xref: /openbmc/qemu/qapi/block.json (revision 429d3ae2)
1# -*- Mode: Python -*-
2
3##
4# = Block devices
5##
6
7{ 'include': 'block-core.json' }
8
9##
10# == Additional block stuff (VM related)
11##
12
13##
14# @BiosAtaTranslation:
15#
16# Policy that BIOS should use to interpret cylinder/head/sector
17# addresses.  Note that Bochs BIOS and SeaBIOS will not actually
18# translate logical CHS to physical; instead, they will use logical
19# block addressing.
20#
21# @auto: If cylinder/heads/sizes are passed, choose between none and LBA
22#        depending on the size of the disk.  If they are not passed,
23#        choose none if QEMU can guess that the disk had 16 or fewer
24#        heads, large if QEMU can guess that the disk had 131072 or
25#        fewer tracks across all heads (i.e. cylinders*heads<131072),
26#        otherwise LBA.
27#
28# @none: The physical disk geometry is equal to the logical geometry.
29#
30# @lba: Assume 63 sectors per track and one of 16, 32, 64, 128 or 255
31#       heads (if fewer than 255 are enough to cover the whole disk
32#       with 1024 cylinders/head).  The number of cylinders/head is
33#       then computed based on the number of sectors and heads.
34#
35# @large: The number of cylinders per head is scaled down to 1024
36#         by correspondingly scaling up the number of heads.
37#
38# @rechs: Same as @large, but first convert a 16-head geometry to
39#         15-head, by proportionally scaling up the number of
40#         cylinders/head.
41#
42# Since: 2.0
43##
44{ 'enum': 'BiosAtaTranslation',
45  'data': ['auto', 'none', 'lba', 'large', 'rechs']}
46
47##
48# @FloppyDriveType:
49#
50# Type of Floppy drive to be emulated by the Floppy Disk Controller.
51#
52# @144:  1.44MB 3.5" drive
53# @288:  2.88MB 3.5" drive
54# @120:  1.2MB 5.25" drive
55# @none: No drive connected
56# @auto: Automatically determined by inserted media at boot
57#
58# Since: 2.6
59##
60{ 'enum': 'FloppyDriveType',
61  'data': ['144', '288', '120', 'none', 'auto']}
62
63##
64# @BlockdevSnapshotInternal:
65#
66# @device: the device name or node-name of a root node to generate the snapshot
67#          from
68#
69# @name: the name of the internal snapshot to be created
70#
71# Notes: In transaction, if @name is empty, or any snapshot matching @name
72#        exists, the operation will fail. Only some image formats support it,
73#        for example, qcow2, rbd, and sheepdog.
74#
75# Since: 1.7
76##
77{ 'struct': 'BlockdevSnapshotInternal',
78  'data': { 'device': 'str', 'name': 'str' } }
79
80##
81# @PRManagerInfo:
82#
83# Information about a persistent reservation manager
84#
85# @id: the identifier of the persistent reservation manager
86#
87# @connected: true if the persistent reservation manager is connected to
88#             the underlying storage or helper
89#
90# Since: 3.0
91##
92{ 'struct': 'PRManagerInfo',
93  'data': {'id': 'str', 'connected': 'bool'} }
94
95##
96# @query-pr-managers:
97#
98# Returns a list of information about each persistent reservation manager.
99#
100# Returns: a list of @PRManagerInfo for each persistent reservation manager
101#
102# Since: 3.0
103##
104{ 'command': 'query-pr-managers', 'returns': ['PRManagerInfo'],
105  'allow-preconfig': true }
106
107
108##
109# @blockdev-snapshot-internal-sync:
110#
111# Synchronously take an internal snapshot of a block device, when the
112# format of the image used supports it. If the name is an empty
113# string, or a snapshot with name already exists, the operation will
114# fail.
115#
116# For the arguments, see the documentation of BlockdevSnapshotInternal.
117#
118# Returns: nothing on success
119#
120#          If @device is not a valid block device, GenericError
121#
122#          If any snapshot matching @name exists, or @name is empty,
123#          GenericError
124#
125#          If the format of the image used does not support it,
126#          BlockFormatFeatureNotSupported
127#
128# Since: 1.7
129#
130# Example:
131#
132# -> { "execute": "blockdev-snapshot-internal-sync",
133#      "arguments": { "device": "ide-hd0",
134#                     "name": "snapshot0" }
135#    }
136# <- { "return": {} }
137#
138##
139{ 'command': 'blockdev-snapshot-internal-sync',
140  'data': 'BlockdevSnapshotInternal' }
141
142##
143# @blockdev-snapshot-delete-internal-sync:
144#
145# Synchronously delete an internal snapshot of a block device, when the format
146# of the image used support it. The snapshot is identified by name or id or
147# both. One of the name or id is required. Return SnapshotInfo for the
148# successfully deleted snapshot.
149#
150# @device: the device name or node-name of a root node to delete the snapshot
151#          from
152#
153# @id: optional the snapshot's ID to be deleted
154#
155# @name: optional the snapshot's name to be deleted
156#
157# Returns: SnapshotInfo on success
158#          If @device is not a valid block device, GenericError
159#          If snapshot not found, GenericError
160#          If the format of the image used does not support it,
161#          BlockFormatFeatureNotSupported
162#          If @id and @name are both not specified, GenericError
163#
164# Since: 1.7
165#
166# Example:
167#
168# -> { "execute": "blockdev-snapshot-delete-internal-sync",
169#      "arguments": { "device": "ide-hd0",
170#                     "name": "snapshot0" }
171#    }
172# <- { "return": {
173#                    "id": "1",
174#                    "name": "snapshot0",
175#                    "vm-state-size": 0,
176#                    "date-sec": 1000012,
177#                    "date-nsec": 10,
178#                    "vm-clock-sec": 100,
179#                    "vm-clock-nsec": 20
180#      }
181#    }
182#
183##
184{ 'command': 'blockdev-snapshot-delete-internal-sync',
185  'data': { 'device': 'str', '*id': 'str', '*name': 'str'},
186  'returns': 'SnapshotInfo' }
187
188##
189# @eject:
190#
191# Ejects a device from a removable drive.
192#
193# @device:  Block device name (deprecated, use @id instead)
194#
195# @id:      The name or QOM path of the guest device (since: 2.8)
196#
197# @force:   If true, eject regardless of whether the drive is locked.
198#           If not specified, the default value is false.
199#
200# Returns:  Nothing on success
201#
202#           If @device is not a valid block device, DeviceNotFound
203#
204# Notes:    Ejecting a device with no media results in success
205#
206# Since: 0.14.0
207#
208# Example:
209#
210# -> { "execute": "eject", "arguments": { "id": "ide1-0-1" } }
211# <- { "return": {} }
212##
213{ 'command': 'eject',
214  'data': { '*device': 'str',
215            '*id': 'str',
216            '*force': 'bool' } }
217
218##
219# @nbd-server-start:
220#
221# Start an NBD server listening on the given host and port.  Block
222# devices can then be exported using @nbd-server-add.  The NBD
223# server will present them as named exports; for example, another
224# QEMU instance could refer to them as "nbd:HOST:PORT:exportname=NAME".
225#
226# @addr: Address on which to listen.
227# @tls-creds: (optional) ID of the TLS credentials object. Since 2.6
228#
229# Returns: error if the server is already running.
230#
231# Since: 1.3.0
232##
233{ 'command': 'nbd-server-start',
234  'data': { 'addr': 'SocketAddressLegacy',
235            '*tls-creds': 'str'} }
236
237##
238# @nbd-server-add:
239#
240# Export a block node to QEMU's embedded NBD server.
241#
242# @device: The device name or node name of the node to be exported
243#
244# @name: Export name. If unspecified, the @device parameter is used as the
245#        export name. (Since 2.12)
246#
247# @writable: Whether clients should be able to write to the device via the
248#     NBD connection (default false).
249#
250# Returns: error if the server is not running, or export with the same name
251#          already exists.
252#
253# Since: 1.3.0
254##
255{ 'command': 'nbd-server-add',
256  'data': {'device': 'str', '*name': 'str', '*writable': 'bool'} }
257
258##
259# @NbdServerRemoveMode:
260#
261# Mode for removing an NBD export.
262#
263# @safe: Remove export if there are no existing connections, fail otherwise.
264#
265# @hard: Drop all connections immediately and remove export.
266#
267# Potential additional modes to be added in the future:
268#
269# hide: Just hide export from new clients, leave existing connections as is.
270#       Remove export after all clients are disconnected.
271#
272# soft: Hide export from new clients, answer with ESHUTDOWN for all further
273#       requests from existing clients.
274#
275# Since: 2.12
276##
277{'enum': 'NbdServerRemoveMode', 'data': ['safe', 'hard']}
278
279##
280# @nbd-server-remove:
281#
282# Remove NBD export by name.
283#
284# @name: Export name.
285#
286# @mode: Mode of command operation. See @NbdServerRemoveMode description.
287#        Default is 'safe'.
288#
289# Returns: error if
290#            - the server is not running
291#            - export is not found
292#            - mode is 'safe' and there are existing connections
293#
294# Since: 2.12
295##
296{ 'command': 'nbd-server-remove',
297  'data': {'name': 'str', '*mode': 'NbdServerRemoveMode'} }
298
299##
300# @x-nbd-server-add-bitmap:
301#
302# Expose a dirty bitmap associated with the selected export. The bitmap search
303# starts at the device attached to the export, and includes all backing files.
304# The exported bitmap is then locked until the NBD export is removed.
305#
306# @name: Export name.
307#
308# @bitmap: Bitmap name to search for.
309#
310# @bitmap-export-name: How the bitmap will be seen by nbd clients
311#                      (default @bitmap)
312#
313# Note: the client must use NBD_OPT_SET_META_CONTEXT with a query of
314# "qemu:dirty-bitmap:NAME" (where NAME matches @bitmap-export-name) to access
315# the exposed bitmap.
316#
317# Since: 3.0
318##
319  { 'command': 'x-nbd-server-add-bitmap',
320    'data': {'name': 'str', 'bitmap': 'str', '*bitmap-export-name': 'str'} }
321
322##
323# @nbd-server-stop:
324#
325# Stop QEMU's embedded NBD server, and unregister all devices previously
326# added via @nbd-server-add.
327#
328# Since: 1.3.0
329##
330{ 'command': 'nbd-server-stop' }
331
332##
333# @DEVICE_TRAY_MOVED:
334#
335# Emitted whenever the tray of a removable device is moved by the guest or by
336# HMP/QMP commands
337#
338# @device: Block device name. This is always present for compatibility
339#          reasons, but it can be empty ("") if the image does not
340#          have a device name associated.
341#
342# @id: The name or QOM path of the guest device (since 2.8)
343#
344# @tray-open: true if the tray has been opened or false if it has been closed
345#
346# Since: 1.1
347#
348# Example:
349#
350# <- { "event": "DEVICE_TRAY_MOVED",
351#      "data": { "device": "ide1-cd0",
352#                "id": "/machine/unattached/device[22]",
353#                "tray-open": true
354#      },
355#      "timestamp": { "seconds": 1265044230, "microseconds": 450486 } }
356#
357##
358{ 'event': 'DEVICE_TRAY_MOVED',
359  'data': { 'device': 'str', 'id': 'str', 'tray-open': 'bool' } }
360
361##
362# @PR_MANAGER_STATUS_CHANGED:
363#
364# Emitted whenever the connected status of a persistent reservation
365# manager changes.
366#
367# @id: The id of the PR manager object
368#
369# @connected: true if the PR manager is connected to a backend
370#
371# Since: 3.0
372#
373# Example:
374#
375# <- { "event": "PR_MANAGER_STATUS_CHANGED",
376#      "data": { "id": "pr-helper0",
377#                "connected": true
378#      },
379#      "timestamp": { "seconds": 1519840375, "microseconds": 450486 } }
380#
381##
382{ 'event': 'PR_MANAGER_STATUS_CHANGED',
383  'data': { 'id': 'str', 'connected': 'bool' } }
384
385##
386# @QuorumOpType:
387#
388# An enumeration of the quorum operation types
389#
390# @read: read operation
391#
392# @write: write operation
393#
394# @flush: flush operation
395#
396# Since: 2.6
397##
398{ 'enum': 'QuorumOpType',
399  'data': [ 'read', 'write', 'flush' ] }
400
401##
402# @QUORUM_FAILURE:
403#
404# Emitted by the Quorum block driver if it fails to establish a quorum
405#
406# @reference: device name if defined else node name
407#
408# @sector-num: number of the first sector of the failed read operation
409#
410# @sectors-count: failed read operation sector count
411#
412# Note: This event is rate-limited.
413#
414# Since: 2.0
415#
416# Example:
417#
418# <- { "event": "QUORUM_FAILURE",
419#      "data": { "reference": "usr1", "sector-num": 345435, "sectors-count": 5 },
420#      "timestamp": { "seconds": 1344522075, "microseconds": 745528 } }
421#
422##
423{ 'event': 'QUORUM_FAILURE',
424  'data': { 'reference': 'str', 'sector-num': 'int', 'sectors-count': 'int' } }
425
426##
427# @QUORUM_REPORT_BAD:
428#
429# Emitted to report a corruption of a Quorum file
430#
431# @type: quorum operation type (Since 2.6)
432#
433# @error: error message. Only present on failure. This field
434#         contains a human-readable error message. There are no semantics other
435#         than that the block layer reported an error and clients should not
436#         try to interpret the error string.
437#
438# @node-name: the graph node name of the block driver state
439#
440# @sector-num: number of the first sector of the failed read operation
441#
442# @sectors-count: failed read operation sector count
443#
444# Note: This event is rate-limited.
445#
446# Since: 2.0
447#
448# Example:
449#
450# 1. Read operation
451#
452# { "event": "QUORUM_REPORT_BAD",
453#      "data": { "node-name": "node0", "sector-num": 345435, "sectors-count": 5,
454#                "type": "read" },
455#      "timestamp": { "seconds": 1344522075, "microseconds": 745528 } }
456#
457# 2. Flush operation
458#
459# { "event": "QUORUM_REPORT_BAD",
460#      "data": { "node-name": "node0", "sector-num": 0, "sectors-count": 2097120,
461#                "type": "flush", "error": "Broken pipe" },
462#      "timestamp": { "seconds": 1456406829, "microseconds": 291763 } }
463#
464##
465{ 'event': 'QUORUM_REPORT_BAD',
466  'data': { 'type': 'QuorumOpType', '*error': 'str', 'node-name': 'str',
467            'sector-num': 'int', 'sectors-count': 'int' } }
468