.  Stay away from it unless you want
2839# to help with its development.
2840#
2841# Since: 1.7
2842#
2843# Example:
2844#
2845# 1.
2846# -> { "execute": "blockdev-add",
2847#      "arguments": {
2848#          "options" : { "driver": "qcow2",
2849#                        "file": { "driver": "file",
2850#                                  "filename": "test.qcow2" } } } }
2851# <- { "return": {} }
2852#
2853# 2.
2854# -> { "execute": "blockdev-add",
2855#      "arguments": {
2856#          "options": {
2857#            "driver": "qcow2",
2858#            "node-name": "node0",
2859#            "discard": "unmap",
2860#            "cache": {
2861#                "direct": true,
2862#                "writeback": true
2863#            },
2864#            "file": {
2865#                "driver": "file",
2866#                "filename": "/tmp/test.qcow2"
2867#            },
2868#            "backing": {
2869#                "driver": "raw",
2870#                "file": {
2871#                    "driver": "file",
2872#                    "filename": "/dev/fdset/4"
2873#                }
2874#            }
2875#          }
2876#        }
2877#      }
2878#
2879# <- { "return": {} }
2880#
2881##
2882{ 'command': 'blockdev-add', 'data': 'BlockdevOptions', 'boxed': true }
2883
2884##
2885# @x-blockdev-del:
2886#
2887# Deletes a block device that has been added using blockdev-add.
2888# The command will fail if the node is attached to a device or is
2889# otherwise being used.
2890#
2891# @node-name: Name of the graph node to delete.
2892#
2893# Note: This command is still a work in progress and is considered
2894# experimental. Stay away from it unless you want to help with its
2895# development.
2896#
2897# Since: 2.5
2898#
2899# Example:
2900#
2901# -> { "execute": "blockdev-add",
2902#      "arguments": {
2903#          "options": {
2904#              "driver": "qcow2",
2905#              "node-name": "node0",
2906#              "file": {
2907#                  "driver": "file",
2908#                  "filename": "test.qcow2"
2909#              }
2910#          }
2911#      }
2912#    }
2913# <- { "return": {} }
2914#
2915# -> { "execute": "x-blockdev-del",
2916#      "arguments": { "node-name": "node0" }
2917#    }
2918# <- { "return": {} }
2919#
2920##
2921{ 'command': 'x-blockdev-del', 'data': { 'node-name': 'str' } }
2922
2923##
2924# @blockdev-open-tray:
2925#
2926# Opens a block device's tray. If there is a block driver state tree inserted as
2927# a medium, it will become inaccessible to the guest (but it will remain
2928# associated to the block device, so closing the tray will make it accessible
2929# again).
2930#
2931# If the tray was already open before, this will be a no-op.
2932#
2933# Once the tray opens, a DEVICE_TRAY_MOVED event is emitted. There are cases in
2934# which no such event will be generated, these include:
2935# - if the guest has locked the tray, @force is false and the guest does not
2936#   respond to the eject request
2937# - if the BlockBackend denoted by @device does not have a guest device attached
2938#   to it
2939# - if the guest device does not have an actual tray
2940#
2941# @device: #optional Block device name (deprecated, use @id instead)
2942#
2943# @id:     #optional The name or QOM path of the guest device (since: 2.8)
2944#
2945# @force:  #optional if false (the default), an eject request will be sent to
2946#          the guest if it has locked the tray (and the tray will not be opened
2947#          immediately); if true, the tray will be opened regardless of whether
2948#          it is locked
2949#
2950# Since: 2.5
2951#
2952# Example:
2953#
2954# -> { "execute": "blockdev-open-tray",
2955#      "arguments": { "id": "ide0-1-0" } }
2956#
2957# <- { "timestamp": { "seconds": 1418751016,
2958#                     "microseconds": 716996 },
2959#      "event": "DEVICE_TRAY_MOVED",
2960#      "data": { "device": "ide1-cd0",
2961#                "id": "ide0-1-0",
2962#                "tray-open": true } }
2963#
2964# <- { "return": {} }
2965#
2966##
2967{ 'command': 'blockdev-open-tray',
2968  'data': { '*device': 'str',
2969            '*id': 'str',
2970            '*force': 'bool' } }
2971
2972##
2973# @blockdev-close-tray:
2974#
2975# Closes a block device's tray. If there is a block driver state tree associated
2976# with the block device (which is currently ejected), that tree will be loaded
2977# as the medium.
2978#
2979# If the tray was already closed before, this will be a no-op.
2980#
2981# @device:  #optional Block device name (deprecated, use @id instead)
2982#
2983# @id:      #optional The name or QOM path of the guest device (since: 2.8)
2984#
2985# Since: 2.5
2986#
2987# Example:
2988#
2989# -> { "execute": "blockdev-close-tray",
2990#      "arguments": { "id": "ide0-1-0" } }
2991#
2992# <- { "timestamp": { "seconds": 1418751345,
2993#                     "microseconds": 272147 },
2994#      "event": "DEVICE_TRAY_MOVED",
2995#      "data": { "device": "ide1-cd0",
2996#                "id": "ide0-1-0",
2997#                "tray-open": false } }
2998#
2999# <- { "return": {} }
3000#
3001##
3002{ 'command': 'blockdev-close-tray',
3003  'data': { '*device': 'str',
3004            '*id': 'str' } }
3005
3006##
3007# @x-blockdev-remove-medium:
3008#
3009# Removes a medium (a block driver state tree) from a block device. That block
3010# device's tray must currently be open (unless there is no attached guest
3011# device).
3012#
3013# If the tray is open and there is no medium inserted, this will be a no-op.
3014#
3015# @device: #optional Block device name (deprecated, use @id instead)
3016#
3017# @id:     #optional The name or QOM path of the guest device (since: 2.8)
3018#
3019# Note: This command is still a work in progress and is considered experimental.
3020# Stay away from it unless you want to help with its development.
3021#
3022# Since: 2.5
3023#
3024# Example:
3025#
3026# -> { "execute": "x-blockdev-remove-medium",
3027#      "arguments": { "id": "ide0-1-0" } }
3028#
3029# <- { "error": { "class": "GenericError",
3030#                 "desc": "Tray of device 'ide0-1-0' is not open" } }
3031#
3032# -> { "execute": "blockdev-open-tray",
3033#      "arguments": { "id": "ide0-1-0" } }
3034#
3035# <- { "timestamp": { "seconds": 1418751627,
3036#                     "microseconds": 549958 },
3037#      "event": "DEVICE_TRAY_MOVED",
3038#      "data": { "device": "ide1-cd0",
3039#                "id": "ide0-1-0",
3040#                "tray-open": true } }
3041#
3042# <- { "return": {} }
3043#
3044# -> { "execute": "x-blockdev-remove-medium",
3045#      "arguments": { "device": "ide0-1-0" } }
3046#
3047# <- { "return": {} }
3048#
3049##
3050{ 'command': 'x-blockdev-remove-medium',
3051  'data': { '*device': 'str',
3052            '*id': 'str' } }
3053
3054##
3055# @x-blockdev-insert-medium:
3056#
3057# Inserts a medium (a block driver state tree) into a block device. That block
3058# device's tray must currently be open (unless there is no attached guest
3059# device) and there must be no medium inserted already.
3060#
3061# @device:    #optional Block device name (deprecated, use @id instead)
3062#
3063# @id:        #optional The name or QOM path of the guest device (since: 2.8)
3064#
3065# @node-name: name of a node in the block driver state graph
3066#
3067# Note: This command is still a work in progress and is considered experimental.
3068# Stay away from it unless you want to help with its development.
3069#
3070# Since: 2.5
3071#
3072# Example:
3073#
3074# -> { "execute": "blockdev-add",
3075#      "arguments": {
3076#          "options": { "node-name": "node0",
3077#                       "driver": "raw",
3078#                       "file": { "driver": "file",
3079#                                 "filename": "fedora.iso" } } } }
3080# <- { "return": {} }
3081#
3082# -> { "execute": "x-blockdev-insert-medium",
3083#      "arguments": { "id": "ide0-1-0",
3084#                     "node-name": "node0" } }
3085#
3086# <- { "return": {} }
3087#
3088##
3089{ 'command': 'x-blockdev-insert-medium',
3090  'data': { '*device': 'str',
3091            '*id': 'str',
3092            'node-name': 'str'} }
3093
3094
3095##
3096# @BlockdevChangeReadOnlyMode:
3097#
3098# Specifies the new read-only mode of a block device subject to the
3099# @blockdev-change-medium command.
3100#
3101# @retain:      Retains the current read-only mode
3102#
3103# @read-only:   Makes the device read-only
3104#
3105# @read-write:  Makes the device writable
3106#
3107# Since: 2.3
3108#
3109##
3110{ 'enum': 'BlockdevChangeReadOnlyMode',
3111  'data': ['retain', 'read-only', 'read-write'] }
3112
3113
3114##
3115# @blockdev-change-medium:
3116#
3117# Changes the medium inserted into a block device by ejecting the current medium
3118# and loading a new image file which is inserted as the new medium (this command
3119# combines blockdev-open-tray, x-blockdev-remove-medium,
3120# x-blockdev-insert-medium and blockdev-close-tray).
3121#
3122# @device:          #optional Block device name (deprecated, use @id instead)
3123#
3124# @id:              #optional The name or QOM path of the guest device
3125#                   (since: 2.8)
3126#
3127# @filename:        filename of the new image to be loaded
3128#
3129# @format:          #optional, format to open the new image with (defaults to
3130#                   the probed format)
3131#
3132# @read-only-mode:  #optional, change the read-only mode of the device; defaults
3133#                   to 'retain'
3134#
3135# Since: 2.5
3136#
3137# Examples:
3138#
3139# 1. Change a removable medium
3140#
3141# -> { "execute": "blockdev-change-medium",
3142#      "arguments": { "id": "ide0-1-0",
3143#                     "filename": "/srv/images/Fedora-12-x86_64-DVD.iso",
3144#                     "format": "raw" } }
3145# <- { "return": {} }
3146#
3147# 2. Load a read-only medium into a writable drive
3148#
3149# -> { "execute": "blockdev-change-medium",
3150#      "arguments": { "id": "floppyA",
3151#                     "filename": "/srv/images/ro.img",
3152#                     "format": "raw",
3153#                     "read-only-mode": "retain" } }
3154#
3155# <- { "error":
3156#      { "class": "GenericError",
3157#        "desc": "Could not open '/srv/images/ro.img': Permission denied" } }
3158#
3159# -> { "execute": "blockdev-change-medium",
3160#      "arguments": { "id": "floppyA",
3161#                     "filename": "/srv/images/ro.img",
3162#                     "format": "raw",
3163#                     "read-only-mode": "read-only" } }
3164#
3165# <- { "return": {} }
3166#
3167##
3168{ 'command': 'blockdev-change-medium',
3169  'data': { '*device': 'str',
3170            '*id': 'str',
3171            'filename': 'str',
3172            '*format': 'str',
3173            '*read-only-mode': 'BlockdevChangeReadOnlyMode' } }
3174
3175
3176##
3177# @BlockErrorAction:
3178#
3179# An enumeration of action that has been taken when a DISK I/O occurs
3180#
3181# @ignore: error has been ignored
3182#
3183# @report: error has been reported to the device
3184#
3185# @stop: error caused VM to be stopped
3186#
3187# Since: 2.1
3188##
3189{ 'enum': 'BlockErrorAction',
3190  'data': [ 'ignore', 'report', 'stop' ] }
3191
3192
3193##
3194# @BLOCK_IMAGE_CORRUPTED:
3195#
3196# Emitted when a disk image is being marked corrupt. The image can be
3197# identified by its device or node name. The 'device' field is always
3198# present for compatibility reasons, but it can be empty ("") if the
3199# image does not have a device name associated.
3200#
3201# @device: device name. This is always present for compatibility
3202#          reasons, but it can be empty ("") if the image does not
3203#          have a device name associated.
3204#
3205# @node-name: #optional node name (Since: 2.4)
3206#
3207# @msg: informative message for human consumption, such as the kind of
3208#       corruption being detected. It should not be parsed by machine as it is
3209#       not guaranteed to be stable
3210#
3211# @offset: #optional, if the corruption resulted from an image access, this is
3212#          the host's access offset into the image
3213#
3214# @size: #optional, if the corruption resulted from an image access, this is
3215#        the access size
3216#
3217# @fatal: if set, the image is marked corrupt and therefore unusable after this
3218#        event and must be repaired (Since 2.2; before, every
3219#        BLOCK_IMAGE_CORRUPTED event was fatal)
3220#
3221# Note: If action is "stop", a STOP event will eventually follow the
3222#       BLOCK_IO_ERROR event.
3223#
3224# Example:
3225#
3226# <- { "event": "BLOCK_IMAGE_CORRUPTED",
3227#      "data": { "device": "ide0-hd0", "node-name": "node0",
3228#                "msg": "Prevented active L1 table overwrite", "offset": 196608,
3229#                "size": 65536 },
3230#      "timestamp": { "seconds": 1378126126, "microseconds": 966463 } }
3231#
3232# Since: 1.7
3233##
3234{ 'event': 'BLOCK_IMAGE_CORRUPTED',
3235  'data': { 'device'     : 'str',
3236            '*node-name' : 'str',
3237            'msg'        : 'str',
3238            '*offset'    : 'int',
3239            '*size'      : 'int',
3240            'fatal'      : 'bool' } }
3241
3242##
3243# @BLOCK_IO_ERROR:
3244#
3245# Emitted when a disk I/O error occurs
3246#
3247# @device: device name. This is always present for compatibility
3248#          reasons, but it can be empty ("") if the image does not
3249#          have a device name associated.
3250#
3251# @node-name: node name. Note that errors may be reported for the root node
3252#             that is directly attached to a guest device rather than for the
3253#             node where the error occurred. (Since: 2.8)
3254#
3255# @operation: I/O operation
3256#
3257# @action: action that has been taken
3258#
3259# @nospace: #optional true if I/O error was caused due to a no-space
3260#           condition. This key is only present if query-block's
3261#           io-status is present, please see query-block documentation
3262#           for more information (since: 2.2)
3263#
3264# @reason: human readable string describing the error cause.
3265#          (This field is a debugging aid for humans, it should not
3266#           be parsed by applications) (since: 2.2)
3267#
3268# Note: If action is "stop", a STOP event will eventually follow the
3269# BLOCK_IO_ERROR event
3270#
3271# Since: 0.13.0
3272#
3273# Example:
3274#
3275# <- { "event": "BLOCK_IO_ERROR",
3276#      "data": { "device": "ide0-hd1",
3277#                "node-name": "#block212",
3278#                "operation": "write",
3279#                "action": "stop" },
3280#      "timestamp": { "seconds": 1265044230, "microseconds": 450486 } }
3281#
3282##
3283{ 'event': 'BLOCK_IO_ERROR',
3284  'data': { 'device': 'str', 'node-name': 'str', 'operation': 'IoOperationType',
3285            'action': 'BlockErrorAction', '*nospace': 'bool',
3286            'reason': 'str' } }
3287
3288##
3289# @BLOCK_JOB_COMPLETED:
3290#
3291# Emitted when a block job has completed
3292#
3293# @type: job type
3294#
3295# @device: The job identifier. Originally the device name but other
3296#          values are allowed since QEMU 2.7
3297#
3298# @len: maximum progress value
3299#
3300# @offset: current progress value. On success this is equal to len.
3301#          On failure this is less than len
3302#
3303# @speed: rate limit, bytes per second
3304#
3305# @error: #optional, error message. Only present on failure. This field
3306#         contains a human-readable error message. There are no semantics
3307#         other than that streaming has failed and clients should not try to
3308#         interpret the error string
3309#
3310# Since: 1.1
3311#
3312# Example:
3313#
3314# <- { "event": "BLOCK_JOB_COMPLETED",
3315#      "data": { "type": "stream", "device": "virtio-disk0",
3316#                "len": 10737418240, "offset": 10737418240,
3317#                "speed": 0 },
3318#      "timestamp": { "seconds": 1267061043, "microseconds": 959568 } }
3319#
3320##
3321{ 'event': 'BLOCK_JOB_COMPLETED',
3322  'data': { 'type'  : 'BlockJobType',
3323            'device': 'str',
3324            'len'   : 'int',
3325            'offset': 'int',
3326            'speed' : 'int',
3327            '*error': 'str' } }
3328
3329##
3330# @BLOCK_JOB_CANCELLED:
3331#
3332# Emitted when a block job has been cancelled
3333#
3334# @type: job type
3335#
3336# @device: The job identifier. Originally the device name but other
3337#          values are allowed since QEMU 2.7
3338#
3339# @len: maximum progress value
3340#
3341# @offset: current progress value. On success this is equal to len.
3342#          On failure this is less than len
3343#
3344# @speed: rate limit, bytes per second
3345#
3346# Since: 1.1
3347#
3348# Example:
3349#
3350# <- { "event": "BLOCK_JOB_CANCELLED",
3351#      "data": { "type": "stream", "device": "virtio-disk0",
3352#                "len": 10737418240, "offset": 134217728,
3353#                "speed": 0 },
3354#      "timestamp": { "seconds": 1267061043, "microseconds": 959568 } }
3355#
3356##
3357{ 'event': 'BLOCK_JOB_CANCELLED',
3358  'data': { 'type'  : 'BlockJobType',
3359            'device': 'str',
3360            'len'   : 'int',
3361            'offset': 'int',
3362            'speed' : 'int' } }
3363
3364##
3365# @BLOCK_JOB_ERROR:
3366#
3367# Emitted when a block job encounters an error
3368#
3369# @device: The job identifier. Originally the device name but other
3370#          values are allowed since QEMU 2.7
3371#
3372# @operation: I/O operation
3373#
3374# @action: action that has been taken
3375#
3376# Since: 1.3
3377#
3378# Example:
3379#
3380# <- { "event": "BLOCK_JOB_ERROR",
3381#      "data": { "device": "ide0-hd1",
3382#                "operation": "write",
3383#                "action": "stop" },
3384#      "timestamp": { "seconds": 1265044230, "microseconds": 450486 } }
3385#
3386##
3387{ 'event': 'BLOCK_JOB_ERROR',
3388  'data': { 'device'   : 'str',
3389            'operation': 'IoOperationType',
3390            'action'   : 'BlockErrorAction' } }
3391
3392##
3393# @BLOCK_JOB_READY:
3394#
3395# Emitted when a block job is ready to complete
3396#
3397# @type: job type
3398#
3399# @device: The job identifier. Originally the device name but other
3400#          values are allowed since QEMU 2.7
3401#
3402# @len: maximum progress value
3403#
3404# @offset: current progress value. On success this is equal to len.
3405#          On failure this is less than len
3406#
3407# @speed: rate limit, bytes per second
3408#
3409# Note: The "ready to complete" status is always reset by a @BLOCK_JOB_ERROR
3410# event
3411#
3412# Since: 1.3
3413#
3414# Example:
3415#
3416# <- { "event": "BLOCK_JOB_READY",
3417#      "data": { "device": "drive0", "type": "mirror", "speed": 0,
3418#                "len": 2097152, "offset": 2097152 }
3419#      "timestamp": { "seconds": 1265044230, "microseconds": 450486 } }
3420#
3421##
3422{ 'event': 'BLOCK_JOB_READY',
3423  'data': { 'type'  : 'BlockJobType',
3424            'device': 'str',
3425            'len'   : 'int',
3426            'offset': 'int',
3427            'speed' : 'int' } }
3428
3429##
3430# @PreallocMode:
3431#
3432# Preallocation mode of QEMU image file
3433#
3434# @off: no preallocation
3435# @metadata: preallocate only for metadata
3436# @falloc: like @full preallocation but allocate disk space by
3437#          posix_fallocate() rather than writing zeros.
3438# @full: preallocate all data by writing zeros to device to ensure disk
3439#        space is really available. @full preallocation also sets up
3440#        metadata correctly.
3441#
3442# Since: 2.2
3443##
3444{ 'enum': 'PreallocMode',
3445  'data': [ 'off', 'metadata', 'falloc', 'full' ] }
3446
3447##
3448# @BLOCK_WRITE_THRESHOLD:
3449#
3450# Emitted when writes on block device reaches or exceeds the
3451# configured write threshold. For thin-provisioned devices, this
3452# means the device should be extended to avoid pausing for
3453# disk exhaustion.
3454# The event is one shot. Once triggered, it needs to be
3455# re-registered with another block-set-threshold command.
3456#
3457# @node-name: graph node name on which the threshold was exceeded.
3458#
3459# @amount-exceeded: amount of data which exceeded the threshold, in bytes.
3460#
3461# @write-threshold: last configured threshold, in bytes.
3462#
3463# Since: 2.3
3464##
3465{ 'event': 'BLOCK_WRITE_THRESHOLD',
3466  'data': { 'node-name': 'str',
3467            'amount-exceeded': 'uint64',
3468            'write-threshold': 'uint64' } }
3469
3470##
3471# @block-set-write-threshold:
3472#
3473# Change the write threshold for a block drive. An event will be
3474# delivered if a write to this block drive crosses the configured
3475# threshold.  The threshold is an offset, thus must be
3476# non-negative. Default is no write threshold. Setting the threshold
3477# to zero disables it.
3478#
3479# This is useful to transparently resize thin-provisioned drives without
3480# the guest OS noticing.
3481#
3482# @node-name: graph node name on which the threshold must be set.
3483#
3484# @write-threshold: configured threshold for the block device, bytes.
3485#                   Use 0 to disable the threshold.
3486#
3487# Since: 2.3
3488#
3489# Example:
3490#
3491# -> { "execute": "block-set-write-threshold",
3492#      "arguments": { "node-name": "mydev",
3493#                     "write-threshold": 17179869184 } }
3494# <- { "return": {} }
3495#
3496##
3497{ 'command': 'block-set-write-threshold',
3498  'data': { 'node-name': 'str', 'write-threshold': 'uint64' } }
3499
3500##
3501# @x-blockdev-change:
3502#
3503# Dynamically reconfigure the block driver state graph. It can be used
3504# to add, remove, insert or replace a graph node. Currently only the
3505# Quorum driver implements this feature to add or remove its child. This
3506# is useful to fix a broken quorum child.
3507#
3508# If @node is specified, it will be inserted under @parent. @child
3509# may not be specified in this case. If both @parent and @child are
3510# specified but @node is not, @child will be detached from @parent.
3511#
3512# @parent: the id or name of the parent node.
3513#
3514# @child: #optional the name of a child under the given parent node.
3515#
3516# @node: #optional the name of the node that will be added.
3517#
3518# Note: this command is experimental, and its API is not stable. It
3519# does not support all kinds of operations, all kinds of children, nor
3520# all block drivers.
3521#
3522# Warning: The data in a new quorum child MUST be consistent with that of
3523# the rest of the array.
3524#
3525# Since: 2.7
3526#
3527# Example:
3528#
3529# 1. Add a new node to a quorum
3530# -> { "execute": "blockdev-add",
3531#      "arguments": {
3532#          "options": { "driver": "raw",
3533#                       "node-name": "new_node",
3534#                        "file": { "driver": "file",
3535#                                  "filename": "test.raw" } } } }
3536# <- { "return": {} }
3537# -> { "execute": "x-blockdev-change",
3538#      "arguments": { "parent": "disk1",
3539#                     "node": "new_node" } }
3540# <- { "return": {} }
3541#
3542# 2. Delete a quorum's node
3543# -> { "execute": "x-blockdev-change",
3544#      "arguments": { "parent": "disk1",
3545#                     "child": "children.1" } }
3546# <- { "return": {} }
3547#
3548##
3549{ 'command': 'x-blockdev-change',
3550  'data' : { 'parent': 'str',
3551             '*child': 'str',
3552             '*node': 'str' } }
3553